13 files changed, 44284 insertions, 0 deletions

diff --git a/libs/assimp/scripts/StepImporter/CppGenerator.py b/libs/assimp/scripts/StepImporter/CppGenerator.py
new file mode 100644
index 0000000..b6c8ed5
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/CppGenerator.py
@@ -0,0 +1,304 @@
+#!/usr/bin/env python3
+# -*- Coding: UTF-8 -*-
+
+# ---------------------------------------------------------------------------
+# Open Asset Import Library (ASSIMP)
+# ---------------------------------------------------------------------------
+#
+# Copyright (c) 2006-2020, ASSIMP Development Team
+#
+# All rights reserved.
+#
+# Redistribution and use of this software in source and binary forms, 
+# with or without modification, are permitted provided that the following 
+# conditions are met:
+# 
+# * Redistributions of source code must retain the above
+#   copyright notice, this list of conditions and the
+#   following disclaimer.
+# 
+# * Redistributions in binary form must reproduce the above
+#   copyright notice, this list of conditions and the
+#   following disclaimer in the documentation and/or other
+#   materials provided with the distribution.
+# 
+# * Neither the name of the ASSIMP team, nor the names of its
+#   contributors may be used to endorse or promote products
+#   derived from this software without specific prior
+#   written permission of the ASSIMP Development Team.
+# 
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+# ---------------------------------------------------------------------------
+
+"""Generate the C++ glue code needed to map EXPRESS to C++"""
+
+import sys, os, re
+
+if sys.version_info < (3, 0):
+    print("must use python 3.0 or greater")
+    sys.exit(-2)
+
+use_ifc_template = False
+	
+input_step_template_h   = 'StepReaderGen.h.template'
+input_step_template_cpp = 'StepReaderGen.cpp.template'
+input_ifc_template_h    = 'IFCReaderGen.h.template'
+input_ifc_template_cpp  = 'IFCReaderGen.cpp.template'
+
+cpp_keywords = "class"
+
+output_file_h = ""
+output_file_cpp = ""
+if (use_ifc_template ):
+    input_template_h = input_ifc_template_h
+    input_template_cpp = input_ifc_template_cpp
+    output_file_h = os.path.join('..','..','code','IFCReaderGen.h')
+    output_file_cpp = os.path.join('..','..','code','IFCReaderGen.cpp')
+else:
+    input_template_h = input_step_template_h
+    input_template_cpp = input_step_template_cpp
+    output_file_h = os.path.join('..','..','code/Importer/StepFile','StepReaderGen.h')
+    output_file_cpp = os.path.join('..','..','code/Importer/StepFile','StepReaderGen.cpp')
+
+template_entity_predef = '\tstruct {entity};\n'
+template_entity_predef_ni = '\ttypedef NotImplemented {entity}; // (not currently used by Assimp)\n'
+template_entity = r"""
+
+    // C++ wrapper for {entity}
+    struct {entity} : {parent} ObjectHelper<{entity},{argcnt}> {{ {entity}() : Object("{entity}") {{}}
+{fields}
+    }};"""
+
+template_entity_ni = ''
+
+template_type = r"""
+    // C++ wrapper type for {type}
+    typedef {real_type} {type};"""
+
+template_stub_decl = '\tDECL_CONV_STUB({type});\n'
+template_schema = '\t\tSchemaEntry("{normalized_name}",&STEP::ObjectHelper<{type},{argcnt}>::Construct )\n'
+template_schema_type = '\t\tSchemaEntry("{normalized_name}",nullptr )\n'
+template_converter = r"""
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<{type}>(const DB& db, const LIST& params, {type}* in)
+{{
+{contents}
+}}"""
+
+template_converter_prologue_a = '\tsize_t base = GenericFill(db,params,static_cast<{parent}*>(in));\n'
+template_converter_prologue_b = '\tsize_t base = 0;\n'
+template_converter_check_argcnt = '\tif (params.GetSize() < {max_arg}) {{ throw STEP::TypeError("expected {max_arg} arguments to {name}"); }}'
+template_converter_code_per_field = r"""    do {{ // convert the '{fieldname}' argument
+        std::shared_ptr<const DataType> arg = params[base++];{handle_unset}{convert}
+    }} while(0);
+"""
+template_allow_optional = r"""
+        if (dynamic_cast<const UNSET*>(&*arg)) break;"""
+template_allow_derived = r"""
+        if (dynamic_cast<const ISDERIVED*>(&*arg)) {{ in->ObjectHelper<Assimp::IFC::{type},{argcnt}>::aux_is_derived[{argnum}]=true; break; }}"""        
+template_convert_single = r"""
+        try {{ GenericConvert( in->{name}, arg, db ); break; }} 
+        catch (const TypeError& t) {{ throw TypeError(t.what() + std::string(" - expected argument {argnum} to {classname} to be a `{full_type}`")); }}"""
+
+template_converter_omitted = '// this data structure is not used yet, so there is no code generated to fill its members\n'
+template_converter_epilogue = '\treturn base;'
+
+import ExpressReader
+
+def get_list_bounds(collection_spec):
+    start,end = [(int(n) if n!='?' else 0) for n in re.findall(r'(\d+|\?)',collection_spec)]
+    return start,end
+
+def get_cpp_type(field,schema):
+    isobjref = field.type in schema.entities
+    base = field.type
+    if isobjref:
+        base = 'Lazy< '+(base if base in schema.whitelist else 'NotImplemented')+' >'
+    if field.collection:
+        start,end = get_list_bounds(field.collection)
+        base = 'ListOf< {0}, {1}, {2} >'.format(base,start,end)
+    if not isobjref:
+        base += '::Out'
+    if field.optional:
+        base = 'Maybe< '+base+' >'
+        
+    return base
+
+def generate_fields(entity,schema):
+    fields = []
+    for e in entity.members:
+        fields.append('\t\t{type} {name};'.format(type=get_cpp_type(e,schema),name=e.name))
+    return '\n'.join(fields)
+
+def handle_unset_args(field,entity,schema,argnum):
+    n = ''
+    # if someone derives from this class, check for derived fields.
+    if any(entity.name==e.parent for e in schema.entities.values()):
+        n += template_allow_derived.format(type=entity.name,argcnt=len(entity.members),argnum=argnum)
+    
+    if not field.optional:
+        return n+''
+    return n+template_allow_optional.format()
+
+def get_single_conversion(field,schema,argnum=0,classname='?'):
+    name = field.name
+    return template_convert_single.format(name=name,argnum=argnum,classname=classname,full_type=field.fullspec)
+
+def count_args_up(entity,schema):
+    return len(entity.members) + (count_args_up(schema.entities[entity.parent],schema) if entity.parent else 0)
+
+def resolve_base_type(base,schema):
+    if base in ('INTEGER','REAL','STRING','ENUMERATION','BOOLEAN','NUMBER', 'SELECT','LOGICAL'):
+        return base
+    if base in schema.types:
+        return resolve_base_type(schema.types[base].equals,schema)
+    print(base)
+    return None
+    
+def gen_type_struct(typen,schema):
+    base = resolve_base_type(typen.equals,schema)
+    if not base:
+        return ''
+
+    if typen.aggregate:
+        start,end = get_list_bounds(typen.aggregate)
+        base = 'ListOf< {0}, {1}, {2} >'.format(base,start,end)
+    
+    return template_type.format(type=typen.name,real_type=base)
+
+def gen_converter(entity,schema):
+    max_arg = count_args_up(entity,schema)
+    arg_idx = arg_idx_ofs = max_arg - len(entity.members)
+    
+    code = template_converter_prologue_a.format(parent=entity.parent) if entity.parent else template_converter_prologue_b
+    if entity.name in schema.blacklist_partial:
+        return code+template_converter_omitted+template_converter_epilogue;
+        
+    if max_arg > 0:
+        code +=template_converter_check_argcnt.format(max_arg=max_arg,name=entity.name)
+
+    for field in entity.members:
+        code += template_converter_code_per_field.format(fieldname=field.name,
+            handle_unset=handle_unset_args(field,entity,schema,arg_idx-arg_idx_ofs),
+            convert=get_single_conversion(field,schema,arg_idx,entity.name))
+
+        arg_idx += 1
+    return code+template_converter_epilogue
+
+def get_base_classes(e,schema):
+    def addit(e,out):
+        if e.parent:
+            out.append(e.parent)
+            addit(schema.entities[e.parent],out)
+    res = []
+    addit(e,res)
+    return list(reversed(res))
+
+def get_derived(e,schema):
+    def get_deriv(e,out): # bit slow, but doesn't matter here
+        s = [ee for ee in schema.entities.values() if ee.parent == e.name]
+        for sel in s:
+            out.append(sel.name)
+            get_deriv(sel,out)
+    res = []
+    get_deriv(e,res)
+    return res
+
+def get_hierarchy(e,schema):
+    return get_derived(e, schema)+[e.name]+get_base_classes(e,schema)
+
+def sort_entity_list(schema):
+    deps = []
+    entities = schema.entities
+    for e in entities.values():
+        deps += get_base_classes(e,schema)+[e.name]
+
+    checked = [] 
+    for e in deps: 
+        if e not in checked: 
+            checked.append(e)
+    return [entities[e] for e in checked]
+    
+def work(filename):
+    schema = ExpressReader.read(filename,silent=True)
+    entities, stub_decls, schema_table, converters, typedefs, predefs = '','',[],'','',''
+
+    entitylist = 'ifc_entitylist.txt'
+    if not use_ifc_template:
+        entitylist = 'step_entitylist.txt'
+    whitelist = []
+    with open(entitylist, 'rt') as inp:
+        whitelist = [n.strip() for n in inp.read().split('\n') if n[:1]!='#' and n.strip()]
+
+    schema.whitelist = set()
+    schema.blacklist_partial = set()
+    for ename in whitelist:
+        try:
+            e = schema.entities[ename]
+        except KeyError:
+            # type, not entity
+            continue
+        for base in [e.name]+get_base_classes(e,schema):
+            schema.whitelist.add(base)
+        for base in get_derived(e,schema):
+            schema.blacklist_partial.add(base)
+
+    schema.blacklist_partial -= schema.whitelist
+    schema.whitelist |= schema.blacklist_partial
+
+    # Generate list with reserved keywords from c++
+    cpp_types = cpp_keywords.split(',')
+
+    # uncomment this to disable automatic code reduction based on whitelisting all used entities
+    # (blacklisted entities are those who are in the whitelist and may be instanced, but will
+    # only be accessed through a pointer to a base-class.
+    #schema.whitelist = set(schema.entities.keys())
+    #schema.blacklist_partial = set()
+    for ntype in schema.types.values():
+        typedefs += gen_type_struct(ntype,schema)
+        schema_table.append(template_schema_type.format(normalized_name=ntype.name.lower()))
+
+    sorted_entities = sort_entity_list(schema)
+    for entity in sorted_entities:
+        parent = entity.parent+',' if entity.parent else ''
+
+        if ( entity.name in cpp_types ):
+            entity.name = entity.name + "_t"
+            print( "renaming " + entity.name)
+        if entity.name in schema.whitelist:
+            converters += template_converter.format(type=entity.name,contents=gen_converter(entity,schema))
+            schema_table.append(template_schema.format(type=entity.name,normalized_name=entity.name.lower(),argcnt=len(entity.members)))
+            entities += template_entity.format(entity=entity.name,argcnt=len(entity.members),parent=parent,fields=generate_fields(entity,schema))
+            predefs += template_entity_predef.format(entity=entity.name)
+            stub_decls += template_stub_decl.format(type=entity.name)
+        else:
+            entities += template_entity_ni.format(entity=entity.name)
+            predefs += template_entity_predef_ni.format(entity=entity.name)
+            schema_table.append(template_schema.format(type="NotImplemented",normalized_name=entity.name.lower(),argcnt=0))
+
+    schema_table = ','.join(schema_table)
+
+    with open(input_template_h,'rt') as inp:
+        with open(output_file_h,'wt') as outp:
+            # can't use format() here since the C++ code templates contain single, unescaped curly brackets
+            outp.write(inp.read().replace('{predefs}',predefs).replace('{types}',typedefs).replace('{entities}',entities).replace('{converter-decl}',stub_decls))
+    
+    with open(input_template_cpp,'rt') as inp:
+        with open(output_file_cpp,'wt') as outp:
+            outp.write(inp.read().replace('{schema-static-table}',schema_table).replace('{converter-impl}',converters))
+
+    # Finished without error, so return 0
+    return 0
+
+if __name__ == "__main__":
+    sys.exit(work(sys.argv[1] if len(sys.argv)>1 else 'schema.exp'))
diff --git a/libs/assimp/scripts/StepImporter/ExpressReader.py b/libs/assimp/scripts/StepImporter/ExpressReader.py
new file mode 100644
index 0000000..9cb3b72
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/ExpressReader.py
@@ -0,0 +1,123 @@
+#!/usr/bin/env python3
+# -*- Coding: UTF-8 -*-
+
+# ---------------------------------------------------------------------------
+# Open Asset Import Library (ASSIMP)
+# ---------------------------------------------------------------------------
+#
+# Copyright (c) 2006-2020, ASSIMP Development Team
+#
+# All rights reserved.
+#
+# Redistribution and use of this software in source and binary forms, 
+# with or without modification, are permitted provided that the following 
+# conditions are met:
+# 
+# * Redistributions of source code must retain the above
+#   copyright notice, this list of conditions and the
+#   following disclaimer.
+# 
+# * Redistributions in binary form must reproduce the above
+#   copyright notice, this list of conditions and the
+#   following disclaimer in the documentation and/or other
+#   materials provided with the distribution.
+# 
+# * Neither the name of the ASSIMP team, nor the names of its
+#   contributors may be used to endorse or promote products
+#   derived from this software without specific prior
+#   written permission of the ASSIMP Development Team.
+# 
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+# ---------------------------------------------------------------------------
+
+"""Parse an EXPRESS file and extract basic information on all
+entities and data types contained"""
+
+import sys
+import re
+from collections import OrderedDict
+
+re_match_entity = re.compile(r"""
+ENTITY\s+(\w+)\s*                                    # 'ENTITY foo'
+.*?                                                  #  skip SUPERTYPE-of
+(?:SUBTYPE\s+OF\s+\((\w+)\))?;                       # 'SUBTYPE OF (bar);' or simply ';'
+(.*?)                                                # 'a : atype;' (0 or more lines like this)
+(?:(?:INVERSE|UNIQUE|WHERE)\s*$.*?)?                 #  skip the INVERSE, UNIQUE, WHERE clauses and everything behind 
+END_ENTITY;                                          
+""",re.VERBOSE|re.DOTALL|re.MULTILINE) 
+
+re_match_type = re.compile(r"""
+TYPE\s+(\w+?)\s*=\s*((?:LIST|SET)\s*\[\d+:[\d?]+\]\s*OF)?(?:\s*UNIQUE)?\s*(\w+)   # TYPE foo = LIST[1:2] of blub
+(?:(?<=ENUMERATION)\s*OF\s*\((.*?)\))?
+.*?                                                                 #  skip the WHERE clause
+END_TYPE;
+""",re.VERBOSE|re.DOTALL)
+
+re_match_field = re.compile(r"""
+\s+(\w+?)\s*:\s*(OPTIONAL)?\s*((?:LIST|SET)\s*\[\d+:[\d?]+\]\s*OF)?(?:\s*UNIQUE)?\s*(\w+?);
+""",re.VERBOSE|re.DOTALL)
+
+
+class Schema:
+    def __init__(self):
+        self.entities = OrderedDict()
+        self.types = OrderedDict()
+
+class Entity:
+    def __init__(self,name,parent,members):
+        self.name = name
+        self.parent = parent
+        self.members = members
+
+class Field:
+    def __init__(self,name,type,optional,collection):
+        self.name = name
+        self.type = type
+        self.optional = optional
+        self.collection = collection
+        self.fullspec = (self.collection+' ' if self.collection else '') + self.type 
+
+class Type:
+    def __init__(self,name,aggregate,equals,enums):
+        self.name = name
+        self.aggregate = aggregate
+        self.equals = equals
+        self.enums = enums
+        
+
+def read(filename, silent=False):
+    schema = Schema()
+    print( "Try to read EXPRESS schema file" + filename)
+    with open(filename,'rt') as inp: 
+        contents = inp.read()
+        types = re.findall(re_match_type,contents)
+        for name,aggregate,equals,enums in types:
+            schema.types[name] = Type(name,aggregate,equals,enums)
+            
+        entities = re.findall(re_match_entity,contents)
+        for name,parent,fields_raw in entities:
+            print('process entity {0}, parent is {1}'.format(name,parent)) if not silent else None
+            fields = re.findall(re_match_field,fields_raw)
+            members = [Field(name,type,opt,coll) for name, opt, coll, type in fields]
+            print('  got {0} fields'.format(len(members))) if not silent else None
+            
+            schema.entities[name] = Entity(name,parent,members)
+    return schema
+
+if __name__ == "__main__":
+    sys.exit(read(sys.argv[1] if len(sys.argv)>1 else 'schema.exp'))
+
+
+
+
+    
diff --git a/libs/assimp/scripts/StepImporter/IFCReaderGen.cpp.template b/libs/assimp/scripts/StepImporter/IFCReaderGen.cpp.template
new file mode 100644
index 0000000..de1063d
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/IFCReaderGen.cpp.template
@@ -0,0 +1,78 @@
+/*

+Open Asset Import Library (ASSIMP)

+----------------------------------------------------------------------

+

+Copyright (c) 2006-2020, ASSIMP Development Team

+All rights reserved.

+

+Redistribution and use of this software in source and binary forms, 

+with or without modification, are permitted provided that the 

+following conditions are met:

+

+* Redistributions of source code must retain the above

+  copyright notice, this list of conditions and the

+  following disclaimer.

+

+* Redistributions in binary form must reproduce the above

+  copyright notice, this list of conditions and the

+  following disclaimer in the documentation and/or other

+  materials provided with the distribution.

+

+* Neither the name of the ASSIMP team, nor the names of its

+  contributors may be used to endorse or promote products

+  derived from this software without specific prior

+  written permission of the ASSIMP Development Team.

+

+THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 

+"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 

+LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR

+A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 

+OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,

+SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 

+LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,

+DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 

+THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 

+(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 

+OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

+

+----------------------------------------------------------------------

+*/

+

+/** MACHINE-GENERATED by scripts/ICFImporter/CppGenerator.py */

+

+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER

+

+#include "IFCReaderGen.h"

+

+namespace Assimp {

+using namespace IFC;

+

+namespace {

+

+	typedef EXPRESS::ConversionSchema::SchemaEntry SchemaEntry;

+	const SchemaEntry schema_raw[] =  {

+{schema-static-table}

+	};

+}

+

+// -----------------------------------------------------------------------------------------------------------

+void IFC::GetSchema(EXPRESS::ConversionSchema& out)

+{

+	out = EXPRESS::ConversionSchema(schema_raw);

+}

+

+namespace STEP {

+

+// -----------------------------------------------------------------------------------------------------------

+template <> size_t GenericFill<NotImplemented>(const STEP::DB& db, const LIST& params, NotImplemented* in)

+{

+	return 0;

+}

+

+

+{converter-impl}

+

+} // ! STEP

+} // ! Assimp

+

+#endif

diff --git a/libs/assimp/scripts/StepImporter/IFCReaderGen.h.template b/libs/assimp/scripts/StepImporter/IFCReaderGen.h.template
new file mode 100644
index 0000000..2cad154
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/IFCReaderGen.h.template
@@ -0,0 +1,91 @@
+/*

+Open Asset Import Library (ASSIMP)

+----------------------------------------------------------------------

+

+Copyright (c) 2006-2020, ASSIMP Development Team

+All rights reserved.

+

+Redistribution and use of this software in source and binary forms, 

+with or without modification, are permitted provided that the 

+following conditions are met:

+

+* Redistributions of source code must retain the above

+  copyright notice, this list of conditions and the

+  following disclaimer.

+

+* Redistributions in binary form must reproduce the above

+  copyright notice, this list of conditions and the

+  following disclaimer in the documentation and/or other

+  materials provided with the distribution.

+

+* Neither the name of the ASSIMP team, nor the names of its

+  contributors may be used to endorse or promote products

+  derived from this software without specific prior

+  written permission of the ASSIMP Development Team.

+

+THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 

+"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 

+LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR

+A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 

+OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,

+SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 

+LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,

+DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 

+THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 

+(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 

+OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

+

+----------------------------------------------------------------------

+*/

+

+/** MACHINE-GENERATED by scripts/ICFImporter/CppGenerator.py */

+

+#ifndef INCLUDED_IFC_READER_GEN_H

+#define INCLUDED_IFC_READER_GEN_H

+

+#include "STEPFile.h"

+

+namespace Assimp {

+namespace IFC {

+	using namespace STEP;

+	using namespace STEP::EXPRESS;

+	

+	

+	struct NotImplemented : public ObjectHelper<NotImplemented,0> {

+		

+	};

+	

+

+	// ******************************************************************************

+	// IFC Custom data types

+	// ******************************************************************************

+

+{types}

+

+

+	// ******************************************************************************

+	// IFC Entities

+	// ******************************************************************************

+

+{predefs}

+{entities}

+

+	void GetSchema(EXPRESS::ConversionSchema& out);

+

+} //! IFC

+namespace STEP {

+

+	// ******************************************************************************

+	// Converter stubs

+	// ******************************************************************************

+	

+#define DECL_CONV_STUB(type) template <> size_t GenericFill<IFC::type>(const STEP::DB& db, const EXPRESS::LIST& params, IFC::type* in)

+	

+{converter-decl}

+

+#undef DECL_CONV_STUB

+

+} //! STEP

+} //! Assimp

+

+#endif // INCLUDED_IFC_READER_GEN_H

diff --git a/libs/assimp/scripts/StepImporter/StepReaderGen.cpp.template b/libs/assimp/scripts/StepImporter/StepReaderGen.cpp.template
new file mode 100644
index 0000000..5bb9bb9
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/StepReaderGen.cpp.template
@@ -0,0 +1,78 @@
+/*
+Open Asset Import Library (ASSIMP)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2020, ASSIMP Development Team
+All rights reserved.
+
+Redistribution and use of this software in source and binary forms, 
+with or without modification, are permitted provided that the 
+following conditions are met:
+
+* Redistributions of source code must retain the above
+  copyright notice, this list of conditions and the
+  following disclaimer.
+
+* Redistributions in binary form must reproduce the above
+  copyright notice, this list of conditions and the
+  following disclaimer in the documentation and/or other
+  materials provided with the distribution.
+
+* Neither the name of the ASSIMP team, nor the names of its
+  contributors may be used to endorse or promote products
+  derived from this software without specific prior
+  written permission of the ASSIMP Development Team.
+
+THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 
+"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
+LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 
+OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 
+LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 
+THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 
+(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 
+OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+
+----------------------------------------------------------------------
+*/
+
+/** MACHINE-GENERATED by scripts/ICFImporter/CppGenerator.py */
+
+#ifndef ASSIMP_BUILD_NO_STEP_IMPORTER
+
+#include "code/Importer/StepFile/StepReaderGen.h"
+
+namespace Assimp {
+using namespace StepFile;
+
+namespace {
+
+	typedef EXPRESS::ConversionSchema::SchemaEntry SchemaEntry;
+	const SchemaEntry schema_raw[] =  {
+{schema-static-table}
+	};
+}
+
+// -----------------------------------------------------------------------------------------------------------
+void StepFile::GetSchema(EXPRESS::ConversionSchema& out)
+{
+	out = EXPRESS::ConversionSchema(schema_raw);
+}
+
+namespace STEP {
+
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<NotImplemented>(const STEP::DB& db, const LIST& params, NotImplemented* in)
+{
+    return 0u;
+}
+
+
+{converter-impl}
+
+} // ! STEP
+} // ! Assimp
+
+#endif
diff --git a/libs/assimp/scripts/StepImporter/StepReaderGen.h.template b/libs/assimp/scripts/StepImporter/StepReaderGen.h.template
new file mode 100644
index 0000000..51ba550
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/StepReaderGen.h.template
@@ -0,0 +1,90 @@
+/*
+Open Asset Import Library (ASSIMP)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2020, ASSIMP Development Team
+All rights reserved.
+
+Redistribution and use of this software in source and binary forms, 
+with or without modification, are permitted provided that the 
+following conditions are met:
+
+* Redistributions of source code must retain the above
+  copyright notice, this list of conditions and the
+  following disclaimer.
+
+* Redistributions in binary form must reproduce the above
+  copyright notice, this list of conditions and the
+  following disclaimer in the documentation and/or other
+  materials provided with the distribution.
+
+* Neither the name of the ASSIMP team, nor the names of its
+  contributors may be used to endorse or promote products
+  derived from this software without specific prior
+  written permission of the ASSIMP Development Team.
+
+THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 
+"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
+LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 
+OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 
+LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 
+THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 
+(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 
+OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+
+----------------------------------------------------------------------
+*/
+
+/** MACHINE-GENERATED by scripts/ICFImporter/CppGenerator.py */
+
+#ifndef INCLUDED_STEPFILE_READER_GEN_H
+#define INCLUDED_STEPFILE_READER_GEN_H
+
+#include "code/STEPFile.h"
+
+namespace Assimp {
+namespace StepFile {
+
+using namespace STEP;
+using namespace STEP::EXPRESS;
+
+struct NotImplemented : public ObjectHelper<NotImplemented,0> {
+
+};
+
+// ******************************************************************************
+// StepFile Custom data types
+// ******************************************************************************
+
+{types}
+
+// ******************************************************************************
+// StepFile Entities
+// ******************************************************************************
+
+{predefs}
+{entities}
+
+	void GetSchema(EXPRESS::ConversionSchema& out);
+
+} //! StepFile
+
+namespace STEP {
+
+// ******************************************************************************
+// Converter stubs
+// ******************************************************************************
+	
+#define DECL_CONV_STUB(type) template <> size_t GenericFill<IFC::type>(const STEP::DB& db, const EXPRESS::LIST& params, IFC::type* in)
+	
+{converter-decl}
+
+#undef DECL_CONV_STUB
+
+} //! STEP
+} //! Assimp
+
+#endif // INCLUDED_STEPFILE_READER_GEN_H
diff --git a/libs/assimp/scripts/StepImporter/extract_step_token.py b/libs/assimp/scripts/StepImporter/extract_step_token.py
new file mode 100644
index 0000000..106cf58
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/extract_step_token.py
@@ -0,0 +1,64 @@
+#!/usr/bin/env python3
+# -*- Coding: UTF-8 -*-
+
+# ---------------------------------------------------------------------------
+# Open Asset Import Library (ASSIMP)
+# ---------------------------------------------------------------------------
+#
+# Copyright (c) 2006-2020, ASSIMP Development Team
+#
+# All rights reserved.
+#
+# Redistribution and use of this software in source and binary forms, 
+# with or without modification, are permitted provided that the following 
+# conditions are met:
+# 
+# * Redistributions of source code must retain the above
+#   copyright notice, this list of conditions and the
+#   following disclaimer.
+# 
+# * Redistributions in binary form must reproduce the above
+#   copyright notice, this list of conditions and the
+#   following disclaimer in the documentation and/or other
+#   materials provided with the distribution.
+# 
+# * Neither the name of the ASSIMP team, nor the names of its
+#   contributors may be used to endorse or promote products
+#   derived from this software without specific prior
+#   written permission of the ASSIMP Development Team.
+# 
+# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 
+# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
+# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 
+# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 
+# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 
+# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 
+# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 
+# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+# ---------------------------------------------------------------------------
+
+import sys
+
+Entity_token = "ENTITY"
+Type_token   = "TYPE"
+token = []
+file = open(sys.argv[1])
+output = open("step_entitylist.txt", "a")
+lines = file.readlines()
+for line in lines:
+    pos = line.find(Entity_token)
+    if pos != -1:
+        token = line.split(" ")
+        if len(token) > 1:
+            name = token[1]
+            print( "Writing entity " + name)
+            output.write(name)
+
+output.close()
+file.close()
+
+
+    
diff --git a/libs/assimp/scripts/StepImporter/genentitylist.sh b/libs/assimp/scripts/StepImporter/genentitylist.sh
new file mode 100644
index 0000000..e51959d
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/genentitylist.sh
@@ -0,0 +1,3 @@
+#!/bin/sh
+cd ../../code
+grep -E 'Ifc([A-Z][a-z]*)+' -o IFCLoader.cpp IFCGeometry.cpp IFCCurve.cpp IFCProfile.cpp IFCMaterial.cpp | uniq | sed s/.*:// > ../scripts/IFCImporter/output.txt
diff --git a/libs/assimp/scripts/StepImporter/ifc_entitylist.txt b/libs/assimp/scripts/StepImporter/ifc_entitylist.txt
new file mode 100644
index 0000000..14b05ca
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/ifc_entitylist.txt
@@ -0,0 +1,111 @@
+# ==============================================================================
+# List of IFC structures needed by Assimp
+# ==============================================================================
+# use genentitylist.sh to update this list
+
+# This machine-generated list is not complete, it lacks many intermediate
+# classes in the inheritance hierarchy. Those are magically augmented by the
+# code generator. Also, the names of all used entities need to be present
+# in the source code for this to work.
+
+IfcAnnotation
+IfcArbitraryClosedProfileDef
+IfcArbitraryOpenProfileDef
+IfcArbitraryProfileDefWithVoids
+IfcAxis1Placement
+IfcAxis2Placement
+IfcAxis2Placement2D
+IfcAxis2Placement3D
+IfcBooleanClippingResult
+IfcBooleanResult
+IfcBoundedCurve
+IfcBoundingBox
+IfcBSplineCurve
+IfcBuilding
+IfcCartesianPoint
+IfcCartesianTransformationOperator
+IfcCartesianTransformationOperator3D
+IfcCartesianTransformationOperator3DnonUniform
+IfcCircle
+IfcCircleHollowProfileDef
+IfcCircleProfileDef
+IfcClosedShell
+IfcColourOrFactor
+IfcColourRgb
+IfcCompositeCurve
+IfcCompositeCurveSegment
+IfcConic
+IfcConnectedFaceSet
+IfcConversionBasedUnit
+IfcCurve
+IfcDirection
+IfcDoor
+IfcEllipse
+IfcExtrudedAreaSolid
+IfcFace
+IfcFaceBasedSurfaceModel
+IfcFaceBound
+IfcFaceOuterBound
+IfcFeatureElementSubtraction
+IfcGeometricRepresentationContext
+IfcGeometricRepresentationItem
+IfcHalfSpaceSolid
+IfcLine
+IfcLocalPlacement
+IfcManifoldSolidBrep
+IfcMappedItem
+IfcMeasureWithUnit
+IfcNamedUnit
+IfcObjectDefinition
+IfcObjectPlacement
+IfcOpeningElement
+IfcParameterizedProfileDef
+IfcPlane
+IfcPolygonalBoundedHalfSpace
+IfcPolyline
+IfcPolyLoop
+IfcPresentationStyleAssignment
+IfcPresentationStyleSelect
+IfcProduct
+IfcProductRepresentation
+IfcProfileDef
+IfcProject
+IfcRectangleProfileDef
+IfcRelAggregates
+IfcRelContainedInSpatialStructure
+IfcRelFillsElement
+IfcRelVoidsElement
+IfcRepresentation
+IfcRepresentationContext
+IfcRepresentationItem
+IfcRepresentationMap
+IfcRevolvedAreaSolid
+IfcShell
+IfcShellBasedSurfaceModel
+IfcSite
+IfcSIUnit
+IfcSomething
+IfcSpace
+IfcSpatialStructureElement
+IfcSpatialStructureElements
+IfcStyledItem
+IfcSurfaceStyle
+IfcSurfaceStyleElementSelect
+IfcSurfaceStyleRendering
+IfcSurfaceStyleShading
+IfcSurfaceStyleWithTextures
+IfcSweptAreaSolid
+IfcSweptDiskSolid
+IfcTopologicalRepresentationItem
+IfcTrimmedCurve
+IfcUnit
+IfcUnitAssignment
+IfcVector
+IfcIShapeProfileDef
+IfcPropertyListValue
+IfcRelDefinesByProperties
+IfcPropertySet
+IfcPropertySingleValue
+IfcProperty
+IfcComplexProperty
+IfcElementQuantity
diff --git a/libs/assimp/scripts/StepImporter/part403ts_wg3n2635mim_lf.exp b/libs/assimp/scripts/StepImporter/part403ts_wg3n2635mim_lf.exp
new file mode 100644
index 0000000..7935304
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/part403ts_wg3n2635mim_lf.exp
@@ -0,0 +1,16378 @@
+(*
+  $Id: mim_lf.exp,v 1.43 2009/09/10 20:08:09 darla Exp $
+  ISO TC184/SC4/WG3 N2635 - ISO/TS 10303-403 AP203 configuration controlled 3d design of mechanical parts and assemblies - EXPRESS MIM Long form 
+  Supersedes ISO TC184/SC4/WG3 N2464
+*) 
+
+SCHEMA Ap203_configuration_controlled_3d_design_of_mechanical_parts_and_assemblies_mim_lf;
+
+
+CONSTANT
+	deprecated_constructed_data_types : SET [0:?] OF STRING := ['approved_item',
+       'certified_item', 
+       'change_request_item', 
+       'contracted_item', 
+       'cc_classified_item', 
+       'date_time_item', 
+       'cc_person_organization_item', 
+       'cc_specified_item', 
+       'start_request_item', 
+       'work_item'];
+
+
+	deprecated_entity_data_types : SET [0:?] OF STRING := ['cc_design_approval',
+       'cc_design_certification', 
+       'cc_design_contract', 
+       'cc_design_date_and_time_assignment', 
+       'cc_design_person_and_organization_assignment', 
+       'cc_design_security_classification', 
+       'cc_design_specification_reference', 
+       'change', 
+       'change_request', 
+       'design_context', 
+       'design_make_from_relationship', 
+       'mechanical_context', 
+       'start_request', 
+       'start_work', 
+       'supplied_part_relationship'];
+
+
+	deprecated_interfaced_data_types : SET [0:?] OF STRING := ['document_with_class',
+       'ordinal_date', 
+       'product_definition_formation_with_specified_source', 
+       'week_of_year_and_day_date'];
+
+
+	dummy_gri : geometric_representation_item := representation_item('')||
+                                   geometric_representation_item();
+
+
+	dummy_tri : topological_representation_item := representation_item('')||
+                   topological_representation_item();
+
+
+	pre_defined_picture_representation_types : SET [0:?] OF STRING := [ 'JPEG', 'PNG', 'TIFF', 'BMP', 'GIF'];
+
+
+
+END_CONSTANT;
+
+TYPE absorbed_dose_measure = REAL;
+END_TYPE;
+
+TYPE acceleration_measure = REAL;
+END_TYPE;
+
+TYPE action_items = SELECT (
+	action_directive,
+	certification_item,
+	characterized_object,
+	classification_item,
+	configuration_effectivity,
+	document_reference_item,
+	identification_item,
+	organization,
+	person_and_organization,
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	requirement_assigned_item);
+END_TYPE;
+
+TYPE action_method_items = SELECT (
+	product,
+	product_definition_formation);
+END_TYPE;
+
+TYPE action_request_item = SELECT (
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	property_definition,
+	versioned_action_request);
+END_TYPE;
+
+TYPE ahead_or_behind = ENUMERATION OF (
+	ahead,
+	exact,
+	behind );
+END_TYPE;
+
+TYPE amount_of_substance_measure = REAL;
+END_TYPE;
+
+TYPE angle_direction_reference_select = SELECT (
+	direction,
+	curve,
+	point_path);
+END_TYPE;
+
+TYPE angle_direction_reference_with_a2p3d_select = SELECT (
+	angle_direction_reference_select,
+	axis2_placement_3d);
+END_TYPE;
+
+TYPE angle_relator = ENUMERATION OF (
+	equal,
+	large,
+	small );
+END_TYPE;
+
+TYPE annotation_plane_element = SELECT (
+	draughting_callout,
+	styled_item);
+END_TYPE;
+
+TYPE annotation_representation_select = SELECT (
+	presentation_area,
+	presentation_view,
+	symbol_representation);
+END_TYPE;
+
+TYPE annotation_symbol_occurrence_item = SELECT (
+	annotation_symbol,
+	defined_symbol);
+END_TYPE;
+
+TYPE annotation_text_occurrence_item = SELECT (
+	text_literal,
+	annotation_text,
+	annotation_text_character,
+	composite_text);
+END_TYPE;
+
+TYPE approval_item = SELECT (
+	action,
+	action_directive,
+	alternate_product_relationship,
+	applied_action_assignment,
+	applied_usage_right,
+	assembly_component_usage_substitute,
+	certification,
+	configuration_effectivity,
+	configuration_item,
+	contract,
+	date,
+	directed_action,
+	document,
+	document_file,
+	effectivity,
+	executed_action,
+	general_property_relationship,
+	group,
+	group_relationship,
+	information_usage_right,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	representation,
+	requirement_assignment,
+	security_classification,
+	shape_aspect_relationship,
+	versioned_action_request);
+END_TYPE;
+
+TYPE approved_item = SELECT (
+	certification,
+	change,
+	change_request,
+	configuration_effectivity,
+	configuration_item,
+	contract,
+	product,
+	security_classification,
+	start_request,
+	start_work);
+END_TYPE;
+
+TYPE area_measure = REAL;
+END_TYPE;
+
+TYPE area_or_view = SELECT (
+	presentation_area,
+	presentation_view);
+END_TYPE;
+
+TYPE attribute_classification_item = SELECT (
+	action_directive,
+	action_method,
+	action_property,
+	action_property_representation,
+	action_relationship,
+	action_request_solution,
+	action_request_status,
+	alternate_product_relationship,
+	applied_action_assignment,
+	applied_action_request_assignment,
+	applied_approval_assignment,
+	applied_certification_assignment,
+	applied_document_reference,
+	applied_document_usage_constraint_assignment,
+	applied_effectivity_assignment,
+	applied_event_occurrence_assignment,
+	applied_external_identification_assignment,
+	applied_identification_assignment,
+	applied_organization_assignment,
+	applied_organizational_project_assignment,
+	applied_person_and_organization_assignment,
+	approval,
+	approval_person_organization,
+	approval_relationship,
+	approval_status,
+	certification,
+	context_dependent_unit,
+	contract,
+	date_and_time_assignment,
+	date_assignment,
+	derived_unit,
+	descriptive_representation_item,
+	document_file,
+	document_relationship,
+	effectivity,
+	event_occurrence_relationship,
+	executed_action,
+	general_property,
+	general_property_relationship,
+	group,
+	group_relationship,
+	information_right,
+	information_usage_right,
+	language,
+	measure_representation_item,
+	measure_with_unit,
+	named_unit,
+	organization_relationship,
+	organizational_address,
+	organizational_project_relationship,
+	person_and_organization,
+	person_and_organization_address,
+	product,
+	product_category,
+	product_concept,
+	product_concept_context,
+	product_definition,
+	product_definition_context,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	property_definition,
+	property_definition_relationship,
+	property_definition_representation,
+	representation,
+	representation_context,
+	representation_item,
+	security_classification,
+	time_interval_relationship,
+	uncertainty_measure_with_unit,
+	usage_association,
+	versioned_action_request);
+END_TYPE;
+
+TYPE attribute_language_item = SELECT (
+	alternate_product_relationship,
+	application_context,
+	applied_certification_assignment,
+	applied_document_reference,
+	applied_document_usage_constraint_assignment,
+	applied_external_identification_assignment,
+	applied_identification_assignment,
+	applied_organizational_project_assignment,
+	applied_security_classification_assignment,
+	approval,
+	approval_relationship,
+	approval_status,
+	assembly_component_usage_substitute,
+	attribute_value_assignment,
+	certification,
+	certification_type,
+	configuration_design,
+	configuration_item,
+	contract,
+	date_role,
+	date_time_role,
+	descriptive_representation_item,
+	document_relationship,
+	document_usage_role,
+	effectivity,
+	effectivity_relationship,
+	event_occurrence,
+	external_source,
+	general_property,
+	general_property_relationship,
+	geometric_representation_item,
+	geometric_tolerance,
+	identification_role,
+	information_right,
+	information_usage_right,
+	make_from_usage_option,
+	mapped_item,
+	multi_language_attribute_assignment,
+	object_role,
+	organization_relationship,
+	organization_role,
+	organizational_project,
+	organizational_project_relationship,
+	organizational_project_role,
+	person_and_organization,
+	person_and_organization_role,
+	product,
+	product_concept,
+	product_concept_relationship,
+	product_definition,
+	product_definition_context,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	product_definition_shape,
+	product_related_product_category,
+	property_definition,
+	representation,
+	security_classification,
+	security_classification_assignment,
+	shape_aspect,
+	shape_aspect_relationship,
+	shape_representation,
+	time_interval_role,
+	topological_representation_item,
+	uncertainty_measure_with_unit,
+	uncertainty_qualifier,
+	usage_association);
+END_TYPE;
+
+TYPE attribute_type = SELECT (
+	label,
+	text);
+END_TYPE;
+
+TYPE axis2_placement = SELECT (
+	axis2_placement_2d,
+	axis2_placement_3d);
+END_TYPE;
+
+TYPE b_spline_curve_form = ENUMERATION OF (
+	polyline_form,
+	circular_arc,
+	elliptic_arc,
+	parabolic_arc,
+	hyperbolic_arc,
+	unspecified );
+END_TYPE;
+
+TYPE b_spline_surface_form = ENUMERATION OF (
+	plane_surf,
+	cylindrical_surf,
+	conical_surf,
+	spherical_surf,
+	toroidal_surf,
+	surf_of_revolution,
+	ruled_surf,
+	generalised_cone,
+	quadric_surf,
+	surf_of_linear_extrusion,
+	unspecified );
+END_TYPE;
+
+TYPE base_solid_select = SELECT (
+	solid_model,
+	csg_primitive,
+	boolean_result);
+WHERE
+	WR1 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRIMITIVE_2D' IN TYPEOF(SELF));
+END_TYPE;
+
+TYPE blend_end_condition_select = SELECT (
+	point_on_curve,
+	edge_curve,
+	vertex);
+END_TYPE;
+
+TYPE blend_radius_variation_type = ENUMERATION OF (
+	linear_blend,
+	cubic_blend,
+	unspecified_blend );
+END_TYPE;
+
+TYPE boolean_operand = SELECT (
+	solid_model,
+	half_space_solid,
+	csg_primitive,
+	boolean_result);
+END_TYPE;
+
+TYPE boolean_operator = ENUMERATION OF (
+	union,
+	intersection,
+	difference );
+END_TYPE;
+
+TYPE box_characteristic_select = SELECT (
+	box_height,
+	box_width,
+	box_slant_angle,
+	box_rotate_angle);
+END_TYPE;
+
+TYPE box_height = positive_ratio_measure;
+END_TYPE;
+
+TYPE box_rotate_angle = plane_angle_measure;
+END_TYPE;
+
+TYPE box_slant_angle = plane_angle_measure;
+END_TYPE;
+
+TYPE box_width = positive_ratio_measure;
+END_TYPE;
+
+TYPE camera_model_d3_multi_clipping_interection_select = SELECT (
+	camera_model_d3_multi_clipping_union,
+	plane);
+END_TYPE;
+
+TYPE camera_model_d3_multi_clipping_union_select = SELECT (
+	camera_model_d3_multi_clipping_intersection,
+	plane);
+END_TYPE;
+
+TYPE capacitance_measure = REAL;
+END_TYPE;
+
+TYPE category_usage_item = SELECT (
+	product_class);
+END_TYPE;
+
+TYPE cc_classified_item = SELECT (
+	assembly_component_usage,
+	product_definition_formation);
+END_TYPE;
+
+TYPE cc_person_organization_item = SELECT (
+	change,
+	change_request,
+	configuration_item,
+	contract,
+	product,
+	product_definition,
+	product_definition_formation,
+	security_classification,
+	start_request,
+	start_work);
+END_TYPE;
+
+TYPE cc_specified_item = SELECT (
+	product_definition,
+	shape_aspect);
+END_TYPE;
+
+TYPE celsius_temperature_measure = REAL;
+END_TYPE;
+
+TYPE central_or_parallel = ENUMERATION OF (
+	central,
+	parallel );
+END_TYPE;
+
+TYPE certification_item = SELECT (
+	alternate_product_relationship,
+	make_from_usage_option,
+	product_definition_formation,
+	product_definition_formation_relationship);
+END_TYPE;
+
+TYPE certified_item = SELECT (
+	supplied_part_relationship);
+END_TYPE;
+
+TYPE change_request_item = SELECT (
+	product_definition_formation);
+END_TYPE;
+
+TYPE character_spacing_select = SELECT (
+	length_measure,
+	ratio_measure,
+	measure_with_unit,
+	descriptive_measure);
+END_TYPE;
+
+TYPE character_style_select = SELECT (
+	character_glyph_style_stroke,
+	character_glyph_style_outline,
+	text_style_for_defined_font);
+END_TYPE;
+
+TYPE characterized_action_definition = SELECT (
+	action,
+	action_method,
+	action_method_relationship,
+	action_relationship);
+END_TYPE;
+
+TYPE characterized_definition = SELECT (
+	characterized_object,
+	characterized_product_definition,
+	shape_definition);
+END_TYPE;
+
+TYPE characterized_material_property = SELECT (
+	material_property_representation,
+	product_material_composition_relationship);
+END_TYPE;
+
+TYPE characterized_product_composition_value = SELECT (
+	measure_with_unit);
+END_TYPE;
+
+TYPE characterized_product_definition = SELECT (
+	product_definition,
+	product_definition_relationship);
+END_TYPE;
+
+TYPE class_usage_effectivity_context_item = SELECT (
+	product_definition);
+END_TYPE;
+
+TYPE classification_item = SELECT (
+	action,
+	action_directive,
+	action_method,
+	action_property,
+	action_relationship,
+	action_request_solution,
+	action_request_status,
+	address,
+	alternate_product_relationship,
+	applied_action_assignment,
+	applied_action_request_assignment,
+	applied_approval_assignment,
+	applied_certification_assignment,
+	applied_contract_assignment,
+	applied_date_and_time_assignment,
+	applied_date_assignment,
+	applied_document_reference,
+	applied_document_usage_constraint_assignment,
+	applied_effectivity_assignment,
+	applied_event_occurrence_assignment,
+	applied_external_identification_assignment,
+	applied_identification_assignment,
+	applied_organization_assignment,
+	applied_organizational_project_assignment,
+	applied_person_and_organization_assignment,
+	applied_security_classification_assignment,
+	approval,
+	approval_person_organization,
+	approval_relationship,
+	approval_status,
+	assembly_component_usage_substitute,
+	calendar_date,
+	certification,
+	characterized_class,
+	characterized_object,
+	class,
+	classified_item,
+	configuration_item,
+	context_dependent_unit,
+	contract,
+	conversion_based_unit,
+	date_and_time,
+	date_and_time_assignment,
+	date_assignment,
+	derived_unit,
+	descriptive_representation_item,
+	directed_action,
+	document_file,
+	document_relationship,
+	effectivity,
+	event_occurrence,
+	executed_action,
+	general_property,
+	general_property_relationship,
+	group,
+	identification_assignment,
+	information_right,
+	information_usage_right,
+	language,
+	measure_representation_item,
+	measure_with_unit,
+	multi_language_attribute_assignment,
+	named_unit,
+	organization,
+	organization_relationship,
+	organizational_address,
+	organizational_project,
+	organizational_project_relationship,
+	person,
+	person_and_organization_address,
+	product,
+	product_concept,
+	product_definition,
+	product_definition_context,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	property_definition,
+	property_definition_representation,
+	representation,
+	representation_context,
+	representation_item,
+	security_classification,
+	uncertainty_measure_with_unit,
+	usage_association,
+	versioned_action_request);
+END_TYPE;
+
+TYPE classified_item = SELECT (
+	product,
+	product_definition,
+	product_definition_formation);
+END_TYPE;
+
+TYPE compound_item_definition = SELECT (
+	list_representation_item,
+	set_representation_item);
+END_TYPE;
+
+TYPE conductance_measure = REAL;
+END_TYPE;
+
+TYPE configuration_design_item = SELECT (
+	product_definition,
+	product_definition_formation);
+END_TYPE;
+
+TYPE configured_effectivity_context_item = SELECT (
+	product_concept_feature_association);
+END_TYPE;
+
+TYPE configured_effectivity_item = SELECT (
+	product_definition);
+END_TYPE;
+
+TYPE constructive_geometry_representation_or_shape_represenation = SELECT (
+	constructive_geometry_representation,
+	shape_representation);
+END_TYPE;
+
+TYPE context_dependent_measure = REAL;
+END_TYPE;
+
+TYPE contract_item = SELECT (
+	action_directive,
+	alternate_product_relationship,
+	directed_action,
+	executed_action,
+	information_usage_right,
+	organization,
+	person_and_organization,
+	product,
+	product_definition_formation);
+END_TYPE;
+
+TYPE contracted_item = SELECT (
+	product_definition_formation);
+END_TYPE;
+
+TYPE count_measure = NUMBER;
+END_TYPE;
+
+TYPE csg_primitive = SELECT (
+	sphere,
+	block,
+	right_angular_wedge,
+	torus,
+	right_circular_cone,
+	right_circular_cylinder);
+END_TYPE;
+
+TYPE csg_select = SELECT (
+	boolean_result,
+	csg_primitive);
+END_TYPE;
+
+TYPE curve_font_or_scaled_curve_font_select = SELECT (
+	curve_style_font_select,
+	curve_style_font_and_scaling);
+END_TYPE;
+
+TYPE curve_on_surface = SELECT (
+	pcurve,
+	surface_curve,
+	composite_curve_on_surface);
+END_TYPE;
+
+TYPE curve_or_annotation_curve_occurrence = SELECT (
+	curve,
+	annotation_curve_occurrence);
+END_TYPE;
+
+TYPE curve_or_render = SELECT (
+	curve_style,
+	curve_style_rendering);
+END_TYPE;
+
+TYPE curve_style_font_select = SELECT (
+	curve_style_font,
+	pre_defined_curve_font,
+	externally_defined_curve_font);
+END_TYPE;
+
+TYPE date_and_time_item = SELECT (
+	action,
+	action_directive,
+	applied_action_assignment,
+	applied_organization_assignment,
+	applied_person_and_organization_assignment,
+	applied_security_classification_assignment,
+	approval_person_organization,
+	certification,
+	contract,
+	directed_action,
+	document,
+	document_file,
+	event_occurrence,
+	executed_action,
+	information_usage_right,
+	organizational_project,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship,
+	rule_action,
+	security_classification,
+	versioned_action_request);
+END_TYPE;
+
+TYPE date_item = SELECT (
+	action,
+	action_directive,
+	applied_action_assignment,
+	applied_organization_assignment,
+	applied_person_and_organization_assignment,
+	applied_security_classification_assignment,
+	approval_person_organization,
+	certification,
+	contract,
+	directed_action,
+	document,
+	document_file,
+	event_occurrence,
+	executed_action,
+	information_usage_right,
+	organizational_project,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship,
+	security_classification,
+	versioned_action_request);
+END_TYPE;
+
+TYPE date_time_item = SELECT (
+	approval_person_organization,
+	certification,
+	change,
+	change_request,
+	contract,
+	product_definition,
+	security_classification,
+	start_request,
+	start_work);
+END_TYPE;
+
+TYPE date_time_or_event_occurrence = SELECT (
+	date_time_select,
+	event_occurrence);
+END_TYPE;
+
+TYPE date_time_select = SELECT (
+	date,
+	date_and_time,
+	local_time);
+END_TYPE;
+
+TYPE day_in_month_number = INTEGER;
+WHERE
+	WR1 : {1 <= SELF <= 31};
+END_TYPE;
+
+TYPE day_in_week_number = INTEGER;
+WHERE
+	WR1 : { 1 <= SELF <= 7 };
+END_TYPE;
+
+TYPE day_in_year_number = INTEGER;
+WHERE
+	WR1 : {1 <= SELF <= 366};
+END_TYPE;
+
+TYPE defined_symbol_select = SELECT (
+	pre_defined_symbol,
+	externally_defined_symbol);
+END_TYPE;
+
+TYPE derived_property_select = SELECT (
+	property_definition,
+	action_property);
+END_TYPE;
+
+TYPE description_attribute_select = SELECT (
+	action_request_solution,
+	application_context,
+	approval_role,
+	configuration_design,
+	date_role,
+	date_time_role,
+	context_dependent_shape_representation,
+	effectivity,
+	external_source,
+	organization_role,
+	person_and_organization_role,
+	person_and_organization,
+	property_definition_representation,
+	representation);
+END_TYPE;
+
+TYPE descriptive_measure = STRING;
+END_TYPE;
+
+TYPE dimension_count = INTEGER;
+WHERE
+	WR1 : SELF > 0;
+END_TYPE;
+
+TYPE dimension_extent_usage = ENUMERATION OF (
+	origin,
+	target );
+END_TYPE;
+
+TYPE dimensional_characteristic = SELECT (
+	dimensional_location,
+	dimensional_size);
+END_TYPE;
+
+TYPE direction_count_select = SELECT (
+	u_direction_count,
+	v_direction_count);
+END_TYPE;
+
+TYPE document_identifier_assigned_item = SELECT (
+	document);
+END_TYPE;
+
+TYPE document_reference_item = SELECT (
+	action_method,
+	applied_external_identification_assignment,
+	assembly_component_usage,
+	characterized_class,
+	characterized_object,
+	configuration_item,
+	descriptive_representation_item,
+	dimensional_size,
+	executed_action,
+	externally_defined_dimension_definition,
+	externally_defined_item,
+	group,
+	group_relationship,
+	information_right,
+	information_usage_right,
+	material_designation,
+	measure_representation_item,
+	product,
+	product_category,
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	property_definition,
+	representation,
+	representation_item,
+	rule_set,
+	shape_aspect,
+	shape_aspect_relationship,
+	usage_association,
+	versioned_action_request);
+END_TYPE;
+
+TYPE dose_equivalent_measure = REAL;
+END_TYPE;
+
+TYPE draughting_callout_element = SELECT (
+	annotation_text_occurrence,
+	annotation_symbol_occurrence,
+	annotation_curve_occurrence);
+END_TYPE;
+
+TYPE draughting_model_item_association_select = SELECT (
+	annotation_occurrence,
+	draughting_callout);
+END_TYPE;
+
+TYPE draughting_model_item_select = SELECT (
+	mapped_item,
+	styled_item,
+	axis2_placement,
+	camera_model,
+	draughting_callout);
+END_TYPE;
+
+TYPE draughting_titled_item = SELECT (
+	drawing_revision,
+	drawing_sheet_revision);
+END_TYPE;
+
+TYPE effectivity_item = SELECT (
+	assembly_component_usage_substitute,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship,
+	product_definition_substitute);
+END_TYPE;
+
+TYPE electric_charge_measure = REAL;
+END_TYPE;
+
+TYPE electric_current_measure = REAL;
+END_TYPE;
+
+TYPE electric_potential_measure = REAL;
+END_TYPE;
+
+TYPE energy_measure = REAL;
+END_TYPE;
+
+TYPE event_occurrence_item = SELECT (
+	organizational_project);
+END_TYPE;
+
+TYPE external_identification_item = SELECT (
+	action_relationship,
+	action_request_status,
+	applied_organization_assignment,
+	applied_person_and_organization_assignment,
+	approval,
+	approval_status,
+	date_and_time_assignment,
+	date_assignment,
+	document_file,
+	external_source,
+	externally_defined_class,
+	externally_defined_context_dependent_unit,
+	externally_defined_conversion_based_unit,
+	externally_defined_general_property,
+	externally_defined_picture_representation_item,
+	externally_defined_representation_item,
+	organizational_address,
+	product_definition,
+	security_classification,
+	trimmed_curve,
+	versioned_action_request);
+END_TYPE;
+
+TYPE fill_area_style_tile_shape_select = SELECT (
+	fill_area_style_tile_curve_with_style,
+	fill_area_style_tile_coloured_region,
+	fill_area_style_tile_symbol_with_style,
+	pre_defined_tile,
+	externally_defined_tile);
+END_TYPE;
+
+TYPE fill_style_select = SELECT (
+	fill_area_style_colour,
+	externally_defined_tile_style,
+	fill_area_style_tiles,
+	externally_defined_hatch_style,
+	fill_area_style_hatching);
+END_TYPE;
+
+TYPE font_select = SELECT (
+	pre_defined_text_font,
+	externally_defined_text_font,
+	text_font);
+END_TYPE;
+
+TYPE force_measure = REAL;
+END_TYPE;
+
+TYPE founded_item_select = SELECT (
+	founded_item,
+	representation_item);
+END_TYPE;
+
+TYPE frequency_measure = REAL;
+END_TYPE;
+
+TYPE generalized_surface_select = SELECT (
+	surface,
+	face_surface,
+	surfaced_open_shell);
+END_TYPE;
+
+TYPE geometric_item_specific_usage_select = SELECT (
+	shape_aspect,
+	shape_aspect_relationship);
+END_TYPE;
+
+TYPE geometric_set_select = SELECT (
+	point,
+	curve,
+	surface);
+END_TYPE;
+
+TYPE groupable_item = SELECT (
+	geometric_representation_item,
+	group_relationship,
+	mapped_item,
+	package_product_concept_feature,
+	product_concept_feature,
+	product_definition,
+	product_definition_formation,
+	property_definition_representation,
+	representation,
+	representation_item,
+	representation_relationship_with_transformation,
+	shape_aspect,
+	shape_aspect_relationship,
+	shape_representation_relationship,
+	styled_item,
+	topological_representation_item);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GROUP' IN TYPEOF(SELF));
+END_TYPE;
+
+TYPE hour_in_day = INTEGER;
+WHERE
+	WR1 : { 0 <= SELF < 24 };
+END_TYPE;
+
+TYPE id_attribute_select = SELECT (
+	action,
+	address,
+	product_category,
+	property_definition,
+	shape_aspect,
+	shape_aspect_relationship,
+	application_context,
+	group,
+	organizational_project,
+	representation);
+END_TYPE;
+
+TYPE identification_item = SELECT (
+	approval_status,
+	characterized_class,
+	class,
+	configuration_item,
+	contract,
+	dimensional_size,
+	document_file,
+	general_property,
+	group,
+	group_relationship,
+	information_right,
+	information_usage_right,
+	material_designation,
+	organization,
+	person_and_organization,
+	product,
+	product_category,
+	product_class,
+	product_concept,
+	product_concept_feature,
+	product_definition,
+	product_definition_formation,
+	product_identification,
+	representation,
+	rule_set,
+	security_classification,
+	security_classification_level,
+	shape_aspect_relationship,
+	shape_representation,
+	usage_association);
+END_TYPE;
+
+TYPE identifier = STRING;
+END_TYPE;
+
+TYPE illuminance_measure = REAL;
+END_TYPE;
+
+TYPE inductance_measure = REAL;
+END_TYPE;
+
+TYPE instance_usage_context_select = SELECT (
+	product_definition_relationship,
+	product_definition_usage);
+END_TYPE;
+
+TYPE invisibility_context = SELECT (
+	draughting_model,
+	presentation_representation,
+	presentation_set);
+END_TYPE;
+
+TYPE invisible_item = SELECT (
+	draughting_callout,
+	presentation_layer_assignment,
+	representation,
+	styled_item);
+END_TYPE;
+
+TYPE ir_usage_item = action_items;
+WHERE
+	wr1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONFIGURATION_EFFECTIVITY' IN TYPEOF(SELF));
+END_TYPE;
+
+TYPE knot_type = ENUMERATION OF (
+	uniform_knots,
+	quasi_uniform_knots,
+	piecewise_bezier_knots,
+	unspecified );
+END_TYPE;
+
+TYPE label = STRING;
+END_TYPE;
+
+TYPE layered_item = SELECT (
+	presentation_representation,
+	representation_item);
+END_TYPE;
+
+TYPE length_measure = REAL;
+END_TYPE;
+
+TYPE limit_condition = ENUMERATION OF (
+	maximum_material_condition,
+	least_material_condition,
+	regardless_of_feature_size );
+END_TYPE;
+
+TYPE list_of_reversible_topology_item = LIST [0:?] OF reversible_topology_item;
+END_TYPE;
+
+TYPE list_representation_item = LIST [1:?] OF representation_item;
+END_TYPE;
+
+TYPE luminous_flux_measure = REAL;
+END_TYPE;
+
+TYPE luminous_intensity_measure = REAL;
+END_TYPE;
+
+TYPE magnetic_flux_density_measure = REAL;
+END_TYPE;
+
+TYPE magnetic_flux_measure = REAL;
+END_TYPE;
+
+TYPE marker_select = SELECT (
+	marker_type,
+	pre_defined_marker);
+END_TYPE;
+
+TYPE marker_type = ENUMERATION OF (
+	dot,
+	x,
+	plus,
+	asterisk,
+	ring,
+	square,
+	triangle );
+END_TYPE;
+
+TYPE mass_measure = REAL;
+END_TYPE;
+
+TYPE measure_value = SELECT (
+	absorbed_dose_measure,
+	dose_equivalent_measure,
+	radioactivity_measure,
+	acceleration_measure,
+	amount_of_substance_measure,
+	area_measure,
+	celsius_temperature_measure,
+	context_dependent_measure,
+	count_measure,
+	descriptive_measure,
+	capacitance_measure,
+	electric_charge_measure,
+	conductance_measure,
+	electric_current_measure,
+	electric_potential_measure,
+	energy_measure,
+	magnetic_flux_density_measure,
+	force_measure,
+	frequency_measure,
+	illuminance_measure,
+	inductance_measure,
+	length_measure,
+	luminous_flux_measure,
+	luminous_intensity_measure,
+	magnetic_flux_measure,
+	mass_measure,
+	numeric_measure,
+	non_negative_length_measure,
+	parameter_value,
+	plane_angle_measure,
+	positive_length_measure,
+	positive_plane_angle_measure,
+	positive_ratio_measure,
+	power_measure,
+	pressure_measure,
+	ratio_measure,
+	resistance_measure,
+	solid_angle_measure,
+	thermodynamic_temperature_measure,
+	time_measure,
+	velocity_measure,
+	volume_measure);
+END_TYPE;
+
+TYPE mechanical_design_and_draughting_relationship_select = SELECT (
+	draughting_model,
+	mechanical_design_geometric_presentation_representation,
+	mechanical_design_presentation_representation_with_draughting,
+	mechanical_design_shaded_presentation_representation,
+	shape_representation);
+END_TYPE;
+
+TYPE mechanical_design_geometric_presentation_area_items = SELECT (
+	axis2_placement,
+	mapped_item);
+END_TYPE;
+
+TYPE mechanical_design_geometric_presentation_representation_items = SELECT (
+	axis2_placement,
+	camera_model_d3,
+	mapped_item,
+	styled_item);
+END_TYPE;
+
+TYPE message = STRING;
+END_TYPE;
+
+TYPE minute_in_hour = INTEGER;
+WHERE
+	WR1 : { 0 <= SELF <= 59 };
+END_TYPE;
+
+TYPE month_in_year_number = INTEGER;
+WHERE
+	WR1 : { 1 <= SELF <= 12 };
+END_TYPE;
+
+TYPE multi_language_attribute_item = SELECT (
+	alternate_product_relationship,
+	application_context,
+	applied_certification_assignment,
+	applied_document_reference,
+	applied_document_usage_constraint_assignment,
+	applied_external_identification_assignment,
+	applied_identification_assignment,
+	applied_organizational_project_assignment,
+	approval,
+	approval_relationship,
+	approval_status,
+	assembly_component_usage_substitute,
+	attribute_value_assignment,
+	certification,
+	certification_type,
+	colour,
+	configuration_design,
+	configuration_item,
+	contract,
+	date_role,
+	date_time_role,
+	descriptive_representation_item,
+	document_relationship,
+	document_usage_role,
+	effectivity,
+	effectivity_relationship,
+	event_occurrence,
+	external_source,
+	general_property,
+	general_property_relationship,
+	geometric_representation_item,
+	geometric_tolerance,
+	identification_role,
+	information_right,
+	information_usage_right,
+	make_from_usage_option,
+	mapped_item,
+	object_role,
+	organization_relationship,
+	organization_role,
+	organizational_project,
+	organizational_project_relationship,
+	organizational_project_role,
+	person_and_organization,
+	person_and_organization_role,
+	product,
+	product_concept,
+	product_concept_relationship,
+	product_definition,
+	product_definition_context,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	product_definition_shape,
+	product_related_product_category,
+	property_definition,
+	representation,
+	representation_relationship,
+	security_classification,
+	security_classification_assignment,
+	shape_aspect,
+	shape_aspect_relationship,
+	shape_representation,
+	time_interval_role,
+	topological_representation_item,
+	uncertainty_measure_with_unit,
+	usage_association);
+END_TYPE;
+
+TYPE name_attribute_select = SELECT (
+	action_request_solution,
+	address,
+	configuration_design,
+	context_dependent_shape_representation,
+	derived_unit,
+	effectivity,
+	person_and_organization,
+	product_definition,
+	product_definition_substitute,
+	property_definition_representation);
+END_TYPE;
+
+TYPE name_item = SELECT (
+	assembly_component_usage,
+	external_class_library,
+	group,
+	group_relationship,
+	product,
+	product_definition);
+END_TYPE;
+
+TYPE non_negative_length_measure = length_measure;
+WHERE
+	WR1 : SELF >= 0.0;
+END_TYPE;
+
+TYPE nonnegative_integer = INTEGER;
+WHERE
+	nonnegativity : SELF >= 0;
+END_TYPE;
+
+TYPE null_style = ENUMERATION OF (
+	null );
+END_TYPE;
+
+TYPE numeric_measure = NUMBER;
+END_TYPE;
+
+TYPE organization_item = SELECT (
+	action,
+	action_directive,
+	alternate_product_relationship,
+	applied_action_assignment,
+	applied_classification_assignment,
+	applied_identification_assignment,
+	applied_security_classification_assignment,
+	approval,
+	assembly_component_usage_substitute,
+	certification,
+	class,
+	configuration_item,
+	contract,
+	document_file,
+	executed_action,
+	general_property,
+	information_usage_right,
+	organizational_project,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	property_definition,
+	rule_action,
+	security_classification,
+	shape_representation,
+	versioned_action_request);
+END_TYPE;
+
+TYPE orientation_basis_select = SELECT (
+	axis2_placement_3d,
+	min_and_major_ply_orientation_basis);
+END_TYPE;
+
+TYPE parameter_value = REAL;
+END_TYPE;
+
+TYPE pcurve_or_surface = SELECT (
+	pcurve,
+	surface);
+END_TYPE;
+
+TYPE person_and_organization_item = SELECT (
+	action,
+	action_directive,
+	alternate_product_relationship,
+	applied_action_assignment,
+	applied_classification_assignment,
+	applied_identification_assignment,
+	applied_security_classification_assignment,
+	approval,
+	assembly_component_usage_substitute,
+	certification,
+	configuration_item,
+	contract,
+	document_file,
+	executed_action,
+	general_property,
+	information_usage_right,
+	organizational_project,
+	person_and_organization,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	property_definition,
+	rule_action,
+	security_classification,
+	shape_representation,
+	versioned_action_request);
+END_TYPE;
+
+TYPE person_organization_select = SELECT (
+	person,
+	organization,
+	person_and_organization);
+END_TYPE;
+
+TYPE picture_representation_item_select = SELECT (
+	styled_item,
+	planar_box,
+	axis2_placement_2d);
+END_TYPE;
+
+TYPE plane_angle_measure = REAL;
+END_TYPE;
+
+TYPE plane_or_planar_box = SELECT (
+	plane,
+	planar_box);
+END_TYPE;
+
+TYPE point_and_vector_member = SELECT (
+	point,
+	direction);
+END_TYPE;
+
+TYPE point_and_vector_members = LIST [2:3] OF point_and_vector_member;
+END_TYPE;
+
+TYPE point_path_members = LIST [1:?] OF point_and_vector;
+END_TYPE;
+
+TYPE positive_integer = nonnegative_integer;
+WHERE
+	positivity : SELF > 0;
+END_TYPE;
+
+TYPE positive_length_measure = non_negative_length_measure;
+WHERE
+	WR1 : SELF > 0.0;
+END_TYPE;
+
+TYPE positive_plane_angle_measure = plane_angle_measure;
+WHERE
+	WR1 : SELF > 0.0;
+END_TYPE;
+
+TYPE positive_ratio_measure = ratio_measure;
+WHERE
+	WR1 : SELF > 0.0;
+END_TYPE;
+
+TYPE power_measure = REAL;
+END_TYPE;
+
+TYPE preferred_surface_curve_representation = ENUMERATION OF (
+	curve_3d,
+	pcurve_s1,
+	pcurve_s2 );
+END_TYPE;
+
+TYPE presentable_text = STRING;
+WHERE
+	WR1 : control_characters_free(SELF);
+END_TYPE;
+
+TYPE presentation_representation_select = SELECT (
+	presentation_representation,
+	presentation_set);
+END_TYPE;
+
+TYPE presentation_size_assignment_select = SELECT (
+	presentation_view,
+	presentation_area,
+	area_in_set);
+END_TYPE;
+
+TYPE presentation_style_select = SELECT (
+	point_style,
+	curve_style,
+	surface_style_usage,
+	symbol_style,
+	fill_area_style,
+	text_style,
+	null_style);
+END_TYPE;
+
+TYPE presented_item_select = SELECT (
+	action,
+	action_method,
+	action_relationship,
+	product_concept,
+	product_concept_feature,
+	product_concept_feature_category,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship);
+END_TYPE;
+
+TYPE pressure_measure = REAL;
+END_TYPE;
+
+TYPE product_definition_or_assembly_relationship = SELECT (
+	assembly_component_usage,
+	product_definition);
+END_TYPE;
+
+TYPE product_definition_or_breakdown_element_usage = SELECT (
+	product_definition,
+	product_definition_usage);
+END_TYPE;
+
+TYPE product_definition_or_product_definition_relationship = SELECT (
+	product_definition,
+	product_definition_usage);
+END_TYPE;
+
+TYPE product_or_formation_or_definition = SELECT (
+	product,
+	product_definition_formation,
+	product_definition);
+END_TYPE;
+
+TYPE project_item = SELECT (
+	executed_action,
+	product_concept);
+END_TYPE;
+
+TYPE radioactivity_measure = REAL;
+END_TYPE;
+
+TYPE ratio_measure = REAL;
+END_TYPE;
+
+TYPE rendering_properties_select = SELECT (
+	surface_style_reflectance_ambient,
+	surface_style_transparent);
+END_TYPE;
+
+TYPE represented_definition = SELECT (
+	general_property,
+	property_definition,
+	property_definition_relationship,
+	shape_aspect,
+	shape_aspect_relationship);
+END_TYPE;
+
+TYPE requirement_assigned_item = SELECT (
+	configuration_item,
+	descriptive_representation_item,
+	product,
+	product_class,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship,
+	representation,
+	shape_aspect);
+END_TYPE;
+
+TYPE requirement_satisfaction_item = SELECT (
+	requirement_assigned_item);
+END_TYPE;
+
+TYPE requirement_source_item = SELECT (
+	characterized_object,
+	group,
+	group_relationship,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship,
+	shape_aspect);
+END_TYPE;
+
+TYPE resistance_measure = REAL;
+END_TYPE;
+
+TYPE reversible_topology = SELECT (
+	reversible_topology_item,
+	list_of_reversible_topology_item,
+	set_of_reversible_topology_item);
+END_TYPE;
+
+TYPE reversible_topology_item = SELECT (
+	edge,
+	path,
+	face,
+	face_bound,
+	closed_shell,
+	open_shell);
+END_TYPE;
+
+TYPE role_select = SELECT (
+	action_assignment,
+	action_request_assignment,
+	approval_assignment,
+	approval_date_time,
+	certification_assignment,
+	contract_assignment,
+	document_reference,
+	effectivity_assignment,
+	group_assignment,
+	name_assignment,
+	security_classification_assignment);
+END_TYPE;
+
+TYPE rule_superseded_item = SELECT (
+	product_definition_formation);
+END_TYPE;
+
+TYPE second_in_minute = REAL;
+WHERE
+	WR1 : { 0 <= SELF <= 60.0 };
+END_TYPE;
+
+TYPE security_classification_item = SELECT (
+	assembly_component_usage,
+	document,
+	document_file,
+	make_from_usage_option,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_usage);
+END_TYPE;
+
+TYPE set_of_reversible_topology_item = SET [0:?] OF reversible_topology_item;
+END_TYPE;
+
+TYPE set_representation_item = SET [1:?] OF representation_item;
+END_TYPE;
+
+TYPE shading_curve_method = ENUMERATION OF (
+	constant_colour,
+	linear_colour );
+END_TYPE;
+
+TYPE shading_surface_method = ENUMERATION OF (
+	constant_shading,
+	colour_shading,
+	dot_shading,
+	normal_shading );
+END_TYPE;
+
+TYPE shape_definition = SELECT (
+	product_definition_shape,
+	shape_aspect,
+	shape_aspect_relationship);
+END_TYPE;
+
+TYPE shell = SELECT (
+	vertex_shell,
+	wire_shell,
+	open_shell,
+	closed_shell);
+END_TYPE;
+
+TYPE si_prefix = ENUMERATION OF (
+	exa,
+	peta,
+	tera,
+	giga,
+	mega,
+	kilo,
+	hecto,
+	deca,
+	deci,
+	centi,
+	milli,
+	micro,
+	nano,
+	pico,
+	femto,
+	atto );
+END_TYPE;
+
+TYPE si_unit_name = ENUMERATION OF (
+	metre,
+	gram,
+	second,
+	ampere,
+	kelvin,
+	mole,
+	candela,
+	radian,
+	steradian,
+	hertz,
+	newton,
+	pascal,
+	joule,
+	watt,
+	coulomb,
+	volt,
+	farad,
+	ohm,
+	siemens,
+	weber,
+	tesla,
+	henry,
+	degree_Celsius,
+	lumen,
+	lux,
+	becquerel,
+	gray,
+	sievert );
+END_TYPE;
+
+TYPE size_select = SELECT (
+	positive_length_measure,
+	measure_with_unit,
+	descriptive_measure);
+END_TYPE;
+
+TYPE sketch_basis_select = SELECT (
+	curve_bounded_surface,
+	face_surface);
+END_TYPE;
+
+TYPE solid_angle_measure = REAL;
+END_TYPE;
+
+TYPE source = ENUMERATION OF (
+	made,
+	bought,
+	not_known );
+END_TYPE;
+
+TYPE source_item = SELECT (
+	identifier,
+	message);
+END_TYPE;
+
+TYPE start_request_item = SELECT (
+	product_definition_formation);
+END_TYPE;
+
+TYPE string_representation_item_select = SELECT (
+	descriptive_representation_item,
+	included_text_block,
+	structured_text_composition);
+END_TYPE;
+
+TYPE style_context_select = SELECT (
+	group,
+	presentation_layer_assignment,
+	presentation_set,
+	representation,
+	representation_item,
+	representation_relationship);
+END_TYPE;
+
+TYPE surface_side = ENUMERATION OF (
+	positive,
+	negative,
+	both );
+END_TYPE;
+
+TYPE surface_side_style_select = SELECT (
+	surface_side_style,
+	pre_defined_surface_side_style);
+END_TYPE;
+
+TYPE surface_style_element_select = SELECT (
+	surface_style_fill_area,
+	surface_style_boundary,
+	surface_style_silhouette,
+	surface_style_segmentation_curve,
+	surface_style_control_grid,
+	surface_style_parameter_line,
+	surface_style_rendering);
+END_TYPE;
+
+TYPE symbol_style_select = SELECT (
+	symbol_colour);
+END_TYPE;
+
+TYPE text = STRING;
+END_TYPE;
+
+TYPE text_alignment = label;
+END_TYPE;
+
+TYPE text_delineation = label;
+END_TYPE;
+
+TYPE text_or_character = SELECT (
+	annotation_text,
+	annotation_text_character,
+	composite_text,
+	text_literal);
+END_TYPE;
+
+TYPE text_path = ENUMERATION OF (
+	left,
+	right,
+	up,
+	down );
+END_TYPE;
+
+TYPE text_string_representation_item = SELECT (
+	text_literal,
+	annotation_text,
+	annotation_text_character,
+	composite_text,
+	axis2_placement);
+END_TYPE;
+
+TYPE thermodynamic_temperature_measure = REAL;
+END_TYPE;
+
+TYPE time_interval_item = SELECT (
+	action,
+	time_interval_based_effectivity);
+END_TYPE;
+
+TYPE time_measure = REAL;
+END_TYPE;
+
+TYPE tolerance_method_definition = SELECT (
+	tolerance_value,
+	limits_and_fits);
+END_TYPE;
+
+TYPE transformation = SELECT (
+	item_defined_transformation,
+	functionally_defined_transformation);
+END_TYPE;
+
+TYPE transition_code = ENUMERATION OF (
+	discontinuous,
+	continuous,
+	cont_same_gradient,
+	cont_same_gradient_same_curvature );
+END_TYPE;
+
+TYPE trim_condition_select = SELECT (
+	length_measure,
+	plane_angle_measure,
+	generalized_surface_select,
+	solid_model);
+END_TYPE;
+
+TYPE trim_intent = ENUMERATION OF (
+	blind,
+	offset,
+	through_all,
+	unspecified,
+	up_to_next );
+END_TYPE;
+
+TYPE trimming_preference = ENUMERATION OF (
+	cartesian,
+	parameter,
+	unspecified );
+END_TYPE;
+
+TYPE trimming_select = SELECT (
+	cartesian_point,
+	parameter_value);
+END_TYPE;
+
+TYPE u_direction_count = INTEGER;
+WHERE
+	WR1 : SELF > 1;
+END_TYPE;
+
+TYPE unit = SELECT (
+	derived_unit,
+	named_unit);
+END_TYPE;
+
+TYPE v_direction_count = INTEGER;
+WHERE
+	WR1 : SELF > 1;
+END_TYPE;
+
+TYPE value_qualifier = SELECT (
+	precision_qualifier,
+	type_qualifier,
+	uncertainty_qualifier);
+END_TYPE;
+
+TYPE vector_or_direction = SELECT (
+	vector,
+	direction);
+END_TYPE;
+
+TYPE velocity_measure = REAL;
+END_TYPE;
+
+TYPE volume_measure = REAL;
+END_TYPE;
+
+TYPE week_in_year_number = INTEGER;
+WHERE
+	WR1 : { 1 <= SELF <= 53 };
+END_TYPE;
+
+TYPE work_item = SELECT (
+	product_definition_formation);
+END_TYPE;
+
+TYPE year_number = INTEGER;
+END_TYPE;
+
+ENTITY absorbed_dose_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ABSORBED_DOSE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY absorbed_dose_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.gray);
+END_ENTITY;
+
+
+ENTITY abstract_variable
+	SUBTYPE OF (property_definition, property_definition_representation, representation, representation_item);
+END_ENTITY;
+
+
+ENTITY acceleration_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ACCELERATION_UNIT' IN TYPEOF (SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY acceleration_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = 
+       dimensional_exponents ( 1.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0 );
+END_ENTITY;
+
+
+ENTITY action;
+	name : label;
+	description : OPTIONAL text;
+	chosen_method : action_method;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY action_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_action : action;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY action_directive;
+	name : label;
+	description : OPTIONAL text;
+	analysis : text;
+	comment : text;
+	requests : SET [1:?] OF versioned_action_request;
+END_ENTITY;
+
+
+ENTITY action_method;
+	name : label;
+	description : OPTIONAL text;
+	consequence : text;
+	purpose : text;
+END_ENTITY;
+
+
+ENTITY action_method_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_action_method : action_method;
+	role : action_method_role;
+END_ENTITY;
+
+
+ENTITY action_method_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_method : action_method;
+	related_method : action_method;
+END_ENTITY;
+
+
+ENTITY action_method_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY action_property;
+	name : label;
+	description : text;
+	definition : characterized_action_definition;
+END_ENTITY;
+
+
+ENTITY action_property_representation;
+	name : label;
+	description : text;
+	property : action_property;
+	representation : representation;
+END_ENTITY;
+
+
+ENTITY action_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_action : action;
+	related_action : action;
+END_ENTITY;
+
+
+ENTITY action_request_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_action_request : versioned_action_request;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY action_request_solution;
+	method : action_method;
+	request : versioned_action_request;
+DERIVE
+	description : text := get_description_value(SELF);
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY action_request_status;
+	status : label;
+	assigned_request : versioned_action_request;
+END_ENTITY;
+
+
+ENTITY action_status;
+	status : label;
+	assigned_action : executed_action;
+END_ENTITY;
+
+
+ENTITY address;
+	internal_location : OPTIONAL label;
+	street_number : OPTIONAL label;
+	street : OPTIONAL label;
+	postal_box : OPTIONAL label;
+	town : OPTIONAL label;
+	region : OPTIONAL label;
+	postal_code : OPTIONAL label;
+	country : OPTIONAL label;
+	facsimile_number : OPTIONAL label;
+	telephone_number : OPTIONAL label;
+	electronic_mail_address : OPTIONAL label;
+	telex_number : OPTIONAL label;
+DERIVE
+	name : label := get_name_value(SELF);
+	url : identifier := get_id_value(SELF);
+WHERE
+	WR1 : EXISTS(internal_location) OR EXISTS(street_number) OR EXISTS(street) OR EXISTS(postal_box) OR EXISTS(town) OR EXISTS(region) OR EXISTS(postal_code) OR EXISTS(country) OR EXISTS(facsimile_number) OR EXISTS(telephone_number) OR EXISTS(electronic_mail_address) OR EXISTS(telex_number);
+END_ENTITY;
+
+
+ENTITY advanced_brep_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF ( 
+QUERY ( it <* SELF.items| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' ] * TYPEOF (it)) = 1) )) = 0;
+	WR2 : SIZEOF ( 
+QUERY ( it <* SELF.items| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ] * TYPEOF (it)) = 1) )) > 0;
+	WR3 : SIZEOF ( 
+QUERY ( msb <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( csh <* msb_shells(msb)| NOT ( SIZEOF ( 
+QUERY ( fcs <* csh\connected_face_set.cfs_faces| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fcs)) )) = 0) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( msb <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF (it)) )| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL' IN TYPEOF (msb\manifold_solid_brep.outer)) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( brv <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BREP_WITH_VOIDS' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( csh <* brv\brep_with_voids.voids| csh\oriented_closed_shell.orientation )) = 0) )) = 0;
+	WR6 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_BREP_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+END_ENTITY;
+
+
+ENTITY advanced_face
+	SUBTYPE OF (face_surface);
+WHERE
+	WR1 : SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_SURFACE' ] * TYPEOF (face_geometry)) = 1;
+	WR2 : SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| NOT ( SIZEOF ( 
+QUERY ( oe <* elp_fbnds.bound\path.edge_list| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF (oe\oriented_edge.edge_element)) )) = 0) )) = 0;
+	WR3 : SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| NOT ( SIZEOF ( 
+QUERY ( oe <* elp_fbnds.bound\path.edge_list| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' ] * TYPEOF (oe.edge_element\edge_curve.edge_geometry)) = 1) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| NOT ( SIZEOF ( 
+QUERY ( oe <* elp_fbnds.bound\path.edge_list| NOT ((('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (oe\edge.edge_start)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (oe\edge.edge_start\vertex_point.vertex_geometry))) AND (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (oe\edge.edge_end)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (oe\edge.edge_end\vertex_point.vertex_geometry)))) )) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_PATH' IN TYPEOF (elp_fbnds.bound)) )) = 0;
+	WR6 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_SURFACE' IN TYPEOF (face_geometry)) OR ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' ] * TYPEOF (face_geometry\swept_surface.swept_curve)) = 1);
+	WR7 : SIZEOF ( 
+QUERY ( vlp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (bnds.bound)) )| NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (vlp_fbnds\face_bound.bound\vertex_loop.loop_vertex)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (vlp_fbnds\face_bound.bound\vertex_loop.loop_vertex\vertex_point.vertex_geometry))) )) = 0;
+	WR8 : SIZEOF ( 
+QUERY ( bnd <* bounds| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' ] * TYPEOF (bnd.bound)) = 1) )) = 0;
+	WR9 : SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| NOT ( SIZEOF ( 
+QUERY ( oe <* elp_fbnds.bound\path.edge_list| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF (oe\oriented_edge.edge_element\edge_curve.edge_geometry)) AND NOT ( SIZEOF ( 
+QUERY ( sc_ag <* oe.edge_element\edge_curve.edge_geometry\surface_curve.associated_geometry| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF (sc_ag)) )) = 0) )) = 0) )) = 0;
+	WR10 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_SURFACE' IN TYPEOF (face_geometry)) OR (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (face_geometry\swept_surface.swept_curve)) OR ( SIZEOF (face_geometry\swept_surface.swept_curve\polyline.points) >= 3))) AND ( SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| NOT ( SIZEOF ( 
+QUERY ( oe <* elp_fbnds.bound\path.edge_list| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (oe\oriented_edge.edge_element\edge_curve.edge_geometry)) AND NOT ( SIZEOF (oe\oriented_edge.edge_element\edge_curve.edge_geometry\polyline.points) >= 3) )) = 0) )) = 0);
+END_ENTITY;
+
+
+ENTITY alternate_product_relationship;
+	name : label;
+	definition : OPTIONAL text;
+	alternate : product;
+	base : product;
+	basis : text;
+UNIQUE
+	UR1 : alternate, base;
+WHERE
+	WR1 : alternate :<>: base;
+END_ENTITY;
+
+
+ENTITY amount_of_substance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AMOUNT_OF_SUBSTANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY amount_of_substance_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 1.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY angle_direction_reference
+	SUBTYPE OF (representation_item_relationship, geometric_representation_item);
+	SELF\representation_item_relationship.related_representation_item : angle_direction_reference_select;
+	SELF\representation_item_relationship.relating_representation_item : orientation_basis_select;
+WHERE
+	WR1 : ((('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_PATH' IN TYPEOF(related_representation_item)) AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MIN_AND_MAJOR_PLY_ORIENTATION_BASIS' IN TYPEOF(relating_representation_item))) 
+        OR
+		(NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_PATH' IN TYPEOF(related_representation_item)) AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' IN TYPEOF(relating_representation_item))));
+END_ENTITY;
+
+
+ENTITY angular_dimension
+	SUBTYPE OF (dimension_curve_directed_callout);
+END_ENTITY;
+
+
+ENTITY angular_location
+	SUBTYPE OF (dimensional_location);
+	angle_selection : angle_relator;
+END_ENTITY;
+
+
+ENTITY angular_size
+	SUBTYPE OF (dimensional_size);
+	angle_selection : angle_relator;
+END_ENTITY;
+
+
+ENTITY angularity_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) < 3;
+END_ENTITY;
+
+
+ENTITY annotation_curve_occurrence
+	SUBTYPE OF (annotation_occurrence);
+	SELF\styled_item.item : curve;
+END_ENTITY;
+
+
+ENTITY annotation_fill_area
+	SUBTYPE OF (geometric_representation_item);
+	boundaries : SET [1:?] OF curve;
+WHERE
+	WR1 : (SELF\geometric_representation_item.dim = 3) OR (SIZEOF (QUERY (curve <* SELF.boundaries |
+          NOT (
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE' IN TYPEOF (curve)) OR 
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE' IN TYPEOF (curve)) OR 
+              ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF (curve)) 
+                   AND (curve\b_spline_curve.closed_curve = TRUE) ) OR 
+              ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE' IN TYPEOF (curve)) 
+                   AND (curve\composite_curve.closed_curve = TRUE) ) OR 
+              ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (curve)) 
+                   AND (curve\polyline.points[LOINDEX(curve\polyline.points)] = 
+                        curve\polyline.points[HIINDEX(curve\polyline.points)]) )
+              ) )) = 0);
+END_ENTITY;
+
+
+ENTITY annotation_fill_area_occurrence
+	SUBTYPE OF (annotation_occurrence);
+	fill_style_target : point;
+	SELF\styled_item.item : annotation_fill_area;
+END_ENTITY;
+
+
+ENTITY annotation_occurrence
+	SUPERTYPE OF (ONEOF (annotation_curve_occurrence, annotation_fill_area_occurrence, annotation_text_occurrence, annotation_symbol_occurrence))
+	SUBTYPE OF (styled_item);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_ITEM' IN
+             TYPEOF (SELF);
+	WR2 : SIZEOF (QUERY (reps <* using_representations(SELF) | 
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_REPRESENTATION_SELECT' IN TYPEOF(reps)))) = 0;
+END_ENTITY;
+
+
+ENTITY annotation_occurrence_associativity
+	SUBTYPE OF (annotation_occurrence_relationship);
+WHERE
+	WR1 : SIZEOF (TYPEOF (SELF.related_annotation_occurrence) *
+          ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_FILL_AREA_OCCURRENCE',
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE',
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE']) = 1;
+END_ENTITY;
+
+
+ENTITY annotation_occurrence_relationship;
+	name : label;
+	description : text;
+	relating_annotation_occurrence : annotation_occurrence;
+	related_annotation_occurrence : annotation_occurrence;
+END_ENTITY;
+
+
+ENTITY annotation_plane
+	SUBTYPE OF (annotation_occurrence, geometric_representation_item);
+	elements : OPTIONAL SET [1:?] OF annotation_plane_element;
+	SELF\styled_item.item : plane_or_planar_box;
+WHERE
+	WR1 : SELF\geometric_representation_item.dim = 3;
+	WR2 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PLANAR_BOX' IN TYPEOF(SELF\styled_item.item)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'AXIS2_PLACEMENT_3D' IN TYPEOF(SELF\styled_item.item\planar_box.placement));
+	WR3 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PLANAR_BOX' IN TYPEOF(SELF\styled_item.item)) AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'CURVE_STYLE' IN TYPEOF(SELF\styled_item.styles[1]\presentation_style_assignment.styles[1]))) OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PLANE' IN TYPEOF(SELF\styled_item.item)) AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'FILL_AREA_STYLE' IN TYPEOF(SELF\styled_item.styles[1]\presentation_style_assignment.styles[1])));
+	WR4 : (SIZEOF(SELF\styled_item.styles) = 1) AND
+        (SIZEOF(SELF\styled_item.styles[1]\presentation_style_assignment.styles) = 1);
+END_ENTITY;
+
+
+ENTITY annotation_subfigure_occurrence
+	SUBTYPE OF (annotation_symbol_occurrence);
+WHERE
+	WR1 : SIZEOF (QUERY (sty <* SELF.styles |
+         NOT (SIZEOF (sty.styles) = 1)
+       )) = 0;
+	WR2 : SIZEOF (QUERY (sty <* SELF.styles |
+         NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NULL_STYLE'
+               IN TYPEOF (sty.styles[1]))       ))=0;
+	WR3 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL'
+           IN TYPEOF (SELF.item));
+	WR4 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_SUBFIGURE_REPRESENTATION'
+           IN TYPEOF
+           (SELF.item\mapped_item.mapping_source.mapped_representation));
+END_ENTITY;
+
+
+ENTITY annotation_symbol
+	SUBTYPE OF (mapped_item);
+	SELF\mapped_item.mapping_source : symbol_representation_map;
+	SELF\mapped_item.mapping_target : symbol_target;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_ITEM' IN
+          TYPEOF (SELF);
+END_ENTITY;
+
+
+ENTITY annotation_symbol_occurrence
+	SUBTYPE OF (annotation_occurrence);
+	SELF\styled_item.item : annotation_symbol_occurrence_item;
+END_ENTITY;
+
+
+ENTITY annotation_text
+	SUBTYPE OF (mapped_item);
+	SELF\mapped_item.mapping_target : axis2_placement;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_STRING_REPRESENTATION' IN
+        TYPEOF( SELF\mapped_item.mapping_source.mapped_representation);
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_ITEM' IN
+        TYPEOF( SELF);
+END_ENTITY;
+
+
+ENTITY annotation_text_character
+	SUBTYPE OF (mapped_item);
+	alignment : text_alignment;
+	SELF\mapped_item.mapping_target : axis2_placement;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CHARACTER_GLYPH_SYMBOL' IN
+         TYPEOF (SELF\mapped_item.mapping_source.mapped_representation);
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_ITEM' IN
+         TYPEOF (SELF);
+END_ENTITY;
+
+
+ENTITY annotation_text_occurrence
+	SUBTYPE OF (annotation_occurrence);
+	SELF\styled_item.item : annotation_text_occurrence_item;
+END_ENTITY;
+
+
+ENTITY apex
+	SUBTYPE OF (derived_shape_aspect);
+END_ENTITY;
+
+
+ENTITY application_context;
+	application : label;
+DERIVE
+	description : text := get_description_value(SELF);
+	id : identifier := get_id_value(SELF);
+INVERSE
+	context_elements: SET [1:?] OF application_context_element FOR frame_of_reference;
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY application_context_element
+	SUPERTYPE OF (ONEOF (product_concept_context, product_context, product_definition_context));
+	name : label;
+	frame_of_reference : application_context;
+END_ENTITY;
+
+
+ENTITY application_protocol_definition;
+	status : label;
+	application_interpreted_model_schema_name : label;
+	application_protocol_year : year_number;
+	application : application_context;
+END_ENTITY;
+
+
+ENTITY applied_action_assignment
+	SUBTYPE OF (action_assignment);
+	items : SET [1:?] OF action_items;
+END_ENTITY;
+
+
+ENTITY applied_action_method_assignment
+	SUBTYPE OF (action_method_assignment);
+	items : SET [1:?] OF action_method_items;
+END_ENTITY;
+
+
+ENTITY applied_action_request_assignment
+	SUBTYPE OF (action_request_assignment);
+	items : SET [1:?] OF action_request_item;
+END_ENTITY;
+
+
+ENTITY applied_approval_assignment
+	SUBTYPE OF (approval_assignment);
+	items : SET [1:?] OF approval_item;
+END_ENTITY;
+
+
+ENTITY applied_attribute_classification_assignment
+	SUBTYPE OF (attribute_classification_assignment);
+	items : SET [1:?] OF attribute_classification_item;
+	SELF\attribute_classification_assignment.assigned_class : class;
+END_ENTITY;
+
+
+ENTITY applied_certification_assignment
+	SUBTYPE OF (certification_assignment);
+	items : SET [1:?] OF certification_item;
+END_ENTITY;
+
+
+ENTITY applied_classification_assignment
+	SUBTYPE OF (classification_assignment);
+	items : SET [1:?] OF classification_item;
+END_ENTITY;
+
+
+ENTITY applied_contract_assignment
+	SUBTYPE OF (contract_assignment);
+	items : SET [1:?] OF contract_item;
+END_ENTITY;
+
+
+ENTITY applied_date_and_time_assignment
+	SUBTYPE OF (date_and_time_assignment);
+	items : SET [1:?] OF date_and_time_item;
+END_ENTITY;
+
+
+ENTITY applied_date_assignment
+	SUBTYPE OF (date_assignment);
+	items : SET [1:?] OF date_item;
+END_ENTITY;
+
+
+ENTITY applied_document_reference
+	SUBTYPE OF (document_reference);
+	items : SET [1:?] OF document_reference_item;
+END_ENTITY;
+
+
+ENTITY applied_document_usage_constraint_assignment
+	SUBTYPE OF (document_usage_constraint_assignment);
+	items : SET [1:?] OF document_reference_item;
+END_ENTITY;
+
+
+ENTITY applied_effectivity_assignment
+	SUBTYPE OF (effectivity_assignment);
+	items : SET [1:?] OF effectivity_item;
+END_ENTITY;
+
+
+ENTITY applied_event_occurrence_assignment
+	SUBTYPE OF (event_occurrence_assignment);
+	items : SET [1:?] OF event_occurrence_item;
+END_ENTITY;
+
+
+ENTITY applied_external_identification_assignment
+	SUBTYPE OF (external_identification_assignment);
+	items : SET [1:?] OF external_identification_item;
+END_ENTITY;
+
+
+ENTITY applied_group_assignment
+	SUBTYPE OF (group_assignment);
+	items : SET [1:?] OF groupable_item;
+END_ENTITY;
+
+
+ENTITY applied_identification_assignment
+	SUBTYPE OF (identification_assignment);
+	items : SET [1:?] OF identification_item;
+END_ENTITY;
+
+
+ENTITY applied_name_assignment
+	SUBTYPE OF (name_assignment);
+	item : name_item;
+END_ENTITY;
+
+
+ENTITY applied_organization_assignment
+	SUBTYPE OF (organization_assignment);
+	items : SET [1:?] OF organization_item;
+END_ENTITY;
+
+
+ENTITY applied_organizational_project_assignment
+	SUBTYPE OF (organizational_project_assignment);
+	items : SET [1:?] OF project_item;
+END_ENTITY;
+
+
+ENTITY applied_person_and_organization_assignment
+	SUBTYPE OF (person_and_organization_assignment);
+	items : SET [1:?] OF person_and_organization_item;
+END_ENTITY;
+
+
+ENTITY applied_presented_item
+	SUBTYPE OF (presented_item);
+	items : SET [1:?] OF presented_item_select;
+END_ENTITY;
+
+
+ENTITY applied_security_classification_assignment
+	SUBTYPE OF (security_classification_assignment);
+	items : SET [1:?] OF security_classification_item;
+END_ENTITY;
+
+
+ENTITY applied_time_interval_assignment
+	SUBTYPE OF (time_interval_assignment);
+	items : SET [0:?] OF time_interval_item;
+END_ENTITY;
+
+
+ENTITY applied_usage_right
+	SUBTYPE OF (applied_action_assignment);
+	SELF\applied_action_assignment.items : SET [1:?] OF ir_usage_item;
+END_ENTITY;
+
+
+ENTITY approval;
+	status : approval_status;
+	level : label;
+END_ENTITY;
+
+
+ENTITY approval_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_approval : approval;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY approval_date_time;
+	date_time : date_time_select;
+	dated_approval : approval;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY approval_person_organization;
+	person_organization : person_organization_select;
+	authorized_approval : approval;
+	role : approval_role;
+END_ENTITY;
+
+
+ENTITY approval_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_approval : approval;
+	related_approval : approval;
+END_ENTITY;
+
+
+ENTITY approval_role;
+	role : label;
+DERIVE
+	description : text := get_description_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY approval_status;
+	name : label;
+END_ENTITY;
+
+
+ENTITY area_in_set;
+	area : presentation_area;
+	in_set : presentation_set;
+END_ENTITY;
+
+
+ENTITY area_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AREA_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY area_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = 
+      dimensional_exponents ( 2.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 );
+END_ENTITY;
+
+
+ENTITY assembly_component_usage
+	SUPERTYPE OF (ONEOF (next_assembly_usage_occurrence, specified_higher_usage_occurrence, promissory_usage_occurrence))
+	SUBTYPE OF (product_definition_usage);
+	reference_designator : OPTIONAL identifier;
+END_ENTITY;
+
+
+ENTITY assembly_component_usage_substitute;
+	name : label;
+	definition : OPTIONAL text;
+	base : assembly_component_usage;
+	substitute : assembly_component_usage;
+UNIQUE
+	UR1 : base, substitute;
+WHERE
+	WR1 : base.relating_product_definition :=:
+       substitute.relating_product_definition;
+	WR2 : base :<>: substitute;
+END_ENTITY;
+
+
+ENTITY assigned_requirement
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF product_definition;
+	SELF\group_assignment.assigned_group : requirement_assignment;
+END_ENTITY;
+
+
+ENTITY atomic_formula
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY attribute_assertion
+	SUBTYPE OF (fact_type, property_definition_representation, representation);
+END_ENTITY;
+
+
+ENTITY attribute_classification_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_class : group;
+	attribute_name : label;
+	role : classification_role;
+END_ENTITY;
+
+
+ENTITY attribute_language_assignment
+	SUBTYPE OF (attribute_classification_assignment);
+	items : SET [1:?] OF attribute_language_item;
+	SELF\attribute_classification_assignment.assigned_class : language;
+WHERE
+	WR1 : SELF\attribute_classification_assignment.role.name IN ['primary', 'translated'];
+	WR2 : SELF\attribute_classification_assignment.attribute_name<> '';
+END_ENTITY;
+
+
+ENTITY attribute_value_assignment
+	ABSTRACT SUPERTYPE;
+	attribute_name : label;
+	attribute_value : attribute_type;
+	role : attribute_value_role;
+END_ENTITY;
+
+
+ENTITY attribute_value_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY auxiliary_geometric_representation_item
+	SUBTYPE OF (geometric_representation_item, variational_representation_item);
+END_ENTITY;
+
+
+ENTITY axis1_placement
+	SUBTYPE OF (placement);
+	axis : OPTIONAL direction;
+DERIVE
+	z : direction := NVL(normalise(axis), dummy_gri ||
+                                 direction([0.0,0.0,1.0]));
+WHERE
+	WR1 : SELF\geometric_representation_item.dim  = 3;
+END_ENTITY;
+
+
+ENTITY axis2_placement_2d
+	SUBTYPE OF (placement);
+	ref_direction : OPTIONAL direction;
+DERIVE
+	p : LIST [2:2] OF direction := build_2axes(ref_direction);
+WHERE
+	WR1 : SELF\geometric_representation_item.dim = 2;
+END_ENTITY;
+
+
+ENTITY axis2_placement_3d
+	SUBTYPE OF (placement);
+	axis : OPTIONAL direction;
+	ref_direction : OPTIONAL direction;
+DERIVE
+	p : LIST [3:3] OF direction := build_axes(axis,ref_direction);
+WHERE
+	WR1 : SELF\placement.location.dim = 3;
+	WR2 : (NOT (EXISTS (axis))) OR (axis.dim = 3);
+	WR3 : (NOT (EXISTS (ref_direction))) OR (ref_direction.dim = 3);
+	WR4 : (NOT (EXISTS (axis))) OR (NOT (EXISTS (ref_direction))) OR
+          (cross_product(axis,ref_direction).magnitude > 0.0);
+END_ENTITY;
+
+
+ENTITY b_spline_curve
+	SUPERTYPE OF ((ONEOF (uniform_curve, b_spline_curve_with_knots, quasi_uniform_curve, bezier_curve) ANDOR rational_b_spline_curve))
+	SUBTYPE OF (bounded_curve);
+	degree : INTEGER;
+	control_points_list : LIST [2:?] OF cartesian_point;
+	curve_form : b_spline_curve_form;
+	closed_curve : LOGICAL;
+	self_intersect : LOGICAL;
+DERIVE
+	control_points : ARRAY [0:upper_index_on_control_points] OF cartesian_point := list_to_array(control_points_list,0,
+                                             upper_index_on_control_points);
+	upper_index_on_control_points : INTEGER := (SIZEOF(control_points_list) - 1);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.UNIFORM_CURVE' IN TYPEOF(self)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.QUASI_UNIFORM_CURVE' IN TYPEOF(self)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BEZIER_CURVE' IN TYPEOF(self)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE_WITH_KNOTS' IN TYPEOF(self));
+END_ENTITY;
+
+
+ENTITY b_spline_curve_with_knots
+	SUBTYPE OF (b_spline_curve);
+	knot_multiplicities : LIST [2:?] OF INTEGER;
+	knots : LIST [2:?] OF parameter_value;
+	knot_spec : knot_type;
+DERIVE
+	upper_index_on_knots : INTEGER := SIZEOF(knots);
+WHERE
+	WR1 : constraints_param_b_spline(degree, upper_index_on_knots,
+                               upper_index_on_control_points,
+                               knot_multiplicities, knots);
+	WR2 : SIZEOF(knot_multiplicities) = upper_index_on_knots;
+END_ENTITY;
+
+
+ENTITY b_spline_surface
+	SUPERTYPE OF ((ONEOF (b_spline_surface_with_knots, uniform_surface, quasi_uniform_surface, bezier_surface) ANDOR rational_b_spline_surface))
+	SUBTYPE OF (bounded_surface);
+	u_degree : INTEGER;
+	v_degree : INTEGER;
+	control_points_list : LIST [2:?] OF LIST [2:?] OF cartesian_point;
+	surface_form : b_spline_surface_form;
+	u_closed : LOGICAL;
+	v_closed : LOGICAL;
+	self_intersect : LOGICAL;
+DERIVE
+	control_points : ARRAY [0:u_upper] OF ARRAY [0:v_upper] OF cartesian_point := make_array_of_array(control_points_list,
+                                              0,u_upper,0,v_upper);
+	u_upper : INTEGER := SIZEOF(control_points_list) - 1;
+	v_upper : INTEGER := SIZEOF(control_points_list[1]) - 1;
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.UNIFORM_SURFACE' IN TYPEOF(SELF)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.QUASI_UNIFORM_SURFACE' IN TYPEOF(SELF)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BEZIER_SURFACE' IN TYPEOF(SELF)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE_WITH_KNOTS' IN TYPEOF(SELF));
+END_ENTITY;
+
+
+ENTITY b_spline_surface_with_knots
+	SUBTYPE OF (b_spline_surface);
+	u_multiplicities : LIST [2:?] OF INTEGER;
+	v_multiplicities : LIST [2:?] OF INTEGER;
+	u_knots : LIST [2:?] OF parameter_value;
+	v_knots : LIST [2:?] OF parameter_value;
+	knot_spec : knot_type;
+DERIVE
+	knot_u_upper : INTEGER := SIZEOF(u_knots);
+	knot_v_upper : INTEGER := SIZEOF(v_knots);
+WHERE
+	WR1 : constraints_param_b_spline(SELF\b_spline_surface.u_degree,
+                   knot_u_upper, SELF\b_spline_surface.u_upper,
+                               u_multiplicities, u_knots);
+	WR2 : constraints_param_b_spline(SELF\b_spline_surface.v_degree,
+                   knot_v_upper, SELF\b_spline_surface.v_upper,
+                               v_multiplicities, v_knots);
+	WR3 : SIZEOF(u_multiplicities) = knot_u_upper;
+	WR4 : SIZEOF(v_multiplicities) = knot_v_upper;
+END_ENTITY;
+
+
+ENTITY back_chaining_rule
+	SUBTYPE OF (rule_definition);
+END_ENTITY;
+
+
+ENTITY back_chaining_rule_body
+	SUBTYPE OF (property_definition, property_definition_representation, representation);
+END_ENTITY;
+
+
+ENTITY background_colour
+	SUBTYPE OF (colour);
+	presentation : area_or_view;
+UNIQUE
+	UR1 : presentation;
+END_ENTITY;
+
+
+ENTITY beveled_sheet_representation
+	SUBTYPE OF (shape_representation);
+END_ENTITY;
+
+
+ENTITY bezier_curve
+	SUBTYPE OF (b_spline_curve);
+END_ENTITY;
+
+
+ENTITY bezier_surface
+	SUBTYPE OF (b_spline_surface);
+END_ENTITY;
+
+
+ENTITY binary_generic_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (generic_expression);
+	operands : LIST [2:2] OF generic_expression;
+END_ENTITY;
+
+
+ENTITY binary_numeric_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (numeric_expression, binary_generic_expression);
+	SELF\binary_generic_expression.operands : LIST [2:2] OF numeric_expression;
+END_ENTITY;
+
+
+ENTITY binary_representation_item
+	SUBTYPE OF (representation_item);
+	binary_value : BINARY;
+END_ENTITY;
+
+
+ENTITY block
+	SUBTYPE OF (geometric_representation_item);
+	position : axis2_placement_3d;
+	x : positive_length_measure;
+	y : positive_length_measure;
+	z : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY boolean_expression
+	ABSTRACT SUPERTYPE OF (ONEOF (simple_boolean_expression, multiple_arity_boolean_expression, comparison_expression, interval_expression))
+	SUBTYPE OF (expression);
+END_ENTITY;
+
+
+ENTITY boolean_literal
+	SUBTYPE OF (simple_boolean_expression, generic_literal);
+	the_value : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY boolean_representation_item
+	SUBTYPE OF (representation_item, boolean_literal);
+END_ENTITY;
+
+
+ENTITY boolean_result
+	SUBTYPE OF (geometric_representation_item);
+	operator : boolean_operator;
+	first_operand : boolean_operand;
+	second_operand : boolean_operand;
+END_ENTITY;
+
+
+ENTITY boundary_curve
+	SUBTYPE OF (composite_curve_on_surface);
+WHERE
+	WR1 : SELF\composite_curve.closed_curve;
+END_ENTITY;
+
+
+ENTITY bounded_curve
+	SUPERTYPE OF (ONEOF (polyline, b_spline_curve, trimmed_curve, bounded_pcurve, bounded_surface_curve, composite_curve))
+	SUBTYPE OF (curve);
+END_ENTITY;
+
+
+ENTITY bounded_pcurve
+	SUBTYPE OF (pcurve, bounded_curve);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE' IN
+                   TYPEOF(SELF\pcurve.reference_to_curve.items[1]));
+END_ENTITY;
+
+
+ENTITY bounded_surface
+	SUPERTYPE OF (ONEOF (b_spline_surface, rectangular_trimmed_surface, curve_bounded_surface, rectangular_composite_surface))
+	SUBTYPE OF (surface);
+END_ENTITY;
+
+
+ENTITY bounded_surface_curve
+	SUBTYPE OF (surface_curve, bounded_curve);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE' IN
+             TYPEOF(SELF\surface_curve.curve_3d));
+END_ENTITY;
+
+
+ENTITY box_domain
+	SUBTYPE OF (founded_item);
+	corner : cartesian_point;
+	xlength : positive_length_measure;
+	ylength : positive_length_measure;
+	zlength : positive_length_measure;
+WHERE
+	WR1 : SIZEOF(QUERY(item <* USEDIN(SELF,'')|
+             NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOXED_HALF_SPACE'
+                    IN TYPEOF(item)))) = 0;
+END_ENTITY;
+
+
+ENTITY boxed_half_space
+	SUBTYPE OF (half_space_solid);
+	enclosure : box_domain;
+END_ENTITY;
+
+
+ENTITY breakdown_context
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY breakdown_element_group_assignment
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF product_definition_or_breakdown_element_usage;
+	SELF\group_assignment.assigned_group : product_definition_element_relationship;
+END_ENTITY;
+
+
+ENTITY breakdown_element_realization
+	SUBTYPE OF (characterized_object, product_definition_element_relationship);
+END_ENTITY;
+
+
+ENTITY breakdown_element_usage
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY breakdown_of
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY brep_with_voids
+	SUBTYPE OF (manifold_solid_brep);
+	voids : SET [1:?] OF oriented_closed_shell;
+END_ENTITY;
+
+
+ENTITY bytes_representation_item
+	SUBTYPE OF (binary_representation_item);
+DERIVE
+	no_of_bytes : INTEGER := BLENGTH(SELF\binary_representation_item.binary_value) DIV 8;
+WHERE
+	WR1 : BLENGTH(SELF\binary_representation_item.binary_value) MOD 8 = 0;
+END_ENTITY;
+
+
+ENTITY calendar_date
+	SUBTYPE OF (date);
+	day_component : day_in_month_number;
+	month_component : month_in_year_number;
+WHERE
+	WR1 : valid_calendar_date (SELF);
+END_ENTITY;
+
+
+ENTITY camera_image
+	SUBTYPE OF (mapped_item);
+	SELF\mapped_item.mapping_source : camera_usage;
+	SELF\mapped_item.mapping_target : planar_box;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_ITEM'
+        IN TYPEOF (SELF);
+END_ENTITY;
+
+
+ENTITY camera_image_3d_with_scale
+	SUBTYPE OF (camera_image);
+DERIVE
+	scale : positive_ratio_measure := ((SELF\mapped_item.mapping_target\
+           planar_extent.size_in_x) / (SELF\mapped_item.mapping_source.
+           mapping_origin\camera_model_d3.perspective_of_volume.view_window.
+           size_in_x));
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CAMERA_MODEL_D3'
+         IN TYPEOF (SELF\mapped_item.mapping_source.mapping_origin));
+	WR2 : aspect_ratio(SELF\mapped_item.mapping_target) =
+           aspect_ratio(SELF\mapped_item.mapping_source.mapping_origin\
+           camera_model_d3.perspective_of_volume.view_window);
+	WR3 : SELF\mapped_item.mapping_source.mapping_origin\camera_model_d3.
+           perspective_of_volume.front_plane_clipping
+           AND
+           SELF\mapped_item.mapping_source.mapping_origin\camera_model_d3.
+           perspective_of_volume.view_volume_sides_clipping;
+	WR4 : (SELF\mapped_item.mapping_target\planar_extent.size_in_x > 0)
+           AND
+           (SELF\mapped_item.mapping_target\planar_extent.size_in_y > 0);
+	WR5 : (SELF\mapped_item.mapping_source.mapping_origin\camera_model_d3.
+           perspective_of_volume.view_window.size_in_x > 0)
+           AND
+           (SELF\mapped_item.mapping_source.mapping_origin\camera_model_d3.
+           perspective_of_volume.view_window.size_in_y > 0);
+	WR6 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+            'AXIS2_PLACEMENT_2D' IN TYPEOF (SELF\mapped_item.
+           mapping_target\planar_box.placement))
+           AND NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+           'AXIS2_PLACEMENT_3D' IN TYPEOF (SELF\mapped_item.
+           mapping_target\planar_box.placement));
+END_ENTITY;
+
+
+ENTITY camera_model
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (geometric_representation_item);
+WHERE
+	WR1 : (SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                  'ITEM_DEFINED_TRANSFORMATION.' +
+                                  'TRANSFORM_ITEM_1')) +
+            SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                  'REPRESENTATION_MAP.MAPPING_ORIGIN'))
+            ) > 0;
+	WR2 : SIZEOF(USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                              'STYLED_ITEM.ITEM')) = 0;
+END_ENTITY;
+
+
+ENTITY camera_model_d3
+	SUBTYPE OF (camera_model);
+	view_reference_system : axis2_placement_3d;
+	perspective_of_volume : view_volume;
+WHERE
+	WR1 : (dot_product (SELF.view_reference_system.p[3],
+           SELF.perspective_of_volume.view_window.placement.p[3]) = 1.0)
+           AND
+           (SELF.view_reference_system.location.coordinates[3] =
+           SELF.perspective_of_volume.view_window.
+             placement.location.coordinates[3]);
+	WR2 : SELF\geometric_representation_item.dim = 3;
+END_ENTITY;
+
+
+ENTITY camera_model_d3_multi_clipping
+	SUBTYPE OF (camera_model_d3);
+	shape_clipping : SET [1:?] OF camera_model_d3_multi_clipping_interection_select;
+END_ENTITY;
+
+
+ENTITY camera_model_d3_multi_clipping_intersection
+	SUBTYPE OF (geometric_representation_item);
+	shape_clipping : SET [2:?] OF camera_model_d3_multi_clipping_interection_select;
+END_ENTITY;
+
+
+ENTITY camera_model_d3_multi_clipping_union
+	SUBTYPE OF (geometric_representation_item);
+	shape_clipping : SET [2:?] OF camera_model_d3_multi_clipping_union_select;
+END_ENTITY;
+
+
+ENTITY camera_model_d3_with_hlhsr
+	SUBTYPE OF (camera_model_d3);
+	hidden_line_surface_removal : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY camera_model_with_light_sources
+	SUBTYPE OF (camera_model_d3);
+	sources : SET [1:?] OF light_source;
+END_ENTITY;
+
+
+ENTITY camera_usage
+	SUBTYPE OF (representation_map);
+	SELF\representation_map.mapping_origin : camera_model;
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_REPRESENTATION'
+          IN TYPEOF(SELF\representation_map.mapped_representation));
+END_ENTITY;
+
+
+ENTITY capacitance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CAPACITANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY capacitance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.farad);
+END_ENTITY;
+
+
+ENTITY cartesian_point
+	SUBTYPE OF (point);
+	coordinates : LIST [1:3] OF length_measure;
+END_ENTITY;
+
+
+ENTITY cartesian_transformation_operator
+	SUPERTYPE OF (ONEOF (cartesian_transformation_operator_2d, cartesian_transformation_operator_3d))
+	SUBTYPE OF (geometric_representation_item, functionally_defined_transformation);
+	axis1 : OPTIONAL direction;
+	axis2 : OPTIONAL direction;
+	local_origin : cartesian_point;
+	scale : OPTIONAL REAL;
+DERIVE
+	scl : REAL := NVL(scale, 1.0);
+WHERE
+	WR1 : scl > 0.0;
+END_ENTITY;
+
+
+ENTITY cartesian_transformation_operator_2d
+	SUBTYPE OF (cartesian_transformation_operator);
+DERIVE
+	u : LIST [2:2] OF direction := base_axis(2,SELF\cartesian_transformation_operator.axis1,
+                   SELF\cartesian_transformation_operator.axis2,?);
+WHERE
+	WR1 : SELF\geometric_representation_item.dim = 2;
+END_ENTITY;
+
+
+ENTITY cartesian_transformation_operator_3d
+	SUBTYPE OF (cartesian_transformation_operator);
+	axis3 : OPTIONAL direction;
+DERIVE
+	u : LIST [3:3] OF direction := base_axis(3,SELF\cartesian_transformation_operator.axis1,
+                        SELF\cartesian_transformation_operator.axis2,axis3);
+WHERE
+	WR1 : SELF\geometric_representation_item.dim = 3;
+END_ENTITY;
+
+
+ENTITY cc_design_approval
+	SUBTYPE OF (approval_assignment);
+	items : SET [1:?] OF approved_item;
+END_ENTITY;
+
+
+ENTITY cc_design_certification
+	SUBTYPE OF (certification_assignment);
+	items : SET [1:?] OF certified_item;
+END_ENTITY;
+
+
+ENTITY cc_design_contract
+	SUBTYPE OF (contract_assignment);
+	items : SET [1:?] OF contracted_item;
+END_ENTITY;
+
+
+ENTITY cc_design_date_and_time_assignment
+	SUBTYPE OF (date_and_time_assignment);
+	items : SET [1:?] OF date_time_item;
+END_ENTITY;
+
+
+ENTITY cc_design_person_and_organization_assignment
+	SUBTYPE OF (person_and_organization_assignment);
+	items : SET [1:?] OF cc_person_organization_item;
+WHERE
+	WR1 : cc_design_person_and_organization_correlation(SELF);
+END_ENTITY;
+
+
+ENTITY cc_design_security_classification
+	SUBTYPE OF (security_classification_assignment);
+	items : SET [1:?] OF cc_classified_item;
+END_ENTITY;
+
+
+ENTITY cc_design_specification_reference
+	SUBTYPE OF (document_reference);
+	items : SET [1:?] OF cc_specified_item;
+END_ENTITY;
+
+
+ENTITY celsius_temperature_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.THERMODYNAMIC_TEMPERATURE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY centre_of_symmetry
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF
+        (QUERY(sadr<*SELF\derived_shape_aspect.deriving_relationships|
+    NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMMETRIC_SHAPE_ASPECT'
+     IN TYPEOF
+     (sadr\shape_aspect_relationship.related_shape_aspect))))=0;
+END_ENTITY;
+
+
+ENTITY certification;
+	name : label;
+	purpose : text;
+	kind : certification_type;
+END_ENTITY;
+
+
+ENTITY certification_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_certification : certification;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY certification_type;
+	description : label;
+END_ENTITY;
+
+
+ENTITY change
+	SUBTYPE OF (action_assignment);
+	items : SET [1:?] OF work_item;
+END_ENTITY;
+
+
+ENTITY change_request
+	SUBTYPE OF (action_request_assignment);
+	items : SET [1:?] OF change_request_item;
+END_ENTITY;
+
+
+ENTITY character_glyph_font_usage;
+	character : generic_character_glyph_symbol;
+	font : text_font;
+END_ENTITY;
+
+
+ENTITY character_glyph_style_outline
+	SUBTYPE OF (founded_item);
+	outline_style : curve_style;
+END_ENTITY;
+
+
+ENTITY character_glyph_style_stroke
+	SUBTYPE OF (founded_item);
+	stroke_style : curve_style;
+END_ENTITY;
+
+
+ENTITY character_glyph_symbol
+	SUBTYPE OF (generic_character_glyph_symbol);
+	character_box : planar_extent;
+	baseline_ratio : ratio_measure;
+DERIVE
+	box_height : length_measure := character_box.size_in_y;
+WHERE
+	WR1 : {0.0 <= baseline_ratio <= 1.0};
+	WR2 : item_in_context(SELF.character_box, 
+                       SELF\representation.context_of_items);
+	WR3 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE'
+        IN TYPEOF (SELF.box_height);
+END_ENTITY;
+
+
+ENTITY character_glyph_symbol_outline
+	SUBTYPE OF (character_glyph_symbol);
+	outlines : SET [1:?] OF annotation_fill_area;
+WHERE
+	WR1 : SELF.outlines <= SELF\representation.items;
+END_ENTITY;
+
+
+ENTITY character_glyph_symbol_stroke
+	SUBTYPE OF (character_glyph_symbol);
+	strokes : SET [1:?] OF curve;
+WHERE
+	WR1 : SELF.strokes <= SELF\representation.items;
+END_ENTITY;
+
+
+ENTITY characteristic_data_column_header
+	SUBTYPE OF (general_property);
+END_ENTITY;
+
+
+ENTITY characteristic_data_column_header_link
+	SUBTYPE OF (general_property_relationship);
+END_ENTITY;
+
+
+ENTITY characteristic_data_table_header
+	SUBTYPE OF (general_property);
+END_ENTITY;
+
+
+ENTITY characteristic_data_table_header_decomposition
+	SUBTYPE OF (general_property_relationship);
+END_ENTITY;
+
+
+ENTITY characteristic_type
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY characterized_class
+	SUBTYPE OF (characterized_object, class);
+END_ENTITY;
+
+
+ENTITY characterized_object;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY circle
+	SUBTYPE OF (conic);
+	radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY circular_runout_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 2;
+END_ENTITY;
+
+
+ENTITY class
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY class_by_extension
+	SUBTYPE OF (class);
+END_ENTITY;
+
+
+ENTITY class_by_intension
+	SUBTYPE OF (class);
+END_ENTITY;
+
+
+ENTITY class_system
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY class_usage_effectivity_context_assignment
+	SUBTYPE OF (effectivity_context_assignment);
+	items : SET [1:?] OF class_usage_effectivity_context_item;
+WHERE
+	WR1 : SELF.role.name = 'class usage influence';
+	WR2 : SIZEOF( QUERY( i <* SELF.items | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF(i)) )) = 0;
+	WR3 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.APPLIED_EFFECTIVITY_ASSIGNMENT' IN TYPEOF(SELF.assigned_effectivity_assignment)) AND 
+        (SIZEOF(TYPEOF(SELF.assigned_effectivity_assignment.assigned_effectivity) ) = 1) AND 
+        (SELF.assigned_effectivity_assignment.assigned_effectivity.id = 'class usage') AND 
+        (SIZEOF( QUERY( i <* SELF.assigned_effectivity_assignment\applied_effectivity_assignment.items | 
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_CONCEPT_FEATURE_CATEGORY_USAGE' IN TYPEOF(i)) )) = 0);
+END_ENTITY;
+
+
+ENTITY classification_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_class : group;
+	role : classification_role;
+END_ENTITY;
+
+
+ENTITY classification_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY closed_shell
+	SUBTYPE OF (connected_face_set);
+END_ENTITY;
+
+
+ENTITY coaxiality_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 2;
+END_ENTITY;
+
+
+ENTITY colour;
+END_ENTITY;
+
+
+ENTITY colour_rgb
+	SUBTYPE OF (colour_specification);
+	red : REAL;
+	green : REAL;
+	blue : REAL;
+WHERE
+	WR1 : {0.0 <= red <= 1.0};
+	WR2 : {0.0 <= green <= 1.0};
+	WR3 : {0.0 <= blue <= 1.0};
+END_ENTITY;
+
+
+ENTITY colour_specification
+	SUBTYPE OF (colour);
+	name : label;
+END_ENTITY;
+
+
+ENTITY common_datum
+	SUBTYPE OF (composite_shape_aspect, datum);
+WHERE
+	WR1 : SIZEOF (SELF\composite_shape_aspect.component_relationships) = 2;
+	WR2 : SIZEOF (QUERY ( sar <* SELF\composite_shape_aspect.component_relationships| 
+                      NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM' IN TYPEOF (sar.related_shape_aspect)) AND 
+                          NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMMON_DATUM' IN TYPEOF (sar.related_shape_aspect))) )) = 0;
+END_ENTITY;
+
+
+ENTITY comparison_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (boolean_expression, binary_generic_expression);
+	SELF\binary_generic_expression.operands : LIST [2:2] OF expression;
+WHERE
+	WR1 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NUMERIC_EXPRESSION' 
+IN TYPEOF(SELF\binary_generic_expression.operands[1]))
+		AND 
+		 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NUMERIC_EXPRESSION' 
+IN TYPEOF(SELF\binary_generic_expression.operands[2]))) 
+OR
+ (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOOLEAN_EXPRESSION' 
+IN TYPEOF(SELF\binary_generic_expression.operands[1]))
+		AND 
+		 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOOLEAN_EXPRESSION' 
+	IN TYPEOF(SELF\binary_generic_expression.operands[2])))
+OR
+(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION' 
+IN TYPEOF(SELF\binary_generic_expression.operands[1]))
+		AND 
+		 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION' 
+IN TYPEOF(SELF\binary_generic_expression.operands[2])));
+END_ENTITY;
+
+
+ENTITY complex_clause
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY complex_conjunctive_clause
+	SUBTYPE OF (complex_clause);
+END_ENTITY;
+
+
+ENTITY complex_disjunctive_clause
+	SUBTYPE OF (complex_clause);
+END_ENTITY;
+
+
+ENTITY complex_shelled_solid
+	SUBTYPE OF (shelled_solid);
+	thickened_face_list : LIST [1:?] OF SET [1:?] OF face_surface;
+	thickness_list : LIST [1:?] OF length_measure;
+WHERE
+	WR1 : SIZEOF(thickened_face_list) = SIZEOF(thickness_list);
+	WR2 : SIZEOF(QUERY(q <* thickness_list | (q = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY composite_assembly_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) = 1;
+END_ENTITY;
+
+
+ENTITY composite_assembly_sequence_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) > 0;
+END_ENTITY;
+
+
+ENTITY composite_assembly_table
+	SUBTYPE OF (part_laminate_table);
+END_ENTITY;
+
+
+ENTITY composite_curve
+	SUBTYPE OF (bounded_curve);
+	segments : LIST [1:?] OF composite_curve_segment;
+	self_intersect : LOGICAL;
+DERIVE
+	closed_curve : LOGICAL := segments[n_segments].transition <> discontinuous;
+	n_segments : INTEGER := SIZEOF(segments);
+WHERE
+	WR1 : ((NOT closed_curve) AND (SIZEOF(QUERY(temp <* segments |
+                temp.transition = discontinuous)) = 1)) OR
+            ((closed_curve) AND (SIZEOF(QUERY(temp <* segments | 
+                temp.transition = discontinuous)) = 0));
+END_ENTITY;
+
+
+ENTITY composite_curve_on_surface
+	SUPERTYPE OF (boundary_curve)
+	SUBTYPE OF (composite_curve);
+DERIVE
+	basis_surface : SET [0:2] OF surface := get_basis_surface(SELF);
+WHERE
+	WR1 : SIZEOF(basis_surface) > 0;
+	WR2 : constraints_composite_curve_on_surface(SELF);
+END_ENTITY;
+
+
+ENTITY composite_curve_segment
+	SUBTYPE OF (founded_item);
+	transition : transition_code;
+	same_sense : BOOLEAN;
+	parent_curve : curve;
+INVERSE
+	using_curves: BAG [1:?] OF composite_curve FOR segments;
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE' IN TYPEOF(parent_curve));
+END_ENTITY;
+
+
+ENTITY composite_material_designation
+	SUBTYPE OF (material_designation);
+END_ENTITY;
+
+
+ENTITY composite_shape_aspect
+	SUBTYPE OF (shape_aspect);
+INVERSE
+	component_relationships: SET [2:?] OF shape_aspect_relationship FOR relating_shape_aspect;
+END_ENTITY;
+
+
+ENTITY composite_sheet_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'GEOMETRICALLY_BOUNDED_SURFACE_SHAPE_REPRESENTATION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'MANIFOLD_SURFACE_SHAPE_REPRESENTATION'] * TYPEOF (SELF)) = 1;
+END_ENTITY;
+
+
+ENTITY composite_text
+	SUBTYPE OF (geometric_representation_item);
+	collected_text : SET [2:?] OF text_or_character;
+WHERE
+	WR1 : acyclic_composite_text( SELF, SELF.collected_text);
+END_ENTITY;
+
+
+ENTITY composite_text_with_associated_curves
+	SUBTYPE OF (composite_text);
+	associated_curves : SET [1:?] OF curve;
+END_ENTITY;
+
+
+ENTITY composite_text_with_blanking_box
+	SUBTYPE OF (composite_text);
+	blanking : planar_box;
+END_ENTITY;
+
+
+ENTITY composite_text_with_delineation
+	SUBTYPE OF (composite_text);
+	delineation : text_delineation;
+END_ENTITY;
+
+
+ENTITY composite_text_with_extent
+	SUBTYPE OF (composite_text);
+	extent : planar_extent;
+END_ENTITY;
+
+
+ENTITY compound_representation_item
+	SUPERTYPE OF (ONEOF (point_and_vector, point_path, row_representation_item, table_representation_item))
+	SUBTYPE OF (representation_item);
+	item_element : compound_item_definition;
+END_ENTITY;
+
+
+ENTITY compound_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'GEOMETRIC_REPRESENTATION_CONTEXT'
+        IN TYPEOF ( SELF.context_of_items ) ) AND (
+        SELF.context_of_items\
+        geometric_representation_context.coordinate_space_dimension =3 );
+	WR2 : SIZEOF ( QUERY ( cbsr_i <* SELF.items | SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'EDGE_BASED_WIREFRAME_MODEL' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'FACE_BASED_SURFACE_MODEL' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MAPPED_ITEM' , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'AXIS2_PLACEMENT_3D']* TYPEOF ( cbsr_i ) ) <>1 ) ) =0;
+	WR3 : SIZEOF ( QUERY ( cbsr_i <* SELF.items | SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'EDGE_BASED_WIREFRAME_MODEL' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'FACE_BASED_SURFACE_MODEL' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MAPPED_ITEM']* TYPEOF ( cbsr_i ) ) =1 ) ) >0;
+	WR4 : SIZEOF ( QUERY ( cbsr_i <* SELF.items | (
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MAPPED_ITEM' IN TYPEOF ( cbsr_i ) )
+         AND ( SIZEOF ( ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'COMPOUND_SHAPE_REPRESENTATION' , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'EDGE_BASED_WIREFRAME_SHAPE_REPRESENTATION' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'NON_MANIFOLD_SURFACE_SHAPE_REPRESENTATION']* TYPEOF (
+         cbsr_i\ mapped_item.mapping_source ) ) <>1 ) ) ) =0;
+END_ENTITY;
+
+
+ENTITY concentricity_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) = 1;
+END_ENTITY;
+
+
+ENTITY concept_feature_operator;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY concept_feature_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_product_concept_feature : product_concept_feature;
+	related_product_concept_feature : product_concept_feature;
+END_ENTITY;
+
+
+ENTITY concept_feature_relationship_with_condition
+	SUBTYPE OF (concept_feature_relationship);
+	conditional_operator : concept_feature_operator;
+END_ENTITY;
+
+
+ENTITY conditional_concept_feature
+	SUBTYPE OF (product_concept_feature);
+	condition : concept_feature_relationship_with_condition;
+END_ENTITY;
+
+
+ENTITY conductance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONDUCTANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY conductance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.siemens);
+END_ENTITY;
+
+
+ENTITY configurable_item
+	SUBTYPE OF (configuration_item);
+	item_concept_feature : SET [1:?] OF product_concept_feature_association;
+END_ENTITY;
+
+
+ENTITY configuration_design;
+	configuration : configuration_item;
+	design : configuration_design_item;
+DERIVE
+	description : text := get_description_value (SELF);
+	name : label := get_name_value (SELF);
+UNIQUE
+	UR1 : configuration, design;
+WHERE
+	WR1 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+	WR2 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY configuration_effectivity
+	SUBTYPE OF (product_definition_effectivity);
+	configuration : configuration_design;
+UNIQUE
+  UR1: configuration, SELF\product_definition_effectivity.usage, SELF\effectivity.id;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_USAGE' IN
+        TYPEOF (SELF\product_definition_effectivity.usage);
+END_ENTITY;
+
+
+ENTITY configuration_item;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	item_concept : product_concept;
+	purpose : OPTIONAL label;
+END_ENTITY;
+
+
+ENTITY configuration_item_hierarchical_relationship
+	SUBTYPE OF (configuration_item_relationship);
+END_ENTITY;
+
+
+ENTITY configuration_item_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_configuration_item : configuration_item;
+	related_configuration_item : configuration_item;
+END_ENTITY;
+
+
+ENTITY configuration_item_revision_sequence
+	SUBTYPE OF (configuration_item_relationship);
+END_ENTITY;
+
+
+ENTITY configured_effectivity_assignment
+	SUBTYPE OF (effectivity_assignment);
+	items : SET [1:?] OF configured_effectivity_item;
+WHERE
+	WR1 : (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EFFECTIVITY'] * TYPEOF(SELF.assigned_effectivity) ) = 1) 
+	AND (SELF.assigned_effectivity.id = 'configuration validity');
+	WR2 : SIZEOF(SELF.items) = 1;
+	WR3 : SIZEOF( QUERY( i <* SELF.items | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF(i)) 
+	OR NOT (i\product_definition.frame_of_reference.name IN ['conceptual definition','part occurrence', 'functional definition','alternative definition']) )) = 0;
+	WR4 : SELF.role.name IN ['design', 'usage'];
+	WR5 : (SELF.role.name <> 'design') 
+	OR (SIZEOF( QUERY( i <* SELF.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF(i)) AND (i\product_definition.frame_of_reference.name = 'part occurrence') )) = 0);
+	WR6 : (SELF.role.name <> 'usage') OR (SIZEOF( QUERY( i <* SELF.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF(i)) AND (i\product_definition.frame_of_reference.name = 'conceptual definition') )) = 0);
+	WR7 : SELF.role.description IN ['exception', 'inherited', 'local'];
+	WR8 : SIZEOF( QUERY( x <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EFFECTIVITY_CONTEXT_ASSIGNMENT.ASSIGNED_EFFECTIVITY_ASSIGNMENT') | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONFIGURED_EFFECTIVITY_CONTEXT_ASSIGNMENT' IN TYPEOF(x) )) = 1;
+END_ENTITY;
+
+
+ENTITY configured_effectivity_context_assignment
+	SUBTYPE OF (effectivity_context_assignment);
+	items : SET [1:?] OF configured_effectivity_context_item;
+	SELF\effectivity_context_assignment.assigned_effectivity_assignment : configured_effectivity_assignment;
+WHERE
+	WR1 : SIZEOF(SELF.items) = 1;
+END_ENTITY;
+
+
+ENTITY conic
+	SUPERTYPE OF (ONEOF (circle, ellipse, hyperbola, parabola))
+	SUBTYPE OF (curve);
+	position : axis2_placement;
+END_ENTITY;
+
+
+ENTITY conical_stepped_hole_transition
+	SUBTYPE OF (geometric_representation_item);
+	transition_number : positive_integer;
+	cone_apex_angle : plane_angle_measure;
+	cone_base_radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY conical_surface
+	SUBTYPE OF (elementary_surface);
+	radius : length_measure;
+	semi_angle : plane_angle_measure;
+WHERE
+	WR1 : radius >= 0.0;
+END_ENTITY;
+
+
+ENTITY connected_edge_set
+	SUBTYPE OF (topological_representation_item);
+	ces_edges : SET [1:?] OF edge;
+END_ENTITY;
+
+
+ENTITY connected_face_set
+	SUPERTYPE OF (ONEOF (closed_shell, open_shell))
+	SUBTYPE OF (topological_representation_item);
+	cfs_faces : SET [1:?] OF face;
+END_ENTITY;
+
+
+ENTITY connected_face_sub_set
+	SUBTYPE OF (connected_face_set);
+	parent_face_set : connected_face_set;
+END_ENTITY;
+
+
+ENTITY constructive_geometry_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_CONTEXT' IN TYPEOF(SELF.context_of_items)) AND ({2 <= SELF.context_of_items\geometric_representation_context. coordinate_space_dimension <= 3});
+	WR2 : SIZEOF( QUERY( cgr_i <* SELF.items | SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLACEMENT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT'] * TYPEOF(cgr_i)) <> 1 )) = 0;
+	WR3 : SIZEOF( USEDIN( SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP.REP_2') ) > 0;
+	WR4 : SIZEOF( USEDIN( SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_MAP.MAPPED_REPRESENTATION') ) = 0;
+END_ENTITY;
+
+
+ENTITY constructive_geometry_representation_relationship
+	SUBTYPE OF (representation_relationship);
+	SELF\representation_relationship.rep_1 : constructive_geometry_representation_or_shape_represenation;
+	SELF\representation_relationship.rep_2 : constructive_geometry_representation;
+WHERE
+	WR1 : (SELF.rep_1.context_of_items :=: SELF.rep_2.context_of_items) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_CONTEXT' IN TYPEOF(SELF.rep_1.context_of_items));
+	WR2 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP_WITH_TRANSFORMATION' IN TYPEOF(SELF));
+END_ENTITY;
+
+
+ENTITY contact_ratio_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : ( SIZEOF ( SELF.items ) =1 ) AND ( SIZEOF ( QUERY ( i <*
+        SELF.items | ( SIZEOF ( ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'MEASURE_REPRESENTATION_ITEM' , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'VALUE_RANGE']* TYPEOF ( i ) ) =1 ) AND ( i.name =
+        'ratio value' ) ) ) =1 );
+	WR2 : ( SIZEOF ( QUERY ( pdr <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | pdr. name =
+        'contact ratio reference' ) ) =1 ) AND ( SIZEOF ( QUERY (
+        pdr <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | ( pdr. name =
+        'contact ratio reference' ) AND ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'PRODUCT_DEFINITION' IN TYPEOF ( pdr.
+        definition.definition ) ) ) ) =1 );
+	WR3 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) ) =1 ) AND ( SIZEOF ( QUERY ( pdr
+        <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | SIZEOF ( QUERY ( gpa <* USEDIN (
+        pdr. definition ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'GENERAL_PROPERTY_ASSOCIATION.'+
+        'DERIVED_DEFINITION' ) | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'GENERAL_PROPERTY' IN TYPEOF ( gpa. base_definition ) ) AND
+        ( gpa. base_definition.name ='surface_condition' ) ) ) =1 )
+        ) =1 );
+END_ENTITY;
+
+
+ENTITY context_dependent_invisibility
+	SUBTYPE OF (invisibility);
+	presentation_context : invisibility_context;
+END_ENTITY;
+
+
+ENTITY context_dependent_over_riding_styled_item
+	SUBTYPE OF (over_riding_styled_item);
+	style_context : LIST [1:?] OF style_context_select;
+WHERE
+	WR1 : (SIZEOF(QUERY(sc <* SELF.style_context | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_ITEM' IN TYPEOF(sc)))= 1) OR
+(SIZEOF(QUERY(sc <* SELF.style_context |
+     ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(sc))
+  OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_RELATIONSHIP' IN TYPEOF(sc)) ))
+  = SIZEOF(style_context));
+END_ENTITY;
+
+
+ENTITY context_dependent_shape_representation;
+	representation_relation : shape_representation_relationship;
+	represented_product_relation : product_definition_shape;
+DERIVE
+	description : text := get_description_value(SELF);
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_RELATIONSHIP' IN TYPEOF(SELF.represented_product_relation.definition);
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+	WR3 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY context_dependent_unit
+	SUBTYPE OF (named_unit);
+	name : label;
+END_ENTITY;
+
+
+ENTITY contract;
+	name : label;
+	purpose : text;
+	kind : contract_type;
+END_ENTITY;
+
+
+ENTITY contract_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_contract : contract;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY contract_relationship;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	relating_contract : contract;
+	related_contract : contract;
+END_ENTITY;
+
+
+ENTITY contract_type;
+	description : label;
+END_ENTITY;
+
+
+ENTITY conversion_based_unit
+	SUBTYPE OF (named_unit);
+	name : label;
+	conversion_factor : measure_with_unit;
+WHERE
+	WR1 : SELF\named_unit.dimensions = derive_dimensional_exponents(conversion_factor\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY coordinated_universal_time_offset;
+	hour_offset : INTEGER;
+	minute_offset : OPTIONAL INTEGER;
+	sense : ahead_or_behind;
+DERIVE
+	actual_minute_offset : INTEGER := NVL(minute_offset,0);
+WHERE
+	WR1 : { 0 <= hour_offset < 24 };
+	WR2 : { 0 <= actual_minute_offset <= 59 };
+	WR3 : NOT (((hour_offset <> 0) OR (actual_minute_offset <>0)) AND (sense = exact));
+END_ENTITY;
+
+
+ENTITY csg_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SELF.context_of_items\geometric_representation_context.coordinate_space_dimension = 3;
+	WR2 : SIZEOF ( 
+QUERY ( it <* SELF.items| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CSG_SOLID', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_REPLICA', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REVOLVED_FACE_SOLID', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXTRUDED_FACE_SOLID' ] * TYPEOF (it)) <> 1) )) = 0;
+	WR3 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CSG_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( sr <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_REPLICA' IN TYPEOF (it)) )| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CSG_SOLID', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REVOLVED_FACE_SOLID', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXTRUDED_FACE_SOLID' ] * TYPEOF (sr\solid_replica.parent_solid)) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( it <* SELF.items| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' IN TYPEOF (it)) )) > 0;
+END_ENTITY;
+
+
+ENTITY csg_solid
+	SUBTYPE OF (solid_model);
+	tree_root_expression : csg_select;
+END_ENTITY;
+
+
+ENTITY currency
+	ABSTRACT SUPERTYPE OF (ONEOF (externally_defined_currency, iso4217_currency))
+	SUBTYPE OF (context_dependent_unit);
+WHERE
+	WR1 : ((SELF\named_unit.dimensions.length_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.mass_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.time_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0));
+END_ENTITY;
+
+
+ENTITY currency_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+	SELF\measure_with_unit.unit_component : currency;
+END_ENTITY;
+
+
+ENTITY curve
+	SUPERTYPE OF (ONEOF (line, conic, pcurve, surface_curve, offset_curve_2d, offset_curve_3d, curve_replica))
+	SUBTYPE OF (geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY curve_bounded_surface
+	SUBTYPE OF (bounded_surface);
+	basis_surface : surface;
+	boundaries : SET [1:?] OF boundary_curve;
+	implicit_outer : BOOLEAN;
+WHERE
+	WR1 : (NOT implicit_outer) OR
+         (SIZEOF (QUERY (temp <* boundaries |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OUTER_BOUNDARY_CURVE' IN TYPEOF(temp))) = 0);
+	WR2 : (NOT(implicit_outer)) OR
+                ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_SURFACE' IN TYPEOF(basis_surface));
+	WR3 : SIZEOF(QUERY(temp <* boundaries |
+                  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OUTER_BOUNDARY_CURVE' IN
+                                         TYPEOF(temp))) <= 1;
+	WR4 : SIZEOF(QUERY(temp <* boundaries |
+            (temp\composite_curve_on_surface.basis_surface [1] <>
+                                         SELF.basis_surface))) = 0;
+END_ENTITY;
+
+
+ENTITY curve_dimension
+	SUBTYPE OF (dimension_curve_directed_callout);
+END_ENTITY;
+
+
+ENTITY curve_replica
+	SUBTYPE OF (curve);
+	parent_curve : curve;
+	transformation : cartesian_transformation_operator;
+WHERE
+	WR1 : transformation.dim = parent_curve.dim;
+	WR2 : acyclic_curve_replica (SELF, parent_curve);
+END_ENTITY;
+
+
+ENTITY curve_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	curve_font : curve_font_or_scaled_curve_font_select;
+	curve_width : size_select;
+	curve_colour : colour;
+END_ENTITY;
+
+
+ENTITY curve_style_font
+	SUBTYPE OF (founded_item);
+	name : label;
+	pattern_list : LIST [1:?] OF curve_style_font_pattern;
+END_ENTITY;
+
+
+ENTITY curve_style_font_and_scaling
+	SUBTYPE OF (founded_item);
+	name : label;
+	curve_font : curve_style_font_select;
+	curve_font_scaling : REAL;
+END_ENTITY;
+
+
+ENTITY curve_style_font_pattern
+	SUBTYPE OF (founded_item);
+	visible_segment_length : positive_length_measure;
+	invisible_segment_length : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY curve_style_rendering;
+	rendering_method : shading_curve_method;
+	rendering_properties : surface_rendering_properties;
+END_ENTITY;
+
+
+ENTITY curve_swept_solid_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (it <* SELF.items |
+          NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_AREA_SOLID',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_DISK_SOLID',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] *
+                   TYPEOF(it)) = 1))) = 0;
+	WR2 : SIZEOF (QUERY (it <* SELF.items |
+         SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_AREA_SOLID',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_DISK_SOLID',
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF(it)) =1 )) > 0;
+	WR3 : SIZEOF (QUERY (mi <*  QUERY (it <* items |
+                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(it)) |
+   NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_SWEPT_SOLID_SHAPE_REPRESENTATION' IN
+             TYPEOF(mi\mapped_item.mapping_source.
+                           mapped_representation)))) = 0;
+	WR4 : SIZEOF (QUERY (scsas <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE_SWEPT_AREA_SOLID' IN
+              TYPEOF(it)) |
+          NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN
+                 TYPEOF(scsas\surface_curve_swept_area_solid.directrix)) OR
+                   ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN
+                   TYPEOF(scsas\surface_curve_swept_area_solid.directrix))))) = 0;
+END_ENTITY;
+
+
+ENTITY cylindrical_surface
+	SUBTYPE OF (elementary_surface);
+	radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY cylindricity_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF));
+END_ENTITY;
+
+
+ENTITY data_environment;
+	name : label;
+	description : text;
+	elements : SET [1:?] OF property_definition_representation;
+END_ENTITY;
+
+
+ENTITY date
+	SUPERTYPE OF (ONEOF (calendar_date, ordinal_date, week_of_year_and_day_date, year_month));
+	year_component : year_number;
+END_ENTITY;
+
+
+ENTITY date_and_time;
+	date_component : date;
+	time_component : local_time;
+END_ENTITY;
+
+
+ENTITY date_and_time_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_date_and_time : date_and_time;
+	role : date_time_role;
+END_ENTITY;
+
+
+ENTITY date_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_date : date;
+	role : date_role;
+END_ENTITY;
+
+
+ENTITY date_representation_item
+	SUBTYPE OF (representation_item, date);
+END_ENTITY;
+
+
+ENTITY date_role;
+	name : label;
+DERIVE
+	description : text := get_description_value (SELF);
+WHERE
+	WR1 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY date_time_representation_item
+	SUBTYPE OF (representation_item, date_and_time);
+END_ENTITY;
+
+
+ENTITY date_time_role;
+	name : label;
+DERIVE
+	description : text := get_description_value (SELF);
+WHERE
+	WR1 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY dated_effectivity
+	SUBTYPE OF (effectivity);
+	effectivity_end_date : OPTIONAL date_time_or_event_occurrence;
+	effectivity_start_date : date_time_or_event_occurrence;
+END_ENTITY;
+
+
+ENTITY datum
+	SUBTYPE OF (shape_aspect);
+	identification : identifier;
+INVERSE
+	established_by_relationships: SET [1:?] OF shape_aspect_relationship FOR related_shape_aspect;
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMMON_DATUM' IN TYPEOF(SELF)) XOR
+       ((SIZEOF(QUERY(x <* SELF\datum.established_by_relationships |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM_FEATURE' IN TYPEOF(x\shape_aspect_relationship.relating_shape_aspect)))) = 1) XOR
+       (SIZEOF(QUERY(x <* SELF\datum.established_by_relationships |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM_TARGET' IN TYPEOF(x\shape_aspect_relationship.relating_shape_aspect)))) >= 1));
+END_ENTITY;
+
+
+ENTITY datum_feature
+	SUBTYPE OF (shape_aspect);
+INVERSE
+	feature_basis_relationship: SET [1:?] OF shape_aspect_relationship FOR relating_shape_aspect;
+WHERE
+	WR1 : SIZEOF(QUERY(sar <* SELF\datum_feature.feature_basis_relationship 
+       | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM' IN TYPEOF
+       (sar\shape_aspect_relationship.related_shape_aspect)))) = 1;
+	WR2 : SELF\shape_aspect.product_definitional = TRUE;
+END_ENTITY;
+
+
+ENTITY datum_feature_callout
+	SUBTYPE OF (draughting_callout);
+END_ENTITY;
+
+
+ENTITY datum_reference;
+	precedence : INTEGER;
+	referenced_datum : datum;
+WHERE
+	WR1 : precedence > 0;
+END_ENTITY;
+
+
+ENTITY datum_target
+	SUBTYPE OF (shape_aspect);
+	target_id : identifier;
+INVERSE
+	target_basis_relationship: SET [1:?] OF shape_aspect_relationship FOR relating_shape_aspect;
+WHERE
+	WR1 : SIZEOF(QUERY(sar <* SELF\datum_target.target_basis_relationship 
+       | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM' IN TYPEOF
+       (sar\shape_aspect_relationship.related_shape_aspect)))) = 1;
+	WR2 : SELF\shape_aspect.product_definitional = TRUE;
+END_ENTITY;
+
+
+ENTITY datum_target_callout
+	SUBTYPE OF (draughting_callout);
+END_ENTITY;
+
+
+ENTITY default_tolerance_table
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : SIZEOF( QUERY( i <* SELF.items | NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEFAULT_TOLERANCE_TABLE_CELL' IN TYPEOF(i)) )) = 0;
+	WR2 : (SIZEOF( QUERY( rr <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP.REP_1') | rr.name < 'general tolerance definition' )) = 0) AND (SIZEOF( QUERY( rr <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP.REP_1') | (rr.name = 'general tolerance definition') AND (rr.rep_2.name < 'default tolerance') )) = 0) AND (SIZEOF( USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP.REP_2') ) = 0);
+END_ENTITY;
+
+
+ENTITY default_tolerance_table_cell
+	SUBTYPE OF (compound_representation_item);
+WHERE
+	WR1 : SIZEOF(QUERY( x <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION.ITEMS') | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DEFAULT_TOLERANCE_TABLE' IN TYPEOF(x)))=1;
+	WR2 : default_tolerance_table_cell_wr2(SELF\compound_representation_item.item_element);
+	WR3 : default_tolerance_table_cell_wr3(SELF\compound_representation_item.item_element);
+	WR4 : default_tolerance_table_cell_wr4(SELF\compound_representation_item.item_element);
+	WR5 : default_tolerance_table_cell_wr5(SELF\compound_representation_item.item_element);
+END_ENTITY;
+
+
+ENTITY defined_symbol
+	SUBTYPE OF (geometric_representation_item);
+	definition : defined_symbol_select;
+	target : symbol_target;
+END_ENTITY;
+
+
+ENTITY definitional_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PARAMETRIC_REPRESENTATION_CONTEXT' IN
+          TYPEOF (SELF\representation.context_of_items );
+END_ENTITY;
+
+
+ENTITY definitional_representation_relationship
+	SUBTYPE OF (representation_relationship);
+WHERE
+	WR1 : acyclic_representation_relationship(SELF,
+         [SELF\representation_relationship.rep_2],
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'REPRESENTATION');
+END_ENTITY;
+
+
+ENTITY definitional_representation_relationship_with_same_context
+	SUBTYPE OF (definitional_representation_relationship);
+WHERE
+	WR1 : SELF\representation_relationship.rep_1.context_of_items :=: 
+            SELF\representation_relationship.rep_2.context_of_items;
+END_ENTITY;
+
+
+ENTITY degenerate_pcurve
+	SUBTYPE OF (point);
+	basis_surface : surface;
+	reference_to_curve : definitional_representation;
+WHERE
+	WR1 : SIZEOF(reference_to_curve\representation.items) = 1;
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF
+                    (reference_to_curve\representation.items[1]);
+	WR3 : reference_to_curve\representation.
+                   items[1]\geometric_representation_item.dim =2;
+END_ENTITY;
+
+
+ENTITY degenerate_toroidal_surface
+	SUBTYPE OF (toroidal_surface);
+	select_outer : BOOLEAN;
+WHERE
+	WR1 : major_radius <   minor_radius;
+END_ENTITY;
+
+
+ENTITY derived_shape_aspect
+	SUPERTYPE OF (ONEOF (apex, centre_of_symmetry, geometric_alignment, geometric_intersection, parallel_offset, perpendicular_to, extension, tangent))
+	SUBTYPE OF (shape_aspect);
+INVERSE
+	deriving_relationships: SET [1:?] OF shape_aspect_relationship FOR relating_shape_aspect;
+WHERE
+	WR1 : SIZEOF (QUERY (dr <*
+          SELF\derived_shape_aspect.deriving_relationships |
+          NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+               'SHAPE_ASPECT_DERIVING_RELATIONSHIP'
+          IN TYPEOF (dr)))) = 0;
+END_ENTITY;
+
+
+ENTITY derived_unit
+	SUPERTYPE OF (ONEOF (absorbed_dose_unit, acceleration_unit, radioactivity_unit, area_unit, capacitance_unit, dose_equivalent_unit, electric_charge_unit, conductance_unit, electric_potential_unit, energy_unit, magnetic_flux_density_unit, force_unit, frequency_unit, illuminance_unit, inductance_unit, magnetic_flux_unit, power_unit, pressure_unit, resistance_unit, velocity_unit, volume_unit));
+	elements : SET [1:?] OF derived_unit_element;
+DERIVE
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : (SIZEOF(elements) > 1) OR ((SIZEOF(elements) = 1) AND (elements[1].exponent <> 1.0));
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY derived_unit_element;
+	unit : named_unit;
+	exponent : REAL;
+END_ENTITY;
+
+
+ENTITY description_attribute;
+	attribute_value : text;
+	described_item : description_attribute_select;
+END_ENTITY;
+
+
+ENTITY descriptive_representation_item
+	SUPERTYPE OF (ONEOF (tagged_text_item, uniform_resource_identifier))
+	SUBTYPE OF (representation_item);
+	description : text;
+END_ENTITY;
+
+
+ENTITY design_context
+	SUBTYPE OF (product_definition_context);
+WHERE
+	WR1 : SELF.life_cycle_stage = 'design';
+END_ENTITY;
+
+
+ENTITY design_make_from_relationship
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY diameter_dimension
+	SUBTYPE OF (dimension_curve_directed_callout);
+END_ENTITY;
+
+
+ENTITY dielectric_constant_measure_with_unit
+	SUBTYPE OF (ratio_measure_with_unit);
+END_ENTITY;
+
+
+ENTITY dimension_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT'
+        IN (TYPEOF (SELF))) XOR
+       (SIZEOF (QUERY(dce_1 <* SELF\draughting_callout.contents |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE'
+        IN (TYPEOF(dce_1))))) = 0);
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_DIRECTED_CALLOUT'
+        IN (TYPEOF (SELF))) XOR
+       (SIZEOF (QUERY(dce_1 <* SELF\draughting_callout.contents |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE'
+        IN (TYPEOF(dce_1))))) = 0);
+	WR3 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT'
+        IN (TYPEOF (SELF))) XOR
+       (SIZEOF (QUERY(dce_1 <* SELF\draughting_callout.contents |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE'
+        IN (TYPEOF(dce_1))))) = 0);
+END_ENTITY;
+
+
+ENTITY dimension_callout_component_relationship
+	SUBTYPE OF (draughting_callout_relationship);
+WHERE
+	WR1 : SELF.name IN ['prefix', 'suffix'];
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRUCTURED_DIMENSION_CALLOUT'
+           IN TYPEOF (SELF.relating_draughting_callout);
+	WR3 : SIZEOF (TYPEOF (SELF.related_draughting_callout) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRUCTURED_DIMENSION_CALLOUT']) = 0;
+	WR4 : SELF.related_draughting_callout.contents *
+       SELF.relating_draughting_callout.contents =
+       SELF.related_draughting_callout.contents;
+	WR5 : ((SELF.name = 'prefix') AND
+       (SIZEOF (QUERY (ato <* QUERY (con <*
+                 SELF.related_draughting_callout.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(con))) |
+         NOT (ato.name = 'prefix text')
+       )) = 0));
+	WR6 : ((SELF.name = 'suffix') AND
+       (SIZEOF (QUERY (ato <* QUERY (con <*
+                 SELF.related_draughting_callout.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(con))) |
+         NOT (ato.name = 'suffix text')
+       )) = 0));
+END_ENTITY;
+
+
+ENTITY dimension_callout_relationship
+	SUBTYPE OF (draughting_callout_relationship);
+WHERE
+	WR1 : SELF.name IN ['primary', 'secondary'];
+	WR2 : SIZEOF (TYPEOF (SELF.relating_draughting_callout) * 
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANGULAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIAMETER_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINEAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORDINATE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RADIUS_DIMENSION'])>=1;
+	WR3 : SIZEOF (TYPEOF (SELF.related_draughting_callout) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT']) = 0;
+	WR4 : SELF.related_draughting_callout.contents *
+       SELF.relating_draughting_callout.contents =
+       SELF.related_draughting_callout.contents;
+END_ENTITY;
+
+
+ENTITY dimension_curve
+	SUBTYPE OF (annotation_curve_occurrence);
+WHERE
+	WR1 : (SIZEOF(
+          QUERY(dct <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                'TERMINATOR_SYMBOL.ANNOTATED_CURVE')
+               | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                  'DIMENSION_CURVE_TERMINATOR' IN TYPEOF(dct))
+                  ))
+          ) <= 2);
+	WR2 : SIZEOF(
+            QUERY( dcdc <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                   'DRAUGHTING_CALLOUT.CONTENTS') |
+                   ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                    'DIMENSION_CURVE_DIRECTED_CALLOUT' IN TYPEOF(dcdc)))
+          )>= 1;
+	WR3 : (SIZEOF(
+            QUERY(dct1 <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                  'TERMINATOR_SYMBOL.ANNOTATED_CURVE') 
+               | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                  'DIMENSION_CURVE_TERMINATOR' IN TYPEOF(dct1)) 
+                  AND (dct1\dimension_curve_terminator.role = dimension_extent_usage.origin)))
+          ) <= 1)
+        AND 
+        (SIZEOF(
+            QUERY (dct2 <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                   'TERMINATOR_SYMBOL.ANNOTATED_CURVE') 
+                 | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                   'DIMENSION_CURVE_TERMINATOR' IN TYPEOF(dct2))
+                   AND (dct2\dimension_curve_terminator.role = dimension_extent_usage.target)))
+         ) <= 1);
+END_ENTITY;
+
+
+ENTITY dimension_curve_directed_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF(QUERY(d_c<*SELF\draughting_callout.contents | 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE' IN (TYPEOF(d_c))))=1;
+	WR2 : SIZEOF(SELF\draughting_callout.contents) >= 2;
+END_ENTITY;
+
+
+ENTITY dimension_curve_terminator
+	SUBTYPE OF (terminator_symbol);
+	role : dimension_extent_usage;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE' IN TYPEOF
+        (SELF\terminator_symbol.annotated_curve);
+END_ENTITY;
+
+
+ENTITY dimension_curve_terminator_to_projection_curve_associativity
+	SUBTYPE OF (annotation_occurrence_associativity);
+	SELF\annotation_occurrence_relationship.related_annotation_occurrence : projection_curve;
+	SELF\annotation_occurrence_relationship.relating_annotation_occurrence : dimension_curve_terminator;
+END_ENTITY;
+
+
+ENTITY dimension_pair
+	SUBTYPE OF (draughting_callout_relationship);
+WHERE
+	WR1 : SELF.name IN ['chained', 'parallel'];
+	WR2 : SIZEOF (TYPEOF (SELF.relating_draughting_callout) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANGULAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIAMETER_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINEAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORDINATE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RADIUS_DIMENSION'])=1;
+	WR3 : SIZEOF (TYPEOF (SELF.related_draughting_callout) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANGULAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIAMETER_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINEAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORDINATE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RADIUS_DIMENSION'])=1;
+END_ENTITY;
+
+
+ENTITY dimension_related_tolerance_zone_element;
+	related_dimension : dimensional_location;
+	related_element : tolerance_zone_definition;
+END_ENTITY;
+
+
+ENTITY dimension_text_associativity
+	SUBTYPE OF (text_literal, mapped_item);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_DIMENSION_REPRESENTATION'
+          IN TYPEOF (SELF\mapped_item.
+                          mapping_source.mapped_representation));
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT'
+          IN TYPEOF (SELF\mapped_item.mapping_target));
+	WR3 : SIZEOF (QUERY (ato <* QUERY (si <* 
+          USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM.ITEM') |
+            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+              IN TYPEOF(si))) |
+          NOT (SIZEOF( QUERY (dc <*
+             USEDIN (ato, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                          'DRAUGHTING_CALLOUT.CONTENTS') |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT'
+             IN TYPEOF (dc)))
+            * [SELF\mapped_item.mapping_target]) = 1)
+          )) = 0;
+END_ENTITY;
+
+
+ENTITY dimensional_characteristic_representation;
+	dimension : dimensional_characteristic;
+	representation : shape_dimension_representation;
+END_ENTITY;
+
+
+ENTITY dimensional_exponents;
+	length_exponent : REAL;
+	mass_exponent : REAL;
+	time_exponent : REAL;
+	electric_current_exponent : REAL;
+	thermodynamic_temperature_exponent : REAL;
+	amount_of_substance_exponent : REAL;
+	luminous_intensity_exponent : REAL;
+END_ENTITY;
+
+
+ENTITY dimensional_location
+	SUPERTYPE OF (ONEOF (angular_location, dimensional_location_with_path))
+	SUBTYPE OF (shape_aspect_relationship);
+END_ENTITY;
+
+
+ENTITY dimensional_location_with_path
+	SUBTYPE OF (dimensional_location);
+	path : shape_aspect;
+END_ENTITY;
+
+
+ENTITY dimensional_size
+	SUPERTYPE OF (ONEOF (angular_size, dimensional_size_with_path));
+	applies_to : shape_aspect;
+	name : label;
+WHERE
+	WR1 : applies_to.product_definitional = TRUE;
+END_ENTITY;
+
+
+ENTITY dimensional_size_with_path
+	SUBTYPE OF (dimensional_size);
+	path : shape_aspect;
+END_ENTITY;
+
+
+ENTITY directed_action
+	SUBTYPE OF (executed_action);
+	directive : action_directive;
+END_ENTITY;
+
+
+ENTITY directed_dimensional_location
+	SUBTYPE OF (dimensional_location);
+END_ENTITY;
+
+
+ENTITY direction
+	SUBTYPE OF (geometric_representation_item);
+	direction_ratios : LIST [2:3] OF REAL;
+WHERE
+	WR1 : SIZEOF(QUERY(tmp <* direction_ratios | tmp <> 0.0)) > 0;
+END_ENTITY;
+
+
+ENTITY document;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	kind : document_type;
+INVERSE
+	representation_types: SET [0:?] OF document_representation_type FOR represented_document;
+END_ENTITY;
+
+
+ENTITY document_file
+	SUBTYPE OF (document, characterized_object);
+WHERE
+	WR1 : SELF\characterized_object.name = '';
+	WR2 : NOT EXISTS(SELF\characterized_object.description);
+	WR3 : SIZEOF( QUERY( drt <* SELF\document.representation_types |
+               drt.name IN ['digital','physical'])) = 1;
+END_ENTITY;
+
+
+ENTITY document_identifier
+	SUBTYPE OF (group);
+UNIQUE
+  UR1: SELF\group.name, SELF\group.description;
+END_ENTITY;
+
+
+ENTITY document_identifier_assignment
+	SUBTYPE OF (group_assignment);
+	items : SET [1:?] OF document_identifier_assigned_item;
+	SELF\group_assignment.assigned_group : document_identifier;
+END_ENTITY;
+
+
+ENTITY document_product_association;
+	name : label;
+	description : OPTIONAL text;
+	relating_document : document;
+	related_product : product_or_formation_or_definition;
+END_ENTITY;
+
+
+ENTITY document_product_equivalence
+	SUBTYPE OF (document_product_association);
+WHERE
+	WR1 : SELF\document_product_association.name = 'equivalence';
+	WR2 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT' IN TYPEOF(SELF\document_product_association.related_product)) OR ((SELF\document_product_association.relating_document.kind. product_data_type = 'configuration controlled document') AND (SIZEOF( QUERY( prpc <* USEDIN(SELF\document_product_association.related_product,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | prpc.name = 'document' )) = 1));
+	WR3 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_FORMATION' IN TYPEOF(SELF.related_product)) OR ((SELF\document_product_association.relating_document.kind.product_data_type = 'configuration controlled document version') AND (SIZEOF( QUERY( prpc <* USEDIN(SELF.related_product\product_definition_formation.of_product, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | prpc.name = 'document')) = 1));
+	WR4 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF(SELF.related_product)) OR ((SELF\document_product_association.relating_document.kind.product_data_type = 'configuration controlled document definition') AND (SIZEOF( QUERY( prpc <* USEDIN(SELF\document_product_association.related_product\product_definition.formation.of_product, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | prpc.name = 'document' )) = 1));
+END_ENTITY;
+
+
+ENTITY document_reference
+	ABSTRACT SUPERTYPE;
+	assigned_document : document;
+	source : label;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY document_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_document : document;
+	related_document : document;
+END_ENTITY;
+
+
+ENTITY document_representation_type;
+	name : label;
+	represented_document : document;
+END_ENTITY;
+
+
+ENTITY document_type;
+	product_data_type : label;
+END_ENTITY;
+
+
+ENTITY document_usage_constraint;
+	source : document;
+	subject_element : label;
+	subject_element_value : text;
+END_ENTITY;
+
+
+ENTITY document_usage_constraint_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_document_usage : document_usage_constraint;
+	role : document_usage_role;
+END_ENTITY;
+
+
+ENTITY document_usage_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY dose_equivalent_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DOSE_EQUIVALENT_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY dose_equivalent_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.sievert);
+END_ENTITY;
+
+
+ENTITY double_offset_shelled_solid
+	SUBTYPE OF (shelled_solid);
+	thickness2 : length_measure;
+WHERE
+	WR1 : thickness2 <> 0;
+	WR2 : SELF\shelled_solid.thickness <> thickness2;
+END_ENTITY;
+
+
+ENTITY draped_defined_transformation
+	SUBTYPE OF (transformation_with_derived_angle);
+END_ENTITY;
+
+
+ENTITY draughting_annotation_occurrence
+	SUBTYPE OF (annotation_occurrence);
+WHERE
+	WR1 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_CURVE_OCCURRENCE'
+            IN TYPEOF (SELF))) OR
+    (SIZEOF (QUERY (sty <* SELF.styles |
+       NOT ((SIZEOF (sty.styles) = 1)
+         AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+                 IN TYPEOF (sty.styles[1]))) )) = 0);
+	WR2 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_FILL_AREA_OCCURRENCE'
+            IN TYPEOF (SELF))) OR    (SIZEOF (QUERY (sty <* SELF.styles |
+      NOT ((SIZEOF (sty.styles) = 1)
+        AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE'
+                IN TYPEOF (sty.styles[1]))) )) = 0);
+	WR3 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_FILL_AREA_OCCURRENCE'
+            IN TYPEOF (SELF))) OR    (SIZEOF (QUERY (bound <*
+                     SELF.item\annotation_fill_area.boundaries |
+       NOT (SIZEOF (QUERY (si <*
+                   USEDIN (bound, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                  'STYLED_ITEM.ITEM') |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+             'ANNOTATION_CURVE_OCCURRENCE' IN TYPEOF (si)))) > 0))) = 0);
+	WR4 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL_OCCURRENCE'
+            IN TYPEOF (SELF))) OR    (SIZEOF (QUERY (sty <* SELF.styles |
+       NOT ((SIZEOF (sty.styles) = 1)           AND
+            (SIZEOF (TYPEOF (sty.styles[1]) *
+                ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMBOL_STYLE',
+                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NULL_STYLE']) = 1)) )) = 0);
+	WR5 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL'
+             IN TYPEOF(SELF.item)))) OR
+         (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                   'DRAUGHTING_SYMBOL_REPRESENTATION',
+                  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                  'DRAUGHTING_SUBFIGURE_REPRESENTATION'] *
+          TYPEOF (SELF.item\mapped_item.mapping_source.
+                  mapped_representation)) = 1);
+	WR6 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+            IN TYPEOF (SELF))) OR
+    (SIZEOF (QUERY (sty <* SELF.styles |
+       NOT ((SIZEOF (sty.styles) = 1)
+        AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_STYLE'
+                IN TYPEOF (sty.styles[1]))) )) = 0);
+	WR7 : (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF))) OR
+         (SIZEOF (TYPEOF(SELF.item) *
+             ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL']) = 1);
+	WR8 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+             IN TYPEOF (SELF.item)))) OR    (SIZEOF (QUERY (tl <*
+                   SELF.item\composite_text.collected_text |
+             NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL' 
+             IN TYPEOF (tl)) )) = 0);
+	WR9 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL'
+             IN TYPEOF (SELF.item)))) OR (SELF.item\text_literal.alignment 
+             IN ['baseline left', 'baseline centre', 'baseline right']);
+	WR10 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+             IN TYPEOF (SELF.item)))) OR
+         (SIZEOF (QUERY (tl <* QUERY (text <* SELF.
+                  item\composite_text.collected_text
+             |('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL' IN TYPEOF(text))) |
+          NOT (tl\text_literal.alignment IN
+         ['baseline left', 'baseline centre', 'baseline right']) )) = 0);
+	WR11 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+             IN TYPEOF (SELF.item))) OR check_text_alignment(SELF.item);
+	WR12 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+             IN TYPEOF (SELF.item))) OR check_text_font(SELF.item);
+	WR13 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+               IN TYPEOF (SELF.item)))) OR
+         (SIZEOF (QUERY (tl <* QUERY (text <*
+            SELF.item\composite_text.collected_text |
+            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL' IN TYPEOF (text))) |
+             NOT (SIZEOF (TYPEOF(tl) *
+                  ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                   'TEXT_LITERAL_WITH_BLANKING_BOX',
+                   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                   'TEXT_LITERAL_WITH_ASSOCIATED_CURVES']) = 0) )) = 0);
+	WR14 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL_WITH_ASSOCIATED_CURVES'
+             IN TYPEOF (SELF.item)))) OR
+    (SIZEOF (QUERY (crv <*
+                   SELF.item\text_literal_with_associated_curves.
+                   associated_curves |
+      NOT (SIZEOF (QUERY (si <*  USEDIN (crv, 
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM.ITEM') |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_CURVE_OCCURRENCE'
+            IN TYPEOF (si)) )) > 0) )) = 0);
+	WR15 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT_WITH_ASSOCIATED_CURVES'
+             IN TYPEOF (SELF.item)))) OR
+          (SIZEOF (QUERY (crv <*
+                SELF.item\composite_text_with_associated_curves.
+                associated_curves |
+           NOT (SIZEOF (QUERY (si <*  USEDIN (crv,
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM.ITEM') |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_CURVE_OCCURRENCE'
+           IN TYPEOF (si)) )) > 0) )) = 0);
+	WR16 : SIZEOF (QUERY (cs <* QUERY (sty <* SELF.styles |
+      ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE' IN TYPEOF (sty.styles[1])))
+      | NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE_WITH_UNIT'
+        IN TYPEOF (cs.styles[1]\curve_style.curve_width)) AND
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE'
+        IN TYPEOF (cs.styles[1]\curve_style.
+        curve_width\measure_with_unit.value_component))))) = 0;
+	WR17 : SIZEOF (QUERY (fas <* QUERY (sty <* SELF.styles |
+      ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE'
+          IN TYPEOF (sty.styles[1]))) |
+      NOT ((SIZEOF (QUERY (fs <* fas.styles[1]\fill_area_style.fill_styles
+                    | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE_TILES'
+                       IN TYPEOF (fs)))) <= 1)
+       AND (SIZEOF (QUERY (fst <* QUERY (fs <*
+                           fas.styles[1]\fill_area_style.fill_styles |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE_TILES'
+                  IN TYPEOF (fs))) |
+                 NOT (SIZEOF (fst\fill_area_style_tiles.tiles) = 1)
+           )) = 0))
+    )) = 0;
+	WR18 : SIZEOF (QUERY (fas <* QUERY (sty <* SELF.styles |
+           ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE' 
+            IN TYPEOF (sty.styles[1]))) |
+             NOT (SIZEOF (QUERY (fsh <* QUERY (fs <*
+                          fas.styles[1]\fill_area_style.fill_styles |
+             ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE_HATCHING'
+               IN TYPEOF (fs))) |
+        NOT (fsh\fill_area_style_hatching.point_of_reference_hatch_line :=:
+             fsh\fill_area_style_hatching.pattern_start)  )) = 0)  )) = 0;
+	WR19 : SIZEOF (QUERY (ts <* QUERY (sty <* SELF.styles |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_STYLE' 
+         IN TYPEOF(sty.styles[1]))) |
+             NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                  'TEXT_STYLE_WITH_BOX_CHARACTERISTICS'
+             IN TYPEOF (ts.styles[1])))) = 0;
+	WR20 : SIZEOF (QUERY (ts <* QUERY (sty <* SELF.styles |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_STYLE_WITH_BOX_CHARACTERISTICS'
+             IN TYPEOF (sty.styles[1]))) |
+           NOT (SIZEOF (ts.styles[1]\text_style_with_box_characteristics.
+                characteristics) = 4) )) = 0;
+END_ENTITY;
+
+
+ENTITY draughting_callout
+	SUPERTYPE OF ((ONEOF (datum_feature_callout, datum_target_callout, dimension_curve_directed_callout, draughting_elements, geometrical_tolerance_callout, leader_directed_callout, projection_directed_callout, structured_dimension_callout) ANDOR surface_condition_callout))
+	SUBTYPE OF (geometric_representation_item);
+	contents : SET [1:?] OF draughting_callout_element;
+WHERE
+	WR1 : (SIZEOF (QUERY (l_1 <* SELF\draughting_callout.contents |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE' IN (TYPEOF(l_1)))) = 0) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT' IN (TYPEOF(SELF))) AND
+        (SIZEOF (QUERY (l_1 <* SELF\draughting_callout.contents |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE' IN (TYPEOF(l_1)))) = 0) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_DIRECTED_CALLOUT' IN (TYPEOF(SELF))) AND  
+        (SIZEOF (QUERY (l_1 <* SELF\draughting_callout.contents |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE' IN (TYPEOF(l_1)))) = 0) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT' IN (TYPEOF(SELF)));
+END_ENTITY;
+
+
+ENTITY draughting_callout_relationship;
+	name : label;
+	description : text;
+	relating_draughting_callout : draughting_callout;
+	related_draughting_callout : draughting_callout;
+END_ENTITY;
+
+
+ENTITY draughting_elements
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF (QUERY (l_c <* QUERY (con <* SELF.contents |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE' IN TYPEOF(con))) |
+              NOT (SIZEOF (QUERY (ldc <* USEDIN (l_c,
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DRAUGHTING_CALLOUT.CONTENTS') |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT'
+              IN TYPEOF (ldc)))) <= 1)))=0;
+	WR2 : NOT    ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT'
+              IN TYPEOF(SELF)) OR
+              (SIZEOF (QUERY (con <* SELF.contents |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE' IN
+               TYPEOF (con)))) <= 2);
+	WR3 : SIZEOF (QUERY (rc <* USEDIN (SELF,
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT_' +
+              'RELATIONSHIP.RELATING_DRAUGHTING_CALLOUT') |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+               'DIMENSION_CALLOUT_RELATIONSHIP' IN TYPEOF (rc)) AND
+              (rc.name = 'primary') )) <= 1;
+	WR4 : SIZEOF (QUERY (rc <* USEDIN (SELF,
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT_' +
+              'RELATIONSHIP.RELATING_DRAUGHTING_CALLOUT') |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                'DIMENSION_CALLOUT_RELATIONSHIP' IN TYPEOF (rc)) AND
+                (rc.name = 'secondary') )) <= 1;
+	WR5 : SIZEOF (QUERY (sec <* QUERY (rc <* USEDIN (SELF,
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT_' +
+               'RELATIONSHIP.RELATING_DRAUGHTING_CALLOUT') |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                'DIMENSION_CALLOUT_RELATIONSHIP' IN TYPEOF (rc)) AND         
+                (rc.name = 'secondary') ) |
+         NOT (SIZEOF (QUERY (prim <* USEDIN (SELF,
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT_' +
+               'RELATIONSHIP.RELATING_DRAUGHTING_CALLOUT') |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                'DIMENSION_CALLOUT_RELATIONSHIP' IN TYPEOF (prim)) AND         
+                (prim.name = 'primary') )) = 1))) = 0;
+END_ENTITY;
+
+
+ENTITY draughting_model
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF draughting_model_item_select;
+UNIQUE
+  UR1: SELF\representation.name;
+WHERE
+	WR1 : SIZEOF (QUERY (mi <* QUERY (it <* SELF.items |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(it))) |
+         NOT (
+           SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION',
+                    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_MODEL'] *
+              TYPEOF (mi\mapped_item.mapping_source.
+                      mapped_representation)) = 1
+        ))) = 0;
+	WR2 : SIZEOF (QUERY (smi <* QUERY (si <* QUERY (it <* SELF.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM' IN TYPEOF(it))) |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN
+            TYPEOF(si\styled_item.item))) |
+        (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION' IN
+                 TYPEOF(smi\styled_item.item\mapped_item.
+                        mapping_source.mapped_representation))
+            AND
+             (SIZEOF (QUERY (sty <* smi\styled_item.styles |
+               (NOT (SIZEOF (QUERY (psa <* sty.styles |
+                       (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE' IN TYPEOF(psa))))) = 1
+             )))) = 1)))
+        )) = 0;
+END_ENTITY;
+
+
+ENTITY draughting_model_item_association
+	SUBTYPE OF (item_identified_representation_usage);
+	SELF\item_identified_representation_usage.definition : shape_definition;
+	SELF\item_identified_representation_usage.identified_item : draughting_model_item_association_select;
+	SELF\item_identified_representation_usage.used_representation : draughting_model;
+END_ENTITY;
+
+
+ENTITY draughting_pre_defined_colour
+	SUBTYPE OF (pre_defined_colour);
+WHERE
+	WR1 : SELF.name IN
+      ['red',
+       'green',
+       'blue',
+       'yellow',
+       'magenta',
+       'cyan',
+       'black',
+       'white'];
+END_ENTITY;
+
+
+ENTITY draughting_pre_defined_curve_font
+	SUBTYPE OF (pre_defined_curve_font);
+WHERE
+	WR1 : SELF.name IN
+        ['continuous',
+         'chain',
+         'chain double dash',
+         'dashed',
+         'dotted'];
+END_ENTITY;
+
+
+ENTITY draughting_pre_defined_text_font
+	SUBTYPE OF (pre_defined_text_font);
+WHERE
+	WR1 : SELF.name[1:8] = 'ISO 3098';
+END_ENTITY;
+
+
+ENTITY draughting_subfigure_representation
+	SUBTYPE OF (symbol_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (item <* SELF\representation.items |
+         NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_OCCURRENCE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT']
+               * TYPEOF (item)) = 1))) = 0;
+	WR2 : SIZEOF (QUERY (item <* SELF\representation.items |
+         SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_OCCURRENCE',
+                  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT'] *
+           TYPEOF (item)) = 1)) >= 1;
+	WR3 : SIZEOF (QUERY (srm <* QUERY (rm <*
+          USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                        'REPRESENTATION_MAP.MAPPED_REPRESENTATION') |
+          ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMBOL_REPRESENTATION_MAP'
+             IN TYPEOF(rm))) | 
+            NOT (SIZEOF (QUERY (a_s <* QUERY (mi <* srm.map_usage |
+            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL' IN TYPEOF(mi)))
+          | NOT (SIZEOF (QUERY (aso <*
+            USEDIN (a_s, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+                         'STYLED_ITEM.ITEM') |
+          NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SUBFIGURE_OCCURRENCE'
+            IN TYPEOF(aso)))) = 0))) = 0))) > 0;
+	WR4 : NOT (acyclic_mapped_item_usage (SELF));
+	WR5 : SIZEOF (SELF.context_of_items.representations_in_context) = 1;
+END_ENTITY;
+
+
+ENTITY draughting_symbol_representation
+	SUBTYPE OF (symbol_representation);
+UNIQUE
+  UR1: SELF\representation.name;
+WHERE
+	WR1 : SIZEOF (QUERY (item <* SELF\representation.items |
+         NOT (SIZEOF (TYPEOF (item) *
+            ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_CURVE_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_FILL_AREA_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT']) = 1)
+       )) = 0;
+	WR2 : SIZEOF (QUERY (item <* SELF\representation.items |
+         (SIZEOF (TYPEOF (item) *
+            ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_CURVE_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_FILL_AREA_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE']) = 1)
+       )) >= 1;
+	WR3 : SIZEOF (QUERY (item <* SELF\representation.items |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SUBFIGURE_OCCURRENCE'
+          IN TYPEOF (item))) = 0;
+	WR4 : SIZEOF (QUERY (srm <* QUERY (rm <*
+          USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                        'REPRESENTATION_MAP.MAPPED_REPRESENTATION') |
+          ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMBOL_REPRESENTATION_MAP'
+             IN TYPEOF(rm))) |
+         (SIZEOF (QUERY (a_s <* QUERY (mi <* srm.map_usage |
+           ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL' IN TYPEOF(mi))) |
+         NOT (SIZEOF (QUERY(aso <*
+             USEDIN(a_s, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                         'STYLED_ITEM.ITEM') |
+             NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL_OCCURRENCE'
+                  IN TYPEOF(aso))
+          )) = 0) )) = 0) )) > 0;
+	WR5 : NOT (acyclic_mapped_item_usage (SELF));
+	WR6 : SIZEOF (SELF.context_of_items.representations_in_context) = 1;
+END_ENTITY;
+
+
+ENTITY draughting_text_literal_with_delineation
+	SUBTYPE OF (text_literal_with_delineation);
+WHERE
+	WR1 : SELF.delineation IN ['underline', 'overline'];
+END_ENTITY;
+
+
+ENTITY draughting_title;
+	items : SET [1:?] OF draughting_titled_item;
+	language : label;
+	contents : text;
+END_ENTITY;
+
+
+ENTITY drawing_definition;
+	drawing_number : identifier;
+	drawing_type : OPTIONAL label;
+END_ENTITY;
+
+
+ENTITY drawing_revision
+	SUBTYPE OF (presentation_set);
+	revision_identifier : identifier;
+	drawing_identifier : drawing_definition;
+	intended_scale : OPTIONAL text;
+UNIQUE
+	UR1 : revision_identifier, drawing_identifier;
+END_ENTITY;
+
+
+ENTITY drawing_revision_sequence;
+	predecessor : drawing_revision;
+	successor : drawing_revision;
+WHERE
+	WR1 : predecessor :<>: successor;
+END_ENTITY;
+
+
+ENTITY drawing_sheet_revision
+	SUBTYPE OF (presentation_area);
+	revision_identifier : identifier;
+WHERE
+	WR1 : SIZEOF( QUERY(item <* SELF\representation.items |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN (TYPEOF(item)))
+       AND
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAWING_SHEET_REVISION' IN
+       (TYPEOF(item\mapped_item.mapping_source.mapped_representation)))))=0;
+END_ENTITY;
+
+
+ENTITY drawing_sheet_revision_sequence
+	SUBTYPE OF (representation_relationship);
+WHERE
+	WR1 : SELF\representation_relationship.rep_1 :<>:                            
+       SELF\representation_relationship.rep_2;
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAWING_SHEET_REVISION'
+       IN TYPEOF (SELF\representation_relationship.rep_1);
+	WR3 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAWING_SHEET_REVISION'
+       IN TYPEOF (SELF\representation_relationship.rep_2);
+END_ENTITY;
+
+
+ENTITY drawing_sheet_revision_usage
+	SUBTYPE OF (area_in_set);
+	sheet_number : identifier;
+UNIQUE
+  UR1: sheet_number, SELF\area_in_set.in_set;
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAWING_SHEET_REVISION' IN 
+                  TYPEOF(SELF\area_in_set.area)) 
+              AND
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAWING_REVISION' 
+               IN TYPEOF (SELF\area_in_set.in_set));
+END_ENTITY;
+
+
+ENTITY edge
+	SUPERTYPE OF (ONEOF (edge_curve, oriented_edge, subedge))
+	SUBTYPE OF (topological_representation_item);
+	edge_start : vertex;
+	edge_end : vertex;
+END_ENTITY;
+
+
+ENTITY edge_based_wireframe_model
+	SUBTYPE OF (geometric_representation_item);
+	ebwm_boundary : SET [1:?] OF connected_edge_set;
+END_ENTITY;
+
+
+ENTITY edge_based_wireframe_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF ( 
+QUERY ( it <* SELF.items| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' ] * TYPEOF (it)) = 1) )) = 0;
+	WR2 : SIZEOF ( 
+QUERY ( it <* SELF.items| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ] * TYPEOF (it)) = 1) )) >= 1;
+	WR3 : SIZEOF ( 
+QUERY ( ebwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( eb <* ebwm\edge_based_wireframe_model.ebwm_boundary| NOT ( SIZEOF ( 
+QUERY ( edges <* eb.ces_edges| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF (edges)) )) = 0) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( ebwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( eb <* ebwm\edge_based_wireframe_model.ebwm_boundary| NOT ( SIZEOF ( 
+QUERY ( pline_edges <* 
+QUERY ( edges <* eb.ces_edges| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (edges\edge_curve.edge_geometry)) )| NOT ( SIZEOF (pline_edges\edge_curve.edge_geometry\polyline.points) > 2) )) = 0) )) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( ebwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( eb <* ebwm\edge_based_wireframe_model.ebwm_boundary| NOT ( SIZEOF ( 
+QUERY ( edges <* eb.ces_edges| NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (edges.edge_start)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (edges.edge_end))) )) = 0) )) = 0) )) = 0;
+	WR6 : SIZEOF ( 
+QUERY ( ebwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( eb <* ebwm\edge_based_wireframe_model.ebwm_boundary| NOT ( SIZEOF ( 
+QUERY ( edges <* eb.ces_edges| NOT valid_wireframe_edge_curve(edges\edge_curve.edge_geometry) )) = 0) )) = 0) )) = 0;
+	WR7 : SIZEOF ( 
+QUERY ( ebwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( eb <* ebwm\edge_based_wireframe_model.ebwm_boundary| NOT ( SIZEOF ( 
+QUERY ( edges <* eb.ces_edges| NOT (valid_wireframe_vertex_point(edges.edge_start\vertex_point.vertex_geometry) AND valid_wireframe_vertex_point(edges.edge_end\vertex_point.vertex_geometry)) )) = 0) )) = 0) )) = 0;
+	WR8 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EDGE_BASED_WIREFRAME_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+	WR9 : SELF.context_of_items\geometric_representation_context.coordinate_space_dimension = 3;
+END_ENTITY;
+
+
+ENTITY edge_blended_solid
+	ABSTRACT SUPERTYPE OF ((track_blended_solid ANDOR ONEOF (solid_with_constant_radius_edge_blend, solid_with_variable_radius_edge_blend, solid_with_chamfered_edges)))
+	SUBTYPE OF (modified_solid);
+	blended_edges : LIST [1:?] OF  UNIQUE edge_curve;
+END_ENTITY;
+
+
+ENTITY edge_curve
+	SUBTYPE OF (edge, geometric_representation_item);
+	edge_geometry : curve;
+	same_sense : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY edge_loop
+	SUBTYPE OF (loop, path);
+DERIVE
+	ne : INTEGER := SIZEOF(SELF\path.edge_list);
+WHERE
+	WR1 : (SELF\path.edge_list[1].edge_start) :=:
+        (SELF\path.edge_list[ne].edge_end);
+END_ENTITY;
+
+
+ENTITY effectivity
+	SUPERTYPE OF (ONEOF (serial_numbered_effectivity, dated_effectivity, lot_effectivity, time_interval_based_effectivity));
+	id : identifier;
+DERIVE
+	description : text := get_description_value(SELF);
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY effectivity_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_effectivity : effectivity;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY effectivity_context_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_effectivity_assignment : effectivity_assignment;
+	role : effectivity_context_role;
+END_ENTITY;
+
+
+ENTITY effectivity_context_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY effectivity_relationship;
+	name : label;
+	description : OPTIONAL text;
+	related_effectivity : effectivity;
+	relating_effectivity : effectivity;
+END_ENTITY;
+
+
+ENTITY electric_charge_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_CHARGE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY electric_charge_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.coulomb);
+END_ENTITY;
+
+
+ENTITY electric_current_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_CURRENT_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY electric_current_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 1.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY electric_potential_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_POTENTIAL_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY electric_potential_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.volt);
+END_ENTITY;
+
+
+ENTITY elementary_brep_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (it <* SELF.items |
+          NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] *
+                   TYPEOF(it)) = 1))) = 0;
+	WR2 : SIZEOF (QUERY (it <* SELF.items |
+         SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP',
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF(it)) =1 )) > 0;
+	WR3 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+            NOT (SIZEOF (QUERY(fcs <* csh.cfs_faces |
+              NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF(fcs)))) = 0
+                 ))) = 0
+                   ))) = 0;
+	WR4 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+            NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+              NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_SURFACE' IN
+                   TYPEOF(fcs\face_surface.face_geometry))
+             ))) = 0
+                 ))) = 0
+                   ))) = 0;
+	WR5 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+             NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+               NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                  NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN
+            TYPEOF(oe.edge_element)))) = 0
+                   ))) = 0
+                 ))) = 0
+               ))) = 0
+             ))) = 0;
+	WR6 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+             NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+               NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                 NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                   NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE'] *
+            TYPEOF(oe.edge_element\edge_curve.edge_geometry)) = 1 )
+               )) = 0
+               ))) = 0
+                 ))) = 0
+                   ))) = 0
+                    ))) = 0;
+	WR7 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+             NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+               NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                 NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+            NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF(oe.edge_start))
+                AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN
+                 TYPEOF(oe.edge_end))
+            ))) = 0
+              ))) = 0
+               ))) = 0
+                 ))) = 0
+                   ))) = 0;
+	WR8 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+             NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+               NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                   ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN
+            TYPEOF(oe.edge_element\edge_curve.edge_geometry)) AND
+            (NOT (SIZEOF (oe\oriented_edge.edge_element\
+                  edge_curve.edge_geometry\polyline.points) >= 3))
+               )) = 0
+               ))) = 0
+                 ))) = 0
+                   ))) = 0
+                    ))) = 0;
+	WR9 : SIZEOF (QUERY (msb <* QUERY (it <* items |
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL' IN TYPEOF
+              (msb\manifold_solid_brep.outer)))
+             = 0;
+	WR10 : SIZEOF (QUERY (brv <* QUERY (it <* items |
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BREP_WITH_VOIDS' IN TYPEOF(it)) |
+          NOT (SIZEOF (QUERY (csh <* brv\brep_with_voids.voids |
+           csh\oriented_closed_shell.orientation)) = 0))) = 0;
+	WR11 : SIZEOF (QUERY (mi <*  QUERY (it <* items |
+                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(it)) |
+          NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_BREP_SHAPE_REPRESENTATION' IN
+             TYPEOF(mi\mapped_item.mapping_source.
+                           mapped_representation)))) = 0;
+	WR12 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+            'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+            NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+              NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+               NOT (SIZEOF(QUERY (vlp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF(bnds.bound)) |
+           NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN
+               TYPEOF(vlp_fbnds\face_bound.bound\vertex_loop.loop_vertex)) AND
+                ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN
+                   TYPEOF(vlp_fbnds\face_bound.bound\vertex_loop.
+                     loop_vertex\vertex_point.vertex_geometry))
+            ))) = 0))) = 0))) = 0))) =0;
+END_ENTITY;
+
+
+ENTITY elementary_surface
+	SUPERTYPE OF (ONEOF (plane, cylindrical_surface, conical_surface, spherical_surface, toroidal_surface))
+	SUBTYPE OF (surface);
+	position : axis2_placement_3d;
+END_ENTITY;
+
+
+ENTITY ellipse
+	SUBTYPE OF (conic);
+	semi_axis_1 : positive_length_measure;
+	semi_axis_2 : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY energy_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ENERGY_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY energy_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.joule);
+END_ENTITY;
+
+
+ENTITY entity_assertion
+	SUBTYPE OF (fact_type);
+END_ENTITY;
+
+
+ENTITY enum_reference_prefix
+	SUBTYPE OF (descriptive_representation_item);
+END_ENTITY;
+
+
+ENTITY environment;
+	syntactic_representation : generic_variable;
+	semantics : variable_semantics;
+END_ENTITY;
+
+
+ENTITY evaluated_characteristic
+	SUBTYPE OF (representation, representation_relationship);
+UNIQUE
+  UR1: SELF\representation_relationship.rep_1, SELF\representation_relationship.rep_2;
+WHERE
+	WR1 : SELF\representation_relationship.rep_1 <> 
+       SELF\representation_relationship.rep_2;
+END_ENTITY;
+
+
+ENTITY evaluated_degenerate_pcurve
+	SUBTYPE OF (degenerate_pcurve);
+	equivalent_point : cartesian_point;
+END_ENTITY;
+
+
+ENTITY evaluation_product_definition
+	SUBTYPE OF (product_definition);
+END_ENTITY;
+
+
+ENTITY event_occurrence;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY event_occurrence_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_event_occurrence : event_occurrence;
+	role : event_occurrence_role;
+END_ENTITY;
+
+
+ENTITY event_occurrence_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_event : event_occurrence;
+	related_event : event_occurrence;
+END_ENTITY;
+
+
+ENTITY event_occurrence_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY exclusive_product_concept_feature_category
+	SUBTYPE OF (product_concept_feature_category);
+END_ENTITY;
+
+
+ENTITY executed_action
+	SUBTYPE OF (action);
+END_ENTITY;
+
+
+ENTITY expanded_uncertainty
+	SUBTYPE OF (standard_uncertainty);
+	coverage_factor : REAL;
+END_ENTITY;
+
+
+ENTITY explicit_procedural_geometric_representation_item_relationship
+	SUBTYPE OF (explicit_procedural_representation_item_relationship);
+	SELF\representation_item_relationship.related_representation_item : geometric_representation_item;
+	SELF\representation_item_relationship.relating_representation_item : procedural_shape_representation_sequence;
+WHERE
+	WR1 : NOT (
+    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROCEDURAL_SHAPE_REPRESENTATION_SEQUENCE'
+    IN TYPEOF(
+      SELF\representation_item_relationship.related_representation_item));
+END_ENTITY;
+
+
+ENTITY explicit_procedural_representation_item_relationship
+	SUBTYPE OF (representation_item_relationship);
+	SELF\representation_item_relationship.relating_representation_item : procedural_representation_sequence;
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROCEDURAL_REPRESENTATION_SEQUENCE'
+    IN TYPEOF(
+      SELF\representation_item_relationship.related_representation_item));
+	WR2 : SIZEOF(QUERY(q <* using_representations(
+    SELF\representation_item_relationship.related_representation_item) |
+    item_in_context(
+      SELF\representation_item_relationship.relating_representation_item,
+      q.context_of_items))) > 0;
+END_ENTITY;
+
+
+ENTITY explicit_procedural_representation_relationship
+	SUBTYPE OF (representation_relationship);
+	SELF\representation_relationship.rep_1 : procedural_representation;
+WHERE
+	WR1 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROCEDURAL_REPRESENTATION' 
+    IN TYPEOF(SELF\representation_relationship.rep_2))) AND 
+    (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VARIATIONAL_REPRESENTATION'
+    IN TYPEOF(SELF\representation_relationship.rep_2)));
+	WR2 : SELF\representation_relationship.rep_1.context_of_items :=:
+    SELF\representation_relationship.rep_2.context_of_items;
+END_ENTITY;
+
+
+ENTITY explicit_procedural_shape_representation_relationship
+	SUBTYPE OF (explicit_procedural_representation_relationship);
+	SELF\representation_relationship.rep_1 : procedural_shape_representation;
+	SELF\representation_relationship.rep_2 : shape_representation;
+END_ENTITY;
+
+
+ENTITY expression
+	ABSTRACT SUPERTYPE OF (ONEOF (numeric_expression, boolean_expression))
+	SUBTYPE OF (generic_expression);
+END_ENTITY;
+
+
+ENTITY expression_conversion_based_unit
+	SUBTYPE OF (context_dependent_unit, variable_semantics);
+INVERSE
+	associated_variable_environment: environment FOR semantics;
+END_ENTITY;
+
+
+ENTITY extension
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)= 1;
+END_ENTITY;
+
+
+ENTITY extent
+	SUBTYPE OF (characterized_object);
+END_ENTITY;
+
+
+ENTITY external_class_library
+	SUBTYPE OF (external_source);
+END_ENTITY;
+
+
+ENTITY external_identification_assignment
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (identification_assignment);
+	source : external_source;
+END_ENTITY;
+
+
+ENTITY external_source;
+	source_id : source_item;
+DERIVE
+	description : text := get_description_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY external_source_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_source : external_source;
+	related_source : external_source;
+END_ENTITY;
+
+
+ENTITY externally_defined_class
+	SUBTYPE OF (class, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_colour
+	SUBTYPE OF (colour_specification, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_context_dependent_unit
+	SUBTYPE OF (context_dependent_unit, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_conversion_based_unit
+	SUBTYPE OF (conversion_based_unit, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_currency
+	SUBTYPE OF (currency, externally_defined_context_dependent_unit);
+END_ENTITY;
+
+
+ENTITY externally_defined_curve_font
+	SUBTYPE OF (externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_dimension_definition
+	SUBTYPE OF (dimensional_size, externally_defined_item);
+WHERE
+	WR1 : (SELF\externally_defined_item.item_id = 'external size dimension') AND (SELF\externally_defined_item.source.source_id = 'external size dimension specification');
+	WR2 : 1 >= SIZEOF(QUERY ( adr <* USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.APPLIED_DOCUMENT_REFERENCE.ITEMS')| (adr.assigned_document.description = 'external size dimension specification') ));
+END_ENTITY;
+
+
+ENTITY externally_defined_general_property
+	SUBTYPE OF (general_property, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_hatch_style
+	SUBTYPE OF (externally_defined_item, geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_item;
+	item_id : source_item;
+	source : external_source;
+END_ENTITY;
+
+
+ENTITY externally_defined_item_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_item : externally_defined_item;
+	related_item : externally_defined_item;
+END_ENTITY;
+
+
+ENTITY externally_defined_marker
+	SUBTYPE OF (externally_defined_symbol, pre_defined_marker);
+END_ENTITY;
+
+
+ENTITY externally_defined_picture_representation_item
+	SUBTYPE OF (picture_representation_item);
+INVERSE
+	source: applied_external_identification_assignment FOR items;
+WHERE
+	WR1 : NOT (SELF\representation_item.name IN pre_defined_picture_representation_types);
+END_ENTITY;
+
+
+ENTITY externally_defined_representation_item
+	SUBTYPE OF (representation_item, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_string
+	SUBTYPE OF (externally_defined_representation_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_symbol
+	SUBTYPE OF (externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_terminator_symbol
+	SUBTYPE OF (externally_defined_symbol);
+END_ENTITY;
+
+
+ENTITY externally_defined_text_font
+	SUBTYPE OF (externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_tile
+	SUBTYPE OF (externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_tile_style
+	SUBTYPE OF (externally_defined_item, geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY extruded_area_solid
+	SUBTYPE OF (swept_area_solid);
+	extruded_direction : direction;
+	depth : positive_length_measure;
+WHERE
+	WR1 : dot_product(
+        (SELF\swept_area_solid.swept_area.basis_surface\
+        elementary_surface.position.p[3]), extruded_direction) <> 0.0;
+END_ENTITY;
+
+
+ENTITY extruded_face_solid
+	SUBTYPE OF (swept_face_solid);
+	extruded_direction : direction;
+	depth : positive_length_measure;
+WHERE
+	WR1 : dot_product(
+        (SELF\swept_face_solid.swept_face.face_geometry\
+        elementary_surface.position.p[3]), extruded_direction) <> 0.0;
+END_ENTITY;
+
+
+ENTITY extruded_face_solid_with_draft_angle
+	SUBTYPE OF (extruded_face_solid_with_trim_conditions);
+	draft_angle : plane_angle_measure;
+WHERE
+	WR1 : draft_angle <> 0;
+END_ENTITY;
+
+
+ENTITY extruded_face_solid_with_multiple_draft_angles
+	SUBTYPE OF (extruded_face_solid_with_trim_conditions);
+	drafted_edges : LIST [2:?] OF SET [1:?] OF edge_curve;
+	draft_angles : LIST [2:?] OF plane_angle_measure;
+WHERE
+	WR1 : SIZEOF(drafted_edges) = SIZEOF(draft_angles);
+	WR2 : SIZEOF(QUERY(q <* draft_angles | q = 0)) = 0;
+	WR3 : SIZEOF(QUERY(q <* drafted_edges | (SIZEOF(QUERY(r <* q | NOT 
+         (SELF\swept_face_solid.swept_face IN 
+          using_items(r,[])))) > 0))) = 0;
+END_ENTITY;
+
+
+ENTITY extruded_face_solid_with_trim_conditions
+	SUPERTYPE OF (ONEOF (extruded_face_solid_with_draft_angle, extruded_face_solid_with_multiple_draft_angles))
+	SUBTYPE OF (extruded_face_solid);
+	first_trim_condition : trim_condition_select;
+	second_trim_condition : trim_condition_select;
+	first_trim_intent : trim_intent;
+	second_trim_intent : trim_intent;
+	first_offset : non_negative_length_measure;
+	second_offset : non_negative_length_measure;
+WHERE
+	WR1 : NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_MEASURE' 
+         IN TYPEOF(first_trim_condition)) OR
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_MEASURE' 
+         IN TYPEOF(second_trim_condition)));
+	WR2 : NOT ((('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(first_trim_condition)) AND 
+         ((first_trim_intent = trim_intent.offset) 
+         OR (first_trim_intent = trim_intent.up_to_next))) OR  
+         (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(second_trim_condition)) AND 
+         ((second_trim_intent = trim_intent.offset) 
+         OR (second_trim_intent = trim_intent.up_to_next))));
+	WR3 : NOT (((NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(first_trim_condition))) AND 
+         ((first_trim_intent = trim_intent.blind) 
+         OR (first_trim_intent = trim_intent.through_all))) OR  
+         ((NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(second_trim_condition))) AND 
+         ((second_trim_intent = trim_intent.blind) 
+         OR (second_trim_intent = trim_intent.through_all))));
+	WR4 : (((first_trim_intent = trim_intent.offset) 
+           AND (first_offset > 0)) XOR
+         ((first_trim_intent <> trim_intent.offset) 
+           AND (first_offset = 0))) AND 
+         (((second_trim_intent = trim_intent.offset) 
+           AND (second_offset > 0)) XOR
+         ((second_trim_intent <> trim_intent.offset) 
+            AND (second_offset = 0)));
+	WR5 : NOT((('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(first_trim_condition)) AND
+            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(second_trim_condition))) AND
+         (first_trim_condition = second_trim_condition));
+END_ENTITY;
+
+
+ENTITY face
+	SUPERTYPE OF (ONEOF (face_surface, subface, oriented_face))
+	SUBTYPE OF (topological_representation_item);
+	bounds : SET [1:?] OF face_bound;
+WHERE
+	WR1 : NOT (mixed_loop_type_set(list_to_set(list_face_loops(SELF))));
+	WR2 : SIZEOF(QUERY(temp <* bounds | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_OUTER_BOUND' IN
+                                               TYPEOF(temp))) <= 1;
+END_ENTITY;
+
+
+ENTITY face_based_surface_model
+	SUBTYPE OF (geometric_representation_item);
+	fbsm_faces : SET [1:?] OF connected_face_set;
+END_ENTITY;
+
+
+ENTITY face_bound
+	SUBTYPE OF (topological_representation_item);
+	bound : loop;
+	orientation : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY face_outer_bound
+	SUBTYPE OF (face_bound);
+END_ENTITY;
+
+
+ENTITY face_surface
+	SUBTYPE OF (face, geometric_representation_item);
+	face_geometry : surface;
+	same_sense : BOOLEAN;
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_SURFACE' IN TYPEOF(face_geometry));
+END_ENTITY;
+
+
+ENTITY faceted_brep
+	SUBTYPE OF (manifold_solid_brep);
+END_ENTITY;
+
+
+ENTITY faceted_brep_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF ( 
+QUERY ( it <* items| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' ] * TYPEOF (it)) = 1) )) = 0;
+	WR2 : SIZEOF ( 
+QUERY ( it <* items| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ] * TYPEOF (it)) = 1) )) > 0;
+	WR3 : SIZEOF ( 
+QUERY ( fbrep <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( csh <* msb_shells(fbrep)| NOT ( SIZEOF ( 
+QUERY ( fcs <* csh\connected_face_set.cfs_faces| NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF (fcs)) AND (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN TYPEOF (fcs\face_surface.face_geometry)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (fcs\face_surface.face_geometry\elementary_surface.position.location)))) )) = 0) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( fbrep <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( csh <* msb_shells(fbrep)| NOT ( SIZEOF ( 
+QUERY ( fcs <* csh\connected_face_set.cfs_faces| NOT ( SIZEOF ( 
+QUERY ( bnds <* fcs.bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_OUTER_BOUND' IN TYPEOF (bnds)) )) = 1) )) = 0) )) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( msb <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF (it)) )| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL' IN TYPEOF (msb\manifold_solid_brep.outer)) )) = 0;
+	WR6 : SIZEOF ( 
+QUERY ( brv <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BREP_WITH_VOIDS' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( csh <* brv\brep_with_voids.voids| csh\oriented_closed_shell.orientation )) = 0) )) = 0;
+	WR7 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+END_ENTITY;
+
+
+ENTITY fact_type
+	SUBTYPE OF (property_definition);
+END_ENTITY;
+
+
+ENTITY fill_area_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	fill_styles : SET [1:?] OF fill_style_select;
+WHERE
+	WR1 : SIZEOF(QUERY(fill_style <* SELF.fill_styles |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'FILL_AREA_STYLE_COLOUR' IN
+         TYPEOF(fill_style)
+         )) <= 1;
+END_ENTITY;
+
+
+ENTITY fill_area_style_colour;
+	name : label;
+	fill_colour : colour;
+END_ENTITY;
+
+
+ENTITY fill_area_style_hatching
+	SUBTYPE OF (geometric_representation_item);
+	hatch_line_appearance : curve_style;
+	start_of_next_hatch_line : one_direction_repeat_factor;
+	point_of_reference_hatch_line : cartesian_point;
+	pattern_start : cartesian_point;
+	hatch_line_angle : plane_angle_measure;
+END_ENTITY;
+
+
+ENTITY fill_area_style_tile_coloured_region
+	SUBTYPE OF (geometric_representation_item);
+	closed_curve : curve_or_annotation_curve_occurrence;
+	region_colour : colour;
+WHERE
+	WR1 : (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF (closed_curve))) OR 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE' IN TYPEOF (closed_curve)) OR 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE' IN TYPEOF (closed_curve)) OR 
+        ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF (closed_curve)) 
+             AND (closed_curve\b_spline_curve.closed_curve = TRUE) ) OR 
+        ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE' IN TYPEOF (closed_curve)) 
+             AND (closed_curve\composite_curve.closed_curve = TRUE) ) OR 
+        ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (closed_curve)) 
+             AND (closed_curve\polyline.points[LOINDEX(closed_curve\polyline.points)] = 
+                  closed_curve\polyline.points[HIINDEX(closed_curve\polyline.points)]) );
+END_ENTITY;
+
+
+ENTITY fill_area_style_tile_curve_with_style
+	SUBTYPE OF (geometric_representation_item);
+	styled_curve : annotation_curve_occurrence;
+END_ENTITY;
+
+
+ENTITY fill_area_style_tile_symbol_with_style
+	SUBTYPE OF (geometric_representation_item);
+	symbol : annotation_symbol_occurrence;
+END_ENTITY;
+
+
+ENTITY fill_area_style_tiles
+	SUBTYPE OF (geometric_representation_item);
+	tiling_pattern : two_direction_repeat_factor;
+	tiles : SET [1:?] OF fill_area_style_tile_shape_select;
+	tiling_scale : positive_ratio_measure;
+END_ENTITY;
+
+
+ENTITY flat_pattern_ply_representation_relationship
+	SUBTYPE OF (shape_representation_relationship);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION' IN
+        (TYPEOF (SELF\representation_relationship.rep_1) *
+         TYPEOF (SELF\representation_relationship.rep_2));
+	WR2 : SELF\representation_relationship.rep_1.
+        context_of_items\geometric_representation_context.
+        coordinate_space_dimension = 3;
+END_ENTITY;
+
+
+ENTITY flatness_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF));
+END_ENTITY;
+
+
+ENTITY force_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FORCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY force_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.newton);
+END_ENTITY;
+
+
+ENTITY forward_chaining_rule
+	SUBTYPE OF (rule_definition);
+END_ENTITY;
+
+
+ENTITY forward_chaining_rule_premise
+	SUBTYPE OF (property_definition, property_definition_representation, representation);
+END_ENTITY;
+
+
+ENTITY founded_item
+	SUPERTYPE OF (ONEOF (character_glyph_style_outline, character_glyph_style_stroke, curve_style, curve_style_font, curve_style_font_and_scaling, curve_style_font_pattern, fill_area_style, point_style, presentation_style_assignment, surface_side_style, surface_style_boundary, surface_style_control_grid, surface_style_fill_area, surface_style_parameter_line, surface_style_segmentation_curve, surface_style_silhouette, surface_style_usage, symbol_style, text_style));
+DERIVE
+	users : SET [0:?] OF founded_item_select := using_items(SELF,[]);
+WHERE
+	WR1 : SIZEOF(users) > 0;
+	WR2 : NOT(SELF IN users);
+END_ENTITY;
+
+
+ENTITY frequency_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FREQUENCY_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY frequency_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.hertz);
+END_ENTITY;
+
+
+ENTITY func
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY functional_breakdown_context
+	SUBTYPE OF (breakdown_context);
+END_ENTITY;
+
+
+ENTITY functional_element_usage
+	SUBTYPE OF (breakdown_element_usage);
+END_ENTITY;
+
+
+ENTITY functionally_defined_transformation;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY general_material_property
+	SUBTYPE OF (general_property);
+WHERE
+	WR1 : SIZEOF( QUERY( gpa <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GENERAL_PROPERTY_ASSOCIATION.BASE_DEFINITION') | 
+        NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MATERIAL_PROPERTY' IN TYPEOF(gpa.derived_definition)) )) = 0;
+END_ENTITY;
+
+
+ENTITY general_property;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY general_property_association;
+	name : label;
+	description : OPTIONAL text;
+	base_definition : general_property;
+	derived_definition : derived_property_select;
+WHERE
+	WR1 : SIZEOF(USEDIN(derived_definition, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GENERAL_PROPERTY_ASSOCIATION.' + 'DERIVED_DEFINITION')) = 1;
+	WR2 : derived_definition.name = base_definition.name;
+END_ENTITY;
+
+
+ENTITY general_property_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_property : general_property;
+	related_property : general_property;
+END_ENTITY;
+
+
+ENTITY generic_character_glyph_symbol
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (symbol_representation);
+END_ENTITY;
+
+
+ENTITY generic_expression
+	ABSTRACT SUPERTYPE OF (ONEOF (simple_generic_expression, unary_generic_expression, binary_generic_expression, multiple_arity_generic_expression));
+WHERE
+	WR1 : is_acyclic(SELF);
+END_ENTITY;
+
+
+ENTITY generic_literal
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (simple_generic_expression);
+END_ENTITY;
+
+
+ENTITY generic_variable
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (simple_generic_expression);
+INVERSE
+	interpretation: environment FOR syntactic_representation;
+END_ENTITY;
+
+
+ENTITY geometric_alignment
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)> 1;
+END_ENTITY;
+
+
+ENTITY geometric_curve_set
+	SUBTYPE OF (geometric_set);
+WHERE
+	WR1 : SIZEOF(QUERY(temp <* SELF\geometric_set.elements |
+                            'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN TYPEOF(temp))) = 0;
+END_ENTITY;
+
+
+ENTITY geometric_intersection
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)> 1;
+END_ENTITY;
+
+
+ENTITY geometric_item_specific_usage
+	SUBTYPE OF (item_identified_representation_usage);
+	SELF\item_identified_representation_usage.definition : geometric_item_specific_usage_select;
+	SELF\item_identified_representation_usage.identified_item : geometric_representation_item;
+	SELF\item_identified_representation_usage.used_representation : shape_representation;
+END_ENTITY;
+
+
+ENTITY geometric_model_element_relationship
+	SUBTYPE OF (geometric_representation_item, representation_item_relationship);
+	SELF\representation_item_relationship.related_representation_item : geometric_representation_item;
+	SELF\representation_item_relationship.relating_representation_item : geometric_representation_item;
+UNIQUE
+	UR1 : relating_representation_item, related_representation_item;
+WHERE
+	WR1 : SELF\representation_item_relationship.relating_representation_item :<>: 
+        SELF\representation_item_relationship.related_representation_item;
+END_ENTITY;
+
+
+ENTITY geometric_representation_context
+	SUBTYPE OF (representation_context);
+	coordinate_space_dimension : dimension_count;
+END_ENTITY;
+
+
+ENTITY geometric_representation_item
+	SUPERTYPE OF (ONEOF (point, direction, vector, placement, cartesian_transformation_operator, curve, surface, edge_curve, face_surface, poly_loop, vertex_point, solid_model, boolean_result, sphere, right_circular_cone, right_circular_cylinder, torus, block, right_angular_wedge, half_space_solid, shell_based_surface_model, face_based_surface_model, shell_based_wireframe_model, edge_based_wireframe_model, geometric_set, camera_model, camera_model_d3_multi_clipping_intersection, camera_model_d3_multi_clipping_union, light_source))
+	SUBTYPE OF (representation_item);
+DERIVE
+	dim : dimension_count := dimension_of(SELF);
+WHERE
+	WR1 : SIZEOF (QUERY (using_rep <* using_representations (SELF) |
+      NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_CONTEXT' IN
+      TYPEOF (using_rep.context_of_items)))) = 0;
+END_ENTITY;
+
+
+ENTITY geometric_set
+	SUBTYPE OF (geometric_representation_item);
+	elements : SET [1:?] OF geometric_set_select;
+END_ENTITY;
+
+
+ENTITY geometric_tolerance;
+	name : label;
+	description : text;
+	magnitude : measure_with_unit;
+	toleranced_shape_aspect : shape_aspect;
+WHERE
+	WR1 : ('NUMBER' IN TYPEOF
+       (magnitude\measure_with_unit.value_component)) AND
+       (magnitude\measure_with_unit.value_component >= 0.0);
+END_ENTITY;
+
+
+ENTITY geometric_tolerance_relationship;
+	name : label;
+	description : text;
+	relating_geometric_tolerance : geometric_tolerance;
+	related_geometric_tolerance : geometric_tolerance;
+END_ENTITY;
+
+
+ENTITY geometric_tolerance_with_datum_reference
+	SUBTYPE OF (geometric_tolerance);
+	datum_system : SET [1:?] OF datum_reference;
+END_ENTITY;
+
+
+ENTITY geometric_tolerance_with_defined_unit
+	SUBTYPE OF (geometric_tolerance);
+	unit_size : measure_with_unit;
+WHERE
+	WR1 : ('NUMBER' IN TYPEOF
+       (unit_size\measure_with_unit.value_component)) AND
+       (unit_size\measure_with_unit.value_component > 0.0);
+END_ENTITY;
+
+
+ENTITY geometrical_tolerance_callout
+	SUBTYPE OF (draughting_callout);
+END_ENTITY;
+
+
+ENTITY geometrically_bounded_2d_wireframe_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SELF.context_of_items\geometric_representation_context.
+            coordinate_space_dimension = 2;
+	WR2 : SIZEOF (QUERY (item <* SELF.items |
+         NOT (SIZEOF (TYPEOF (item) *
+['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET',          
+'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_2D',
+            'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM']) = 1)
+       )) = 0;
+	WR3 : SIZEOF (QUERY (item <* SELF.items |
+         SIZEOF (TYPEOF (item) *          
+['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET',
+            'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM']) = 1
+       )) >= 1;
+	WR4 : SIZEOF (QUERY (mi <* QUERY (item <* SELF.items |
+     ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+           IN TYPEOF (item))) |
+         NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+              'GEOMETRICALLY_BOUNDED_2D_WIREFRAME_REPRESENTATION'
+           IN TYPEOF
+              (mi\mapped_item.mapping_source.mapped_representation))
+       )) = 0;
+	WR5 : SIZEOF (QUERY (gcs <* QUERY (item <* SELF.items |
+     ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET'
+                IN TYPEOF (item))) |
+         NOT (SIZEOF (QUERY (elem <* gcs\geometric_set.elements |
+           NOT (SIZEOF (TYPEOF (elem) *
+             ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_2D',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TRIMMED_CURVE']) =
+               1)
+         )) = 0)
+       )) = 0;
+	WR6 : SIZEOF (QUERY (gcs <* QUERY (item <* SELF.items |
+     ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET'
+                IN TYPEOF (item))) |
+         NOT (SIZEOF (QUERY (crv <* 
+           QUERY (elem <* gcs\geometric_set.elements |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE'
+                   IN TYPEOF (elem))) |
+           NOT (valid_basis_curve_in_2d_wireframe
+              (crv))
+         )) = 0)
+       )) = 0;
+	WR7 : SIZEOF (QUERY (gcs <* QUERY (item <* SELF.items |         
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET'
+                IN TYPEOF (item))) |
+         NOT (SIZEOF (QUERY (pnt <*
+           QUERY (elem <* gcs\geometric_set.elements |
+             ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT'
+                  IN TYPEOF(elem))) |
+             NOT (SIZEOF (TYPEOF (pnt) *
+               ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE'])
+          = 1)
+         )) = 0)
+       )) = 0;
+END_ENTITY;
+
+
+ENTITY geometrically_bounded_surface_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF(QUERY(it <* SELF.items | NOT (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] * TYPEOF(it)) = 1))) = 0;
+	WR2 : SIZEOF(QUERY(it <* SELF.items | SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF(it)) = 1)) > 0;
+	WR3 : SIZEOF(QUERY(mi <* QUERY(it <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(it)) | NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRICALLY_BOUNDED_SURFACE_SHAPE_REPRESENTATION' IN TYPEOF(mi\mapped_item.mapping_source.mapped_representation)) AND (SIZEOF(QUERY(mr_it <* mi\mapped_item.mapping_source.mapped_representation.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET' IN TYPEOF(mr_it)))) > 0)))) = 0;
+	WR4 : SIZEOF(QUERY(gs <* QUERY(it <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET' IN TYPEOF(it)) | NOT (SIZEOF(QUERY(pnt <* QUERY(gsel <* gs\geometric_set.elements | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT' IN TYPEOF(gsel)) | NOT (gbsf_check_point(pnt)))) = 0))) = 0;
+	WR5 : SIZEOF(QUERY(gs <* QUERY(it <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET' IN TYPEOF(it)) | NOT (SIZEOF(QUERY(cv <* QUERY(gsel <* gs\geometric_set.elements | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF(gsel)) | NOT (gbsf_check_curve(cv)))) = 0))) = 0;
+	WR6 : SIZEOF(QUERY(gs <* QUERY(it <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET' IN TYPEOF(it)) | NOT (SIZEOF(QUERY(sf <* QUERY(gsel <* gs\geometric_set.elements | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN TYPEOF(gsel)) | NOT (gbsf_check_surface(sf)))) = 0))) = 0;
+	WR7 : SIZEOF(QUERY(gs <* QUERY(it <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET' IN TYPEOF(it)) | SIZEOF(QUERY(gsel <* gs\geometric_set.elements | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN TYPEOF(gsel))) > 0)) > 0;
+END_ENTITY;
+
+
+ENTITY geometrically_bounded_wireframe_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF ( 
+QUERY ( it <* SELF.items| NOT ( SIZEOF ( TYPEOF (it) * [ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ]) = 1) )) = 0;
+	WR2 : SIZEOF ( 
+QUERY ( it <* SELF.items| ( SIZEOF ( TYPEOF (it) * [ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ]) = 1) )) >= 1;
+	WR3 : SIZEOF ( 
+QUERY ( gcs <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( crv <* 
+QUERY ( elem <* gcs\geometric_set.elements| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF (elem)) )| NOT valid_geometrically_bounded_wf_curve(crv) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( gcs <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( pnts <* 
+QUERY ( elem <* gcs\geometric_set.elements| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT' IN TYPEOF (elem)) )| NOT valid_geometrically_bounded_wf_point(pnts) )) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( gcs <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( cnc <* 
+QUERY ( elem <* gcs\geometric_set.elements| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC' IN TYPEOF (elem)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' IN TYPEOF (cnc\conic.position)) )) = 0) )) = 0;
+	WR6 : SIZEOF ( 
+QUERY ( gcs <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( pline <* 
+QUERY ( elem <* gcs\geometric_set.elements| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (elem)) )| NOT ( SIZEOF (pline\polyline.points) > 2) )) = 0) )) = 0;
+	WR7 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRICALLY_BOUNDED_WIREFRAME_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+END_ENTITY;
+
+
+ENTITY global_assignment
+	SUBTYPE OF (representation_item_relationship);
+END_ENTITY;
+
+
+ENTITY global_uncertainty_assigned_context
+	SUBTYPE OF (representation_context);
+	uncertainty : SET [1:?] OF uncertainty_measure_with_unit;
+END_ENTITY;
+
+
+ENTITY global_unit_assigned_context
+	SUBTYPE OF (representation_context);
+	units : SET [1:?] OF unit;
+END_ENTITY;
+
+
+ENTITY ground_fact
+	SUBTYPE OF (atomic_formula);
+END_ENTITY;
+
+
+ENTITY group;
+	name : label;
+	description : OPTIONAL text;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY group_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_group : group;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY group_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_group : group;
+	related_group : group;
+END_ENTITY;
+
+
+ENTITY half_space_solid
+	SUBTYPE OF (geometric_representation_item);
+	base_surface : surface;
+	agreement_flag : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY hardness_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : ( {2<= SIZEOF ( SELF.items ) <=4} ) AND ( SIZEOF ( QUERY (
+        i <* items | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF ( i ) ) AND (
+        i.name IN [ 'measuring method' , 'measuring position' ] ) )
+        ) + SIZEOF ( QUERY ( i <* items | ( SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MEASURE_REPRESENTATION_ITEM' ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'VALUE_RANGE']* TYPEOF ( i ) ) =1 )
+        AND ( i.name IN ['depth' , 'hardness'] ) ) ) = SIZEOF (
+        SELF.items ) );
+	WR2 : SIZEOF ( QUERY ( i <* SELF.items | i.name =
+        'measuring method' ) ) =1;
+	WR3 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='hardness' ) )
+        =1;
+	WR4 : SIZEOF ( QUERY ( i <* SELF.items | i.name =
+        'measuring position' ) ) <=1;
+	WR5 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='depth' ) )
+        <=1;
+	WR6 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) ) =1 ) AND ( SIZEOF ( QUERY ( pdr
+        <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | SIZEOF ( QUERY ( gpa <* USEDIN (
+        pdr. definition ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'GENERAL_PROPERTY_ASSOCIATION.'+
+        'DERIVED_DEFINITION' ) | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'GENERAL_PROPERTY' IN TYPEOF ( gpa. base_definition ) ) AND
+        ( gpa. base_definition.name ='surface_condition' ) ) ) =1 )
+        ) =1 );
+END_ENTITY;
+
+
+ENTITY hidden_element_over_riding_styled_item
+	SUBTYPE OF (context_dependent_over_riding_styled_item);
+	SELF\styled_item.item : camera_image;
+	SELF\context_dependent_over_riding_styled_item.style_context : LIST [1:1] OF presentation_view;
+INVERSE
+	container: SET [1:?] OF presentation_view FOR items;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CAMERA_MODEL_D3_WITH_HLHSR' IN TYPEOF
+                (SELF.item\mapped_item.mapping_source.mapping_origin);
+END_ENTITY;
+
+
+ENTITY hyperbola
+	SUBTYPE OF (conic);
+	semi_axis : positive_length_measure;
+	semi_imag_axis : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY id_attribute;
+	attribute_value : identifier;
+	identified_item : id_attribute_select;
+END_ENTITY;
+
+
+ENTITY identification_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_id : identifier;
+	role : identification_role;
+END_ENTITY;
+
+
+ENTITY identification_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY illuminance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ILLUMINANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY illuminance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.lux);
+END_ENTITY;
+
+
+ENTITY included_text_block
+	SUBTYPE OF (mapped_item);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRUCTURED_TEXT_REPRESENTATION' IN TYPEOF(SELF\mapped_item.mapping_source.mapped_representation);
+END_ENTITY;
+
+
+ENTITY inclusion_product_concept_feature
+	SUBTYPE OF (conditional_concept_feature);
+WHERE
+	WR1 : NOT ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PACKAGE_PRODUCT_CONCEPT_FEATURE' IN TYPEOF ( SELF ) );
+	WR2 : SIZEOF (QUERY
+									( cfr <* USEDIN 
+											( SELF ,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP.RELATING_PRODUCT_CONCEPT_FEATURE' ) 
+											| 
+											'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'CONCEPT_FEATURE_RELATIONSHIP_WITH_CONDITION' IN TYPEOF( cfr ) 
+									) 
+								) + 
+				 SIZEOF(QUERY
+				 					( cfr <* USEDIN 
+				 							(SELF , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP.RELATED_PRODUCT_CONCEPT_FEATURE' ) 
+				 							| 
+											'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP_WITH_CONDITION' IN TYPEOF(cfr)
+									)
+								)= 0;
+	WR3 : SELF.condition.conditional_operator.name = 'implication';
+END_ENTITY;
+
+
+ENTITY indirectly_selected_elements
+	SUBTYPE OF (user_selected_elements);
+	indirectly_picked_items : SET [1:?] OF representation_item;
+END_ENTITY;
+
+
+ENTITY indirectly_selected_shape_elements
+	SUBTYPE OF (indirectly_selected_elements, user_selected_shape_elements);
+WHERE
+	WR1 : SIZEOF(QUERY(q <*
+    SELF\indirectly_selected_elements.indirectly_picked_items
+    | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION_ITEM'
+    IN TYPEOF(q)))) = 0;
+END_ENTITY;
+
+
+ENTITY inductance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INDUCTANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY inductance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.henry);
+END_ENTITY;
+
+
+ENTITY information_right
+	SUBTYPE OF (action_method);
+END_ENTITY;
+
+
+ENTITY information_usage_right
+	SUBTYPE OF (action_method);
+END_ENTITY;
+
+
+ENTITY instance_usage_context_assignment
+	SUBTYPE OF (product_definition_context);
+	items : SET [1:?] OF instance_usage_context_select;
+END_ENTITY;
+
+
+ENTITY instanced_feature
+	SUBTYPE OF (shape_aspect, shape_feature_definition);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN
+         TYPEOF(SELF\shape_aspect.of_shape.definition);
+	WR2 : SELF\shape_aspect.product_definitional;
+END_ENTITY;
+
+
+ENTITY int_literal
+	SUBTYPE OF (literal_number);
+	SELF\literal_number.the_value : INTEGER;
+END_ENTITY;
+
+
+ENTITY integer_representation_item
+	SUBTYPE OF (representation_item, int_literal);
+END_ENTITY;
+
+
+ENTITY intersection_curve
+	SUBTYPE OF (surface_curve);
+WHERE
+	WR1 : SIZEOF(SELF\surface_curve.associated_geometry) = 2;
+	WR2 : associated_surface(SELF\surface_curve.associated_geometry[1]) <>
+             associated_surface(SELF\surface_curve.associated_geometry[2]);
+END_ENTITY;
+
+
+ENTITY interval_expression
+	SUBTYPE OF (boolean_expression, multiple_arity_generic_expression);
+DERIVE
+	interval_high : generic_expression := SELF\multiple_arity_generic_expression.operands[3];
+	interval_item : generic_expression := SELF\multiple_arity_generic_expression.operands[2];
+	interval_low : generic_expression := SELF\multiple_arity_generic_expression.operands[1];
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXPRESSION' 
+				IN TYPEOF(interval_low))
+		AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXPRESSION' 
+				IN TYPEOF(interval_item) )
+		AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXPRESSION' 
+				IN TYPEOF(interval_high));
+	WR2 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION' 
+				IN TYPEOF (SELF.interval_low)) 
+			AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION'  
+				IN TYPEOF (SELF.interval_high)) 
+			AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION' 
+				IN TYPEOF (SELF.interval_item))) 
+		OR
+		(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION' 
+				IN TYPEOF(SELF.interval_low)) 
+			AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NUMERIC_EXPRESSION' 
+				IN TYPEOF(SELF.interval_item)) 
+			AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NUMERIC_EXPRESSION' 
+				IN TYPEOF(SELF.interval_high)));
+END_ENTITY;
+
+
+ENTITY invisibility;
+	invisible_items : SET [1:?] OF invisible_item;
+END_ENTITY;
+
+
+ENTITY iso4217_currency
+	SUBTYPE OF (currency);
+END_ENTITY;
+
+
+ENTITY item_defined_transformation;
+	name : label;
+	description : OPTIONAL text;
+	transform_item_1 : representation_item;
+	transform_item_2 : representation_item;
+END_ENTITY;
+
+
+ENTITY item_identified_representation_usage;
+	name : label;
+	description : OPTIONAL text;
+	definition : represented_definition;
+	used_representation : representation;
+	identified_item : representation_item;
+WHERE
+	WR1 : SELF.used_representation IN using_representations(SELF.identified_item);
+END_ENTITY;
+
+
+ENTITY known_source
+	SUBTYPE OF (external_source, pre_defined_item);
+END_ENTITY;
+
+
+ENTITY laid_defined_transformation
+	SUBTYPE OF (transformation_with_derived_angle);
+END_ENTITY;
+
+
+ENTITY laminate_table
+	SUPERTYPE OF (ONEOF (part_laminate_table, zone_structural_makeup))
+	SUBTYPE OF (product_definition);
+END_ENTITY;
+
+
+ENTITY language
+	SUBTYPE OF (group);
+WHERE
+	WR1 : SELF\group.name <> '';
+END_ENTITY;
+
+
+ENTITY leader_curve
+	SUBTYPE OF (annotation_curve_occurrence);
+WHERE
+	WR1 : SIZEOF( 
+          QUERY(ldc <* USEDIN( SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                       'DRAUGHTING_CALLOUT.CONTENTS')
+                   |   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                       'LEADER_DIRECTED_CALLOUT'  IN TYPEOF(ldc))) >= 1;
+END_ENTITY;
+
+
+ENTITY leader_directed_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF (QUERY (l_1 <* SELF\draughting_callout.contents |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE' IN (TYPEOF(l_1)))) >= 1;
+	WR2 : SIZEOF(SELF\draughting_callout.contents) >=2;
+END_ENTITY;
+
+
+ENTITY leader_directed_dimension
+	SUBTYPE OF (leader_directed_callout);
+WHERE
+	WR1 : SIZEOF (QUERY (con <* SELF.contents |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE' IN TYPEOF (con)))=1;
+END_ENTITY;
+
+
+ENTITY leader_terminator
+	SUBTYPE OF (terminator_symbol);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE' IN TYPEOF
+        (SELF\terminator_symbol.annotated_curve);
+END_ENTITY;
+
+
+ENTITY length_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY length_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 1.0) AND 
+    (SELF\named_unit.dimensions.mass_exponent = 0.0) AND 
+    (SELF\named_unit.dimensions.time_exponent = 0.0) AND 
+    (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND 
+    (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND 
+    (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND 
+    (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY light_source
+	SUPERTYPE OF (ONEOF (light_source_ambient, light_source_directional, light_source_positional, light_source_spot))
+	SUBTYPE OF (geometric_representation_item);
+	light_colour : colour;
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                              'STYLED_ITEM.ITEM')) = 0;
+END_ENTITY;
+
+
+ENTITY light_source_ambient
+	SUBTYPE OF (light_source);
+END_ENTITY;
+
+
+ENTITY light_source_directional
+	SUBTYPE OF (light_source);
+	orientation : direction;
+END_ENTITY;
+
+
+ENTITY light_source_positional
+	SUBTYPE OF (light_source);
+	position : cartesian_point;
+	constant_attenuation : REAL;
+	distance_attenuation : REAL;
+END_ENTITY;
+
+
+ENTITY light_source_spot
+	SUBTYPE OF (light_source);
+	position : cartesian_point;
+	orientation : direction;
+	concentration_exponent : REAL;
+	constant_attenuation : REAL;
+	distance_attenuation : REAL;
+	spread_angle : positive_plane_angle_measure;
+END_ENTITY;
+
+
+ENTITY limits_and_fits;
+	form_variance : label;
+	zone_variance : label;
+	grade : label;
+	source : text;
+END_ENTITY;
+
+
+ENTITY line
+	SUBTYPE OF (curve);
+	pnt : cartesian_point;
+	dir : vector;
+WHERE
+	WR1 : dir.dim  = pnt.dim;
+END_ENTITY;
+
+
+ENTITY line_profile_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF)) OR ( SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 3);
+	WR2 : SIZEOF ( 
+QUERY ( sar <* USEDIN (SELF\geometric_tolerance.toleranced_shape_aspect, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'SHAPE_ASPECT_RELATIONSHIP.RELATING_SHAPE_ASPECT')| (sar.name IN [ 'affected plane association', 'resulting intersection curve association' ]) )) = 1;
+END_ENTITY;
+
+
+ENTITY linear_dimension
+	SUBTYPE OF (dimension_curve_directed_callout);
+END_ENTITY;
+
+
+ENTITY literal_conjunction
+	SUBTYPE OF (simple_clause);
+END_ENTITY;
+
+
+ENTITY literal_disjunction
+	SUBTYPE OF (simple_clause);
+END_ENTITY;
+
+
+ENTITY literal_number
+	ABSTRACT SUPERTYPE OF (ONEOF (int_literal, real_literal))
+	SUBTYPE OF (simple_numeric_expression, generic_literal);
+	the_value : NUMBER;
+END_ENTITY;
+
+
+ENTITY local_time;
+	hour_component : hour_in_day;
+	minute_component : OPTIONAL minute_in_hour;
+	second_component : OPTIONAL second_in_minute;
+	zone : coordinated_universal_time_offset;
+WHERE
+	WR1 : valid_time (SELF);
+END_ENTITY;
+
+
+ENTITY logical_literal
+	SUBTYPE OF (generic_literal);
+	lit_value : LOGICAL;
+END_ENTITY;
+
+
+ENTITY logical_representation_item
+	SUBTYPE OF (representation_item, logical_literal);
+END_ENTITY;
+
+
+ENTITY loop
+	SUPERTYPE OF (ONEOF (vertex_loop, edge_loop, poly_loop))
+	SUBTYPE OF (topological_representation_item);
+END_ENTITY;
+
+
+ENTITY loss_tangent_measure_with_unit
+	SUBTYPE OF (ratio_measure_with_unit);
+END_ENTITY;
+
+
+ENTITY lot_effectivity
+	SUBTYPE OF (effectivity);
+	effectivity_lot_id : identifier;
+	effectivity_lot_size : measure_with_unit;
+END_ENTITY;
+
+
+ENTITY luminous_flux_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LUMINOUS_FLUX_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY luminous_flux_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.lumen);
+END_ENTITY;
+
+
+ENTITY luminous_intensity_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LUMINOUS_INTENSITY_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY luminous_intensity_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 1.0);
+END_ENTITY;
+
+
+ENTITY magnetic_flux_density_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAGNETIC_FLUX_DENSITY_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY magnetic_flux_density_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.tesla);
+END_ENTITY;
+
+
+ENTITY magnetic_flux_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAGNETIC_FLUX_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY magnetic_flux_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.weber);
+END_ENTITY;
+
+
+ENTITY make_from_usage_option
+	SUBTYPE OF (product_definition_usage);
+	ranking : INTEGER;
+	ranking_rationale : text;
+	quantity : measure_with_unit;
+WHERE
+	WR1 : (NOT ('NUMBER' IN TYPEOF(quantity.value_component)))
+       OR (quantity.value_component > 0);
+END_ENTITY;
+
+
+ENTITY manifold_solid_brep
+	SUBTYPE OF (solid_model);
+	outer : closed_shell;
+END_ENTITY;
+
+
+ENTITY manifold_subsurface_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (it <* SELF.items |
+          NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] *
+                   TYPEOF(it)) = 1))) = 0;
+	WR2 : SIZEOF (QUERY (it <* SELF.items |
+         SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET',
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF(it)) =1 )) > 0;
+	WR3 : SIZEOF (QUERY (mi <*  QUERY (it <* items |
+                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(it)) |
+   NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SUBSURFACE_SHAPE_REPRESENTATION' IN
+             TYPEOF(mi\mapped_item.mapping_source.
+                           mapped_representation)))) = 0;
+	WR4 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+          NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OPEN_SHELL' IN TYPEOF(cfss)))) = 0;
+	WR5 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+          NOT( (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN
+                   TYPEOF(cfss\connected_face_sub_set.parent_face_set))AND
+           (SIZEOF(QUERY(fac <* cfss\connected_face_sub_set.parent_face_set\connected_face_set.cfs_faces | NOT
+                 advanced_face_properties(fac))) = 0)) OR
+            (SIZEOF(QUERY(fac <* cfss\connected_face_sub_set.parent_face_set\connected_face_set.cfs_faces | NOT
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF(fac)))) = 0)
+                    ))) = 0;
+	WR6 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+          ( SIZEOF (QUERY (fac <* cfss\connected_face_set.cfs_faces  | NOT
+              advanced_face_properties(fac))) = 0))) = 0;
+	WR7 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+            NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                  NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN
+            TYPEOF(oe.edge_element)) OR
+           ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBEDGE' IN
+            TYPEOF(oe.edge_element)) ))) = 0
+                   ))) = 0
+                 ))) = 0
+             ))) = 0;
+	WR8 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+           ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+               NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                 NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+          NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF(oe.edge_start))
+                AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN
+                 TYPEOF(oe.edge_end))
+            ))) = 0
+              ))) = 0
+               ))) = 0
+                   ))) = 0;
+	WR9 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+              ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+              ( NOT (SIZEOF(QUERY  (bnds <* fcs.bounds |
+         NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP'] *
+                   TYPEOF(bnds.bound)) = 1 )
+                   )) = 0)
+                 ))) = 0
+             ))) = 0;
+	WR10 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+              ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+              ( NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                 NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                   NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' ] *
+            TYPEOF(oe.edge_element\edge_curve.edge_geometry)) = 1 )
+               )) = 0
+               ))) = 0
+                 )))) = 0
+                    ))) = 0;
+	WR11 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+              ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+               (NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                   ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN
+            TYPEOF(oe.edge_element\edge_curve.edge_geometry)) AND
+            (NOT ((SIZEOF (QUERY (sc_ag <*
+            oe.edge_element\edge_curve.edge_geometry\
+            surface_curve.associated_geometry |
+            NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN
+            TYPEOF(sc_ag)))) = 0)))
+               )) = 0
+               ))) = 0
+                   )))) = 0
+                    ))) = 0;
+	WR12 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+              ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+               (NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                   ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN
+            TYPEOF(oe.edge_element\edge_curve.edge_geometry)) AND
+            (NOT (SIZEOF (oe\oriented_edge.edge_element\
+                  edge_curve.edge_geometry\polyline.points) >= 3))
+               )) = 0
+               ))) = 0
+                   )))) = 0
+                    ))) = 0;
+END_ENTITY;
+
+
+ENTITY manifold_surface_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (it <* SELF.items |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] * TYPEOF (it)) = 1))) = 0;
+	WR2 : SIZEOF (QUERY (it <* SELF.items |
+       SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF (it)) = 1)) > 0;
+	WR3 : SIZEOF (QUERY (mi <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SURFACE_SHAPE_REPRESENTATION'
+       IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation))
+       AND
+       (SIZEOF(QUERY (mr_it <*
+       mi\mapped_item.mapping_source.mapped_representation.items |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL'
+       IN TYPEOF (mr_it)))) > 0 )))) = 0;
+	WR4 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (sh <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OPEN_SHELL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CLOSED_SHELL']
+       * TYPEOF (sh)) = 1))) = 0))) = 0;
+	WR5 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF (fa)) )) = 0)))
+       = 0))) = 0;
+	WR6 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (msf_surface_check(fa\face_surface.face_geometry))))) = 0))) 
+       = 0))) = 0;
+	WR7 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (bnds <* fa.bounds |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP']
+       * TYPEOF (bnds.bound)) = 1))) = 0)))) = 0))) = 0))) = 0;
+	WR8 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items|
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF 
+       (oe.edge_element)))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR9 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe_cv <* QUERY (oe <* 
+       elp_fbnds\path.edge_list |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF (oe.edge_element)) |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE'] * 
+       TYPEOF (oe_cv.edge_element\edge_curve.edge_geometry)) 
+       = 1))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR10 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT (msf_curve_check (oe.edge_element\edge_curve.edge_geometry)))) 
+       = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR11 : SIZEOF (QUERY(sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list|
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF
+       (oe.edge_element.edge_start))
+       AND
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN
+       TYPEOF (oe.edge_element.edge_end))))) 
+       = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR12 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT ((SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (oe.edge_element.edge_start\vertex_point.vertex_geometry)) = 1)
+       AND
+       (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (oe.edge_element.edge_end\vertex_point.vertex_geometry)) = 1
+       )))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR13 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <* 
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (vlp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF
+       (vlp_fbnds\vertex_loop.loop_vertex)))) = 0)))) = 0))) 
+       = 0))) = 0;
+	WR14 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <* 
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (vlp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (vlp_fbnds\vertex_loop.loop_vertex\vertex_point.vertex_geometry)) 
+       = 1))) = 0)))) = 0))) = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY mapped_item
+	SUBTYPE OF (representation_item);
+	mapping_source : representation_map;
+	mapping_target : representation_item;
+WHERE
+	WR1 : acyclic_mapped_representation(SELF);
+END_ENTITY;
+
+
+ENTITY mass_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MASS_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY mass_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 1.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY material_designation;
+	name : label;
+	definitions : SET [1:?] OF characterized_definition;
+END_ENTITY;
+
+
+ENTITY material_designation_characterization;
+	name : label;
+	description : text;
+	designation : material_designation;
+	property : characterized_material_property;
+END_ENTITY;
+
+
+ENTITY material_property
+	SUBTYPE OF (property_definition);
+UNIQUE
+  UR1: SELF\property_definition.name, SELF\property_definition.definition;
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CHARACTERIZED_OBJECT' IN
+          TYPEOF(SELF\property_definition.definition)) OR
+       (SIZEOF(bag_to_set(USEDIN(SELF ,
+                     'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                     'PROPERTY_DEFINITION_REPRESENTATION.DEFINITION')) -
+              QUERY(temp <* bag_to_set(USEDIN(SELF ,
+                       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                       'PROPERTY_DEFINITION_REPRESENTATION.DEFINITION')) |
+                       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                      'MATERIAL_PROPERTY_REPRESENTATION' IN
+                      TYPEOF(temp)))) = 0);
+END_ENTITY;
+
+
+ENTITY material_property_representation
+	SUBTYPE OF (property_definition_representation);
+	dependent_environment : data_environment;
+END_ENTITY;
+
+
+ENTITY measure_qualification;
+	name : label;
+	description : text;
+	qualified_measure : measure_with_unit;
+	qualifiers : SET [1:?] OF value_qualifier;
+WHERE
+	WR1 : SIZEOF(QUERY(temp <* qualifiers |
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRECISION_QUALIFIER'
+             IN TYPEOF(temp))) < 2;
+	WR2 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_ITEM'
+           IN TYPEOF(SELF\measure_qualification.qualified_measure));
+END_ENTITY;
+
+
+ENTITY measure_representation_item
+	SUBTYPE OF (representation_item, measure_with_unit);
+END_ENTITY;
+
+
+ENTITY measure_with_unit
+	SUPERTYPE OF (ONEOF (length_measure_with_unit, mass_measure_with_unit, time_measure_with_unit, electric_current_measure_with_unit, thermodynamic_temperature_measure_with_unit, celsius_temperature_measure_with_unit, amount_of_substance_measure_with_unit, luminous_intensity_measure_with_unit, plane_angle_measure_with_unit, solid_angle_measure_with_unit, area_measure_with_unit, volume_measure_with_unit, ratio_measure_with_unit, acceleration_measure_with_unit, capacitance_measure_with_unit, electric_charge_measure_with_unit, conductance_measure_with_unit, electric_potential_measure_with_unit, energy_measure_with_unit, magnetic_flux_density_measure_with_unit, force_measure_with_unit, frequency_measure_with_unit, illuminance_measure_with_unit, inductance_measure_with_unit, luminous_flux_measure_with_unit, magnetic_flux_measure_with_unit, power_measure_with_unit, pressure_measure_with_unit, resistance_measure_with_unit, velocity_measure_with_unit, absorbed_dose_measure_with_unit, radioactivity_measure_with_unit, dose_equivalent_measure_with_unit));
+	value_component : measure_value;
+	unit_component : unit;
+WHERE
+	WR1 : valid_units(SELF);
+END_ENTITY;
+
+
+ENTITY mechanical_context
+	SUBTYPE OF (product_context);
+WHERE
+	WR1 : SELF.discipline_type = 'mechanical';
+END_ENTITY;
+
+
+ENTITY mechanical_design_and_draughting_relationship
+	SUBTYPE OF (definitional_representation_relationship_with_same_context);
+	SELF\representation_relationship.rep_1 : mechanical_design_and_draughting_relationship_select;
+	SELF\representation_relationship.rep_2 : mechanical_design_and_draughting_relationship_select;
+WHERE
+	WR1 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'DRAUGHTING_MODEL' IN TYPEOF(rep_2)) OR 
+       (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'DRAUGHTING_MODEL' IN TYPEOF(rep_1)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'SHAPE_REPRESENTATION' IN TYPEOF(rep_1)));
+	WR2 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'MECHANICAL_DESIGN_GEOMETRIC_PRESENTATION_REPRESENTATION' IN TYPEOF(rep_2)) OR 
+       (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'MECHANICAL_DESIGN_GEOMETRIC_PRESENTATION_REPRESENTATION' IN TYPEOF(rep_1)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'SHAPE_REPRESENTATION' IN TYPEOF(rep_1)));
+	WR3 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'MECHANICAL_DESIGN_SHADED_PRESENTATION_REPRESENTATION' IN TYPEOF(rep_2)) OR 
+       (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'MECHANICAL_DESIGN_SHADED_PRESENTATION_REPRESENTATION' IN TYPEOF(rep_1)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'SHAPE_REPRESENTATION' IN TYPEOF(rep_1)));
+END_ENTITY;
+
+
+ENTITY mechanical_design_geometric_presentation_area
+	SUBTYPE OF (presentation_area);
+	SELF\representation.items : SET [1:?] OF mechanical_design_geometric_presentation_area_items;
+WHERE
+	WR1 : SIZEOF(QUERY(it1 <* SELF.items |
+        NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it1))
+        OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (it1\mapped_item.mapping_source.mapped_representation)))) = 0;
+	WR2 : SIZEOF(QUERY(pv <* QUERY(mi1 <* QUERY(it1 <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it1)) |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (mi1\mapped_item.mapping_source.mapped_representation)) |
+        -- search in all presentation_views for axis2_placements and
+        -- mapped_items and for the subtype of mapped_item
+        -- camera_image_3d_with_scale; the latter shall reference
+        -- a mechanical_design_geometric_presentation_representation;
+        -- the supertype mapped_item shall reference presentation_view.
+        NOT (SIZEOF(QUERY(it2 <* pv\mapped_item.mapping_source.
+        mapped_representation\representation.items |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT'
+        IN TYPEOF(it2))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it2)) AND NOT
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'CAMERA_IMAGE_3D_WITH_SCALE' IN TYPEOF(it2))) AND NOT (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (it2\mapped_item.mapping_source.mapped_representation)))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'CAMERA_IMAGE_3D_WITH_SCALE' IN TYPEOF(it2))
+        AND NOT (
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'MECHANICAL_DESIGN_GEOMETRIC_PRESENTATION_REPRESENTATION'
+        IN TYPEOF (it2\mapped_item.mapping_source.mapped_representation) ))
+        ))) = 0))) = 0;
+	WR3 : (SIZEOF(QUERY(ps <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') | ((ps.size\planar_extent.size_in_x <= 0)
+        OR
+        (ps.size\planar_extent.size_in_y <= 0)))) = 0)
+        AND
+        (SIZEOF(QUERY(ais <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AREA_IN_SET.AREA') |
+        (SIZEOF(QUERY(ps <* USEDIN (ais, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') |
+        ((ps.size\planar_extent.size_in_x <= 0)
+        OR
+        (ps.size\planar_extent.size_in_y <= 0)))) > 0))) = 0);
+	WR4 : (SIZEOF(QUERY(ps <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') | 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AXIS2_PLACEMENT_2D' IN TYPEOF (ps.size.placement)))) = 1)
+        AND
+        (SIZEOF(QUERY(ps <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') | 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AXIS2_PLACEMENT_3D' IN TYPEOF (ps.size.placement)))) = 0)
+        OR
+        ((SIZEOF(QUERY(ais <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AREA_IN_SET.AREA') |
+        (SIZEOF(QUERY(ps <* USEDIN (ais, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AXIS2_PLACEMENT_2D' IN TYPEOF (ps.size.placement)))) = 1))) = 1)
+        AND
+        (SIZEOF(QUERY(ais <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AREA_IN_SET.AREA') |
+        (SIZEOF(QUERY(ps <* USEDIN (ais, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AXIS2_PLACEMENT_3D' IN TYPEOF (ps.size.placement)))) = 0))) = 1));
+END_ENTITY;
+
+
+ENTITY mechanical_design_geometric_presentation_representation
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF mechanical_design_geometric_presentation_representation_items;
+WHERE
+	WR1 : SIZEOF(QUERY(mi <* QUERY(it <* SELF.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it))) | NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SHAPE_REPRESENTATION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'MECHANICAL_DESIGN_GEOMETRIC_PRESENTATION_REPRESENTATION']
+        * TYPEOF(mi\mapped_item.mapping_source.mapped_representation))
+        = 1))) = 0;
+	WR2 : SIZEOF(QUERY(smi <* QUERY(si <* QUERY(it <* SELF.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it))) |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(si\styled_item.item))) | NOT (
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SHAPE_REPRESENTATION' IN TYPEOF (smi\styled_item.
+        item\mapped_item.mapping_source.mapped_representation))) )) = 0;
+	WR3 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(pss <* psa.styles | NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_STYLE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE']
+        * TYPEOF(pss)) = 1))) = 0))) = 0))) = 0;
+	WR4 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) |
+        NOT (SIZEOF(QUERY(psbc <* QUERY(psa <* si\styled_item.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_STYLE_BY_CONTEXT' IN TYPEOF(psa)) | NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'REPRESENTATION_ITEM',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION']
+        * TYPEOF(psbc\presentation_style_by_context.style_context))
+        = 1))) = 0))) = 0;
+	WR5 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ps <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_STYLE'
+        IN TYPEOF(pss)) | NOT
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF (ps\point_style.marker_size))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(ps\point_style.marker_colour))
+        = 1)))) = 0))) = 0))) = 0;
+	WR6 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(cs <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF(pss)) | NOT((SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(cs\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF (cs\curve_style.curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(cs\curve_style.curve_font)) = 1)))) = 0))) = 0))) = 0;
+	WR7 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) |
+        NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_SIDE_STYLE' IN TYPEOF
+        (ssu\surface_style_usage.style)))) = 0))) = 0))) = 0;
+	WR8 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_PARAMETER_LINE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_CONTROL_GRID',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_SILHOUETTE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_SEGMENTATION_CURVE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_FILL_AREA',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_BOUNDARY']
+        * TYPEOF(sses)) = 1))) = 0))) = 0))) = 0))) = 0;
+	WR9 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(sspl <* QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_PARAMETER_LINE' IN TYPEOF(sses)) |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF
+        (sspl\surface_style_parameter_line.style_of_parameter_lines))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_colour)) = 1)
+        AND (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_font)) = 1))))
+        = 0))) = 0))) = 0))) = 0;
+	WR10 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(sscg <* QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_CONTROL_GRID' IN TYPEOF(sses)) |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (sscg\surface_style_control_grid.style_of_control_grid))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF 
+        (sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_font)) = 1))))
+        = 0))) = 0))) = 0))) = 0;
+	WR11 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) |
+        NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(sssh <* QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_SILHOUETTE' IN TYPEOF(sses)) |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (sssh\surface_style_silhouette.style_of_silhouette))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(sssh\surface_style_silhouette.
+        style_of_silhouette\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sssh\surface_style_silhouette.style_of_silhouette\curve_style.
+        curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(sssh\surface_style_silhouette.
+        style_of_silhouette\curve_style.curve_font)) = 1))))
+        = 0))) = 0))) = 0))) = 0;
+	WR12 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(sssc <* QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_SEGMENTATION_CURVE' IN TYPEOF(sses)) |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF
+        (sssc\surface_style_segmentation_curve.style_of_segmentation_curve))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_font)) = 1))))
+        = 0))) = 0))) = 0))) = 0;
+	WR13 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(ssbd <* QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_BOUNDARY' IN TYPEOF(sses)) |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (ssbd\surface_style_boundary.style_of_boundary))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF (ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_font)) = 1)))) = 0)))
+        = 0))) = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY mechanical_design_presentation_representation_with_draughting
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF camera_model_d3;
+END_ENTITY;
+
+
+ENTITY mechanical_design_shaded_presentation_area
+	SUBTYPE OF (presentation_area);
+WHERE
+	WR1 : SIZEOF (QUERY (it1 <* SELF.items |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT'
+        IN TYPEOF (it1))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF (it1)) AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (it1\mapped_item.mapping_source.mapped_representation)))))) = 0;
+	WR2 : SIZEOF (QUERY (pv <* QUERY (mi1 <* QUERY (it1 <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF (it1)) |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (mi1\mapped_item.mapping_source.mapped_representation)) |
+        (* search in all presentation_views for axis2_placements and
+           mapped_items and for the subtype of mapped_item,
+           camera_image_3d_with_scale; the latter shall reference
+           a mechanical_design_geometric_presentation_representation;
+           the supertype mapped_item shall reference presentation_view. *)
+        NOT (SIZEOF(QUERY(it2 <* pv\mapped_item.mapping_source.
+        mapped_representation\representation.items |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT'
+        IN TYPEOF(it2))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it2)) AND NOT
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'CAMERA_IMAGE_3D_WITH_SCALE' IN TYPEOF(it2))) AND NOT (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (it2\mapped_item.mapping_source.mapped_representation)))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'CAMERA_IMAGE_3D_WITH_SCALE' IN TYPEOF(it2))
+        AND NOT (
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'MECHANICAL_DESIGN_SHADED_PRESENTATION_REPRESENTATION'
+        IN TYPEOF (it2\mapped_item.mapping_source.mapped_representation) ))
+        ))) = 0))) = 0;
+	WR3 : (SIZEOF (QUERY(ps <* USEDIN (SELF, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'PRESENTATION_SIZE.UNIT') |
+        NOT ((ps.size\planar_extent.size_in_x > 0) 
+        AND (ps.size\planar_extent.size_in_y > 0)) )) = 0)
+        AND
+        (* check secondly for presentation_set, via area_in_set *)
+        (SIZEOF (QUERY(pset <* QUERY(ais <* 
+        USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'AREA_IN_SET.AREA') 
+        | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SET' IN TYPEOF (ais.in_set)) |
+        (* after having collected all presentation_set, check their sizes *)
+        SIZEOF (QUERY(psize <* USEDIN(pset, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'PRESENTATION_SIZE.UNIT')
+        | NOT ((psize.size\planar_extent.size_in_x > 0) 
+        AND (psize.size\planar_extent.size_in_y > 0)) )) = 0)) = 0);
+	WR4 : (SIZEOF(QUERY( psize <* USEDIN (SELF, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'PRESENTATION_SIZE.UNIT') 
+        | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AXIS2_PLACEMENT_2D' 
+        IN TYPEOF (psize.size.placement))) = 1)
+        AND
+        (* check secondly for presentation_set, via area_in_set *)
+        (SIZEOF (QUERY(pset <* QUERY(ais <* 
+        USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AREA_IN_SET.AREA')
+        | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SET' IN TYPEOF (ais.in_set)) |
+        (* after having collected all presentation_set, check their 
+           dimension *)
+        SIZEOF (QUERY(psize <* USEDIN(pset, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'PRESENTATION_SIZE.UNIT')
+        | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'AXIS2_PLACEMENT_2D' 
+        IN TYPEOF (psize.size.placement)) )) = 0)) = 0);
+	WR5 : SIZEOF (QUERY (pv <* QUERY (mi1 <* QUERY (it1 <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' 
+        IN TYPEOF (it1)) |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW' 
+        IN TYPEOF 
+        (mi1\mapped_item.mapping_source.mapped_representation)) |
+        (* search in all presentation_views for 
+           mapped_items and for the subtype of mapped_item,
+           camera_image_3d_with_scale; the latter shall reference
+           a camera_usage that shall have as its mapping_origin either
+           camera_model_d3, camera_model_d3_with_hlhsr, or
+           camera_model_with_light_sources. *)
+        NOT (SIZEOF(QUERY(ci <* pv\mapped_item.mapping_source.
+        mapped_representation\representation.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'CAMERA_IMAGE_3D_WITH_SCALE' IN TYPEOF(ci))
+        AND
+        (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CAMERA_MODEL_D3',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CAMERA_MODEL_D3_WITH_HLHSR',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CAMERA_MODEL_WITH_LIGHT_SOURCES'] * TYPEOF
+        (ci\mapped_item.mapping_source.mapping_origin))
+        = 1))) = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY mechanical_design_shaded_presentation_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : SIZEOF(QUERY(it <* SELF.items |
+        NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CAMERA_MODEL_D3']
+        * TYPEOF(it)) = 1))) = 0;
+	WR2 : SIZEOF(QUERY(mi <* QUERY(it <* SELF.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it))) | NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SHAPE_REPRESENTATION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'MECHANICAL_DESIGN_SHADED_PRESENTATION_REPRESENTATION']
+        * TYPEOF(mi\mapped_item.mapping_source.mapped_representation))
+        = 1))) = 0;
+	WR3 : SIZEOF(QUERY(smi <* QUERY(si <* QUERY(it <* SELF.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it))) |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(si\styled_item.item))) | NOT (
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SHAPE_REPRESENTATION' IN TYPEOF (smi\styled_item.
+        item\mapped_item.mapping_source.mapped_representation))) )) = 0;
+	WR4 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (pss <* psa.styles |
+        NOT (SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_STYLE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE']
+        *  TYPEOF (pss)) = 1))) = 0))) = 0))) = 0;
+	WR5 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psbc <* QUERY (psa <* si\styled_item.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'PRESENTATION_STYLE_BY_CONTEXT' IN TYPEOF (psa))  |
+        NOT (SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_ITEM',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION']
+        * TYPEOF (psbc\presentation_style_by_context.style_context)) = 1)))
+        = 0))) = 0;
+	WR6 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ps <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_STYLE'
+        IN TYPEOF (pss)) |
+        NOT (
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MARKER_TYPE'
+        IN TYPEOF (ps\point_style.marker))
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (ps\point_style.marker_size))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (ps\point_style.marker_colour)) = 1)))) = 0))) = 0))) = 0;
+	WR7 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (cs <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (pss)) |
+        NOT (
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (cs\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (cs\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (cs\curve_style.curve_font)) = 1)))) = 0))) = 0))) = 0;
+	WR8 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_SIDE_STYLE'
+        IN TYPEOF (ssu\surface_style_usage.style)) )) = 0))) = 0 ))) = 0;
+	WR9 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        NOT (SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_PARAMETER_LINE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_CONTROL_GRID',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_SILHOUETTE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_SEGMENTATION_CURVE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_BOUNDARY',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_FILL_AREA',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_RENDERING'] * TYPEOF (sses)) = 1))) = 0))) = 0)))
+        = 0))) = 0;
+	WR10 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (ssfa <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_FILL_AREA'
+        IN TYPEOF (sses)) |
+        NOT (SIZEOF (QUERY (fss <*
+        ssfa\surface_style_fill_area.fill_area.fill_styles |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'FILL_AREA_STYLE_COLOUR' IN TYPEOF (fss))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (fss\fill_area_style_colour.fill_colour)) = 1)))) = 0))) = 0)))
+        = 0))) = 0))) = 0;
+	WR11 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (sspl <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_PARAMETER_LINE' IN TYPEOF (sses)) |
+        NOT ((
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE' IN TYPEOF
+        (sspl\surface_style_parameter_line.style_of_parameter_lines))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_font)) = 1))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_RENDERING'
+        IN TYPEOF
+        (sspl\surface_style_parameter_line.style_of_parameter_lines))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sspl\surface_style_parameter_line.style_of_parameter_lines\
+        curve_style_rendering.rendering_properties.rendered_colour))
+        = 1))) )) = 0))) = 0))) = 0))) = 0;
+	WR12 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (sscg <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_CONTROL_GRID' IN TYPEOF (sses)) |
+        NOT ((
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (sscg\surface_style_control_grid.style_of_control_grid))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_font)) = 1))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_RENDERING'
+        IN TYPEOF (sscg\surface_style_control_grid.style_of_control_grid))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sscg\surface_style_control_grid.style_of_control_grid\
+        curve_style_rendering.rendering_properties.rendered_colour))
+        = 1))) )) = 0))) = 0))) = 0))) = 0;
+	WR13 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (sssh <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_SILHOUETTE' IN TYPEOF (sses)) |
+        NOT ((
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (sssh\surface_style_silhouette.style_of_silhouette))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sssh\surface_style_silhouette.
+        style_of_silhouette\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sssh\surface_style_silhouette.
+        style_of_silhouette\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (sssh\surface_style_silhouette.
+        style_of_silhouette\curve_style.curve_font)) = 1)) 
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_RENDERING'
+        IN TYPEOF (sssh\surface_style_silhouette.style_of_silhouette))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sssh\surface_style_silhouette.style_of_silhouette\
+        curve_style_rendering.rendering_properties.rendered_colour))
+        = 1))) )) = 0))) = 0))) = 0))) = 0;
+	WR14 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (sssc <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_SEGMENTATION_CURVE' IN TYPEOF (sses)) |
+        NOT ((
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF
+        (sssc\surface_style_segmentation_curve.style_of_segmentation_curve))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_font)) = 1)) 
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_RENDERING'
+        IN TYPEOF (sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sssc\surface_style_segmentation_curve.style_of_segmentation_curve\
+        curve_style_rendering.rendering_properties.rendered_colour))
+        = 1))) )) = 0))) = 0))) = 0))) = 0;
+	WR15 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (ssbd <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_BOUNDARY' IN TYPEOF (sses)) |
+        NOT ((
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (ssbd\surface_style_boundary.style_of_boundary))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_font)) = 1)) 
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_RENDERING'
+        IN TYPEOF (ssbd\surface_style_boundary.style_of_boundary))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (ssbd\surface_style_boundary.style_of_boundary\
+        curve_style_rendering.rendering_properties.rendered_colour))
+        = 1))) )) = 0))) = 0))) = 0))) = 0;
+	WR16 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (ssre <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_RENDERING' IN TYPEOF (sses)) |
+        NOT
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (ssre\surface_style_rendering.surface_colour)) = 1)))
+        = 0))) = 0))) = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY min_and_major_ply_orientation_basis
+	SUBTYPE OF (representation_item_relationship, geometric_representation_item);
+	SELF\representation_item_relationship.related_representation_item : axis2_placement_3d;
+	SELF\representation_item_relationship.relating_representation_item : axis2_placement_3d;
+DERIVE
+	major_orientation_basis : axis2_placement_3d := SELF\representation_item_relationship.related_representation_item;
+	minor_orientation_basis : axis2_placement_3d := SELF\representation_item_relationship.relating_representation_item;
+END_ENTITY;
+
+
+ENTITY modified_geometric_tolerance
+	SUBTYPE OF (geometric_tolerance);
+	modifier : limit_condition;
+END_ENTITY;
+
+
+ENTITY modified_solid
+	ABSTRACT SUPERTYPE OF (ONEOF (edge_blended_solid, sculptured_solid, shelled_solid, modified_solid_with_placed_configuration))
+	SUBTYPE OF (solid_model);
+	rationale : text;
+	base_solid : base_solid_select;
+END_ENTITY;
+
+
+ENTITY modified_solid_with_placed_configuration
+	ABSTRACT SUPERTYPE OF (ONEOF (solid_with_depression, solid_with_protrusion, solid_with_shape_element_pattern))
+	SUBTYPE OF (modified_solid);
+	placing : axis2_placement_3d;
+END_ENTITY;
+
+
+ENTITY moments_of_inertia_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : (SIZEOF(SELF.items) = 1) AND 
+ (SIZEOF( QUERY( i <* SELF.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'COMPOUND_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  (i.name = 'moments of inertia matrix') )) = 1);
+	WR2 : SIZEOF( QUERY( i <* SELF.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'COMPOUND_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'LIST_REPRESENTATION_ITEM' IN TYPEOF(i\compound_representation_item.item_element)) AND 
+  value_range_aggregate_rep_item (i\compound_representation_item.item_element) )) = 1;
+END_ENTITY;
+
+
+ENTITY multi_language_attribute_assignment
+	SUBTYPE OF (attribute_value_assignment);
+	items : SET [1:?] OF multi_language_attribute_item;
+DERIVE
+	translation_language : language := language_indication[1]\attribute_classification_assignment.assigned_class;
+INVERSE
+	language_indication: SET [1:1] OF attribute_language_assignment FOR items;
+WHERE
+	WR1 : (SELF\attribute_value_assignment.role.name = 'alternate language');
+	WR2 : SIZEOF( QUERY( ala <* language_indication |  
+   (ala\attribute_classification_assignment.attribute_name = 'attribute_value') AND 
+   (ala\attribute_classification_assignment.role.name='translated') )) = 1;
+	WR3 : SELF\attribute_value_assignment.attribute_name <> '';
+	WR4 : SIZEOF(QUERY(ci <* items |
+SIZEOF(QUERY(ata <* USEDIN(ci, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MULTI_LANGUAGE_ATTRIBUTE_ASSIGNMENT.ITEMS') |
+(ata\attribute_value_assignment.attribute_name = SELF\attribute_value_assignment.attribute_name) AND 
+(ata.translation_language :=: translation_language) ))>1 )) =0;
+	WR5 : SIZEOF(QUERY(ci <* items |
+SIZEOF(QUERY(ata <* USEDIN(ci, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ATTRIBUTE_LANGUAGE_ASSIGNMENT.ITEMS') |
+ (ata\attribute_classification_assignment.role.name='primary') AND
+ (ata\attribute_classification_assignment.attribute_name= SELF\attribute_value_assignment.attribute_name) AND 
+ (ata\attribute_classification_assignment.assigned_class :=: translation_language) ))>0 )) =0;
+END_ENTITY;
+
+
+ENTITY multiple_arity_boolean_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (boolean_expression, multiple_arity_generic_expression);
+	SELF\multiple_arity_generic_expression.operands : LIST [2:?] OF boolean_expression;
+END_ENTITY;
+
+
+ENTITY multiple_arity_generic_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (generic_expression);
+	operands : LIST [2:?] OF generic_expression;
+END_ENTITY;
+
+
+ENTITY multiple_arity_numeric_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (numeric_expression, multiple_arity_generic_expression);
+	SELF\multiple_arity_generic_expression.operands : LIST [2:?] OF numeric_expression;
+END_ENTITY;
+
+
+ENTITY name_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_name : label;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY name_attribute;
+	attribute_value : label;
+	named_item : name_attribute_select;
+END_ENTITY;
+
+
+ENTITY named_unit
+	SUPERTYPE OF ((ONEOF (si_unit, conversion_based_unit, context_dependent_unit) ANDOR ONEOF (length_unit, mass_unit, time_unit, electric_current_unit, thermodynamic_temperature_unit, amount_of_substance_unit, luminous_flux_unit, luminous_intensity_unit, plane_angle_unit, solid_angle_unit, ratio_unit)));
+	dimensions : dimensional_exponents;
+END_ENTITY;
+
+
+ENTITY next_assembly_usage_occurrence
+	SUBTYPE OF (assembly_component_usage);
+END_ENTITY;
+
+
+ENTITY non_manifold_surface_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (it <* SELF.items |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] * TYPEOF (it)) = 1)))
+       = 0;
+	WR2 : SIZEOF (QUERY (it <* SELF.items |
+       SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF (it)) = 1)) > 0;
+	WR3 : SIZEOF (QUERY (mi <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+       'NON_MANIFOLD_SURFACE_SHAPE_REPRESENTATION'
+       IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation))
+       AND
+       (SIZEOF(QUERY (mr_it <*
+       mi\mapped_item.mapping_source.mapped_representation.items |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL'
+       IN TYPEOF (mr_it)))) > 0 )))) = 0;
+	WR4 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_FACE'] * TYPEOF (fa)) = 1)))
+       = 0))) = 0))) = 0;
+	WR5 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (f_sf <* QUERY (fa <* cfs.cfs_faces |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF (fa))) |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (f_sf))
+       OR
+       (nmsf_surface_check(f_sf\face_surface.face_geometry))))) = 0))) 
+       = 0))) = 0;
+	WR6 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (o_fa <* QUERY (fa <* cfs.cfs_faces |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_FACE' IN TYPEOF (fa))) |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF 
+       (o_fa\oriented_face.face_element))
+       OR
+       (nmsf_surface_check
+       (o_fa\oriented_face.face_element\face_surface.face_geometry)))))
+       = 0))) = 0))) = 0;
+	WR7 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (bnds <* fa.bounds |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP']
+       * TYPEOF (bnds.bound)) = 1))) = 0)))) = 0))) = 0))) = 0;
+	WR8 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items|
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF 
+       (oe.edge_element)))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR9 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe_cv <* QUERY (oe <* 
+       elp_fbnds\path.edge_list |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF (oe.edge_element)) |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE'] * 
+       TYPEOF (oe_cv.edge_element\edge_curve.edge_geometry)) 
+       = 1))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR10 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT (nmsf_curve_check (oe.edge_element\edge_curve.edge_geometry)))) 
+       = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR11 : SIZEOF (QUERY(fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list|
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF
+       (oe.edge_element.edge_start))
+       AND
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN
+       TYPEOF (oe.edge_element.edge_end))))) 
+       = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR12 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT ((SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (oe.edge_element.edge_start\vertex_point.vertex_geometry)) = 1)
+       AND
+       (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (oe.edge_element.edge_end\vertex_point.vertex_geometry)) = 1
+       )))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR13 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <* 
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (vlp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF
+       (vlp_fbnds\vertex_loop.loop_vertex)))) = 0)))) = 0))) 
+       = 0))) = 0;
+	WR14 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <* 
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (vlp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (vlp_fbnds\vertex_loop.loop_vertex\vertex_point.vertex_geometry)) 
+       = 1))) = 0)))) = 0))) = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY null_representation_item
+	SUBTYPE OF (representation_item);
+END_ENTITY;
+
+
+ENTITY numeric_expression
+	ABSTRACT SUPERTYPE OF (ONEOF (simple_numeric_expression, unary_numeric_expression, binary_numeric_expression, multiple_arity_numeric_expression))
+	SUBTYPE OF (expression);
+DERIVE
+	is_int : LOGICAL := is_int_expr (SELF);
+	sql_mappable : LOGICAL := is_SQL_mappable (SELF);
+END_ENTITY;
+
+
+ENTITY object_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY offset_curve_2d
+	SUBTYPE OF (curve);
+	basis_curve : curve;
+	distance : length_measure;
+	self_intersect : LOGICAL;
+WHERE
+	WR1 : basis_curve.dim = 2;
+END_ENTITY;
+
+
+ENTITY offset_curve_3d
+	SUBTYPE OF (curve);
+	basis_curve : curve;
+	distance : length_measure;
+	self_intersect : LOGICAL;
+	ref_direction : direction;
+WHERE
+	WR1 : (basis_curve.dim = 3) AND (ref_direction.dim = 3);
+END_ENTITY;
+
+
+ENTITY offset_surface
+	SUBTYPE OF (surface);
+	basis_surface : surface;
+	distance : length_measure;
+	self_intersect : LOGICAL;
+END_ENTITY;
+
+
+ENTITY one_direction_repeat_factor
+	SUBTYPE OF (geometric_representation_item);
+	repeat_factor : vector;
+END_ENTITY;
+
+
+ENTITY open_shell
+	SUBTYPE OF (connected_face_set);
+END_ENTITY;
+
+
+ENTITY ordinal_date
+	SUBTYPE OF (date);
+	day_component : day_in_year_number;
+WHERE
+	WR1 : (NOT leap_year(SELF.year_component) AND { 1 <= day_component <= 365 }) OR (leap_year(SELF.year_component) AND { 1 <= day_component <= 366 });
+END_ENTITY;
+
+
+ENTITY ordinate_dimension
+	SUBTYPE OF (projection_directed_callout);
+END_ENTITY;
+
+
+ENTITY organization;
+	id : OPTIONAL identifier;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY organization_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_organization : organization;
+	role : organization_role;
+END_ENTITY;
+
+
+ENTITY organization_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_organization : organization;
+	related_organization : organization;
+END_ENTITY;
+
+
+ENTITY organization_role;
+	name : label;
+DERIVE
+	description : text := get_description_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY organizational_address
+	SUBTYPE OF (address);
+	organizations : SET [1:?] OF organization;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY organizational_project;
+	name : label;
+	description : OPTIONAL text;
+	responsible_organizations : SET [1:?] OF organization;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY organizational_project_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_organizational_project : organizational_project;
+	role : organizational_project_role;
+END_ENTITY;
+
+
+ENTITY organizational_project_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_organizational_project : organizational_project;
+	related_organizational_project : organizational_project;
+END_ENTITY;
+
+
+ENTITY organizational_project_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY oriented_closed_shell
+	SUBTYPE OF (closed_shell);
+	closed_shell_element : closed_shell;
+	orientation : BOOLEAN;
+DERIVE
+	SELF\connected_face_set.cfs_faces : SET [1:?] OF face := conditional_reverse(SELF.orientation,
+                                   SELF.closed_shell_element.cfs_faces);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL' 
+                IN TYPEOF (SELF.closed_shell_element));
+END_ENTITY;
+
+
+ENTITY oriented_edge
+	SUBTYPE OF (edge);
+	edge_element : edge;
+	orientation : BOOLEAN;
+DERIVE
+	SELF\edge.edge_end : vertex := boolean_choose (SELF.orientation,
+                                            SELF.edge_element.edge_end,
+                                            SELF.edge_element.edge_start);
+	SELF\edge.edge_start : vertex := boolean_choose (SELF.orientation,
+                                            SELF.edge_element.edge_start,
+                                            SELF.edge_element.edge_end);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_EDGE' IN TYPEOF (SELF.edge_element));
+END_ENTITY;
+
+
+ENTITY oriented_face
+	SUBTYPE OF (face);
+	face_element : face;
+	orientation : BOOLEAN;
+DERIVE
+	SELF\face.bounds : SET [1:?] OF face_bound := conditional_reverse(SELF.orientation,SELF.face_element.bounds);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_FACE' IN TYPEOF (SELF.face_element));
+END_ENTITY;
+
+
+ENTITY oriented_open_shell
+	SUBTYPE OF (open_shell);
+	open_shell_element : open_shell;
+	orientation : BOOLEAN;
+DERIVE
+	SELF\connected_face_set.cfs_faces : SET [1:?] OF face := conditional_reverse(SELF.orientation,
+                                      SELF.open_shell_element.cfs_faces);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_OPEN_SHELL' 
+                IN TYPEOF (SELF.open_shell_element));
+END_ENTITY;
+
+
+ENTITY oriented_path
+	SUBTYPE OF (path);
+	path_element : path;
+	orientation : BOOLEAN;
+DERIVE
+	SELF\path.edge_list : LIST [1:?] OF  UNIQUE oriented_edge := conditional_reverse(SELF.orientation,
+                                         SELF.path_element.edge_list);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_PATH' IN TYPEOF (SELF.path_element));
+END_ENTITY;
+
+
+ENTITY oriented_surface
+	SUBTYPE OF (surface);
+	orientation : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY outer_boundary_curve
+	SUBTYPE OF (boundary_curve);
+END_ENTITY;
+
+
+ENTITY over_riding_styled_item
+	SUBTYPE OF (styled_item);
+	over_ridden_style : styled_item;
+END_ENTITY;
+
+
+ENTITY package_product_concept_feature
+	SUBTYPE OF (product_concept_feature);
+WHERE
+	WR1 : NOT ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONDITIONAL_CONCEPT_FEATURE' IN TYPEOF ( SELF ) );
+	WR2 : SIZEOF ( QUERY 
+									( 
+										cfr <* USEDIN ( SELF , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP.' +'RELATING_PRODUCT_CONCEPT_FEATURE' ) 
+										| 
+										('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP_WITH_CONDITION' IN TYPEOF (cfr ) ) 
+										AND 
+										( SIZEOF ( QUERY 
+																( 
+																	ipcf <* USEDIN ( cfr , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONDITIONAL_CONCEPT_FEATURE.' +	'CONDITION' ) 
+																	| 
+																	'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'INCLUSION_PRODUCT_CONCEPT_FEATURE' IN TYPEOF ( ipcf ) 
+																)
+															)= 1 
+										)
+									)
+							)>0;
+END_ENTITY;
+
+
+ENTITY parabola
+	SUBTYPE OF (conic);
+	focal_dist : length_measure;
+WHERE
+	WR1 : focal_dist <> 0.0;
+END_ENTITY;
+
+
+ENTITY parallel_offset
+	SUBTYPE OF (derived_shape_aspect);
+	offset : measure_with_unit;
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)= 1;
+END_ENTITY;
+
+
+ENTITY parallelism_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) < 3;
+END_ENTITY;
+
+
+ENTITY parametric_representation_context
+	SUBTYPE OF (representation_context);
+END_ENTITY;
+
+
+ENTITY part_laminate_table
+	SUPERTYPE OF (ONEOF (composite_assembly_table, ply_laminate_table))
+	SUBTYPE OF (laminate_table);
+END_ENTITY;
+
+
+ENTITY partial_document_with_structured_text_representation_assignment
+	SUBTYPE OF (applied_document_usage_constraint_assignment, characterized_object);
+END_ENTITY;
+
+
+ENTITY path
+	SUPERTYPE OF (ONEOF (edge_loop, oriented_path))
+	SUBTYPE OF (topological_representation_item);
+	edge_list : LIST [1:?] OF  UNIQUE oriented_edge;
+WHERE
+	WR1 : path_head_to_tail(SELF);
+END_ENTITY;
+
+
+ENTITY pcurve
+	SUBTYPE OF (curve);
+	basis_surface : surface;
+	reference_to_curve : definitional_representation;
+WHERE
+	WR1 : SIZEOF(reference_to_curve\representation.items) = 1;
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF
+                    (reference_to_curve\representation.items[1]);
+	WR3 : reference_to_curve\representation.items[1]\
+                               geometric_representation_item.dim =2;
+END_ENTITY;
+
+
+ENTITY percentage_laminate_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) > 0;
+END_ENTITY;
+
+
+ENTITY percentage_laminate_table
+	SUBTYPE OF (zone_structural_makeup);
+END_ENTITY;
+
+
+ENTITY percentage_ply_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRODUCT_DEFINITION_RELATIONSHIP.RELATING_PRODUCT_DEFINITION') |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PERCENTAGE_LAMINATE_DEFINITION' 
+        IN TYPEOF (pdr.related_product_definition)) AND
+        (pdr.name = 'makeup and properties'))) = 0;
+END_ENTITY;
+
+
+ENTITY perpendicular_to
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)= 1;
+END_ENTITY;
+
+
+ENTITY perpendicularity_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 3;
+END_ENTITY;
+
+
+ENTITY person;
+	id : identifier;
+	last_name : OPTIONAL label;
+	first_name : OPTIONAL label;
+	middle_names : OPTIONAL LIST [1:?] OF label;
+	prefix_titles : OPTIONAL LIST [1:?] OF label;
+	suffix_titles : OPTIONAL LIST [1:?] OF label;
+WHERE
+	WR1 : EXISTS(last_name) OR EXISTS(first_name);
+END_ENTITY;
+
+
+ENTITY person_and_organization;
+	the_person : person;
+	the_organization : organization;
+DERIVE
+	description : text := get_description_value(SELF);
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY person_and_organization_address
+	SUBTYPE OF (organizational_address, personal_address);
+	SELF\organizational_address.organizations : SET [1:1] OF organization;
+	SELF\personal_address.people : SET [1:1] OF person;
+WHERE
+	WR1 : SIZEOF(QUERY(pao <* USEDIN (SELF\personal_address.people[1], 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PERSON_AND_ORGANIZATION.THE_PERSON') | pao.the_organization :=: SELF\organizational_address.organizations[1])) = 1;
+END_ENTITY;
+
+
+ENTITY person_and_organization_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_person_and_organization : person_and_organization;
+	role : person_and_organization_role;
+END_ENTITY;
+
+
+ENTITY person_and_organization_role;
+	name : label;
+DERIVE
+	description : text := get_description_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY personal_address
+	SUBTYPE OF (address);
+	people : SET [1:?] OF person;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY physical_breakdown_context
+	SUBTYPE OF (breakdown_context);
+END_ENTITY;
+
+
+ENTITY physical_element_usage
+	SUBTYPE OF (breakdown_element_usage);
+END_ENTITY;
+
+
+ENTITY picture_representation
+	SUBTYPE OF (presentation_view);
+	SELF\representation.items : SET [2:?] OF picture_representation_item_select;
+INVERSE
+	size: presentation_size FOR unit;
+WHERE
+    WR1: SIZEOF(QUERY(item <* items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM' IN TYPEOF(item))) = 1;
+    WR2: SIZEOF (QUERY (se <* QUERY (item <* SELF.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM' IN TYPEOF (item))) 
+         | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PICTURE_REPRESENTATION_ITEM' 
+                IN TYPEOF (se\styled_item.item)) )) = 0;
+END_ENTITY;
+
+
+ENTITY picture_representation_item
+	ABSTRACT SUPERTYPE OF (ONEOF (externally_defined_picture_representation_item, predefined_picture_representation_item))
+	SUBTYPE OF (bytes_representation_item);
+END_ENTITY;
+
+
+ENTITY placed_datum_target_feature
+	SUBTYPE OF (datum_target);
+DERIVE
+	representation_associations : SET [0:?] OF property_definition_representation := get_shape_aspect_property_definition_representations(SELF);
+WHERE
+	WR1 : SELF.description IN ['point','line','rectangle','circle', 'circular line'];
+	WR2 : SIZEOF (QUERY (pdr <* representation_associations | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION_WITH_PARAMETERS' IN TYPEOF (pdr.used_representation) )) = 1;
+	WR3 : valid_datum_target_parameters(SELF);
+END_ENTITY;
+
+
+ENTITY placed_feature
+	SUBTYPE OF (shape_aspect);
+END_ENTITY;
+
+
+ENTITY placement
+	SUPERTYPE OF (ONEOF (axis1_placement, axis2_placement_2d, axis2_placement_3d))
+	SUBTYPE OF (geometric_representation_item);
+	location : cartesian_point;
+END_ENTITY;
+
+
+ENTITY planar_box
+	SUBTYPE OF (planar_extent);
+	placement : axis2_placement;
+END_ENTITY;
+
+
+ENTITY planar_extent
+	SUBTYPE OF (geometric_representation_item);
+	size_in_x : length_measure;
+	size_in_y : length_measure;
+END_ENTITY;
+
+
+ENTITY plane
+	SUBTYPE OF (elementary_surface);
+END_ENTITY;
+
+
+ENTITY plane_angle_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY plane_angle_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY plus_minus_tolerance;
+	range : tolerance_method_definition;
+	toleranced_dimension : dimensional_characteristic;
+UNIQUE
+	UR1 : toleranced_dimension;
+END_ENTITY;
+
+
+ENTITY ply_laminate_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) = 1;
+END_ENTITY;
+
+
+ENTITY ply_laminate_sequence_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) > 0;
+END_ENTITY;
+
+
+ENTITY ply_laminate_table
+	SUBTYPE OF (part_laminate_table);
+END_ENTITY;
+
+
+ENTITY point
+	SUPERTYPE OF (ONEOF (cartesian_point, point_on_curve, point_on_surface, point_replica, degenerate_pcurve))
+	SUBTYPE OF (geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY point_and_vector
+	SUBTYPE OF (compound_representation_item, geometric_representation_item);
+	SELF\compound_representation_item.item_element : point_and_vector_members;
+END_ENTITY;
+
+
+ENTITY point_on_curve
+	SUBTYPE OF (point);
+	basis_curve : curve;
+	point_parameter : parameter_value;
+END_ENTITY;
+
+
+ENTITY point_on_surface
+	SUBTYPE OF (point);
+	basis_surface : surface;
+	point_parameter_u : parameter_value;
+	point_parameter_v : parameter_value;
+END_ENTITY;
+
+
+ENTITY point_path
+	SUBTYPE OF (compound_representation_item, geometric_representation_item);
+	SELF\compound_representation_item.item_element : point_path_members;
+END_ENTITY;
+
+
+ENTITY point_replica
+	SUBTYPE OF (point);
+	parent_pt : point;
+	transformation : cartesian_transformation_operator;
+WHERE
+	WR1 : transformation.dim = parent_pt.dim;
+	WR2 : acyclic_point_replica (SELF,parent_pt);
+END_ENTITY;
+
+
+ENTITY point_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	marker : marker_select;
+	marker_size : size_select;
+	marker_colour : colour;
+END_ENTITY;
+
+
+ENTITY polar_complex_number_literal
+	SUBTYPE OF (generic_literal);
+	radius : REAL;
+	angle : REAL;
+WHERE
+	WR1 : radius >= 0;
+	WR2 : { 0 <= angle < 2*PI };
+END_ENTITY;
+
+
+ENTITY poly_loop
+	SUBTYPE OF (loop, geometric_representation_item);
+	polygon : LIST [3:?] OF  UNIQUE cartesian_point;
+END_ENTITY;
+
+
+ENTITY polyline
+	SUBTYPE OF (bounded_curve);
+	points : LIST [2:?] OF cartesian_point;
+END_ENTITY;
+
+
+ENTITY position_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF)) OR ( SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 3);
+END_ENTITY;
+
+
+ENTITY positioned_sketch
+	SUBTYPE OF (geometric_representation_item);
+	sketch_basis : sketch_basis_select;
+	auxiliary_elements : SET [0:?] OF auxiliary_geometric_representation_item;
+WHERE
+	WR1 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_BOUNDED_SURFACE' IN 
+    TYPEOF(sketch_basis)) AND NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN
+    TYPEOF(sketch_basis\curve_bounded_surface.basis_surface)));
+	WR2 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF(sketch_basis)) AND
+    NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN TYPEOF(sketch_basis\face_surface.face_geometry)));
+	WR3 : SIZEOF(QUERY(q <* auxiliary_elements | (SIZEOF(TYPEOF(q) * 
+    ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT','AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE']) = 0))) = 0;
+	WR4 : SIZEOF(QUERY(q <* auxiliary_elements | 
+    q\geometric_representation_item.dim <> 3)) = 0;
+END_ENTITY;
+
+
+ENTITY power_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POWER_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY power_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.watt);
+END_ENTITY;
+
+
+ENTITY pre_defined_colour
+	SUBTYPE OF (pre_defined_item, colour);
+END_ENTITY;
+
+
+ENTITY pre_defined_curve_font
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY pre_defined_dimension_symbol
+	SUBTYPE OF (pre_defined_symbol);
+WHERE
+	WR1 : SELF.name IN [ 'arc length' , 'conical taper' , 'counterbore' , 'countersink' , 'depth' , 'diameter' , 'plus minus' , 'radius' , 'slope' , 'spherical diameter' , 'spherical radius' , 'square'];
+END_ENTITY;
+
+
+ENTITY pre_defined_geometrical_tolerance_symbol
+	SUBTYPE OF (pre_defined_symbol);
+WHERE
+	WR1 : SELF.name IN ['angularity' , 'basic dimension' , 'blanked datum reference' , 'circular runout' , 'circularity' , 'concentricity' , 'cylindricity' , 'datum target identification' , 'diameter' , 'filled datum reference' , 'flatness' , 'least material condition' , 'maximum material condition' , 'parallelism' , 'perpendicularity' , 'position' , 'profile of a line' , 'profile of a surface' , 'projected tolerance zone' , 'regardless of feature size' , 'straightness' , 'symmetry' , 'total runout' ];
+END_ENTITY;
+
+
+ENTITY pre_defined_item;
+	name : label;
+END_ENTITY;
+
+
+ENTITY pre_defined_marker
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY pre_defined_point_marker_symbol
+	SUBTYPE OF (pre_defined_marker, pre_defined_symbol);
+WHERE
+	WR1 : SELF.name IN ['asterisk','circle','dot','plus','square','triangle','x'];
+END_ENTITY;
+
+
+ENTITY pre_defined_surface_condition_symbol
+	SUBTYPE OF (pre_defined_symbol);
+WHERE
+	WR1 : SELF.name IN ['000' , '010' , '020' , '030' , '040' , '050' , '060' , '070' , '001' , '011' , '021' , '031' , '041' , '051' , '061' , '071' , '100' , '110' , '120' , '130' , '140' , '150' , '160' , '170' , '101' , '111' , '121' , '131' , '141' , '151' , '161' , '171' , '200' , '210' , '220' , '230' , '240' , '250' , '260' , '270' , '201' , '211' , '221' , '231' , '241' , '251' , '261' , '271'];
+END_ENTITY;
+
+
+ENTITY pre_defined_surface_side_style
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY pre_defined_symbol
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY pre_defined_terminator_symbol
+	SUBTYPE OF (pre_defined_symbol);
+WHERE
+	WR1 : SELF.name IN ['blanked arrow', 'blanked box', 'blanked dot', 'blanked triangle', 'dimension origin', 'filled arrow', 'filled box', 'filled dot', 'integral symbol', 'open arrow', 'slash', 'unfilled arrow', 'unfilled triangle', 'filled triangle'];
+END_ENTITY;
+
+
+ENTITY pre_defined_text_font
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY pre_defined_tile
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY precision_qualifier;
+	precision_value : INTEGER;
+END_ENTITY;
+
+
+ENTITY predefined_picture_representation_item
+	SUBTYPE OF (picture_representation_item);
+WHERE
+	WR1 : SELF\representation_item.name IN pre_defined_picture_representation_types;
+END_ENTITY;
+
+
+ENTITY presentation_area
+	SUBTYPE OF (presentation_representation);
+WHERE
+	WR1 : ((SIZEOF (QUERY (ais <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                                 'AREA_IN_SET.AREA') | 
+             SIZEOF (USEDIN (ais, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                  'PRESENTATION_SIZE.UNIT')) =1)) > 0) OR
+            (SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                   'PRESENTATION_SIZE.UNIT')) =1));
+END_ENTITY;
+
+
+ENTITY presentation_layer_assignment;
+	name : label;
+	description : text;
+	assigned_items : SET [1:?] OF layered_item;
+END_ENTITY;
+
+
+ENTITY presentation_representation
+	SUPERTYPE OF (ONEOF (presentation_area, presentation_view))
+	SUBTYPE OF (representation);
+	SELF\representation.context_of_items : geometric_representation_context;
+WHERE
+	WR1 : SELF\representation.
+           context_of_items\geometric_representation_context.
+           coordinate_space_dimension = 2;
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_AREA' IN TYPEOF (SELF))
+           OR
+           (SIZEOF (QUERY (prr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                                'REPRESENTATION_RELATIONSHIP.REP_2') | 
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_REPRESENTATION' IN
+           TYPEOF (prr\representation_relationship.rep_1))) > 0)
+           OR 
+           (SIZEOF(QUERY( rm <* USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 
+                                             'REPRESENTATION_MAP.'+ 
+                                             'MAPPED_REPRESENTATION') | 
+           SIZEOF(QUERY( mi <* USEDIN(rm, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                                          'MAPPED_ITEM.'+
+                                          'MAPPING_SOURCE') |   
+           SIZEOF(QUERY( rep <* using_representations (mi) |                              
+                                        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                                        'PRESENTATION_REPRESENTATION' IN 
+                                        TYPEOF (rep))) > 0
+           )) > 0))  
+           > 0);
+END_ENTITY;
+
+
+ENTITY presentation_set;
+INVERSE
+	areas: SET [1:?] OF area_in_set FOR in_set;
+END_ENTITY;
+
+
+ENTITY presentation_size;
+	unit : presentation_size_assignment_select;
+	size : planar_box;
+UNIQUE
+	UR1 : unit;
+WHERE
+	WR1 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_REPRESENTATION'
+           IN TYPEOF (SELF.unit)) AND
+           item_in_context (SELF.size, 
+                            SELF.unit\representation.context_of_items)
+           )
+           OR
+           (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AREA_IN_SET'
+           IN TYPEOF (SELF.unit)) AND
+           (SIZEOF (QUERY ( ais <* SELF.unit\area_in_set.in_set.areas |
+                NOT item_in_context (SELF.size, ais.area\representation.
+                                                context_of_items) )) = 0));
+END_ENTITY;
+
+
+ENTITY presentation_style_assignment
+	SUBTYPE OF (founded_item);
+	styles : SET [1:?] OF presentation_style_select;
+WHERE
+	WR1 : SIZEOF (QUERY (style1 <* SELF.styles |
+           NOT (SIZEOF (QUERY (style2 <* (SELF.styles - style1) |
+           NOT ((TYPEOF (style1) <> TYPEOF (style2)) OR
+             (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+                       'SURFACE_STYLE_USAGE',
+                       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                       'EXTERNALLY_DEFINED_STYLE'] *
+                     TYPEOF (style1)) = 1)
+           ))) = 0
+         ))) = 0;
+	WR2 : SIZEOF (QUERY (style1 <* SELF.styles |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE' IN
+         TYPEOF(style1)
+         )) <= 2;
+	WR3 : SIZEOF (QUERY (style1 <* SELF.styles |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE' IN TYPEOF (style1)) AND 
+         (SIZEOF (QUERY (style2 <* (SELF.styles - style1) |
+           ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE' IN TYPEOF (style2)) AND 
+           ((style1\surface_style_usage.side = both) OR 
+           (style2\surface_style_usage.side = both) OR 
+           (style1\surface_style_usage.side = style2\surface_style_usage.side)) )) > 0))) = 0;
+END_ENTITY;
+
+
+ENTITY presentation_style_by_context
+	SUBTYPE OF (presentation_style_assignment);
+	style_context : style_context_select;
+END_ENTITY;
+
+
+ENTITY presentation_view
+	SUBTYPE OF (presentation_representation);
+END_ENTITY;
+
+
+ENTITY presented_item
+	ABSTRACT SUPERTYPE;
+END_ENTITY;
+
+
+ENTITY presented_item_representation;
+	presentation : presentation_representation_select;
+	item : presented_item;
+END_ENTITY;
+
+
+ENTITY pressure_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESSURE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY pressure_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.pascal);
+END_ENTITY;
+
+
+ENTITY procedural_representation
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF procedural_representation_sequence;
+END_ENTITY;
+
+
+ENTITY procedural_representation_sequence
+	SUBTYPE OF (representation_item);
+	elements : LIST [1:?] OF representation_item;
+	suppressed_items : SET [0:?] OF representation_item;
+	rationale : text;
+WHERE
+	WR1 : SIZEOF(QUERY(q <* suppressed_items | NOT (q IN elements))) = 0;
+END_ENTITY;
+
+
+ENTITY procedural_shape_representation
+	SUBTYPE OF (procedural_representation, shape_representation);
+	SELF\representation.items : SET [1:?] OF procedural_shape_representation_sequence;
+END_ENTITY;
+
+
+ENTITY procedural_shape_representation_sequence
+	SUBTYPE OF (geometric_representation_item, procedural_representation_sequence);
+WHERE
+	WR1 : SIZEOF(QUERY(q <* SELF\procedural_representation_sequence.elements
+    | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION_ITEM'
+    IN TYPEOF(q)))) = 0;
+END_ENTITY;
+
+
+ENTITY product;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	frame_of_reference : SET [1:?] OF product_context;
+END_ENTITY;
+
+
+ENTITY product_category;
+	name : label;
+	description : OPTIONAL text;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY product_class
+	SUBTYPE OF (product_concept, characterized_object);
+END_ENTITY;
+
+
+ENTITY product_concept;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	market_context : product_concept_context;
+UNIQUE
+	UR1 : id;
+END_ENTITY;
+
+
+ENTITY product_concept_context
+	SUBTYPE OF (application_context_element);
+	market_segment_type : label;
+END_ENTITY;
+
+
+ENTITY product_concept_feature;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY product_concept_feature_association;
+	name : label;
+	description : OPTIONAL text;
+	concept : product_concept;
+	feature : product_concept_feature;
+END_ENTITY;
+
+
+ENTITY product_concept_feature_category
+	SUBTYPE OF (group);
+WHERE
+	WR1 : SIZEOF(QUERY
+									( 
+										aga <* USEDIN( SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GROUP_ASSIGNMENT.ASSIGNED_GROUP' ) 
+										|
+     								('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'APPLIED_GROUP_ASSIGNMENT' IN TYPEOF(aga)) 
+     								AND
+    								(
+    									( aga.role.name <> 'specification category member' ) 
+    									OR 
+    									( SIZEOF(QUERY 
+    															( 
+    																i <* aga.items 
+    																| 
+    																('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'PRODUCT_CONCEPT_FEATURE' IN TYPEOF ( i ) ) 
+    																AND 
+    																NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'CONDITIONAL_CONCEPT_FEATURE' IN TYPEOF (i))
+    															)
+    													) <> SIZEOF (aga.items)
+    									)
+    								) 
+       						) 
+       				) =0;
+END_ENTITY;
+
+
+ENTITY product_concept_feature_category_usage
+	SUBTYPE OF (group_assignment);
+	items : SET [1:?] OF category_usage_item;
+	SELF\group_assignment.assigned_group : product_concept_feature_category;
+WHERE
+	WR1 : SELF.role.name IN [ 'mandatory category usage', 'optional category usage' ];
+END_ENTITY;
+
+
+ENTITY product_concept_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_product_concept : product_concept;
+	related_product_concept : product_concept;
+END_ENTITY;
+
+
+ENTITY product_context
+	SUBTYPE OF (application_context_element);
+	discipline_type : label;
+END_ENTITY;
+
+
+ENTITY product_definition
+	SUPERTYPE OF (ONEOF (composite_assembly_definition, composite_assembly_sequence_definition, laminate_table, percentage_laminate_definition, percentage_ply_definition, ply_laminate_definition, ply_laminate_sequence_definition, thickness_laminate_definition));
+	id : identifier;
+	description : OPTIONAL text;
+	formation : product_definition_formation;
+	frame_of_reference : product_definition_context;
+DERIVE
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY product_definition_context
+	SUBTYPE OF (application_context_element);
+	life_cycle_stage : label;
+END_ENTITY;
+
+
+ENTITY product_definition_context_association;
+	definition : product_definition;
+	frame_of_reference : product_definition_context;
+	role : product_definition_context_role;
+END_ENTITY;
+
+
+ENTITY product_definition_context_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY product_definition_effectivity
+	SUBTYPE OF (effectivity);
+	usage : product_definition_relationship;
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EFFECTIVITY_ASSIGNMENT.ASSIGNED_EFFECTIVITY')) = 0;
+END_ENTITY;
+
+
+ENTITY product_definition_element_relationship
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY product_definition_formation;
+	id : identifier;
+	description : OPTIONAL text;
+	of_product : product;
+UNIQUE
+	UR1 : id, of_product;
+END_ENTITY;
+
+
+ENTITY product_definition_formation_relationship;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	relating_product_definition_formation : product_definition_formation;
+	related_product_definition_formation : product_definition_formation;
+END_ENTITY;
+
+
+ENTITY product_definition_formation_with_specified_source
+	SUBTYPE OF (product_definition_formation);
+	make_or_buy : source;
+END_ENTITY;
+
+
+ENTITY product_definition_group_assignment
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF product_definition_or_product_definition_relationship;
+	SELF\group_assignment.assigned_group : product_definition_element_relationship;
+END_ENTITY;
+
+
+ENTITY product_definition_occurrence_relationship;
+	name : label;
+	description : OPTIONAL text;
+	occurrence : product_definition;
+	occurrence_usage : assembly_component_usage;
+WHERE
+	WR1 : occurrence_usage.relating_product_definition :<>: 
+       occurrence;
+	WR2 : occurrence_usage.related_product_definition :<>: 
+       occurrence;
+	WR3 : occurrence.formation :=:
+       occurrence_usage.related_product_definition.formation;
+END_ENTITY;
+
+
+ENTITY product_definition_relationship;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	relating_product_definition : product_definition;
+	related_product_definition : product_definition;
+END_ENTITY;
+
+
+ENTITY product_definition_shape
+	SUBTYPE OF (property_definition);
+UNIQUE
+  UR1: SELF\property_definition.definition;
+WHERE
+	WR1 : SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CHARACTERIZED_PRODUCT_DEFINITION', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CHARACTERIZED_OBJECT'] * TYPEOF(SELF\property_definition.definition)) > 0;
+END_ENTITY;
+
+
+ENTITY product_definition_substitute;
+	description : OPTIONAL text;
+	context_relationship : product_definition_relationship;
+	substitute_definition : product_definition;
+DERIVE
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : context_relationship.related_product_definition :<>: substitute_definition;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY product_definition_usage
+	SUPERTYPE OF (ONEOF (make_from_usage_option, assembly_component_usage))
+	SUBTYPE OF (product_definition_relationship);
+UNIQUE
+ UR1: SELF\product_definition_relationship.id, 
+      SELF\product_definition_relationship.relating_product_definition, 
+      SELF\product_definition_relationship.related_product_definition;
+ WHERE
+	WR1 : acyclic_product_definition_relationship
+         (SELF,
+         [SELF\product_definition_relationship.related_product_definition],
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_USAGE');
+END_ENTITY;
+
+
+ENTITY product_definition_with_associated_documents
+	SUBTYPE OF (product_definition);
+	documentation_ids : SET [1:?] OF document;
+END_ENTITY;
+
+
+ENTITY product_identification
+	SUBTYPE OF (configuration_item, characterized_object);
+	SELF\configuration_item.item_concept : product_class;
+WHERE
+	WR1 : SIZEOF(QUERY 
+		( cd <* USEDIN ( SELF ,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONFIGURATION_DESIGN.CONFIGURATION' ) 
+		|
+     	( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'PRODUCT_DEFINITION_FORMATION' IN TYPEOF ( cd. design ) ) 
+     	AND 
+    	( SIZEOF ( QUERY 
+    	( 
+    	prpc <* USEDIN ( cd. design\product_definition_formation.of_product , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') 
+    	| 
+        prpc. name IN ['part' , 'raw material' , 'tool'] ) ) >0
+     	) 
+     	) 
+     	) <=1;
+	WR2 : NOT ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'CONFIGURABLE_ITEM' IN TYPEOF( SELF ) ) 
+			XOR ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'PRODUCT_SPECIFICATION' IN TYPEOF ( SELF ) );
+END_ENTITY;
+
+
+ENTITY product_material_composition_relationship
+	SUBTYPE OF (product_definition_relationship);
+	class : label;
+	constituent_amount : SET [1:?] OF characterized_product_composition_value;
+	composition_basis : label;
+	determination_method : text;
+END_ENTITY;
+
+
+ENTITY product_related_product_category
+	SUBTYPE OF (product_category);
+	products : SET [1:?] OF product;
+END_ENTITY;
+
+
+ENTITY product_specification
+	SUBTYPE OF (product_identification, configurable_item);
+END_ENTITY;
+
+
+ENTITY projected_zone_definition
+	SUBTYPE OF (tolerance_zone_definition);
+	projection_end : shape_aspect;
+	projected_length : measure_with_unit;
+WHERE
+	WR1 : ('NUMBER' IN TYPEOF
+       (projected_length\measure_with_unit.value_component)) AND
+       (projected_length\measure_with_unit.value_component > 0.0);
+	WR2 : (derive_dimensional_exponents
+       (projected_length\measure_with_unit.unit_component)=
+        dimensional_exponents(1,0,0,0,0,0,0));
+END_ENTITY;
+
+
+ENTITY projection_curve
+	SUBTYPE OF (annotation_curve_occurrence);
+END_ENTITY;
+
+
+ENTITY projection_directed_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF(QUERY(p_1<*SELF\draughting_callout.contents | 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE' IN (TYPEOF(p_1))))=1;
+	WR2 : SIZEOF(SELF\draughting_callout.contents) >=2;
+END_ENTITY;
+
+
+ENTITY promissory_usage_occurrence
+	SUBTYPE OF (assembly_component_usage);
+END_ENTITY;
+
+
+ENTITY property_definition;
+	name : label;
+	description : OPTIONAL text;
+	definition : characterized_definition;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY property_definition_relationship;
+	name : label;
+	description : text;
+	relating_property_definition : property_definition;
+	related_property_definition : property_definition;
+END_ENTITY;
+
+
+ENTITY property_definition_representation;
+	definition : represented_definition;
+	used_representation : representation;
+DERIVE
+	description : text := get_description_value(SELF);
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY qualified_representation_item
+	SUBTYPE OF (representation_item);
+	qualifiers : SET [1:?] OF value_qualifier;
+WHERE
+	WR1 : SIZEOF(QUERY(temp <* qualifiers |
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRECISION_QUALIFIER'
+             IN TYPEOF(temp))) < 2;
+END_ENTITY;
+
+
+ENTITY qualitative_uncertainty
+	SUBTYPE OF (uncertainty_qualifier);
+	uncertainty_value : text;
+END_ENTITY;
+
+
+ENTITY quantified_assembly_component_usage
+	SUBTYPE OF (assembly_component_usage);
+	quantity : measure_with_unit;
+WHERE
+	WR1 : (NOT ('NUMBER' IN TYPEOF(quantity.value_component)))
+       OR (quantity.value_component > 0);
+END_ENTITY;
+
+
+ENTITY quasi_uniform_curve
+	SUBTYPE OF (b_spline_curve);
+END_ENTITY;
+
+
+ENTITY quasi_uniform_surface
+	SUBTYPE OF (b_spline_surface);
+END_ENTITY;
+
+
+ENTITY radioactivity_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RADIOACTIVITY_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY radioactivity_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.becquerel);
+END_ENTITY;
+
+
+ENTITY radius_dimension
+	SUBTYPE OF (dimension_curve_directed_callout);
+WHERE
+	WR1 : SIZEOF (QUERY (con <* SELF.contents |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE' IN TYPEOF (con)))<=1;
+END_ENTITY;
+
+
+ENTITY range_characteristic
+	SUBTYPE OF (representation, descriptive_representation_item);
+WHERE
+	WR1 : NOT(SELF\representation.name IN ['tolerance', 'minimum tolerance', 'maximum tolerance', 
+        'nominal tolerance', 'plus minus tolerance', 'symmetrical tolerance', 'statistical tolerance']);
+END_ENTITY;
+
+
+ENTITY ratio_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RATIO_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY ratio_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY rational_b_spline_curve
+	SUBTYPE OF (b_spline_curve);
+	weights_data : LIST [2:?] OF REAL;
+DERIVE
+	weights : ARRAY [0:upper_index_on_control_points] OF REAL := list_to_array(weights_data,0,
+                                      upper_index_on_control_points);
+WHERE
+	WR1 : SIZEOF(weights_data) = SIZEOF(SELF\b_spline_curve.
+                                           control_points_list);
+	WR2 : curve_weights_positive(SELF);
+END_ENTITY;
+
+
+ENTITY rational_b_spline_surface
+	SUBTYPE OF (b_spline_surface);
+	weights_data : LIST [2:?] OF LIST [2:?] OF REAL;
+DERIVE
+	weights : ARRAY [0:u_upper] OF ARRAY [0:v_upper] OF REAL := make_array_of_array(weights_data,0,u_upper,0,v_upper);
+WHERE
+	WR1 : (SIZEOF(weights_data) =
+                     SIZEOF(SELF\b_spline_surface.control_points_list))
+           AND (SIZEOF(weights_data[1]) =
+                  SIZEOF(SELF\b_spline_surface.control_points_list[1]));
+	WR2 : surface_weights_positive(SELF);
+END_ENTITY;
+
+
+ENTITY rational_representation_item
+	SUBTYPE OF (representation_item, slash_expression);
+WHERE
+	WR1 : SIZEOF( QUERY( operand <* SELF\binary_generic_expression.operands | 
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INT_LITERAL' IN TYPEOF(operand)))) = 0;
+END_ENTITY;
+
+
+ENTITY real_literal
+	SUBTYPE OF (literal_number);
+	SELF\literal_number.the_value : REAL;
+END_ENTITY;
+
+
+ENTITY real_representation_item
+	SUBTYPE OF (representation_item, real_literal);
+END_ENTITY;
+
+
+ENTITY rectangular_composite_surface
+	SUBTYPE OF (bounded_surface);
+	segments : LIST [1:?] OF LIST [1:?] OF surface_patch;
+DERIVE
+	n_u : INTEGER := SIZEOF(segments);
+	n_v : INTEGER := SIZEOF(segments[1]);
+WHERE
+	WR1 : SIZEOF(QUERY (s <* segments | n_v <> SIZEOF (s))) = 0;
+	WR2 : constraints_rectangular_composite_surface(SELF);
+END_ENTITY;
+
+
+ENTITY rectangular_trimmed_surface
+	SUBTYPE OF (bounded_surface);
+	basis_surface : surface;
+	u1 : parameter_value;
+	u2 : parameter_value;
+	v1 : parameter_value;
+	v2 : parameter_value;
+	usense : BOOLEAN;
+	vsense : BOOLEAN;
+WHERE
+	WR1 : u1 <> u2;
+	WR2 : v1 <> v2;
+	WR3 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_SURFACE' IN TYPEOF(basis_surface))
+       AND  (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN TYPEOF(basis_surface)))) OR
+      ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_OF_REVOLUTION' IN TYPEOF(basis_surface))
+          OR (usense = (u2 > u1));
+	WR4 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SPHERICAL_SURFACE' IN TYPEOF(basis_surface))
+          OR
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TOROIDAL_SURFACE' IN TYPEOF(basis_surface)))
+          OR (vsense = (v2 > v1));
+END_ENTITY;
+
+
+ENTITY referenced_modified_datum
+	SUBTYPE OF (datum_reference);
+	modifier : limit_condition;
+END_ENTITY;
+
+
+ENTITY relative_event_occurrence
+	SUBTYPE OF (event_occurrence);
+	base_event : event_occurrence;
+	offset : time_measure_with_unit;
+END_ENTITY;
+
+
+ENTITY rep_item_group
+	SUBTYPE OF (group, representation_item);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRESENTATION_LAYER_ASSIGNMENT.' + 'ASSIGNED_ITEMS')) > 0;
+	WR2 : SIZEOF(QUERY(r <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION.' + 'ITEMS') | r.name = 'group representation')) > 0;
+	WR3 : SIZEOF(QUERY(ga <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GROUP_ASSIGNMENT.' + 'ASSIGNED_GROUP') | ga.role.name <> 'group membership')) = 0;
+	WR4 : SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_REPRESENTATION_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'TOPOLOGICAL_REPRESENTATION_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'MAPPED_ITEM','AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'STYLED_ITEM'] * TYPEOF(SELF)) = 1;
+END_ENTITY;
+
+
+ENTITY reparametrised_composite_curve_segment
+	SUBTYPE OF (composite_curve_segment);
+	param_length : parameter_value;
+WHERE
+	WR1 : param_length > 0.0;
+END_ENTITY;
+
+
+ENTITY representation;
+	name : label;
+	items : SET [1:?] OF representation_item;
+	context_of_items : representation_context;
+DERIVE
+	description : text := get_description_value (SELF);
+	id : identifier := get_id_value (SELF);
+WHERE
+	WR1 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'ID_ATTRIBUTE.IDENTIFIED_ITEM'))
+         <= 1;
+	WR2 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM'))
+         <= 1;
+END_ENTITY;
+
+
+ENTITY representation_context;
+	context_identifier : identifier;
+	context_type : text;
+INVERSE
+	representations_in_context: SET [1:?] OF representation FOR context_of_items;
+END_ENTITY;
+
+
+ENTITY representation_item
+	SUPERTYPE OF (ONEOF (binary_representation_item, compound_representation_item, mapped_item, value_representation_item, mapped_item, styled_item, boolean_representation_item, date_representation_item, date_time_representation_item, integer_representation_item, logical_representation_item, rational_representation_item, real_representation_item));
+	name : label;
+WHERE
+	WR1 : SIZEOF(using_representations(SELF)) > 0;
+END_ENTITY;
+
+
+ENTITY representation_item_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_representation_item : representation_item;
+	related_representation_item : representation_item;
+END_ENTITY;
+
+
+ENTITY representation_map;
+	mapping_origin : representation_item;
+	mapped_representation : representation;
+INVERSE
+	map_usage: SET [1:?] OF mapped_item FOR mapping_source;
+WHERE
+	WR1 : item_in_context(SELF.mapping_origin,
+        SELF.mapped_representation.context_of_items);
+END_ENTITY;
+
+
+ENTITY representation_relationship;
+	name : label;
+	description : OPTIONAL text;
+	rep_1 : representation;
+	rep_2 : representation;
+END_ENTITY;
+
+
+ENTITY representation_relationship_with_transformation
+	SUBTYPE OF (representation_relationship);
+	transformation_operator : transformation;
+WHERE
+	WR1 : SELF\representation_relationship.rep_1.context_of_items
+           :<>: SELF\representation_relationship.rep_2.context_of_items;
+END_ENTITY;
+
+
+ENTITY requirement_assigned_object
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF requirement_assigned_item;
+	SELF\group_assignment.assigned_group : requirement_assignment;
+END_ENTITY;
+
+
+ENTITY requirement_assignment
+	SUBTYPE OF (characterized_object, group);
+END_ENTITY;
+
+
+ENTITY requirement_source
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY requirement_view_definition_relationship
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY resistance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RESISTANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY resistance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.ohm);
+END_ENTITY;
+
+
+ENTITY revolved_area_solid
+	SUBTYPE OF (swept_area_solid);
+	axis : axis1_placement;
+	angle : plane_angle_measure;
+DERIVE
+	axis_line : line := representation_item('')||
+                    geometric_representation_item()|| curve()||
+                    line(axis.location, representation_item('')||
+                    geometric_representation_item()||
+                    vector(axis.z, 1.0));
+END_ENTITY;
+
+
+ENTITY revolved_face_solid
+	SUBTYPE OF (swept_face_solid);
+	axis : axis1_placement;
+	angle : plane_angle_measure;
+DERIVE
+	axis_line : line := representation_item('')||
+                    geometric_representation_item()|| curve()||
+                    line(axis.location, representation_item('')||
+                    geometric_representation_item()||
+                    vector(axis.z, 1.0));
+END_ENTITY;
+
+
+ENTITY revolved_face_solid_with_trim_conditions
+	SUBTYPE OF (revolved_face_solid);
+	first_trim_condition : trim_condition_select;
+	second_trim_condition : trim_condition_select;
+WHERE
+	WR1 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(first_trim_condition)) 
+         OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(second_trim_condition)));
+	WR2 : NOT((('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_MEASURE' 
+         IN TYPEOF(first_trim_condition)) AND
+            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_MEASURE' 
+         IN TYPEOF(second_trim_condition))) AND
+         (first_trim_condition = second_trim_condition));
+END_ENTITY;
+
+
+ENTITY right_angular_wedge
+	SUBTYPE OF (geometric_representation_item);
+	position : axis2_placement_3d;
+	x : positive_length_measure;
+	y : positive_length_measure;
+	z : positive_length_measure;
+	ltx : length_measure;
+WHERE
+	WR1 : ((0.0 <= ltx) AND (ltx < x));
+END_ENTITY;
+
+
+ENTITY right_circular_cone
+	SUBTYPE OF (geometric_representation_item);
+	position : axis1_placement;
+	height : positive_length_measure;
+	radius : length_measure;
+	semi_angle : plane_angle_measure;
+WHERE
+	WR1 : radius >= 0.0;
+END_ENTITY;
+
+
+ENTITY right_circular_cylinder
+	SUBTYPE OF (geometric_representation_item);
+	position : axis1_placement;
+	height : positive_length_measure;
+	radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY right_to_usage_association
+	SUBTYPE OF (action_method_relationship);
+	SELF\action_method_relationship.related_method : information_right;
+	SELF\action_method_relationship.relating_method : information_usage_right;
+DERIVE
+	right_applied : information_right := SELF\action_method_relationship.related_method;
+	right_usage : information_usage_right := SELF\action_method_relationship.relating_method;
+END_ENTITY;
+
+
+ENTITY role_association;
+	role : object_role;
+	item_with_role : role_select;
+END_ENTITY;
+
+
+ENTITY roundness_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF));
+END_ENTITY;
+
+
+ENTITY row_representation_item
+	SUBTYPE OF (compound_representation_item);
+	SELF\compound_representation_item.item_element : list_representation_item;
+END_ENTITY;
+
+
+ENTITY row_value
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY row_variable
+	SUBTYPE OF (abstract_variable);
+END_ENTITY;
+
+
+ENTITY rule_action
+	SUBTYPE OF (action);
+END_ENTITY;
+
+
+ENTITY rule_condition
+	SUBTYPE OF (atomic_formula);
+END_ENTITY;
+
+
+ENTITY rule_definition
+	SUBTYPE OF (rule_software_definition);
+END_ENTITY;
+
+
+ENTITY rule_set
+	SUBTYPE OF (rule_software_definition);
+END_ENTITY;
+
+
+ENTITY rule_set_group
+	SUBTYPE OF (rule_software_definition);
+END_ENTITY;
+
+
+ENTITY rule_software_definition
+	SUBTYPE OF (product_definition);
+END_ENTITY;
+
+
+ENTITY rule_superseded_assignment
+	SUBTYPE OF (action_assignment);
+	items : SET [1:?] OF rule_superseded_item;
+END_ENTITY;
+
+
+ENTITY rule_supersedence
+	SUBTYPE OF (rule_action);
+END_ENTITY;
+
+
+ENTITY ruled_surface_swept_area_solid
+	SUBTYPE OF (surface_curve_swept_area_solid);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE' IN TYPEOF(SELF.reference_surface)) AND
+         (SELF.reference_surface\b_spline_surface.u_degree = 1);
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(SELF.directrix)) OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF(SELF.directrix\surface_curve.curve_3d))
+         AND
+         (SELF.directrix\surface_curve.curve_3d\b_spline_curve.degree =
+         SELF.reference_surface\b_spline_surface.v_degree));
+END_ENTITY;
+
+
+ENTITY runout_zone_definition
+	SUBTYPE OF (tolerance_zone_definition);
+	orientation : runout_zone_orientation;
+END_ENTITY;
+
+
+ENTITY runout_zone_orientation;
+	angle : measure_with_unit;
+END_ENTITY;
+
+
+ENTITY runout_zone_orientation_reference_direction
+	SUBTYPE OF (runout_zone_orientation);
+	orientation_defining_relationship : shape_aspect_relationship;
+END_ENTITY;
+
+
+ENTITY satisfied_requirement
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF product_definition;
+	SELF\group_assignment.assigned_group : satisfies_requirement;
+END_ENTITY;
+
+
+ENTITY satisfies_requirement
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY satisfying_item
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF requirement_satisfaction_item;
+	SELF\group_assignment.assigned_group : satisfies_requirement;
+END_ENTITY;
+
+
+ENTITY scalar_variable
+	SUBTYPE OF (abstract_variable);
+END_ENTITY;
+
+
+ENTITY scattering_parameter
+	SUBTYPE OF (polar_complex_number_literal);
+WHERE
+	WR1 : SIZEOF(TYPEOF(SELF) - (TYPEOF(SELF\polar_complex_number_literal ||
+       SELF\scattering_parameter))) = 0;
+END_ENTITY;
+
+
+ENTITY sculptured_solid
+	SUBTYPE OF (modified_solid);
+	sculpturing_element : generalized_surface_select;
+	positive_side : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY seam_curve
+	SUBTYPE OF (surface_curve);
+WHERE
+	WR1 : SIZEOF(SELF\surface_curve.associated_geometry) = 2;
+	WR2 : associated_surface(SELF\surface_curve.associated_geometry[1]) =
+           associated_surface(SELF\surface_curve.associated_geometry[2]);
+	WR3 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN
+           TYPEOF(SELF\surface_curve.associated_geometry[1]);
+	WR4 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN
+            TYPEOF(SELF\surface_curve.associated_geometry[2]);
+END_ENTITY;
+
+
+ENTITY security_classification;
+	name : label;
+	purpose : text;
+	security_level : security_classification_level;
+END_ENTITY;
+
+
+ENTITY security_classification_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_security_classification : security_classification;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY security_classification_level;
+	name : label;
+END_ENTITY;
+
+
+ENTITY serial_numbered_effectivity
+	SUBTYPE OF (effectivity);
+	effectivity_start_id : identifier;
+	effectivity_end_id : OPTIONAL identifier;
+END_ENTITY;
+
+
+ENTITY shape_aspect;
+	name : label;
+	description : OPTIONAL text;
+	of_shape : product_definition_shape;
+	product_definitional : LOGICAL;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY shape_aspect_associativity
+	SUBTYPE OF (shape_aspect_relationship);
+WHERE
+	WR1 : SELF.relating_shape_aspect.product_definitional;
+	WR2 : NOT (SELF.related_shape_aspect.product_definitional);
+END_ENTITY;
+
+
+ENTITY shape_aspect_deriving_relationship
+	SUBTYPE OF (shape_aspect_relationship);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DERIVED_SHAPE_ASPECT' IN
+TYPEOF
+            (SELF\SHAPE_ASPECT_RELATIONSHIP.RELATING_SHAPE_ASPECT);
+END_ENTITY;
+
+
+ENTITY shape_aspect_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_shape_aspect : shape_aspect;
+	related_shape_aspect : shape_aspect;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY shape_definition_representation
+	SUBTYPE OF (property_definition_representation);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_SHAPE' IN TYPEOF(SELF.definition)) OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_DEFINITION' IN TYPEOF(SELF.definition.definition));
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION' IN TYPEOF(SELF.used_representation);
+END_ENTITY;
+
+
+ENTITY shape_dimension_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (temp <* SELF\representation.items | 
+    NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' 
+        IN TYPEOF (temp)))) = 0;
+	WR2 : SIZEOF (SELF\representation.items) <= 3;
+	WR3 : SIZEOF (QUERY (pos_mri <* QUERY (real_mri <*
+        SELF\representation.items | 'REAL' IN TYPEOF
+        (real_mri\measure_with_unit.value_component) ) |        
+     NOT  (pos_mri\measure_with_unit.value_component > 0.0 ))) = 0;
+END_ENTITY;
+
+
+ENTITY shape_feature_definition
+	SUBTYPE OF (characterized_object);
+END_ENTITY;
+
+
+ENTITY shape_representation
+	SUBTYPE OF (representation);
+END_ENTITY;
+
+
+ENTITY shape_representation_relationship
+	SUBTYPE OF (representation_relationship);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION' IN (TYPEOF(SELF\representation_relationship.rep_1) + TYPEOF(SELF\representation_relationship.rep_2));
+END_ENTITY;
+
+
+ENTITY shape_representation_with_parameters
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF( QUERY( i <* SELF.items | SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLACEMENT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM'] * TYPEOF(i)) = 1 )) = SIZEOF(SELF.items);
+END_ENTITY;
+
+
+ENTITY shell_based_surface_model
+	SUBTYPE OF (geometric_representation_item);
+	sbsm_boundary : SET [1:?] OF shell;
+WHERE
+	WR1 : constraints_geometry_shell_based_surface_model(SELF);
+END_ENTITY;
+
+
+ENTITY shell_based_wireframe_model
+	SUBTYPE OF (geometric_representation_item);
+	sbwm_boundary : SET [1:?] OF shell;
+WHERE
+	WR1 : constraints_geometry_shell_based_wireframe_model(SELF);
+END_ENTITY;
+
+
+ENTITY shell_based_wireframe_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF ( 
+QUERY ( it <* SELF.items| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' ] * TYPEOF (it)) = 1) )) = 0;
+	WR2 : SIZEOF ( 
+QUERY ( it <* SELF.items| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ] * TYPEOF (it)) = 1) )) >= 1;
+	WR3 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( eloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (wsb)) )| NOT ( SIZEOF ( 
+QUERY ( el <* eloop\path.edge_list| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF (el.edge_element)) )) = 0) )) = 0) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( eloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (wsb)) )| NOT ( SIZEOF ( 
+QUERY ( pline_el <* 
+QUERY ( el <* eloop\path.edge_list| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (el.edge_element\edge_curve.edge_geometry)) )| NOT ( SIZEOF (pline_el.edge_element\edge_curve.edge_geometry\polyline.points) > 2) )) = 0) )) = 0) )) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( eloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (wsb)) )| NOT ( SIZEOF ( 
+QUERY ( el <* eloop\path.edge_list| NOT valid_wireframe_edge_curve(el.edge_element\edge_curve.edge_geometry) )) = 0) )) = 0) )) = 0) )) = 0;
+	WR6 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( eloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (wsb)) )| NOT ( SIZEOF ( 
+QUERY ( el <* eloop\path.edge_list| NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (el.edge_element.edge_start)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (el.edge_element.edge_end))) )) = 0) )) = 0) )) = 0) )) = 0;
+	WR7 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( eloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (wsb)) )| NOT ( SIZEOF ( 
+QUERY ( el <* eloop\path.edge_list| NOT (valid_wireframe_vertex_point(el.edge_element.edge_start\vertex_point.vertex_geometry) AND valid_wireframe_vertex_point(el.edge_element.edge_end\vertex_point.vertex_geometry)) )) = 0) )) = 0) )) = 0) )) = 0;
+	WR8 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( vloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (wsb)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (vloop\vertex_loop.loop_vertex)) )) = 0) )) = 0) )) = 0;
+	WR9 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( vloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (wsb)) )| NOT valid_wireframe_vertex_point(vloop\vertex_loop.loop_vertex\vertex_point.vertex_geometry) )) = 0) )) = 0) )) = 0;
+	WR10 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( vs <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_SHELL' IN TYPEOF (sb)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (vs\vertex_shell.vertex_shell_extent.loop_vertex)) )) = 0) )) = 0;
+	WR11 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( vs <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_SHELL' IN TYPEOF (sb)) )| NOT valid_wireframe_vertex_point(vs\vertex_shell.vertex_shell_extent.loop_vertex\vertex_point.vertex_geometry) )) = 0) )) = 0;
+	WR12 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'SHELL_BASED_WIREFRAME_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+	WR13 : SELF.context_of_items\geometric_representation_context.coordinate_space_dimension = 3;
+END_ENTITY;
+
+
+ENTITY shelled_solid
+	SUPERTYPE OF (ONEOF (double_offset_shelled_solid, complex_shelled_solid))
+	SUBTYPE OF (modified_solid);
+	deleted_face_set : SET [1:?] OF face_surface;
+	thickness : length_measure;
+WHERE
+	WR1 : thickness <> 0;
+END_ENTITY;
+
+
+ENTITY si_absorbed_dose_unit
+	SUBTYPE OF (absorbed_dose_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.gray;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_capacitance_unit
+	SUBTYPE OF (capacitance_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.farad;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_conductance_unit
+	SUBTYPE OF (conductance_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.siemens;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_dose_equivalent_unit
+	SUBTYPE OF (dose_equivalent_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.sievert;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_electric_charge_unit
+	SUBTYPE OF (electric_charge_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.coulomb;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_electric_potential_unit
+	SUBTYPE OF (electric_potential_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.volt;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_energy_unit
+	SUBTYPE OF (energy_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.joule;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_force_unit
+	SUBTYPE OF (force_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.newton;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_frequency_unit
+	SUBTYPE OF (frequency_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.hertz;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_illuminance_unit
+	SUBTYPE OF (illuminance_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.lux;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_inductance_unit
+	SUBTYPE OF (inductance_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.henry;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_magnetic_flux_density_unit
+	SUBTYPE OF (magnetic_flux_density_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.tesla;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_magnetic_flux_unit
+	SUBTYPE OF (magnetic_flux_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.weber;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_power_unit
+	SUBTYPE OF (power_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.watt;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_pressure_unit
+	SUBTYPE OF (pressure_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.pascal;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_radioactivity_unit
+	SUBTYPE OF (radioactivity_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.becquerel;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_resistance_unit
+	SUBTYPE OF (resistance_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.ohm;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_unit
+	SUBTYPE OF (named_unit);
+	prefix : OPTIONAL si_prefix;
+	name : si_unit_name;
+DERIVE
+	SELF\named_unit.dimensions : dimensional_exponents := dimensions_for_si_unit(name);
+WHERE
+	WR1 : NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MASS_UNIT' IN TYPEOF(SELF)) AND
+             (SIZEOF(USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DERIVED_UNIT_ELEMENT.UNIT')) > 0)) OR
+            (prefix = si_prefix.kilo);
+END_ENTITY;
+
+
+ENTITY simple_boolean_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (boolean_expression, simple_generic_expression);
+END_ENTITY;
+
+
+ENTITY simple_clause
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY simple_generic_expression
+	ABSTRACT SUPERTYPE OF (ONEOF (generic_literal, generic_variable))
+	SUBTYPE OF (generic_expression);
+END_ENTITY;
+
+
+ENTITY simple_numeric_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (numeric_expression, simple_generic_expression);
+END_ENTITY;
+
+
+ENTITY slash_expression
+	SUBTYPE OF (binary_numeric_expression);
+END_ENTITY;
+
+
+ENTITY smeared_material_definition
+	SUBTYPE OF (zone_structural_makeup);
+END_ENTITY;
+
+
+ENTITY solid_angle_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_ANGLE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY solid_angle_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY solid_curve_font
+	SUBTYPE OF (pre_defined_curve_font);
+END_ENTITY;
+
+
+ENTITY solid_model
+	SUPERTYPE OF (ONEOF (csg_solid, manifold_solid_brep, swept_face_solid, swept_area_solid, swept_disk_solid, solid_replica))
+	SUBTYPE OF (geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY solid_replica
+	SUBTYPE OF (solid_model);
+	parent_solid : solid_model;
+	transformation : cartesian_transformation_operator_3d;
+WHERE
+	WR1 : acyclic_solid_replica(SELF, parent_solid);
+	WR2 : parent_solid\geometric_representation_item.dim = 3;
+END_ENTITY;
+
+
+ENTITY solid_with_angle_based_chamfer
+	SUBTYPE OF (solid_with_chamfered_edges);
+	offset_distance : positive_length_measure;
+	left_offset : BOOLEAN;
+	offset_angle : positive_plane_angle_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_chamfered_edges
+	ABSTRACT SUPERTYPE OF (ONEOF (solid_with_single_offset_chamfer, solid_with_double_offset_chamfer, solid_with_angle_based_chamfer))
+	SUBTYPE OF (edge_blended_solid);
+END_ENTITY;
+
+
+ENTITY solid_with_circular_pattern
+	SUPERTYPE OF (solid_with_incomplete_circular_pattern)
+	SUBTYPE OF (solid_with_shape_element_pattern);
+	replicate_count : positive_integer;
+	angular_spacing : plane_angle_measure;
+	radial_alignment : BOOLEAN;
+	reference_point : point;
+END_ENTITY;
+
+
+ENTITY solid_with_circular_pocket
+	SUBTYPE OF (solid_with_pocket);
+	pocket_radius : positive_length_measure;
+WHERE
+	WR1 : SELF\solid_with_pocket.floor_blend_radius <= pocket_radius;
+END_ENTITY;
+
+
+ENTITY solid_with_circular_protrusion
+	SUBTYPE OF (solid_with_protrusion);
+	protrusion_radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_conical_bottom_round_hole
+	SUBTYPE OF (solid_with_stepped_round_hole);
+	semi_apex_angle : positive_plane_angle_measure;
+	tip_radius : non_negative_length_measure;
+WHERE
+	WR1 : tip_radius < 
+          SELF\solid_with_stepped_round_hole.segment_radii[segments];
+END_ENTITY;
+
+
+ENTITY solid_with_constant_radius_edge_blend
+	SUBTYPE OF (edge_blended_solid);
+	radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_curved_slot
+	SUBTYPE OF (solid_with_slot);
+	slot_centreline : bounded_curve;
+END_ENTITY;
+
+
+ENTITY solid_with_depression
+	ABSTRACT SUPERTYPE OF ((solid_with_through_depression ANDOR ONEOF (solid_with_hole, solid_with_pocket, solid_with_slot, solid_with_groove)))
+	SUBTYPE OF (modified_solid_with_placed_configuration);
+	depth : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_double_offset_chamfer
+	SUBTYPE OF (solid_with_chamfered_edges);
+	left_offset_distance : positive_length_measure;
+	right_offset_distance : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_flat_bottom_round_hole
+	SUBTYPE OF (solid_with_stepped_round_hole);
+	fillet_radius : non_negative_length_measure;
+WHERE
+	WR1 : fillet_radius < 
+          SELF\solid_with_stepped_round_hole.segment_radii[segments];
+END_ENTITY;
+
+
+ENTITY solid_with_general_pocket
+	SUBTYPE OF (solid_with_pocket);
+	profile : positioned_sketch;
+	reference_point : point;
+WHERE
+	WR1 : SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_BOUNDED_SURFACE',
+    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE'] * TYPEOF(profile.sketch_basis)) = 1;
+	WR2 : profile IN using_items(reference_point,[]);
+END_ENTITY;
+
+
+ENTITY solid_with_general_protrusion
+	SUBTYPE OF (solid_with_protrusion);
+	profile : positioned_sketch;
+	reference_point : point;
+WHERE
+	WR1 : SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_BOUNDED_SURFACE',
+    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE'] * TYPEOF(profile.sketch_basis)) = 1;
+	WR2 : profile IN using_items(reference_point,[]);
+END_ENTITY;
+
+
+ENTITY solid_with_groove
+	SUBTYPE OF (solid_with_depression);
+	groove_radius : positive_length_measure;
+	groove_width : positive_length_measure;
+	draft_angle : plane_angle_measure;
+	floor_fillet_radius : non_negative_length_measure;
+	external_groove : BOOLEAN;
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_THROUGH_DEPRESSION'
+         IN TYPEOF(SELF));
+END_ENTITY;
+
+
+ENTITY solid_with_hole
+	ABSTRACT SUPERTYPE OF (solid_with_stepped_round_hole)
+	SUBTYPE OF (solid_with_depression);
+END_ENTITY;
+
+
+ENTITY solid_with_incomplete_circular_pattern
+	SUBTYPE OF (solid_with_circular_pattern);
+	omitted_instances : SET [1:?] OF positive_integer;
+WHERE
+	WR1 : SIZEOF(omitted_instances) <
+         SELF\solid_with_circular_pattern.replicate_count;
+	WR2 : SIZEOF(QUERY(q <* omitted_instances | q > 
+         SELF\solid_with_circular_pattern.replicate_count)) = 0;
+END_ENTITY;
+
+
+ENTITY solid_with_incomplete_rectangular_pattern
+	SUBTYPE OF (solid_with_rectangular_pattern);
+	omitted_instances : SET [1:?] OF LIST [2:2] OF positive_integer;
+WHERE
+	WR1 : NOT([1,1] IN omitted_instances);
+	WR2 : SIZEOF(omitted_instances) <
+         ((SELF\solid_with_rectangular_pattern.row_count *
+           SELF\solid_with_rectangular_pattern.column_count) - 1);
+	WR3 : SIZEOF(QUERY(q <* omitted_instances |
+         ((q[1] > SELF\solid_with_rectangular_pattern.row_count) OR
+          (q[2] > SELF\solid_with_rectangular_pattern.column_count)))) = 0;
+END_ENTITY;
+
+
+ENTITY solid_with_pocket
+	ABSTRACT SUPERTYPE OF (ONEOF (solid_with_rectangular_pocket, solid_with_circular_pocket, solid_with_general_pocket))
+	SUBTYPE OF (solid_with_depression);
+	floor_blend_radius : non_negative_length_measure;
+	draft_angle : plane_angle_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_protrusion
+	ABSTRACT SUPERTYPE OF (ONEOF (solid_with_circular_protrusion, solid_with_rectangular_protrusion, solid_with_general_protrusion))
+	SUBTYPE OF (modified_solid_with_placed_configuration);
+	protrusion_height : positive_length_measure;
+	protrusion_draft_angle : plane_angle_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_rectangular_pattern
+	SUPERTYPE OF (solid_with_incomplete_rectangular_pattern)
+	SUBTYPE OF (solid_with_shape_element_pattern);
+	row_count : positive_integer;
+	column_count : positive_integer;
+	row_spacing : length_measure;
+	column_spacing : length_measure;
+WHERE
+	WR1 : (row_count * column_count) > 1;
+END_ENTITY;
+
+
+ENTITY solid_with_rectangular_pocket
+	SUBTYPE OF (solid_with_pocket);
+	pocket_length : positive_length_measure;
+	pocket_width : positive_length_measure;
+	corner_radius : non_negative_length_measure;
+WHERE
+	WR1 : (corner_radius < pocket_width/2) 
+         AND (corner_radius < pocket_length/2);
+END_ENTITY;
+
+
+ENTITY solid_with_rectangular_protrusion
+	SUBTYPE OF (solid_with_protrusion);
+	protrusion_length : positive_length_measure;
+	protrusion_width : positive_length_measure;
+	protrusion_corner_radius : non_negative_length_measure;
+WHERE
+	WR1 : (protrusion_corner_radius <= protrusion_width/2) 
+         AND (protrusion_corner_radius <= protrusion_length/2);
+END_ENTITY;
+
+
+ENTITY solid_with_shape_element_pattern
+	ABSTRACT SUPERTYPE OF (ONEOF (solid_with_circular_pattern, solid_with_rectangular_pattern))
+	SUBTYPE OF (modified_solid_with_placed_configuration);
+	replicated_element : modified_solid_with_placed_configuration;
+END_ENTITY;
+
+
+ENTITY solid_with_single_offset_chamfer
+	SUBTYPE OF (solid_with_chamfered_edges);
+	offset_distance : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_slot
+	ABSTRACT SUPERTYPE OF ((ONEOF (solid_with_trapezoidal_section_slot, solid_with_tee_section_slot) AND ONEOF (solid_with_straight_slot, solid_with_curved_slot)))
+	SUBTYPE OF (solid_with_depression);
+	slot_width : positive_length_measure;
+	closed_ends : LIST [2:2] OF LOGICAL;
+	end_exit_faces : LIST [2:2] OF SET [0:?] OF face_surface;
+WHERE
+	WR1 : NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_THROUGH_DEPRESSION' IN
+         TYPEOF(SELF)) AND (closed_ends = [FALSE,FALSE]));
+	WR2 : NOT(((closed_ends[1] = TRUE) AND (SIZEOF(end_exit_faces[1]) <> 0))
+         OR ((closed_ends[2] = TRUE) AND (SIZEOF(end_exit_faces[2]) <> 0)));
+END_ENTITY;
+
+
+ENTITY solid_with_spherical_bottom_round_hole
+	SUBTYPE OF (solid_with_stepped_round_hole);
+	sphere_radius : positive_length_measure;
+WHERE
+	WR1 : sphere_radius >= 
+          SELF\solid_with_stepped_round_hole.segment_radii[segments];
+END_ENTITY;
+
+
+ENTITY solid_with_stepped_round_hole
+	SUPERTYPE OF ((solid_with_stepped_round_hole_and_conical_transitions ANDOR ONEOF (solid_with_flat_bottom_round_hole, solid_with_conical_bottom_round_hole, solid_with_spherical_bottom_round_hole)))
+	SUBTYPE OF (solid_with_hole);
+	segments : positive_integer;
+	segment_radii : LIST [1:segments] OF positive_length_measure;
+	segment_depths : LIST [1:segments] OF positive_length_measure;
+DERIVE
+	SELF\solid_with_depression.depth : positive_length_measure := compute_total_depth(SELF);
+WHERE
+	WR1 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_THROUGH_DEPRESSION'
+       IN TYPEOF(SELF)) AND (SIZEOF(TYPEOF(SELF) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_FLAT_BOTTOM_ROUND_HOLE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_SPHERICAL_BOTTOM_ROUND_HOLE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_FLAT_BOTTOM_ROUND_HOLE']) 
+       <> 0));
+END_ENTITY;
+
+
+ENTITY solid_with_stepped_round_hole_and_conical_transitions
+	SUBTYPE OF (solid_with_stepped_round_hole);
+	conical_transitions : SET [1:?] OF conical_stepped_hole_transition;
+WHERE
+	WR1 : SIZEOF (conical_transitions) <= 
+         (SELF\solid_with_stepped_round_hole.segments + 1);
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_THROUGH_DEPRESSION'
+         IN TYPEOF(SELF)) XOR (SIZEOF(conical_transitions) <= 
+         SELF\solid_with_stepped_round_hole.segments);
+	WR3 : validate_countersink_radii(SELF);
+END_ENTITY;
+
+
+ENTITY solid_with_straight_slot
+	SUBTYPE OF (solid_with_slot);
+	slot_length : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_tee_section_slot
+	SUBTYPE OF (solid_with_slot);
+	tee_section_width : positive_length_measure;
+	collar_depth : positive_length_measure;
+WHERE
+	WR1 : collar_depth < SELF\solid_with_depression.depth;
+	WR2 : tee_section_width > SELF\solid_with_slot.slot_width;
+END_ENTITY;
+
+
+ENTITY solid_with_through_depression
+	SUBTYPE OF (solid_with_depression);
+	exit_faces : SET [1:?] OF face_surface;
+WHERE
+	WR1 : SIZEOF(TYPEOF(SELF) *
+         ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_HOLE',
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_POCKET',
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_SLOT']) = 1;
+END_ENTITY;
+
+
+ENTITY solid_with_trapezoidal_section_slot
+	SUBTYPE OF (solid_with_slot);
+	draft_angle : plane_angle_measure;
+	floor_fillet_radius : non_negative_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_variable_radius_edge_blend
+	SUBTYPE OF (edge_blended_solid, track_blended_solid);
+	point_list : LIST [2:?] OF point;
+	radius_list : LIST [2:?] OF positive_length_measure;
+	edge_function_list : LIST [1:?] OF blend_radius_variation_type;
+WHERE
+	WR1 : SIZEOF(point_list) = SIZEOF(radius_list);
+	WR2 : SIZEOF(edge_function_list) = SIZEOF(radius_list) - 1;
+	WR3 : NOT((point_list[1] = point_list[HIINDEX(point_list)]) AND NOT 
+         (radius_list[1] = radius_list[HIINDEX(radius_list)]));
+END_ENTITY;
+
+
+ENTITY source_for_requirement
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF requirement_source_item;
+	SELF\group_assignment.assigned_group : requirement_source;
+END_ENTITY;
+
+
+ENTITY sourced_requirement
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF product_definition;
+	SELF\group_assignment.assigned_group : requirement_source;
+END_ENTITY;
+
+
+ENTITY specification_definition
+	SUBTYPE OF (product_definition);
+END_ENTITY;
+
+
+ENTITY specified_higher_usage_occurrence
+	SUBTYPE OF (assembly_component_usage);
+	upper_usage : assembly_component_usage;
+	next_usage : next_assembly_usage_occurrence;
+UNIQUE
+	UR1 : upper_usage, next_usage;
+WHERE
+	WR1 : SELF :<>: upper_usage;
+	WR2 : SELF\product_definition_relationship.relating_product_definition
+       :=: upper_usage.relating_product_definition;
+	WR3 : SELF\product_definition_relationship.related_product_definition
+       :=: next_usage.related_product_definition;
+	WR4 : (upper_usage.related_product_definition :=:
+       next_usage.relating_product_definition) OR
+       (SIZEOF (QUERY (pdr <* USEDIN (upper_usage.related_product_definition,
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_RELATIONSHIP.' +
+       'RELATED_PRODUCT_DEFINITION') |
+        pdr.relating_product_definition :=: 
+        next_usage.relating_product_definition)) = 1);
+	WR5 : SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NEXT_ASSEMBLY_USAGE_OCCURRENCE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SPECIFIED_HIGHER_USAGE_OCCURRENCE']
+       * TYPEOF(upper_usage)) = 1;
+END_ENTITY;
+
+
+ENTITY sphere
+	SUBTYPE OF (geometric_representation_item);
+	radius : positive_length_measure;
+	centre : point;
+END_ENTITY;
+
+
+ENTITY spherical_surface
+	SUBTYPE OF (elementary_surface);
+	radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY standard_uncertainty
+	SUPERTYPE OF (expanded_uncertainty)
+	SUBTYPE OF (uncertainty_qualifier);
+	uncertainty_value : REAL;
+END_ENTITY;
+
+
+ENTITY start_request
+	SUBTYPE OF (action_request_assignment);
+	items : SET [1:?] OF start_request_item;
+END_ENTITY;
+
+
+ENTITY start_work
+	SUBTYPE OF (action_assignment);
+	items : SET [1:?] OF work_item;
+END_ENTITY;
+
+
+ENTITY straightness_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF));
+END_ENTITY;
+
+
+ENTITY structured_dimension_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF (TYPEOF (SELF) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM_FEATURE_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM_TARGET_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRICAL_TOLERANCE_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT']) = 0;
+	WR2 : SIZEOF (QUERY (ato <* QUERY (con <* SELF.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (con))) |
+         NOT (ato.name IN
+             ['dimension value', 'tolerance value', 'unit text',
+              'prefix text', 'suffix text']))) = 0;
+	WR3 : SIZEOF (QUERY (ato <* QUERY (con <* SELF.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (con))) |
+         (ato.name = 'dimension value')
+       )) >= 1;
+	WR4 : SIZEOF (QUERY (dcr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+         'DRAUGHTING_CALLOUT_RELATIONSHIP.' +
+         'RELATING_DRAUGHTING_CALLOUT') |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+          'DIMENSION_CALLOUT_COMPONENT_RELATIONSHIP' IN TYPEOF (dcr)) AND 
+         (dcr.name = 'prefix') )) <= 1;
+	WR5 : SIZEOF (QUERY (dcr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+         'DRAUGHTING_CALLOUT_RELATIONSHIP.' +
+         'RELATING_DRAUGHTING_CALLOUT') |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+          'DIMENSION_CALLOUT_COMPONENT_RELATIONSHIP' IN TYPEOF (dcr)) AND 
+         (dcr.name = 'suffix') )) <= 1;
+	WR6 : NOT((SIZEOF (QUERY (ato <* QUERY (con <* SELF.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(con)) ) |
+         (ato.name = 'prefix text')
+       )) > 0)) OR
+       (SIZEOF (QUERY (dcr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                               'DRAUGHTING_CALLOUT_RELATIONSHIP.' +
+                               'RELATING_DRAUGHTING_CALLOUT') |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+          'DIMENSION_CALLOUT_COMPONENT_RELATIONSHIP' IN TYPEOF (dcr)) AND  
+         (dcr.name = 'prefix') )) = 1);
+	WR7 : NOT(SIZEOF (QUERY (ato <* QUERY (con <* SELF.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(con))) |
+         (ato.name = 'suffix text')
+       )) > 0) OR
+       (SIZEOF (QUERY (dcr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                               'DRAUGHTING_CALLOUT_RELATIONSHIP.' +
+                               'RELATING_DRAUGHTING_CALLOUT') |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+          'DIMENSION_CALLOUT_COMPONENT_RELATIONSHIP' IN TYPEOF (dcr)) AND    
+            (dcr.name = 'suffix') )) = 1);
+END_ENTITY;
+
+
+ENTITY structured_text_composition
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY structured_text_representation
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF string_representation_item_select;
+END_ENTITY;
+
+
+ENTITY styled_item
+	SUBTYPE OF (representation_item);
+	styles : SET [1:?] OF presentation_style_assignment;
+	item : representation_item;
+WHERE
+	WR1 : (SIZEOF(SELF.styles) = 1)
+               XOR
+         (SIZEOF(QUERY(pres_style <* SELF.styles |
+         NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+              'PRESENTATION_STYLE_BY_CONTEXT' IN
+         TYPEOF(pres_style))
+         )) = 0);
+END_ENTITY;
+
+
+ENTITY subedge
+	SUBTYPE OF (edge);
+	parent_edge : edge;
+END_ENTITY;
+
+
+ENTITY subface
+	SUBTYPE OF (face);
+	parent_face : face;
+WHERE
+	WR1 : NOT (mixed_loop_type_set(list_to_set(list_face_loops(SELF)) +
+              list_to_set(list_face_loops(parent_face))));
+END_ENTITY;
+
+
+ENTITY supplied_part_relationship
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY surface
+	SUPERTYPE OF (ONEOF (elementary_surface, swept_surface, bounded_surface, offset_surface, surface_replica))
+	SUBTYPE OF (geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY surface_condition_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF ( QUERY ( c <* SELF.contents | SIZEOF (
+         ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'ANNOTATION_CURVE_OCCURRENCE' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'ANNOTATION_SYMBOL_OCCURRENCE' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'ANNOTATION_TEXT_OCCURRENCE']* TYPEOF
+         ( c ) ) <>1 ) ) =0;
+END_ENTITY;
+
+
+ENTITY surface_curve
+	SUPERTYPE OF ((ONEOF (intersection_curve, seam_curve) ANDOR bounded_surface_curve))
+	SUBTYPE OF (curve);
+	curve_3d : curve;
+	associated_geometry : LIST [1:2] OF pcurve_or_surface;
+	master_representation : preferred_surface_curve_representation;
+DERIVE
+	basis_surface : SET [1:2] OF surface := get_basis_surface(SELF);
+WHERE
+	WR1 : curve_3d.dim = 3;
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(associated_geometry[1])) OR
+                        (master_representation <> pcurve_s1);
+	WR3 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(associated_geometry[2])) OR
+                        (master_representation <> pcurve_s2);
+	WR4 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(curve_3d));
+END_ENTITY;
+
+
+ENTITY surface_curve_swept_area_solid
+	SUBTYPE OF (swept_area_solid);
+	directrix : curve;
+	start_param : REAL;
+	end_param : REAL;
+	reference_surface : surface;
+WHERE
+	WR1 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF(directrix))) OR
+          (reference_surface IN (directrix\surface_curve.basis_surface));
+END_ENTITY;
+
+
+ENTITY surface_of_linear_extrusion
+	SUBTYPE OF (swept_surface);
+	extrusion_axis : vector;
+END_ENTITY;
+
+
+ENTITY surface_of_revolution
+	SUBTYPE OF (swept_surface);
+	axis_position : axis1_placement;
+DERIVE
+	axis_line : line := representation_item('')||
+                     geometric_representation_item()|| curve()||
+                     line(axis_position.location, representation_item('')||
+                     geometric_representation_item()||
+                     vector(axis_position.z, 1.0));
+END_ENTITY;
+
+
+ENTITY surface_patch
+	SUBTYPE OF (founded_item);
+	parent_surface : bounded_surface;
+	u_transition : transition_code;
+	v_transition : transition_code;
+	u_sense : BOOLEAN;
+	v_sense : BOOLEAN;
+INVERSE
+	using_surfaces: BAG [1:?] OF rectangular_composite_surface FOR segments;
+WHERE
+	WR1 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_BOUNDED_SURFACE' 
+                 IN TYPEOF(parent_surface)));
+END_ENTITY;
+
+
+ENTITY surface_profile_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF)) OR ( SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 3);
+END_ENTITY;
+
+
+ENTITY surface_rendering_properties;
+	rendered_colour : colour;
+END_ENTITY;
+
+
+ENTITY surface_replica
+	SUBTYPE OF (surface);
+	parent_surface : surface;
+	transformation : cartesian_transformation_operator_3d;
+WHERE
+	WR1 : acyclic_surface_replica(SELF, parent_surface);
+END_ENTITY;
+
+
+ENTITY surface_side_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	styles : SET [1:7] OF surface_style_element_select;
+WHERE
+	WR1 : SIZEOF(QUERY( style1 <* SELF.styles |
+           SIZEOF(QUERY( style2 <* SELF.styles - style1 |
+           TYPEOF(style1) = TYPEOF(style2)
+           )) > 0
+           )) = 0;
+END_ENTITY;
+
+
+ENTITY surface_style_boundary
+	SUBTYPE OF (founded_item);
+	style_of_boundary : curve_or_render;
+END_ENTITY;
+
+
+ENTITY surface_style_control_grid
+	SUBTYPE OF (founded_item);
+	style_of_control_grid : curve_or_render;
+END_ENTITY;
+
+
+ENTITY surface_style_fill_area
+	SUBTYPE OF (founded_item);
+	fill_area : fill_area_style;
+END_ENTITY;
+
+
+ENTITY surface_style_parameter_line
+	SUBTYPE OF (founded_item);
+	style_of_parameter_lines : curve_or_render;
+	direction_counts : SET [1:2] OF direction_count_select;
+WHERE
+	WR1 : (HIINDEX(SELF.direction_counts) = 1)
+                        XOR
+         (TYPEOF(SELF.direction_counts[1]) <>
+          TYPEOF(SELF.direction_counts[2]));
+END_ENTITY;
+
+
+ENTITY surface_style_reflectance_ambient;
+	ambient_reflectance : REAL;
+END_ENTITY;
+
+
+ENTITY surface_style_reflectance_ambient_diffuse
+	SUBTYPE OF (surface_style_reflectance_ambient);
+	diffuse_reflectance : REAL;
+END_ENTITY;
+
+
+ENTITY surface_style_reflectance_ambient_diffuse_specular
+	SUBTYPE OF (surface_style_reflectance_ambient_diffuse);
+	specular_reflectance : REAL;
+	specular_exponent : REAL;
+	specular_colour : colour;
+END_ENTITY;
+
+
+ENTITY surface_style_rendering;
+	rendering_method : shading_surface_method;
+	surface_colour : colour;
+END_ENTITY;
+
+
+ENTITY surface_style_rendering_with_properties
+	SUBTYPE OF (surface_style_rendering);
+	properties : SET [1:2] OF rendering_properties_select;
+WHERE
+	WR1 : (HIINDEX(SELF.properties) = 1)
+                   XOR
+         (TYPEOF(SELF.properties[1]) <> TYPEOF(SELF.properties[2]));
+END_ENTITY;
+
+
+ENTITY surface_style_segmentation_curve
+	SUBTYPE OF (founded_item);
+	style_of_segmentation_curve : curve_or_render;
+END_ENTITY;
+
+
+ENTITY surface_style_silhouette
+	SUBTYPE OF (founded_item);
+	style_of_silhouette : curve_or_render;
+END_ENTITY;
+
+
+ENTITY surface_style_transparent;
+	transparency : REAL;
+WHERE
+	WR1 : {0.0 <= transparency <= 1.0};
+END_ENTITY;
+
+
+ENTITY surface_style_usage
+	SUBTYPE OF (founded_item);
+	side : surface_side;
+	style : surface_side_style_select;
+END_ENTITY;
+
+
+ENTITY surface_texture_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : SIZEOF ( QUERY ( i <* SELF.items | SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MEASURE_REPRESENTATION_ITEM' ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'VALUE_RANGE' , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DESCRIPTIVE_REPRESENTATION_ITEM']* TYPEOF ( i ) ) <>1 ) )
+        =0;
+	WR2 : ( SIZEOF ( QUERY ( i <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF ( i ) ) ) =1 )
+        AND ( SIZEOF ( QUERY ( i <* SELF.items | (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'DESCRIPTIVE_REPRESENTATION_ITEM' IN
+        TYPEOF ( i ) ) AND ( i.name = 'measuring method' ) ) ) =1 );
+	WR3 : SIZEOF ( QUERY ( i <* SELF.items | SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MEASURE_REPRESENTATION_ITEM' ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'VALUE_RANGE']* TYPEOF ( i ) ) =1 ) )
+        >0;
+	WR4 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'REPRESENTATION_RELATIONSHIP.'+
+        'REP_1' ) ) <=1 ) AND ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'REPRESENTATION_RELATIONSHIP.'+
+        'REP_2' ) ) =0 ) AND ( SIZEOF ( QUERY ( rr <* USEDIN ( SELF
+        , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'REPRESENTATION_RELATIONSHIP.'+
+        'REP_1' ) | rr. rep_2.name = 'measuring direction' ) ) =
+        SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'REPRESENTATION_RELATIONSHIP.'+
+        'REP_1' ) ) );
+	WR5 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) ) =1 ) AND ( SIZEOF ( QUERY ( pdr
+        <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | SIZEOF ( QUERY ( gpa <* USEDIN (
+        pdr. definition ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'GENERAL_PROPERTY_ASSOCIATION.'+
+        'DERIVED_DEFINITION' ) | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'GENERAL_PROPERTY' IN TYPEOF ( gpa. base_definition ) ) AND
+        ( gpa. base_definition.name ='surface_condition' ) ) ) =1 )
+        ) =1 );
+END_ENTITY;
+
+
+ENTITY surfaced_open_shell
+	SUBTYPE OF (open_shell);
+WHERE
+	WR1 : SIZEOF(QUERY(q <* SELF\connected_face_set.cfs_faces |
+         NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF(q)))) = 0;
+END_ENTITY;
+
+
+ENTITY swept_area_solid
+	SUPERTYPE OF (ONEOF (revolved_area_solid, extruded_area_solid, surface_curve_swept_area_solid))
+	SUBTYPE OF (solid_model);
+	swept_area : curve_bounded_surface;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN TYPEOF(swept_area.basis_surface);
+END_ENTITY;
+
+
+ENTITY swept_disk_solid
+	SUBTYPE OF (solid_model);
+	directrix : curve;
+	radius : positive_length_measure;
+	inner_radius : OPTIONAL positive_length_measure;
+	start_param : REAL;
+	end_param : REAL;
+WHERE
+	WR1 : directrix.dim = 3;
+	WR2 : (NOT EXISTS(inner_radius)) OR (radius > inner_radius);
+END_ENTITY;
+
+
+ENTITY swept_face_solid
+	SUPERTYPE OF (ONEOF (extruded_face_solid, revolved_face_solid))
+	SUBTYPE OF (solid_model);
+	swept_face : face_surface;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN TYPEOF(swept_face.face_geometry);
+END_ENTITY;
+
+
+ENTITY swept_surface
+	SUPERTYPE OF (ONEOF (surface_of_linear_extrusion, surface_of_revolution))
+	SUBTYPE OF (surface);
+	swept_curve : curve;
+END_ENTITY;
+
+
+ENTITY symbol
+	SUBTYPE OF (representation_item);
+END_ENTITY;
+
+
+ENTITY symbol_colour;
+	colour_of_symbol : colour;
+END_ENTITY;
+
+
+ENTITY symbol_representation
+	SUBTYPE OF (representation);
+END_ENTITY;
+
+
+ENTITY symbol_representation_map
+	SUBTYPE OF (representation_map);
+	SELF\representation_map.mapped_representation : symbol_representation;
+	SELF\representation_map.mapping_origin : axis2_placement;
+END_ENTITY;
+
+
+ENTITY symbol_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	style_of_symbol : symbol_style_select;
+END_ENTITY;
+
+
+ENTITY symbol_target
+	SUBTYPE OF (geometric_representation_item);
+	placement : axis2_placement;
+	x_scale : positive_ratio_measure;
+	y_scale : positive_ratio_measure;
+END_ENTITY;
+
+
+ENTITY symmetric_shape_aspect
+	SUBTYPE OF (shape_aspect);
+INVERSE
+	basis_relationships: SET [1:?] OF shape_aspect_relationship FOR relating_shape_aspect;
+WHERE
+	WR1 : SIZEOF (QUERY (x<*SELF\symmetric_shape_aspect.basis_relationships |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CENTRE_OF_SYMMETRY' IN TYPEOF 
+       (x\shape_aspect_relationship.related_shape_aspect)))>=1;
+END_ENTITY;
+
+
+ENTITY symmetry_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 3;
+END_ENTITY;
+
+
+ENTITY table_representation_item
+	SUBTYPE OF (compound_representation_item);
+WHERE
+	WR1 : SIZEOF(QUERY(itet <* SELF\compound_representation_item.item_element |
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ROW_REPRESENTATION_ITEM' IN TYPEOF(itet))
+            )) = 0;
+END_ENTITY;
+
+
+ENTITY tactile_appearance_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : SIZEOF ( QUERY ( i <* SELF.items | SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MEASURE_REPRESENTATION_ITEM' ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'VALUE_RANGE']* TYPEOF ( i ) ) <>1 )) =0;
+	WR2 : SIZEOF ( QUERY ( i <* SELF.items | name ='depth' ) ) <=1;
+	WR3 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) ) =1 ) AND ( SIZEOF ( QUERY ( pdr
+        <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | SIZEOF ( QUERY ( gpa <* USEDIN (
+        pdr. definition ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'GENERAL_PROPERTY_ASSOCIATION.'+
+        'DERIVED_DEFINITION' ) | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'GENERAL_PROPERTY' IN TYPEOF ( gpa. base_definition ) ) AND
+        ( gpa. base_definition.name ='surface_condition' ) ) ) =1 )) =1 );
+END_ENTITY;
+
+
+ENTITY tagged_text_format
+	SUBTYPE OF (representation_context);
+END_ENTITY;
+
+
+ENTITY tagged_text_item
+	SUBTYPE OF (descriptive_representation_item);
+END_ENTITY;
+
+
+ENTITY tangent
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)= 1;
+END_ENTITY;
+
+
+ENTITY terminator_symbol
+	SUBTYPE OF (annotation_symbol_occurrence);
+	annotated_curve : annotation_curve_occurrence;
+END_ENTITY;
+
+
+ENTITY text_font;
+	id : identifier;
+	name : label;
+	description : text;
+INVERSE
+	glyphs: SET [1:?] OF character_glyph_font_usage FOR font;
+END_ENTITY;
+
+
+ENTITY text_font_family;
+	id : identifier;
+	name : label;
+	description : text;
+INVERSE
+	fonts: SET [1:?] OF text_font_in_family FOR family;
+END_ENTITY;
+
+
+ENTITY text_font_in_family;
+	font : text_font;
+	family : text_font_family;
+END_ENTITY;
+
+
+ENTITY text_literal
+	SUBTYPE OF (geometric_representation_item);
+	literal : presentable_text;
+	placement : axis2_placement;
+	alignment : text_alignment;
+	path : text_path;
+	font : font_select;
+END_ENTITY;
+
+
+ENTITY text_literal_with_associated_curves
+	SUBTYPE OF (text_literal);
+	associated_curves : SET [1:?] OF curve;
+END_ENTITY;
+
+
+ENTITY text_literal_with_blanking_box
+	SUBTYPE OF (text_literal);
+	blanking : planar_box;
+END_ENTITY;
+
+
+ENTITY text_literal_with_delineation
+	SUBTYPE OF (text_literal);
+	delineation : text_delineation;
+END_ENTITY;
+
+
+ENTITY text_literal_with_extent
+	SUBTYPE OF (text_literal);
+	extent : planar_extent;
+END_ENTITY;
+
+
+ENTITY text_string_representation
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF text_string_representation_item;
+WHERE
+	WR1 : SIZEOF (
+         QUERY (item <* SELF\representation.items |
+           NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_CHARACTER',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEFINED_CHARACTER_GLYPH',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'] *
+                 TYPEOF (item)) = 0)
+         )) >= 1;
+	WR2 : SIZEOF (
+         QUERY (a2p <* 
+           QUERY (item <* SELF\representation.items | 
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT' IN TYPEOF (item)) |
+           NOT ((SIZEOF (
+             QUERY (at <* 
+               QUERY (item <* SELF\representation.items | 
+                  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+                  'ANNOTATION_TEXT' IN TYPEOF (item)) | 
+               (at\mapped_item.mapping_target :=: a2p))) >= 1) OR
+           (SIZEOF (
+             QUERY (atc <* 
+               QUERY (item <* SELF\representation.items |
+                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+                 'ANNOTATION_TEXT_CHARACTER' IN TYPEOF (item)) | 
+               (atc\mapped_item.mapping_target :=: a2p))) >= 1)
+          ))) = 0;
+END_ENTITY;
+
+
+ENTITY text_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	character_appearance : character_style_select;
+END_ENTITY;
+
+
+ENTITY text_style_for_defined_font;
+	text_colour : colour;
+END_ENTITY;
+
+
+ENTITY text_style_with_box_characteristics
+	SUBTYPE OF (text_style);
+	characteristics : SET [1:4] OF box_characteristic_select;
+WHERE
+	WR1 : SIZEOF( QUERY( c1 <* SELF.characteristics |
+           SIZEOF( QUERY( c2 <* SELF.characteristics - c1 |
+           TYPEOF (c1) = TYPEOF (c2)
+           )) > 0
+           )) = 0;
+END_ENTITY;
+
+
+ENTITY text_style_with_mirror
+	SUBTYPE OF (text_style);
+	mirror_placement : axis2_placement;
+END_ENTITY;
+
+
+ENTITY text_style_with_spacing
+	SUBTYPE OF (text_style);
+	character_spacing : character_spacing_select;
+END_ENTITY;
+
+
+ENTITY thermal_resistance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.THERMAL_RESISTANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY thermal_resistance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = 
+        dimensional_exponents ( -1.0, -1.0, -3.0, 0.0, 1.0, 0.0, 0.0 );
+END_ENTITY;
+
+
+ENTITY thermodynamic_temperature_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.THERMODYNAMIC_TEMPERATURE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY thermodynamic_temperature_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 1.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY thickened_face_solid
+	SUBTYPE OF (solid_model);
+	base_element : generalized_surface_select;
+	offset1 : length_measure;
+	offset2 : length_measure;
+WHERE
+	WR1 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN TYPEOF(base_element)) AND
+    (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_SURFACE' IN TYPEOF(base_element))));
+	WR2 : offset1 <> offset2;
+END_ENTITY;
+
+
+ENTITY thickness_laminate_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) = 1;
+END_ENTITY;
+
+
+ENTITY thickness_laminate_table
+	SUBTYPE OF (zone_structural_makeup);
+END_ENTITY;
+
+
+ENTITY time_interval;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY time_interval_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_time_interval : time_interval;
+	role : time_interval_role;
+END_ENTITY;
+
+
+ENTITY time_interval_based_effectivity
+	SUBTYPE OF (effectivity);
+	effectivity_period : time_interval;
+END_ENTITY;
+
+
+ENTITY time_interval_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_time_interval : time_interval;
+	related_time_interval : time_interval;
+END_ENTITY;
+
+
+ENTITY time_interval_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY time_interval_with_bounds
+	SUBTYPE OF (time_interval);
+	primary_bound : OPTIONAL date_time_or_event_occurrence;
+	secondary_bound : OPTIONAL date_time_or_event_occurrence;
+	duration : OPTIONAL time_measure_with_unit;
+WHERE
+	WR1 : NOT (EXISTS(secondary_bound) AND EXISTS(duration));
+	WR2 : EXISTS(primary_bound) OR EXISTS(secondary_bound);
+END_ENTITY;
+
+
+ENTITY time_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TIME_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY time_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 1.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY tolerance_value;
+	lower_bound : measure_with_unit;
+	upper_bound : measure_with_unit;
+DERIVE
+	lbvc : REAL := lower_bound\measure_with_unit.value_component;
+	ubvc : REAL := upper_bound\measure_with_unit.value_component;
+WHERE
+	WR1 : ubvc > lbvc;
+	WR2 : upper_bound\measure_with_unit.unit_component =
+        lower_bound\measure_with_unit.unit_component;
+END_ENTITY;
+
+
+ENTITY tolerance_zone
+	SUBTYPE OF (shape_aspect);
+	defining_tolerance : SET [1:?] OF geometric_tolerance;
+	form : tolerance_zone_form;
+END_ENTITY;
+
+
+ENTITY tolerance_zone_definition
+	SUPERTYPE OF (ONEOF (projected_zone_definition, runout_zone_definition));
+	zone : tolerance_zone;
+	boundaries : SET [1:?] OF shape_aspect;
+END_ENTITY;
+
+
+ENTITY tolerance_zone_form;
+	name : label;
+END_ENTITY;
+
+
+ENTITY topological_representation_item
+	SUPERTYPE OF (ONEOF (vertex, edge, face_bound, face, vertex_shell, wire_shell, connected_edge_set, connected_face_set, (loop ANDOR path)))
+	SUBTYPE OF (representation_item);
+END_ENTITY;
+
+
+ENTITY toroidal_surface
+	SUBTYPE OF (elementary_surface);
+	major_radius : positive_length_measure;
+	minor_radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY torus
+	SUBTYPE OF (geometric_representation_item);
+	position : axis1_placement;
+	major_radius : positive_length_measure;
+	minor_radius : positive_length_measure;
+WHERE
+	WR1 : major_radius > minor_radius;
+END_ENTITY;
+
+
+ENTITY total_runout_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 2;
+END_ENTITY;
+
+
+ENTITY track_blended_solid
+	ABSTRACT SUPERTYPE OF (track_blended_solid_with_end_conditions)
+	SUBTYPE OF (edge_blended_solid);
+WHERE
+	WR1 : check_continuous_edges(SELF\edge_blended_solid.blended_edges);
+END_ENTITY;
+
+
+ENTITY track_blended_solid_with_end_conditions
+	SUBTYPE OF (track_blended_solid);
+	end_conditions : LIST [2:2] OF blend_end_condition_select;
+WHERE
+	WR1 : SIZEOF(TYPEOF(SELF) *
+    ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_CONSTANT_RADIUS_EDGE_BLEND',
+     'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_VARIABLE_RADIUS_EDGE_BLEND',
+     'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_CHAMFERED_EDGES']) = 1;
+	WR2 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX' IN TYPEOF(end_conditions[1]))
+       AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX' IN TYPEOF(end_conditions[2])));
+	WR3 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX' IN TYPEOF(end_conditions[1]))
+       AND (NOT ((end_conditions[1] 
+            :=: SELF\edge_blended_solid.blended_edges[1].edge_start)
+            XOR (end_conditions[1] 
+            :=: SELF\edge_blended_solid.blended_edges[1].edge_end))));
+	WR4 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX' IN TYPEOF(end_conditions[2]))
+       AND (NOT ((end_conditions[2] 
+            :=: SELF\edge_blended_solid.blended_edges[HIINDEX(
+                SELF\edge_blended_solid.blended_edges)].edge_start)
+            XOR (end_conditions[2] 
+            :=: SELF\edge_blended_solid.blended_edges[HIINDEX(
+                SELF\edge_blended_solid.blended_edges)].edge_end))));
+END_ENTITY;
+
+
+ENTITY transformation_with_derived_angle
+	SUPERTYPE OF (ONEOF (draped_defined_transformation, laid_defined_transformation))
+	SUBTYPE OF (item_defined_transformation);
+	SELF\item_defined_transformation.transform_item_1 : angle_direction_reference_with_a2p3d_select;
+	SELF\item_defined_transformation.transform_item_2 : axis2_placement_3d;
+DERIVE
+	orientation_angle : plane_angle_measure := derive_angle (
+        SELF\item_defined_transformation.transform_item_1,
+        SELF\item_defined_transformation.transform_item_2);
+WHERE
+	WR1 : (SELF\item_defined_transformation.transform_item_1\
+            axis2_placement_3d.p[3].direction_ratios[1] =
+            SELF\item_defined_transformation.transform_item_2\
+            axis2_placement_3d.p[3].direction_ratios[1])
+          AND
+           (SELF\item_defined_transformation.transform_item_1\
+            axis2_placement_3d.p[3].direction_ratios[2] =
+            SELF\item_defined_transformation.transform_item_2\
+            axis2_placement_3d.p[3].direction_ratios[2])
+          AND
+           (SELF\item_defined_transformation.transform_item_1\
+            axis2_placement_3d.p[3].direction_ratios[3] =
+            SELF\item_defined_transformation.transform_item_2\
+            axis2_placement_3d.p[3].direction_ratios[3]);
+END_ENTITY;
+
+
+ENTITY trimmed_curve
+	SUBTYPE OF (bounded_curve);
+	basis_curve : curve;
+	trim_1 : SET [1:2] OF trimming_select;
+	trim_2 : SET [1:2] OF trimming_select;
+	sense_agreement : BOOLEAN;
+	master_representation : trimming_preference;
+WHERE
+	WR1 : (HIINDEX(trim_1) = 1) OR (TYPEOF(trim_1[1]) <> TYPEOF(trim_1[2]));
+	WR2 : (HIINDEX(trim_2) = 1) OR (TYPEOF(trim_2[1]) <> TYPEOF(trim_2[2]));
+END_ENTITY;
+
+
+ENTITY two_direction_repeat_factor
+	SUBTYPE OF (one_direction_repeat_factor);
+	second_repeat_factor : vector;
+END_ENTITY;
+
+
+ENTITY type_qualifier;
+	name : label;
+END_ENTITY;
+
+
+ENTITY unary_generic_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (generic_expression);
+	operand : generic_expression;
+END_ENTITY;
+
+
+ENTITY unary_numeric_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (numeric_expression, unary_generic_expression);
+	SELF\unary_generic_expression.operand : numeric_expression;
+END_ENTITY;
+
+
+ENTITY uncertainty_assigned_representation
+	SUBTYPE OF (representation);
+	uncertainty : SET [1:?] OF uncertainty_measure_with_unit;
+END_ENTITY;
+
+
+ENTITY uncertainty_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+	name : label;
+	description : OPTIONAL text;
+WHERE
+	WR1 : valid_measure_value (SELF\measure_with_unit.value_component);
+END_ENTITY;
+
+
+ENTITY uncertainty_qualifier
+	SUPERTYPE OF (ONEOF (standard_uncertainty, qualitative_uncertainty));
+	measure_name : label;
+	description : text;
+END_ENTITY;
+
+
+ENTITY uniform_curve
+	SUBTYPE OF (b_spline_curve);
+END_ENTITY;
+
+
+ENTITY uniform_resource_identifier
+	SUBTYPE OF (descriptive_representation_item);
+END_ENTITY;
+
+
+ENTITY uniform_surface
+	SUBTYPE OF (b_spline_surface);
+END_ENTITY;
+
+
+ENTITY usage_association
+	SUBTYPE OF (action_method_relationship);
+	SELF\action_method_relationship.related_method : information_usage_right;
+	SELF\action_method_relationship.relating_method : information_usage_right;
+DERIVE
+	related : information_usage_right := SELF\action_method_relationship.related_method;
+	relating : information_usage_right := SELF\action_method_relationship.relating_method;
+END_ENTITY;
+
+
+ENTITY user_defined_curve_font
+	SUBTYPE OF (curve_style_font, mapped_item);
+END_ENTITY;
+
+
+ENTITY user_defined_marker
+	SUBTYPE OF (mapped_item, pre_defined_marker);
+END_ENTITY;
+
+
+ENTITY user_defined_terminator_symbol
+	SUBTYPE OF (mapped_item, pre_defined_symbol);
+END_ENTITY;
+
+
+ENTITY user_selected_elements
+	SUBTYPE OF (representation_item);
+	picked_items : SET [1:?] OF representation_item;
+END_ENTITY;
+
+
+ENTITY user_selected_shape_elements
+	SUBTYPE OF (user_selected_elements);
+WHERE
+	WR1 : SIZEOF(QUERY(q <* 
+    SELF\user_selected_elements.picked_items | NOT
+    ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION_ITEM'
+    IN TYPEOF(q)))) = 0;
+END_ENTITY;
+
+
+ENTITY value_range
+	SUBTYPE OF (compound_representation_item);
+WHERE
+	WR1 : ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'SET_REPRESENTATION_ITEM' IN TYPEOF ( item_element ) ) AND value_range_wr1 ( item_element );
+	WR2 : value_range_wr2 ( item_element );
+	WR3 : value_range_wr3 ( item_element );
+END_ENTITY;
+
+
+ENTITY value_representation_item
+	SUBTYPE OF (representation_item);
+	value_component : measure_value;
+WHERE
+	WR1 : SIZEOF (QUERY (rep <* using_representations (SELF) |
+        NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GLOBAL_UNIT_ASSIGNED_CONTEXT'
+        IN TYPEOF (rep.context_of_items)
+        ))) = 0;
+END_ENTITY;
+
+
+ENTITY variable_semantics
+	ABSTRACT SUPERTYPE;
+END_ENTITY;
+
+
+ENTITY variational_representation_item
+	ABSTRACT SUPERTYPE OF (auxiliary_geometric_representation_item)
+	SUBTYPE OF (representation_item);
+WHERE
+	WR1 : SIZEOF(QUERY(q <* using_representations(SELF) |
+    NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VARIATIONAL_REPRESENTATION'  
+    IN TYPEOF(q)))) = 0;
+	WR2 : SIZEOF(QUERY(q <* using_representations(SELF) |
+    NOT (SELF IN q.items))) = 0;
+END_ENTITY;
+
+
+ENTITY vector
+	SUBTYPE OF (geometric_representation_item);
+	orientation : direction;
+	magnitude : length_measure;
+WHERE
+	WR1 : magnitude >= 0.0;
+END_ENTITY;
+
+
+ENTITY vector_style
+	SUBTYPE OF (curve_style, pre_defined_terminator_symbol);
+END_ENTITY;
+
+
+ENTITY velocity_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VELOCITY_UNIT' IN TYPEOF (SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY velocity_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = 
+       dimensional_exponents ( 1.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0 );
+END_ENTITY;
+
+
+ENTITY versioned_action_request;
+	id : identifier;
+	version : label;
+	purpose : text;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY vertex
+	SUBTYPE OF (topological_representation_item);
+END_ENTITY;
+
+
+ENTITY vertex_loop
+	SUBTYPE OF (loop);
+	loop_vertex : vertex;
+END_ENTITY;
+
+
+ENTITY vertex_point
+	SUBTYPE OF (vertex, geometric_representation_item);
+	vertex_geometry : point;
+END_ENTITY;
+
+
+ENTITY vertex_shell
+	SUBTYPE OF (topological_representation_item);
+	vertex_shell_extent : vertex_loop;
+END_ENTITY;
+
+
+ENTITY view_volume
+	SUBTYPE OF (founded_item);
+	projection_type : central_or_parallel;
+	projection_point : cartesian_point;
+	view_plane_distance : length_measure;
+	front_plane_distance : length_measure;
+	front_plane_clipping : BOOLEAN;
+	back_plane_distance : length_measure;
+	back_plane_clipping : BOOLEAN;
+	view_volume_sides_clipping : BOOLEAN;
+	view_window : planar_box;
+END_ENTITY;
+
+
+ENTITY visual_appearance_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : ( {3<= SIZEOF ( SELF.items ) <=9} ) AND ( SIZEOF ( QUERY (
+        i <* items | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF ( i ) ) AND (
+        i.name IN [ 'colour id' , 'colour name' , 'lustre' , 'pattern' , 'transparency', 'orientation'] ) ) 
+        ) + SIZEOF ( QUERY ( i <* items | ( SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MEASURE_REPRESENTATION_ITEM' ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'VALUE_RANGE']* TYPEOF ( i ) ) =1 )							
+        AND ( i.name IN ['refraction index' , 'opacity'] ) ) 
+        ) + SIZEOF ( QUERY ( i <* items | ( 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'DOCUMENT_FILE' IN TYPEOF ( i ) ) 
+        AND ( i.name IN [ 'texture map' ] ) )	)
+        = SIZEOF ( SELF.items ) );
+	WR2 : SIZEOF ( QUERY ( i <* SELF.items | i.name = 'colour id' )) =1;
+	WR3 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='lustre' ) )=1;
+	WR4 : SIZEOF ( QUERY ( i <* SELF.items | i.name = 'colour name') ) <=1;
+	WR5 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='pattern' ) )<=1;
+	WR6 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='transparency') ) <=1;
+	WR7 : SIZEOF ( QUERY ( i <* SELF.items | i.name = 'texture map') ) <=1;
+	WR8 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='refraction index' ) )<=1;
+	WR9 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='opacity') ) <=1;
+	WR10 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='orientation') ) <=1;
+	WR11 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) ) =1 ) AND ( SIZEOF ( QUERY ( pdr
+        <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | SIZEOF ( QUERY ( gpa <* USEDIN (
+        pdr. definition ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'GENERAL_PROPERTY_ASSOCIATION.'+
+        'DERIVED_DEFINITION' ) | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'GENERAL_PROPERTY' IN TYPEOF ( gpa. base_definition ) ) AND
+        ( gpa. base_definition.name ='surface_condition' ) ) ) =1 )) =1 );
+END_ENTITY;
+
+
+ENTITY volume_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VOLUME_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY volume_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = 
+          dimensional_exponents ( 3.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 );
+END_ENTITY;
+
+
+ENTITY week_of_year_and_day_date
+	SUBTYPE OF (date);
+	week_component : week_in_year_number;
+	day_component : OPTIONAL day_in_week_number;
+END_ENTITY;
+
+
+ENTITY wire_shell
+	SUBTYPE OF (topological_representation_item);
+	wire_shell_extent : SET [1:?] OF loop;
+WHERE
+	WR1 : NOT mixed_loop_type_set(wire_shell_extent);
+END_ENTITY;
+
+
+ENTITY year_month
+	SUBTYPE OF (date);
+	month_component : month_in_year_number;
+END_ENTITY;
+
+
+ENTITY zone_structural_makeup
+	SUPERTYPE OF (ONEOF ((smeared_material_definition AND thickness_laminate_table), (smeared_material_definition AND percentage_laminate_table), thickness_laminate_table, percentage_laminate_table, smeared_material_definition))
+	SUBTYPE OF (laminate_table);
+END_ENTITY;
+
+
+RULE alternative_solution_requires_solution_definition FOR (product_definition_formation);
+    LOCAL
+      solution_versions: SET OF product_definition_formation := [];
+    END_LOCAL;
+    solution_versions :=  QUERY( pdf <* product_definition_formation |
+	  SIZEOF( QUERY( prpc <* USEDIN(pdf.of_product, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | 
+      prpc.name = 'alternative solution')) = 1);
+WHERE
+	WR1 : SIZEOF( QUERY( pdf <* solution_versions |
+        SIZEOF( QUERY( pd <* USEDIN(pdf, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_DEFINITION.FORMATION') | 
+        pd.frame_of_reference.name = 'alternative definition')) <> 1))= 0;
+END_RULE;
+
+RULE application_protocol_definition_required FOR (application_context);
+
+WHERE
+	WR1 : SIZEOF( QUERY( ac <* application_context | 
+              (SIZEOF (QUERY (apd <* USEDIN(ac,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.APPLICATION_PROTOCOL_DEFINITION.APPLICATION') | 
+                apd.application_interpreted_model_schema_name = 'ap203_configuration_controlled_3d_design_of_mechanical_parts_and_assemblies' 
+                )) > 0) 
+              )) > 0;
+END_RULE;
+
+RULE breakdown_element_requires_product_definition FOR (product_definition_formation);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdf <* product_definition_formation | 
+        ( SIZEOF ( QUERY ( prpc <* USEDIN ( pdf.of_product ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS' ) | 
+	    prpc.name =  'functionality' ) ) =  1 ) AND 
+	    ( SIZEOF ( QUERY ( pd <* USEDIN ( pdf ,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION.FORMATION') | 
+	    pd.frame_of_reference.name =  'functional definition' ) ) <1 ) ) ) =  0;
+	WR2 : SIZEOF ( QUERY ( pdf <* product_definition_formation | 
+        ( SIZEOF ( QUERY ( prpc <* USEDIN ( pdf.of_product , 
+	    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS' ) | 
+        prpc.name =  'conceptual design' ) ) =  1 ) AND 
+        ( SIZEOF (QUERY ( pd <* USEDIN ( pdf , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION.FORMATION' ) | 
+        pd.frame_of_reference.name =  'conceptual definition' ) ) <1) ) ) =  0;
+END_RULE;
+
+RULE compatible_dimension FOR (cartesian_point, direction, representation_context, geometric_representation_context);
+
+WHERE
+	WR1 : SIZEOF(QUERY(x <* cartesian_point| SIZEOF(QUERY
+       (y <* geometric_representation_context | item_in_context(x,y) AND
+       (HIINDEX(x.coordinates) <> y.coordinate_space_dimension))) > 0 )) =0;
+	WR2 : SIZEOF(QUERY(x <* direction | SIZEOF( QUERY
+       (y <* geometric_representation_context | item_in_context(x,y) AND
+       (HIINDEX(x.direction_ratios) <> y.coordinate_space_dimension)))
+       > 0 )) = 0;
+END_RULE;
+
+RULE component_class_for_assembly_select FOR (composite_assembly_sequence_definition, next_assembly_usage_occurrence, product_related_product_category);
+    LOCAL
+      i,j,k :  INTEGER :=0;
+      dkuhr :  LOGICAL :=TRUE;
+      nnauo :  INTEGER :=0;
+      nprpc :  INTEGER :=0;
+      rp    :  product;
+    END_LOCAL;
+    REPEAT i:= LOINDEX (composite_assembly_sequence_definition) TO
+               HIINDEX (composite_assembly_sequence_definition);
+      nnauo := 0;  
+      REPEAT j:= LOINDEX (next_assembly_usage_occurrence) TO
+                 HIINDEX (next_assembly_usage_occurrence);
+        IF (composite_assembly_sequence_definition[i] = 
+          next_assembly_usage_occurrence[j].relating_product_definition) THEN
+          rp := next_assembly_usage_occurrence[j].related_product_definition.
+                formation.of_product;
+          nprpc := 0;
+          REPEAT k:= LOINDEX (product_related_product_category) TO
+                     HIINDEX (product_related_product_category);
+            IF ((rp IN product_related_product_category[k].products) AND
+                (product_related_product_category[k].name IN ['ply',
+                 'ply laminate', 'filament laminate', 'processed core',
+                 'composite assembly'])) THEN
+                nprpc := nprpc + 1;
+            END_IF;
+          END_REPEAT;
+          IF (nprpc = 1) THEN
+            nnauo := nnauo + 1;
+          ELSE
+            dkuhr := FALSE;
+            ESCAPE;
+          END_IF;
+        END_IF;
+      END_REPEAT;
+      IF (dkuhr = FALSE) THEN
+        ESCAPE; 
+      END_IF;
+      IF(nnauo = 0) THEN
+        dkuhr := FALSE;
+        ESCAPE;
+      END_IF;
+    END_REPEAT;
+WHERE
+	WR1 : dkuhr;
+END_RULE;
+
+RULE consistent_uncertainty FOR (global_uncertainty_assigned_context, qualified_representation_item, uncertainty_assigned_representation);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( guac <* global_uncertainty_assigned_context | 
+    SIZEOF ( QUERY ( u1 <* guac.uncertainty | 
+	SIZEOF ( QUERY ( u2 <* guac.uncertainty | u2.name =  u1.name ) ) >1 ) ) >0 ) ) =  0;
+	WR2 : SIZEOF ( QUERY ( uar <* uncertainty_assigned_representation | 
+	SIZEOF ( QUERY ( u1<* uar.uncertainty | 
+	SIZEOF ( QUERY ( u2 <* uar.uncertainty | u2.name =  u1.name ) ) >1 ) ) >0 ) ) =  0;
+	WR3 : SIZEOF ( QUERY ( qri <* qualified_representation_item |
+     SIZEOF ( QUERY ( u1 <* qri.qualifiers |
+     ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.UNCERTAINTY_QUALIFIER' IN TYPEOF ( u1 ) ) AND 
+	( SIZEOF ( QUERY ( u2 <* qri.qualifiers |
+     ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.UNCERTAINTY_QUALIFIER' IN TYPEOF ( u2 ) ) AND 
+	( u2\uncertainty_qualifier.measure_name =  u1\uncertainty_qualifier.measure_name ) )
+     ) >1 ) ) ) >0 ) ) =  0;
+END_RULE;
+
+RULE constraint_definition_requires_constraint_category FOR (product_definition);
+    LOCAL
+      constraint_definitions: SET OF product_definition := [];
+    END_LOCAL;
+      constraint_definitions :=  QUERY( pd <* product_definition |
+      (pd.frame_of_reference.name = 'design constraint definition'));
+WHERE
+	WR1 : SIZEOF ( QUERY ( pd <* constraint_definitions | 
+	    ( SIZEOF ( QUERY ( prpc <* USEDIN ( pd.formation.of_product ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS' ) | 
+	    prpc. name ='requirement' ) ) =0 ) ) ) =0;
+END_RULE;
+
+RULE design_constraint_requires_product_definition FOR (product_definition_formation);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdf <* product_definition_formation | (
+        SIZEOF ( QUERY ( prpc <* USEDIN ( pdf.of_product ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS' ) | 
+	    prpc.name =  'requirement' ) ) >0 ) AND 
+        ( SIZEOF ( QUERY ( pd <* USEDIN ( pdf , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION.FORMATION') | 
+	    pd.frame_of_reference.name = 'design constraint definition' ) ) <1 ) ) ) =  0;
+END_RULE;
+
+RULE draughting_model_items_constraint FOR (draughting_model);
+
+WHERE
+	WR1 : SIZEOF(QUERY(dm <* draughting_model |
+        NOT(SIZEOF(QUERY(it1 <* dm\representation.items |
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_OCCURRENCE' IN TYPEOF(it1))
+        AND
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DRAUGHTING_ANNOTATION_OCCURRENCE' IN TYPEOF(it1)))
+          )) = 0)
+        )) = 0;
+	WR2 : SIZEOF(QUERY(dm <* draughting_model |
+        NOT(SIZEOF(QUERY(it1 <* dm\representation.items |
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT' IN TYPEOF(it1))
+        AND
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_ELEMENTS' IN TYPEOF(it1)))
+          )) = 0)
+        )) = 0;
+END_RULE;
+
+RULE external_version_assignments_are_valid FOR (applied_external_identification_assignment);
+
+WHERE
+	WR1 : SIZEOF(QUERY(aia <* applied_external_identification_assignment | 
+        NOT external_version_assignment_is_valid(aia)))=0;
+END_RULE;
+
+RULE material_for_coating_layer FOR (shape_aspect);
+    LOCAL
+      coating_layers: SET OF shape_aspect := [];
+    END_LOCAL;
+    coating_layers:= QUERY( r <* shape_aspect | 
+	  (r.name = 'coating layer') );
+WHERE
+	WR1 : SIZEOF( QUERY( r <* coating_layers |
+	    SIZEOF(USEDIN(r , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MATERIAL_DESIGNATION.DEFINITIONS'))<>1
+        )) = 0;
+END_RULE;
+
+RULE plib_property_reference_requires_name_scope FOR (externally_defined_general_property);
+    LOCAL
+      known_sourced_properties : SET OF externally_defined_general_property;
+    END_LOCAL;
+      known_sourced_properties := QUERY( edc <* externally_defined_general_property | 
+	    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'KNOWN_SOURCE' IN TYPEOF(edc.source) );
+WHERE
+	WR1 : SIZEOF ( QUERY ( edgp <* known_sourced_properties | 
+        ( SIZEOF ( QUERY ( edir <* USEDIN ( edgp, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EXTERNALLY_DEFINED_ITEM_RELATIONSHIP.RELATING_ITEM' )| 
+        ( edir.name =  'name scope' ) AND 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EXTERNALLY_DEFINED_CLASS' IN  TYPEOF ( edir.related_item ) ) AND 
+        ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'KNOWN_SOURCE' IN TYPEOF ( edir.related_item.source ) ) ) ) <>1 ) ) ) =  0;
+END_RULE;
+
+RULE plib_property_reference_requires_version FOR (externally_defined_general_property);
+	LOCAL
+	  plib_properties : SET OF externally_defined_general_property := [];
+	END_LOCAL;
+	  plib_properties := QUERY ( edgp <* externally_defined_general_property | 
+		( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'KNOWN_SOURCE' IN TYPEOF ( edgp.source ) ) AND
+		( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'KNOWN_SOURCE' + '.NAME' = 'ISO 13584 library' ) );
+WHERE
+	WR1 : SIZEOF( QUERY( edgp <* plib_properties | 
+		(SIZEOF( QUERY( edir <* USEDIN(edgp, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'APPLIED_EXTERNAL_IDENTIFICATION_ASSIGNMENT.ITEMS') | 
+		(edir.role.name = 'version') )) <> 1) )) = 0;
+END_RULE;
+
+RULE ply_reference FOR (ply_laminate_sequence_definition, next_assembly_usage_occurrence, product_related_product_category);
+    LOCAL
+      i,j,k :  INTEGER;
+      dkuhr :  LOGICAL := TRUE;
+      nnauo :  INTEGER;
+      nprpc :  INTEGER := 0;
+      rp    :  product;
+    END_LOCAL;
+    REPEAT i:= LOINDEX (ply_laminate_sequence_definition) TO
+               HIINDEX (ply_laminate_sequence_definition);
+      nnauo := 0;  
+      REPEAT j:= LOINDEX (next_assembly_usage_occurrence) TO 
+                 HIINDEX (next_assembly_usage_occurrence);
+        IF (ply_laminate_sequence_definition[i] = 
+          next_assembly_usage_occurrence[j].relating_product_definition) THEN
+          rp := next_assembly_usage_occurrence[j].related_product_definition.
+                formation.of_product;
+          nprpc := 0;
+          REPEAT k:= LOINDEX (product_related_product_category) TO
+                     HIINDEX (product_related_product_category);
+            IF ((product_related_product_category[k].name = 'ply') AND
+                (rp IN product_related_product_category[k].products)) THEN
+                nprpc := nprpc + 1;
+            END_IF;
+          END_REPEAT;
+          IF (nprpc = 1) THEN
+            nnauo := nnauo + 1;
+          ELSE
+            dkuhr := FALSE;
+            ESCAPE;
+          END_IF;
+        END_IF;
+      END_REPEAT;
+      IF (dkuhr = FALSE) THEN
+        ESCAPE; 
+      END_IF;
+      IF(nnauo = 0) THEN
+        dkuhr := FALSE;
+        ESCAPE;
+      END_IF;
+    END_REPEAT;
+WHERE
+	WR1 : dkuhr;
+END_RULE;
+
+RULE ply_stock_material_select FOR (product_related_product_category, make_from_usage_option);
+  LOCAL
+    i,j,k,kp :  INTEGER;
+    dkuhr    :  LOGICAL;
+    nmfuo    :  INTEGER;
+    nprpc    :  INTEGER := 0;
+    rp       :  product;
+  END_LOCAL;
+
+  dkuhr := TRUE;
+  REPEAT kp:= LOINDEX (product_related_product_category) TO
+              HIINDEX (product_related_product_category);
+ 
+    IF (product_related_product_category[kp].name = 'ply') THEN
+    REPEAT i:= LOINDEX (product_related_product_category[kp].products) TO
+               HIINDEX (product_related_product_category[kp].products);
+
+      nmfuo := 0;  
+      REPEAT j:= LOINDEX (make_from_usage_option) TO 
+                 HIINDEX (make_from_usage_option);
+
+          rp := make_from_usage_option[j].related_product_definition.
+                formation.of_product;
+
+        IF (product_related_product_category[kp].products[i] = rp) THEN
+
+          REPEAT k:= LOINDEX (product_related_product_category) TO
+                     HIINDEX (product_related_product_category);
+
+            IF ((rp IN product_related_product_category[k].products) AND
+                (product_related_product_category[k].name IN 
+                 ['isotropic material', 'filament assembly', 
+                  'discontinuous fiber assembly'])) THEN
+                nprpc := nprpc + 1;
+            END_IF;
+
+          END_REPEAT;
+
+          IF (nprpc = 1) THEN
+            nmfuo := nmfuo + 1;
+          ELSE
+            dkuhr := FALSE;
+            ESCAPE;
+          END_IF;
+
+        END_IF;
+
+      END_REPEAT;
+
+      IF (dkuhr = FALSE) THEN
+        ESCAPE; 
+      END_IF;
+      IF(nmfuo <> 1) THEN
+        dkuhr := FALSE;
+        ESCAPE;
+      END_IF;
+
+    END_REPEAT;
+    END_IF;
+
+  END_REPEAT;
+WHERE
+	WR1 : dkuhr;
+END_RULE;
+
+RULE product_concept_feature_requires_category FOR (product_concept_feature);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pcf <* product_concept_feature |
+(SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'INCLUSION_PRODUCT_CONCEPT_FEATURE',
+'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONDITIONAL_CONCEPT_FEATURE'] * TYPEOF(pcf)) = 0) AND 
+(SIZEOF ( QUERY ( aga <* USEDIN ( pcf , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'APPLIED_GROUP_ASSIGNMENT.' + 'ITEMS' ) | 
+( aga.role.name = 'specification category member' ) AND 
+('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_CONCEPT_FEATURE_CATEGORY' IN TYPEOF ( aga.assigned_group )))) <>1 ) ) ) = 0;
+END_RULE;
+
+RULE product_definition_replacement_requires_effectivity_assignment FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF( QUERY( pdr <* product_definition_relationship | 
+        (pdr.name = 'definition replacement') AND 
+        (SIZEOF( USEDIN(pdr,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.APPLIED_EFFECTIVITY_ASSIGNMENT.ITEMS') ) = 0) ))
+        = 0;
+END_RULE;
+
+RULE restrict_alternative_definition FOR (product_definition);
+    LOCAL
+      solution_definitions: SET OF product_definition := [];
+    END_LOCAL;
+      solution_definitions :=  QUERY( pd <* product_definition |
+	 (pd.frame_of_reference.name = 'alternative definition'));
+WHERE
+	WR1 : SIZEOF ( QUERY ( pd <* solution_definitions | 
+	    ( SIZEOF ( QUERY ( pdr <* USEDIN ( pd ,
+	    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_DEFINITION_RELATIONSHIP.RELATED_PRODUCT_DEFINITION' ) | 
+	    pdr.name = 'solution alternative definition' ) ) <>1 ) ) ) = 0;
+	WR2 : SIZEOF ( QUERY ( pd <* solution_definitions | 
+	    NOT ( pd.name IN ['technical' , 'supplier' , 'technical supplier' , ''] ) ) ) = 0;
+	WR3 : SIZEOF ( QUERY ( pd <* solution_definitions | 
+	    ( pd.name IN ['supplier' , 'technical supplier'] ) AND (
+	    SIZEOF ( QUERY ( aoa <* USEDIN ( pd.formation ,
+	    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.APPLIED_ORGANIZATION_ASSIGNMENT.ITEMS' ) | 
+	    aoa.role.name = 'supplier' )) <>1 ) )) = 0;
+END_RULE;
+
+RULE restrict_assembly_category FOR (product_definition);
+    LOCAL
+      assembly_definitions: SET OF product_definition := [];
+    END_LOCAL;
+      assembly_definitions :=  QUERY( pd <* product_definition | 
+        SIZEOF( QUERY( pdca <* USEDIN( pd, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_CONTEXT_ASSOCIATION.DEFINITION') |
+        pdca.frame_of_reference.name= 'assembly definition')) > 0 );
+WHERE
+	WR1 : SIZEOF( QUERY( pd <* assembly_definitions | 
+          NOT ('assembly' IN categories_of_product(pd.formation.of_product)) ))= 0;
+END_RULE;
+
+RULE restrict_centre_of_mass_representation FOR (representation);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( r <* representation | 
+	( r.name ='centre of mass' ) AND 
+	( ( SIZEOF ( r.items ) <>1 ) OR 
+	(SIZEOF ( QUERY ( i <* r.items | 
+	( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'POINT' IN TYPEOF ( i ) ) AND 
+	( i.name = 'centre point' ) )) <>1 ) ) ) ) 
+	=0;
+END_RULE;
+
+RULE restrict_classification_assignments FOR (applied_classification_assignment);
+
+WHERE
+	WR1 : SIZEOF(QUERY(aia <* applied_classification_assignment | 
+		NOT class_assignment_is_valid(aia)))=0;
+END_RULE;
+
+RULE restrict_collection_category FOR (product_definition);
+    LOCAL
+      collection_definitions: SET OF product_definition := [];
+    END_LOCAL;
+      collection_definitions :=  QUERY( pd <* product_definition | 
+        SIZEOF( QUERY( pdca <* USEDIN( pd, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_DEFINITION_CONTEXT_ASSOCIATION.DEFINITION') |
+        pdca.frame_of_reference.name= 'collection definition')) > 0 );
+WHERE
+	WR1 : SIZEOF( QUERY( pd <* collection_definitions | 
+	    NOT ('collection' IN categories_of_product(pd.formation.of_product)) ))= 0;
+END_RULE;
+
+RULE restrict_concept_feature_operator FOR (concept_feature_operator);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( cfo <* concept_feature_operator | NOT
+		( cfo.name IN ['and' , 'or' , 'oneof' , 'not' , 'implication'] ) ) ) = 0;
+	WR2 : SIZEOF ( QUERY ( cfo <* concept_feature_operator | (cfo.name = 'implication' ) AND
+	 ( SIZEOF ( QUERY (cfrwc <* USEDIN ( cfo , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP_WITH_CONDITION.' +
+	'CONDITIONAL_OPERATOR' ) | 
+		SIZEOF ( QUERY ( ccf <* USEDIN( cfrwc , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONDITIONAL_CONCEPT_FEATURE.CONDITION' ) | 
+		NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'INCLUSION_PRODUCT_CONCEPT_FEATURE' IN TYPEOF ( ccf )))) >0 )) >0 ))) = 0;
+	WR3 : SIZEOF( QUERY (cfo <* concept_feature_operator | (cfo.name = 'not')
+	AND (SIZEOF(QUERY(cfrwc <* USEDIN(cfo, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP_WITH_CONDITION.CONDITIONAL_OPERATOR') | 
+		cfrwc.related_product_concept_feature :<>: cfrwc.relating_product_concept_feature)) >0 ))) = 0;
+END_RULE;
+
+RULE restrict_configuration_design_for_class_breakdown_association FOR (configuration_design);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( cd <* configuration_design | 
+	    ( cd.name ='functionality' ) AND 
+        ( NOT ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF ( cd. design ) ) OR 
+        ( cd.design\product_definition.frame_of_reference.name<> 'functional definition' ) ) 
+        ) ) =0;
+	WR2 : SIZEOF ( QUERY ( cd <* configuration_design | 
+        ( cd.name='realization' ) AND 
+        ( NOT ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF ( cd.design ) ) OR 
+        ( cd.design\product_definition.frame_of_reference.name<> 'conceptual definition' ) ) 
+        ) ) =0;
+	WR3 : SIZEOF ( QUERY ( cd <* configuration_design | 
+        ( cd.name IN ['functionality' , 'realization'] ) AND 
+        ( NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_CLASS' IN TYPEOF ( cd.configuration.item_concept ) ) ) 
+        ) ) =0;
+END_RULE;
+
+RULE restrict_configuration_design_for_design_constraint FOR (configuration_design);
+
+WHERE
+	WR1 : SIZEOF ( QUERY (cd <* configuration_design | 
+	    (cd.name = 'design constraint usage') AND 
+        (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF ( cd.design ) ) OR 
+        (cd.design\product_definition.frame_of_reference.name <> 'design constraint definition')))) = 0;
+END_RULE;
+
+RULE restrict_group_relationship_for_classification_hierarchy FOR (group_relationship);
+
+WHERE
+	WR1 : SIZEOF( QUERY( gr <* group_relationship | 
+  (gr\group_relationship.name = 'class hierarchy') AND 
+  (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CLASS' IN TYPEOF(gr\group_relationship.related_group)) OR 
+  NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CLASS' IN TYPEOF(gr\group_relationship.relating_group))) )) = 0;
+END_RULE;
+
+RULE restrict_group_relationship_for_specification_category FOR (group_relationship);
+
+WHERE
+	WR1 : SIZEOF( QUERY( gr <* group_relationship | 
+  (gr.name = 'specification category hierarchy') AND 
+  (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_CONCEPT_FEATURE_CATEGORY' IN TYPEOF(gr.related_group)) 
+  OR NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_CONCEPT_FEATURE_CATEGORY' IN TYPEOF(gr.relating_group))) )) = 0;
+END_RULE;
+
+RULE restrict_language_assignment_per_attribute FOR (attribute_language_assignment);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( ala1 <* attribute_language_assignment |
+	SIZEOF(QUERY( it <* ala1.items |
+	   SIZEOF ( QUERY ( ala2 <* USEDIN ( it ,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ATTRIBUTE_LANGUAGE_ASSIGNMENT.ITEMS' ) | 
+		( ala1\attribute_classification_assignment.attribute_name = ala2\attribute_classification_assignment.attribute_name ) AND 
+		( ala1\attribute_classification_assignment.assigned_class :=: ala2\attribute_classification_assignment.assigned_class )
+		 )) >1 
+	   )) >0 
+	)) =0;
+END_RULE;
+
+RULE restrict_part_occurrence FOR (product_definition);
+    LOCAL
+      part_occurrences: SET OF product_definition := QUERY(pd <* product_definition | 
+	    ( pd.frame_of_reference.name = 'part occurrence' ));
+    END_LOCAL;
+WHERE
+	WR1 : SIZEOF ( QUERY ( pd <* part_occurrences | 
+	    ( NOT( pd.name IN 
+        ['single instance' , 'selected instance' ,'quantified instance' , 'specified instance' ] ) ) ) ) = 0;
+	WR2 : SIZEOF ( QUERY ( pd <* part_occurrences | 
+ 	    (SIZEOF ( QUERY ( pdr <* USEDIN ( pd ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_DEFINITION_RELATIONSHIP.RELATED_PRODUCT_DEFINITION' ) | 
+	    pdr.name = 'definition usage' ) ) <>1 ) AND 
+        ( SIZEOF ( QUERY ( cd <* USEDIN ( pd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONFIGURATION_DESIGN.DESIGN' ) | 
+        ( cd.name = 'occurrence usage definition' ) AND 
+        ( NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_IDENTIFICATION' IN TYPEOF( cd.configuration ) ) ) ) ) <>1 ) ) ) = 0;
+	WR3 : SIZEOF ( QUERY ( pd <* part_occurrences |  
+        (SIZEOF ( QUERY ( cd <* USEDIN ( pd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'PRODUCT_DEFINITION_RELATIONSHIP.RELATED_PRODUCT_DEFINITION' ) |
+        ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'PRODUCT_DEFINITION_USAGE' IN TYPEOF ( cd ) ) ) ) = 0 )AND
+        ( SIZEOF ( USEDIN ( pd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_DEFINITION_OCCURRENCE_RELATIONSHIP.OCCURRENCE' ) ) = 0 ) ) ) = 0;
+	WR4 : SIZEOF ( QUERY ( pd <* part_occurrences | 
+        ( pd.name = 'selected instance' ) AND 
+        NOT valid_selected_instance_representation(pd) ))=0;
+	WR5 : SIZEOF ( QUERY ( pd <* part_occurrences | 
+        ( pd.name = 'quantified instance' ) AND 
+        ( SIZEOF ( QUERY (ppd <* USEDIN ( pd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'PROPERTY_DEFINITION.DEFINITION' ) |
+        ( ppd.name ='occurrence quantity' ) AND 
+        ( SIZEOF ( QUERY ( pdr <*USEDIN ( ppd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'PROPERTY_DEFINITION_REPRESENTATION.DEFINITION' ) | (
+        pdr.used_representation.name = 'quantity' ) AND 
+        (SIZEOF ( pdr.used_representation.items ) = 1 ) AND 
+        (SIZEOF ( QUERY ( i <* pdr.used_representation.items | 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'MEASURE_REPRESENTATION_ITEM' IN TYPEOF ( i ) ) AND
+        ( i.name = 'quantity measure' ) ) ) = 1)))= 1 )))= 0 )))= 0;
+	WR6 : SIZEOF ( QUERY ( pd <* part_occurrences | 
+        ( pd.name = 'specified instance' ) AND 
+        ( SIZEOF ( QUERY (
+        pdor <* USEDIN ( pd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'PRODUCT_DEFINITION_OCCURRENCE_RELATIONSHIP.OCCURRENCE' ) | 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'SPECIFIED_HIGHER_USAGE_OCCURRENCE' IN TYPEOF ( pdor.occurrence_usage ) ) ) = 0 ) ) ) = 0;
+END_RULE;
+
+RULE restrict_part_occurrence_category FOR (product_definition);
+    LOCAL
+      part_occurrences: SET OF product_definition := QUERY( pd <* product_definition |(
+        pd.frame_of_reference.name = 'part occurrence'));
+    END_LOCAL;
+WHERE
+	WR1 : SIZEOF( QUERY( pd <* part_occurrences | 
+        (SIZEOF( QUERY( prpc <* USEDIN(pd.formation.of_product, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | 
+        prpc.name IN ['part','raw material','tool'] )) = 0 ) )) = 0;
+END_RULE;
+
+RULE restrict_product_definitions_for_base_element FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdr <* product_definition_relationship |
+       ( pdr. name = 'solution alternative definition' ) AND 
+       ( NOT( pdr. relating_product_definition.frame_of_reference.name
+        IN [ 'alternative definition' , 'functional definition' , 'conceptual definition' ] ) OR 
+       ( pdr.related_product_definition.frame_of_reference.name<>'alternative definition' ) ) ) ) =0;
+END_RULE;
+
+RULE restrict_product_definitions_for_collection FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdr <* product_definition_relationship |
+       ( pdr. name = 'collection membership' ) AND 
+       ( ( pdr.relating_product_definition.frame_of_reference.name<>'part definition' ) OR 
+       ( pdr.related_product_definition.frame_of_reference.name<>'part occurrence' ) OR 
+       ( SIZEOF ( QUERY ( pdca <* USEDIN (pdr.relating_product_definition ,
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_DEFINITION_CONTEXT_ASSOCIATION.DEFINITION') | 
+       ( pdca.role.name = 'part definition type' ) AND 
+       ( pdca.frame_of_reference.name = 'collection definition' ) )) =0 ) ) ) ) =0;
+END_RULE;
+
+RULE restrict_product_definitions_for_definition_usage FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdr <* product_definition_relationship |
+        ( pdr.name = 'definition usage' ) AND 
+        ( ( pdr.relating_product_definition.frame_of_reference.name<> 'part definition' ) OR 
+        ( pdr.related_product_definition.frame_of_reference.name<>'part occurrence' )))) =0;
+END_RULE;
+
+RULE restrict_product_definitions_for_design_constraint_association FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdr <* product_definition_relationship |
+        ( pdr. name = 'design constraint association' ) AND 
+	    ( (pdr. relating_product_definition.frame_of_reference.name<>'design constraint definition' ) OR 
+	    NOT ( pdr.related_product_definition.frame_of_reference.name IN 
+	    ['alternative definition' , 'functional definition' ,'conceptual definition' ] ) ) ) ) =0;
+END_RULE;
+
+RULE restrict_product_definitions_for_part_definition_relationship FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdr <* product_definition_relationship |
+        ( pdr.name IN [ 'geometrical relationship' , 'definition replacement' ] ) AND 
+	    ( ( pdr.relating_product_definition.frame_of_reference.name <>'part definition' ) OR 
+        ( pdr.related_product_definition.frame_of_reference.name <>'part definition' ) ) ) ) =0;
+END_RULE;
+
+RULE restrict_representation_for_surface_condition FOR (property_definition_representation);
+
+WHERE
+	WR1 : SIZEOF(QUERY(pdr <* property_definition_representation | 
+        NOT surface_condition_correlation(pdr.definition, pdr.used_representation) ))=0;
+END_RULE;
+
+RULE restrict_treatment_result FOR (representation);
+    LOCAL
+      treatment_results: SET OF representation := [];
+    END_LOCAL;
+    treatment_results:= QUERY( r <* representation | 
+	  (r.name = 'treatment result') );
+WHERE
+	WR1 : (SIZEOF( QUERY( r <* treatment_results | (SIZEOF(r.items) > 2) )) = 0) AND
+        (SIZEOF( QUERY( r <* treatment_results |
+        (SIZEOF( QUERY( i <* r.items | 
+         NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF(i)) )) > 0) )) = 0);
+	WR2 : SIZEOF( QUERY( r <* treatment_results | 
+        (SIZEOF( QUERY( i <* r.items | i.name = 'result' )) = 0) )) = 0;
+	WR3 : SIZEOF( QUERY( r <* treatment_results | 
+        (SIZEOF( QUERY( i <* r.items | i.name = 'purpose' )) > 1) )) = 0;
+END_RULE;
+
+RULE selected_instance_usage_requires_representation FOR (assembly_component_usage);
+    LOCAL
+      selected_instance_usages: SET OF assembly_component_usage := QUERY( acr <* assembly_component_usage|
+        (acr.name = 'selected instance usage'));
+    END_LOCAL;
+WHERE
+	WR1 : SIZEOF ( QUERY ( acr <* selected_instance_usages | 
+        NOT valid_selected_instance_representation(acr) ))=0;
+END_RULE;
+
+RULE solution_definition_requires_solution_category FOR (product_definition);
+    LOCAL
+      solution_definitions: SET OF product_definition := [];
+    END_LOCAL;
+      solution_definitions :=  QUERY( pd <* product_definition |
+        (pd.frame_of_reference.name = 'alternative definition'));
+WHERE
+	WR1 : SIZEOF( QUERY( pd <* solution_definitions | 
+        (SIZEOF( QUERY( prpc <* USEDIN(pd.formation.of_product, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | 
+	     prpc.name = 'alternative solution')) = 0 ) )) = 0;
+END_RULE;
+
+RULE stock_material_reference FOR (percentage_ply_definition, make_from_usage_option, product_related_product_category);
+    LOCAL
+      i,j,k :  INTEGER;
+      dkuhr :  LOGICAL;
+      nmfuo :  INTEGER;
+      nprpc :  INTEGER;
+      rp     :  product;
+    END_LOCAL;
+    dkuhr := TRUE;
+    REPEAT i:= LOINDEX (percentage_ply_definition) TO
+               HIINDEX (percentage_ply_definition);
+      nmfuo := 0;  
+      REPEAT j:= LOINDEX (make_from_usage_option) TO 
+                 HIINDEX (make_from_usage_option);
+        IF (percentage_ply_definition[i] = 
+          make_from_usage_option[j].relating_product_definition) THEN
+          rp := make_from_usage_option[j].related_product_definition.
+                formation.of_product;
+          nprpc := 0;
+          REPEAT k:= LOINDEX (product_related_product_category) TO
+                     HIINDEX (product_related_product_category);
+            IF ((rp IN product_related_product_category[k].products) AND
+                (product_related_product_category[k].name IN 
+                ['anisotropic material', 'isotropic material', 'stock core',
+                 'filament assembly', 'discontinuous fiber assembly'])) THEN
+                nprpc := nprpc + 1;
+            END_IF;
+          END_REPEAT;
+          IF (nprpc = 1) THEN
+            nmfuo := nmfuo + 1;
+          ELSE
+            dkuhr := FALSE;
+            ESCAPE;
+          END_IF;
+        END_IF;
+      END_REPEAT;
+      IF (dkuhr = FALSE) THEN
+        ESCAPE; 
+      END_IF;
+      IF(nmfuo = 0) THEN
+        dkuhr := FALSE;
+        ESCAPE;
+      END_IF;
+    END_REPEAT;
+WHERE
+	WR1 : dkuhr;
+END_RULE;
+
+RULE styled_curve FOR (styled_item);
+
+WHERE
+	WR1 : SIZEOF( QUERY( si <* styled_item | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF (si.item)) AND (SIZEOF (QUERY (psa <* si.styles | (SIZEOF (QUERY (cs <* psa.styles | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE' IN TYPEOF (cs)) )) > 0) )) <> 1) )) = 0;
+END_RULE;
+
+RULE subtype_exclusiveness_geometric_tolerance FOR (geometric_tolerance);
+
+WHERE
+	WR1 : SIZEOF(QUERY (gt <* geometric_tolerance | NOT (type_check_function(gt, ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANGULARITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCULAR_RUNOUT_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COAXIALITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONCENTRICITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CYLINDRICITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FLATNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE_PROFILE_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PARALLELISM_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PERPENDICULARITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITION_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ROUNDNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRAIGHTNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_PROFILE_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMMETRY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TOTAL_RUNOUT_TOLERANCE'] , 3)))) = 0;
+END_RULE;
+
+RULE subtype_exclusiveness_representation_item FOR (representation_item);
+
+WHERE
+	WR1 : SIZEOF(QUERY (cri <* representation_item | 
+      NOT (type_check_function(cri,['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM',
+                                    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_REPRESENTATION_ITEM',
+                                    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOUND_REPRESENTATION_ITEM'] , 3)))) = 0;
+END_RULE;
+
+RULE subtype_mandatory_geometric_tolerance FOR (geometric_tolerance);
+
+WHERE
+	WR1 : SIZEOF(QUERY (gt <* geometric_tolerance | NOT (type_check_function(gt, ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANGULARITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCULAR_RUNOUT_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COAXIALITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONCENTRICITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CYLINDRICITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FLATNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE_PROFILE_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PARALLELISM_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PERPENDICULARITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITION_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ROUNDNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRAIGHTNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_PROFILE_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMMETRY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TOTAL_RUNOUT_TOLERANCE'] , 0)))) = 0;
+END_RULE;
+
+RULE text_font_usage FOR (externally_defined_text_font, pre_defined_text_font);
+
+WHERE
+	WR1 : SIZEOF (QUERY (pdtf <* pre_defined_text_font | SIZEOF (USEDIN (pdtf, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL.FONT')) = 0 )) = 0;
+	WR2 : SIZEOF (QUERY (edtf <* externally_defined_text_font | SIZEOF (USEDIN (edtf, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL.FONT')) = 0 )) = 0;
+END_RULE;
+
+RULE thickness_laminate_table_component_select FOR (thickness_laminate_definition, next_assembly_usage_occurrence, product_related_product_category);
+    LOCAL
+      i,j,k :  INTEGER;
+      dkuhr :  LOGICAL;
+      nnauo :  INTEGER;
+      nprpc :  INTEGER;
+      rp    :  product;
+    END_LOCAL;
+    dkuhr := TRUE;
+    REPEAT i:= LOINDEX (thickness_laminate_definition) TO
+               HIINDEX (thickness_laminate_definition);
+      nnauo := 0;  
+      REPEAT j:= LOINDEX (next_assembly_usage_occurrence) TO 
+                 HIINDEX (next_assembly_usage_occurrence);
+        IF (thickness_laminate_definition[i] = 
+          next_assembly_usage_occurrence[j].relating_product_definition) THEN
+          rp := next_assembly_usage_occurrence[j].related_product_definition.
+                formation.of_product;
+          nprpc := 0;
+          REPEAT k:= LOINDEX (product_related_product_category) TO
+                     HIINDEX (product_related_product_category);
+            IF ((rp IN product_related_product_category[k].products) AND
+                (product_related_product_category[k].name IN 
+                 ['ply', 'filament laminate', 'processed core'])) THEN
+                nprpc := nprpc + 1;
+            END_IF;
+          END_REPEAT;
+          IF (nprpc = 1) THEN
+            nnauo := nnauo + 1;
+          ELSE
+            dkuhr := FALSE;
+            ESCAPE;
+          END_IF;
+        END_IF;
+      END_REPEAT;
+      IF (dkuhr = FALSE) THEN
+        ESCAPE;
+      END_IF;
+      IF (nnauo <> 1) THEN
+        dkuhr := FALSE;
+        ESCAPE;
+      END_IF;
+    END_REPEAT;
+WHERE
+	WR1 : dkuhr;
+END_RULE;
+
+RULE validate_dependently_instantiable_entity_data_types FOR (action_method_role, annotation_text, attribute_value_role, auxiliary_geometric_representation_item, binary_numeric_expression, boolean_expression, bounded_curve, bounded_surface, cartesian_transformation_operator, comparison_expression, concept_feature_relationship, concept_feature_relationship_with_condition, connected_edge_set, document_usage_constraint, edge_blended_solid, effectivity_context_role, event_occurrence_role, explicit_procedural_representation_item_relationship, expression, founded_item, generic_expression, generic_variable, indirectly_selected_elements, interval_expression, literal_number, local_time, loop, modified_solid_with_placed_configuration, multiple_arity_boolean_expression, multiple_arity_generic_expression, multiple_arity_numeric_expression, numeric_expression, one_direction_repeat_factor, oriented_open_shell, oriented_path, positioned_sketch, procedural_representation, procedural_representation_sequence, product_definition_context_role, product_definition_effectivity, runout_zone_orientation, simple_boolean_expression, simple_generic_expression, simple_numeric_expression, solid_with_depression, solid_with_hole, solid_with_pocket, solid_with_protrusion, solid_with_shape_element_pattern, solid_with_slot, swept_area_solid, symbol_target, tolerance_zone_form, two_direction_repeat_factor, unary_generic_expression, unary_numeric_expression, user_selected_elements, variational_representation_item, view_volume);
+LOCAL
+  number_of_input_instances : INTEGER;
+  previous_in_chain : LIST OF GENERIC := [];
+  set_of_input_types : SET OF STRING := [];
+  all_instances : SET OF GENERIC := [];
+END_LOCAL;
+
+  all_instances := all_instances + action_method_role + annotation_text + attribute_value_role + auxiliary_geometric_representation_item + binary_numeric_expression + boolean_expression + bounded_curve + bounded_surface + cartesian_transformation_operator + comparison_expression + concept_feature_relationship + concept_feature_relationship_with_condition + connected_edge_set + document_usage_constraint + edge_blended_solid + effectivity_context_role + event_occurrence_role + explicit_procedural_representation_item_relationship + expression + founded_item + generic_expression + generic_variable + indirectly_selected_elements + interval_expression + literal_number + local_time + loop + modified_solid_with_placed_configuration + multiple_arity_boolean_expression + multiple_arity_generic_expression + multiple_arity_numeric_expression + numeric_expression + one_direction_repeat_factor + oriented_open_shell + oriented_path + positioned_sketch + procedural_representation + procedural_representation_sequence + product_definition_context_role + product_definition_effectivity + runout_zone_orientation + simple_boolean_expression + simple_generic_expression + simple_numeric_expression + solid_with_depression + solid_with_hole + solid_with_pocket + solid_with_protrusion + solid_with_shape_element_pattern + solid_with_slot + swept_area_solid + symbol_target + tolerance_zone_form + two_direction_repeat_factor + unary_generic_expression + unary_numeric_expression + user_selected_elements + variational_representation_item + view_volume;--<make a union of all implicit populations of the FOR-clause>
+number_of_input_instances := SIZEOF(all_instances);
+(* Collect all type strings of all FOR instances into one set. *)
+REPEAT i:=1 TO number_of_input_instances;
+  set_of_input_types := set_of_input_types + TYPEOF(all_instances[i]);
+END_REPEAT;
+WHERE
+	WR1 : dependently_instantiated(all_instances, set_of_input_types,
+                                previous_in_chain);
+END_RULE;
+
+FUNCTION acyclic
+	(arg1: generic_expression; arg2: SET [0:?] OF generic_expression) : BOOLEAN;
+LOCAL
+	result: BOOLEAN := TRUE;
+END_LOCAL;
+
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIMPLE_GENERIC_EXPRESSION'
+	IN TYPEOF (arg1)) 
+THEN
+	RETURN (TRUE);
+END_IF;
+
+IF arg1 IN arg2 
+THEN 
+	RETURN (FALSE);
+END_IF;
+
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.UNARY_GENERIC_EXPRESSION' 
+	IN TYPEOF (arg1) 
+THEN 
+	RETURN 
+	(acyclic(arg1\unary_generic_expression.operand,arg2+[arg1]));
+END_IF;
+
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BINARY_GENERIC_EXPRESSION' 
+	IN TYPEOF (arg1) 
+THEN 
+	RETURN 
+	(acyclic(arg1\binary_generic_expression.operands[1],arg2+[arg1])
+	AND
+	acyclic(arg1\binary_generic_expression.operands[2],arg2+[arg1]));
+END_IF;
+
+IF 
+'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MULTIPLE_ARITY_GENERIC_EXPRESSION' 
+	IN TYPEOF (arg1) 
+THEN 
+	result := TRUE;
+	REPEAT i := 1 TO 
+			SIZEOF (arg1\multiple_arity_generic_expression.operands);
+		result := result AND
+		acyclic(arg1\multiple_arity_generic_expression.operands[i], arg2+[arg1]);
+	END_REPEAT;
+
+	RETURN (result);
+END_IF;
+	RETURN (result);
+END_FUNCTION;
+
+FUNCTION acyclic_composite_text
+	(start_composite: composite_text; child_text: SET [1:?] OF text_or_character) : LOGICAL;
+    LOCAL
+      i : INTEGER;
+      local_composite_text : SET [0:?] OF composite_text;
+      local_annotation_text : SET [0:?] OF annotation_text;
+      local_children : SET [0:?] OF text_or_character;
+    END_LOCAL;
+
+    local_composite_text := QUERY (child <* child_text |
+                          ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+                           IN TYPEOF (child)));
+
+    IF (SIZEOF (local_composite_text) > 0) 
+      THEN
+        REPEAT i := 1 TO HIINDEX (local_composite_text);
+          IF (start_composite :=: local_composite_text[i]) 
+            THEN
+              RETURN (FALSE);
+          END_IF;
+        END_REPEAT;
+    END_IF;
+
+    local_children := child_text;
+
+    IF (SIZEOF (local_composite_text)) > 0 THEN
+      REPEAT i := 1 TO HIINDEX (local_composite_text);
+        local_children := local_children +
+                          local_composite_text[i].collected_text;
+      END_REPEAT;
+    END_IF;
+
+    local_annotation_text := QUERY (child <* child_text |
+                            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT'
+                             IN TYPEOF (child)));
+
+    IF (SIZEOF (local_annotation_text) > 0) THEN
+      REPEAT i := 1 TO HIINDEX (local_annotation_text);
+        local_children := local_children +
+        QUERY (item <* local_annotation_text[i]\mapped_item.
+                       mapping_source.mapped_representation.items |
+          SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT',
+                  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'] *
+                  TYPEOF(item)) > 0);
+      END_REPEAT;
+    END_IF;
+
+    IF (local_children :<>: child_text) THEN
+      RETURN (acyclic_composite_text (start_composite, local_children));
+    ELSE
+      RETURN (TRUE);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION acyclic_curve_replica
+	(rep: curve_replica; parent: curve) : BOOLEAN;
+IF NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA') IN TYPEOF(parent)) THEN
+      RETURN (TRUE);
+   END_IF;
+ (* Return TRUE if the parent is not of type curve_replica *)
+   IF (parent :=: rep) THEN
+      RETURN (FALSE);
+  (* Return FALSE if the parent is the same curve_replica, otherwise,
+   call function again with the parents own parent_curve.     *)
+    ELSE
+    RETURN(acyclic_curve_replica(rep,
+               parent\curve_replica.parent_curve));
+    END_IF;
+END_FUNCTION;
+
+FUNCTION acyclic_mapped_item_usage
+	(rep: representation) : BOOLEAN;
+  LOCAL
+    items : SET OF representation_item;
+  END_LOCAL;
+
+  items := QUERY (item <* rep.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (item));
+  IF SIZEOF (items) = 0
+  THEN 
+    RETURN (FALSE);
+  ELSE 
+    REPEAT i := 1 TO HIINDEX (items);
+      IF items[i]\mapped_item.mapping_source.mapped_representation :=: rep
+      THEN 
+        RETURN (TRUE);
+      ELSE 
+        RETURN (acyclic_mapped_item_usage(items[i]\
+                  mapped_item.mapping_source.mapped_representation));
+      END_IF;
+    END_REPEAT;
+  RETURN (FALSE);
+  END_IF;
+END_FUNCTION;
+
+FUNCTION acyclic_mapped_representation
+	(mi: mapped_item) : BOOLEAN;
+    LOCAL
+      rms : SET OF representation_map;
+      mis : SET OF mapped_item;
+      rs1, rs2 : SET OF representation;
+    END_LOCAL;
+ 
+    rs1 := using_representations(mi);
+    rs2 := [];
+    -- loop as long as there are elements in rs1
+    REPEAT WHILE SIZEOF(rs1) > 0; 
+      REPEAT i := 1 TO HIINDEX(rs1);
+        -- Determine the set of representation_map that reference the parent_set
+        rms := bag_to_set(USEDIN(rs1[i], 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_MAP.MAPPED_REPRESENTATION'));
+        IF SIZEOF(rms) > 0 THEN
+          REPEAT j := 1 TO HIINDEX(rms);
+            mis := bag_to_set(USEDIN(rms[i], 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM.MAPPING_SOURCE'));
+            IF SIZEOF(mis) > 0 THEN
+              REPEAT j := 1 TO HIINDEX(mis);
+                -- check mis members for instance equal with mi. If so then there is a cycle
+                IF mis[i] :=: mi THEN
+                  RETURN (FALSE);
+                END_IF;
+                rs2 := rs2 + using_representations(mis[i]);
+              END_REPEAT;
+            END_IF;
+          END_REPEAT;
+        END_IF;
+      END_REPEAT;
+      rs1 := rs2;
+      rs2 := [];
+    END_REPEAT;
+    RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION acyclic_point_replica
+	(rep: point_replica; parent: point) : BOOLEAN;
+IF NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_REPLICA') IN TYPEOF(parent)) THEN
+      RETURN (TRUE);
+   END_IF;
+ (* Return TRUE if the parent is not of type point_replica *)
+   IF (parent :=: rep) THEN
+      RETURN (FALSE);
+  (* Return FALSE if the parent is the same point_replica, otherwise,
+   call function again with the parents own parent_pt.     *)
+    ELSE RETURN(acyclic_point_replica(rep, parent\point_replica.parent_pt));
+    END_IF;
+END_FUNCTION;
+
+FUNCTION acyclic_product_definition_relationship
+	(relation: product_definition_relationship; relatives: SET [1:?] OF product_definition; specific_relation: STRING) : BOOLEAN;
+    LOCAL
+      x : SET OF product_definition_relationship;
+    END_LOCAL;
+
+    IF relation.relating_product_definition IN relatives THEN
+      RETURN (FALSE);
+    END_IF;
+    x := QUERY(pd <* bag_to_set(USEDIN(relation.relating_product_definition, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_DEFINITION_RELATIONSHIP.' + 'RELATED_PRODUCT_DEFINITION')) | specific_relation IN TYPEOF(pd));
+    REPEAT i := 1 TO HIINDEX(x);
+      IF NOT acyclic_product_definition_relationship(x[i], relatives + relation.relating_product_definition, specific_relation) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_REPEAT;
+    RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION acyclic_representation_relationship
+	(relation: representation_relationship; relatives: SET [1:?] OF representation; specific_relation: STRING) : BOOLEAN;
+    LOCAL
+      x : SET OF representation_relationship;
+    END_LOCAL;
+
+    IF relation.rep_1 IN relatives THEN
+      RETURN (FALSE);
+    END_IF;
+    x := QUERY(r <* bag_to_set(USEDIN(relation.rep_1, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP.' + 'REP_2')) | specific_relation IN TYPEOF(r));
+    REPEAT i := 1 TO HIINDEX(x);
+      IF NOT acyclic_representation_relationship(x[i], relatives + relation.rep_1, specific_relation) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_REPEAT;
+    RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION acyclic_solid_replica
+	(rep: solid_replica; parent: solid_model) : BOOLEAN;
+IF NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_REPLICA') IN TYPEOF(parent)) THEN
+      RETURN (TRUE);
+   END_IF;
+ (* Return TRUE if the parent is not of type solid_replica. *)
+   IF (parent :=: rep) THEN
+      RETURN (FALSE);
+  (* Return FALSE if the parent is the same solid_replica, otherwise,
+   call function again with the parents own parent_solid.     *)
+    ELSE RETURN(acyclic_solid_replica(rep,
+                      parent\solid_replica.parent_solid));
+    END_IF;
+END_FUNCTION;
+
+FUNCTION acyclic_surface_replica
+	(rep: surface_replica; parent: surface) : BOOLEAN;
+IF NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_REPLICA') IN TYPEOF(parent)) THEN
+      RETURN (TRUE);
+   END_IF;
+ (* Return TRUE if the parent is not of type surface_replica *)
+   IF (parent :=: rep) THEN
+      RETURN (FALSE);
+  (* Return FALSE if the parent is the same surface_replica, otherwise,
+   call function again with the parents own parent_surface.     *)
+    ELSE RETURN(acyclic_surface_replica(rep,
+                   parent\surface_replica.parent_surface));
+    END_IF;
+END_FUNCTION;
+
+FUNCTION advanced_face_properties
+	(testface: face) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF(testface) THEN
+    RETURN (TRUE);
+END_IF;
+(* if testface is a subface recursively test the parent_face,
+return FALSE for all other types of face *)
+IF  ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(testface)) THEN
+     RETURN(advanced_face_properties(testface\subface.parent_face));
+   ELSE RETURN (FALSE);
+END_IF;
+END_FUNCTION;
+
+FUNCTION aspect_ratio
+	(p: planar_box) : positive_ratio_measure;
+IF (p.size_in_x > 0.) AND (p.size_in_y > 0.) THEN
+      RETURN (p.size_in_x / p.size_in_y);
+    ELSE
+      RETURN (?);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION associated_surface
+	(arg: pcurve_or_surface) : surface;
+   LOCAL
+     surf : surface;
+   END_LOCAL;
+   
+   IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(arg) THEN
+     surf := arg\pcurve.basis_surface;
+   ELSE
+     surf := arg;
+   END_IF;
+   RETURN(surf);
+END_FUNCTION;
+
+FUNCTION bag_to_set
+	(the_bag: BAG [0:?] OF GENERIC: intype) : SET [0:?] OF GENERIC: intype;
+    LOCAL
+      the_set : SET OF GENERIC:intype := [];
+    END_LOCAL;
+
+    IF SIZEOF(the_bag) > 0 THEN
+      REPEAT i := 1 TO HIINDEX(the_bag);
+        the_set := the_set + the_bag[i];
+      END_REPEAT;
+    END_IF;
+    RETURN (the_set);
+END_FUNCTION;
+
+FUNCTION base_axis
+	(dim: INTEGER; axis1: direction; axis2: direction; axis3: direction) : LIST [2:3] OF direction;
+  LOCAL
+    u      : LIST [2:3] OF direction;
+    factor : REAL;
+    d1, d2 : direction;
+  END_LOCAL;
+  
+  IF (dim = 3) THEN
+    d1 := NVL(normalise(axis3),  dummy_gri || direction([0.0,0.0,1.0]));
+    d2 := first_proj_axis(d1,axis1);
+    u := [d2, second_proj_axis(d1,d2,axis2), d1];
+  ELSE
+     IF EXISTS(axis1) THEN
+      d1 := normalise(axis1);
+      u := [d1, orthogonal_complement(d1)];
+      IF EXISTS(axis2) THEN
+        factor := dot_product(axis2,u[2]);
+        IF (factor < 0.0) THEN
+          u[2].direction_ratios[1] := -u[2].direction_ratios[1];
+          u[2].direction_ratios[2] := -u[2].direction_ratios[2];
+        END_IF;
+      END_IF;
+    ELSE
+      IF EXISTS(axis2) THEN
+        d1 := normalise(axis2);
+        u := [orthogonal_complement(d1), d1]; 
+        u[1].direction_ratios[1] := -u[1].direction_ratios[1];
+        u[1].direction_ratios[2] := -u[1].direction_ratios[2];
+      ELSE
+        u := [dummy_gri || direction([1.0, 0.0]), dummy_gri ||
+                                                direction([0.0, 1.0])];
+      END_IF;
+    END_IF;
+  END_IF;
+  RETURN(u);
+END_FUNCTION;
+
+FUNCTION boolean_choose
+	(b: BOOLEAN; choice1: GENERIC: item; choice2: GENERIC: item) : GENERIC: item;
+IF b THEN
+       RETURN (choice1);
+     ELSE
+       RETURN (choice2);
+     END_IF;
+END_FUNCTION;
+
+FUNCTION build_2axes
+	(ref_direction: direction) : LIST [2:2] OF direction;
+   LOCAL
+     d : direction := NVL(normalise(ref_direction),
+                          dummy_gri || direction([1.0,0.0]));
+   END_LOCAL;
+
+   RETURN([d, orthogonal_complement(d)]);
+END_FUNCTION;
+
+FUNCTION build_axes
+	(axis: direction; ref_direction: direction) : LIST [3:3] OF direction;
+     LOCAL
+       d1, d2 : direction;
+     END_LOCAL;
+    d1 := NVL(normalise(axis), dummy_gri || direction([0.0,0.0,1.0]));
+    d2 := first_proj_axis(d1, ref_direction);
+    RETURN([d2, normalise(cross_product(d1,d2))\vector.orientation, d1]);
+END_FUNCTION;
+
+FUNCTION categories_of_product
+	(obj: product) : SET [0:?] OF STRING;
+LOCAL
+  category_assignments: BAG OF product_category;
+  categories: SET OF STRING:=[];
+END_LOCAL;
+category_assignments := USEDIN(obj, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS');
+REPEAT i := LOINDEX(category_assignments) TO HIINDEX(category_assignments) BY 1;
+  categories := categories + category_assignments[i].name;
+END_REPEAT;
+RETURN(categories);
+END_FUNCTION;
+
+FUNCTION cc_design_person_and_organization_correlation
+	(e: cc_design_person_and_organization_assignment) : BOOLEAN;
+    LOCAL
+      po_role : STRING;
+    END_LOCAL;
+      po_role := e\person_and_organization_assignment.role.name;
+    CASE po_role OF
+      'request_recipient'      : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'CHANGE_REQUEST',
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'START_REQUEST'] *
+                                 TYPEOF (x)) = 1))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'initiator'              : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'CHANGE_REQUEST',
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'START_REQUEST',
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'START_WORK',
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'CHANGE'] *
+                                 TYPEOF (x)) = 1))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'creator'                : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'PRODUCT_DEFINITION_FORMATION',
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'PRODUCT_DEFINITION'] *
+                                 TYPEOF (x)) = 1))
+                                 THEN RETURN (FALSE);
+                               END_IF;
+      'part_supplier'          : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'PRODUCT_DEFINITION_FORMATION'
+                                 IN TYPEOF (x)))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'design_supplier'        : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'PRODUCT_DEFINITION_FORMATION'
+                                 IN TYPEOF (x)))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'design_owner'           : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT'
+                                 IN TYPEOF (x)))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'configuration_manager'  : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'CONFIGURATION_ITEM'
+                                 IN TYPEOF (x)))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'contractor'             : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONTRACT'
+                                 IN TYPEOF (x)))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'classification_officer' : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'SECURITY_CLASSIFICATION'
+                                 IN TYPEOF (x))) THEN
+                                 RETURN(FALSE);
+                               END_IF;
+    OTHERWISE : RETURN(TRUE);
+  END_CASE;
+  RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION check_continuous_edges
+	(edges: LIST [0:?] OF  UNIQUE edge_curve) : BOOLEAN;
+  LOCAL
+    i           : INTEGER;
+    next_vertex : vertex;
+  END_LOCAL;
+
+  -- first check whether there is only one edge in the list: in this
+  -- case there is no connectivity to be checked.
+
+  IF (SIZEOF(edges) = 1)
+  THEN RETURN(TRUE);
+  END_IF;
+
+  -- otherwise, establish the matching vertices of edges 1 and 2 in 
+  -- the list, and determine the vertex of edge 2 to which edge 3, 
+  -- must be connected, if there are more than two edges in the list.
+
+  IF ((edges[2].edge_start :=: edges[1].edge_end)
+    XOR (edges[2].edge_start :=: edges[1].edge_start))
+  THEN next_vertex := edges[2].edge_end;
+  ELSE 
+    IF ((edges[2].edge_end :=: edges[1].edge_end)
+      XOR (edges[2].edge_end :=: edges[1].edge_start))
+    THEN next_vertex := edges[2].edge_start;
+    ELSE RETURN(FALSE); -- no match between any vertices of edges 1 and 2 
+    END_IF;
+  END_IF;
+
+  -- exit if there are only two edges and they are connected
+
+  IF (SIZEOF(edges) = 2)
+  THEN RETURN(TRUE);
+  END_IF;
+
+  -- otherwise, check that any remaining edges are connected in list order.
+
+  REPEAT i := 3 TO HIINDEX(edges);
+    IF (edges[i].edge_start :=: next_vertex)
+    THEN next_vertex := edges[i].edge_end;
+    ELSE
+      IF (edges[i].edge_end :=: next_vertex)
+      THEN next_vertex := edges[i].edge_start;
+      ELSE RETURN(FALSE); -- no match is found.
+      END_IF;
+    END_IF; 
+  END_REPEAT;
+  RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION check_text_alignment
+	(ct: composite_text) : BOOLEAN;
+  LOCAL
+    a : SET OF text_alignment := [];
+  END_LOCAL;
+
+  -- create a set of all the alignments
+  REPEAT i := 1 TO HIINDEX (ct.collected_text);
+    a := a + [ct.collected_text[i]\text_literal.alignment];
+  END_REPEAT;
+
+  -- if there is more than one element in the set
+  -- then not all alignments were the same
+  RETURN (SIZEOF(a) = 1);
+END_FUNCTION;
+
+FUNCTION check_text_font
+	(ct: composite_text) : BOOLEAN;
+  LOCAL
+    f : SET OF font_select := [];
+  END_LOCAL;
+
+  -- build a set of all the fonts
+  REPEAT i := 1 TO HIINDEX (ct.collected_text);
+    f := f + [ct.collected_text[i]\text_literal.font];
+  END_REPEAT;
+
+  -- if there is more than one element in the set
+  -- then not all fonts were the same
+  RETURN (SIZEOF(f) <= 1);
+END_FUNCTION;
+
+FUNCTION class_assignment_is_valid
+	(aia: applied_classification_assignment) : BOOLEAN;
+LOCAL
+  item: classification_item;
+  role: classification_role;
+END_LOCAL;
+
+role:= aia\classification_assignment.role;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'CLASS_SYSTEM' IN TYPEOF(aia\classification_assignment.assigned_class)) THEN
+  IF(role\classification_role.name <> 'class system membership') THEN
+    RETURN(FALSE);
+  END_IF;
+  REPEAT i:=LOINDEX(aia\applied_classification_assignment.items) TO HIINDEX(aia\applied_classification_assignment.items);
+    item:= aia\applied_classification_assignment.items[i];
+
+    IF (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CLASS_SYSTEM_ITEM'] * TYPEOF(item))=0) THEN
+-- item invalid if item does not belong to the types that may have a class_system
+	RETURN(FALSE);
+    END_IF;
+  END_REPEAT;
+END_IF;
+
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'CHARACTERIZED_CLASS' IN TYPEOF(aia\classification_assignment.assigned_class)) THEN
+  IF	NOT(role\classification_role.name IN ['definitional','non-definitional','']) THEN
+    RETURN(FALSE); 
+  END_IF;
+
+
+  REPEAT i:=LOINDEX(aia\applied_classification_assignment.items) TO HIINDEX(aia\applied_classification_assignment.items);
+    item:= aia\applied_classification_assignment.items[i];
+
+    IF (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CLASSIFIED_ITEM'] * TYPEOF(item))=0) THEN
+-- item invalid if item does not belong to the types that may have a characterized_class
+	RETURN(FALSE);
+    END_IF;
+  END_REPEAT;
+END_IF;
+
+  IF
+   (role\classification_role.name = 'definitional')
+   THEN
+     IF NOT
+      (SIZEOF(QUERY(it <* aia\applied_classification_assignment.items | NOT
+             (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_FORMATION', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION'] * TYPEOF(it)) = 1)
+      )) = 0 )
+      THEN
+      RETURN(FALSE); 
+     END_IF;
+  END_IF;
+
+RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION closed_shell_reversed
+	(a_shell: closed_shell) : oriented_closed_shell;
+  LOCAL
+    the_reverse : oriented_closed_shell;
+  END_LOCAL;
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL' IN TYPEOF (a_shell) ) THEN
+      the_reverse := dummy_tri ||
+                    connected_face_set (
+                       a_shell\connected_face_set.cfs_faces) ||
+                    closed_shell () || oriented_closed_shell(
+                     a_shell\oriented_closed_shell.closed_shell_element,
+                       NOT(a_shell\oriented_closed_shell.orientation));
+   ELSE
+      the_reverse := dummy_tri ||
+               connected_face_set (
+                 a_shell\connected_face_set.cfs_faces) ||
+               closed_shell () || oriented_closed_shell (a_shell, FALSE);
+   END_IF;
+   RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION compute_total_depth
+	(swsrh: solid_with_stepped_round_hole) : positive_length_measure;
+LOCAL
+i  : positive_integer;
+n  : positive_integer := swsrh.segments;
+td : positive_length_measure := swsrh.segment_depths[1];
+END_LOCAL;
+
+IF n = 1 
+THEN RETURN(td);
+ELSE
+  REPEAT i := 2 TO n;
+    td := td + swsrh.segment_depths[i];
+  END_REPEAT;
+END_IF;
+RETURN(td);
+END_FUNCTION;
+
+FUNCTION conditional_reverse
+	(p: BOOLEAN; an_item: reversible_topology) : reversible_topology;
+IF p THEN
+     RETURN (an_item);
+   ELSE
+     RETURN (topology_reversed (an_item));
+   END_IF;
+END_FUNCTION;
+
+FUNCTION constraints_composite_curve_on_surface
+	(c: composite_curve_on_surface) : BOOLEAN;
+   LOCAL
+     n_segments : INTEGER := SIZEOF(c.segments);
+   END_LOCAL;
+        
+   REPEAT k := 1 TO n_segments;
+     IF (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN 
+           TYPEOF(c\composite_curve.segments[k].parent_curve))) AND
+        (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN 
+           TYPEOF(c\composite_curve.segments[k].parent_curve))) AND
+        (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE_ON_SURFACE' IN
+           TYPEOF(c\composite_curve.segments[k].parent_curve)))  THEN
+       RETURN (FALSE);
+     END_IF;
+   END_REPEAT;
+   RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION constraints_geometry_shell_based_surface_model
+	(m: shell_based_surface_model) : BOOLEAN;
+   LOCAL
+     result : BOOLEAN := TRUE;
+   END_LOCAL;
+   
+   REPEAT j := 1 TO SIZEOF(m.sbsm_boundary);
+     IF (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OPEN_SHELL' IN
+                     TYPEOF(m.sbsm_boundary[j])) AND
+        (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CLOSED_SHELL' IN
+           TYPEOF(m.sbsm_boundary[j]))))
+     THEN
+       result := FALSE;
+       RETURN(result);
+       (* A surface model is composed of OPEN_ and CLOSED_SHELLs. *)
+     END_IF;
+   END_REPEAT;
+   RETURN(result);
+END_FUNCTION;
+
+FUNCTION constraints_geometry_shell_based_wireframe_model
+	(m: shell_based_wireframe_model) : BOOLEAN;
+   LOCAL
+     result : BOOLEAN := TRUE;
+   END_LOCAL;
+
+   REPEAT j := 1 TO SIZEOF(m.sbwm_boundary);
+     IF (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN
+                    TYPEOF(m.sbwm_boundary[j])) AND
+        (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_SHELL' IN
+                      TYPEOF(m.sbwm_boundary[j]))))
+     THEN
+       result := FALSE;
+       RETURN(result);
+       (* A wireframe model is composed of WIRE_ and VERTEX_SHELLs *)
+     END_IF;
+   END_REPEAT;
+   RETURN(result);
+END_FUNCTION;
+
+FUNCTION constraints_param_b_spline
+	(degree: INTEGER; up_knots: INTEGER; up_cp: INTEGER; knot_mult: LIST [0:?] OF INTEGER; knots: LIST [0:?] OF parameter_value) : BOOLEAN;
+   LOCAL
+     result  : BOOLEAN := TRUE;
+     k, sum  : INTEGER;
+   END_LOCAL;
+   
+   (* Find sum of knot multiplicities. *)
+   sum := knot_mult[1];
+   
+   REPEAT i := 2 TO up_knots;
+     sum := sum + knot_mult[i];
+   END_REPEAT;
+   
+   (* Check limits holding for all B-spline parametrisations *)
+   IF (degree < 1) OR (up_knots < 2) OR (up_cp < degree) OR
+         (sum <> (degree + up_cp + 2)) THEN
+     result := FALSE;
+     RETURN(result);
+   END_IF;
+   
+   k := knot_mult[1];
+   
+   IF (k < 1) OR (k > degree + 1) THEN
+     result := FALSE;
+     RETURN(result);
+   END_IF;
+      
+   REPEAT i := 2 TO up_knots;
+     IF (knot_mult[i] < 1) OR (knots[i] <= knots[i-1]) THEN
+       result := FALSE;
+       RETURN(result);
+     END_IF;
+        
+     k := knot_mult[i];
+     
+     IF (i < up_knots) AND (k > degree) THEN
+       result := FALSE;
+       RETURN(result);
+     END_IF;
+        
+     IF (i = up_knots) AND (k > degree + 1) THEN
+       result := FALSE;
+       RETURN(result);
+     END_IF;
+   END_REPEAT;
+   RETURN(result);
+END_FUNCTION;
+
+FUNCTION constraints_rectangular_composite_surface
+	(s: rectangular_composite_surface) : BOOLEAN;
+REPEAT i := 1 TO s.n_u;
+       REPEAT j := 1 TO s.n_v;
+         IF NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE' IN TYPEOF
+                    (s.segments[i][j].parent_surface)) OR
+                 ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RECTANGULAR_TRIMMED_SURFACE' IN TYPEOF
+                    (s.segments[i][j].parent_surface))) THEN
+           RETURN(FALSE);
+       END_IF;
+     END_REPEAT;
+   END_REPEAT;
+
+   (* Check the transition codes, omitting the last row or column *)
+   REPEAT i := 1 TO s.n_u-1;
+     REPEAT j := 1 TO s.n_v;
+       IF s.segments[i][j].u_transition = discontinuous THEN
+         RETURN(FALSE);
+       END_IF;
+     END_REPEAT;
+   END_REPEAT;
+   
+   REPEAT i := 1 TO s.n_u;
+     REPEAT j := 1 TO s.n_v-1;
+       IF s.segments[i][j].v_transition = discontinuous THEN
+         RETURN(FALSE);
+       END_IF;
+     END_REPEAT;
+   END_REPEAT;
+   RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION control_characters_free
+	(s: STRING) : BOOLEAN;
+    LOCAL
+      ch : STRING;
+    END_LOCAL;
+
+    REPEAT i:=1 TO LENGTH(s);
+      ch := s[i];
+      IF (ch = '\x9') OR (ch = '\xA') OR (ch = '\xD') THEN
+        RETURN(FALSE);
+      END_IF;
+    END_REPEAT;
+    RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION cross_product
+	(arg1: direction; arg2: direction) : vector;
+  LOCAL
+    mag    : REAL;
+    res    : direction;
+    v1,v2  : LIST[3:3] OF REAL;
+    result : vector;
+  END_LOCAL;
+  
+  IF ( NOT EXISTS (arg1) OR (arg1.dim = 2)) OR
+     ( NOT EXISTS (arg2) OR (arg2.dim = 2)) THEN
+    RETURN(?);
+  ELSE
+    BEGIN
+      v1  := normalise(arg1).direction_ratios;
+      v2  := normalise(arg2).direction_ratios;
+      res := dummy_gri || direction([(v1[2]*v2[3] - v1[3]*v2[2]),
+            (v1[3]*v2[1] - v1[1]*v2[3]), (v1[1]*v2[2] - v1[2]*v2[1])]);
+      mag := 0.0;
+      REPEAT i := 1 TO 3;
+        mag := mag + res.direction_ratios[i]*res.direction_ratios[i];
+      END_REPEAT;
+      IF (mag > 0.0) THEN
+        result := dummy_gri || vector(res, SQRT(mag));
+      ELSE
+        result := dummy_gri || vector(arg1, 0.0);
+      END_IF;
+      RETURN(result);
+    END;
+  END_IF;
+END_FUNCTION;
+
+FUNCTION curve_weights_positive
+	(b: rational_b_spline_curve) : BOOLEAN;
+   LOCAL
+     result : BOOLEAN := TRUE;
+   END_LOCAL;
+
+   REPEAT i := 0 TO b.upper_index_on_control_points;
+     IF b.weights[i] <= 0.0  THEN
+       result := FALSE;
+       RETURN(result);
+     END_IF;
+   END_REPEAT;
+   RETURN(result);
+END_FUNCTION;
+
+FUNCTION default_tolerance_table_cell_wr2
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN 
+IF SIZEOF(agg) <= 5 THEN 
+  RETURN(TRUE); 
+ELSE 
+  RETURN(FALSE); 
+END_IF; 
+END;
+END_FUNCTION;
+
+FUNCTION default_tolerance_table_cell_wr3
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN 
+IF (SIZEOF(QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) 
+  AND (i\representation_item.name = 'significant number of digits')) )) = 1) OR 
+((SIZEOF(QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  (i\representation_item.name = 'lower limit')) )) = 1) AND 
+(SIZEOF( QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  (i\representation_item.name = 'upper limit')) )) = 1)) THEN 
+  RETURN(TRUE); 
+ELSE 
+  RETURN(FALSE); 
+END_IF; 
+END;
+END_FUNCTION;
+
+FUNCTION default_tolerance_table_cell_wr4
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN 
+IF (SIZEOF(QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  (i\representation_item.name = 'plus minus tolerance value')) )) = 1) OR 
+((SIZEOF(QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND (
+  i\representation_item.name = 'lower tolerance value')) )) = 1) AND 
+(SIZEOF( QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND (
+  i\representation_item.name = 'upper tolerance value')) )) = 1)) THEN 
+  RETURN(TRUE); 
+ELSE 
+  RETURN(FALSE); 
+END_IF; 
+END;
+END_FUNCTION;
+
+FUNCTION default_tolerance_table_cell_wr5
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN 
+IF (SIZEOF(QUERY ( i <* agg | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF(i)) )) <= 1) AND 
+(SIZEOF(QUERY ( i <* agg | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF(i)) )) = 
+  SIZEOF(QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  (i\representation_item.name = 'cell description'))) )) 
+THEN 
+  RETURN(TRUE); 
+ELSE 
+  RETURN(FALSE); 
+END_IF; 
+END;
+END_FUNCTION;
+
+FUNCTION dependently_instantiated
+	(set_of_input_instances: SET [0:?] OF GENERIC: igen; set_of_input_types: SET [0:?] OF STRING; previous_in_chain: LIST [0:?] OF GENERIC: cgen) : BOOLEAN;
+LOCAL
+  number_of_input_instances     : INTEGER;
+  number_of_referring_instances : INTEGER;
+  bag_of_referring_instances    : BAG OF GENERIC:igen := [];
+  dependently_instantiated_flag : BOOLEAN;
+  previous_in_chain_plus        : LIST OF GENERIC:cgen := [];
+  result                        : BOOLEAN := true;
+  set_of_types                  : SET OF STRING := [];
+END_LOCAL;
+
+IF EXISTS(set_of_input_instances) THEN
+  number_of_input_instances := SIZEOF(set_of_input_instances);
+  (* Add the declared type of bag_of_referring_instances to the set of
+     types of the REFERENCEd instances for the subset comparison later.
+   *)
+  set_of_input_types := set_of_input_types + 'GENERIC';
+  REPEAT i:=1 TO number_of_input_instances;
+    (* Determine all references to the current input instance. *)
+    bag_of_referring_instances := USEDIN (set_of_input_instances[i] , '');
+    IF EXISTS(bag_of_referring_instances) THEN
+      number_of_referring_instances := SIZEOF(bag_of_referring_instances);
+      dependently_instantiated_flag := false;
+      REPEAT j:=1 TO number_of_referring_instances;
+        (* Determine the type strings of the current referencing instance.
+         *)
+        set_of_types := TYPEOF(bag_of_referring_instances[j]);
+        (* If the referencing instance is of one of the types of the
+           only dependently instantiable select items, the current input
+           instance may still be invalidly instantiated.
+           Otherwise it is OK, and the next input instance is tested.
+         *)
+        IF set_of_types <= set_of_input_types THEN -- subset operator
+          (* The referring instance is of one of the restricted types.
+             However, it may itself be referred to by a valid instance;
+             then also the current instance would be valid.
+             Thus, call this function recursively with the referring
+             instance as input.
+             To avoid an infinite loop in case a set of instances
+             reference each other in a closed loop, test first whether
+             the current referencing instance is in the list of
+             previously processed chain members.
+           *)
+          IF NOT (bag_of_referring_instances[j] IN previous_in_chain) THEN
+            previous_in_chain_plus := previous_in_chain +
+            set_of_input_instances[i];
+            IF dependently_instantiated([bag_of_referring_instances[j]],
+              set_of_input_types,
+              previous_in_chain_plus) THEN
+              dependently_instantiated_flag := true;
+              ESCAPE; -- dependently instantiated; next input instance
+            ELSE
+              (* Not dependently instantiated: go to next referring
+              instance. *)
+              SKIP;
+            END_IF;
+          END_IF;
+        ELSE
+          dependently_instantiated_flag := true;
+          ESCAPE; -- dependently instantiated; take next input instance
+        END_IF;
+      END_REPEAT;
+      IF NOT dependently_instantiated_flag THEN
+        RETURN(false);
+      END_IF;
+    ELSE
+      RETURN(false); -- not referenced at all => invalidly instantiated
+    END_IF;
+  END_REPEAT;
+ELSE
+  RETURN(false); -- no input
+END_IF;
+
+RETURN(true);
+END_FUNCTION;
+
+FUNCTION derive_angle
+	(placement_1: axis2_placement_3d; placement_2: axis2_placement_3d) : plane_angle_measure;
+    LOCAL
+      v1     : direction;
+      v2     : direction;
+      mag_v1 : REAL;
+      mag_v2 : REAL;
+      theta  : plane_angle_measure;
+    END_LOCAL;
+    v1 := placement_1.p[1];
+    v2 := placement_2.p[1];
+    mag_v1 := SQRT (v1.direction_ratios[1]*v1.direction_ratios[1] +
+                    v1.direction_ratios[2]*v1.direction_ratios[2]);
+    mag_v2 := SQRT (v2.direction_ratios[1]*v2.direction_ratios[1] +
+                    v2.direction_ratios[2]*v2.direction_ratios[2]);
+    IF ((mag_v1 = 0.0) OR (mag_v2 = 0.0)) THEN
+      theta := 0.0;
+      RETURN (theta);
+    END_IF;
+    theta := ACOS ((v1.direction_ratios[1]*v2.direction_ratios[1] +
+                    v1.direction_ratios[2]*v2.direction_ratios[2]) /
+                   (mag_v1*mag_v2));
+    RETURN (theta);
+END_FUNCTION;
+
+FUNCTION derive_dimensional_exponents
+	(x: unit) : dimensional_exponents;
+    LOCAL
+      result : dimensional_exponents := dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0);
+    END_LOCAL;
+
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DERIVED_UNIT' IN TYPEOF(x) THEN
+      REPEAT i := LOINDEX(x\derived_unit.elements) TO HIINDEX(x\derived_unit.elements);
+        result.length_exponent := result.length_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.length_exponent);
+        result.mass_exponent := result.mass_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.mass_exponent);
+        result.time_exponent := result.time_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.time_exponent);
+        result.electric_current_exponent := result.electric_current_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.electric_current_exponent);
+        result.thermodynamic_temperature_exponent := result.thermodynamic_temperature_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.thermodynamic_temperature_exponent);
+        result.amount_of_substance_exponent := result.amount_of_substance_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.amount_of_substance_exponent);
+        result.luminous_intensity_exponent := result.luminous_intensity_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.luminous_intensity_exponent);
+      END_REPEAT;
+    ELSE
+      result := x\named_unit.dimensions;
+    END_IF;
+    RETURN (result);
+END_FUNCTION;
+
+FUNCTION dimension_of
+	(item: geometric_representation_item) : dimension_count;
+  LOCAL
+    x   : SET OF representation;
+    y   : representation_context;
+    dim : dimension_count;
+  END_LOCAL;
+  -- For cartesian_point, direction, or vector dimension is determined by
+  -- counting components.
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF(item) THEN
+       dim := SIZEOF(item\cartesian_point.coordinates);
+       RETURN(dim);
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIRECTION' IN TYPEOF(item) THEN
+       dim := SIZEOF(item\direction.direction_ratios);
+       RETURN(dim);
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF(item) THEN
+       dim := SIZEOF(item\vector.orientation\direction.direction_ratios);
+       RETURN(dim);
+    END_IF;
+  -- For all other types of geometric_representation_item dim is obtained
+  -- via context.
+  -- Find the set of representation in which the item is used. 
+
+  x := using_representations(item);
+
+  -- Determines the dimension_count of the 
+  -- geometric_representation_context. Note that the 
+  -- RULE compatible_dimension ensures that the context_of_items
+  -- is of type geometric_representation_context and has
+  -- the same dimension_count for all values of x.
+  -- The SET x is non-empty since this is required by WR1 of
+  -- representation_item.
+    y := x[1].context_of_items;
+    dim := y\geometric_representation_context.coordinate_space_dimension;
+    RETURN (dim);
+END_FUNCTION;
+
+FUNCTION dimensions_for_si_unit
+	(n: si_unit_name) : dimensional_exponents;
+CASE n OF 
+      metre:
+        RETURN (dimensional_exponents(1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0));
+      gram:
+        RETURN (dimensional_exponents(0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0));
+      second:
+        RETURN (dimensional_exponents(0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0));
+      ampere:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0));
+      kelvin:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0));
+      mole:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0));
+      candela:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0));
+      radian:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0));
+      steradian:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0));
+      hertz:
+        RETURN (dimensional_exponents(0.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0));
+      newton:
+        RETURN (dimensional_exponents(1.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0));
+      pascal:
+        RETURN (dimensional_exponents(-1.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0));
+      joule:
+        RETURN (dimensional_exponents(2.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0));
+      watt:
+        RETURN (dimensional_exponents(2.0, 1.0, -3.0, 0.0, 0.0, 0.0, 0.0));
+      coulomb:
+        RETURN (dimensional_exponents(0.0, 0.0, 1.0, 1.0, 0.0, 0.0, 0.0));
+      volt:
+        RETURN (dimensional_exponents(2.0, 1.0, -3.0, -1.0, 0.0, 0.0, 0.0));
+      farad:
+        RETURN (dimensional_exponents(-2.0, -1.0, 4.0, 1.0, 0.0, 0.0, 0.0));
+      ohm:
+        RETURN (dimensional_exponents(2.0, 1.0, -3.0, -2.0, 0.0, 0.0, 0.0));
+      siemens:
+        RETURN (dimensional_exponents(-2.0, -1.0, 3.0, 2.0, 0.0, 0.0, 0.0));
+      weber:
+        RETURN (dimensional_exponents(2.0, 1.0, -2.0, -1.0, 0.0, 0.0, 0.0));
+      tesla:
+        RETURN (dimensional_exponents(0.0, 1.0, -2.0, -1.0, 0.0, 0.0, 0.0));
+      henry:
+        RETURN (dimensional_exponents(2.0, 1.0, -2.0, -2.0, 0.0, 0.0, 0.0));
+      degree_Celsius:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0));
+      lumen:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0));
+      lux:
+        RETURN (dimensional_exponents(-2.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0));
+      becquerel:
+        RETURN (dimensional_exponents(0.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0));
+      gray:
+        RETURN (dimensional_exponents(2.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0));
+      sievert:
+        RETURN (dimensional_exponents(2.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0));
+      OTHERWISE:
+        RETURN (?);
+    END_CASE;
+END_FUNCTION;
+
+FUNCTION dot_product
+	(arg1: direction; arg2: direction) : REAL;
+   LOCAL
+     scalar : REAL;
+     vec1, vec2: direction;
+     ndim : INTEGER;
+   END_LOCAL;
+   
+   IF NOT EXISTS (arg1) OR NOT EXISTS (arg2) THEN
+     scalar := ?;
+     (* When function is called with invalid data an indeterminate result
+     is returned *)
+   ELSE
+     IF (arg1.dim <> arg2.dim) THEN
+       scalar := ?;
+     (* When function is called with invalid data an indeterminate result
+     is returned *)
+     ELSE
+       BEGIN
+         vec1   := normalise(arg1);
+         vec2   := normalise(arg2);
+         ndim   := arg1.dim;
+         scalar := 0.0;
+         REPEAT  i := 1 TO ndim;
+           scalar := scalar +
+                       vec1.direction_ratios[i]*vec2.direction_ratios[i];
+         END_REPEAT;
+       END;
+     END_IF;
+   END_IF;
+   RETURN (scalar);
+END_FUNCTION;
+
+FUNCTION edge_reversed
+	(an_edge: edge) : oriented_edge;
+   LOCAL
+     the_reverse : oriented_edge;
+   END_LOCAL;
+
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_EDGE' IN TYPEOF (an_edge) ) THEN
+     the_reverse  := dummy_tri ||
+             edge(an_edge.edge_end, an_edge.edge_start) ||
+             oriented_edge(an_edge\oriented_edge.edge_element,
+                        NOT (an_edge\oriented_edge.orientation)) ;
+   ELSE
+     the_reverse := dummy_tri ||
+             edge(an_edge.edge_end, an_edge.edge_start) ||
+             oriented_edge(an_edge, FALSE);
+   END_IF;
+   RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION external_version_assignment_is_valid
+	(aia: applied_external_identification_assignment) : BOOLEAN;
+    LOCAL
+      item: identification_item;
+      role: identification_role;
+    END_LOCAL;
+      role:= aia.role;
+      IF role.name='version' THEN
+        REPEAT i:=LOINDEX(aia.items) TO HIINDEX(aia.items);
+          item:= aia.items[i];
+          IF (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EXTERNALLY_VERSIONED_ITEM']*TYPEOF(item))=0) THEN
+            -- item invalid if item does not belong to versionable types
+	        RETURN(FALSE);
+          END_IF;
+        END_REPEAT;
+        RETURN(TRUE);
+      ELSE		-- case where aia does not convey a version id
+        RETURN(TRUE);
+      END_IF;
+END_FUNCTION;
+
+FUNCTION face_bound_reversed
+	(a_face_bound: face_bound) : face_bound;
+   LOCAL
+     the_reverse : face_bound ;
+   END_LOCAL;
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_OUTER_BOUND' IN TYPEOF (a_face_bound) ) THEN
+     the_reverse := dummy_tri ||
+                      face_bound(a_face_bound\face_bound.bound,
+                           NOT (a_face_bound\face_bound.orientation))
+                            || face_outer_bound() ;
+   ELSE
+     the_reverse := dummy_tri ||
+         face_bound(a_face_bound.bound, NOT(a_face_bound.orientation));
+   END_IF;
+  RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION face_reversed
+	(a_face: face) : oriented_face;
+   LOCAL
+     the_reverse : oriented_face ;
+   END_LOCAL;
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_FACE' IN TYPEOF (a_face) ) THEN
+     the_reverse := dummy_tri ||
+       face(set_of_topology_reversed(a_face.bounds)) ||
+          oriented_face(a_face\oriented_face.face_element,
+                           NOT (a_face\oriented_face.orientation)) ;
+   ELSE
+     the_reverse := dummy_tri ||
+       face(set_of_topology_reversed(a_face.bounds)) ||
+                               oriented_face(a_face, FALSE) ;
+   END_IF;
+      RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION first_proj_axis
+	(z_axis: direction; arg: direction) : direction;
+  LOCAL
+    x_axis : direction;
+    v      : direction;
+    z      : direction;
+    x_vec  : vector;
+  END_LOCAL;
+  
+  IF (NOT EXISTS(z_axis)) THEN
+    RETURN (?) ;
+  ELSE
+    z := normalise(z_axis);
+    IF NOT EXISTS(arg) THEN
+      IF ((z.direction_ratios <> [1.0,0.0,0.0]) AND
+          (z.direction_ratios <> [-1.0,0.0,0.0]))  THEN
+        v :=  dummy_gri || direction([1.0,0.0,0.0]);
+      ELSE
+        v := dummy_gri || direction([0.0,1.0,0.0]);
+      END_IF;
+    ELSE
+      IF  (arg.dim <> 3) THEN
+        RETURN (?) ;
+      END_IF;
+      IF ((cross_product(arg,z).magnitude) = 0.0) THEN
+        RETURN (?);
+      ELSE
+        v := normalise(arg);
+      END_IF;
+    END_IF;
+    x_vec := scalar_times_vector(dot_product(v, z), z);
+    x_axis := vector_difference(v, x_vec).orientation;
+    x_axis := normalise(x_axis);
+  END_IF;
+  RETURN(x_axis);
+END_FUNCTION;
+
+FUNCTION gbsf_check_curve
+	(cv: representation_item) : BOOLEAN;
+IF SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D'] * TYPEOF(cv)) > 1 THEN
+    RETURN (FALSE);
+  END_IF;
+  IF SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TRIMMED_CURVE'] * TYPEOF(cv)) = 1 THEN
+    RETURN (TRUE);
+  ELSE
+    IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF(cv)) AND (cv\b_spline_curve.self_intersect = FALSE) OR (cv\b_spline_curve.self_intersect = UNKNOWN)) THEN
+      RETURN (TRUE);
+    ELSE
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE' IN TYPEOF(cv)) AND (cv\composite_curve.self_intersect = FALSE) OR (cv\composite_curve.self_intersect = UNKNOWN)) THEN
+        RETURN (SIZEOF(QUERY(seg <* cv\composite_curve.segments | NOT (gbsf_check_curve(seg.parent_curve)))) = 0);
+      ELSE
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA' IN TYPEOF(cv) THEN
+          RETURN (gbsf_check_curve(cv\curve_replica.parent_curve));
+        ELSE
+          IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D' IN TYPEOF(cv)) AND ((cv\offset_curve_3d.self_intersect = FALSE) OR (cv\offset_curve_3d.self_intersect = UNKNOWN)) AND (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF(cv\offset_curve_3d.basis_curve)))) THEN
+            RETURN (gbsf_check_curve(cv\offset_curve_3d.basis_curve));
+          ELSE
+            IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(cv) THEN
+              RETURN ((gbsf_check_curve(cv\pcurve.reference_to_curve\representation.items[1])) AND (gbsf_check_surface(cv\pcurve.basis_surface)));
+            ELSE
+              IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF(cv) THEN
+                IF (SIZEOF(cv\polyline.points) >= 3) THEN
+                  RETURN (TRUE);
+                END_IF;
+              ELSE
+                IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF(cv) THEN
+                  IF gbsf_check_curve(cv\surface_curve.curve_3d) THEN
+                    REPEAT i := 1 TO SIZEOF(cv\surface_curve.associated_geometry);
+                      IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN TYPEOF(cv\surface_curve.associated_geometry[i]) THEN
+                        IF NOT gbsf_check_surface(cv\surface_curve.associated_geometry[i]) THEN
+                          RETURN (FALSE);
+                        END_IF;
+                      ELSE
+                        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(cv\surface_curve.associated_geometry[i]) THEN
+                          IF NOT gbsf_check_curve(cv\surface_curve.associated_geometry[i]) THEN
+                            RETURN (FALSE);
+                          END_IF;
+                        END_IF;
+                      END_IF;
+                    END_REPEAT;
+                    RETURN (TRUE);
+                  END_IF;
+                END_IF;
+              END_IF;
+            END_IF;
+          END_IF;
+        END_IF;
+      END_IF;
+    END_IF;
+  END_IF;
+  RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION gbsf_check_point
+	(pnt: point) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF(pnt) THEN
+    RETURN (TRUE);
+  ELSE
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE' IN TYPEOF(pnt) THEN
+      RETURN (gbsf_check_curve(pnt\point_on_curve.basis_curve));
+    ELSE
+      IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE' IN TYPEOF(pnt) THEN
+        RETURN (gbsf_check_surface(pnt\point_on_surface.basis_surface));
+      ELSE
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE' IN TYPEOF(pnt) THEN
+          RETURN ((gbsf_check_curve(pnt\degenerate_pcurve.reference_to_curve\representation.items[1])) AND (gbsf_check_surface(pnt\degenerate_pcurve.basis_surface)));
+        END_IF;
+      END_IF;
+    END_IF;
+  END_IF;
+  RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION gbsf_check_surface
+	(sf: surface) : BOOLEAN;
+IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE' IN TYPEOF(sf)) AND (sf\b_spline_surface.self_intersect = FALSE) OR (sf\b_spline_surface.self_intersect = UNKNOWN)) THEN
+    RETURN (TRUE);
+  ELSE
+    IF SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SPHERICAL_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TOROIDAL_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_BOUNDED_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RECTANGULAR_TRIMMED_SURFACE'] * TYPEOF(sf)) = 1 THEN
+      RETURN (TRUE);
+    ELSE
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_SURFACE' IN TYPEOF(sf)) AND (sf\offset_surface.self_intersect = FALSE) OR (sf\offset_surface.self_intersect = UNKNOWN)) THEN
+        RETURN (gbsf_check_surface(sf\offset_surface.basis_surface));
+      ELSE
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RECTANGULAR_COMPOSITE_SURFACE' IN TYPEOF(sf) THEN
+          REPEAT i := 1 TO SIZEOF(sf\rectangular_composite_surface.segments);
+            REPEAT j := 1 TO SIZEOF(sf\rectangular_composite_surface.segments[i]);
+              IF NOT (gbsf_check_surface(sf\rectangular_composite_surface.segments[i][j].parent_surface)) THEN
+                RETURN (FALSE);
+              END_IF;
+            END_REPEAT;
+          END_REPEAT;
+          RETURN (TRUE);
+        ELSE
+          IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_REPLICA' IN TYPEOF(sf) THEN
+            RETURN (gbsf_check_surface(sf\surface_replica.parent_surface));
+          ELSE
+            IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_OF_REVOLUTION' IN TYPEOF(sf) THEN
+              RETURN (gbsf_check_curve(sf\swept_surface.swept_curve));
+            END_IF;
+          END_IF;
+        END_IF;
+      END_IF;
+    END_IF;
+  END_IF;
+  RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION get_basis_surface
+	(c: curve_on_surface) : SET [0:2] OF surface;
+  LOCAL
+    surfs  : SET[0:2] OF surface;
+    n      : INTEGER;
+  END_LOCAL;
+  surfs := [];
+  IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF (c) THEN
+    surfs := [c\pcurve.basis_surface];
+  ELSE
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF (c) THEN
+      n := SIZEOF(c\surface_curve.associated_geometry);
+      REPEAT i := 1 TO n;
+      surfs := surfs +
+                associated_surface(c\surface_curve.associated_geometry[i]);
+      END_REPEAT;
+    END_IF;
+  END_IF;
+  IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE_ON_SURFACE' IN TYPEOF (c) THEN
+   (* For a composite_curve_on_surface the basis_surface is the intersection
+    of the basis_surfaces of all the segments. *)
+     n := SIZEOF(c\composite_curve.segments);
+     surfs := get_basis_surface(
+                     c\composite_curve.segments[1].parent_curve);
+     IF n > 1 THEN
+       REPEAT i := 2 TO n;
+         surfs := surfs * get_basis_surface(
+                  c\composite_curve.segments[i].parent_curve);
+       END_REPEAT;
+     END_IF;
+
+  END_IF;
+  RETURN(surfs);
+END_FUNCTION;
+
+FUNCTION get_description_value
+	(obj: description_attribute_select) : text;
+    LOCAL
+      description_bag : BAG OF description_attribute := (USEDIN(obj, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.' + 'DESCRIBED_ITEM'));
+    END_LOCAL;
+
+    IF SIZEOF(description_bag) = 1 THEN
+      RETURN (description_bag[1].attribute_value);
+    ELSE
+      RETURN (?);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION get_id_value
+	(obj: id_attribute_select) : identifier;
+    LOCAL
+      id_bag : BAG OF id_attribute := (USEDIN(obj, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.' + 'IDENTIFIED_ITEM'));
+    END_LOCAL;
+
+    IF SIZEOF(id_bag) = 1 THEN
+      RETURN (id_bag[1].attribute_value);
+    ELSE
+      RETURN (?);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION get_name_value
+	(obj: name_attribute_select) : label;
+    LOCAL
+      name_bag : BAG OF name_attribute := (USEDIN(obj, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.' + 'NAMED_ITEM'));
+    END_LOCAL;
+
+    IF SIZEOF(name_bag) = 1 THEN
+      RETURN (name_bag[1].attribute_value);
+    ELSE
+      RETURN (?);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION get_role
+	(obj: role_select) : object_role;
+    LOCAL
+      role_bag : BAG OF role_association := (USEDIN(obj, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.' + 'ITEM_WITH_ROLE'));
+    END_LOCAL;
+
+    IF SIZEOF(role_bag) = 1 THEN
+      RETURN (role_bag[1].role);
+    ELSE
+      RETURN (?);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION get_shape_aspect_property_definition_representations
+	(s_a_instance: shape_aspect) : SET [0:?] OF property_definition_representation;
+LOCAL
+pd_set : SET OF property_definition := [];
+pdr_set : SET OF property_definition_representation := [] ;
+END_LOCAL;
+pd_set := bag_to_set(USEDIN(s_a_instance, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROPERTY_DEFINITION.DEFINITION'));
+IF (SIZEOF(pd_set) < 1) THEN
+RETURN (pdr_set);
+END_IF;
+REPEAT i := 1 TO HIINDEX(pd_set);
+pdr_set := pdr_set + (QUERY(pdr <* USEDIN(pd_set[i], 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PROPERTY_DEFINITION_REPRESENTATION.' + 'DEFINITION') |
+'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_DEFINITION_REPRESENTATION' IN TYPEOF(pdr)));
+END_REPEAT;
+RETURN (pdr_set);
+END_FUNCTION;
+
+FUNCTION is_acyclic
+	(arg: generic_expression) : BOOLEAN;
+RETURN (acyclic (arg, []));
+END_FUNCTION;
+
+FUNCTION is_int_expr
+	(arg: numeric_expression) : LOGICAL;
+LOCAL
+	i: INTEGER := 0;
+END_LOCAL;
+
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INT_LITERAL' IN TYPEOF(arg) 
+THEN 
+	RETURN (TRUE); 
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REAL_LITERAL' IN TYPEOF(arg) 
+THEN 
+	RETURN (FALSE); 
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INT_NUMERIC_VARIABLE' IN TYPEOF(arg) 
+THEN 
+	RETURN (TRUE); 
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REAL_NUMERIC_VARIABLE' IN TYPEOF(arg) 
+THEN 
+	RETURN (FALSE); 
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ABS_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	RETURN (is_int_expr(arg\unary_numeric_expression.operand));
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINUS_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	RETURN (is_int_expr(arg\unary_numeric_expression.operand)); 
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIN_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COS_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TAN_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ASIN_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ACOS_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ATAN_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXP_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG2_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG10_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SQUARE_ROOT_FUNCTION' 
+								IN TYPEOF(arg))
+THEN 
+	RETURN (FALSE);
+END_IF;
+IF 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLUS_EXPRESSION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MULT_EXPRESSION' 
+								IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAXIMUM_FUNCTION'
+								IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINIMUM_FUNCTION'
+								IN TYPEOF(arg)) 
+THEN 
+	REPEAT i :=1 TO SIZEOF (
+			arg\multiple_arity_numeric_expression.operands);
+	IF NOT 
+		is_int_expr(arg\multiple_arity_numeric_expression.operands[i]) 
+	THEN 
+		RETURN (FALSE);
+	END_IF;
+	END_REPEAT;
+	RETURN (TRUE);
+END_IF;
+IF 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINUS_EXPRESSION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POWER_EXPRESSION' 
+								IN TYPEOF(arg))
+THEN 
+	RETURN (is_int_expr(arg\binary_numeric_expression.operands[1])
+		AND is_int_expr(arg\binary_numeric_expression.operands[2]));
+END_IF;
+IF	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIV_EXPRESSION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MOD_EXPRESSION' IN TYPEOF(arg))
+THEN 
+	RETURN(TRUE);	
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SLASH_EXPRESSION' IN TYPEOF(arg) 
+THEN 
+	RETURN (FALSE); 	
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	RETURN (TRUE); 
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INT_VALUE_FUNCTION' 
+								IN TYPEOF(arg) 
+	THEN 
+		RETURN (TRUE); 
+	ELSE 
+		RETURN (FALSE); 
+	END_IF;
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INTEGER_DEFINED_FUNCTION' 
+								IN TYPEOF(arg)
+THEN 
+	RETURN(TRUE) ;
+END_IF;
+IF'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REAL_DEFINED_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	RETURN(FALSE) ;
+END_IF ;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOOLEAN_DEFINED_FUNCTION' 
+								IN TYPEOF(arg)
+THEN 
+	RETURN(FALSE) ;
+END_IF ;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_DEFINED_FUNCTION' 
+								IN TYPEOF(arg)
+THEN 
+	RETURN (FALSE) ;
+END_IF ;
+
+RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION is_SQL_mappable
+	(arg: expression) : LOGICAL;
+LOCAL
+	i: INTEGER;
+END_LOCAL;
+
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIMPLE_NUMERIC_EXPRESSION' 
+								IN TYPEOF (arg) 
+THEN 
+	RETURN (TRUE);
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SQL_MAPPABLE_DEFINED_FUNCTION' 
+								IN TYPEOF (arg) 
+THEN 
+	RETURN (TRUE);
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINUS_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	RETURN (is_SQL_mappable(arg\unary_numeric_expression.operand)); 
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ABS_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIN_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COS_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TAN_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ASIN_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ACOS_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ATAN_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXP_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG2_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG10_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SQUARE_ROOT_FUNCTION' 
+								IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_FUNCTION' 
+								IN TYPEOF(arg))
+THEN 
+	RETURN (FALSE);
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLUS_EXPRESSION' IN TYPEOF(arg)) 
+		OR('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MULT_EXPRESSION' IN TYPEOF(arg)) 
+		OR('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAXIMUM_FUNCTION' 
+								IN TYPEOF(arg)) 
+		OR('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINIMUM_FUNCTION' 
+								IN TYPEOF(arg)) 
+THEN 
+	REPEAT i :=1 TO SIZEOF (
+			arg\multiple_arity_numeric_expression.operands);
+		IF NOT is_SQL_mappable(
+			arg\multiple_arity_numeric_expression.operands[i])
+		THEN 
+			RETURN (FALSE);
+		END_IF;
+	END_REPEAT;
+RETURN (TRUE);
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINUS_EXPRESSION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SLASH_EXPRESSION' IN 
+								TYPEOF(arg))
+THEN
+		RETURN (is_SQL_mappable(
+			arg\binary_numeric_expression.operands[1])
+		AND is_SQL_mappable(arg\binary_numeric_expression.operands[2]));
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIV_EXPRESSION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MOD_EXPRESSION' IN TYPEOF(arg)) 
+		OR('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POWER_EXPRESSION' 
+								IN TYPEOF(arg))
+THEN 
+	RETURN (FALSE); 	
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIMPLE_BOOLEAN_EXPRESSION' 
+								IN TYPEOF (arg) 
+THEN 
+	RETURN (TRUE);
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NOT_EXPRESSION' IN TYPEOF (arg) 
+THEN 
+	RETURN (is_SQL_mappable (arg\UNARY_GENERIC_EXPRESSION.OPERAND));
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ODD_FUNCTION'IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.XOR_EXPRESSION' 
+								IN TYPEOF (arg)) 
+THEN	
+	RETURN (FALSE);
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AND_EXPRESSION' IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OR_EXPRESSION' IN TYPEOF (arg)) 
+THEN
+	REPEAT i:=1 TO SIZEOF (
+			arg\MULTIPLE_ARITY_BOOLEAN_EXPRESSION.OPERANDS);
+		IF NOT is_SQL_mappable (
+			arg\MULTIPLE_ARITY_BOOLEAN_EXPRESSION.OPERANDS[i]) 
+		THEN 
+			RETURN (FALSE);
+		END_IF;
+	END_REPEAT;
+	RETURN (TRUE);
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EQUALS_EXPRESSION' IN TYPEOF (arg) 
+THEN
+	RETURN(is_SQL_mappable (
+			arg\BINARY_GENERIC_EXPRESSION.OPERANDS [1])
+		AND is_SQL_mappable(
+			arg\BINARY_GENERIC_EXPRESSION.OPERANDS [2]));
+END_IF;
+IF	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_EQUAL' IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_GREATER' 
+								IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_GREATER_EQUAL'
+								IN TYPEOF (arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_LESS' 
+								IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_LESS_EQUAL' 
+								IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_NOT_EQUAL' 
+								IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LIKE_EXPRESSION' 
+								IN TYPEOF (arg)) 
+THEN
+	RETURN (is_SQL_mappable (arg\COMPARISON_EXPRESSION.OPERANDS[1])
+		AND is_SQL_mappable (arg\COMPARISON_EXPRESSION.OPERANDS[2]));
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INTERVAL_EXPRESSION' IN TYPEOF(arg) 
+THEN 
+	RETURN (is_SQL_mappable(arg\interval_expression.interval_low) 
+		AND is_SQL_mappable(arg\interval_expression.interval_high)
+		AND is_SQL_mappable(arg\interval_expression.interval_item));
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NUMERIC_DEFINED_FUNCTION' 
+								IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOOLEAN_DEFINED_FUNCTION' 
+								IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_DEFINED_FUNCTION' 
+								IN TYPEOF(arg))  
+THEN 
+		RETURN (FALSE) ;
+END_IF;
+
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIMPLE_STRING_EXPRESSION' 
+								IN TYPEOF(ARG) 
+THEN 
+	RETURN (TRUE);
+END_IF;
+IF 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INDEX_EXPRESSION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBSTRING_EXPRESSION' 
+								IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONCAT_EXPRESSION' 
+								IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FORMAT_FUNCTION' 
+								IN TYPEOF(arg)) 
+THEN 
+	RETURN (FALSE);
+END_IF;
+
+	RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION item_in_context
+	(item: representation_item; cntxt: representation_context) : BOOLEAN;
+    LOCAL
+      y : BAG OF representation_item;
+    END_LOCAL;
+    -- If there is one or more representation using both the item
+    -- and cntxt return true.
+    IF SIZEOF(USEDIN(item,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION.ITEMS')
+      * cntxt.representations_in_context) > 0 THEN
+      RETURN (TRUE);
+      -- Determine the bag of representation_items that reference
+      -- item
+      ELSE y := QUERY(z <* USEDIN (item , '') |
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_ITEM' IN TYPEOF(z));
+        -- Ensure that the bag is not empty
+        IF SIZEOF(y) > 0 THEN
+        -- For each element in the bag
+        REPEAT i := 1 TO HIINDEX(y);
+          -- Check to see it is an item in the input cntxt.
+          IF item_in_context(y[i], cntxt) THEN
+            RETURN (TRUE);
+          END_IF;
+        END_REPEAT;
+      END_IF;
+    END_IF;
+    -- Return false when all possible branches have been checked
+    -- with no success.
+    RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION leap_year
+	(year: year_number) : BOOLEAN;
+IF ((((year MOD 4) = 0) AND ((year MOD 100) <> 0)) OR ((year MOD 400) = 0)) THEN
+    RETURN (TRUE);
+  ELSE
+    RETURN (FALSE);
+  END_IF;
+END_FUNCTION;
+
+FUNCTION list_face_loops
+	(f: face) : LIST [0:?] OF loop;
+   LOCAL
+     loops : LIST[0:?] OF loop := [];
+   END_LOCAL;
+   
+   REPEAT i := 1 TO SIZEOF(f.bounds);
+     loops := loops +(f.bounds[i].bound);
+   END_REPEAT;
+      
+   RETURN(loops);
+END_FUNCTION;
+
+FUNCTION list_of_topology_reversed
+	(a_list: list_of_reversible_topology_item) : list_of_reversible_topology_item;
+   LOCAL
+     the_reverse : list_of_reversible_topology_item;
+   END_LOCAL;
+    
+   the_reverse := [];
+   REPEAT i := 1 TO SIZEOF (a_list);
+     the_reverse := topology_reversed (a_list [i]) + the_reverse;
+   END_REPEAT;
+  
+   RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION list_to_array
+	(lis: LIST [0:?] OF GENERIC: T; low: INTEGER; u: INTEGER) : ARRAY [low:u] OF GENERIC: T;
+   LOCAL
+     n   : INTEGER;
+     res : ARRAY [low:u] OF GENERIC : T;
+   END_LOCAL;
+      
+   n := SIZEOF(lis);
+   IF (n <> (u-low +1)) THEN
+     RETURN(?);
+   ELSE
+     res := [lis[1] : n];
+     REPEAT i := 2 TO n;
+       res[low+i-1] := lis[i];
+     END_REPEAT;
+     RETURN(res);
+   END_IF;
+END_FUNCTION;
+
+FUNCTION list_to_set
+	(l: LIST [0:?] OF GENERIC: T) : SET [0:?] OF GENERIC: T;
+   LOCAL
+     s : SET OF GENERIC:T := [];
+   END_LOCAL;
+      
+   REPEAT i := 1 TO SIZEOF(l);
+     s := s + l[i];
+   END_REPEAT;
+   
+   RETURN(s);
+END_FUNCTION;
+
+FUNCTION make_array_of_array
+	(lis: LIST [1:?] OF LIST [1:?] OF GENERIC: T; low1: INTEGER; u1: INTEGER; low2: INTEGER; u2: INTEGER) : ARRAY [low1:u1] OF ARRAY [low2:u2] OF GENERIC: T;
+   LOCAL
+     res   : ARRAY[low1:u1] OF ARRAY [low2:u2] OF GENERIC : T;
+   END_LOCAL;
+
+(* Check input dimensions for consistency *)
+   IF (u1-low1+1) <> SIZEOF(lis) THEN
+     RETURN (?);
+   END_IF;
+   IF (u2 - low2 + 1 ) <> SIZEOF(lis[1]) THEN
+     RETURN (?) ;
+   END_IF;
+(* Initialise res with values from lis[1] *)
+   res := [list_to_array(lis[1], low2, u2) : (u1-low1 + 1)];
+   REPEAT i := 2 TO HIINDEX(lis);
+     IF (u2-low2+1) <> SIZEOF(lis[i]) THEN
+       RETURN (?);
+     END_IF;     
+     res[low1+i-1] := list_to_array(lis[i], low2, u2);
+   END_REPEAT; 
+   
+   RETURN (res);
+END_FUNCTION;
+
+FUNCTION mixed_loop_type_set
+	(l: SET [0:?] OF loop) : LOGICAL;
+    LOCAL
+      poly_loop_type: LOGICAL;
+    END_LOCAL;
+    IF(SIZEOF(l) <= 1) THEN
+      RETURN(FALSE);
+    END_IF;
+    poly_loop_type := ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLY_LOOP' IN TYPEOF(l[1]));
+    REPEAT i := 2 TO SIZEOF(l);
+      IF(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLY_LOOP' IN TYPEOF(l[i])) <> poly_loop_type)
+          THEN
+          RETURN(TRUE);
+       END_IF;
+    END_REPEAT;
+    RETURN(FALSE);
+END_FUNCTION;
+
+FUNCTION msb_shells
+	(brep: manifold_solid_brep) : SET [1:?] OF closed_shell;
+    LOCAL   
+      return_set: SET[1:?] OF closed_shell := [brep.outer];   
+    END_LOCAL;   
+
+    IF SIZEOF(QUERY(msbtype <* TYPEOF(brep) |   
+                 msbtype LIKE '*BREP_WITH_VOIDS'))  >= 1    
+          THEN   
+       return_set := return_set + brep\brep_with_voids.voids;   
+    END_IF;   
+   RETURN(return_set);
+END_FUNCTION;
+
+FUNCTION msf_curve_check
+	(cv: representation_item) : BOOLEAN;
+IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE',
+  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D'] * TYPEOF(cv)) > 1 THEN
+  RETURN(FALSE);
+END_IF;
+
+(* b_spline_curves shall not self-intersect
+ *)
+IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF (cv)) AND
+  (cv\b_spline_curve.self_intersect = FALSE)OR
+  (cv\b_spline_curve.self_intersect = UNKNOWN)) THEN
+  RETURN(TRUE);
+ELSE
+
+  (* conics and lines are valid curve types
+   *)
+  IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE'] 
+    * TYPEOF (cv)) = 1 THEN
+    RETURN(TRUE);
+  ELSE
+
+    (* a curve_replica shall reference a valid curve
+     *)
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA' IN TYPEOF(cv) THEN
+      RETURN (msf_curve_check(cv\curve_replica.parent_curve)); 
+    ELSE 
+ 
+      (* an offset_curve_3d shall not self-intersect and
+         shall reference a valid curve; a polyline is not a
+         valid basis_curve
+       *)
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D' IN TYPEOF (cv))
+        AND
+        ((cv\offset_curve_3d.self_intersect = FALSE) OR
+        (cv\offset_curve_3d.self_intersect = UNKNOWN))
+        AND
+        (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF
+        (cv\offset_curve_3d.basis_curve)))) THEN
+        RETURN (msf_curve_check(cv\offset_curve_3d.basis_curve)); 
+      ELSE 
+ 
+        (* a pcurve shall reference a valid curve and a valid
+           basis_surface
+         *)
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(cv) THEN 
+          RETURN ((msf_curve_check
+          (cv\pcurve.reference_to_curve\representation.items[1])) AND
+          (msf_surface_check(cv\pcurve.basis_surface)));
+        ELSE 
+ 
+          (* a surface_curve references a curve_3d and one or
+             two pcurves or one or two surfaces or one of
+             each; all of these references shall be valid
+           *)
+          IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF(cv) THEN 
+
+            (* if the curve reference is correct, check also the rest
+             *)
+            IF msf_curve_check(cv\surface_curve.curve_3d) THEN
+              REPEAT i := 1 TO SIZEOF
+              (cv\surface_curve.associated_geometry);
+
+                (* do for one or two associated_geometrys:
+                 *)
+                IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN 
+                  TYPEOF (cv\surface_curve.associated_geometry[i]) THEN  
+                  IF NOT msf_surface_check
+                    (cv\surface_curve.associated_geometry[i]) THEN  
+                    RETURN(FALSE);  
+                  END_IF;  
+                ELSE  
+                  IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF 
+                    (cv\surface_curve.associated_geometry[i]) THEN  
+                    IF NOT msf_curve_check
+                      (cv\surface_curve.associated_geometry[i]) THEN 
+                      RETURN(FALSE);  
+                    END_IF;  
+                  END_IF;  
+                END_IF; 
+              END_REPEAT;  
+              RETURN(TRUE);
+            END_IF; 
+          ELSE
+
+            (* a polyline shall have at least 3 points
+             *)
+            IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF(cv) THEN
+              IF (SIZEOF (cv\polyline.points) >= 3) THEN RETURN (TRUE);
+              END_IF;
+            END_IF;
+          END_IF; 
+        END_IF; 
+      END_IF; 
+    END_IF; 
+  END_IF; 
+END_IF; 
+(* FALSE is returned if the input parameter cv is not a valid curve.
+ *)
+RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION msf_surface_check
+	(surf: surface) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_SURFACE' IN TYPEOF(surf) THEN
+    RETURN(TRUE);
+  ELSE 
+
+    (* a swept_surface shall have a valid sweeping curve
+     *)
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_SURFACE' IN TYPEOF (surf) THEN 
+      RETURN (msf_curve_check(surf\swept_surface.swept_curve));  
+    ELSE 
+ 
+      (* an offset_surface shall not self-intersect and shall
+         reference a valid surface
+       *)
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_SURFACE' IN TYPEOF (surf)) AND
+        (surf\offset_surface.self_intersect = FALSE) OR 
+        (surf\offset_surface.self_intersect = UNKNOWN)) THEN
+        RETURN (msf_surface_check(surf\offset_surface.basis_surface));
+      ELSE 
+ 
+        (* a surface_replica shall have a valid parent surface
+         *)
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_REPLICA' IN TYPEOF(surf) THEN 
+          RETURN(msf_surface_check(surf\surface_replica.parent_surface)); 
+        ELSE
+
+          (* a b_spline_surface shall not self-intersect
+           *)
+          IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE' IN TYPEOF(surf)) AND
+            (surf\b_spline_surface.self_intersect = FALSE) OR
+            (surf\b_spline_surface.self_intersect = UNKNOWN)) THEN
+            RETURN(TRUE);
+          END_IF;
+        END_IF; 
+      END_IF; 
+    END_IF; 
+  END_IF; 
+  RETURN(FALSE);
+END_FUNCTION;
+
+FUNCTION nmsf_curve_check
+	(cv: representation_item) : BOOLEAN;
+IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE',
+   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA',
+   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D'] * TYPEOF(cv)) > 1
+ THEN RETURN(FALSE);
+ ELSE
+
+  (* b_spline_curves shall not self-intersect
+   *)
+  IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF (cv)) AND
+    (cv\b_spline_curve.self_intersect = FALSE) OR
+    (cv\b_spline_curve.self_intersect = UNKNOWN))
+  THEN RETURN(TRUE);
+  ELSE
+
+    (* conics and lines are valid curve types
+     *)
+    IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE'] * TYPEOF (cv)) = 1 THEN
+      RETURN(TRUE);
+    ELSE
+
+      (* a curve_replica shall reference a valid curve
+       *)
+      IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA' IN TYPEOF(cv) THEN
+        RETURN (nmsf_curve_check(cv\curve_replica.parent_curve)); 
+      ELSE 
+ 
+        (* an offset_curve_3d shall not self-intersect and
+           shall reference a valid curve; a polyline is not a
+           valid basis_curve
+         *)
+        IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D' IN TYPEOF (cv)) 
+          AND
+          ((cv\offset_curve_3d.self_intersect = FALSE) OR
+          (cv\offset_curve_3d.self_intersect = UNKNOWN))
+          AND
+          (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF
+          (cv\offset_curve_3d.basis_curve)))) THEN
+          RETURN (nmsf_curve_check(cv\offset_curve_3d.basis_curve)); 
+        ELSE 
+ 
+          (* a pcurve shall reference a valid curve and a valid
+             basis_surface
+           *)
+          IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(cv) THEN 
+            RETURN ((nmsf_curve_check
+            (cv\pcurve.reference_to_curve\representation.items[1]))
+            AND
+            (nmsf_surface_check(cv\pcurve.basis_surface)));
+          ELSE 
+ 
+            (* a surface_curve references a curve_3d and one or
+               two pcurves or one or two surfaces or one of
+               each; all of these references shall be valid
+             *)
+            IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF(cv) THEN 
+
+              (* if the curve reference is correct, check also the rest
+               *)
+              IF nmsf_curve_check(cv\surface_curve.curve_3d) THEN
+                REPEAT i := 1 TO SIZEOF
+                (cv\surface_curve.associated_geometry);
+
+                  (* do for one or two associated_geometrys:
+                   *)
+                  IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN 
+                    TYPEOF (cv\surface_curve.associated_geometry[i]) THEN  
+                    IF NOT nmsf_surface_check
+                      (cv\surface_curve.associated_geometry[i]) THEN  
+                      RETURN(FALSE);  
+                    END_IF;  
+                  ELSE  
+                    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF 
+                      (cv\surface_curve.associated_geometry[i]) THEN  
+                      IF NOT nmsf_curve_check
+                        (cv\surface_curve.associated_geometry[i]) THEN 
+                        RETURN(FALSE);  
+                      END_IF;  
+                    END_IF;  
+                  END_IF; 
+                END_REPEAT;  
+                RETURN(TRUE);
+              END_IF; 
+            ELSE
+
+              (* a polyline shall have at least 3 points 
+               *)
+              IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF(cv) THEN
+                IF (SIZEOF (cv\polyline.points) >= 3) THEN RETURN (TRUE);
+                END_IF;
+              END_IF;
+            END_IF; 
+          END_IF; 
+        END_IF; 
+      END_IF; 
+    END_IF; 
+  END_IF; 
+ END_IF; 
+ (* FALSE is returned if the input parameter cv is not a valid curve.
+  *)
+ RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION nmsf_surface_check
+	(surf: surface) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_SURFACE' IN TYPEOF(surf) THEN
+    RETURN(TRUE);
+  ELSE 
+
+    (* a swept_surface shall have a valid sweeping curve
+     *)
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_SURFACE' IN TYPEOF (surf) THEN 
+      RETURN (nmsf_curve_check(surf\swept_surface.swept_curve));  
+    ELSE 
+ 
+      (* an offset_surface shall not self-intersect and shall
+         reference a valid surface
+       *)
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_SURFACE' IN TYPEOF (surf)) AND
+        (surf\offset_surface.self_intersect = FALSE) OR 
+        (surf\offset_surface.self_intersect = UNKNOWN)) THEN
+        RETURN (nmsf_surface_check(surf\offset_surface.basis_surface));
+      ELSE 
+ 
+        (* a surface_replica shall have a valid parent surface
+         *)
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_REPLICA' IN TYPEOF(surf) THEN 
+          RETURN(nmsf_surface_check(surf\surface_replica.parent_surface)); 
+        ELSE
+
+          (* a b_spline_surface shall not self-intersect
+           *)
+          IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE' IN TYPEOF(surf))
+            AND
+            (surf\b_spline_surface.self_intersect = FALSE) OR
+            (surf\b_spline_surface.self_intersect = UNKNOWN)) THEN
+            RETURN(TRUE);
+          END_IF;
+        END_IF; 
+      END_IF; 
+    END_IF; 
+  END_IF; 
+  RETURN(FALSE);
+END_FUNCTION;
+
+FUNCTION normalise
+	(arg: vector_or_direction) : vector_or_direction;
+    LOCAL
+      ndim   : INTEGER;
+      v      : direction;
+      result : vector_or_direction;
+      vec    : vector;
+      mag    : REAL;
+    END_LOCAL;
+    
+    IF NOT EXISTS (arg) THEN
+      result := ?;
+  (* When function is called with invalid data a NULL result is returned *)
+    ELSE
+      ndim := arg.dim;
+      IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF(arg) THEN
+        BEGIN
+              v := dummy_gri || direction(arg\vector.orientation.direction_ratios);
+          IF arg.magnitude = 0.0 THEN
+            RETURN(?);
+          ELSE
+           vec := dummy_gri || vector (v, 1.0);
+          END_IF;
+        END;
+      ELSE
+        v := dummy_gri || direction (arg.direction_ratios);
+      END_IF;
+      mag := 0.0;
+      REPEAT  i := 1 TO ndim;
+        mag := mag + v.direction_ratios[i]*v.direction_ratios[i];
+      END_REPEAT;
+      IF mag > 0.0 THEN
+        mag := SQRT(mag);
+        REPEAT  i := 1 TO ndim;
+          v.direction_ratios[i] := v.direction_ratios[i]/mag;
+        END_REPEAT;
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF(arg) THEN
+          vec.orientation := v;
+          result := vec;
+        ELSE
+          result := v;
+        END_IF;
+      ELSE
+        RETURN(?);
+      END_IF;
+    END_IF;
+    RETURN (result);
+END_FUNCTION;
+
+FUNCTION open_shell_reversed
+	(a_shell: open_shell) : oriented_open_shell;
+   LOCAL
+     the_reverse : oriented_open_shell;
+   END_LOCAL;
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_OPEN_SHELL' IN TYPEOF (a_shell) ) THEN
+     the_reverse := dummy_tri ||
+                  connected_face_set (
+                      a_shell\connected_face_set.cfs_faces) ||
+                  open_shell () || oriented_open_shell(
+                    a_shell\oriented_open_shell.open_shell_element,
+                      (NOT (a_shell\oriented_open_shell.orientation)));
+   ELSE
+     the_reverse := dummy_tri ||
+                 connected_face_set (
+                     a_shell\connected_face_set.cfs_faces) ||
+                 open_shell () ||  oriented_open_shell (a_shell, FALSE);
+   END_IF;
+   RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION orthogonal_complement
+	(vec: direction) : direction;
+   LOCAL
+     result :  direction ;
+   END_LOCAL;
+
+   IF (vec.dim <> 2) OR NOT EXISTS (vec) THEN
+     RETURN(?);
+   ELSE
+     result := dummy_gri || direction([-vec.direction_ratios[2],
+                                          vec.direction_ratios[1]]);
+     RETURN(result);
+   END_IF;
+END_FUNCTION;
+
+FUNCTION path_head_to_tail
+	(a_path: path) : LOGICAL;
+   LOCAL
+     n : INTEGER;
+     p : LOGICAL := TRUE;
+   END_LOCAL;
+     
+     n := SIZEOF (a_path.edge_list);
+     REPEAT i := 2 TO n;
+       p := p AND (a_path.edge_list[i-1].edge_end :=:
+                   a_path.edge_list[i].edge_start);
+     END_REPEAT;
+     
+     RETURN (p);
+END_FUNCTION;
+
+FUNCTION path_reversed
+	(a_path: path) : oriented_path;
+  LOCAL
+    the_reverse : oriented_path ;
+  END_LOCAL;
+  IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_PATH' IN TYPEOF (a_path) ) THEN
+    the_reverse := dummy_tri ||
+       path(list_of_topology_reversed (a_path.edge_list)) ||
+          oriented_path(a_path\oriented_path.path_element,
+                          NOT(a_path\oriented_path.orientation)) ;
+  ELSE
+    the_reverse := dummy_tri ||
+                   path(list_of_topology_reversed (a_path.edge_list)) ||
+                       oriented_path(a_path, FALSE);
+  END_IF;
+
+  RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION scalar_times_vector
+	(scalar: REAL; vec: vector_or_direction) : vector;
+    LOCAL
+      v      : direction;
+      mag    : REAL;
+      result : vector;
+    END_LOCAL;
+ 
+    IF NOT EXISTS (scalar) OR NOT EXISTS (vec) THEN
+      RETURN (?) ;
+     ELSE
+      IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF (vec) THEN
+        v   := dummy_gri || direction(vec\vector.orientation.direction_ratios);
+        mag := scalar * vec.magnitude;
+      ELSE
+        v   := dummy_gri || direction(vec.direction_ratios);
+        mag := scalar;
+      END_IF;
+      IF (mag < 0.0 ) THEN
+        REPEAT i := 1 TO SIZEOF(v.direction_ratios);
+          v.direction_ratios[i] := -v.direction_ratios[i];
+        END_REPEAT;
+        mag := -mag;
+      END_IF;
+      result := dummy_gri || vector(normalise(v), mag);
+    END_IF;
+    RETURN (result);
+END_FUNCTION;
+
+FUNCTION second_proj_axis
+	(z_axis: direction; x_axis: direction; arg: direction) : direction;
+   LOCAL
+     y_axis : vector;
+     v      : direction;
+     temp   : vector;
+   END_LOCAL;
+   
+   IF NOT EXISTS(arg) THEN
+     v := dummy_gri || direction([0.0,1.0,0.0]);
+   ELSE
+     v := arg;
+   END_IF;
+   
+   temp   := scalar_times_vector(dot_product(v, z_axis), z_axis);
+   y_axis := vector_difference(v, temp);
+   temp   := scalar_times_vector(dot_product(v, x_axis), x_axis);
+   y_axis := vector_difference(y_axis, temp);
+   y_axis := normalise(y_axis);
+   RETURN(y_axis.orientation);
+END_FUNCTION;
+
+FUNCTION set_of_topology_reversed
+	(a_set: set_of_reversible_topology_item) : set_of_reversible_topology_item;
+   LOCAL
+     the_reverse : set_of_reversible_topology_item;
+   END_LOCAL;
+   
+   the_reverse := [];
+   REPEAT i := 1 TO SIZEOF (a_set);
+     the_reverse := the_reverse + topology_reversed (a_set [i]);
+   END_REPEAT;
+   
+   RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION shell_reversed
+	(a_shell: shell) : shell;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OPEN_SHELL' IN TYPEOF (a_shell) ) THEN
+     RETURN (open_shell_reversed (a_shell));
+   ELSE
+     IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CLOSED_SHELL' IN TYPEOF (a_shell) ) THEN
+       RETURN (closed_shell_reversed (a_shell));
+     ELSE
+       RETURN (?);
+     END_IF;
+   END_IF;
+END_FUNCTION;
+
+FUNCTION surface_condition_correlation
+	(pd: property_definition; rep: representation) : LOGICAL;
+CASE pd.name OF
+      'visual appearance', 'tactile appearance', 'contact ratio', 'hardness', 'treatment result', 'surface texture' : 
+	  RETURN(pd.name = rep.name);
+      OTHERWISE : RETURN(UNKNOWN);
+    END_CASE;
+END_FUNCTION;
+
+FUNCTION surface_weights_positive
+	(b: rational_b_spline_surface) : BOOLEAN;
+   LOCAL
+     result        : BOOLEAN := TRUE;
+   END_LOCAL;
+   
+   REPEAT i := 0 TO b.u_upper;
+     REPEAT j := 0 TO b.v_upper;
+       IF (b.weights[i][j] <= 0.0)  THEN
+         result := FALSE;
+         RETURN(result);
+       END_IF;
+     END_REPEAT;
+   END_REPEAT;
+   RETURN(result);
+END_FUNCTION;
+
+FUNCTION topology_reversed
+	(an_item: reversible_topology) : reversible_topology;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE' IN TYPEOF (an_item)) THEN
+     RETURN (edge_reversed (an_item));
+   END_IF;
+
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PATH' IN TYPEOF (an_item)) THEN
+     RETURN (path_reversed (an_item));
+   END_IF;
+
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BOUND' IN TYPEOF (an_item)) THEN
+     RETURN (face_bound_reversed (an_item));
+   END_IF;
+  
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE' IN TYPEOF (an_item)) THEN
+     RETURN (face_reversed (an_item));
+   END_IF;
+
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL' IN TYPEOF (an_item)) THEN
+     RETURN (shell_reversed (an_item));
+   END_IF;
+
+   IF ('SET' IN TYPEOF (an_item)) THEN
+     RETURN (set_of_topology_reversed (an_item));
+   END_IF;
+
+   IF ('LIST' IN TYPEOF (an_item)) THEN
+     RETURN (list_of_topology_reversed (an_item));
+   END_IF;
+
+   RETURN (?);
+END_FUNCTION;
+
+FUNCTION type_check_function
+	(the_type: GENERIC; sub_names: SET [0:?] OF STRING; criterion: INTEGER) : LOGICAL;
+IF ((NOT EXISTS(the_type)) OR (NOT ({0 <= criterion <= 3})) OR (SIZEOF(sub_names) = 0)) THEN
+      RETURN (UNKNOWN);
+    ELSE
+      CASE criterion OF 
+        0:
+          RETURN (SIZEOF(sub_names * TYPEOF(the_type)) > 0);
+        1:
+          RETURN (SIZEOF(sub_names * TYPEOF(the_type)) = 0);
+        2:
+          RETURN (SIZEOF(sub_names * TYPEOF(the_type)) = 1);
+        3:
+          RETURN (SIZEOF(sub_names * TYPEOF(the_type)) <= 1);
+      END_CASE;
+    END_IF;
+END_FUNCTION;
+
+FUNCTION using_items
+	(item: founded_item_select; checked_items: SET [0:?] OF founded_item_select) : SET [0:?] OF founded_item_select;
+    LOCAL
+      new_check_items    : SET OF founded_item_select;
+      result_items       : SET OF founded_item_select;
+      next_items         : SET OF founded_item_select;
+    END_LOCAL;
+    result_items := [];
+    new_check_items := checked_items + item;
+    -- Find the set of representation_items or founded_items
+    -- in which item is used directly.
+    next_items := QUERY(z <* bag_to_set( USEDIN(item , '')) |
+      ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_ITEM' IN TYPEOF(z)) OR
+      ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FOUNDED_ITEM'        IN TYPEOF(z)));
+    -- If the set of next_items is not empty;
+    IF SIZEOF(next_items) > 0 THEN
+      -- For each element in the set, find the using_items recursively
+      REPEAT i := 1 TO HIINDEX(next_items);
+        -- Check for loop in data model, i.e. one of the next_items
+        -- occurred earlier in the set of check_items;
+        IF NOT(next_items[i] IN new_check_items) THEN
+          result_items := result_items + next_items[i] +
+                          using_items(next_items[i],new_check_items);
+        END_IF;
+      END_REPEAT;
+    END_IF;
+    -- return the set of representation_items or founded_items
+    -- in which the input item is used directly and indirectly.
+    RETURN (result_items);
+END_FUNCTION;
+
+FUNCTION using_representations
+	(item: founded_item_select) : SET [0:?] OF representation;
+    LOCAL
+      results            : SET OF representation;
+      result_bag         : BAG OF representation;
+      intermediate_items : SET OF founded_item_select;
+    END_LOCAL;
+    -- Find the representations in which the item is used and add to the
+    -- results set.
+    results := [];
+    result_bag := USEDIN(item,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION.ITEMS');
+    IF SIZEOF(result_bag) > 0 THEN
+      REPEAT i := 1 TO HIINDEX(result_bag);
+        results := results + result_bag[i];
+      END_REPEAT;
+    END_IF;
+    -- Find all representation_items or founded_items
+    -- by which item is referenced directly or indirectly.
+    intermediate_items := using_items(item,[]);
+    -- If the set of intermediate items is not empty;
+    IF SIZEOF(intermediate_items) > 0 THEN
+      -- For each element in the set, add the
+      -- representations of that element.
+      REPEAT i := 1 TO HIINDEX(intermediate_items);
+        result_bag := USEDIN(intermediate_items[i],
+                      'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION.ITEMS');
+        IF SIZEOF(result_bag) > 0 THEN
+          REPEAT j := 1 TO HIINDEX(result_bag);
+            results := results + result_bag[j];
+          END_REPEAT;
+        END_IF;
+      END_REPEAT;
+    END_IF;
+    -- Return the set of representation in which the input item is
+    -- used directly and indirectly (through intervening
+    -- representation_items or founded items).
+    RETURN (results);
+END_FUNCTION;
+
+FUNCTION valid_basis_curve_in_2d_wireframe
+	(crv: curve) : BOOLEAN;
+IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE',
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE',
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE',
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE'] * 
+               TYPEOF (crv)) = 1
+    THEN RETURN (TRUE);
+  ELSE
+    -- if the curve is a trimmed_curve
+    IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TRIMMED_CURVE') 
+    IN TYPEOF (crv)) THEN
+      -- if a line, parabola, or hyperbola is being trimmed, then valid
+      IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+                   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PARABOLA',
+                   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.HYPERBOLA'] *
+           TYPEOF(crv\trimmed_curve.basis_curve)) = 1
+        THEN RETURN (TRUE);
+      -- otherwise, recursively check basis_curve
+      ELSE RETURN (valid_basis_curve_in_2d_wireframe
+                         (crv\trimmed_curve.basis_curve));
+      END_IF;
+    ELSE
+      -- recursively check the offset_curve basis curve
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_2D') 
+      IN TYPEOF (crv))
+        THEN RETURN (valid_basis_curve_in_2d_wireframe
+                           (crv\offset_curve_2d.basis_curve));
+      ELSE
+        -- recursively check the curve_replica parent curve
+        IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA') 
+        IN TYPEOF (crv))
+          THEN RETURN (valid_basis_curve_in_2d_wireframe
+                         (crv\curve_replica.parent_curve));
+        ELSE
+          -- recursively check the composite_curve segments
+          IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE') 
+          IN TYPEOF (crv)) THEN
+            RETURN (SIZEOF (QUERY (ccs <* crv\composite_curve.segments |
+                      NOT (valid_basis_curve_in_2d_wireframe
+                             (ccs.parent_curve)))) = 0);
+          END_IF;
+        END_IF;
+      END_IF;
+    END_IF;
+  END_IF;
+  RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION valid_calendar_date
+	(date: calendar_date) : LOGICAL;
+CASE date.month_component OF
+    1  : RETURN({ 1 <= date.day_component <= 31 });
+    2  : BEGIN
+           IF (leap_year(date.year_component)) THEN
+             RETURN({ 1 <= date.day_component <= 29 });
+           ELSE
+             RETURN({ 1 <= date.day_component <= 28 });
+           END_IF;
+         END;
+    3  : RETURN({ 1 <= date.day_component <= 31 });
+    4  : RETURN({ 1 <= date.day_component <= 30 });
+    5  : RETURN({ 1 <= date.day_component <= 31 });
+    6  : RETURN({ 1 <= date.day_component <= 30 });
+    7  : RETURN({ 1 <= date.day_component <= 31 });
+    8  : RETURN({ 1 <= date.day_component <= 31 });
+    9  : RETURN({ 1 <= date.day_component <= 30 });
+    10 : RETURN({ 1 <= date.day_component <= 31 });
+    11 : RETURN({ 1 <= date.day_component <= 30 });
+    12 : RETURN({ 1 <= date.day_component <= 31 });
+  END_CASE;
+  RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION valid_datum_target_parameters
+	(pdf: placed_datum_target_feature) : BOOLEAN;
+LOCAL
+
+rep_set : SET OF representation := [] ;
+
+parameter_representations: SET OF representation;
+END_LOCAL;
+
+
+REPEAT i := 1 TO HIINDEX(pdf.representation_associations);
+rep_set := rep_set + pdf.representation_associations[i].used_representation;
+END_REPEAT;
+ 
+parameter_representations := QUERY(rep <* rep_set |
+('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION_WITH_PARAMETERS' IN
+TYPEOF(rep)));
+
+
+IF (SIZEOF( QUERY( srwp <* parameter_representations |
+          (SIZEOF( QUERY( i <* srwp.items |
+          (i.name='orientation') AND
+          ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLACEMENT' IN TYPEOF(i)))) = 1))) <> 1) THEN
+   RETURN(FALSE);
+END_IF;
+
+CASE pdf\shape_aspect.description OF
+'point': RETURN(SIZEOF(QUERY( srwp <* parameter_representations |
+              (SIZEOF(srwp.items) = 1))) = 1);
+
+'circle': RETURN((SIZEOF( QUERY( srwp <* parameter_representations |
+              (SIZEOF(srwp.items) = 2))) = 1) AND
+             (SIZEOF( QUERY( srwp <* parameter_representations |
+              (SIZEOF( QUERY( i <* srwp.items |
+                (i.name='target diameter') AND
+                (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM',
+		   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE_WITH_UNIT']*TYPEOF(i)
+                 ) = 2) )) = 1))) = 1));
+
+'line': RETURN(SIZEOF( QUERY( srwp <* parameter_representations |
+              (SIZEOF( QUERY( i <* srwp.items |
+                (i.name='target length') AND
+                (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM',
+		'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE_WITH_UNIT']*TYPEOF(i)
+                 ) = 2) )) = 1))) = 1);
+
+'rectangle': RETURN((SIZEOF( QUERY( srwp <* parameter_representations |
+              (SIZEOF(srwp.items)= 3))) = 1) AND
+             (SIZEOF( QUERY( srwp <* parameter_representations |
+              (SIZEOF( QUERY( i <* srwp.items |
+                (i.name='target length') AND
+                (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM',
+		'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE_WITH_UNIT']*TYPEOF(i)
+                 ) = 2))) = 1))) = 1) AND
+              (SIZEOF( QUERY( srwp <* parameter_representations |
+               (SIZEOF( QUERY( i <* srwp.items |
+                 (i.name='target width') AND
+                 (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM',
+ 		'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE_WITH_UNIT']*TYPEOF(i)
+                  ) = 2))) = 1) )) = 1));
+OTHERWISE : RETURN(FALSE);
+END_CASE;
+END_FUNCTION;
+
+FUNCTION valid_geometrically_bounded_wf_curve
+	(crv: curve) : BOOLEAN;
+IF SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE' ] * TYPEOF (crv)) = 1 THEN 
+ RETURN (TRUE);
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TRIMMED_CURVE' IN TYPEOF (crv) THEN 
+ IF SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PARABOLA', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.HYPERBOLA' ] * TYPEOF (crv\trimmed_curve.basis_curve)) = 1 THEN 
+ RETURN (TRUE);
+ ELSE 
+ RETURN (valid_geometrically_bounded_wf_curve(crv\trimmed_curve.basis_curve));
+ END_IF ;
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D' IN TYPEOF (crv) THEN 
+ RETURN (valid_geometrically_bounded_wf_curve(crv\offset_curve_3d.basis_curve));
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA' IN TYPEOF (crv) THEN 
+ RETURN (valid_geometrically_bounded_wf_curve(crv\curve_replica.parent_curve));
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE' IN TYPEOF (crv) THEN 
+ RETURN ( SIZEOF ( 
+QUERY ( ccs <* crv\composite_curve.segments| NOT valid_geometrically_bounded_wf_curve(ccs.parent_curve) )) = 0);
+ END_IF ;
+ END_IF ;
+ END_IF ;
+ END_IF ;
+ END_IF ;
+ RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION valid_geometrically_bounded_wf_point
+	(pnt: point) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (pnt) THEN 
+ RETURN (TRUE);
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE' IN TYPEOF (pnt) THEN 
+ RETURN (valid_geometrically_bounded_wf_curve(pnt\point_on_curve.basis_curve));
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_REPLICA' IN TYPEOF (pnt) THEN 
+ RETURN (valid_geometrically_bounded_wf_point(pnt\point_replica.parent_pt));
+ END_IF ;
+ END_IF ;
+ END_IF ;
+ RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION valid_measure_value
+	(m: measure_value) : BOOLEAN;
+IF ('REAL' IN TYPEOF (m)) THEN
+    RETURN (m > 0.0);
+    ELSE
+     IF ('INTEGER' IN TYPEOF (m)) THEN
+      RETURN (m > 0);
+      ELSE
+        RETURN (TRUE);
+      END_IF;
+    END_IF;
+END_FUNCTION;
+
+FUNCTION valid_selected_instance_representation
+	(pd: product_definition_or_assembly_relationship) : LOGICAL;
+    LOCAL
+      properties: SET OF property_definition := bag_to_set(QUERY( prd<* USEDIN ( pd ,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROPERTY_DEFINITION.DEFINITION' ) | 
+        (prd.name = 'occurrence selection' )));
+      property_definition_representations: SET OF property_definition_representation := bag_to_set(QUERY ( pdr <* USEDIN ( properties[1] , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROPERTY_DEFINITION_REPRESENTATION.DEFINITION') | 
+	    ( pdr.used_representation.name = 'selection criteria' )));
+      selected_representation: representation;
+    END_LOCAL;
+    IF (SIZEOF( properties)<>1) THEN
+	  RETURN(FALSE);
+    END_IF;
+    IF (SIZEOF(property_definition_representations)<>1) THEN
+	  RETURN(FALSE);
+    END_IF;
+    selected_representation := property_definition_representations[1]\property_definition_representation.used_representation;
+    IF (SIZEOF(selected_representation\representation.items) <1) OR (SIZEOF(selected_representation\representation.items) >2) THEN
+	  RETURN(FALSE);
+    END_IF;
+    IF (SIZEOF ( QUERY ( i <* selected_representation\representation.items |
+	  ( SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' ,
+      'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_RANGE']* TYPEOF ( i ) ) = 1) AND
+      ( i.name = 'selection quantity' ))) <> 1 ) THEN
+      RETURN(FALSE);
+    END_IF;
+    IF (SIZEOF ( QUERY ( i <* selected_representation\representation.items |
+	  ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF ( i ) ) AND
+ 	  ( i.name = 'selection control' )))> 1) THEN
+	  RETURN(FALSE);
+    END_IF; --the selection control is not specified then the quantity shall be a qualified_representation_item or a value_range
+    IF (SIZEOF ( QUERY ( i <* selected_representation\representation.items |
+      ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF( i ) ) AND
+      ( i.name = 'selection control' ) ))= 0) AND 
+      (SIZEOF ( QUERY ( i <* selected_representation\representation.items |
+      ( i.name = 'selection quantity' ) AND  
+      ( SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.QUALIFIED_REPRESENTATION_ITEM' ,
+      'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_RANGE']* TYPEOF ( i ) ) =0 ))) > 0 ) THEN
+	  RETURN(FALSE);
+    END_IF;
+    RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION valid_time
+	(time: local_time) : BOOLEAN;
+IF EXISTS(time.second_component) THEN
+    RETURN (EXISTS(time.minute_component));
+  ELSE
+    RETURN (TRUE);
+  END_IF;
+END_FUNCTION;
+
+FUNCTION valid_units
+	(m: measure_with_unit) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MASS_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TIME_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_CURRENT_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.THERMODYNAMIC_TEMPERATURE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CELSIUS_TEMPERATURE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AMOUNT_OF_SUBSTANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LUMINOUS_INTENSITY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_ANGLE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AREA_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(2.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VOLUME_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(3.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RATIO_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_PLANE_ANGLE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ACCELERATION_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 1.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+     IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CAPACITANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( -2.0, -1.0, 4.0, 1.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_CHARGE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 0.0, 0.0, 1.0, 1.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONDUCTANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+          IF derive_dimensional_exponents(m.unit_component) <> 
+            dimensional_exponents( -2.0, -1.0, 3.0, 2.0, 0.0, 0.0, 0.0 ) THEN
+            RETURN (FALSE);
+          END_IF;
+    END_IF;
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_POTENTIAL_MEASURE' IN TYPEOF(m.value_component) THEN
+          IF derive_dimensional_exponents(m.unit_component) <> 
+            dimensional_exponents( 2.0, 1.0, -3.0, -1.0, 0.0, 0.0, 0.0 ) THEN
+            RETURN (FALSE);
+          END_IF;
+    END_IF;    
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ENERGY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 2.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FORCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 1.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FREQUENCY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 0.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ILLUMINANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( -2.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+     IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INDUCTANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 2.0, 1.0, -2.0, -2.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LUMINOUS_FLUX_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAGNETIC_FLUX_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 2.0, 1.0, -2.0, -1.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+     IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAGNETIC_FLUX_DENSITY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 0.0, 1.0, -2.0, -1.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POWER_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 2.0, 1.0, -3.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESSURE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( -1.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RESISTANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 2.0, 1.0, -3.0, -2.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VELOCITY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 1.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RADIOACTIVITY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents(0.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ABSORBED_DOSE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents(2.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DOSE_EQUIVALENT_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents(2.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION valid_wireframe_edge_curve
+	(crv: curve) : BOOLEAN;
+IF SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' ] * TYPEOF (crv)) = 1 THEN 
+ RETURN (TRUE);
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA' IN TYPEOF (crv) THEN 
+ RETURN (valid_wireframe_edge_curve(crv\curve_replica.parent_curve));
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D' IN TYPEOF (crv) THEN 
+ RETURN (valid_wireframe_edge_curve(crv\offset_curve_3d.basis_curve));
+ END_IF ;
+ END_IF ;
+ END_IF ;
+ RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION valid_wireframe_vertex_point
+	(pnt: point) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (pnt) THEN 
+ RETURN (TRUE);
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_REPLICA' IN TYPEOF (pnt) THEN 
+ RETURN (valid_wireframe_vertex_point(pnt\point_replica.parent_pt));
+ END_IF ;
+ END_IF ;
+ RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION validate_countersink_radii
+	(cskhole: solid_with_stepped_round_hole_and_conical_transitions) : BOOLEAN;
+  LOCAL
+    i,j             : INTEGER;
+    n               : INTEGER := 1 +
+                        cskhole\solid_with_stepped_round_hole.segments;
+    smaller, larger : positive_length_measure;
+  END_LOCAL;
+
+  REPEAT i := 1 TO SIZEOF(cskhole.conical_transitions);
+
+  -- First check whether transition i applies to the entry of the hole or 
+  -- the exit of a through hole - those cases only need to be checked for 
+  -- the sign of the cone apex angle.
+
+  IF (((cskhole.conical_transitions[i].transition_number = 1)
+       AND (cskhole.conical_transitions[i].cone_apex_angle < 0))
+    XOR ((cskhole.conical_transitions[i].transition_number = n)
+         AND (cskhole.conical_transitions[i].cone_apex_angle > 0))) 
+  THEN RETURN(FALSE); 
+  ELSE
+    IF ((cskhole.conical_transitions[i].transition_number <> 1)
+      AND (cskhole.conical_transitions[i].transition_number <> n))
+    THEN
+
+  -- For all remaining transitions, check that the cone base radius 
+  -- lies in the range of validity.
+
+
+      BEGIN
+        j := cskhole.conical_transitions[i].transition_number;
+        IF cskhole\solid_with_stepped_round_hole.segment_radii[j] 
+          > cskhole\solid_with_stepped_round_hole.segment_radii[j-1]
+        THEN 
+          BEGIN
+            IF (cskhole.conical_transitions[i].cone_apex_angle > 0)
+            THEN RETURN(FALSE);
+            END_IF;
+            larger 
+              := cskhole\solid_with_stepped_round_hole.segment_radii[j];
+            smaller 
+              := cskhole\solid_with_stepped_round_hole.segment_radii[j-1];
+          END;
+        ELSE
+          BEGIN
+            IF (cskhole.conical_transitions[i].cone_apex_angle < 0)
+            THEN RETURN(FALSE);
+            END_IF;
+            larger  
+              := cskhole\solid_with_stepped_round_hole.segment_radii[j-1];
+            smaller 
+              := cskhole\solid_with_stepped_round_hole.segment_radii[j];
+          END;
+        END_IF; 
+        IF ((cskhole.conical_transitions[i].cone_base_radius > larger)
+          OR (cskhole.conical_transitions[i].cone_base_radius < smaller))
+        THEN RETURN(FALSE);
+        END_IF;
+      END;
+    END_IF;
+  END_IF;
+  END_REPEAT;
+  RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION value_range_aggregate_rep_item
+	(agg: AGGREGATE OF representation_item) : BOOLEAN;
+BEGIN 
+  IF (SIZEOF(QUERY(i1 <* agg | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i1)) )) = 6) THEN 
+	  RETURN (TRUE); 
+   ELSE 
+	RETURN (FALSE); 
+   END_IF; 
+   END;
+END_FUNCTION;
+
+FUNCTION value_range_wr1
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN
+      IF (SIZEOF(agg) = 2) AND ((SIZEOF(QUERY (i1 <* agg | (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF
+        (i1)))) = 2) OR
+        (SIZEOF(QUERY (i2 <* agg | (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_REPRESENTATION_ITEM' IN TYPEOF
+        (i2)))) = 2)) 
+      THEN
+        RETURN(TRUE);
+      ELSE
+        RETURN(FALSE);
+      END_IF;
+    END;
+END_FUNCTION;
+
+FUNCTION value_range_wr2
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN
+      IF ((SIZEOF(QUERY (i <* agg | (i\representation_item.name = 'upper limit'))) = 1)
+        AND (SIZEOF(QUERY (i <* agg | (i\representation_item.name = 'lower limit'))) = 1))
+      THEN
+        RETURN(TRUE);
+      ELSE
+        RETURN(FALSE);
+      END_IF;
+    END;
+END_FUNCTION;
+
+FUNCTION value_range_wr3
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN
+      IF (SIZEOF(QUERY(i1 <* agg |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF (i1)) AND
+        (SIZEOF (QUERY (i2 <* agg |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF (i2)) AND
+        (i1 :<>: i2) AND (i1\measure_with_unit.unit_component :=: i2\measure_with_unit.unit_component))) = 1))) = 2)
+      THEN
+        RETURN (TRUE);
+      ELSE
+        RETURN (FALSE);
+      END_IF;
+    END;
+END_FUNCTION;
+
+FUNCTION vector_difference
+	(arg1: vector_or_direction; arg2: vector_or_direction) : vector;
+    LOCAL
+      result          : vector;
+      res, vec1, vec2 : direction;
+      mag, mag1, mag2 : REAL;
+      ndim            : INTEGER;
+    END_LOCAL;
+ 
+    IF ((NOT EXISTS (arg1)) OR (NOT EXISTS (arg2))) OR (arg1.dim <> arg2.dim)
+        THEN
+      RETURN (?) ;
+     ELSE
+      BEGIN
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF(arg1) THEN
+          mag1 := arg1.magnitude;
+          vec1 := arg1\vector.orientation;
+        ELSE
+          mag1 := 1.0;
+          vec1 := arg1;
+        END_IF;
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF(arg2) THEN
+          mag2 := arg2.magnitude;
+          vec2 := arg2\vector.orientation;
+        ELSE
+          mag2 := 1.0;
+          vec2 := arg2;
+        END_IF;
+        vec1 := normalise (vec1);
+        vec2 := normalise (vec2);
+        ndim := SIZEOF(vec1.direction_ratios);
+        mag := 0.0;
+        res := dummy_gri || direction(vec1.direction_ratios);
+        REPEAT i := 1 TO ndim;
+          res.direction_ratios[i] := mag1*vec1.direction_ratios[i] -
+                                      mag2*vec2.direction_ratios[i];
+          mag := mag + (res.direction_ratios[i]*res.direction_ratios[i]);
+        END_REPEAT;
+        IF (mag > 0.0 ) THEN
+        result := dummy_gri || vector( res, SQRT(mag));
+        ELSE
+          result := dummy_gri || vector( vec1,  0.0);
+        END_IF;
+      END;
+    END_IF;
+    RETURN (result);
+END_FUNCTION;
+
+END_SCHEMA; 
+
diff --git a/libs/assimp/scripts/StepImporter/schema_ap203e2_mim_lf.exp b/libs/assimp/scripts/StepImporter/schema_ap203e2_mim_lf.exp
new file mode 100644
index 0000000..7935304
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/schema_ap203e2_mim_lf.exp
@@ -0,0 +1,16378 @@
+(*
+  $Id: mim_lf.exp,v 1.43 2009/09/10 20:08:09 darla Exp $
+  ISO TC184/SC4/WG3 N2635 - ISO/TS 10303-403 AP203 configuration controlled 3d design of mechanical parts and assemblies - EXPRESS MIM Long form 
+  Supersedes ISO TC184/SC4/WG3 N2464
+*) 
+
+SCHEMA Ap203_configuration_controlled_3d_design_of_mechanical_parts_and_assemblies_mim_lf;
+
+
+CONSTANT
+	deprecated_constructed_data_types : SET [0:?] OF STRING := ['approved_item',
+       'certified_item', 
+       'change_request_item', 
+       'contracted_item', 
+       'cc_classified_item', 
+       'date_time_item', 
+       'cc_person_organization_item', 
+       'cc_specified_item', 
+       'start_request_item', 
+       'work_item'];
+
+
+	deprecated_entity_data_types : SET [0:?] OF STRING := ['cc_design_approval',
+       'cc_design_certification', 
+       'cc_design_contract', 
+       'cc_design_date_and_time_assignment', 
+       'cc_design_person_and_organization_assignment', 
+       'cc_design_security_classification', 
+       'cc_design_specification_reference', 
+       'change', 
+       'change_request', 
+       'design_context', 
+       'design_make_from_relationship', 
+       'mechanical_context', 
+       'start_request', 
+       'start_work', 
+       'supplied_part_relationship'];
+
+
+	deprecated_interfaced_data_types : SET [0:?] OF STRING := ['document_with_class',
+       'ordinal_date', 
+       'product_definition_formation_with_specified_source', 
+       'week_of_year_and_day_date'];
+
+
+	dummy_gri : geometric_representation_item := representation_item('')||
+                                   geometric_representation_item();
+
+
+	dummy_tri : topological_representation_item := representation_item('')||
+                   topological_representation_item();
+
+
+	pre_defined_picture_representation_types : SET [0:?] OF STRING := [ 'JPEG', 'PNG', 'TIFF', 'BMP', 'GIF'];
+
+
+
+END_CONSTANT;
+
+TYPE absorbed_dose_measure = REAL;
+END_TYPE;
+
+TYPE acceleration_measure = REAL;
+END_TYPE;
+
+TYPE action_items = SELECT (
+	action_directive,
+	certification_item,
+	characterized_object,
+	classification_item,
+	configuration_effectivity,
+	document_reference_item,
+	identification_item,
+	organization,
+	person_and_organization,
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	requirement_assigned_item);
+END_TYPE;
+
+TYPE action_method_items = SELECT (
+	product,
+	product_definition_formation);
+END_TYPE;
+
+TYPE action_request_item = SELECT (
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	property_definition,
+	versioned_action_request);
+END_TYPE;
+
+TYPE ahead_or_behind = ENUMERATION OF (
+	ahead,
+	exact,
+	behind );
+END_TYPE;
+
+TYPE amount_of_substance_measure = REAL;
+END_TYPE;
+
+TYPE angle_direction_reference_select = SELECT (
+	direction,
+	curve,
+	point_path);
+END_TYPE;
+
+TYPE angle_direction_reference_with_a2p3d_select = SELECT (
+	angle_direction_reference_select,
+	axis2_placement_3d);
+END_TYPE;
+
+TYPE angle_relator = ENUMERATION OF (
+	equal,
+	large,
+	small );
+END_TYPE;
+
+TYPE annotation_plane_element = SELECT (
+	draughting_callout,
+	styled_item);
+END_TYPE;
+
+TYPE annotation_representation_select = SELECT (
+	presentation_area,
+	presentation_view,
+	symbol_representation);
+END_TYPE;
+
+TYPE annotation_symbol_occurrence_item = SELECT (
+	annotation_symbol,
+	defined_symbol);
+END_TYPE;
+
+TYPE annotation_text_occurrence_item = SELECT (
+	text_literal,
+	annotation_text,
+	annotation_text_character,
+	composite_text);
+END_TYPE;
+
+TYPE approval_item = SELECT (
+	action,
+	action_directive,
+	alternate_product_relationship,
+	applied_action_assignment,
+	applied_usage_right,
+	assembly_component_usage_substitute,
+	certification,
+	configuration_effectivity,
+	configuration_item,
+	contract,
+	date,
+	directed_action,
+	document,
+	document_file,
+	effectivity,
+	executed_action,
+	general_property_relationship,
+	group,
+	group_relationship,
+	information_usage_right,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	representation,
+	requirement_assignment,
+	security_classification,
+	shape_aspect_relationship,
+	versioned_action_request);
+END_TYPE;
+
+TYPE approved_item = SELECT (
+	certification,
+	change,
+	change_request,
+	configuration_effectivity,
+	configuration_item,
+	contract,
+	product,
+	security_classification,
+	start_request,
+	start_work);
+END_TYPE;
+
+TYPE area_measure = REAL;
+END_TYPE;
+
+TYPE area_or_view = SELECT (
+	presentation_area,
+	presentation_view);
+END_TYPE;
+
+TYPE attribute_classification_item = SELECT (
+	action_directive,
+	action_method,
+	action_property,
+	action_property_representation,
+	action_relationship,
+	action_request_solution,
+	action_request_status,
+	alternate_product_relationship,
+	applied_action_assignment,
+	applied_action_request_assignment,
+	applied_approval_assignment,
+	applied_certification_assignment,
+	applied_document_reference,
+	applied_document_usage_constraint_assignment,
+	applied_effectivity_assignment,
+	applied_event_occurrence_assignment,
+	applied_external_identification_assignment,
+	applied_identification_assignment,
+	applied_organization_assignment,
+	applied_organizational_project_assignment,
+	applied_person_and_organization_assignment,
+	approval,
+	approval_person_organization,
+	approval_relationship,
+	approval_status,
+	certification,
+	context_dependent_unit,
+	contract,
+	date_and_time_assignment,
+	date_assignment,
+	derived_unit,
+	descriptive_representation_item,
+	document_file,
+	document_relationship,
+	effectivity,
+	event_occurrence_relationship,
+	executed_action,
+	general_property,
+	general_property_relationship,
+	group,
+	group_relationship,
+	information_right,
+	information_usage_right,
+	language,
+	measure_representation_item,
+	measure_with_unit,
+	named_unit,
+	organization_relationship,
+	organizational_address,
+	organizational_project_relationship,
+	person_and_organization,
+	person_and_organization_address,
+	product,
+	product_category,
+	product_concept,
+	product_concept_context,
+	product_definition,
+	product_definition_context,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	property_definition,
+	property_definition_relationship,
+	property_definition_representation,
+	representation,
+	representation_context,
+	representation_item,
+	security_classification,
+	time_interval_relationship,
+	uncertainty_measure_with_unit,
+	usage_association,
+	versioned_action_request);
+END_TYPE;
+
+TYPE attribute_language_item = SELECT (
+	alternate_product_relationship,
+	application_context,
+	applied_certification_assignment,
+	applied_document_reference,
+	applied_document_usage_constraint_assignment,
+	applied_external_identification_assignment,
+	applied_identification_assignment,
+	applied_organizational_project_assignment,
+	applied_security_classification_assignment,
+	approval,
+	approval_relationship,
+	approval_status,
+	assembly_component_usage_substitute,
+	attribute_value_assignment,
+	certification,
+	certification_type,
+	configuration_design,
+	configuration_item,
+	contract,
+	date_role,
+	date_time_role,
+	descriptive_representation_item,
+	document_relationship,
+	document_usage_role,
+	effectivity,
+	effectivity_relationship,
+	event_occurrence,
+	external_source,
+	general_property,
+	general_property_relationship,
+	geometric_representation_item,
+	geometric_tolerance,
+	identification_role,
+	information_right,
+	information_usage_right,
+	make_from_usage_option,
+	mapped_item,
+	multi_language_attribute_assignment,
+	object_role,
+	organization_relationship,
+	organization_role,
+	organizational_project,
+	organizational_project_relationship,
+	organizational_project_role,
+	person_and_organization,
+	person_and_organization_role,
+	product,
+	product_concept,
+	product_concept_relationship,
+	product_definition,
+	product_definition_context,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	product_definition_shape,
+	product_related_product_category,
+	property_definition,
+	representation,
+	security_classification,
+	security_classification_assignment,
+	shape_aspect,
+	shape_aspect_relationship,
+	shape_representation,
+	time_interval_role,
+	topological_representation_item,
+	uncertainty_measure_with_unit,
+	uncertainty_qualifier,
+	usage_association);
+END_TYPE;
+
+TYPE attribute_type = SELECT (
+	label,
+	text);
+END_TYPE;
+
+TYPE axis2_placement = SELECT (
+	axis2_placement_2d,
+	axis2_placement_3d);
+END_TYPE;
+
+TYPE b_spline_curve_form = ENUMERATION OF (
+	polyline_form,
+	circular_arc,
+	elliptic_arc,
+	parabolic_arc,
+	hyperbolic_arc,
+	unspecified );
+END_TYPE;
+
+TYPE b_spline_surface_form = ENUMERATION OF (
+	plane_surf,
+	cylindrical_surf,
+	conical_surf,
+	spherical_surf,
+	toroidal_surf,
+	surf_of_revolution,
+	ruled_surf,
+	generalised_cone,
+	quadric_surf,
+	surf_of_linear_extrusion,
+	unspecified );
+END_TYPE;
+
+TYPE base_solid_select = SELECT (
+	solid_model,
+	csg_primitive,
+	boolean_result);
+WHERE
+	WR1 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRIMITIVE_2D' IN TYPEOF(SELF));
+END_TYPE;
+
+TYPE blend_end_condition_select = SELECT (
+	point_on_curve,
+	edge_curve,
+	vertex);
+END_TYPE;
+
+TYPE blend_radius_variation_type = ENUMERATION OF (
+	linear_blend,
+	cubic_blend,
+	unspecified_blend );
+END_TYPE;
+
+TYPE boolean_operand = SELECT (
+	solid_model,
+	half_space_solid,
+	csg_primitive,
+	boolean_result);
+END_TYPE;
+
+TYPE boolean_operator = ENUMERATION OF (
+	union,
+	intersection,
+	difference );
+END_TYPE;
+
+TYPE box_characteristic_select = SELECT (
+	box_height,
+	box_width,
+	box_slant_angle,
+	box_rotate_angle);
+END_TYPE;
+
+TYPE box_height = positive_ratio_measure;
+END_TYPE;
+
+TYPE box_rotate_angle = plane_angle_measure;
+END_TYPE;
+
+TYPE box_slant_angle = plane_angle_measure;
+END_TYPE;
+
+TYPE box_width = positive_ratio_measure;
+END_TYPE;
+
+TYPE camera_model_d3_multi_clipping_interection_select = SELECT (
+	camera_model_d3_multi_clipping_union,
+	plane);
+END_TYPE;
+
+TYPE camera_model_d3_multi_clipping_union_select = SELECT (
+	camera_model_d3_multi_clipping_intersection,
+	plane);
+END_TYPE;
+
+TYPE capacitance_measure = REAL;
+END_TYPE;
+
+TYPE category_usage_item = SELECT (
+	product_class);
+END_TYPE;
+
+TYPE cc_classified_item = SELECT (
+	assembly_component_usage,
+	product_definition_formation);
+END_TYPE;
+
+TYPE cc_person_organization_item = SELECT (
+	change,
+	change_request,
+	configuration_item,
+	contract,
+	product,
+	product_definition,
+	product_definition_formation,
+	security_classification,
+	start_request,
+	start_work);
+END_TYPE;
+
+TYPE cc_specified_item = SELECT (
+	product_definition,
+	shape_aspect);
+END_TYPE;
+
+TYPE celsius_temperature_measure = REAL;
+END_TYPE;
+
+TYPE central_or_parallel = ENUMERATION OF (
+	central,
+	parallel );
+END_TYPE;
+
+TYPE certification_item = SELECT (
+	alternate_product_relationship,
+	make_from_usage_option,
+	product_definition_formation,
+	product_definition_formation_relationship);
+END_TYPE;
+
+TYPE certified_item = SELECT (
+	supplied_part_relationship);
+END_TYPE;
+
+TYPE change_request_item = SELECT (
+	product_definition_formation);
+END_TYPE;
+
+TYPE character_spacing_select = SELECT (
+	length_measure,
+	ratio_measure,
+	measure_with_unit,
+	descriptive_measure);
+END_TYPE;
+
+TYPE character_style_select = SELECT (
+	character_glyph_style_stroke,
+	character_glyph_style_outline,
+	text_style_for_defined_font);
+END_TYPE;
+
+TYPE characterized_action_definition = SELECT (
+	action,
+	action_method,
+	action_method_relationship,
+	action_relationship);
+END_TYPE;
+
+TYPE characterized_definition = SELECT (
+	characterized_object,
+	characterized_product_definition,
+	shape_definition);
+END_TYPE;
+
+TYPE characterized_material_property = SELECT (
+	material_property_representation,
+	product_material_composition_relationship);
+END_TYPE;
+
+TYPE characterized_product_composition_value = SELECT (
+	measure_with_unit);
+END_TYPE;
+
+TYPE characterized_product_definition = SELECT (
+	product_definition,
+	product_definition_relationship);
+END_TYPE;
+
+TYPE class_usage_effectivity_context_item = SELECT (
+	product_definition);
+END_TYPE;
+
+TYPE classification_item = SELECT (
+	action,
+	action_directive,
+	action_method,
+	action_property,
+	action_relationship,
+	action_request_solution,
+	action_request_status,
+	address,
+	alternate_product_relationship,
+	applied_action_assignment,
+	applied_action_request_assignment,
+	applied_approval_assignment,
+	applied_certification_assignment,
+	applied_contract_assignment,
+	applied_date_and_time_assignment,
+	applied_date_assignment,
+	applied_document_reference,
+	applied_document_usage_constraint_assignment,
+	applied_effectivity_assignment,
+	applied_event_occurrence_assignment,
+	applied_external_identification_assignment,
+	applied_identification_assignment,
+	applied_organization_assignment,
+	applied_organizational_project_assignment,
+	applied_person_and_organization_assignment,
+	applied_security_classification_assignment,
+	approval,
+	approval_person_organization,
+	approval_relationship,
+	approval_status,
+	assembly_component_usage_substitute,
+	calendar_date,
+	certification,
+	characterized_class,
+	characterized_object,
+	class,
+	classified_item,
+	configuration_item,
+	context_dependent_unit,
+	contract,
+	conversion_based_unit,
+	date_and_time,
+	date_and_time_assignment,
+	date_assignment,
+	derived_unit,
+	descriptive_representation_item,
+	directed_action,
+	document_file,
+	document_relationship,
+	effectivity,
+	event_occurrence,
+	executed_action,
+	general_property,
+	general_property_relationship,
+	group,
+	identification_assignment,
+	information_right,
+	information_usage_right,
+	language,
+	measure_representation_item,
+	measure_with_unit,
+	multi_language_attribute_assignment,
+	named_unit,
+	organization,
+	organization_relationship,
+	organizational_address,
+	organizational_project,
+	organizational_project_relationship,
+	person,
+	person_and_organization_address,
+	product,
+	product_concept,
+	product_definition,
+	product_definition_context,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	property_definition,
+	property_definition_representation,
+	representation,
+	representation_context,
+	representation_item,
+	security_classification,
+	uncertainty_measure_with_unit,
+	usage_association,
+	versioned_action_request);
+END_TYPE;
+
+TYPE classified_item = SELECT (
+	product,
+	product_definition,
+	product_definition_formation);
+END_TYPE;
+
+TYPE compound_item_definition = SELECT (
+	list_representation_item,
+	set_representation_item);
+END_TYPE;
+
+TYPE conductance_measure = REAL;
+END_TYPE;
+
+TYPE configuration_design_item = SELECT (
+	product_definition,
+	product_definition_formation);
+END_TYPE;
+
+TYPE configured_effectivity_context_item = SELECT (
+	product_concept_feature_association);
+END_TYPE;
+
+TYPE configured_effectivity_item = SELECT (
+	product_definition);
+END_TYPE;
+
+TYPE constructive_geometry_representation_or_shape_represenation = SELECT (
+	constructive_geometry_representation,
+	shape_representation);
+END_TYPE;
+
+TYPE context_dependent_measure = REAL;
+END_TYPE;
+
+TYPE contract_item = SELECT (
+	action_directive,
+	alternate_product_relationship,
+	directed_action,
+	executed_action,
+	information_usage_right,
+	organization,
+	person_and_organization,
+	product,
+	product_definition_formation);
+END_TYPE;
+
+TYPE contracted_item = SELECT (
+	product_definition_formation);
+END_TYPE;
+
+TYPE count_measure = NUMBER;
+END_TYPE;
+
+TYPE csg_primitive = SELECT (
+	sphere,
+	block,
+	right_angular_wedge,
+	torus,
+	right_circular_cone,
+	right_circular_cylinder);
+END_TYPE;
+
+TYPE csg_select = SELECT (
+	boolean_result,
+	csg_primitive);
+END_TYPE;
+
+TYPE curve_font_or_scaled_curve_font_select = SELECT (
+	curve_style_font_select,
+	curve_style_font_and_scaling);
+END_TYPE;
+
+TYPE curve_on_surface = SELECT (
+	pcurve,
+	surface_curve,
+	composite_curve_on_surface);
+END_TYPE;
+
+TYPE curve_or_annotation_curve_occurrence = SELECT (
+	curve,
+	annotation_curve_occurrence);
+END_TYPE;
+
+TYPE curve_or_render = SELECT (
+	curve_style,
+	curve_style_rendering);
+END_TYPE;
+
+TYPE curve_style_font_select = SELECT (
+	curve_style_font,
+	pre_defined_curve_font,
+	externally_defined_curve_font);
+END_TYPE;
+
+TYPE date_and_time_item = SELECT (
+	action,
+	action_directive,
+	applied_action_assignment,
+	applied_organization_assignment,
+	applied_person_and_organization_assignment,
+	applied_security_classification_assignment,
+	approval_person_organization,
+	certification,
+	contract,
+	directed_action,
+	document,
+	document_file,
+	event_occurrence,
+	executed_action,
+	information_usage_right,
+	organizational_project,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship,
+	rule_action,
+	security_classification,
+	versioned_action_request);
+END_TYPE;
+
+TYPE date_item = SELECT (
+	action,
+	action_directive,
+	applied_action_assignment,
+	applied_organization_assignment,
+	applied_person_and_organization_assignment,
+	applied_security_classification_assignment,
+	approval_person_organization,
+	certification,
+	contract,
+	directed_action,
+	document,
+	document_file,
+	event_occurrence,
+	executed_action,
+	information_usage_right,
+	organizational_project,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship,
+	security_classification,
+	versioned_action_request);
+END_TYPE;
+
+TYPE date_time_item = SELECT (
+	approval_person_organization,
+	certification,
+	change,
+	change_request,
+	contract,
+	product_definition,
+	security_classification,
+	start_request,
+	start_work);
+END_TYPE;
+
+TYPE date_time_or_event_occurrence = SELECT (
+	date_time_select,
+	event_occurrence);
+END_TYPE;
+
+TYPE date_time_select = SELECT (
+	date,
+	date_and_time,
+	local_time);
+END_TYPE;
+
+TYPE day_in_month_number = INTEGER;
+WHERE
+	WR1 : {1 <= SELF <= 31};
+END_TYPE;
+
+TYPE day_in_week_number = INTEGER;
+WHERE
+	WR1 : { 1 <= SELF <= 7 };
+END_TYPE;
+
+TYPE day_in_year_number = INTEGER;
+WHERE
+	WR1 : {1 <= SELF <= 366};
+END_TYPE;
+
+TYPE defined_symbol_select = SELECT (
+	pre_defined_symbol,
+	externally_defined_symbol);
+END_TYPE;
+
+TYPE derived_property_select = SELECT (
+	property_definition,
+	action_property);
+END_TYPE;
+
+TYPE description_attribute_select = SELECT (
+	action_request_solution,
+	application_context,
+	approval_role,
+	configuration_design,
+	date_role,
+	date_time_role,
+	context_dependent_shape_representation,
+	effectivity,
+	external_source,
+	organization_role,
+	person_and_organization_role,
+	person_and_organization,
+	property_definition_representation,
+	representation);
+END_TYPE;
+
+TYPE descriptive_measure = STRING;
+END_TYPE;
+
+TYPE dimension_count = INTEGER;
+WHERE
+	WR1 : SELF > 0;
+END_TYPE;
+
+TYPE dimension_extent_usage = ENUMERATION OF (
+	origin,
+	target );
+END_TYPE;
+
+TYPE dimensional_characteristic = SELECT (
+	dimensional_location,
+	dimensional_size);
+END_TYPE;
+
+TYPE direction_count_select = SELECT (
+	u_direction_count,
+	v_direction_count);
+END_TYPE;
+
+TYPE document_identifier_assigned_item = SELECT (
+	document);
+END_TYPE;
+
+TYPE document_reference_item = SELECT (
+	action_method,
+	applied_external_identification_assignment,
+	assembly_component_usage,
+	characterized_class,
+	characterized_object,
+	configuration_item,
+	descriptive_representation_item,
+	dimensional_size,
+	executed_action,
+	externally_defined_dimension_definition,
+	externally_defined_item,
+	group,
+	group_relationship,
+	information_right,
+	information_usage_right,
+	material_designation,
+	measure_representation_item,
+	product,
+	product_category,
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	property_definition,
+	representation,
+	representation_item,
+	rule_set,
+	shape_aspect,
+	shape_aspect_relationship,
+	usage_association,
+	versioned_action_request);
+END_TYPE;
+
+TYPE dose_equivalent_measure = REAL;
+END_TYPE;
+
+TYPE draughting_callout_element = SELECT (
+	annotation_text_occurrence,
+	annotation_symbol_occurrence,
+	annotation_curve_occurrence);
+END_TYPE;
+
+TYPE draughting_model_item_association_select = SELECT (
+	annotation_occurrence,
+	draughting_callout);
+END_TYPE;
+
+TYPE draughting_model_item_select = SELECT (
+	mapped_item,
+	styled_item,
+	axis2_placement,
+	camera_model,
+	draughting_callout);
+END_TYPE;
+
+TYPE draughting_titled_item = SELECT (
+	drawing_revision,
+	drawing_sheet_revision);
+END_TYPE;
+
+TYPE effectivity_item = SELECT (
+	assembly_component_usage_substitute,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship,
+	product_definition_substitute);
+END_TYPE;
+
+TYPE electric_charge_measure = REAL;
+END_TYPE;
+
+TYPE electric_current_measure = REAL;
+END_TYPE;
+
+TYPE electric_potential_measure = REAL;
+END_TYPE;
+
+TYPE energy_measure = REAL;
+END_TYPE;
+
+TYPE event_occurrence_item = SELECT (
+	organizational_project);
+END_TYPE;
+
+TYPE external_identification_item = SELECT (
+	action_relationship,
+	action_request_status,
+	applied_organization_assignment,
+	applied_person_and_organization_assignment,
+	approval,
+	approval_status,
+	date_and_time_assignment,
+	date_assignment,
+	document_file,
+	external_source,
+	externally_defined_class,
+	externally_defined_context_dependent_unit,
+	externally_defined_conversion_based_unit,
+	externally_defined_general_property,
+	externally_defined_picture_representation_item,
+	externally_defined_representation_item,
+	organizational_address,
+	product_definition,
+	security_classification,
+	trimmed_curve,
+	versioned_action_request);
+END_TYPE;
+
+TYPE fill_area_style_tile_shape_select = SELECT (
+	fill_area_style_tile_curve_with_style,
+	fill_area_style_tile_coloured_region,
+	fill_area_style_tile_symbol_with_style,
+	pre_defined_tile,
+	externally_defined_tile);
+END_TYPE;
+
+TYPE fill_style_select = SELECT (
+	fill_area_style_colour,
+	externally_defined_tile_style,
+	fill_area_style_tiles,
+	externally_defined_hatch_style,
+	fill_area_style_hatching);
+END_TYPE;
+
+TYPE font_select = SELECT (
+	pre_defined_text_font,
+	externally_defined_text_font,
+	text_font);
+END_TYPE;
+
+TYPE force_measure = REAL;
+END_TYPE;
+
+TYPE founded_item_select = SELECT (
+	founded_item,
+	representation_item);
+END_TYPE;
+
+TYPE frequency_measure = REAL;
+END_TYPE;
+
+TYPE generalized_surface_select = SELECT (
+	surface,
+	face_surface,
+	surfaced_open_shell);
+END_TYPE;
+
+TYPE geometric_item_specific_usage_select = SELECT (
+	shape_aspect,
+	shape_aspect_relationship);
+END_TYPE;
+
+TYPE geometric_set_select = SELECT (
+	point,
+	curve,
+	surface);
+END_TYPE;
+
+TYPE groupable_item = SELECT (
+	geometric_representation_item,
+	group_relationship,
+	mapped_item,
+	package_product_concept_feature,
+	product_concept_feature,
+	product_definition,
+	product_definition_formation,
+	property_definition_representation,
+	representation,
+	representation_item,
+	representation_relationship_with_transformation,
+	shape_aspect,
+	shape_aspect_relationship,
+	shape_representation_relationship,
+	styled_item,
+	topological_representation_item);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GROUP' IN TYPEOF(SELF));
+END_TYPE;
+
+TYPE hour_in_day = INTEGER;
+WHERE
+	WR1 : { 0 <= SELF < 24 };
+END_TYPE;
+
+TYPE id_attribute_select = SELECT (
+	action,
+	address,
+	product_category,
+	property_definition,
+	shape_aspect,
+	shape_aspect_relationship,
+	application_context,
+	group,
+	organizational_project,
+	representation);
+END_TYPE;
+
+TYPE identification_item = SELECT (
+	approval_status,
+	characterized_class,
+	class,
+	configuration_item,
+	contract,
+	dimensional_size,
+	document_file,
+	general_property,
+	group,
+	group_relationship,
+	information_right,
+	information_usage_right,
+	material_designation,
+	organization,
+	person_and_organization,
+	product,
+	product_category,
+	product_class,
+	product_concept,
+	product_concept_feature,
+	product_definition,
+	product_definition_formation,
+	product_identification,
+	representation,
+	rule_set,
+	security_classification,
+	security_classification_level,
+	shape_aspect_relationship,
+	shape_representation,
+	usage_association);
+END_TYPE;
+
+TYPE identifier = STRING;
+END_TYPE;
+
+TYPE illuminance_measure = REAL;
+END_TYPE;
+
+TYPE inductance_measure = REAL;
+END_TYPE;
+
+TYPE instance_usage_context_select = SELECT (
+	product_definition_relationship,
+	product_definition_usage);
+END_TYPE;
+
+TYPE invisibility_context = SELECT (
+	draughting_model,
+	presentation_representation,
+	presentation_set);
+END_TYPE;
+
+TYPE invisible_item = SELECT (
+	draughting_callout,
+	presentation_layer_assignment,
+	representation,
+	styled_item);
+END_TYPE;
+
+TYPE ir_usage_item = action_items;
+WHERE
+	wr1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONFIGURATION_EFFECTIVITY' IN TYPEOF(SELF));
+END_TYPE;
+
+TYPE knot_type = ENUMERATION OF (
+	uniform_knots,
+	quasi_uniform_knots,
+	piecewise_bezier_knots,
+	unspecified );
+END_TYPE;
+
+TYPE label = STRING;
+END_TYPE;
+
+TYPE layered_item = SELECT (
+	presentation_representation,
+	representation_item);
+END_TYPE;
+
+TYPE length_measure = REAL;
+END_TYPE;
+
+TYPE limit_condition = ENUMERATION OF (
+	maximum_material_condition,
+	least_material_condition,
+	regardless_of_feature_size );
+END_TYPE;
+
+TYPE list_of_reversible_topology_item = LIST [0:?] OF reversible_topology_item;
+END_TYPE;
+
+TYPE list_representation_item = LIST [1:?] OF representation_item;
+END_TYPE;
+
+TYPE luminous_flux_measure = REAL;
+END_TYPE;
+
+TYPE luminous_intensity_measure = REAL;
+END_TYPE;
+
+TYPE magnetic_flux_density_measure = REAL;
+END_TYPE;
+
+TYPE magnetic_flux_measure = REAL;
+END_TYPE;
+
+TYPE marker_select = SELECT (
+	marker_type,
+	pre_defined_marker);
+END_TYPE;
+
+TYPE marker_type = ENUMERATION OF (
+	dot,
+	x,
+	plus,
+	asterisk,
+	ring,
+	square,
+	triangle );
+END_TYPE;
+
+TYPE mass_measure = REAL;
+END_TYPE;
+
+TYPE measure_value = SELECT (
+	absorbed_dose_measure,
+	dose_equivalent_measure,
+	radioactivity_measure,
+	acceleration_measure,
+	amount_of_substance_measure,
+	area_measure,
+	celsius_temperature_measure,
+	context_dependent_measure,
+	count_measure,
+	descriptive_measure,
+	capacitance_measure,
+	electric_charge_measure,
+	conductance_measure,
+	electric_current_measure,
+	electric_potential_measure,
+	energy_measure,
+	magnetic_flux_density_measure,
+	force_measure,
+	frequency_measure,
+	illuminance_measure,
+	inductance_measure,
+	length_measure,
+	luminous_flux_measure,
+	luminous_intensity_measure,
+	magnetic_flux_measure,
+	mass_measure,
+	numeric_measure,
+	non_negative_length_measure,
+	parameter_value,
+	plane_angle_measure,
+	positive_length_measure,
+	positive_plane_angle_measure,
+	positive_ratio_measure,
+	power_measure,
+	pressure_measure,
+	ratio_measure,
+	resistance_measure,
+	solid_angle_measure,
+	thermodynamic_temperature_measure,
+	time_measure,
+	velocity_measure,
+	volume_measure);
+END_TYPE;
+
+TYPE mechanical_design_and_draughting_relationship_select = SELECT (
+	draughting_model,
+	mechanical_design_geometric_presentation_representation,
+	mechanical_design_presentation_representation_with_draughting,
+	mechanical_design_shaded_presentation_representation,
+	shape_representation);
+END_TYPE;
+
+TYPE mechanical_design_geometric_presentation_area_items = SELECT (
+	axis2_placement,
+	mapped_item);
+END_TYPE;
+
+TYPE mechanical_design_geometric_presentation_representation_items = SELECT (
+	axis2_placement,
+	camera_model_d3,
+	mapped_item,
+	styled_item);
+END_TYPE;
+
+TYPE message = STRING;
+END_TYPE;
+
+TYPE minute_in_hour = INTEGER;
+WHERE
+	WR1 : { 0 <= SELF <= 59 };
+END_TYPE;
+
+TYPE month_in_year_number = INTEGER;
+WHERE
+	WR1 : { 1 <= SELF <= 12 };
+END_TYPE;
+
+TYPE multi_language_attribute_item = SELECT (
+	alternate_product_relationship,
+	application_context,
+	applied_certification_assignment,
+	applied_document_reference,
+	applied_document_usage_constraint_assignment,
+	applied_external_identification_assignment,
+	applied_identification_assignment,
+	applied_organizational_project_assignment,
+	approval,
+	approval_relationship,
+	approval_status,
+	assembly_component_usage_substitute,
+	attribute_value_assignment,
+	certification,
+	certification_type,
+	colour,
+	configuration_design,
+	configuration_item,
+	contract,
+	date_role,
+	date_time_role,
+	descriptive_representation_item,
+	document_relationship,
+	document_usage_role,
+	effectivity,
+	effectivity_relationship,
+	event_occurrence,
+	external_source,
+	general_property,
+	general_property_relationship,
+	geometric_representation_item,
+	geometric_tolerance,
+	identification_role,
+	information_right,
+	information_usage_right,
+	make_from_usage_option,
+	mapped_item,
+	object_role,
+	organization_relationship,
+	organization_role,
+	organizational_project,
+	organizational_project_relationship,
+	organizational_project_role,
+	person_and_organization,
+	person_and_organization_role,
+	product,
+	product_concept,
+	product_concept_relationship,
+	product_definition,
+	product_definition_context,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	product_definition_relationship,
+	product_definition_shape,
+	product_related_product_category,
+	property_definition,
+	representation,
+	representation_relationship,
+	security_classification,
+	security_classification_assignment,
+	shape_aspect,
+	shape_aspect_relationship,
+	shape_representation,
+	time_interval_role,
+	topological_representation_item,
+	uncertainty_measure_with_unit,
+	usage_association);
+END_TYPE;
+
+TYPE name_attribute_select = SELECT (
+	action_request_solution,
+	address,
+	configuration_design,
+	context_dependent_shape_representation,
+	derived_unit,
+	effectivity,
+	person_and_organization,
+	product_definition,
+	product_definition_substitute,
+	property_definition_representation);
+END_TYPE;
+
+TYPE name_item = SELECT (
+	assembly_component_usage,
+	external_class_library,
+	group,
+	group_relationship,
+	product,
+	product_definition);
+END_TYPE;
+
+TYPE non_negative_length_measure = length_measure;
+WHERE
+	WR1 : SELF >= 0.0;
+END_TYPE;
+
+TYPE nonnegative_integer = INTEGER;
+WHERE
+	nonnegativity : SELF >= 0;
+END_TYPE;
+
+TYPE null_style = ENUMERATION OF (
+	null );
+END_TYPE;
+
+TYPE numeric_measure = NUMBER;
+END_TYPE;
+
+TYPE organization_item = SELECT (
+	action,
+	action_directive,
+	alternate_product_relationship,
+	applied_action_assignment,
+	applied_classification_assignment,
+	applied_identification_assignment,
+	applied_security_classification_assignment,
+	approval,
+	assembly_component_usage_substitute,
+	certification,
+	class,
+	configuration_item,
+	contract,
+	document_file,
+	executed_action,
+	general_property,
+	information_usage_right,
+	organizational_project,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	property_definition,
+	rule_action,
+	security_classification,
+	shape_representation,
+	versioned_action_request);
+END_TYPE;
+
+TYPE orientation_basis_select = SELECT (
+	axis2_placement_3d,
+	min_and_major_ply_orientation_basis);
+END_TYPE;
+
+TYPE parameter_value = REAL;
+END_TYPE;
+
+TYPE pcurve_or_surface = SELECT (
+	pcurve,
+	surface);
+END_TYPE;
+
+TYPE person_and_organization_item = SELECT (
+	action,
+	action_directive,
+	alternate_product_relationship,
+	applied_action_assignment,
+	applied_classification_assignment,
+	applied_identification_assignment,
+	applied_security_classification_assignment,
+	approval,
+	assembly_component_usage_substitute,
+	certification,
+	configuration_item,
+	contract,
+	document_file,
+	executed_action,
+	general_property,
+	information_usage_right,
+	organizational_project,
+	person_and_organization,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_formation_relationship,
+	property_definition,
+	rule_action,
+	security_classification,
+	shape_representation,
+	versioned_action_request);
+END_TYPE;
+
+TYPE person_organization_select = SELECT (
+	person,
+	organization,
+	person_and_organization);
+END_TYPE;
+
+TYPE picture_representation_item_select = SELECT (
+	styled_item,
+	planar_box,
+	axis2_placement_2d);
+END_TYPE;
+
+TYPE plane_angle_measure = REAL;
+END_TYPE;
+
+TYPE plane_or_planar_box = SELECT (
+	plane,
+	planar_box);
+END_TYPE;
+
+TYPE point_and_vector_member = SELECT (
+	point,
+	direction);
+END_TYPE;
+
+TYPE point_and_vector_members = LIST [2:3] OF point_and_vector_member;
+END_TYPE;
+
+TYPE point_path_members = LIST [1:?] OF point_and_vector;
+END_TYPE;
+
+TYPE positive_integer = nonnegative_integer;
+WHERE
+	positivity : SELF > 0;
+END_TYPE;
+
+TYPE positive_length_measure = non_negative_length_measure;
+WHERE
+	WR1 : SELF > 0.0;
+END_TYPE;
+
+TYPE positive_plane_angle_measure = plane_angle_measure;
+WHERE
+	WR1 : SELF > 0.0;
+END_TYPE;
+
+TYPE positive_ratio_measure = ratio_measure;
+WHERE
+	WR1 : SELF > 0.0;
+END_TYPE;
+
+TYPE power_measure = REAL;
+END_TYPE;
+
+TYPE preferred_surface_curve_representation = ENUMERATION OF (
+	curve_3d,
+	pcurve_s1,
+	pcurve_s2 );
+END_TYPE;
+
+TYPE presentable_text = STRING;
+WHERE
+	WR1 : control_characters_free(SELF);
+END_TYPE;
+
+TYPE presentation_representation_select = SELECT (
+	presentation_representation,
+	presentation_set);
+END_TYPE;
+
+TYPE presentation_size_assignment_select = SELECT (
+	presentation_view,
+	presentation_area,
+	area_in_set);
+END_TYPE;
+
+TYPE presentation_style_select = SELECT (
+	point_style,
+	curve_style,
+	surface_style_usage,
+	symbol_style,
+	fill_area_style,
+	text_style,
+	null_style);
+END_TYPE;
+
+TYPE presented_item_select = SELECT (
+	action,
+	action_method,
+	action_relationship,
+	product_concept,
+	product_concept_feature,
+	product_concept_feature_category,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship);
+END_TYPE;
+
+TYPE pressure_measure = REAL;
+END_TYPE;
+
+TYPE product_definition_or_assembly_relationship = SELECT (
+	assembly_component_usage,
+	product_definition);
+END_TYPE;
+
+TYPE product_definition_or_breakdown_element_usage = SELECT (
+	product_definition,
+	product_definition_usage);
+END_TYPE;
+
+TYPE product_definition_or_product_definition_relationship = SELECT (
+	product_definition,
+	product_definition_usage);
+END_TYPE;
+
+TYPE product_or_formation_or_definition = SELECT (
+	product,
+	product_definition_formation,
+	product_definition);
+END_TYPE;
+
+TYPE project_item = SELECT (
+	executed_action,
+	product_concept);
+END_TYPE;
+
+TYPE radioactivity_measure = REAL;
+END_TYPE;
+
+TYPE ratio_measure = REAL;
+END_TYPE;
+
+TYPE rendering_properties_select = SELECT (
+	surface_style_reflectance_ambient,
+	surface_style_transparent);
+END_TYPE;
+
+TYPE represented_definition = SELECT (
+	general_property,
+	property_definition,
+	property_definition_relationship,
+	shape_aspect,
+	shape_aspect_relationship);
+END_TYPE;
+
+TYPE requirement_assigned_item = SELECT (
+	configuration_item,
+	descriptive_representation_item,
+	product,
+	product_class,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship,
+	representation,
+	shape_aspect);
+END_TYPE;
+
+TYPE requirement_satisfaction_item = SELECT (
+	requirement_assigned_item);
+END_TYPE;
+
+TYPE requirement_source_item = SELECT (
+	characterized_object,
+	group,
+	group_relationship,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_relationship,
+	shape_aspect);
+END_TYPE;
+
+TYPE resistance_measure = REAL;
+END_TYPE;
+
+TYPE reversible_topology = SELECT (
+	reversible_topology_item,
+	list_of_reversible_topology_item,
+	set_of_reversible_topology_item);
+END_TYPE;
+
+TYPE reversible_topology_item = SELECT (
+	edge,
+	path,
+	face,
+	face_bound,
+	closed_shell,
+	open_shell);
+END_TYPE;
+
+TYPE role_select = SELECT (
+	action_assignment,
+	action_request_assignment,
+	approval_assignment,
+	approval_date_time,
+	certification_assignment,
+	contract_assignment,
+	document_reference,
+	effectivity_assignment,
+	group_assignment,
+	name_assignment,
+	security_classification_assignment);
+END_TYPE;
+
+TYPE rule_superseded_item = SELECT (
+	product_definition_formation);
+END_TYPE;
+
+TYPE second_in_minute = REAL;
+WHERE
+	WR1 : { 0 <= SELF <= 60.0 };
+END_TYPE;
+
+TYPE security_classification_item = SELECT (
+	assembly_component_usage,
+	document,
+	document_file,
+	make_from_usage_option,
+	product,
+	product_definition,
+	product_definition_formation,
+	product_definition_usage);
+END_TYPE;
+
+TYPE set_of_reversible_topology_item = SET [0:?] OF reversible_topology_item;
+END_TYPE;
+
+TYPE set_representation_item = SET [1:?] OF representation_item;
+END_TYPE;
+
+TYPE shading_curve_method = ENUMERATION OF (
+	constant_colour,
+	linear_colour );
+END_TYPE;
+
+TYPE shading_surface_method = ENUMERATION OF (
+	constant_shading,
+	colour_shading,
+	dot_shading,
+	normal_shading );
+END_TYPE;
+
+TYPE shape_definition = SELECT (
+	product_definition_shape,
+	shape_aspect,
+	shape_aspect_relationship);
+END_TYPE;
+
+TYPE shell = SELECT (
+	vertex_shell,
+	wire_shell,
+	open_shell,
+	closed_shell);
+END_TYPE;
+
+TYPE si_prefix = ENUMERATION OF (
+	exa,
+	peta,
+	tera,
+	giga,
+	mega,
+	kilo,
+	hecto,
+	deca,
+	deci,
+	centi,
+	milli,
+	micro,
+	nano,
+	pico,
+	femto,
+	atto );
+END_TYPE;
+
+TYPE si_unit_name = ENUMERATION OF (
+	metre,
+	gram,
+	second,
+	ampere,
+	kelvin,
+	mole,
+	candela,
+	radian,
+	steradian,
+	hertz,
+	newton,
+	pascal,
+	joule,
+	watt,
+	coulomb,
+	volt,
+	farad,
+	ohm,
+	siemens,
+	weber,
+	tesla,
+	henry,
+	degree_Celsius,
+	lumen,
+	lux,
+	becquerel,
+	gray,
+	sievert );
+END_TYPE;
+
+TYPE size_select = SELECT (
+	positive_length_measure,
+	measure_with_unit,
+	descriptive_measure);
+END_TYPE;
+
+TYPE sketch_basis_select = SELECT (
+	curve_bounded_surface,
+	face_surface);
+END_TYPE;
+
+TYPE solid_angle_measure = REAL;
+END_TYPE;
+
+TYPE source = ENUMERATION OF (
+	made,
+	bought,
+	not_known );
+END_TYPE;
+
+TYPE source_item = SELECT (
+	identifier,
+	message);
+END_TYPE;
+
+TYPE start_request_item = SELECT (
+	product_definition_formation);
+END_TYPE;
+
+TYPE string_representation_item_select = SELECT (
+	descriptive_representation_item,
+	included_text_block,
+	structured_text_composition);
+END_TYPE;
+
+TYPE style_context_select = SELECT (
+	group,
+	presentation_layer_assignment,
+	presentation_set,
+	representation,
+	representation_item,
+	representation_relationship);
+END_TYPE;
+
+TYPE surface_side = ENUMERATION OF (
+	positive,
+	negative,
+	both );
+END_TYPE;
+
+TYPE surface_side_style_select = SELECT (
+	surface_side_style,
+	pre_defined_surface_side_style);
+END_TYPE;
+
+TYPE surface_style_element_select = SELECT (
+	surface_style_fill_area,
+	surface_style_boundary,
+	surface_style_silhouette,
+	surface_style_segmentation_curve,
+	surface_style_control_grid,
+	surface_style_parameter_line,
+	surface_style_rendering);
+END_TYPE;
+
+TYPE symbol_style_select = SELECT (
+	symbol_colour);
+END_TYPE;
+
+TYPE text = STRING;
+END_TYPE;
+
+TYPE text_alignment = label;
+END_TYPE;
+
+TYPE text_delineation = label;
+END_TYPE;
+
+TYPE text_or_character = SELECT (
+	annotation_text,
+	annotation_text_character,
+	composite_text,
+	text_literal);
+END_TYPE;
+
+TYPE text_path = ENUMERATION OF (
+	left,
+	right,
+	up,
+	down );
+END_TYPE;
+
+TYPE text_string_representation_item = SELECT (
+	text_literal,
+	annotation_text,
+	annotation_text_character,
+	composite_text,
+	axis2_placement);
+END_TYPE;
+
+TYPE thermodynamic_temperature_measure = REAL;
+END_TYPE;
+
+TYPE time_interval_item = SELECT (
+	action,
+	time_interval_based_effectivity);
+END_TYPE;
+
+TYPE time_measure = REAL;
+END_TYPE;
+
+TYPE tolerance_method_definition = SELECT (
+	tolerance_value,
+	limits_and_fits);
+END_TYPE;
+
+TYPE transformation = SELECT (
+	item_defined_transformation,
+	functionally_defined_transformation);
+END_TYPE;
+
+TYPE transition_code = ENUMERATION OF (
+	discontinuous,
+	continuous,
+	cont_same_gradient,
+	cont_same_gradient_same_curvature );
+END_TYPE;
+
+TYPE trim_condition_select = SELECT (
+	length_measure,
+	plane_angle_measure,
+	generalized_surface_select,
+	solid_model);
+END_TYPE;
+
+TYPE trim_intent = ENUMERATION OF (
+	blind,
+	offset,
+	through_all,
+	unspecified,
+	up_to_next );
+END_TYPE;
+
+TYPE trimming_preference = ENUMERATION OF (
+	cartesian,
+	parameter,
+	unspecified );
+END_TYPE;
+
+TYPE trimming_select = SELECT (
+	cartesian_point,
+	parameter_value);
+END_TYPE;
+
+TYPE u_direction_count = INTEGER;
+WHERE
+	WR1 : SELF > 1;
+END_TYPE;
+
+TYPE unit = SELECT (
+	derived_unit,
+	named_unit);
+END_TYPE;
+
+TYPE v_direction_count = INTEGER;
+WHERE
+	WR1 : SELF > 1;
+END_TYPE;
+
+TYPE value_qualifier = SELECT (
+	precision_qualifier,
+	type_qualifier,
+	uncertainty_qualifier);
+END_TYPE;
+
+TYPE vector_or_direction = SELECT (
+	vector,
+	direction);
+END_TYPE;
+
+TYPE velocity_measure = REAL;
+END_TYPE;
+
+TYPE volume_measure = REAL;
+END_TYPE;
+
+TYPE week_in_year_number = INTEGER;
+WHERE
+	WR1 : { 1 <= SELF <= 53 };
+END_TYPE;
+
+TYPE work_item = SELECT (
+	product_definition_formation);
+END_TYPE;
+
+TYPE year_number = INTEGER;
+END_TYPE;
+
+ENTITY absorbed_dose_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ABSORBED_DOSE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY absorbed_dose_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.gray);
+END_ENTITY;
+
+
+ENTITY abstract_variable
+	SUBTYPE OF (property_definition, property_definition_representation, representation, representation_item);
+END_ENTITY;
+
+
+ENTITY acceleration_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ACCELERATION_UNIT' IN TYPEOF (SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY acceleration_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = 
+       dimensional_exponents ( 1.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0 );
+END_ENTITY;
+
+
+ENTITY action;
+	name : label;
+	description : OPTIONAL text;
+	chosen_method : action_method;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY action_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_action : action;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY action_directive;
+	name : label;
+	description : OPTIONAL text;
+	analysis : text;
+	comment : text;
+	requests : SET [1:?] OF versioned_action_request;
+END_ENTITY;
+
+
+ENTITY action_method;
+	name : label;
+	description : OPTIONAL text;
+	consequence : text;
+	purpose : text;
+END_ENTITY;
+
+
+ENTITY action_method_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_action_method : action_method;
+	role : action_method_role;
+END_ENTITY;
+
+
+ENTITY action_method_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_method : action_method;
+	related_method : action_method;
+END_ENTITY;
+
+
+ENTITY action_method_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY action_property;
+	name : label;
+	description : text;
+	definition : characterized_action_definition;
+END_ENTITY;
+
+
+ENTITY action_property_representation;
+	name : label;
+	description : text;
+	property : action_property;
+	representation : representation;
+END_ENTITY;
+
+
+ENTITY action_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_action : action;
+	related_action : action;
+END_ENTITY;
+
+
+ENTITY action_request_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_action_request : versioned_action_request;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY action_request_solution;
+	method : action_method;
+	request : versioned_action_request;
+DERIVE
+	description : text := get_description_value(SELF);
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY action_request_status;
+	status : label;
+	assigned_request : versioned_action_request;
+END_ENTITY;
+
+
+ENTITY action_status;
+	status : label;
+	assigned_action : executed_action;
+END_ENTITY;
+
+
+ENTITY address;
+	internal_location : OPTIONAL label;
+	street_number : OPTIONAL label;
+	street : OPTIONAL label;
+	postal_box : OPTIONAL label;
+	town : OPTIONAL label;
+	region : OPTIONAL label;
+	postal_code : OPTIONAL label;
+	country : OPTIONAL label;
+	facsimile_number : OPTIONAL label;
+	telephone_number : OPTIONAL label;
+	electronic_mail_address : OPTIONAL label;
+	telex_number : OPTIONAL label;
+DERIVE
+	name : label := get_name_value(SELF);
+	url : identifier := get_id_value(SELF);
+WHERE
+	WR1 : EXISTS(internal_location) OR EXISTS(street_number) OR EXISTS(street) OR EXISTS(postal_box) OR EXISTS(town) OR EXISTS(region) OR EXISTS(postal_code) OR EXISTS(country) OR EXISTS(facsimile_number) OR EXISTS(telephone_number) OR EXISTS(electronic_mail_address) OR EXISTS(telex_number);
+END_ENTITY;
+
+
+ENTITY advanced_brep_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF ( 
+QUERY ( it <* SELF.items| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' ] * TYPEOF (it)) = 1) )) = 0;
+	WR2 : SIZEOF ( 
+QUERY ( it <* SELF.items| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ] * TYPEOF (it)) = 1) )) > 0;
+	WR3 : SIZEOF ( 
+QUERY ( msb <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( csh <* msb_shells(msb)| NOT ( SIZEOF ( 
+QUERY ( fcs <* csh\connected_face_set.cfs_faces| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fcs)) )) = 0) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( msb <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF (it)) )| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL' IN TYPEOF (msb\manifold_solid_brep.outer)) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( brv <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BREP_WITH_VOIDS' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( csh <* brv\brep_with_voids.voids| csh\oriented_closed_shell.orientation )) = 0) )) = 0;
+	WR6 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_BREP_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+END_ENTITY;
+
+
+ENTITY advanced_face
+	SUBTYPE OF (face_surface);
+WHERE
+	WR1 : SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_SURFACE' ] * TYPEOF (face_geometry)) = 1;
+	WR2 : SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| NOT ( SIZEOF ( 
+QUERY ( oe <* elp_fbnds.bound\path.edge_list| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF (oe\oriented_edge.edge_element)) )) = 0) )) = 0;
+	WR3 : SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| NOT ( SIZEOF ( 
+QUERY ( oe <* elp_fbnds.bound\path.edge_list| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' ] * TYPEOF (oe.edge_element\edge_curve.edge_geometry)) = 1) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| NOT ( SIZEOF ( 
+QUERY ( oe <* elp_fbnds.bound\path.edge_list| NOT ((('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (oe\edge.edge_start)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (oe\edge.edge_start\vertex_point.vertex_geometry))) AND (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (oe\edge.edge_end)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (oe\edge.edge_end\vertex_point.vertex_geometry)))) )) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_PATH' IN TYPEOF (elp_fbnds.bound)) )) = 0;
+	WR6 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_SURFACE' IN TYPEOF (face_geometry)) OR ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' ] * TYPEOF (face_geometry\swept_surface.swept_curve)) = 1);
+	WR7 : SIZEOF ( 
+QUERY ( vlp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (bnds.bound)) )| NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (vlp_fbnds\face_bound.bound\vertex_loop.loop_vertex)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (vlp_fbnds\face_bound.bound\vertex_loop.loop_vertex\vertex_point.vertex_geometry))) )) = 0;
+	WR8 : SIZEOF ( 
+QUERY ( bnd <* bounds| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' ] * TYPEOF (bnd.bound)) = 1) )) = 0;
+	WR9 : SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| NOT ( SIZEOF ( 
+QUERY ( oe <* elp_fbnds.bound\path.edge_list| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF (oe\oriented_edge.edge_element\edge_curve.edge_geometry)) AND NOT ( SIZEOF ( 
+QUERY ( sc_ag <* oe.edge_element\edge_curve.edge_geometry\surface_curve.associated_geometry| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF (sc_ag)) )) = 0) )) = 0) )) = 0;
+	WR10 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_SURFACE' IN TYPEOF (face_geometry)) OR (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (face_geometry\swept_surface.swept_curve)) OR ( SIZEOF (face_geometry\swept_surface.swept_curve\polyline.points) >= 3))) AND ( SIZEOF ( 
+QUERY ( elp_fbnds <* 
+QUERY ( bnds <* bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) )| NOT ( SIZEOF ( 
+QUERY ( oe <* elp_fbnds.bound\path.edge_list| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (oe\oriented_edge.edge_element\edge_curve.edge_geometry)) AND NOT ( SIZEOF (oe\oriented_edge.edge_element\edge_curve.edge_geometry\polyline.points) >= 3) )) = 0) )) = 0);
+END_ENTITY;
+
+
+ENTITY alternate_product_relationship;
+	name : label;
+	definition : OPTIONAL text;
+	alternate : product;
+	base : product;
+	basis : text;
+UNIQUE
+	UR1 : alternate, base;
+WHERE
+	WR1 : alternate :<>: base;
+END_ENTITY;
+
+
+ENTITY amount_of_substance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AMOUNT_OF_SUBSTANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY amount_of_substance_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 1.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY angle_direction_reference
+	SUBTYPE OF (representation_item_relationship, geometric_representation_item);
+	SELF\representation_item_relationship.related_representation_item : angle_direction_reference_select;
+	SELF\representation_item_relationship.relating_representation_item : orientation_basis_select;
+WHERE
+	WR1 : ((('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_PATH' IN TYPEOF(related_representation_item)) AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MIN_AND_MAJOR_PLY_ORIENTATION_BASIS' IN TYPEOF(relating_representation_item))) 
+        OR
+		(NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_PATH' IN TYPEOF(related_representation_item)) AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' IN TYPEOF(relating_representation_item))));
+END_ENTITY;
+
+
+ENTITY angular_dimension
+	SUBTYPE OF (dimension_curve_directed_callout);
+END_ENTITY;
+
+
+ENTITY angular_location
+	SUBTYPE OF (dimensional_location);
+	angle_selection : angle_relator;
+END_ENTITY;
+
+
+ENTITY angular_size
+	SUBTYPE OF (dimensional_size);
+	angle_selection : angle_relator;
+END_ENTITY;
+
+
+ENTITY angularity_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) < 3;
+END_ENTITY;
+
+
+ENTITY annotation_curve_occurrence
+	SUBTYPE OF (annotation_occurrence);
+	SELF\styled_item.item : curve;
+END_ENTITY;
+
+
+ENTITY annotation_fill_area
+	SUBTYPE OF (geometric_representation_item);
+	boundaries : SET [1:?] OF curve;
+WHERE
+	WR1 : (SELF\geometric_representation_item.dim = 3) OR (SIZEOF (QUERY (curve <* SELF.boundaries |
+          NOT (
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE' IN TYPEOF (curve)) OR 
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE' IN TYPEOF (curve)) OR 
+              ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF (curve)) 
+                   AND (curve\b_spline_curve.closed_curve = TRUE) ) OR 
+              ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE' IN TYPEOF (curve)) 
+                   AND (curve\composite_curve.closed_curve = TRUE) ) OR 
+              ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (curve)) 
+                   AND (curve\polyline.points[LOINDEX(curve\polyline.points)] = 
+                        curve\polyline.points[HIINDEX(curve\polyline.points)]) )
+              ) )) = 0);
+END_ENTITY;
+
+
+ENTITY annotation_fill_area_occurrence
+	SUBTYPE OF (annotation_occurrence);
+	fill_style_target : point;
+	SELF\styled_item.item : annotation_fill_area;
+END_ENTITY;
+
+
+ENTITY annotation_occurrence
+	SUPERTYPE OF (ONEOF (annotation_curve_occurrence, annotation_fill_area_occurrence, annotation_text_occurrence, annotation_symbol_occurrence))
+	SUBTYPE OF (styled_item);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_ITEM' IN
+             TYPEOF (SELF);
+	WR2 : SIZEOF (QUERY (reps <* using_representations(SELF) | 
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_REPRESENTATION_SELECT' IN TYPEOF(reps)))) = 0;
+END_ENTITY;
+
+
+ENTITY annotation_occurrence_associativity
+	SUBTYPE OF (annotation_occurrence_relationship);
+WHERE
+	WR1 : SIZEOF (TYPEOF (SELF.related_annotation_occurrence) *
+          ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_FILL_AREA_OCCURRENCE',
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE',
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE']) = 1;
+END_ENTITY;
+
+
+ENTITY annotation_occurrence_relationship;
+	name : label;
+	description : text;
+	relating_annotation_occurrence : annotation_occurrence;
+	related_annotation_occurrence : annotation_occurrence;
+END_ENTITY;
+
+
+ENTITY annotation_plane
+	SUBTYPE OF (annotation_occurrence, geometric_representation_item);
+	elements : OPTIONAL SET [1:?] OF annotation_plane_element;
+	SELF\styled_item.item : plane_or_planar_box;
+WHERE
+	WR1 : SELF\geometric_representation_item.dim = 3;
+	WR2 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PLANAR_BOX' IN TYPEOF(SELF\styled_item.item)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'AXIS2_PLACEMENT_3D' IN TYPEOF(SELF\styled_item.item\planar_box.placement));
+	WR3 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PLANAR_BOX' IN TYPEOF(SELF\styled_item.item)) AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'CURVE_STYLE' IN TYPEOF(SELF\styled_item.styles[1]\presentation_style_assignment.styles[1]))) OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PLANE' IN TYPEOF(SELF\styled_item.item)) AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'FILL_AREA_STYLE' IN TYPEOF(SELF\styled_item.styles[1]\presentation_style_assignment.styles[1])));
+	WR4 : (SIZEOF(SELF\styled_item.styles) = 1) AND
+        (SIZEOF(SELF\styled_item.styles[1]\presentation_style_assignment.styles) = 1);
+END_ENTITY;
+
+
+ENTITY annotation_subfigure_occurrence
+	SUBTYPE OF (annotation_symbol_occurrence);
+WHERE
+	WR1 : SIZEOF (QUERY (sty <* SELF.styles |
+         NOT (SIZEOF (sty.styles) = 1)
+       )) = 0;
+	WR2 : SIZEOF (QUERY (sty <* SELF.styles |
+         NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NULL_STYLE'
+               IN TYPEOF (sty.styles[1]))       ))=0;
+	WR3 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL'
+           IN TYPEOF (SELF.item));
+	WR4 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_SUBFIGURE_REPRESENTATION'
+           IN TYPEOF
+           (SELF.item\mapped_item.mapping_source.mapped_representation));
+END_ENTITY;
+
+
+ENTITY annotation_symbol
+	SUBTYPE OF (mapped_item);
+	SELF\mapped_item.mapping_source : symbol_representation_map;
+	SELF\mapped_item.mapping_target : symbol_target;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_ITEM' IN
+          TYPEOF (SELF);
+END_ENTITY;
+
+
+ENTITY annotation_symbol_occurrence
+	SUBTYPE OF (annotation_occurrence);
+	SELF\styled_item.item : annotation_symbol_occurrence_item;
+END_ENTITY;
+
+
+ENTITY annotation_text
+	SUBTYPE OF (mapped_item);
+	SELF\mapped_item.mapping_target : axis2_placement;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_STRING_REPRESENTATION' IN
+        TYPEOF( SELF\mapped_item.mapping_source.mapped_representation);
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_ITEM' IN
+        TYPEOF( SELF);
+END_ENTITY;
+
+
+ENTITY annotation_text_character
+	SUBTYPE OF (mapped_item);
+	alignment : text_alignment;
+	SELF\mapped_item.mapping_target : axis2_placement;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CHARACTER_GLYPH_SYMBOL' IN
+         TYPEOF (SELF\mapped_item.mapping_source.mapped_representation);
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_ITEM' IN
+         TYPEOF (SELF);
+END_ENTITY;
+
+
+ENTITY annotation_text_occurrence
+	SUBTYPE OF (annotation_occurrence);
+	SELF\styled_item.item : annotation_text_occurrence_item;
+END_ENTITY;
+
+
+ENTITY apex
+	SUBTYPE OF (derived_shape_aspect);
+END_ENTITY;
+
+
+ENTITY application_context;
+	application : label;
+DERIVE
+	description : text := get_description_value(SELF);
+	id : identifier := get_id_value(SELF);
+INVERSE
+	context_elements: SET [1:?] OF application_context_element FOR frame_of_reference;
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY application_context_element
+	SUPERTYPE OF (ONEOF (product_concept_context, product_context, product_definition_context));
+	name : label;
+	frame_of_reference : application_context;
+END_ENTITY;
+
+
+ENTITY application_protocol_definition;
+	status : label;
+	application_interpreted_model_schema_name : label;
+	application_protocol_year : year_number;
+	application : application_context;
+END_ENTITY;
+
+
+ENTITY applied_action_assignment
+	SUBTYPE OF (action_assignment);
+	items : SET [1:?] OF action_items;
+END_ENTITY;
+
+
+ENTITY applied_action_method_assignment
+	SUBTYPE OF (action_method_assignment);
+	items : SET [1:?] OF action_method_items;
+END_ENTITY;
+
+
+ENTITY applied_action_request_assignment
+	SUBTYPE OF (action_request_assignment);
+	items : SET [1:?] OF action_request_item;
+END_ENTITY;
+
+
+ENTITY applied_approval_assignment
+	SUBTYPE OF (approval_assignment);
+	items : SET [1:?] OF approval_item;
+END_ENTITY;
+
+
+ENTITY applied_attribute_classification_assignment
+	SUBTYPE OF (attribute_classification_assignment);
+	items : SET [1:?] OF attribute_classification_item;
+	SELF\attribute_classification_assignment.assigned_class : class;
+END_ENTITY;
+
+
+ENTITY applied_certification_assignment
+	SUBTYPE OF (certification_assignment);
+	items : SET [1:?] OF certification_item;
+END_ENTITY;
+
+
+ENTITY applied_classification_assignment
+	SUBTYPE OF (classification_assignment);
+	items : SET [1:?] OF classification_item;
+END_ENTITY;
+
+
+ENTITY applied_contract_assignment
+	SUBTYPE OF (contract_assignment);
+	items : SET [1:?] OF contract_item;
+END_ENTITY;
+
+
+ENTITY applied_date_and_time_assignment
+	SUBTYPE OF (date_and_time_assignment);
+	items : SET [1:?] OF date_and_time_item;
+END_ENTITY;
+
+
+ENTITY applied_date_assignment
+	SUBTYPE OF (date_assignment);
+	items : SET [1:?] OF date_item;
+END_ENTITY;
+
+
+ENTITY applied_document_reference
+	SUBTYPE OF (document_reference);
+	items : SET [1:?] OF document_reference_item;
+END_ENTITY;
+
+
+ENTITY applied_document_usage_constraint_assignment
+	SUBTYPE OF (document_usage_constraint_assignment);
+	items : SET [1:?] OF document_reference_item;
+END_ENTITY;
+
+
+ENTITY applied_effectivity_assignment
+	SUBTYPE OF (effectivity_assignment);
+	items : SET [1:?] OF effectivity_item;
+END_ENTITY;
+
+
+ENTITY applied_event_occurrence_assignment
+	SUBTYPE OF (event_occurrence_assignment);
+	items : SET [1:?] OF event_occurrence_item;
+END_ENTITY;
+
+
+ENTITY applied_external_identification_assignment
+	SUBTYPE OF (external_identification_assignment);
+	items : SET [1:?] OF external_identification_item;
+END_ENTITY;
+
+
+ENTITY applied_group_assignment
+	SUBTYPE OF (group_assignment);
+	items : SET [1:?] OF groupable_item;
+END_ENTITY;
+
+
+ENTITY applied_identification_assignment
+	SUBTYPE OF (identification_assignment);
+	items : SET [1:?] OF identification_item;
+END_ENTITY;
+
+
+ENTITY applied_name_assignment
+	SUBTYPE OF (name_assignment);
+	item : name_item;
+END_ENTITY;
+
+
+ENTITY applied_organization_assignment
+	SUBTYPE OF (organization_assignment);
+	items : SET [1:?] OF organization_item;
+END_ENTITY;
+
+
+ENTITY applied_organizational_project_assignment
+	SUBTYPE OF (organizational_project_assignment);
+	items : SET [1:?] OF project_item;
+END_ENTITY;
+
+
+ENTITY applied_person_and_organization_assignment
+	SUBTYPE OF (person_and_organization_assignment);
+	items : SET [1:?] OF person_and_organization_item;
+END_ENTITY;
+
+
+ENTITY applied_presented_item
+	SUBTYPE OF (presented_item);
+	items : SET [1:?] OF presented_item_select;
+END_ENTITY;
+
+
+ENTITY applied_security_classification_assignment
+	SUBTYPE OF (security_classification_assignment);
+	items : SET [1:?] OF security_classification_item;
+END_ENTITY;
+
+
+ENTITY applied_time_interval_assignment
+	SUBTYPE OF (time_interval_assignment);
+	items : SET [0:?] OF time_interval_item;
+END_ENTITY;
+
+
+ENTITY applied_usage_right
+	SUBTYPE OF (applied_action_assignment);
+	SELF\applied_action_assignment.items : SET [1:?] OF ir_usage_item;
+END_ENTITY;
+
+
+ENTITY approval;
+	status : approval_status;
+	level : label;
+END_ENTITY;
+
+
+ENTITY approval_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_approval : approval;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY approval_date_time;
+	date_time : date_time_select;
+	dated_approval : approval;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY approval_person_organization;
+	person_organization : person_organization_select;
+	authorized_approval : approval;
+	role : approval_role;
+END_ENTITY;
+
+
+ENTITY approval_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_approval : approval;
+	related_approval : approval;
+END_ENTITY;
+
+
+ENTITY approval_role;
+	role : label;
+DERIVE
+	description : text := get_description_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY approval_status;
+	name : label;
+END_ENTITY;
+
+
+ENTITY area_in_set;
+	area : presentation_area;
+	in_set : presentation_set;
+END_ENTITY;
+
+
+ENTITY area_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AREA_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY area_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = 
+      dimensional_exponents ( 2.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 );
+END_ENTITY;
+
+
+ENTITY assembly_component_usage
+	SUPERTYPE OF (ONEOF (next_assembly_usage_occurrence, specified_higher_usage_occurrence, promissory_usage_occurrence))
+	SUBTYPE OF (product_definition_usage);
+	reference_designator : OPTIONAL identifier;
+END_ENTITY;
+
+
+ENTITY assembly_component_usage_substitute;
+	name : label;
+	definition : OPTIONAL text;
+	base : assembly_component_usage;
+	substitute : assembly_component_usage;
+UNIQUE
+	UR1 : base, substitute;
+WHERE
+	WR1 : base.relating_product_definition :=:
+       substitute.relating_product_definition;
+	WR2 : base :<>: substitute;
+END_ENTITY;
+
+
+ENTITY assigned_requirement
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF product_definition;
+	SELF\group_assignment.assigned_group : requirement_assignment;
+END_ENTITY;
+
+
+ENTITY atomic_formula
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY attribute_assertion
+	SUBTYPE OF (fact_type, property_definition_representation, representation);
+END_ENTITY;
+
+
+ENTITY attribute_classification_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_class : group;
+	attribute_name : label;
+	role : classification_role;
+END_ENTITY;
+
+
+ENTITY attribute_language_assignment
+	SUBTYPE OF (attribute_classification_assignment);
+	items : SET [1:?] OF attribute_language_item;
+	SELF\attribute_classification_assignment.assigned_class : language;
+WHERE
+	WR1 : SELF\attribute_classification_assignment.role.name IN ['primary', 'translated'];
+	WR2 : SELF\attribute_classification_assignment.attribute_name<> '';
+END_ENTITY;
+
+
+ENTITY attribute_value_assignment
+	ABSTRACT SUPERTYPE;
+	attribute_name : label;
+	attribute_value : attribute_type;
+	role : attribute_value_role;
+END_ENTITY;
+
+
+ENTITY attribute_value_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY auxiliary_geometric_representation_item
+	SUBTYPE OF (geometric_representation_item, variational_representation_item);
+END_ENTITY;
+
+
+ENTITY axis1_placement
+	SUBTYPE OF (placement);
+	axis : OPTIONAL direction;
+DERIVE
+	z : direction := NVL(normalise(axis), dummy_gri ||
+                                 direction([0.0,0.0,1.0]));
+WHERE
+	WR1 : SELF\geometric_representation_item.dim  = 3;
+END_ENTITY;
+
+
+ENTITY axis2_placement_2d
+	SUBTYPE OF (placement);
+	ref_direction : OPTIONAL direction;
+DERIVE
+	p : LIST [2:2] OF direction := build_2axes(ref_direction);
+WHERE
+	WR1 : SELF\geometric_representation_item.dim = 2;
+END_ENTITY;
+
+
+ENTITY axis2_placement_3d
+	SUBTYPE OF (placement);
+	axis : OPTIONAL direction;
+	ref_direction : OPTIONAL direction;
+DERIVE
+	p : LIST [3:3] OF direction := build_axes(axis,ref_direction);
+WHERE
+	WR1 : SELF\placement.location.dim = 3;
+	WR2 : (NOT (EXISTS (axis))) OR (axis.dim = 3);
+	WR3 : (NOT (EXISTS (ref_direction))) OR (ref_direction.dim = 3);
+	WR4 : (NOT (EXISTS (axis))) OR (NOT (EXISTS (ref_direction))) OR
+          (cross_product(axis,ref_direction).magnitude > 0.0);
+END_ENTITY;
+
+
+ENTITY b_spline_curve
+	SUPERTYPE OF ((ONEOF (uniform_curve, b_spline_curve_with_knots, quasi_uniform_curve, bezier_curve) ANDOR rational_b_spline_curve))
+	SUBTYPE OF (bounded_curve);
+	degree : INTEGER;
+	control_points_list : LIST [2:?] OF cartesian_point;
+	curve_form : b_spline_curve_form;
+	closed_curve : LOGICAL;
+	self_intersect : LOGICAL;
+DERIVE
+	control_points : ARRAY [0:upper_index_on_control_points] OF cartesian_point := list_to_array(control_points_list,0,
+                                             upper_index_on_control_points);
+	upper_index_on_control_points : INTEGER := (SIZEOF(control_points_list) - 1);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.UNIFORM_CURVE' IN TYPEOF(self)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.QUASI_UNIFORM_CURVE' IN TYPEOF(self)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BEZIER_CURVE' IN TYPEOF(self)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE_WITH_KNOTS' IN TYPEOF(self));
+END_ENTITY;
+
+
+ENTITY b_spline_curve_with_knots
+	SUBTYPE OF (b_spline_curve);
+	knot_multiplicities : LIST [2:?] OF INTEGER;
+	knots : LIST [2:?] OF parameter_value;
+	knot_spec : knot_type;
+DERIVE
+	upper_index_on_knots : INTEGER := SIZEOF(knots);
+WHERE
+	WR1 : constraints_param_b_spline(degree, upper_index_on_knots,
+                               upper_index_on_control_points,
+                               knot_multiplicities, knots);
+	WR2 : SIZEOF(knot_multiplicities) = upper_index_on_knots;
+END_ENTITY;
+
+
+ENTITY b_spline_surface
+	SUPERTYPE OF ((ONEOF (b_spline_surface_with_knots, uniform_surface, quasi_uniform_surface, bezier_surface) ANDOR rational_b_spline_surface))
+	SUBTYPE OF (bounded_surface);
+	u_degree : INTEGER;
+	v_degree : INTEGER;
+	control_points_list : LIST [2:?] OF LIST [2:?] OF cartesian_point;
+	surface_form : b_spline_surface_form;
+	u_closed : LOGICAL;
+	v_closed : LOGICAL;
+	self_intersect : LOGICAL;
+DERIVE
+	control_points : ARRAY [0:u_upper] OF ARRAY [0:v_upper] OF cartesian_point := make_array_of_array(control_points_list,
+                                              0,u_upper,0,v_upper);
+	u_upper : INTEGER := SIZEOF(control_points_list) - 1;
+	v_upper : INTEGER := SIZEOF(control_points_list[1]) - 1;
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.UNIFORM_SURFACE' IN TYPEOF(SELF)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.QUASI_UNIFORM_SURFACE' IN TYPEOF(SELF)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BEZIER_SURFACE' IN TYPEOF(SELF)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE_WITH_KNOTS' IN TYPEOF(SELF));
+END_ENTITY;
+
+
+ENTITY b_spline_surface_with_knots
+	SUBTYPE OF (b_spline_surface);
+	u_multiplicities : LIST [2:?] OF INTEGER;
+	v_multiplicities : LIST [2:?] OF INTEGER;
+	u_knots : LIST [2:?] OF parameter_value;
+	v_knots : LIST [2:?] OF parameter_value;
+	knot_spec : knot_type;
+DERIVE
+	knot_u_upper : INTEGER := SIZEOF(u_knots);
+	knot_v_upper : INTEGER := SIZEOF(v_knots);
+WHERE
+	WR1 : constraints_param_b_spline(SELF\b_spline_surface.u_degree,
+                   knot_u_upper, SELF\b_spline_surface.u_upper,
+                               u_multiplicities, u_knots);
+	WR2 : constraints_param_b_spline(SELF\b_spline_surface.v_degree,
+                   knot_v_upper, SELF\b_spline_surface.v_upper,
+                               v_multiplicities, v_knots);
+	WR3 : SIZEOF(u_multiplicities) = knot_u_upper;
+	WR4 : SIZEOF(v_multiplicities) = knot_v_upper;
+END_ENTITY;
+
+
+ENTITY back_chaining_rule
+	SUBTYPE OF (rule_definition);
+END_ENTITY;
+
+
+ENTITY back_chaining_rule_body
+	SUBTYPE OF (property_definition, property_definition_representation, representation);
+END_ENTITY;
+
+
+ENTITY background_colour
+	SUBTYPE OF (colour);
+	presentation : area_or_view;
+UNIQUE
+	UR1 : presentation;
+END_ENTITY;
+
+
+ENTITY beveled_sheet_representation
+	SUBTYPE OF (shape_representation);
+END_ENTITY;
+
+
+ENTITY bezier_curve
+	SUBTYPE OF (b_spline_curve);
+END_ENTITY;
+
+
+ENTITY bezier_surface
+	SUBTYPE OF (b_spline_surface);
+END_ENTITY;
+
+
+ENTITY binary_generic_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (generic_expression);
+	operands : LIST [2:2] OF generic_expression;
+END_ENTITY;
+
+
+ENTITY binary_numeric_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (numeric_expression, binary_generic_expression);
+	SELF\binary_generic_expression.operands : LIST [2:2] OF numeric_expression;
+END_ENTITY;
+
+
+ENTITY binary_representation_item
+	SUBTYPE OF (representation_item);
+	binary_value : BINARY;
+END_ENTITY;
+
+
+ENTITY block
+	SUBTYPE OF (geometric_representation_item);
+	position : axis2_placement_3d;
+	x : positive_length_measure;
+	y : positive_length_measure;
+	z : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY boolean_expression
+	ABSTRACT SUPERTYPE OF (ONEOF (simple_boolean_expression, multiple_arity_boolean_expression, comparison_expression, interval_expression))
+	SUBTYPE OF (expression);
+END_ENTITY;
+
+
+ENTITY boolean_literal
+	SUBTYPE OF (simple_boolean_expression, generic_literal);
+	the_value : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY boolean_representation_item
+	SUBTYPE OF (representation_item, boolean_literal);
+END_ENTITY;
+
+
+ENTITY boolean_result
+	SUBTYPE OF (geometric_representation_item);
+	operator : boolean_operator;
+	first_operand : boolean_operand;
+	second_operand : boolean_operand;
+END_ENTITY;
+
+
+ENTITY boundary_curve
+	SUBTYPE OF (composite_curve_on_surface);
+WHERE
+	WR1 : SELF\composite_curve.closed_curve;
+END_ENTITY;
+
+
+ENTITY bounded_curve
+	SUPERTYPE OF (ONEOF (polyline, b_spline_curve, trimmed_curve, bounded_pcurve, bounded_surface_curve, composite_curve))
+	SUBTYPE OF (curve);
+END_ENTITY;
+
+
+ENTITY bounded_pcurve
+	SUBTYPE OF (pcurve, bounded_curve);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE' IN
+                   TYPEOF(SELF\pcurve.reference_to_curve.items[1]));
+END_ENTITY;
+
+
+ENTITY bounded_surface
+	SUPERTYPE OF (ONEOF (b_spline_surface, rectangular_trimmed_surface, curve_bounded_surface, rectangular_composite_surface))
+	SUBTYPE OF (surface);
+END_ENTITY;
+
+
+ENTITY bounded_surface_curve
+	SUBTYPE OF (surface_curve, bounded_curve);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE' IN
+             TYPEOF(SELF\surface_curve.curve_3d));
+END_ENTITY;
+
+
+ENTITY box_domain
+	SUBTYPE OF (founded_item);
+	corner : cartesian_point;
+	xlength : positive_length_measure;
+	ylength : positive_length_measure;
+	zlength : positive_length_measure;
+WHERE
+	WR1 : SIZEOF(QUERY(item <* USEDIN(SELF,'')|
+             NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOXED_HALF_SPACE'
+                    IN TYPEOF(item)))) = 0;
+END_ENTITY;
+
+
+ENTITY boxed_half_space
+	SUBTYPE OF (half_space_solid);
+	enclosure : box_domain;
+END_ENTITY;
+
+
+ENTITY breakdown_context
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY breakdown_element_group_assignment
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF product_definition_or_breakdown_element_usage;
+	SELF\group_assignment.assigned_group : product_definition_element_relationship;
+END_ENTITY;
+
+
+ENTITY breakdown_element_realization
+	SUBTYPE OF (characterized_object, product_definition_element_relationship);
+END_ENTITY;
+
+
+ENTITY breakdown_element_usage
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY breakdown_of
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY brep_with_voids
+	SUBTYPE OF (manifold_solid_brep);
+	voids : SET [1:?] OF oriented_closed_shell;
+END_ENTITY;
+
+
+ENTITY bytes_representation_item
+	SUBTYPE OF (binary_representation_item);
+DERIVE
+	no_of_bytes : INTEGER := BLENGTH(SELF\binary_representation_item.binary_value) DIV 8;
+WHERE
+	WR1 : BLENGTH(SELF\binary_representation_item.binary_value) MOD 8 = 0;
+END_ENTITY;
+
+
+ENTITY calendar_date
+	SUBTYPE OF (date);
+	day_component : day_in_month_number;
+	month_component : month_in_year_number;
+WHERE
+	WR1 : valid_calendar_date (SELF);
+END_ENTITY;
+
+
+ENTITY camera_image
+	SUBTYPE OF (mapped_item);
+	SELF\mapped_item.mapping_source : camera_usage;
+	SELF\mapped_item.mapping_target : planar_box;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_ITEM'
+        IN TYPEOF (SELF);
+END_ENTITY;
+
+
+ENTITY camera_image_3d_with_scale
+	SUBTYPE OF (camera_image);
+DERIVE
+	scale : positive_ratio_measure := ((SELF\mapped_item.mapping_target\
+           planar_extent.size_in_x) / (SELF\mapped_item.mapping_source.
+           mapping_origin\camera_model_d3.perspective_of_volume.view_window.
+           size_in_x));
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CAMERA_MODEL_D3'
+         IN TYPEOF (SELF\mapped_item.mapping_source.mapping_origin));
+	WR2 : aspect_ratio(SELF\mapped_item.mapping_target) =
+           aspect_ratio(SELF\mapped_item.mapping_source.mapping_origin\
+           camera_model_d3.perspective_of_volume.view_window);
+	WR3 : SELF\mapped_item.mapping_source.mapping_origin\camera_model_d3.
+           perspective_of_volume.front_plane_clipping
+           AND
+           SELF\mapped_item.mapping_source.mapping_origin\camera_model_d3.
+           perspective_of_volume.view_volume_sides_clipping;
+	WR4 : (SELF\mapped_item.mapping_target\planar_extent.size_in_x > 0)
+           AND
+           (SELF\mapped_item.mapping_target\planar_extent.size_in_y > 0);
+	WR5 : (SELF\mapped_item.mapping_source.mapping_origin\camera_model_d3.
+           perspective_of_volume.view_window.size_in_x > 0)
+           AND
+           (SELF\mapped_item.mapping_source.mapping_origin\camera_model_d3.
+           perspective_of_volume.view_window.size_in_y > 0);
+	WR6 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+            'AXIS2_PLACEMENT_2D' IN TYPEOF (SELF\mapped_item.
+           mapping_target\planar_box.placement))
+           AND NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+           'AXIS2_PLACEMENT_3D' IN TYPEOF (SELF\mapped_item.
+           mapping_target\planar_box.placement));
+END_ENTITY;
+
+
+ENTITY camera_model
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (geometric_representation_item);
+WHERE
+	WR1 : (SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                  'ITEM_DEFINED_TRANSFORMATION.' +
+                                  'TRANSFORM_ITEM_1')) +
+            SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                  'REPRESENTATION_MAP.MAPPING_ORIGIN'))
+            ) > 0;
+	WR2 : SIZEOF(USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                              'STYLED_ITEM.ITEM')) = 0;
+END_ENTITY;
+
+
+ENTITY camera_model_d3
+	SUBTYPE OF (camera_model);
+	view_reference_system : axis2_placement_3d;
+	perspective_of_volume : view_volume;
+WHERE
+	WR1 : (dot_product (SELF.view_reference_system.p[3],
+           SELF.perspective_of_volume.view_window.placement.p[3]) = 1.0)
+           AND
+           (SELF.view_reference_system.location.coordinates[3] =
+           SELF.perspective_of_volume.view_window.
+             placement.location.coordinates[3]);
+	WR2 : SELF\geometric_representation_item.dim = 3;
+END_ENTITY;
+
+
+ENTITY camera_model_d3_multi_clipping
+	SUBTYPE OF (camera_model_d3);
+	shape_clipping : SET [1:?] OF camera_model_d3_multi_clipping_interection_select;
+END_ENTITY;
+
+
+ENTITY camera_model_d3_multi_clipping_intersection
+	SUBTYPE OF (geometric_representation_item);
+	shape_clipping : SET [2:?] OF camera_model_d3_multi_clipping_interection_select;
+END_ENTITY;
+
+
+ENTITY camera_model_d3_multi_clipping_union
+	SUBTYPE OF (geometric_representation_item);
+	shape_clipping : SET [2:?] OF camera_model_d3_multi_clipping_union_select;
+END_ENTITY;
+
+
+ENTITY camera_model_d3_with_hlhsr
+	SUBTYPE OF (camera_model_d3);
+	hidden_line_surface_removal : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY camera_model_with_light_sources
+	SUBTYPE OF (camera_model_d3);
+	sources : SET [1:?] OF light_source;
+END_ENTITY;
+
+
+ENTITY camera_usage
+	SUBTYPE OF (representation_map);
+	SELF\representation_map.mapping_origin : camera_model;
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_REPRESENTATION'
+          IN TYPEOF(SELF\representation_map.mapped_representation));
+END_ENTITY;
+
+
+ENTITY capacitance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CAPACITANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY capacitance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.farad);
+END_ENTITY;
+
+
+ENTITY cartesian_point
+	SUBTYPE OF (point);
+	coordinates : LIST [1:3] OF length_measure;
+END_ENTITY;
+
+
+ENTITY cartesian_transformation_operator
+	SUPERTYPE OF (ONEOF (cartesian_transformation_operator_2d, cartesian_transformation_operator_3d))
+	SUBTYPE OF (geometric_representation_item, functionally_defined_transformation);
+	axis1 : OPTIONAL direction;
+	axis2 : OPTIONAL direction;
+	local_origin : cartesian_point;
+	scale : OPTIONAL REAL;
+DERIVE
+	scl : REAL := NVL(scale, 1.0);
+WHERE
+	WR1 : scl > 0.0;
+END_ENTITY;
+
+
+ENTITY cartesian_transformation_operator_2d
+	SUBTYPE OF (cartesian_transformation_operator);
+DERIVE
+	u : LIST [2:2] OF direction := base_axis(2,SELF\cartesian_transformation_operator.axis1,
+                   SELF\cartesian_transformation_operator.axis2,?);
+WHERE
+	WR1 : SELF\geometric_representation_item.dim = 2;
+END_ENTITY;
+
+
+ENTITY cartesian_transformation_operator_3d
+	SUBTYPE OF (cartesian_transformation_operator);
+	axis3 : OPTIONAL direction;
+DERIVE
+	u : LIST [3:3] OF direction := base_axis(3,SELF\cartesian_transformation_operator.axis1,
+                        SELF\cartesian_transformation_operator.axis2,axis3);
+WHERE
+	WR1 : SELF\geometric_representation_item.dim = 3;
+END_ENTITY;
+
+
+ENTITY cc_design_approval
+	SUBTYPE OF (approval_assignment);
+	items : SET [1:?] OF approved_item;
+END_ENTITY;
+
+
+ENTITY cc_design_certification
+	SUBTYPE OF (certification_assignment);
+	items : SET [1:?] OF certified_item;
+END_ENTITY;
+
+
+ENTITY cc_design_contract
+	SUBTYPE OF (contract_assignment);
+	items : SET [1:?] OF contracted_item;
+END_ENTITY;
+
+
+ENTITY cc_design_date_and_time_assignment
+	SUBTYPE OF (date_and_time_assignment);
+	items : SET [1:?] OF date_time_item;
+END_ENTITY;
+
+
+ENTITY cc_design_person_and_organization_assignment
+	SUBTYPE OF (person_and_organization_assignment);
+	items : SET [1:?] OF cc_person_organization_item;
+WHERE
+	WR1 : cc_design_person_and_organization_correlation(SELF);
+END_ENTITY;
+
+
+ENTITY cc_design_security_classification
+	SUBTYPE OF (security_classification_assignment);
+	items : SET [1:?] OF cc_classified_item;
+END_ENTITY;
+
+
+ENTITY cc_design_specification_reference
+	SUBTYPE OF (document_reference);
+	items : SET [1:?] OF cc_specified_item;
+END_ENTITY;
+
+
+ENTITY celsius_temperature_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.THERMODYNAMIC_TEMPERATURE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY centre_of_symmetry
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF
+        (QUERY(sadr<*SELF\derived_shape_aspect.deriving_relationships|
+    NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMMETRIC_SHAPE_ASPECT'
+     IN TYPEOF
+     (sadr\shape_aspect_relationship.related_shape_aspect))))=0;
+END_ENTITY;
+
+
+ENTITY certification;
+	name : label;
+	purpose : text;
+	kind : certification_type;
+END_ENTITY;
+
+
+ENTITY certification_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_certification : certification;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY certification_type;
+	description : label;
+END_ENTITY;
+
+
+ENTITY change
+	SUBTYPE OF (action_assignment);
+	items : SET [1:?] OF work_item;
+END_ENTITY;
+
+
+ENTITY change_request
+	SUBTYPE OF (action_request_assignment);
+	items : SET [1:?] OF change_request_item;
+END_ENTITY;
+
+
+ENTITY character_glyph_font_usage;
+	character : generic_character_glyph_symbol;
+	font : text_font;
+END_ENTITY;
+
+
+ENTITY character_glyph_style_outline
+	SUBTYPE OF (founded_item);
+	outline_style : curve_style;
+END_ENTITY;
+
+
+ENTITY character_glyph_style_stroke
+	SUBTYPE OF (founded_item);
+	stroke_style : curve_style;
+END_ENTITY;
+
+
+ENTITY character_glyph_symbol
+	SUBTYPE OF (generic_character_glyph_symbol);
+	character_box : planar_extent;
+	baseline_ratio : ratio_measure;
+DERIVE
+	box_height : length_measure := character_box.size_in_y;
+WHERE
+	WR1 : {0.0 <= baseline_ratio <= 1.0};
+	WR2 : item_in_context(SELF.character_box, 
+                       SELF\representation.context_of_items);
+	WR3 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE'
+        IN TYPEOF (SELF.box_height);
+END_ENTITY;
+
+
+ENTITY character_glyph_symbol_outline
+	SUBTYPE OF (character_glyph_symbol);
+	outlines : SET [1:?] OF annotation_fill_area;
+WHERE
+	WR1 : SELF.outlines <= SELF\representation.items;
+END_ENTITY;
+
+
+ENTITY character_glyph_symbol_stroke
+	SUBTYPE OF (character_glyph_symbol);
+	strokes : SET [1:?] OF curve;
+WHERE
+	WR1 : SELF.strokes <= SELF\representation.items;
+END_ENTITY;
+
+
+ENTITY characteristic_data_column_header
+	SUBTYPE OF (general_property);
+END_ENTITY;
+
+
+ENTITY characteristic_data_column_header_link
+	SUBTYPE OF (general_property_relationship);
+END_ENTITY;
+
+
+ENTITY characteristic_data_table_header
+	SUBTYPE OF (general_property);
+END_ENTITY;
+
+
+ENTITY characteristic_data_table_header_decomposition
+	SUBTYPE OF (general_property_relationship);
+END_ENTITY;
+
+
+ENTITY characteristic_type
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY characterized_class
+	SUBTYPE OF (characterized_object, class);
+END_ENTITY;
+
+
+ENTITY characterized_object;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY circle
+	SUBTYPE OF (conic);
+	radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY circular_runout_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 2;
+END_ENTITY;
+
+
+ENTITY class
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY class_by_extension
+	SUBTYPE OF (class);
+END_ENTITY;
+
+
+ENTITY class_by_intension
+	SUBTYPE OF (class);
+END_ENTITY;
+
+
+ENTITY class_system
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY class_usage_effectivity_context_assignment
+	SUBTYPE OF (effectivity_context_assignment);
+	items : SET [1:?] OF class_usage_effectivity_context_item;
+WHERE
+	WR1 : SELF.role.name = 'class usage influence';
+	WR2 : SIZEOF( QUERY( i <* SELF.items | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF(i)) )) = 0;
+	WR3 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.APPLIED_EFFECTIVITY_ASSIGNMENT' IN TYPEOF(SELF.assigned_effectivity_assignment)) AND 
+        (SIZEOF(TYPEOF(SELF.assigned_effectivity_assignment.assigned_effectivity) ) = 1) AND 
+        (SELF.assigned_effectivity_assignment.assigned_effectivity.id = 'class usage') AND 
+        (SIZEOF( QUERY( i <* SELF.assigned_effectivity_assignment\applied_effectivity_assignment.items | 
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_CONCEPT_FEATURE_CATEGORY_USAGE' IN TYPEOF(i)) )) = 0);
+END_ENTITY;
+
+
+ENTITY classification_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_class : group;
+	role : classification_role;
+END_ENTITY;
+
+
+ENTITY classification_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY closed_shell
+	SUBTYPE OF (connected_face_set);
+END_ENTITY;
+
+
+ENTITY coaxiality_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 2;
+END_ENTITY;
+
+
+ENTITY colour;
+END_ENTITY;
+
+
+ENTITY colour_rgb
+	SUBTYPE OF (colour_specification);
+	red : REAL;
+	green : REAL;
+	blue : REAL;
+WHERE
+	WR1 : {0.0 <= red <= 1.0};
+	WR2 : {0.0 <= green <= 1.0};
+	WR3 : {0.0 <= blue <= 1.0};
+END_ENTITY;
+
+
+ENTITY colour_specification
+	SUBTYPE OF (colour);
+	name : label;
+END_ENTITY;
+
+
+ENTITY common_datum
+	SUBTYPE OF (composite_shape_aspect, datum);
+WHERE
+	WR1 : SIZEOF (SELF\composite_shape_aspect.component_relationships) = 2;
+	WR2 : SIZEOF (QUERY ( sar <* SELF\composite_shape_aspect.component_relationships| 
+                      NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM' IN TYPEOF (sar.related_shape_aspect)) AND 
+                          NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMMON_DATUM' IN TYPEOF (sar.related_shape_aspect))) )) = 0;
+END_ENTITY;
+
+
+ENTITY comparison_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (boolean_expression, binary_generic_expression);
+	SELF\binary_generic_expression.operands : LIST [2:2] OF expression;
+WHERE
+	WR1 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NUMERIC_EXPRESSION' 
+IN TYPEOF(SELF\binary_generic_expression.operands[1]))
+		AND 
+		 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NUMERIC_EXPRESSION' 
+IN TYPEOF(SELF\binary_generic_expression.operands[2]))) 
+OR
+ (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOOLEAN_EXPRESSION' 
+IN TYPEOF(SELF\binary_generic_expression.operands[1]))
+		AND 
+		 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOOLEAN_EXPRESSION' 
+	IN TYPEOF(SELF\binary_generic_expression.operands[2])))
+OR
+(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION' 
+IN TYPEOF(SELF\binary_generic_expression.operands[1]))
+		AND 
+		 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION' 
+IN TYPEOF(SELF\binary_generic_expression.operands[2])));
+END_ENTITY;
+
+
+ENTITY complex_clause
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY complex_conjunctive_clause
+	SUBTYPE OF (complex_clause);
+END_ENTITY;
+
+
+ENTITY complex_disjunctive_clause
+	SUBTYPE OF (complex_clause);
+END_ENTITY;
+
+
+ENTITY complex_shelled_solid
+	SUBTYPE OF (shelled_solid);
+	thickened_face_list : LIST [1:?] OF SET [1:?] OF face_surface;
+	thickness_list : LIST [1:?] OF length_measure;
+WHERE
+	WR1 : SIZEOF(thickened_face_list) = SIZEOF(thickness_list);
+	WR2 : SIZEOF(QUERY(q <* thickness_list | (q = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY composite_assembly_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) = 1;
+END_ENTITY;
+
+
+ENTITY composite_assembly_sequence_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) > 0;
+END_ENTITY;
+
+
+ENTITY composite_assembly_table
+	SUBTYPE OF (part_laminate_table);
+END_ENTITY;
+
+
+ENTITY composite_curve
+	SUBTYPE OF (bounded_curve);
+	segments : LIST [1:?] OF composite_curve_segment;
+	self_intersect : LOGICAL;
+DERIVE
+	closed_curve : LOGICAL := segments[n_segments].transition <> discontinuous;
+	n_segments : INTEGER := SIZEOF(segments);
+WHERE
+	WR1 : ((NOT closed_curve) AND (SIZEOF(QUERY(temp <* segments |
+                temp.transition = discontinuous)) = 1)) OR
+            ((closed_curve) AND (SIZEOF(QUERY(temp <* segments | 
+                temp.transition = discontinuous)) = 0));
+END_ENTITY;
+
+
+ENTITY composite_curve_on_surface
+	SUPERTYPE OF (boundary_curve)
+	SUBTYPE OF (composite_curve);
+DERIVE
+	basis_surface : SET [0:2] OF surface := get_basis_surface(SELF);
+WHERE
+	WR1 : SIZEOF(basis_surface) > 0;
+	WR2 : constraints_composite_curve_on_surface(SELF);
+END_ENTITY;
+
+
+ENTITY composite_curve_segment
+	SUBTYPE OF (founded_item);
+	transition : transition_code;
+	same_sense : BOOLEAN;
+	parent_curve : curve;
+INVERSE
+	using_curves: BAG [1:?] OF composite_curve FOR segments;
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE' IN TYPEOF(parent_curve));
+END_ENTITY;
+
+
+ENTITY composite_material_designation
+	SUBTYPE OF (material_designation);
+END_ENTITY;
+
+
+ENTITY composite_shape_aspect
+	SUBTYPE OF (shape_aspect);
+INVERSE
+	component_relationships: SET [2:?] OF shape_aspect_relationship FOR relating_shape_aspect;
+END_ENTITY;
+
+
+ENTITY composite_sheet_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'GEOMETRICALLY_BOUNDED_SURFACE_SHAPE_REPRESENTATION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'MANIFOLD_SURFACE_SHAPE_REPRESENTATION'] * TYPEOF (SELF)) = 1;
+END_ENTITY;
+
+
+ENTITY composite_text
+	SUBTYPE OF (geometric_representation_item);
+	collected_text : SET [2:?] OF text_or_character;
+WHERE
+	WR1 : acyclic_composite_text( SELF, SELF.collected_text);
+END_ENTITY;
+
+
+ENTITY composite_text_with_associated_curves
+	SUBTYPE OF (composite_text);
+	associated_curves : SET [1:?] OF curve;
+END_ENTITY;
+
+
+ENTITY composite_text_with_blanking_box
+	SUBTYPE OF (composite_text);
+	blanking : planar_box;
+END_ENTITY;
+
+
+ENTITY composite_text_with_delineation
+	SUBTYPE OF (composite_text);
+	delineation : text_delineation;
+END_ENTITY;
+
+
+ENTITY composite_text_with_extent
+	SUBTYPE OF (composite_text);
+	extent : planar_extent;
+END_ENTITY;
+
+
+ENTITY compound_representation_item
+	SUPERTYPE OF (ONEOF (point_and_vector, point_path, row_representation_item, table_representation_item))
+	SUBTYPE OF (representation_item);
+	item_element : compound_item_definition;
+END_ENTITY;
+
+
+ENTITY compound_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'GEOMETRIC_REPRESENTATION_CONTEXT'
+        IN TYPEOF ( SELF.context_of_items ) ) AND (
+        SELF.context_of_items\
+        geometric_representation_context.coordinate_space_dimension =3 );
+	WR2 : SIZEOF ( QUERY ( cbsr_i <* SELF.items | SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'EDGE_BASED_WIREFRAME_MODEL' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'FACE_BASED_SURFACE_MODEL' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MAPPED_ITEM' , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'AXIS2_PLACEMENT_3D']* TYPEOF ( cbsr_i ) ) <>1 ) ) =0;
+	WR3 : SIZEOF ( QUERY ( cbsr_i <* SELF.items | SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'EDGE_BASED_WIREFRAME_MODEL' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'FACE_BASED_SURFACE_MODEL' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MAPPED_ITEM']* TYPEOF ( cbsr_i ) ) =1 ) ) >0;
+	WR4 : SIZEOF ( QUERY ( cbsr_i <* SELF.items | (
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MAPPED_ITEM' IN TYPEOF ( cbsr_i ) )
+         AND ( SIZEOF ( ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'COMPOUND_SHAPE_REPRESENTATION' , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'EDGE_BASED_WIREFRAME_SHAPE_REPRESENTATION' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'NON_MANIFOLD_SURFACE_SHAPE_REPRESENTATION']* TYPEOF (
+         cbsr_i\ mapped_item.mapping_source ) ) <>1 ) ) ) =0;
+END_ENTITY;
+
+
+ENTITY concentricity_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) = 1;
+END_ENTITY;
+
+
+ENTITY concept_feature_operator;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY concept_feature_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_product_concept_feature : product_concept_feature;
+	related_product_concept_feature : product_concept_feature;
+END_ENTITY;
+
+
+ENTITY concept_feature_relationship_with_condition
+	SUBTYPE OF (concept_feature_relationship);
+	conditional_operator : concept_feature_operator;
+END_ENTITY;
+
+
+ENTITY conditional_concept_feature
+	SUBTYPE OF (product_concept_feature);
+	condition : concept_feature_relationship_with_condition;
+END_ENTITY;
+
+
+ENTITY conductance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONDUCTANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY conductance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.siemens);
+END_ENTITY;
+
+
+ENTITY configurable_item
+	SUBTYPE OF (configuration_item);
+	item_concept_feature : SET [1:?] OF product_concept_feature_association;
+END_ENTITY;
+
+
+ENTITY configuration_design;
+	configuration : configuration_item;
+	design : configuration_design_item;
+DERIVE
+	description : text := get_description_value (SELF);
+	name : label := get_name_value (SELF);
+UNIQUE
+	UR1 : configuration, design;
+WHERE
+	WR1 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+	WR2 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY configuration_effectivity
+	SUBTYPE OF (product_definition_effectivity);
+	configuration : configuration_design;
+UNIQUE
+  UR1: configuration, SELF\product_definition_effectivity.usage, SELF\effectivity.id;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_USAGE' IN
+        TYPEOF (SELF\product_definition_effectivity.usage);
+END_ENTITY;
+
+
+ENTITY configuration_item;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	item_concept : product_concept;
+	purpose : OPTIONAL label;
+END_ENTITY;
+
+
+ENTITY configuration_item_hierarchical_relationship
+	SUBTYPE OF (configuration_item_relationship);
+END_ENTITY;
+
+
+ENTITY configuration_item_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_configuration_item : configuration_item;
+	related_configuration_item : configuration_item;
+END_ENTITY;
+
+
+ENTITY configuration_item_revision_sequence
+	SUBTYPE OF (configuration_item_relationship);
+END_ENTITY;
+
+
+ENTITY configured_effectivity_assignment
+	SUBTYPE OF (effectivity_assignment);
+	items : SET [1:?] OF configured_effectivity_item;
+WHERE
+	WR1 : (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EFFECTIVITY'] * TYPEOF(SELF.assigned_effectivity) ) = 1) 
+	AND (SELF.assigned_effectivity.id = 'configuration validity');
+	WR2 : SIZEOF(SELF.items) = 1;
+	WR3 : SIZEOF( QUERY( i <* SELF.items | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF(i)) 
+	OR NOT (i\product_definition.frame_of_reference.name IN ['conceptual definition','part occurrence', 'functional definition','alternative definition']) )) = 0;
+	WR4 : SELF.role.name IN ['design', 'usage'];
+	WR5 : (SELF.role.name <> 'design') 
+	OR (SIZEOF( QUERY( i <* SELF.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF(i)) AND (i\product_definition.frame_of_reference.name = 'part occurrence') )) = 0);
+	WR6 : (SELF.role.name <> 'usage') OR (SIZEOF( QUERY( i <* SELF.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF(i)) AND (i\product_definition.frame_of_reference.name = 'conceptual definition') )) = 0);
+	WR7 : SELF.role.description IN ['exception', 'inherited', 'local'];
+	WR8 : SIZEOF( QUERY( x <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EFFECTIVITY_CONTEXT_ASSIGNMENT.ASSIGNED_EFFECTIVITY_ASSIGNMENT') | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONFIGURED_EFFECTIVITY_CONTEXT_ASSIGNMENT' IN TYPEOF(x) )) = 1;
+END_ENTITY;
+
+
+ENTITY configured_effectivity_context_assignment
+	SUBTYPE OF (effectivity_context_assignment);
+	items : SET [1:?] OF configured_effectivity_context_item;
+	SELF\effectivity_context_assignment.assigned_effectivity_assignment : configured_effectivity_assignment;
+WHERE
+	WR1 : SIZEOF(SELF.items) = 1;
+END_ENTITY;
+
+
+ENTITY conic
+	SUPERTYPE OF (ONEOF (circle, ellipse, hyperbola, parabola))
+	SUBTYPE OF (curve);
+	position : axis2_placement;
+END_ENTITY;
+
+
+ENTITY conical_stepped_hole_transition
+	SUBTYPE OF (geometric_representation_item);
+	transition_number : positive_integer;
+	cone_apex_angle : plane_angle_measure;
+	cone_base_radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY conical_surface
+	SUBTYPE OF (elementary_surface);
+	radius : length_measure;
+	semi_angle : plane_angle_measure;
+WHERE
+	WR1 : radius >= 0.0;
+END_ENTITY;
+
+
+ENTITY connected_edge_set
+	SUBTYPE OF (topological_representation_item);
+	ces_edges : SET [1:?] OF edge;
+END_ENTITY;
+
+
+ENTITY connected_face_set
+	SUPERTYPE OF (ONEOF (closed_shell, open_shell))
+	SUBTYPE OF (topological_representation_item);
+	cfs_faces : SET [1:?] OF face;
+END_ENTITY;
+
+
+ENTITY connected_face_sub_set
+	SUBTYPE OF (connected_face_set);
+	parent_face_set : connected_face_set;
+END_ENTITY;
+
+
+ENTITY constructive_geometry_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_CONTEXT' IN TYPEOF(SELF.context_of_items)) AND ({2 <= SELF.context_of_items\geometric_representation_context. coordinate_space_dimension <= 3});
+	WR2 : SIZEOF( QUERY( cgr_i <* SELF.items | SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLACEMENT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT'] * TYPEOF(cgr_i)) <> 1 )) = 0;
+	WR3 : SIZEOF( USEDIN( SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP.REP_2') ) > 0;
+	WR4 : SIZEOF( USEDIN( SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_MAP.MAPPED_REPRESENTATION') ) = 0;
+END_ENTITY;
+
+
+ENTITY constructive_geometry_representation_relationship
+	SUBTYPE OF (representation_relationship);
+	SELF\representation_relationship.rep_1 : constructive_geometry_representation_or_shape_represenation;
+	SELF\representation_relationship.rep_2 : constructive_geometry_representation;
+WHERE
+	WR1 : (SELF.rep_1.context_of_items :=: SELF.rep_2.context_of_items) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_CONTEXT' IN TYPEOF(SELF.rep_1.context_of_items));
+	WR2 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP_WITH_TRANSFORMATION' IN TYPEOF(SELF));
+END_ENTITY;
+
+
+ENTITY contact_ratio_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : ( SIZEOF ( SELF.items ) =1 ) AND ( SIZEOF ( QUERY ( i <*
+        SELF.items | ( SIZEOF ( ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'MEASURE_REPRESENTATION_ITEM' , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'VALUE_RANGE']* TYPEOF ( i ) ) =1 ) AND ( i.name =
+        'ratio value' ) ) ) =1 );
+	WR2 : ( SIZEOF ( QUERY ( pdr <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | pdr. name =
+        'contact ratio reference' ) ) =1 ) AND ( SIZEOF ( QUERY (
+        pdr <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | ( pdr. name =
+        'contact ratio reference' ) AND ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'PRODUCT_DEFINITION' IN TYPEOF ( pdr.
+        definition.definition ) ) ) ) =1 );
+	WR3 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) ) =1 ) AND ( SIZEOF ( QUERY ( pdr
+        <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | SIZEOF ( QUERY ( gpa <* USEDIN (
+        pdr. definition ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'GENERAL_PROPERTY_ASSOCIATION.'+
+        'DERIVED_DEFINITION' ) | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'GENERAL_PROPERTY' IN TYPEOF ( gpa. base_definition ) ) AND
+        ( gpa. base_definition.name ='surface_condition' ) ) ) =1 )
+        ) =1 );
+END_ENTITY;
+
+
+ENTITY context_dependent_invisibility
+	SUBTYPE OF (invisibility);
+	presentation_context : invisibility_context;
+END_ENTITY;
+
+
+ENTITY context_dependent_over_riding_styled_item
+	SUBTYPE OF (over_riding_styled_item);
+	style_context : LIST [1:?] OF style_context_select;
+WHERE
+	WR1 : (SIZEOF(QUERY(sc <* SELF.style_context | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_ITEM' IN TYPEOF(sc)))= 1) OR
+(SIZEOF(QUERY(sc <* SELF.style_context |
+     ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(sc))
+  OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_RELATIONSHIP' IN TYPEOF(sc)) ))
+  = SIZEOF(style_context));
+END_ENTITY;
+
+
+ENTITY context_dependent_shape_representation;
+	representation_relation : shape_representation_relationship;
+	represented_product_relation : product_definition_shape;
+DERIVE
+	description : text := get_description_value(SELF);
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_RELATIONSHIP' IN TYPEOF(SELF.represented_product_relation.definition);
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+	WR3 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY context_dependent_unit
+	SUBTYPE OF (named_unit);
+	name : label;
+END_ENTITY;
+
+
+ENTITY contract;
+	name : label;
+	purpose : text;
+	kind : contract_type;
+END_ENTITY;
+
+
+ENTITY contract_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_contract : contract;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY contract_relationship;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	relating_contract : contract;
+	related_contract : contract;
+END_ENTITY;
+
+
+ENTITY contract_type;
+	description : label;
+END_ENTITY;
+
+
+ENTITY conversion_based_unit
+	SUBTYPE OF (named_unit);
+	name : label;
+	conversion_factor : measure_with_unit;
+WHERE
+	WR1 : SELF\named_unit.dimensions = derive_dimensional_exponents(conversion_factor\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY coordinated_universal_time_offset;
+	hour_offset : INTEGER;
+	minute_offset : OPTIONAL INTEGER;
+	sense : ahead_or_behind;
+DERIVE
+	actual_minute_offset : INTEGER := NVL(minute_offset,0);
+WHERE
+	WR1 : { 0 <= hour_offset < 24 };
+	WR2 : { 0 <= actual_minute_offset <= 59 };
+	WR3 : NOT (((hour_offset <> 0) OR (actual_minute_offset <>0)) AND (sense = exact));
+END_ENTITY;
+
+
+ENTITY csg_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SELF.context_of_items\geometric_representation_context.coordinate_space_dimension = 3;
+	WR2 : SIZEOF ( 
+QUERY ( it <* SELF.items| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CSG_SOLID', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_REPLICA', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REVOLVED_FACE_SOLID', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXTRUDED_FACE_SOLID' ] * TYPEOF (it)) <> 1) )) = 0;
+	WR3 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CSG_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( sr <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_REPLICA' IN TYPEOF (it)) )| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CSG_SOLID', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REVOLVED_FACE_SOLID', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXTRUDED_FACE_SOLID' ] * TYPEOF (sr\solid_replica.parent_solid)) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( it <* SELF.items| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' IN TYPEOF (it)) )) > 0;
+END_ENTITY;
+
+
+ENTITY csg_solid
+	SUBTYPE OF (solid_model);
+	tree_root_expression : csg_select;
+END_ENTITY;
+
+
+ENTITY currency
+	ABSTRACT SUPERTYPE OF (ONEOF (externally_defined_currency, iso4217_currency))
+	SUBTYPE OF (context_dependent_unit);
+WHERE
+	WR1 : ((SELF\named_unit.dimensions.length_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.mass_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.time_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND
+           (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0));
+END_ENTITY;
+
+
+ENTITY currency_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+	SELF\measure_with_unit.unit_component : currency;
+END_ENTITY;
+
+
+ENTITY curve
+	SUPERTYPE OF (ONEOF (line, conic, pcurve, surface_curve, offset_curve_2d, offset_curve_3d, curve_replica))
+	SUBTYPE OF (geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY curve_bounded_surface
+	SUBTYPE OF (bounded_surface);
+	basis_surface : surface;
+	boundaries : SET [1:?] OF boundary_curve;
+	implicit_outer : BOOLEAN;
+WHERE
+	WR1 : (NOT implicit_outer) OR
+         (SIZEOF (QUERY (temp <* boundaries |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OUTER_BOUNDARY_CURVE' IN TYPEOF(temp))) = 0);
+	WR2 : (NOT(implicit_outer)) OR
+                ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_SURFACE' IN TYPEOF(basis_surface));
+	WR3 : SIZEOF(QUERY(temp <* boundaries |
+                  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OUTER_BOUNDARY_CURVE' IN
+                                         TYPEOF(temp))) <= 1;
+	WR4 : SIZEOF(QUERY(temp <* boundaries |
+            (temp\composite_curve_on_surface.basis_surface [1] <>
+                                         SELF.basis_surface))) = 0;
+END_ENTITY;
+
+
+ENTITY curve_dimension
+	SUBTYPE OF (dimension_curve_directed_callout);
+END_ENTITY;
+
+
+ENTITY curve_replica
+	SUBTYPE OF (curve);
+	parent_curve : curve;
+	transformation : cartesian_transformation_operator;
+WHERE
+	WR1 : transformation.dim = parent_curve.dim;
+	WR2 : acyclic_curve_replica (SELF, parent_curve);
+END_ENTITY;
+
+
+ENTITY curve_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	curve_font : curve_font_or_scaled_curve_font_select;
+	curve_width : size_select;
+	curve_colour : colour;
+END_ENTITY;
+
+
+ENTITY curve_style_font
+	SUBTYPE OF (founded_item);
+	name : label;
+	pattern_list : LIST [1:?] OF curve_style_font_pattern;
+END_ENTITY;
+
+
+ENTITY curve_style_font_and_scaling
+	SUBTYPE OF (founded_item);
+	name : label;
+	curve_font : curve_style_font_select;
+	curve_font_scaling : REAL;
+END_ENTITY;
+
+
+ENTITY curve_style_font_pattern
+	SUBTYPE OF (founded_item);
+	visible_segment_length : positive_length_measure;
+	invisible_segment_length : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY curve_style_rendering;
+	rendering_method : shading_curve_method;
+	rendering_properties : surface_rendering_properties;
+END_ENTITY;
+
+
+ENTITY curve_swept_solid_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (it <* SELF.items |
+          NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_AREA_SOLID',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_DISK_SOLID',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] *
+                   TYPEOF(it)) = 1))) = 0;
+	WR2 : SIZEOF (QUERY (it <* SELF.items |
+         SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_AREA_SOLID',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_DISK_SOLID',
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF(it)) =1 )) > 0;
+	WR3 : SIZEOF (QUERY (mi <*  QUERY (it <* items |
+                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(it)) |
+   NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_SWEPT_SOLID_SHAPE_REPRESENTATION' IN
+             TYPEOF(mi\mapped_item.mapping_source.
+                           mapped_representation)))) = 0;
+	WR4 : SIZEOF (QUERY (scsas <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE_SWEPT_AREA_SOLID' IN
+              TYPEOF(it)) |
+          NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN
+                 TYPEOF(scsas\surface_curve_swept_area_solid.directrix)) OR
+                   ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN
+                   TYPEOF(scsas\surface_curve_swept_area_solid.directrix))))) = 0;
+END_ENTITY;
+
+
+ENTITY cylindrical_surface
+	SUBTYPE OF (elementary_surface);
+	radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY cylindricity_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF));
+END_ENTITY;
+
+
+ENTITY data_environment;
+	name : label;
+	description : text;
+	elements : SET [1:?] OF property_definition_representation;
+END_ENTITY;
+
+
+ENTITY date
+	SUPERTYPE OF (ONEOF (calendar_date, ordinal_date, week_of_year_and_day_date, year_month));
+	year_component : year_number;
+END_ENTITY;
+
+
+ENTITY date_and_time;
+	date_component : date;
+	time_component : local_time;
+END_ENTITY;
+
+
+ENTITY date_and_time_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_date_and_time : date_and_time;
+	role : date_time_role;
+END_ENTITY;
+
+
+ENTITY date_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_date : date;
+	role : date_role;
+END_ENTITY;
+
+
+ENTITY date_representation_item
+	SUBTYPE OF (representation_item, date);
+END_ENTITY;
+
+
+ENTITY date_role;
+	name : label;
+DERIVE
+	description : text := get_description_value (SELF);
+WHERE
+	WR1 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY date_time_representation_item
+	SUBTYPE OF (representation_item, date_and_time);
+END_ENTITY;
+
+
+ENTITY date_time_role;
+	name : label;
+DERIVE
+	description : text := get_description_value (SELF);
+WHERE
+	WR1 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY dated_effectivity
+	SUBTYPE OF (effectivity);
+	effectivity_end_date : OPTIONAL date_time_or_event_occurrence;
+	effectivity_start_date : date_time_or_event_occurrence;
+END_ENTITY;
+
+
+ENTITY datum
+	SUBTYPE OF (shape_aspect);
+	identification : identifier;
+INVERSE
+	established_by_relationships: SET [1:?] OF shape_aspect_relationship FOR related_shape_aspect;
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMMON_DATUM' IN TYPEOF(SELF)) XOR
+       ((SIZEOF(QUERY(x <* SELF\datum.established_by_relationships |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM_FEATURE' IN TYPEOF(x\shape_aspect_relationship.relating_shape_aspect)))) = 1) XOR
+       (SIZEOF(QUERY(x <* SELF\datum.established_by_relationships |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM_TARGET' IN TYPEOF(x\shape_aspect_relationship.relating_shape_aspect)))) >= 1));
+END_ENTITY;
+
+
+ENTITY datum_feature
+	SUBTYPE OF (shape_aspect);
+INVERSE
+	feature_basis_relationship: SET [1:?] OF shape_aspect_relationship FOR relating_shape_aspect;
+WHERE
+	WR1 : SIZEOF(QUERY(sar <* SELF\datum_feature.feature_basis_relationship 
+       | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM' IN TYPEOF
+       (sar\shape_aspect_relationship.related_shape_aspect)))) = 1;
+	WR2 : SELF\shape_aspect.product_definitional = TRUE;
+END_ENTITY;
+
+
+ENTITY datum_feature_callout
+	SUBTYPE OF (draughting_callout);
+END_ENTITY;
+
+
+ENTITY datum_reference;
+	precedence : INTEGER;
+	referenced_datum : datum;
+WHERE
+	WR1 : precedence > 0;
+END_ENTITY;
+
+
+ENTITY datum_target
+	SUBTYPE OF (shape_aspect);
+	target_id : identifier;
+INVERSE
+	target_basis_relationship: SET [1:?] OF shape_aspect_relationship FOR relating_shape_aspect;
+WHERE
+	WR1 : SIZEOF(QUERY(sar <* SELF\datum_target.target_basis_relationship 
+       | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM' IN TYPEOF
+       (sar\shape_aspect_relationship.related_shape_aspect)))) = 1;
+	WR2 : SELF\shape_aspect.product_definitional = TRUE;
+END_ENTITY;
+
+
+ENTITY datum_target_callout
+	SUBTYPE OF (draughting_callout);
+END_ENTITY;
+
+
+ENTITY default_tolerance_table
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : SIZEOF( QUERY( i <* SELF.items | NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEFAULT_TOLERANCE_TABLE_CELL' IN TYPEOF(i)) )) = 0;
+	WR2 : (SIZEOF( QUERY( rr <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP.REP_1') | rr.name < 'general tolerance definition' )) = 0) AND (SIZEOF( QUERY( rr <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP.REP_1') | (rr.name = 'general tolerance definition') AND (rr.rep_2.name < 'default tolerance') )) = 0) AND (SIZEOF( USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP.REP_2') ) = 0);
+END_ENTITY;
+
+
+ENTITY default_tolerance_table_cell
+	SUBTYPE OF (compound_representation_item);
+WHERE
+	WR1 : SIZEOF(QUERY( x <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION.ITEMS') | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DEFAULT_TOLERANCE_TABLE' IN TYPEOF(x)))=1;
+	WR2 : default_tolerance_table_cell_wr2(SELF\compound_representation_item.item_element);
+	WR3 : default_tolerance_table_cell_wr3(SELF\compound_representation_item.item_element);
+	WR4 : default_tolerance_table_cell_wr4(SELF\compound_representation_item.item_element);
+	WR5 : default_tolerance_table_cell_wr5(SELF\compound_representation_item.item_element);
+END_ENTITY;
+
+
+ENTITY defined_symbol
+	SUBTYPE OF (geometric_representation_item);
+	definition : defined_symbol_select;
+	target : symbol_target;
+END_ENTITY;
+
+
+ENTITY definitional_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PARAMETRIC_REPRESENTATION_CONTEXT' IN
+          TYPEOF (SELF\representation.context_of_items );
+END_ENTITY;
+
+
+ENTITY definitional_representation_relationship
+	SUBTYPE OF (representation_relationship);
+WHERE
+	WR1 : acyclic_representation_relationship(SELF,
+         [SELF\representation_relationship.rep_2],
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'REPRESENTATION');
+END_ENTITY;
+
+
+ENTITY definitional_representation_relationship_with_same_context
+	SUBTYPE OF (definitional_representation_relationship);
+WHERE
+	WR1 : SELF\representation_relationship.rep_1.context_of_items :=: 
+            SELF\representation_relationship.rep_2.context_of_items;
+END_ENTITY;
+
+
+ENTITY degenerate_pcurve
+	SUBTYPE OF (point);
+	basis_surface : surface;
+	reference_to_curve : definitional_representation;
+WHERE
+	WR1 : SIZEOF(reference_to_curve\representation.items) = 1;
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF
+                    (reference_to_curve\representation.items[1]);
+	WR3 : reference_to_curve\representation.
+                   items[1]\geometric_representation_item.dim =2;
+END_ENTITY;
+
+
+ENTITY degenerate_toroidal_surface
+	SUBTYPE OF (toroidal_surface);
+	select_outer : BOOLEAN;
+WHERE
+	WR1 : major_radius <   minor_radius;
+END_ENTITY;
+
+
+ENTITY derived_shape_aspect
+	SUPERTYPE OF (ONEOF (apex, centre_of_symmetry, geometric_alignment, geometric_intersection, parallel_offset, perpendicular_to, extension, tangent))
+	SUBTYPE OF (shape_aspect);
+INVERSE
+	deriving_relationships: SET [1:?] OF shape_aspect_relationship FOR relating_shape_aspect;
+WHERE
+	WR1 : SIZEOF (QUERY (dr <*
+          SELF\derived_shape_aspect.deriving_relationships |
+          NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+               'SHAPE_ASPECT_DERIVING_RELATIONSHIP'
+          IN TYPEOF (dr)))) = 0;
+END_ENTITY;
+
+
+ENTITY derived_unit
+	SUPERTYPE OF (ONEOF (absorbed_dose_unit, acceleration_unit, radioactivity_unit, area_unit, capacitance_unit, dose_equivalent_unit, electric_charge_unit, conductance_unit, electric_potential_unit, energy_unit, magnetic_flux_density_unit, force_unit, frequency_unit, illuminance_unit, inductance_unit, magnetic_flux_unit, power_unit, pressure_unit, resistance_unit, velocity_unit, volume_unit));
+	elements : SET [1:?] OF derived_unit_element;
+DERIVE
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : (SIZEOF(elements) > 1) OR ((SIZEOF(elements) = 1) AND (elements[1].exponent <> 1.0));
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY derived_unit_element;
+	unit : named_unit;
+	exponent : REAL;
+END_ENTITY;
+
+
+ENTITY description_attribute;
+	attribute_value : text;
+	described_item : description_attribute_select;
+END_ENTITY;
+
+
+ENTITY descriptive_representation_item
+	SUPERTYPE OF (ONEOF (tagged_text_item, uniform_resource_identifier))
+	SUBTYPE OF (representation_item);
+	description : text;
+END_ENTITY;
+
+
+ENTITY design_context
+	SUBTYPE OF (product_definition_context);
+WHERE
+	WR1 : SELF.life_cycle_stage = 'design';
+END_ENTITY;
+
+
+ENTITY design_make_from_relationship
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY diameter_dimension
+	SUBTYPE OF (dimension_curve_directed_callout);
+END_ENTITY;
+
+
+ENTITY dielectric_constant_measure_with_unit
+	SUBTYPE OF (ratio_measure_with_unit);
+END_ENTITY;
+
+
+ENTITY dimension_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT'
+        IN (TYPEOF (SELF))) XOR
+       (SIZEOF (QUERY(dce_1 <* SELF\draughting_callout.contents |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE'
+        IN (TYPEOF(dce_1))))) = 0);
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_DIRECTED_CALLOUT'
+        IN (TYPEOF (SELF))) XOR
+       (SIZEOF (QUERY(dce_1 <* SELF\draughting_callout.contents |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE'
+        IN (TYPEOF(dce_1))))) = 0);
+	WR3 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT'
+        IN (TYPEOF (SELF))) XOR
+       (SIZEOF (QUERY(dce_1 <* SELF\draughting_callout.contents |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE'
+        IN (TYPEOF(dce_1))))) = 0);
+END_ENTITY;
+
+
+ENTITY dimension_callout_component_relationship
+	SUBTYPE OF (draughting_callout_relationship);
+WHERE
+	WR1 : SELF.name IN ['prefix', 'suffix'];
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRUCTURED_DIMENSION_CALLOUT'
+           IN TYPEOF (SELF.relating_draughting_callout);
+	WR3 : SIZEOF (TYPEOF (SELF.related_draughting_callout) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRUCTURED_DIMENSION_CALLOUT']) = 0;
+	WR4 : SELF.related_draughting_callout.contents *
+       SELF.relating_draughting_callout.contents =
+       SELF.related_draughting_callout.contents;
+	WR5 : ((SELF.name = 'prefix') AND
+       (SIZEOF (QUERY (ato <* QUERY (con <*
+                 SELF.related_draughting_callout.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(con))) |
+         NOT (ato.name = 'prefix text')
+       )) = 0));
+	WR6 : ((SELF.name = 'suffix') AND
+       (SIZEOF (QUERY (ato <* QUERY (con <*
+                 SELF.related_draughting_callout.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(con))) |
+         NOT (ato.name = 'suffix text')
+       )) = 0));
+END_ENTITY;
+
+
+ENTITY dimension_callout_relationship
+	SUBTYPE OF (draughting_callout_relationship);
+WHERE
+	WR1 : SELF.name IN ['primary', 'secondary'];
+	WR2 : SIZEOF (TYPEOF (SELF.relating_draughting_callout) * 
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANGULAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIAMETER_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINEAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORDINATE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RADIUS_DIMENSION'])>=1;
+	WR3 : SIZEOF (TYPEOF (SELF.related_draughting_callout) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT']) = 0;
+	WR4 : SELF.related_draughting_callout.contents *
+       SELF.relating_draughting_callout.contents =
+       SELF.related_draughting_callout.contents;
+END_ENTITY;
+
+
+ENTITY dimension_curve
+	SUBTYPE OF (annotation_curve_occurrence);
+WHERE
+	WR1 : (SIZEOF(
+          QUERY(dct <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                'TERMINATOR_SYMBOL.ANNOTATED_CURVE')
+               | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                  'DIMENSION_CURVE_TERMINATOR' IN TYPEOF(dct))
+                  ))
+          ) <= 2);
+	WR2 : SIZEOF(
+            QUERY( dcdc <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                   'DRAUGHTING_CALLOUT.CONTENTS') |
+                   ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                    'DIMENSION_CURVE_DIRECTED_CALLOUT' IN TYPEOF(dcdc)))
+          )>= 1;
+	WR3 : (SIZEOF(
+            QUERY(dct1 <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                  'TERMINATOR_SYMBOL.ANNOTATED_CURVE') 
+               | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                  'DIMENSION_CURVE_TERMINATOR' IN TYPEOF(dct1)) 
+                  AND (dct1\dimension_curve_terminator.role = dimension_extent_usage.origin)))
+          ) <= 1)
+        AND 
+        (SIZEOF(
+            QUERY (dct2 <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                   'TERMINATOR_SYMBOL.ANNOTATED_CURVE') 
+                 | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                   'DIMENSION_CURVE_TERMINATOR' IN TYPEOF(dct2))
+                   AND (dct2\dimension_curve_terminator.role = dimension_extent_usage.target)))
+         ) <= 1);
+END_ENTITY;
+
+
+ENTITY dimension_curve_directed_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF(QUERY(d_c<*SELF\draughting_callout.contents | 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE' IN (TYPEOF(d_c))))=1;
+	WR2 : SIZEOF(SELF\draughting_callout.contents) >= 2;
+END_ENTITY;
+
+
+ENTITY dimension_curve_terminator
+	SUBTYPE OF (terminator_symbol);
+	role : dimension_extent_usage;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE' IN TYPEOF
+        (SELF\terminator_symbol.annotated_curve);
+END_ENTITY;
+
+
+ENTITY dimension_curve_terminator_to_projection_curve_associativity
+	SUBTYPE OF (annotation_occurrence_associativity);
+	SELF\annotation_occurrence_relationship.related_annotation_occurrence : projection_curve;
+	SELF\annotation_occurrence_relationship.relating_annotation_occurrence : dimension_curve_terminator;
+END_ENTITY;
+
+
+ENTITY dimension_pair
+	SUBTYPE OF (draughting_callout_relationship);
+WHERE
+	WR1 : SELF.name IN ['chained', 'parallel'];
+	WR2 : SIZEOF (TYPEOF (SELF.relating_draughting_callout) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANGULAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIAMETER_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINEAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORDINATE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RADIUS_DIMENSION'])=1;
+	WR3 : SIZEOF (TYPEOF (SELF.related_draughting_callout) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANGULAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIAMETER_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINEAR_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORDINATE_DIMENSION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RADIUS_DIMENSION'])=1;
+END_ENTITY;
+
+
+ENTITY dimension_related_tolerance_zone_element;
+	related_dimension : dimensional_location;
+	related_element : tolerance_zone_definition;
+END_ENTITY;
+
+
+ENTITY dimension_text_associativity
+	SUBTYPE OF (text_literal, mapped_item);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_DIMENSION_REPRESENTATION'
+          IN TYPEOF (SELF\mapped_item.
+                          mapping_source.mapped_representation));
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT'
+          IN TYPEOF (SELF\mapped_item.mapping_target));
+	WR3 : SIZEOF (QUERY (ato <* QUERY (si <* 
+          USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM.ITEM') |
+            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+              IN TYPEOF(si))) |
+          NOT (SIZEOF( QUERY (dc <*
+             USEDIN (ato, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                          'DRAUGHTING_CALLOUT.CONTENTS') |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT'
+             IN TYPEOF (dc)))
+            * [SELF\mapped_item.mapping_target]) = 1)
+          )) = 0;
+END_ENTITY;
+
+
+ENTITY dimensional_characteristic_representation;
+	dimension : dimensional_characteristic;
+	representation : shape_dimension_representation;
+END_ENTITY;
+
+
+ENTITY dimensional_exponents;
+	length_exponent : REAL;
+	mass_exponent : REAL;
+	time_exponent : REAL;
+	electric_current_exponent : REAL;
+	thermodynamic_temperature_exponent : REAL;
+	amount_of_substance_exponent : REAL;
+	luminous_intensity_exponent : REAL;
+END_ENTITY;
+
+
+ENTITY dimensional_location
+	SUPERTYPE OF (ONEOF (angular_location, dimensional_location_with_path))
+	SUBTYPE OF (shape_aspect_relationship);
+END_ENTITY;
+
+
+ENTITY dimensional_location_with_path
+	SUBTYPE OF (dimensional_location);
+	path : shape_aspect;
+END_ENTITY;
+
+
+ENTITY dimensional_size
+	SUPERTYPE OF (ONEOF (angular_size, dimensional_size_with_path));
+	applies_to : shape_aspect;
+	name : label;
+WHERE
+	WR1 : applies_to.product_definitional = TRUE;
+END_ENTITY;
+
+
+ENTITY dimensional_size_with_path
+	SUBTYPE OF (dimensional_size);
+	path : shape_aspect;
+END_ENTITY;
+
+
+ENTITY directed_action
+	SUBTYPE OF (executed_action);
+	directive : action_directive;
+END_ENTITY;
+
+
+ENTITY directed_dimensional_location
+	SUBTYPE OF (dimensional_location);
+END_ENTITY;
+
+
+ENTITY direction
+	SUBTYPE OF (geometric_representation_item);
+	direction_ratios : LIST [2:3] OF REAL;
+WHERE
+	WR1 : SIZEOF(QUERY(tmp <* direction_ratios | tmp <> 0.0)) > 0;
+END_ENTITY;
+
+
+ENTITY document;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	kind : document_type;
+INVERSE
+	representation_types: SET [0:?] OF document_representation_type FOR represented_document;
+END_ENTITY;
+
+
+ENTITY document_file
+	SUBTYPE OF (document, characterized_object);
+WHERE
+	WR1 : SELF\characterized_object.name = '';
+	WR2 : NOT EXISTS(SELF\characterized_object.description);
+	WR3 : SIZEOF( QUERY( drt <* SELF\document.representation_types |
+               drt.name IN ['digital','physical'])) = 1;
+END_ENTITY;
+
+
+ENTITY document_identifier
+	SUBTYPE OF (group);
+UNIQUE
+  UR1: SELF\group.name, SELF\group.description;
+END_ENTITY;
+
+
+ENTITY document_identifier_assignment
+	SUBTYPE OF (group_assignment);
+	items : SET [1:?] OF document_identifier_assigned_item;
+	SELF\group_assignment.assigned_group : document_identifier;
+END_ENTITY;
+
+
+ENTITY document_product_association;
+	name : label;
+	description : OPTIONAL text;
+	relating_document : document;
+	related_product : product_or_formation_or_definition;
+END_ENTITY;
+
+
+ENTITY document_product_equivalence
+	SUBTYPE OF (document_product_association);
+WHERE
+	WR1 : SELF\document_product_association.name = 'equivalence';
+	WR2 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT' IN TYPEOF(SELF\document_product_association.related_product)) OR ((SELF\document_product_association.relating_document.kind. product_data_type = 'configuration controlled document') AND (SIZEOF( QUERY( prpc <* USEDIN(SELF\document_product_association.related_product,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | prpc.name = 'document' )) = 1));
+	WR3 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_FORMATION' IN TYPEOF(SELF.related_product)) OR ((SELF\document_product_association.relating_document.kind.product_data_type = 'configuration controlled document version') AND (SIZEOF( QUERY( prpc <* USEDIN(SELF.related_product\product_definition_formation.of_product, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | prpc.name = 'document')) = 1));
+	WR4 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF(SELF.related_product)) OR ((SELF\document_product_association.relating_document.kind.product_data_type = 'configuration controlled document definition') AND (SIZEOF( QUERY( prpc <* USEDIN(SELF\document_product_association.related_product\product_definition.formation.of_product, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | prpc.name = 'document' )) = 1));
+END_ENTITY;
+
+
+ENTITY document_reference
+	ABSTRACT SUPERTYPE;
+	assigned_document : document;
+	source : label;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY document_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_document : document;
+	related_document : document;
+END_ENTITY;
+
+
+ENTITY document_representation_type;
+	name : label;
+	represented_document : document;
+END_ENTITY;
+
+
+ENTITY document_type;
+	product_data_type : label;
+END_ENTITY;
+
+
+ENTITY document_usage_constraint;
+	source : document;
+	subject_element : label;
+	subject_element_value : text;
+END_ENTITY;
+
+
+ENTITY document_usage_constraint_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_document_usage : document_usage_constraint;
+	role : document_usage_role;
+END_ENTITY;
+
+
+ENTITY document_usage_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY dose_equivalent_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DOSE_EQUIVALENT_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY dose_equivalent_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.sievert);
+END_ENTITY;
+
+
+ENTITY double_offset_shelled_solid
+	SUBTYPE OF (shelled_solid);
+	thickness2 : length_measure;
+WHERE
+	WR1 : thickness2 <> 0;
+	WR2 : SELF\shelled_solid.thickness <> thickness2;
+END_ENTITY;
+
+
+ENTITY draped_defined_transformation
+	SUBTYPE OF (transformation_with_derived_angle);
+END_ENTITY;
+
+
+ENTITY draughting_annotation_occurrence
+	SUBTYPE OF (annotation_occurrence);
+WHERE
+	WR1 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_CURVE_OCCURRENCE'
+            IN TYPEOF (SELF))) OR
+    (SIZEOF (QUERY (sty <* SELF.styles |
+       NOT ((SIZEOF (sty.styles) = 1)
+         AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+                 IN TYPEOF (sty.styles[1]))) )) = 0);
+	WR2 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_FILL_AREA_OCCURRENCE'
+            IN TYPEOF (SELF))) OR    (SIZEOF (QUERY (sty <* SELF.styles |
+      NOT ((SIZEOF (sty.styles) = 1)
+        AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE'
+                IN TYPEOF (sty.styles[1]))) )) = 0);
+	WR3 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_FILL_AREA_OCCURRENCE'
+            IN TYPEOF (SELF))) OR    (SIZEOF (QUERY (bound <*
+                     SELF.item\annotation_fill_area.boundaries |
+       NOT (SIZEOF (QUERY (si <*
+                   USEDIN (bound, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                  'STYLED_ITEM.ITEM') |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+             'ANNOTATION_CURVE_OCCURRENCE' IN TYPEOF (si)))) > 0))) = 0);
+	WR4 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL_OCCURRENCE'
+            IN TYPEOF (SELF))) OR    (SIZEOF (QUERY (sty <* SELF.styles |
+       NOT ((SIZEOF (sty.styles) = 1)           AND
+            (SIZEOF (TYPEOF (sty.styles[1]) *
+                ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMBOL_STYLE',
+                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NULL_STYLE']) = 1)) )) = 0);
+	WR5 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL'
+             IN TYPEOF(SELF.item)))) OR
+         (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                   'DRAUGHTING_SYMBOL_REPRESENTATION',
+                  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                  'DRAUGHTING_SUBFIGURE_REPRESENTATION'] *
+          TYPEOF (SELF.item\mapped_item.mapping_source.
+                  mapped_representation)) = 1);
+	WR6 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+            IN TYPEOF (SELF))) OR
+    (SIZEOF (QUERY (sty <* SELF.styles |
+       NOT ((SIZEOF (sty.styles) = 1)
+        AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_STYLE'
+                IN TYPEOF (sty.styles[1]))) )) = 0);
+	WR7 : (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF))) OR
+         (SIZEOF (TYPEOF(SELF.item) *
+             ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL']) = 1);
+	WR8 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+             IN TYPEOF (SELF.item)))) OR    (SIZEOF (QUERY (tl <*
+                   SELF.item\composite_text.collected_text |
+             NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL' 
+             IN TYPEOF (tl)) )) = 0);
+	WR9 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL'
+             IN TYPEOF (SELF.item)))) OR (SELF.item\text_literal.alignment 
+             IN ['baseline left', 'baseline centre', 'baseline right']);
+	WR10 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+             IN TYPEOF (SELF.item)))) OR
+         (SIZEOF (QUERY (tl <* QUERY (text <* SELF.
+                  item\composite_text.collected_text
+             |('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL' IN TYPEOF(text))) |
+          NOT (tl\text_literal.alignment IN
+         ['baseline left', 'baseline centre', 'baseline right']) )) = 0);
+	WR11 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+             IN TYPEOF (SELF.item))) OR check_text_alignment(SELF.item);
+	WR12 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+             IN TYPEOF (SELF.item))) OR check_text_font(SELF.item);
+	WR13 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+               IN TYPEOF (SELF.item)))) OR
+         (SIZEOF (QUERY (tl <* QUERY (text <*
+            SELF.item\composite_text.collected_text |
+            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL' IN TYPEOF (text))) |
+             NOT (SIZEOF (TYPEOF(tl) *
+                  ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                   'TEXT_LITERAL_WITH_BLANKING_BOX',
+                   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                   'TEXT_LITERAL_WITH_ASSOCIATED_CURVES']) = 0) )) = 0);
+	WR14 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL_WITH_ASSOCIATED_CURVES'
+             IN TYPEOF (SELF.item)))) OR
+    (SIZEOF (QUERY (crv <*
+                   SELF.item\text_literal_with_associated_curves.
+                   associated_curves |
+      NOT (SIZEOF (QUERY (si <*  USEDIN (crv, 
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM.ITEM') |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_CURVE_OCCURRENCE'
+            IN TYPEOF (si)) )) > 0) )) = 0);
+	WR15 : (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (SELF)) AND
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT_WITH_ASSOCIATED_CURVES'
+             IN TYPEOF (SELF.item)))) OR
+          (SIZEOF (QUERY (crv <*
+                SELF.item\composite_text_with_associated_curves.
+                associated_curves |
+           NOT (SIZEOF (QUERY (si <*  USEDIN (crv,
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM.ITEM') |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_CURVE_OCCURRENCE'
+           IN TYPEOF (si)) )) > 0) )) = 0);
+	WR16 : SIZEOF (QUERY (cs <* QUERY (sty <* SELF.styles |
+      ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE' IN TYPEOF (sty.styles[1])))
+      | NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE_WITH_UNIT'
+        IN TYPEOF (cs.styles[1]\curve_style.curve_width)) AND
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE'
+        IN TYPEOF (cs.styles[1]\curve_style.
+        curve_width\measure_with_unit.value_component))))) = 0;
+	WR17 : SIZEOF (QUERY (fas <* QUERY (sty <* SELF.styles |
+      ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE'
+          IN TYPEOF (sty.styles[1]))) |
+      NOT ((SIZEOF (QUERY (fs <* fas.styles[1]\fill_area_style.fill_styles
+                    | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE_TILES'
+                       IN TYPEOF (fs)))) <= 1)
+       AND (SIZEOF (QUERY (fst <* QUERY (fs <*
+                           fas.styles[1]\fill_area_style.fill_styles |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE_TILES'
+                  IN TYPEOF (fs))) |
+                 NOT (SIZEOF (fst\fill_area_style_tiles.tiles) = 1)
+           )) = 0))
+    )) = 0;
+	WR18 : SIZEOF (QUERY (fas <* QUERY (sty <* SELF.styles |
+           ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE' 
+            IN TYPEOF (sty.styles[1]))) |
+             NOT (SIZEOF (QUERY (fsh <* QUERY (fs <*
+                          fas.styles[1]\fill_area_style.fill_styles |
+             ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FILL_AREA_STYLE_HATCHING'
+               IN TYPEOF (fs))) |
+        NOT (fsh\fill_area_style_hatching.point_of_reference_hatch_line :=:
+             fsh\fill_area_style_hatching.pattern_start)  )) = 0)  )) = 0;
+	WR19 : SIZEOF (QUERY (ts <* QUERY (sty <* SELF.styles |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_STYLE' 
+         IN TYPEOF(sty.styles[1]))) |
+             NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                  'TEXT_STYLE_WITH_BOX_CHARACTERISTICS'
+             IN TYPEOF (ts.styles[1])))) = 0;
+	WR20 : SIZEOF (QUERY (ts <* QUERY (sty <* SELF.styles |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_STYLE_WITH_BOX_CHARACTERISTICS'
+             IN TYPEOF (sty.styles[1]))) |
+           NOT (SIZEOF (ts.styles[1]\text_style_with_box_characteristics.
+                characteristics) = 4) )) = 0;
+END_ENTITY;
+
+
+ENTITY draughting_callout
+	SUPERTYPE OF ((ONEOF (datum_feature_callout, datum_target_callout, dimension_curve_directed_callout, draughting_elements, geometrical_tolerance_callout, leader_directed_callout, projection_directed_callout, structured_dimension_callout) ANDOR surface_condition_callout))
+	SUBTYPE OF (geometric_representation_item);
+	contents : SET [1:?] OF draughting_callout_element;
+WHERE
+	WR1 : (SIZEOF (QUERY (l_1 <* SELF\draughting_callout.contents |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE' IN (TYPEOF(l_1)))) = 0) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT' IN (TYPEOF(SELF))) AND
+        (SIZEOF (QUERY (l_1 <* SELF\draughting_callout.contents |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE' IN (TYPEOF(l_1)))) = 0) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_DIRECTED_CALLOUT' IN (TYPEOF(SELF))) AND  
+        (SIZEOF (QUERY (l_1 <* SELF\draughting_callout.contents |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE' IN (TYPEOF(l_1)))) = 0) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT' IN (TYPEOF(SELF)));
+END_ENTITY;
+
+
+ENTITY draughting_callout_relationship;
+	name : label;
+	description : text;
+	relating_draughting_callout : draughting_callout;
+	related_draughting_callout : draughting_callout;
+END_ENTITY;
+
+
+ENTITY draughting_elements
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF (QUERY (l_c <* QUERY (con <* SELF.contents |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE' IN TYPEOF(con))) |
+              NOT (SIZEOF (QUERY (ldc <* USEDIN (l_c,
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DRAUGHTING_CALLOUT.CONTENTS') |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT'
+              IN TYPEOF (ldc)))) <= 1)))=0;
+	WR2 : NOT    ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT'
+              IN TYPEOF(SELF)) OR
+              (SIZEOF (QUERY (con <* SELF.contents |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE' IN
+               TYPEOF (con)))) <= 2);
+	WR3 : SIZEOF (QUERY (rc <* USEDIN (SELF,
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT_' +
+              'RELATIONSHIP.RELATING_DRAUGHTING_CALLOUT') |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+               'DIMENSION_CALLOUT_RELATIONSHIP' IN TYPEOF (rc)) AND
+              (rc.name = 'primary') )) <= 1;
+	WR4 : SIZEOF (QUERY (rc <* USEDIN (SELF,
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT_' +
+              'RELATIONSHIP.RELATING_DRAUGHTING_CALLOUT') |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                'DIMENSION_CALLOUT_RELATIONSHIP' IN TYPEOF (rc)) AND
+                (rc.name = 'secondary') )) <= 1;
+	WR5 : SIZEOF (QUERY (sec <* QUERY (rc <* USEDIN (SELF,
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT_' +
+               'RELATIONSHIP.RELATING_DRAUGHTING_CALLOUT') |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                'DIMENSION_CALLOUT_RELATIONSHIP' IN TYPEOF (rc)) AND         
+                (rc.name = 'secondary') ) |
+         NOT (SIZEOF (QUERY (prim <* USEDIN (SELF,
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT_' +
+               'RELATIONSHIP.RELATING_DRAUGHTING_CALLOUT') |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                'DIMENSION_CALLOUT_RELATIONSHIP' IN TYPEOF (prim)) AND         
+                (prim.name = 'primary') )) = 1))) = 0;
+END_ENTITY;
+
+
+ENTITY draughting_model
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF draughting_model_item_select;
+UNIQUE
+  UR1: SELF\representation.name;
+WHERE
+	WR1 : SIZEOF (QUERY (mi <* QUERY (it <* SELF.items |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(it))) |
+         NOT (
+           SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION',
+                    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_MODEL'] *
+              TYPEOF (mi\mapped_item.mapping_source.
+                      mapped_representation)) = 1
+        ))) = 0;
+	WR2 : SIZEOF (QUERY (smi <* QUERY (si <* QUERY (it <* SELF.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM' IN TYPEOF(it))) |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN
+            TYPEOF(si\styled_item.item))) |
+        (NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION' IN
+                 TYPEOF(smi\styled_item.item\mapped_item.
+                        mapping_source.mapped_representation))
+            AND
+             (SIZEOF (QUERY (sty <* smi\styled_item.styles |
+               (NOT (SIZEOF (QUERY (psa <* sty.styles |
+                       (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE' IN TYPEOF(psa))))) = 1
+             )))) = 1)))
+        )) = 0;
+END_ENTITY;
+
+
+ENTITY draughting_model_item_association
+	SUBTYPE OF (item_identified_representation_usage);
+	SELF\item_identified_representation_usage.definition : shape_definition;
+	SELF\item_identified_representation_usage.identified_item : draughting_model_item_association_select;
+	SELF\item_identified_representation_usage.used_representation : draughting_model;
+END_ENTITY;
+
+
+ENTITY draughting_pre_defined_colour
+	SUBTYPE OF (pre_defined_colour);
+WHERE
+	WR1 : SELF.name IN
+      ['red',
+       'green',
+       'blue',
+       'yellow',
+       'magenta',
+       'cyan',
+       'black',
+       'white'];
+END_ENTITY;
+
+
+ENTITY draughting_pre_defined_curve_font
+	SUBTYPE OF (pre_defined_curve_font);
+WHERE
+	WR1 : SELF.name IN
+        ['continuous',
+         'chain',
+         'chain double dash',
+         'dashed',
+         'dotted'];
+END_ENTITY;
+
+
+ENTITY draughting_pre_defined_text_font
+	SUBTYPE OF (pre_defined_text_font);
+WHERE
+	WR1 : SELF.name[1:8] = 'ISO 3098';
+END_ENTITY;
+
+
+ENTITY draughting_subfigure_representation
+	SUBTYPE OF (symbol_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (item <* SELF\representation.items |
+         NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_OCCURRENCE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT']
+               * TYPEOF (item)) = 1))) = 0;
+	WR2 : SIZEOF (QUERY (item <* SELF\representation.items |
+         SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_OCCURRENCE',
+                  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT'] *
+           TYPEOF (item)) = 1)) >= 1;
+	WR3 : SIZEOF (QUERY (srm <* QUERY (rm <*
+          USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                        'REPRESENTATION_MAP.MAPPED_REPRESENTATION') |
+          ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMBOL_REPRESENTATION_MAP'
+             IN TYPEOF(rm))) | 
+            NOT (SIZEOF (QUERY (a_s <* QUERY (mi <* srm.map_usage |
+            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL' IN TYPEOF(mi)))
+          | NOT (SIZEOF (QUERY (aso <*
+            USEDIN (a_s, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+                         'STYLED_ITEM.ITEM') |
+          NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SUBFIGURE_OCCURRENCE'
+            IN TYPEOF(aso)))) = 0))) = 0))) > 0;
+	WR4 : NOT (acyclic_mapped_item_usage (SELF));
+	WR5 : SIZEOF (SELF.context_of_items.representations_in_context) = 1;
+END_ENTITY;
+
+
+ENTITY draughting_symbol_representation
+	SUBTYPE OF (symbol_representation);
+UNIQUE
+  UR1: SELF\representation.name;
+WHERE
+	WR1 : SIZEOF (QUERY (item <* SELF\representation.items |
+         NOT (SIZEOF (TYPEOF (item) *
+            ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_CURVE_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_FILL_AREA_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT']) = 1)
+       )) = 0;
+	WR2 : SIZEOF (QUERY (item <* SELF\representation.items |
+         (SIZEOF (TYPEOF (item) *
+            ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_CURVE_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_FILL_AREA_OCCURRENCE',
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE']) = 1)
+       )) >= 1;
+	WR3 : SIZEOF (QUERY (item <* SELF\representation.items |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SUBFIGURE_OCCURRENCE'
+          IN TYPEOF (item))) = 0;
+	WR4 : SIZEOF (QUERY (srm <* QUERY (rm <*
+          USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                        'REPRESENTATION_MAP.MAPPED_REPRESENTATION') |
+          ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMBOL_REPRESENTATION_MAP'
+             IN TYPEOF(rm))) |
+         (SIZEOF (QUERY (a_s <* QUERY (mi <* srm.map_usage |
+           ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL' IN TYPEOF(mi))) |
+         NOT (SIZEOF (QUERY(aso <*
+             USEDIN(a_s, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                         'STYLED_ITEM.ITEM') |
+             NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_SYMBOL_OCCURRENCE'
+                  IN TYPEOF(aso))
+          )) = 0) )) = 0) )) > 0;
+	WR5 : NOT (acyclic_mapped_item_usage (SELF));
+	WR6 : SIZEOF (SELF.context_of_items.representations_in_context) = 1;
+END_ENTITY;
+
+
+ENTITY draughting_text_literal_with_delineation
+	SUBTYPE OF (text_literal_with_delineation);
+WHERE
+	WR1 : SELF.delineation IN ['underline', 'overline'];
+END_ENTITY;
+
+
+ENTITY draughting_title;
+	items : SET [1:?] OF draughting_titled_item;
+	language : label;
+	contents : text;
+END_ENTITY;
+
+
+ENTITY drawing_definition;
+	drawing_number : identifier;
+	drawing_type : OPTIONAL label;
+END_ENTITY;
+
+
+ENTITY drawing_revision
+	SUBTYPE OF (presentation_set);
+	revision_identifier : identifier;
+	drawing_identifier : drawing_definition;
+	intended_scale : OPTIONAL text;
+UNIQUE
+	UR1 : revision_identifier, drawing_identifier;
+END_ENTITY;
+
+
+ENTITY drawing_revision_sequence;
+	predecessor : drawing_revision;
+	successor : drawing_revision;
+WHERE
+	WR1 : predecessor :<>: successor;
+END_ENTITY;
+
+
+ENTITY drawing_sheet_revision
+	SUBTYPE OF (presentation_area);
+	revision_identifier : identifier;
+WHERE
+	WR1 : SIZEOF( QUERY(item <* SELF\representation.items |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN (TYPEOF(item)))
+       AND
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAWING_SHEET_REVISION' IN
+       (TYPEOF(item\mapped_item.mapping_source.mapped_representation)))))=0;
+END_ENTITY;
+
+
+ENTITY drawing_sheet_revision_sequence
+	SUBTYPE OF (representation_relationship);
+WHERE
+	WR1 : SELF\representation_relationship.rep_1 :<>:                            
+       SELF\representation_relationship.rep_2;
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAWING_SHEET_REVISION'
+       IN TYPEOF (SELF\representation_relationship.rep_1);
+	WR3 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAWING_SHEET_REVISION'
+       IN TYPEOF (SELF\representation_relationship.rep_2);
+END_ENTITY;
+
+
+ENTITY drawing_sheet_revision_usage
+	SUBTYPE OF (area_in_set);
+	sheet_number : identifier;
+UNIQUE
+  UR1: sheet_number, SELF\area_in_set.in_set;
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAWING_SHEET_REVISION' IN 
+                  TYPEOF(SELF\area_in_set.area)) 
+              AND
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAWING_REVISION' 
+               IN TYPEOF (SELF\area_in_set.in_set));
+END_ENTITY;
+
+
+ENTITY edge
+	SUPERTYPE OF (ONEOF (edge_curve, oriented_edge, subedge))
+	SUBTYPE OF (topological_representation_item);
+	edge_start : vertex;
+	edge_end : vertex;
+END_ENTITY;
+
+
+ENTITY edge_based_wireframe_model
+	SUBTYPE OF (geometric_representation_item);
+	ebwm_boundary : SET [1:?] OF connected_edge_set;
+END_ENTITY;
+
+
+ENTITY edge_based_wireframe_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF ( 
+QUERY ( it <* SELF.items| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' ] * TYPEOF (it)) = 1) )) = 0;
+	WR2 : SIZEOF ( 
+QUERY ( it <* SELF.items| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ] * TYPEOF (it)) = 1) )) >= 1;
+	WR3 : SIZEOF ( 
+QUERY ( ebwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( eb <* ebwm\edge_based_wireframe_model.ebwm_boundary| NOT ( SIZEOF ( 
+QUERY ( edges <* eb.ces_edges| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF (edges)) )) = 0) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( ebwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( eb <* ebwm\edge_based_wireframe_model.ebwm_boundary| NOT ( SIZEOF ( 
+QUERY ( pline_edges <* 
+QUERY ( edges <* eb.ces_edges| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (edges\edge_curve.edge_geometry)) )| NOT ( SIZEOF (pline_edges\edge_curve.edge_geometry\polyline.points) > 2) )) = 0) )) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( ebwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( eb <* ebwm\edge_based_wireframe_model.ebwm_boundary| NOT ( SIZEOF ( 
+QUERY ( edges <* eb.ces_edges| NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (edges.edge_start)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (edges.edge_end))) )) = 0) )) = 0) )) = 0;
+	WR6 : SIZEOF ( 
+QUERY ( ebwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( eb <* ebwm\edge_based_wireframe_model.ebwm_boundary| NOT ( SIZEOF ( 
+QUERY ( edges <* eb.ces_edges| NOT valid_wireframe_edge_curve(edges\edge_curve.edge_geometry) )) = 0) )) = 0) )) = 0;
+	WR7 : SIZEOF ( 
+QUERY ( ebwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( eb <* ebwm\edge_based_wireframe_model.ebwm_boundary| NOT ( SIZEOF ( 
+QUERY ( edges <* eb.ces_edges| NOT (valid_wireframe_vertex_point(edges.edge_start\vertex_point.vertex_geometry) AND valid_wireframe_vertex_point(edges.edge_end\vertex_point.vertex_geometry)) )) = 0) )) = 0) )) = 0;
+	WR8 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EDGE_BASED_WIREFRAME_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+	WR9 : SELF.context_of_items\geometric_representation_context.coordinate_space_dimension = 3;
+END_ENTITY;
+
+
+ENTITY edge_blended_solid
+	ABSTRACT SUPERTYPE OF ((track_blended_solid ANDOR ONEOF (solid_with_constant_radius_edge_blend, solid_with_variable_radius_edge_blend, solid_with_chamfered_edges)))
+	SUBTYPE OF (modified_solid);
+	blended_edges : LIST [1:?] OF  UNIQUE edge_curve;
+END_ENTITY;
+
+
+ENTITY edge_curve
+	SUBTYPE OF (edge, geometric_representation_item);
+	edge_geometry : curve;
+	same_sense : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY edge_loop
+	SUBTYPE OF (loop, path);
+DERIVE
+	ne : INTEGER := SIZEOF(SELF\path.edge_list);
+WHERE
+	WR1 : (SELF\path.edge_list[1].edge_start) :=:
+        (SELF\path.edge_list[ne].edge_end);
+END_ENTITY;
+
+
+ENTITY effectivity
+	SUPERTYPE OF (ONEOF (serial_numbered_effectivity, dated_effectivity, lot_effectivity, time_interval_based_effectivity));
+	id : identifier;
+DERIVE
+	description : text := get_description_value(SELF);
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY effectivity_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_effectivity : effectivity;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY effectivity_context_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_effectivity_assignment : effectivity_assignment;
+	role : effectivity_context_role;
+END_ENTITY;
+
+
+ENTITY effectivity_context_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY effectivity_relationship;
+	name : label;
+	description : OPTIONAL text;
+	related_effectivity : effectivity;
+	relating_effectivity : effectivity;
+END_ENTITY;
+
+
+ENTITY electric_charge_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_CHARGE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY electric_charge_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.coulomb);
+END_ENTITY;
+
+
+ENTITY electric_current_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_CURRENT_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY electric_current_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 1.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY electric_potential_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_POTENTIAL_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY electric_potential_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.volt);
+END_ENTITY;
+
+
+ENTITY elementary_brep_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (it <* SELF.items |
+          NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] *
+                   TYPEOF(it)) = 1))) = 0;
+	WR2 : SIZEOF (QUERY (it <* SELF.items |
+         SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP',
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF(it)) =1 )) > 0;
+	WR3 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+            NOT (SIZEOF (QUERY(fcs <* csh.cfs_faces |
+              NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF(fcs)))) = 0
+                 ))) = 0
+                   ))) = 0;
+	WR4 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+            NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+              NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_SURFACE' IN
+                   TYPEOF(fcs\face_surface.face_geometry))
+             ))) = 0
+                 ))) = 0
+                   ))) = 0;
+	WR5 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+             NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+               NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                  NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN
+            TYPEOF(oe.edge_element)))) = 0
+                   ))) = 0
+                 ))) = 0
+               ))) = 0
+             ))) = 0;
+	WR6 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+             NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+               NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                 NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                   NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE'] *
+            TYPEOF(oe.edge_element\edge_curve.edge_geometry)) = 1 )
+               )) = 0
+               ))) = 0
+                 ))) = 0
+                   ))) = 0
+                    ))) = 0;
+	WR7 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+             NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+               NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                 NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+            NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF(oe.edge_start))
+                AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN
+                 TYPEOF(oe.edge_end))
+            ))) = 0
+              ))) = 0
+               ))) = 0
+                 ))) = 0
+                   ))) = 0;
+	WR8 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+           NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+             NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+               NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                   ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN
+            TYPEOF(oe.edge_element\edge_curve.edge_geometry)) AND
+            (NOT (SIZEOF (oe\oriented_edge.edge_element\
+                  edge_curve.edge_geometry\polyline.points) >= 3))
+               )) = 0
+               ))) = 0
+                 ))) = 0
+                   ))) = 0
+                    ))) = 0;
+	WR9 : SIZEOF (QUERY (msb <* QUERY (it <* items |
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL' IN TYPEOF
+              (msb\manifold_solid_brep.outer)))
+             = 0;
+	WR10 : SIZEOF (QUERY (brv <* QUERY (it <* items |
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BREP_WITH_VOIDS' IN TYPEOF(it)) |
+          NOT (SIZEOF (QUERY (csh <* brv\brep_with_voids.voids |
+           csh\oriented_closed_shell.orientation)) = 0))) = 0;
+	WR11 : SIZEOF (QUERY (mi <*  QUERY (it <* items |
+                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(it)) |
+          NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_BREP_SHAPE_REPRESENTATION' IN
+             TYPEOF(mi\mapped_item.mapping_source.
+                           mapped_representation)))) = 0;
+	WR12 : SIZEOF (QUERY (msb <* QUERY (it <* SELF.items |
+            'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF(it)) |
+            NOT (SIZEOF (QUERY (csh <* msb_shells(msb) |
+              NOT (SIZEOF (QUERY(fcs <* csh\connected_face_set.cfs_faces |
+               NOT (SIZEOF(QUERY (vlp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF(bnds.bound)) |
+           NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN
+               TYPEOF(vlp_fbnds\face_bound.bound\vertex_loop.loop_vertex)) AND
+                ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN
+                   TYPEOF(vlp_fbnds\face_bound.bound\vertex_loop.
+                     loop_vertex\vertex_point.vertex_geometry))
+            ))) = 0))) = 0))) = 0))) =0;
+END_ENTITY;
+
+
+ENTITY elementary_surface
+	SUPERTYPE OF (ONEOF (plane, cylindrical_surface, conical_surface, spherical_surface, toroidal_surface))
+	SUBTYPE OF (surface);
+	position : axis2_placement_3d;
+END_ENTITY;
+
+
+ENTITY ellipse
+	SUBTYPE OF (conic);
+	semi_axis_1 : positive_length_measure;
+	semi_axis_2 : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY energy_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ENERGY_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY energy_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.joule);
+END_ENTITY;
+
+
+ENTITY entity_assertion
+	SUBTYPE OF (fact_type);
+END_ENTITY;
+
+
+ENTITY enum_reference_prefix
+	SUBTYPE OF (descriptive_representation_item);
+END_ENTITY;
+
+
+ENTITY environment;
+	syntactic_representation : generic_variable;
+	semantics : variable_semantics;
+END_ENTITY;
+
+
+ENTITY evaluated_characteristic
+	SUBTYPE OF (representation, representation_relationship);
+UNIQUE
+  UR1: SELF\representation_relationship.rep_1, SELF\representation_relationship.rep_2;
+WHERE
+	WR1 : SELF\representation_relationship.rep_1 <> 
+       SELF\representation_relationship.rep_2;
+END_ENTITY;
+
+
+ENTITY evaluated_degenerate_pcurve
+	SUBTYPE OF (degenerate_pcurve);
+	equivalent_point : cartesian_point;
+END_ENTITY;
+
+
+ENTITY evaluation_product_definition
+	SUBTYPE OF (product_definition);
+END_ENTITY;
+
+
+ENTITY event_occurrence;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY event_occurrence_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_event_occurrence : event_occurrence;
+	role : event_occurrence_role;
+END_ENTITY;
+
+
+ENTITY event_occurrence_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_event : event_occurrence;
+	related_event : event_occurrence;
+END_ENTITY;
+
+
+ENTITY event_occurrence_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY exclusive_product_concept_feature_category
+	SUBTYPE OF (product_concept_feature_category);
+END_ENTITY;
+
+
+ENTITY executed_action
+	SUBTYPE OF (action);
+END_ENTITY;
+
+
+ENTITY expanded_uncertainty
+	SUBTYPE OF (standard_uncertainty);
+	coverage_factor : REAL;
+END_ENTITY;
+
+
+ENTITY explicit_procedural_geometric_representation_item_relationship
+	SUBTYPE OF (explicit_procedural_representation_item_relationship);
+	SELF\representation_item_relationship.related_representation_item : geometric_representation_item;
+	SELF\representation_item_relationship.relating_representation_item : procedural_shape_representation_sequence;
+WHERE
+	WR1 : NOT (
+    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROCEDURAL_SHAPE_REPRESENTATION_SEQUENCE'
+    IN TYPEOF(
+      SELF\representation_item_relationship.related_representation_item));
+END_ENTITY;
+
+
+ENTITY explicit_procedural_representation_item_relationship
+	SUBTYPE OF (representation_item_relationship);
+	SELF\representation_item_relationship.relating_representation_item : procedural_representation_sequence;
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROCEDURAL_REPRESENTATION_SEQUENCE'
+    IN TYPEOF(
+      SELF\representation_item_relationship.related_representation_item));
+	WR2 : SIZEOF(QUERY(q <* using_representations(
+    SELF\representation_item_relationship.related_representation_item) |
+    item_in_context(
+      SELF\representation_item_relationship.relating_representation_item,
+      q.context_of_items))) > 0;
+END_ENTITY;
+
+
+ENTITY explicit_procedural_representation_relationship
+	SUBTYPE OF (representation_relationship);
+	SELF\representation_relationship.rep_1 : procedural_representation;
+WHERE
+	WR1 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROCEDURAL_REPRESENTATION' 
+    IN TYPEOF(SELF\representation_relationship.rep_2))) AND 
+    (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VARIATIONAL_REPRESENTATION'
+    IN TYPEOF(SELF\representation_relationship.rep_2)));
+	WR2 : SELF\representation_relationship.rep_1.context_of_items :=:
+    SELF\representation_relationship.rep_2.context_of_items;
+END_ENTITY;
+
+
+ENTITY explicit_procedural_shape_representation_relationship
+	SUBTYPE OF (explicit_procedural_representation_relationship);
+	SELF\representation_relationship.rep_1 : procedural_shape_representation;
+	SELF\representation_relationship.rep_2 : shape_representation;
+END_ENTITY;
+
+
+ENTITY expression
+	ABSTRACT SUPERTYPE OF (ONEOF (numeric_expression, boolean_expression))
+	SUBTYPE OF (generic_expression);
+END_ENTITY;
+
+
+ENTITY expression_conversion_based_unit
+	SUBTYPE OF (context_dependent_unit, variable_semantics);
+INVERSE
+	associated_variable_environment: environment FOR semantics;
+END_ENTITY;
+
+
+ENTITY extension
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)= 1;
+END_ENTITY;
+
+
+ENTITY extent
+	SUBTYPE OF (characterized_object);
+END_ENTITY;
+
+
+ENTITY external_class_library
+	SUBTYPE OF (external_source);
+END_ENTITY;
+
+
+ENTITY external_identification_assignment
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (identification_assignment);
+	source : external_source;
+END_ENTITY;
+
+
+ENTITY external_source;
+	source_id : source_item;
+DERIVE
+	description : text := get_description_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY external_source_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_source : external_source;
+	related_source : external_source;
+END_ENTITY;
+
+
+ENTITY externally_defined_class
+	SUBTYPE OF (class, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_colour
+	SUBTYPE OF (colour_specification, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_context_dependent_unit
+	SUBTYPE OF (context_dependent_unit, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_conversion_based_unit
+	SUBTYPE OF (conversion_based_unit, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_currency
+	SUBTYPE OF (currency, externally_defined_context_dependent_unit);
+END_ENTITY;
+
+
+ENTITY externally_defined_curve_font
+	SUBTYPE OF (externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_dimension_definition
+	SUBTYPE OF (dimensional_size, externally_defined_item);
+WHERE
+	WR1 : (SELF\externally_defined_item.item_id = 'external size dimension') AND (SELF\externally_defined_item.source.source_id = 'external size dimension specification');
+	WR2 : 1 >= SIZEOF(QUERY ( adr <* USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.APPLIED_DOCUMENT_REFERENCE.ITEMS')| (adr.assigned_document.description = 'external size dimension specification') ));
+END_ENTITY;
+
+
+ENTITY externally_defined_general_property
+	SUBTYPE OF (general_property, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_hatch_style
+	SUBTYPE OF (externally_defined_item, geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_item;
+	item_id : source_item;
+	source : external_source;
+END_ENTITY;
+
+
+ENTITY externally_defined_item_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_item : externally_defined_item;
+	related_item : externally_defined_item;
+END_ENTITY;
+
+
+ENTITY externally_defined_marker
+	SUBTYPE OF (externally_defined_symbol, pre_defined_marker);
+END_ENTITY;
+
+
+ENTITY externally_defined_picture_representation_item
+	SUBTYPE OF (picture_representation_item);
+INVERSE
+	source: applied_external_identification_assignment FOR items;
+WHERE
+	WR1 : NOT (SELF\representation_item.name IN pre_defined_picture_representation_types);
+END_ENTITY;
+
+
+ENTITY externally_defined_representation_item
+	SUBTYPE OF (representation_item, externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_string
+	SUBTYPE OF (externally_defined_representation_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_symbol
+	SUBTYPE OF (externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_terminator_symbol
+	SUBTYPE OF (externally_defined_symbol);
+END_ENTITY;
+
+
+ENTITY externally_defined_text_font
+	SUBTYPE OF (externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_tile
+	SUBTYPE OF (externally_defined_item);
+END_ENTITY;
+
+
+ENTITY externally_defined_tile_style
+	SUBTYPE OF (externally_defined_item, geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY extruded_area_solid
+	SUBTYPE OF (swept_area_solid);
+	extruded_direction : direction;
+	depth : positive_length_measure;
+WHERE
+	WR1 : dot_product(
+        (SELF\swept_area_solid.swept_area.basis_surface\
+        elementary_surface.position.p[3]), extruded_direction) <> 0.0;
+END_ENTITY;
+
+
+ENTITY extruded_face_solid
+	SUBTYPE OF (swept_face_solid);
+	extruded_direction : direction;
+	depth : positive_length_measure;
+WHERE
+	WR1 : dot_product(
+        (SELF\swept_face_solid.swept_face.face_geometry\
+        elementary_surface.position.p[3]), extruded_direction) <> 0.0;
+END_ENTITY;
+
+
+ENTITY extruded_face_solid_with_draft_angle
+	SUBTYPE OF (extruded_face_solid_with_trim_conditions);
+	draft_angle : plane_angle_measure;
+WHERE
+	WR1 : draft_angle <> 0;
+END_ENTITY;
+
+
+ENTITY extruded_face_solid_with_multiple_draft_angles
+	SUBTYPE OF (extruded_face_solid_with_trim_conditions);
+	drafted_edges : LIST [2:?] OF SET [1:?] OF edge_curve;
+	draft_angles : LIST [2:?] OF plane_angle_measure;
+WHERE
+	WR1 : SIZEOF(drafted_edges) = SIZEOF(draft_angles);
+	WR2 : SIZEOF(QUERY(q <* draft_angles | q = 0)) = 0;
+	WR3 : SIZEOF(QUERY(q <* drafted_edges | (SIZEOF(QUERY(r <* q | NOT 
+         (SELF\swept_face_solid.swept_face IN 
+          using_items(r,[])))) > 0))) = 0;
+END_ENTITY;
+
+
+ENTITY extruded_face_solid_with_trim_conditions
+	SUPERTYPE OF (ONEOF (extruded_face_solid_with_draft_angle, extruded_face_solid_with_multiple_draft_angles))
+	SUBTYPE OF (extruded_face_solid);
+	first_trim_condition : trim_condition_select;
+	second_trim_condition : trim_condition_select;
+	first_trim_intent : trim_intent;
+	second_trim_intent : trim_intent;
+	first_offset : non_negative_length_measure;
+	second_offset : non_negative_length_measure;
+WHERE
+	WR1 : NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_MEASURE' 
+         IN TYPEOF(first_trim_condition)) OR
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_MEASURE' 
+         IN TYPEOF(second_trim_condition)));
+	WR2 : NOT ((('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(first_trim_condition)) AND 
+         ((first_trim_intent = trim_intent.offset) 
+         OR (first_trim_intent = trim_intent.up_to_next))) OR  
+         (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(second_trim_condition)) AND 
+         ((second_trim_intent = trim_intent.offset) 
+         OR (second_trim_intent = trim_intent.up_to_next))));
+	WR3 : NOT (((NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(first_trim_condition))) AND 
+         ((first_trim_intent = trim_intent.blind) 
+         OR (first_trim_intent = trim_intent.through_all))) OR  
+         ((NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(second_trim_condition))) AND 
+         ((second_trim_intent = trim_intent.blind) 
+         OR (second_trim_intent = trim_intent.through_all))));
+	WR4 : (((first_trim_intent = trim_intent.offset) 
+           AND (first_offset > 0)) XOR
+         ((first_trim_intent <> trim_intent.offset) 
+           AND (first_offset = 0))) AND 
+         (((second_trim_intent = trim_intent.offset) 
+           AND (second_offset > 0)) XOR
+         ((second_trim_intent <> trim_intent.offset) 
+            AND (second_offset = 0)));
+	WR5 : NOT((('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(first_trim_condition)) AND
+            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(second_trim_condition))) AND
+         (first_trim_condition = second_trim_condition));
+END_ENTITY;
+
+
+ENTITY face
+	SUPERTYPE OF (ONEOF (face_surface, subface, oriented_face))
+	SUBTYPE OF (topological_representation_item);
+	bounds : SET [1:?] OF face_bound;
+WHERE
+	WR1 : NOT (mixed_loop_type_set(list_to_set(list_face_loops(SELF))));
+	WR2 : SIZEOF(QUERY(temp <* bounds | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_OUTER_BOUND' IN
+                                               TYPEOF(temp))) <= 1;
+END_ENTITY;
+
+
+ENTITY face_based_surface_model
+	SUBTYPE OF (geometric_representation_item);
+	fbsm_faces : SET [1:?] OF connected_face_set;
+END_ENTITY;
+
+
+ENTITY face_bound
+	SUBTYPE OF (topological_representation_item);
+	bound : loop;
+	orientation : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY face_outer_bound
+	SUBTYPE OF (face_bound);
+END_ENTITY;
+
+
+ENTITY face_surface
+	SUBTYPE OF (face, geometric_representation_item);
+	face_geometry : surface;
+	same_sense : BOOLEAN;
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_SURFACE' IN TYPEOF(face_geometry));
+END_ENTITY;
+
+
+ENTITY faceted_brep
+	SUBTYPE OF (manifold_solid_brep);
+END_ENTITY;
+
+
+ENTITY faceted_brep_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF ( 
+QUERY ( it <* items| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' ] * TYPEOF (it)) = 1) )) = 0;
+	WR2 : SIZEOF ( 
+QUERY ( it <* items| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ] * TYPEOF (it)) = 1) )) > 0;
+	WR3 : SIZEOF ( 
+QUERY ( fbrep <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( csh <* msb_shells(fbrep)| NOT ( SIZEOF ( 
+QUERY ( fcs <* csh\connected_face_set.cfs_faces| NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF (fcs)) AND (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN TYPEOF (fcs\face_surface.face_geometry)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (fcs\face_surface.face_geometry\elementary_surface.position.location)))) )) = 0) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( fbrep <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( csh <* msb_shells(fbrep)| NOT ( SIZEOF ( 
+QUERY ( fcs <* csh\connected_face_set.cfs_faces| NOT ( SIZEOF ( 
+QUERY ( bnds <* fcs.bounds| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_OUTER_BOUND' IN TYPEOF (bnds)) )) = 1) )) = 0) )) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( msb <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SOLID_BREP' IN TYPEOF (it)) )| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL' IN TYPEOF (msb\manifold_solid_brep.outer)) )) = 0;
+	WR6 : SIZEOF ( 
+QUERY ( brv <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BREP_WITH_VOIDS' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( csh <* brv\brep_with_voids.voids| csh\oriented_closed_shell.orientation )) = 0) )) = 0;
+	WR7 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACETED_BREP_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+END_ENTITY;
+
+
+ENTITY fact_type
+	SUBTYPE OF (property_definition);
+END_ENTITY;
+
+
+ENTITY fill_area_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	fill_styles : SET [1:?] OF fill_style_select;
+WHERE
+	WR1 : SIZEOF(QUERY(fill_style <* SELF.fill_styles |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'FILL_AREA_STYLE_COLOUR' IN
+         TYPEOF(fill_style)
+         )) <= 1;
+END_ENTITY;
+
+
+ENTITY fill_area_style_colour;
+	name : label;
+	fill_colour : colour;
+END_ENTITY;
+
+
+ENTITY fill_area_style_hatching
+	SUBTYPE OF (geometric_representation_item);
+	hatch_line_appearance : curve_style;
+	start_of_next_hatch_line : one_direction_repeat_factor;
+	point_of_reference_hatch_line : cartesian_point;
+	pattern_start : cartesian_point;
+	hatch_line_angle : plane_angle_measure;
+END_ENTITY;
+
+
+ENTITY fill_area_style_tile_coloured_region
+	SUBTYPE OF (geometric_representation_item);
+	closed_curve : curve_or_annotation_curve_occurrence;
+	region_colour : colour;
+WHERE
+	WR1 : (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF (closed_curve))) OR 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE' IN TYPEOF (closed_curve)) OR 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE' IN TYPEOF (closed_curve)) OR 
+        ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF (closed_curve)) 
+             AND (closed_curve\b_spline_curve.closed_curve = TRUE) ) OR 
+        ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE' IN TYPEOF (closed_curve)) 
+             AND (closed_curve\composite_curve.closed_curve = TRUE) ) OR 
+        ( ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (closed_curve)) 
+             AND (closed_curve\polyline.points[LOINDEX(closed_curve\polyline.points)] = 
+                  closed_curve\polyline.points[HIINDEX(closed_curve\polyline.points)]) );
+END_ENTITY;
+
+
+ENTITY fill_area_style_tile_curve_with_style
+	SUBTYPE OF (geometric_representation_item);
+	styled_curve : annotation_curve_occurrence;
+END_ENTITY;
+
+
+ENTITY fill_area_style_tile_symbol_with_style
+	SUBTYPE OF (geometric_representation_item);
+	symbol : annotation_symbol_occurrence;
+END_ENTITY;
+
+
+ENTITY fill_area_style_tiles
+	SUBTYPE OF (geometric_representation_item);
+	tiling_pattern : two_direction_repeat_factor;
+	tiles : SET [1:?] OF fill_area_style_tile_shape_select;
+	tiling_scale : positive_ratio_measure;
+END_ENTITY;
+
+
+ENTITY flat_pattern_ply_representation_relationship
+	SUBTYPE OF (shape_representation_relationship);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION' IN
+        (TYPEOF (SELF\representation_relationship.rep_1) *
+         TYPEOF (SELF\representation_relationship.rep_2));
+	WR2 : SELF\representation_relationship.rep_1.
+        context_of_items\geometric_representation_context.
+        coordinate_space_dimension = 3;
+END_ENTITY;
+
+
+ENTITY flatness_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF));
+END_ENTITY;
+
+
+ENTITY force_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FORCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY force_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.newton);
+END_ENTITY;
+
+
+ENTITY forward_chaining_rule
+	SUBTYPE OF (rule_definition);
+END_ENTITY;
+
+
+ENTITY forward_chaining_rule_premise
+	SUBTYPE OF (property_definition, property_definition_representation, representation);
+END_ENTITY;
+
+
+ENTITY founded_item
+	SUPERTYPE OF (ONEOF (character_glyph_style_outline, character_glyph_style_stroke, curve_style, curve_style_font, curve_style_font_and_scaling, curve_style_font_pattern, fill_area_style, point_style, presentation_style_assignment, surface_side_style, surface_style_boundary, surface_style_control_grid, surface_style_fill_area, surface_style_parameter_line, surface_style_segmentation_curve, surface_style_silhouette, surface_style_usage, symbol_style, text_style));
+DERIVE
+	users : SET [0:?] OF founded_item_select := using_items(SELF,[]);
+WHERE
+	WR1 : SIZEOF(users) > 0;
+	WR2 : NOT(SELF IN users);
+END_ENTITY;
+
+
+ENTITY frequency_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FREQUENCY_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY frequency_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.hertz);
+END_ENTITY;
+
+
+ENTITY func
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY functional_breakdown_context
+	SUBTYPE OF (breakdown_context);
+END_ENTITY;
+
+
+ENTITY functional_element_usage
+	SUBTYPE OF (breakdown_element_usage);
+END_ENTITY;
+
+
+ENTITY functionally_defined_transformation;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY general_material_property
+	SUBTYPE OF (general_property);
+WHERE
+	WR1 : SIZEOF( QUERY( gpa <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GENERAL_PROPERTY_ASSOCIATION.BASE_DEFINITION') | 
+        NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MATERIAL_PROPERTY' IN TYPEOF(gpa.derived_definition)) )) = 0;
+END_ENTITY;
+
+
+ENTITY general_property;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY general_property_association;
+	name : label;
+	description : OPTIONAL text;
+	base_definition : general_property;
+	derived_definition : derived_property_select;
+WHERE
+	WR1 : SIZEOF(USEDIN(derived_definition, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GENERAL_PROPERTY_ASSOCIATION.' + 'DERIVED_DEFINITION')) = 1;
+	WR2 : derived_definition.name = base_definition.name;
+END_ENTITY;
+
+
+ENTITY general_property_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_property : general_property;
+	related_property : general_property;
+END_ENTITY;
+
+
+ENTITY generic_character_glyph_symbol
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (symbol_representation);
+END_ENTITY;
+
+
+ENTITY generic_expression
+	ABSTRACT SUPERTYPE OF (ONEOF (simple_generic_expression, unary_generic_expression, binary_generic_expression, multiple_arity_generic_expression));
+WHERE
+	WR1 : is_acyclic(SELF);
+END_ENTITY;
+
+
+ENTITY generic_literal
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (simple_generic_expression);
+END_ENTITY;
+
+
+ENTITY generic_variable
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (simple_generic_expression);
+INVERSE
+	interpretation: environment FOR syntactic_representation;
+END_ENTITY;
+
+
+ENTITY geometric_alignment
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)> 1;
+END_ENTITY;
+
+
+ENTITY geometric_curve_set
+	SUBTYPE OF (geometric_set);
+WHERE
+	WR1 : SIZEOF(QUERY(temp <* SELF\geometric_set.elements |
+                            'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN TYPEOF(temp))) = 0;
+END_ENTITY;
+
+
+ENTITY geometric_intersection
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)> 1;
+END_ENTITY;
+
+
+ENTITY geometric_item_specific_usage
+	SUBTYPE OF (item_identified_representation_usage);
+	SELF\item_identified_representation_usage.definition : geometric_item_specific_usage_select;
+	SELF\item_identified_representation_usage.identified_item : geometric_representation_item;
+	SELF\item_identified_representation_usage.used_representation : shape_representation;
+END_ENTITY;
+
+
+ENTITY geometric_model_element_relationship
+	SUBTYPE OF (geometric_representation_item, representation_item_relationship);
+	SELF\representation_item_relationship.related_representation_item : geometric_representation_item;
+	SELF\representation_item_relationship.relating_representation_item : geometric_representation_item;
+UNIQUE
+	UR1 : relating_representation_item, related_representation_item;
+WHERE
+	WR1 : SELF\representation_item_relationship.relating_representation_item :<>: 
+        SELF\representation_item_relationship.related_representation_item;
+END_ENTITY;
+
+
+ENTITY geometric_representation_context
+	SUBTYPE OF (representation_context);
+	coordinate_space_dimension : dimension_count;
+END_ENTITY;
+
+
+ENTITY geometric_representation_item
+	SUPERTYPE OF (ONEOF (point, direction, vector, placement, cartesian_transformation_operator, curve, surface, edge_curve, face_surface, poly_loop, vertex_point, solid_model, boolean_result, sphere, right_circular_cone, right_circular_cylinder, torus, block, right_angular_wedge, half_space_solid, shell_based_surface_model, face_based_surface_model, shell_based_wireframe_model, edge_based_wireframe_model, geometric_set, camera_model, camera_model_d3_multi_clipping_intersection, camera_model_d3_multi_clipping_union, light_source))
+	SUBTYPE OF (representation_item);
+DERIVE
+	dim : dimension_count := dimension_of(SELF);
+WHERE
+	WR1 : SIZEOF (QUERY (using_rep <* using_representations (SELF) |
+      NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_REPRESENTATION_CONTEXT' IN
+      TYPEOF (using_rep.context_of_items)))) = 0;
+END_ENTITY;
+
+
+ENTITY geometric_set
+	SUBTYPE OF (geometric_representation_item);
+	elements : SET [1:?] OF geometric_set_select;
+END_ENTITY;
+
+
+ENTITY geometric_tolerance;
+	name : label;
+	description : text;
+	magnitude : measure_with_unit;
+	toleranced_shape_aspect : shape_aspect;
+WHERE
+	WR1 : ('NUMBER' IN TYPEOF
+       (magnitude\measure_with_unit.value_component)) AND
+       (magnitude\measure_with_unit.value_component >= 0.0);
+END_ENTITY;
+
+
+ENTITY geometric_tolerance_relationship;
+	name : label;
+	description : text;
+	relating_geometric_tolerance : geometric_tolerance;
+	related_geometric_tolerance : geometric_tolerance;
+END_ENTITY;
+
+
+ENTITY geometric_tolerance_with_datum_reference
+	SUBTYPE OF (geometric_tolerance);
+	datum_system : SET [1:?] OF datum_reference;
+END_ENTITY;
+
+
+ENTITY geometric_tolerance_with_defined_unit
+	SUBTYPE OF (geometric_tolerance);
+	unit_size : measure_with_unit;
+WHERE
+	WR1 : ('NUMBER' IN TYPEOF
+       (unit_size\measure_with_unit.value_component)) AND
+       (unit_size\measure_with_unit.value_component > 0.0);
+END_ENTITY;
+
+
+ENTITY geometrical_tolerance_callout
+	SUBTYPE OF (draughting_callout);
+END_ENTITY;
+
+
+ENTITY geometrically_bounded_2d_wireframe_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SELF.context_of_items\geometric_representation_context.
+            coordinate_space_dimension = 2;
+	WR2 : SIZEOF (QUERY (item <* SELF.items |
+         NOT (SIZEOF (TYPEOF (item) *
+['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET',          
+'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_2D',
+            'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM']) = 1)
+       )) = 0;
+	WR3 : SIZEOF (QUERY (item <* SELF.items |
+         SIZEOF (TYPEOF (item) *          
+['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET',
+            'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM']) = 1
+       )) >= 1;
+	WR4 : SIZEOF (QUERY (mi <* QUERY (item <* SELF.items |
+     ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+           IN TYPEOF (item))) |
+         NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+              'GEOMETRICALLY_BOUNDED_2D_WIREFRAME_REPRESENTATION'
+           IN TYPEOF
+              (mi\mapped_item.mapping_source.mapped_representation))
+       )) = 0;
+	WR5 : SIZEOF (QUERY (gcs <* QUERY (item <* SELF.items |
+     ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET'
+                IN TYPEOF (item))) |
+         NOT (SIZEOF (QUERY (elem <* gcs\geometric_set.elements |
+           NOT (SIZEOF (TYPEOF (elem) *
+             ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_2D',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE',
+              'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TRIMMED_CURVE']) =
+               1)
+         )) = 0)
+       )) = 0;
+	WR6 : SIZEOF (QUERY (gcs <* QUERY (item <* SELF.items |
+     ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET'
+                IN TYPEOF (item))) |
+         NOT (SIZEOF (QUERY (crv <* 
+           QUERY (elem <* gcs\geometric_set.elements |
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE'
+                   IN TYPEOF (elem))) |
+           NOT (valid_basis_curve_in_2d_wireframe
+              (crv))
+         )) = 0)
+       )) = 0;
+	WR7 : SIZEOF (QUERY (gcs <* QUERY (item <* SELF.items |         
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET'
+                IN TYPEOF (item))) |
+         NOT (SIZEOF (QUERY (pnt <*
+           QUERY (elem <* gcs\geometric_set.elements |
+             ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT'
+                  IN TYPEOF(elem))) |
+             NOT (SIZEOF (TYPEOF (pnt) *
+               ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE'])
+          = 1)
+         )) = 0)
+       )) = 0;
+END_ENTITY;
+
+
+ENTITY geometrically_bounded_surface_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF(QUERY(it <* SELF.items | NOT (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] * TYPEOF(it)) = 1))) = 0;
+	WR2 : SIZEOF(QUERY(it <* SELF.items | SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF(it)) = 1)) > 0;
+	WR3 : SIZEOF(QUERY(mi <* QUERY(it <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(it)) | NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRICALLY_BOUNDED_SURFACE_SHAPE_REPRESENTATION' IN TYPEOF(mi\mapped_item.mapping_source.mapped_representation)) AND (SIZEOF(QUERY(mr_it <* mi\mapped_item.mapping_source.mapped_representation.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET' IN TYPEOF(mr_it)))) > 0)))) = 0;
+	WR4 : SIZEOF(QUERY(gs <* QUERY(it <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET' IN TYPEOF(it)) | NOT (SIZEOF(QUERY(pnt <* QUERY(gsel <* gs\geometric_set.elements | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT' IN TYPEOF(gsel)) | NOT (gbsf_check_point(pnt)))) = 0))) = 0;
+	WR5 : SIZEOF(QUERY(gs <* QUERY(it <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET' IN TYPEOF(it)) | NOT (SIZEOF(QUERY(cv <* QUERY(gsel <* gs\geometric_set.elements | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF(gsel)) | NOT (gbsf_check_curve(cv)))) = 0))) = 0;
+	WR6 : SIZEOF(QUERY(gs <* QUERY(it <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET' IN TYPEOF(it)) | NOT (SIZEOF(QUERY(sf <* QUERY(gsel <* gs\geometric_set.elements | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN TYPEOF(gsel)) | NOT (gbsf_check_surface(sf)))) = 0))) = 0;
+	WR7 : SIZEOF(QUERY(gs <* QUERY(it <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_SET' IN TYPEOF(it)) | SIZEOF(QUERY(gsel <* gs\geometric_set.elements | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN TYPEOF(gsel))) > 0)) > 0;
+END_ENTITY;
+
+
+ENTITY geometrically_bounded_wireframe_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF ( 
+QUERY ( it <* SELF.items| NOT ( SIZEOF ( TYPEOF (it) * [ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ]) = 1) )) = 0;
+	WR2 : SIZEOF ( 
+QUERY ( it <* SELF.items| ( SIZEOF ( TYPEOF (it) * [ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ]) = 1) )) >= 1;
+	WR3 : SIZEOF ( 
+QUERY ( gcs <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( crv <* 
+QUERY ( elem <* gcs\geometric_set.elements| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF (elem)) )| NOT valid_geometrically_bounded_wf_curve(crv) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( gcs <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( pnts <* 
+QUERY ( elem <* gcs\geometric_set.elements| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT' IN TYPEOF (elem)) )| NOT valid_geometrically_bounded_wf_point(pnts) )) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( gcs <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( cnc <* 
+QUERY ( elem <* gcs\geometric_set.elements| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC' IN TYPEOF (elem)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' IN TYPEOF (cnc\conic.position)) )) = 0) )) = 0;
+	WR6 : SIZEOF ( 
+QUERY ( gcs <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRIC_CURVE_SET' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( pline <* 
+QUERY ( elem <* gcs\geometric_set.elements| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (elem)) )| NOT ( SIZEOF (pline\polyline.points) > 2) )) = 0) )) = 0;
+	WR7 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRICALLY_BOUNDED_WIREFRAME_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+END_ENTITY;
+
+
+ENTITY global_assignment
+	SUBTYPE OF (representation_item_relationship);
+END_ENTITY;
+
+
+ENTITY global_uncertainty_assigned_context
+	SUBTYPE OF (representation_context);
+	uncertainty : SET [1:?] OF uncertainty_measure_with_unit;
+END_ENTITY;
+
+
+ENTITY global_unit_assigned_context
+	SUBTYPE OF (representation_context);
+	units : SET [1:?] OF unit;
+END_ENTITY;
+
+
+ENTITY ground_fact
+	SUBTYPE OF (atomic_formula);
+END_ENTITY;
+
+
+ENTITY group;
+	name : label;
+	description : OPTIONAL text;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY group_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_group : group;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY group_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_group : group;
+	related_group : group;
+END_ENTITY;
+
+
+ENTITY half_space_solid
+	SUBTYPE OF (geometric_representation_item);
+	base_surface : surface;
+	agreement_flag : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY hardness_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : ( {2<= SIZEOF ( SELF.items ) <=4} ) AND ( SIZEOF ( QUERY (
+        i <* items | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF ( i ) ) AND (
+        i.name IN [ 'measuring method' , 'measuring position' ] ) )
+        ) + SIZEOF ( QUERY ( i <* items | ( SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MEASURE_REPRESENTATION_ITEM' ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'VALUE_RANGE']* TYPEOF ( i ) ) =1 )
+        AND ( i.name IN ['depth' , 'hardness'] ) ) ) = SIZEOF (
+        SELF.items ) );
+	WR2 : SIZEOF ( QUERY ( i <* SELF.items | i.name =
+        'measuring method' ) ) =1;
+	WR3 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='hardness' ) )
+        =1;
+	WR4 : SIZEOF ( QUERY ( i <* SELF.items | i.name =
+        'measuring position' ) ) <=1;
+	WR5 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='depth' ) )
+        <=1;
+	WR6 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) ) =1 ) AND ( SIZEOF ( QUERY ( pdr
+        <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | SIZEOF ( QUERY ( gpa <* USEDIN (
+        pdr. definition ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'GENERAL_PROPERTY_ASSOCIATION.'+
+        'DERIVED_DEFINITION' ) | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'GENERAL_PROPERTY' IN TYPEOF ( gpa. base_definition ) ) AND
+        ( gpa. base_definition.name ='surface_condition' ) ) ) =1 )
+        ) =1 );
+END_ENTITY;
+
+
+ENTITY hidden_element_over_riding_styled_item
+	SUBTYPE OF (context_dependent_over_riding_styled_item);
+	SELF\styled_item.item : camera_image;
+	SELF\context_dependent_over_riding_styled_item.style_context : LIST [1:1] OF presentation_view;
+INVERSE
+	container: SET [1:?] OF presentation_view FOR items;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CAMERA_MODEL_D3_WITH_HLHSR' IN TYPEOF
+                (SELF.item\mapped_item.mapping_source.mapping_origin);
+END_ENTITY;
+
+
+ENTITY hyperbola
+	SUBTYPE OF (conic);
+	semi_axis : positive_length_measure;
+	semi_imag_axis : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY id_attribute;
+	attribute_value : identifier;
+	identified_item : id_attribute_select;
+END_ENTITY;
+
+
+ENTITY identification_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_id : identifier;
+	role : identification_role;
+END_ENTITY;
+
+
+ENTITY identification_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY illuminance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ILLUMINANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY illuminance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.lux);
+END_ENTITY;
+
+
+ENTITY included_text_block
+	SUBTYPE OF (mapped_item);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRUCTURED_TEXT_REPRESENTATION' IN TYPEOF(SELF\mapped_item.mapping_source.mapped_representation);
+END_ENTITY;
+
+
+ENTITY inclusion_product_concept_feature
+	SUBTYPE OF (conditional_concept_feature);
+WHERE
+	WR1 : NOT ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PACKAGE_PRODUCT_CONCEPT_FEATURE' IN TYPEOF ( SELF ) );
+	WR2 : SIZEOF (QUERY
+									( cfr <* USEDIN 
+											( SELF ,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP.RELATING_PRODUCT_CONCEPT_FEATURE' ) 
+											| 
+											'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'CONCEPT_FEATURE_RELATIONSHIP_WITH_CONDITION' IN TYPEOF( cfr ) 
+									) 
+								) + 
+				 SIZEOF(QUERY
+				 					( cfr <* USEDIN 
+				 							(SELF , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP.RELATED_PRODUCT_CONCEPT_FEATURE' ) 
+				 							| 
+											'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP_WITH_CONDITION' IN TYPEOF(cfr)
+									)
+								)= 0;
+	WR3 : SELF.condition.conditional_operator.name = 'implication';
+END_ENTITY;
+
+
+ENTITY indirectly_selected_elements
+	SUBTYPE OF (user_selected_elements);
+	indirectly_picked_items : SET [1:?] OF representation_item;
+END_ENTITY;
+
+
+ENTITY indirectly_selected_shape_elements
+	SUBTYPE OF (indirectly_selected_elements, user_selected_shape_elements);
+WHERE
+	WR1 : SIZEOF(QUERY(q <*
+    SELF\indirectly_selected_elements.indirectly_picked_items
+    | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION_ITEM'
+    IN TYPEOF(q)))) = 0;
+END_ENTITY;
+
+
+ENTITY inductance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INDUCTANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY inductance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.henry);
+END_ENTITY;
+
+
+ENTITY information_right
+	SUBTYPE OF (action_method);
+END_ENTITY;
+
+
+ENTITY information_usage_right
+	SUBTYPE OF (action_method);
+END_ENTITY;
+
+
+ENTITY instance_usage_context_assignment
+	SUBTYPE OF (product_definition_context);
+	items : SET [1:?] OF instance_usage_context_select;
+END_ENTITY;
+
+
+ENTITY instanced_feature
+	SUBTYPE OF (shape_aspect, shape_feature_definition);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN
+         TYPEOF(SELF\shape_aspect.of_shape.definition);
+	WR2 : SELF\shape_aspect.product_definitional;
+END_ENTITY;
+
+
+ENTITY int_literal
+	SUBTYPE OF (literal_number);
+	SELF\literal_number.the_value : INTEGER;
+END_ENTITY;
+
+
+ENTITY integer_representation_item
+	SUBTYPE OF (representation_item, int_literal);
+END_ENTITY;
+
+
+ENTITY intersection_curve
+	SUBTYPE OF (surface_curve);
+WHERE
+	WR1 : SIZEOF(SELF\surface_curve.associated_geometry) = 2;
+	WR2 : associated_surface(SELF\surface_curve.associated_geometry[1]) <>
+             associated_surface(SELF\surface_curve.associated_geometry[2]);
+END_ENTITY;
+
+
+ENTITY interval_expression
+	SUBTYPE OF (boolean_expression, multiple_arity_generic_expression);
+DERIVE
+	interval_high : generic_expression := SELF\multiple_arity_generic_expression.operands[3];
+	interval_item : generic_expression := SELF\multiple_arity_generic_expression.operands[2];
+	interval_low : generic_expression := SELF\multiple_arity_generic_expression.operands[1];
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXPRESSION' 
+				IN TYPEOF(interval_low))
+		AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXPRESSION' 
+				IN TYPEOF(interval_item) )
+		AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXPRESSION' 
+				IN TYPEOF(interval_high));
+	WR2 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION' 
+				IN TYPEOF (SELF.interval_low)) 
+			AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION'  
+				IN TYPEOF (SELF.interval_high)) 
+			AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION' 
+				IN TYPEOF (SELF.interval_item))) 
+		OR
+		(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_EXPRESSION' 
+				IN TYPEOF(SELF.interval_low)) 
+			AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NUMERIC_EXPRESSION' 
+				IN TYPEOF(SELF.interval_item)) 
+			AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NUMERIC_EXPRESSION' 
+				IN TYPEOF(SELF.interval_high)));
+END_ENTITY;
+
+
+ENTITY invisibility;
+	invisible_items : SET [1:?] OF invisible_item;
+END_ENTITY;
+
+
+ENTITY iso4217_currency
+	SUBTYPE OF (currency);
+END_ENTITY;
+
+
+ENTITY item_defined_transformation;
+	name : label;
+	description : OPTIONAL text;
+	transform_item_1 : representation_item;
+	transform_item_2 : representation_item;
+END_ENTITY;
+
+
+ENTITY item_identified_representation_usage;
+	name : label;
+	description : OPTIONAL text;
+	definition : represented_definition;
+	used_representation : representation;
+	identified_item : representation_item;
+WHERE
+	WR1 : SELF.used_representation IN using_representations(SELF.identified_item);
+END_ENTITY;
+
+
+ENTITY known_source
+	SUBTYPE OF (external_source, pre_defined_item);
+END_ENTITY;
+
+
+ENTITY laid_defined_transformation
+	SUBTYPE OF (transformation_with_derived_angle);
+END_ENTITY;
+
+
+ENTITY laminate_table
+	SUPERTYPE OF (ONEOF (part_laminate_table, zone_structural_makeup))
+	SUBTYPE OF (product_definition);
+END_ENTITY;
+
+
+ENTITY language
+	SUBTYPE OF (group);
+WHERE
+	WR1 : SELF\group.name <> '';
+END_ENTITY;
+
+
+ENTITY leader_curve
+	SUBTYPE OF (annotation_curve_occurrence);
+WHERE
+	WR1 : SIZEOF( 
+          QUERY(ldc <* USEDIN( SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                       'DRAUGHTING_CALLOUT.CONTENTS')
+                   |   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                       'LEADER_DIRECTED_CALLOUT'  IN TYPEOF(ldc))) >= 1;
+END_ENTITY;
+
+
+ENTITY leader_directed_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF (QUERY (l_1 <* SELF\draughting_callout.contents |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE' IN (TYPEOF(l_1)))) >= 1;
+	WR2 : SIZEOF(SELF\draughting_callout.contents) >=2;
+END_ENTITY;
+
+
+ENTITY leader_directed_dimension
+	SUBTYPE OF (leader_directed_callout);
+WHERE
+	WR1 : SIZEOF (QUERY (con <* SELF.contents |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE' IN TYPEOF (con)))=1;
+END_ENTITY;
+
+
+ENTITY leader_terminator
+	SUBTYPE OF (terminator_symbol);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_CURVE' IN TYPEOF
+        (SELF\terminator_symbol.annotated_curve);
+END_ENTITY;
+
+
+ENTITY length_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY length_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 1.0) AND 
+    (SELF\named_unit.dimensions.mass_exponent = 0.0) AND 
+    (SELF\named_unit.dimensions.time_exponent = 0.0) AND 
+    (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND 
+    (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND 
+    (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND 
+    (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY light_source
+	SUPERTYPE OF (ONEOF (light_source_ambient, light_source_directional, light_source_positional, light_source_spot))
+	SUBTYPE OF (geometric_representation_item);
+	light_colour : colour;
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                              'STYLED_ITEM.ITEM')) = 0;
+END_ENTITY;
+
+
+ENTITY light_source_ambient
+	SUBTYPE OF (light_source);
+END_ENTITY;
+
+
+ENTITY light_source_directional
+	SUBTYPE OF (light_source);
+	orientation : direction;
+END_ENTITY;
+
+
+ENTITY light_source_positional
+	SUBTYPE OF (light_source);
+	position : cartesian_point;
+	constant_attenuation : REAL;
+	distance_attenuation : REAL;
+END_ENTITY;
+
+
+ENTITY light_source_spot
+	SUBTYPE OF (light_source);
+	position : cartesian_point;
+	orientation : direction;
+	concentration_exponent : REAL;
+	constant_attenuation : REAL;
+	distance_attenuation : REAL;
+	spread_angle : positive_plane_angle_measure;
+END_ENTITY;
+
+
+ENTITY limits_and_fits;
+	form_variance : label;
+	zone_variance : label;
+	grade : label;
+	source : text;
+END_ENTITY;
+
+
+ENTITY line
+	SUBTYPE OF (curve);
+	pnt : cartesian_point;
+	dir : vector;
+WHERE
+	WR1 : dir.dim  = pnt.dim;
+END_ENTITY;
+
+
+ENTITY line_profile_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF)) OR ( SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 3);
+	WR2 : SIZEOF ( 
+QUERY ( sar <* USEDIN (SELF\geometric_tolerance.toleranced_shape_aspect, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'SHAPE_ASPECT_RELATIONSHIP.RELATING_SHAPE_ASPECT')| (sar.name IN [ 'affected plane association', 'resulting intersection curve association' ]) )) = 1;
+END_ENTITY;
+
+
+ENTITY linear_dimension
+	SUBTYPE OF (dimension_curve_directed_callout);
+END_ENTITY;
+
+
+ENTITY literal_conjunction
+	SUBTYPE OF (simple_clause);
+END_ENTITY;
+
+
+ENTITY literal_disjunction
+	SUBTYPE OF (simple_clause);
+END_ENTITY;
+
+
+ENTITY literal_number
+	ABSTRACT SUPERTYPE OF (ONEOF (int_literal, real_literal))
+	SUBTYPE OF (simple_numeric_expression, generic_literal);
+	the_value : NUMBER;
+END_ENTITY;
+
+
+ENTITY local_time;
+	hour_component : hour_in_day;
+	minute_component : OPTIONAL minute_in_hour;
+	second_component : OPTIONAL second_in_minute;
+	zone : coordinated_universal_time_offset;
+WHERE
+	WR1 : valid_time (SELF);
+END_ENTITY;
+
+
+ENTITY logical_literal
+	SUBTYPE OF (generic_literal);
+	lit_value : LOGICAL;
+END_ENTITY;
+
+
+ENTITY logical_representation_item
+	SUBTYPE OF (representation_item, logical_literal);
+END_ENTITY;
+
+
+ENTITY loop
+	SUPERTYPE OF (ONEOF (vertex_loop, edge_loop, poly_loop))
+	SUBTYPE OF (topological_representation_item);
+END_ENTITY;
+
+
+ENTITY loss_tangent_measure_with_unit
+	SUBTYPE OF (ratio_measure_with_unit);
+END_ENTITY;
+
+
+ENTITY lot_effectivity
+	SUBTYPE OF (effectivity);
+	effectivity_lot_id : identifier;
+	effectivity_lot_size : measure_with_unit;
+END_ENTITY;
+
+
+ENTITY luminous_flux_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LUMINOUS_FLUX_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY luminous_flux_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.lumen);
+END_ENTITY;
+
+
+ENTITY luminous_intensity_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LUMINOUS_INTENSITY_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY luminous_intensity_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 1.0);
+END_ENTITY;
+
+
+ENTITY magnetic_flux_density_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAGNETIC_FLUX_DENSITY_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY magnetic_flux_density_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.tesla);
+END_ENTITY;
+
+
+ENTITY magnetic_flux_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAGNETIC_FLUX_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY magnetic_flux_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.weber);
+END_ENTITY;
+
+
+ENTITY make_from_usage_option
+	SUBTYPE OF (product_definition_usage);
+	ranking : INTEGER;
+	ranking_rationale : text;
+	quantity : measure_with_unit;
+WHERE
+	WR1 : (NOT ('NUMBER' IN TYPEOF(quantity.value_component)))
+       OR (quantity.value_component > 0);
+END_ENTITY;
+
+
+ENTITY manifold_solid_brep
+	SUBTYPE OF (solid_model);
+	outer : closed_shell;
+END_ENTITY;
+
+
+ENTITY manifold_subsurface_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (it <* SELF.items |
+          NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] *
+                   TYPEOF(it)) = 1))) = 0;
+	WR2 : SIZEOF (QUERY (it <* SELF.items |
+         SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET',
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF(it)) =1 )) > 0;
+	WR3 : SIZEOF (QUERY (mi <*  QUERY (it <* items |
+                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF(it)) |
+   NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SUBSURFACE_SHAPE_REPRESENTATION' IN
+             TYPEOF(mi\mapped_item.mapping_source.
+                           mapped_representation)))) = 0;
+	WR4 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+          NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OPEN_SHELL' IN TYPEOF(cfss)))) = 0;
+	WR5 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+          NOT( (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN
+                   TYPEOF(cfss\connected_face_sub_set.parent_face_set))AND
+           (SIZEOF(QUERY(fac <* cfss\connected_face_sub_set.parent_face_set\connected_face_set.cfs_faces | NOT
+                 advanced_face_properties(fac))) = 0)) OR
+            (SIZEOF(QUERY(fac <* cfss\connected_face_sub_set.parent_face_set\connected_face_set.cfs_faces | NOT
+              ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF(fac)))) = 0)
+                    ))) = 0;
+	WR6 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+          ( SIZEOF (QUERY (fac <* cfss\connected_face_set.cfs_faces  | NOT
+              advanced_face_properties(fac))) = 0))) = 0;
+	WR7 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+               ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+            NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                  NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN
+            TYPEOF(oe.edge_element)) OR
+           ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBEDGE' IN
+            TYPEOF(oe.edge_element)) ))) = 0
+                   ))) = 0
+                 ))) = 0
+             ))) = 0;
+	WR8 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+           ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+               NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                 NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+          NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF(oe.edge_start))
+                AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN
+                 TYPEOF(oe.edge_end))
+            ))) = 0
+              ))) = 0
+               ))) = 0
+                   ))) = 0;
+	WR9 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+              ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+              ( NOT (SIZEOF(QUERY  (bnds <* fcs.bounds |
+         NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP',
+                'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP'] *
+                   TYPEOF(bnds.bound)) = 1 )
+                   )) = 0)
+                 ))) = 0
+             ))) = 0;
+	WR10 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+              ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+              ( NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                 NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                   NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' ] *
+            TYPEOF(oe.edge_element\edge_curve.edge_geometry)) = 1 )
+               )) = 0
+               ))) = 0
+                 )))) = 0
+                    ))) = 0;
+	WR11 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+              ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+               (NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                   ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN
+            TYPEOF(oe.edge_element\edge_curve.edge_geometry)) AND
+            (NOT ((SIZEOF (QUERY (sc_ag <*
+            oe.edge_element\edge_curve.edge_geometry\
+            surface_curve.associated_geometry |
+            NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN
+            TYPEOF(sc_ag)))) = 0)))
+               )) = 0
+               ))) = 0
+                   )))) = 0
+                    ))) = 0;
+	WR12 : SIZEOF (QUERY (cfss <* QUERY (it <* SELF.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONNECTED_FACE_SUB_SET' IN TYPEOF(it)) |
+             NOT (SIZEOF (QUERY(fcs <* cfss\connected_face_set.cfs_faces |
+              ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(fcs)) AND
+               (NOT (SIZEOF(QUERY (elp_fbnds <* QUERY (bnds <* fcs.bounds |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF(bnds.bound)) |
+                NOT (SIZEOF (QUERY (oe <* elp_fbnds.bound\path.edge_list |
+                   ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN
+            TYPEOF(oe.edge_element\edge_curve.edge_geometry)) AND
+            (NOT (SIZEOF (oe\oriented_edge.edge_element\
+                  edge_curve.edge_geometry\polyline.points) >= 3))
+               )) = 0
+               ))) = 0
+                   )))) = 0
+                    ))) = 0;
+END_ENTITY;
+
+
+ENTITY manifold_surface_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (it <* SELF.items |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] * TYPEOF (it)) = 1))) = 0;
+	WR2 : SIZEOF (QUERY (it <* SELF.items |
+       SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF (it)) = 1)) > 0;
+	WR3 : SIZEOF (QUERY (mi <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MANIFOLD_SURFACE_SHAPE_REPRESENTATION'
+       IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation))
+       AND
+       (SIZEOF(QUERY (mr_it <*
+       mi\mapped_item.mapping_source.mapped_representation.items |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL'
+       IN TYPEOF (mr_it)))) > 0 )))) = 0;
+	WR4 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (sh <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OPEN_SHELL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CLOSED_SHELL']
+       * TYPEOF (sh)) = 1))) = 0))) = 0;
+	WR5 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF (fa)) )) = 0)))
+       = 0))) = 0;
+	WR6 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (msf_surface_check(fa\face_surface.face_geometry))))) = 0))) 
+       = 0))) = 0;
+	WR7 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (bnds <* fa.bounds |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP']
+       * TYPEOF (bnds.bound)) = 1))) = 0)))) = 0))) = 0))) = 0;
+	WR8 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items|
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF 
+       (oe.edge_element)))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR9 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe_cv <* QUERY (oe <* 
+       elp_fbnds\path.edge_list |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF (oe.edge_element)) |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE'] * 
+       TYPEOF (oe_cv.edge_element\edge_curve.edge_geometry)) 
+       = 1))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR10 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT (msf_curve_check (oe.edge_element\edge_curve.edge_geometry)))) 
+       = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR11 : SIZEOF (QUERY(sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list|
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF
+       (oe.edge_element.edge_start))
+       AND
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN
+       TYPEOF (oe.edge_element.edge_end))))) 
+       = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR12 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT ((SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (oe.edge_element.edge_start\vertex_point.vertex_geometry)) = 1)
+       AND
+       (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (oe.edge_element.edge_end\vertex_point.vertex_geometry)) = 1
+       )))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR13 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <* 
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (vlp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF
+       (vlp_fbnds\vertex_loop.loop_vertex)))) = 0)))) = 0))) 
+       = 0))) = 0;
+	WR14 : SIZEOF (QUERY (sbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <* 
+       sbsm\shell_based_surface_model.sbsm_boundary |
+       NOT (SIZEOF (QUERY (fa <* cfs\connected_face_set.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (vlp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (vlp_fbnds\vertex_loop.loop_vertex\vertex_point.vertex_geometry)) 
+       = 1))) = 0)))) = 0))) = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY mapped_item
+	SUBTYPE OF (representation_item);
+	mapping_source : representation_map;
+	mapping_target : representation_item;
+WHERE
+	WR1 : acyclic_mapped_representation(SELF);
+END_ENTITY;
+
+
+ENTITY mass_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MASS_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY mass_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 1.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY material_designation;
+	name : label;
+	definitions : SET [1:?] OF characterized_definition;
+END_ENTITY;
+
+
+ENTITY material_designation_characterization;
+	name : label;
+	description : text;
+	designation : material_designation;
+	property : characterized_material_property;
+END_ENTITY;
+
+
+ENTITY material_property
+	SUBTYPE OF (property_definition);
+UNIQUE
+  UR1: SELF\property_definition.name, SELF\property_definition.definition;
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CHARACTERIZED_OBJECT' IN
+          TYPEOF(SELF\property_definition.definition)) OR
+       (SIZEOF(bag_to_set(USEDIN(SELF ,
+                     'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                     'PROPERTY_DEFINITION_REPRESENTATION.DEFINITION')) -
+              QUERY(temp <* bag_to_set(USEDIN(SELF ,
+                       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                       'PROPERTY_DEFINITION_REPRESENTATION.DEFINITION')) |
+                       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                      'MATERIAL_PROPERTY_REPRESENTATION' IN
+                      TYPEOF(temp)))) = 0);
+END_ENTITY;
+
+
+ENTITY material_property_representation
+	SUBTYPE OF (property_definition_representation);
+	dependent_environment : data_environment;
+END_ENTITY;
+
+
+ENTITY measure_qualification;
+	name : label;
+	description : text;
+	qualified_measure : measure_with_unit;
+	qualifiers : SET [1:?] OF value_qualifier;
+WHERE
+	WR1 : SIZEOF(QUERY(temp <* qualifiers |
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRECISION_QUALIFIER'
+             IN TYPEOF(temp))) < 2;
+	WR2 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_ITEM'
+           IN TYPEOF(SELF\measure_qualification.qualified_measure));
+END_ENTITY;
+
+
+ENTITY measure_representation_item
+	SUBTYPE OF (representation_item, measure_with_unit);
+END_ENTITY;
+
+
+ENTITY measure_with_unit
+	SUPERTYPE OF (ONEOF (length_measure_with_unit, mass_measure_with_unit, time_measure_with_unit, electric_current_measure_with_unit, thermodynamic_temperature_measure_with_unit, celsius_temperature_measure_with_unit, amount_of_substance_measure_with_unit, luminous_intensity_measure_with_unit, plane_angle_measure_with_unit, solid_angle_measure_with_unit, area_measure_with_unit, volume_measure_with_unit, ratio_measure_with_unit, acceleration_measure_with_unit, capacitance_measure_with_unit, electric_charge_measure_with_unit, conductance_measure_with_unit, electric_potential_measure_with_unit, energy_measure_with_unit, magnetic_flux_density_measure_with_unit, force_measure_with_unit, frequency_measure_with_unit, illuminance_measure_with_unit, inductance_measure_with_unit, luminous_flux_measure_with_unit, magnetic_flux_measure_with_unit, power_measure_with_unit, pressure_measure_with_unit, resistance_measure_with_unit, velocity_measure_with_unit, absorbed_dose_measure_with_unit, radioactivity_measure_with_unit, dose_equivalent_measure_with_unit));
+	value_component : measure_value;
+	unit_component : unit;
+WHERE
+	WR1 : valid_units(SELF);
+END_ENTITY;
+
+
+ENTITY mechanical_context
+	SUBTYPE OF (product_context);
+WHERE
+	WR1 : SELF.discipline_type = 'mechanical';
+END_ENTITY;
+
+
+ENTITY mechanical_design_and_draughting_relationship
+	SUBTYPE OF (definitional_representation_relationship_with_same_context);
+	SELF\representation_relationship.rep_1 : mechanical_design_and_draughting_relationship_select;
+	SELF\representation_relationship.rep_2 : mechanical_design_and_draughting_relationship_select;
+WHERE
+	WR1 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'DRAUGHTING_MODEL' IN TYPEOF(rep_2)) OR 
+       (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'DRAUGHTING_MODEL' IN TYPEOF(rep_1)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'SHAPE_REPRESENTATION' IN TYPEOF(rep_1)));
+	WR2 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'MECHANICAL_DESIGN_GEOMETRIC_PRESENTATION_REPRESENTATION' IN TYPEOF(rep_2)) OR 
+       (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'MECHANICAL_DESIGN_GEOMETRIC_PRESENTATION_REPRESENTATION' IN TYPEOF(rep_1)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'SHAPE_REPRESENTATION' IN TYPEOF(rep_1)));
+	WR3 : NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'MECHANICAL_DESIGN_SHADED_PRESENTATION_REPRESENTATION' IN TYPEOF(rep_2)) OR 
+       (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'MECHANICAL_DESIGN_SHADED_PRESENTATION_REPRESENTATION' IN TYPEOF(rep_1)) OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'SHAPE_REPRESENTATION' IN TYPEOF(rep_1)));
+END_ENTITY;
+
+
+ENTITY mechanical_design_geometric_presentation_area
+	SUBTYPE OF (presentation_area);
+	SELF\representation.items : SET [1:?] OF mechanical_design_geometric_presentation_area_items;
+WHERE
+	WR1 : SIZEOF(QUERY(it1 <* SELF.items |
+        NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it1))
+        OR
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (it1\mapped_item.mapping_source.mapped_representation)))) = 0;
+	WR2 : SIZEOF(QUERY(pv <* QUERY(mi1 <* QUERY(it1 <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it1)) |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (mi1\mapped_item.mapping_source.mapped_representation)) |
+        -- search in all presentation_views for axis2_placements and
+        -- mapped_items and for the subtype of mapped_item
+        -- camera_image_3d_with_scale; the latter shall reference
+        -- a mechanical_design_geometric_presentation_representation;
+        -- the supertype mapped_item shall reference presentation_view.
+        NOT (SIZEOF(QUERY(it2 <* pv\mapped_item.mapping_source.
+        mapped_representation\representation.items |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT'
+        IN TYPEOF(it2))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it2)) AND NOT
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'CAMERA_IMAGE_3D_WITH_SCALE' IN TYPEOF(it2))) AND NOT (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (it2\mapped_item.mapping_source.mapped_representation)))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'CAMERA_IMAGE_3D_WITH_SCALE' IN TYPEOF(it2))
+        AND NOT (
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'MECHANICAL_DESIGN_GEOMETRIC_PRESENTATION_REPRESENTATION'
+        IN TYPEOF (it2\mapped_item.mapping_source.mapped_representation) ))
+        ))) = 0))) = 0;
+	WR3 : (SIZEOF(QUERY(ps <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') | ((ps.size\planar_extent.size_in_x <= 0)
+        OR
+        (ps.size\planar_extent.size_in_y <= 0)))) = 0)
+        AND
+        (SIZEOF(QUERY(ais <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AREA_IN_SET.AREA') |
+        (SIZEOF(QUERY(ps <* USEDIN (ais, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') |
+        ((ps.size\planar_extent.size_in_x <= 0)
+        OR
+        (ps.size\planar_extent.size_in_y <= 0)))) > 0))) = 0);
+	WR4 : (SIZEOF(QUERY(ps <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') | 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AXIS2_PLACEMENT_2D' IN TYPEOF (ps.size.placement)))) = 1)
+        AND
+        (SIZEOF(QUERY(ps <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') | 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AXIS2_PLACEMENT_3D' IN TYPEOF (ps.size.placement)))) = 0)
+        OR
+        ((SIZEOF(QUERY(ais <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AREA_IN_SET.AREA') |
+        (SIZEOF(QUERY(ps <* USEDIN (ais, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AXIS2_PLACEMENT_2D' IN TYPEOF (ps.size.placement)))) = 1))) = 1)
+        AND
+        (SIZEOF(QUERY(ais <* USEDIN (SELF,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AREA_IN_SET.AREA') |
+        (SIZEOF(QUERY(ps <* USEDIN (ais, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SIZE.UNIT') |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AXIS2_PLACEMENT_3D' IN TYPEOF (ps.size.placement)))) = 0))) = 1));
+END_ENTITY;
+
+
+ENTITY mechanical_design_geometric_presentation_representation
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF mechanical_design_geometric_presentation_representation_items;
+WHERE
+	WR1 : SIZEOF(QUERY(mi <* QUERY(it <* SELF.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it))) | NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SHAPE_REPRESENTATION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'MECHANICAL_DESIGN_GEOMETRIC_PRESENTATION_REPRESENTATION']
+        * TYPEOF(mi\mapped_item.mapping_source.mapped_representation))
+        = 1))) = 0;
+	WR2 : SIZEOF(QUERY(smi <* QUERY(si <* QUERY(it <* SELF.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it))) |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(si\styled_item.item))) | NOT (
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SHAPE_REPRESENTATION' IN TYPEOF (smi\styled_item.
+        item\mapped_item.mapping_source.mapped_representation))) )) = 0;
+	WR3 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(pss <* psa.styles | NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_STYLE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE']
+        * TYPEOF(pss)) = 1))) = 0))) = 0))) = 0;
+	WR4 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) |
+        NOT (SIZEOF(QUERY(psbc <* QUERY(psa <* si\styled_item.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_STYLE_BY_CONTEXT' IN TYPEOF(psa)) | NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'REPRESENTATION_ITEM',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION']
+        * TYPEOF(psbc\presentation_style_by_context.style_context))
+        = 1))) = 0))) = 0;
+	WR5 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ps <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_STYLE'
+        IN TYPEOF(pss)) | NOT
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF (ps\point_style.marker_size))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(ps\point_style.marker_colour))
+        = 1)))) = 0))) = 0))) = 0;
+	WR6 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(cs <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF(pss)) | NOT((SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(cs\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF (cs\curve_style.curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(cs\curve_style.curve_font)) = 1)))) = 0))) = 0))) = 0;
+	WR7 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) |
+        NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_SIDE_STYLE' IN TYPEOF
+        (ssu\surface_style_usage.style)))) = 0))) = 0))) = 0;
+	WR8 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_PARAMETER_LINE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_CONTROL_GRID',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_SILHOUETTE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_SEGMENTATION_CURVE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_FILL_AREA',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_BOUNDARY']
+        * TYPEOF(sses)) = 1))) = 0))) = 0))) = 0))) = 0;
+	WR9 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(sspl <* QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_PARAMETER_LINE' IN TYPEOF(sses)) |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF
+        (sspl\surface_style_parameter_line.style_of_parameter_lines))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_colour)) = 1)
+        AND (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_font)) = 1))))
+        = 0))) = 0))) = 0))) = 0;
+	WR10 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(sscg <* QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_CONTROL_GRID' IN TYPEOF(sses)) |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (sscg\surface_style_control_grid.style_of_control_grid))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF 
+        (sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_font)) = 1))))
+        = 0))) = 0))) = 0))) = 0;
+	WR11 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) |
+        NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(sssh <* QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_SILHOUETTE' IN TYPEOF(sses)) |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (sssh\surface_style_silhouette.style_of_silhouette))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(sssh\surface_style_silhouette.
+        style_of_silhouette\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sssh\surface_style_silhouette.style_of_silhouette\curve_style.
+        curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(sssh\surface_style_silhouette.
+        style_of_silhouette\curve_style.curve_font)) = 1))))
+        = 0))) = 0))) = 0))) = 0;
+	WR12 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(sssc <* QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_SEGMENTATION_CURVE' IN TYPEOF(sses)) |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF
+        (sssc\surface_style_segmentation_curve.style_of_segmentation_curve))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_font)) = 1))))
+        = 0))) = 0))) = 0))) = 0;
+	WR13 : SIZEOF(QUERY(si <* QUERY(it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it)) | NOT (SIZEOF(QUERY(psa <* si\styled_item.styles |
+        NOT (SIZEOF(QUERY(ssu <* QUERY(pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF(pss)) | NOT (SIZEOF(QUERY(ssbd <* QUERY(sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SURFACE_STYLE_BOUNDARY' IN TYPEOF(sses)) |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (ssbd\surface_style_boundary.style_of_boundary))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_COLOUR']
+        * TYPEOF(ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'POSITIVE_LENGTH_MEASURE' IN TYPEOF (ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_width))
+        AND (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_FONT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT']
+        * TYPEOF(ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_font)) = 1)))) = 0)))
+        = 0))) = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY mechanical_design_presentation_representation_with_draughting
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF camera_model_d3;
+END_ENTITY;
+
+
+ENTITY mechanical_design_shaded_presentation_area
+	SUBTYPE OF (presentation_area);
+WHERE
+	WR1 : SIZEOF (QUERY (it1 <* SELF.items |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT'
+        IN TYPEOF (it1))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF (it1)) AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (it1\mapped_item.mapping_source.mapped_representation)))))) = 0;
+	WR2 : SIZEOF (QUERY (pv <* QUERY (mi1 <* QUERY (it1 <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF (it1)) |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (mi1\mapped_item.mapping_source.mapped_representation)) |
+        (* search in all presentation_views for axis2_placements and
+           mapped_items and for the subtype of mapped_item,
+           camera_image_3d_with_scale; the latter shall reference
+           a mechanical_design_geometric_presentation_representation;
+           the supertype mapped_item shall reference presentation_view. *)
+        NOT (SIZEOF(QUERY(it2 <* pv\mapped_item.mapping_source.
+        mapped_representation\representation.items |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT'
+        IN TYPEOF(it2))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it2)) AND NOT
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'CAMERA_IMAGE_3D_WITH_SCALE' IN TYPEOF(it2))) AND NOT (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW'
+        IN TYPEOF
+        (it2\mapped_item.mapping_source.mapped_representation)))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'CAMERA_IMAGE_3D_WITH_SCALE' IN TYPEOF(it2))
+        AND NOT (
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'MECHANICAL_DESIGN_SHADED_PRESENTATION_REPRESENTATION'
+        IN TYPEOF (it2\mapped_item.mapping_source.mapped_representation) ))
+        ))) = 0))) = 0;
+	WR3 : (SIZEOF (QUERY(ps <* USEDIN (SELF, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'PRESENTATION_SIZE.UNIT') |
+        NOT ((ps.size\planar_extent.size_in_x > 0) 
+        AND (ps.size\planar_extent.size_in_y > 0)) )) = 0)
+        AND
+        (* check secondly for presentation_set, via area_in_set *)
+        (SIZEOF (QUERY(pset <* QUERY(ais <* 
+        USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'AREA_IN_SET.AREA') 
+        | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SET' IN TYPEOF (ais.in_set)) |
+        (* after having collected all presentation_set, check their sizes *)
+        SIZEOF (QUERY(psize <* USEDIN(pset, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'PRESENTATION_SIZE.UNIT')
+        | NOT ((psize.size\planar_extent.size_in_x > 0) 
+        AND (psize.size\planar_extent.size_in_y > 0)) )) = 0)) = 0);
+	WR4 : (SIZEOF(QUERY( psize <* USEDIN (SELF, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'PRESENTATION_SIZE.UNIT') 
+        | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AXIS2_PLACEMENT_2D' 
+        IN TYPEOF (psize.size.placement))) = 1)
+        AND
+        (* check secondly for presentation_set, via area_in_set *)
+        (SIZEOF (QUERY(pset <* QUERY(ais <* 
+        USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'AREA_IN_SET.AREA')
+        | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRESENTATION_SET' IN TYPEOF (ais.in_set)) |
+        (* after having collected all presentation_set, check their 
+           dimension *)
+        SIZEOF (QUERY(psize <* USEDIN(pset, 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'PRESENTATION_SIZE.UNIT')
+        | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+        'AXIS2_PLACEMENT_2D' 
+        IN TYPEOF (psize.size.placement)) )) = 0)) = 0);
+	WR5 : SIZEOF (QUERY (pv <* QUERY (mi1 <* QUERY (it1 <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' 
+        IN TYPEOF (it1)) |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_VIEW' 
+        IN TYPEOF 
+        (mi1\mapped_item.mapping_source.mapped_representation)) |
+        (* search in all presentation_views for 
+           mapped_items and for the subtype of mapped_item,
+           camera_image_3d_with_scale; the latter shall reference
+           a camera_usage that shall have as its mapping_origin either
+           camera_model_d3, camera_model_d3_with_hlhsr, or
+           camera_model_with_light_sources. *)
+        NOT (SIZEOF(QUERY(ci <* pv\mapped_item.mapping_source.
+        mapped_representation\representation.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+         'CAMERA_IMAGE_3D_WITH_SCALE' IN TYPEOF(ci))
+        AND
+        (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CAMERA_MODEL_D3',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CAMERA_MODEL_D3_WITH_HLHSR',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CAMERA_MODEL_WITH_LIGHT_SOURCES'] * TYPEOF
+        (ci\mapped_item.mapping_source.mapping_origin))
+        = 1))) = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY mechanical_design_shaded_presentation_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : SIZEOF(QUERY(it <* SELF.items |
+        NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CAMERA_MODEL_D3']
+        * TYPEOF(it)) = 1))) = 0;
+	WR2 : SIZEOF(QUERY(mi <* QUERY(it <* SELF.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(it))) | NOT (SIZEOF(
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SHAPE_REPRESENTATION',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'MECHANICAL_DESIGN_SHADED_PRESENTATION_REPRESENTATION']
+        * TYPEOF(mi\mapped_item.mapping_source.mapped_representation))
+        = 1))) = 0;
+	WR3 : SIZEOF(QUERY(smi <* QUERY(si <* QUERY(it <* SELF.items |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF(it))) |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'
+        IN TYPEOF(si\styled_item.item))) | NOT (
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'SHAPE_REPRESENTATION' IN TYPEOF (smi\styled_item.
+        item\mapped_item.mapping_source.mapped_representation))) )) = 0;
+	WR4 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (pss <* psa.styles |
+        NOT (SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_STYLE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE']
+        *  TYPEOF (pss)) = 1))) = 0))) = 0))) = 0;
+	WR5 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psbc <* QUERY (psa <* si\styled_item.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'PRESENTATION_STYLE_BY_CONTEXT' IN TYPEOF (psa))  |
+        NOT (SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_ITEM',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION']
+        * TYPEOF (psbc\presentation_style_by_context.style_context)) = 1)))
+        = 0))) = 0;
+	WR6 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ps <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_STYLE'
+        IN TYPEOF (pss)) |
+        NOT (
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MARKER_TYPE'
+        IN TYPEOF (ps\point_style.marker))
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (ps\point_style.marker_size))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (ps\point_style.marker_colour)) = 1)))) = 0))) = 0))) = 0;
+	WR7 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (cs <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (pss)) |
+        NOT (
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (cs\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (cs\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (cs\curve_style.curve_font)) = 1)))) = 0))) = 0))) = 0;
+	WR8 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_SIDE_STYLE'
+        IN TYPEOF (ssu\surface_style_usage.style)) )) = 0))) = 0 ))) = 0;
+	WR9 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        NOT (SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_PARAMETER_LINE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_CONTROL_GRID',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_SILHOUETTE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_SEGMENTATION_CURVE',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_BOUNDARY',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_FILL_AREA',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_RENDERING'] * TYPEOF (sses)) = 1))) = 0))) = 0)))
+        = 0))) = 0;
+	WR10 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (ssfa <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_FILL_AREA'
+        IN TYPEOF (sses)) |
+        NOT (SIZEOF (QUERY (fss <*
+        ssfa\surface_style_fill_area.fill_area.fill_styles |
+        NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'FILL_AREA_STYLE_COLOUR' IN TYPEOF (fss))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (fss\fill_area_style_colour.fill_colour)) = 1)))) = 0))) = 0)))
+        = 0))) = 0))) = 0;
+	WR11 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (sspl <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_PARAMETER_LINE' IN TYPEOF (sses)) |
+        NOT ((
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE' IN TYPEOF
+        (sspl\surface_style_parameter_line.style_of_parameter_lines))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (sspl\surface_style_parameter_line.
+        style_of_parameter_lines\curve_style.curve_font)) = 1))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_RENDERING'
+        IN TYPEOF
+        (sspl\surface_style_parameter_line.style_of_parameter_lines))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sspl\surface_style_parameter_line.style_of_parameter_lines\
+        curve_style_rendering.rendering_properties.rendered_colour))
+        = 1))) )) = 0))) = 0))) = 0))) = 0;
+	WR12 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (sscg <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_CONTROL_GRID' IN TYPEOF (sses)) |
+        NOT ((
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (sscg\surface_style_control_grid.style_of_control_grid))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (sscg\surface_style_control_grid.
+        style_of_control_grid\curve_style.curve_font)) = 1))
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_RENDERING'
+        IN TYPEOF (sscg\surface_style_control_grid.style_of_control_grid))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sscg\surface_style_control_grid.style_of_control_grid\
+        curve_style_rendering.rendering_properties.rendered_colour))
+        = 1))) )) = 0))) = 0))) = 0))) = 0;
+	WR13 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (sssh <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_SILHOUETTE' IN TYPEOF (sses)) |
+        NOT ((
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (sssh\surface_style_silhouette.style_of_silhouette))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sssh\surface_style_silhouette.
+        style_of_silhouette\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sssh\surface_style_silhouette.
+        style_of_silhouette\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (sssh\surface_style_silhouette.
+        style_of_silhouette\curve_style.curve_font)) = 1)) 
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_RENDERING'
+        IN TYPEOF (sssh\surface_style_silhouette.style_of_silhouette))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sssh\surface_style_silhouette.style_of_silhouette\
+        curve_style_rendering.rendering_properties.rendered_colour))
+        = 1))) )) = 0))) = 0))) = 0))) = 0;
+	WR14 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (sssc <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_SEGMENTATION_CURVE' IN TYPEOF (sses)) |
+        NOT ((
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF
+        (sssc\surface_style_segmentation_curve.style_of_segmentation_curve))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve\curve_style.curve_font)) = 1)) 
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_RENDERING'
+        IN TYPEOF (sssc\surface_style_segmentation_curve.
+        style_of_segmentation_curve))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (sssc\surface_style_segmentation_curve.style_of_segmentation_curve\
+        curve_style_rendering.rendering_properties.rendered_colour))
+        = 1))) )) = 0))) = 0))) = 0))) = 0;
+	WR15 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (ssbd <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_BOUNDARY' IN TYPEOF (sses)) |
+        NOT ((
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE'
+        IN TYPEOF (ssbd\surface_style_boundary.style_of_boundary))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_colour)) = 1)
+        AND
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF
+        (ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_width))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'CURVE_STYLE_FONT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_CURVE_FONT'] * TYPEOF
+        (ssbd\surface_style_boundary.
+        style_of_boundary\curve_style.curve_font)) = 1)) 
+        OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE_RENDERING'
+        IN TYPEOF (ssbd\surface_style_boundary.style_of_boundary))
+        AND
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (ssbd\surface_style_boundary.style_of_boundary\
+        curve_style_rendering.rendering_properties.rendered_colour))
+        = 1))) )) = 0))) = 0))) = 0))) = 0;
+	WR16 : SIZEOF (QUERY (si <* QUERY (it <* SELF.items |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM'
+        IN TYPEOF (it)) |
+        NOT (SIZEOF (QUERY (psa <* si\styled_item.styles |
+        NOT (SIZEOF (QUERY (ssu <* QUERY (pss <* psa.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE'
+        IN TYPEOF (pss)) |
+        NOT (SIZEOF (QUERY (ssre <* QUERY (sses <*
+        ssu\surface_style_usage.style\surface_side_style.styles |
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'SURFACE_STYLE_RENDERING' IN TYPEOF (sses)) |
+        NOT
+        (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COLOUR_RGB',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DRAUGHTING_PRE_DEFINED_COLOUR'] * TYPEOF
+        (ssre\surface_style_rendering.surface_colour)) = 1)))
+        = 0))) = 0))) = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY min_and_major_ply_orientation_basis
+	SUBTYPE OF (representation_item_relationship, geometric_representation_item);
+	SELF\representation_item_relationship.related_representation_item : axis2_placement_3d;
+	SELF\representation_item_relationship.relating_representation_item : axis2_placement_3d;
+DERIVE
+	major_orientation_basis : axis2_placement_3d := SELF\representation_item_relationship.related_representation_item;
+	minor_orientation_basis : axis2_placement_3d := SELF\representation_item_relationship.relating_representation_item;
+END_ENTITY;
+
+
+ENTITY modified_geometric_tolerance
+	SUBTYPE OF (geometric_tolerance);
+	modifier : limit_condition;
+END_ENTITY;
+
+
+ENTITY modified_solid
+	ABSTRACT SUPERTYPE OF (ONEOF (edge_blended_solid, sculptured_solid, shelled_solid, modified_solid_with_placed_configuration))
+	SUBTYPE OF (solid_model);
+	rationale : text;
+	base_solid : base_solid_select;
+END_ENTITY;
+
+
+ENTITY modified_solid_with_placed_configuration
+	ABSTRACT SUPERTYPE OF (ONEOF (solid_with_depression, solid_with_protrusion, solid_with_shape_element_pattern))
+	SUBTYPE OF (modified_solid);
+	placing : axis2_placement_3d;
+END_ENTITY;
+
+
+ENTITY moments_of_inertia_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : (SIZEOF(SELF.items) = 1) AND 
+ (SIZEOF( QUERY( i <* SELF.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'COMPOUND_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  (i.name = 'moments of inertia matrix') )) = 1);
+	WR2 : SIZEOF( QUERY( i <* SELF.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'COMPOUND_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'LIST_REPRESENTATION_ITEM' IN TYPEOF(i\compound_representation_item.item_element)) AND 
+  value_range_aggregate_rep_item (i\compound_representation_item.item_element) )) = 1;
+END_ENTITY;
+
+
+ENTITY multi_language_attribute_assignment
+	SUBTYPE OF (attribute_value_assignment);
+	items : SET [1:?] OF multi_language_attribute_item;
+DERIVE
+	translation_language : language := language_indication[1]\attribute_classification_assignment.assigned_class;
+INVERSE
+	language_indication: SET [1:1] OF attribute_language_assignment FOR items;
+WHERE
+	WR1 : (SELF\attribute_value_assignment.role.name = 'alternate language');
+	WR2 : SIZEOF( QUERY( ala <* language_indication |  
+   (ala\attribute_classification_assignment.attribute_name = 'attribute_value') AND 
+   (ala\attribute_classification_assignment.role.name='translated') )) = 1;
+	WR3 : SELF\attribute_value_assignment.attribute_name <> '';
+	WR4 : SIZEOF(QUERY(ci <* items |
+SIZEOF(QUERY(ata <* USEDIN(ci, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MULTI_LANGUAGE_ATTRIBUTE_ASSIGNMENT.ITEMS') |
+(ata\attribute_value_assignment.attribute_name = SELF\attribute_value_assignment.attribute_name) AND 
+(ata.translation_language :=: translation_language) ))>1 )) =0;
+	WR5 : SIZEOF(QUERY(ci <* items |
+SIZEOF(QUERY(ata <* USEDIN(ci, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ATTRIBUTE_LANGUAGE_ASSIGNMENT.ITEMS') |
+ (ata\attribute_classification_assignment.role.name='primary') AND
+ (ata\attribute_classification_assignment.attribute_name= SELF\attribute_value_assignment.attribute_name) AND 
+ (ata\attribute_classification_assignment.assigned_class :=: translation_language) ))>0 )) =0;
+END_ENTITY;
+
+
+ENTITY multiple_arity_boolean_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (boolean_expression, multiple_arity_generic_expression);
+	SELF\multiple_arity_generic_expression.operands : LIST [2:?] OF boolean_expression;
+END_ENTITY;
+
+
+ENTITY multiple_arity_generic_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (generic_expression);
+	operands : LIST [2:?] OF generic_expression;
+END_ENTITY;
+
+
+ENTITY multiple_arity_numeric_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (numeric_expression, multiple_arity_generic_expression);
+	SELF\multiple_arity_generic_expression.operands : LIST [2:?] OF numeric_expression;
+END_ENTITY;
+
+
+ENTITY name_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_name : label;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY name_attribute;
+	attribute_value : label;
+	named_item : name_attribute_select;
+END_ENTITY;
+
+
+ENTITY named_unit
+	SUPERTYPE OF ((ONEOF (si_unit, conversion_based_unit, context_dependent_unit) ANDOR ONEOF (length_unit, mass_unit, time_unit, electric_current_unit, thermodynamic_temperature_unit, amount_of_substance_unit, luminous_flux_unit, luminous_intensity_unit, plane_angle_unit, solid_angle_unit, ratio_unit)));
+	dimensions : dimensional_exponents;
+END_ENTITY;
+
+
+ENTITY next_assembly_usage_occurrence
+	SUBTYPE OF (assembly_component_usage);
+END_ENTITY;
+
+
+ENTITY non_manifold_surface_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (it <* SELF.items |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D'] * TYPEOF (it)) = 1)))
+       = 0;
+	WR2 : SIZEOF (QUERY (it <* SELF.items |
+       SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM'] * TYPEOF (it)) = 1)) > 0;
+	WR3 : SIZEOF (QUERY (mi <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+       'NON_MANIFOLD_SURFACE_SHAPE_REPRESENTATION'
+       IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation))
+       AND
+       (SIZEOF(QUERY (mr_it <*
+       mi\mapped_item.mapping_source.mapped_representation.items |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL'
+       IN TYPEOF (mr_it)))) > 0 )))) = 0;
+	WR4 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_FACE'] * TYPEOF (fa)) = 1)))
+       = 0))) = 0))) = 0;
+	WR5 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (f_sf <* QUERY (fa <* cfs.cfs_faces |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF (fa))) |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (f_sf))
+       OR
+       (nmsf_surface_check(f_sf\face_surface.face_geometry))))) = 0))) 
+       = 0))) = 0;
+	WR6 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (o_fa <* QUERY (fa <* cfs.cfs_faces |
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_FACE' IN TYPEOF (fa))) |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF 
+       (o_fa\oriented_face.face_element))
+       OR
+       (nmsf_surface_check
+       (o_fa\oriented_face.face_element\face_surface.face_geometry)))))
+       = 0))) = 0))) = 0;
+	WR7 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (bnds <* fa.bounds |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP']
+       * TYPEOF (bnds.bound)) = 1))) = 0)))) = 0))) = 0))) = 0;
+	WR8 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items|
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF 
+       (oe.edge_element)))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR9 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe_cv <* QUERY (oe <* 
+       elp_fbnds\path.edge_list |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF (oe.edge_element)) |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE'] * 
+       TYPEOF (oe_cv.edge_element\edge_curve.edge_geometry)) 
+       = 1))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR10 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT (nmsf_curve_check (oe.edge_element\edge_curve.edge_geometry)))) 
+       = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR11 : SIZEOF (QUERY(fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list|
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF
+       (oe.edge_element.edge_start))
+       AND
+       ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN
+       TYPEOF (oe.edge_element.edge_end))))) 
+       = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR12 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <*
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (elp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (QUERY (oe <* elp_fbnds\path.edge_list |
+       NOT ((SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (oe.edge_element.edge_start\vertex_point.vertex_geometry)) = 1)
+       AND
+       (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (oe.edge_element.edge_end\vertex_point.vertex_geometry)) = 1
+       )))) = 0))) = 0)))) = 0))) = 0))) = 0;
+	WR13 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <* 
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (vlp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF
+       (vlp_fbnds\vertex_loop.loop_vertex)))) = 0)))) = 0))) 
+       = 0))) = 0;
+	WR14 : SIZEOF (QUERY (fbsm <* QUERY (it <* SELF.items |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BASED_SURFACE_MODEL' IN TYPEOF (it)) |
+       NOT (SIZEOF (QUERY (cfs <* 
+       fbsm\face_based_surface_model.fbsm_faces |
+       NOT (SIZEOF (QUERY (fa <* cfs.cfs_faces |
+       NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF (fa))
+       OR
+       (SIZEOF (QUERY (vlp_fbnds <* QUERY (bnds <* fa.bounds |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (bnds.bound)) |
+       NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE'] * TYPEOF
+       (vlp_fbnds\vertex_loop.loop_vertex\vertex_point.vertex_geometry)) 
+       = 1))) = 0)))) = 0))) = 0))) = 0;
+END_ENTITY;
+
+
+ENTITY null_representation_item
+	SUBTYPE OF (representation_item);
+END_ENTITY;
+
+
+ENTITY numeric_expression
+	ABSTRACT SUPERTYPE OF (ONEOF (simple_numeric_expression, unary_numeric_expression, binary_numeric_expression, multiple_arity_numeric_expression))
+	SUBTYPE OF (expression);
+DERIVE
+	is_int : LOGICAL := is_int_expr (SELF);
+	sql_mappable : LOGICAL := is_SQL_mappable (SELF);
+END_ENTITY;
+
+
+ENTITY object_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY offset_curve_2d
+	SUBTYPE OF (curve);
+	basis_curve : curve;
+	distance : length_measure;
+	self_intersect : LOGICAL;
+WHERE
+	WR1 : basis_curve.dim = 2;
+END_ENTITY;
+
+
+ENTITY offset_curve_3d
+	SUBTYPE OF (curve);
+	basis_curve : curve;
+	distance : length_measure;
+	self_intersect : LOGICAL;
+	ref_direction : direction;
+WHERE
+	WR1 : (basis_curve.dim = 3) AND (ref_direction.dim = 3);
+END_ENTITY;
+
+
+ENTITY offset_surface
+	SUBTYPE OF (surface);
+	basis_surface : surface;
+	distance : length_measure;
+	self_intersect : LOGICAL;
+END_ENTITY;
+
+
+ENTITY one_direction_repeat_factor
+	SUBTYPE OF (geometric_representation_item);
+	repeat_factor : vector;
+END_ENTITY;
+
+
+ENTITY open_shell
+	SUBTYPE OF (connected_face_set);
+END_ENTITY;
+
+
+ENTITY ordinal_date
+	SUBTYPE OF (date);
+	day_component : day_in_year_number;
+WHERE
+	WR1 : (NOT leap_year(SELF.year_component) AND { 1 <= day_component <= 365 }) OR (leap_year(SELF.year_component) AND { 1 <= day_component <= 366 });
+END_ENTITY;
+
+
+ENTITY ordinate_dimension
+	SUBTYPE OF (projection_directed_callout);
+END_ENTITY;
+
+
+ENTITY organization;
+	id : OPTIONAL identifier;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY organization_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_organization : organization;
+	role : organization_role;
+END_ENTITY;
+
+
+ENTITY organization_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_organization : organization;
+	related_organization : organization;
+END_ENTITY;
+
+
+ENTITY organization_role;
+	name : label;
+DERIVE
+	description : text := get_description_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY organizational_address
+	SUBTYPE OF (address);
+	organizations : SET [1:?] OF organization;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY organizational_project;
+	name : label;
+	description : OPTIONAL text;
+	responsible_organizations : SET [1:?] OF organization;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY organizational_project_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_organizational_project : organizational_project;
+	role : organizational_project_role;
+END_ENTITY;
+
+
+ENTITY organizational_project_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_organizational_project : organizational_project;
+	related_organizational_project : organizational_project;
+END_ENTITY;
+
+
+ENTITY organizational_project_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY oriented_closed_shell
+	SUBTYPE OF (closed_shell);
+	closed_shell_element : closed_shell;
+	orientation : BOOLEAN;
+DERIVE
+	SELF\connected_face_set.cfs_faces : SET [1:?] OF face := conditional_reverse(SELF.orientation,
+                                   SELF.closed_shell_element.cfs_faces);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL' 
+                IN TYPEOF (SELF.closed_shell_element));
+END_ENTITY;
+
+
+ENTITY oriented_edge
+	SUBTYPE OF (edge);
+	edge_element : edge;
+	orientation : BOOLEAN;
+DERIVE
+	SELF\edge.edge_end : vertex := boolean_choose (SELF.orientation,
+                                            SELF.edge_element.edge_end,
+                                            SELF.edge_element.edge_start);
+	SELF\edge.edge_start : vertex := boolean_choose (SELF.orientation,
+                                            SELF.edge_element.edge_start,
+                                            SELF.edge_element.edge_end);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_EDGE' IN TYPEOF (SELF.edge_element));
+END_ENTITY;
+
+
+ENTITY oriented_face
+	SUBTYPE OF (face);
+	face_element : face;
+	orientation : BOOLEAN;
+DERIVE
+	SELF\face.bounds : SET [1:?] OF face_bound := conditional_reverse(SELF.orientation,SELF.face_element.bounds);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_FACE' IN TYPEOF (SELF.face_element));
+END_ENTITY;
+
+
+ENTITY oriented_open_shell
+	SUBTYPE OF (open_shell);
+	open_shell_element : open_shell;
+	orientation : BOOLEAN;
+DERIVE
+	SELF\connected_face_set.cfs_faces : SET [1:?] OF face := conditional_reverse(SELF.orientation,
+                                      SELF.open_shell_element.cfs_faces);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_OPEN_SHELL' 
+                IN TYPEOF (SELF.open_shell_element));
+END_ENTITY;
+
+
+ENTITY oriented_path
+	SUBTYPE OF (path);
+	path_element : path;
+	orientation : BOOLEAN;
+DERIVE
+	SELF\path.edge_list : LIST [1:?] OF  UNIQUE oriented_edge := conditional_reverse(SELF.orientation,
+                                         SELF.path_element.edge_list);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_PATH' IN TYPEOF (SELF.path_element));
+END_ENTITY;
+
+
+ENTITY oriented_surface
+	SUBTYPE OF (surface);
+	orientation : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY outer_boundary_curve
+	SUBTYPE OF (boundary_curve);
+END_ENTITY;
+
+
+ENTITY over_riding_styled_item
+	SUBTYPE OF (styled_item);
+	over_ridden_style : styled_item;
+END_ENTITY;
+
+
+ENTITY package_product_concept_feature
+	SUBTYPE OF (product_concept_feature);
+WHERE
+	WR1 : NOT ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONDITIONAL_CONCEPT_FEATURE' IN TYPEOF ( SELF ) );
+	WR2 : SIZEOF ( QUERY 
+									( 
+										cfr <* USEDIN ( SELF , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP.' +'RELATING_PRODUCT_CONCEPT_FEATURE' ) 
+										| 
+										('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP_WITH_CONDITION' IN TYPEOF (cfr ) ) 
+										AND 
+										( SIZEOF ( QUERY 
+																( 
+																	ipcf <* USEDIN ( cfr , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONDITIONAL_CONCEPT_FEATURE.' +	'CONDITION' ) 
+																	| 
+																	'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'INCLUSION_PRODUCT_CONCEPT_FEATURE' IN TYPEOF ( ipcf ) 
+																)
+															)= 1 
+										)
+									)
+							)>0;
+END_ENTITY;
+
+
+ENTITY parabola
+	SUBTYPE OF (conic);
+	focal_dist : length_measure;
+WHERE
+	WR1 : focal_dist <> 0.0;
+END_ENTITY;
+
+
+ENTITY parallel_offset
+	SUBTYPE OF (derived_shape_aspect);
+	offset : measure_with_unit;
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)= 1;
+END_ENTITY;
+
+
+ENTITY parallelism_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) < 3;
+END_ENTITY;
+
+
+ENTITY parametric_representation_context
+	SUBTYPE OF (representation_context);
+END_ENTITY;
+
+
+ENTITY part_laminate_table
+	SUPERTYPE OF (ONEOF (composite_assembly_table, ply_laminate_table))
+	SUBTYPE OF (laminate_table);
+END_ENTITY;
+
+
+ENTITY partial_document_with_structured_text_representation_assignment
+	SUBTYPE OF (applied_document_usage_constraint_assignment, characterized_object);
+END_ENTITY;
+
+
+ENTITY path
+	SUPERTYPE OF (ONEOF (edge_loop, oriented_path))
+	SUBTYPE OF (topological_representation_item);
+	edge_list : LIST [1:?] OF  UNIQUE oriented_edge;
+WHERE
+	WR1 : path_head_to_tail(SELF);
+END_ENTITY;
+
+
+ENTITY pcurve
+	SUBTYPE OF (curve);
+	basis_surface : surface;
+	reference_to_curve : definitional_representation;
+WHERE
+	WR1 : SIZEOF(reference_to_curve\representation.items) = 1;
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF
+                    (reference_to_curve\representation.items[1]);
+	WR3 : reference_to_curve\representation.items[1]\
+                               geometric_representation_item.dim =2;
+END_ENTITY;
+
+
+ENTITY percentage_laminate_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) > 0;
+END_ENTITY;
+
+
+ENTITY percentage_laminate_table
+	SUBTYPE OF (zone_structural_makeup);
+END_ENTITY;
+
+
+ENTITY percentage_ply_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+        'PRODUCT_DEFINITION_RELATIONSHIP.RELATING_PRODUCT_DEFINITION') |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PERCENTAGE_LAMINATE_DEFINITION' 
+        IN TYPEOF (pdr.related_product_definition)) AND
+        (pdr.name = 'makeup and properties'))) = 0;
+END_ENTITY;
+
+
+ENTITY perpendicular_to
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)= 1;
+END_ENTITY;
+
+
+ENTITY perpendicularity_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 3;
+END_ENTITY;
+
+
+ENTITY person;
+	id : identifier;
+	last_name : OPTIONAL label;
+	first_name : OPTIONAL label;
+	middle_names : OPTIONAL LIST [1:?] OF label;
+	prefix_titles : OPTIONAL LIST [1:?] OF label;
+	suffix_titles : OPTIONAL LIST [1:?] OF label;
+WHERE
+	WR1 : EXISTS(last_name) OR EXISTS(first_name);
+END_ENTITY;
+
+
+ENTITY person_and_organization;
+	the_person : person;
+	the_organization : organization;
+DERIVE
+	description : text := get_description_value(SELF);
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY person_and_organization_address
+	SUBTYPE OF (organizational_address, personal_address);
+	SELF\organizational_address.organizations : SET [1:1] OF organization;
+	SELF\personal_address.people : SET [1:1] OF person;
+WHERE
+	WR1 : SIZEOF(QUERY(pao <* USEDIN (SELF\personal_address.people[1], 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PERSON_AND_ORGANIZATION.THE_PERSON') | pao.the_organization :=: SELF\organizational_address.organizations[1])) = 1;
+END_ENTITY;
+
+
+ENTITY person_and_organization_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_person_and_organization : person_and_organization;
+	role : person_and_organization_role;
+END_ENTITY;
+
+
+ENTITY person_and_organization_role;
+	name : label;
+DERIVE
+	description : text := get_description_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY personal_address
+	SUBTYPE OF (address);
+	people : SET [1:?] OF person;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY physical_breakdown_context
+	SUBTYPE OF (breakdown_context);
+END_ENTITY;
+
+
+ENTITY physical_element_usage
+	SUBTYPE OF (breakdown_element_usage);
+END_ENTITY;
+
+
+ENTITY picture_representation
+	SUBTYPE OF (presentation_view);
+	SELF\representation.items : SET [2:?] OF picture_representation_item_select;
+INVERSE
+	size: presentation_size FOR unit;
+WHERE
+    WR1: SIZEOF(QUERY(item <* items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM' IN TYPEOF(item))) = 1;
+    WR2: SIZEOF (QUERY (se <* QUERY (item <* SELF.items | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STYLED_ITEM' IN TYPEOF (item))) 
+         | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PICTURE_REPRESENTATION_ITEM' 
+                IN TYPEOF (se\styled_item.item)) )) = 0;
+END_ENTITY;
+
+
+ENTITY picture_representation_item
+	ABSTRACT SUPERTYPE OF (ONEOF (externally_defined_picture_representation_item, predefined_picture_representation_item))
+	SUBTYPE OF (bytes_representation_item);
+END_ENTITY;
+
+
+ENTITY placed_datum_target_feature
+	SUBTYPE OF (datum_target);
+DERIVE
+	representation_associations : SET [0:?] OF property_definition_representation := get_shape_aspect_property_definition_representations(SELF);
+WHERE
+	WR1 : SELF.description IN ['point','line','rectangle','circle', 'circular line'];
+	WR2 : SIZEOF (QUERY (pdr <* representation_associations | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION_WITH_PARAMETERS' IN TYPEOF (pdr.used_representation) )) = 1;
+	WR3 : valid_datum_target_parameters(SELF);
+END_ENTITY;
+
+
+ENTITY placed_feature
+	SUBTYPE OF (shape_aspect);
+END_ENTITY;
+
+
+ENTITY placement
+	SUPERTYPE OF (ONEOF (axis1_placement, axis2_placement_2d, axis2_placement_3d))
+	SUBTYPE OF (geometric_representation_item);
+	location : cartesian_point;
+END_ENTITY;
+
+
+ENTITY planar_box
+	SUBTYPE OF (planar_extent);
+	placement : axis2_placement;
+END_ENTITY;
+
+
+ENTITY planar_extent
+	SUBTYPE OF (geometric_representation_item);
+	size_in_x : length_measure;
+	size_in_y : length_measure;
+END_ENTITY;
+
+
+ENTITY plane
+	SUBTYPE OF (elementary_surface);
+END_ENTITY;
+
+
+ENTITY plane_angle_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY plane_angle_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY plus_minus_tolerance;
+	range : tolerance_method_definition;
+	toleranced_dimension : dimensional_characteristic;
+UNIQUE
+	UR1 : toleranced_dimension;
+END_ENTITY;
+
+
+ENTITY ply_laminate_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) = 1;
+END_ENTITY;
+
+
+ENTITY ply_laminate_sequence_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) > 0;
+END_ENTITY;
+
+
+ENTITY ply_laminate_table
+	SUBTYPE OF (part_laminate_table);
+END_ENTITY;
+
+
+ENTITY point
+	SUPERTYPE OF (ONEOF (cartesian_point, point_on_curve, point_on_surface, point_replica, degenerate_pcurve))
+	SUBTYPE OF (geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY point_and_vector
+	SUBTYPE OF (compound_representation_item, geometric_representation_item);
+	SELF\compound_representation_item.item_element : point_and_vector_members;
+END_ENTITY;
+
+
+ENTITY point_on_curve
+	SUBTYPE OF (point);
+	basis_curve : curve;
+	point_parameter : parameter_value;
+END_ENTITY;
+
+
+ENTITY point_on_surface
+	SUBTYPE OF (point);
+	basis_surface : surface;
+	point_parameter_u : parameter_value;
+	point_parameter_v : parameter_value;
+END_ENTITY;
+
+
+ENTITY point_path
+	SUBTYPE OF (compound_representation_item, geometric_representation_item);
+	SELF\compound_representation_item.item_element : point_path_members;
+END_ENTITY;
+
+
+ENTITY point_replica
+	SUBTYPE OF (point);
+	parent_pt : point;
+	transformation : cartesian_transformation_operator;
+WHERE
+	WR1 : transformation.dim = parent_pt.dim;
+	WR2 : acyclic_point_replica (SELF,parent_pt);
+END_ENTITY;
+
+
+ENTITY point_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	marker : marker_select;
+	marker_size : size_select;
+	marker_colour : colour;
+END_ENTITY;
+
+
+ENTITY polar_complex_number_literal
+	SUBTYPE OF (generic_literal);
+	radius : REAL;
+	angle : REAL;
+WHERE
+	WR1 : radius >= 0;
+	WR2 : { 0 <= angle < 2*PI };
+END_ENTITY;
+
+
+ENTITY poly_loop
+	SUBTYPE OF (loop, geometric_representation_item);
+	polygon : LIST [3:?] OF  UNIQUE cartesian_point;
+END_ENTITY;
+
+
+ENTITY polyline
+	SUBTYPE OF (bounded_curve);
+	points : LIST [2:?] OF cartesian_point;
+END_ENTITY;
+
+
+ENTITY position_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF)) OR ( SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 3);
+END_ENTITY;
+
+
+ENTITY positioned_sketch
+	SUBTYPE OF (geometric_representation_item);
+	sketch_basis : sketch_basis_select;
+	auxiliary_elements : SET [0:?] OF auxiliary_geometric_representation_item;
+WHERE
+	WR1 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_BOUNDED_SURFACE' IN 
+    TYPEOF(sketch_basis)) AND NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN
+    TYPEOF(sketch_basis\curve_bounded_surface.basis_surface)));
+	WR2 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF(sketch_basis)) AND
+    NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN TYPEOF(sketch_basis\face_surface.face_geometry)));
+	WR3 : SIZEOF(QUERY(q <* auxiliary_elements | (SIZEOF(TYPEOF(q) * 
+    ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT','AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE']) = 0))) = 0;
+	WR4 : SIZEOF(QUERY(q <* auxiliary_elements | 
+    q\geometric_representation_item.dim <> 3)) = 0;
+END_ENTITY;
+
+
+ENTITY power_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POWER_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY power_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.watt);
+END_ENTITY;
+
+
+ENTITY pre_defined_colour
+	SUBTYPE OF (pre_defined_item, colour);
+END_ENTITY;
+
+
+ENTITY pre_defined_curve_font
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY pre_defined_dimension_symbol
+	SUBTYPE OF (pre_defined_symbol);
+WHERE
+	WR1 : SELF.name IN [ 'arc length' , 'conical taper' , 'counterbore' , 'countersink' , 'depth' , 'diameter' , 'plus minus' , 'radius' , 'slope' , 'spherical diameter' , 'spherical radius' , 'square'];
+END_ENTITY;
+
+
+ENTITY pre_defined_geometrical_tolerance_symbol
+	SUBTYPE OF (pre_defined_symbol);
+WHERE
+	WR1 : SELF.name IN ['angularity' , 'basic dimension' , 'blanked datum reference' , 'circular runout' , 'circularity' , 'concentricity' , 'cylindricity' , 'datum target identification' , 'diameter' , 'filled datum reference' , 'flatness' , 'least material condition' , 'maximum material condition' , 'parallelism' , 'perpendicularity' , 'position' , 'profile of a line' , 'profile of a surface' , 'projected tolerance zone' , 'regardless of feature size' , 'straightness' , 'symmetry' , 'total runout' ];
+END_ENTITY;
+
+
+ENTITY pre_defined_item;
+	name : label;
+END_ENTITY;
+
+
+ENTITY pre_defined_marker
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY pre_defined_point_marker_symbol
+	SUBTYPE OF (pre_defined_marker, pre_defined_symbol);
+WHERE
+	WR1 : SELF.name IN ['asterisk','circle','dot','plus','square','triangle','x'];
+END_ENTITY;
+
+
+ENTITY pre_defined_surface_condition_symbol
+	SUBTYPE OF (pre_defined_symbol);
+WHERE
+	WR1 : SELF.name IN ['000' , '010' , '020' , '030' , '040' , '050' , '060' , '070' , '001' , '011' , '021' , '031' , '041' , '051' , '061' , '071' , '100' , '110' , '120' , '130' , '140' , '150' , '160' , '170' , '101' , '111' , '121' , '131' , '141' , '151' , '161' , '171' , '200' , '210' , '220' , '230' , '240' , '250' , '260' , '270' , '201' , '211' , '221' , '231' , '241' , '251' , '261' , '271'];
+END_ENTITY;
+
+
+ENTITY pre_defined_surface_side_style
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY pre_defined_symbol
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY pre_defined_terminator_symbol
+	SUBTYPE OF (pre_defined_symbol);
+WHERE
+	WR1 : SELF.name IN ['blanked arrow', 'blanked box', 'blanked dot', 'blanked triangle', 'dimension origin', 'filled arrow', 'filled box', 'filled dot', 'integral symbol', 'open arrow', 'slash', 'unfilled arrow', 'unfilled triangle', 'filled triangle'];
+END_ENTITY;
+
+
+ENTITY pre_defined_text_font
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY pre_defined_tile
+	SUBTYPE OF (pre_defined_item);
+END_ENTITY;
+
+
+ENTITY precision_qualifier;
+	precision_value : INTEGER;
+END_ENTITY;
+
+
+ENTITY predefined_picture_representation_item
+	SUBTYPE OF (picture_representation_item);
+WHERE
+	WR1 : SELF\representation_item.name IN pre_defined_picture_representation_types;
+END_ENTITY;
+
+
+ENTITY presentation_area
+	SUBTYPE OF (presentation_representation);
+WHERE
+	WR1 : ((SIZEOF (QUERY (ais <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                                 'AREA_IN_SET.AREA') | 
+             SIZEOF (USEDIN (ais, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                  'PRESENTATION_SIZE.UNIT')) =1)) > 0) OR
+            (SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                   'PRESENTATION_SIZE.UNIT')) =1));
+END_ENTITY;
+
+
+ENTITY presentation_layer_assignment;
+	name : label;
+	description : text;
+	assigned_items : SET [1:?] OF layered_item;
+END_ENTITY;
+
+
+ENTITY presentation_representation
+	SUPERTYPE OF (ONEOF (presentation_area, presentation_view))
+	SUBTYPE OF (representation);
+	SELF\representation.context_of_items : geometric_representation_context;
+WHERE
+	WR1 : SELF\representation.
+           context_of_items\geometric_representation_context.
+           coordinate_space_dimension = 2;
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_AREA' IN TYPEOF (SELF))
+           OR
+           (SIZEOF (QUERY (prr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                                'REPRESENTATION_RELATIONSHIP.REP_2') | 
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_REPRESENTATION' IN
+           TYPEOF (prr\representation_relationship.rep_1))) > 0)
+           OR 
+           (SIZEOF(QUERY( rm <* USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 
+                                             'REPRESENTATION_MAP.'+ 
+                                             'MAPPED_REPRESENTATION') | 
+           SIZEOF(QUERY( mi <* USEDIN(rm, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                                          'MAPPED_ITEM.'+
+                                          'MAPPING_SOURCE') |   
+           SIZEOF(QUERY( rep <* using_representations (mi) |                              
+                                        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                                        'PRESENTATION_REPRESENTATION' IN 
+                                        TYPEOF (rep))) > 0
+           )) > 0))  
+           > 0);
+END_ENTITY;
+
+
+ENTITY presentation_set;
+INVERSE
+	areas: SET [1:?] OF area_in_set FOR in_set;
+END_ENTITY;
+
+
+ENTITY presentation_size;
+	unit : presentation_size_assignment_select;
+	size : planar_box;
+UNIQUE
+	UR1 : unit;
+WHERE
+	WR1 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESENTATION_REPRESENTATION'
+           IN TYPEOF (SELF.unit)) AND
+           item_in_context (SELF.size, 
+                            SELF.unit\representation.context_of_items)
+           )
+           OR
+           (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AREA_IN_SET'
+           IN TYPEOF (SELF.unit)) AND
+           (SIZEOF (QUERY ( ais <* SELF.unit\area_in_set.in_set.areas |
+                NOT item_in_context (SELF.size, ais.area\representation.
+                                                context_of_items) )) = 0));
+END_ENTITY;
+
+
+ENTITY presentation_style_assignment
+	SUBTYPE OF (founded_item);
+	styles : SET [1:?] OF presentation_style_select;
+WHERE
+	WR1 : SIZEOF (QUERY (style1 <* SELF.styles |
+           NOT (SIZEOF (QUERY (style2 <* (SELF.styles - style1) |
+           NOT ((TYPEOF (style1) <> TYPEOF (style2)) OR
+             (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+                       'SURFACE_STYLE_USAGE',
+                       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+                       'EXTERNALLY_DEFINED_STYLE'] *
+                     TYPEOF (style1)) = 1)
+           ))) = 0
+         ))) = 0;
+	WR2 : SIZEOF (QUERY (style1 <* SELF.styles |
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE' IN
+         TYPEOF(style1)
+         )) <= 2;
+	WR3 : SIZEOF (QUERY (style1 <* SELF.styles |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE' IN TYPEOF (style1)) AND 
+         (SIZEOF (QUERY (style2 <* (SELF.styles - style1) |
+           ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_STYLE_USAGE' IN TYPEOF (style2)) AND 
+           ((style1\surface_style_usage.side = both) OR 
+           (style2\surface_style_usage.side = both) OR 
+           (style1\surface_style_usage.side = style2\surface_style_usage.side)) )) > 0))) = 0;
+END_ENTITY;
+
+
+ENTITY presentation_style_by_context
+	SUBTYPE OF (presentation_style_assignment);
+	style_context : style_context_select;
+END_ENTITY;
+
+
+ENTITY presentation_view
+	SUBTYPE OF (presentation_representation);
+END_ENTITY;
+
+
+ENTITY presented_item
+	ABSTRACT SUPERTYPE;
+END_ENTITY;
+
+
+ENTITY presented_item_representation;
+	presentation : presentation_representation_select;
+	item : presented_item;
+END_ENTITY;
+
+
+ENTITY pressure_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESSURE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY pressure_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.pascal);
+END_ENTITY;
+
+
+ENTITY procedural_representation
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF procedural_representation_sequence;
+END_ENTITY;
+
+
+ENTITY procedural_representation_sequence
+	SUBTYPE OF (representation_item);
+	elements : LIST [1:?] OF representation_item;
+	suppressed_items : SET [0:?] OF representation_item;
+	rationale : text;
+WHERE
+	WR1 : SIZEOF(QUERY(q <* suppressed_items | NOT (q IN elements))) = 0;
+END_ENTITY;
+
+
+ENTITY procedural_shape_representation
+	SUBTYPE OF (procedural_representation, shape_representation);
+	SELF\representation.items : SET [1:?] OF procedural_shape_representation_sequence;
+END_ENTITY;
+
+
+ENTITY procedural_shape_representation_sequence
+	SUBTYPE OF (geometric_representation_item, procedural_representation_sequence);
+WHERE
+	WR1 : SIZEOF(QUERY(q <* SELF\procedural_representation_sequence.elements
+    | NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION_ITEM'
+    IN TYPEOF(q)))) = 0;
+END_ENTITY;
+
+
+ENTITY product;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	frame_of_reference : SET [1:?] OF product_context;
+END_ENTITY;
+
+
+ENTITY product_category;
+	name : label;
+	description : OPTIONAL text;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY product_class
+	SUBTYPE OF (product_concept, characterized_object);
+END_ENTITY;
+
+
+ENTITY product_concept;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	market_context : product_concept_context;
+UNIQUE
+	UR1 : id;
+END_ENTITY;
+
+
+ENTITY product_concept_context
+	SUBTYPE OF (application_context_element);
+	market_segment_type : label;
+END_ENTITY;
+
+
+ENTITY product_concept_feature;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY product_concept_feature_association;
+	name : label;
+	description : OPTIONAL text;
+	concept : product_concept;
+	feature : product_concept_feature;
+END_ENTITY;
+
+
+ENTITY product_concept_feature_category
+	SUBTYPE OF (group);
+WHERE
+	WR1 : SIZEOF(QUERY
+									( 
+										aga <* USEDIN( SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GROUP_ASSIGNMENT.ASSIGNED_GROUP' ) 
+										|
+     								('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'APPLIED_GROUP_ASSIGNMENT' IN TYPEOF(aga)) 
+     								AND
+    								(
+    									( aga.role.name <> 'specification category member' ) 
+    									OR 
+    									( SIZEOF(QUERY 
+    															( 
+    																i <* aga.items 
+    																| 
+    																('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'PRODUCT_CONCEPT_FEATURE' IN TYPEOF ( i ) ) 
+    																AND 
+    																NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'CONDITIONAL_CONCEPT_FEATURE' IN TYPEOF (i))
+    															)
+    													) <> SIZEOF (aga.items)
+    									)
+    								) 
+       						) 
+       				) =0;
+END_ENTITY;
+
+
+ENTITY product_concept_feature_category_usage
+	SUBTYPE OF (group_assignment);
+	items : SET [1:?] OF category_usage_item;
+	SELF\group_assignment.assigned_group : product_concept_feature_category;
+WHERE
+	WR1 : SELF.role.name IN [ 'mandatory category usage', 'optional category usage' ];
+END_ENTITY;
+
+
+ENTITY product_concept_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_product_concept : product_concept;
+	related_product_concept : product_concept;
+END_ENTITY;
+
+
+ENTITY product_context
+	SUBTYPE OF (application_context_element);
+	discipline_type : label;
+END_ENTITY;
+
+
+ENTITY product_definition
+	SUPERTYPE OF (ONEOF (composite_assembly_definition, composite_assembly_sequence_definition, laminate_table, percentage_laminate_definition, percentage_ply_definition, ply_laminate_definition, ply_laminate_sequence_definition, thickness_laminate_definition));
+	id : identifier;
+	description : OPTIONAL text;
+	formation : product_definition_formation;
+	frame_of_reference : product_definition_context;
+DERIVE
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY product_definition_context
+	SUBTYPE OF (application_context_element);
+	life_cycle_stage : label;
+END_ENTITY;
+
+
+ENTITY product_definition_context_association;
+	definition : product_definition;
+	frame_of_reference : product_definition_context;
+	role : product_definition_context_role;
+END_ENTITY;
+
+
+ENTITY product_definition_context_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY product_definition_effectivity
+	SUBTYPE OF (effectivity);
+	usage : product_definition_relationship;
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EFFECTIVITY_ASSIGNMENT.ASSIGNED_EFFECTIVITY')) = 0;
+END_ENTITY;
+
+
+ENTITY product_definition_element_relationship
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY product_definition_formation;
+	id : identifier;
+	description : OPTIONAL text;
+	of_product : product;
+UNIQUE
+	UR1 : id, of_product;
+END_ENTITY;
+
+
+ENTITY product_definition_formation_relationship;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	relating_product_definition_formation : product_definition_formation;
+	related_product_definition_formation : product_definition_formation;
+END_ENTITY;
+
+
+ENTITY product_definition_formation_with_specified_source
+	SUBTYPE OF (product_definition_formation);
+	make_or_buy : source;
+END_ENTITY;
+
+
+ENTITY product_definition_group_assignment
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF product_definition_or_product_definition_relationship;
+	SELF\group_assignment.assigned_group : product_definition_element_relationship;
+END_ENTITY;
+
+
+ENTITY product_definition_occurrence_relationship;
+	name : label;
+	description : OPTIONAL text;
+	occurrence : product_definition;
+	occurrence_usage : assembly_component_usage;
+WHERE
+	WR1 : occurrence_usage.relating_product_definition :<>: 
+       occurrence;
+	WR2 : occurrence_usage.related_product_definition :<>: 
+       occurrence;
+	WR3 : occurrence.formation :=:
+       occurrence_usage.related_product_definition.formation;
+END_ENTITY;
+
+
+ENTITY product_definition_relationship;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+	relating_product_definition : product_definition;
+	related_product_definition : product_definition;
+END_ENTITY;
+
+
+ENTITY product_definition_shape
+	SUBTYPE OF (property_definition);
+UNIQUE
+  UR1: SELF\property_definition.definition;
+WHERE
+	WR1 : SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CHARACTERIZED_PRODUCT_DEFINITION', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CHARACTERIZED_OBJECT'] * TYPEOF(SELF\property_definition.definition)) > 0;
+END_ENTITY;
+
+
+ENTITY product_definition_substitute;
+	description : OPTIONAL text;
+	context_relationship : product_definition_relationship;
+	substitute_definition : product_definition;
+DERIVE
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : context_relationship.related_product_definition :<>: substitute_definition;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY product_definition_usage
+	SUPERTYPE OF (ONEOF (make_from_usage_option, assembly_component_usage))
+	SUBTYPE OF (product_definition_relationship);
+UNIQUE
+ UR1: SELF\product_definition_relationship.id, 
+      SELF\product_definition_relationship.relating_product_definition, 
+      SELF\product_definition_relationship.related_product_definition;
+ WHERE
+	WR1 : acyclic_product_definition_relationship
+         (SELF,
+         [SELF\product_definition_relationship.related_product_definition],
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_USAGE');
+END_ENTITY;
+
+
+ENTITY product_definition_with_associated_documents
+	SUBTYPE OF (product_definition);
+	documentation_ids : SET [1:?] OF document;
+END_ENTITY;
+
+
+ENTITY product_identification
+	SUBTYPE OF (configuration_item, characterized_object);
+	SELF\configuration_item.item_concept : product_class;
+WHERE
+	WR1 : SIZEOF(QUERY 
+		( cd <* USEDIN ( SELF ,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONFIGURATION_DESIGN.CONFIGURATION' ) 
+		|
+     	( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'PRODUCT_DEFINITION_FORMATION' IN TYPEOF ( cd. design ) ) 
+     	AND 
+    	( SIZEOF ( QUERY 
+    	( 
+    	prpc <* USEDIN ( cd. design\product_definition_formation.of_product , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') 
+    	| 
+        prpc. name IN ['part' , 'raw material' , 'tool'] ) ) >0
+     	) 
+     	) 
+     	) <=1;
+	WR2 : NOT ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'CONFIGURABLE_ITEM' IN TYPEOF( SELF ) ) 
+			XOR ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'PRODUCT_SPECIFICATION' IN TYPEOF ( SELF ) );
+END_ENTITY;
+
+
+ENTITY product_material_composition_relationship
+	SUBTYPE OF (product_definition_relationship);
+	class : label;
+	constituent_amount : SET [1:?] OF characterized_product_composition_value;
+	composition_basis : label;
+	determination_method : text;
+END_ENTITY;
+
+
+ENTITY product_related_product_category
+	SUBTYPE OF (product_category);
+	products : SET [1:?] OF product;
+END_ENTITY;
+
+
+ENTITY product_specification
+	SUBTYPE OF (product_identification, configurable_item);
+END_ENTITY;
+
+
+ENTITY projected_zone_definition
+	SUBTYPE OF (tolerance_zone_definition);
+	projection_end : shape_aspect;
+	projected_length : measure_with_unit;
+WHERE
+	WR1 : ('NUMBER' IN TYPEOF
+       (projected_length\measure_with_unit.value_component)) AND
+       (projected_length\measure_with_unit.value_component > 0.0);
+	WR2 : (derive_dimensional_exponents
+       (projected_length\measure_with_unit.unit_component)=
+        dimensional_exponents(1,0,0,0,0,0,0));
+END_ENTITY;
+
+
+ENTITY projection_curve
+	SUBTYPE OF (annotation_curve_occurrence);
+END_ENTITY;
+
+
+ENTITY projection_directed_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF(QUERY(p_1<*SELF\draughting_callout.contents | 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE' IN (TYPEOF(p_1))))=1;
+	WR2 : SIZEOF(SELF\draughting_callout.contents) >=2;
+END_ENTITY;
+
+
+ENTITY promissory_usage_occurrence
+	SUBTYPE OF (assembly_component_usage);
+END_ENTITY;
+
+
+ENTITY property_definition;
+	name : label;
+	description : OPTIONAL text;
+	definition : characterized_definition;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY property_definition_relationship;
+	name : label;
+	description : text;
+	relating_property_definition : property_definition;
+	related_property_definition : property_definition;
+END_ENTITY;
+
+
+ENTITY property_definition_representation;
+	definition : represented_definition;
+	used_representation : representation;
+DERIVE
+	description : text := get_description_value(SELF);
+	name : label := get_name_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM')) <= 1;
+	WR2 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.NAMED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY qualified_representation_item
+	SUBTYPE OF (representation_item);
+	qualifiers : SET [1:?] OF value_qualifier;
+WHERE
+	WR1 : SIZEOF(QUERY(temp <* qualifiers |
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRECISION_QUALIFIER'
+             IN TYPEOF(temp))) < 2;
+END_ENTITY;
+
+
+ENTITY qualitative_uncertainty
+	SUBTYPE OF (uncertainty_qualifier);
+	uncertainty_value : text;
+END_ENTITY;
+
+
+ENTITY quantified_assembly_component_usage
+	SUBTYPE OF (assembly_component_usage);
+	quantity : measure_with_unit;
+WHERE
+	WR1 : (NOT ('NUMBER' IN TYPEOF(quantity.value_component)))
+       OR (quantity.value_component > 0);
+END_ENTITY;
+
+
+ENTITY quasi_uniform_curve
+	SUBTYPE OF (b_spline_curve);
+END_ENTITY;
+
+
+ENTITY quasi_uniform_surface
+	SUBTYPE OF (b_spline_surface);
+END_ENTITY;
+
+
+ENTITY radioactivity_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RADIOACTIVITY_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY radioactivity_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.becquerel);
+END_ENTITY;
+
+
+ENTITY radius_dimension
+	SUBTYPE OF (dimension_curve_directed_callout);
+WHERE
+	WR1 : SIZEOF (QUERY (con <* SELF.contents |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_CURVE' IN TYPEOF (con)))<=1;
+END_ENTITY;
+
+
+ENTITY range_characteristic
+	SUBTYPE OF (representation, descriptive_representation_item);
+WHERE
+	WR1 : NOT(SELF\representation.name IN ['tolerance', 'minimum tolerance', 'maximum tolerance', 
+        'nominal tolerance', 'plus minus tolerance', 'symmetrical tolerance', 'statistical tolerance']);
+END_ENTITY;
+
+
+ENTITY ratio_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RATIO_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY ratio_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY rational_b_spline_curve
+	SUBTYPE OF (b_spline_curve);
+	weights_data : LIST [2:?] OF REAL;
+DERIVE
+	weights : ARRAY [0:upper_index_on_control_points] OF REAL := list_to_array(weights_data,0,
+                                      upper_index_on_control_points);
+WHERE
+	WR1 : SIZEOF(weights_data) = SIZEOF(SELF\b_spline_curve.
+                                           control_points_list);
+	WR2 : curve_weights_positive(SELF);
+END_ENTITY;
+
+
+ENTITY rational_b_spline_surface
+	SUBTYPE OF (b_spline_surface);
+	weights_data : LIST [2:?] OF LIST [2:?] OF REAL;
+DERIVE
+	weights : ARRAY [0:u_upper] OF ARRAY [0:v_upper] OF REAL := make_array_of_array(weights_data,0,u_upper,0,v_upper);
+WHERE
+	WR1 : (SIZEOF(weights_data) =
+                     SIZEOF(SELF\b_spline_surface.control_points_list))
+           AND (SIZEOF(weights_data[1]) =
+                  SIZEOF(SELF\b_spline_surface.control_points_list[1]));
+	WR2 : surface_weights_positive(SELF);
+END_ENTITY;
+
+
+ENTITY rational_representation_item
+	SUBTYPE OF (representation_item, slash_expression);
+WHERE
+	WR1 : SIZEOF( QUERY( operand <* SELF\binary_generic_expression.operands | 
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INT_LITERAL' IN TYPEOF(operand)))) = 0;
+END_ENTITY;
+
+
+ENTITY real_literal
+	SUBTYPE OF (literal_number);
+	SELF\literal_number.the_value : REAL;
+END_ENTITY;
+
+
+ENTITY real_representation_item
+	SUBTYPE OF (representation_item, real_literal);
+END_ENTITY;
+
+
+ENTITY rectangular_composite_surface
+	SUBTYPE OF (bounded_surface);
+	segments : LIST [1:?] OF LIST [1:?] OF surface_patch;
+DERIVE
+	n_u : INTEGER := SIZEOF(segments);
+	n_v : INTEGER := SIZEOF(segments[1]);
+WHERE
+	WR1 : SIZEOF(QUERY (s <* segments | n_v <> SIZEOF (s))) = 0;
+	WR2 : constraints_rectangular_composite_surface(SELF);
+END_ENTITY;
+
+
+ENTITY rectangular_trimmed_surface
+	SUBTYPE OF (bounded_surface);
+	basis_surface : surface;
+	u1 : parameter_value;
+	u2 : parameter_value;
+	v1 : parameter_value;
+	v2 : parameter_value;
+	usense : BOOLEAN;
+	vsense : BOOLEAN;
+WHERE
+	WR1 : u1 <> u2;
+	WR2 : v1 <> v2;
+	WR3 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_SURFACE' IN TYPEOF(basis_surface))
+       AND  (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN TYPEOF(basis_surface)))) OR
+      ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_OF_REVOLUTION' IN TYPEOF(basis_surface))
+          OR (usense = (u2 > u1));
+	WR4 : (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SPHERICAL_SURFACE' IN TYPEOF(basis_surface))
+          OR
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TOROIDAL_SURFACE' IN TYPEOF(basis_surface)))
+          OR (vsense = (v2 > v1));
+END_ENTITY;
+
+
+ENTITY referenced_modified_datum
+	SUBTYPE OF (datum_reference);
+	modifier : limit_condition;
+END_ENTITY;
+
+
+ENTITY relative_event_occurrence
+	SUBTYPE OF (event_occurrence);
+	base_event : event_occurrence;
+	offset : time_measure_with_unit;
+END_ENTITY;
+
+
+ENTITY rep_item_group
+	SUBTYPE OF (group, representation_item);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRESENTATION_LAYER_ASSIGNMENT.' + 'ASSIGNED_ITEMS')) > 0;
+	WR2 : SIZEOF(QUERY(r <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION.' + 'ITEMS') | r.name = 'group representation')) > 0;
+	WR3 : SIZEOF(QUERY(ga <* USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GROUP_ASSIGNMENT.' + 'ASSIGNED_GROUP') | ga.role.name <> 'group membership')) = 0;
+	WR4 : SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_REPRESENTATION_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'TOPOLOGICAL_REPRESENTATION_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'MAPPED_ITEM','AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'STYLED_ITEM'] * TYPEOF(SELF)) = 1;
+END_ENTITY;
+
+
+ENTITY reparametrised_composite_curve_segment
+	SUBTYPE OF (composite_curve_segment);
+	param_length : parameter_value;
+WHERE
+	WR1 : param_length > 0.0;
+END_ENTITY;
+
+
+ENTITY representation;
+	name : label;
+	items : SET [1:?] OF representation_item;
+	context_of_items : representation_context;
+DERIVE
+	description : text := get_description_value (SELF);
+	id : identifier := get_id_value (SELF);
+WHERE
+	WR1 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'ID_ATTRIBUTE.IDENTIFIED_ITEM'))
+         <= 1;
+	WR2 : SIZEOF (USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'DESCRIPTION_ATTRIBUTE.DESCRIBED_ITEM'))
+         <= 1;
+END_ENTITY;
+
+
+ENTITY representation_context;
+	context_identifier : identifier;
+	context_type : text;
+INVERSE
+	representations_in_context: SET [1:?] OF representation FOR context_of_items;
+END_ENTITY;
+
+
+ENTITY representation_item
+	SUPERTYPE OF (ONEOF (binary_representation_item, compound_representation_item, mapped_item, value_representation_item, mapped_item, styled_item, boolean_representation_item, date_representation_item, date_time_representation_item, integer_representation_item, logical_representation_item, rational_representation_item, real_representation_item));
+	name : label;
+WHERE
+	WR1 : SIZEOF(using_representations(SELF)) > 0;
+END_ENTITY;
+
+
+ENTITY representation_item_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_representation_item : representation_item;
+	related_representation_item : representation_item;
+END_ENTITY;
+
+
+ENTITY representation_map;
+	mapping_origin : representation_item;
+	mapped_representation : representation;
+INVERSE
+	map_usage: SET [1:?] OF mapped_item FOR mapping_source;
+WHERE
+	WR1 : item_in_context(SELF.mapping_origin,
+        SELF.mapped_representation.context_of_items);
+END_ENTITY;
+
+
+ENTITY representation_relationship;
+	name : label;
+	description : OPTIONAL text;
+	rep_1 : representation;
+	rep_2 : representation;
+END_ENTITY;
+
+
+ENTITY representation_relationship_with_transformation
+	SUBTYPE OF (representation_relationship);
+	transformation_operator : transformation;
+WHERE
+	WR1 : SELF\representation_relationship.rep_1.context_of_items
+           :<>: SELF\representation_relationship.rep_2.context_of_items;
+END_ENTITY;
+
+
+ENTITY requirement_assigned_object
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF requirement_assigned_item;
+	SELF\group_assignment.assigned_group : requirement_assignment;
+END_ENTITY;
+
+
+ENTITY requirement_assignment
+	SUBTYPE OF (characterized_object, group);
+END_ENTITY;
+
+
+ENTITY requirement_source
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY requirement_view_definition_relationship
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY resistance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RESISTANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY resistance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = dimensions_for_si_unit (si_unit_name.ohm);
+END_ENTITY;
+
+
+ENTITY revolved_area_solid
+	SUBTYPE OF (swept_area_solid);
+	axis : axis1_placement;
+	angle : plane_angle_measure;
+DERIVE
+	axis_line : line := representation_item('')||
+                    geometric_representation_item()|| curve()||
+                    line(axis.location, representation_item('')||
+                    geometric_representation_item()||
+                    vector(axis.z, 1.0));
+END_ENTITY;
+
+
+ENTITY revolved_face_solid
+	SUBTYPE OF (swept_face_solid);
+	axis : axis1_placement;
+	angle : plane_angle_measure;
+DERIVE
+	axis_line : line := representation_item('')||
+                    geometric_representation_item()|| curve()||
+                    line(axis.location, representation_item('')||
+                    geometric_representation_item()||
+                    vector(axis.z, 1.0));
+END_ENTITY;
+
+
+ENTITY revolved_face_solid_with_trim_conditions
+	SUBTYPE OF (revolved_face_solid);
+	first_trim_condition : trim_condition_select;
+	second_trim_condition : trim_condition_select;
+WHERE
+	WR1 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(first_trim_condition)) 
+         OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' 
+         IN TYPEOF(second_trim_condition)));
+	WR2 : NOT((('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_MEASURE' 
+         IN TYPEOF(first_trim_condition)) AND
+            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_MEASURE' 
+         IN TYPEOF(second_trim_condition))) AND
+         (first_trim_condition = second_trim_condition));
+END_ENTITY;
+
+
+ENTITY right_angular_wedge
+	SUBTYPE OF (geometric_representation_item);
+	position : axis2_placement_3d;
+	x : positive_length_measure;
+	y : positive_length_measure;
+	z : positive_length_measure;
+	ltx : length_measure;
+WHERE
+	WR1 : ((0.0 <= ltx) AND (ltx < x));
+END_ENTITY;
+
+
+ENTITY right_circular_cone
+	SUBTYPE OF (geometric_representation_item);
+	position : axis1_placement;
+	height : positive_length_measure;
+	radius : length_measure;
+	semi_angle : plane_angle_measure;
+WHERE
+	WR1 : radius >= 0.0;
+END_ENTITY;
+
+
+ENTITY right_circular_cylinder
+	SUBTYPE OF (geometric_representation_item);
+	position : axis1_placement;
+	height : positive_length_measure;
+	radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY right_to_usage_association
+	SUBTYPE OF (action_method_relationship);
+	SELF\action_method_relationship.related_method : information_right;
+	SELF\action_method_relationship.relating_method : information_usage_right;
+DERIVE
+	right_applied : information_right := SELF\action_method_relationship.related_method;
+	right_usage : information_usage_right := SELF\action_method_relationship.relating_method;
+END_ENTITY;
+
+
+ENTITY role_association;
+	role : object_role;
+	item_with_role : role_select;
+END_ENTITY;
+
+
+ENTITY roundness_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF));
+END_ENTITY;
+
+
+ENTITY row_representation_item
+	SUBTYPE OF (compound_representation_item);
+	SELF\compound_representation_item.item_element : list_representation_item;
+END_ENTITY;
+
+
+ENTITY row_value
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY row_variable
+	SUBTYPE OF (abstract_variable);
+END_ENTITY;
+
+
+ENTITY rule_action
+	SUBTYPE OF (action);
+END_ENTITY;
+
+
+ENTITY rule_condition
+	SUBTYPE OF (atomic_formula);
+END_ENTITY;
+
+
+ENTITY rule_definition
+	SUBTYPE OF (rule_software_definition);
+END_ENTITY;
+
+
+ENTITY rule_set
+	SUBTYPE OF (rule_software_definition);
+END_ENTITY;
+
+
+ENTITY rule_set_group
+	SUBTYPE OF (rule_software_definition);
+END_ENTITY;
+
+
+ENTITY rule_software_definition
+	SUBTYPE OF (product_definition);
+END_ENTITY;
+
+
+ENTITY rule_superseded_assignment
+	SUBTYPE OF (action_assignment);
+	items : SET [1:?] OF rule_superseded_item;
+END_ENTITY;
+
+
+ENTITY rule_supersedence
+	SUBTYPE OF (rule_action);
+END_ENTITY;
+
+
+ENTITY ruled_surface_swept_area_solid
+	SUBTYPE OF (surface_curve_swept_area_solid);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE' IN TYPEOF(SELF.reference_surface)) AND
+         (SELF.reference_surface\b_spline_surface.u_degree = 1);
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(SELF.directrix)) OR
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF(SELF.directrix\surface_curve.curve_3d))
+         AND
+         (SELF.directrix\surface_curve.curve_3d\b_spline_curve.degree =
+         SELF.reference_surface\b_spline_surface.v_degree));
+END_ENTITY;
+
+
+ENTITY runout_zone_definition
+	SUBTYPE OF (tolerance_zone_definition);
+	orientation : runout_zone_orientation;
+END_ENTITY;
+
+
+ENTITY runout_zone_orientation;
+	angle : measure_with_unit;
+END_ENTITY;
+
+
+ENTITY runout_zone_orientation_reference_direction
+	SUBTYPE OF (runout_zone_orientation);
+	orientation_defining_relationship : shape_aspect_relationship;
+END_ENTITY;
+
+
+ENTITY satisfied_requirement
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF product_definition;
+	SELF\group_assignment.assigned_group : satisfies_requirement;
+END_ENTITY;
+
+
+ENTITY satisfies_requirement
+	SUBTYPE OF (group);
+END_ENTITY;
+
+
+ENTITY satisfying_item
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF requirement_satisfaction_item;
+	SELF\group_assignment.assigned_group : satisfies_requirement;
+END_ENTITY;
+
+
+ENTITY scalar_variable
+	SUBTYPE OF (abstract_variable);
+END_ENTITY;
+
+
+ENTITY scattering_parameter
+	SUBTYPE OF (polar_complex_number_literal);
+WHERE
+	WR1 : SIZEOF(TYPEOF(SELF) - (TYPEOF(SELF\polar_complex_number_literal ||
+       SELF\scattering_parameter))) = 0;
+END_ENTITY;
+
+
+ENTITY sculptured_solid
+	SUBTYPE OF (modified_solid);
+	sculpturing_element : generalized_surface_select;
+	positive_side : BOOLEAN;
+END_ENTITY;
+
+
+ENTITY seam_curve
+	SUBTYPE OF (surface_curve);
+WHERE
+	WR1 : SIZEOF(SELF\surface_curve.associated_geometry) = 2;
+	WR2 : associated_surface(SELF\surface_curve.associated_geometry[1]) =
+           associated_surface(SELF\surface_curve.associated_geometry[2]);
+	WR3 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN
+           TYPEOF(SELF\surface_curve.associated_geometry[1]);
+	WR4 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN
+            TYPEOF(SELF\surface_curve.associated_geometry[2]);
+END_ENTITY;
+
+
+ENTITY security_classification;
+	name : label;
+	purpose : text;
+	security_level : security_classification_level;
+END_ENTITY;
+
+
+ENTITY security_classification_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_security_classification : security_classification;
+DERIVE
+	role : object_role := get_role(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.ITEM_WITH_ROLE')) <= 1;
+END_ENTITY;
+
+
+ENTITY security_classification_level;
+	name : label;
+END_ENTITY;
+
+
+ENTITY serial_numbered_effectivity
+	SUBTYPE OF (effectivity);
+	effectivity_start_id : identifier;
+	effectivity_end_id : OPTIONAL identifier;
+END_ENTITY;
+
+
+ENTITY shape_aspect;
+	name : label;
+	description : OPTIONAL text;
+	of_shape : product_definition_shape;
+	product_definitional : LOGICAL;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY shape_aspect_associativity
+	SUBTYPE OF (shape_aspect_relationship);
+WHERE
+	WR1 : SELF.relating_shape_aspect.product_definitional;
+	WR2 : NOT (SELF.related_shape_aspect.product_definitional);
+END_ENTITY;
+
+
+ENTITY shape_aspect_deriving_relationship
+	SUBTYPE OF (shape_aspect_relationship);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DERIVED_SHAPE_ASPECT' IN
+TYPEOF
+            (SELF\SHAPE_ASPECT_RELATIONSHIP.RELATING_SHAPE_ASPECT);
+END_ENTITY;
+
+
+ENTITY shape_aspect_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_shape_aspect : shape_aspect;
+	related_shape_aspect : shape_aspect;
+DERIVE
+	id : identifier := get_id_value(SELF);
+WHERE
+	WR1 : SIZEOF(USEDIN(SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.IDENTIFIED_ITEM')) <= 1;
+END_ENTITY;
+
+
+ENTITY shape_definition_representation
+	SUBTYPE OF (property_definition_representation);
+WHERE
+	WR1 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_SHAPE' IN TYPEOF(SELF.definition)) OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_DEFINITION' IN TYPEOF(SELF.definition.definition));
+	WR2 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION' IN TYPEOF(SELF.used_representation);
+END_ENTITY;
+
+
+ENTITY shape_dimension_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF (QUERY (temp <* SELF\representation.items | 
+    NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' 
+        IN TYPEOF (temp)))) = 0;
+	WR2 : SIZEOF (SELF\representation.items) <= 3;
+	WR3 : SIZEOF (QUERY (pos_mri <* QUERY (real_mri <*
+        SELF\representation.items | 'REAL' IN TYPEOF
+        (real_mri\measure_with_unit.value_component) ) |        
+     NOT  (pos_mri\measure_with_unit.value_component > 0.0 ))) = 0;
+END_ENTITY;
+
+
+ENTITY shape_feature_definition
+	SUBTYPE OF (characterized_object);
+END_ENTITY;
+
+
+ENTITY shape_representation
+	SUBTYPE OF (representation);
+END_ENTITY;
+
+
+ENTITY shape_representation_relationship
+	SUBTYPE OF (representation_relationship);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION' IN (TYPEOF(SELF\representation_relationship.rep_1) + TYPEOF(SELF\representation_relationship.rep_2));
+END_ENTITY;
+
+
+ENTITY shape_representation_with_parameters
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF( QUERY( i <* SELF.items | SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLACEMENT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM'] * TYPEOF(i)) = 1 )) = SIZEOF(SELF.items);
+END_ENTITY;
+
+
+ENTITY shell_based_surface_model
+	SUBTYPE OF (geometric_representation_item);
+	sbsm_boundary : SET [1:?] OF shell;
+WHERE
+	WR1 : constraints_geometry_shell_based_surface_model(SELF);
+END_ENTITY;
+
+
+ENTITY shell_based_wireframe_model
+	SUBTYPE OF (geometric_representation_item);
+	sbwm_boundary : SET [1:?] OF shell;
+WHERE
+	WR1 : constraints_geometry_shell_based_wireframe_model(SELF);
+END_ENTITY;
+
+
+ENTITY shell_based_wireframe_shape_representation
+	SUBTYPE OF (shape_representation);
+WHERE
+	WR1 : SIZEOF ( 
+QUERY ( it <* SELF.items| NOT ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT_3D' ] * TYPEOF (it)) = 1) )) = 0;
+	WR2 : SIZEOF ( 
+QUERY ( it <* SELF.items| ( SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' ] * TYPEOF (it)) = 1) )) >= 1;
+	WR3 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( eloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (wsb)) )| NOT ( SIZEOF ( 
+QUERY ( el <* eloop\path.edge_list| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_CURVE' IN TYPEOF (el.edge_element)) )) = 0) )) = 0) )) = 0) )) = 0;
+	WR4 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( eloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (wsb)) )| NOT ( SIZEOF ( 
+QUERY ( pline_el <* 
+QUERY ( el <* eloop\path.edge_list| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF (el.edge_element\edge_curve.edge_geometry)) )| NOT ( SIZEOF (pline_el.edge_element\edge_curve.edge_geometry\polyline.points) > 2) )) = 0) )) = 0) )) = 0) )) = 0;
+	WR5 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( eloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (wsb)) )| NOT ( SIZEOF ( 
+QUERY ( el <* eloop\path.edge_list| NOT valid_wireframe_edge_curve(el.edge_element\edge_curve.edge_geometry) )) = 0) )) = 0) )) = 0) )) = 0;
+	WR6 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( eloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (wsb)) )| NOT ( SIZEOF ( 
+QUERY ( el <* eloop\path.edge_list| NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (el.edge_element.edge_start)) AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (el.edge_element.edge_end))) )) = 0) )) = 0) )) = 0) )) = 0;
+	WR7 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( eloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE_LOOP' IN TYPEOF (wsb)) )| NOT ( SIZEOF ( 
+QUERY ( el <* eloop\path.edge_list| NOT (valid_wireframe_vertex_point(el.edge_element.edge_start\vertex_point.vertex_geometry) AND valid_wireframe_vertex_point(el.edge_element.edge_end\vertex_point.vertex_geometry)) )) = 0) )) = 0) )) = 0) )) = 0;
+	WR8 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( vloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (wsb)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (vloop\vertex_loop.loop_vertex)) )) = 0) )) = 0) )) = 0;
+	WR9 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( ws <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN TYPEOF (sb)) )| NOT ( SIZEOF ( 
+QUERY ( vloop <* 
+QUERY ( wsb <* ws\wire_shell.wire_shell_extent| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_LOOP' IN TYPEOF (wsb)) )| NOT valid_wireframe_vertex_point(vloop\vertex_loop.loop_vertex\vertex_point.vertex_geometry) )) = 0) )) = 0) )) = 0;
+	WR10 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( vs <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_SHELL' IN TYPEOF (sb)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_POINT' IN TYPEOF (vs\vertex_shell.vertex_shell_extent.loop_vertex)) )) = 0) )) = 0;
+	WR11 : SIZEOF ( 
+QUERY ( sbwm <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL_BASED_WIREFRAME_MODEL' IN TYPEOF (it)) )| NOT ( SIZEOF ( 
+QUERY ( vs <* 
+QUERY ( sb <* sbwm\shell_based_wireframe_model.sbwm_boundary| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_SHELL' IN TYPEOF (sb)) )| NOT valid_wireframe_vertex_point(vs\vertex_shell.vertex_shell_extent.loop_vertex\vertex_point.vertex_geometry) )) = 0) )) = 0;
+	WR12 : SIZEOF ( 
+QUERY ( mi <* 
+QUERY ( it <* SELF.items| ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (it)) )| NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'SHELL_BASED_WIREFRAME_SHAPE_REPRESENTATION' IN TYPEOF (mi\mapped_item.mapping_source.mapped_representation)) )) = 0;
+	WR13 : SELF.context_of_items\geometric_representation_context.coordinate_space_dimension = 3;
+END_ENTITY;
+
+
+ENTITY shelled_solid
+	SUPERTYPE OF (ONEOF (double_offset_shelled_solid, complex_shelled_solid))
+	SUBTYPE OF (modified_solid);
+	deleted_face_set : SET [1:?] OF face_surface;
+	thickness : length_measure;
+WHERE
+	WR1 : thickness <> 0;
+END_ENTITY;
+
+
+ENTITY si_absorbed_dose_unit
+	SUBTYPE OF (absorbed_dose_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.gray;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_capacitance_unit
+	SUBTYPE OF (capacitance_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.farad;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_conductance_unit
+	SUBTYPE OF (conductance_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.siemens;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_dose_equivalent_unit
+	SUBTYPE OF (dose_equivalent_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.sievert;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_electric_charge_unit
+	SUBTYPE OF (electric_charge_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.coulomb;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_electric_potential_unit
+	SUBTYPE OF (electric_potential_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.volt;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_energy_unit
+	SUBTYPE OF (energy_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.joule;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_force_unit
+	SUBTYPE OF (force_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.newton;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_frequency_unit
+	SUBTYPE OF (frequency_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.hertz;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_illuminance_unit
+	SUBTYPE OF (illuminance_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.lux;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_inductance_unit
+	SUBTYPE OF (inductance_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.henry;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_magnetic_flux_density_unit
+	SUBTYPE OF (magnetic_flux_density_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.tesla;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_magnetic_flux_unit
+	SUBTYPE OF (magnetic_flux_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.weber;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_power_unit
+	SUBTYPE OF (power_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.watt;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_pressure_unit
+	SUBTYPE OF (pressure_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.pascal;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_radioactivity_unit
+	SUBTYPE OF (radioactivity_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.becquerel;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_resistance_unit
+	SUBTYPE OF (resistance_unit, si_unit);
+WHERE
+	WR1 : SELF\si_unit.name = si_unit_name.ohm;
+	WR2 : NOT EXISTS(SELF\derived_unit.name);
+END_ENTITY;
+
+
+ENTITY si_unit
+	SUBTYPE OF (named_unit);
+	prefix : OPTIONAL si_prefix;
+	name : si_unit_name;
+DERIVE
+	SELF\named_unit.dimensions : dimensional_exponents := dimensions_for_si_unit(name);
+WHERE
+	WR1 : NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MASS_UNIT' IN TYPEOF(SELF)) AND
+             (SIZEOF(USEDIN(SELF,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DERIVED_UNIT_ELEMENT.UNIT')) > 0)) OR
+            (prefix = si_prefix.kilo);
+END_ENTITY;
+
+
+ENTITY simple_boolean_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (boolean_expression, simple_generic_expression);
+END_ENTITY;
+
+
+ENTITY simple_clause
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY simple_generic_expression
+	ABSTRACT SUPERTYPE OF (ONEOF (generic_literal, generic_variable))
+	SUBTYPE OF (generic_expression);
+END_ENTITY;
+
+
+ENTITY simple_numeric_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (numeric_expression, simple_generic_expression);
+END_ENTITY;
+
+
+ENTITY slash_expression
+	SUBTYPE OF (binary_numeric_expression);
+END_ENTITY;
+
+
+ENTITY smeared_material_definition
+	SUBTYPE OF (zone_structural_makeup);
+END_ENTITY;
+
+
+ENTITY solid_angle_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_ANGLE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY solid_angle_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY solid_curve_font
+	SUBTYPE OF (pre_defined_curve_font);
+END_ENTITY;
+
+
+ENTITY solid_model
+	SUPERTYPE OF (ONEOF (csg_solid, manifold_solid_brep, swept_face_solid, swept_area_solid, swept_disk_solid, solid_replica))
+	SUBTYPE OF (geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY solid_replica
+	SUBTYPE OF (solid_model);
+	parent_solid : solid_model;
+	transformation : cartesian_transformation_operator_3d;
+WHERE
+	WR1 : acyclic_solid_replica(SELF, parent_solid);
+	WR2 : parent_solid\geometric_representation_item.dim = 3;
+END_ENTITY;
+
+
+ENTITY solid_with_angle_based_chamfer
+	SUBTYPE OF (solid_with_chamfered_edges);
+	offset_distance : positive_length_measure;
+	left_offset : BOOLEAN;
+	offset_angle : positive_plane_angle_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_chamfered_edges
+	ABSTRACT SUPERTYPE OF (ONEOF (solid_with_single_offset_chamfer, solid_with_double_offset_chamfer, solid_with_angle_based_chamfer))
+	SUBTYPE OF (edge_blended_solid);
+END_ENTITY;
+
+
+ENTITY solid_with_circular_pattern
+	SUPERTYPE OF (solid_with_incomplete_circular_pattern)
+	SUBTYPE OF (solid_with_shape_element_pattern);
+	replicate_count : positive_integer;
+	angular_spacing : plane_angle_measure;
+	radial_alignment : BOOLEAN;
+	reference_point : point;
+END_ENTITY;
+
+
+ENTITY solid_with_circular_pocket
+	SUBTYPE OF (solid_with_pocket);
+	pocket_radius : positive_length_measure;
+WHERE
+	WR1 : SELF\solid_with_pocket.floor_blend_radius <= pocket_radius;
+END_ENTITY;
+
+
+ENTITY solid_with_circular_protrusion
+	SUBTYPE OF (solid_with_protrusion);
+	protrusion_radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_conical_bottom_round_hole
+	SUBTYPE OF (solid_with_stepped_round_hole);
+	semi_apex_angle : positive_plane_angle_measure;
+	tip_radius : non_negative_length_measure;
+WHERE
+	WR1 : tip_radius < 
+          SELF\solid_with_stepped_round_hole.segment_radii[segments];
+END_ENTITY;
+
+
+ENTITY solid_with_constant_radius_edge_blend
+	SUBTYPE OF (edge_blended_solid);
+	radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_curved_slot
+	SUBTYPE OF (solid_with_slot);
+	slot_centreline : bounded_curve;
+END_ENTITY;
+
+
+ENTITY solid_with_depression
+	ABSTRACT SUPERTYPE OF ((solid_with_through_depression ANDOR ONEOF (solid_with_hole, solid_with_pocket, solid_with_slot, solid_with_groove)))
+	SUBTYPE OF (modified_solid_with_placed_configuration);
+	depth : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_double_offset_chamfer
+	SUBTYPE OF (solid_with_chamfered_edges);
+	left_offset_distance : positive_length_measure;
+	right_offset_distance : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_flat_bottom_round_hole
+	SUBTYPE OF (solid_with_stepped_round_hole);
+	fillet_radius : non_negative_length_measure;
+WHERE
+	WR1 : fillet_radius < 
+          SELF\solid_with_stepped_round_hole.segment_radii[segments];
+END_ENTITY;
+
+
+ENTITY solid_with_general_pocket
+	SUBTYPE OF (solid_with_pocket);
+	profile : positioned_sketch;
+	reference_point : point;
+WHERE
+	WR1 : SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_BOUNDED_SURFACE',
+    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE'] * TYPEOF(profile.sketch_basis)) = 1;
+	WR2 : profile IN using_items(reference_point,[]);
+END_ENTITY;
+
+
+ENTITY solid_with_general_protrusion
+	SUBTYPE OF (solid_with_protrusion);
+	profile : positioned_sketch;
+	reference_point : point;
+WHERE
+	WR1 : SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_BOUNDED_SURFACE',
+    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE'] * TYPEOF(profile.sketch_basis)) = 1;
+	WR2 : profile IN using_items(reference_point,[]);
+END_ENTITY;
+
+
+ENTITY solid_with_groove
+	SUBTYPE OF (solid_with_depression);
+	groove_radius : positive_length_measure;
+	groove_width : positive_length_measure;
+	draft_angle : plane_angle_measure;
+	floor_fillet_radius : non_negative_length_measure;
+	external_groove : BOOLEAN;
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_THROUGH_DEPRESSION'
+         IN TYPEOF(SELF));
+END_ENTITY;
+
+
+ENTITY solid_with_hole
+	ABSTRACT SUPERTYPE OF (solid_with_stepped_round_hole)
+	SUBTYPE OF (solid_with_depression);
+END_ENTITY;
+
+
+ENTITY solid_with_incomplete_circular_pattern
+	SUBTYPE OF (solid_with_circular_pattern);
+	omitted_instances : SET [1:?] OF positive_integer;
+WHERE
+	WR1 : SIZEOF(omitted_instances) <
+         SELF\solid_with_circular_pattern.replicate_count;
+	WR2 : SIZEOF(QUERY(q <* omitted_instances | q > 
+         SELF\solid_with_circular_pattern.replicate_count)) = 0;
+END_ENTITY;
+
+
+ENTITY solid_with_incomplete_rectangular_pattern
+	SUBTYPE OF (solid_with_rectangular_pattern);
+	omitted_instances : SET [1:?] OF LIST [2:2] OF positive_integer;
+WHERE
+	WR1 : NOT([1,1] IN omitted_instances);
+	WR2 : SIZEOF(omitted_instances) <
+         ((SELF\solid_with_rectangular_pattern.row_count *
+           SELF\solid_with_rectangular_pattern.column_count) - 1);
+	WR3 : SIZEOF(QUERY(q <* omitted_instances |
+         ((q[1] > SELF\solid_with_rectangular_pattern.row_count) OR
+          (q[2] > SELF\solid_with_rectangular_pattern.column_count)))) = 0;
+END_ENTITY;
+
+
+ENTITY solid_with_pocket
+	ABSTRACT SUPERTYPE OF (ONEOF (solid_with_rectangular_pocket, solid_with_circular_pocket, solid_with_general_pocket))
+	SUBTYPE OF (solid_with_depression);
+	floor_blend_radius : non_negative_length_measure;
+	draft_angle : plane_angle_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_protrusion
+	ABSTRACT SUPERTYPE OF (ONEOF (solid_with_circular_protrusion, solid_with_rectangular_protrusion, solid_with_general_protrusion))
+	SUBTYPE OF (modified_solid_with_placed_configuration);
+	protrusion_height : positive_length_measure;
+	protrusion_draft_angle : plane_angle_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_rectangular_pattern
+	SUPERTYPE OF (solid_with_incomplete_rectangular_pattern)
+	SUBTYPE OF (solid_with_shape_element_pattern);
+	row_count : positive_integer;
+	column_count : positive_integer;
+	row_spacing : length_measure;
+	column_spacing : length_measure;
+WHERE
+	WR1 : (row_count * column_count) > 1;
+END_ENTITY;
+
+
+ENTITY solid_with_rectangular_pocket
+	SUBTYPE OF (solid_with_pocket);
+	pocket_length : positive_length_measure;
+	pocket_width : positive_length_measure;
+	corner_radius : non_negative_length_measure;
+WHERE
+	WR1 : (corner_radius < pocket_width/2) 
+         AND (corner_radius < pocket_length/2);
+END_ENTITY;
+
+
+ENTITY solid_with_rectangular_protrusion
+	SUBTYPE OF (solid_with_protrusion);
+	protrusion_length : positive_length_measure;
+	protrusion_width : positive_length_measure;
+	protrusion_corner_radius : non_negative_length_measure;
+WHERE
+	WR1 : (protrusion_corner_radius <= protrusion_width/2) 
+         AND (protrusion_corner_radius <= protrusion_length/2);
+END_ENTITY;
+
+
+ENTITY solid_with_shape_element_pattern
+	ABSTRACT SUPERTYPE OF (ONEOF (solid_with_circular_pattern, solid_with_rectangular_pattern))
+	SUBTYPE OF (modified_solid_with_placed_configuration);
+	replicated_element : modified_solid_with_placed_configuration;
+END_ENTITY;
+
+
+ENTITY solid_with_single_offset_chamfer
+	SUBTYPE OF (solid_with_chamfered_edges);
+	offset_distance : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_slot
+	ABSTRACT SUPERTYPE OF ((ONEOF (solid_with_trapezoidal_section_slot, solid_with_tee_section_slot) AND ONEOF (solid_with_straight_slot, solid_with_curved_slot)))
+	SUBTYPE OF (solid_with_depression);
+	slot_width : positive_length_measure;
+	closed_ends : LIST [2:2] OF LOGICAL;
+	end_exit_faces : LIST [2:2] OF SET [0:?] OF face_surface;
+WHERE
+	WR1 : NOT(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_THROUGH_DEPRESSION' IN
+         TYPEOF(SELF)) AND (closed_ends = [FALSE,FALSE]));
+	WR2 : NOT(((closed_ends[1] = TRUE) AND (SIZEOF(end_exit_faces[1]) <> 0))
+         OR ((closed_ends[2] = TRUE) AND (SIZEOF(end_exit_faces[2]) <> 0)));
+END_ENTITY;
+
+
+ENTITY solid_with_spherical_bottom_round_hole
+	SUBTYPE OF (solid_with_stepped_round_hole);
+	sphere_radius : positive_length_measure;
+WHERE
+	WR1 : sphere_radius >= 
+          SELF\solid_with_stepped_round_hole.segment_radii[segments];
+END_ENTITY;
+
+
+ENTITY solid_with_stepped_round_hole
+	SUPERTYPE OF ((solid_with_stepped_round_hole_and_conical_transitions ANDOR ONEOF (solid_with_flat_bottom_round_hole, solid_with_conical_bottom_round_hole, solid_with_spherical_bottom_round_hole)))
+	SUBTYPE OF (solid_with_hole);
+	segments : positive_integer;
+	segment_radii : LIST [1:segments] OF positive_length_measure;
+	segment_depths : LIST [1:segments] OF positive_length_measure;
+DERIVE
+	SELF\solid_with_depression.depth : positive_length_measure := compute_total_depth(SELF);
+WHERE
+	WR1 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_THROUGH_DEPRESSION'
+       IN TYPEOF(SELF)) AND (SIZEOF(TYPEOF(SELF) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_FLAT_BOTTOM_ROUND_HOLE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_SPHERICAL_BOTTOM_ROUND_HOLE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_FLAT_BOTTOM_ROUND_HOLE']) 
+       <> 0));
+END_ENTITY;
+
+
+ENTITY solid_with_stepped_round_hole_and_conical_transitions
+	SUBTYPE OF (solid_with_stepped_round_hole);
+	conical_transitions : SET [1:?] OF conical_stepped_hole_transition;
+WHERE
+	WR1 : SIZEOF (conical_transitions) <= 
+         (SELF\solid_with_stepped_round_hole.segments + 1);
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_THROUGH_DEPRESSION'
+         IN TYPEOF(SELF)) XOR (SIZEOF(conical_transitions) <= 
+         SELF\solid_with_stepped_round_hole.segments);
+	WR3 : validate_countersink_radii(SELF);
+END_ENTITY;
+
+
+ENTITY solid_with_straight_slot
+	SUBTYPE OF (solid_with_slot);
+	slot_length : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_tee_section_slot
+	SUBTYPE OF (solid_with_slot);
+	tee_section_width : positive_length_measure;
+	collar_depth : positive_length_measure;
+WHERE
+	WR1 : collar_depth < SELF\solid_with_depression.depth;
+	WR2 : tee_section_width > SELF\solid_with_slot.slot_width;
+END_ENTITY;
+
+
+ENTITY solid_with_through_depression
+	SUBTYPE OF (solid_with_depression);
+	exit_faces : SET [1:?] OF face_surface;
+WHERE
+	WR1 : SIZEOF(TYPEOF(SELF) *
+         ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_HOLE',
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_POCKET',
+          'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_SLOT']) = 1;
+END_ENTITY;
+
+
+ENTITY solid_with_trapezoidal_section_slot
+	SUBTYPE OF (solid_with_slot);
+	draft_angle : plane_angle_measure;
+	floor_fillet_radius : non_negative_length_measure;
+END_ENTITY;
+
+
+ENTITY solid_with_variable_radius_edge_blend
+	SUBTYPE OF (edge_blended_solid, track_blended_solid);
+	point_list : LIST [2:?] OF point;
+	radius_list : LIST [2:?] OF positive_length_measure;
+	edge_function_list : LIST [1:?] OF blend_radius_variation_type;
+WHERE
+	WR1 : SIZEOF(point_list) = SIZEOF(radius_list);
+	WR2 : SIZEOF(edge_function_list) = SIZEOF(radius_list) - 1;
+	WR3 : NOT((point_list[1] = point_list[HIINDEX(point_list)]) AND NOT 
+         (radius_list[1] = radius_list[HIINDEX(radius_list)]));
+END_ENTITY;
+
+
+ENTITY source_for_requirement
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF requirement_source_item;
+	SELF\group_assignment.assigned_group : requirement_source;
+END_ENTITY;
+
+
+ENTITY sourced_requirement
+	SUBTYPE OF (group_assignment);
+	items : SET [1:1] OF product_definition;
+	SELF\group_assignment.assigned_group : requirement_source;
+END_ENTITY;
+
+
+ENTITY specification_definition
+	SUBTYPE OF (product_definition);
+END_ENTITY;
+
+
+ENTITY specified_higher_usage_occurrence
+	SUBTYPE OF (assembly_component_usage);
+	upper_usage : assembly_component_usage;
+	next_usage : next_assembly_usage_occurrence;
+UNIQUE
+	UR1 : upper_usage, next_usage;
+WHERE
+	WR1 : SELF :<>: upper_usage;
+	WR2 : SELF\product_definition_relationship.relating_product_definition
+       :=: upper_usage.relating_product_definition;
+	WR3 : SELF\product_definition_relationship.related_product_definition
+       :=: next_usage.related_product_definition;
+	WR4 : (upper_usage.related_product_definition :=:
+       next_usage.relating_product_definition) OR
+       (SIZEOF (QUERY (pdr <* USEDIN (upper_usage.related_product_definition,
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_RELATIONSHIP.' +
+       'RELATED_PRODUCT_DEFINITION') |
+        pdr.relating_product_definition :=: 
+        next_usage.relating_product_definition)) = 1);
+	WR5 : SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NEXT_ASSEMBLY_USAGE_OCCURRENCE',
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SPECIFIED_HIGHER_USAGE_OCCURRENCE']
+       * TYPEOF(upper_usage)) = 1;
+END_ENTITY;
+
+
+ENTITY sphere
+	SUBTYPE OF (geometric_representation_item);
+	radius : positive_length_measure;
+	centre : point;
+END_ENTITY;
+
+
+ENTITY spherical_surface
+	SUBTYPE OF (elementary_surface);
+	radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY standard_uncertainty
+	SUPERTYPE OF (expanded_uncertainty)
+	SUBTYPE OF (uncertainty_qualifier);
+	uncertainty_value : REAL;
+END_ENTITY;
+
+
+ENTITY start_request
+	SUBTYPE OF (action_request_assignment);
+	items : SET [1:?] OF start_request_item;
+END_ENTITY;
+
+
+ENTITY start_work
+	SUBTYPE OF (action_assignment);
+	items : SET [1:?] OF work_item;
+END_ENTITY;
+
+
+ENTITY straightness_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF));
+END_ENTITY;
+
+
+ENTITY structured_dimension_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF (TYPEOF (SELF) *
+       ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM_FEATURE_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DATUM_TARGET_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GEOMETRICAL_TOLERANCE_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LEADER_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROJECTION_DIRECTED_CALLOUT',
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIMENSION_CURVE_DIRECTED_CALLOUT']) = 0;
+	WR2 : SIZEOF (QUERY (ato <* QUERY (con <* SELF.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (con))) |
+         NOT (ato.name IN
+             ['dimension value', 'tolerance value', 'unit text',
+              'prefix text', 'suffix text']))) = 0;
+	WR3 : SIZEOF (QUERY (ato <* QUERY (con <* SELF.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF (con))) |
+         (ato.name = 'dimension value')
+       )) >= 1;
+	WR4 : SIZEOF (QUERY (dcr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+         'DRAUGHTING_CALLOUT_RELATIONSHIP.' +
+         'RELATING_DRAUGHTING_CALLOUT') |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+          'DIMENSION_CALLOUT_COMPONENT_RELATIONSHIP' IN TYPEOF (dcr)) AND 
+         (dcr.name = 'prefix') )) <= 1;
+	WR5 : SIZEOF (QUERY (dcr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+         'DRAUGHTING_CALLOUT_RELATIONSHIP.' +
+         'RELATING_DRAUGHTING_CALLOUT') |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+          'DIMENSION_CALLOUT_COMPONENT_RELATIONSHIP' IN TYPEOF (dcr)) AND 
+         (dcr.name = 'suffix') )) <= 1;
+	WR6 : NOT((SIZEOF (QUERY (ato <* QUERY (con <* SELF.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(con)) ) |
+         (ato.name = 'prefix text')
+       )) > 0)) OR
+       (SIZEOF (QUERY (dcr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                               'DRAUGHTING_CALLOUT_RELATIONSHIP.' +
+                               'RELATING_DRAUGHTING_CALLOUT') |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+          'DIMENSION_CALLOUT_COMPONENT_RELATIONSHIP' IN TYPEOF (dcr)) AND  
+         (dcr.name = 'prefix') )) = 1);
+	WR7 : NOT(SIZEOF (QUERY (ato <* QUERY (con <* SELF.contents |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_OCCURRENCE'
+             IN TYPEOF(con))) |
+         (ato.name = 'suffix text')
+       )) > 0) OR
+       (SIZEOF (QUERY (dcr <* USEDIN (SELF, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                               'DRAUGHTING_CALLOUT_RELATIONSHIP.' +
+                               'RELATING_DRAUGHTING_CALLOUT') |
+         ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+          'DIMENSION_CALLOUT_COMPONENT_RELATIONSHIP' IN TYPEOF (dcr)) AND    
+            (dcr.name = 'suffix') )) = 1);
+END_ENTITY;
+
+
+ENTITY structured_text_composition
+	SUBTYPE OF (compound_representation_item);
+END_ENTITY;
+
+
+ENTITY structured_text_representation
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF string_representation_item_select;
+END_ENTITY;
+
+
+ENTITY styled_item
+	SUBTYPE OF (representation_item);
+	styles : SET [1:?] OF presentation_style_assignment;
+	item : representation_item;
+WHERE
+	WR1 : (SIZEOF(SELF.styles) = 1)
+               XOR
+         (SIZEOF(QUERY(pres_style <* SELF.styles |
+         NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+              'PRESENTATION_STYLE_BY_CONTEXT' IN
+         TYPEOF(pres_style))
+         )) = 0);
+END_ENTITY;
+
+
+ENTITY subedge
+	SUBTYPE OF (edge);
+	parent_edge : edge;
+END_ENTITY;
+
+
+ENTITY subface
+	SUBTYPE OF (face);
+	parent_face : face;
+WHERE
+	WR1 : NOT (mixed_loop_type_set(list_to_set(list_face_loops(SELF)) +
+              list_to_set(list_face_loops(parent_face))));
+END_ENTITY;
+
+
+ENTITY supplied_part_relationship
+	SUBTYPE OF (product_definition_relationship);
+END_ENTITY;
+
+
+ENTITY surface
+	SUPERTYPE OF (ONEOF (elementary_surface, swept_surface, bounded_surface, offset_surface, surface_replica))
+	SUBTYPE OF (geometric_representation_item);
+END_ENTITY;
+
+
+ENTITY surface_condition_callout
+	SUBTYPE OF (draughting_callout);
+WHERE
+	WR1 : SIZEOF ( QUERY ( c <* SELF.contents | SIZEOF (
+         ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'ANNOTATION_CURVE_OCCURRENCE' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'ANNOTATION_SYMBOL_OCCURRENCE' ,
+         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'ANNOTATION_TEXT_OCCURRENCE']* TYPEOF
+         ( c ) ) <>1 ) ) =0;
+END_ENTITY;
+
+
+ENTITY surface_curve
+	SUPERTYPE OF ((ONEOF (intersection_curve, seam_curve) ANDOR bounded_surface_curve))
+	SUBTYPE OF (curve);
+	curve_3d : curve;
+	associated_geometry : LIST [1:2] OF pcurve_or_surface;
+	master_representation : preferred_surface_curve_representation;
+DERIVE
+	basis_surface : SET [1:2] OF surface := get_basis_surface(SELF);
+WHERE
+	WR1 : curve_3d.dim = 3;
+	WR2 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(associated_geometry[1])) OR
+                        (master_representation <> pcurve_s1);
+	WR3 : ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(associated_geometry[2])) OR
+                        (master_representation <> pcurve_s2);
+	WR4 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(curve_3d));
+END_ENTITY;
+
+
+ENTITY surface_curve_swept_area_solid
+	SUBTYPE OF (swept_area_solid);
+	directrix : curve;
+	start_param : REAL;
+	end_param : REAL;
+	reference_surface : surface;
+WHERE
+	WR1 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF(directrix))) OR
+          (reference_surface IN (directrix\surface_curve.basis_surface));
+END_ENTITY;
+
+
+ENTITY surface_of_linear_extrusion
+	SUBTYPE OF (swept_surface);
+	extrusion_axis : vector;
+END_ENTITY;
+
+
+ENTITY surface_of_revolution
+	SUBTYPE OF (swept_surface);
+	axis_position : axis1_placement;
+DERIVE
+	axis_line : line := representation_item('')||
+                     geometric_representation_item()|| curve()||
+                     line(axis_position.location, representation_item('')||
+                     geometric_representation_item()||
+                     vector(axis_position.z, 1.0));
+END_ENTITY;
+
+
+ENTITY surface_patch
+	SUBTYPE OF (founded_item);
+	parent_surface : bounded_surface;
+	u_transition : transition_code;
+	v_transition : transition_code;
+	u_sense : BOOLEAN;
+	v_sense : BOOLEAN;
+INVERSE
+	using_surfaces: BAG [1:?] OF rectangular_composite_surface FOR segments;
+WHERE
+	WR1 : (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_BOUNDED_SURFACE' 
+                 IN TYPEOF(parent_surface)));
+END_ENTITY;
+
+
+ENTITY surface_profile_tolerance
+	SUBTYPE OF (geometric_tolerance);
+WHERE
+	WR1 : NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'GEOMETRIC_TOLERANCE_WITH_DATUM_REFERENCE' IN TYPEOF (SELF)) OR ( SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 3);
+END_ENTITY;
+
+
+ENTITY surface_rendering_properties;
+	rendered_colour : colour;
+END_ENTITY;
+
+
+ENTITY surface_replica
+	SUBTYPE OF (surface);
+	parent_surface : surface;
+	transformation : cartesian_transformation_operator_3d;
+WHERE
+	WR1 : acyclic_surface_replica(SELF, parent_surface);
+END_ENTITY;
+
+
+ENTITY surface_side_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	styles : SET [1:7] OF surface_style_element_select;
+WHERE
+	WR1 : SIZEOF(QUERY( style1 <* SELF.styles |
+           SIZEOF(QUERY( style2 <* SELF.styles - style1 |
+           TYPEOF(style1) = TYPEOF(style2)
+           )) > 0
+           )) = 0;
+END_ENTITY;
+
+
+ENTITY surface_style_boundary
+	SUBTYPE OF (founded_item);
+	style_of_boundary : curve_or_render;
+END_ENTITY;
+
+
+ENTITY surface_style_control_grid
+	SUBTYPE OF (founded_item);
+	style_of_control_grid : curve_or_render;
+END_ENTITY;
+
+
+ENTITY surface_style_fill_area
+	SUBTYPE OF (founded_item);
+	fill_area : fill_area_style;
+END_ENTITY;
+
+
+ENTITY surface_style_parameter_line
+	SUBTYPE OF (founded_item);
+	style_of_parameter_lines : curve_or_render;
+	direction_counts : SET [1:2] OF direction_count_select;
+WHERE
+	WR1 : (HIINDEX(SELF.direction_counts) = 1)
+                        XOR
+         (TYPEOF(SELF.direction_counts[1]) <>
+          TYPEOF(SELF.direction_counts[2]));
+END_ENTITY;
+
+
+ENTITY surface_style_reflectance_ambient;
+	ambient_reflectance : REAL;
+END_ENTITY;
+
+
+ENTITY surface_style_reflectance_ambient_diffuse
+	SUBTYPE OF (surface_style_reflectance_ambient);
+	diffuse_reflectance : REAL;
+END_ENTITY;
+
+
+ENTITY surface_style_reflectance_ambient_diffuse_specular
+	SUBTYPE OF (surface_style_reflectance_ambient_diffuse);
+	specular_reflectance : REAL;
+	specular_exponent : REAL;
+	specular_colour : colour;
+END_ENTITY;
+
+
+ENTITY surface_style_rendering;
+	rendering_method : shading_surface_method;
+	surface_colour : colour;
+END_ENTITY;
+
+
+ENTITY surface_style_rendering_with_properties
+	SUBTYPE OF (surface_style_rendering);
+	properties : SET [1:2] OF rendering_properties_select;
+WHERE
+	WR1 : (HIINDEX(SELF.properties) = 1)
+                   XOR
+         (TYPEOF(SELF.properties[1]) <> TYPEOF(SELF.properties[2]));
+END_ENTITY;
+
+
+ENTITY surface_style_segmentation_curve
+	SUBTYPE OF (founded_item);
+	style_of_segmentation_curve : curve_or_render;
+END_ENTITY;
+
+
+ENTITY surface_style_silhouette
+	SUBTYPE OF (founded_item);
+	style_of_silhouette : curve_or_render;
+END_ENTITY;
+
+
+ENTITY surface_style_transparent;
+	transparency : REAL;
+WHERE
+	WR1 : {0.0 <= transparency <= 1.0};
+END_ENTITY;
+
+
+ENTITY surface_style_usage
+	SUBTYPE OF (founded_item);
+	side : surface_side;
+	style : surface_side_style_select;
+END_ENTITY;
+
+
+ENTITY surface_texture_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : SIZEOF ( QUERY ( i <* SELF.items | SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MEASURE_REPRESENTATION_ITEM' ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'VALUE_RANGE' , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DESCRIPTIVE_REPRESENTATION_ITEM']* TYPEOF ( i ) ) <>1 ) )
+        =0;
+	WR2 : ( SIZEOF ( QUERY ( i <* SELF.items | 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF ( i ) ) ) =1 )
+        AND ( SIZEOF ( QUERY ( i <* SELF.items | (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'DESCRIPTIVE_REPRESENTATION_ITEM' IN
+        TYPEOF ( i ) ) AND ( i.name = 'measuring method' ) ) ) =1 );
+	WR3 : SIZEOF ( QUERY ( i <* SELF.items | SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MEASURE_REPRESENTATION_ITEM' ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'VALUE_RANGE']* TYPEOF ( i ) ) =1 ) )
+        >0;
+	WR4 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'REPRESENTATION_RELATIONSHIP.'+
+        'REP_1' ) ) <=1 ) AND ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'REPRESENTATION_RELATIONSHIP.'+
+        'REP_2' ) ) =0 ) AND ( SIZEOF ( QUERY ( rr <* USEDIN ( SELF
+        , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'REPRESENTATION_RELATIONSHIP.'+
+        'REP_1' ) | rr. rep_2.name = 'measuring direction' ) ) =
+        SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'REPRESENTATION_RELATIONSHIP.'+
+        'REP_1' ) ) );
+	WR5 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) ) =1 ) AND ( SIZEOF ( QUERY ( pdr
+        <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | SIZEOF ( QUERY ( gpa <* USEDIN (
+        pdr. definition ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'GENERAL_PROPERTY_ASSOCIATION.'+
+        'DERIVED_DEFINITION' ) | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'GENERAL_PROPERTY' IN TYPEOF ( gpa. base_definition ) ) AND
+        ( gpa. base_definition.name ='surface_condition' ) ) ) =1 )
+        ) =1 );
+END_ENTITY;
+
+
+ENTITY surfaced_open_shell
+	SUBTYPE OF (open_shell);
+WHERE
+	WR1 : SIZEOF(QUERY(q <* SELF\connected_face_set.cfs_faces |
+         NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_SURFACE' IN TYPEOF(q)))) = 0;
+END_ENTITY;
+
+
+ENTITY swept_area_solid
+	SUPERTYPE OF (ONEOF (revolved_area_solid, extruded_area_solid, surface_curve_swept_area_solid))
+	SUBTYPE OF (solid_model);
+	swept_area : curve_bounded_surface;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN TYPEOF(swept_area.basis_surface);
+END_ENTITY;
+
+
+ENTITY swept_disk_solid
+	SUBTYPE OF (solid_model);
+	directrix : curve;
+	radius : positive_length_measure;
+	inner_radius : OPTIONAL positive_length_measure;
+	start_param : REAL;
+	end_param : REAL;
+WHERE
+	WR1 : directrix.dim = 3;
+	WR2 : (NOT EXISTS(inner_radius)) OR (radius > inner_radius);
+END_ENTITY;
+
+
+ENTITY swept_face_solid
+	SUPERTYPE OF (ONEOF (extruded_face_solid, revolved_face_solid))
+	SUBTYPE OF (solid_model);
+	swept_face : face_surface;
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE' IN TYPEOF(swept_face.face_geometry);
+END_ENTITY;
+
+
+ENTITY swept_surface
+	SUPERTYPE OF (ONEOF (surface_of_linear_extrusion, surface_of_revolution))
+	SUBTYPE OF (surface);
+	swept_curve : curve;
+END_ENTITY;
+
+
+ENTITY symbol
+	SUBTYPE OF (representation_item);
+END_ENTITY;
+
+
+ENTITY symbol_colour;
+	colour_of_symbol : colour;
+END_ENTITY;
+
+
+ENTITY symbol_representation
+	SUBTYPE OF (representation);
+END_ENTITY;
+
+
+ENTITY symbol_representation_map
+	SUBTYPE OF (representation_map);
+	SELF\representation_map.mapped_representation : symbol_representation;
+	SELF\representation_map.mapping_origin : axis2_placement;
+END_ENTITY;
+
+
+ENTITY symbol_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	style_of_symbol : symbol_style_select;
+END_ENTITY;
+
+
+ENTITY symbol_target
+	SUBTYPE OF (geometric_representation_item);
+	placement : axis2_placement;
+	x_scale : positive_ratio_measure;
+	y_scale : positive_ratio_measure;
+END_ENTITY;
+
+
+ENTITY symmetric_shape_aspect
+	SUBTYPE OF (shape_aspect);
+INVERSE
+	basis_relationships: SET [1:?] OF shape_aspect_relationship FOR relating_shape_aspect;
+WHERE
+	WR1 : SIZEOF (QUERY (x<*SELF\symmetric_shape_aspect.basis_relationships |
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CENTRE_OF_SYMMETRY' IN TYPEOF 
+       (x\shape_aspect_relationship.related_shape_aspect)))>=1;
+END_ENTITY;
+
+
+ENTITY symmetry_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 3;
+END_ENTITY;
+
+
+ENTITY table_representation_item
+	SUBTYPE OF (compound_representation_item);
+WHERE
+	WR1 : SIZEOF(QUERY(itet <* SELF\compound_representation_item.item_element |
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ROW_REPRESENTATION_ITEM' IN TYPEOF(itet))
+            )) = 0;
+END_ENTITY;
+
+
+ENTITY tactile_appearance_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : SIZEOF ( QUERY ( i <* SELF.items | SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MEASURE_REPRESENTATION_ITEM' ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'VALUE_RANGE']* TYPEOF ( i ) ) <>1 )) =0;
+	WR2 : SIZEOF ( QUERY ( i <* SELF.items | name ='depth' ) ) <=1;
+	WR3 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) ) =1 ) AND ( SIZEOF ( QUERY ( pdr
+        <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | SIZEOF ( QUERY ( gpa <* USEDIN (
+        pdr. definition ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'GENERAL_PROPERTY_ASSOCIATION.'+
+        'DERIVED_DEFINITION' ) | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'GENERAL_PROPERTY' IN TYPEOF ( gpa. base_definition ) ) AND
+        ( gpa. base_definition.name ='surface_condition' ) ) ) =1 )) =1 );
+END_ENTITY;
+
+
+ENTITY tagged_text_format
+	SUBTYPE OF (representation_context);
+END_ENTITY;
+
+
+ENTITY tagged_text_item
+	SUBTYPE OF (descriptive_representation_item);
+END_ENTITY;
+
+
+ENTITY tangent
+	SUBTYPE OF (derived_shape_aspect);
+WHERE
+	WR1 : SIZEOF (SELF\derived_shape_aspect.deriving_relationships)= 1;
+END_ENTITY;
+
+
+ENTITY terminator_symbol
+	SUBTYPE OF (annotation_symbol_occurrence);
+	annotated_curve : annotation_curve_occurrence;
+END_ENTITY;
+
+
+ENTITY text_font;
+	id : identifier;
+	name : label;
+	description : text;
+INVERSE
+	glyphs: SET [1:?] OF character_glyph_font_usage FOR font;
+END_ENTITY;
+
+
+ENTITY text_font_family;
+	id : identifier;
+	name : label;
+	description : text;
+INVERSE
+	fonts: SET [1:?] OF text_font_in_family FOR family;
+END_ENTITY;
+
+
+ENTITY text_font_in_family;
+	font : text_font;
+	family : text_font_family;
+END_ENTITY;
+
+
+ENTITY text_literal
+	SUBTYPE OF (geometric_representation_item);
+	literal : presentable_text;
+	placement : axis2_placement;
+	alignment : text_alignment;
+	path : text_path;
+	font : font_select;
+END_ENTITY;
+
+
+ENTITY text_literal_with_associated_curves
+	SUBTYPE OF (text_literal);
+	associated_curves : SET [1:?] OF curve;
+END_ENTITY;
+
+
+ENTITY text_literal_with_blanking_box
+	SUBTYPE OF (text_literal);
+	blanking : planar_box;
+END_ENTITY;
+
+
+ENTITY text_literal_with_delineation
+	SUBTYPE OF (text_literal);
+	delineation : text_delineation;
+END_ENTITY;
+
+
+ENTITY text_literal_with_extent
+	SUBTYPE OF (text_literal);
+	extent : planar_extent;
+END_ENTITY;
+
+
+ENTITY text_string_representation
+	SUBTYPE OF (representation);
+	SELF\representation.items : SET [1:?] OF text_string_representation_item;
+WHERE
+	WR1 : SIZEOF (
+         QUERY (item <* SELF\representation.items |
+           NOT (SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT_CHARACTER',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEFINED_CHARACTER_GLYPH',
+                         'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'] *
+                 TYPEOF (item)) = 0)
+         )) >= 1;
+	WR2 : SIZEOF (
+         QUERY (a2p <* 
+           QUERY (item <* SELF\representation.items | 
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AXIS2_PLACEMENT' IN TYPEOF (item)) |
+           NOT ((SIZEOF (
+             QUERY (at <* 
+               QUERY (item <* SELF\representation.items | 
+                  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+                  'ANNOTATION_TEXT' IN TYPEOF (item)) | 
+               (at\mapped_item.mapping_target :=: a2p))) >= 1) OR
+           (SIZEOF (
+             QUERY (atc <* 
+               QUERY (item <* SELF\representation.items |
+                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 
+                 'ANNOTATION_TEXT_CHARACTER' IN TYPEOF (item)) | 
+               (atc\mapped_item.mapping_target :=: a2p))) >= 1)
+          ))) = 0;
+END_ENTITY;
+
+
+ENTITY text_style
+	SUBTYPE OF (founded_item);
+	name : label;
+	character_appearance : character_style_select;
+END_ENTITY;
+
+
+ENTITY text_style_for_defined_font;
+	text_colour : colour;
+END_ENTITY;
+
+
+ENTITY text_style_with_box_characteristics
+	SUBTYPE OF (text_style);
+	characteristics : SET [1:4] OF box_characteristic_select;
+WHERE
+	WR1 : SIZEOF( QUERY( c1 <* SELF.characteristics |
+           SIZEOF( QUERY( c2 <* SELF.characteristics - c1 |
+           TYPEOF (c1) = TYPEOF (c2)
+           )) > 0
+           )) = 0;
+END_ENTITY;
+
+
+ENTITY text_style_with_mirror
+	SUBTYPE OF (text_style);
+	mirror_placement : axis2_placement;
+END_ENTITY;
+
+
+ENTITY text_style_with_spacing
+	SUBTYPE OF (text_style);
+	character_spacing : character_spacing_select;
+END_ENTITY;
+
+
+ENTITY thermal_resistance_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.THERMAL_RESISTANCE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY thermal_resistance_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = 
+        dimensional_exponents ( -1.0, -1.0, -3.0, 0.0, 1.0, 0.0, 0.0 );
+END_ENTITY;
+
+
+ENTITY thermodynamic_temperature_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.THERMODYNAMIC_TEMPERATURE_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY thermodynamic_temperature_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 0.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 1.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY thickened_face_solid
+	SUBTYPE OF (solid_model);
+	base_element : generalized_surface_select;
+	offset1 : length_measure;
+	offset2 : length_measure;
+WHERE
+	WR1 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN TYPEOF(base_element)) AND
+    (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_SURFACE' IN TYPEOF(base_element))));
+	WR2 : offset1 <> offset2;
+END_ENTITY;
+
+
+ENTITY thickness_laminate_definition
+	SUBTYPE OF (product_definition);
+WHERE
+	WR1 : SIZEOF (QUERY (pdr <* USEDIN (SELF, 
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'PRODUCT_DEFINITION_RELATIONSHIP.' +
+                             'RELATING_PRODUCT_DEFINITION') |
+                             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                             'NEXT_ASSEMBLY_USAGE_OCCURRENCE' IN
+                             TYPEOF (pdr))) = 1;
+END_ENTITY;
+
+
+ENTITY thickness_laminate_table
+	SUBTYPE OF (zone_structural_makeup);
+END_ENTITY;
+
+
+ENTITY time_interval;
+	id : identifier;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY time_interval_assignment
+	ABSTRACT SUPERTYPE;
+	assigned_time_interval : time_interval;
+	role : time_interval_role;
+END_ENTITY;
+
+
+ENTITY time_interval_based_effectivity
+	SUBTYPE OF (effectivity);
+	effectivity_period : time_interval;
+END_ENTITY;
+
+
+ENTITY time_interval_relationship;
+	name : label;
+	description : OPTIONAL text;
+	relating_time_interval : time_interval;
+	related_time_interval : time_interval;
+END_ENTITY;
+
+
+ENTITY time_interval_role;
+	name : label;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY time_interval_with_bounds
+	SUBTYPE OF (time_interval);
+	primary_bound : OPTIONAL date_time_or_event_occurrence;
+	secondary_bound : OPTIONAL date_time_or_event_occurrence;
+	duration : OPTIONAL time_measure_with_unit;
+WHERE
+	WR1 : NOT (EXISTS(secondary_bound) AND EXISTS(duration));
+	WR2 : EXISTS(primary_bound) OR EXISTS(secondary_bound);
+END_ENTITY;
+
+
+ENTITY time_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TIME_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY time_unit
+	SUBTYPE OF (named_unit);
+WHERE
+	WR1 : (SELF\named_unit.dimensions.length_exponent = 0.0) AND (SELF\named_unit.dimensions.mass_exponent = 0.0) AND (SELF\named_unit.dimensions.time_exponent = 1.0) AND (SELF\named_unit.dimensions.electric_current_exponent = 0.0) AND (SELF\named_unit.dimensions.thermodynamic_temperature_exponent = 0.0) AND (SELF\named_unit.dimensions.amount_of_substance_exponent = 0.0) AND (SELF\named_unit.dimensions.luminous_intensity_exponent = 0.0);
+END_ENTITY;
+
+
+ENTITY tolerance_value;
+	lower_bound : measure_with_unit;
+	upper_bound : measure_with_unit;
+DERIVE
+	lbvc : REAL := lower_bound\measure_with_unit.value_component;
+	ubvc : REAL := upper_bound\measure_with_unit.value_component;
+WHERE
+	WR1 : ubvc > lbvc;
+	WR2 : upper_bound\measure_with_unit.unit_component =
+        lower_bound\measure_with_unit.unit_component;
+END_ENTITY;
+
+
+ENTITY tolerance_zone
+	SUBTYPE OF (shape_aspect);
+	defining_tolerance : SET [1:?] OF geometric_tolerance;
+	form : tolerance_zone_form;
+END_ENTITY;
+
+
+ENTITY tolerance_zone_definition
+	SUPERTYPE OF (ONEOF (projected_zone_definition, runout_zone_definition));
+	zone : tolerance_zone;
+	boundaries : SET [1:?] OF shape_aspect;
+END_ENTITY;
+
+
+ENTITY tolerance_zone_form;
+	name : label;
+END_ENTITY;
+
+
+ENTITY topological_representation_item
+	SUPERTYPE OF (ONEOF (vertex, edge, face_bound, face, vertex_shell, wire_shell, connected_edge_set, connected_face_set, (loop ANDOR path)))
+	SUBTYPE OF (representation_item);
+END_ENTITY;
+
+
+ENTITY toroidal_surface
+	SUBTYPE OF (elementary_surface);
+	major_radius : positive_length_measure;
+	minor_radius : positive_length_measure;
+END_ENTITY;
+
+
+ENTITY torus
+	SUBTYPE OF (geometric_representation_item);
+	position : axis1_placement;
+	major_radius : positive_length_measure;
+	minor_radius : positive_length_measure;
+WHERE
+	WR1 : major_radius > minor_radius;
+END_ENTITY;
+
+
+ENTITY total_runout_tolerance
+	SUBTYPE OF (geometric_tolerance_with_datum_reference);
+WHERE
+	WR1 : SIZEOF (SELF\geometric_tolerance_with_datum_reference.datum_system) <= 2;
+END_ENTITY;
+
+
+ENTITY track_blended_solid
+	ABSTRACT SUPERTYPE OF (track_blended_solid_with_end_conditions)
+	SUBTYPE OF (edge_blended_solid);
+WHERE
+	WR1 : check_continuous_edges(SELF\edge_blended_solid.blended_edges);
+END_ENTITY;
+
+
+ENTITY track_blended_solid_with_end_conditions
+	SUBTYPE OF (track_blended_solid);
+	end_conditions : LIST [2:2] OF blend_end_condition_select;
+WHERE
+	WR1 : SIZEOF(TYPEOF(SELF) *
+    ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_CONSTANT_RADIUS_EDGE_BLEND',
+     'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_VARIABLE_RADIUS_EDGE_BLEND',
+     'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_WITH_CHAMFERED_EDGES']) = 1;
+	WR2 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX' IN TYPEOF(end_conditions[1]))
+       AND ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX' IN TYPEOF(end_conditions[2])));
+	WR3 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX' IN TYPEOF(end_conditions[1]))
+       AND (NOT ((end_conditions[1] 
+            :=: SELF\edge_blended_solid.blended_edges[1].edge_start)
+            XOR (end_conditions[1] 
+            :=: SELF\edge_blended_solid.blended_edges[1].edge_end))));
+	WR4 : NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX' IN TYPEOF(end_conditions[2]))
+       AND (NOT ((end_conditions[2] 
+            :=: SELF\edge_blended_solid.blended_edges[HIINDEX(
+                SELF\edge_blended_solid.blended_edges)].edge_start)
+            XOR (end_conditions[2] 
+            :=: SELF\edge_blended_solid.blended_edges[HIINDEX(
+                SELF\edge_blended_solid.blended_edges)].edge_end))));
+END_ENTITY;
+
+
+ENTITY transformation_with_derived_angle
+	SUPERTYPE OF (ONEOF (draped_defined_transformation, laid_defined_transformation))
+	SUBTYPE OF (item_defined_transformation);
+	SELF\item_defined_transformation.transform_item_1 : angle_direction_reference_with_a2p3d_select;
+	SELF\item_defined_transformation.transform_item_2 : axis2_placement_3d;
+DERIVE
+	orientation_angle : plane_angle_measure := derive_angle (
+        SELF\item_defined_transformation.transform_item_1,
+        SELF\item_defined_transformation.transform_item_2);
+WHERE
+	WR1 : (SELF\item_defined_transformation.transform_item_1\
+            axis2_placement_3d.p[3].direction_ratios[1] =
+            SELF\item_defined_transformation.transform_item_2\
+            axis2_placement_3d.p[3].direction_ratios[1])
+          AND
+           (SELF\item_defined_transformation.transform_item_1\
+            axis2_placement_3d.p[3].direction_ratios[2] =
+            SELF\item_defined_transformation.transform_item_2\
+            axis2_placement_3d.p[3].direction_ratios[2])
+          AND
+           (SELF\item_defined_transformation.transform_item_1\
+            axis2_placement_3d.p[3].direction_ratios[3] =
+            SELF\item_defined_transformation.transform_item_2\
+            axis2_placement_3d.p[3].direction_ratios[3]);
+END_ENTITY;
+
+
+ENTITY trimmed_curve
+	SUBTYPE OF (bounded_curve);
+	basis_curve : curve;
+	trim_1 : SET [1:2] OF trimming_select;
+	trim_2 : SET [1:2] OF trimming_select;
+	sense_agreement : BOOLEAN;
+	master_representation : trimming_preference;
+WHERE
+	WR1 : (HIINDEX(trim_1) = 1) OR (TYPEOF(trim_1[1]) <> TYPEOF(trim_1[2]));
+	WR2 : (HIINDEX(trim_2) = 1) OR (TYPEOF(trim_2[1]) <> TYPEOF(trim_2[2]));
+END_ENTITY;
+
+
+ENTITY two_direction_repeat_factor
+	SUBTYPE OF (one_direction_repeat_factor);
+	second_repeat_factor : vector;
+END_ENTITY;
+
+
+ENTITY type_qualifier;
+	name : label;
+END_ENTITY;
+
+
+ENTITY unary_generic_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (generic_expression);
+	operand : generic_expression;
+END_ENTITY;
+
+
+ENTITY unary_numeric_expression
+	ABSTRACT SUPERTYPE
+	SUBTYPE OF (numeric_expression, unary_generic_expression);
+	SELF\unary_generic_expression.operand : numeric_expression;
+END_ENTITY;
+
+
+ENTITY uncertainty_assigned_representation
+	SUBTYPE OF (representation);
+	uncertainty : SET [1:?] OF uncertainty_measure_with_unit;
+END_ENTITY;
+
+
+ENTITY uncertainty_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+	name : label;
+	description : OPTIONAL text;
+WHERE
+	WR1 : valid_measure_value (SELF\measure_with_unit.value_component);
+END_ENTITY;
+
+
+ENTITY uncertainty_qualifier
+	SUPERTYPE OF (ONEOF (standard_uncertainty, qualitative_uncertainty));
+	measure_name : label;
+	description : text;
+END_ENTITY;
+
+
+ENTITY uniform_curve
+	SUBTYPE OF (b_spline_curve);
+END_ENTITY;
+
+
+ENTITY uniform_resource_identifier
+	SUBTYPE OF (descriptive_representation_item);
+END_ENTITY;
+
+
+ENTITY uniform_surface
+	SUBTYPE OF (b_spline_surface);
+END_ENTITY;
+
+
+ENTITY usage_association
+	SUBTYPE OF (action_method_relationship);
+	SELF\action_method_relationship.related_method : information_usage_right;
+	SELF\action_method_relationship.relating_method : information_usage_right;
+DERIVE
+	related : information_usage_right := SELF\action_method_relationship.related_method;
+	relating : information_usage_right := SELF\action_method_relationship.relating_method;
+END_ENTITY;
+
+
+ENTITY user_defined_curve_font
+	SUBTYPE OF (curve_style_font, mapped_item);
+END_ENTITY;
+
+
+ENTITY user_defined_marker
+	SUBTYPE OF (mapped_item, pre_defined_marker);
+END_ENTITY;
+
+
+ENTITY user_defined_terminator_symbol
+	SUBTYPE OF (mapped_item, pre_defined_symbol);
+END_ENTITY;
+
+
+ENTITY user_selected_elements
+	SUBTYPE OF (representation_item);
+	picked_items : SET [1:?] OF representation_item;
+END_ENTITY;
+
+
+ENTITY user_selected_shape_elements
+	SUBTYPE OF (user_selected_elements);
+WHERE
+	WR1 : SIZEOF(QUERY(q <* 
+    SELF\user_selected_elements.picked_items | NOT
+    ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION_ITEM'
+    IN TYPEOF(q)))) = 0;
+END_ENTITY;
+
+
+ENTITY value_range
+	SUBTYPE OF (compound_representation_item);
+WHERE
+	WR1 : ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'SET_REPRESENTATION_ITEM' IN TYPEOF ( item_element ) ) AND value_range_wr1 ( item_element );
+	WR2 : value_range_wr2 ( item_element );
+	WR3 : value_range_wr3 ( item_element );
+END_ENTITY;
+
+
+ENTITY value_representation_item
+	SUBTYPE OF (representation_item);
+	value_component : measure_value;
+WHERE
+	WR1 : SIZEOF (QUERY (rep <* using_representations (SELF) |
+        NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.GLOBAL_UNIT_ASSIGNED_CONTEXT'
+        IN TYPEOF (rep.context_of_items)
+        ))) = 0;
+END_ENTITY;
+
+
+ENTITY variable_semantics
+	ABSTRACT SUPERTYPE;
+END_ENTITY;
+
+
+ENTITY variational_representation_item
+	ABSTRACT SUPERTYPE OF (auxiliary_geometric_representation_item)
+	SUBTYPE OF (representation_item);
+WHERE
+	WR1 : SIZEOF(QUERY(q <* using_representations(SELF) |
+    NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VARIATIONAL_REPRESENTATION'  
+    IN TYPEOF(q)))) = 0;
+	WR2 : SIZEOF(QUERY(q <* using_representations(SELF) |
+    NOT (SELF IN q.items))) = 0;
+END_ENTITY;
+
+
+ENTITY vector
+	SUBTYPE OF (geometric_representation_item);
+	orientation : direction;
+	magnitude : length_measure;
+WHERE
+	WR1 : magnitude >= 0.0;
+END_ENTITY;
+
+
+ENTITY vector_style
+	SUBTYPE OF (curve_style, pre_defined_terminator_symbol);
+END_ENTITY;
+
+
+ENTITY velocity_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VELOCITY_UNIT' IN TYPEOF (SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY velocity_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = 
+       dimensional_exponents ( 1.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0 );
+END_ENTITY;
+
+
+ENTITY versioned_action_request;
+	id : identifier;
+	version : label;
+	purpose : text;
+	description : OPTIONAL text;
+END_ENTITY;
+
+
+ENTITY vertex
+	SUBTYPE OF (topological_representation_item);
+END_ENTITY;
+
+
+ENTITY vertex_loop
+	SUBTYPE OF (loop);
+	loop_vertex : vertex;
+END_ENTITY;
+
+
+ENTITY vertex_point
+	SUBTYPE OF (vertex, geometric_representation_item);
+	vertex_geometry : point;
+END_ENTITY;
+
+
+ENTITY vertex_shell
+	SUBTYPE OF (topological_representation_item);
+	vertex_shell_extent : vertex_loop;
+END_ENTITY;
+
+
+ENTITY view_volume
+	SUBTYPE OF (founded_item);
+	projection_type : central_or_parallel;
+	projection_point : cartesian_point;
+	view_plane_distance : length_measure;
+	front_plane_distance : length_measure;
+	front_plane_clipping : BOOLEAN;
+	back_plane_distance : length_measure;
+	back_plane_clipping : BOOLEAN;
+	view_volume_sides_clipping : BOOLEAN;
+	view_window : planar_box;
+END_ENTITY;
+
+
+ENTITY visual_appearance_representation
+	SUBTYPE OF (representation);
+WHERE
+	WR1 : ( {3<= SIZEOF ( SELF.items ) <=9} ) AND ( SIZEOF ( QUERY (
+        i <* items | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF ( i ) ) AND (
+        i.name IN [ 'colour id' , 'colour name' , 'lustre' , 'pattern' , 'transparency', 'orientation'] ) ) 
+        ) + SIZEOF ( QUERY ( i <* items | ( SIZEOF (
+        ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'MEASURE_REPRESENTATION_ITEM' ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'VALUE_RANGE']* TYPEOF ( i ) ) =1 )							
+        AND ( i.name IN ['refraction index' , 'opacity'] ) ) 
+        ) + SIZEOF ( QUERY ( i <* items | ( 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'DOCUMENT_FILE' IN TYPEOF ( i ) ) 
+        AND ( i.name IN [ 'texture map' ] ) )	)
+        = SIZEOF ( SELF.items ) );
+	WR2 : SIZEOF ( QUERY ( i <* SELF.items | i.name = 'colour id' )) =1;
+	WR3 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='lustre' ) )=1;
+	WR4 : SIZEOF ( QUERY ( i <* SELF.items | i.name = 'colour name') ) <=1;
+	WR5 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='pattern' ) )<=1;
+	WR6 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='transparency') ) <=1;
+	WR7 : SIZEOF ( QUERY ( i <* SELF.items | i.name = 'texture map') ) <=1;
+	WR8 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='refraction index' ) )<=1;
+	WR9 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='opacity') ) <=1;
+	WR10 : SIZEOF ( QUERY ( i <* SELF.items | i.name ='orientation') ) <=1;
+	WR11 : ( SIZEOF ( USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) ) =1 ) AND ( SIZEOF ( QUERY ( pdr
+        <* USEDIN ( SELF ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'PROPERTY_DEFINITION_REPRESENTATION.'+
+        'USED_REPRESENTATION' ) | SIZEOF ( QUERY ( gpa <* USEDIN (
+        pdr. definition ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+'GENERAL_PROPERTY_ASSOCIATION.'+
+        'DERIVED_DEFINITION' ) | ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+
+        'GENERAL_PROPERTY' IN TYPEOF ( gpa. base_definition ) ) AND
+        ( gpa. base_definition.name ='surface_condition' ) ) ) =1 )) =1 );
+END_ENTITY;
+
+
+ENTITY volume_measure_with_unit
+	SUBTYPE OF (measure_with_unit);
+WHERE
+	WR1 : 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VOLUME_UNIT' IN TYPEOF(SELF\measure_with_unit.unit_component);
+END_ENTITY;
+
+
+ENTITY volume_unit
+	SUBTYPE OF (derived_unit);
+WHERE
+	WR1 : derive_dimensional_exponents(SELF) = 
+          dimensional_exponents ( 3.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 );
+END_ENTITY;
+
+
+ENTITY week_of_year_and_day_date
+	SUBTYPE OF (date);
+	week_component : week_in_year_number;
+	day_component : OPTIONAL day_in_week_number;
+END_ENTITY;
+
+
+ENTITY wire_shell
+	SUBTYPE OF (topological_representation_item);
+	wire_shell_extent : SET [1:?] OF loop;
+WHERE
+	WR1 : NOT mixed_loop_type_set(wire_shell_extent);
+END_ENTITY;
+
+
+ENTITY year_month
+	SUBTYPE OF (date);
+	month_component : month_in_year_number;
+END_ENTITY;
+
+
+ENTITY zone_structural_makeup
+	SUPERTYPE OF (ONEOF ((smeared_material_definition AND thickness_laminate_table), (smeared_material_definition AND percentage_laminate_table), thickness_laminate_table, percentage_laminate_table, smeared_material_definition))
+	SUBTYPE OF (laminate_table);
+END_ENTITY;
+
+
+RULE alternative_solution_requires_solution_definition FOR (product_definition_formation);
+    LOCAL
+      solution_versions: SET OF product_definition_formation := [];
+    END_LOCAL;
+    solution_versions :=  QUERY( pdf <* product_definition_formation |
+	  SIZEOF( QUERY( prpc <* USEDIN(pdf.of_product, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | 
+      prpc.name = 'alternative solution')) = 1);
+WHERE
+	WR1 : SIZEOF( QUERY( pdf <* solution_versions |
+        SIZEOF( QUERY( pd <* USEDIN(pdf, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_DEFINITION.FORMATION') | 
+        pd.frame_of_reference.name = 'alternative definition')) <> 1))= 0;
+END_RULE;
+
+RULE application_protocol_definition_required FOR (application_context);
+
+WHERE
+	WR1 : SIZEOF( QUERY( ac <* application_context | 
+              (SIZEOF (QUERY (apd <* USEDIN(ac,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.APPLICATION_PROTOCOL_DEFINITION.APPLICATION') | 
+                apd.application_interpreted_model_schema_name = 'ap203_configuration_controlled_3d_design_of_mechanical_parts_and_assemblies' 
+                )) > 0) 
+              )) > 0;
+END_RULE;
+
+RULE breakdown_element_requires_product_definition FOR (product_definition_formation);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdf <* product_definition_formation | 
+        ( SIZEOF ( QUERY ( prpc <* USEDIN ( pdf.of_product ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS' ) | 
+	    prpc.name =  'functionality' ) ) =  1 ) AND 
+	    ( SIZEOF ( QUERY ( pd <* USEDIN ( pdf ,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION.FORMATION') | 
+	    pd.frame_of_reference.name =  'functional definition' ) ) <1 ) ) ) =  0;
+	WR2 : SIZEOF ( QUERY ( pdf <* product_definition_formation | 
+        ( SIZEOF ( QUERY ( prpc <* USEDIN ( pdf.of_product , 
+	    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS' ) | 
+        prpc.name =  'conceptual design' ) ) =  1 ) AND 
+        ( SIZEOF (QUERY ( pd <* USEDIN ( pdf , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION.FORMATION' ) | 
+        pd.frame_of_reference.name =  'conceptual definition' ) ) <1) ) ) =  0;
+END_RULE;
+
+RULE compatible_dimension FOR (cartesian_point, direction, representation_context, geometric_representation_context);
+
+WHERE
+	WR1 : SIZEOF(QUERY(x <* cartesian_point| SIZEOF(QUERY
+       (y <* geometric_representation_context | item_in_context(x,y) AND
+       (HIINDEX(x.coordinates) <> y.coordinate_space_dimension))) > 0 )) =0;
+	WR2 : SIZEOF(QUERY(x <* direction | SIZEOF( QUERY
+       (y <* geometric_representation_context | item_in_context(x,y) AND
+       (HIINDEX(x.direction_ratios) <> y.coordinate_space_dimension)))
+       > 0 )) = 0;
+END_RULE;
+
+RULE component_class_for_assembly_select FOR (composite_assembly_sequence_definition, next_assembly_usage_occurrence, product_related_product_category);
+    LOCAL
+      i,j,k :  INTEGER :=0;
+      dkuhr :  LOGICAL :=TRUE;
+      nnauo :  INTEGER :=0;
+      nprpc :  INTEGER :=0;
+      rp    :  product;
+    END_LOCAL;
+    REPEAT i:= LOINDEX (composite_assembly_sequence_definition) TO
+               HIINDEX (composite_assembly_sequence_definition);
+      nnauo := 0;  
+      REPEAT j:= LOINDEX (next_assembly_usage_occurrence) TO
+                 HIINDEX (next_assembly_usage_occurrence);
+        IF (composite_assembly_sequence_definition[i] = 
+          next_assembly_usage_occurrence[j].relating_product_definition) THEN
+          rp := next_assembly_usage_occurrence[j].related_product_definition.
+                formation.of_product;
+          nprpc := 0;
+          REPEAT k:= LOINDEX (product_related_product_category) TO
+                     HIINDEX (product_related_product_category);
+            IF ((rp IN product_related_product_category[k].products) AND
+                (product_related_product_category[k].name IN ['ply',
+                 'ply laminate', 'filament laminate', 'processed core',
+                 'composite assembly'])) THEN
+                nprpc := nprpc + 1;
+            END_IF;
+          END_REPEAT;
+          IF (nprpc = 1) THEN
+            nnauo := nnauo + 1;
+          ELSE
+            dkuhr := FALSE;
+            ESCAPE;
+          END_IF;
+        END_IF;
+      END_REPEAT;
+      IF (dkuhr = FALSE) THEN
+        ESCAPE; 
+      END_IF;
+      IF(nnauo = 0) THEN
+        dkuhr := FALSE;
+        ESCAPE;
+      END_IF;
+    END_REPEAT;
+WHERE
+	WR1 : dkuhr;
+END_RULE;
+
+RULE consistent_uncertainty FOR (global_uncertainty_assigned_context, qualified_representation_item, uncertainty_assigned_representation);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( guac <* global_uncertainty_assigned_context | 
+    SIZEOF ( QUERY ( u1 <* guac.uncertainty | 
+	SIZEOF ( QUERY ( u2 <* guac.uncertainty | u2.name =  u1.name ) ) >1 ) ) >0 ) ) =  0;
+	WR2 : SIZEOF ( QUERY ( uar <* uncertainty_assigned_representation | 
+	SIZEOF ( QUERY ( u1<* uar.uncertainty | 
+	SIZEOF ( QUERY ( u2 <* uar.uncertainty | u2.name =  u1.name ) ) >1 ) ) >0 ) ) =  0;
+	WR3 : SIZEOF ( QUERY ( qri <* qualified_representation_item |
+     SIZEOF ( QUERY ( u1 <* qri.qualifiers |
+     ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.UNCERTAINTY_QUALIFIER' IN TYPEOF ( u1 ) ) AND 
+	( SIZEOF ( QUERY ( u2 <* qri.qualifiers |
+     ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.UNCERTAINTY_QUALIFIER' IN TYPEOF ( u2 ) ) AND 
+	( u2\uncertainty_qualifier.measure_name =  u1\uncertainty_qualifier.measure_name ) )
+     ) >1 ) ) ) >0 ) ) =  0;
+END_RULE;
+
+RULE constraint_definition_requires_constraint_category FOR (product_definition);
+    LOCAL
+      constraint_definitions: SET OF product_definition := [];
+    END_LOCAL;
+      constraint_definitions :=  QUERY( pd <* product_definition |
+      (pd.frame_of_reference.name = 'design constraint definition'));
+WHERE
+	WR1 : SIZEOF ( QUERY ( pd <* constraint_definitions | 
+	    ( SIZEOF ( QUERY ( prpc <* USEDIN ( pd.formation.of_product ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS' ) | 
+	    prpc. name ='requirement' ) ) =0 ) ) ) =0;
+END_RULE;
+
+RULE design_constraint_requires_product_definition FOR (product_definition_formation);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdf <* product_definition_formation | (
+        SIZEOF ( QUERY ( prpc <* USEDIN ( pdf.of_product ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS' ) | 
+	    prpc.name =  'requirement' ) ) >0 ) AND 
+        ( SIZEOF ( QUERY ( pd <* USEDIN ( pdf , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION.FORMATION') | 
+	    pd.frame_of_reference.name = 'design constraint definition' ) ) <1 ) ) ) =  0;
+END_RULE;
+
+RULE draughting_model_items_constraint FOR (draughting_model);
+
+WHERE
+	WR1 : SIZEOF(QUERY(dm <* draughting_model |
+        NOT(SIZEOF(QUERY(it1 <* dm\representation.items |
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_OCCURRENCE' IN TYPEOF(it1))
+        AND
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DRAUGHTING_ANNOTATION_OCCURRENCE' IN TYPEOF(it1)))
+          )) = 0)
+        )) = 0;
+	WR2 : SIZEOF(QUERY(dm <* draughting_model |
+        NOT(SIZEOF(QUERY(it1 <* dm\representation.items |
+        (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_CALLOUT' IN TYPEOF(it1))
+        AND
+        NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DRAUGHTING_ELEMENTS' IN TYPEOF(it1)))
+          )) = 0)
+        )) = 0;
+END_RULE;
+
+RULE external_version_assignments_are_valid FOR (applied_external_identification_assignment);
+
+WHERE
+	WR1 : SIZEOF(QUERY(aia <* applied_external_identification_assignment | 
+        NOT external_version_assignment_is_valid(aia)))=0;
+END_RULE;
+
+RULE material_for_coating_layer FOR (shape_aspect);
+    LOCAL
+      coating_layers: SET OF shape_aspect := [];
+    END_LOCAL;
+    coating_layers:= QUERY( r <* shape_aspect | 
+	  (r.name = 'coating layer') );
+WHERE
+	WR1 : SIZEOF( QUERY( r <* coating_layers |
+	    SIZEOF(USEDIN(r , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MATERIAL_DESIGNATION.DEFINITIONS'))<>1
+        )) = 0;
+END_RULE;
+
+RULE plib_property_reference_requires_name_scope FOR (externally_defined_general_property);
+    LOCAL
+      known_sourced_properties : SET OF externally_defined_general_property;
+    END_LOCAL;
+      known_sourced_properties := QUERY( edc <* externally_defined_general_property | 
+	    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'KNOWN_SOURCE' IN TYPEOF(edc.source) );
+WHERE
+	WR1 : SIZEOF ( QUERY ( edgp <* known_sourced_properties | 
+        ( SIZEOF ( QUERY ( edir <* USEDIN ( edgp, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EXTERNALLY_DEFINED_ITEM_RELATIONSHIP.RELATING_ITEM' )| 
+        ( edir.name =  'name scope' ) AND 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EXTERNALLY_DEFINED_CLASS' IN  TYPEOF ( edir.related_item ) ) AND 
+        ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'KNOWN_SOURCE' IN TYPEOF ( edir.related_item.source ) ) ) ) <>1 ) ) ) =  0;
+END_RULE;
+
+RULE plib_property_reference_requires_version FOR (externally_defined_general_property);
+	LOCAL
+	  plib_properties : SET OF externally_defined_general_property := [];
+	END_LOCAL;
+	  plib_properties := QUERY ( edgp <* externally_defined_general_property | 
+		( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'KNOWN_SOURCE' IN TYPEOF ( edgp.source ) ) AND
+		( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'KNOWN_SOURCE' + '.NAME' = 'ISO 13584 library' ) );
+WHERE
+	WR1 : SIZEOF( QUERY( edgp <* plib_properties | 
+		(SIZEOF( QUERY( edir <* USEDIN(edgp, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'APPLIED_EXTERNAL_IDENTIFICATION_ASSIGNMENT.ITEMS') | 
+		(edir.role.name = 'version') )) <> 1) )) = 0;
+END_RULE;
+
+RULE ply_reference FOR (ply_laminate_sequence_definition, next_assembly_usage_occurrence, product_related_product_category);
+    LOCAL
+      i,j,k :  INTEGER;
+      dkuhr :  LOGICAL := TRUE;
+      nnauo :  INTEGER;
+      nprpc :  INTEGER := 0;
+      rp    :  product;
+    END_LOCAL;
+    REPEAT i:= LOINDEX (ply_laminate_sequence_definition) TO
+               HIINDEX (ply_laminate_sequence_definition);
+      nnauo := 0;  
+      REPEAT j:= LOINDEX (next_assembly_usage_occurrence) TO 
+                 HIINDEX (next_assembly_usage_occurrence);
+        IF (ply_laminate_sequence_definition[i] = 
+          next_assembly_usage_occurrence[j].relating_product_definition) THEN
+          rp := next_assembly_usage_occurrence[j].related_product_definition.
+                formation.of_product;
+          nprpc := 0;
+          REPEAT k:= LOINDEX (product_related_product_category) TO
+                     HIINDEX (product_related_product_category);
+            IF ((product_related_product_category[k].name = 'ply') AND
+                (rp IN product_related_product_category[k].products)) THEN
+                nprpc := nprpc + 1;
+            END_IF;
+          END_REPEAT;
+          IF (nprpc = 1) THEN
+            nnauo := nnauo + 1;
+          ELSE
+            dkuhr := FALSE;
+            ESCAPE;
+          END_IF;
+        END_IF;
+      END_REPEAT;
+      IF (dkuhr = FALSE) THEN
+        ESCAPE; 
+      END_IF;
+      IF(nnauo = 0) THEN
+        dkuhr := FALSE;
+        ESCAPE;
+      END_IF;
+    END_REPEAT;
+WHERE
+	WR1 : dkuhr;
+END_RULE;
+
+RULE ply_stock_material_select FOR (product_related_product_category, make_from_usage_option);
+  LOCAL
+    i,j,k,kp :  INTEGER;
+    dkuhr    :  LOGICAL;
+    nmfuo    :  INTEGER;
+    nprpc    :  INTEGER := 0;
+    rp       :  product;
+  END_LOCAL;
+
+  dkuhr := TRUE;
+  REPEAT kp:= LOINDEX (product_related_product_category) TO
+              HIINDEX (product_related_product_category);
+ 
+    IF (product_related_product_category[kp].name = 'ply') THEN
+    REPEAT i:= LOINDEX (product_related_product_category[kp].products) TO
+               HIINDEX (product_related_product_category[kp].products);
+
+      nmfuo := 0;  
+      REPEAT j:= LOINDEX (make_from_usage_option) TO 
+                 HIINDEX (make_from_usage_option);
+
+          rp := make_from_usage_option[j].related_product_definition.
+                formation.of_product;
+
+        IF (product_related_product_category[kp].products[i] = rp) THEN
+
+          REPEAT k:= LOINDEX (product_related_product_category) TO
+                     HIINDEX (product_related_product_category);
+
+            IF ((rp IN product_related_product_category[k].products) AND
+                (product_related_product_category[k].name IN 
+                 ['isotropic material', 'filament assembly', 
+                  'discontinuous fiber assembly'])) THEN
+                nprpc := nprpc + 1;
+            END_IF;
+
+          END_REPEAT;
+
+          IF (nprpc = 1) THEN
+            nmfuo := nmfuo + 1;
+          ELSE
+            dkuhr := FALSE;
+            ESCAPE;
+          END_IF;
+
+        END_IF;
+
+      END_REPEAT;
+
+      IF (dkuhr = FALSE) THEN
+        ESCAPE; 
+      END_IF;
+      IF(nmfuo <> 1) THEN
+        dkuhr := FALSE;
+        ESCAPE;
+      END_IF;
+
+    END_REPEAT;
+    END_IF;
+
+  END_REPEAT;
+WHERE
+	WR1 : dkuhr;
+END_RULE;
+
+RULE product_concept_feature_requires_category FOR (product_concept_feature);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pcf <* product_concept_feature |
+(SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'INCLUSION_PRODUCT_CONCEPT_FEATURE',
+'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONDITIONAL_CONCEPT_FEATURE'] * TYPEOF(pcf)) = 0) AND 
+(SIZEOF ( QUERY ( aga <* USEDIN ( pcf , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'APPLIED_GROUP_ASSIGNMENT.' + 'ITEMS' ) | 
+( aga.role.name = 'specification category member' ) AND 
+('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_CONCEPT_FEATURE_CATEGORY' IN TYPEOF ( aga.assigned_group )))) <>1 ) ) ) = 0;
+END_RULE;
+
+RULE product_definition_replacement_requires_effectivity_assignment FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF( QUERY( pdr <* product_definition_relationship | 
+        (pdr.name = 'definition replacement') AND 
+        (SIZEOF( USEDIN(pdr,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.APPLIED_EFFECTIVITY_ASSIGNMENT.ITEMS') ) = 0) ))
+        = 0;
+END_RULE;
+
+RULE restrict_alternative_definition FOR (product_definition);
+    LOCAL
+      solution_definitions: SET OF product_definition := [];
+    END_LOCAL;
+      solution_definitions :=  QUERY( pd <* product_definition |
+	 (pd.frame_of_reference.name = 'alternative definition'));
+WHERE
+	WR1 : SIZEOF ( QUERY ( pd <* solution_definitions | 
+	    ( SIZEOF ( QUERY ( pdr <* USEDIN ( pd ,
+	    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_DEFINITION_RELATIONSHIP.RELATED_PRODUCT_DEFINITION' ) | 
+	    pdr.name = 'solution alternative definition' ) ) <>1 ) ) ) = 0;
+	WR2 : SIZEOF ( QUERY ( pd <* solution_definitions | 
+	    NOT ( pd.name IN ['technical' , 'supplier' , 'technical supplier' , ''] ) ) ) = 0;
+	WR3 : SIZEOF ( QUERY ( pd <* solution_definitions | 
+	    ( pd.name IN ['supplier' , 'technical supplier'] ) AND (
+	    SIZEOF ( QUERY ( aoa <* USEDIN ( pd.formation ,
+	    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.APPLIED_ORGANIZATION_ASSIGNMENT.ITEMS' ) | 
+	    aoa.role.name = 'supplier' )) <>1 ) )) = 0;
+END_RULE;
+
+RULE restrict_assembly_category FOR (product_definition);
+    LOCAL
+      assembly_definitions: SET OF product_definition := [];
+    END_LOCAL;
+      assembly_definitions :=  QUERY( pd <* product_definition | 
+        SIZEOF( QUERY( pdca <* USEDIN( pd, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_CONTEXT_ASSOCIATION.DEFINITION') |
+        pdca.frame_of_reference.name= 'assembly definition')) > 0 );
+WHERE
+	WR1 : SIZEOF( QUERY( pd <* assembly_definitions | 
+          NOT ('assembly' IN categories_of_product(pd.formation.of_product)) ))= 0;
+END_RULE;
+
+RULE restrict_centre_of_mass_representation FOR (representation);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( r <* representation | 
+	( r.name ='centre of mass' ) AND 
+	( ( SIZEOF ( r.items ) <>1 ) OR 
+	(SIZEOF ( QUERY ( i <* r.items | 
+	( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'POINT' IN TYPEOF ( i ) ) AND 
+	( i.name = 'centre point' ) )) <>1 ) ) ) ) 
+	=0;
+END_RULE;
+
+RULE restrict_classification_assignments FOR (applied_classification_assignment);
+
+WHERE
+	WR1 : SIZEOF(QUERY(aia <* applied_classification_assignment | 
+		NOT class_assignment_is_valid(aia)))=0;
+END_RULE;
+
+RULE restrict_collection_category FOR (product_definition);
+    LOCAL
+      collection_definitions: SET OF product_definition := [];
+    END_LOCAL;
+      collection_definitions :=  QUERY( pd <* product_definition | 
+        SIZEOF( QUERY( pdca <* USEDIN( pd, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_DEFINITION_CONTEXT_ASSOCIATION.DEFINITION') |
+        pdca.frame_of_reference.name= 'collection definition')) > 0 );
+WHERE
+	WR1 : SIZEOF( QUERY( pd <* collection_definitions | 
+	    NOT ('collection' IN categories_of_product(pd.formation.of_product)) ))= 0;
+END_RULE;
+
+RULE restrict_concept_feature_operator FOR (concept_feature_operator);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( cfo <* concept_feature_operator | NOT
+		( cfo.name IN ['and' , 'or' , 'oneof' , 'not' , 'implication'] ) ) ) = 0;
+	WR2 : SIZEOF ( QUERY ( cfo <* concept_feature_operator | (cfo.name = 'implication' ) AND
+	 ( SIZEOF ( QUERY (cfrwc <* USEDIN ( cfo , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP_WITH_CONDITION.' +
+	'CONDITIONAL_OPERATOR' ) | 
+		SIZEOF ( QUERY ( ccf <* USEDIN( cfrwc , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONDITIONAL_CONCEPT_FEATURE.CONDITION' ) | 
+		NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'INCLUSION_PRODUCT_CONCEPT_FEATURE' IN TYPEOF ( ccf )))) >0 )) >0 ))) = 0;
+	WR3 : SIZEOF( QUERY (cfo <* concept_feature_operator | (cfo.name = 'not')
+	AND (SIZEOF(QUERY(cfrwc <* USEDIN(cfo, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONCEPT_FEATURE_RELATIONSHIP_WITH_CONDITION.CONDITIONAL_OPERATOR') | 
+		cfrwc.related_product_concept_feature :<>: cfrwc.relating_product_concept_feature)) >0 ))) = 0;
+END_RULE;
+
+RULE restrict_configuration_design_for_class_breakdown_association FOR (configuration_design);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( cd <* configuration_design | 
+	    ( cd.name ='functionality' ) AND 
+        ( NOT ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF ( cd. design ) ) OR 
+        ( cd.design\product_definition.frame_of_reference.name<> 'functional definition' ) ) 
+        ) ) =0;
+	WR2 : SIZEOF ( QUERY ( cd <* configuration_design | 
+        ( cd.name='realization' ) AND 
+        ( NOT ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF ( cd.design ) ) OR 
+        ( cd.design\product_definition.frame_of_reference.name<> 'conceptual definition' ) ) 
+        ) ) =0;
+	WR3 : SIZEOF ( QUERY ( cd <* configuration_design | 
+        ( cd.name IN ['functionality' , 'realization'] ) AND 
+        ( NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_CLASS' IN TYPEOF ( cd.configuration.item_concept ) ) ) 
+        ) ) =0;
+END_RULE;
+
+RULE restrict_configuration_design_for_design_constraint FOR (configuration_design);
+
+WHERE
+	WR1 : SIZEOF ( QUERY (cd <* configuration_design | 
+	    (cd.name = 'design constraint usage') AND 
+        (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION' IN TYPEOF ( cd.design ) ) OR 
+        (cd.design\product_definition.frame_of_reference.name <> 'design constraint definition')))) = 0;
+END_RULE;
+
+RULE restrict_group_relationship_for_classification_hierarchy FOR (group_relationship);
+
+WHERE
+	WR1 : SIZEOF( QUERY( gr <* group_relationship | 
+  (gr\group_relationship.name = 'class hierarchy') AND 
+  (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CLASS' IN TYPEOF(gr\group_relationship.related_group)) OR 
+  NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CLASS' IN TYPEOF(gr\group_relationship.relating_group))) )) = 0;
+END_RULE;
+
+RULE restrict_group_relationship_for_specification_category FOR (group_relationship);
+
+WHERE
+	WR1 : SIZEOF( QUERY( gr <* group_relationship | 
+  (gr.name = 'specification category hierarchy') AND 
+  (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_CONCEPT_FEATURE_CATEGORY' IN TYPEOF(gr.related_group)) 
+  OR NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_CONCEPT_FEATURE_CATEGORY' IN TYPEOF(gr.relating_group))) )) = 0;
+END_RULE;
+
+RULE restrict_language_assignment_per_attribute FOR (attribute_language_assignment);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( ala1 <* attribute_language_assignment |
+	SIZEOF(QUERY( it <* ala1.items |
+	   SIZEOF ( QUERY ( ala2 <* USEDIN ( it ,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ATTRIBUTE_LANGUAGE_ASSIGNMENT.ITEMS' ) | 
+		( ala1\attribute_classification_assignment.attribute_name = ala2\attribute_classification_assignment.attribute_name ) AND 
+		( ala1\attribute_classification_assignment.assigned_class :=: ala2\attribute_classification_assignment.assigned_class )
+		 )) >1 
+	   )) >0 
+	)) =0;
+END_RULE;
+
+RULE restrict_part_occurrence FOR (product_definition);
+    LOCAL
+      part_occurrences: SET OF product_definition := QUERY(pd <* product_definition | 
+	    ( pd.frame_of_reference.name = 'part occurrence' ));
+    END_LOCAL;
+WHERE
+	WR1 : SIZEOF ( QUERY ( pd <* part_occurrences | 
+	    ( NOT( pd.name IN 
+        ['single instance' , 'selected instance' ,'quantified instance' , 'specified instance' ] ) ) ) ) = 0;
+	WR2 : SIZEOF ( QUERY ( pd <* part_occurrences | 
+ 	    (SIZEOF ( QUERY ( pdr <* USEDIN ( pd ,
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_DEFINITION_RELATIONSHIP.RELATED_PRODUCT_DEFINITION' ) | 
+	    pdr.name = 'definition usage' ) ) <>1 ) AND 
+        ( SIZEOF ( QUERY ( cd <* USEDIN ( pd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CONFIGURATION_DESIGN.DESIGN' ) | 
+        ( cd.name = 'occurrence usage definition' ) AND 
+        ( NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_IDENTIFICATION' IN TYPEOF( cd.configuration ) ) ) ) ) <>1 ) ) ) = 0;
+	WR3 : SIZEOF ( QUERY ( pd <* part_occurrences |  
+        (SIZEOF ( QUERY ( cd <* USEDIN ( pd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.'+ 'PRODUCT_DEFINITION_RELATIONSHIP.RELATED_PRODUCT_DEFINITION' ) |
+        ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'PRODUCT_DEFINITION_USAGE' IN TYPEOF ( cd ) ) ) ) = 0 )AND
+        ( SIZEOF ( USEDIN ( pd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_DEFINITION_OCCURRENCE_RELATIONSHIP.OCCURRENCE' ) ) = 0 ) ) ) = 0;
+	WR4 : SIZEOF ( QUERY ( pd <* part_occurrences | 
+        ( pd.name = 'selected instance' ) AND 
+        NOT valid_selected_instance_representation(pd) ))=0;
+	WR5 : SIZEOF ( QUERY ( pd <* part_occurrences | 
+        ( pd.name = 'quantified instance' ) AND 
+        ( SIZEOF ( QUERY (ppd <* USEDIN ( pd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'PROPERTY_DEFINITION.DEFINITION' ) |
+        ( ppd.name ='occurrence quantity' ) AND 
+        ( SIZEOF ( QUERY ( pdr <*USEDIN ( ppd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'PROPERTY_DEFINITION_REPRESENTATION.DEFINITION' ) | (
+        pdr.used_representation.name = 'quantity' ) AND 
+        (SIZEOF ( pdr.used_representation.items ) = 1 ) AND 
+        (SIZEOF ( QUERY ( i <* pdr.used_representation.items | 
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'MEASURE_REPRESENTATION_ITEM' IN TYPEOF ( i ) ) AND
+        ( i.name = 'quantity measure' ) ) ) = 1)))= 1 )))= 0 )))= 0;
+	WR6 : SIZEOF ( QUERY ( pd <* part_occurrences | 
+        ( pd.name = 'specified instance' ) AND 
+        ( SIZEOF ( QUERY (
+        pdor <* USEDIN ( pd , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'PRODUCT_DEFINITION_OCCURRENCE_RELATIONSHIP.OCCURRENCE' ) | 
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'SPECIFIED_HIGHER_USAGE_OCCURRENCE' IN TYPEOF ( pdor.occurrence_usage ) ) ) = 0 ) ) ) = 0;
+END_RULE;
+
+RULE restrict_part_occurrence_category FOR (product_definition);
+    LOCAL
+      part_occurrences: SET OF product_definition := QUERY( pd <* product_definition |(
+        pd.frame_of_reference.name = 'part occurrence'));
+    END_LOCAL;
+WHERE
+	WR1 : SIZEOF( QUERY( pd <* part_occurrences | 
+        (SIZEOF( QUERY( prpc <* USEDIN(pd.formation.of_product, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | 
+        prpc.name IN ['part','raw material','tool'] )) = 0 ) )) = 0;
+END_RULE;
+
+RULE restrict_product_definitions_for_base_element FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdr <* product_definition_relationship |
+       ( pdr. name = 'solution alternative definition' ) AND 
+       ( NOT( pdr. relating_product_definition.frame_of_reference.name
+        IN [ 'alternative definition' , 'functional definition' , 'conceptual definition' ] ) OR 
+       ( pdr.related_product_definition.frame_of_reference.name<>'alternative definition' ) ) ) ) =0;
+END_RULE;
+
+RULE restrict_product_definitions_for_collection FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdr <* product_definition_relationship |
+       ( pdr. name = 'collection membership' ) AND 
+       ( ( pdr.relating_product_definition.frame_of_reference.name<>'part definition' ) OR 
+       ( pdr.related_product_definition.frame_of_reference.name<>'part occurrence' ) OR 
+       ( SIZEOF ( QUERY ( pdca <* USEDIN (pdr.relating_product_definition ,
+       'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_DEFINITION_CONTEXT_ASSOCIATION.DEFINITION') | 
+       ( pdca.role.name = 'part definition type' ) AND 
+       ( pdca.frame_of_reference.name = 'collection definition' ) )) =0 ) ) ) ) =0;
+END_RULE;
+
+RULE restrict_product_definitions_for_definition_usage FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdr <* product_definition_relationship |
+        ( pdr.name = 'definition usage' ) AND 
+        ( ( pdr.relating_product_definition.frame_of_reference.name<> 'part definition' ) OR 
+        ( pdr.related_product_definition.frame_of_reference.name<>'part occurrence' )))) =0;
+END_RULE;
+
+RULE restrict_product_definitions_for_design_constraint_association FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdr <* product_definition_relationship |
+        ( pdr. name = 'design constraint association' ) AND 
+	    ( (pdr. relating_product_definition.frame_of_reference.name<>'design constraint definition' ) OR 
+	    NOT ( pdr.related_product_definition.frame_of_reference.name IN 
+	    ['alternative definition' , 'functional definition' ,'conceptual definition' ] ) ) ) ) =0;
+END_RULE;
+
+RULE restrict_product_definitions_for_part_definition_relationship FOR (product_definition_relationship);
+
+WHERE
+	WR1 : SIZEOF ( QUERY ( pdr <* product_definition_relationship |
+        ( pdr.name IN [ 'geometrical relationship' , 'definition replacement' ] ) AND 
+	    ( ( pdr.relating_product_definition.frame_of_reference.name <>'part definition' ) OR 
+        ( pdr.related_product_definition.frame_of_reference.name <>'part definition' ) ) ) ) =0;
+END_RULE;
+
+RULE restrict_representation_for_surface_condition FOR (property_definition_representation);
+
+WHERE
+	WR1 : SIZEOF(QUERY(pdr <* property_definition_representation | 
+        NOT surface_condition_correlation(pdr.definition, pdr.used_representation) ))=0;
+END_RULE;
+
+RULE restrict_treatment_result FOR (representation);
+    LOCAL
+      treatment_results: SET OF representation := [];
+    END_LOCAL;
+    treatment_results:= QUERY( r <* representation | 
+	  (r.name = 'treatment result') );
+WHERE
+	WR1 : (SIZEOF( QUERY( r <* treatment_results | (SIZEOF(r.items) > 2) )) = 0) AND
+        (SIZEOF( QUERY( r <* treatment_results |
+        (SIZEOF( QUERY( i <* r.items | 
+         NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF(i)) )) > 0) )) = 0);
+	WR2 : SIZEOF( QUERY( r <* treatment_results | 
+        (SIZEOF( QUERY( i <* r.items | i.name = 'result' )) = 0) )) = 0;
+	WR3 : SIZEOF( QUERY( r <* treatment_results | 
+        (SIZEOF( QUERY( i <* r.items | i.name = 'purpose' )) > 1) )) = 0;
+END_RULE;
+
+RULE selected_instance_usage_requires_representation FOR (assembly_component_usage);
+    LOCAL
+      selected_instance_usages: SET OF assembly_component_usage := QUERY( acr <* assembly_component_usage|
+        (acr.name = 'selected instance usage'));
+    END_LOCAL;
+WHERE
+	WR1 : SIZEOF ( QUERY ( acr <* selected_instance_usages | 
+        NOT valid_selected_instance_representation(acr) ))=0;
+END_RULE;
+
+RULE solution_definition_requires_solution_category FOR (product_definition);
+    LOCAL
+      solution_definitions: SET OF product_definition := [];
+    END_LOCAL;
+      solution_definitions :=  QUERY( pd <* product_definition |
+        (pd.frame_of_reference.name = 'alternative definition'));
+WHERE
+	WR1 : SIZEOF( QUERY( pd <* solution_definitions | 
+        (SIZEOF( QUERY( prpc <* USEDIN(pd.formation.of_product, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF' + '.PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS') | 
+	     prpc.name = 'alternative solution')) = 0 ) )) = 0;
+END_RULE;
+
+RULE stock_material_reference FOR (percentage_ply_definition, make_from_usage_option, product_related_product_category);
+    LOCAL
+      i,j,k :  INTEGER;
+      dkuhr :  LOGICAL;
+      nmfuo :  INTEGER;
+      nprpc :  INTEGER;
+      rp     :  product;
+    END_LOCAL;
+    dkuhr := TRUE;
+    REPEAT i:= LOINDEX (percentage_ply_definition) TO
+               HIINDEX (percentage_ply_definition);
+      nmfuo := 0;  
+      REPEAT j:= LOINDEX (make_from_usage_option) TO 
+                 HIINDEX (make_from_usage_option);
+        IF (percentage_ply_definition[i] = 
+          make_from_usage_option[j].relating_product_definition) THEN
+          rp := make_from_usage_option[j].related_product_definition.
+                formation.of_product;
+          nprpc := 0;
+          REPEAT k:= LOINDEX (product_related_product_category) TO
+                     HIINDEX (product_related_product_category);
+            IF ((rp IN product_related_product_category[k].products) AND
+                (product_related_product_category[k].name IN 
+                ['anisotropic material', 'isotropic material', 'stock core',
+                 'filament assembly', 'discontinuous fiber assembly'])) THEN
+                nprpc := nprpc + 1;
+            END_IF;
+          END_REPEAT;
+          IF (nprpc = 1) THEN
+            nmfuo := nmfuo + 1;
+          ELSE
+            dkuhr := FALSE;
+            ESCAPE;
+          END_IF;
+        END_IF;
+      END_REPEAT;
+      IF (dkuhr = FALSE) THEN
+        ESCAPE; 
+      END_IF;
+      IF(nmfuo = 0) THEN
+        dkuhr := FALSE;
+        ESCAPE;
+      END_IF;
+    END_REPEAT;
+WHERE
+	WR1 : dkuhr;
+END_RULE;
+
+RULE styled_curve FOR (styled_item);
+
+WHERE
+	WR1 : SIZEOF( QUERY( si <* styled_item | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE' IN TYPEOF (si.item)) AND (SIZEOF (QUERY (psa <* si.styles | (SIZEOF (QUERY (cs <* psa.styles | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_STYLE' IN TYPEOF (cs)) )) > 0) )) <> 1) )) = 0;
+END_RULE;
+
+RULE subtype_exclusiveness_geometric_tolerance FOR (geometric_tolerance);
+
+WHERE
+	WR1 : SIZEOF(QUERY (gt <* geometric_tolerance | NOT (type_check_function(gt, ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANGULARITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCULAR_RUNOUT_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COAXIALITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONCENTRICITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CYLINDRICITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FLATNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE_PROFILE_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PARALLELISM_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PERPENDICULARITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITION_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ROUNDNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRAIGHTNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_PROFILE_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMMETRY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TOTAL_RUNOUT_TOLERANCE'] , 3)))) = 0;
+END_RULE;
+
+RULE subtype_exclusiveness_representation_item FOR (representation_item);
+
+WHERE
+	WR1 : SIZEOF(QUERY (cri <* representation_item | 
+      NOT (type_check_function(cri,['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM',
+                                    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_REPRESENTATION_ITEM',
+                                    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOUND_REPRESENTATION_ITEM'] , 3)))) = 0;
+END_RULE;
+
+RULE subtype_mandatory_geometric_tolerance FOR (geometric_tolerance);
+
+WHERE
+	WR1 : SIZEOF(QUERY (gt <* geometric_tolerance | NOT (type_check_function(gt, ['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANGULARITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCULAR_RUNOUT_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COAXIALITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONCENTRICITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CYLINDRICITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FLATNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE_PROFILE_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PARALLELISM_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PERPENDICULARITY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITION_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ROUNDNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRAIGHTNESS_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_PROFILE_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SYMMETRY_TOLERANCE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TOTAL_RUNOUT_TOLERANCE'] , 0)))) = 0;
+END_RULE;
+
+RULE text_font_usage FOR (externally_defined_text_font, pre_defined_text_font);
+
+WHERE
+	WR1 : SIZEOF (QUERY (pdtf <* pre_defined_text_font | SIZEOF (USEDIN (pdtf, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL.FONT')) = 0 )) = 0;
+	WR2 : SIZEOF (QUERY (edtf <* externally_defined_text_font | SIZEOF (USEDIN (edtf, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TEXT_LITERAL.FONT')) = 0 )) = 0;
+END_RULE;
+
+RULE thickness_laminate_table_component_select FOR (thickness_laminate_definition, next_assembly_usage_occurrence, product_related_product_category);
+    LOCAL
+      i,j,k :  INTEGER;
+      dkuhr :  LOGICAL;
+      nnauo :  INTEGER;
+      nprpc :  INTEGER;
+      rp    :  product;
+    END_LOCAL;
+    dkuhr := TRUE;
+    REPEAT i:= LOINDEX (thickness_laminate_definition) TO
+               HIINDEX (thickness_laminate_definition);
+      nnauo := 0;  
+      REPEAT j:= LOINDEX (next_assembly_usage_occurrence) TO 
+                 HIINDEX (next_assembly_usage_occurrence);
+        IF (thickness_laminate_definition[i] = 
+          next_assembly_usage_occurrence[j].relating_product_definition) THEN
+          rp := next_assembly_usage_occurrence[j].related_product_definition.
+                formation.of_product;
+          nprpc := 0;
+          REPEAT k:= LOINDEX (product_related_product_category) TO
+                     HIINDEX (product_related_product_category);
+            IF ((rp IN product_related_product_category[k].products) AND
+                (product_related_product_category[k].name IN 
+                 ['ply', 'filament laminate', 'processed core'])) THEN
+                nprpc := nprpc + 1;
+            END_IF;
+          END_REPEAT;
+          IF (nprpc = 1) THEN
+            nnauo := nnauo + 1;
+          ELSE
+            dkuhr := FALSE;
+            ESCAPE;
+          END_IF;
+        END_IF;
+      END_REPEAT;
+      IF (dkuhr = FALSE) THEN
+        ESCAPE;
+      END_IF;
+      IF (nnauo <> 1) THEN
+        dkuhr := FALSE;
+        ESCAPE;
+      END_IF;
+    END_REPEAT;
+WHERE
+	WR1 : dkuhr;
+END_RULE;
+
+RULE validate_dependently_instantiable_entity_data_types FOR (action_method_role, annotation_text, attribute_value_role, auxiliary_geometric_representation_item, binary_numeric_expression, boolean_expression, bounded_curve, bounded_surface, cartesian_transformation_operator, comparison_expression, concept_feature_relationship, concept_feature_relationship_with_condition, connected_edge_set, document_usage_constraint, edge_blended_solid, effectivity_context_role, event_occurrence_role, explicit_procedural_representation_item_relationship, expression, founded_item, generic_expression, generic_variable, indirectly_selected_elements, interval_expression, literal_number, local_time, loop, modified_solid_with_placed_configuration, multiple_arity_boolean_expression, multiple_arity_generic_expression, multiple_arity_numeric_expression, numeric_expression, one_direction_repeat_factor, oriented_open_shell, oriented_path, positioned_sketch, procedural_representation, procedural_representation_sequence, product_definition_context_role, product_definition_effectivity, runout_zone_orientation, simple_boolean_expression, simple_generic_expression, simple_numeric_expression, solid_with_depression, solid_with_hole, solid_with_pocket, solid_with_protrusion, solid_with_shape_element_pattern, solid_with_slot, swept_area_solid, symbol_target, tolerance_zone_form, two_direction_repeat_factor, unary_generic_expression, unary_numeric_expression, user_selected_elements, variational_representation_item, view_volume);
+LOCAL
+  number_of_input_instances : INTEGER;
+  previous_in_chain : LIST OF GENERIC := [];
+  set_of_input_types : SET OF STRING := [];
+  all_instances : SET OF GENERIC := [];
+END_LOCAL;
+
+  all_instances := all_instances + action_method_role + annotation_text + attribute_value_role + auxiliary_geometric_representation_item + binary_numeric_expression + boolean_expression + bounded_curve + bounded_surface + cartesian_transformation_operator + comparison_expression + concept_feature_relationship + concept_feature_relationship_with_condition + connected_edge_set + document_usage_constraint + edge_blended_solid + effectivity_context_role + event_occurrence_role + explicit_procedural_representation_item_relationship + expression + founded_item + generic_expression + generic_variable + indirectly_selected_elements + interval_expression + literal_number + local_time + loop + modified_solid_with_placed_configuration + multiple_arity_boolean_expression + multiple_arity_generic_expression + multiple_arity_numeric_expression + numeric_expression + one_direction_repeat_factor + oriented_open_shell + oriented_path + positioned_sketch + procedural_representation + procedural_representation_sequence + product_definition_context_role + product_definition_effectivity + runout_zone_orientation + simple_boolean_expression + simple_generic_expression + simple_numeric_expression + solid_with_depression + solid_with_hole + solid_with_pocket + solid_with_protrusion + solid_with_shape_element_pattern + solid_with_slot + swept_area_solid + symbol_target + tolerance_zone_form + two_direction_repeat_factor + unary_generic_expression + unary_numeric_expression + user_selected_elements + variational_representation_item + view_volume;--<make a union of all implicit populations of the FOR-clause>
+number_of_input_instances := SIZEOF(all_instances);
+(* Collect all type strings of all FOR instances into one set. *)
+REPEAT i:=1 TO number_of_input_instances;
+  set_of_input_types := set_of_input_types + TYPEOF(all_instances[i]);
+END_REPEAT;
+WHERE
+	WR1 : dependently_instantiated(all_instances, set_of_input_types,
+                                previous_in_chain);
+END_RULE;
+
+FUNCTION acyclic
+	(arg1: generic_expression; arg2: SET [0:?] OF generic_expression) : BOOLEAN;
+LOCAL
+	result: BOOLEAN := TRUE;
+END_LOCAL;
+
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIMPLE_GENERIC_EXPRESSION'
+	IN TYPEOF (arg1)) 
+THEN
+	RETURN (TRUE);
+END_IF;
+
+IF arg1 IN arg2 
+THEN 
+	RETURN (FALSE);
+END_IF;
+
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.UNARY_GENERIC_EXPRESSION' 
+	IN TYPEOF (arg1) 
+THEN 
+	RETURN 
+	(acyclic(arg1\unary_generic_expression.operand,arg2+[arg1]));
+END_IF;
+
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BINARY_GENERIC_EXPRESSION' 
+	IN TYPEOF (arg1) 
+THEN 
+	RETURN 
+	(acyclic(arg1\binary_generic_expression.operands[1],arg2+[arg1])
+	AND
+	acyclic(arg1\binary_generic_expression.operands[2],arg2+[arg1]));
+END_IF;
+
+IF 
+'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MULTIPLE_ARITY_GENERIC_EXPRESSION' 
+	IN TYPEOF (arg1) 
+THEN 
+	result := TRUE;
+	REPEAT i := 1 TO 
+			SIZEOF (arg1\multiple_arity_generic_expression.operands);
+		result := result AND
+		acyclic(arg1\multiple_arity_generic_expression.operands[i], arg2+[arg1]);
+	END_REPEAT;
+
+	RETURN (result);
+END_IF;
+	RETURN (result);
+END_FUNCTION;
+
+FUNCTION acyclic_composite_text
+	(start_composite: composite_text; child_text: SET [1:?] OF text_or_character) : LOGICAL;
+    LOCAL
+      i : INTEGER;
+      local_composite_text : SET [0:?] OF composite_text;
+      local_annotation_text : SET [0:?] OF annotation_text;
+      local_children : SET [0:?] OF text_or_character;
+    END_LOCAL;
+
+    local_composite_text := QUERY (child <* child_text |
+                          ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'
+                           IN TYPEOF (child)));
+
+    IF (SIZEOF (local_composite_text) > 0) 
+      THEN
+        REPEAT i := 1 TO HIINDEX (local_composite_text);
+          IF (start_composite :=: local_composite_text[i]) 
+            THEN
+              RETURN (FALSE);
+          END_IF;
+        END_REPEAT;
+    END_IF;
+
+    local_children := child_text;
+
+    IF (SIZEOF (local_composite_text)) > 0 THEN
+      REPEAT i := 1 TO HIINDEX (local_composite_text);
+        local_children := local_children +
+                          local_composite_text[i].collected_text;
+      END_REPEAT;
+    END_IF;
+
+    local_annotation_text := QUERY (child <* child_text |
+                            ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT'
+                             IN TYPEOF (child)));
+
+    IF (SIZEOF (local_annotation_text) > 0) THEN
+      REPEAT i := 1 TO HIINDEX (local_annotation_text);
+        local_children := local_children +
+        QUERY (item <* local_annotation_text[i]\mapped_item.
+                       mapping_source.mapped_representation.items |
+          SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ANNOTATION_TEXT',
+                  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_TEXT'] *
+                  TYPEOF(item)) > 0);
+      END_REPEAT;
+    END_IF;
+
+    IF (local_children :<>: child_text) THEN
+      RETURN (acyclic_composite_text (start_composite, local_children));
+    ELSE
+      RETURN (TRUE);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION acyclic_curve_replica
+	(rep: curve_replica; parent: curve) : BOOLEAN;
+IF NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA') IN TYPEOF(parent)) THEN
+      RETURN (TRUE);
+   END_IF;
+ (* Return TRUE if the parent is not of type curve_replica *)
+   IF (parent :=: rep) THEN
+      RETURN (FALSE);
+  (* Return FALSE if the parent is the same curve_replica, otherwise,
+   call function again with the parents own parent_curve.     *)
+    ELSE
+    RETURN(acyclic_curve_replica(rep,
+               parent\curve_replica.parent_curve));
+    END_IF;
+END_FUNCTION;
+
+FUNCTION acyclic_mapped_item_usage
+	(rep: representation) : BOOLEAN;
+  LOCAL
+    items : SET OF representation_item;
+  END_LOCAL;
+
+  items := QUERY (item <* rep.items |
+           'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM' IN TYPEOF (item));
+  IF SIZEOF (items) = 0
+  THEN 
+    RETURN (FALSE);
+  ELSE 
+    REPEAT i := 1 TO HIINDEX (items);
+      IF items[i]\mapped_item.mapping_source.mapped_representation :=: rep
+      THEN 
+        RETURN (TRUE);
+      ELSE 
+        RETURN (acyclic_mapped_item_usage(items[i]\
+                  mapped_item.mapping_source.mapped_representation));
+      END_IF;
+    END_REPEAT;
+  RETURN (FALSE);
+  END_IF;
+END_FUNCTION;
+
+FUNCTION acyclic_mapped_representation
+	(mi: mapped_item) : BOOLEAN;
+    LOCAL
+      rms : SET OF representation_map;
+      mis : SET OF mapped_item;
+      rs1, rs2 : SET OF representation;
+    END_LOCAL;
+ 
+    rs1 := using_representations(mi);
+    rs2 := [];
+    -- loop as long as there are elements in rs1
+    REPEAT WHILE SIZEOF(rs1) > 0; 
+      REPEAT i := 1 TO HIINDEX(rs1);
+        -- Determine the set of representation_map that reference the parent_set
+        rms := bag_to_set(USEDIN(rs1[i], 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_MAP.MAPPED_REPRESENTATION'));
+        IF SIZEOF(rms) > 0 THEN
+          REPEAT j := 1 TO HIINDEX(rms);
+            mis := bag_to_set(USEDIN(rms[i], 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAPPED_ITEM.MAPPING_SOURCE'));
+            IF SIZEOF(mis) > 0 THEN
+              REPEAT j := 1 TO HIINDEX(mis);
+                -- check mis members for instance equal with mi. If so then there is a cycle
+                IF mis[i] :=: mi THEN
+                  RETURN (FALSE);
+                END_IF;
+                rs2 := rs2 + using_representations(mis[i]);
+              END_REPEAT;
+            END_IF;
+          END_REPEAT;
+        END_IF;
+      END_REPEAT;
+      rs1 := rs2;
+      rs2 := [];
+    END_REPEAT;
+    RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION acyclic_point_replica
+	(rep: point_replica; parent: point) : BOOLEAN;
+IF NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_REPLICA') IN TYPEOF(parent)) THEN
+      RETURN (TRUE);
+   END_IF;
+ (* Return TRUE if the parent is not of type point_replica *)
+   IF (parent :=: rep) THEN
+      RETURN (FALSE);
+  (* Return FALSE if the parent is the same point_replica, otherwise,
+   call function again with the parents own parent_pt.     *)
+    ELSE RETURN(acyclic_point_replica(rep, parent\point_replica.parent_pt));
+    END_IF;
+END_FUNCTION;
+
+FUNCTION acyclic_product_definition_relationship
+	(relation: product_definition_relationship; relatives: SET [1:?] OF product_definition; specific_relation: STRING) : BOOLEAN;
+    LOCAL
+      x : SET OF product_definition_relationship;
+    END_LOCAL;
+
+    IF relation.relating_product_definition IN relatives THEN
+      RETURN (FALSE);
+    END_IF;
+    x := QUERY(pd <* bag_to_set(USEDIN(relation.relating_product_definition, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_DEFINITION_RELATIONSHIP.' + 'RELATED_PRODUCT_DEFINITION')) | specific_relation IN TYPEOF(pd));
+    REPEAT i := 1 TO HIINDEX(x);
+      IF NOT acyclic_product_definition_relationship(x[i], relatives + relation.relating_product_definition, specific_relation) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_REPEAT;
+    RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION acyclic_representation_relationship
+	(relation: representation_relationship; relatives: SET [1:?] OF representation; specific_relation: STRING) : BOOLEAN;
+    LOCAL
+      x : SET OF representation_relationship;
+    END_LOCAL;
+
+    IF relation.rep_1 IN relatives THEN
+      RETURN (FALSE);
+    END_IF;
+    x := QUERY(r <* bag_to_set(USEDIN(relation.rep_1, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'REPRESENTATION_RELATIONSHIP.' + 'REP_2')) | specific_relation IN TYPEOF(r));
+    REPEAT i := 1 TO HIINDEX(x);
+      IF NOT acyclic_representation_relationship(x[i], relatives + relation.rep_1, specific_relation) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_REPEAT;
+    RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION acyclic_solid_replica
+	(rep: solid_replica; parent: solid_model) : BOOLEAN;
+IF NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_REPLICA') IN TYPEOF(parent)) THEN
+      RETURN (TRUE);
+   END_IF;
+ (* Return TRUE if the parent is not of type solid_replica. *)
+   IF (parent :=: rep) THEN
+      RETURN (FALSE);
+  (* Return FALSE if the parent is the same solid_replica, otherwise,
+   call function again with the parents own parent_solid.     *)
+    ELSE RETURN(acyclic_solid_replica(rep,
+                      parent\solid_replica.parent_solid));
+    END_IF;
+END_FUNCTION;
+
+FUNCTION acyclic_surface_replica
+	(rep: surface_replica; parent: surface) : BOOLEAN;
+IF NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_REPLICA') IN TYPEOF(parent)) THEN
+      RETURN (TRUE);
+   END_IF;
+ (* Return TRUE if the parent is not of type surface_replica *)
+   IF (parent :=: rep) THEN
+      RETURN (FALSE);
+  (* Return FALSE if the parent is the same surface_replica, otherwise,
+   call function again with the parents own parent_surface.     *)
+    ELSE RETURN(acyclic_surface_replica(rep,
+                   parent\surface_replica.parent_surface));
+    END_IF;
+END_FUNCTION;
+
+FUNCTION advanced_face_properties
+	(testface: face) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ADVANCED_FACE' IN TYPEOF(testface) THEN
+    RETURN (TRUE);
+END_IF;
+(* if testface is a subface recursively test the parent_face,
+return FALSE for all other types of face *)
+IF  ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBFACE' IN TYPEOF(testface)) THEN
+     RETURN(advanced_face_properties(testface\subface.parent_face));
+   ELSE RETURN (FALSE);
+END_IF;
+END_FUNCTION;
+
+FUNCTION aspect_ratio
+	(p: planar_box) : positive_ratio_measure;
+IF (p.size_in_x > 0.) AND (p.size_in_y > 0.) THEN
+      RETURN (p.size_in_x / p.size_in_y);
+    ELSE
+      RETURN (?);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION associated_surface
+	(arg: pcurve_or_surface) : surface;
+   LOCAL
+     surf : surface;
+   END_LOCAL;
+   
+   IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(arg) THEN
+     surf := arg\pcurve.basis_surface;
+   ELSE
+     surf := arg;
+   END_IF;
+   RETURN(surf);
+END_FUNCTION;
+
+FUNCTION bag_to_set
+	(the_bag: BAG [0:?] OF GENERIC: intype) : SET [0:?] OF GENERIC: intype;
+    LOCAL
+      the_set : SET OF GENERIC:intype := [];
+    END_LOCAL;
+
+    IF SIZEOF(the_bag) > 0 THEN
+      REPEAT i := 1 TO HIINDEX(the_bag);
+        the_set := the_set + the_bag[i];
+      END_REPEAT;
+    END_IF;
+    RETURN (the_set);
+END_FUNCTION;
+
+FUNCTION base_axis
+	(dim: INTEGER; axis1: direction; axis2: direction; axis3: direction) : LIST [2:3] OF direction;
+  LOCAL
+    u      : LIST [2:3] OF direction;
+    factor : REAL;
+    d1, d2 : direction;
+  END_LOCAL;
+  
+  IF (dim = 3) THEN
+    d1 := NVL(normalise(axis3),  dummy_gri || direction([0.0,0.0,1.0]));
+    d2 := first_proj_axis(d1,axis1);
+    u := [d2, second_proj_axis(d1,d2,axis2), d1];
+  ELSE
+     IF EXISTS(axis1) THEN
+      d1 := normalise(axis1);
+      u := [d1, orthogonal_complement(d1)];
+      IF EXISTS(axis2) THEN
+        factor := dot_product(axis2,u[2]);
+        IF (factor < 0.0) THEN
+          u[2].direction_ratios[1] := -u[2].direction_ratios[1];
+          u[2].direction_ratios[2] := -u[2].direction_ratios[2];
+        END_IF;
+      END_IF;
+    ELSE
+      IF EXISTS(axis2) THEN
+        d1 := normalise(axis2);
+        u := [orthogonal_complement(d1), d1]; 
+        u[1].direction_ratios[1] := -u[1].direction_ratios[1];
+        u[1].direction_ratios[2] := -u[1].direction_ratios[2];
+      ELSE
+        u := [dummy_gri || direction([1.0, 0.0]), dummy_gri ||
+                                                direction([0.0, 1.0])];
+      END_IF;
+    END_IF;
+  END_IF;
+  RETURN(u);
+END_FUNCTION;
+
+FUNCTION boolean_choose
+	(b: BOOLEAN; choice1: GENERIC: item; choice2: GENERIC: item) : GENERIC: item;
+IF b THEN
+       RETURN (choice1);
+     ELSE
+       RETURN (choice2);
+     END_IF;
+END_FUNCTION;
+
+FUNCTION build_2axes
+	(ref_direction: direction) : LIST [2:2] OF direction;
+   LOCAL
+     d : direction := NVL(normalise(ref_direction),
+                          dummy_gri || direction([1.0,0.0]));
+   END_LOCAL;
+
+   RETURN([d, orthogonal_complement(d)]);
+END_FUNCTION;
+
+FUNCTION build_axes
+	(axis: direction; ref_direction: direction) : LIST [3:3] OF direction;
+     LOCAL
+       d1, d2 : direction;
+     END_LOCAL;
+    d1 := NVL(normalise(axis), dummy_gri || direction([0.0,0.0,1.0]));
+    d2 := first_proj_axis(d1, ref_direction);
+    RETURN([d2, normalise(cross_product(d1,d2))\vector.orientation, d1]);
+END_FUNCTION;
+
+FUNCTION categories_of_product
+	(obj: product) : SET [0:?] OF STRING;
+LOCAL
+  category_assignments: BAG OF product_category;
+  categories: SET OF STRING:=[];
+END_LOCAL;
+category_assignments := USEDIN(obj, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PRODUCT_RELATED_PRODUCT_CATEGORY.PRODUCTS');
+REPEAT i := LOINDEX(category_assignments) TO HIINDEX(category_assignments) BY 1;
+  categories := categories + category_assignments[i].name;
+END_REPEAT;
+RETURN(categories);
+END_FUNCTION;
+
+FUNCTION cc_design_person_and_organization_correlation
+	(e: cc_design_person_and_organization_assignment) : BOOLEAN;
+    LOCAL
+      po_role : STRING;
+    END_LOCAL;
+      po_role := e\person_and_organization_assignment.role.name;
+    CASE po_role OF
+      'request_recipient'      : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'CHANGE_REQUEST',
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'START_REQUEST'] *
+                                 TYPEOF (x)) = 1))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'initiator'              : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'CHANGE_REQUEST',
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'START_REQUEST',
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'START_WORK',
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'CHANGE'] *
+                                 TYPEOF (x)) = 1))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'creator'                : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'PRODUCT_DEFINITION_FORMATION',
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'PRODUCT_DEFINITION'] *
+                                 TYPEOF (x)) = 1))
+                                 THEN RETURN (FALSE);
+                               END_IF;
+      'part_supplier'          : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'PRODUCT_DEFINITION_FORMATION'
+                                 IN TYPEOF (x)))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'design_supplier'        : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'PRODUCT_DEFINITION_FORMATION'
+                                 IN TYPEOF (x)))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'design_owner'           : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT'
+                                 IN TYPEOF (x)))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'configuration_manager'  : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'CONFIGURATION_ITEM'
+                                 IN TYPEOF (x)))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'contractor'             : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONTRACT'
+                                 IN TYPEOF (x)))
+                                 THEN RETURN(FALSE);
+                               END_IF;
+      'classification_officer' : IF SIZEOF (e.items) <>
+                                 SIZEOF (QUERY (x <* e.items |
+                                 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +
+                                 'SECURITY_CLASSIFICATION'
+                                 IN TYPEOF (x))) THEN
+                                 RETURN(FALSE);
+                               END_IF;
+    OTHERWISE : RETURN(TRUE);
+  END_CASE;
+  RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION check_continuous_edges
+	(edges: LIST [0:?] OF  UNIQUE edge_curve) : BOOLEAN;
+  LOCAL
+    i           : INTEGER;
+    next_vertex : vertex;
+  END_LOCAL;
+
+  -- first check whether there is only one edge in the list: in this
+  -- case there is no connectivity to be checked.
+
+  IF (SIZEOF(edges) = 1)
+  THEN RETURN(TRUE);
+  END_IF;
+
+  -- otherwise, establish the matching vertices of edges 1 and 2 in 
+  -- the list, and determine the vertex of edge 2 to which edge 3, 
+  -- must be connected, if there are more than two edges in the list.
+
+  IF ((edges[2].edge_start :=: edges[1].edge_end)
+    XOR (edges[2].edge_start :=: edges[1].edge_start))
+  THEN next_vertex := edges[2].edge_end;
+  ELSE 
+    IF ((edges[2].edge_end :=: edges[1].edge_end)
+      XOR (edges[2].edge_end :=: edges[1].edge_start))
+    THEN next_vertex := edges[2].edge_start;
+    ELSE RETURN(FALSE); -- no match between any vertices of edges 1 and 2 
+    END_IF;
+  END_IF;
+
+  -- exit if there are only two edges and they are connected
+
+  IF (SIZEOF(edges) = 2)
+  THEN RETURN(TRUE);
+  END_IF;
+
+  -- otherwise, check that any remaining edges are connected in list order.
+
+  REPEAT i := 3 TO HIINDEX(edges);
+    IF (edges[i].edge_start :=: next_vertex)
+    THEN next_vertex := edges[i].edge_end;
+    ELSE
+      IF (edges[i].edge_end :=: next_vertex)
+      THEN next_vertex := edges[i].edge_start;
+      ELSE RETURN(FALSE); -- no match is found.
+      END_IF;
+    END_IF; 
+  END_REPEAT;
+  RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION check_text_alignment
+	(ct: composite_text) : BOOLEAN;
+  LOCAL
+    a : SET OF text_alignment := [];
+  END_LOCAL;
+
+  -- create a set of all the alignments
+  REPEAT i := 1 TO HIINDEX (ct.collected_text);
+    a := a + [ct.collected_text[i]\text_literal.alignment];
+  END_REPEAT;
+
+  -- if there is more than one element in the set
+  -- then not all alignments were the same
+  RETURN (SIZEOF(a) = 1);
+END_FUNCTION;
+
+FUNCTION check_text_font
+	(ct: composite_text) : BOOLEAN;
+  LOCAL
+    f : SET OF font_select := [];
+  END_LOCAL;
+
+  -- build a set of all the fonts
+  REPEAT i := 1 TO HIINDEX (ct.collected_text);
+    f := f + [ct.collected_text[i]\text_literal.font];
+  END_REPEAT;
+
+  -- if there is more than one element in the set
+  -- then not all fonts were the same
+  RETURN (SIZEOF(f) <= 1);
+END_FUNCTION;
+
+FUNCTION class_assignment_is_valid
+	(aia: applied_classification_assignment) : BOOLEAN;
+LOCAL
+  item: classification_item;
+  role: classification_role;
+END_LOCAL;
+
+role:= aia\classification_assignment.role;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'CLASS_SYSTEM' IN TYPEOF(aia\classification_assignment.assigned_class)) THEN
+  IF(role\classification_role.name <> 'class system membership') THEN
+    RETURN(FALSE);
+  END_IF;
+  REPEAT i:=LOINDEX(aia\applied_classification_assignment.items) TO HIINDEX(aia\applied_classification_assignment.items);
+    item:= aia\applied_classification_assignment.items[i];
+
+    IF (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CLASS_SYSTEM_ITEM'] * TYPEOF(item))=0) THEN
+-- item invalid if item does not belong to the types that may have a class_system
+	RETURN(FALSE);
+    END_IF;
+  END_REPEAT;
+END_IF;
+
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' +'CHARACTERIZED_CLASS' IN TYPEOF(aia\classification_assignment.assigned_class)) THEN
+  IF	NOT(role\classification_role.name IN ['definitional','non-definitional','']) THEN
+    RETURN(FALSE); 
+  END_IF;
+
+
+  REPEAT i:=LOINDEX(aia\applied_classification_assignment.items) TO HIINDEX(aia\applied_classification_assignment.items);
+    item:= aia\applied_classification_assignment.items[i];
+
+    IF (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'CLASSIFIED_ITEM'] * TYPEOF(item))=0) THEN
+-- item invalid if item does not belong to the types that may have a characterized_class
+	RETURN(FALSE);
+    END_IF;
+  END_REPEAT;
+END_IF;
+
+  IF
+   (role\classification_role.name = 'definitional')
+   THEN
+     IF NOT
+      (SIZEOF(QUERY(it <* aia\applied_classification_assignment.items | NOT
+             (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION_FORMATION', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRODUCT_DEFINITION'] * TYPEOF(it)) = 1)
+      )) = 0 )
+      THEN
+      RETURN(FALSE); 
+     END_IF;
+  END_IF;
+
+RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION closed_shell_reversed
+	(a_shell: closed_shell) : oriented_closed_shell;
+  LOCAL
+    the_reverse : oriented_closed_shell;
+  END_LOCAL;
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_CLOSED_SHELL' IN TYPEOF (a_shell) ) THEN
+      the_reverse := dummy_tri ||
+                    connected_face_set (
+                       a_shell\connected_face_set.cfs_faces) ||
+                    closed_shell () || oriented_closed_shell(
+                     a_shell\oriented_closed_shell.closed_shell_element,
+                       NOT(a_shell\oriented_closed_shell.orientation));
+   ELSE
+      the_reverse := dummy_tri ||
+               connected_face_set (
+                 a_shell\connected_face_set.cfs_faces) ||
+               closed_shell () || oriented_closed_shell (a_shell, FALSE);
+   END_IF;
+   RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION compute_total_depth
+	(swsrh: solid_with_stepped_round_hole) : positive_length_measure;
+LOCAL
+i  : positive_integer;
+n  : positive_integer := swsrh.segments;
+td : positive_length_measure := swsrh.segment_depths[1];
+END_LOCAL;
+
+IF n = 1 
+THEN RETURN(td);
+ELSE
+  REPEAT i := 2 TO n;
+    td := td + swsrh.segment_depths[i];
+  END_REPEAT;
+END_IF;
+RETURN(td);
+END_FUNCTION;
+
+FUNCTION conditional_reverse
+	(p: BOOLEAN; an_item: reversible_topology) : reversible_topology;
+IF p THEN
+     RETURN (an_item);
+   ELSE
+     RETURN (topology_reversed (an_item));
+   END_IF;
+END_FUNCTION;
+
+FUNCTION constraints_composite_curve_on_surface
+	(c: composite_curve_on_surface) : BOOLEAN;
+   LOCAL
+     n_segments : INTEGER := SIZEOF(c.segments);
+   END_LOCAL;
+        
+   REPEAT k := 1 TO n_segments;
+     IF (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN 
+           TYPEOF(c\composite_curve.segments[k].parent_curve))) AND
+        (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN 
+           TYPEOF(c\composite_curve.segments[k].parent_curve))) AND
+        (NOT('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE_ON_SURFACE' IN
+           TYPEOF(c\composite_curve.segments[k].parent_curve)))  THEN
+       RETURN (FALSE);
+     END_IF;
+   END_REPEAT;
+   RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION constraints_geometry_shell_based_surface_model
+	(m: shell_based_surface_model) : BOOLEAN;
+   LOCAL
+     result : BOOLEAN := TRUE;
+   END_LOCAL;
+   
+   REPEAT j := 1 TO SIZEOF(m.sbsm_boundary);
+     IF (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OPEN_SHELL' IN
+                     TYPEOF(m.sbsm_boundary[j])) AND
+        (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CLOSED_SHELL' IN
+           TYPEOF(m.sbsm_boundary[j]))))
+     THEN
+       result := FALSE;
+       RETURN(result);
+       (* A surface model is composed of OPEN_ and CLOSED_SHELLs. *)
+     END_IF;
+   END_REPEAT;
+   RETURN(result);
+END_FUNCTION;
+
+FUNCTION constraints_geometry_shell_based_wireframe_model
+	(m: shell_based_wireframe_model) : BOOLEAN;
+   LOCAL
+     result : BOOLEAN := TRUE;
+   END_LOCAL;
+
+   REPEAT j := 1 TO SIZEOF(m.sbwm_boundary);
+     IF (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.WIRE_SHELL' IN
+                    TYPEOF(m.sbwm_boundary[j])) AND
+        (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VERTEX_SHELL' IN
+                      TYPEOF(m.sbwm_boundary[j]))))
+     THEN
+       result := FALSE;
+       RETURN(result);
+       (* A wireframe model is composed of WIRE_ and VERTEX_SHELLs *)
+     END_IF;
+   END_REPEAT;
+   RETURN(result);
+END_FUNCTION;
+
+FUNCTION constraints_param_b_spline
+	(degree: INTEGER; up_knots: INTEGER; up_cp: INTEGER; knot_mult: LIST [0:?] OF INTEGER; knots: LIST [0:?] OF parameter_value) : BOOLEAN;
+   LOCAL
+     result  : BOOLEAN := TRUE;
+     k, sum  : INTEGER;
+   END_LOCAL;
+   
+   (* Find sum of knot multiplicities. *)
+   sum := knot_mult[1];
+   
+   REPEAT i := 2 TO up_knots;
+     sum := sum + knot_mult[i];
+   END_REPEAT;
+   
+   (* Check limits holding for all B-spline parametrisations *)
+   IF (degree < 1) OR (up_knots < 2) OR (up_cp < degree) OR
+         (sum <> (degree + up_cp + 2)) THEN
+     result := FALSE;
+     RETURN(result);
+   END_IF;
+   
+   k := knot_mult[1];
+   
+   IF (k < 1) OR (k > degree + 1) THEN
+     result := FALSE;
+     RETURN(result);
+   END_IF;
+      
+   REPEAT i := 2 TO up_knots;
+     IF (knot_mult[i] < 1) OR (knots[i] <= knots[i-1]) THEN
+       result := FALSE;
+       RETURN(result);
+     END_IF;
+        
+     k := knot_mult[i];
+     
+     IF (i < up_knots) AND (k > degree) THEN
+       result := FALSE;
+       RETURN(result);
+     END_IF;
+        
+     IF (i = up_knots) AND (k > degree + 1) THEN
+       result := FALSE;
+       RETURN(result);
+     END_IF;
+   END_REPEAT;
+   RETURN(result);
+END_FUNCTION;
+
+FUNCTION constraints_rectangular_composite_surface
+	(s: rectangular_composite_surface) : BOOLEAN;
+REPEAT i := 1 TO s.n_u;
+       REPEAT j := 1 TO s.n_v;
+         IF NOT (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE' IN TYPEOF
+                    (s.segments[i][j].parent_surface)) OR
+                 ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RECTANGULAR_TRIMMED_SURFACE' IN TYPEOF
+                    (s.segments[i][j].parent_surface))) THEN
+           RETURN(FALSE);
+       END_IF;
+     END_REPEAT;
+   END_REPEAT;
+
+   (* Check the transition codes, omitting the last row or column *)
+   REPEAT i := 1 TO s.n_u-1;
+     REPEAT j := 1 TO s.n_v;
+       IF s.segments[i][j].u_transition = discontinuous THEN
+         RETURN(FALSE);
+       END_IF;
+     END_REPEAT;
+   END_REPEAT;
+   
+   REPEAT i := 1 TO s.n_u;
+     REPEAT j := 1 TO s.n_v-1;
+       IF s.segments[i][j].v_transition = discontinuous THEN
+         RETURN(FALSE);
+       END_IF;
+     END_REPEAT;
+   END_REPEAT;
+   RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION control_characters_free
+	(s: STRING) : BOOLEAN;
+    LOCAL
+      ch : STRING;
+    END_LOCAL;
+
+    REPEAT i:=1 TO LENGTH(s);
+      ch := s[i];
+      IF (ch = '\x9') OR (ch = '\xA') OR (ch = '\xD') THEN
+        RETURN(FALSE);
+      END_IF;
+    END_REPEAT;
+    RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION cross_product
+	(arg1: direction; arg2: direction) : vector;
+  LOCAL
+    mag    : REAL;
+    res    : direction;
+    v1,v2  : LIST[3:3] OF REAL;
+    result : vector;
+  END_LOCAL;
+  
+  IF ( NOT EXISTS (arg1) OR (arg1.dim = 2)) OR
+     ( NOT EXISTS (arg2) OR (arg2.dim = 2)) THEN
+    RETURN(?);
+  ELSE
+    BEGIN
+      v1  := normalise(arg1).direction_ratios;
+      v2  := normalise(arg2).direction_ratios;
+      res := dummy_gri || direction([(v1[2]*v2[3] - v1[3]*v2[2]),
+            (v1[3]*v2[1] - v1[1]*v2[3]), (v1[1]*v2[2] - v1[2]*v2[1])]);
+      mag := 0.0;
+      REPEAT i := 1 TO 3;
+        mag := mag + res.direction_ratios[i]*res.direction_ratios[i];
+      END_REPEAT;
+      IF (mag > 0.0) THEN
+        result := dummy_gri || vector(res, SQRT(mag));
+      ELSE
+        result := dummy_gri || vector(arg1, 0.0);
+      END_IF;
+      RETURN(result);
+    END;
+  END_IF;
+END_FUNCTION;
+
+FUNCTION curve_weights_positive
+	(b: rational_b_spline_curve) : BOOLEAN;
+   LOCAL
+     result : BOOLEAN := TRUE;
+   END_LOCAL;
+
+   REPEAT i := 0 TO b.upper_index_on_control_points;
+     IF b.weights[i] <= 0.0  THEN
+       result := FALSE;
+       RETURN(result);
+     END_IF;
+   END_REPEAT;
+   RETURN(result);
+END_FUNCTION;
+
+FUNCTION default_tolerance_table_cell_wr2
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN 
+IF SIZEOF(agg) <= 5 THEN 
+  RETURN(TRUE); 
+ELSE 
+  RETURN(FALSE); 
+END_IF; 
+END;
+END_FUNCTION;
+
+FUNCTION default_tolerance_table_cell_wr3
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN 
+IF (SIZEOF(QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) 
+  AND (i\representation_item.name = 'significant number of digits')) )) = 1) OR 
+((SIZEOF(QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  (i\representation_item.name = 'lower limit')) )) = 1) AND 
+(SIZEOF( QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  (i\representation_item.name = 'upper limit')) )) = 1)) THEN 
+  RETURN(TRUE); 
+ELSE 
+  RETURN(FALSE); 
+END_IF; 
+END;
+END_FUNCTION;
+
+FUNCTION default_tolerance_table_cell_wr4
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN 
+IF (SIZEOF(QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  (i\representation_item.name = 'plus minus tolerance value')) )) = 1) OR 
+((SIZEOF(QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND (
+  i\representation_item.name = 'lower tolerance value')) )) = 1) AND 
+(SIZEOF( QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND (
+  i\representation_item.name = 'upper tolerance value')) )) = 1)) THEN 
+  RETURN(TRUE); 
+ELSE 
+  RETURN(FALSE); 
+END_IF; 
+END;
+END_FUNCTION;
+
+FUNCTION default_tolerance_table_cell_wr5
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN 
+IF (SIZEOF(QUERY ( i <* agg | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF(i)) )) <= 1) AND 
+(SIZEOF(QUERY ( i <* agg | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF(i)) )) = 
+  SIZEOF(QUERY ( i <* agg | (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF(i)) AND 
+  (i\representation_item.name = 'cell description'))) )) 
+THEN 
+  RETURN(TRUE); 
+ELSE 
+  RETURN(FALSE); 
+END_IF; 
+END;
+END_FUNCTION;
+
+FUNCTION dependently_instantiated
+	(set_of_input_instances: SET [0:?] OF GENERIC: igen; set_of_input_types: SET [0:?] OF STRING; previous_in_chain: LIST [0:?] OF GENERIC: cgen) : BOOLEAN;
+LOCAL
+  number_of_input_instances     : INTEGER;
+  number_of_referring_instances : INTEGER;
+  bag_of_referring_instances    : BAG OF GENERIC:igen := [];
+  dependently_instantiated_flag : BOOLEAN;
+  previous_in_chain_plus        : LIST OF GENERIC:cgen := [];
+  result                        : BOOLEAN := true;
+  set_of_types                  : SET OF STRING := [];
+END_LOCAL;
+
+IF EXISTS(set_of_input_instances) THEN
+  number_of_input_instances := SIZEOF(set_of_input_instances);
+  (* Add the declared type of bag_of_referring_instances to the set of
+     types of the REFERENCEd instances for the subset comparison later.
+   *)
+  set_of_input_types := set_of_input_types + 'GENERIC';
+  REPEAT i:=1 TO number_of_input_instances;
+    (* Determine all references to the current input instance. *)
+    bag_of_referring_instances := USEDIN (set_of_input_instances[i] , '');
+    IF EXISTS(bag_of_referring_instances) THEN
+      number_of_referring_instances := SIZEOF(bag_of_referring_instances);
+      dependently_instantiated_flag := false;
+      REPEAT j:=1 TO number_of_referring_instances;
+        (* Determine the type strings of the current referencing instance.
+         *)
+        set_of_types := TYPEOF(bag_of_referring_instances[j]);
+        (* If the referencing instance is of one of the types of the
+           only dependently instantiable select items, the current input
+           instance may still be invalidly instantiated.
+           Otherwise it is OK, and the next input instance is tested.
+         *)
+        IF set_of_types <= set_of_input_types THEN -- subset operator
+          (* The referring instance is of one of the restricted types.
+             However, it may itself be referred to by a valid instance;
+             then also the current instance would be valid.
+             Thus, call this function recursively with the referring
+             instance as input.
+             To avoid an infinite loop in case a set of instances
+             reference each other in a closed loop, test first whether
+             the current referencing instance is in the list of
+             previously processed chain members.
+           *)
+          IF NOT (bag_of_referring_instances[j] IN previous_in_chain) THEN
+            previous_in_chain_plus := previous_in_chain +
+            set_of_input_instances[i];
+            IF dependently_instantiated([bag_of_referring_instances[j]],
+              set_of_input_types,
+              previous_in_chain_plus) THEN
+              dependently_instantiated_flag := true;
+              ESCAPE; -- dependently instantiated; next input instance
+            ELSE
+              (* Not dependently instantiated: go to next referring
+              instance. *)
+              SKIP;
+            END_IF;
+          END_IF;
+        ELSE
+          dependently_instantiated_flag := true;
+          ESCAPE; -- dependently instantiated; take next input instance
+        END_IF;
+      END_REPEAT;
+      IF NOT dependently_instantiated_flag THEN
+        RETURN(false);
+      END_IF;
+    ELSE
+      RETURN(false); -- not referenced at all => invalidly instantiated
+    END_IF;
+  END_REPEAT;
+ELSE
+  RETURN(false); -- no input
+END_IF;
+
+RETURN(true);
+END_FUNCTION;
+
+FUNCTION derive_angle
+	(placement_1: axis2_placement_3d; placement_2: axis2_placement_3d) : plane_angle_measure;
+    LOCAL
+      v1     : direction;
+      v2     : direction;
+      mag_v1 : REAL;
+      mag_v2 : REAL;
+      theta  : plane_angle_measure;
+    END_LOCAL;
+    v1 := placement_1.p[1];
+    v2 := placement_2.p[1];
+    mag_v1 := SQRT (v1.direction_ratios[1]*v1.direction_ratios[1] +
+                    v1.direction_ratios[2]*v1.direction_ratios[2]);
+    mag_v2 := SQRT (v2.direction_ratios[1]*v2.direction_ratios[1] +
+                    v2.direction_ratios[2]*v2.direction_ratios[2]);
+    IF ((mag_v1 = 0.0) OR (mag_v2 = 0.0)) THEN
+      theta := 0.0;
+      RETURN (theta);
+    END_IF;
+    theta := ACOS ((v1.direction_ratios[1]*v2.direction_ratios[1] +
+                    v1.direction_ratios[2]*v2.direction_ratios[2]) /
+                   (mag_v1*mag_v2));
+    RETURN (theta);
+END_FUNCTION;
+
+FUNCTION derive_dimensional_exponents
+	(x: unit) : dimensional_exponents;
+    LOCAL
+      result : dimensional_exponents := dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0);
+    END_LOCAL;
+
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DERIVED_UNIT' IN TYPEOF(x) THEN
+      REPEAT i := LOINDEX(x\derived_unit.elements) TO HIINDEX(x\derived_unit.elements);
+        result.length_exponent := result.length_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.length_exponent);
+        result.mass_exponent := result.mass_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.mass_exponent);
+        result.time_exponent := result.time_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.time_exponent);
+        result.electric_current_exponent := result.electric_current_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.electric_current_exponent);
+        result.thermodynamic_temperature_exponent := result.thermodynamic_temperature_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.thermodynamic_temperature_exponent);
+        result.amount_of_substance_exponent := result.amount_of_substance_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.amount_of_substance_exponent);
+        result.luminous_intensity_exponent := result.luminous_intensity_exponent + 
+        (x\derived_unit.elements[i]\derived_unit_element.exponent * 
+         x\derived_unit.elements[i]\derived_unit_element.unit\named_unit.dimensions.luminous_intensity_exponent);
+      END_REPEAT;
+    ELSE
+      result := x\named_unit.dimensions;
+    END_IF;
+    RETURN (result);
+END_FUNCTION;
+
+FUNCTION dimension_of
+	(item: geometric_representation_item) : dimension_count;
+  LOCAL
+    x   : SET OF representation;
+    y   : representation_context;
+    dim : dimension_count;
+  END_LOCAL;
+  -- For cartesian_point, direction, or vector dimension is determined by
+  -- counting components.
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF(item) THEN
+       dim := SIZEOF(item\cartesian_point.coordinates);
+       RETURN(dim);
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIRECTION' IN TYPEOF(item) THEN
+       dim := SIZEOF(item\direction.direction_ratios);
+       RETURN(dim);
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF(item) THEN
+       dim := SIZEOF(item\vector.orientation\direction.direction_ratios);
+       RETURN(dim);
+    END_IF;
+  -- For all other types of geometric_representation_item dim is obtained
+  -- via context.
+  -- Find the set of representation in which the item is used. 
+
+  x := using_representations(item);
+
+  -- Determines the dimension_count of the 
+  -- geometric_representation_context. Note that the 
+  -- RULE compatible_dimension ensures that the context_of_items
+  -- is of type geometric_representation_context and has
+  -- the same dimension_count for all values of x.
+  -- The SET x is non-empty since this is required by WR1 of
+  -- representation_item.
+    y := x[1].context_of_items;
+    dim := y\geometric_representation_context.coordinate_space_dimension;
+    RETURN (dim);
+END_FUNCTION;
+
+FUNCTION dimensions_for_si_unit
+	(n: si_unit_name) : dimensional_exponents;
+CASE n OF 
+      metre:
+        RETURN (dimensional_exponents(1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0));
+      gram:
+        RETURN (dimensional_exponents(0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0));
+      second:
+        RETURN (dimensional_exponents(0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0));
+      ampere:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0));
+      kelvin:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0));
+      mole:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0));
+      candela:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0));
+      radian:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0));
+      steradian:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0));
+      hertz:
+        RETURN (dimensional_exponents(0.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0));
+      newton:
+        RETURN (dimensional_exponents(1.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0));
+      pascal:
+        RETURN (dimensional_exponents(-1.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0));
+      joule:
+        RETURN (dimensional_exponents(2.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0));
+      watt:
+        RETURN (dimensional_exponents(2.0, 1.0, -3.0, 0.0, 0.0, 0.0, 0.0));
+      coulomb:
+        RETURN (dimensional_exponents(0.0, 0.0, 1.0, 1.0, 0.0, 0.0, 0.0));
+      volt:
+        RETURN (dimensional_exponents(2.0, 1.0, -3.0, -1.0, 0.0, 0.0, 0.0));
+      farad:
+        RETURN (dimensional_exponents(-2.0, -1.0, 4.0, 1.0, 0.0, 0.0, 0.0));
+      ohm:
+        RETURN (dimensional_exponents(2.0, 1.0, -3.0, -2.0, 0.0, 0.0, 0.0));
+      siemens:
+        RETURN (dimensional_exponents(-2.0, -1.0, 3.0, 2.0, 0.0, 0.0, 0.0));
+      weber:
+        RETURN (dimensional_exponents(2.0, 1.0, -2.0, -1.0, 0.0, 0.0, 0.0));
+      tesla:
+        RETURN (dimensional_exponents(0.0, 1.0, -2.0, -1.0, 0.0, 0.0, 0.0));
+      henry:
+        RETURN (dimensional_exponents(2.0, 1.0, -2.0, -2.0, 0.0, 0.0, 0.0));
+      degree_Celsius:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0));
+      lumen:
+        RETURN (dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0));
+      lux:
+        RETURN (dimensional_exponents(-2.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0));
+      becquerel:
+        RETURN (dimensional_exponents(0.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0));
+      gray:
+        RETURN (dimensional_exponents(2.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0));
+      sievert:
+        RETURN (dimensional_exponents(2.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0));
+      OTHERWISE:
+        RETURN (?);
+    END_CASE;
+END_FUNCTION;
+
+FUNCTION dot_product
+	(arg1: direction; arg2: direction) : REAL;
+   LOCAL
+     scalar : REAL;
+     vec1, vec2: direction;
+     ndim : INTEGER;
+   END_LOCAL;
+   
+   IF NOT EXISTS (arg1) OR NOT EXISTS (arg2) THEN
+     scalar := ?;
+     (* When function is called with invalid data an indeterminate result
+     is returned *)
+   ELSE
+     IF (arg1.dim <> arg2.dim) THEN
+       scalar := ?;
+     (* When function is called with invalid data an indeterminate result
+     is returned *)
+     ELSE
+       BEGIN
+         vec1   := normalise(arg1);
+         vec2   := normalise(arg2);
+         ndim   := arg1.dim;
+         scalar := 0.0;
+         REPEAT  i := 1 TO ndim;
+           scalar := scalar +
+                       vec1.direction_ratios[i]*vec2.direction_ratios[i];
+         END_REPEAT;
+       END;
+     END_IF;
+   END_IF;
+   RETURN (scalar);
+END_FUNCTION;
+
+FUNCTION edge_reversed
+	(an_edge: edge) : oriented_edge;
+   LOCAL
+     the_reverse : oriented_edge;
+   END_LOCAL;
+
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_EDGE' IN TYPEOF (an_edge) ) THEN
+     the_reverse  := dummy_tri ||
+             edge(an_edge.edge_end, an_edge.edge_start) ||
+             oriented_edge(an_edge\oriented_edge.edge_element,
+                        NOT (an_edge\oriented_edge.orientation)) ;
+   ELSE
+     the_reverse := dummy_tri ||
+             edge(an_edge.edge_end, an_edge.edge_start) ||
+             oriented_edge(an_edge, FALSE);
+   END_IF;
+   RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION external_version_assignment_is_valid
+	(aia: applied_external_identification_assignment) : BOOLEAN;
+    LOCAL
+      item: identification_item;
+      role: identification_role;
+    END_LOCAL;
+      role:= aia.role;
+      IF role.name='version' THEN
+        REPEAT i:=LOINDEX(aia.items) TO HIINDEX(aia.items);
+          item:= aia.items[i];
+          IF (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'EXTERNALLY_VERSIONED_ITEM']*TYPEOF(item))=0) THEN
+            -- item invalid if item does not belong to versionable types
+	        RETURN(FALSE);
+          END_IF;
+        END_REPEAT;
+        RETURN(TRUE);
+      ELSE		-- case where aia does not convey a version id
+        RETURN(TRUE);
+      END_IF;
+END_FUNCTION;
+
+FUNCTION face_bound_reversed
+	(a_face_bound: face_bound) : face_bound;
+   LOCAL
+     the_reverse : face_bound ;
+   END_LOCAL;
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_OUTER_BOUND' IN TYPEOF (a_face_bound) ) THEN
+     the_reverse := dummy_tri ||
+                      face_bound(a_face_bound\face_bound.bound,
+                           NOT (a_face_bound\face_bound.orientation))
+                            || face_outer_bound() ;
+   ELSE
+     the_reverse := dummy_tri ||
+         face_bound(a_face_bound.bound, NOT(a_face_bound.orientation));
+   END_IF;
+  RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION face_reversed
+	(a_face: face) : oriented_face;
+   LOCAL
+     the_reverse : oriented_face ;
+   END_LOCAL;
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_FACE' IN TYPEOF (a_face) ) THEN
+     the_reverse := dummy_tri ||
+       face(set_of_topology_reversed(a_face.bounds)) ||
+          oriented_face(a_face\oriented_face.face_element,
+                           NOT (a_face\oriented_face.orientation)) ;
+   ELSE
+     the_reverse := dummy_tri ||
+       face(set_of_topology_reversed(a_face.bounds)) ||
+                               oriented_face(a_face, FALSE) ;
+   END_IF;
+      RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION first_proj_axis
+	(z_axis: direction; arg: direction) : direction;
+  LOCAL
+    x_axis : direction;
+    v      : direction;
+    z      : direction;
+    x_vec  : vector;
+  END_LOCAL;
+  
+  IF (NOT EXISTS(z_axis)) THEN
+    RETURN (?) ;
+  ELSE
+    z := normalise(z_axis);
+    IF NOT EXISTS(arg) THEN
+      IF ((z.direction_ratios <> [1.0,0.0,0.0]) AND
+          (z.direction_ratios <> [-1.0,0.0,0.0]))  THEN
+        v :=  dummy_gri || direction([1.0,0.0,0.0]);
+      ELSE
+        v := dummy_gri || direction([0.0,1.0,0.0]);
+      END_IF;
+    ELSE
+      IF  (arg.dim <> 3) THEN
+        RETURN (?) ;
+      END_IF;
+      IF ((cross_product(arg,z).magnitude) = 0.0) THEN
+        RETURN (?);
+      ELSE
+        v := normalise(arg);
+      END_IF;
+    END_IF;
+    x_vec := scalar_times_vector(dot_product(v, z), z);
+    x_axis := vector_difference(v, x_vec).orientation;
+    x_axis := normalise(x_axis);
+  END_IF;
+  RETURN(x_axis);
+END_FUNCTION;
+
+FUNCTION gbsf_check_curve
+	(cv: representation_item) : BOOLEAN;
+IF SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D'] * TYPEOF(cv)) > 1 THEN
+    RETURN (FALSE);
+  END_IF;
+  IF SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TRIMMED_CURVE'] * TYPEOF(cv)) = 1 THEN
+    RETURN (TRUE);
+  ELSE
+    IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF(cv)) AND (cv\b_spline_curve.self_intersect = FALSE) OR (cv\b_spline_curve.self_intersect = UNKNOWN)) THEN
+      RETURN (TRUE);
+    ELSE
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE' IN TYPEOF(cv)) AND (cv\composite_curve.self_intersect = FALSE) OR (cv\composite_curve.self_intersect = UNKNOWN)) THEN
+        RETURN (SIZEOF(QUERY(seg <* cv\composite_curve.segments | NOT (gbsf_check_curve(seg.parent_curve)))) = 0);
+      ELSE
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA' IN TYPEOF(cv) THEN
+          RETURN (gbsf_check_curve(cv\curve_replica.parent_curve));
+        ELSE
+          IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D' IN TYPEOF(cv)) AND ((cv\offset_curve_3d.self_intersect = FALSE) OR (cv\offset_curve_3d.self_intersect = UNKNOWN)) AND (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF(cv\offset_curve_3d.basis_curve)))) THEN
+            RETURN (gbsf_check_curve(cv\offset_curve_3d.basis_curve));
+          ELSE
+            IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(cv) THEN
+              RETURN ((gbsf_check_curve(cv\pcurve.reference_to_curve\representation.items[1])) AND (gbsf_check_surface(cv\pcurve.basis_surface)));
+            ELSE
+              IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF(cv) THEN
+                IF (SIZEOF(cv\polyline.points) >= 3) THEN
+                  RETURN (TRUE);
+                END_IF;
+              ELSE
+                IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF(cv) THEN
+                  IF gbsf_check_curve(cv\surface_curve.curve_3d) THEN
+                    REPEAT i := 1 TO SIZEOF(cv\surface_curve.associated_geometry);
+                      IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN TYPEOF(cv\surface_curve.associated_geometry[i]) THEN
+                        IF NOT gbsf_check_surface(cv\surface_curve.associated_geometry[i]) THEN
+                          RETURN (FALSE);
+                        END_IF;
+                      ELSE
+                        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(cv\surface_curve.associated_geometry[i]) THEN
+                          IF NOT gbsf_check_curve(cv\surface_curve.associated_geometry[i]) THEN
+                            RETURN (FALSE);
+                          END_IF;
+                        END_IF;
+                      END_IF;
+                    END_REPEAT;
+                    RETURN (TRUE);
+                  END_IF;
+                END_IF;
+              END_IF;
+            END_IF;
+          END_IF;
+        END_IF;
+      END_IF;
+    END_IF;
+  END_IF;
+  RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION gbsf_check_point
+	(pnt: point) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF(pnt) THEN
+    RETURN (TRUE);
+  ELSE
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE' IN TYPEOF(pnt) THEN
+      RETURN (gbsf_check_curve(pnt\point_on_curve.basis_curve));
+    ELSE
+      IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_SURFACE' IN TYPEOF(pnt) THEN
+        RETURN (gbsf_check_surface(pnt\point_on_surface.basis_surface));
+      ELSE
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DEGENERATE_PCURVE' IN TYPEOF(pnt) THEN
+          RETURN ((gbsf_check_curve(pnt\degenerate_pcurve.reference_to_curve\representation.items[1])) AND (gbsf_check_surface(pnt\degenerate_pcurve.basis_surface)));
+        END_IF;
+      END_IF;
+    END_IF;
+  END_IF;
+  RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION gbsf_check_surface
+	(sf: surface) : BOOLEAN;
+IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE' IN TYPEOF(sf)) AND (sf\b_spline_surface.self_intersect = FALSE) OR (sf\b_spline_surface.self_intersect = UNKNOWN)) THEN
+    RETURN (TRUE);
+  ELSE
+    IF SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SPHERICAL_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TOROIDAL_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_BOUNDED_SURFACE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RECTANGULAR_TRIMMED_SURFACE'] * TYPEOF(sf)) = 1 THEN
+      RETURN (TRUE);
+    ELSE
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_SURFACE' IN TYPEOF(sf)) AND (sf\offset_surface.self_intersect = FALSE) OR (sf\offset_surface.self_intersect = UNKNOWN)) THEN
+        RETURN (gbsf_check_surface(sf\offset_surface.basis_surface));
+      ELSE
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RECTANGULAR_COMPOSITE_SURFACE' IN TYPEOF(sf) THEN
+          REPEAT i := 1 TO SIZEOF(sf\rectangular_composite_surface.segments);
+            REPEAT j := 1 TO SIZEOF(sf\rectangular_composite_surface.segments[i]);
+              IF NOT (gbsf_check_surface(sf\rectangular_composite_surface.segments[i][j].parent_surface)) THEN
+                RETURN (FALSE);
+              END_IF;
+            END_REPEAT;
+          END_REPEAT;
+          RETURN (TRUE);
+        ELSE
+          IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_REPLICA' IN TYPEOF(sf) THEN
+            RETURN (gbsf_check_surface(sf\surface_replica.parent_surface));
+          ELSE
+            IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_OF_REVOLUTION' IN TYPEOF(sf) THEN
+              RETURN (gbsf_check_curve(sf\swept_surface.swept_curve));
+            END_IF;
+          END_IF;
+        END_IF;
+      END_IF;
+    END_IF;
+  END_IF;
+  RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION get_basis_surface
+	(c: curve_on_surface) : SET [0:2] OF surface;
+  LOCAL
+    surfs  : SET[0:2] OF surface;
+    n      : INTEGER;
+  END_LOCAL;
+  surfs := [];
+  IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF (c) THEN
+    surfs := [c\pcurve.basis_surface];
+  ELSE
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF (c) THEN
+      n := SIZEOF(c\surface_curve.associated_geometry);
+      REPEAT i := 1 TO n;
+      surfs := surfs +
+                associated_surface(c\surface_curve.associated_geometry[i]);
+      END_REPEAT;
+    END_IF;
+  END_IF;
+  IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE_ON_SURFACE' IN TYPEOF (c) THEN
+   (* For a composite_curve_on_surface the basis_surface is the intersection
+    of the basis_surfaces of all the segments. *)
+     n := SIZEOF(c\composite_curve.segments);
+     surfs := get_basis_surface(
+                     c\composite_curve.segments[1].parent_curve);
+     IF n > 1 THEN
+       REPEAT i := 2 TO n;
+         surfs := surfs * get_basis_surface(
+                  c\composite_curve.segments[i].parent_curve);
+       END_REPEAT;
+     END_IF;
+
+  END_IF;
+  RETURN(surfs);
+END_FUNCTION;
+
+FUNCTION get_description_value
+	(obj: description_attribute_select) : text;
+    LOCAL
+      description_bag : BAG OF description_attribute := (USEDIN(obj, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'DESCRIPTION_ATTRIBUTE.' + 'DESCRIBED_ITEM'));
+    END_LOCAL;
+
+    IF SIZEOF(description_bag) = 1 THEN
+      RETURN (description_bag[1].attribute_value);
+    ELSE
+      RETURN (?);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION get_id_value
+	(obj: id_attribute_select) : identifier;
+    LOCAL
+      id_bag : BAG OF id_attribute := (USEDIN(obj, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ID_ATTRIBUTE.' + 'IDENTIFIED_ITEM'));
+    END_LOCAL;
+
+    IF SIZEOF(id_bag) = 1 THEN
+      RETURN (id_bag[1].attribute_value);
+    ELSE
+      RETURN (?);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION get_name_value
+	(obj: name_attribute_select) : label;
+    LOCAL
+      name_bag : BAG OF name_attribute := (USEDIN(obj, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'NAME_ATTRIBUTE.' + 'NAMED_ITEM'));
+    END_LOCAL;
+
+    IF SIZEOF(name_bag) = 1 THEN
+      RETURN (name_bag[1].attribute_value);
+    ELSE
+      RETURN (?);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION get_role
+	(obj: role_select) : object_role;
+    LOCAL
+      role_bag : BAG OF role_association := (USEDIN(obj, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'ROLE_ASSOCIATION.' + 'ITEM_WITH_ROLE'));
+    END_LOCAL;
+
+    IF SIZEOF(role_bag) = 1 THEN
+      RETURN (role_bag[1].role);
+    ELSE
+      RETURN (?);
+    END_IF;
+END_FUNCTION;
+
+FUNCTION get_shape_aspect_property_definition_representations
+	(s_a_instance: shape_aspect) : SET [0:?] OF property_definition_representation;
+LOCAL
+pd_set : SET OF property_definition := [];
+pdr_set : SET OF property_definition_representation := [] ;
+END_LOCAL;
+pd_set := bag_to_set(USEDIN(s_a_instance, 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROPERTY_DEFINITION.DEFINITION'));
+IF (SIZEOF(pd_set) < 1) THEN
+RETURN (pdr_set);
+END_IF;
+REPEAT i := 1 TO HIINDEX(pd_set);
+pdr_set := pdr_set + (QUERY(pdr <* USEDIN(pd_set[i], 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'PROPERTY_DEFINITION_REPRESENTATION.' + 'DEFINITION') |
+'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_DEFINITION_REPRESENTATION' IN TYPEOF(pdr)));
+END_REPEAT;
+RETURN (pdr_set);
+END_FUNCTION;
+
+FUNCTION is_acyclic
+	(arg: generic_expression) : BOOLEAN;
+RETURN (acyclic (arg, []));
+END_FUNCTION;
+
+FUNCTION is_int_expr
+	(arg: numeric_expression) : LOGICAL;
+LOCAL
+	i: INTEGER := 0;
+END_LOCAL;
+
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INT_LITERAL' IN TYPEOF(arg) 
+THEN 
+	RETURN (TRUE); 
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REAL_LITERAL' IN TYPEOF(arg) 
+THEN 
+	RETURN (FALSE); 
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INT_NUMERIC_VARIABLE' IN TYPEOF(arg) 
+THEN 
+	RETURN (TRUE); 
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REAL_NUMERIC_VARIABLE' IN TYPEOF(arg) 
+THEN 
+	RETURN (FALSE); 
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ABS_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	RETURN (is_int_expr(arg\unary_numeric_expression.operand));
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINUS_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	RETURN (is_int_expr(arg\unary_numeric_expression.operand)); 
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIN_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COS_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TAN_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ASIN_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ACOS_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ATAN_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXP_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG2_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG10_FUNCTION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SQUARE_ROOT_FUNCTION' 
+								IN TYPEOF(arg))
+THEN 
+	RETURN (FALSE);
+END_IF;
+IF 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLUS_EXPRESSION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MULT_EXPRESSION' 
+								IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAXIMUM_FUNCTION'
+								IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINIMUM_FUNCTION'
+								IN TYPEOF(arg)) 
+THEN 
+	REPEAT i :=1 TO SIZEOF (
+			arg\multiple_arity_numeric_expression.operands);
+	IF NOT 
+		is_int_expr(arg\multiple_arity_numeric_expression.operands[i]) 
+	THEN 
+		RETURN (FALSE);
+	END_IF;
+	END_REPEAT;
+	RETURN (TRUE);
+END_IF;
+IF 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINUS_EXPRESSION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POWER_EXPRESSION' 
+								IN TYPEOF(arg))
+THEN 
+	RETURN (is_int_expr(arg\binary_numeric_expression.operands[1])
+		AND is_int_expr(arg\binary_numeric_expression.operands[2]));
+END_IF;
+IF	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIV_EXPRESSION' IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MOD_EXPRESSION' IN TYPEOF(arg))
+THEN 
+	RETURN(TRUE);	
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SLASH_EXPRESSION' IN TYPEOF(arg) 
+THEN 
+	RETURN (FALSE); 	
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	RETURN (TRUE); 
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INT_VALUE_FUNCTION' 
+								IN TYPEOF(arg) 
+	THEN 
+		RETURN (TRUE); 
+	ELSE 
+		RETURN (FALSE); 
+	END_IF;
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INTEGER_DEFINED_FUNCTION' 
+								IN TYPEOF(arg)
+THEN 
+	RETURN(TRUE) ;
+END_IF;
+IF'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REAL_DEFINED_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	RETURN(FALSE) ;
+END_IF ;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOOLEAN_DEFINED_FUNCTION' 
+								IN TYPEOF(arg)
+THEN 
+	RETURN(FALSE) ;
+END_IF ;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_DEFINED_FUNCTION' 
+								IN TYPEOF(arg)
+THEN 
+	RETURN (FALSE) ;
+END_IF ;
+
+RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION is_SQL_mappable
+	(arg: expression) : LOGICAL;
+LOCAL
+	i: INTEGER;
+END_LOCAL;
+
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIMPLE_NUMERIC_EXPRESSION' 
+								IN TYPEOF (arg) 
+THEN 
+	RETURN (TRUE);
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SQL_MAPPABLE_DEFINED_FUNCTION' 
+								IN TYPEOF (arg) 
+THEN 
+	RETURN (TRUE);
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINUS_FUNCTION' IN TYPEOF(arg) 
+THEN 
+	RETURN (is_SQL_mappable(arg\unary_numeric_expression.operand)); 
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ABS_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIN_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COS_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TAN_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ASIN_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ACOS_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ATAN_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EXP_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG2_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LOG10_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SQUARE_ROOT_FUNCTION' 
+								IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_FUNCTION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_FUNCTION' 
+								IN TYPEOF(arg))
+THEN 
+	RETURN (FALSE);
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLUS_EXPRESSION' IN TYPEOF(arg)) 
+		OR('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MULT_EXPRESSION' IN TYPEOF(arg)) 
+		OR('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAXIMUM_FUNCTION' 
+								IN TYPEOF(arg)) 
+		OR('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINIMUM_FUNCTION' 
+								IN TYPEOF(arg)) 
+THEN 
+	REPEAT i :=1 TO SIZEOF (
+			arg\multiple_arity_numeric_expression.operands);
+		IF NOT is_SQL_mappable(
+			arg\multiple_arity_numeric_expression.operands[i])
+		THEN 
+			RETURN (FALSE);
+		END_IF;
+	END_REPEAT;
+RETURN (TRUE);
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MINUS_EXPRESSION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SLASH_EXPRESSION' IN 
+								TYPEOF(arg))
+THEN
+		RETURN (is_SQL_mappable(
+			arg\binary_numeric_expression.operands[1])
+		AND is_SQL_mappable(arg\binary_numeric_expression.operands[2]));
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DIV_EXPRESSION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MOD_EXPRESSION' IN TYPEOF(arg)) 
+		OR('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POWER_EXPRESSION' 
+								IN TYPEOF(arg))
+THEN 
+	RETURN (FALSE); 	
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIMPLE_BOOLEAN_EXPRESSION' 
+								IN TYPEOF (arg) 
+THEN 
+	RETURN (TRUE);
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NOT_EXPRESSION' IN TYPEOF (arg) 
+THEN 
+	RETURN (is_SQL_mappable (arg\UNARY_GENERIC_EXPRESSION.OPERAND));
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ODD_FUNCTION'IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.XOR_EXPRESSION' 
+								IN TYPEOF (arg)) 
+THEN	
+	RETURN (FALSE);
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AND_EXPRESSION' IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OR_EXPRESSION' IN TYPEOF (arg)) 
+THEN
+	REPEAT i:=1 TO SIZEOF (
+			arg\MULTIPLE_ARITY_BOOLEAN_EXPRESSION.OPERANDS);
+		IF NOT is_SQL_mappable (
+			arg\MULTIPLE_ARITY_BOOLEAN_EXPRESSION.OPERANDS[i]) 
+		THEN 
+			RETURN (FALSE);
+		END_IF;
+	END_REPEAT;
+	RETURN (TRUE);
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EQUALS_EXPRESSION' IN TYPEOF (arg) 
+THEN
+	RETURN(is_SQL_mappable (
+			arg\BINARY_GENERIC_EXPRESSION.OPERANDS [1])
+		AND is_SQL_mappable(
+			arg\BINARY_GENERIC_EXPRESSION.OPERANDS [2]));
+END_IF;
+IF	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_EQUAL' IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_GREATER' 
+								IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_GREATER_EQUAL'
+								IN TYPEOF (arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_LESS' 
+								IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_LESS_EQUAL' 
+								IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPARISON_NOT_EQUAL' 
+								IN TYPEOF (arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LIKE_EXPRESSION' 
+								IN TYPEOF (arg)) 
+THEN
+	RETURN (is_SQL_mappable (arg\COMPARISON_EXPRESSION.OPERANDS[1])
+		AND is_SQL_mappable (arg\COMPARISON_EXPRESSION.OPERANDS[2]));
+END_IF;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INTERVAL_EXPRESSION' IN TYPEOF(arg) 
+THEN 
+	RETURN (is_SQL_mappable(arg\interval_expression.interval_low) 
+		AND is_SQL_mappable(arg\interval_expression.interval_high)
+		AND is_SQL_mappable(arg\interval_expression.interval_item));
+END_IF;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.NUMERIC_DEFINED_FUNCTION' 
+								IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOOLEAN_DEFINED_FUNCTION' 
+								IN TYPEOF(arg))
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.STRING_DEFINED_FUNCTION' 
+								IN TYPEOF(arg))  
+THEN 
+		RETURN (FALSE) ;
+END_IF;
+
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SIMPLE_STRING_EXPRESSION' 
+								IN TYPEOF(ARG) 
+THEN 
+	RETURN (TRUE);
+END_IF;
+IF 	('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INDEX_EXPRESSION' IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SUBSTRING_EXPRESSION' 
+								IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONCAT_EXPRESSION' 
+								IN TYPEOF(arg)) 
+		OR ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FORMAT_FUNCTION' 
+								IN TYPEOF(arg)) 
+THEN 
+	RETURN (FALSE);
+END_IF;
+
+	RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION item_in_context
+	(item: representation_item; cntxt: representation_context) : BOOLEAN;
+    LOCAL
+      y : BAG OF representation_item;
+    END_LOCAL;
+    -- If there is one or more representation using both the item
+    -- and cntxt return true.
+    IF SIZEOF(USEDIN(item,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION.ITEMS')
+      * cntxt.representations_in_context) > 0 THEN
+      RETURN (TRUE);
+      -- Determine the bag of representation_items that reference
+      -- item
+      ELSE y := QUERY(z <* USEDIN (item , '') |
+             'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_ITEM' IN TYPEOF(z));
+        -- Ensure that the bag is not empty
+        IF SIZEOF(y) > 0 THEN
+        -- For each element in the bag
+        REPEAT i := 1 TO HIINDEX(y);
+          -- Check to see it is an item in the input cntxt.
+          IF item_in_context(y[i], cntxt) THEN
+            RETURN (TRUE);
+          END_IF;
+        END_REPEAT;
+      END_IF;
+    END_IF;
+    -- Return false when all possible branches have been checked
+    -- with no success.
+    RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION leap_year
+	(year: year_number) : BOOLEAN;
+IF ((((year MOD 4) = 0) AND ((year MOD 100) <> 0)) OR ((year MOD 400) = 0)) THEN
+    RETURN (TRUE);
+  ELSE
+    RETURN (FALSE);
+  END_IF;
+END_FUNCTION;
+
+FUNCTION list_face_loops
+	(f: face) : LIST [0:?] OF loop;
+   LOCAL
+     loops : LIST[0:?] OF loop := [];
+   END_LOCAL;
+   
+   REPEAT i := 1 TO SIZEOF(f.bounds);
+     loops := loops +(f.bounds[i].bound);
+   END_REPEAT;
+      
+   RETURN(loops);
+END_FUNCTION;
+
+FUNCTION list_of_topology_reversed
+	(a_list: list_of_reversible_topology_item) : list_of_reversible_topology_item;
+   LOCAL
+     the_reverse : list_of_reversible_topology_item;
+   END_LOCAL;
+    
+   the_reverse := [];
+   REPEAT i := 1 TO SIZEOF (a_list);
+     the_reverse := topology_reversed (a_list [i]) + the_reverse;
+   END_REPEAT;
+  
+   RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION list_to_array
+	(lis: LIST [0:?] OF GENERIC: T; low: INTEGER; u: INTEGER) : ARRAY [low:u] OF GENERIC: T;
+   LOCAL
+     n   : INTEGER;
+     res : ARRAY [low:u] OF GENERIC : T;
+   END_LOCAL;
+      
+   n := SIZEOF(lis);
+   IF (n <> (u-low +1)) THEN
+     RETURN(?);
+   ELSE
+     res := [lis[1] : n];
+     REPEAT i := 2 TO n;
+       res[low+i-1] := lis[i];
+     END_REPEAT;
+     RETURN(res);
+   END_IF;
+END_FUNCTION;
+
+FUNCTION list_to_set
+	(l: LIST [0:?] OF GENERIC: T) : SET [0:?] OF GENERIC: T;
+   LOCAL
+     s : SET OF GENERIC:T := [];
+   END_LOCAL;
+      
+   REPEAT i := 1 TO SIZEOF(l);
+     s := s + l[i];
+   END_REPEAT;
+   
+   RETURN(s);
+END_FUNCTION;
+
+FUNCTION make_array_of_array
+	(lis: LIST [1:?] OF LIST [1:?] OF GENERIC: T; low1: INTEGER; u1: INTEGER; low2: INTEGER; u2: INTEGER) : ARRAY [low1:u1] OF ARRAY [low2:u2] OF GENERIC: T;
+   LOCAL
+     res   : ARRAY[low1:u1] OF ARRAY [low2:u2] OF GENERIC : T;
+   END_LOCAL;
+
+(* Check input dimensions for consistency *)
+   IF (u1-low1+1) <> SIZEOF(lis) THEN
+     RETURN (?);
+   END_IF;
+   IF (u2 - low2 + 1 ) <> SIZEOF(lis[1]) THEN
+     RETURN (?) ;
+   END_IF;
+(* Initialise res with values from lis[1] *)
+   res := [list_to_array(lis[1], low2, u2) : (u1-low1 + 1)];
+   REPEAT i := 2 TO HIINDEX(lis);
+     IF (u2-low2+1) <> SIZEOF(lis[i]) THEN
+       RETURN (?);
+     END_IF;     
+     res[low1+i-1] := list_to_array(lis[i], low2, u2);
+   END_REPEAT; 
+   
+   RETURN (res);
+END_FUNCTION;
+
+FUNCTION mixed_loop_type_set
+	(l: SET [0:?] OF loop) : LOGICAL;
+    LOCAL
+      poly_loop_type: LOGICAL;
+    END_LOCAL;
+    IF(SIZEOF(l) <= 1) THEN
+      RETURN(FALSE);
+    END_IF;
+    poly_loop_type := ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLY_LOOP' IN TYPEOF(l[1]));
+    REPEAT i := 2 TO SIZEOF(l);
+      IF(('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLY_LOOP' IN TYPEOF(l[i])) <> poly_loop_type)
+          THEN
+          RETURN(TRUE);
+       END_IF;
+    END_REPEAT;
+    RETURN(FALSE);
+END_FUNCTION;
+
+FUNCTION msb_shells
+	(brep: manifold_solid_brep) : SET [1:?] OF closed_shell;
+    LOCAL   
+      return_set: SET[1:?] OF closed_shell := [brep.outer];   
+    END_LOCAL;   
+
+    IF SIZEOF(QUERY(msbtype <* TYPEOF(brep) |   
+                 msbtype LIKE '*BREP_WITH_VOIDS'))  >= 1    
+          THEN   
+       return_set := return_set + brep\brep_with_voids.voids;   
+    END_IF;   
+   RETURN(return_set);
+END_FUNCTION;
+
+FUNCTION msf_curve_check
+	(cv: representation_item) : BOOLEAN;
+IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE',
+  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+  'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D'] * TYPEOF(cv)) > 1 THEN
+  RETURN(FALSE);
+END_IF;
+
+(* b_spline_curves shall not self-intersect
+ *)
+IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF (cv)) AND
+  (cv\b_spline_curve.self_intersect = FALSE)OR
+  (cv\b_spline_curve.self_intersect = UNKNOWN)) THEN
+  RETURN(TRUE);
+ELSE
+
+  (* conics and lines are valid curve types
+   *)
+  IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE'] 
+    * TYPEOF (cv)) = 1 THEN
+    RETURN(TRUE);
+  ELSE
+
+    (* a curve_replica shall reference a valid curve
+     *)
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA' IN TYPEOF(cv) THEN
+      RETURN (msf_curve_check(cv\curve_replica.parent_curve)); 
+    ELSE 
+ 
+      (* an offset_curve_3d shall not self-intersect and
+         shall reference a valid curve; a polyline is not a
+         valid basis_curve
+       *)
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D' IN TYPEOF (cv))
+        AND
+        ((cv\offset_curve_3d.self_intersect = FALSE) OR
+        (cv\offset_curve_3d.self_intersect = UNKNOWN))
+        AND
+        (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF
+        (cv\offset_curve_3d.basis_curve)))) THEN
+        RETURN (msf_curve_check(cv\offset_curve_3d.basis_curve)); 
+      ELSE 
+ 
+        (* a pcurve shall reference a valid curve and a valid
+           basis_surface
+         *)
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(cv) THEN 
+          RETURN ((msf_curve_check
+          (cv\pcurve.reference_to_curve\representation.items[1])) AND
+          (msf_surface_check(cv\pcurve.basis_surface)));
+        ELSE 
+ 
+          (* a surface_curve references a curve_3d and one or
+             two pcurves or one or two surfaces or one of
+             each; all of these references shall be valid
+           *)
+          IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF(cv) THEN 
+
+            (* if the curve reference is correct, check also the rest
+             *)
+            IF msf_curve_check(cv\surface_curve.curve_3d) THEN
+              REPEAT i := 1 TO SIZEOF
+              (cv\surface_curve.associated_geometry);
+
+                (* do for one or two associated_geometrys:
+                 *)
+                IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN 
+                  TYPEOF (cv\surface_curve.associated_geometry[i]) THEN  
+                  IF NOT msf_surface_check
+                    (cv\surface_curve.associated_geometry[i]) THEN  
+                    RETURN(FALSE);  
+                  END_IF;  
+                ELSE  
+                  IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF 
+                    (cv\surface_curve.associated_geometry[i]) THEN  
+                    IF NOT msf_curve_check
+                      (cv\surface_curve.associated_geometry[i]) THEN 
+                      RETURN(FALSE);  
+                    END_IF;  
+                  END_IF;  
+                END_IF; 
+              END_REPEAT;  
+              RETURN(TRUE);
+            END_IF; 
+          ELSE
+
+            (* a polyline shall have at least 3 points
+             *)
+            IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF(cv) THEN
+              IF (SIZEOF (cv\polyline.points) >= 3) THEN RETURN (TRUE);
+              END_IF;
+            END_IF;
+          END_IF; 
+        END_IF; 
+      END_IF; 
+    END_IF; 
+  END_IF; 
+END_IF; 
+(* FALSE is returned if the input parameter cv is not a valid curve.
+ *)
+RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION msf_surface_check
+	(surf: surface) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_SURFACE' IN TYPEOF(surf) THEN
+    RETURN(TRUE);
+  ELSE 
+
+    (* a swept_surface shall have a valid sweeping curve
+     *)
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_SURFACE' IN TYPEOF (surf) THEN 
+      RETURN (msf_curve_check(surf\swept_surface.swept_curve));  
+    ELSE 
+ 
+      (* an offset_surface shall not self-intersect and shall
+         reference a valid surface
+       *)
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_SURFACE' IN TYPEOF (surf)) AND
+        (surf\offset_surface.self_intersect = FALSE) OR 
+        (surf\offset_surface.self_intersect = UNKNOWN)) THEN
+        RETURN (msf_surface_check(surf\offset_surface.basis_surface));
+      ELSE 
+ 
+        (* a surface_replica shall have a valid parent surface
+         *)
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_REPLICA' IN TYPEOF(surf) THEN 
+          RETURN(msf_surface_check(surf\surface_replica.parent_surface)); 
+        ELSE
+
+          (* a b_spline_surface shall not self-intersect
+           *)
+          IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE' IN TYPEOF(surf)) AND
+            (surf\b_spline_surface.self_intersect = FALSE) OR
+            (surf\b_spline_surface.self_intersect = UNKNOWN)) THEN
+            RETURN(TRUE);
+          END_IF;
+        END_IF; 
+      END_IF; 
+    END_IF; 
+  END_IF; 
+  RETURN(FALSE);
+END_FUNCTION;
+
+FUNCTION nmsf_curve_check
+	(cv: representation_item) : BOOLEAN;
+IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.BOUNDED_CURVE',
+   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA',
+   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D'] * TYPEOF(cv)) > 1
+ THEN RETURN(FALSE);
+ ELSE
+
+  (* b_spline_curves shall not self-intersect
+   *)
+  IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE' IN TYPEOF (cv)) AND
+    (cv\b_spline_curve.self_intersect = FALSE) OR
+    (cv\b_spline_curve.self_intersect = UNKNOWN))
+  THEN RETURN(TRUE);
+  ELSE
+
+    (* conics and lines are valid curve types
+     *)
+    IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC',
+    'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE'] * TYPEOF (cv)) = 1 THEN
+      RETURN(TRUE);
+    ELSE
+
+      (* a curve_replica shall reference a valid curve
+       *)
+      IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA' IN TYPEOF(cv) THEN
+        RETURN (nmsf_curve_check(cv\curve_replica.parent_curve)); 
+      ELSE 
+ 
+        (* an offset_curve_3d shall not self-intersect and
+           shall reference a valid curve; a polyline is not a
+           valid basis_curve
+         *)
+        IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D' IN TYPEOF (cv)) 
+          AND
+          ((cv\offset_curve_3d.self_intersect = FALSE) OR
+          (cv\offset_curve_3d.self_intersect = UNKNOWN))
+          AND
+          (NOT ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF
+          (cv\offset_curve_3d.basis_curve)))) THEN
+          RETURN (nmsf_curve_check(cv\offset_curve_3d.basis_curve)); 
+        ELSE 
+ 
+          (* a pcurve shall reference a valid curve and a valid
+             basis_surface
+           *)
+          IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF(cv) THEN 
+            RETURN ((nmsf_curve_check
+            (cv\pcurve.reference_to_curve\representation.items[1]))
+            AND
+            (nmsf_surface_check(cv\pcurve.basis_surface)));
+          ELSE 
+ 
+            (* a surface_curve references a curve_3d and one or
+               two pcurves or one or two surfaces or one of
+               each; all of these references shall be valid
+             *)
+            IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_CURVE' IN TYPEOF(cv) THEN 
+
+              (* if the curve reference is correct, check also the rest
+               *)
+              IF nmsf_curve_check(cv\surface_curve.curve_3d) THEN
+                REPEAT i := 1 TO SIZEOF
+                (cv\surface_curve.associated_geometry);
+
+                  (* do for one or two associated_geometrys:
+                   *)
+                  IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE' IN 
+                    TYPEOF (cv\surface_curve.associated_geometry[i]) THEN  
+                    IF NOT nmsf_surface_check
+                      (cv\surface_curve.associated_geometry[i]) THEN  
+                      RETURN(FALSE);  
+                    END_IF;  
+                  ELSE  
+                    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PCURVE' IN TYPEOF 
+                      (cv\surface_curve.associated_geometry[i]) THEN  
+                      IF NOT nmsf_curve_check
+                        (cv\surface_curve.associated_geometry[i]) THEN 
+                        RETURN(FALSE);  
+                      END_IF;  
+                    END_IF;  
+                  END_IF; 
+                END_REPEAT;  
+                RETURN(TRUE);
+              END_IF; 
+            ELSE
+
+              (* a polyline shall have at least 3 points 
+               *)
+              IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' IN TYPEOF(cv) THEN
+                IF (SIZEOF (cv\polyline.points) >= 3) THEN RETURN (TRUE);
+                END_IF;
+              END_IF;
+            END_IF; 
+          END_IF; 
+        END_IF; 
+      END_IF; 
+    END_IF; 
+  END_IF; 
+ END_IF; 
+ (* FALSE is returned if the input parameter cv is not a valid curve.
+  *)
+ RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION nmsf_surface_check
+	(surf: surface) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELEMENTARY_SURFACE' IN TYPEOF(surf) THEN
+    RETURN(TRUE);
+  ELSE 
+
+    (* a swept_surface shall have a valid sweeping curve
+     *)
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SWEPT_SURFACE' IN TYPEOF (surf) THEN 
+      RETURN (nmsf_curve_check(surf\swept_surface.swept_curve));  
+    ELSE 
+ 
+      (* an offset_surface shall not self-intersect and shall
+         reference a valid surface
+       *)
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_SURFACE' IN TYPEOF (surf)) AND
+        (surf\offset_surface.self_intersect = FALSE) OR 
+        (surf\offset_surface.self_intersect = UNKNOWN)) THEN
+        RETURN (nmsf_surface_check(surf\offset_surface.basis_surface));
+      ELSE 
+ 
+        (* a surface_replica shall have a valid parent surface
+         *)
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SURFACE_REPLICA' IN TYPEOF(surf) THEN 
+          RETURN(nmsf_surface_check(surf\surface_replica.parent_surface)); 
+        ELSE
+
+          (* a b_spline_surface shall not self-intersect
+           *)
+          IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_SURFACE' IN TYPEOF(surf))
+            AND
+            (surf\b_spline_surface.self_intersect = FALSE) OR
+            (surf\b_spline_surface.self_intersect = UNKNOWN)) THEN
+            RETURN(TRUE);
+          END_IF;
+        END_IF; 
+      END_IF; 
+    END_IF; 
+  END_IF; 
+  RETURN(FALSE);
+END_FUNCTION;
+
+FUNCTION normalise
+	(arg: vector_or_direction) : vector_or_direction;
+    LOCAL
+      ndim   : INTEGER;
+      v      : direction;
+      result : vector_or_direction;
+      vec    : vector;
+      mag    : REAL;
+    END_LOCAL;
+    
+    IF NOT EXISTS (arg) THEN
+      result := ?;
+  (* When function is called with invalid data a NULL result is returned *)
+    ELSE
+      ndim := arg.dim;
+      IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF(arg) THEN
+        BEGIN
+              v := dummy_gri || direction(arg\vector.orientation.direction_ratios);
+          IF arg.magnitude = 0.0 THEN
+            RETURN(?);
+          ELSE
+           vec := dummy_gri || vector (v, 1.0);
+          END_IF;
+        END;
+      ELSE
+        v := dummy_gri || direction (arg.direction_ratios);
+      END_IF;
+      mag := 0.0;
+      REPEAT  i := 1 TO ndim;
+        mag := mag + v.direction_ratios[i]*v.direction_ratios[i];
+      END_REPEAT;
+      IF mag > 0.0 THEN
+        mag := SQRT(mag);
+        REPEAT  i := 1 TO ndim;
+          v.direction_ratios[i] := v.direction_ratios[i]/mag;
+        END_REPEAT;
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF(arg) THEN
+          vec.orientation := v;
+          result := vec;
+        ELSE
+          result := v;
+        END_IF;
+      ELSE
+        RETURN(?);
+      END_IF;
+    END_IF;
+    RETURN (result);
+END_FUNCTION;
+
+FUNCTION open_shell_reversed
+	(a_shell: open_shell) : oriented_open_shell;
+   LOCAL
+     the_reverse : oriented_open_shell;
+   END_LOCAL;
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_OPEN_SHELL' IN TYPEOF (a_shell) ) THEN
+     the_reverse := dummy_tri ||
+                  connected_face_set (
+                      a_shell\connected_face_set.cfs_faces) ||
+                  open_shell () || oriented_open_shell(
+                    a_shell\oriented_open_shell.open_shell_element,
+                      (NOT (a_shell\oriented_open_shell.orientation)));
+   ELSE
+     the_reverse := dummy_tri ||
+                 connected_face_set (
+                     a_shell\connected_face_set.cfs_faces) ||
+                 open_shell () ||  oriented_open_shell (a_shell, FALSE);
+   END_IF;
+   RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION orthogonal_complement
+	(vec: direction) : direction;
+   LOCAL
+     result :  direction ;
+   END_LOCAL;
+
+   IF (vec.dim <> 2) OR NOT EXISTS (vec) THEN
+     RETURN(?);
+   ELSE
+     result := dummy_gri || direction([-vec.direction_ratios[2],
+                                          vec.direction_ratios[1]]);
+     RETURN(result);
+   END_IF;
+END_FUNCTION;
+
+FUNCTION path_head_to_tail
+	(a_path: path) : LOGICAL;
+   LOCAL
+     n : INTEGER;
+     p : LOGICAL := TRUE;
+   END_LOCAL;
+     
+     n := SIZEOF (a_path.edge_list);
+     REPEAT i := 2 TO n;
+       p := p AND (a_path.edge_list[i-1].edge_end :=:
+                   a_path.edge_list[i].edge_start);
+     END_REPEAT;
+     
+     RETURN (p);
+END_FUNCTION;
+
+FUNCTION path_reversed
+	(a_path: path) : oriented_path;
+  LOCAL
+    the_reverse : oriented_path ;
+  END_LOCAL;
+  IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ORIENTED_PATH' IN TYPEOF (a_path) ) THEN
+    the_reverse := dummy_tri ||
+       path(list_of_topology_reversed (a_path.edge_list)) ||
+          oriented_path(a_path\oriented_path.path_element,
+                          NOT(a_path\oriented_path.orientation)) ;
+  ELSE
+    the_reverse := dummy_tri ||
+                   path(list_of_topology_reversed (a_path.edge_list)) ||
+                       oriented_path(a_path, FALSE);
+  END_IF;
+
+  RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION scalar_times_vector
+	(scalar: REAL; vec: vector_or_direction) : vector;
+    LOCAL
+      v      : direction;
+      mag    : REAL;
+      result : vector;
+    END_LOCAL;
+ 
+    IF NOT EXISTS (scalar) OR NOT EXISTS (vec) THEN
+      RETURN (?) ;
+     ELSE
+      IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF (vec) THEN
+        v   := dummy_gri || direction(vec\vector.orientation.direction_ratios);
+        mag := scalar * vec.magnitude;
+      ELSE
+        v   := dummy_gri || direction(vec.direction_ratios);
+        mag := scalar;
+      END_IF;
+      IF (mag < 0.0 ) THEN
+        REPEAT i := 1 TO SIZEOF(v.direction_ratios);
+          v.direction_ratios[i] := -v.direction_ratios[i];
+        END_REPEAT;
+        mag := -mag;
+      END_IF;
+      result := dummy_gri || vector(normalise(v), mag);
+    END_IF;
+    RETURN (result);
+END_FUNCTION;
+
+FUNCTION second_proj_axis
+	(z_axis: direction; x_axis: direction; arg: direction) : direction;
+   LOCAL
+     y_axis : vector;
+     v      : direction;
+     temp   : vector;
+   END_LOCAL;
+   
+   IF NOT EXISTS(arg) THEN
+     v := dummy_gri || direction([0.0,1.0,0.0]);
+   ELSE
+     v := arg;
+   END_IF;
+   
+   temp   := scalar_times_vector(dot_product(v, z_axis), z_axis);
+   y_axis := vector_difference(v, temp);
+   temp   := scalar_times_vector(dot_product(v, x_axis), x_axis);
+   y_axis := vector_difference(y_axis, temp);
+   y_axis := normalise(y_axis);
+   RETURN(y_axis.orientation);
+END_FUNCTION;
+
+FUNCTION set_of_topology_reversed
+	(a_set: set_of_reversible_topology_item) : set_of_reversible_topology_item;
+   LOCAL
+     the_reverse : set_of_reversible_topology_item;
+   END_LOCAL;
+   
+   the_reverse := [];
+   REPEAT i := 1 TO SIZEOF (a_set);
+     the_reverse := the_reverse + topology_reversed (a_set [i]);
+   END_REPEAT;
+   
+   RETURN (the_reverse);
+END_FUNCTION;
+
+FUNCTION shell_reversed
+	(a_shell: shell) : shell;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OPEN_SHELL' IN TYPEOF (a_shell) ) THEN
+     RETURN (open_shell_reversed (a_shell));
+   ELSE
+     IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CLOSED_SHELL' IN TYPEOF (a_shell) ) THEN
+       RETURN (closed_shell_reversed (a_shell));
+     ELSE
+       RETURN (?);
+     END_IF;
+   END_IF;
+END_FUNCTION;
+
+FUNCTION surface_condition_correlation
+	(pd: property_definition; rep: representation) : LOGICAL;
+CASE pd.name OF
+      'visual appearance', 'tactile appearance', 'contact ratio', 'hardness', 'treatment result', 'surface texture' : 
+	  RETURN(pd.name = rep.name);
+      OTHERWISE : RETURN(UNKNOWN);
+    END_CASE;
+END_FUNCTION;
+
+FUNCTION surface_weights_positive
+	(b: rational_b_spline_surface) : BOOLEAN;
+   LOCAL
+     result        : BOOLEAN := TRUE;
+   END_LOCAL;
+   
+   REPEAT i := 0 TO b.u_upper;
+     REPEAT j := 0 TO b.v_upper;
+       IF (b.weights[i][j] <= 0.0)  THEN
+         result := FALSE;
+         RETURN(result);
+       END_IF;
+     END_REPEAT;
+   END_REPEAT;
+   RETURN(result);
+END_FUNCTION;
+
+FUNCTION topology_reversed
+	(an_item: reversible_topology) : reversible_topology;
+IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.EDGE' IN TYPEOF (an_item)) THEN
+     RETURN (edge_reversed (an_item));
+   END_IF;
+
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PATH' IN TYPEOF (an_item)) THEN
+     RETURN (path_reversed (an_item));
+   END_IF;
+
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE_BOUND' IN TYPEOF (an_item)) THEN
+     RETURN (face_bound_reversed (an_item));
+   END_IF;
+  
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FACE' IN TYPEOF (an_item)) THEN
+     RETURN (face_reversed (an_item));
+   END_IF;
+
+   IF ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHELL' IN TYPEOF (an_item)) THEN
+     RETURN (shell_reversed (an_item));
+   END_IF;
+
+   IF ('SET' IN TYPEOF (an_item)) THEN
+     RETURN (set_of_topology_reversed (an_item));
+   END_IF;
+
+   IF ('LIST' IN TYPEOF (an_item)) THEN
+     RETURN (list_of_topology_reversed (an_item));
+   END_IF;
+
+   RETURN (?);
+END_FUNCTION;
+
+FUNCTION type_check_function
+	(the_type: GENERIC; sub_names: SET [0:?] OF STRING; criterion: INTEGER) : LOGICAL;
+IF ((NOT EXISTS(the_type)) OR (NOT ({0 <= criterion <= 3})) OR (SIZEOF(sub_names) = 0)) THEN
+      RETURN (UNKNOWN);
+    ELSE
+      CASE criterion OF 
+        0:
+          RETURN (SIZEOF(sub_names * TYPEOF(the_type)) > 0);
+        1:
+          RETURN (SIZEOF(sub_names * TYPEOF(the_type)) = 0);
+        2:
+          RETURN (SIZEOF(sub_names * TYPEOF(the_type)) = 1);
+        3:
+          RETURN (SIZEOF(sub_names * TYPEOF(the_type)) <= 1);
+      END_CASE;
+    END_IF;
+END_FUNCTION;
+
+FUNCTION using_items
+	(item: founded_item_select; checked_items: SET [0:?] OF founded_item_select) : SET [0:?] OF founded_item_select;
+    LOCAL
+      new_check_items    : SET OF founded_item_select;
+      result_items       : SET OF founded_item_select;
+      next_items         : SET OF founded_item_select;
+    END_LOCAL;
+    result_items := [];
+    new_check_items := checked_items + item;
+    -- Find the set of representation_items or founded_items
+    -- in which item is used directly.
+    next_items := QUERY(z <* bag_to_set( USEDIN(item , '')) |
+      ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION_ITEM' IN TYPEOF(z)) OR
+      ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FOUNDED_ITEM'        IN TYPEOF(z)));
+    -- If the set of next_items is not empty;
+    IF SIZEOF(next_items) > 0 THEN
+      -- For each element in the set, find the using_items recursively
+      REPEAT i := 1 TO HIINDEX(next_items);
+        -- Check for loop in data model, i.e. one of the next_items
+        -- occurred earlier in the set of check_items;
+        IF NOT(next_items[i] IN new_check_items) THEN
+          result_items := result_items + next_items[i] +
+                          using_items(next_items[i],new_check_items);
+        END_IF;
+      END_REPEAT;
+    END_IF;
+    -- return the set of representation_items or founded_items
+    -- in which the input item is used directly and indirectly.
+    RETURN (result_items);
+END_FUNCTION;
+
+FUNCTION using_representations
+	(item: founded_item_select) : SET [0:?] OF representation;
+    LOCAL
+      results            : SET OF representation;
+      result_bag         : BAG OF representation;
+      intermediate_items : SET OF founded_item_select;
+    END_LOCAL;
+    -- Find the representations in which the item is used and add to the
+    -- results set.
+    results := [];
+    result_bag := USEDIN(item,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION.ITEMS');
+    IF SIZEOF(result_bag) > 0 THEN
+      REPEAT i := 1 TO HIINDEX(result_bag);
+        results := results + result_bag[i];
+      END_REPEAT;
+    END_IF;
+    -- Find all representation_items or founded_items
+    -- by which item is referenced directly or indirectly.
+    intermediate_items := using_items(item,[]);
+    -- If the set of intermediate items is not empty;
+    IF SIZEOF(intermediate_items) > 0 THEN
+      -- For each element in the set, add the
+      -- representations of that element.
+      REPEAT i := 1 TO HIINDEX(intermediate_items);
+        result_bag := USEDIN(intermediate_items[i],
+                      'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.REPRESENTATION.ITEMS');
+        IF SIZEOF(result_bag) > 0 THEN
+          REPEAT j := 1 TO HIINDEX(result_bag);
+            results := results + result_bag[j];
+          END_REPEAT;
+        END_IF;
+      END_REPEAT;
+    END_IF;
+    -- Return the set of representation in which the input item is
+    -- used directly and indirectly (through intervening
+    -- representation_items or founded items).
+    RETURN (results);
+END_FUNCTION;
+
+FUNCTION valid_basis_curve_in_2d_wireframe
+	(crv: curve) : BOOLEAN;
+IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE',
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE',
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE',
+               'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE'] * 
+               TYPEOF (crv)) = 1
+    THEN RETURN (TRUE);
+  ELSE
+    -- if the curve is a trimmed_curve
+    IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TRIMMED_CURVE') 
+    IN TYPEOF (crv)) THEN
+      -- if a line, parabola, or hyperbola is being trimmed, then valid
+      IF SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE',
+                   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PARABOLA',
+                   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.HYPERBOLA'] *
+           TYPEOF(crv\trimmed_curve.basis_curve)) = 1
+        THEN RETURN (TRUE);
+      -- otherwise, recursively check basis_curve
+      ELSE RETURN (valid_basis_curve_in_2d_wireframe
+                         (crv\trimmed_curve.basis_curve));
+      END_IF;
+    ELSE
+      -- recursively check the offset_curve basis curve
+      IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_2D') 
+      IN TYPEOF (crv))
+        THEN RETURN (valid_basis_curve_in_2d_wireframe
+                           (crv\offset_curve_2d.basis_curve));
+      ELSE
+        -- recursively check the curve_replica parent curve
+        IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA') 
+        IN TYPEOF (crv))
+          THEN RETURN (valid_basis_curve_in_2d_wireframe
+                         (crv\curve_replica.parent_curve));
+        ELSE
+          -- recursively check the composite_curve segments
+          IF (('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE') 
+          IN TYPEOF (crv)) THEN
+            RETURN (SIZEOF (QUERY (ccs <* crv\composite_curve.segments |
+                      NOT (valid_basis_curve_in_2d_wireframe
+                             (ccs.parent_curve)))) = 0);
+          END_IF;
+        END_IF;
+      END_IF;
+    END_IF;
+  END_IF;
+  RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION valid_calendar_date
+	(date: calendar_date) : LOGICAL;
+CASE date.month_component OF
+    1  : RETURN({ 1 <= date.day_component <= 31 });
+    2  : BEGIN
+           IF (leap_year(date.year_component)) THEN
+             RETURN({ 1 <= date.day_component <= 29 });
+           ELSE
+             RETURN({ 1 <= date.day_component <= 28 });
+           END_IF;
+         END;
+    3  : RETURN({ 1 <= date.day_component <= 31 });
+    4  : RETURN({ 1 <= date.day_component <= 30 });
+    5  : RETURN({ 1 <= date.day_component <= 31 });
+    6  : RETURN({ 1 <= date.day_component <= 30 });
+    7  : RETURN({ 1 <= date.day_component <= 31 });
+    8  : RETURN({ 1 <= date.day_component <= 31 });
+    9  : RETURN({ 1 <= date.day_component <= 30 });
+    10 : RETURN({ 1 <= date.day_component <= 31 });
+    11 : RETURN({ 1 <= date.day_component <= 30 });
+    12 : RETURN({ 1 <= date.day_component <= 31 });
+  END_CASE;
+  RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION valid_datum_target_parameters
+	(pdf: placed_datum_target_feature) : BOOLEAN;
+LOCAL
+
+rep_set : SET OF representation := [] ;
+
+parameter_representations: SET OF representation;
+END_LOCAL;
+
+
+REPEAT i := 1 TO HIINDEX(pdf.representation_associations);
+rep_set := rep_set + pdf.representation_associations[i].used_representation;
+END_REPEAT;
+ 
+parameter_representations := QUERY(rep <* rep_set |
+('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SHAPE_REPRESENTATION_WITH_PARAMETERS' IN
+TYPEOF(rep)));
+
+
+IF (SIZEOF( QUERY( srwp <* parameter_representations |
+          (SIZEOF( QUERY( i <* srwp.items |
+          (i.name='orientation') AND
+          ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLACEMENT' IN TYPEOF(i)))) = 1))) <> 1) THEN
+   RETURN(FALSE);
+END_IF;
+
+CASE pdf\shape_aspect.description OF
+'point': RETURN(SIZEOF(QUERY( srwp <* parameter_representations |
+              (SIZEOF(srwp.items) = 1))) = 1);
+
+'circle': RETURN((SIZEOF( QUERY( srwp <* parameter_representations |
+              (SIZEOF(srwp.items) = 2))) = 1) AND
+             (SIZEOF( QUERY( srwp <* parameter_representations |
+              (SIZEOF( QUERY( i <* srwp.items |
+                (i.name='target diameter') AND
+                (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM',
+		   'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE_WITH_UNIT']*TYPEOF(i)
+                 ) = 2) )) = 1))) = 1));
+
+'line': RETURN(SIZEOF( QUERY( srwp <* parameter_representations |
+              (SIZEOF( QUERY( i <* srwp.items |
+                (i.name='target length') AND
+                (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM',
+		'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE_WITH_UNIT']*TYPEOF(i)
+                 ) = 2) )) = 1))) = 1);
+
+'rectangle': RETURN((SIZEOF( QUERY( srwp <* parameter_representations |
+              (SIZEOF(srwp.items)= 3))) = 1) AND
+             (SIZEOF( QUERY( srwp <* parameter_representations |
+              (SIZEOF( QUERY( i <* srwp.items |
+                (i.name='target length') AND
+                (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM',
+		'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE_WITH_UNIT']*TYPEOF(i)
+                 ) = 2))) = 1))) = 1) AND
+              (SIZEOF( QUERY( srwp <* parameter_representations |
+               (SIZEOF( QUERY( i <* srwp.items |
+                 (i.name='target width') AND
+                 (SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM',
+ 		'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE_WITH_UNIT']*TYPEOF(i)
+                  ) = 2))) = 1) )) = 1));
+OTHERWISE : RETURN(FALSE);
+END_CASE;
+END_FUNCTION;
+
+FUNCTION valid_geometrically_bounded_wf_curve
+	(crv: curve) : BOOLEAN;
+IF SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELLIPSE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CIRCLE' ] * TYPEOF (crv)) = 1 THEN 
+ RETURN (TRUE);
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TRIMMED_CURVE' IN TYPEOF (crv) THEN 
+ IF SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PARABOLA', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.HYPERBOLA' ] * TYPEOF (crv\trimmed_curve.basis_curve)) = 1 THEN 
+ RETURN (TRUE);
+ ELSE 
+ RETURN (valid_geometrically_bounded_wf_curve(crv\trimmed_curve.basis_curve));
+ END_IF ;
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D' IN TYPEOF (crv) THEN 
+ RETURN (valid_geometrically_bounded_wf_curve(crv\offset_curve_3d.basis_curve));
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA' IN TYPEOF (crv) THEN 
+ RETURN (valid_geometrically_bounded_wf_curve(crv\curve_replica.parent_curve));
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.COMPOSITE_CURVE' IN TYPEOF (crv) THEN 
+ RETURN ( SIZEOF ( 
+QUERY ( ccs <* crv\composite_curve.segments| NOT valid_geometrically_bounded_wf_curve(ccs.parent_curve) )) = 0);
+ END_IF ;
+ END_IF ;
+ END_IF ;
+ END_IF ;
+ END_IF ;
+ RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION valid_geometrically_bounded_wf_point
+	(pnt: point) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (pnt) THEN 
+ RETURN (TRUE);
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_ON_CURVE' IN TYPEOF (pnt) THEN 
+ RETURN (valid_geometrically_bounded_wf_curve(pnt\point_on_curve.basis_curve));
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_REPLICA' IN TYPEOF (pnt) THEN 
+ RETURN (valid_geometrically_bounded_wf_point(pnt\point_replica.parent_pt));
+ END_IF ;
+ END_IF ;
+ END_IF ;
+ RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION valid_measure_value
+	(m: measure_value) : BOOLEAN;
+IF ('REAL' IN TYPEOF (m)) THEN
+    RETURN (m > 0.0);
+    ELSE
+     IF ('INTEGER' IN TYPEOF (m)) THEN
+      RETURN (m > 0);
+      ELSE
+        RETURN (TRUE);
+      END_IF;
+    END_IF;
+END_FUNCTION;
+
+FUNCTION valid_selected_instance_representation
+	(pd: product_definition_or_assembly_relationship) : LOGICAL;
+    LOCAL
+      properties: SET OF property_definition := bag_to_set(QUERY( prd<* USEDIN ( pd ,'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROPERTY_DEFINITION.DEFINITION' ) | 
+        (prd.name = 'occurrence selection' )));
+      property_definition_representations: SET OF property_definition_representation := bag_to_set(QUERY ( pdr <* USEDIN ( properties[1] , 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PROPERTY_DEFINITION_REPRESENTATION.DEFINITION') | 
+	    ( pdr.used_representation.name = 'selection criteria' )));
+      selected_representation: representation;
+    END_LOCAL;
+    IF (SIZEOF( properties)<>1) THEN
+	  RETURN(FALSE);
+    END_IF;
+    IF (SIZEOF(property_definition_representations)<>1) THEN
+	  RETURN(FALSE);
+    END_IF;
+    selected_representation := property_definition_representations[1]\property_definition_representation.used_representation;
+    IF (SIZEOF(selected_representation\representation.items) <1) OR (SIZEOF(selected_representation\representation.items) >2) THEN
+	  RETURN(FALSE);
+    END_IF;
+    IF (SIZEOF ( QUERY ( i <* selected_representation\representation.items |
+	  ( SIZEOF (['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' ,
+      'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_RANGE']* TYPEOF ( i ) ) = 1) AND
+      ( i.name = 'selection quantity' ))) <> 1 ) THEN
+      RETURN(FALSE);
+    END_IF;
+    IF (SIZEOF ( QUERY ( i <* selected_representation\representation.items |
+	  ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF ( i ) ) AND
+ 	  ( i.name = 'selection control' )))> 1) THEN
+	  RETURN(FALSE);
+    END_IF; --the selection control is not specified then the quantity shall be a qualified_representation_item or a value_range
+    IF (SIZEOF ( QUERY ( i <* selected_representation\representation.items |
+      ( 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DESCRIPTIVE_REPRESENTATION_ITEM' IN TYPEOF( i ) ) AND
+      ( i.name = 'selection control' ) ))= 0) AND 
+      (SIZEOF ( QUERY ( i <* selected_representation\representation.items |
+      ( i.name = 'selection quantity' ) AND  
+      ( SIZEOF(['AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.QUALIFIED_REPRESENTATION_ITEM' ,
+      'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_RANGE']* TYPEOF ( i ) ) =0 ))) > 0 ) THEN
+	  RETURN(FALSE);
+    END_IF;
+    RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION valid_time
+	(time: local_time) : BOOLEAN;
+IF EXISTS(time.second_component) THEN
+    RETURN (EXISTS(time.minute_component));
+  ELSE
+    RETURN (TRUE);
+  END_IF;
+END_FUNCTION;
+
+FUNCTION valid_units
+	(m: measure_with_unit) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LENGTH_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MASS_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.TIME_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_CURRENT_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.THERMODYNAMIC_TEMPERATURE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CELSIUS_TEMPERATURE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AMOUNT_OF_SUBSTANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LUMINOUS_INTENSITY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PLANE_ANGLE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.SOLID_ANGLE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.AREA_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(2.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VOLUME_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(3.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RATIO_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_LENGTH_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(1.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POSITIVE_PLANE_ANGLE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+      dimensional_exponents(0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ACCELERATION_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 1.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+     IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CAPACITANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( -2.0, -1.0, 4.0, 1.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_CHARGE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 0.0, 0.0, 1.0, 1.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONDUCTANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+          IF derive_dimensional_exponents(m.unit_component) <> 
+            dimensional_exponents( -2.0, -1.0, 3.0, 2.0, 0.0, 0.0, 0.0 ) THEN
+            RETURN (FALSE);
+          END_IF;
+    END_IF;
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ELECTRIC_POTENTIAL_MEASURE' IN TYPEOF(m.value_component) THEN
+          IF derive_dimensional_exponents(m.unit_component) <> 
+            dimensional_exponents( 2.0, 1.0, -3.0, -1.0, 0.0, 0.0, 0.0 ) THEN
+            RETURN (FALSE);
+          END_IF;
+    END_IF;    
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ENERGY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 2.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FORCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 1.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.FREQUENCY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 0.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ILLUMINANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( -2.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+     IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.INDUCTANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 2.0, 1.0, -2.0, -2.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LUMINOUS_FLUX_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 1.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAGNETIC_FLUX_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 2.0, 1.0, -2.0, -1.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+     IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MAGNETIC_FLUX_DENSITY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 0.0, 1.0, -2.0, -1.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POWER_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 2.0, 1.0, -3.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.PRESSURE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( -1.0, 1.0, -2.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RESISTANCE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 2.0, 1.0, -3.0, -2.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VELOCITY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents( 1.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0 ) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.RADIOACTIVITY_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents(0.0, 0.0, -1.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.ABSORBED_DOSE_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents(2.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.DOSE_EQUIVALENT_MEASURE' IN TYPEOF(m.value_component) THEN
+      IF derive_dimensional_exponents(m.unit_component) <> 
+        dimensional_exponents(2.0, 0.0, -2.0, 0.0, 0.0, 0.0, 0.0) THEN
+        RETURN (FALSE);
+      END_IF;
+    END_IF;
+    RETURN (TRUE);
+END_FUNCTION;
+
+FUNCTION valid_wireframe_edge_curve
+	(crv: curve) : BOOLEAN;
+IF SIZEOF ([ 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.LINE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CONIC', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.B_SPLINE_CURVE', 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POLYLINE' ] * TYPEOF (crv)) = 1 THEN 
+ RETURN (TRUE);
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CURVE_REPLICA' IN TYPEOF (crv) THEN 
+ RETURN (valid_wireframe_edge_curve(crv\curve_replica.parent_curve));
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.OFFSET_CURVE_3D' IN TYPEOF (crv) THEN 
+ RETURN (valid_wireframe_edge_curve(crv\offset_curve_3d.basis_curve));
+ END_IF ;
+ END_IF ;
+ END_IF ;
+ RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION valid_wireframe_vertex_point
+	(pnt: point) : BOOLEAN;
+IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.CARTESIAN_POINT' IN TYPEOF (pnt) THEN 
+ RETURN (TRUE);
+ ELSE 
+ IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.POINT_REPLICA' IN TYPEOF (pnt) THEN 
+ RETURN (valid_wireframe_vertex_point(pnt\point_replica.parent_pt));
+ END_IF ;
+ END_IF ;
+ RETURN (FALSE);
+END_FUNCTION;
+
+FUNCTION validate_countersink_radii
+	(cskhole: solid_with_stepped_round_hole_and_conical_transitions) : BOOLEAN;
+  LOCAL
+    i,j             : INTEGER;
+    n               : INTEGER := 1 +
+                        cskhole\solid_with_stepped_round_hole.segments;
+    smaller, larger : positive_length_measure;
+  END_LOCAL;
+
+  REPEAT i := 1 TO SIZEOF(cskhole.conical_transitions);
+
+  -- First check whether transition i applies to the entry of the hole or 
+  -- the exit of a through hole - those cases only need to be checked for 
+  -- the sign of the cone apex angle.
+
+  IF (((cskhole.conical_transitions[i].transition_number = 1)
+       AND (cskhole.conical_transitions[i].cone_apex_angle < 0))
+    XOR ((cskhole.conical_transitions[i].transition_number = n)
+         AND (cskhole.conical_transitions[i].cone_apex_angle > 0))) 
+  THEN RETURN(FALSE); 
+  ELSE
+    IF ((cskhole.conical_transitions[i].transition_number <> 1)
+      AND (cskhole.conical_transitions[i].transition_number <> n))
+    THEN
+
+  -- For all remaining transitions, check that the cone base radius 
+  -- lies in the range of validity.
+
+
+      BEGIN
+        j := cskhole.conical_transitions[i].transition_number;
+        IF cskhole\solid_with_stepped_round_hole.segment_radii[j] 
+          > cskhole\solid_with_stepped_round_hole.segment_radii[j-1]
+        THEN 
+          BEGIN
+            IF (cskhole.conical_transitions[i].cone_apex_angle > 0)
+            THEN RETURN(FALSE);
+            END_IF;
+            larger 
+              := cskhole\solid_with_stepped_round_hole.segment_radii[j];
+            smaller 
+              := cskhole\solid_with_stepped_round_hole.segment_radii[j-1];
+          END;
+        ELSE
+          BEGIN
+            IF (cskhole.conical_transitions[i].cone_apex_angle < 0)
+            THEN RETURN(FALSE);
+            END_IF;
+            larger  
+              := cskhole\solid_with_stepped_round_hole.segment_radii[j-1];
+            smaller 
+              := cskhole\solid_with_stepped_round_hole.segment_radii[j];
+          END;
+        END_IF; 
+        IF ((cskhole.conical_transitions[i].cone_base_radius > larger)
+          OR (cskhole.conical_transitions[i].cone_base_radius < smaller))
+        THEN RETURN(FALSE);
+        END_IF;
+      END;
+    END_IF;
+  END_IF;
+  END_REPEAT;
+  RETURN(TRUE);
+END_FUNCTION;
+
+FUNCTION value_range_aggregate_rep_item
+	(agg: AGGREGATE OF representation_item) : BOOLEAN;
+BEGIN 
+  IF (SIZEOF(QUERY(i1 <* agg | ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.' + 'MEASURE_REPRESENTATION_ITEM' IN TYPEOF(i1)) )) = 6) THEN 
+	  RETURN (TRUE); 
+   ELSE 
+	RETURN (FALSE); 
+   END_IF; 
+   END;
+END_FUNCTION;
+
+FUNCTION value_range_wr1
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN
+      IF (SIZEOF(agg) = 2) AND ((SIZEOF(QUERY (i1 <* agg | (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF
+        (i1)))) = 2) OR
+        (SIZEOF(QUERY (i2 <* agg | (
+        'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VALUE_REPRESENTATION_ITEM' IN TYPEOF
+        (i2)))) = 2)) 
+      THEN
+        RETURN(TRUE);
+      ELSE
+        RETURN(FALSE);
+      END_IF;
+    END;
+END_FUNCTION;
+
+FUNCTION value_range_wr2
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN
+      IF ((SIZEOF(QUERY (i <* agg | (i\representation_item.name = 'upper limit'))) = 1)
+        AND (SIZEOF(QUERY (i <* agg | (i\representation_item.name = 'lower limit'))) = 1))
+      THEN
+        RETURN(TRUE);
+      ELSE
+        RETURN(FALSE);
+      END_IF;
+    END;
+END_FUNCTION;
+
+FUNCTION value_range_wr3
+	(agg: compound_item_definition) : BOOLEAN;
+BEGIN
+      IF (SIZEOF(QUERY(i1 <* agg |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF (i1)) AND
+        (SIZEOF (QUERY (i2 <* agg |
+        ('AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.MEASURE_REPRESENTATION_ITEM' IN TYPEOF (i2)) AND
+        (i1 :<>: i2) AND (i1\measure_with_unit.unit_component :=: i2\measure_with_unit.unit_component))) = 1))) = 2)
+      THEN
+        RETURN (TRUE);
+      ELSE
+        RETURN (FALSE);
+      END_IF;
+    END;
+END_FUNCTION;
+
+FUNCTION vector_difference
+	(arg1: vector_or_direction; arg2: vector_or_direction) : vector;
+    LOCAL
+      result          : vector;
+      res, vec1, vec2 : direction;
+      mag, mag1, mag2 : REAL;
+      ndim            : INTEGER;
+    END_LOCAL;
+ 
+    IF ((NOT EXISTS (arg1)) OR (NOT EXISTS (arg2))) OR (arg1.dim <> arg2.dim)
+        THEN
+      RETURN (?) ;
+     ELSE
+      BEGIN
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF(arg1) THEN
+          mag1 := arg1.magnitude;
+          vec1 := arg1\vector.orientation;
+        ELSE
+          mag1 := 1.0;
+          vec1 := arg1;
+        END_IF;
+        IF 'AP203_CONFIGURATION_CONTROLLED_3D_DESIGN_OF_MECHANICAL_PARTS_AND_ASSEMBLIES_MIM_LF.VECTOR' IN TYPEOF(arg2) THEN
+          mag2 := arg2.magnitude;
+          vec2 := arg2\vector.orientation;
+        ELSE
+          mag2 := 1.0;
+          vec2 := arg2;
+        END_IF;
+        vec1 := normalise (vec1);
+        vec2 := normalise (vec2);
+        ndim := SIZEOF(vec1.direction_ratios);
+        mag := 0.0;
+        res := dummy_gri || direction(vec1.direction_ratios);
+        REPEAT i := 1 TO ndim;
+          res.direction_ratios[i] := mag1*vec1.direction_ratios[i] -
+                                      mag2*vec2.direction_ratios[i];
+          mag := mag + (res.direction_ratios[i]*res.direction_ratios[i]);
+        END_REPEAT;
+        IF (mag > 0.0 ) THEN
+        result := dummy_gri || vector( res, SQRT(mag));
+        ELSE
+          result := dummy_gri || vector( vec1,  0.0);
+        END_IF;
+      END;
+    END_IF;
+    RETURN (result);
+END_FUNCTION;
+
+END_SCHEMA; 
+
diff --git a/libs/assimp/scripts/StepImporter/schema_ifc2x3.exp b/libs/assimp/scripts/StepImporter/schema_ifc2x3.exp
new file mode 100644
index 0000000..ae978a6
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/schema_ifc2x3.exp
@@ -0,0 +1,9571 @@
+(*

+Copyright by:

+International Alliance for Interoperability, 1996-2005

+

+All rights reserved. No part of this documentation may be

+reproduced, stored in a retrieval system, or transmitted

+in any form or by any means, without the prior written

+permission of the owner.

+

+Contents:

+full IFC object model EXPRESS definitions for the IFC2x Edition 3 final version

+

+

+- express longform distribution

+- compiled for EXPRESS version 1 technical corrigendum 2

+

+Issue date:

+December 15, 2005

+

+Development Team:

+Modeling Support Group of the 

+International Alliance for Interoperability

+compiled by Thomas Liebich tl@aec3.com

+*)

+SCHEMA IFC2X3;

+

+TYPE IfcAbsorbedDoseMeasure = REAL;

+END_TYPE;

+

+TYPE IfcAccelerationMeasure = REAL;

+END_TYPE;

+

+TYPE IfcAmountOfSubstanceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcAngularVelocityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcAreaMeasure = REAL;

+END_TYPE;

+

+TYPE IfcBoolean = BOOLEAN;

+END_TYPE;

+

+TYPE IfcBoxAlignment = IfcLabel;

+ WHERE

+	WR1 : SELF IN ['top-left', 'top-middle', 'top-right', 'middle-left', 'center', 'middle-right', 'bottom-left', 'bottom-middle', 'bottom-right'];

+END_TYPE;

+

+TYPE IfcComplexNumber = ARRAY [1:2] OF REAL;

+END_TYPE;

+

+TYPE IfcCompoundPlaneAngleMeasure = LIST [3:3] OF INTEGER;

+ WHERE

+	WR1 : { -360 <= SELF[1] < 360 };

+	WR2 : { -60 <= SELF[2] < 60 };

+	WR3 : { -60 <= SELF[3] < 60 };

+	WR4 : ((SELF[1] >= 0) AND (SELF[2] >= 0) AND (SELF[3] >= 0)) OR ((SELF[1] <= 0) AND (SELF[2] <= 0) AND (SELF[3] <= 0));

+END_TYPE;

+

+TYPE IfcContextDependentMeasure = REAL;

+END_TYPE;

+

+TYPE IfcCountMeasure = NUMBER;

+END_TYPE;

+

+TYPE IfcCurvatureMeasure = REAL;

+END_TYPE;

+

+TYPE IfcDayInMonthNumber = INTEGER;

+END_TYPE;

+

+TYPE IfcDaylightSavingHour = INTEGER;

+ WHERE

+	WR1 : { 0 <= SELF <= 2 };

+END_TYPE;

+

+TYPE IfcDescriptiveMeasure = STRING;

+END_TYPE;

+

+TYPE IfcDimensionCount = INTEGER;

+ WHERE

+	WR1 : { 0 < SELF <= 3 };

+END_TYPE;

+

+TYPE IfcDoseEquivalentMeasure = REAL;

+END_TYPE;

+

+TYPE IfcDynamicViscosityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcElectricCapacitanceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcElectricChargeMeasure = REAL;

+END_TYPE;

+

+TYPE IfcElectricConductanceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcElectricCurrentMeasure = REAL;

+END_TYPE;

+

+TYPE IfcElectricResistanceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcElectricVoltageMeasure = REAL;

+END_TYPE;

+

+TYPE IfcEnergyMeasure = REAL;

+END_TYPE;

+

+TYPE IfcFontStyle = STRING;

+ WHERE

+	WR1 : SELF IN ['normal','italic','oblique'];

+END_TYPE;

+

+TYPE IfcFontVariant = STRING;

+ WHERE

+	WR1 : SELF IN ['normal','small-caps'];

+END_TYPE;

+

+TYPE IfcFontWeight = STRING;

+ WHERE

+	WR1 : SELF IN ['normal','small-caps','100','200','300','400','500','600','700','800','900'];

+END_TYPE;

+

+TYPE IfcForceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcFrequencyMeasure = REAL;

+END_TYPE;

+

+TYPE IfcGloballyUniqueId = STRING(22) FIXED;

+END_TYPE;

+

+TYPE IfcHeatFluxDensityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcHeatingValueMeasure = REAL;

+ WHERE

+	WR1 : SELF > 0.;

+END_TYPE;

+

+TYPE IfcHourInDay = INTEGER;

+ WHERE

+	WR1 : { 0 <= SELF < 24 };

+END_TYPE;

+

+TYPE IfcIdentifier = STRING;

+END_TYPE;

+

+TYPE IfcIlluminanceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcInductanceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcInteger = INTEGER;

+END_TYPE;

+

+TYPE IfcIntegerCountRateMeasure = INTEGER;

+END_TYPE;

+

+TYPE IfcIonConcentrationMeasure = REAL;

+END_TYPE;

+

+TYPE IfcIsothermalMoistureCapacityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcKinematicViscosityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcLabel = STRING;

+END_TYPE;

+

+TYPE IfcLengthMeasure = REAL;

+END_TYPE;

+

+TYPE IfcLinearForceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcLinearMomentMeasure = REAL;

+END_TYPE;

+

+TYPE IfcLinearStiffnessMeasure = REAL;

+END_TYPE;

+

+TYPE IfcLinearVelocityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcLogical = LOGICAL;

+END_TYPE;

+

+TYPE IfcLuminousFluxMeasure = REAL;

+END_TYPE;

+

+TYPE IfcLuminousIntensityDistributionMeasure = REAL;

+END_TYPE;

+

+TYPE IfcLuminousIntensityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMagneticFluxDensityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMagneticFluxMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMassDensityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMassFlowRateMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMassMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMassPerLengthMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMinuteInHour = INTEGER;

+ WHERE

+	WR1 : {0 <= SELF <= 59 };

+END_TYPE;

+

+TYPE IfcModulusOfElasticityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcModulusOfLinearSubgradeReactionMeasure = REAL;

+END_TYPE;

+

+TYPE IfcModulusOfRotationalSubgradeReactionMeasure = REAL;

+END_TYPE;

+

+TYPE IfcModulusOfSubgradeReactionMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMoistureDiffusivityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMolecularWeightMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMomentOfInertiaMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMonetaryMeasure = REAL;

+END_TYPE;

+

+TYPE IfcMonthInYearNumber = INTEGER;

+ WHERE

+	WR1 : { 1<= SELF <= 12 };

+END_TYPE;

+

+TYPE IfcNormalisedRatioMeasure = IfcRatioMeasure;

+ WHERE

+	WR1 : {0.0 <= SELF <= 1.0};

+END_TYPE;

+

+TYPE IfcNumericMeasure = NUMBER;

+END_TYPE;

+

+TYPE IfcPHMeasure = REAL;

+ WHERE

+	WR21 : {0.0 <= SELF <= 14.0};

+END_TYPE;

+

+TYPE IfcParameterValue = REAL;

+END_TYPE;

+

+TYPE IfcPlanarForceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcPlaneAngleMeasure = REAL;

+END_TYPE;

+

+TYPE IfcPositiveLengthMeasure = IfcLengthMeasure;

+ WHERE

+	WR1 : SELF > 0.;

+END_TYPE;

+

+TYPE IfcPositivePlaneAngleMeasure = IfcPlaneAngleMeasure;

+ WHERE

+	WR1 : SELF > 0.;

+END_TYPE;

+

+TYPE IfcPositiveRatioMeasure = IfcRatioMeasure;

+ WHERE

+	WR1 : SELF > 0.;

+END_TYPE;

+

+TYPE IfcPowerMeasure = REAL;

+END_TYPE;

+

+TYPE IfcPresentableText = STRING;

+END_TYPE;

+

+TYPE IfcPressureMeasure = REAL;

+END_TYPE;

+

+TYPE IfcRadioActivityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcRatioMeasure = REAL;

+END_TYPE;

+

+TYPE IfcReal = REAL;

+END_TYPE;

+

+TYPE IfcRotationalFrequencyMeasure = REAL;

+END_TYPE;

+

+TYPE IfcRotationalMassMeasure = REAL;

+END_TYPE;

+

+TYPE IfcRotationalStiffnessMeasure = REAL;

+END_TYPE;

+

+TYPE IfcSecondInMinute = REAL;

+ WHERE

+	WR1 : { 0. <= SELF < 60. };

+END_TYPE;

+

+TYPE IfcSectionModulusMeasure = REAL;

+END_TYPE;

+

+TYPE IfcSectionalAreaIntegralMeasure = REAL;

+END_TYPE;

+

+TYPE IfcShearModulusMeasure = REAL;

+END_TYPE;

+

+TYPE IfcSolidAngleMeasure = REAL;

+END_TYPE;

+

+TYPE IfcSoundPowerMeasure = REAL;

+END_TYPE;

+

+TYPE IfcSoundPressureMeasure = REAL;

+END_TYPE;

+

+TYPE IfcSpecificHeatCapacityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcSpecularExponent = REAL;

+END_TYPE;

+

+TYPE IfcSpecularRoughness = REAL;

+ WHERE

+	WR1 : {0.0 <= SELF <= 1.0};

+END_TYPE;

+

+TYPE IfcTemperatureGradientMeasure = REAL;

+END_TYPE;

+

+TYPE IfcText = STRING;

+END_TYPE;

+

+TYPE IfcTextAlignment = STRING;

+ WHERE

+	WR1 : SELF IN ['left', 'right', 'center', 'justify'];

+END_TYPE;

+

+TYPE IfcTextDecoration = STRING;

+ WHERE

+	WR1 : SELF IN ['none', 'underline', 'overline', 'line-through', 'blink'];

+END_TYPE;

+

+TYPE IfcTextFontName = STRING;

+END_TYPE;

+

+TYPE IfcTextTransformation = STRING;

+ WHERE

+	WR1 : SELF IN ['capitalize', 'uppercase', 'lowercase', 'none'];

+END_TYPE;

+

+TYPE IfcThermalAdmittanceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcThermalConductivityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcThermalExpansionCoefficientMeasure = REAL;

+END_TYPE;

+

+TYPE IfcThermalResistanceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcThermalTransmittanceMeasure = REAL;

+END_TYPE;

+

+TYPE IfcThermodynamicTemperatureMeasure = REAL;

+END_TYPE;

+

+TYPE IfcTimeMeasure = REAL;

+END_TYPE;

+

+TYPE IfcTimeStamp = INTEGER;

+END_TYPE;

+

+TYPE IfcTorqueMeasure = REAL;

+END_TYPE;

+

+TYPE IfcVaporPermeabilityMeasure = REAL;

+END_TYPE;

+

+TYPE IfcVolumeMeasure = REAL;

+END_TYPE;

+

+TYPE IfcVolumetricFlowRateMeasure = REAL;

+END_TYPE;

+

+TYPE IfcWarpingConstantMeasure = REAL;

+END_TYPE;

+

+TYPE IfcWarpingMomentMeasure = REAL;

+END_TYPE;

+

+TYPE IfcYearNumber = INTEGER;

+END_TYPE;

+

+TYPE IfcActionSourceTypeEnum = ENUMERATION OF

+	(DEAD_LOAD_G

+	,COMPLETION_G1

+	,LIVE_LOAD_Q

+	,SNOW_S

+	,WIND_W

+	,PRESTRESSING_P

+	,SETTLEMENT_U

+	,TEMPERATURE_T

+	,EARTHQUAKE_E

+	,FIRE

+	,IMPULSE

+	,IMPACT

+	,TRANSPORT

+	,ERECTION

+	,PROPPING

+	,SYSTEM_IMPERFECTION

+	,SHRINKAGE

+	,CREEP

+	,LACK_OF_FIT

+	,BUOYANCY

+	,ICE

+	,CURRENT

+	,WAVE

+	,RAIN

+	,BRAKES

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcActionTypeEnum = ENUMERATION OF

+	(PERMANENT_G

+	,VARIABLE_Q

+	,EXTRAORDINARY_A

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcActuatorTypeEnum = ENUMERATION OF

+	(ELECTRICACTUATOR

+	,HANDOPERATEDACTUATOR

+	,HYDRAULICACTUATOR

+	,PNEUMATICACTUATOR

+	,THERMOSTATICACTUATOR

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcAddressTypeEnum = ENUMERATION OF

+	(OFFICE

+	,SITE

+	,HOME

+	,DISTRIBUTIONPOINT

+	,USERDEFINED);

+END_TYPE;

+

+TYPE IfcAheadOrBehind = ENUMERATION OF

+	(AHEAD

+	,BEHIND);

+END_TYPE;

+

+TYPE IfcAirTerminalBoxTypeEnum = ENUMERATION OF

+	(CONSTANTFLOW

+	,VARIABLEFLOWPRESSUREDEPENDANT

+	,VARIABLEFLOWPRESSUREINDEPENDANT

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcAirTerminalTypeEnum = ENUMERATION OF

+	(GRILLE

+	,REGISTER

+	,DIFFUSER

+	,EYEBALL

+	,IRIS

+	,LINEARGRILLE

+	,LINEARDIFFUSER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcAirToAirHeatRecoveryTypeEnum = ENUMERATION OF

+	(FIXEDPLATECOUNTERFLOWEXCHANGER

+	,FIXEDPLATECROSSFLOWEXCHANGER

+	,FIXEDPLATEPARALLELFLOWEXCHANGER

+	,ROTARYWHEEL

+	,RUNAROUNDCOILLOOP

+	,HEATPIPE

+	,TWINTOWERENTHALPYRECOVERYLOOPS

+	,THERMOSIPHONSEALEDTUBEHEATEXCHANGERS

+	,THERMOSIPHONCOILTYPEHEATEXCHANGERS

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcAlarmTypeEnum = ENUMERATION OF

+	(BELL

+	,BREAKGLASSBUTTON

+	,LIGHT

+	,MANUALPULLBOX

+	,SIREN

+	,WHISTLE

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcAnalysisModelTypeEnum = ENUMERATION OF

+	(IN_PLANE_LOADING_2D

+	,OUT_PLANE_LOADING_2D

+	,LOADING_3D

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcAnalysisTheoryTypeEnum = ENUMERATION OF

+	(FIRST_ORDER_THEORY

+	,SECOND_ORDER_THEORY

+	,THIRD_ORDER_THEORY

+	,FULL_NONLINEAR_THEORY

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcArithmeticOperatorEnum = ENUMERATION OF

+	(ADD

+	,DIVIDE

+	,MULTIPLY

+	,SUBTRACT);

+END_TYPE;

+

+TYPE IfcAssemblyPlaceEnum = ENUMERATION OF

+	(SITE

+	,FACTORY

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcBSplineCurveForm = ENUMERATION OF

+	(POLYLINE_FORM

+	,CIRCULAR_ARC

+	,ELLIPTIC_ARC

+	,PARABOLIC_ARC

+	,HYPERBOLIC_ARC

+	,UNSPECIFIED);

+END_TYPE;

+

+TYPE IfcBeamTypeEnum = ENUMERATION OF

+	(BEAM

+	,JOIST

+	,LINTEL

+	,T_BEAM

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcBenchmarkEnum = ENUMERATION OF

+	(GREATERTHAN

+	,GREATERTHANOREQUALTO

+	,LESSTHAN

+	,LESSTHANOREQUALTO

+	,EQUALTO

+	,NOTEQUALTO);

+END_TYPE;

+

+TYPE IfcBoilerTypeEnum = ENUMERATION OF

+	(WATER

+	,STEAM

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcBooleanOperator = ENUMERATION OF

+	(UNION

+	,INTERSECTION

+	,DIFFERENCE);

+END_TYPE;

+

+TYPE IfcBuildingElementProxyTypeEnum = ENUMERATION OF

+	(USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCableCarrierFittingTypeEnum = ENUMERATION OF

+	(BEND

+	,CROSS

+	,REDUCER

+	,TEE

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCableCarrierSegmentTypeEnum = ENUMERATION OF

+	(CABLELADDERSEGMENT

+	,CABLETRAYSEGMENT

+	,CABLETRUNKINGSEGMENT

+	,CONDUITSEGMENT

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCableSegmentTypeEnum = ENUMERATION OF

+	(CABLESEGMENT

+	,CONDUCTORSEGMENT

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcChangeActionEnum = ENUMERATION OF

+	(NOCHANGE

+	,MODIFIED

+	,ADDED

+	,DELETED

+	,MODIFIEDADDED

+	,MODIFIEDDELETED);

+END_TYPE;

+

+TYPE IfcChillerTypeEnum = ENUMERATION OF

+	(AIRCOOLED

+	,WATERCOOLED

+	,HEATRECOVERY

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCoilTypeEnum = ENUMERATION OF

+	(DXCOOLINGCOIL

+	,WATERCOOLINGCOIL

+	,STEAMHEATINGCOIL

+	,WATERHEATINGCOIL

+	,ELECTRICHEATINGCOIL

+	,GASHEATINGCOIL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcColumnTypeEnum = ENUMERATION OF

+	(COLUMN

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCompressorTypeEnum = ENUMERATION OF

+	(DYNAMIC

+	,RECIPROCATING

+	,ROTARY

+	,SCROLL

+	,TROCHOIDAL

+	,SINGLESTAGE

+	,BOOSTER

+	,OPENTYPE

+	,HERMETIC

+	,SEMIHERMETIC

+	,WELDEDSHELLHERMETIC

+	,ROLLINGPISTON

+	,ROTARYVANE

+	,SINGLESCREW

+	,TWINSCREW

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCondenserTypeEnum = ENUMERATION OF

+	(WATERCOOLEDSHELLTUBE

+	,WATERCOOLEDSHELLCOIL

+	,WATERCOOLEDTUBEINTUBE

+	,WATERCOOLEDBRAZEDPLATE

+	,AIRCOOLED

+	,EVAPORATIVECOOLED

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcConnectionTypeEnum = ENUMERATION OF

+	(ATPATH

+	,ATSTART

+	,ATEND

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcConstraintEnum = ENUMERATION OF

+	(HARD

+	,SOFT

+	,ADVISORY

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcControllerTypeEnum = ENUMERATION OF

+	(FLOATING

+	,PROPORTIONAL

+	,PROPORTIONALINTEGRAL

+	,PROPORTIONALINTEGRALDERIVATIVE

+	,TIMEDTWOPOSITION

+	,TWOPOSITION

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCooledBeamTypeEnum = ENUMERATION OF

+	(ACTIVE

+	,PASSIVE

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCoolingTowerTypeEnum = ENUMERATION OF

+	(NATURALDRAFT

+	,MECHANICALINDUCEDDRAFT

+	,MECHANICALFORCEDDRAFT

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCostScheduleTypeEnum = ENUMERATION OF

+	(BUDGET

+	,COSTPLAN

+	,ESTIMATE

+	,TENDER

+	,PRICEDBILLOFQUANTITIES

+	,UNPRICEDBILLOFQUANTITIES

+	,SCHEDULEOFRATES

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCoveringTypeEnum = ENUMERATION OF

+	(CEILING

+	,FLOORING

+	,CLADDING

+	,ROOFING

+	,INSULATION

+	,MEMBRANE

+	,SLEEVING

+	,WRAPPING

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcCurrencyEnum = ENUMERATION OF

+	(AED

+	,AES

+	,ATS

+	,AUD

+	,BBD

+	,BEG

+	,BGL

+	,BHD

+	,BMD

+	,BND

+	,BRL

+	,BSD

+	,BWP

+	,BZD

+	,CAD

+	,CBD

+	,CHF

+	,CLP

+	,CNY

+	,CYS

+	,CZK

+	,DDP

+	,DEM

+	,DKK

+	,EGL

+	,EST

+	,EUR

+	,FAK

+	,FIM

+	,FJD

+	,FKP

+	,FRF

+	,GBP

+	,GIP

+	,GMD

+	,GRX

+	,HKD

+	,HUF

+	,ICK

+	,IDR

+	,ILS

+	,INR

+	,IRP

+	,ITL

+	,JMD

+	,JOD

+	,JPY

+	,KES

+	,KRW

+	,KWD

+	,KYD

+	,LKR

+	,LUF

+	,MTL

+	,MUR

+	,MXN

+	,MYR

+	,NLG

+	,NZD

+	,OMR

+	,PGK

+	,PHP

+	,PKR

+	,PLN

+	,PTN

+	,QAR

+	,RUR

+	,SAR

+	,SCR

+	,SEK

+	,SGD

+	,SKP

+	,THB

+	,TRL

+	,TTD

+	,TWD

+	,USD

+	,VEB

+	,VND

+	,XEU

+	,ZAR

+	,ZWD

+	,NOK);

+END_TYPE;

+

+TYPE IfcCurtainWallTypeEnum = ENUMERATION OF

+	(USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDamperTypeEnum = ENUMERATION OF

+	(CONTROLDAMPER

+	,FIREDAMPER

+	,SMOKEDAMPER

+	,FIRESMOKEDAMPER

+	,BACKDRAFTDAMPER

+	,RELIEFDAMPER

+	,BLASTDAMPER

+	,GRAVITYDAMPER

+	,GRAVITYRELIEFDAMPER

+	,BALANCINGDAMPER

+	,FUMEHOODEXHAUST

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDataOriginEnum = ENUMERATION OF

+	(MEASURED

+	,PREDICTED

+	,SIMULATED

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDerivedUnitEnum = ENUMERATION OF

+	(ANGULARVELOCITYUNIT

+	,COMPOUNDPLANEANGLEUNIT

+	,DYNAMICVISCOSITYUNIT

+	,HEATFLUXDENSITYUNIT

+	,INTEGERCOUNTRATEUNIT

+	,ISOTHERMALMOISTURECAPACITYUNIT

+	,KINEMATICVISCOSITYUNIT

+	,LINEARVELOCITYUNIT

+	,MASSDENSITYUNIT

+	,MASSFLOWRATEUNIT

+	,MOISTUREDIFFUSIVITYUNIT

+	,MOLECULARWEIGHTUNIT

+	,SPECIFICHEATCAPACITYUNIT

+	,THERMALADMITTANCEUNIT

+	,THERMALCONDUCTANCEUNIT

+	,THERMALRESISTANCEUNIT

+	,THERMALTRANSMITTANCEUNIT

+	,VAPORPERMEABILITYUNIT

+	,VOLUMETRICFLOWRATEUNIT

+	,ROTATIONALFREQUENCYUNIT

+	,TORQUEUNIT

+	,MOMENTOFINERTIAUNIT

+	,LINEARMOMENTUNIT

+	,LINEARFORCEUNIT

+	,PLANARFORCEUNIT

+	,MODULUSOFELASTICITYUNIT

+	,SHEARMODULUSUNIT

+	,LINEARSTIFFNESSUNIT

+	,ROTATIONALSTIFFNESSUNIT

+	,MODULUSOFSUBGRADEREACTIONUNIT

+	,ACCELERATIONUNIT

+	,CURVATUREUNIT

+	,HEATINGVALUEUNIT

+	,IONCONCENTRATIONUNIT

+	,LUMINOUSINTENSITYDISTRIBUTIONUNIT

+	,MASSPERLENGTHUNIT

+	,MODULUSOFLINEARSUBGRADEREACTIONUNIT

+	,MODULUSOFROTATIONALSUBGRADEREACTIONUNIT

+	,PHUNIT

+	,ROTATIONALMASSUNIT

+	,SECTIONAREAINTEGRALUNIT

+	,SECTIONMODULUSUNIT

+	,SOUNDPOWERUNIT

+	,SOUNDPRESSUREUNIT

+	,TEMPERATUREGRADIENTUNIT

+	,THERMALEXPANSIONCOEFFICIENTUNIT

+	,WARPINGCONSTANTUNIT

+	,WARPINGMOMENTUNIT

+	,USERDEFINED);

+END_TYPE;

+

+TYPE IfcDimensionExtentUsage = ENUMERATION OF

+	(ORIGIN

+	,TARGET);

+END_TYPE;

+

+TYPE IfcDirectionSenseEnum = ENUMERATION OF

+	(POSITIVE

+	,NEGATIVE);

+END_TYPE;

+

+TYPE IfcDistributionChamberElementTypeEnum = ENUMERATION OF

+	(FORMEDDUCT

+	,INSPECTIONCHAMBER

+	,INSPECTIONPIT

+	,MANHOLE

+	,METERCHAMBER

+	,SUMP

+	,TRENCH

+	,VALVECHAMBER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDocumentConfidentialityEnum = ENUMERATION OF

+	(PUBLIC

+	,RESTRICTED

+	,CONFIDENTIAL

+	,PERSONAL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDocumentStatusEnum = ENUMERATION OF

+	(DRAFT

+	,FINALDRAFT

+	,FINAL

+	,REVISION

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDoorPanelOperationEnum = ENUMERATION OF

+	(SWINGING

+	,DOUBLE_ACTING

+	,SLIDING

+	,FOLDING

+	,REVOLVING

+	,ROLLINGUP

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDoorPanelPositionEnum = ENUMERATION OF

+	(LEFT

+	,MIDDLE

+	,RIGHT

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDoorStyleConstructionEnum = ENUMERATION OF

+	(ALUMINIUM

+	,HIGH_GRADE_STEEL

+	,STEEL

+	,WOOD

+	,ALUMINIUM_WOOD

+	,ALUMINIUM_PLASTIC

+	,PLASTIC

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDoorStyleOperationEnum = ENUMERATION OF

+	(SINGLE_SWING_LEFT

+	,SINGLE_SWING_RIGHT

+	,DOUBLE_DOOR_SINGLE_SWING

+	,DOUBLE_DOOR_SINGLE_SWING_OPPOSITE_LEFT

+	,DOUBLE_DOOR_SINGLE_SWING_OPPOSITE_RIGHT

+	,DOUBLE_SWING_LEFT

+	,DOUBLE_SWING_RIGHT

+	,DOUBLE_DOOR_DOUBLE_SWING

+	,SLIDING_TO_LEFT

+	,SLIDING_TO_RIGHT

+	,DOUBLE_DOOR_SLIDING

+	,FOLDING_TO_LEFT

+	,FOLDING_TO_RIGHT

+	,DOUBLE_DOOR_FOLDING

+	,REVOLVING

+	,ROLLINGUP

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDuctFittingTypeEnum = ENUMERATION OF

+	(BEND

+	,CONNECTOR

+	,ENTRY

+	,EXIT

+	,JUNCTION

+	,OBSTRUCTION

+	,TRANSITION

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDuctSegmentTypeEnum = ENUMERATION OF

+	(RIGIDSEGMENT

+	,FLEXIBLESEGMENT

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcDuctSilencerTypeEnum = ENUMERATION OF

+	(FLATOVAL

+	,RECTANGULAR

+	,ROUND

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcElectricApplianceTypeEnum = ENUMERATION OF

+	(COMPUTER

+	,DIRECTWATERHEATER

+	,DISHWASHER

+	,ELECTRICCOOKER

+	,ELECTRICHEATER

+	,FACSIMILE

+	,FREESTANDINGFAN

+	,FREEZER

+	,FRIDGE_FREEZER

+	,HANDDRYER

+	,INDIRECTWATERHEATER

+	,MICROWAVE

+	,PHOTOCOPIER

+	,PRINTER

+	,REFRIGERATOR

+	,RADIANTHEATER

+	,SCANNER

+	,TELEPHONE

+	,TUMBLEDRYER

+	,TV

+	,VENDINGMACHINE

+	,WASHINGMACHINE

+	,WATERHEATER

+	,WATERCOOLER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcElectricCurrentEnum = ENUMERATION OF

+	(ALTERNATING

+	,DIRECT

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcElectricDistributionPointFunctionEnum = ENUMERATION OF

+	(ALARMPANEL

+	,CONSUMERUNIT

+	,CONTROLPANEL

+	,DISTRIBUTIONBOARD

+	,GASDETECTORPANEL

+	,INDICATORPANEL

+	,MIMICPANEL

+	,MOTORCONTROLCENTRE

+	,SWITCHBOARD

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcElectricFlowStorageDeviceTypeEnum = ENUMERATION OF

+	(BATTERY

+	,CAPACITORBANK

+	,HARMONICFILTER

+	,INDUCTORBANK

+	,UPS

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcElectricGeneratorTypeEnum = ENUMERATION OF

+	(USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcElectricHeaterTypeEnum = ENUMERATION OF

+	(ELECTRICPOINTHEATER

+	,ELECTRICCABLEHEATER

+	,ELECTRICMATHEATER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcElectricMotorTypeEnum = ENUMERATION OF

+	(DC

+	,INDUCTION

+	,POLYPHASE

+	,RELUCTANCESYNCHRONOUS

+	,SYNCHRONOUS

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcElectricTimeControlTypeEnum = ENUMERATION OF

+	(TIMECLOCK

+	,TIMEDELAY

+	,RELAY

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcElementAssemblyTypeEnum = ENUMERATION OF

+	(ACCESSORY_ASSEMBLY

+	,ARCH

+	,BEAM_GRID

+	,BRACED_FRAME

+	,GIRDER

+	,REINFORCEMENT_UNIT

+	,RIGID_FRAME

+	,SLAB_FIELD

+	,TRUSS

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcElementCompositionEnum = ENUMERATION OF

+	(COMPLEX

+	,ELEMENT

+	,PARTIAL);

+END_TYPE;

+

+TYPE IfcEnergySequenceEnum = ENUMERATION OF

+	(PRIMARY

+	,SECONDARY

+	,TERTIARY

+	,AUXILIARY

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcEnvironmentalImpactCategoryEnum = ENUMERATION OF

+	(COMBINEDVALUE

+	,DISPOSAL

+	,EXTRACTION

+	,INSTALLATION

+	,MANUFACTURE

+	,TRANSPORTATION

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcEvaporativeCoolerTypeEnum = ENUMERATION OF

+	(DIRECTEVAPORATIVERANDOMMEDIAAIRCOOLER

+	,DIRECTEVAPORATIVERIGIDMEDIAAIRCOOLER

+	,DIRECTEVAPORATIVESLINGERSPACKAGEDAIRCOOLER

+	,DIRECTEVAPORATIVEPACKAGEDROTARYAIRCOOLER

+	,DIRECTEVAPORATIVEAIRWASHER

+	,INDIRECTEVAPORATIVEPACKAGEAIRCOOLER

+	,INDIRECTEVAPORATIVEWETCOIL

+	,INDIRECTEVAPORATIVECOOLINGTOWERORCOILCOOLER

+	,INDIRECTDIRECTCOMBINATION

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcEvaporatorTypeEnum = ENUMERATION OF

+	(DIRECTEXPANSIONSHELLANDTUBE

+	,DIRECTEXPANSIONTUBEINTUBE

+	,DIRECTEXPANSIONBRAZEDPLATE

+	,FLOODEDSHELLANDTUBE

+	,SHELLANDCOIL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcFanTypeEnum = ENUMERATION OF

+	(CENTRIFUGALFORWARDCURVED

+	,CENTRIFUGALRADIAL

+	,CENTRIFUGALBACKWARDINCLINEDCURVED

+	,CENTRIFUGALAIRFOIL

+	,TUBEAXIAL

+	,VANEAXIAL

+	,PROPELLORAXIAL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcFilterTypeEnum = ENUMERATION OF

+	(AIRPARTICLEFILTER

+	,ODORFILTER

+	,OILFILTER

+	,STRAINER

+	,WATERFILTER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcFireSuppressionTerminalTypeEnum = ENUMERATION OF

+	(BREECHINGINLET

+	,FIREHYDRANT

+	,HOSEREEL

+	,SPRINKLER

+	,SPRINKLERDEFLECTOR

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcFlowDirectionEnum = ENUMERATION OF

+	(SOURCE

+	,SINK

+	,SOURCEANDSINK

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcFlowInstrumentTypeEnum = ENUMERATION OF

+	(PRESSUREGAUGE

+	,THERMOMETER

+	,AMMETER

+	,FREQUENCYMETER

+	,POWERFACTORMETER

+	,PHASEANGLEMETER

+	,VOLTMETER_PEAK

+	,VOLTMETER_RMS

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcFlowMeterTypeEnum = ENUMERATION OF

+	(ELECTRICMETER

+	,ENERGYMETER

+	,FLOWMETER

+	,GASMETER

+	,OILMETER

+	,WATERMETER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcFootingTypeEnum = ENUMERATION OF

+	(FOOTING_BEAM

+	,PAD_FOOTING

+	,PILE_CAP

+	,STRIP_FOOTING

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcGasTerminalTypeEnum = ENUMERATION OF

+	(GASAPPLIANCE

+	,GASBOOSTER

+	,GASBURNER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcGeometricProjectionEnum = ENUMERATION OF

+	(GRAPH_VIEW

+	,SKETCH_VIEW

+	,MODEL_VIEW

+	,PLAN_VIEW

+	,REFLECTED_PLAN_VIEW

+	,SECTION_VIEW

+	,ELEVATION_VIEW

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcGlobalOrLocalEnum = ENUMERATION OF

+	(GLOBAL_COORDS

+	,LOCAL_COORDS);

+END_TYPE;

+

+TYPE IfcHeatExchangerTypeEnum = ENUMERATION OF

+	(PLATE

+	,SHELLANDTUBE

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcHumidifierTypeEnum = ENUMERATION OF

+	(STEAMINJECTION

+	,ADIABATICAIRWASHER

+	,ADIABATICPAN

+	,ADIABATICWETTEDELEMENT

+	,ADIABATICATOMIZING

+	,ADIABATICULTRASONIC

+	,ADIABATICRIGIDMEDIA

+	,ADIABATICCOMPRESSEDAIRNOZZLE

+	,ASSISTEDELECTRIC

+	,ASSISTEDNATURALGAS

+	,ASSISTEDPROPANE

+	,ASSISTEDBUTANE

+	,ASSISTEDSTEAM

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcInternalOrExternalEnum = ENUMERATION OF

+	(INTERNAL

+	,EXTERNAL

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcInventoryTypeEnum = ENUMERATION OF

+	(ASSETINVENTORY

+	,SPACEINVENTORY

+	,FURNITUREINVENTORY

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcJunctionBoxTypeEnum = ENUMERATION OF

+	(USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcLampTypeEnum = ENUMERATION OF

+	(COMPACTFLUORESCENT

+	,FLUORESCENT

+	,HIGHPRESSUREMERCURY

+	,HIGHPRESSURESODIUM

+	,METALHALIDE

+	,TUNGSTENFILAMENT

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcLayerSetDirectionEnum = ENUMERATION OF

+	(AXIS1

+	,AXIS2

+	,AXIS3);

+END_TYPE;

+

+TYPE IfcLightDistributionCurveEnum = ENUMERATION OF

+	(TYPE_A

+	,TYPE_B

+	,TYPE_C

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcLightEmissionSourceEnum = ENUMERATION OF

+	(COMPACTFLUORESCENT

+	,FLUORESCENT

+	,HIGHPRESSUREMERCURY

+	,HIGHPRESSURESODIUM

+	,LIGHTEMITTINGDIODE

+	,LOWPRESSURESODIUM

+	,LOWVOLTAGEHALOGEN

+	,MAINVOLTAGEHALOGEN

+	,METALHALIDE

+	,TUNGSTENFILAMENT

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcLightFixtureTypeEnum = ENUMERATION OF

+	(POINTSOURCE

+	,DIRECTIONSOURCE

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcLoadGroupTypeEnum = ENUMERATION OF

+	(LOAD_GROUP

+	,LOAD_CASE

+	,LOAD_COMBINATION_GROUP

+	,LOAD_COMBINATION

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcLogicalOperatorEnum = ENUMERATION OF

+	(LOGICALAND

+	,LOGICALOR);

+END_TYPE;

+

+TYPE IfcMemberTypeEnum = ENUMERATION OF

+	(BRACE

+	,CHORD

+	,COLLAR

+	,MEMBER

+	,MULLION

+	,PLATE

+	,POST

+	,PURLIN

+	,RAFTER

+	,STRINGER

+	,STRUT

+	,STUD

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcMotorConnectionTypeEnum = ENUMERATION OF

+	(BELTDRIVE

+	,COUPLING

+	,DIRECTDRIVE

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcNullStyle = ENUMERATION OF

+	(NULL);

+END_TYPE;

+

+TYPE IfcObjectTypeEnum = ENUMERATION OF

+	(PRODUCT

+	,PROCESS

+	,CONTROL

+	,RESOURCE

+	,ACTOR

+	,GROUP

+	,PROJECT

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcObjectiveEnum = ENUMERATION OF

+	(CODECOMPLIANCE

+	,DESIGNINTENT

+	,HEALTHANDSAFETY

+	,REQUIREMENT

+	,SPECIFICATION

+	,TRIGGERCONDITION

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcOccupantTypeEnum = ENUMERATION OF

+	(ASSIGNEE

+	,ASSIGNOR

+	,LESSEE

+	,LESSOR

+	,LETTINGAGENT

+	,OWNER

+	,TENANT

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcOutletTypeEnum = ENUMERATION OF

+	(AUDIOVISUALOUTLET

+	,COMMUNICATIONSOUTLET

+	,POWEROUTLET

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcPermeableCoveringOperationEnum = ENUMERATION OF

+	(GRILL

+	,LOUVER

+	,SCREEN

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcPhysicalOrVirtualEnum = ENUMERATION OF

+	(PHYSICAL

+	,VIRTUAL

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcPileConstructionEnum = ENUMERATION OF

+	(CAST_IN_PLACE

+	,COMPOSITE

+	,PRECAST_CONCRETE

+	,PREFAB_STEEL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcPileTypeEnum = ENUMERATION OF

+	(COHESION

+	,FRICTION

+	,SUPPORT

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcPipeFittingTypeEnum = ENUMERATION OF

+	(BEND

+	,CONNECTOR

+	,ENTRY

+	,EXIT

+	,JUNCTION

+	,OBSTRUCTION

+	,TRANSITION

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcPipeSegmentTypeEnum = ENUMERATION OF

+	(FLEXIBLESEGMENT

+	,RIGIDSEGMENT

+	,GUTTER

+	,SPOOL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcPlateTypeEnum = ENUMERATION OF

+	(CURTAIN_PANEL

+	,SHEET

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcProcedureTypeEnum = ENUMERATION OF

+	(ADVICE_CAUTION

+	,ADVICE_NOTE

+	,ADVICE_WARNING

+	,CALIBRATION

+	,DIAGNOSTIC

+	,SHUTDOWN

+	,STARTUP

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcProfileTypeEnum = ENUMERATION OF

+	(CURVE

+	,AREA);

+END_TYPE;

+

+TYPE IfcProjectOrderRecordTypeEnum = ENUMERATION OF

+	(CHANGE

+	,MAINTENANCE

+	,MOVE

+	,PURCHASE

+	,WORK

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcProjectOrderTypeEnum = ENUMERATION OF

+	(CHANGEORDER

+	,MAINTENANCEWORKORDER

+	,MOVEORDER

+	,PURCHASEORDER

+	,WORKORDER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcProjectedOrTrueLengthEnum = ENUMERATION OF

+	(PROJECTED_LENGTH

+	,TRUE_LENGTH);

+END_TYPE;

+

+TYPE IfcPropertySourceEnum = ENUMERATION OF

+	(DESIGN

+	,DESIGNMAXIMUM

+	,DESIGNMINIMUM

+	,SIMULATED

+	,ASBUILT

+	,COMMISSIONING

+	,MEASURED

+	,USERDEFINED

+	,NOTKNOWN);

+END_TYPE;

+

+TYPE IfcProtectiveDeviceTypeEnum = ENUMERATION OF

+	(FUSEDISCONNECTOR

+	,CIRCUITBREAKER

+	,EARTHFAILUREDEVICE

+	,RESIDUALCURRENTCIRCUITBREAKER

+	,RESIDUALCURRENTSWITCH

+	,VARISTOR

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcPumpTypeEnum = ENUMERATION OF

+	(CIRCULATOR

+	,ENDSUCTION

+	,SPLITCASE

+	,VERTICALINLINE

+	,VERTICALTURBINE

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcRailingTypeEnum = ENUMERATION OF

+	(HANDRAIL

+	,GUARDRAIL

+	,BALUSTRADE

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcRampFlightTypeEnum = ENUMERATION OF

+	(STRAIGHT

+	,SPIRAL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcRampTypeEnum = ENUMERATION OF

+	(STRAIGHT_RUN_RAMP

+	,TWO_STRAIGHT_RUN_RAMP

+	,QUARTER_TURN_RAMP

+	,TWO_QUARTER_TURN_RAMP

+	,HALF_TURN_RAMP

+	,SPIRAL_RAMP

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcReflectanceMethodEnum = ENUMERATION OF

+	(BLINN

+	,FLAT

+	,GLASS

+	,MATT

+	,METAL

+	,MIRROR

+	,PHONG

+	,PLASTIC

+	,STRAUSS

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcReinforcingBarRoleEnum = ENUMERATION OF

+	(MAIN

+	,SHEAR

+	,LIGATURE

+	,STUD

+	,PUNCHING

+	,EDGE

+	,RING

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcReinforcingBarSurfaceEnum = ENUMERATION OF

+	(PLAIN

+	,TEXTURED);

+END_TYPE;

+

+TYPE IfcResourceConsumptionEnum = ENUMERATION OF

+	(CONSUMED

+	,PARTIALLYCONSUMED

+	,NOTCONSUMED

+	,OCCUPIED

+	,PARTIALLYOCCUPIED

+	,NOTOCCUPIED

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcRibPlateDirectionEnum = ENUMERATION OF

+	(DIRECTION_X

+	,DIRECTION_Y);

+END_TYPE;

+

+TYPE IfcRoleEnum = ENUMERATION OF

+	(SUPPLIER

+	,MANUFACTURER

+	,CONTRACTOR

+	,SUBCONTRACTOR

+	,ARCHITECT

+	,STRUCTURALENGINEER

+	,COSTENGINEER

+	,CLIENT

+	,BUILDINGOWNER

+	,BUILDINGOPERATOR

+	,MECHANICALENGINEER

+	,ELECTRICALENGINEER

+	,PROJECTMANAGER

+	,FACILITIESMANAGER

+	,CIVILENGINEER

+	,COMISSIONINGENGINEER

+	,ENGINEER

+	,OWNER

+	,CONSULTANT

+	,CONSTRUCTIONMANAGER

+	,FIELDCONSTRUCTIONMANAGER

+	,RESELLER

+	,USERDEFINED);

+END_TYPE;

+

+TYPE IfcRoofTypeEnum = ENUMERATION OF

+	(FLAT_ROOF

+	,SHED_ROOF

+	,GABLE_ROOF

+	,HIP_ROOF

+	,HIPPED_GABLE_ROOF

+	,GAMBREL_ROOF

+	,MANSARD_ROOF

+	,BARREL_ROOF

+	,RAINBOW_ROOF

+	,BUTTERFLY_ROOF

+	,PAVILION_ROOF

+	,DOME_ROOF

+	,FREEFORM

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcSIPrefix = ENUMERATION OF

+	(EXA

+	,PETA

+	,TERA

+	,GIGA

+	,MEGA

+	,KILO

+	,HECTO

+	,DECA

+	,DECI

+	,CENTI

+	,MILLI

+	,MICRO

+	,NANO

+	,PICO

+	,FEMTO

+	,ATTO);

+END_TYPE;

+

+TYPE IfcSIUnitName = ENUMERATION OF

+	(AMPERE

+	,BECQUEREL

+	,CANDELA

+	,COULOMB

+	,CUBIC_METRE

+	,DEGREE_CELSIUS

+	,FARAD

+	,GRAM

+	,GRAY

+	,HENRY

+	,HERTZ

+	,JOULE

+	,KELVIN

+	,LUMEN

+	,LUX

+	,METRE

+	,MOLE

+	,NEWTON

+	,OHM

+	,PASCAL

+	,RADIAN

+	,SECOND

+	,SIEMENS

+	,SIEVERT

+	,SQUARE_METRE

+	,STERADIAN

+	,TESLA

+	,VOLT

+	,WATT

+	,WEBER);

+END_TYPE;

+

+TYPE IfcSanitaryTerminalTypeEnum = ENUMERATION OF

+	(BATH

+	,BIDET

+	,CISTERN

+	,SHOWER

+	,SINK

+	,SANITARYFOUNTAIN

+	,TOILETPAN

+	,URINAL

+	,WASHHANDBASIN

+	,WCSEAT

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcSectionTypeEnum = ENUMERATION OF

+	(UNIFORM

+	,TAPERED);

+END_TYPE;

+

+TYPE IfcSensorTypeEnum = ENUMERATION OF

+	(CO2SENSOR

+	,FIRESENSOR

+	,FLOWSENSOR

+	,GASSENSOR

+	,HEATSENSOR

+	,HUMIDITYSENSOR

+	,LIGHTSENSOR

+	,MOISTURESENSOR

+	,MOVEMENTSENSOR

+	,PRESSURESENSOR

+	,SMOKESENSOR

+	,SOUNDSENSOR

+	,TEMPERATURESENSOR

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcSequenceEnum = ENUMERATION OF

+	(START_START

+	,START_FINISH

+	,FINISH_START

+	,FINISH_FINISH

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcServiceLifeFactorTypeEnum = ENUMERATION OF

+	(A_QUALITYOFCOMPONENTS

+	,B_DESIGNLEVEL

+	,C_WORKEXECUTIONLEVEL

+	,D_INDOORENVIRONMENT

+	,E_OUTDOORENVIRONMENT

+	,F_INUSECONDITIONS

+	,G_MAINTENANCELEVEL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcServiceLifeTypeEnum = ENUMERATION OF

+	(ACTUALSERVICELIFE

+	,EXPECTEDSERVICELIFE

+	,OPTIMISTICREFERENCESERVICELIFE

+	,PESSIMISTICREFERENCESERVICELIFE

+	,REFERENCESERVICELIFE);

+END_TYPE;

+

+TYPE IfcSlabTypeEnum = ENUMERATION OF

+	(FLOOR

+	,ROOF

+	,LANDING

+	,BASESLAB

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcSoundScaleEnum = ENUMERATION OF

+	(DBA

+	,DBB

+	,DBC

+	,NC

+	,NR

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcSpaceHeaterTypeEnum = ENUMERATION OF

+	(SECTIONALRADIATOR

+	,PANELRADIATOR

+	,TUBULARRADIATOR

+	,CONVECTOR

+	,BASEBOARDHEATER

+	,FINNEDTUBEUNIT

+	,UNITHEATER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcSpaceTypeEnum = ENUMERATION OF

+	(USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcStackTerminalTypeEnum = ENUMERATION OF

+	(BIRDCAGE

+	,COWL

+	,RAINWATERHOPPER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcStairFlightTypeEnum = ENUMERATION OF

+	(STRAIGHT

+	,WINDER

+	,SPIRAL

+	,CURVED

+	,FREEFORM

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcStairTypeEnum = ENUMERATION OF

+	(STRAIGHT_RUN_STAIR

+	,TWO_STRAIGHT_RUN_STAIR

+	,QUARTER_WINDING_STAIR

+	,QUARTER_TURN_STAIR

+	,HALF_WINDING_STAIR

+	,HALF_TURN_STAIR

+	,TWO_QUARTER_WINDING_STAIR

+	,TWO_QUARTER_TURN_STAIR

+	,THREE_QUARTER_WINDING_STAIR

+	,THREE_QUARTER_TURN_STAIR

+	,SPIRAL_STAIR

+	,DOUBLE_RETURN_STAIR

+	,CURVED_RUN_STAIR

+	,TWO_CURVED_RUN_STAIR

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcStateEnum = ENUMERATION OF

+	(READWRITE

+	,READONLY

+	,LOCKED

+	,READWRITELOCKED

+	,READONLYLOCKED);

+END_TYPE;

+

+TYPE IfcStructuralCurveTypeEnum = ENUMERATION OF

+	(RIGID_JOINED_MEMBER

+	,PIN_JOINED_MEMBER

+	,CABLE

+	,TENSION_MEMBER

+	,COMPRESSION_MEMBER

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcStructuralSurfaceTypeEnum = ENUMERATION OF

+	(BENDING_ELEMENT

+	,MEMBRANE_ELEMENT

+	,SHELL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcSurfaceSide = ENUMERATION OF

+	(POSITIVE

+	,NEGATIVE

+	,BOTH);

+END_TYPE;

+

+TYPE IfcSurfaceTextureEnum = ENUMERATION OF

+	(BUMP

+	,OPACITY

+	,REFLECTION

+	,SELFILLUMINATION

+	,SHININESS

+	,SPECULAR

+	,TEXTURE

+	,TRANSPARENCYMAP

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcSwitchingDeviceTypeEnum = ENUMERATION OF

+	(CONTACTOR

+	,EMERGENCYSTOP

+	,STARTER

+	,SWITCHDISCONNECTOR

+	,TOGGLESWITCH

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcTankTypeEnum = ENUMERATION OF

+	(PREFORMED

+	,SECTIONAL

+	,EXPANSION

+	,PRESSUREVESSEL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcTendonTypeEnum = ENUMERATION OF

+	(STRAND

+	,WIRE

+	,BAR

+	,COATED

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcTextPath = ENUMERATION OF

+	(LEFT

+	,RIGHT

+	,UP

+	,DOWN);

+END_TYPE;

+

+TYPE IfcThermalLoadSourceEnum = ENUMERATION OF

+	(PEOPLE

+	,LIGHTING

+	,EQUIPMENT

+	,VENTILATIONINDOORAIR

+	,VENTILATIONOUTSIDEAIR

+	,RECIRCULATEDAIR

+	,EXHAUSTAIR

+	,AIREXCHANGERATE

+	,DRYBULBTEMPERATURE

+	,RELATIVEHUMIDITY

+	,INFILTRATION

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcThermalLoadTypeEnum = ENUMERATION OF

+	(SENSIBLE

+	,LATENT

+	,RADIANT

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcTimeSeriesDataTypeEnum = ENUMERATION OF

+	(CONTINUOUS

+	,DISCRETE

+	,DISCRETEBINARY

+	,PIECEWISEBINARY

+	,PIECEWISECONSTANT

+	,PIECEWISECONTINUOUS

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcTimeSeriesScheduleTypeEnum = ENUMERATION OF

+	(ANNUAL

+	,MONTHLY

+	,WEEKLY

+	,DAILY

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcTransformerTypeEnum = ENUMERATION OF

+	(CURRENT

+	,FREQUENCY

+	,VOLTAGE

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcTransitionCode = ENUMERATION OF

+	(DISCONTINUOUS

+	,CONTINUOUS

+	,CONTSAMEGRADIENT

+	,CONTSAMEGRADIENTSAMECURVATURE);

+END_TYPE;

+

+TYPE IfcTransportElementTypeEnum = ENUMERATION OF

+	(ELEVATOR

+	,ESCALATOR

+	,MOVINGWALKWAY

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcTrimmingPreference = ENUMERATION OF

+	(CARTESIAN

+	,PARAMETER

+	,UNSPECIFIED);

+END_TYPE;

+

+TYPE IfcTubeBundleTypeEnum = ENUMERATION OF

+	(FINNED

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcUnitEnum = ENUMERATION OF

+	(ABSORBEDDOSEUNIT

+	,AMOUNTOFSUBSTANCEUNIT

+	,AREAUNIT

+	,DOSEEQUIVALENTUNIT

+	,ELECTRICCAPACITANCEUNIT

+	,ELECTRICCHARGEUNIT

+	,ELECTRICCONDUCTANCEUNIT

+	,ELECTRICCURRENTUNIT

+	,ELECTRICRESISTANCEUNIT

+	,ELECTRICVOLTAGEUNIT

+	,ENERGYUNIT

+	,FORCEUNIT

+	,FREQUENCYUNIT

+	,ILLUMINANCEUNIT

+	,INDUCTANCEUNIT

+	,LENGTHUNIT

+	,LUMINOUSFLUXUNIT

+	,LUMINOUSINTENSITYUNIT

+	,MAGNETICFLUXDENSITYUNIT

+	,MAGNETICFLUXUNIT

+	,MASSUNIT

+	,PLANEANGLEUNIT

+	,POWERUNIT

+	,PRESSUREUNIT

+	,RADIOACTIVITYUNIT

+	,SOLIDANGLEUNIT

+	,THERMODYNAMICTEMPERATUREUNIT

+	,TIMEUNIT

+	,VOLUMEUNIT

+	,USERDEFINED);

+END_TYPE;

+

+TYPE IfcUnitaryEquipmentTypeEnum = ENUMERATION OF

+	(AIRHANDLER

+	,AIRCONDITIONINGUNIT

+	,SPLITSYSTEM

+	,ROOFTOPUNIT

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcValveTypeEnum = ENUMERATION OF

+	(AIRRELEASE

+	,ANTIVACUUM

+	,CHANGEOVER

+	,CHECK

+	,COMMISSIONING

+	,DIVERTING

+	,DRAWOFFCOCK

+	,DOUBLECHECK

+	,DOUBLEREGULATING

+	,FAUCET

+	,FLUSHING

+	,GASCOCK

+	,GASTAP

+	,ISOLATING

+	,MIXING

+	,PRESSUREREDUCING

+	,PRESSURERELIEF

+	,REGULATING

+	,SAFETYCUTOFF

+	,STEAMTRAP

+	,STOPCOCK

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcVibrationIsolatorTypeEnum = ENUMERATION OF

+	(COMPRESSION

+	,SPRING

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcWallTypeEnum = ENUMERATION OF

+	(STANDARD

+	,POLYGONAL

+	,SHEAR

+	,ELEMENTEDWALL

+	,PLUMBINGWALL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcWasteTerminalTypeEnum = ENUMERATION OF

+	(FLOORTRAP

+	,FLOORWASTE

+	,GULLYSUMP

+	,GULLYTRAP

+	,GREASEINTERCEPTOR

+	,OILINTERCEPTOR

+	,PETROLINTERCEPTOR

+	,ROOFDRAIN

+	,WASTEDISPOSALUNIT

+	,WASTETRAP

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcWindowPanelOperationEnum = ENUMERATION OF

+	(SIDEHUNGRIGHTHAND

+	,SIDEHUNGLEFTHAND

+	,TILTANDTURNRIGHTHAND

+	,TILTANDTURNLEFTHAND

+	,TOPHUNG

+	,BOTTOMHUNG

+	,PIVOTHORIZONTAL

+	,PIVOTVERTICAL

+	,SLIDINGHORIZONTAL

+	,SLIDINGVERTICAL

+	,REMOVABLECASEMENT

+	,FIXEDCASEMENT

+	,OTHEROPERATION

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcWindowPanelPositionEnum = ENUMERATION OF

+	(LEFT

+	,MIDDLE

+	,RIGHT

+	,BOTTOM

+	,TOP

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcWindowStyleConstructionEnum = ENUMERATION OF

+	(ALUMINIUM

+	,HIGH_GRADE_STEEL

+	,STEEL

+	,WOOD

+	,ALUMINIUM_WOOD

+	,PLASTIC

+	,OTHER_CONSTRUCTION

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcWindowStyleOperationEnum = ENUMERATION OF

+	(SINGLE_PANEL

+	,DOUBLE_PANEL_VERTICAL

+	,DOUBLE_PANEL_HORIZONTAL

+	,TRIPLE_PANEL_VERTICAL

+	,TRIPLE_PANEL_BOTTOM

+	,TRIPLE_PANEL_TOP

+	,TRIPLE_PANEL_LEFT

+	,TRIPLE_PANEL_RIGHT

+	,TRIPLE_PANEL_HORIZONTAL

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcWorkControlTypeEnum = ENUMERATION OF

+	(ACTUAL

+	,BASELINE

+	,PLANNED

+	,USERDEFINED

+	,NOTDEFINED);

+END_TYPE;

+

+TYPE IfcActorSelect = SELECT

+	(IfcOrganization

+	,IfcPerson

+	,IfcPersonAndOrganization);

+END_TYPE;

+

+TYPE IfcAppliedValueSelect = SELECT

+	(IfcRatioMeasure

+	,IfcMeasureWithUnit

+	,IfcMonetaryMeasure);

+END_TYPE;

+

+TYPE IfcAxis2Placement = SELECT

+	(IfcAxis2Placement2D

+	,IfcAxis2Placement3D);

+END_TYPE;

+

+TYPE IfcBooleanOperand = SELECT

+	(IfcSolidModel

+	,IfcHalfSpaceSolid

+	,IfcBooleanResult

+	,IfcCsgPrimitive3D);

+END_TYPE;

+

+TYPE IfcCharacterStyleSelect = SELECT

+	(IfcTextStyleForDefinedFont);

+END_TYPE;

+

+TYPE IfcClassificationNotationSelect = SELECT

+	(IfcClassificationNotation

+	,IfcClassificationReference);

+END_TYPE;

+

+TYPE IfcColour = SELECT

+	(IfcColourSpecification

+	,IfcPreDefinedColour);

+END_TYPE;

+

+TYPE IfcColourOrFactor = SELECT

+	(IfcColourRgb

+	,IfcNormalisedRatioMeasure);

+END_TYPE;

+

+TYPE IfcConditionCriterionSelect = SELECT

+	(IfcLabel

+	,IfcMeasureWithUnit);

+END_TYPE;

+

+TYPE IfcCsgSelect = SELECT

+	(IfcBooleanResult

+	,IfcCsgPrimitive3D);

+END_TYPE;

+

+TYPE IfcCurveFontOrScaledCurveFontSelect = SELECT

+	(IfcCurveStyleFontSelect

+	,IfcCurveStyleFontAndScaling);

+END_TYPE;

+

+TYPE IfcCurveOrEdgeCurve = SELECT

+	(IfcBoundedCurve

+	,IfcEdgeCurve);

+END_TYPE;

+

+TYPE IfcCurveStyleFontSelect = SELECT

+	(IfcPreDefinedCurveFont

+	,IfcCurveStyleFont);

+END_TYPE;

+

+TYPE IfcDateTimeSelect = SELECT

+	(IfcCalendarDate

+	,IfcLocalTime

+	,IfcDateAndTime);

+END_TYPE;

+

+TYPE IfcDefinedSymbolSelect = SELECT

+	(IfcPreDefinedSymbol

+	,IfcExternallyDefinedSymbol);

+END_TYPE;

+

+TYPE IfcDerivedMeasureValue = SELECT

+	(IfcVolumetricFlowRateMeasure

+	,IfcTimeStamp

+	,IfcThermalTransmittanceMeasure

+	,IfcThermalResistanceMeasure

+	,IfcThermalAdmittanceMeasure

+	,IfcPressureMeasure

+	,IfcPowerMeasure

+	,IfcMassFlowRateMeasure

+	,IfcMassDensityMeasure

+	,IfcLinearVelocityMeasure

+	,IfcKinematicViscosityMeasure

+	,IfcIntegerCountRateMeasure

+	,IfcHeatFluxDensityMeasure

+	,IfcFrequencyMeasure

+	,IfcEnergyMeasure

+	,IfcElectricVoltageMeasure

+	,IfcDynamicViscosityMeasure

+	,IfcCompoundPlaneAngleMeasure

+	,IfcAngularVelocityMeasure

+	,IfcThermalConductivityMeasure

+	,IfcMolecularWeightMeasure

+	,IfcVaporPermeabilityMeasure

+	,IfcMoistureDiffusivityMeasure

+	,IfcIsothermalMoistureCapacityMeasure

+	,IfcSpecificHeatCapacityMeasure

+	,IfcMonetaryMeasure

+	,IfcMagneticFluxDensityMeasure

+	,IfcMagneticFluxMeasure

+	,IfcLuminousFluxMeasure

+	,IfcForceMeasure

+	,IfcInductanceMeasure

+	,IfcIlluminanceMeasure

+	,IfcElectricResistanceMeasure

+	,IfcElectricConductanceMeasure

+	,IfcElectricChargeMeasure

+	,IfcDoseEquivalentMeasure

+	,IfcElectricCapacitanceMeasure

+	,IfcAbsorbedDoseMeasure

+	,IfcRadioActivityMeasure

+	,IfcRotationalFrequencyMeasure

+	,IfcTorqueMeasure

+	,IfcAccelerationMeasure

+	,IfcLinearForceMeasure

+	,IfcLinearStiffnessMeasure

+	,IfcModulusOfSubgradeReactionMeasure

+	,IfcModulusOfElasticityMeasure

+	,IfcMomentOfInertiaMeasure

+	,IfcPlanarForceMeasure

+	,IfcRotationalStiffnessMeasure

+	,IfcShearModulusMeasure

+	,IfcLinearMomentMeasure

+	,IfcLuminousIntensityDistributionMeasure

+	,IfcCurvatureMeasure

+	,IfcMassPerLengthMeasure

+	,IfcModulusOfLinearSubgradeReactionMeasure

+	,IfcModulusOfRotationalSubgradeReactionMeasure

+	,IfcRotationalMassMeasure

+	,IfcSectionalAreaIntegralMeasure

+	,IfcSectionModulusMeasure

+	,IfcTemperatureGradientMeasure

+	,IfcThermalExpansionCoefficientMeasure

+	,IfcWarpingConstantMeasure

+	,IfcWarpingMomentMeasure

+	,IfcSoundPowerMeasure

+	,IfcSoundPressureMeasure

+	,IfcHeatingValueMeasure

+	,IfcPHMeasure

+	,IfcIonConcentrationMeasure);

+END_TYPE;

+

+TYPE IfcDocumentSelect = SELECT

+	(IfcDocumentReference

+	,IfcDocumentInformation);

+END_TYPE;

+

+TYPE IfcDraughtingCalloutElement = SELECT

+	(IfcAnnotationCurveOccurrence

+	,IfcAnnotationTextOccurrence

+	,IfcAnnotationSymbolOccurrence);

+END_TYPE;

+

+TYPE IfcFillAreaStyleTileShapeSelect = SELECT

+	(IfcFillAreaStyleTileSymbolWithStyle);

+END_TYPE;

+

+TYPE IfcFillStyleSelect = SELECT

+	(IfcFillAreaStyleHatching

+	,IfcFillAreaStyleTiles

+	,IfcColour

+	,IfcExternallyDefinedHatchStyle);

+END_TYPE;

+

+TYPE IfcGeometricSetSelect = SELECT

+	(IfcPoint

+	,IfcCurve

+	,IfcSurface);

+END_TYPE;

+

+TYPE IfcHatchLineDistanceSelect = SELECT

+	(IfcOneDirectionRepeatFactor

+	,IfcPositiveLengthMeasure);

+END_TYPE;

+

+TYPE IfcLayeredItem = SELECT

+	(IfcRepresentationItem

+	,IfcRepresentation);

+END_TYPE;

+

+TYPE IfcLibrarySelect = SELECT

+	(IfcLibraryReference

+	,IfcLibraryInformation);

+END_TYPE;

+

+TYPE IfcLightDistributionDataSourceSelect = SELECT

+	(IfcExternalReference

+	,IfcLightIntensityDistribution);

+END_TYPE;

+

+TYPE IfcMaterialSelect = SELECT

+	(IfcMaterial

+	,IfcMaterialList

+	,IfcMaterialLayerSetUsage

+	,IfcMaterialLayerSet

+	,IfcMaterialLayer);

+END_TYPE;

+

+TYPE IfcMeasureValue = SELECT

+	(IfcVolumeMeasure

+	,IfcTimeMeasure

+	,IfcThermodynamicTemperatureMeasure

+	,IfcSolidAngleMeasure

+	,IfcPositiveRatioMeasure

+	,IfcRatioMeasure

+	,IfcPositivePlaneAngleMeasure

+	,IfcPlaneAngleMeasure

+	,IfcParameterValue

+	,IfcNumericMeasure

+	,IfcMassMeasure

+	,IfcPositiveLengthMeasure

+	,IfcLengthMeasure

+	,IfcElectricCurrentMeasure

+	,IfcDescriptiveMeasure

+	,IfcCountMeasure

+	,IfcContextDependentMeasure

+	,IfcAreaMeasure

+	,IfcAmountOfSubstanceMeasure

+	,IfcLuminousIntensityMeasure

+	,IfcNormalisedRatioMeasure

+	,IfcComplexNumber);

+END_TYPE;

+

+TYPE IfcMetricValueSelect = SELECT

+	(IfcDateTimeSelect

+	,IfcMeasureWithUnit

+	,IfcTable

+	,IfcText

+	,IfcTimeSeries

+	,IfcCostValue);

+END_TYPE;

+

+TYPE IfcObjectReferenceSelect = SELECT

+	(IfcMaterial

+	,IfcPerson

+	,IfcDateAndTime

+	,IfcMaterialList

+	,IfcOrganization

+	,IfcCalendarDate

+	,IfcLocalTime

+	,IfcPersonAndOrganization

+	,IfcMaterialLayer

+	,IfcExternalReference

+	,IfcTimeSeries

+	,IfcAddress

+	,IfcAppliedValue);

+END_TYPE;

+

+TYPE IfcOrientationSelect = SELECT

+	(IfcPlaneAngleMeasure

+	,IfcDirection);

+END_TYPE;

+

+TYPE IfcPointOrVertexPoint = SELECT

+	(IfcPoint

+	,IfcVertexPoint);

+END_TYPE;

+

+TYPE IfcPresentationStyleSelect = SELECT

+	(IfcNullStyle

+	,IfcCurveStyle

+	,IfcSymbolStyle

+	,IfcFillAreaStyle

+	,IfcTextStyle

+	,IfcSurfaceStyle);

+END_TYPE;

+

+TYPE IfcShell = SELECT

+	(IfcClosedShell

+	,IfcOpenShell);

+END_TYPE;

+

+TYPE IfcSimpleValue = SELECT

+	(IfcInteger

+	,IfcReal

+	,IfcBoolean

+	,IfcIdentifier

+	,IfcText

+	,IfcLabel

+	,IfcLogical);

+END_TYPE;

+

+TYPE IfcSizeSelect = SELECT

+	(IfcRatioMeasure

+	,IfcLengthMeasure

+	,IfcDescriptiveMeasure

+	,IfcPositiveLengthMeasure

+	,IfcNormalisedRatioMeasure

+	,IfcPositiveRatioMeasure);

+END_TYPE;

+

+TYPE IfcSpecularHighlightSelect = SELECT

+	(IfcSpecularExponent

+	,IfcSpecularRoughness);

+END_TYPE;

+

+TYPE IfcStructuralActivityAssignmentSelect = SELECT

+	(IfcStructuralItem

+	,IfcElement);

+END_TYPE;

+

+TYPE IfcSurfaceOrFaceSurface = SELECT

+	(IfcSurface

+	,IfcFaceSurface

+	,IfcFaceBasedSurfaceModel);

+END_TYPE;

+

+TYPE IfcSurfaceStyleElementSelect = SELECT

+	(IfcSurfaceStyleShading

+	,IfcSurfaceStyleLighting

+	,IfcSurfaceStyleWithTextures

+	,IfcExternallyDefinedSurfaceStyle

+	,IfcSurfaceStyleRefraction);

+END_TYPE;

+

+TYPE IfcSymbolStyleSelect = SELECT

+	(IfcColour);

+END_TYPE;

+

+TYPE IfcTextFontSelect = SELECT

+	(IfcPreDefinedTextFont

+	,IfcExternallyDefinedTextFont);

+END_TYPE;

+

+TYPE IfcTextStyleSelect = SELECT

+	(IfcTextStyleWithBoxCharacteristics

+	,IfcTextStyleTextModel);

+END_TYPE;

+

+TYPE IfcTrimmingSelect = SELECT

+	(IfcCartesianPoint

+	,IfcParameterValue);

+END_TYPE;

+

+TYPE IfcUnit = SELECT

+	(IfcDerivedUnit

+	,IfcNamedUnit

+	,IfcMonetaryUnit);

+END_TYPE;

+

+TYPE IfcValue = SELECT

+	(IfcMeasureValue

+	,IfcSimpleValue

+	,IfcDerivedMeasureValue);

+END_TYPE;

+

+TYPE IfcVectorOrDirection = SELECT

+	(IfcDirection

+	,IfcVector);

+END_TYPE;

+

+ENTITY Ifc2DCompositeCurve

+ SUBTYPE OF (IfcCompositeCurve);

+ WHERE

+	WR1 : SELF\IfcCompositeCurve.ClosedCurve;

+	WR2 : SELF\IfcCurve.Dim = 2;

+END_ENTITY;

+

+ENTITY IfcActionRequest

+ SUBTYPE OF (IfcControl);

+	RequestID : IfcIdentifier;

+ UNIQUE

+	UR2 : RequestID;

+END_ENTITY;

+

+ENTITY IfcActor

+ SUPERTYPE OF (ONEOF

+	(IfcOccupant))

+ SUBTYPE OF (IfcObject);

+	TheActor : IfcActorSelect;

+ INVERSE

+	IsActingUpon : SET [0:?] OF IfcRelAssignsToActor FOR RelatingActor;

+END_ENTITY;

+

+ENTITY IfcActorRole;

+	Role : IfcRoleEnum;

+	UserDefinedRole : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+ WHERE

+	WR1 : (Role <> IfcRoleEnum.USERDEFINED) OR

+            ((Role = IfcRoleEnum.USERDEFINED) AND

+              EXISTS(SELF.UserDefinedRole));

+END_ENTITY;

+

+ENTITY IfcActuatorType

+ SUBTYPE OF (IfcDistributionControlElementType);

+	PredefinedType : IfcActuatorTypeEnum;

+END_ENTITY;

+

+ENTITY IfcAddress

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcPostalAddress

+	,IfcTelecomAddress));

+	Purpose : OPTIONAL IfcAddressTypeEnum;

+	Description : OPTIONAL IfcText;

+	UserDefinedPurpose : OPTIONAL IfcLabel;

+ INVERSE

+	OfPerson : SET [0:?] OF IfcPerson FOR Addresses;

+	OfOrganization : SET [0:?] OF IfcOrganization FOR Addresses;

+ WHERE

+	WR1 : (NOT(EXISTS(Purpose))) OR

+            ((Purpose <> IfcAddressTypeEnum.USERDEFINED) OR

+            ((Purpose = IfcAddressTypeEnum.USERDEFINED) AND

+              EXISTS(SELF.UserDefinedPurpose)));

+END_ENTITY;

+

+ENTITY IfcAirTerminalBoxType

+ SUBTYPE OF (IfcFlowControllerType);

+	PredefinedType : IfcAirTerminalBoxTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcAirTerminalBoxTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcAirTerminalBoxTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcAirTerminalType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcAirTerminalTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcAirTerminalTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcAirTerminalTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcAirToAirHeatRecoveryType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcAirToAirHeatRecoveryTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcAirToAirHeatRecoveryTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcAirToAirHeatRecoveryTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcAlarmType

+ SUBTYPE OF (IfcDistributionControlElementType);

+	PredefinedType : IfcAlarmTypeEnum;

+END_ENTITY;

+

+ENTITY IfcAngularDimension

+ SUBTYPE OF (IfcDimensionCurveDirectedCallout);

+END_ENTITY;

+

+ENTITY IfcAnnotation

+ SUBTYPE OF (IfcProduct);

+ INVERSE

+	ContainedInStructure : SET [0:1] OF IfcRelContainedInSpatialStructure FOR RelatedElements;

+END_ENTITY;

+

+ENTITY IfcAnnotationCurveOccurrence

+ SUPERTYPE OF (ONEOF

+	(IfcDimensionCurve

+	,IfcProjectionCurve))

+ SUBTYPE OF (IfcAnnotationOccurrence);

+ WHERE

+	WR31 : NOT(EXISTS(SELF\IfcStyledItem.Item)) OR

+             ('IFC2X3.IFCCURVE' IN TYPEOF (SELF\IfcStyledItem.Item));

+END_ENTITY;

+

+ENTITY IfcAnnotationFillArea

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	OuterBoundary : IfcCurve;

+	InnerBoundaries : OPTIONAL SET [1:?] OF IfcCurve;

+END_ENTITY;

+

+ENTITY IfcAnnotationFillAreaOccurrence

+ SUBTYPE OF (IfcAnnotationOccurrence);

+	FillStyleTarget : OPTIONAL IfcPoint;

+	GlobalOrLocal : OPTIONAL IfcGlobalOrLocalEnum;

+ WHERE

+	WR31 : NOT(EXISTS(SELF\IfcStyledItem.Item)) OR

+             ('IFC2X3.IFCANNOTATIONFILLAREA' IN TYPEOF (SELF\IfcStyledItem.Item));

+END_ENTITY;

+

+ENTITY IfcAnnotationOccurrence

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcAnnotationCurveOccurrence

+	,IfcAnnotationFillAreaOccurrence

+	,IfcAnnotationSurfaceOccurrence

+	,IfcAnnotationSymbolOccurrence

+	,IfcAnnotationTextOccurrence))

+ SUBTYPE OF (IfcStyledItem);

+END_ENTITY;

+

+ENTITY IfcAnnotationSurface

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Item : IfcGeometricRepresentationItem;

+	TextureCoordinates : OPTIONAL IfcTextureCoordinate;

+ WHERE

+	WR01 : SIZEOF([

+               'IFC2X3.IFCSURFACE',

+               'IFC2X3.IFCSHELLBASEDSURFACEMODEL',

+               'IFC2X3.IFCFACEBASEDSURFACEMODEL',

+               'IFC2X3.IFCSOLIDMODEL',

+               'IFC2X3.IFCBOOLEANRESULT',

+               'IFC2X3.IFCCSGPRIMITIVE3D'] 

+              * TYPEOF(Item)

+               ) >= 1;

+END_ENTITY;

+

+ENTITY IfcAnnotationSurfaceOccurrence

+ SUBTYPE OF (IfcAnnotationOccurrence);

+ WHERE

+	WR31 : NOT(EXISTS(SELF\IfcStyledItem.Item)) OR 

+             (SIZEOF(

+              ['IFC2X3.IFCSURFACE',

+               'IFC2X3.IFCFACEBASEDSURFACEMODEL',

+               'IFC2X3.IFCSHELLBASEDSURFACEMODEL',

+               'IFC2X3.IFCSOLIDMODEL'] *

+              TYPEOF(SELF\IfcStyledItem.Item)) > 0);

+END_ENTITY;

+

+ENTITY IfcAnnotationSymbolOccurrence

+ SUPERTYPE OF (ONEOF

+	(IfcTerminatorSymbol))

+ SUBTYPE OF (IfcAnnotationOccurrence);

+ WHERE

+	WR31 : NOT(EXISTS(SELF\IfcStyledItem.Item)) OR

+             ('IFC2X3.IFCDEFINEDSYMBOL' IN TYPEOF (SELF\IfcStyledItem.Item));

+END_ENTITY;

+

+ENTITY IfcAnnotationTextOccurrence

+ SUBTYPE OF (IfcAnnotationOccurrence);

+ WHERE

+	WR31 : NOT(EXISTS(SELF\IfcStyledItem.Item)) OR

+             ('IFC2X3.IFCTEXTLITERAL' IN TYPEOF (SELF\IfcStyledItem.Item));

+END_ENTITY;

+

+ENTITY IfcApplication;

+	ApplicationDeveloper : IfcOrganization;

+	Version : IfcLabel;

+	ApplicationFullName : IfcLabel;

+	ApplicationIdentifier : IfcIdentifier;

+ UNIQUE

+	UR1 : ApplicationIdentifier;

+	UR2 : ApplicationFullName, Version;

+END_ENTITY;

+

+ENTITY IfcAppliedValue

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcCostValue

+	,IfcEnvironmentalImpactValue));

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+	AppliedValue : OPTIONAL IfcAppliedValueSelect;

+	UnitBasis : OPTIONAL IfcMeasureWithUnit;

+	ApplicableDate : OPTIONAL IfcDateTimeSelect;

+	FixedUntilDate : OPTIONAL IfcDateTimeSelect;

+ INVERSE

+	ValuesReferenced : SET [0:?] OF IfcReferencesValueDocument FOR ReferencingValues;

+	ValueOfComponents : SET [0:?] OF IfcAppliedValueRelationship FOR ComponentOfTotal;

+	IsComponentIn : SET [0:?] OF IfcAppliedValueRelationship FOR Components;

+ WHERE

+	WR1 : EXISTS (AppliedValue) OR 

+            EXISTS (ValueOfComponents);

+END_ENTITY;

+

+ENTITY IfcAppliedValueRelationship;

+	ComponentOfTotal : IfcAppliedValue;

+	Components : SET [1:?] OF IfcAppliedValue;

+	ArithmeticOperator : IfcArithmeticOperatorEnum;

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+END_ENTITY;

+

+ENTITY IfcApproval;

+	Description : OPTIONAL IfcText;

+	ApprovalDateTime : IfcDateTimeSelect;

+	ApprovalStatus : OPTIONAL IfcLabel;

+	ApprovalLevel : OPTIONAL IfcLabel;

+	ApprovalQualifier : OPTIONAL IfcText;

+	Name : IfcLabel;

+	Identifier : IfcIdentifier;

+ INVERSE

+	Actors : SET [0:?] OF IfcApprovalActorRelationship FOR Approval;

+	IsRelatedWith : SET [0:?] OF IfcApprovalRelationship FOR RelatedApproval;

+	Relates : SET [0:?] OF IfcApprovalRelationship FOR RelatingApproval;

+END_ENTITY;

+

+ENTITY IfcApprovalActorRelationship;

+	Actor : IfcActorSelect;

+	Approval : IfcApproval;

+	Role : IfcActorRole;

+END_ENTITY;

+

+ENTITY IfcApprovalPropertyRelationship;

+	ApprovedProperties : SET [1:?] OF IfcProperty;

+	Approval : IfcApproval;

+END_ENTITY;

+

+ENTITY IfcApprovalRelationship;

+	RelatedApproval : IfcApproval;

+	RelatingApproval : IfcApproval;

+	Description : OPTIONAL IfcText;

+	Name : IfcLabel;

+END_ENTITY;

+

+ENTITY IfcArbitraryClosedProfileDef

+ SUPERTYPE OF (ONEOF

+	(IfcArbitraryProfileDefWithVoids))

+ SUBTYPE OF (IfcProfileDef);

+	OuterCurve : IfcCurve;

+ WHERE

+	WR1 : OuterCurve.Dim = 2;

+	WR2 : NOT('IFC2X3.IFCLINE' IN TYPEOF(OuterCurve));

+	WR3 : NOT('IFC2X3.IFCOFFSETCURVE2D' IN TYPEOF(OuterCurve));

+END_ENTITY;

+

+ENTITY IfcArbitraryOpenProfileDef

+ SUPERTYPE OF (ONEOF

+	(IfcCenterLineProfileDef))

+ SUBTYPE OF (IfcProfileDef);

+	Curve : IfcBoundedCurve;

+ WHERE

+	WR11 : ('IFC2X3.IFCCENTERLINEPROFILEDEF' IN TYPEOF(SELF)) OR 

+              (SELF\IfcProfileDef.ProfileType = IfcProfileTypeEnum.CURVE);

+	WR12 : Curve.Dim = 2;

+END_ENTITY;

+

+ENTITY IfcArbitraryProfileDefWithVoids

+ SUBTYPE OF (IfcArbitraryClosedProfileDef);

+	InnerCurves : SET [1:?] OF IfcCurve;

+ WHERE

+	WR1 : SELF\IfcProfileDef.ProfileType = AREA;

+	WR2 : SIZEOF(QUERY(temp <* InnerCurves | temp.Dim <> 2)) = 0;

+	WR3 : SIZEOF(QUERY(temp <* InnerCurves | 'IFC2X3.IFCLINE' IN TYPEOF(temp))) = 0;

+END_ENTITY;

+

+ENTITY IfcAsset

+ SUBTYPE OF (IfcGroup);

+	AssetID : IfcIdentifier;

+	OriginalValue : IfcCostValue;

+	CurrentValue : IfcCostValue;

+	TotalReplacementCost : IfcCostValue;

+	Owner : IfcActorSelect;

+	User : IfcActorSelect;

+	ResponsiblePerson : IfcPerson;

+	IncorporationDate : IfcCalendarDate;

+	DepreciatedValue : IfcCostValue;

+ WHERE

+	WR1 : SIZEOF(QUERY(Temp <* SELF\IfcGroup.IsGroupedBy.RelatedObjects | NOT('IFC2X3.IFCELEMENT' IN TYPEOF(Temp)))) = 0;

+END_ENTITY;

+

+ENTITY IfcAsymmetricIShapeProfileDef

+ SUBTYPE OF (IfcIShapeProfileDef);

+	TopFlangeWidth : IfcPositiveLengthMeasure;

+	TopFlangeThickness : OPTIONAL IfcPositiveLengthMeasure;

+	TopFlangeFilletRadius : OPTIONAL IfcPositiveLengthMeasure;

+	CentreOfGravityInY : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcAxis1Placement

+ SUBTYPE OF (IfcPlacement);

+	Axis : OPTIONAL IfcDirection;

+ DERIVE

+	Z : IfcDirection := NVL (IfcNormalise(Axis), IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([0.0,0.0,1.0]));

+ WHERE

+	WR1 : (NOT (EXISTS (Axis))) OR (Axis.Dim = 3);

+	WR2 : SELF\IfcPlacement.Location.Dim = 3;

+END_ENTITY;

+

+ENTITY IfcAxis2Placement2D

+ SUBTYPE OF (IfcPlacement);

+	RefDirection : OPTIONAL IfcDirection;

+ DERIVE

+	P : LIST [2:2] OF IfcDirection := IfcBuild2Axes(RefDirection);

+ WHERE

+	WR1 : (NOT (EXISTS (RefDirection))) OR (RefDirection.Dim = 2);

+	WR2 : SELF\IfcPlacement.Location.Dim = 2;

+END_ENTITY;

+

+ENTITY IfcAxis2Placement3D

+ SUBTYPE OF (IfcPlacement);

+	Axis : OPTIONAL IfcDirection;

+	RefDirection : OPTIONAL IfcDirection;

+ DERIVE

+	P : LIST [3:3] OF IfcDirection := IfcBuildAxes(Axis, RefDirection);

+ WHERE

+	WR1 : SELF\IfcPlacement.Location.Dim = 3;

+	WR2 : (NOT (EXISTS (Axis))) OR (Axis.Dim = 3);

+	WR3 : (NOT (EXISTS (RefDirection))) OR (RefDirection.Dim = 3);

+	WR4 : (NOT (EXISTS (Axis))) OR (NOT (EXISTS (RefDirection))) OR (IfcCrossProduct(Axis,RefDirection).Magnitude > 0.0);

+	WR5 : NOT ((EXISTS (Axis)) XOR (EXISTS (RefDirection)));

+END_ENTITY;

+

+ENTITY IfcBSplineCurve

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBezierCurve))

+ SUBTYPE OF (IfcBoundedCurve);

+	Degree : INTEGER;

+	ControlPointsList : LIST [2:?] OF IfcCartesianPoint;

+	CurveForm : IfcBSplineCurveForm;

+	ClosedCurve : LOGICAL;

+	SelfIntersect : LOGICAL;

+ DERIVE

+	ControlPoints : ARRAY [0:255] OF IfcCartesianPoint := IfcListToArray(ControlPointsList,0,UpperIndexOnControlPoints);

+	UpperIndexOnControlPoints : INTEGER := (SIZEOF(ControlPointsList) - 1);

+ WHERE

+	WR41 : SIZEOF(QUERY(Temp <* ControlPointsList |

+               Temp.Dim <> ControlPointsList[1].Dim))

+             = 0;

+END_ENTITY;

+

+ENTITY IfcBeam

+ SUBTYPE OF (IfcBuildingElement);

+END_ENTITY;

+

+ENTITY IfcBeamType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcBeamTypeEnum;

+END_ENTITY;

+

+ENTITY IfcBezierCurve

+ SUPERTYPE OF (ONEOF

+	(IfcRationalBezierCurve))

+ SUBTYPE OF (IfcBSplineCurve);

+END_ENTITY;

+

+ENTITY IfcBlobTexture

+ SUBTYPE OF (IfcSurfaceTexture);

+	RasterFormat : IfcIdentifier;

+	RasterCode : BOOLEAN;

+ WHERE

+	WR11 : SELF.RasterFormat IN ['BMP', 'JPG', 'GIF', 'PNG'];

+END_ENTITY;

+

+ENTITY IfcBlock

+ SUBTYPE OF (IfcCsgPrimitive3D);

+	XLength : IfcPositiveLengthMeasure;

+	YLength : IfcPositiveLengthMeasure;

+	ZLength : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcBoilerType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcBoilerTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcBoilerTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcBoilerTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcBooleanClippingResult

+ SUBTYPE OF (IfcBooleanResult);

+ WHERE

+	WR1 : ('IFC2X3.IFCSWEPTAREASOLID' IN TYPEOF(FirstOperand)) OR ('IFC2X3.IFCBOOLEANCLIPPINGRESULT' IN TYPEOF(FirstOperand));

+	WR2 : ('IFC2X3.IFCHALFSPACESOLID' IN TYPEOF(SecondOperand));

+	WR3 : Operator = DIFFERENCE;

+END_ENTITY;

+

+ENTITY IfcBooleanResult

+ SUPERTYPE OF (ONEOF

+	(IfcBooleanClippingResult))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Operator : IfcBooleanOperator;

+	FirstOperand : IfcBooleanOperand;

+	SecondOperand : IfcBooleanOperand;

+ DERIVE

+	Dim : IfcDimensionCount := FirstOperand.Dim;

+ WHERE

+	WR1 : FirstOperand.Dim = SecondOperand.Dim;

+END_ENTITY;

+

+ENTITY IfcBoundaryCondition

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBoundaryEdgeCondition

+	,IfcBoundaryFaceCondition

+	,IfcBoundaryNodeCondition));

+	Name : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcBoundaryEdgeCondition

+ SUBTYPE OF (IfcBoundaryCondition);

+	LinearStiffnessByLengthX : OPTIONAL IfcModulusOfLinearSubgradeReactionMeasure;

+	LinearStiffnessByLengthY : OPTIONAL IfcModulusOfLinearSubgradeReactionMeasure;

+	LinearStiffnessByLengthZ : OPTIONAL IfcModulusOfLinearSubgradeReactionMeasure;

+	RotationalStiffnessByLengthX : OPTIONAL IfcModulusOfRotationalSubgradeReactionMeasure;

+	RotationalStiffnessByLengthY : OPTIONAL IfcModulusOfRotationalSubgradeReactionMeasure;

+	RotationalStiffnessByLengthZ : OPTIONAL IfcModulusOfRotationalSubgradeReactionMeasure;

+END_ENTITY;

+

+ENTITY IfcBoundaryFaceCondition

+ SUBTYPE OF (IfcBoundaryCondition);

+	LinearStiffnessByAreaX : OPTIONAL IfcModulusOfSubgradeReactionMeasure;

+	LinearStiffnessByAreaY : OPTIONAL IfcModulusOfSubgradeReactionMeasure;

+	LinearStiffnessByAreaZ : OPTIONAL IfcModulusOfSubgradeReactionMeasure;

+END_ENTITY;

+

+ENTITY IfcBoundaryNodeCondition

+ SUPERTYPE OF (ONEOF

+	(IfcBoundaryNodeConditionWarping))

+ SUBTYPE OF (IfcBoundaryCondition);

+	LinearStiffnessX : OPTIONAL IfcLinearStiffnessMeasure;

+	LinearStiffnessY : OPTIONAL IfcLinearStiffnessMeasure;

+	LinearStiffnessZ : OPTIONAL IfcLinearStiffnessMeasure;

+	RotationalStiffnessX : OPTIONAL IfcRotationalStiffnessMeasure;

+	RotationalStiffnessY : OPTIONAL IfcRotationalStiffnessMeasure;

+	RotationalStiffnessZ : OPTIONAL IfcRotationalStiffnessMeasure;

+END_ENTITY;

+

+ENTITY IfcBoundaryNodeConditionWarping

+ SUBTYPE OF (IfcBoundaryNodeCondition);

+	WarpingStiffness : OPTIONAL IfcWarpingMomentMeasure;

+END_ENTITY;

+

+ENTITY IfcBoundedCurve

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBSplineCurve

+	,IfcCompositeCurve

+	,IfcPolyline

+	,IfcTrimmedCurve))

+ SUBTYPE OF (IfcCurve);

+END_ENTITY;

+

+ENTITY IfcBoundedSurface

+ SUPERTYPE OF (ONEOF

+	(IfcCurveBoundedPlane

+	,IfcRectangularTrimmedSurface))

+ SUBTYPE OF (IfcSurface);

+END_ENTITY;

+

+ENTITY IfcBoundingBox

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Corner : IfcCartesianPoint;

+	XDim : IfcPositiveLengthMeasure;

+	YDim : IfcPositiveLengthMeasure;

+	ZDim : IfcPositiveLengthMeasure;

+ DERIVE

+	Dim : IfcDimensionCount := 3;

+END_ENTITY;

+

+ENTITY IfcBoxedHalfSpace

+ SUBTYPE OF (IfcHalfSpaceSolid);

+	Enclosure : IfcBoundingBox;

+ WHERE

+	WR1 : NOT ('IFC2X3.IFCCURVEBOUNDEDPLANE' IN TYPEOF(SELF\IfcHalfSpaceSolid.BaseSurface));

+END_ENTITY;

+

+ENTITY IfcBuilding

+ SUBTYPE OF (IfcSpatialStructureElement);

+	ElevationOfRefHeight : OPTIONAL IfcLengthMeasure;

+	ElevationOfTerrain : OPTIONAL IfcLengthMeasure;

+	BuildingAddress : OPTIONAL IfcPostalAddress;

+END_ENTITY;

+

+ENTITY IfcBuildingElement

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBeam

+	,IfcBuildingElementComponent

+	,IfcBuildingElementProxy

+	,IfcColumn

+	,IfcCovering

+	,IfcCurtainWall

+	,IfcDoor

+	,IfcFooting

+	,IfcMember

+	,IfcPile

+	,IfcPlate

+	,IfcRailing

+	,IfcRamp

+	,IfcRampFlight

+	,IfcRoof

+	,IfcSlab

+	,IfcStair

+	,IfcStairFlight

+	,IfcWall

+	,IfcWindow))

+ SUBTYPE OF (IfcElement);

+END_ENTITY;

+

+ENTITY IfcBuildingElementComponent

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBuildingElementPart

+	,IfcReinforcingElement))

+ SUBTYPE OF (IfcBuildingElement);

+END_ENTITY;

+

+ENTITY IfcBuildingElementPart

+ SUBTYPE OF (IfcBuildingElementComponent);

+END_ENTITY;

+

+ENTITY IfcBuildingElementProxy

+ SUBTYPE OF (IfcBuildingElement);

+	CompositionType : OPTIONAL IfcElementCompositionEnum;

+ WHERE

+	WR1 : EXISTS(SELF\IfcRoot.Name);

+END_ENTITY;

+

+ENTITY IfcBuildingElementProxyType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcBuildingElementProxyTypeEnum;

+END_ENTITY;

+

+ENTITY IfcBuildingElementType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBeamType

+	,IfcBuildingElementProxyType

+	,IfcColumnType

+	,IfcCoveringType

+	,IfcCurtainWallType

+	,IfcMemberType

+	,IfcPlateType

+	,IfcRailingType

+	,IfcRampFlightType

+	,IfcSlabType

+	,IfcStairFlightType

+	,IfcWallType))

+ SUBTYPE OF (IfcElementType);

+END_ENTITY;

+

+ENTITY IfcBuildingStorey

+ SUBTYPE OF (IfcSpatialStructureElement);

+	Elevation : OPTIONAL IfcLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcCShapeProfileDef

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	Depth : IfcPositiveLengthMeasure;

+	Width : IfcPositiveLengthMeasure;

+	WallThickness : IfcPositiveLengthMeasure;

+	Girth : IfcPositiveLengthMeasure;

+	InternalFilletRadius : OPTIONAL IfcPositiveLengthMeasure;

+	CentreOfGravityInX : OPTIONAL IfcPositiveLengthMeasure;

+ WHERE

+	WR1 : Girth < (Depth / 2.);

+	WR2 : NOT(EXISTS(InternalFilletRadius)) OR

+            ((InternalFilletRadius <= Width/2.) AND (InternalFilletRadius <= Depth/2.));

+	WR3 : (WallThickness < Width/2.) AND (WallThickness < Depth/2.);

+END_ENTITY;

+

+ENTITY IfcCableCarrierFittingType

+ SUBTYPE OF (IfcFlowFittingType);

+	PredefinedType : IfcCableCarrierFittingTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcCableCarrierFittingTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcCableCarrierFittingTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcCableCarrierSegmentType

+ SUBTYPE OF (IfcFlowSegmentType);

+	PredefinedType : IfcCableCarrierSegmentTypeEnum;

+END_ENTITY;

+

+ENTITY IfcCableSegmentType

+ SUBTYPE OF (IfcFlowSegmentType);

+	PredefinedType : IfcCableSegmentTypeEnum;

+END_ENTITY;

+

+ENTITY IfcCalendarDate;

+	DayComponent : IfcDayInMonthNumber;

+	MonthComponent : IfcMonthInYearNumber;

+	YearComponent : IfcYearNumber;

+ WHERE

+	WR21 : IfcValidCalendarDate (SELF);

+END_ENTITY;

+

+ENTITY IfcCartesianPoint

+ SUBTYPE OF (IfcPoint);

+	Coordinates : LIST [1:3] OF IfcLengthMeasure;

+ DERIVE

+	Dim : IfcDimensionCount := HIINDEX(Coordinates);

+ WHERE

+	WR1 : HIINDEX(Coordinates) >= 2;

+END_ENTITY;

+

+ENTITY IfcCartesianTransformationOperator

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcCartesianTransformationOperator2D

+	,IfcCartesianTransformationOperator3D))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Axis1 : OPTIONAL IfcDirection;

+	Axis2 : OPTIONAL IfcDirection;

+	LocalOrigin : IfcCartesianPoint;

+	Scale : OPTIONAL REAL;

+ DERIVE

+	Scl : REAL := NVL(Scale, 1.0);

+	Dim : IfcDimensionCount := LocalOrigin.Dim;

+ WHERE

+	WR1 : Scl > 0.0;

+END_ENTITY;

+

+ENTITY IfcCartesianTransformationOperator2D

+ SUPERTYPE OF (ONEOF

+	(IfcCartesianTransformationOperator2DnonUniform))

+ SUBTYPE OF (IfcCartesianTransformationOperator);

+ DERIVE

+	U : LIST [2:2] OF IfcDirection := IfcBaseAxis(2,SELF\IfcCartesianTransformationOperator.Axis1,

+          SELF\IfcCartesianTransformationOperator.Axis2,?);

+ WHERE

+	WR1 : SELF\IfcCartesianTransformationOperator.Dim = 2;

+	WR2 : NOT(EXISTS(SELF\IfcCartesianTransformationOperator.Axis1)) OR 

+            (SELF\IfcCartesianTransformationOperator.Axis1.Dim = 2);

+	WR3 : NOT(EXISTS(SELF\IfcCartesianTransformationOperator.Axis2)) OR 

+            (SELF\IfcCartesianTransformationOperator.Axis2.Dim = 2);

+END_ENTITY;

+

+ENTITY IfcCartesianTransformationOperator2DnonUniform

+ SUBTYPE OF (IfcCartesianTransformationOperator2D);

+	Scale2 : OPTIONAL REAL;

+ DERIVE

+	Scl2 : REAL := NVL(Scale2, SELF\IfcCartesianTransformationOperator.Scl);

+ WHERE

+	WR1 : Scl2 > 0.0;

+END_ENTITY;

+

+ENTITY IfcCartesianTransformationOperator3D

+ SUPERTYPE OF (ONEOF

+	(IfcCartesianTransformationOperator3DnonUniform))

+ SUBTYPE OF (IfcCartesianTransformationOperator);

+	Axis3 : OPTIONAL IfcDirection;

+ DERIVE

+	U : LIST [3:3] OF IfcDirection := IfcBaseAxis(3,SELF\IfcCartesianTransformationOperator.Axis1,

+              SELF\IfcCartesianTransformationOperator.Axis2,Axis3);

+ WHERE

+	WR1 : SELF\IfcCartesianTransformationOperator.Dim = 3;

+	WR2 : NOT(EXISTS(SELF\IfcCartesianTransformationOperator.Axis1)) OR 

+            (SELF\IfcCartesianTransformationOperator.Axis1.Dim = 3);

+	WR3 : NOT(EXISTS(SELF\IfcCartesianTransformationOperator.Axis2)) OR 

+            (SELF\IfcCartesianTransformationOperator.Axis2.Dim = 3);

+	WR4 : NOT(EXISTS(Axis3)) OR (Axis3.Dim = 3);

+END_ENTITY;

+

+ENTITY IfcCartesianTransformationOperator3DnonUniform

+ SUBTYPE OF (IfcCartesianTransformationOperator3D);

+	Scale2 : OPTIONAL REAL;

+	Scale3 : OPTIONAL REAL;

+ DERIVE

+	Scl2 : REAL := NVL(Scale2, SELF\IfcCartesianTransformationOperator.Scl);

+	Scl3 : REAL := NVL(Scale3, SELF\IfcCartesianTransformationOperator.Scl);

+ WHERE

+	WR1 : Scl2 > 0.0;

+	WR2 : Scl3 > 0.0;

+END_ENTITY;

+

+ENTITY IfcCenterLineProfileDef

+ SUBTYPE OF (IfcArbitraryOpenProfileDef);

+	Thickness : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcChamferEdgeFeature

+ SUBTYPE OF (IfcEdgeFeature);

+	Width : OPTIONAL IfcPositiveLengthMeasure;

+	Height : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcChillerType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcChillerTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcChillerTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcChillerTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcCircle

+ SUBTYPE OF (IfcConic);

+	Radius : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcCircleHollowProfileDef

+ SUBTYPE OF (IfcCircleProfileDef);

+	WallThickness : IfcPositiveLengthMeasure;

+ WHERE

+	WR1 : WallThickness < SELF\IfcCircleProfileDef.Radius;

+END_ENTITY;

+

+ENTITY IfcCircleProfileDef

+ SUPERTYPE OF (ONEOF

+	(IfcCircleHollowProfileDef))

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	Radius : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcClassification;

+	Source : IfcLabel;

+	Edition : IfcLabel;

+	EditionDate : OPTIONAL IfcCalendarDate;

+	Name : IfcLabel;

+ INVERSE

+	Contains : SET [0:?] OF IfcClassificationItem FOR ItemOf;

+END_ENTITY;

+

+ENTITY IfcClassificationItem;

+	Notation : IfcClassificationNotationFacet;

+	ItemOf : OPTIONAL IfcClassification;

+	Title : IfcLabel;

+ INVERSE

+	IsClassifiedItemIn : SET [0:1] OF IfcClassificationItemRelationship FOR RelatedItems;

+	IsClassifyingItemIn : SET [0:1] OF IfcClassificationItemRelationship FOR RelatingItem;

+END_ENTITY;

+

+ENTITY IfcClassificationItemRelationship;

+	RelatingItem : IfcClassificationItem;

+	RelatedItems : SET [1:?] OF IfcClassificationItem;

+END_ENTITY;

+

+ENTITY IfcClassificationNotation;

+	NotationFacets : SET [1:?] OF IfcClassificationNotationFacet;

+END_ENTITY;

+

+ENTITY IfcClassificationNotationFacet;

+	NotationValue : IfcLabel;

+END_ENTITY;

+

+ENTITY IfcClassificationReference

+ SUBTYPE OF (IfcExternalReference);

+	ReferencedSource : OPTIONAL IfcClassification;

+END_ENTITY;

+

+ENTITY IfcClosedShell

+ SUBTYPE OF (IfcConnectedFaceSet);

+END_ENTITY;

+

+ENTITY IfcCoilType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcCoilTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcCoilTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcCoilTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcColourRgb

+ SUBTYPE OF (IfcColourSpecification);

+	Red : IfcNormalisedRatioMeasure;

+	Green : IfcNormalisedRatioMeasure;

+	Blue : IfcNormalisedRatioMeasure;

+END_ENTITY;

+

+ENTITY IfcColourSpecification

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcColourRgb));

+	Name : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcColumn

+ SUBTYPE OF (IfcBuildingElement);

+END_ENTITY;

+

+ENTITY IfcColumnType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcColumnTypeEnum;

+END_ENTITY;

+

+ENTITY IfcComplexProperty

+ SUBTYPE OF (IfcProperty);

+	UsageName : IfcIdentifier;

+	HasProperties : SET [1:?] OF IfcProperty;

+ WHERE

+	WR21 : SIZEOF(QUERY(temp <* HasProperties | SELF :=: temp)) = 0;

+	WR22 : IfcUniquePropertyName(HasProperties);

+END_ENTITY;

+

+ENTITY IfcCompositeCurve

+ SUPERTYPE OF (ONEOF

+	(Ifc2DCompositeCurve))

+ SUBTYPE OF (IfcBoundedCurve);

+	Segments : LIST [1:?] OF IfcCompositeCurveSegment;

+	SelfIntersect : LOGICAL;

+ DERIVE

+	NSegments : INTEGER := SIZEOF(Segments);

+	ClosedCurve : LOGICAL := Segments[NSegments].Transition <> Discontinuous;

+ WHERE

+	WR41 : ((NOT ClosedCurve) AND (SIZEOF(QUERY(Temp <* Segments | Temp.Transition = Discontinuous)) = 1)) OR ((ClosedCurve) AND (SIZEOF(QUERY(Temp <* Segments | Temp.Transition = Discontinuous)) = 0));

+	WR42 : SIZEOF( QUERY( Temp <* Segments | Temp.Dim <> Segments[1].Dim)) = 0;

+END_ENTITY;

+

+ENTITY IfcCompositeCurveSegment

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Transition : IfcTransitionCode;

+	SameSense : BOOLEAN;

+	ParentCurve : IfcCurve;

+ DERIVE

+	Dim : IfcDimensionCount := ParentCurve.Dim;

+ INVERSE

+	UsingCurves : SET [1:?] OF IfcCompositeCurve FOR Segments;

+ WHERE

+	WR1 : ('IFC2X3.IFCBOUNDEDCURVE' IN TYPEOF(ParentCurve));

+END_ENTITY;

+

+ENTITY IfcCompositeProfileDef

+ SUBTYPE OF (IfcProfileDef);

+	Profiles : SET [2:?] OF IfcProfileDef;

+	Label : OPTIONAL IfcLabel;

+ WHERE

+	WR1 : SIZEOF(QUERY(temp <* Profiles | temp.ProfileType <> Profiles[1].ProfileType)) = 0;

+	WR2 : SIZEOF(QUERY(temp <* Profiles | 'IFC2X3.IFCCOMPOSITEPROFILEDEF' IN TYPEOF(temp))) = 0;

+END_ENTITY;

+

+ENTITY IfcCompressorType

+ SUBTYPE OF (IfcFlowMovingDeviceType);

+	PredefinedType : IfcCompressorTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcCompressorTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcCompressorTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcCondenserType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcCondenserTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcCondenserTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcCondenserTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcCondition

+ SUBTYPE OF (IfcGroup);

+END_ENTITY;

+

+ENTITY IfcConditionCriterion

+ SUBTYPE OF (IfcControl);

+	Criterion : IfcConditionCriterionSelect;

+	CriterionDateTime : IfcDateTimeSelect;

+ WHERE

+	WR1 : EXISTS(SELF\IfcRoot.Name);

+END_ENTITY;

+

+ENTITY IfcConic

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcCircle

+	,IfcEllipse))

+ SUBTYPE OF (IfcCurve);

+	Position : IfcAxis2Placement;

+END_ENTITY;

+

+ENTITY IfcConnectedFaceSet

+ SUPERTYPE OF (ONEOF

+	(IfcClosedShell

+	,IfcOpenShell))

+ SUBTYPE OF (IfcTopologicalRepresentationItem);

+	CfsFaces : SET [1:?] OF IfcFace;

+END_ENTITY;

+

+ENTITY IfcConnectionCurveGeometry

+ SUBTYPE OF (IfcConnectionGeometry);

+	CurveOnRelatingElement : IfcCurveOrEdgeCurve;

+	CurveOnRelatedElement : OPTIONAL IfcCurveOrEdgeCurve;

+END_ENTITY;

+

+ENTITY IfcConnectionGeometry

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcConnectionCurveGeometry

+	,IfcConnectionPointGeometry

+	,IfcConnectionPortGeometry

+	,IfcConnectionSurfaceGeometry));

+END_ENTITY;

+

+ENTITY IfcConnectionPointEccentricity

+ SUBTYPE OF (IfcConnectionPointGeometry);

+	EccentricityInX : OPTIONAL IfcLengthMeasure;

+	EccentricityInY : OPTIONAL IfcLengthMeasure;

+	EccentricityInZ : OPTIONAL IfcLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcConnectionPointGeometry

+ SUPERTYPE OF (ONEOF

+	(IfcConnectionPointEccentricity))

+ SUBTYPE OF (IfcConnectionGeometry);

+	PointOnRelatingElement : IfcPointOrVertexPoint;

+	PointOnRelatedElement : OPTIONAL IfcPointOrVertexPoint;

+END_ENTITY;

+

+ENTITY IfcConnectionPortGeometry

+ SUBTYPE OF (IfcConnectionGeometry);

+	LocationAtRelatingElement : IfcAxis2Placement;

+	LocationAtRelatedElement : OPTIONAL IfcAxis2Placement;

+	ProfileOfPort : IfcProfileDef;

+END_ENTITY;

+

+ENTITY IfcConnectionSurfaceGeometry

+ SUBTYPE OF (IfcConnectionGeometry);

+	SurfaceOnRelatingElement : IfcSurfaceOrFaceSurface;

+	SurfaceOnRelatedElement : OPTIONAL IfcSurfaceOrFaceSurface;

+END_ENTITY;

+

+ENTITY IfcConstraint

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcMetric

+	,IfcObjective));

+	Name : IfcLabel;

+	Description : OPTIONAL IfcText;

+	ConstraintGrade : IfcConstraintEnum;

+	ConstraintSource : OPTIONAL IfcLabel;

+	CreatingActor : OPTIONAL IfcActorSelect;

+	CreationTime : OPTIONAL IfcDateTimeSelect;

+	UserDefinedGrade : OPTIONAL IfcLabel;

+ INVERSE

+	ClassifiedAs : SET [0:?] OF IfcConstraintClassificationRelationship FOR ClassifiedConstraint;

+	RelatesConstraints : SET [0:?] OF IfcConstraintRelationship FOR RelatingConstraint;

+	IsRelatedWith : SET [0:?] OF IfcConstraintRelationship FOR RelatedConstraints;

+	PropertiesForConstraint : SET [0:?] OF IfcPropertyConstraintRelationship FOR RelatingConstraint;

+	Aggregates : SET [0:?] OF IfcConstraintAggregationRelationship FOR RelatingConstraint;

+	IsAggregatedIn : SET [0:?] OF IfcConstraintAggregationRelationship FOR RelatedConstraints;

+ WHERE

+	WR11 : (ConstraintGrade <> IfcConstraintEnum.USERDEFINED) OR

+             ((ConstraintGrade = IfcConstraintEnum.USERDEFINED) AND EXISTS(SELF\IfcConstraint.UserDefinedGrade));

+END_ENTITY;

+

+ENTITY IfcConstraintAggregationRelationship;

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+	RelatingConstraint : IfcConstraint;

+	RelatedConstraints : LIST [1:?] OF UNIQUE IfcConstraint;

+	LogicalAggregator : IfcLogicalOperatorEnum;

+ WHERE

+	WR11 : SIZEOF(QUERY(temp <* RelatedConstraints | 

+               temp :=: RelatingConstraint

+               )) = 0;

+END_ENTITY;

+

+ENTITY IfcConstraintClassificationRelationship;

+	ClassifiedConstraint : IfcConstraint;

+	RelatedClassifications : SET [1:?] OF IfcClassificationNotationSelect;

+END_ENTITY;

+

+ENTITY IfcConstraintRelationship;

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+	RelatingConstraint : IfcConstraint;

+	RelatedConstraints : SET [1:?] OF IfcConstraint;

+ WHERE

+	WR11 : SIZEOF(QUERY(temp <* RelatedConstraints | temp :=: RelatingConstraint )) = 0;

+END_ENTITY;

+

+ENTITY IfcConstructionEquipmentResource

+ SUBTYPE OF (IfcConstructionResource);

+END_ENTITY;

+

+ENTITY IfcConstructionMaterialResource

+ SUBTYPE OF (IfcConstructionResource);

+	Suppliers : OPTIONAL SET [1:?] OF IfcActorSelect;

+	UsageRatio : OPTIONAL IfcRatioMeasure;

+ WHERE

+	WR1 : SIZEOF(SELF\IfcResource.ResourceOf) <=1;

+	WR2 : NOT(EXISTS(SELF\IfcResource.ResourceOf[1])) OR

+            (SELF\IfcResource.ResourceOf[1].RelatedObjectsType = IfcObjectTypeEnum.PRODUCT);

+END_ENTITY;

+

+ENTITY IfcConstructionProductResource

+ SUBTYPE OF (IfcConstructionResource);

+ WHERE

+	WR1 : SIZEOF(SELF\IfcResource.ResourceOf) <=1;

+	WR2 : NOT(EXISTS(SELF\IfcResource.ResourceOf[1])) OR

+            (SELF\IfcResource.ResourceOf[1].RelatedObjectsType = IfcObjectTypeEnum.PRODUCT);

+END_ENTITY;

+

+ENTITY IfcConstructionResource

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcConstructionEquipmentResource

+	,IfcConstructionMaterialResource

+	,IfcConstructionProductResource

+	,IfcCrewResource

+	,IfcLaborResource

+	,IfcSubContractResource))

+ SUBTYPE OF (IfcResource);

+	ResourceIdentifier : OPTIONAL IfcIdentifier;

+	ResourceGroup : OPTIONAL IfcLabel;

+	ResourceConsumption : OPTIONAL IfcResourceConsumptionEnum;

+	BaseQuantity : OPTIONAL IfcMeasureWithUnit;

+END_ENTITY;

+

+ENTITY IfcContextDependentUnit

+ SUBTYPE OF (IfcNamedUnit);

+	Name : IfcLabel;

+END_ENTITY;

+

+ENTITY IfcControl

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcActionRequest

+	,IfcConditionCriterion

+	,IfcCostItem

+	,IfcCostSchedule

+	,IfcEquipmentStandard

+	,IfcFurnitureStandard

+	,IfcPerformanceHistory

+	,IfcPermit

+	,IfcProjectOrder

+	,IfcProjectOrderRecord

+	,IfcScheduleTimeControl

+	,IfcServiceLife

+	,IfcSpaceProgram

+	,IfcTimeSeriesSchedule

+	,IfcWorkControl))

+ SUBTYPE OF (IfcObject);

+ INVERSE

+	Controls : SET [0:?] OF IfcRelAssignsToControl FOR RelatingControl;

+END_ENTITY;

+

+ENTITY IfcControllerType

+ SUBTYPE OF (IfcDistributionControlElementType);

+	PredefinedType : IfcControllerTypeEnum;

+END_ENTITY;

+

+ENTITY IfcConversionBasedUnit

+ SUBTYPE OF (IfcNamedUnit);

+	Name : IfcLabel;

+	ConversionFactor : IfcMeasureWithUnit;

+END_ENTITY;

+

+ENTITY IfcCooledBeamType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcCooledBeamTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcCooledBeamTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcCooledBeamTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcCoolingTowerType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcCoolingTowerTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcCoolingTowerTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcCoolingTowerTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcCoordinatedUniversalTimeOffset;

+	HourOffset : IfcHourInDay;

+	MinuteOffset : OPTIONAL IfcMinuteInHour;

+	Sense : IfcAheadOrBehind;

+END_ENTITY;

+

+ENTITY IfcCostItem

+ SUBTYPE OF (IfcControl);

+END_ENTITY;

+

+ENTITY IfcCostSchedule

+ SUBTYPE OF (IfcControl);

+	SubmittedBy : OPTIONAL IfcActorSelect;

+	PreparedBy : OPTIONAL IfcActorSelect;

+	SubmittedOn : OPTIONAL IfcDateTimeSelect;

+	Status : OPTIONAL IfcLabel;

+	TargetUsers : OPTIONAL SET [1:?] OF IfcActorSelect;

+	UpdateDate : OPTIONAL IfcDateTimeSelect;

+	ID : IfcIdentifier;

+	PredefinedType : IfcCostScheduleTypeEnum;

+ UNIQUE

+	UR2 : ID;

+END_ENTITY;

+

+ENTITY IfcCostValue

+ SUBTYPE OF (IfcAppliedValue);

+	CostType : IfcLabel;

+	Condition : OPTIONAL IfcText;

+END_ENTITY;

+

+ENTITY IfcCovering

+ SUBTYPE OF (IfcBuildingElement);

+	PredefinedType : OPTIONAL IfcCoveringTypeEnum;

+ INVERSE

+	CoversSpaces : SET [0:1] OF IfcRelCoversSpaces FOR RelatedCoverings;

+	Covers : SET [0:1] OF IfcRelCoversBldgElements FOR RelatedCoverings;

+END_ENTITY;

+

+ENTITY IfcCoveringType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcCoveringTypeEnum;

+END_ENTITY;

+

+ENTITY IfcCraneRailAShapeProfileDef

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	OverallHeight : IfcPositiveLengthMeasure;

+	BaseWidth2 : IfcPositiveLengthMeasure;

+	Radius : OPTIONAL IfcPositiveLengthMeasure;

+	HeadWidth : IfcPositiveLengthMeasure;

+	HeadDepth2 : IfcPositiveLengthMeasure;

+	HeadDepth3 : IfcPositiveLengthMeasure;

+	WebThickness : IfcPositiveLengthMeasure;

+	BaseWidth4 : IfcPositiveLengthMeasure;

+	BaseDepth1 : IfcPositiveLengthMeasure;

+	BaseDepth2 : IfcPositiveLengthMeasure;

+	BaseDepth3 : IfcPositiveLengthMeasure;

+	CentreOfGravityInY : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcCraneRailFShapeProfileDef

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	OverallHeight : IfcPositiveLengthMeasure;

+	HeadWidth : IfcPositiveLengthMeasure;

+	Radius : OPTIONAL IfcPositiveLengthMeasure;

+	HeadDepth2 : IfcPositiveLengthMeasure;

+	HeadDepth3 : IfcPositiveLengthMeasure;

+	WebThickness : IfcPositiveLengthMeasure;

+	BaseDepth1 : IfcPositiveLengthMeasure;

+	BaseDepth2 : IfcPositiveLengthMeasure;

+	CentreOfGravityInY : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcCrewResource

+ SUBTYPE OF (IfcConstructionResource);

+END_ENTITY;

+

+ENTITY IfcCsgPrimitive3D

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBlock

+	,IfcRectangularPyramid

+	,IfcRightCircularCone

+	,IfcRightCircularCylinder

+	,IfcSphere))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Position : IfcAxis2Placement3D;

+ DERIVE

+	Dim : IfcDimensionCount := 3;

+END_ENTITY;

+

+ENTITY IfcCsgSolid

+ SUBTYPE OF (IfcSolidModel);

+	TreeRootExpression : IfcCsgSelect;

+END_ENTITY;

+

+ENTITY IfcCurrencyRelationship;

+	RelatingMonetaryUnit : IfcMonetaryUnit;

+	RelatedMonetaryUnit : IfcMonetaryUnit;

+	ExchangeRate : IfcPositiveRatioMeasure;

+	RateDateTime : IfcDateAndTime;

+	RateSource : OPTIONAL IfcLibraryInformation;

+END_ENTITY;

+

+ENTITY IfcCurtainWall

+ SUBTYPE OF (IfcBuildingElement);

+END_ENTITY;

+

+ENTITY IfcCurtainWallType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcCurtainWallTypeEnum;

+END_ENTITY;

+

+ENTITY IfcCurve

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBoundedCurve

+	,IfcConic

+	,IfcLine

+	,IfcOffsetCurve2D

+	,IfcOffsetCurve3D))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+ DERIVE

+	Dim : IfcDimensionCount := IfcCurveDim(SELF);

+END_ENTITY;

+

+ENTITY IfcCurveBoundedPlane

+ SUBTYPE OF (IfcBoundedSurface);

+	BasisSurface : IfcPlane;

+	OuterBoundary : IfcCurve;

+	InnerBoundaries : SET [0:?] OF IfcCurve;

+ DERIVE

+	Dim : IfcDimensionCount := BasisSurface.Dim;

+END_ENTITY;

+

+ENTITY IfcCurveStyle

+ SUBTYPE OF (IfcPresentationStyle);

+	CurveFont : OPTIONAL IfcCurveFontOrScaledCurveFontSelect;

+	CurveWidth : OPTIONAL IfcSizeSelect;

+	CurveColour : OPTIONAL IfcColour;

+ WHERE

+	WR11 : (NOT(EXISTS(CurveWidth))) OR

+             ('IFC2X3.IFCPOSITIVELENGTHMEASURE' IN TYPEOF(CurveWidth)) OR 

+              (('IFC2X3.IFCDESCRIPTIVEMEASURE' IN TYPEOF(CurveWidth)) AND

+              (CurveWidth = 'by layer'));

+END_ENTITY;

+

+ENTITY IfcCurveStyleFont;

+	Name : OPTIONAL IfcLabel;

+	PatternList : LIST [1:?] OF IfcCurveStyleFontPattern;

+END_ENTITY;

+

+ENTITY IfcCurveStyleFontAndScaling;

+	Name : OPTIONAL IfcLabel;

+	CurveFont : IfcCurveStyleFontSelect;

+	CurveFontScaling : IfcPositiveRatioMeasure;

+END_ENTITY;

+

+ENTITY IfcCurveStyleFontPattern;

+	VisibleSegmentLength : IfcLengthMeasure;

+	InvisibleSegmentLength : IfcPositiveLengthMeasure;

+ WHERE

+	WR01 : VisibleSegmentLength >= 0.;

+END_ENTITY;

+

+ENTITY IfcDamperType

+ SUBTYPE OF (IfcFlowControllerType);

+	PredefinedType : IfcDamperTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcDamperTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcDamperTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcDateAndTime;

+	DateComponent : IfcCalendarDate;

+	TimeComponent : IfcLocalTime;

+END_ENTITY;

+

+ENTITY IfcDefinedSymbol

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Definition : IfcDefinedSymbolSelect;

+	Target : IfcCartesianTransformationOperator2D;

+END_ENTITY;

+

+ENTITY IfcDerivedProfileDef

+ SUBTYPE OF (IfcProfileDef);

+	ParentProfile : IfcProfileDef;

+	Operator : IfcCartesianTransformationOperator2D;

+	Label : OPTIONAL IfcLabel;

+ WHERE

+	WR1 : SELF\IfcProfileDef.ProfileType = ParentProfile.ProfileType;

+END_ENTITY;

+

+ENTITY IfcDerivedUnit;

+	Elements : SET [1:?] OF IfcDerivedUnitElement;

+	UnitType : IfcDerivedUnitEnum;

+	UserDefinedType : OPTIONAL IfcLabel;

+ DERIVE

+	Dimensions : IfcDimensionalExponents := IfcDeriveDimensionalExponents(SELF);

+ WHERE

+	WR1 : (SIZEOF (Elements) > 1) OR ((SIZEOF (Elements) = 1) AND (Elements[1].Exponent <> 1 ));

+	WR2 : (UnitType <> IfcDerivedUnitEnum.USERDEFINED) OR

+            ((UnitType = IfcDerivedUnitEnum.USERDEFINED) AND 

+             (EXISTS(SELF.UserDefinedType)));

+END_ENTITY;

+

+ENTITY IfcDerivedUnitElement;

+	Unit : IfcNamedUnit;

+	Exponent : INTEGER;

+END_ENTITY;

+

+ENTITY IfcDiameterDimension

+ SUBTYPE OF (IfcDimensionCurveDirectedCallout);

+END_ENTITY;

+

+ENTITY IfcDimensionCalloutRelationship

+ SUBTYPE OF (IfcDraughtingCalloutRelationship);

+ WHERE

+	WR11 : SELF\IfcDraughtingCalloutRelationship.Name IN ['primary','secondary'];

+	WR12 : SIZEOF(TYPEOF(SELF\IfcDraughtingCalloutRelationship.RelatingDraughtingCallout) * [

+                  'IFC2X3.IFCANGULARDIMENSION',

+                  'IFC2X3.IFCDIAMETERDIMENSION',

+                  'IFC2X3.IFCLINEARDIMENSION',

+                  'IFC2X3.IFCRADIUSDIMENSION']) = 1;

+	WR13 : NOT ('IFC2X3.IFCDIMENSIONCURVEDIRECTEDCALLOUT'

+               IN TYPEOF (SELF\IfcDraughtingCalloutRelationship.RelatedDraughtingCallout));

+END_ENTITY;

+

+ENTITY IfcDimensionCurve

+ SUBTYPE OF (IfcAnnotationCurveOccurrence);

+ INVERSE

+	AnnotatedBySymbols : SET [0:2] OF IfcTerminatorSymbol FOR AnnotatedCurve;

+ WHERE

+	WR51 : SIZEOF(USEDIN(SELF,'IFC2X3.IFCDRAUGHTINGCALLOUT.CONTENTS')) 

+                   >= 1;

+	WR52 : (SIZEOF(QUERY (Dct1 <* USEDIN(SELF,'IFC2X3.' + 

+                            'IFCTERMINATORSYMBOL.ANNOTATEDCURVE') | (Dct1.Role = IfcDimensionExtentUsage.ORIGIN))) <= 1) 

+             AND 

+             (SIZEOF(QUERY (Dct2 <* USEDIN(SELF,'IFC2X3.' + 

+                            'IFCTERMINATORSYMBOL.ANNOTATEDCURVE') | (Dct2.Role = IfcDimensionExtentUsage.TARGET))) <= 1);

+	WR53 : SIZEOF(QUERY (Dct <* AnnotatedBySymbols | 

+               NOT('IFC2X3.IFCDIMENSIONCURVETERMINATOR' IN TYPEOF(Dct)))) 

+               = 0;

+END_ENTITY;

+

+ENTITY IfcDimensionCurveDirectedCallout

+ SUPERTYPE OF (ONEOF

+	(IfcAngularDimension

+	,IfcDiameterDimension

+	,IfcLinearDimension

+	,IfcRadiusDimension))

+ SUBTYPE OF (IfcDraughtingCallout);

+ WHERE

+	WR41 : SIZEOF(QUERY (Dc <* SELF\IfcDraughtingCallout.Contents | (

+                   'IFC2X3.IFCDIMENSIONCURVE' IN TYPEOF(Dc)))) 

+                  = 1;

+	WR42 : SIZEOF (QUERY (Dc <* SELF.contents |

+                    ('IFC2X3.IFCPROJECTIONCURVE' IN

+                      TYPEOF (Dc)))) <= 2;

+END_ENTITY;

+

+ENTITY IfcDimensionCurveTerminator

+ SUBTYPE OF (IfcTerminatorSymbol);

+	Role : IfcDimensionExtentUsage;

+ WHERE

+	WR61 : 'IFC2X3.IFCDIMENSIONCURVE' IN TYPEOF

+             (SELF\IfcTerminatorSymbol.AnnotatedCurve);

+END_ENTITY;

+

+ENTITY IfcDimensionPair

+ SUBTYPE OF (IfcDraughtingCalloutRelationship);

+ WHERE

+	WR11 : SELF.Name IN ['chained','parallel'];

+	WR12 : SIZEOF(TYPEOF(SELF.RelatingDraughtingCallout) * [

+                            'IFC2X3.IFCANGULARDIMENSION',

+                            'IFC2X3.IFCDIAMETERDIMENSION',

+                            'IFC2X3.IFCLINEARDIMENSION',

+                            'IFC2X3.IFCRADIUSDIMENSION']) = 1;

+	WR13 : SIZEOF(TYPEOF(SELF.RelatedDraughtingCallout) * [

+                            'IFC2X3.IFCANGULARDIMENSION',

+                            'IFC2X3.IFCDIAMETERDIMENSION',

+                            'IFC2X3.IFCLINEARDIMENSION',

+                            'IFC2X3.IFCRADIUSDIMENSION']) = 1;

+END_ENTITY;

+

+ENTITY IfcDimensionalExponents;

+	LengthExponent : INTEGER;

+	MassExponent : INTEGER;

+	TimeExponent : INTEGER;

+	ElectricCurrentExponent : INTEGER;

+	ThermodynamicTemperatureExponent : INTEGER;

+	AmountOfSubstanceExponent : INTEGER;

+	LuminousIntensityExponent : INTEGER;

+END_ENTITY;

+

+ENTITY IfcDirection

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	DirectionRatios : LIST [2:3] OF REAL;

+ DERIVE

+	Dim : IfcDimensionCount := HIINDEX(DirectionRatios);

+END_ENTITY;

+

+ENTITY IfcDiscreteAccessory

+ SUBTYPE OF (IfcElementComponent);

+END_ENTITY;

+

+ENTITY IfcDiscreteAccessoryType

+ SUPERTYPE OF (ONEOF

+	(IfcVibrationIsolatorType))

+ SUBTYPE OF (IfcElementComponentType);

+END_ENTITY;

+

+ENTITY IfcDistributionChamberElement

+ SUBTYPE OF (IfcDistributionFlowElement);

+END_ENTITY;

+

+ENTITY IfcDistributionChamberElementType

+ SUBTYPE OF (IfcDistributionFlowElementType);

+	PredefinedType : IfcDistributionChamberElementTypeEnum;

+END_ENTITY;

+

+ENTITY IfcDistributionControlElement

+ SUBTYPE OF (IfcDistributionElement);

+	ControlElementId : OPTIONAL IfcIdentifier;

+ INVERSE

+	AssignedToFlowElement : SET [0:1] OF IfcRelFlowControlElements FOR RelatedControlElements;

+END_ENTITY;

+

+ENTITY IfcDistributionControlElementType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcActuatorType

+	,IfcAlarmType

+	,IfcControllerType

+	,IfcFlowInstrumentType

+	,IfcSensorType))

+ SUBTYPE OF (IfcDistributionElementType);

+END_ENTITY;

+

+ENTITY IfcDistributionElement

+ SUPERTYPE OF (ONEOF

+	(IfcDistributionControlElement

+	,IfcDistributionFlowElement))

+ SUBTYPE OF (IfcElement);

+END_ENTITY;

+

+ENTITY IfcDistributionElementType

+ SUPERTYPE OF (ONEOF

+	(IfcDistributionControlElementType

+	,IfcDistributionFlowElementType))

+ SUBTYPE OF (IfcElementType);

+END_ENTITY;

+

+ENTITY IfcDistributionFlowElement

+ SUPERTYPE OF (ONEOF

+	(IfcDistributionChamberElement

+	,IfcEnergyConversionDevice

+	,IfcFlowController

+	,IfcFlowFitting

+	,IfcFlowMovingDevice

+	,IfcFlowSegment

+	,IfcFlowStorageDevice

+	,IfcFlowTerminal

+	,IfcFlowTreatmentDevice))

+ SUBTYPE OF (IfcDistributionElement);

+ INVERSE

+	HasControlElements : SET [0:1] OF IfcRelFlowControlElements FOR RelatingFlowElement;

+END_ENTITY;

+

+ENTITY IfcDistributionFlowElementType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcDistributionChamberElementType

+	,IfcEnergyConversionDeviceType

+	,IfcFlowControllerType

+	,IfcFlowFittingType

+	,IfcFlowMovingDeviceType

+	,IfcFlowSegmentType

+	,IfcFlowStorageDeviceType

+	,IfcFlowTerminalType

+	,IfcFlowTreatmentDeviceType))

+ SUBTYPE OF (IfcDistributionElementType);

+END_ENTITY;

+

+ENTITY IfcDistributionPort

+ SUBTYPE OF (IfcPort);

+	FlowDirection : OPTIONAL IfcFlowDirectionEnum;

+END_ENTITY;

+

+ENTITY IfcDocumentElectronicFormat;

+	FileExtension : OPTIONAL IfcLabel;

+	MimeContentType : OPTIONAL IfcLabel;

+	MimeSubtype : OPTIONAL IfcLabel;

+ WHERE

+	WR1 : EXISTS(FileExtension) OR EXISTS(MimeContentType);

+END_ENTITY;

+

+ENTITY IfcDocumentInformation;

+	DocumentId : IfcIdentifier;

+	Name : IfcLabel;

+	Description : OPTIONAL IfcText;

+	DocumentReferences : OPTIONAL SET [1:?] OF IfcDocumentReference;

+	Purpose : OPTIONAL IfcText;

+	IntendedUse : OPTIONAL IfcText;

+	Scope : OPTIONAL IfcText;

+	Revision : OPTIONAL IfcLabel;

+	DocumentOwner : OPTIONAL IfcActorSelect;

+	Editors : OPTIONAL SET [1:?] OF IfcActorSelect;

+	CreationTime : OPTIONAL IfcDateAndTime;

+	LastRevisionTime : OPTIONAL IfcDateAndTime;

+	ElectronicFormat : OPTIONAL IfcDocumentElectronicFormat;

+	ValidFrom : OPTIONAL IfcCalendarDate;

+	ValidUntil : OPTIONAL IfcCalendarDate;

+	Confidentiality : OPTIONAL IfcDocumentConfidentialityEnum;

+	Status : OPTIONAL IfcDocumentStatusEnum;

+ INVERSE

+	IsPointedTo : SET [0:?] OF IfcDocumentInformationRelationship FOR RelatedDocuments;

+	IsPointer : SET [0:1] OF IfcDocumentInformationRelationship FOR RelatingDocument;

+END_ENTITY;

+

+ENTITY IfcDocumentInformationRelationship;

+	RelatingDocument : IfcDocumentInformation;

+	RelatedDocuments : SET [1:?] OF IfcDocumentInformation;

+	RelationshipType : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcDocumentReference

+ SUBTYPE OF (IfcExternalReference);

+ INVERSE

+	ReferenceToDocument : SET [0:1] OF IfcDocumentInformation FOR DocumentReferences;

+ WHERE

+	WR1 : EXISTS(Name) XOR EXISTS(ReferenceToDocument[1]);

+END_ENTITY;

+

+ENTITY IfcDoor

+ SUBTYPE OF (IfcBuildingElement);

+	OverallHeight : OPTIONAL IfcPositiveLengthMeasure;

+	OverallWidth : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcDoorLiningProperties

+ SUBTYPE OF (IfcPropertySetDefinition);

+	LiningDepth : OPTIONAL IfcPositiveLengthMeasure;

+	LiningThickness : OPTIONAL IfcPositiveLengthMeasure;

+	ThresholdDepth : OPTIONAL IfcPositiveLengthMeasure;

+	ThresholdThickness : OPTIONAL IfcPositiveLengthMeasure;

+	TransomThickness : OPTIONAL IfcPositiveLengthMeasure;

+	TransomOffset : OPTIONAL IfcLengthMeasure;

+	LiningOffset : OPTIONAL IfcLengthMeasure;

+	ThresholdOffset : OPTIONAL IfcLengthMeasure;

+	CasingThickness : OPTIONAL IfcPositiveLengthMeasure;

+	CasingDepth : OPTIONAL IfcPositiveLengthMeasure;

+	ShapeAspectStyle : OPTIONAL IfcShapeAspect;

+ WHERE

+	WR31 : NOT(NOT(EXISTS(LiningDepth)) AND EXISTS(LiningThickness));

+	WR32 : NOT(NOT(EXISTS(ThresholdDepth)) AND EXISTS(ThresholdThickness));

+	WR33 : (EXISTS(TransomOffset) AND EXISTS(TransomThickness)) XOR

+             (NOT(EXISTS(TransomOffset)) AND NOT(EXISTS(TransomThickness)));

+	WR34 : (EXISTS(CasingDepth) AND EXISTS(CasingThickness)) XOR

+             (NOT(EXISTS(CasingDepth)) AND NOT(EXISTS(CasingThickness)));

+	WR35 : EXISTS(SELF\IfcPropertySetDefinition.DefinesType[1]) AND 

+             ('IFC2X3.IFCDOORSTYLE' IN TYPEOF(SELF\IfcPropertySetDefinition.DefinesType[1]));

+END_ENTITY;

+

+ENTITY IfcDoorPanelProperties

+ SUBTYPE OF (IfcPropertySetDefinition);

+	PanelDepth : OPTIONAL IfcPositiveLengthMeasure;

+	PanelOperation : IfcDoorPanelOperationEnum;

+	PanelWidth : OPTIONAL IfcNormalisedRatioMeasure;

+	PanelPosition : IfcDoorPanelPositionEnum;

+	ShapeAspectStyle : OPTIONAL IfcShapeAspect;

+ WHERE

+	WR31 : EXISTS(SELF\IfcPropertySetDefinition.DefinesType[1]) AND 

+             ('IFC2X3.IFCDOORSTYLE' IN TYPEOF(SELF\IfcPropertySetDefinition.DefinesType[1]));

+END_ENTITY;

+

+ENTITY IfcDoorStyle

+ SUBTYPE OF (IfcTypeProduct);

+	OperationType : IfcDoorStyleOperationEnum;

+	ConstructionType : IfcDoorStyleConstructionEnum;

+	ParameterTakesPrecedence : BOOLEAN;

+	Sizeable : BOOLEAN;

+END_ENTITY;

+

+ENTITY IfcDraughtingCallout

+ SUPERTYPE OF (ONEOF

+	(IfcDimensionCurveDirectedCallout

+	,IfcStructuredDimensionCallout))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Contents : SET [1:?] OF IfcDraughtingCalloutElement;

+ INVERSE

+	IsRelatedFromCallout : SET [0:?] OF IfcDraughtingCalloutRelationship FOR RelatedDraughtingCallout;

+	IsRelatedToCallout : SET [0:?] OF IfcDraughtingCalloutRelationship FOR RelatingDraughtingCallout;

+END_ENTITY;

+

+ENTITY IfcDraughtingCalloutRelationship

+ SUPERTYPE OF (ONEOF

+	(IfcDimensionCalloutRelationship

+	,IfcDimensionPair));

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+	RelatingDraughtingCallout : IfcDraughtingCallout;

+	RelatedDraughtingCallout : IfcDraughtingCallout;

+END_ENTITY;

+

+ENTITY IfcDraughtingPreDefinedColour

+ SUBTYPE OF (IfcPreDefinedColour);

+ WHERE

+	WR31 : SELF\IfcPreDefinedItem.Name IN ['black','red','green','blue','yellow',

+                  'magenta','cyan','white','by layer'];

+END_ENTITY;

+

+ENTITY IfcDraughtingPreDefinedCurveFont

+ SUBTYPE OF (IfcPreDefinedCurveFont);

+ WHERE

+	WR31 : SELF\IfcPredefinedItem.Name IN

+                    ['continuous',

+                     'chain',

+                     'chain double dash',

+                     'dashed',

+                     'dotted',

+                     'by layer'];

+END_ENTITY;

+

+ENTITY IfcDraughtingPreDefinedTextFont

+ SUBTYPE OF (IfcPreDefinedTextFont);

+ WHERE

+	WR31 : SELF\IfcPreDefinedItem.Name IN ['ISO 3098-1 font A','ISO 3098-1 font B'];

+END_ENTITY;

+

+ENTITY IfcDuctFittingType

+ SUBTYPE OF (IfcFlowFittingType);

+	PredefinedType : IfcDuctFittingTypeEnum;

+ WHERE

+	WR2 : (PredefinedType <> IfcDuctFittingTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcDuctFittingTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcDuctSegmentType

+ SUBTYPE OF (IfcFlowSegmentType);

+	PredefinedType : IfcDuctSegmentTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcDuctSegmentTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcDuctSegmentTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcDuctSilencerType

+ SUBTYPE OF (IfcFlowTreatmentDeviceType);

+	PredefinedType : IfcDuctSilencerTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcDuctSilencerTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcDuctSilencerTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcEdge

+ SUPERTYPE OF (ONEOF

+	(IfcEdgeCurve

+	,IfcOrientedEdge

+	,IfcSubedge))

+ SUBTYPE OF (IfcTopologicalRepresentationItem);

+	EdgeStart : IfcVertex;

+	EdgeEnd : IfcVertex;

+END_ENTITY;

+

+ENTITY IfcEdgeCurve

+ SUBTYPE OF (IfcEdge);

+	EdgeGeometry : IfcCurve;

+	SameSense : BOOLEAN;

+END_ENTITY;

+

+ENTITY IfcEdgeFeature

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcChamferEdgeFeature

+	,IfcRoundedEdgeFeature))

+ SUBTYPE OF (IfcFeatureElementSubtraction);

+	FeatureLength : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcEdgeLoop

+ SUBTYPE OF (IfcLoop);

+	EdgeList : LIST [1:?] OF IfcOrientedEdge;

+ DERIVE

+	Ne : INTEGER := SIZEOF(EdgeList);

+ WHERE

+	WR1 : (EdgeList[1].EdgeStart) :=: (EdgeList[Ne].EdgeEnd);

+	WR2 : IfcLoopHeadToTail(SELF);

+END_ENTITY;

+

+ENTITY IfcElectricApplianceType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcElectricApplianceTypeEnum;

+END_ENTITY;

+

+ENTITY IfcElectricDistributionPoint

+ SUBTYPE OF (IfcFlowController);

+	DistributionPointFunction : IfcElectricDistributionPointFunctionEnum;

+	UserDefinedFunction : OPTIONAL IfcLabel;

+ WHERE

+	WR31 : (DistributionPointFunction <> IfcElectricDistributionPointFunctionEnum.USERDEFINED) OR

+             ((DistributionPointFunction = IfcElectricDistributionPointFunctionEnum.USERDEFINED) AND EXISTS(SELF\IfcElectricDistributionPoint.UserDefinedFunction));

+END_ENTITY;

+

+ENTITY IfcElectricFlowStorageDeviceType

+ SUBTYPE OF (IfcFlowStorageDeviceType);

+	PredefinedType : IfcElectricFlowStorageDeviceTypeEnum;

+END_ENTITY;

+

+ENTITY IfcElectricGeneratorType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcElectricGeneratorTypeEnum;

+END_ENTITY;

+

+ENTITY IfcElectricHeaterType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcElectricHeaterTypeEnum;

+END_ENTITY;

+

+ENTITY IfcElectricMotorType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcElectricMotorTypeEnum;

+END_ENTITY;

+

+ENTITY IfcElectricTimeControlType

+ SUBTYPE OF (IfcFlowControllerType);

+	PredefinedType : IfcElectricTimeControlTypeEnum;

+END_ENTITY;

+

+ENTITY IfcElectricalBaseProperties

+ SUBTYPE OF (IfcEnergyProperties);

+	ElectricCurrentType : OPTIONAL IfcElectricCurrentEnum;

+	InputVoltage : IfcElectricVoltageMeasure;

+	InputFrequency : IfcFrequencyMeasure;

+	FullLoadCurrent : OPTIONAL IfcElectricCurrentMeasure;

+	MinimumCircuitCurrent : OPTIONAL IfcElectricCurrentMeasure;

+	MaximumPowerInput : OPTIONAL IfcPowerMeasure;

+	RatedPowerInput : OPTIONAL IfcPowerMeasure;

+	InputPhase : INTEGER;

+END_ENTITY;

+

+ENTITY IfcElectricalCircuit

+ SUBTYPE OF (IfcSystem);

+END_ENTITY;

+

+ENTITY IfcElectricalElement

+ SUBTYPE OF (IfcElement);

+END_ENTITY;

+

+ENTITY IfcElement

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBuildingElement

+	,IfcDistributionElement

+	,IfcElectricalElement

+	,IfcElementAssembly

+	,IfcElementComponent

+	,IfcEquipmentElement

+	,IfcFeatureElement

+	,IfcFurnishingElement

+	,IfcTransportElement

+	,IfcVirtualElement))

+ SUBTYPE OF (IfcProduct);

+	Tag : OPTIONAL IfcIdentifier;

+ INVERSE

+	FillsVoids : SET [0:1] OF IfcRelFillsElement FOR RelatedBuildingElement;

+	ConnectedTo : SET [0:?] OF IfcRelConnectsElements FOR RelatingElement;

+	HasCoverings : SET [0:?] OF IfcRelCoversBldgElements FOR RelatingBuildingElement;

+	HasProjections : SET [0:?] OF IfcRelProjectsElement FOR RelatingElement;

+	HasStructuralMember : SET [0:?] OF IfcRelConnectsStructuralElement FOR RelatingElement;

+	ReferencedInStructures : SET [0:?] OF IfcRelReferencedInSpatialStructure FOR RelatedElements;

+	HasPorts : SET [0:?] OF IfcRelConnectsPortToElement FOR RelatedElement;

+	HasOpenings : SET [0:?] OF IfcRelVoidsElement FOR RelatingBuildingElement;

+	IsConnectionRealization : SET [0:?] OF IfcRelConnectsWithRealizingElements FOR RealizingElements;

+	ProvidesBoundaries : SET [0:?] OF IfcRelSpaceBoundary FOR RelatedBuildingElement;

+	ConnectedFrom : SET [0:?] OF IfcRelConnectsElements FOR RelatedElement;

+	ContainedInStructure : SET [0:1] OF IfcRelContainedInSpatialStructure FOR RelatedElements;

+END_ENTITY;

+

+ENTITY IfcElementAssembly

+ SUBTYPE OF (IfcElement);

+	AssemblyPlace : OPTIONAL IfcAssemblyPlaceEnum;

+	PredefinedType : IfcElementAssemblyTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcElementAssemblyTypeEnum.USERDEFINED) OR ((PredefinedType = IfcElementAssemblyTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcObject.ObjectType));

+END_ENTITY;

+

+ENTITY IfcElementComponent

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcDiscreteAccessory

+	,IfcFastener))

+ SUBTYPE OF (IfcElement);

+END_ENTITY;

+

+ENTITY IfcElementComponentType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcDiscreteAccessoryType

+	,IfcFastenerType))

+ SUBTYPE OF (IfcElementType);

+END_ENTITY;

+

+ENTITY IfcElementQuantity

+ SUBTYPE OF (IfcPropertySetDefinition);

+	MethodOfMeasurement : OPTIONAL IfcLabel;

+	Quantities : SET [1:?] OF IfcPhysicalQuantity;

+END_ENTITY;

+

+ENTITY IfcElementType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBuildingElementType

+	,IfcDistributionElementType

+	,IfcElementComponentType

+	,IfcFurnishingElementType

+	,IfcSpatialStructureElementType

+	,IfcTransportElementType))

+ SUBTYPE OF (IfcTypeProduct);

+	ElementType : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcElementarySurface

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcPlane))

+ SUBTYPE OF (IfcSurface);

+	Position : IfcAxis2Placement3D;

+ DERIVE

+	Dim : IfcDimensionCount := Position.Dim;

+END_ENTITY;

+

+ENTITY IfcEllipse

+ SUBTYPE OF (IfcConic);

+	SemiAxis1 : IfcPositiveLengthMeasure;

+	SemiAxis2 : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcEllipseProfileDef

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	SemiAxis1 : IfcPositiveLengthMeasure;

+	SemiAxis2 : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcEnergyConversionDevice

+ SUBTYPE OF (IfcDistributionFlowElement);

+END_ENTITY;

+

+ENTITY IfcEnergyConversionDeviceType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcAirToAirHeatRecoveryType

+	,IfcBoilerType

+	,IfcChillerType

+	,IfcCoilType

+	,IfcCondenserType

+	,IfcCooledBeamType

+	,IfcCoolingTowerType

+	,IfcElectricGeneratorType

+	,IfcElectricMotorType

+	,IfcEvaporativeCoolerType

+	,IfcEvaporatorType

+	,IfcHeatExchangerType

+	,IfcHumidifierType

+	,IfcMotorConnectionType

+	,IfcSpaceHeaterType

+	,IfcTransformerType

+	,IfcTubeBundleType

+	,IfcUnitaryEquipmentType))

+ SUBTYPE OF (IfcDistributionFlowElementType);

+END_ENTITY;

+

+ENTITY IfcEnergyProperties

+ SUPERTYPE OF (ONEOF

+	(IfcElectricalBaseProperties))

+ SUBTYPE OF (IfcPropertySetDefinition);

+	EnergySequence : OPTIONAL IfcEnergySequenceEnum;

+	UserDefinedEnergySequence : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcEnvironmentalImpactValue

+ SUBTYPE OF (IfcAppliedValue);

+	ImpactType : IfcLabel;

+	Category : IfcEnvironmentalImpactCategoryEnum;

+	UserDefinedCategory : OPTIONAL IfcLabel;

+ WHERE

+	WR1 : (Category <> IfcEnvironmentalImpactCategoryEnum.USERDEFINED) OR

+            ((Category = IfcEnvironmentalImpactCategoryEnum.USERDEFINED) AND EXISTS(SELF\IfcEnvironmentalImpactValue.UserDefinedCategory));

+END_ENTITY;

+

+ENTITY IfcEquipmentElement

+ SUBTYPE OF (IfcElement);

+END_ENTITY;

+

+ENTITY IfcEquipmentStandard

+ SUBTYPE OF (IfcControl);

+END_ENTITY;

+

+ENTITY IfcEvaporativeCoolerType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcEvaporativeCoolerTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcEvaporativeCoolerTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcEvaporativeCoolerTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcEvaporatorType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcEvaporatorTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcEvaporatorTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcEvaporatorTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcExtendedMaterialProperties

+ SUBTYPE OF (IfcMaterialProperties);

+	ExtendedProperties : SET [1:?] OF IfcProperty;

+	Description : OPTIONAL IfcText;

+	Name : IfcLabel;

+END_ENTITY;

+

+ENTITY IfcExternalReference

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcClassificationReference

+	,IfcDocumentReference

+	,IfcExternallyDefinedHatchStyle

+	,IfcExternallyDefinedSurfaceStyle

+	,IfcExternallyDefinedSymbol

+	,IfcExternallyDefinedTextFont

+	,IfcLibraryReference));

+	Location : OPTIONAL IfcLabel;

+	ItemReference : OPTIONAL IfcIdentifier;

+	Name : OPTIONAL IfcLabel;

+ WHERE

+	WR1 : EXISTS(ItemReference) OR EXISTS(Location) OR EXISTS(Name);

+END_ENTITY;

+

+ENTITY IfcExternallyDefinedHatchStyle

+ SUBTYPE OF (IfcExternalReference);

+END_ENTITY;

+

+ENTITY IfcExternallyDefinedSurfaceStyle

+ SUBTYPE OF (IfcExternalReference);

+END_ENTITY;

+

+ENTITY IfcExternallyDefinedSymbol

+ SUBTYPE OF (IfcExternalReference);

+END_ENTITY;

+

+ENTITY IfcExternallyDefinedTextFont

+ SUBTYPE OF (IfcExternalReference);

+END_ENTITY;

+

+ENTITY IfcExtrudedAreaSolid

+ SUBTYPE OF (IfcSweptAreaSolid);

+	ExtrudedDirection : IfcDirection;

+	Depth : IfcPositiveLengthMeasure;

+ WHERE

+	WR31 : IfcDotProduct(IfcRepresentationItem() || IfcGeometricRepresentationItem() || IfcDirection([0.0,0.0,1.0]), SELF.ExtrudedDirection) <> 0.0;

+END_ENTITY;

+

+ENTITY IfcFace

+ SUPERTYPE OF (ONEOF

+	(IfcFaceSurface))

+ SUBTYPE OF (IfcTopologicalRepresentationItem);

+	Bounds : SET [1:?] OF IfcFaceBound;

+ WHERE

+	WR1 : SIZEOF(QUERY(temp <* Bounds | 'IFC2X3.IFCFACEOUTERBOUND' IN TYPEOF(temp))) <= 1;

+END_ENTITY;

+

+ENTITY IfcFaceBasedSurfaceModel

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	FbsmFaces : SET [1:?] OF IfcConnectedFaceSet;

+ DERIVE

+	Dim : IfcDimensionCount := 3;

+END_ENTITY;

+

+ENTITY IfcFaceBound

+ SUPERTYPE OF (ONEOF

+	(IfcFaceOuterBound))

+ SUBTYPE OF (IfcTopologicalRepresentationItem);

+	Bound : IfcLoop;

+	Orientation : BOOLEAN;

+END_ENTITY;

+

+ENTITY IfcFaceOuterBound

+ SUBTYPE OF (IfcFaceBound);

+END_ENTITY;

+

+ENTITY IfcFaceSurface

+ SUBTYPE OF (IfcFace);

+	FaceSurface : IfcSurface;

+	SameSense : BOOLEAN;

+END_ENTITY;

+

+ENTITY IfcFacetedBrep

+ SUBTYPE OF (IfcManifoldSolidBrep);

+END_ENTITY;

+

+ENTITY IfcFacetedBrepWithVoids

+ SUBTYPE OF (IfcManifoldSolidBrep);

+	Voids : SET [1:?] OF IfcClosedShell;

+END_ENTITY;

+

+ENTITY IfcFailureConnectionCondition

+ SUBTYPE OF (IfcStructuralConnectionCondition);

+	TensionFailureX : OPTIONAL IfcForceMeasure;

+	TensionFailureY : OPTIONAL IfcForceMeasure;

+	TensionFailureZ : OPTIONAL IfcForceMeasure;

+	CompressionFailureX : OPTIONAL IfcForceMeasure;

+	CompressionFailureY : OPTIONAL IfcForceMeasure;

+	CompressionFailureZ : OPTIONAL IfcForceMeasure;

+END_ENTITY;

+

+ENTITY IfcFanType

+ SUBTYPE OF (IfcFlowMovingDeviceType);

+	PredefinedType : IfcFanTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcFanTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcFanTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcFastener

+ SUPERTYPE OF (ONEOF

+	(IfcMechanicalFastener))

+ SUBTYPE OF (IfcElementComponent);

+END_ENTITY;

+

+ENTITY IfcFastenerType

+ SUPERTYPE OF (ONEOF

+	(IfcMechanicalFastenerType))

+ SUBTYPE OF (IfcElementComponentType);

+END_ENTITY;

+

+ENTITY IfcFeatureElement

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcFeatureElementAddition

+	,IfcFeatureElementSubtraction))

+ SUBTYPE OF (IfcElement);

+END_ENTITY;

+

+ENTITY IfcFeatureElementAddition

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcProjectionElement))

+ SUBTYPE OF (IfcFeatureElement);

+ INVERSE

+	ProjectsElements : IfcRelProjectsElement FOR RelatedFeatureElement;

+END_ENTITY;

+

+ENTITY IfcFeatureElementSubtraction

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcEdgeFeature

+	,IfcOpeningElement))

+ SUBTYPE OF (IfcFeatureElement);

+ INVERSE

+	VoidsElements : IfcRelVoidsElement FOR RelatedOpeningElement;

+END_ENTITY;

+

+ENTITY IfcFillAreaStyle

+ SUBTYPE OF (IfcPresentationStyle);

+	FillStyles : SET [1:?] OF IfcFillStyleSelect;

+ WHERE

+	WR11 : SIZEOF(QUERY(Style <* SELF.FillStyles |

+               'IFC2X3.IFCCOLOUR' IN

+                TYPEOF(Style)

+               )) <= 1;

+	WR12 : SIZEOF(QUERY(Style <* SELF.FillStyles |

+               'IFC2X3.IFCEXTERNALLYDEFINEDHATCHSTYLE' IN

+                TYPEOF(Style)

+               )) <= 1;

+	WR13 : (SIZEOF(QUERY(Style <* SELF.FillStyles |

+               'IFC2X3.IFCEXTERNALLYDEFINEDHATCHSTYLE' IN

+                TYPEOF(Style)

+               )) >= 1)

+             XOR

+             (SIZEOF(QUERY(Style <* SELF.FillStyles |

+               'IFC2X3.IFCFILLAREASTYLEHATCHING' IN

+                TYPEOF(Style)

+               )) >= 1)

+             XOR

+             (SIZEOF(QUERY(Style <* SELF.FillStyles |

+               'IFC2X3.IFCFILLAREASTYLETILES' IN

+                TYPEOF(Style)

+               )) >= 1);

+END_ENTITY;

+

+ENTITY IfcFillAreaStyleHatching

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	HatchLineAppearance : IfcCurveStyle;

+	StartOfNextHatchLine : IfcHatchLineDistanceSelect;

+	PointOfReferenceHatchLine : OPTIONAL IfcCartesianPoint;

+	PatternStart : OPTIONAL IfcCartesianPoint;

+	HatchLineAngle : IfcPlaneAngleMeasure;

+ WHERE

+	WR21 : NOT(

+              'IFC2X3.IFCTWODIRECTIONREPEATFACTOR' 

+              IN TYPEOF(StartOfNextHatchLine)

+             );

+	WR22 : NOT(EXISTS(PatternStart)) 

+             OR (PatternStart.Dim = 2);

+	WR23 : NOT(EXISTS(PointOfReferenceHatchLine)) 

+             OR (PointOfReferenceHatchLine.Dim = 2);

+END_ENTITY;

+

+ENTITY IfcFillAreaStyleTileSymbolWithStyle

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Symbol : IfcAnnotationSymbolOccurrence;

+END_ENTITY;

+

+ENTITY IfcFillAreaStyleTiles

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	TilingPattern : IfcOneDirectionRepeatFactor;

+	Tiles : SET [1:?] OF IfcFillAreaStyleTileShapeSelect;

+	TilingScale : IfcPositiveRatioMeasure;

+END_ENTITY;

+

+ENTITY IfcFilterType

+ SUBTYPE OF (IfcFlowTreatmentDeviceType);

+	PredefinedType : IfcFilterTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcFilterTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcFilterTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcFireSuppressionTerminalType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcFireSuppressionTerminalTypeEnum;

+END_ENTITY;

+

+ENTITY IfcFlowController

+ SUPERTYPE OF (ONEOF

+	(IfcElectricDistributionPoint))

+ SUBTYPE OF (IfcDistributionFlowElement);

+END_ENTITY;

+

+ENTITY IfcFlowControllerType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcAirTerminalBoxType

+	,IfcDamperType

+	,IfcElectricTimeControlType

+	,IfcFlowMeterType

+	,IfcProtectiveDeviceType

+	,IfcSwitchingDeviceType

+	,IfcValveType))

+ SUBTYPE OF (IfcDistributionFlowElementType);

+END_ENTITY;

+

+ENTITY IfcFlowFitting

+ SUBTYPE OF (IfcDistributionFlowElement);

+END_ENTITY;

+

+ENTITY IfcFlowFittingType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcCableCarrierFittingType

+	,IfcDuctFittingType

+	,IfcJunctionBoxType

+	,IfcPipeFittingType))

+ SUBTYPE OF (IfcDistributionFlowElementType);

+END_ENTITY;

+

+ENTITY IfcFlowInstrumentType

+ SUBTYPE OF (IfcDistributionControlElementType);

+	PredefinedType : IfcFlowInstrumentTypeEnum;

+END_ENTITY;

+

+ENTITY IfcFlowMeterType

+ SUBTYPE OF (IfcFlowControllerType);

+	PredefinedType : IfcFlowMeterTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcFlowMeterTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcFlowMeterTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcFlowMovingDevice

+ SUBTYPE OF (IfcDistributionFlowElement);

+END_ENTITY;

+

+ENTITY IfcFlowMovingDeviceType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcCompressorType

+	,IfcFanType

+	,IfcPumpType))

+ SUBTYPE OF (IfcDistributionFlowElementType);

+END_ENTITY;

+

+ENTITY IfcFlowSegment

+ SUBTYPE OF (IfcDistributionFlowElement);

+END_ENTITY;

+

+ENTITY IfcFlowSegmentType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcCableCarrierSegmentType

+	,IfcCableSegmentType

+	,IfcDuctSegmentType

+	,IfcPipeSegmentType))

+ SUBTYPE OF (IfcDistributionFlowElementType);

+END_ENTITY;

+

+ENTITY IfcFlowStorageDevice

+ SUBTYPE OF (IfcDistributionFlowElement);

+END_ENTITY;

+

+ENTITY IfcFlowStorageDeviceType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcElectricFlowStorageDeviceType

+	,IfcTankType))

+ SUBTYPE OF (IfcDistributionFlowElementType);

+END_ENTITY;

+

+ENTITY IfcFlowTerminal

+ SUBTYPE OF (IfcDistributionFlowElement);

+END_ENTITY;

+

+ENTITY IfcFlowTerminalType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcAirTerminalType

+	,IfcElectricApplianceType

+	,IfcElectricHeaterType

+	,IfcFireSuppressionTerminalType

+	,IfcGasTerminalType

+	,IfcLampType

+	,IfcLightFixtureType

+	,IfcOutletType

+	,IfcSanitaryTerminalType

+	,IfcStackTerminalType

+	,IfcWasteTerminalType))

+ SUBTYPE OF (IfcDistributionFlowElementType);

+END_ENTITY;

+

+ENTITY IfcFlowTreatmentDevice

+ SUBTYPE OF (IfcDistributionFlowElement);

+END_ENTITY;

+

+ENTITY IfcFlowTreatmentDeviceType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcDuctSilencerType

+	,IfcFilterType))

+ SUBTYPE OF (IfcDistributionFlowElementType);

+END_ENTITY;

+

+ENTITY IfcFluidFlowProperties

+ SUBTYPE OF (IfcPropertySetDefinition);

+	PropertySource : IfcPropertySourceEnum;

+	FlowConditionTimeSeries : OPTIONAL IfcTimeSeries;

+	VelocityTimeSeries : OPTIONAL IfcTimeSeries;

+	FlowrateTimeSeries : OPTIONAL IfcTimeSeries;

+	Fluid : IfcMaterial;

+	PressureTimeSeries : OPTIONAL IfcTimeSeries;

+	UserDefinedPropertySource : OPTIONAL IfcLabel;

+	TemperatureSingleValue : OPTIONAL IfcThermodynamicTemperatureMeasure;

+	WetBulbTemperatureSingleValue : OPTIONAL IfcThermodynamicTemperatureMeasure;

+	WetBulbTemperatureTimeSeries : OPTIONAL IfcTimeSeries;

+	TemperatureTimeSeries : OPTIONAL IfcTimeSeries;

+	FlowrateSingleValue : OPTIONAL IfcDerivedMeasureValue;

+	FlowConditionSingleValue : OPTIONAL IfcPositiveRatioMeasure;

+	VelocitySingleValue : OPTIONAL IfcLinearVelocityMeasure;

+	PressureSingleValue : OPTIONAL IfcPressureMeasure;

+END_ENTITY;

+

+ENTITY IfcFooting

+ SUBTYPE OF (IfcBuildingElement);

+	PredefinedType : IfcFootingTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcFootingTypeEnum.USERDEFINED) OR ((PredefinedType = IfcFootingTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcObject.ObjectType));

+END_ENTITY;

+

+ENTITY IfcFuelProperties

+ SUBTYPE OF (IfcMaterialProperties);

+	CombustionTemperature : OPTIONAL IfcThermodynamicTemperatureMeasure;

+	CarbonContent : OPTIONAL IfcPositiveRatioMeasure;

+	LowerHeatingValue : OPTIONAL IfcHeatingValueMeasure;

+	HigherHeatingValue : OPTIONAL IfcHeatingValueMeasure;

+ UNIQUE

+	UR11 : Material;

+END_ENTITY;

+

+ENTITY IfcFurnishingElement

+ SUBTYPE OF (IfcElement);

+END_ENTITY;

+

+ENTITY IfcFurnishingElementType

+ SUPERTYPE OF (ONEOF

+	(IfcFurnitureType

+	,IfcSystemFurnitureElementType))

+ SUBTYPE OF (IfcElementType);

+END_ENTITY;

+

+ENTITY IfcFurnitureStandard

+ SUBTYPE OF (IfcControl);

+END_ENTITY;

+

+ENTITY IfcFurnitureType

+ SUBTYPE OF (IfcFurnishingElementType);

+	AssemblyPlace : IfcAssemblyPlaceEnum;

+END_ENTITY;

+

+ENTITY IfcGasTerminalType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcGasTerminalTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcGasTerminalTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcGasTerminalTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcGeneralMaterialProperties

+ SUBTYPE OF (IfcMaterialProperties);

+	MolecularWeight : OPTIONAL IfcMolecularWeightMeasure;

+	Porosity : OPTIONAL IfcNormalisedRatioMeasure;

+	MassDensity : OPTIONAL IfcMassDensityMeasure;

+ UNIQUE

+	UR11 : Material;

+END_ENTITY;

+

+ENTITY IfcGeneralProfileProperties

+ SUPERTYPE OF (ONEOF

+	(IfcStructuralProfileProperties))

+ SUBTYPE OF (IfcProfileProperties);

+	PhysicalWeight : OPTIONAL IfcMassPerLengthMeasure;

+	Perimeter : OPTIONAL IfcPositiveLengthMeasure;

+	MinimumPlateThickness : OPTIONAL IfcPositiveLengthMeasure;

+	MaximumPlateThickness : OPTIONAL IfcPositiveLengthMeasure;

+	CrossSectionArea : OPTIONAL IfcAreaMeasure;

+ WHERE

+	WR1 : NOT(EXISTS(CrossSectionArea)) OR (CrossSectionArea > 0.);

+END_ENTITY;

+

+ENTITY IfcGeometricCurveSet

+ SUBTYPE OF (IfcGeometricSet);

+ WHERE

+	WR1 : SIZEOF(QUERY(Temp <* SELF\IfcGeometricSet.Elements |

+            'IFC2X3.IFCSURFACE' IN TYPEOF(Temp))) = 0;

+END_ENTITY;

+

+ENTITY IfcGeometricRepresentationContext

+ SUPERTYPE OF (ONEOF

+	(IfcGeometricRepresentationSubContext))

+ SUBTYPE OF (IfcRepresentationContext);

+	CoordinateSpaceDimension : IfcDimensionCount;

+	Precision : OPTIONAL REAL;

+	WorldCoordinateSystem : IfcAxis2Placement;

+	TrueNorth : OPTIONAL IfcDirection;

+ INVERSE

+	HasSubContexts : SET [0:?] OF IfcGeometricRepresentationSubContext FOR ParentContext;

+END_ENTITY;

+

+ENTITY IfcGeometricRepresentationItem

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcAnnotationFillArea

+	,IfcAnnotationSurface

+	,IfcBooleanResult

+	,IfcBoundingBox

+	,IfcCartesianTransformationOperator

+	,IfcCompositeCurveSegment

+	,IfcCsgPrimitive3D

+	,IfcCurve

+	,IfcDefinedSymbol

+	,IfcDirection

+	,IfcDraughtingCallout

+	,IfcFaceBasedSurfaceModel

+	,IfcFillAreaStyleHatching

+	,IfcFillAreaStyleTileSymbolWithStyle

+	,IfcFillAreaStyleTiles

+	,IfcGeometricSet

+	,IfcHalfSpaceSolid

+	,IfcLightSource

+	,IfcOneDirectionRepeatFactor

+	,IfcPlacement

+	,IfcPlanarExtent

+	,IfcPoint

+	,IfcSectionedSpine

+	,IfcShellBasedSurfaceModel

+	,IfcSolidModel

+	,IfcSurface

+	,IfcTextLiteral

+	,IfcVector))

+ SUBTYPE OF (IfcRepresentationItem);

+END_ENTITY;

+

+ENTITY IfcGeometricRepresentationSubContext

+ SUBTYPE OF (IfcGeometricRepresentationContext);

+	ParentContext : IfcGeometricRepresentationContext;

+	TargetScale : OPTIONAL IfcPositiveRatioMeasure;

+	TargetView : IfcGeometricProjectionEnum;

+	UserDefinedTargetView : OPTIONAL IfcLabel;

+ DERIVE

+	SELF\IfcGeometricRepresentationContext.WorldCoordinateSystem : IfcAxis2Placement := ParentContext.WorldCoordinateSystem;

+	SELF\IfcGeometricRepresentationContext.CoordinateSpaceDimension : IfcDimensionCount := ParentContext.CoordinateSpaceDimension;

+	SELF\IfcGeometricRepresentationContext.TrueNorth : IfcDirection := NVL(ParentContext.TrueNorth,SELF.WorldCoordinateSystem.P[2]);

+	SELF\IfcGeometricRepresentationContext.Precision : REAL := NVL(ParentContext.Precision,1.E-5);

+ WHERE

+	WR31 : NOT('IFC2X3.IFCGEOMETRICREPRESENTATIONSUBCONTEXT' IN TYPEOF(ParentContext));

+	WR32 : (TargetView <> IfcGeometricProjectionEnum.USERDEFINED) OR 

+             ((TargetView =  IfcGeometricProjectionEnum.USERDEFINED) AND 

+              EXISTS(UserDefinedTargetView));

+END_ENTITY;

+

+ENTITY IfcGeometricSet

+ SUPERTYPE OF (ONEOF

+	(IfcGeometricCurveSet))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Elements : SET [1:?] OF IfcGeometricSetSelect;

+ DERIVE

+	Dim : IfcDimensionCount := Elements[1].Dim;

+ WHERE

+	WR21 : SIZEOF(QUERY(Temp <* Elements |

+               Temp.Dim <> Elements[1].Dim))

+             = 0;

+END_ENTITY;

+

+ENTITY IfcGrid

+ SUBTYPE OF (IfcProduct);

+	UAxes : LIST [1:?] OF UNIQUE IfcGridAxis;

+	VAxes : LIST [1:?] OF UNIQUE IfcGridAxis;

+	WAxes : OPTIONAL LIST [1:?] OF UNIQUE IfcGridAxis;

+ INVERSE

+	ContainedInStructure : SET [0:1] OF IfcRelContainedInSpatialStructure FOR RelatedElements;

+ WHERE

+	WR41 : EXISTS(SELF\IfcProduct.ObjectPlacement);

+END_ENTITY;

+

+ENTITY IfcGridAxis;

+	AxisTag : OPTIONAL IfcLabel;

+	AxisCurve : IfcCurve;

+	SameSense : IfcBoolean;

+ INVERSE

+	PartOfW : SET [0:1] OF IfcGrid FOR WAxes;

+	PartOfV : SET [0:1] OF IfcGrid FOR VAxes;

+	PartOfU : SET [0:1] OF IfcGrid FOR UAxes;

+	HasIntersections : SET [0:?] OF IfcVirtualGridIntersection FOR IntersectingAxes;

+ WHERE

+	WR1 : AxisCurve.Dim = 2;

+	WR2 : (SIZEOF(PartOfU) = 1) XOR (SIZEOF(PartOfV) = 1) XOR (SIZEOF(PartOfW) = 1);

+END_ENTITY;

+

+ENTITY IfcGridPlacement

+ SUBTYPE OF (IfcObjectPlacement);

+	PlacementLocation : IfcVirtualGridIntersection;

+	PlacementRefDirection : OPTIONAL IfcVirtualGridIntersection;

+END_ENTITY;

+

+ENTITY IfcGroup

+ SUPERTYPE OF (ONEOF

+	(IfcAsset

+	,IfcCondition

+	,IfcInventory

+	,IfcStructuralLoadGroup

+	,IfcStructuralResultGroup

+	,IfcSystem

+	,IfcZone))

+ SUBTYPE OF (IfcObject);

+ INVERSE

+	IsGroupedBy : IfcRelAssignsToGroup FOR RelatingGroup;

+END_ENTITY;

+

+ENTITY IfcHalfSpaceSolid

+ SUPERTYPE OF (ONEOF

+	(IfcBoxedHalfSpace

+	,IfcPolygonalBoundedHalfSpace))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	BaseSurface : IfcSurface;

+	AgreementFlag : BOOLEAN;

+ DERIVE

+	Dim : IfcDimensionCount := 3;

+END_ENTITY;

+

+ENTITY IfcHeatExchangerType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcHeatExchangerTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcHeatExchangerTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcHeatExchangerTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcHumidifierType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcHumidifierTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcHumidifierTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcHumidifierTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcHygroscopicMaterialProperties

+ SUBTYPE OF (IfcMaterialProperties);

+	UpperVaporResistanceFactor : OPTIONAL IfcPositiveRatioMeasure;

+	LowerVaporResistanceFactor : OPTIONAL IfcPositiveRatioMeasure;

+	IsothermalMoistureCapacity : OPTIONAL IfcIsothermalMoistureCapacityMeasure;

+	VaporPermeability : OPTIONAL IfcVaporPermeabilityMeasure;

+	MoistureDiffusivity : OPTIONAL IfcMoistureDiffusivityMeasure;

+ UNIQUE

+	UR11 : Material;

+END_ENTITY;

+

+ENTITY IfcIShapeProfileDef

+ SUPERTYPE OF (ONEOF

+	(IfcAsymmetricIShapeProfileDef))

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	OverallWidth : IfcPositiveLengthMeasure;

+	OverallDepth : IfcPositiveLengthMeasure;

+	WebThickness : IfcPositiveLengthMeasure;

+	FlangeThickness : IfcPositiveLengthMeasure;

+	FilletRadius : OPTIONAL IfcPositiveLengthMeasure;

+ WHERE

+	WR1 : FlangeThickness < (OverallDepth / 2.);

+	WR2 : WebThickness < OverallWidth;

+	WR3 : NOT(EXISTS(FilletRadius)) OR

+            ((FilletRadius <= (OverallWidth - WebThickness)/2.) AND 

+             (FilletRadius <= (OverallDepth - (2. * FlangeThickness))/2.));

+END_ENTITY;

+

+ENTITY IfcImageTexture

+ SUBTYPE OF (IfcSurfaceTexture);

+	UrlReference : IfcIdentifier;

+END_ENTITY;

+

+ENTITY IfcInventory

+ SUBTYPE OF (IfcGroup);

+	InventoryType : IfcInventoryTypeEnum;

+	Jurisdiction : IfcActorSelect;

+	ResponsiblePersons : SET [1:?] OF IfcPerson;

+	LastUpdateDate : IfcCalendarDate;

+	CurrentValue : OPTIONAL IfcCostValue;

+	OriginalValue : OPTIONAL IfcCostValue;

+ WHERE

+	WR41 : SIZEOF(QUERY(temp <* SELF\IfcGroup.IsGroupedBy.RelatedObjects |

+                 NOT( ('IFC2X3.IFCSPACE' IN TYPEOF (temp)) OR 

+                      ('IFC2X3.IFCASSET' IN TYPEOF (temp)) OR

+                      ('IFC2X3.IFCFURNISHINGELEMENT' IN TYPEOF (temp))

+                 ))) = 0;

+END_ENTITY;

+

+ENTITY IfcIrregularTimeSeries

+ SUBTYPE OF (IfcTimeSeries);

+	Values : LIST [1:?] OF IfcIrregularTimeSeriesValue;

+END_ENTITY;

+

+ENTITY IfcIrregularTimeSeriesValue;

+	TimeStamp : IfcDateTimeSelect;

+	ListValues : LIST [1:?] OF IfcValue;

+END_ENTITY;

+

+ENTITY IfcJunctionBoxType

+ SUBTYPE OF (IfcFlowFittingType);

+	PredefinedType : IfcJunctionBoxTypeEnum;

+END_ENTITY;

+

+ENTITY IfcLShapeProfileDef

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	Depth : IfcPositiveLengthMeasure;

+	Width : OPTIONAL IfcPositiveLengthMeasure;

+	Thickness : IfcPositiveLengthMeasure;

+	FilletRadius : OPTIONAL IfcPositiveLengthMeasure;

+	EdgeRadius : OPTIONAL IfcPositiveLengthMeasure;

+	LegSlope : OPTIONAL IfcPlaneAngleMeasure;

+	CentreOfGravityInX : OPTIONAL IfcPositiveLengthMeasure;

+	CentreOfGravityInY : OPTIONAL IfcPositiveLengthMeasure;

+ WHERE

+	WR21 : Thickness < Depth;

+	WR22 : NOT(EXISTS(Width)) OR (Thickness < Width);

+END_ENTITY;

+

+ENTITY IfcLaborResource

+ SUBTYPE OF (IfcConstructionResource);

+	SkillSet : OPTIONAL IfcText;

+END_ENTITY;

+

+ENTITY IfcLampType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcLampTypeEnum;

+END_ENTITY;

+

+ENTITY IfcLibraryInformation;

+	Name : IfcLabel;

+	Version : OPTIONAL IfcLabel;

+	Publisher : OPTIONAL IfcOrganization;

+	VersionDate : OPTIONAL IfcCalendarDate;

+	LibraryReference : OPTIONAL SET [1:?] OF IfcLibraryReference;

+END_ENTITY;

+

+ENTITY IfcLibraryReference

+ SUBTYPE OF (IfcExternalReference);

+ INVERSE

+	ReferenceIntoLibrary : SET [0:1] OF IfcLibraryInformation FOR LibraryReference;

+END_ENTITY;

+

+ENTITY IfcLightDistributionData;

+	MainPlaneAngle : IfcPlaneAngleMeasure;

+	SecondaryPlaneAngle : LIST [1:?] OF IfcPlaneAngleMeasure;

+	LuminousIntensity : LIST [1:?] OF IfcLuminousIntensityDistributionMeasure;

+END_ENTITY;

+

+ENTITY IfcLightFixtureType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcLightFixtureTypeEnum;

+END_ENTITY;

+

+ENTITY IfcLightIntensityDistribution;

+	LightDistributionCurve : IfcLightDistributionCurveEnum;

+	DistributionData : LIST [1:?] OF IfcLightDistributionData;

+END_ENTITY;

+

+ENTITY IfcLightSource

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcLightSourceAmbient

+	,IfcLightSourceDirectional

+	,IfcLightSourceGoniometric

+	,IfcLightSourcePositional))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Name : OPTIONAL IfcLabel;

+	LightColour : IfcColourRgb;

+	AmbientIntensity : OPTIONAL IfcNormalisedRatioMeasure;

+	Intensity : OPTIONAL IfcNormalisedRatioMeasure;

+END_ENTITY;

+

+ENTITY IfcLightSourceAmbient

+ SUBTYPE OF (IfcLightSource);

+END_ENTITY;

+

+ENTITY IfcLightSourceDirectional

+ SUBTYPE OF (IfcLightSource);

+	Orientation : IfcDirection;

+END_ENTITY;

+

+ENTITY IfcLightSourceGoniometric

+ SUBTYPE OF (IfcLightSource);

+	Position : IfcAxis2Placement3D;

+	ColourAppearance : OPTIONAL IfcColourRgb;

+	ColourTemperature : IfcThermodynamicTemperatureMeasure;

+	LuminousFlux : IfcLuminousFluxMeasure;

+	LightEmissionSource : IfcLightEmissionSourceEnum;

+	LightDistributionDataSource : IfcLightDistributionDataSourceSelect;

+END_ENTITY;

+

+ENTITY IfcLightSourcePositional

+ SUPERTYPE OF (ONEOF

+	(IfcLightSourceSpot))

+ SUBTYPE OF (IfcLightSource);

+	Position : IfcCartesianPoint;

+	Radius : IfcPositiveLengthMeasure;

+	ConstantAttenuation : IfcReal;

+	DistanceAttenuation : IfcReal;

+	QuadricAttenuation : IfcReal;

+END_ENTITY;

+

+ENTITY IfcLightSourceSpot

+ SUBTYPE OF (IfcLightSourcePositional);

+	Orientation : IfcDirection;

+	ConcentrationExponent : OPTIONAL IfcReal;

+	SpreadAngle : IfcPositivePlaneAngleMeasure;

+	BeamWidthAngle : IfcPositivePlaneAngleMeasure;

+END_ENTITY;

+

+ENTITY IfcLine

+ SUBTYPE OF (IfcCurve);

+	Pnt : IfcCartesianPoint;

+	Dir : IfcVector;

+ WHERE

+	WR1 : Dir.Dim = Pnt.Dim;

+END_ENTITY;

+

+ENTITY IfcLinearDimension

+ SUBTYPE OF (IfcDimensionCurveDirectedCallout);

+END_ENTITY;

+

+ENTITY IfcLocalPlacement

+ SUBTYPE OF (IfcObjectPlacement);

+	PlacementRelTo : OPTIONAL IfcObjectPlacement;

+	RelativePlacement : IfcAxis2Placement;

+ WHERE

+	WR21 : IfcCorrectLocalPlacement(RelativePlacement, PlacementRelTo);

+END_ENTITY;

+

+ENTITY IfcLocalTime;

+	HourComponent : IfcHourInDay;

+	MinuteComponent : OPTIONAL IfcMinuteInHour;

+	SecondComponent : OPTIONAL IfcSecondInMinute;

+	Zone : OPTIONAL IfcCoordinatedUniversalTimeOffset;

+	DaylightSavingOffset : OPTIONAL IfcDaylightSavingHour;

+ WHERE

+	WR21 : IfcValidTime (SELF);

+END_ENTITY;

+

+ENTITY IfcLoop

+ SUPERTYPE OF (ONEOF

+	(IfcEdgeLoop

+	,IfcPolyLoop

+	,IfcVertexLoop))

+ SUBTYPE OF (IfcTopologicalRepresentationItem);

+END_ENTITY;

+

+ENTITY IfcManifoldSolidBrep

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcFacetedBrep

+	,IfcFacetedBrepWithVoids))

+ SUBTYPE OF (IfcSolidModel);

+	Outer : IfcClosedShell;

+END_ENTITY;

+

+ENTITY IfcMappedItem

+ SUBTYPE OF (IfcRepresentationItem);

+	MappingSource : IfcRepresentationMap;

+	MappingTarget : IfcCartesianTransformationOperator;

+END_ENTITY;

+

+ENTITY IfcMaterial;

+	Name : IfcLabel;

+ INVERSE

+	HasRepresentation : SET [0:1] OF IfcMaterialDefinitionRepresentation FOR RepresentedMaterial;

+	ClassifiedAs : SET [0:1] OF IfcMaterialClassificationRelationship FOR ClassifiedMaterial;

+END_ENTITY;

+

+ENTITY IfcMaterialClassificationRelationship;

+	MaterialClassifications : SET [1:?] OF IfcClassificationNotationSelect;

+	ClassifiedMaterial : IfcMaterial;

+END_ENTITY;

+

+ENTITY IfcMaterialDefinitionRepresentation

+ SUBTYPE OF (IfcProductRepresentation);

+	RepresentedMaterial : IfcMaterial;

+ WHERE

+	WR11 : SIZEOF(QUERY(temp <* Representations | 

+               (NOT('IFC2X3.IFCSTYLEDREPRESENTATION' IN TYPEOF(temp)))

+             )) = 0;

+END_ENTITY;

+

+ENTITY IfcMaterialLayer;

+	Material : OPTIONAL IfcMaterial;

+	LayerThickness : IfcPositiveLengthMeasure;

+	IsVentilated : OPTIONAL IfcLogical;

+ INVERSE

+	ToMaterialLayerSet : IfcMaterialLayerSet FOR MaterialLayers;

+END_ENTITY;

+

+ENTITY IfcMaterialLayerSet;

+	MaterialLayers : LIST [1:?] OF IfcMaterialLayer;

+	LayerSetName : OPTIONAL IfcLabel;

+ DERIVE

+	TotalThickness : IfcLengthMeasure := IfcMlsTotalThickness(SELF);

+END_ENTITY;

+

+ENTITY IfcMaterialLayerSetUsage;

+	ForLayerSet : IfcMaterialLayerSet;

+	LayerSetDirection : IfcLayerSetDirectionEnum;

+	DirectionSense : IfcDirectionSenseEnum;

+	OffsetFromReferenceLine : IfcLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcMaterialList;

+	Materials : LIST [1:?] OF IfcMaterial;

+END_ENTITY;

+

+ENTITY IfcMaterialProperties

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcExtendedMaterialProperties

+	,IfcFuelProperties

+	,IfcGeneralMaterialProperties

+	,IfcHygroscopicMaterialProperties

+	,IfcMechanicalMaterialProperties

+	,IfcOpticalMaterialProperties

+	,IfcProductsOfCombustionProperties

+	,IfcThermalMaterialProperties

+	,IfcWaterProperties));

+	Material : IfcMaterial;

+END_ENTITY;

+

+ENTITY IfcMeasureWithUnit;

+	ValueComponent : IfcValue;

+	UnitComponent : IfcUnit;

+END_ENTITY;

+

+ENTITY IfcMechanicalConcreteMaterialProperties

+ SUBTYPE OF (IfcMechanicalMaterialProperties);

+	CompressiveStrength : OPTIONAL IfcPressureMeasure;

+	MaxAggregateSize : OPTIONAL IfcPositiveLengthMeasure;

+	AdmixturesDescription : OPTIONAL IfcText;

+	Workability : OPTIONAL IfcText;

+	ProtectivePoreRatio : OPTIONAL IfcNormalisedRatioMeasure;

+	WaterImpermeability : OPTIONAL IfcText;

+END_ENTITY;

+

+ENTITY IfcMechanicalFastener

+ SUBTYPE OF (IfcFastener);

+	NominalDiameter : OPTIONAL IfcPositiveLengthMeasure;

+	NominalLength : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcMechanicalFastenerType

+ SUBTYPE OF (IfcFastenerType);

+END_ENTITY;

+

+ENTITY IfcMechanicalMaterialProperties

+ SUPERTYPE OF (ONEOF

+	(IfcMechanicalConcreteMaterialProperties

+	,IfcMechanicalSteelMaterialProperties))

+ SUBTYPE OF (IfcMaterialProperties);

+	DynamicViscosity : OPTIONAL IfcDynamicViscosityMeasure;

+	YoungModulus : OPTIONAL IfcModulusOfElasticityMeasure;

+	ShearModulus : OPTIONAL IfcModulusOfElasticityMeasure;

+	PoissonRatio : OPTIONAL IfcPositiveRatioMeasure;

+	ThermalExpansionCoefficient : OPTIONAL IfcThermalExpansionCoefficientMeasure;

+ UNIQUE

+	UR11 : Material;

+ WHERE

+	WR21 : NOT(EXISTS(YoungModulus)) OR (YoungModulus >= 0.0);

+	WR22 : NOT(EXISTS(ShearModulus)) OR (ShearModulus >= 0.0);

+END_ENTITY;

+

+ENTITY IfcMechanicalSteelMaterialProperties

+ SUBTYPE OF (IfcMechanicalMaterialProperties);

+	YieldStress : OPTIONAL IfcPressureMeasure;

+	UltimateStress : OPTIONAL IfcPressureMeasure;

+	UltimateStrain : OPTIONAL IfcPositiveRatioMeasure;

+	HardeningModule : OPTIONAL IfcModulusOfElasticityMeasure;

+	ProportionalStress : OPTIONAL IfcPressureMeasure;

+	PlasticStrain : OPTIONAL IfcPositiveRatioMeasure;

+	Relaxations : OPTIONAL SET [1:?] OF IfcRelaxation;

+ WHERE

+	WR31 : NOT(EXISTS(YieldStress)) OR (YieldStress >= 0.);

+	WR32 : NOT(EXISTS(UltimateStress)) OR (UltimateStress >= 0.);

+	WR33 : NOT(EXISTS(HardeningModule)) OR (HardeningModule >= 0.);

+	WR34 : NOT(EXISTS(ProportionalStress)) OR (ProportionalStress >= 0.);

+END_ENTITY;

+

+ENTITY IfcMember

+ SUBTYPE OF (IfcBuildingElement);

+END_ENTITY;

+

+ENTITY IfcMemberType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcMemberTypeEnum;

+END_ENTITY;

+

+ENTITY IfcMetric

+ SUBTYPE OF (IfcConstraint);

+	Benchmark : IfcBenchmarkEnum;

+	ValueSource : OPTIONAL IfcLabel;

+	DataValue : IfcMetricValueSelect;

+END_ENTITY;

+

+ENTITY IfcMonetaryUnit;

+	Currency : IfcCurrencyEnum;

+END_ENTITY;

+

+ENTITY IfcMotorConnectionType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcMotorConnectionTypeEnum;

+END_ENTITY;

+

+ENTITY IfcMove

+ SUBTYPE OF (IfcTask);

+	MoveFrom : IfcSpatialStructureElement;

+	MoveTo : IfcSpatialStructureElement;

+	PunchList : OPTIONAL LIST [1:?] OF UNIQUE IfcText;

+ WHERE

+	WR1 : SIZEOF(SELF\IfcProcess.OperatesOn) >= 1;

+	WR2 : SIZEOF(QUERY(temp <* OperatesOn |

+              SIZEOF(QUERY(temp2 <* temp.RelatedObjects |

+                ('IFC2X3.IFCACTOR' IN TYPEOF (temp2)) OR

+                ('IFC2X3.IFCEQUIPMENTELEMENT' IN TYPEOF (temp2)) OR

+                ('IFC2X3.IFCFURNISHINGELEMENT' IN TYPEOF (temp2)) )) >=1

+              )) >= 1;

+	WR3 : EXISTS(SELF\IfcRoot.Name);

+END_ENTITY;

+

+ENTITY IfcNamedUnit

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcContextDependentUnit

+	,IfcConversionBasedUnit

+	,IfcSIUnit));

+	Dimensions : IfcDimensionalExponents;

+	UnitType : IfcUnitEnum;

+ WHERE

+	WR1 : IfcCorrectDimensions (SELF.UnitType, SELF.Dimensions);

+END_ENTITY;

+

+ENTITY IfcObject

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcActor

+	,IfcControl

+	,IfcGroup

+	,IfcProcess

+	,IfcProduct

+	,IfcProject

+	,IfcResource))

+ SUBTYPE OF (IfcObjectDefinition);

+	ObjectType : OPTIONAL IfcLabel;

+ INVERSE

+	IsDefinedBy : SET [0:?] OF IfcRelDefines FOR RelatedObjects;

+ WHERE

+	WR1 : SIZEOF(QUERY(temp <* IsDefinedBy | 'IFC2X3.IFCRELDEFINESBYTYPE' IN TYPEOF(temp))) <= 1;

+END_ENTITY;

+

+ENTITY IfcObjectDefinition

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcObject

+	,IfcTypeObject))

+ SUBTYPE OF (IfcRoot);

+ INVERSE

+	HasAssignments : SET [0:?] OF IfcRelAssigns FOR RelatedObjects;

+	IsDecomposedBy : SET [0:?] OF IfcRelDecomposes FOR RelatingObject;

+	Decomposes : SET [0:1] OF IfcRelDecomposes FOR RelatedObjects;

+	HasAssociations : SET [0:?] OF IfcRelAssociates FOR RelatedObjects;

+END_ENTITY;

+

+ENTITY IfcObjectPlacement

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcGridPlacement

+	,IfcLocalPlacement));

+ INVERSE

+	PlacesObject : SET [1:1] OF IfcProduct FOR ObjectPlacement;

+	ReferencedByPlacements : SET [0:?] OF IfcLocalPlacement FOR PlacementRelTo;

+END_ENTITY;

+

+ENTITY IfcObjective

+ SUBTYPE OF (IfcConstraint);

+	BenchmarkValues : OPTIONAL IfcMetric;

+	ResultValues : OPTIONAL IfcMetric;

+	ObjectiveQualifier : IfcObjectiveEnum;

+	UserDefinedQualifier : OPTIONAL IfcLabel;

+ WHERE

+	WR21 : (ObjectiveQualifier <> IfcObjectiveEnum.USERDEFINED) OR

+             ((ObjectiveQualifier = IfcObjectiveEnum.USERDEFINED) AND EXISTS(SELF\IfcObjective.UserDefinedQualifier));

+END_ENTITY;

+

+ENTITY IfcOccupant

+ SUBTYPE OF (IfcActor);

+	PredefinedType : IfcOccupantTypeEnum;

+ WHERE

+	WR31 : NOT(PredefinedType = IfcOccupantTypeEnum.USERDEFINED) 

+             OR EXISTS(SELF\IfcObject.ObjectType);

+END_ENTITY;

+

+ENTITY IfcOffsetCurve2D

+ SUBTYPE OF (IfcCurve);

+	BasisCurve : IfcCurve;

+	Distance : IfcLengthMeasure;

+	SelfIntersect : LOGICAL;

+ WHERE

+	WR1 : BasisCurve.Dim = 2;

+END_ENTITY;

+

+ENTITY IfcOffsetCurve3D

+ SUBTYPE OF (IfcCurve);

+	BasisCurve : IfcCurve;

+	Distance : IfcLengthMeasure;

+	SelfIntersect : LOGICAL;

+	RefDirection : IfcDirection;

+ WHERE

+	WR1 : BasisCurve.Dim = 3;

+END_ENTITY;

+

+ENTITY IfcOneDirectionRepeatFactor

+ SUPERTYPE OF (ONEOF

+	(IfcTwoDirectionRepeatFactor))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	RepeatFactor : IfcVector;

+END_ENTITY;

+

+ENTITY IfcOpenShell

+ SUBTYPE OF (IfcConnectedFaceSet);

+END_ENTITY;

+

+ENTITY IfcOpeningElement

+ SUBTYPE OF (IfcFeatureElementSubtraction);

+ INVERSE

+	HasFillings : SET [0:?] OF IfcRelFillsElement FOR RelatingOpeningElement;

+END_ENTITY;

+

+ENTITY IfcOpticalMaterialProperties

+ SUBTYPE OF (IfcMaterialProperties);

+	VisibleTransmittance : OPTIONAL IfcPositiveRatioMeasure;

+	SolarTransmittance : OPTIONAL IfcPositiveRatioMeasure;

+	ThermalIrTransmittance : OPTIONAL IfcPositiveRatioMeasure;

+	ThermalIrEmissivityBack : OPTIONAL IfcPositiveRatioMeasure;

+	ThermalIrEmissivityFront : OPTIONAL IfcPositiveRatioMeasure;

+	VisibleReflectanceBack : OPTIONAL IfcPositiveRatioMeasure;

+	VisibleReflectanceFront : OPTIONAL IfcPositiveRatioMeasure;

+	SolarReflectanceFront : OPTIONAL IfcPositiveRatioMeasure;

+	SolarReflectanceBack : OPTIONAL IfcPositiveRatioMeasure;

+ UNIQUE

+	UR11 : Material;

+END_ENTITY;

+

+ENTITY IfcOrderAction

+ SUBTYPE OF (IfcTask);

+	ActionID : IfcIdentifier;

+ UNIQUE

+	UR2 : ActionID;

+END_ENTITY;

+

+ENTITY IfcOrganization;

+	Id : OPTIONAL IfcIdentifier;

+	Name : IfcLabel;

+	Description : OPTIONAL IfcText;

+	Roles : OPTIONAL LIST [1:?] OF IfcActorRole;

+	Addresses : OPTIONAL LIST [1:?] OF IfcAddress;

+ INVERSE

+	IsRelatedBy : SET [0:?] OF IfcOrganizationRelationship FOR RelatedOrganizations;

+	Relates : SET [0:?] OF IfcOrganizationRelationship FOR RelatingOrganization;

+	Engages : SET [0:?] OF IfcPersonAndOrganization FOR TheOrganization;

+END_ENTITY;

+

+ENTITY IfcOrganizationRelationship;

+	Name : IfcLabel;

+	Description : OPTIONAL IfcText;

+	RelatingOrganization : IfcOrganization;

+	RelatedOrganizations : SET [1:?] OF IfcOrganization;

+END_ENTITY;

+

+ENTITY IfcOrientedEdge

+ SUBTYPE OF (IfcEdge);

+	EdgeElement : IfcEdge;

+	Orientation : BOOLEAN;

+ DERIVE

+	SELF\IfcEdge.EdgeStart : IfcVertex := IfcBooleanChoose 

+                               (Orientation, EdgeElement.EdgeStart, EdgeElement.EdgeEnd);

+	SELF\IfcEdge.EdgeEnd : IfcVertex := IfcBooleanChoose 

+                               (Orientation, EdgeElement.EdgeEnd, EdgeElement.EdgeStart);

+ WHERE

+	WR1 : NOT('IFC2X3.IFCORIENTEDEDGE' IN TYPEOF(EdgeElement));

+END_ENTITY;

+

+ENTITY IfcOutletType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcOutletTypeEnum;

+END_ENTITY;

+

+ENTITY IfcOwnerHistory;

+	OwningUser : IfcPersonAndOrganization;

+	OwningApplication : IfcApplication;

+	State : OPTIONAL IfcStateEnum;

+	ChangeAction : IfcChangeActionEnum;

+	LastModifiedDate : OPTIONAL IfcTimeStamp;

+	LastModifyingUser : OPTIONAL IfcPersonAndOrganization;

+	LastModifyingApplication : OPTIONAL IfcApplication;

+	CreationDate : IfcTimeStamp;

+END_ENTITY;

+

+ENTITY IfcParameterizedProfileDef

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcCShapeProfileDef

+	,IfcCircleProfileDef

+	,IfcCraneRailAShapeProfileDef

+	,IfcCraneRailFShapeProfileDef

+	,IfcEllipseProfileDef

+	,IfcIShapeProfileDef

+	,IfcLShapeProfileDef

+	,IfcRectangleProfileDef

+	,IfcTShapeProfileDef

+	,IfcTrapeziumProfileDef

+	,IfcUShapeProfileDef

+	,IfcZShapeProfileDef))

+ SUBTYPE OF (IfcProfileDef);

+	Position : IfcAxis2Placement2D;

+END_ENTITY;

+

+ENTITY IfcPath

+ SUBTYPE OF (IfcTopologicalRepresentationItem);

+	EdgeList : LIST [1:?] OF UNIQUE IfcOrientedEdge;

+ WHERE

+	WR1 : IfcPathHeadToTail(SELF);

+END_ENTITY;

+

+ENTITY IfcPerformanceHistory

+ SUBTYPE OF (IfcControl);

+	LifeCyclePhase : IfcLabel;

+END_ENTITY;

+

+ENTITY IfcPermeableCoveringProperties

+ SUBTYPE OF (IfcPropertySetDefinition);

+	OperationType : IfcPermeableCoveringOperationEnum;

+	PanelPosition : IfcWindowPanelPositionEnum;

+	FrameDepth : OPTIONAL IfcPositiveLengthMeasure;

+	FrameThickness : OPTIONAL IfcPositiveLengthMeasure;

+	ShapeAspectStyle : OPTIONAL IfcShapeAspect;

+END_ENTITY;

+

+ENTITY IfcPermit

+ SUBTYPE OF (IfcControl);

+	PermitID : IfcIdentifier;

+ UNIQUE

+	UR2 : PermitID;

+END_ENTITY;

+

+ENTITY IfcPerson;

+	Id : OPTIONAL IfcIdentifier;

+	FamilyName : OPTIONAL IfcLabel;

+	GivenName : OPTIONAL IfcLabel;

+	MiddleNames : OPTIONAL LIST [1:?] OF IfcLabel;

+	PrefixTitles : OPTIONAL LIST [1:?] OF IfcLabel;

+	SuffixTitles : OPTIONAL LIST [1:?] OF IfcLabel;

+	Roles : OPTIONAL LIST [1:?] OF IfcActorRole;

+	Addresses : OPTIONAL LIST [1:?] OF IfcAddress;

+ INVERSE

+	EngagedIn : SET [0:?] OF IfcPersonAndOrganization FOR ThePerson;

+ WHERE

+	WR1 : EXISTS(FamilyName) OR 

+            EXISTS(GivenName);

+END_ENTITY;

+

+ENTITY IfcPersonAndOrganization;

+	ThePerson : IfcPerson;

+	TheOrganization : IfcOrganization;

+	Roles : OPTIONAL LIST [1:?] OF IfcActorRole;

+END_ENTITY;

+

+ENTITY IfcPhysicalComplexQuantity

+ SUBTYPE OF (IfcPhysicalQuantity);

+	HasQuantities : SET [1:?] OF IfcPhysicalQuantity;

+	Discrimination : IfcLabel;

+	Quality : OPTIONAL IfcLabel;

+	Usage : OPTIONAL IfcLabel;

+ WHERE

+	WR21 : SIZEOF(QUERY(temp <* HasQuantities | SELF :=: temp)) = 0;

+END_ENTITY;

+

+ENTITY IfcPhysicalQuantity

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcPhysicalComplexQuantity

+	,IfcPhysicalSimpleQuantity));

+	Name : IfcLabel;

+	Description : OPTIONAL IfcText;

+ INVERSE

+	PartOfComplex : SET [0:1] OF IfcPhysicalComplexQuantity FOR HasQuantities;

+END_ENTITY;

+

+ENTITY IfcPhysicalSimpleQuantity

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcQuantityArea

+	,IfcQuantityCount

+	,IfcQuantityLength

+	,IfcQuantityTime

+	,IfcQuantityVolume

+	,IfcQuantityWeight))

+ SUBTYPE OF (IfcPhysicalQuantity);

+	Unit : OPTIONAL IfcNamedUnit;

+END_ENTITY;

+

+ENTITY IfcPile

+ SUBTYPE OF (IfcBuildingElement);

+	PredefinedType : IfcPileTypeEnum;

+	ConstructionType : OPTIONAL IfcPileConstructionEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcPileTypeEnum.USERDEFINED) OR ((PredefinedType = IfcPileTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcObject.ObjectType));

+END_ENTITY;

+

+ENTITY IfcPipeFittingType

+ SUBTYPE OF (IfcFlowFittingType);

+	PredefinedType : IfcPipeFittingTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcPipeFittingTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcPipeFittingTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcPipeSegmentType

+ SUBTYPE OF (IfcFlowSegmentType);

+	PredefinedType : IfcPipeSegmentTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcPipeSegmentTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcPipeSegmentTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcPixelTexture

+ SUBTYPE OF (IfcSurfaceTexture);

+	Width : IfcInteger;

+	Height : IfcInteger;

+	ColourComponents : IfcInteger;

+	Pixel : LIST [1:?] OF BINARY(32);

+ WHERE

+	WR21 : Width >= 1;

+	WR22 : Height >= 1;

+	WR23 : {1 <= ColourComponents <= 4};

+	WR24 : SIZEOF(Pixel) = (Width * Height);

+END_ENTITY;

+

+ENTITY IfcPlacement

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcAxis1Placement

+	,IfcAxis2Placement2D

+	,IfcAxis2Placement3D))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Location : IfcCartesianPoint;

+ DERIVE

+	Dim : IfcDimensionCount := Location.Dim;

+END_ENTITY;

+

+ENTITY IfcPlanarBox

+ SUBTYPE OF (IfcPlanarExtent);

+	Placement : IfcAxis2Placement;

+END_ENTITY;

+

+ENTITY IfcPlanarExtent

+ SUPERTYPE OF (ONEOF

+	(IfcPlanarBox))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	SizeInX : IfcLengthMeasure;

+	SizeInY : IfcLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcPlane

+ SUBTYPE OF (IfcElementarySurface);

+END_ENTITY;

+

+ENTITY IfcPlate

+ SUBTYPE OF (IfcBuildingElement);

+END_ENTITY;

+

+ENTITY IfcPlateType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcPlateTypeEnum;

+ WHERE

+	WR1 : SIZEOF (QUERY(temp <* SELF\IfcObjectDefinition.HasAssociations | 'IFC2X3.IFCRELASSOCIATESMATERIAL' IN TYPEOF(temp) )) = 1;

+END_ENTITY;

+

+ENTITY IfcPoint

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcCartesianPoint

+	,IfcPointOnCurve

+	,IfcPointOnSurface))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+END_ENTITY;

+

+ENTITY IfcPointOnCurve

+ SUBTYPE OF (IfcPoint);

+	BasisCurve : IfcCurve;

+	PointParameter : IfcParameterValue;

+ DERIVE

+	Dim : IfcDimensionCount := BasisCurve.Dim;

+END_ENTITY;

+

+ENTITY IfcPointOnSurface

+ SUBTYPE OF (IfcPoint);

+	BasisSurface : IfcSurface;

+	PointParameterU : IfcParameterValue;

+	PointParameterV : IfcParameterValue;

+ DERIVE

+	Dim : IfcDimensionCount := BasisSurface.Dim;

+END_ENTITY;

+

+ENTITY IfcPolyLoop

+ SUBTYPE OF (IfcLoop);

+	Polygon : LIST [3:?] OF UNIQUE IfcCartesianPoint;

+ WHERE

+	WR21 : SIZEOF(QUERY(Temp <* Polygon | Temp.Dim <> Polygon[1].Dim)) = 0;

+END_ENTITY;

+

+ENTITY IfcPolygonalBoundedHalfSpace

+ SUBTYPE OF (IfcHalfSpaceSolid);

+	Position : IfcAxis2Placement3D;

+	PolygonalBoundary : IfcBoundedCurve;

+ WHERE

+	WR41 : PolygonalBoundary.Dim = 2;

+	WR42 : SIZEOF(TYPEOF(PolygonalBoundary) * [

+               'IFC2X3.IFCPOLYLINE', 

+               'IFC2X3.IFCCOMPOSITECURVE']

+             ) = 1;

+END_ENTITY;

+

+ENTITY IfcPolyline

+ SUBTYPE OF (IfcBoundedCurve);

+	Points : LIST [2:?] OF IfcCartesianPoint;

+ WHERE

+	WR41 : SIZEOF(QUERY(Temp <* Points | Temp.Dim <> Points[1].Dim)) = 0;

+END_ENTITY;

+

+ENTITY IfcPort

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcDistributionPort))

+ SUBTYPE OF (IfcProduct);

+ INVERSE

+	ContainedIn : IfcRelConnectsPortToElement FOR RelatingPort;

+	ConnectedFrom : SET [0:1] OF IfcRelConnectsPorts FOR RelatedPort;

+	ConnectedTo : SET [0:1] OF IfcRelConnectsPorts FOR RelatingPort;

+END_ENTITY;

+

+ENTITY IfcPostalAddress

+ SUBTYPE OF (IfcAddress);

+	InternalLocation : OPTIONAL IfcLabel;

+	AddressLines : OPTIONAL LIST [1:?] OF IfcLabel;

+	PostalBox : OPTIONAL IfcLabel;

+	Town : OPTIONAL IfcLabel;

+	Region : OPTIONAL IfcLabel;

+	PostalCode : OPTIONAL IfcLabel;

+	Country : OPTIONAL IfcLabel;

+ WHERE

+	WR1 : EXISTS (InternalLocation) OR 

+            EXISTS (AddressLines) OR

+            EXISTS (PostalBox) OR

+            EXISTS (PostalCode) OR

+            EXISTS (Town) OR 

+            EXISTS (Region) OR  

+            EXISTS (Country);

+END_ENTITY;

+

+ENTITY IfcPreDefinedColour

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcDraughtingPreDefinedColour))

+ SUBTYPE OF (IfcPreDefinedItem);

+END_ENTITY;

+

+ENTITY IfcPreDefinedCurveFont

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcDraughtingPreDefinedCurveFont))

+ SUBTYPE OF (IfcPreDefinedItem);

+END_ENTITY;

+

+ENTITY IfcPreDefinedDimensionSymbol

+ SUBTYPE OF (IfcPreDefinedSymbol);

+ WHERE

+	WR31 : SELF\IfcPreDefinedItem.Name IN ['arc length','conical taper','counterbore',

+                  'countersink','depth','diameter','plus minus','radius',

+                  'slope','spherical diameter','spherical radius','square'];

+END_ENTITY;

+

+ENTITY IfcPreDefinedItem

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcPreDefinedColour

+	,IfcPreDefinedCurveFont

+	,IfcPreDefinedSymbol

+	,IfcPreDefinedTextFont));

+	Name : IfcLabel;

+END_ENTITY;

+

+ENTITY IfcPreDefinedPointMarkerSymbol

+ SUBTYPE OF (IfcPreDefinedSymbol);

+ WHERE

+	WR31 : SELF\IfcPreDefinedItem.Name IN ['asterisk','circle','dot','plus','square','triangle','x'];

+END_ENTITY;

+

+ENTITY IfcPreDefinedSymbol

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcPreDefinedDimensionSymbol

+	,IfcPreDefinedPointMarkerSymbol

+	,IfcPreDefinedTerminatorSymbol))

+ SUBTYPE OF (IfcPreDefinedItem);

+END_ENTITY;

+

+ENTITY IfcPreDefinedTerminatorSymbol

+ SUBTYPE OF (IfcPreDefinedSymbol);

+ WHERE

+	WR31 : SELF\IfcPreDefinedItem.Name IN ['blanked arrow','blanked box',

+                 'blanked dot','dimension origin','filled arrow','filled box',

+                 'filled dot','integral symbol','open arrow','slash','unfilled arrow'];

+END_ENTITY;

+

+ENTITY IfcPreDefinedTextFont

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcDraughtingPreDefinedTextFont

+	,IfcTextStyleFontModel))

+ SUBTYPE OF (IfcPreDefinedItem);

+END_ENTITY;

+

+ENTITY IfcPresentationLayerAssignment

+ SUPERTYPE OF (ONEOF

+	(IfcPresentationLayerWithStyle));

+	Name : IfcLabel;

+	Description : OPTIONAL IfcText;

+	AssignedItems : SET [1:?] OF IfcLayeredItem;

+	Identifier : OPTIONAL IfcIdentifier;

+END_ENTITY;

+

+ENTITY IfcPresentationLayerWithStyle

+ SUBTYPE OF (IfcPresentationLayerAssignment);

+	LayerOn : LOGICAL;

+	LayerFrozen : LOGICAL;

+	LayerBlocked : LOGICAL;

+	LayerStyles : SET [0:?] OF IfcPresentationStyleSelect;

+END_ENTITY;

+

+ENTITY IfcPresentationStyle

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcCurveStyle

+	,IfcFillAreaStyle

+	,IfcSurfaceStyle

+	,IfcSymbolStyle

+	,IfcTextStyle));

+	Name : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcPresentationStyleAssignment;

+	Styles : SET [1:?] OF IfcPresentationStyleSelect;

+END_ENTITY;

+

+ENTITY IfcProcedure

+ SUBTYPE OF (IfcProcess);

+	ProcedureID : IfcIdentifier;

+	ProcedureType : IfcProcedureTypeEnum;

+	UserDefinedProcedureType : OPTIONAL IfcLabel;

+ WHERE

+	WR1 : SIZEOF(QUERY(temp <* SELF\IfcObjectDefinition.Decomposes | NOT('IFC2X3.IFCRELNESTS' IN TYPEOF(temp)))) = 0;

+	WR2 : SIZEOF(QUERY(temp <* SELF\IfcObjectDefinition.IsDecomposedBy | NOT('IFC2X3.IFCRELNESTS' IN TYPEOF(temp)))) = 0;

+	WR3 : EXISTS(SELF\IfcRoot.Name);

+	WR4 : (ProcedureType <> IfcProcedureTypeEnum.USERDEFINED) OR

+            ((ProcedureType = IfcProcedureTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcProcedure.UserDefinedProcedureType));

+END_ENTITY;

+

+ENTITY IfcProcess

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcProcedure

+	,IfcTask))

+ SUBTYPE OF (IfcObject);

+ INVERSE

+	OperatesOn : SET [0:?] OF IfcRelAssignsToProcess FOR RelatingProcess;

+	IsSuccessorFrom : SET [0:?] OF IfcRelSequence FOR RelatedProcess;

+	IsPredecessorTo : SET [0:?] OF IfcRelSequence FOR RelatingProcess;

+END_ENTITY;

+

+ENTITY IfcProduct

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcAnnotation

+	,IfcElement

+	,IfcGrid

+	,IfcPort

+	,IfcProxy

+	,IfcSpatialStructureElement

+	,IfcStructuralActivity

+	,IfcStructuralItem))

+ SUBTYPE OF (IfcObject);

+	ObjectPlacement : OPTIONAL IfcObjectPlacement;

+	Representation : OPTIONAL IfcProductRepresentation;

+ INVERSE

+	ReferencedBy : SET [0:?] OF IfcRelAssignsToProduct FOR RelatingProduct;

+ WHERE

+	WR1 : (EXISTS(Representation) AND EXISTS(ObjectPlacement))

+                        OR (EXISTS(Representation) AND 

+                           (NOT('IFC2X3.IFCPRODUCTDEFINITIONSHAPE' IN TYPEOF(Representation))))

+                        OR (NOT(EXISTS(Representation)));

+END_ENTITY;

+

+ENTITY IfcProductDefinitionShape

+ SUBTYPE OF (IfcProductRepresentation);

+ INVERSE

+	ShapeOfProduct : SET [1:1] OF IfcProduct FOR Representation;

+	HasShapeAspects : SET [0:?] OF IfcShapeAspect FOR PartOfProductDefinitionShape;

+ WHERE

+	WR11 : SIZEOF(QUERY(temp <* Representations | 

+               (NOT('IFC2X3.IFCSHAPEMODEL' IN TYPEOF(temp)))

+             )) = 0;

+END_ENTITY;

+

+ENTITY IfcProductRepresentation

+ SUPERTYPE OF (ONEOF

+	(IfcMaterialDefinitionRepresentation

+	,IfcProductDefinitionShape));

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+	Representations : LIST [1:?] OF IfcRepresentation;

+END_ENTITY;

+

+ENTITY IfcProductsOfCombustionProperties

+ SUBTYPE OF (IfcMaterialProperties);

+	SpecificHeatCapacity : OPTIONAL IfcSpecificHeatCapacityMeasure;

+	N20Content : OPTIONAL IfcPositiveRatioMeasure;

+	COContent : OPTIONAL IfcPositiveRatioMeasure;

+	CO2Content : OPTIONAL IfcPositiveRatioMeasure;

+ UNIQUE

+	UR11 : Material;

+END_ENTITY;

+

+ENTITY IfcProfileDef

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcArbitraryClosedProfileDef

+	,IfcArbitraryOpenProfileDef

+	,IfcCompositeProfileDef

+	,IfcDerivedProfileDef

+	,IfcParameterizedProfileDef));

+	ProfileType : IfcProfileTypeEnum;

+	ProfileName : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcProfileProperties

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcGeneralProfileProperties

+	,IfcRibPlateProfileProperties));

+	ProfileName : OPTIONAL IfcLabel;

+	ProfileDefinition : OPTIONAL IfcProfileDef;

+END_ENTITY;

+

+ENTITY IfcProject

+ SUBTYPE OF (IfcObject);

+	LongName : OPTIONAL IfcLabel;

+	Phase : OPTIONAL IfcLabel;

+	RepresentationContexts : SET [1:?] OF IfcRepresentationContext;

+	UnitsInContext : IfcUnitAssignment;

+ WHERE

+	WR31 : EXISTS(SELF\IfcRoot.Name);

+	WR32 : SIZEOF(QUERY(Temp <* RepresentationContexts |

+              'IFC2X3.IFCGEOMETRICREPRESENTATIONSUBCONTEXT' IN TYPEOF(Temp)

+             )) = 0;

+	WR33 : SIZEOF(SELF\IfcObjectDefinition.Decomposes) = 0;

+END_ENTITY;

+

+ENTITY IfcProjectOrder

+ SUBTYPE OF (IfcControl);

+	ID : IfcIdentifier;

+	PredefinedType : IfcProjectOrderTypeEnum;

+	Status : OPTIONAL IfcLabel;

+ UNIQUE

+	UR2 : ID;

+END_ENTITY;

+

+ENTITY IfcProjectOrderRecord

+ SUBTYPE OF (IfcControl);

+	Records : LIST [1:?] OF UNIQUE IfcRelAssignsToProjectOrder;

+	PredefinedType : IfcProjectOrderRecordTypeEnum;

+END_ENTITY;

+

+ENTITY IfcProjectionCurve

+ SUBTYPE OF (IfcAnnotationCurveOccurrence);

+END_ENTITY;

+

+ENTITY IfcProjectionElement

+ SUBTYPE OF (IfcFeatureElementAddition);

+END_ENTITY;

+

+ENTITY IfcProperty

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcComplexProperty

+	,IfcSimpleProperty));

+	Name : IfcIdentifier;

+	Description : OPTIONAL IfcText;

+ INVERSE

+	PropertyForDependance : SET [0:?] OF IfcPropertyDependencyRelationship FOR DependingProperty;

+	PropertyDependsOn : SET [0:?] OF IfcPropertyDependencyRelationship FOR DependantProperty;

+	PartOfComplex : SET [0:1] OF IfcComplexProperty FOR HasProperties;

+END_ENTITY;

+

+ENTITY IfcPropertyBoundedValue

+ SUBTYPE OF (IfcSimpleProperty);

+	UpperBoundValue : OPTIONAL IfcValue;

+	LowerBoundValue : OPTIONAL IfcValue;

+	Unit : OPTIONAL IfcUnit;

+ WHERE

+	WR21 : NOT(EXISTS(UpperBoundValue)) OR NOT(EXISTS(LowerBoundValue)) OR

+             (TYPEOF(UpperBoundValue) = TYPEOF(LowerBoundValue));

+	WR22 : EXISTS(UpperBoundValue) OR EXISTS(LowerBoundValue);

+END_ENTITY;

+

+ENTITY IfcPropertyConstraintRelationship;

+	RelatingConstraint : IfcConstraint;

+	RelatedProperties : SET [1:?] OF IfcProperty;

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+END_ENTITY;

+

+ENTITY IfcPropertyDefinition

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcPropertySetDefinition))

+ SUBTYPE OF (IfcRoot);

+ INVERSE

+	HasAssociations : SET [0:?] OF IfcRelAssociates FOR RelatedObjects;

+END_ENTITY;

+

+ENTITY IfcPropertyDependencyRelationship;

+	DependingProperty : IfcProperty;

+	DependantProperty : IfcProperty;

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+	Expression : OPTIONAL IfcText;

+ WHERE

+	WR1 : DependingProperty :<>: DependantProperty;

+END_ENTITY;

+

+ENTITY IfcPropertyEnumeratedValue

+ SUBTYPE OF (IfcSimpleProperty);

+	EnumerationValues : LIST [1:?] OF IfcValue;

+	EnumerationReference : OPTIONAL IfcPropertyEnumeration;

+ WHERE

+	WR1 : NOT(EXISTS(EnumerationReference)) OR 

+               (SIZEOF(QUERY(temp <* EnumerationValues |

+                temp IN EnumerationReference.EnumerationValues))

+                = SIZEOF(EnumerationValues));

+END_ENTITY;

+

+ENTITY IfcPropertyEnumeration;

+	Name : IfcLabel;

+	EnumerationValues : LIST [1:?] OF UNIQUE IfcValue;

+	Unit : OPTIONAL IfcUnit;

+ UNIQUE

+	UR1 : Name;

+ WHERE

+	WR01 : SIZEOF(QUERY(temp <* SELF.EnumerationValues | 

+               NOT(TYPEOF(SELF.EnumerationValues[1]) = TYPEOF(temp))

+               )) = 0;

+END_ENTITY;

+

+ENTITY IfcPropertyListValue

+ SUBTYPE OF (IfcSimpleProperty);

+	ListValues : LIST [1:?] OF IfcValue;

+	Unit : OPTIONAL IfcUnit;

+ WHERE

+	WR31 : SIZEOF(QUERY(temp <* SELF.ListValues | 

+               NOT(TYPEOF(SELF.ListValues[1]) = TYPEOF(temp))

+               )) = 0;

+END_ENTITY;

+

+ENTITY IfcPropertyReferenceValue

+ SUBTYPE OF (IfcSimpleProperty);

+	UsageName : OPTIONAL IfcLabel;

+	PropertyReference : IfcObjectReferenceSelect;

+END_ENTITY;

+

+ENTITY IfcPropertySet

+ SUBTYPE OF (IfcPropertySetDefinition);

+	HasProperties : SET [1:?] OF IfcProperty;

+ WHERE

+	WR31 : EXISTS(SELF\IfcRoot.Name);

+	WR32 : IfcUniquePropertyName(HasProperties);

+END_ENTITY;

+

+ENTITY IfcPropertySetDefinition

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcDoorLiningProperties

+	,IfcDoorPanelProperties

+	,IfcElementQuantity

+	,IfcEnergyProperties

+	,IfcFluidFlowProperties

+	,IfcPermeableCoveringProperties

+	,IfcPropertySet

+	,IfcReinforcementDefinitionProperties

+	,IfcServiceLifeFactor

+	,IfcSoundProperties

+	,IfcSoundValue

+	,IfcSpaceThermalLoadProperties

+	,IfcWindowLiningProperties

+	,IfcWindowPanelProperties))

+ SUBTYPE OF (IfcPropertyDefinition);

+ INVERSE

+	PropertyDefinitionOf : SET [0:1] OF IfcRelDefinesByProperties FOR RelatingPropertyDefinition;

+	DefinesType : SET [0:1] OF IfcTypeObject FOR HasPropertySets;

+END_ENTITY;

+

+ENTITY IfcPropertySingleValue

+ SUBTYPE OF (IfcSimpleProperty);

+	NominalValue : OPTIONAL IfcValue;

+	Unit : OPTIONAL IfcUnit;

+END_ENTITY;

+

+ENTITY IfcPropertyTableValue

+ SUBTYPE OF (IfcSimpleProperty);

+	DefiningValues : LIST [1:?] OF UNIQUE IfcValue;

+	DefinedValues : LIST [1:?] OF IfcValue;

+	Expression : OPTIONAL IfcText;

+	DefiningUnit : OPTIONAL IfcUnit;

+	DefinedUnit : OPTIONAL IfcUnit;

+ WHERE

+	WR1 : SIZEOF(DefiningValues) = SIZEOF(DefinedValues);

+	WR2 : SIZEOF(QUERY(temp <* SELF.DefiningValues | TYPEOF(temp) <> TYPEOF(SELF.DefiningValues[1])))=0;

+	WR3 : SIZEOF(QUERY(temp <* SELF.DefinedValues | TYPEOF(temp) <> TYPEOF(SELF.DefinedValues[1])))=0;

+END_ENTITY;

+

+ENTITY IfcProtectiveDeviceType

+ SUBTYPE OF (IfcFlowControllerType);

+	PredefinedType : IfcProtectiveDeviceTypeEnum;

+END_ENTITY;

+

+ENTITY IfcProxy

+ SUBTYPE OF (IfcProduct);

+	ProxyType : IfcObjectTypeEnum;

+	Tag : OPTIONAL IfcLabel;

+ WHERE

+	WR1 : EXISTS(SELF\IfcRoot.Name);

+END_ENTITY;

+

+ENTITY IfcPumpType

+ SUBTYPE OF (IfcFlowMovingDeviceType);

+	PredefinedType : IfcPumpTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcPumpTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcPumpTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcQuantityArea

+ SUBTYPE OF (IfcPhysicalSimpleQuantity);

+	AreaValue : IfcAreaMeasure;

+ WHERE

+	WR21 : NOT(EXISTS(SELF\IfcPhysicalSimpleQuantity.Unit)) OR

+                (SELF\IfcPhysicalSimpleQuantity.Unit.UnitType = IfcUnitEnum.AREAUNIT);

+	WR22 : AreaValue >= 0.;

+END_ENTITY;

+

+ENTITY IfcQuantityCount

+ SUBTYPE OF (IfcPhysicalSimpleQuantity);

+	CountValue : IfcCountMeasure;

+ WHERE

+	WR21 : CountValue >= 0.;

+END_ENTITY;

+

+ENTITY IfcQuantityLength

+ SUBTYPE OF (IfcPhysicalSimpleQuantity);

+	LengthValue : IfcLengthMeasure;

+ WHERE

+	WR21 : NOT(EXISTS(SELF\IfcPhysicalSimpleQuantity.Unit)) OR

+                (SELF\IfcPhysicalSimpleQuantity.Unit.UnitType = IfcUnitEnum.LENGTHUNIT);

+	WR22 : LengthValue >= 0.;

+END_ENTITY;

+

+ENTITY IfcQuantityTime

+ SUBTYPE OF (IfcPhysicalSimpleQuantity);

+	TimeValue : IfcTimeMeasure;

+ WHERE

+	WR21 : NOT(EXISTS(SELF\IfcPhysicalSimpleQuantity.Unit)) OR

+                (SELF\IfcPhysicalSimpleQuantity.Unit.UnitType = IfcUnitEnum.TIMEUNIT);

+	WR22 : TimeValue >= 0.;

+END_ENTITY;

+

+ENTITY IfcQuantityVolume

+ SUBTYPE OF (IfcPhysicalSimpleQuantity);

+	VolumeValue : IfcVolumeMeasure;

+ WHERE

+	WR21 : NOT(EXISTS(SELF\IfcPhysicalSimpleQuantity.Unit)) OR

+                (SELF\IfcPhysicalSimpleQuantity.Unit.UnitType = IfcUnitEnum.VOLUMEUNIT);

+	WR22 : VolumeValue >= 0.;

+END_ENTITY;

+

+ENTITY IfcQuantityWeight

+ SUBTYPE OF (IfcPhysicalSimpleQuantity);

+	WeightValue : IfcMassMeasure;

+ WHERE

+	WR21 : NOT(EXISTS(SELF\IfcPhysicalSimpleQuantity.Unit)) OR

+                (SELF\IfcPhysicalSimpleQuantity.Unit.UnitType = IfcUnitEnum.MASSUNIT);

+	WR22 : WeightValue >= 0.;

+END_ENTITY;

+

+ENTITY IfcRadiusDimension

+ SUBTYPE OF (IfcDimensionCurveDirectedCallout);

+END_ENTITY;

+

+ENTITY IfcRailing

+ SUBTYPE OF (IfcBuildingElement);

+	PredefinedType : OPTIONAL IfcRailingTypeEnum;

+END_ENTITY;

+

+ENTITY IfcRailingType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcRailingTypeEnum;

+END_ENTITY;

+

+ENTITY IfcRamp

+ SUBTYPE OF (IfcBuildingElement);

+	ShapeType : IfcRampTypeEnum;

+ WHERE

+	WR1 : (HIINDEX(SELF\IfcObjectDefinition.IsDecomposedBy) = 0) OR 

+            ((HIINDEX(SELF\IfcObjectDefinition.IsDecomposedBy) = 1) AND (NOT(EXISTS(SELF\IfcProduct.Representation))));

+END_ENTITY;

+

+ENTITY IfcRampFlight

+ SUBTYPE OF (IfcBuildingElement);

+END_ENTITY;

+

+ENTITY IfcRampFlightType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcRampFlightTypeEnum;

+END_ENTITY;

+

+ENTITY IfcRationalBezierCurve

+ SUBTYPE OF (IfcBezierCurve);

+	WeightsData : LIST [2:?] OF REAL;

+ DERIVE

+	Weights : ARRAY [0:255] OF REAL := IfcListToArray(WeightsData,0,SELF\IfcBSplineCurve.UpperIndexOnControlPoints);

+ WHERE

+	WR1 : SIZEOF(WeightsData) = SIZEOF(SELF\IfcBSplineCurve.ControlPointsList);

+	WR2 : IfcCurveWeightsPositive(SELF);

+END_ENTITY;

+

+ENTITY IfcRectangleHollowProfileDef

+ SUBTYPE OF (IfcRectangleProfileDef);

+	WallThickness : IfcPositiveLengthMeasure;

+	InnerFilletRadius : OPTIONAL IfcPositiveLengthMeasure;

+	OuterFilletRadius : OPTIONAL IfcPositiveLengthMeasure;

+ WHERE

+	WR31 : (WallThickness < (SELF\IfcRectangleProfileDef.XDim/2.)) AND 

+             (WallThickness < (SELF\IfcRectangleProfileDef.YDim/2.));

+	WR32 : NOT(EXISTS(OuterFilletRadius)) OR 

+             ((OuterFilletRadius <= (SELF\IfcRectangleProfileDef.XDim/2.)) AND 

+              (OuterFilletRadius <= (SELF\IfcRectangleProfileDef.YDim/2.)));

+	WR33 : NOT(EXISTS(InnerFilletRadius)) OR 

+             ((InnerFilletRadius <= (SELF\IfcRectangleProfileDef.XDim/2. - WallThickness)) AND 

+              (InnerFilletRadius <= (SELF\IfcRectangleProfileDef.YDim/2. - WallThickness)));

+END_ENTITY;

+

+ENTITY IfcRectangleProfileDef

+ SUPERTYPE OF (ONEOF

+	(IfcRectangleHollowProfileDef

+	,IfcRoundedRectangleProfileDef))

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	XDim : IfcPositiveLengthMeasure;

+	YDim : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcRectangularPyramid

+ SUBTYPE OF (IfcCsgPrimitive3D);

+	XLength : IfcPositiveLengthMeasure;

+	YLength : IfcPositiveLengthMeasure;

+	Height : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcRectangularTrimmedSurface

+ SUBTYPE OF (IfcBoundedSurface);

+	BasisSurface : IfcSurface;

+	U1 : IfcParameterValue;

+	V1 : IfcParameterValue;

+	U2 : IfcParameterValue;

+	V2 : IfcParameterValue;

+	Usense : BOOLEAN;

+	Vsense : BOOLEAN;

+ DERIVE

+	Dim : IfcDimensionCount := BasisSurface.Dim;

+ WHERE

+	WR1 : U1 <> U2;

+	WR2 : V1 <> V2;

+	WR3 : (('IFC2X3.IFCELEMENTARYSURFACE' IN TYPEOF(BasisSurface)) AND

+                     (NOT ('IFC2X3.IFCPLANE' IN TYPEOF(BasisSurface)))) OR

+                     ('IFC2X3.IFCSURFACEOFREVOLUTION' IN TYPEOF(BasisSurface)) OR

+                     (Usense = (U2 > U1));

+	WR4 : Vsense = (V2 > V1);

+END_ENTITY;

+

+ENTITY IfcReferencesValueDocument;

+	ReferencedDocument : IfcDocumentSelect;

+	ReferencingValues : SET [1:?] OF IfcAppliedValue;

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+END_ENTITY;

+

+ENTITY IfcRegularTimeSeries

+ SUBTYPE OF (IfcTimeSeries);

+	TimeStep : IfcTimeMeasure;

+	Values : LIST [1:?] OF IfcTimeSeriesValue;

+END_ENTITY;

+

+ENTITY IfcReinforcementBarProperties;

+	TotalCrossSectionArea : IfcAreaMeasure;

+	SteelGrade : IfcLabel;

+	BarSurface : OPTIONAL IfcReinforcingBarSurfaceEnum;

+	EffectiveDepth : OPTIONAL IfcLengthMeasure;

+	NominalBarDiameter : OPTIONAL IfcPositiveLengthMeasure;

+	BarCount : OPTIONAL IfcCountMeasure;

+END_ENTITY;

+

+ENTITY IfcReinforcementDefinitionProperties

+ SUBTYPE OF (IfcPropertySetDefinition);

+	DefinitionType : OPTIONAL IfcLabel;

+	ReinforcementSectionDefinitions : LIST [1:?] OF IfcSectionReinforcementProperties;

+END_ENTITY;

+

+ENTITY IfcReinforcingBar

+ SUBTYPE OF (IfcReinforcingElement);

+	NominalDiameter : IfcPositiveLengthMeasure;

+	CrossSectionArea : IfcAreaMeasure;

+	BarLength : OPTIONAL IfcPositiveLengthMeasure;

+	BarRole : IfcReinforcingBarRoleEnum;

+	BarSurface : OPTIONAL IfcReinforcingBarSurfaceEnum;

+ WHERE

+	WR1 : (BarRole <> IfcReinforcingBarRoleEnum.USERDEFINED) OR ((BarRole = IfcReinforcingBarRoleEnum.USERDEFINED) AND EXISTS(SELF\IfcObject.ObjectType));

+END_ENTITY;

+

+ENTITY IfcReinforcingElement

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcReinforcingBar

+	,IfcReinforcingMesh

+	,IfcTendon

+	,IfcTendonAnchor))

+ SUBTYPE OF (IfcBuildingElementComponent);

+	SteelGrade : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcReinforcingMesh

+ SUBTYPE OF (IfcReinforcingElement);

+	MeshLength : OPTIONAL IfcPositiveLengthMeasure;

+	MeshWidth : OPTIONAL IfcPositiveLengthMeasure;

+	LongitudinalBarNominalDiameter : IfcPositiveLengthMeasure;

+	TransverseBarNominalDiameter : IfcPositiveLengthMeasure;

+	LongitudinalBarCrossSectionArea : IfcAreaMeasure;

+	TransverseBarCrossSectionArea : IfcAreaMeasure;

+	LongitudinalBarSpacing : IfcPositiveLengthMeasure;

+	TransverseBarSpacing : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcRelAggregates

+ SUBTYPE OF (IfcRelDecomposes);

+END_ENTITY;

+

+ENTITY IfcRelAssigns

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcRelAssignsToActor

+	,IfcRelAssignsToControl

+	,IfcRelAssignsToGroup

+	,IfcRelAssignsToProcess

+	,IfcRelAssignsToProduct

+	,IfcRelAssignsToResource))

+ SUBTYPE OF (IfcRelationship);

+	RelatedObjects : SET [1:?] OF IfcObjectDefinition;

+	RelatedObjectsType : OPTIONAL IfcObjectTypeEnum;

+ WHERE

+	WR1 : IfcCorrectObjectAssignment(RelatedObjectsType, RelatedObjects);

+END_ENTITY;

+

+ENTITY IfcRelAssignsTasks

+ SUBTYPE OF (IfcRelAssignsToControl);

+	TimeForTask : OPTIONAL IfcScheduleTimeControl;

+ WHERE

+	WR1 : HIINDEX(SELF\IfcRelAssigns.RelatedObjects) = 1;

+	WR2 : 'IFC2X3.IFCTASK' IN TYPEOF(SELF\IfcRelAssigns.RelatedObjects[1]);

+	WR3 : 'IFC2X3.IFCWORKCONTROL' IN TYPEOF(SELF\IfcRelAssignsToControl.RelatingControl);

+END_ENTITY;

+

+ENTITY IfcRelAssignsToActor

+ SUPERTYPE OF (ONEOF

+	(IfcRelOccupiesSpaces))

+ SUBTYPE OF (IfcRelAssigns);

+	RelatingActor : IfcActor;

+	ActingRole : OPTIONAL IfcActorRole;

+ WHERE

+	WR1 : SIZEOF(QUERY(Temp <* SELF\IfcRelAssigns.RelatedObjects | RelatingActor :=: Temp)) = 0;

+END_ENTITY;

+

+ENTITY IfcRelAssignsToControl

+ SUPERTYPE OF (ONEOF

+	(IfcRelAssignsTasks

+	,IfcRelAssignsToProjectOrder

+	,IfcRelSchedulesCostItems))

+ SUBTYPE OF (IfcRelAssigns);

+	RelatingControl : IfcControl;

+ WHERE

+	WR1 : SIZEOF(QUERY(Temp <* SELF\IfcRelAssigns.RelatedObjects | RelatingControl :=: Temp)) = 0;

+END_ENTITY;

+

+ENTITY IfcRelAssignsToGroup

+ SUBTYPE OF (IfcRelAssigns);

+	RelatingGroup : IfcGroup;

+ WHERE

+	WR1 : SIZEOF(QUERY(Temp <* SELF\IfcRelAssigns.RelatedObjects | RelatingGroup :=: Temp)) = 0;

+END_ENTITY;

+

+ENTITY IfcRelAssignsToProcess

+ SUBTYPE OF (IfcRelAssigns);

+	RelatingProcess : IfcProcess;

+	QuantityInProcess : OPTIONAL IfcMeasureWithUnit;

+ WHERE

+	WR1 : SIZEOF(QUERY(Temp <* SELF\IfcRelAssigns.RelatedObjects | RelatingProcess :=: Temp)) = 0;

+END_ENTITY;

+

+ENTITY IfcRelAssignsToProduct

+ SUBTYPE OF (IfcRelAssigns);

+	RelatingProduct : IfcProduct;

+ WHERE

+	WR1 : SIZEOF(QUERY(Temp <* SELF\IfcRelAssigns.RelatedObjects | RelatingProduct :=: Temp)) = 0;

+END_ENTITY;

+

+ENTITY IfcRelAssignsToProjectOrder

+ SUBTYPE OF (IfcRelAssignsToControl);

+END_ENTITY;

+

+ENTITY IfcRelAssignsToResource

+ SUBTYPE OF (IfcRelAssigns);

+	RelatingResource : IfcResource;

+ WHERE

+	WR1 : SIZEOF(QUERY(Temp <* SELF\IfcRelAssigns.RelatedObjects | RelatingResource :=: Temp)) = 0;

+END_ENTITY;

+

+ENTITY IfcRelAssociates

+ SUPERTYPE OF (ONEOF

+	(IfcRelAssociatesAppliedValue

+	,IfcRelAssociatesApproval

+	,IfcRelAssociatesClassification

+	,IfcRelAssociatesConstraint

+	,IfcRelAssociatesDocument

+	,IfcRelAssociatesLibrary

+	,IfcRelAssociatesMaterial

+	,IfcRelAssociatesProfileProperties))

+ SUBTYPE OF (IfcRelationship);

+	RelatedObjects : SET [1:?] OF IfcRoot;

+ WHERE

+	WR21 : SIZEOF(QUERY(temp <* RelatedObjects |

+              NOT(('IFC2X3.IFCOBJECTDEFINITION' IN TYPEOF(temp)) 

+               OR ('IFC2X3.IFCPROPERTYDEFINITION' IN TYPEOF(temp)))

+              )) = 0;

+END_ENTITY;

+

+ENTITY IfcRelAssociatesAppliedValue

+ SUBTYPE OF (IfcRelAssociates);

+	RelatingAppliedValue : IfcAppliedValue;

+END_ENTITY;

+

+ENTITY IfcRelAssociatesApproval

+ SUBTYPE OF (IfcRelAssociates);

+	RelatingApproval : IfcApproval;

+END_ENTITY;

+

+ENTITY IfcRelAssociatesClassification

+ SUBTYPE OF (IfcRelAssociates);

+	RelatingClassification : IfcClassificationNotationSelect;

+END_ENTITY;

+

+ENTITY IfcRelAssociatesConstraint

+ SUBTYPE OF (IfcRelAssociates);

+	Intent : IfcLabel;

+	RelatingConstraint : IfcConstraint;

+END_ENTITY;

+

+ENTITY IfcRelAssociatesDocument

+ SUBTYPE OF (IfcRelAssociates);

+	RelatingDocument : IfcDocumentSelect;

+END_ENTITY;

+

+ENTITY IfcRelAssociatesLibrary

+ SUBTYPE OF (IfcRelAssociates);

+	RelatingLibrary : IfcLibrarySelect;

+END_ENTITY;

+

+ENTITY IfcRelAssociatesMaterial

+ SUBTYPE OF (IfcRelAssociates);

+	RelatingMaterial : IfcMaterialSelect;

+ WHERE

+	WR21 : SIZEOF(QUERY(temp <* SELF\IfcRelAssociates.RelatedObjects | 

+             ('IFC2X3.IFCFEATUREELEMENTSUBTRACTION' IN TYPEOF(temp))

+               OR ('IFC2X3.IFCVIRTUALELEMENT' IN TYPEOF(temp))

+             )) = 0;

+	WR22 : SIZEOF(QUERY(temp <* SELF\IfcRelAssociates.RelatedObjects | 

+             (NOT('IFC2X3.IFCPRODUCT' IN TYPEOF(temp)) AND NOT('IFC2X3.IFCTYPEPRODUCT' IN TYPEOF(temp)))

+             )) = 0;

+END_ENTITY;

+

+ENTITY IfcRelAssociatesProfileProperties

+ SUBTYPE OF (IfcRelAssociates);

+	RelatingProfileProperties : IfcProfileProperties;

+	ProfileSectionLocation : OPTIONAL IfcShapeAspect;

+	ProfileOrientation : OPTIONAL IfcOrientationSelect;

+END_ENTITY;

+

+ENTITY IfcRelConnects

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcRelConnectsElements

+	,IfcRelConnectsPortToElement

+	,IfcRelConnectsPorts

+	,IfcRelConnectsStructuralActivity

+	,IfcRelConnectsStructuralElement

+	,IfcRelConnectsStructuralMember

+	,IfcRelContainedInSpatialStructure

+	,IfcRelCoversBldgElements

+	,IfcRelCoversSpaces

+	,IfcRelFillsElement

+	,IfcRelFlowControlElements

+	,IfcRelInteractionRequirements

+	,IfcRelProjectsElement

+	,IfcRelReferencedInSpatialStructure

+	,IfcRelSequence

+	,IfcRelServicesBuildings

+	,IfcRelSpaceBoundary

+	,IfcRelVoidsElement))

+ SUBTYPE OF (IfcRelationship);

+END_ENTITY;

+

+ENTITY IfcRelConnectsElements

+ SUPERTYPE OF (ONEOF

+	(IfcRelConnectsPathElements

+	,IfcRelConnectsWithRealizingElements))

+ SUBTYPE OF (IfcRelConnects);

+	ConnectionGeometry : OPTIONAL IfcConnectionGeometry;

+	RelatingElement : IfcElement;

+	RelatedElement : IfcElement;

+ WHERE

+	WR31 : RelatingElement :<>: RelatedElement;

+END_ENTITY;

+

+ENTITY IfcRelConnectsPathElements

+ SUBTYPE OF (IfcRelConnectsElements);

+	RelatingPriorities : LIST [0:?] OF INTEGER;

+	RelatedPriorities : LIST [0:?] OF INTEGER;

+	RelatedConnectionType : IfcConnectionTypeEnum;

+	RelatingConnectionType : IfcConnectionTypeEnum;

+ DERIVE

+	RelatedLayerCount : INTEGER := IfcNoOfLayers(SELF\IfcRelConnectsElements.RelatedElement);

+	RelatingLayerCount : INTEGER := IfcNoOfLayers(SELF\IfcRelConnectsElements.RelatingElement);

+END_ENTITY;

+

+ENTITY IfcRelConnectsPortToElement

+ SUBTYPE OF (IfcRelConnects);

+	RelatingPort : IfcPort;

+	RelatedElement : IfcElement;

+END_ENTITY;

+

+ENTITY IfcRelConnectsPorts

+ SUBTYPE OF (IfcRelConnects);

+	RelatingPort : IfcPort;

+	RelatedPort : IfcPort;

+	RealizingElement : OPTIONAL IfcElement;

+END_ENTITY;

+

+ENTITY IfcRelConnectsStructuralActivity

+ SUBTYPE OF (IfcRelConnects);

+	RelatingElement : IfcStructuralActivityAssignmentSelect;

+	RelatedStructuralActivity : IfcStructuralActivity;

+END_ENTITY;

+

+ENTITY IfcRelConnectsStructuralElement

+ SUBTYPE OF (IfcRelConnects);

+	RelatingElement : IfcElement;

+	RelatedStructuralMember : IfcStructuralMember;

+END_ENTITY;

+

+ENTITY IfcRelConnectsStructuralMember

+ SUPERTYPE OF (ONEOF

+	(IfcRelConnectsWithEccentricity))

+ SUBTYPE OF (IfcRelConnects);

+	RelatingStructuralMember : IfcStructuralMember;

+	RelatedStructuralConnection : IfcStructuralConnection;

+	AppliedCondition : OPTIONAL IfcBoundaryCondition;

+	AdditionalConditions : OPTIONAL IfcStructuralConnectionCondition;

+	SupportedLength : OPTIONAL IfcLengthMeasure;

+	ConditionCoordinateSystem : OPTIONAL IfcAxis2Placement3D;

+END_ENTITY;

+

+ENTITY IfcRelConnectsWithEccentricity

+ SUBTYPE OF (IfcRelConnectsStructuralMember);

+	ConnectionConstraint : IfcConnectionGeometry;

+END_ENTITY;

+

+ENTITY IfcRelConnectsWithRealizingElements

+ SUBTYPE OF (IfcRelConnectsElements);

+	RealizingElements : SET [1:?] OF IfcElement;

+	ConnectionType : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcRelContainedInSpatialStructure

+ SUBTYPE OF (IfcRelConnects);

+	RelatedElements : SET [1:?] OF IfcProduct;

+	RelatingStructure : IfcSpatialStructureElement;

+ WHERE

+	WR31 : SIZEOF(QUERY(temp <* RelatedElements | 'IFC2X3.IFCSPATIALSTRUCTUREELEMENT' IN TYPEOF(temp))) = 0;

+END_ENTITY;

+

+ENTITY IfcRelCoversBldgElements

+ SUBTYPE OF (IfcRelConnects);

+	RelatingBuildingElement : IfcElement;

+	RelatedCoverings : SET [1:?] OF IfcCovering;

+END_ENTITY;

+

+ENTITY IfcRelCoversSpaces

+ SUBTYPE OF (IfcRelConnects);

+	RelatedSpace : IfcSpace;

+	RelatedCoverings : SET [1:?] OF IfcCovering;

+END_ENTITY;

+

+ENTITY IfcRelDecomposes

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcRelAggregates

+	,IfcRelNests))

+ SUBTYPE OF (IfcRelationship);

+	RelatingObject : IfcObjectDefinition;

+	RelatedObjects : SET [1:?] OF IfcObjectDefinition;

+ WHERE

+	WR31 : SIZEOF(QUERY(Temp <* RelatedObjects | RelatingObject :=: Temp)) = 0;

+	WR32 : SIZEOF(QUERY(Temp <* RelatedObjects | 'IFC2X3.IFCTYPEOBJECT' IN TYPEOF(temp))) = 0;

+	WR33 : NOT('IFC2X3.IFCTYPEOBJECT' IN TYPEOF(RelatingObject));

+END_ENTITY;

+

+ENTITY IfcRelDefines

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcRelDefinesByProperties

+	,IfcRelDefinesByType))

+ SUBTYPE OF (IfcRelationship);

+	RelatedObjects : SET [1:?] OF IfcObject;

+END_ENTITY;

+

+ENTITY IfcRelDefinesByProperties

+ SUPERTYPE OF (ONEOF

+	(IfcRelOverridesProperties))

+ SUBTYPE OF (IfcRelDefines);

+	RelatingPropertyDefinition : IfcPropertySetDefinition;

+END_ENTITY;

+

+ENTITY IfcRelDefinesByType

+ SUBTYPE OF (IfcRelDefines);

+	RelatingType : IfcTypeObject;

+END_ENTITY;

+

+ENTITY IfcRelFillsElement

+ SUBTYPE OF (IfcRelConnects);

+	RelatingOpeningElement : IfcOpeningElement;

+	RelatedBuildingElement : IfcElement;

+END_ENTITY;

+

+ENTITY IfcRelFlowControlElements

+ SUBTYPE OF (IfcRelConnects);

+	RelatedControlElements : SET [1:?] OF IfcDistributionControlElement;

+	RelatingFlowElement : IfcDistributionFlowElement;

+END_ENTITY;

+

+ENTITY IfcRelInteractionRequirements

+ SUBTYPE OF (IfcRelConnects);

+	DailyInteraction : OPTIONAL IfcCountMeasure;

+	ImportanceRating : OPTIONAL IfcNormalisedRatioMeasure;

+	LocationOfInteraction : OPTIONAL IfcSpatialStructureElement;

+	RelatedSpaceProgram : IfcSpaceProgram;

+	RelatingSpaceProgram : IfcSpaceProgram;

+END_ENTITY;

+

+ENTITY IfcRelNests

+ SUBTYPE OF (IfcRelDecomposes);

+ WHERE

+	WR1 : SIZEOF(QUERY(Temp <* SELF\IfcRelDecomposes.RelatedObjects | 

+              NOT(TYPEOF(SELF\IfcRelDecomposes.RelatingObject) = TYPEOF(Temp)))) = 0;

+END_ENTITY;

+

+ENTITY IfcRelOccupiesSpaces

+ SUBTYPE OF (IfcRelAssignsToActor);

+END_ENTITY;

+

+ENTITY IfcRelOverridesProperties

+ SUBTYPE OF (IfcRelDefinesByProperties);

+	OverridingProperties : SET [1:?] OF IfcProperty;

+ WHERE

+	WR1 : SIZEOF(SELF\IfcRelDefines.RelatedObjects) = 1;

+END_ENTITY;

+

+ENTITY IfcRelProjectsElement

+ SUBTYPE OF (IfcRelConnects);

+	RelatingElement : IfcElement;

+	RelatedFeatureElement : IfcFeatureElementAddition;

+END_ENTITY;

+

+ENTITY IfcRelReferencedInSpatialStructure

+ SUBTYPE OF (IfcRelConnects);

+	RelatedElements : SET [1:?] OF IfcProduct;

+	RelatingStructure : IfcSpatialStructureElement;

+ WHERE

+	WR31 : SIZEOF(QUERY(temp <* RelatedElements | 'IFC2X3.IFCSPATIALSTRUCTUREELEMENT' IN TYPEOF(temp))) = 0;

+END_ENTITY;

+

+ENTITY IfcRelSchedulesCostItems

+ SUBTYPE OF (IfcRelAssignsToControl);

+ WHERE

+	WR11 : SIZEOF(QUERY(temp <* SELF\IfcRelAssigns.RelatedObjects |

+               NOT('IFC2X3.IFCCOSTITEM' IN TYPEOF(temp))

+               )) = 0;

+	WR12 : 'IFC2X3.IFCCOSTSCHEDULE' IN TYPEOF (SELF\IfcRelAssignsToControl.RelatingControl);

+END_ENTITY;

+

+ENTITY IfcRelSequence

+ SUBTYPE OF (IfcRelConnects);

+	RelatingProcess : IfcProcess;

+	RelatedProcess : IfcProcess;

+	TimeLag : IfcTimeMeasure;

+	SequenceType : IfcSequenceEnum;

+ WHERE

+	WR1 : RelatingProcess :<>: RelatedProcess;

+END_ENTITY;

+

+ENTITY IfcRelServicesBuildings

+ SUBTYPE OF (IfcRelConnects);

+	RelatingSystem : IfcSystem;

+	RelatedBuildings : SET [1:?] OF IfcSpatialStructureElement;

+END_ENTITY;

+

+ENTITY IfcRelSpaceBoundary

+ SUBTYPE OF (IfcRelConnects);

+	RelatingSpace : IfcSpace;

+	RelatedBuildingElement : OPTIONAL IfcElement;

+	ConnectionGeometry : OPTIONAL IfcConnectionGeometry;

+	PhysicalOrVirtualBoundary : IfcPhysicalOrVirtualEnum;

+	InternalOrExternalBoundary : IfcInternalOrExternalEnum;

+ WHERE

+	WR1 : ((PhysicalOrVirtualBoundary = IfcPhysicalOrVirtualEnum.Physical) AND 

+              (EXISTS(RelatedBuildingElement) AND NOT('IFC2X3.IFCVIRTUALELEMENT' IN TYPEOF(RelatedBuildingElement)))) 

+            OR 

+            ((PhysicalOrVirtualBoundary = IfcPhysicalOrVirtualEnum.Virtual) AND 

+              (NOT(EXISTS(RelatedBuildingElement)) OR ('IFC2X3.IFCVIRTUALELEMENT' IN TYPEOF(RelatedBuildingElement)))) 

+            OR 

+             (PhysicalOrVirtualBoundary = IfcPhysicalOrVirtualEnum.NotDefined);

+END_ENTITY;

+

+ENTITY IfcRelVoidsElement

+ SUBTYPE OF (IfcRelConnects);

+	RelatingBuildingElement : IfcElement;

+	RelatedOpeningElement : IfcFeatureElementSubtraction;

+END_ENTITY;

+

+ENTITY IfcRelationship

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcRelAssigns

+	,IfcRelAssociates

+	,IfcRelConnects

+	,IfcRelDecomposes

+	,IfcRelDefines))

+ SUBTYPE OF (IfcRoot);

+END_ENTITY;

+

+ENTITY IfcRelaxation;

+	RelaxationValue : IfcNormalisedRatioMeasure;

+	InitialStress : IfcNormalisedRatioMeasure;

+END_ENTITY;

+

+ENTITY IfcRepresentation

+ SUPERTYPE OF (ONEOF

+	(IfcShapeModel

+	,IfcStyleModel));

+	ContextOfItems : IfcRepresentationContext;

+	RepresentationIdentifier : OPTIONAL IfcLabel;

+	RepresentationType : OPTIONAL IfcLabel;

+	Items : SET [1:?] OF IfcRepresentationItem;

+ INVERSE

+	RepresentationMap : SET [0:1] OF IfcRepresentationMap FOR MappedRepresentation;

+	LayerAssignments : SET [0:?] OF IfcPresentationLayerAssignment FOR Assigneditems;

+	OfProductRepresentation : SET [0:1] OF IfcProductRepresentation FOR Representations;

+END_ENTITY;

+

+ENTITY IfcRepresentationContext

+ SUPERTYPE OF (ONEOF

+	(IfcGeometricRepresentationContext));

+	ContextIdentifier : OPTIONAL IfcLabel;

+	ContextType : OPTIONAL IfcLabel;

+ INVERSE

+	RepresentationsInContext : SET [0:?] OF IfcRepresentation FOR ContextOfItems;

+END_ENTITY;

+

+ENTITY IfcRepresentationItem

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcGeometricRepresentationItem

+	,IfcMappedItem

+	,IfcStyledItem

+	,IfcTopologicalRepresentationItem));

+ INVERSE

+	LayerAssignments : SET [0:?] OF IfcPresentationLayerAssignment FOR AssignedItems;

+	StyledByItem : SET [0:1] OF IfcStyledItem FOR Item;

+END_ENTITY;

+

+ENTITY IfcRepresentationMap;

+	MappingOrigin : IfcAxis2Placement;

+	MappedRepresentation : IfcRepresentation;

+ INVERSE

+	MapUsage : SET [0:?] OF IfcMappedItem FOR MappingSource;

+END_ENTITY;

+

+ENTITY IfcResource

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcConstructionResource))

+ SUBTYPE OF (IfcObject);

+ INVERSE

+	ResourceOf : SET [0:?] OF IfcRelAssignsToResource FOR RelatingResource;

+END_ENTITY;

+

+ENTITY IfcRevolvedAreaSolid

+ SUBTYPE OF (IfcSweptAreaSolid);

+	Axis : IfcAxis1Placement;

+	Angle : IfcPlaneAngleMeasure;

+ DERIVE

+	AxisLine : IfcLine := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcCurve() || IfcLine(Axis.Location, 

+                   IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector(Axis.Z,1.0));

+ WHERE

+	WR31 : Axis.Location.Coordinates[3] = 0.0;

+	WR32 : Axis.Z.DirectionRatios[3] = 0.0;

+END_ENTITY;

+

+ENTITY IfcRibPlateProfileProperties

+ SUBTYPE OF (IfcProfileProperties);

+	Thickness : OPTIONAL IfcPositiveLengthMeasure;

+	RibHeight : OPTIONAL IfcPositiveLengthMeasure;

+	RibWidth : OPTIONAL IfcPositiveLengthMeasure;

+	RibSpacing : OPTIONAL IfcPositiveLengthMeasure;

+	Direction : IfcRibPlateDirectionEnum;

+END_ENTITY;

+

+ENTITY IfcRightCircularCone

+ SUBTYPE OF (IfcCsgPrimitive3D);

+	Height : IfcPositiveLengthMeasure;

+	BottomRadius : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcRightCircularCylinder

+ SUBTYPE OF (IfcCsgPrimitive3D);

+	Height : IfcPositiveLengthMeasure;

+	Radius : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcRoof

+ SUBTYPE OF (IfcBuildingElement);

+	ShapeType : IfcRoofTypeEnum;

+ WHERE

+	WR1 : (HIINDEX(SELF\IfcObjectDefinition.IsDecomposedBy) = 0) OR 

+            ((HIINDEX(SELF\IfcObjectDefinition.IsDecomposedBy) = 1) AND (NOT(EXISTS(SELF\IfcProduct.Representation))));

+END_ENTITY;

+

+ENTITY IfcRoot

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcObjectDefinition

+	,IfcPropertyDefinition

+	,IfcRelationship));

+	GlobalId : IfcGloballyUniqueId;

+	OwnerHistory : IfcOwnerHistory;

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+ UNIQUE

+	UR1 : GlobalId;

+END_ENTITY;

+

+ENTITY IfcRoundedEdgeFeature

+ SUBTYPE OF (IfcEdgeFeature);

+	Radius : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcRoundedRectangleProfileDef

+ SUBTYPE OF (IfcRectangleProfileDef);

+	RoundingRadius : IfcPositiveLengthMeasure;

+ WHERE

+	WR31 : ((RoundingRadius <= (SELF\IfcRectangleProfileDef.XDim/2.)) AND 

+              (RoundingRadius <= (SELF\IfcRectangleProfileDef.YDim/2.)));

+END_ENTITY;

+

+ENTITY IfcSIUnit

+ SUBTYPE OF (IfcNamedUnit);

+	Prefix : OPTIONAL IfcSIPrefix;

+	Name : IfcSIUnitName;

+ DERIVE

+	SELF\IfcNamedUnit.Dimensions : IfcDimensionalExponents := IfcDimensionsForSiUnit (SELF.Name);

+END_ENTITY;

+

+ENTITY IfcSanitaryTerminalType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcSanitaryTerminalTypeEnum;

+END_ENTITY;

+

+ENTITY IfcScheduleTimeControl

+ SUBTYPE OF (IfcControl);

+	ActualStart : OPTIONAL IfcDateTimeSelect;

+	EarlyStart : OPTIONAL IfcDateTimeSelect;

+	LateStart : OPTIONAL IfcDateTimeSelect;

+	ScheduleStart : OPTIONAL IfcDateTimeSelect;

+	ActualFinish : OPTIONAL IfcDateTimeSelect;

+	EarlyFinish : OPTIONAL IfcDateTimeSelect;

+	LateFinish : OPTIONAL IfcDateTimeSelect;

+	ScheduleFinish : OPTIONAL IfcDateTimeSelect;

+	ScheduleDuration : OPTIONAL IfcTimeMeasure;

+	ActualDuration : OPTIONAL IfcTimeMeasure;

+	RemainingTime : OPTIONAL IfcTimeMeasure;

+	FreeFloat : OPTIONAL IfcTimeMeasure;

+	TotalFloat : OPTIONAL IfcTimeMeasure;

+	IsCritical : OPTIONAL BOOLEAN;

+	StatusTime : OPTIONAL IfcDateTimeSelect;

+	StartFloat : OPTIONAL IfcTimeMeasure;

+	FinishFloat : OPTIONAL IfcTimeMeasure;

+	Completion : OPTIONAL IfcPositiveRatioMeasure;

+ INVERSE

+	ScheduleTimeControlAssigned : IfcRelAssignsTasks FOR TimeForTask;

+END_ENTITY;

+

+ENTITY IfcSectionProperties;

+	SectionType : IfcSectionTypeEnum;

+	StartProfile : IfcProfileDef;

+	EndProfile : OPTIONAL IfcProfileDef;

+END_ENTITY;

+

+ENTITY IfcSectionReinforcementProperties;

+	LongitudinalStartPosition : IfcLengthMeasure;

+	LongitudinalEndPosition : IfcLengthMeasure;

+	TransversePosition : OPTIONAL IfcLengthMeasure;

+	ReinforcementRole : IfcReinforcingBarRoleEnum;

+	SectionDefinition : IfcSectionProperties;

+	CrossSectionReinforcementDefinitions : SET [1:?] OF IfcReinforcementBarProperties;

+END_ENTITY;

+

+ENTITY IfcSectionedSpine

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	SpineCurve : IfcCompositeCurve;

+	CrossSections : LIST [2:?] OF IfcProfileDef;

+	CrossSectionPositions : LIST [2:?] OF IfcAxis2Placement3D;

+ DERIVE

+	Dim : IfcDimensionCount := 3;

+ WHERE

+	WR1 : SIZEOF(CrossSections) = SIZEOF(CrossSectionPositions);

+	WR2 : SIZEOF(QUERY(temp <* CrossSections | CrossSections[1].ProfileType <> temp.ProfileType)) = 0;

+	WR3 : SpineCurve.Dim = 3;

+END_ENTITY;

+

+ENTITY IfcSensorType

+ SUBTYPE OF (IfcDistributionControlElementType);

+	PredefinedType : IfcSensorTypeEnum;

+END_ENTITY;

+

+ENTITY IfcServiceLife

+ SUBTYPE OF (IfcControl);

+	ServiceLifeType : IfcServiceLifeTypeEnum;

+	ServiceLifeDuration : IfcTimeMeasure;

+END_ENTITY;

+

+ENTITY IfcServiceLifeFactor

+ SUBTYPE OF (IfcPropertySetDefinition);

+	PredefinedType : IfcServiceLifeFactorTypeEnum;

+	UpperValue : OPTIONAL IfcMeasureValue;

+	MostUsedValue : IfcMeasureValue;

+	LowerValue : OPTIONAL IfcMeasureValue;

+ WHERE

+	WR31 : NOT(PredefinedType = IfcServiceLifeFactorTypeEnum.USERDEFINED)

+             OR EXISTS(SELF\IfcObject.ObjectType);

+END_ENTITY;

+

+ENTITY IfcShapeAspect;

+	ShapeRepresentations : LIST [1:?] OF IfcShapeModel;

+	Name : OPTIONAL IfcLabel;

+	Description : OPTIONAL IfcText;

+	ProductDefinitional : LOGICAL;

+	PartOfProductDefinitionShape : IfcProductDefinitionShape;

+END_ENTITY;

+

+ENTITY IfcShapeModel

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcShapeRepresentation

+	,IfcTopologyRepresentation))

+ SUBTYPE OF (IfcRepresentation);

+ INVERSE

+	OfShapeAspect : SET [0:1] OF IfcShapeAspect FOR ShapeRepresentations;

+ WHERE

+	WR11 : (SIZEOF(SELF\IfcRepresentation.OfProductRepresentation) = 1) XOR 

+             (SIZEOF(SELF\IfcRepresentation.RepresentationMap) = 1) XOR

+             (SIZEOF(OfShapeAspect) = 1);

+END_ENTITY;

+

+ENTITY IfcShapeRepresentation

+ SUBTYPE OF (IfcShapeModel);

+ WHERE

+	WR21 : 'IFC2X3.IFCGEOMETRICREPRESENTATIONCONTEXT' 

+             IN TYPEOF(SELF\IfcRepresentation.ContextOfItems);

+	WR22 : SIZEOF(QUERY(temp <* Items | 

+               ('IFC2X3.IFCTOPOLOGICALREPRESENTATIONITEM' IN TYPEOF(temp))

+                 AND (NOT(SIZEOF(

+                   ['IFC2X3.IFCVERTEXPOINT',

+                    'IFC2X3.IFCEDGECURVE',

+                    'IFC2X3.IFCFACESURFACE'] * TYPEOF(temp)) = 1))

+             )) = 0;

+	WR23 : EXISTS(SELF\IfcRepresentation.RepresentationType);

+	WR24 : IfcShapeRepresentationTypes(SELF\IfcRepresentation.RepresentationType, SELF\IfcRepresentation.Items);

+END_ENTITY;

+

+ENTITY IfcShellBasedSurfaceModel

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	SbsmBoundary : SET [1:?] OF IfcShell;

+ DERIVE

+	Dim : IfcDimensionCount := 3;

+END_ENTITY;

+

+ENTITY IfcSimpleProperty

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcPropertyBoundedValue

+	,IfcPropertyEnumeratedValue

+	,IfcPropertyListValue

+	,IfcPropertyReferenceValue

+	,IfcPropertySingleValue

+	,IfcPropertyTableValue))

+ SUBTYPE OF (IfcProperty);

+END_ENTITY;

+

+ENTITY IfcSite

+ SUBTYPE OF (IfcSpatialStructureElement);

+	RefLatitude : OPTIONAL IfcCompoundPlaneAngleMeasure;

+	RefLongitude : OPTIONAL IfcCompoundPlaneAngleMeasure;

+	RefElevation : OPTIONAL IfcLengthMeasure;

+	LandTitleNumber : OPTIONAL IfcLabel;

+	SiteAddress : OPTIONAL IfcPostalAddress;

+END_ENTITY;

+

+ENTITY IfcSlab

+ SUBTYPE OF (IfcBuildingElement);

+	PredefinedType : OPTIONAL IfcSlabTypeEnum;

+ WHERE

+	WR2 : (PredefinedType <> IfcSlabTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcSlabTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcObject.ObjectType));

+END_ENTITY;

+

+ENTITY IfcSlabType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcSlabTypeEnum;

+END_ENTITY;

+

+ENTITY IfcSlippageConnectionCondition

+ SUBTYPE OF (IfcStructuralConnectionCondition);

+	SlippageX : OPTIONAL IfcLengthMeasure;

+	SlippageY : OPTIONAL IfcLengthMeasure;

+	SlippageZ : OPTIONAL IfcLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcSolidModel

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcCsgSolid

+	,IfcManifoldSolidBrep

+	,IfcSweptAreaSolid

+	,IfcSweptDiskSolid))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+ DERIVE

+	Dim : IfcDimensionCount := 3;

+END_ENTITY;

+

+ENTITY IfcSoundProperties

+ SUBTYPE OF (IfcPropertySetDefinition);

+	IsAttenuating : IfcBoolean;

+	SoundScale : OPTIONAL IfcSoundScaleEnum;

+	SoundValues : LIST [1:8] OF IfcSoundValue;

+END_ENTITY;

+

+ENTITY IfcSoundValue

+ SUBTYPE OF (IfcPropertySetDefinition);

+	SoundLevelTimeSeries : OPTIONAL IfcTimeSeries;

+	Frequency : IfcFrequencyMeasure;

+	SoundLevelSingleValue : OPTIONAL IfcDerivedMeasureValue;

+END_ENTITY;

+

+ENTITY IfcSpace

+ SUBTYPE OF (IfcSpatialStructureElement);

+	InteriorOrExteriorSpace : IfcInternalOrExternalEnum;

+	ElevationWithFlooring : OPTIONAL IfcLengthMeasure;

+ INVERSE

+	HasCoverings : SET [0:?] OF IfcRelCoversSpaces FOR RelatedSpace;

+	BoundedBy : SET [0:?] OF IfcRelSpaceBoundary FOR RelatingSpace;

+END_ENTITY;

+

+ENTITY IfcSpaceHeaterType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcSpaceHeaterTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcSpaceHeaterTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcSpaceHeaterTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcSpaceProgram

+ SUBTYPE OF (IfcControl);

+	SpaceProgramIdentifier : IfcIdentifier;

+	MaxRequiredArea : OPTIONAL IfcAreaMeasure;

+	MinRequiredArea : OPTIONAL IfcAreaMeasure;

+	RequestedLocation : OPTIONAL IfcSpatialStructureElement;

+	StandardRequiredArea : IfcAreaMeasure;

+ INVERSE

+	HasInteractionReqsFrom : SET [0:?] OF IfcRelInteractionRequirements FOR RelatedSpaceProgram;

+	HasInteractionReqsTo : SET [0:?] OF IfcRelInteractionRequirements FOR RelatingSpaceProgram;

+END_ENTITY;

+

+ENTITY IfcSpaceThermalLoadProperties

+ SUBTYPE OF (IfcPropertySetDefinition);

+	ApplicableValueRatio : OPTIONAL IfcPositiveRatioMeasure;

+	ThermalLoadSource : IfcThermalLoadSourceEnum;

+	PropertySource : IfcPropertySourceEnum;

+	SourceDescription : OPTIONAL IfcText;

+	MaximumValue : IfcPowerMeasure;

+	MinimumValue : OPTIONAL IfcPowerMeasure;

+	ThermalLoadTimeSeriesValues : OPTIONAL IfcTimeSeries;

+	UserDefinedThermalLoadSource : OPTIONAL IfcLabel;

+	UserDefinedPropertySource : OPTIONAL IfcLabel;

+	ThermalLoadType : IfcThermalLoadTypeEnum;

+END_ENTITY;

+

+ENTITY IfcSpaceType

+ SUBTYPE OF (IfcSpatialStructureElementType);

+	PredefinedType : IfcSpaceTypeEnum;

+END_ENTITY;

+

+ENTITY IfcSpatialStructureElement

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBuilding

+	,IfcBuildingStorey

+	,IfcSite

+	,IfcSpace))

+ SUBTYPE OF (IfcProduct);

+	LongName : OPTIONAL IfcLabel;

+	CompositionType : IfcElementCompositionEnum;

+ INVERSE

+	ReferencesElements : SET [0:?] OF IfcRelReferencedInSpatialStructure FOR RelatingStructure;

+	ServicedBySystems : SET [0:?] OF IfcRelServicesBuildings FOR RelatedBuildings;

+	ContainsElements : SET [0:?] OF IfcRelContainedInSpatialStructure FOR RelatingStructure;

+ WHERE

+	WR41 : (HIINDEX(SELF\IfcObjectDefinition.Decomposes) = 1) 

+             AND

+             ('IFC2X3.IFCRELAGGREGATES' IN TYPEOF(SELF\IfcObjectDefinition.Decomposes[1])) 

+             AND

+             (('IFC2X3.IFCPROJECT' IN TYPEOF (SELF\IfcObjectDefinition.Decomposes[1].RelatingObject)) OR

+              ('IFC2X3.IFCSPATIALSTRUCTUREELEMENT' IN TYPEOF (SELF\IfcObjectDefinition.Decomposes[1].RelatingObject))

+             );

+END_ENTITY;

+

+ENTITY IfcSpatialStructureElementType

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcSpaceType))

+ SUBTYPE OF (IfcElementType);

+END_ENTITY;

+

+ENTITY IfcSphere

+ SUBTYPE OF (IfcCsgPrimitive3D);

+	Radius : IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcStackTerminalType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcStackTerminalTypeEnum;

+END_ENTITY;

+

+ENTITY IfcStair

+ SUBTYPE OF (IfcBuildingElement);

+	ShapeType : IfcStairTypeEnum;

+ WHERE

+	WR1 : (HIINDEX(SELF\IfcObjectDefinition.IsDecomposedBy) = 0) OR 

+            ((HIINDEX(SELF\IfcObjectDefinition.IsDecomposedBy) = 1) AND (NOT(EXISTS(SELF\IfcProduct.Representation))));

+END_ENTITY;

+

+ENTITY IfcStairFlight

+ SUBTYPE OF (IfcBuildingElement);

+	NumberOfRiser : OPTIONAL INTEGER;

+	NumberOfTreads : OPTIONAL INTEGER;

+	RiserHeight : OPTIONAL IfcPositiveLengthMeasure;

+	TreadLength : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcStairFlightType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcStairFlightTypeEnum;

+END_ENTITY;

+

+ENTITY IfcStructuralAction

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcStructuralLinearAction

+	,IfcStructuralPlanarAction

+	,IfcStructuralPointAction))

+ SUBTYPE OF (IfcStructuralActivity);

+	DestabilizingLoad : BOOLEAN;

+	CausedBy : OPTIONAL IfcStructuralReaction;

+END_ENTITY;

+

+ENTITY IfcStructuralActivity

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcStructuralAction

+	,IfcStructuralReaction))

+ SUBTYPE OF (IfcProduct);

+	AppliedLoad : IfcStructuralLoad;

+	GlobalOrLocal : IfcGlobalOrLocalEnum;

+ INVERSE

+	AssignedToStructuralItem : IfcRelConnectsStructuralActivity FOR RelatedStructuralActivity;

+END_ENTITY;

+

+ENTITY IfcStructuralAnalysisModel

+ SUBTYPE OF (IfcSystem);

+	PredefinedType : IfcAnalysisModelTypeEnum;

+	OrientationOf2DPlane : OPTIONAL IfcAxis2Placement3D;

+	LoadedBy : OPTIONAL SET [1:?] OF IfcStructuralLoadGroup;

+	HasResults : OPTIONAL SET [1:?] OF IfcStructuralResultGroup;

+END_ENTITY;

+

+ENTITY IfcStructuralConnection

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcStructuralCurveConnection

+	,IfcStructuralPointConnection

+	,IfcStructuralSurfaceConnection))

+ SUBTYPE OF (IfcStructuralItem);

+	AppliedCondition : OPTIONAL IfcBoundaryCondition;

+ INVERSE

+	ConnectsStructuralMembers : SET [1:?] OF IfcRelConnectsStructuralMember FOR RelatedStructuralConnection;

+END_ENTITY;

+

+ENTITY IfcStructuralConnectionCondition

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcFailureConnectionCondition

+	,IfcSlippageConnectionCondition));

+	Name : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcStructuralCurveConnection

+ SUBTYPE OF (IfcStructuralConnection);

+END_ENTITY;

+

+ENTITY IfcStructuralCurveMember

+ SUPERTYPE OF (ONEOF

+	(IfcStructuralCurveMemberVarying))

+ SUBTYPE OF (IfcStructuralMember);

+	PredefinedType : IfcStructuralCurveTypeEnum;

+END_ENTITY;

+

+ENTITY IfcStructuralCurveMemberVarying

+ SUBTYPE OF (IfcStructuralCurveMember);

+END_ENTITY;

+

+ENTITY IfcStructuralItem

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcStructuralConnection

+	,IfcStructuralMember))

+ SUBTYPE OF (IfcProduct);

+ INVERSE

+	AssignedStructuralActivity : SET [0:?] OF IfcRelConnectsStructuralActivity FOR RelatingElement;

+END_ENTITY;

+

+ENTITY IfcStructuralLinearAction

+ SUPERTYPE OF (ONEOF

+	(IfcStructuralLinearActionVarying))

+ SUBTYPE OF (IfcStructuralAction);

+	ProjectedOrTrue : IfcProjectedOrTrueLengthEnum;

+ WHERE

+	WR61 : SIZEOF(['IFC2X3.IFCSTRUCTURALLOADLINEARFORCE',

+                     'IFC2X3.IFCSTRUCTURALLOADTEMPERATURE']

+             * TYPEOF(SELF\IfcStructuralActivity.AppliedLoad)) = 1;

+END_ENTITY;

+

+ENTITY IfcStructuralLinearActionVarying

+ SUBTYPE OF (IfcStructuralLinearAction);

+	VaryingAppliedLoadLocation : IfcShapeAspect;

+	SubsequentAppliedLoads : LIST [1:?] OF IfcStructuralLoad;

+ DERIVE

+	VaryingAppliedLoads : LIST [2:?] OF IfcStructuralLoad := IfcAddToBeginOfList(SELF\IfcStructuralActivity.AppliedLoad, SubsequentAppliedLoads);

+END_ENTITY;

+

+ENTITY IfcStructuralLoad

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcStructuralLoadStatic));

+	Name : OPTIONAL IfcLabel;

+END_ENTITY;

+

+ENTITY IfcStructuralLoadGroup

+ SUBTYPE OF (IfcGroup);

+	PredefinedType : IfcLoadGroupTypeEnum;

+	ActionType : IfcActionTypeEnum;

+	ActionSource : IfcActionSourceTypeEnum;

+	Coefficient : OPTIONAL IfcPositiveRatioMeasure;

+	Purpose : OPTIONAL IfcLabel;

+ INVERSE

+	SourceOfResultGroup : SET [0:1] OF IfcStructuralResultGroup FOR ResultForLoadGroup;

+	LoadGroupFor : SET [0:?] OF IfcStructuralAnalysisModel FOR LoadedBy;

+END_ENTITY;

+

+ENTITY IfcStructuralLoadLinearForce

+ SUBTYPE OF (IfcStructuralLoadStatic);

+	LinearForceX : OPTIONAL IfcLinearForceMeasure;

+	LinearForceY : OPTIONAL IfcLinearForceMeasure;

+	LinearForceZ : OPTIONAL IfcLinearForceMeasure;

+	LinearMomentX : OPTIONAL IfcLinearMomentMeasure;

+	LinearMomentY : OPTIONAL IfcLinearMomentMeasure;

+	LinearMomentZ : OPTIONAL IfcLinearMomentMeasure;

+END_ENTITY;

+

+ENTITY IfcStructuralLoadPlanarForce

+ SUBTYPE OF (IfcStructuralLoadStatic);

+	PlanarForceX : OPTIONAL IfcPlanarForceMeasure;

+	PlanarForceY : OPTIONAL IfcPlanarForceMeasure;

+	PlanarForceZ : OPTIONAL IfcPlanarForceMeasure;

+END_ENTITY;

+

+ENTITY IfcStructuralLoadSingleDisplacement

+ SUPERTYPE OF (ONEOF

+	(IfcStructuralLoadSingleDisplacementDistortion))

+ SUBTYPE OF (IfcStructuralLoadStatic);

+	DisplacementX : OPTIONAL IfcLengthMeasure;

+	DisplacementY : OPTIONAL IfcLengthMeasure;

+	DisplacementZ : OPTIONAL IfcLengthMeasure;

+	RotationalDisplacementRX : OPTIONAL IfcPlaneAngleMeasure;

+	RotationalDisplacementRY : OPTIONAL IfcPlaneAngleMeasure;

+	RotationalDisplacementRZ : OPTIONAL IfcPlaneAngleMeasure;

+END_ENTITY;

+

+ENTITY IfcStructuralLoadSingleDisplacementDistortion

+ SUBTYPE OF (IfcStructuralLoadSingleDisplacement);

+	Distortion : OPTIONAL IfcCurvatureMeasure;

+END_ENTITY;

+

+ENTITY IfcStructuralLoadSingleForce

+ SUPERTYPE OF (ONEOF

+	(IfcStructuralLoadSingleForceWarping))

+ SUBTYPE OF (IfcStructuralLoadStatic);

+	ForceX : OPTIONAL IfcForceMeasure;

+	ForceY : OPTIONAL IfcForceMeasure;

+	ForceZ : OPTIONAL IfcForceMeasure;

+	MomentX : OPTIONAL IfcTorqueMeasure;

+	MomentY : OPTIONAL IfcTorqueMeasure;

+	MomentZ : OPTIONAL IfcTorqueMeasure;

+END_ENTITY;

+

+ENTITY IfcStructuralLoadSingleForceWarping

+ SUBTYPE OF (IfcStructuralLoadSingleForce);

+	WarpingMoment : OPTIONAL IfcWarpingMomentMeasure;

+END_ENTITY;

+

+ENTITY IfcStructuralLoadStatic

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcStructuralLoadLinearForce

+	,IfcStructuralLoadPlanarForce

+	,IfcStructuralLoadSingleDisplacement

+	,IfcStructuralLoadSingleForce

+	,IfcStructuralLoadTemperature))

+ SUBTYPE OF (IfcStructuralLoad);

+END_ENTITY;

+

+ENTITY IfcStructuralLoadTemperature

+ SUBTYPE OF (IfcStructuralLoadStatic);

+	DeltaT_Constant : OPTIONAL IfcThermodynamicTemperatureMeasure;

+	DeltaT_Y : OPTIONAL IfcThermodynamicTemperatureMeasure;

+	DeltaT_Z : OPTIONAL IfcThermodynamicTemperatureMeasure;

+END_ENTITY;

+

+ENTITY IfcStructuralMember

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcStructuralCurveMember

+	,IfcStructuralSurfaceMember))

+ SUBTYPE OF (IfcStructuralItem);

+ INVERSE

+	ReferencesElement : SET [0:?] OF IfcRelConnectsStructuralElement FOR RelatedStructuralMember;

+	ConnectedBy : SET [0:?] OF IfcRelConnectsStructuralMember FOR RelatingStructuralMember;

+END_ENTITY;

+

+ENTITY IfcStructuralPlanarAction

+ SUPERTYPE OF (ONEOF

+	(IfcStructuralPlanarActionVarying))

+ SUBTYPE OF (IfcStructuralAction);

+	ProjectedOrTrue : IfcProjectedOrTrueLengthEnum;

+ WHERE

+	WR61 : SIZEOF(['IFC2X3.IFCSTRUCTURALLOADPLANARFORCE',

+                     'IFC2X3.IFCSTRUCTURALLOADTEMPERATURE']

+             * TYPEOF(SELF\IfcStructuralActivity.AppliedLoad)) = 1;

+END_ENTITY;

+

+ENTITY IfcStructuralPlanarActionVarying

+ SUBTYPE OF (IfcStructuralPlanarAction);

+	VaryingAppliedLoadLocation : IfcShapeAspect;

+	SubsequentAppliedLoads : LIST [2:?] OF IfcStructuralLoad;

+ DERIVE

+	VaryingAppliedLoads : LIST [3:?] OF IfcStructuralLoad := IfcAddToBeginOfList(SELF\IfcStructuralActivity.AppliedLoad, SubsequentAppliedLoads);

+END_ENTITY;

+

+ENTITY IfcStructuralPointAction

+ SUBTYPE OF (IfcStructuralAction);

+ WHERE

+	WR61 : SIZEOF(['IFC2X3.IFCSTRUCTURALLOADSINGLEFORCE',

+                     'IFC2X3.IFCSTRUCTURALLOADSINGLEDISPLACEMENT']

+             * TYPEOF(SELF\IfcStructuralActivity.AppliedLoad)) = 1;

+END_ENTITY;

+

+ENTITY IfcStructuralPointConnection

+ SUBTYPE OF (IfcStructuralConnection);

+END_ENTITY;

+

+ENTITY IfcStructuralPointReaction

+ SUBTYPE OF (IfcStructuralReaction);

+ WHERE

+	WR61 : SIZEOF(['IFC2X3.IFCSTRUCTURALLOADSINGLEFORCE',

+                     'IFC2X3.IFCSTRUCTURALLOADSINGLEDISPLACEMENT']

+             * TYPEOF(SELF\IfcStructuralActivity.AppliedLoad)) = 1;

+END_ENTITY;

+

+ENTITY IfcStructuralProfileProperties

+ SUPERTYPE OF (ONEOF

+	(IfcStructuralSteelProfileProperties))

+ SUBTYPE OF (IfcGeneralProfileProperties);

+	TorsionalConstantX : OPTIONAL IfcMomentOfInertiaMeasure;

+	MomentOfInertiaYZ : OPTIONAL IfcMomentOfInertiaMeasure;

+	MomentOfInertiaY : OPTIONAL IfcMomentOfInertiaMeasure;

+	MomentOfInertiaZ : OPTIONAL IfcMomentOfInertiaMeasure;

+	WarpingConstant : OPTIONAL IfcWarpingConstantMeasure;

+	ShearCentreZ : OPTIONAL IfcLengthMeasure;

+	ShearCentreY : OPTIONAL IfcLengthMeasure;

+	ShearDeformationAreaZ : OPTIONAL IfcAreaMeasure;

+	ShearDeformationAreaY : OPTIONAL IfcAreaMeasure;

+	MaximumSectionModulusY : OPTIONAL IfcSectionModulusMeasure;

+	MinimumSectionModulusY : OPTIONAL IfcSectionModulusMeasure;

+	MaximumSectionModulusZ : OPTIONAL IfcSectionModulusMeasure;

+	MinimumSectionModulusZ : OPTIONAL IfcSectionModulusMeasure;

+	TorsionalSectionModulus : OPTIONAL IfcSectionModulusMeasure;

+	CentreOfGravityInX : OPTIONAL IfcLengthMeasure;

+	CentreOfGravityInY : OPTIONAL IfcLengthMeasure;

+ WHERE

+	WR21 : NOT(EXISTS(ShearDeformationAreaY)) OR (ShearDeformationAreaY >= 0.);

+	WR22 : NOT(EXISTS(ShearDeformationAreaZ)) OR (ShearDeformationAreaZ >= 0.);

+END_ENTITY;

+

+ENTITY IfcStructuralReaction

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcStructuralPointReaction))

+ SUBTYPE OF (IfcStructuralActivity);

+ INVERSE

+	Causes : SET [0:?] OF IfcStructuralAction FOR CausedBy;

+END_ENTITY;

+

+ENTITY IfcStructuralResultGroup

+ SUBTYPE OF (IfcGroup);

+	TheoryType : IfcAnalysisTheoryTypeEnum;

+	ResultForLoadGroup : OPTIONAL IfcStructuralLoadGroup;

+	IsLinear : BOOLEAN;

+ INVERSE

+	ResultGroupFor : SET [0:1] OF IfcStructuralAnalysisModel FOR HasResults;

+END_ENTITY;

+

+ENTITY IfcStructuralSteelProfileProperties

+ SUBTYPE OF (IfcStructuralProfileProperties);

+	ShearAreaZ : OPTIONAL IfcAreaMeasure;

+	ShearAreaY : OPTIONAL IfcAreaMeasure;

+	PlasticShapeFactorY : OPTIONAL IfcPositiveRatioMeasure;

+	PlasticShapeFactorZ : OPTIONAL IfcPositiveRatioMeasure;

+ WHERE

+	WR31 : NOT(EXISTS(ShearAreaY)) OR (ShearAreaY >= 0.);

+	WR32 : NOT(EXISTS(ShearAreaZ)) OR (ShearAreaZ >= 0.);

+END_ENTITY;

+

+ENTITY IfcStructuralSurfaceConnection

+ SUBTYPE OF (IfcStructuralConnection);

+END_ENTITY;

+

+ENTITY IfcStructuralSurfaceMember

+ SUPERTYPE OF (ONEOF

+	(IfcStructuralSurfaceMemberVarying))

+ SUBTYPE OF (IfcStructuralMember);

+	PredefinedType : IfcStructuralSurfaceTypeEnum;

+	Thickness : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcStructuralSurfaceMemberVarying

+ SUBTYPE OF (IfcStructuralSurfaceMember);

+	SubsequentThickness : LIST [2:?] OF IfcPositiveLengthMeasure;

+	VaryingThicknessLocation : IfcShapeAspect;

+ DERIVE

+	VaryingThickness : LIST [3:?] OF IfcPositiveLengthMeasure := IfcAddToBeginOfList(SELF\IfcStructuralSurfaceMember.Thickness, SubsequentThickness);

+ WHERE

+	WR61 : EXISTS(SELF\IfcStructuralSurfaceMember.Thickness);

+	WR62 : SIZEOF(QUERY(temp <* SELF.VaryingThicknessLocation.ShapeRepresentations |

+               NOT(SIZEOF(temp\IfcRepresentation.Items) = 1)

+               )) = 0;

+	WR63 : SIZEOF(QUERY(temp <* SELF.VaryingThicknessLocation.ShapeRepresentations |

+               NOT(('IFC2X3.IFCCARTESIANPOINT' IN TYPEOF(temp\IfcRepresentation.Items[1]))

+                     OR

+                   ('IFC2X3.IFCPOINTONSURFACE' IN TYPEOF(temp\IfcRepresentation.Items[1])))

+               )) = 0;

+END_ENTITY;

+

+ENTITY IfcStructuredDimensionCallout

+ SUBTYPE OF (IfcDraughtingCallout);

+ WHERE

+	WR31 : SIZEOF(QUERY ( Ato <* QUERY ( Con <* SELF.contents | (

+                   'IFC2X3.IFCANNOTATIONTEXTOCCURRENCE' IN 

+                    TYPEOF(Con)) ) | (NOT (Ato.Name IN ['dimension value',

+                   'tolerance value','unit text','prefix text','suffix text']))))

+                  = 0;

+END_ENTITY;

+

+ENTITY IfcStyleModel

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcStyledRepresentation))

+ SUBTYPE OF (IfcRepresentation);

+END_ENTITY;

+

+ENTITY IfcStyledItem

+ SUPERTYPE OF (ONEOF

+	(IfcAnnotationOccurrence))

+ SUBTYPE OF (IfcRepresentationItem);

+	Item : OPTIONAL IfcRepresentationItem;

+	Styles : SET [1:?] OF IfcPresentationStyleAssignment;

+	Name : OPTIONAL IfcLabel;

+ WHERE

+	WR11 : SIZEOF(Styles) = 1;

+	WR12 : NOT('IFC2X3.IFCSTYLEDITEM' IN TYPEOF(Item));

+END_ENTITY;

+

+ENTITY IfcStyledRepresentation

+ SUBTYPE OF (IfcStyleModel);

+ WHERE

+	WR21 : SIZEOF(QUERY(temp <* SELF\IfcRepresentation.Items | 

+               (NOT('IFC2X3.IFCSTYLEDITEM' IN TYPEOF(temp)))

+             )) = 0;

+END_ENTITY;

+

+ENTITY IfcSubContractResource

+ SUBTYPE OF (IfcConstructionResource);

+	SubContractor : OPTIONAL IfcActorSelect;

+	JobDescription : OPTIONAL IfcText;

+END_ENTITY;

+

+ENTITY IfcSubedge

+ SUBTYPE OF (IfcEdge);

+	ParentEdge : IfcEdge;

+END_ENTITY;

+

+ENTITY IfcSurface

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBoundedSurface

+	,IfcElementarySurface

+	,IfcSweptSurface))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+END_ENTITY;

+

+ENTITY IfcSurfaceCurveSweptAreaSolid

+ SUBTYPE OF (IfcSweptAreaSolid);

+	Directrix : IfcCurve;

+	StartParam : IfcParameterValue;

+	EndParam : IfcParameterValue;

+	ReferenceSurface : IfcSurface;

+END_ENTITY;

+

+ENTITY IfcSurfaceOfLinearExtrusion

+ SUBTYPE OF (IfcSweptSurface);

+	ExtrudedDirection : IfcDirection;

+	Depth : IfcLengthMeasure;

+ DERIVE

+	ExtrusionAxis : IfcVector := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector (ExtrudedDirection, Depth);

+ WHERE

+	WR41 : Depth > 0.;

+END_ENTITY;

+

+ENTITY IfcSurfaceOfRevolution

+ SUBTYPE OF (IfcSweptSurface);

+	AxisPosition : IfcAxis1Placement;

+ DERIVE

+	AxisLine : IfcLine := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcCurve() || IfcLine(AxisPosition.Location, 

+                       IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector(AxisPosition.Z,1.0));

+END_ENTITY;

+

+ENTITY IfcSurfaceStyle

+ SUBTYPE OF (IfcPresentationStyle);

+	Side : IfcSurfaceSide;

+	Styles : SET [1:5] OF IfcSurfaceStyleElementSelect;

+ WHERE

+	WR11 : SIZEOF(QUERY(Style <* SELF.Styles |

+               'IFC2X3.IFCSURFACESTYLESHADING' IN

+                TYPEOF(Style)

+               )) <= 1;

+	WR12 : SIZEOF(QUERY(Style <* SELF.Styles |

+               'IFC2X3.IFCSURFACESTYLELIGHTING' IN

+                TYPEOF(Style)

+               )) <= 1;

+	WR13 : SIZEOF(QUERY(Style <* SELF.Styles |

+               'IFC2X3.IFCSURFACESTYLEREFRACTION' IN

+                TYPEOF(Style)

+               )) <= 1;

+	WR14 : SIZEOF(QUERY(Style <* SELF.Styles |

+               'IFC2X3.IFCSURFACESTYLEWITHTEXTURES' IN

+                TYPEOF(Style)

+               )) <= 1;

+	WR15 : SIZEOF(QUERY(Style <* SELF.Styles |

+               'IFC2X3.IFCEXTERNALLYDEFINEDSURFACESTYLE' IN

+                TYPEOF(Style)

+               )) <= 1;

+END_ENTITY;

+

+ENTITY IfcSurfaceStyleLighting;

+	DiffuseTransmissionColour : IfcColourRgb;

+	DiffuseReflectionColour : IfcColourRgb;

+	TransmissionColour : IfcColourRgb;

+	ReflectanceColour : IfcColourRgb;

+END_ENTITY;

+

+ENTITY IfcSurfaceStyleRefraction;

+	RefractionIndex : OPTIONAL IfcReal;

+	DispersionFactor : OPTIONAL IfcReal;

+END_ENTITY;

+

+ENTITY IfcSurfaceStyleRendering

+ SUBTYPE OF (IfcSurfaceStyleShading);

+	Transparency : OPTIONAL IfcNormalisedRatioMeasure;

+	DiffuseColour : OPTIONAL IfcColourOrFactor;

+	TransmissionColour : OPTIONAL IfcColourOrFactor;

+	DiffuseTransmissionColour : OPTIONAL IfcColourOrFactor;

+	ReflectionColour : OPTIONAL IfcColourOrFactor;

+	SpecularColour : OPTIONAL IfcColourOrFactor;

+	SpecularHighlight : OPTIONAL IfcSpecularHighlightSelect;

+	ReflectanceMethod : IfcReflectanceMethodEnum;

+END_ENTITY;

+

+ENTITY IfcSurfaceStyleShading

+ SUPERTYPE OF (ONEOF

+	(IfcSurfaceStyleRendering));

+	SurfaceColour : IfcColourRgb;

+END_ENTITY;

+

+ENTITY IfcSurfaceStyleWithTextures;

+	Textures : LIST [1:?] OF IfcSurfaceTexture;

+END_ENTITY;

+

+ENTITY IfcSurfaceTexture

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcBlobTexture

+	,IfcImageTexture

+	,IfcPixelTexture));

+	RepeatS : BOOLEAN;

+	RepeatT : BOOLEAN;

+	TextureType : IfcSurfaceTextureEnum;

+	TextureTransform : OPTIONAL IfcCartesianTransformationOperator2D;

+END_ENTITY;

+

+ENTITY IfcSweptAreaSolid

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcExtrudedAreaSolid

+	,IfcRevolvedAreaSolid

+	,IfcSurfaceCurveSweptAreaSolid))

+ SUBTYPE OF (IfcSolidModel);

+	SweptArea : IfcProfileDef;

+	Position : IfcAxis2Placement3D;

+ WHERE

+	WR22 : SweptArea.ProfileType = IfcProfileTypeEnum.Area;

+END_ENTITY;

+

+ENTITY IfcSweptDiskSolid

+ SUBTYPE OF (IfcSolidModel);

+	Directrix : IfcCurve;

+	Radius : IfcPositiveLengthMeasure;

+	InnerRadius : OPTIONAL IfcPositiveLengthMeasure;

+	StartParam : IfcParameterValue;

+	EndParam : IfcParameterValue;

+ WHERE

+	WR1 : Directrix.Dim = 3;

+	WR2 : (NOT EXISTS(InnerRadius)) OR (Radius > InnerRadius);

+END_ENTITY;

+

+ENTITY IfcSweptSurface

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcSurfaceOfLinearExtrusion

+	,IfcSurfaceOfRevolution))

+ SUBTYPE OF (IfcSurface);

+	SweptCurve : IfcProfileDef;

+	Position : IfcAxis2Placement3D;

+ DERIVE

+	Dim : IfcDimensionCount := Position.Dim;

+ WHERE

+	WR1 : NOT('IFC2X3.IFCDERIVEDPROFILEDEF' IN TYPEOF(SweptCurve));

+	WR2 : SweptCurve.ProfileType = IfcProfileTypeEnum.Curve;

+END_ENTITY;

+

+ENTITY IfcSwitchingDeviceType

+ SUBTYPE OF (IfcFlowControllerType);

+	PredefinedType : IfcSwitchingDeviceTypeEnum;

+END_ENTITY;

+

+ENTITY IfcSymbolStyle

+ SUBTYPE OF (IfcPresentationStyle);

+	StyleOfSymbol : IfcSymbolStyleSelect;

+END_ENTITY;

+

+ENTITY IfcSystem

+ SUPERTYPE OF (ONEOF

+	(IfcElectricalCircuit

+	,IfcStructuralAnalysisModel))

+ SUBTYPE OF (IfcGroup);

+ INVERSE

+	ServicesBuildings : SET [0:1] OF IfcRelServicesBuildings FOR RelatingSystem;

+END_ENTITY;

+

+ENTITY IfcSystemFurnitureElementType

+ SUBTYPE OF (IfcFurnishingElementType);

+END_ENTITY;

+

+ENTITY IfcTShapeProfileDef

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	Depth : IfcPositiveLengthMeasure;

+	FlangeWidth : IfcPositiveLengthMeasure;

+	WebThickness : IfcPositiveLengthMeasure;

+	FlangeThickness : IfcPositiveLengthMeasure;

+	FilletRadius : OPTIONAL IfcPositiveLengthMeasure;

+	FlangeEdgeRadius : OPTIONAL IfcPositiveLengthMeasure;

+	WebEdgeRadius : OPTIONAL IfcPositiveLengthMeasure;

+	WebSlope : OPTIONAL IfcPlaneAngleMeasure;

+	FlangeSlope : OPTIONAL IfcPlaneAngleMeasure;

+	CentreOfGravityInY : OPTIONAL IfcPositiveLengthMeasure;

+ WHERE

+	WR1 : FlangeThickness < Depth;

+	WR2 : WebThickness < FlangeWidth;

+END_ENTITY;

+

+ENTITY IfcTable;

+	Name : STRING;

+	Rows : LIST [1:?] OF IfcTableRow;

+ DERIVE

+	NumberOfCellsInRow : INTEGER := HIINDEX(Rows[1].RowCells);

+	NumberOfHeadings : INTEGER := SIZEOF(QUERY( Temp <* Rows | Temp.IsHeading));

+	NumberOfDataRows : INTEGER := SIZEOF(QUERY( Temp <* Rows | NOT(Temp.IsHeading)));

+ WHERE

+	WR1 : SIZEOF(QUERY( Temp <* Rows | HIINDEX(Temp.RowCells) <> HIINDEX(Rows[1].RowCells))) = 0;

+	WR2 : SIZEOF(QUERY( Temp <* Rows | HIINDEX(Temp.RowCells) <> HIINDEX(Rows[1].RowCells))) = 0;

+	WR3 : { 0 <= NumberOfHeadings <= 1 };

+END_ENTITY;

+

+ENTITY IfcTableRow;

+	RowCells : LIST [1:?] OF IfcValue;

+	IsHeading : BOOLEAN;

+ INVERSE

+	OfTable : IfcTable FOR Rows;

+END_ENTITY;

+

+ENTITY IfcTankType

+ SUBTYPE OF (IfcFlowStorageDeviceType);

+	PredefinedType : IfcTankTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcTankTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcTankTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcTask

+ SUPERTYPE OF (ONEOF

+	(IfcMove

+	,IfcOrderAction))

+ SUBTYPE OF (IfcProcess);

+	TaskId : IfcIdentifier;

+	Status : OPTIONAL IfcLabel;

+	WorkMethod : OPTIONAL IfcLabel;

+	IsMilestone : BOOLEAN;

+	Priority : OPTIONAL INTEGER;

+ WHERE

+	WR1 : SIZEOF(QUERY(temp <* SELF\IfcObjectDefinition.Decomposes | NOT('IFC2X3.IFCRELNESTS' IN TYPEOF(temp)))) = 0;

+	WR2 : SIZEOF(QUERY(temp <* SELF\IfcObjectDefinition.IsDecomposedBy | NOT('IFC2X3.IFCRELNESTS' IN TYPEOF(temp)))) = 0;

+	WR3 : EXISTS(SELF\IfcRoot.Name);

+END_ENTITY;

+

+ENTITY IfcTelecomAddress

+ SUBTYPE OF (IfcAddress);

+	TelephoneNumbers : OPTIONAL LIST [1:?] OF IfcLabel;

+	FacsimileNumbers : OPTIONAL LIST [1:?] OF IfcLabel;

+	PagerNumber : OPTIONAL IfcLabel;

+	ElectronicMailAddresses : OPTIONAL LIST [1:?] OF IfcLabel;

+	WWWHomePageURL : OPTIONAL IfcLabel;

+ WHERE

+	WR1 : EXISTS (TelephoneNumbers) OR

+            EXISTS (PagerNumber) OR

+            EXISTS (FacsimileNumbers) OR 

+            EXISTS (ElectronicMailAddresses) OR 

+            EXISTS (WWWHomePageURL);

+END_ENTITY;

+

+ENTITY IfcTendon

+ SUBTYPE OF (IfcReinforcingElement);

+	PredefinedType : IfcTendonTypeEnum;

+	NominalDiameter : IfcPositiveLengthMeasure;

+	CrossSectionArea : IfcAreaMeasure;

+	TensionForce : OPTIONAL IfcForceMeasure;

+	PreStress : OPTIONAL IfcPressureMeasure;

+	FrictionCoefficient : OPTIONAL IfcNormalisedRatioMeasure;

+	AnchorageSlip : OPTIONAL IfcPositiveLengthMeasure;

+	MinCurvatureRadius : OPTIONAL IfcPositiveLengthMeasure;

+ WHERE

+	WR1 : (PredefinedType <> IfcTendonTypeEnum.USERDEFINED) OR ((PredefinedType = IfcTendonTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcObject.ObjectType));

+END_ENTITY;

+

+ENTITY IfcTendonAnchor

+ SUBTYPE OF (IfcReinforcingElement);

+END_ENTITY;

+

+ENTITY IfcTerminatorSymbol

+ SUPERTYPE OF (ONEOF

+	(IfcDimensionCurveTerminator))

+ SUBTYPE OF (IfcAnnotationSymbolOccurrence);

+	AnnotatedCurve : IfcAnnotationCurveOccurrence;

+END_ENTITY;

+

+ENTITY IfcTextLiteral

+ SUPERTYPE OF (ONEOF

+	(IfcTextLiteralWithExtent))

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Literal : IfcPresentableText;

+	Placement : IfcAxis2Placement;

+	Path : IfcTextPath;

+END_ENTITY;

+

+ENTITY IfcTextLiteralWithExtent

+ SUBTYPE OF (IfcTextLiteral);

+	Extent : IfcPlanarExtent;

+	BoxAlignment : IfcBoxAlignment;

+ WHERE

+	WR31 : NOT('IFC2X3.IFCPLANARBOX' IN TYPEOF(Extent));

+END_ENTITY;

+

+ENTITY IfcTextStyle

+ SUBTYPE OF (IfcPresentationStyle);

+	TextCharacterAppearance : OPTIONAL IfcCharacterStyleSelect;

+	TextStyle : OPTIONAL IfcTextStyleSelect;

+	TextFontStyle : IfcTextFontSelect;

+END_ENTITY;

+

+ENTITY IfcTextStyleFontModel

+ SUBTYPE OF (IfcPreDefinedTextFont);

+	FontFamily : OPTIONAL LIST [1:?] OF IfcTextFontName;

+	FontStyle : OPTIONAL IfcFontStyle;

+	FontVariant : OPTIONAL IfcFontVariant;

+	FontWeight : OPTIONAL IfcFontWeight;

+	FontSize : IfcSizeSelect;

+ WHERE

+	WR31 : ('IFC2X3.IFCLENGTHMEASURE' IN TYPEOF(SELF.FontSize)) AND

+             (SELF.FontSize > 0.);

+END_ENTITY;

+

+ENTITY IfcTextStyleForDefinedFont;

+	Colour : IfcColour;

+	BackgroundColour : OPTIONAL IfcColour;

+END_ENTITY;

+

+ENTITY IfcTextStyleTextModel;

+	TextIndent : OPTIONAL IfcSizeSelect;

+	TextAlign : OPTIONAL IfcTextAlignment;

+	TextDecoration : OPTIONAL IfcTextDecoration;

+	LetterSpacing : OPTIONAL IfcSizeSelect;

+	WordSpacing : OPTIONAL IfcSizeSelect;

+	TextTransform : OPTIONAL IfcTextTransformation;

+	LineHeight : OPTIONAL IfcSizeSelect;

+END_ENTITY;

+

+ENTITY IfcTextStyleWithBoxCharacteristics;

+	BoxHeight : OPTIONAL IfcPositiveLengthMeasure;

+	BoxWidth : OPTIONAL IfcPositiveLengthMeasure;

+	BoxSlantAngle : OPTIONAL IfcPlaneAngleMeasure;

+	BoxRotateAngle : OPTIONAL IfcPlaneAngleMeasure;

+	CharacterSpacing : OPTIONAL IfcSizeSelect;

+END_ENTITY;

+

+ENTITY IfcTextureCoordinate

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcTextureCoordinateGenerator

+	,IfcTextureMap));

+ INVERSE

+	AnnotatedSurface : SET [1:1] OF IfcAnnotationSurface FOR TextureCoordinates;

+END_ENTITY;

+

+ENTITY IfcTextureCoordinateGenerator

+ SUBTYPE OF (IfcTextureCoordinate);

+	Mode : IfcLabel;

+	Parameter : LIST [1:?] OF IfcSimpleValue;

+END_ENTITY;

+

+ENTITY IfcTextureMap

+ SUBTYPE OF (IfcTextureCoordinate);

+	TextureMaps : SET [1:?] OF IfcVertexBasedTextureMap;

+ WHERE

+	WR11 : SIZEOF([

+               'IFC2X3.IFCSHELLBASEDSURFACEMODEL',

+               'IFC2X3.IFCFACEBASEDSURFACEMODEL',

+               'IFC2X3.IFCFACETEDBREP',

+               'IFC2X3.IFCFACETEDBREPWITHVOIDS'] 

+              * TYPEOF(SELF\IfcTextureCoordinate.AnnotatedSurface[1].Item)

+               ) >= 1;

+END_ENTITY;

+

+ENTITY IfcTextureVertex;

+	Coordinates : LIST [2:2] OF IfcParameterValue;

+END_ENTITY;

+

+ENTITY IfcThermalMaterialProperties

+ SUBTYPE OF (IfcMaterialProperties);

+	SpecificHeatCapacity : OPTIONAL IfcSpecificHeatCapacityMeasure;

+	BoilingPoint : OPTIONAL IfcThermodynamicTemperatureMeasure;

+	FreezingPoint : OPTIONAL IfcThermodynamicTemperatureMeasure;

+	ThermalConductivity : OPTIONAL IfcThermalConductivityMeasure;

+ UNIQUE

+	UR11 : Material;

+END_ENTITY;

+

+ENTITY IfcTimeSeries

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcIrregularTimeSeries

+	,IfcRegularTimeSeries));

+	Name : IfcLabel;

+	Description : OPTIONAL IfcText;

+	StartTime : IfcDateTimeSelect;

+	EndTime : IfcDateTimeSelect;

+	TimeSeriesDataType : IfcTimeSeriesDataTypeEnum;

+	DataOrigin : IfcDataOriginEnum;

+	UserDefinedDataOrigin : OPTIONAL IfcLabel;

+	Unit : OPTIONAL IfcUnit;

+ INVERSE

+	DocumentedBy : SET [0:1] OF IfcTimeSeriesReferenceRelationship FOR ReferencedTimeSeries;

+END_ENTITY;

+

+ENTITY IfcTimeSeriesReferenceRelationship;

+	ReferencedTimeSeries : IfcTimeSeries;

+	TimeSeriesReferences : SET [1:?] OF IfcDocumentSelect;

+END_ENTITY;

+

+ENTITY IfcTimeSeriesSchedule

+ SUBTYPE OF (IfcControl);

+	ApplicableDates : OPTIONAL LIST [1:?] OF IfcDateTimeSelect;

+	TimeSeriesScheduleType : IfcTimeSeriesScheduleTypeEnum;

+	TimeSeries : IfcTimeSeries;

+ WHERE

+	WR41 : NOT(TimeSeriesScheduleType=IfcTimeSeriesScheduleTypeEnum.USERDEFINED) OR EXISTS(SELF\IfcObject.ObjectType);

+END_ENTITY;

+

+ENTITY IfcTimeSeriesValue;

+	ListValues : LIST [1:?] OF IfcValue;

+END_ENTITY;

+

+ENTITY IfcTopologicalRepresentationItem

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcConnectedFaceSet

+	,IfcEdge

+	,IfcFace

+	,IfcFaceBound

+	,IfcLoop

+	,IfcPath

+	,IfcVertex))

+ SUBTYPE OF (IfcRepresentationItem);

+END_ENTITY;

+

+ENTITY IfcTopologyRepresentation

+ SUBTYPE OF (IfcShapeModel);

+ WHERE

+	WR21 : SIZEOF(QUERY(temp <* SELF\IfcRepresentation.Items | 

+               NOT('IFC2X3.IFCTOPOLOGICALREPRESENTATIONITEM' IN TYPEOF(temp))

+             )) = 0;

+	WR22 : EXISTS(SELF\IfcRepresentation.RepresentationType);

+	WR23 : IfcTopologyRepresentationTypes(SELF\IfcRepresentation.RepresentationType, SELF\IfcRepresentation.Items);

+END_ENTITY;

+

+ENTITY IfcTransformerType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcTransformerTypeEnum;

+END_ENTITY;

+

+ENTITY IfcTransportElement

+ SUBTYPE OF (IfcElement);

+	OperationType : OPTIONAL IfcTransportElementTypeEnum;

+	CapacityByWeight : OPTIONAL IfcMassMeasure;

+	CapacityByNumber : OPTIONAL IfcCountMeasure;

+END_ENTITY;

+

+ENTITY IfcTransportElementType

+ SUBTYPE OF (IfcElementType);

+	PredefinedType : IfcTransportElementTypeEnum;

+END_ENTITY;

+

+ENTITY IfcTrapeziumProfileDef

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	BottomXDim : IfcPositiveLengthMeasure;

+	TopXDim : IfcPositiveLengthMeasure;

+	YDim : IfcPositiveLengthMeasure;

+	TopXOffset : IfcLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcTrimmedCurve

+ SUBTYPE OF (IfcBoundedCurve);

+	BasisCurve : IfcCurve;

+	Trim1 : SET [1:2] OF IfcTrimmingSelect;

+	Trim2 : SET [1:2] OF IfcTrimmingSelect;

+	SenseAgreement : BOOLEAN;

+	MasterRepresentation : IfcTrimmingPreference;

+ WHERE

+	WR41 : (HIINDEX(Trim1) = 1) OR (TYPEOF(Trim1[1]) <> TYPEOF(Trim1[2]));

+	WR42 : (HIINDEX(Trim2) = 1) OR (TYPEOF(Trim2[1]) <> TYPEOF(Trim2[2]));

+	WR43 : NOT('IFC2X3.IFCBOUNDEDCURVE' IN TYPEOF(BasisCurve));

+END_ENTITY;

+

+ENTITY IfcTubeBundleType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcTubeBundleTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcTubeBundleTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcTubeBundleTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcTwoDirectionRepeatFactor

+ SUBTYPE OF (IfcOneDirectionRepeatFactor);

+	SecondRepeatFactor : IfcVector;

+END_ENTITY;

+

+ENTITY IfcTypeObject

+ SUPERTYPE OF (ONEOF

+	(IfcTypeProduct))

+ SUBTYPE OF (IfcObjectDefinition);

+	ApplicableOccurrence : OPTIONAL IfcLabel;

+	HasPropertySets : OPTIONAL SET [1:?] OF IfcPropertySetDefinition;

+ INVERSE

+	ObjectTypeOf : SET [0:1] OF IfcRelDefinesByType FOR RelatingType;

+ WHERE

+	WR1 : EXISTS(SELF\IfcRoot.Name);

+END_ENTITY;

+

+ENTITY IfcTypeProduct

+ SUPERTYPE OF (ONEOF

+	(IfcDoorStyle

+	,IfcElementType

+	,IfcWindowStyle))

+ SUBTYPE OF (IfcTypeObject);

+	RepresentationMaps : OPTIONAL LIST [1:?] OF UNIQUE IfcRepresentationMap;

+	Tag : OPTIONAL IfcLabel;

+ WHERE

+	WR41 : NOT(EXISTS(SELF\IfcTypeObject.ObjectTypeOf[1])) OR

+             (SIZEOF(QUERY(temp <* SELF\IfcTypeObject.ObjectTypeOf[1].RelatedObjects |

+               NOT('IFC2X3.IFCPRODUCT' IN TYPEOF(temp)))

+             ) = 0);

+END_ENTITY;

+

+ENTITY IfcUShapeProfileDef

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	Depth : IfcPositiveLengthMeasure;

+	FlangeWidth : IfcPositiveLengthMeasure;

+	WebThickness : IfcPositiveLengthMeasure;

+	FlangeThickness : IfcPositiveLengthMeasure;

+	FilletRadius : OPTIONAL IfcPositiveLengthMeasure;

+	EdgeRadius : OPTIONAL IfcPositiveLengthMeasure;

+	FlangeSlope : OPTIONAL IfcPlaneAngleMeasure;

+	CentreOfGravityInX : OPTIONAL IfcPositiveLengthMeasure;

+ WHERE

+	WR21 : FlangeThickness < (Depth / 2.);

+	WR22 : WebThickness < FlangeWidth;

+END_ENTITY;

+

+ENTITY IfcUnitAssignment;

+	Units : SET [1:?] OF IfcUnit;

+ WHERE

+	WR01 : IfcCorrectUnitAssignment(Units);

+END_ENTITY;

+

+ENTITY IfcUnitaryEquipmentType

+ SUBTYPE OF (IfcEnergyConversionDeviceType);

+	PredefinedType : IfcUnitaryEquipmentTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcUnitaryEquipmentTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcUnitaryEquipmentTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcValveType

+ SUBTYPE OF (IfcFlowControllerType);

+	PredefinedType : IfcValveTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcValveTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcValveTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcVector

+ SUBTYPE OF (IfcGeometricRepresentationItem);

+	Orientation : IfcDirection;

+	Magnitude : IfcLengthMeasure;

+ DERIVE

+	Dim : IfcDimensionCount := Orientation.Dim;

+ WHERE

+	WR1 : Magnitude >= 0.0;

+END_ENTITY;

+

+ENTITY IfcVertex

+ SUPERTYPE OF (ONEOF

+	(IfcVertexPoint))

+ SUBTYPE OF (IfcTopologicalRepresentationItem);

+END_ENTITY;

+

+ENTITY IfcVertexBasedTextureMap;

+	TextureVertices : LIST [3:?] OF IfcTextureVertex;

+	TexturePoints : LIST [3:?] OF IfcCartesianPoint;

+END_ENTITY;

+

+ENTITY IfcVertexLoop

+ SUBTYPE OF (IfcLoop);

+	LoopVertex : IfcVertex;

+END_ENTITY;

+

+ENTITY IfcVertexPoint

+ SUBTYPE OF (IfcVertex);

+	VertexGeometry : IfcPoint;

+END_ENTITY;

+

+ENTITY IfcVibrationIsolatorType

+ SUBTYPE OF (IfcDiscreteAccessoryType);

+	PredefinedType : IfcVibrationIsolatorTypeEnum;

+ WHERE

+	WR1 : (PredefinedType <> IfcVibrationIsolatorTypeEnum.USERDEFINED) OR

+            ((PredefinedType = IfcVibrationIsolatorTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcElementType.ElementType));

+END_ENTITY;

+

+ENTITY IfcVirtualElement

+ SUBTYPE OF (IfcElement);

+END_ENTITY;

+

+ENTITY IfcVirtualGridIntersection;

+	IntersectingAxes : LIST [2:2] OF UNIQUE IfcGridAxis;

+	OffsetDistances : LIST [2:3] OF IfcLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcWall

+ SUPERTYPE OF (ONEOF

+	(IfcWallStandardCase))

+ SUBTYPE OF (IfcBuildingElement);

+ WHERE

+	WR1 : SIZEOF (QUERY(temp <* SELF\IfcObjectDefinition.HasAssociations |

+              'IFC2X3.IFCRELASSOCIATESMATERIAL' IN TYPEOF(temp)

+              )) <= 1;

+END_ENTITY;

+

+ENTITY IfcWallStandardCase

+ SUBTYPE OF (IfcWall);

+ WHERE

+	WR1 : SIZEOF (QUERY(temp <* USEDIN(SELF, 'IFC2X3.IFCRELASSOCIATES.RELATEDOBJECTS') |

+                          ('IFC2X3.IFCRELASSOCIATESMATERIAL' IN TYPEOF(temp)) AND

+                          ('IFC2X3.IFCMATERIALLAYERSETUSAGE' IN TYPEOF(temp.RelatingMaterial))

+                          )) = 1;

+END_ENTITY;

+

+ENTITY IfcWallType

+ SUBTYPE OF (IfcBuildingElementType);

+	PredefinedType : IfcWallTypeEnum;

+END_ENTITY;

+

+ENTITY IfcWasteTerminalType

+ SUBTYPE OF (IfcFlowTerminalType);

+	PredefinedType : IfcWasteTerminalTypeEnum;

+END_ENTITY;

+

+ENTITY IfcWaterProperties

+ SUBTYPE OF (IfcMaterialProperties);

+	IsPotable : OPTIONAL BOOLEAN;

+	Hardness : OPTIONAL IfcIonConcentrationMeasure;

+	AlkalinityConcentration : OPTIONAL IfcIonConcentrationMeasure;

+	AcidityConcentration : OPTIONAL IfcIonConcentrationMeasure;

+	ImpuritiesContent : OPTIONAL IfcNormalisedRatioMeasure;

+	PHLevel : OPTIONAL IfcPHMeasure;

+	DissolvedSolidsContent : OPTIONAL IfcNormalisedRatioMeasure;

+ UNIQUE

+	UR11 : Material;

+END_ENTITY;

+

+ENTITY IfcWindow

+ SUBTYPE OF (IfcBuildingElement);

+	OverallHeight : OPTIONAL IfcPositiveLengthMeasure;

+	OverallWidth : OPTIONAL IfcPositiveLengthMeasure;

+END_ENTITY;

+

+ENTITY IfcWindowLiningProperties

+ SUBTYPE OF (IfcPropertySetDefinition);

+	LiningDepth : OPTIONAL IfcPositiveLengthMeasure;

+	LiningThickness : OPTIONAL IfcPositiveLengthMeasure;

+	TransomThickness : OPTIONAL IfcPositiveLengthMeasure;

+	MullionThickness : OPTIONAL IfcPositiveLengthMeasure;

+	FirstTransomOffset : OPTIONAL IfcNormalisedRatioMeasure;

+	SecondTransomOffset : OPTIONAL IfcNormalisedRatioMeasure;

+	FirstMullionOffset : OPTIONAL IfcNormalisedRatioMeasure;

+	SecondMullionOffset : OPTIONAL IfcNormalisedRatioMeasure;

+	ShapeAspectStyle : OPTIONAL IfcShapeAspect;

+ WHERE

+	WR31 : NOT(NOT(EXISTS(LiningDepth)) AND EXISTS(LiningThickness));

+	WR32 : NOT(NOT(EXISTS(FirstTransomOffset)) AND EXISTS(SecondTransomOffset));

+	WR33 : NOT(NOT(EXISTS(FirstMullionOffset)) AND EXISTS(SecondMullionOffset));

+	WR34 : EXISTS(SELF\IfcPropertySetDefinition.DefinesType[1]) AND 

+             ('IFC2X3.IFCWINDOWSTYLE' IN TYPEOF(SELF\IfcPropertySetDefinition.DefinesType[1]));

+END_ENTITY;

+

+ENTITY IfcWindowPanelProperties

+ SUBTYPE OF (IfcPropertySetDefinition);

+	OperationType : IfcWindowPanelOperationEnum;

+	PanelPosition : IfcWindowPanelPositionEnum;

+	FrameDepth : OPTIONAL IfcPositiveLengthMeasure;

+	FrameThickness : OPTIONAL IfcPositiveLengthMeasure;

+	ShapeAspectStyle : OPTIONAL IfcShapeAspect;

+END_ENTITY;

+

+ENTITY IfcWindowStyle

+ SUBTYPE OF (IfcTypeProduct);

+	ConstructionType : IfcWindowStyleConstructionEnum;

+	OperationType : IfcWindowStyleOperationEnum;

+	ParameterTakesPrecedence : BOOLEAN;

+	Sizeable : BOOLEAN;

+END_ENTITY;

+

+ENTITY IfcWorkControl

+ ABSTRACT SUPERTYPE OF (ONEOF

+	(IfcWorkPlan

+	,IfcWorkSchedule))

+ SUBTYPE OF (IfcControl);

+	Identifier : IfcIdentifier;

+	CreationDate : IfcDateTimeSelect;

+	Creators : OPTIONAL SET [1:?] OF IfcPerson;

+	Purpose : OPTIONAL IfcLabel;

+	Duration : OPTIONAL IfcTimeMeasure;

+	TotalFloat : OPTIONAL IfcTimeMeasure;

+	StartTime : IfcDateTimeSelect;

+	FinishTime : OPTIONAL IfcDateTimeSelect;

+	WorkControlType : OPTIONAL IfcWorkControlTypeEnum;

+	UserDefinedControlType : OPTIONAL IfcLabel;

+ WHERE

+	WR1 : (WorkControlType <> IfcWorkControlTypeEnum.USERDEFINED) OR

+            ((WorkControlType = IfcWorkControlTypeEnum.USERDEFINED) AND EXISTS(SELF\IfcWorkControl.UserDefinedControlType));

+END_ENTITY;

+

+ENTITY IfcWorkPlan

+ SUBTYPE OF (IfcWorkControl);

+END_ENTITY;

+

+ENTITY IfcWorkSchedule

+ SUBTYPE OF (IfcWorkControl);

+END_ENTITY;

+

+ENTITY IfcZShapeProfileDef

+ SUBTYPE OF (IfcParameterizedProfileDef);

+	Depth : IfcPositiveLengthMeasure;

+	FlangeWidth : IfcPositiveLengthMeasure;

+	WebThickness : IfcPositiveLengthMeasure;

+	FlangeThickness : IfcPositiveLengthMeasure;

+	FilletRadius : OPTIONAL IfcPositiveLengthMeasure;

+	EdgeRadius : OPTIONAL IfcPositiveLengthMeasure;

+ WHERE

+	WR21 : FlangeThickness < (Depth / 2.);

+END_ENTITY;

+

+ENTITY IfcZone

+ SUBTYPE OF (IfcGroup);

+ WHERE

+	WR1 : SIZEOF (QUERY (temp <* SELF\IfcGroup.IsGroupedBy.RelatedObjects |  NOT(('IFC2X3.IFCZONE' IN TYPEOF(temp)) OR ('IFC2X3.IFCSPACE' IN TYPEOF(temp))) )) = 0;

+END_ENTITY;

+

+FUNCTION IfcAddToBeginOfList

+	(AScalar : GENERIC;

+       AList   : LIST OF GENERIC:AL)

+	: LIST[1:?] OF GENERIC:AL;

+    

+      LOCAL

+        Result : LIST OF GENERIC:AL := [];

+      END_LOCAL;

+  

+    IF NOT(EXISTS(AScalar)) THEN

+      Result := AList;

+    ELSE

+      Result := Result + AScalar;

+      IF (HIINDEX(AList) >= 1) THEN

+        REPEAT i:=1 TO HIINDEX(AList);

+          Result[i+1] := AList[i];

+        END_REPEAT;

+      END_IF;

+    END_IF;

+    RETURN(Result);

+END_FUNCTION;

+

+FUNCTION IfcBaseAxis

+	(Dim : INTEGER; 

+     Axis1, Axis2, Axis3 : IfcDirection)

+	: LIST [2:3] OF IfcDirection;

+  

+  LOCAL

+    U : LIST [2:3] OF IfcDirection;

+    Factor : REAL;

+    D1, D2 : IfcDirection;

+  END_LOCAL;

+  

+    IF (Dim = 3) THEN 

+      D1 := NVL(IfcNormalise(Axis3), IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([0.0,0.0,1.0]));

+      D2 := IfcFirstProjAxis(D1, Axis1);

+      U  := [D2, IfcSecondProjAxis(D1, D2, Axis2), D1];

+    ELSE

+      IF EXISTS(Axis1) THEN

+        D1 := IfcNormalise(Axis1);

+        U  := [D1, IfcOrthogonalComplement(D1)];

+        IF EXISTS(Axis2) THEN

+          Factor := IfcDotProduct(Axis2, U[2]);

+          IF (Factor < 0.0) THEN

+            U[2].DirectionRatios[1] := -U[2].DirectionRatios[1];

+            U[2].DirectionRatios[2] := -U[2].DirectionRatios[2];

+          END_IF;

+        END_IF;

+      ELSE

+        IF EXISTS(Axis2) THEN

+          D1 := IfcNormalise(Axis2);

+          U  := [IfcOrthogonalComplement(D1), D1];

+          U[1].DirectionRatios[1] := -U[1].DirectionRatios[1];

+          U[1].DirectionRatios[2] := -U[1].DirectionRatios[2];

+          ELSE

+            U := [IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([1.0, 0.0]), 

+                  IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([0.0, 1.0])];

+        END_IF;

+      END_IF;

+    END_IF;

+    RETURN(U);

+END_FUNCTION;

+

+FUNCTION IfcBooleanChoose

+	(B : BOOLEAN ;

+       Choice1, Choice2 : Generic : Item)

+	: Generic : Item;

+    IF B THEN

+       RETURN (Choice1);

+    ELSE

+       RETURN (Choice2);

+    END_IF;

+END_FUNCTION;

+

+FUNCTION IfcBuild2Axes

+	(RefDirection : IfcDirection)

+	: LIST [2:2] OF IfcDirection;

+  LOCAL

+    D : IfcDirection := NVL(IfcNormalise(RefDirection),

+        IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([1.0,0.0]));

+  END_LOCAL;

+    RETURN([D, IfcOrthogonalComplement(D)]);

+END_FUNCTION;

+

+FUNCTION IfcBuildAxes

+	(Axis, RefDirection : IfcDirection)

+	: LIST [3:3] OF IfcDirection;

+  LOCAL

+    D1, D2 : IfcDirection;

+  END_LOCAL;

+    D1 := NVL(IfcNormalise(Axis), IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([0.0,0.0,1.0]));

+    D2 := IfcFirstProjAxis(D1, RefDirection);

+    RETURN ([D2, IfcNormalise(IfcCrossProduct(D1,D2)).Orientation, D1]);

+END_FUNCTION;

+

+FUNCTION IfcCorrectDimensions

+	(m   : IfcUnitEnum; Dim : IfcDimensionalExponents)

+	: LOGICAL;  

+  CASE m OF

+    LENGTHUNIT : IF

+      Dim = (IfcDimensionalExponents (1, 0, 0, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    MASSUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 1, 0, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    TIMEUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, 1, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    ELECTRICCURRENTUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, 0, 1, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    THERMODYNAMICTEMPERATUREUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, 0, 0, 1, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    AMOUNTOFSUBSTANCEUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, 0, 0, 0, 1, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    LUMINOUSINTENSITYUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, 0, 0, 0, 0, 1))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    PLANEANGLEUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, 0, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    SOLIDANGLEUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, 0, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    AREAUNIT : IF

+      Dim = (IfcDimensionalExponents (2, 0, 0, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    VOLUMEUNIT : IF

+      Dim = (IfcDimensionalExponents (3, 0, 0, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+  

+    ABSORBEDDOSEUNIT : IF

+      Dim = (IfcDimensionalExponents (2, 0, -2, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    RADIOACTIVITYUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, -1, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    ELECTRICCAPACITANCEUNIT : IF

+      Dim = (IfcDimensionalExponents (-2, 1, 4, 1, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    DOSEEQUIVALENTUNIT : IF

+      Dim = (IfcDimensionalExponents (2, 0, -2, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    ELECTRICCHARGEUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, 1, 1, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    ELECTRICCONDUCTANCEUNIT : IF

+      Dim = (IfcDimensionalExponents (-2, -1, 3, 2, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    ELECTRICVOLTAGEUNIT : IF

+      Dim = (IfcDimensionalExponents (2, 1, -3, -1, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    ELECTRICRESISTANCEUNIT : IF

+      Dim = (IfcDimensionalExponents (2, 1, -3, -2, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    ENERGYUNIT : IF

+      Dim = (IfcDimensionalExponents (2, 1, -2, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    FORCEUNIT : IF

+      Dim = (IfcDimensionalExponents (1, 1, -2, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    FREQUENCYUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, -1, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    INDUCTANCEUNIT : IF

+      Dim = (IfcDimensionalExponents (2, 1, -2, -2, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    ILLUMINANCEUNIT : IF

+      Dim = (IfcDimensionalExponents (-2, 0, 0, 0, 0, 0, 1))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    LUMINOUSFLUXUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 0, 0, 0, 0, 0, 1))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    MAGNETICFLUXUNIT : IF

+      Dim = (IfcDimensionalExponents (2, 1, -2, -1, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    MAGNETICFLUXDENSITYUNIT : IF

+      Dim = (IfcDimensionalExponents (0, 1, -2, -1, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    POWERUNIT : IF

+      Dim = (IfcDimensionalExponents (2, 1, -3, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+    PRESSUREUNIT : IF

+      Dim = (IfcDimensionalExponents (-1, 1, -2, 0, 0, 0, 0))

+        THEN RETURN(TRUE);

+        ELSE RETURN(FALSE);

+      END_IF;

+  

+    OTHERWISE :

+      RETURN (UNKNOWN);

+  END_CASE;

+END_FUNCTION;

+

+FUNCTION IfcCorrectLocalPlacement

+	(AxisPlacement:IfcAxis2Placement; 

+     RelPlacement : IfcObjectPlacement)

+	: LOGICAL;

+  

+    IF (EXISTS(RelPlacement)) THEN

+      IF ('IFC2X3.IFCGRIDPLACEMENT' IN TYPEOF(RelPlacement)) THEN

+        RETURN(?);

+      END_IF;

+      IF ('IFC2X3.IFCLOCALPLACEMENT' IN TYPEOF(RelPlacement)) THEN

+        IF ('IFC2X3.IFCAXIS2PLACEMENT2D' IN TYPEOF(AxisPlacement)) THEN

+          RETURN(TRUE);

+        END_IF;

+        IF ('IFC2X3.IFCAXIS2PLACEMENT3D' IN TYPEOF(AxisPlacement)) THEN

+          IF (RelPlacement.RelativePlacement.Dim = 3) THEN

+            RETURN(TRUE);

+          ELSE

+            RETURN(FALSE);

+          END_IF;

+        END_IF;

+      END_IF;

+    ELSE

+      RETURN(TRUE);  

+    END_IF;

+    RETURN(?);

+END_FUNCTION;

+

+FUNCTION IfcCorrectObjectAssignment

+	(Constraint: IfcObjectTypeEnum; Objects : SET[1:?] OF IfcObjectDefinition)

+	: LOGICAL;

+    

+  LOCAL

+    Count : INTEGER := 0;

+  END_LOCAL;

+  

+      IF NOT(EXISTS(Constraint)) THEN 

+        RETURN(TRUE);

+      END_IF;

+    

+      CASE Constraint OF

+        IfcObjectTypeEnum.NOTDEFINED : RETURN(TRUE);

+        IfcObjectTypeEnum.PRODUCT :

+          BEGIN

+            Count := SIZEOF(QUERY(temp <* Objects | NOT('IFC2X3.IFCPRODUCT' IN TYPEOF(temp))));

+            RETURN(Count = 0);

+          END;

+        IfcObjectTypeEnum.PROCESS :

+          BEGIN

+            Count := SIZEOF(QUERY(temp <* Objects | NOT('IFC2X3.IFCPROCESS' IN TYPEOF(temp))));

+            RETURN(Count = 0);

+          END;

+        IfcObjectTypeEnum.CONTROL :

+          BEGIN

+            Count := SIZEOF(QUERY(temp <* Objects | NOT('IFC2X3.IFCCONTROL' IN TYPEOF(temp))));

+            RETURN(Count = 0);

+          END;

+        IfcObjectTypeEnum.RESOURCE :

+          BEGIN

+            Count := SIZEOF(QUERY(temp <* Objects | NOT('IFC2X3.IFCRESOURCE' IN TYPEOF(temp))));

+            RETURN(Count = 0);

+          END;

+        IfcObjectTypeEnum.ACTOR :

+          BEGIN

+            Count := SIZEOF(QUERY(temp <* Objects | NOT('IFC2X3.IFCACTOR' IN TYPEOF(temp))));

+            RETURN(Count = 0);

+          END;

+        IfcObjectTypeEnum.GROUP :

+          BEGIN

+            Count := SIZEOF(QUERY(temp <* Objects | NOT('IFC2X3.IFCGROUP' IN TYPEOF(temp))));

+            RETURN(Count = 0);

+          END;

+        IfcObjectTypeEnum.PROJECT :

+          BEGIN

+            Count := SIZEOF(QUERY(temp <* Objects | NOT('IFC2X3.IFCPROJECT' IN TYPEOF(temp))));

+            RETURN(Count = 0);

+          END;

+        OTHERWISE : RETURN(?);

+      END_CASE;

+END_FUNCTION;

+

+FUNCTION IfcCorrectUnitAssignment

+	(Units : SET [1:?] OF IfcUnit)

+	: LOGICAL;

+  

+    LOCAL

+      NamedUnitNumber    : INTEGER := 0;

+      DerivedUnitNumber  : INTEGER := 0;

+      MonetaryUnitNumber : INTEGER := 0;

+      NamedUnitNames     : SET OF IfcUnitEnum := [];

+      DerivedUnitNames   : SET OF IfcDerivedUnitEnum := [];

+    END_LOCAL;

+  

+    NamedUnitNumber    := SIZEOF(QUERY(temp <* Units | ('IFC2X3.IFCNAMEDUNIT' IN TYPEOF(temp)) AND NOT(temp.UnitType = IfcUnitEnum.USERDEFINED)));

+    DerivedUnitNumber  := SIZEOF(QUERY(temp <* Units | ('IFC2X3.IFCDERIVEDUNIT' IN TYPEOF(temp)) AND NOT(temp.UnitType = IfcDerivedUnitEnum.USERDEFINED)));

+    MonetaryUnitNumber := SIZEOF(QUERY(temp <* Units |  'IFC2X3.IFCMONETARYUNIT' IN TYPEOF(temp)));

+  

+    REPEAT i := 1 TO SIZEOF(Units);

+      IF (('IFC2X3.IFCNAMEDUNIT' IN TYPEOF(Units[i])) AND NOT(Units[i].UnitType = IfcUnitEnum.USERDEFINED)) THEN

+          NamedUnitNames := NamedUnitNames + Units[i].UnitType;

+      END_IF;

+      IF (('IFC2X3.IFCDERIVEDUNIT' IN TYPEOF(Units[i])) AND NOT(Units[i].UnitType = IfcDerivedUnitEnum.USERDEFINED)) THEN

+          DerivedUnitNames := DerivedUnitNames + Units[i].UnitType;

+      END_IF;

+    END_REPEAT;

+  

+    RETURN((SIZEOF(NamedUnitNames) = NamedUnitNumber) AND (SIZEOF(DerivedUnitNames) = DerivedUnitNumber) AND (MonetaryUnitNumber <= 1));

+END_FUNCTION;

+

+FUNCTION IfcCrossProduct

+	(Arg1, Arg2 : IfcDirection)

+	: IfcVector;

+  LOCAL

+    Mag : REAL;

+    Res : IfcDirection;

+    V1,V2  : LIST[3:3] OF REAL;

+    Result : IfcVector;

+  END_LOCAL;

+  

+    IF (NOT EXISTS (Arg1) OR (Arg1.Dim = 2)) OR (NOT EXISTS (Arg2) OR (Arg2.Dim = 2)) THEN

+      RETURN(?);

+    ELSE

+      BEGIN

+        V1  := IfcNormalise(Arg1).DirectionRatios;

+        V2  := IfcNormalise(Arg2).DirectionRatios;

+        Res := IfcRepresentationItem() || IfcGeometricRepresentationItem () 

+               || IfcDirection([(V1[2]*V2[3] - V1[3]*V2[2]), (V1[3]*V2[1] - V1[1]*V2[3]), (V1[1]*V2[2] - V1[2]*V2[1])]);

+        Mag := 0.0;

+        REPEAT i := 1 TO 3;

+          Mag := Mag + Res.DirectionRatios[i]*Res.DirectionRatios[i];

+        END_REPEAT;

+        IF (Mag > 0.0) THEN

+          Result := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector(Res, SQRT(Mag));

+        ELSE

+          Result := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector(Arg1, 0.0);

+        END_IF;

+        RETURN(Result);

+      END;

+    END_IF;

+END_FUNCTION;

+

+FUNCTION IfcCurveDim

+	(Curve : IfcCurve)

+	: IfcDimensionCount;

+  

+    IF ('IFC2X3.IFCLINE' IN TYPEOF(Curve))

+      THEN RETURN(Curve.Pnt.Dim);

+    END_IF;

+    IF ('IFC2X3.IFCCONIC' IN TYPEOF(Curve))

+      THEN RETURN(Curve.Position.Dim);

+    END_IF;

+    IF ('IFC2X3.IFCPOLYLINE' IN TYPEOF(Curve))

+      THEN RETURN(Curve.Points[1].Dim);

+    END_IF;

+    IF ('IFC2X3.IFCTRIMMEDCURVE' IN TYPEOF(Curve))

+      THEN RETURN(IfcCurveDim(Curve.BasisCurve));

+    END_IF;

+    IF ('IFC2X3.IFCCOMPOSITECURVE' IN TYPEOF(Curve))

+      THEN RETURN(Curve.Segments[1].Dim);

+    END_IF;

+    IF ('IFC2X3.IFCBSPLINECURVE' IN TYPEOF(Curve))

+      THEN RETURN(Curve.ControlPointsList[1].Dim);

+    END_IF;

+    IF ('IFC2X3.IFCOFFSETCURVE2D' IN TYPEOF(Curve))

+      THEN RETURN(2); 

+    END_IF;

+    IF ('IFC2X3.IFCOFFSETCURVE3D' IN TYPEOF(Curve))

+      THEN RETURN(3);

+    END_IF;

+  RETURN (?);

+END_FUNCTION;

+

+FUNCTION IfcCurveWeightsPositive

+	(B: IfcRationalBezierCurve)

+	: BOOLEAN;

+     LOCAL

+       Result : BOOLEAN := TRUE;

+     END_LOCAL;

+  

+     REPEAT i := 0 TO B.UpperIndexOnControlPoints;

+       IF B.Weights[i] <= 0.0  THEN

+         Result := FALSE;

+         RETURN(Result);

+       END_IF;

+     END_REPEAT;

+     RETURN(Result);

+END_FUNCTION;

+

+FUNCTION IfcDeriveDimensionalExponents

+	(x : IfcUnit)

+	: IfcDimensionalExponents;  

+    LOCAL

+      Result : IfcDimensionalExponents :=

+               IfcDimensionalExponents(0, 0, 0, 0, 0, 0, 0);  

+    END_LOCAL;

+    IF 'IFC2X3.IFCDERIVEDUNIT' IN TYPEOF(x) THEN

+      REPEAT i := LOINDEX(x.Elements) TO HIINDEX(x.Elements);

+        Result.LengthExponent :=        Result.LengthExponent +

+          (x.Elements[i].Exponent *

+           x.Elements[i].Unit.Dimensions.LengthExponent);

+        Result.MassExponent :=        Result.MassExponent  +

+          (x.Elements[i].Exponent *

+           x.Elements[i].Unit.Dimensions.MassExponent);

+        Result.TimeExponent :=        Result.TimeExponent +

+          (x.Elements[i].Exponent *

+           x.Elements[i].Unit.Dimensions.TimeExponent);

+        Result.ElectricCurrentExponent :=        Result.ElectricCurrentExponent +

+          (x.Elements[i].Exponent *

+           x.Elements[i].Unit.Dimensions.ElectricCurrentExponent);

+        Result.ThermodynamicTemperatureExponent :=

+          Result.ThermodynamicTemperatureExponent +

+          (x.Elements[i].Exponent *

+           x.Elements[i].Unit.Dimensions.ThermodynamicTemperatureExponent);

+        Result.AmountOfSubstanceExponent :=

+          Result.AmountOfSubstanceExponent +        (x.Elements[i].Exponent *

+           x.Elements[i].Unit.Dimensions.AmountOfSubstanceExponent);

+        Result.LuminousIntensityExponent :=

+          Result.LuminousIntensityExponent +        (x.Elements[i].Exponent *

+           x.Elements[i].Unit.Dimensions.LuminousIntensityExponent);

+      END_REPEAT;  

+    ELSE 

+      Result := x.Dimensions;  

+    END_IF;  

+  RETURN (Result);

+END_FUNCTION;

+

+FUNCTION IfcDimensionsForSiUnit

+	(n : IfcSiUnitName )

+	: IfcDimensionalExponents;

+    CASE n OF

+      METRE          : RETURN (IfcDimensionalExponents

+                               (1, 0, 0, 0, 0, 0, 0));

+      SQUARE_METRE   : RETURN (IfcDimensionalExponents

+                               (2, 0, 0, 0, 0, 0, 0));

+      CUBIC_METRE    : RETURN (IfcDimensionalExponents

+                               (3, 0, 0, 0, 0, 0, 0));

+      GRAM           : RETURN (IfcDimensionalExponents

+                               (0, 1, 0, 0, 0, 0, 0));

+      SECOND         : RETURN (IfcDimensionalExponents

+                               (0, 0, 1, 0, 0, 0, 0));

+      AMPERE         : RETURN (IfcDimensionalExponents

+                               (0, 0, 0, 1, 0, 0, 0));

+      KELVIN         : RETURN (IfcDimensionalExponents

+                               (0, 0, 0, 0, 1, 0, 0));

+      MOLE           : RETURN (IfcDimensionalExponents

+                               (0, 0, 0, 0, 0, 1, 0));

+      CANDELA        : RETURN (IfcDimensionalExponents

+                               (0, 0, 0, 0, 0, 0, 1));

+      RADIAN         : RETURN (IfcDimensionalExponents

+                               (0, 0, 0, 0, 0, 0, 0));

+      STERADIAN      : RETURN (IfcDimensionalExponents

+                               (0, 0, 0, 0, 0, 0, 0));

+      HERTZ          : RETURN (IfcDimensionalExponents

+                               (0, 0, -1, 0, 0, 0, 0));

+      NEWTON         : RETURN (IfcDimensionalExponents

+                               (1, 1, -2, 0, 0, 0, 0));

+      PASCAL         : RETURN (IfcDimensionalExponents

+                               (-1, 1, -2, 0, 0, 0, 0));

+      JOULE          : RETURN (IfcDimensionalExponents

+                               (2, 1, -2, 0, 0, 0, 0));

+      WATT           : RETURN (IfcDimensionalExponents

+                               (2, 1, -3, 0, 0, 0, 0));

+      COULOMB        : RETURN (IfcDimensionalExponents

+                               (0, 0, 1, 1, 0, 0, 0));

+      VOLT           : RETURN (IfcDimensionalExponents

+                               (2, 1, -3, -1, 0, 0, 0));

+      FARAD          : RETURN (IfcDimensionalExponents

+                               (-2, -1, 4, 1, 0, 0, 0));

+      OHM            : RETURN (IfcDimensionalExponents

+                               (2, 1, -3, -2, 0, 0, 0));

+      SIEMENS        : RETURN (IfcDimensionalExponents

+                               (-2, -1, 3, 2, 0, 0, 0));

+      WEBER          : RETURN (IfcDimensionalExponents

+                               (2, 1, -2, -1, 0, 0, 0));

+      TESLA          : RETURN (IfcDimensionalExponents

+                               (0, 1, -2, -1, 0, 0, 0));

+      HENRY          : RETURN (IfcDimensionalExponents

+                               (2, 1, -2, -2, 0, 0, 0));

+      DEGREE_CELSIUS : RETURN (IfcDimensionalExponents

+                               (0, 0, 0, 0, 1, 0, 0));

+      LUMEN          : RETURN (IfcDimensionalExponents

+                               (0, 0, 0, 0, 0, 0, 1));

+      LUX            : RETURN (IfcDimensionalExponents

+                               (-2, 0, 0, 0, 0, 0, 1));

+      BECQUEREL      : RETURN (IfcDimensionalExponents

+                               (0, 0, -1, 0, 0, 0, 0));

+      GRAY           : RETURN (IfcDimensionalExponents

+                               (2, 0, -2, 0, 0, 0, 0));

+      SIEVERT        : RETURN (IfcDimensionalExponents

+                               (2, 0, -2, 0, 0, 0, 0));

+      OTHERWISE      : RETURN (IfcDimensionalExponents

+                               (0, 0, 0, 0, 0, 0, 0));

+    END_CASE;

+END_FUNCTION;

+

+FUNCTION IfcDotProduct

+	(Arg1, Arg2 : IfcDirection)

+	: REAL;

+  LOCAL

+    Scalar : REAL;

+    Vec1, Vec2 : IfcDirection;

+    Ndim   : INTEGER;

+  END_LOCAL;

+  

+    IF NOT EXISTS (Arg1) OR NOT EXISTS (Arg2) THEN

+      Scalar := ?;

+    ELSE

+      IF (Arg1.Dim <> Arg2.Dim) THEN

+        Scalar := ?;

+      ELSE

+        BEGIN

+          Vec1 := IfcNormalise(Arg1);

+          Vec2 := IfcNormalise(Arg2);

+          Ndim := Arg1.Dim;

+          Scalar := 0.0;

+          REPEAT i := 1 TO Ndim;

+            Scalar := Scalar + Vec1.DirectionRatios[i]*Vec2.DirectionRatios[i];

+          END_REPEAT;

+        END;

+      END_IF;

+    END_IF;

+    RETURN (Scalar);

+END_FUNCTION;

+

+FUNCTION IfcFirstProjAxis

+	(ZAxis, Arg : IfcDirection)

+	: IfcDirection;

+  LOCAL

+    XAxis : IfcDirection;

+    V     : IfcDirection;

+    Z     : IfcDirection;

+    XVec  : IfcVector;

+  END_LOCAL;

+  

+    IF (NOT EXISTS(ZAxis)) THEN

+      RETURN (?) ;

+    ELSE

+      Z := IfcNormalise(ZAxis);

+      IF NOT EXISTS(Arg) THEN

+        IF (Z.DirectionRatios <> [1.0,0.0,0.0]) THEN

+          V := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([1.0,0.0,0.0]);

+        ELSE

+          V := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([0.0,1.0,0.0]);

+        END_IF;

+      ELSE

+        IF (Arg.Dim <> 3) THEN

+          RETURN (?) ;

+        END_IF;

+        IF ((IfcCrossProduct(Arg,Z).Magnitude) = 0.0) THEN

+          RETURN (?);

+        ELSE

+          V := IfcNormalise(Arg);

+        END_IF;

+      END_IF;

+      XVec  := IfcScalarTimesVector(IfcDotProduct(V, Z), Z);

+      XAxis := IfcVectorDifference(V, XVec).Orientation;

+      XAxis := IfcNormalise(XAxis);

+    END_IF;

+    RETURN(XAxis);

+END_FUNCTION;

+

+FUNCTION IfcLeapYear

+	(Year : IfcYearNumber)

+	: BOOLEAN;

+  

+  IF ((((Year MOD 4) = 0) AND ((Year MOD 100) <> 0)) OR

+              ((Year MOD 400) = 0)) THEN

+    RETURN(TRUE);

+  ELSE

+    RETURN(FALSE);

+  END_IF;

+END_FUNCTION;

+

+FUNCTION IfcListToArray

+	(Lis : LIST [0:?] OF GENERIC : T;

+         Low,U : INTEGER)

+	: ARRAY OF GENERIC : T;

+     LOCAL

+       N   : INTEGER;

+       Res : ARRAY [Low:U] OF GENERIC : T;

+     END_LOCAL;

+        

+     N := SIZEOF(Lis);

+     IF (N <> (U-Low +1)) THEN

+       RETURN(?);

+     ELSE

+       Res := [Lis[1] : N];

+       REPEAT i := 2 TO N;

+         Res[Low+i-1] := Lis[i];

+       END_REPEAT;

+       RETURN(Res);

+     END_IF;

+END_FUNCTION;

+

+FUNCTION IfcLoopHeadToTail

+	(ALoop : IfcEdgeLoop)

+	: LOGICAL;

+     LOCAL

+       N : INTEGER;

+       P : LOGICAL := TRUE;

+     END_LOCAL;

+       

+       N := SIZEOF (ALoop.EdgeList);

+       REPEAT i := 2 TO N;

+         P := P AND (ALoop.EdgeList[i-1].EdgeEnd :=:

+                     ALoop.EdgeList[i].EdgeStart);

+       END_REPEAT;     

+       RETURN (P);

+END_FUNCTION;

+

+FUNCTION IfcMlsTotalThickness

+	(LayerSet : IfcMaterialLayerSet)

+	: IfcLengthMeasure;

+    LOCAL

+      Max : IfcLengthMeasure := LayerSet.MaterialLayers[1].LayerThickness;    

+    END_LOCAL;

+  

+    IF SIZEOF(LayerSet.MaterialLayers) > 1 THEN

+      REPEAT i := 2 TO HIINDEX(LayerSet.MaterialLayers);

+         Max := Max + LayerSet.MaterialLayers[i].LayerThickness;

+      END_REPEAT;

+    END_IF;

+    RETURN (Max);

+END_FUNCTION;

+

+FUNCTION IfcNoOfLayers

+	(Element : IfcElement )

+	: INTEGER;

+      

+      LOCAL

+        Association : BAG OF IfcRelAssociates := [];

+        MaterialAssociation : SET OF IfcRelAssociatesMaterial := [];

+      END_LOCAL;

+      

+      Association := USEDIN(Element, 'IFC2X3.IFCRELASSOCIATES.RELATEDOBJECTS');

+   

+      IF SIZEOF (Association) > 0 THEN

+        REPEAT i := 1 TO HIINDEX(Association);

+          IF ('IFC2X3.IFCRELASSOCIATESMATERIAL' IN TYPEOF(Association[i])) THEN 

+            MaterialAssociation := MaterialAssociation + Association[i];

+          END_IF;

+        END_REPEAT;

+      END_IF;

+      

+      IF (SIZEOF(MaterialAssociation) <> 1) THEN

+        RETURN (?);

+      ELSE

+        IF 'IFC2X3.IFCMATERIAL' IN TYPEOF(MaterialAssociation[1].RelatingMaterial) THEN

+           RETURN (1);

+        END_IF;

+        IF 'IFC2X3.IFCMATERIALLAYERSETUSAGE' IN TYPEOF(MaterialAssociation[1].RelatingMaterial) THEN

+           RETURN (SIZEOF(MaterialAssociation[1].RelatingMaterial.ForLayerSet.MaterialLayers));

+        END_IF;

+        IF 'IFC2X3.IFCMATERIALLIST' IN TYPEOF(MaterialAssociation[1].RelatingMaterial) THEN

+           RETURN (?);

+        END_IF;

+      END_IF;

+    

+      RETURN (?);

+END_FUNCTION;

+

+FUNCTION IfcNormalise

+	(Arg : IfcVectorOrDirection)

+	: IfcVectorOrDirection;

+  LOCAL

+    Ndim : INTEGER;

+    V    : IfcDirection

+         := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([1.,0.]); 

+    Vec  : IfcVector 

+         := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector (

+              IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([1.,0.]), 1.);

+    Mag  : REAL;

+    Result : IfcVectorOrDirection

+           := V;

+  END_LOCAL;

+  

+    IF NOT EXISTS (Arg) THEN

+      RETURN (?);

+    ELSE

+      Ndim := Arg.Dim;

+      IF 'IFC2X3.IFCVECTOR' IN TYPEOF(Arg) THEN

+        BEGIN

+  	V.DirectionRatios := Arg.Orientation.DirectionRatios;

+          Vec.Magnitude := Arg.Magnitude;

+  	Vec.Orientation := V;

+          IF Arg.Magnitude = 0.0 THEN

+            RETURN(?);

+          ELSE

+            Vec.Magnitude := 1.0;

+          END_IF;

+        END;

+      ELSE

+        V.DirectionRatios := Arg.DirectionRatios;

+      END_IF;

+      Mag := 0.0;

+        REPEAT i := 1 TO Ndim;

+          Mag := Mag + V.DirectionRatios[i]*V.DirectionRatios[i];

+        END_REPEAT;

+      IF Mag > 0.0 THEN

+        Mag := SQRT(Mag);

+        REPEAT i := 1 TO Ndim;

+          V.DirectionRatios[i] := V.DirectionRatios[i]/Mag;

+        END_REPEAT;

+        IF 'IFC2X3.IFCVECTOR' IN TYPEOF(arg) THEN

+          Vec.Orientation := V;

+          Result := Vec;

+        ELSE

+          Result := V;

+        END_IF;

+      ELSE

+        RETURN(?);

+      END_IF;

+    END_IF;

+    RETURN (Result);

+END_FUNCTION;

+

+FUNCTION IfcOrthogonalComplement

+	(Vec : IfcDirection)

+	: IfcDirection;

+  LOCAL

+    Result : IfcDirection ;

+  END_LOCAL;

+    IF NOT EXISTS (Vec) OR (Vec.Dim <> 2) THEN

+      RETURN(?);

+    ELSE

+      Result := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([-Vec.DirectionRatios[2], Vec.DirectionRatios[1]]);

+      RETURN(Result);

+    END_IF;

+END_FUNCTION;

+

+FUNCTION IfcPathHeadToTail

+	(APath : IfcPath)

+	: LOGICAL;

+     LOCAL

+       N : INTEGER := 0;

+       P : LOGICAL := UNKNOWN;

+     END_LOCAL;

+       N := SIZEOF (APath.EdgeList);

+     REPEAT i := 2 TO N;

+        P := P AND (APath.EdgeList[i-1].EdgeEnd :=:

+                    APath.EdgeList[i].EdgeStart);

+     END_REPEAT;

+     RETURN (P);

+END_FUNCTION;

+

+FUNCTION IfcSameAxis2Placement

+	(ap1, ap2 : IfcAxis2Placement; Epsilon : REAL)

+	: LOGICAL;

+  

+    RETURN (IfcSameDirection(ap1.P[1],ap2.P[1],Epsilon) AND

+            IfcSameDirection(ap1.P[2],ap2.P[2],Epsilon) AND

+            IfcSameCartesianPoint(ap1.Location,ap1.Location,Epsilon));

+END_FUNCTION;

+

+FUNCTION IfcSameCartesianPoint

+	(cp1, cp2 : IfcCartesianPoint; Epsilon : REAL)

+	: LOGICAL;

+    

+    LOCAL

+      cp1x : REAL := cp1.Coordinates[1];

+      cp1y : REAL := cp1.Coordinates[2];

+      cp1z : REAL := 0;

+      cp2x : REAL := cp2.Coordinates[1];

+      cp2y : REAL := cp2.Coordinates[2];

+      cp2z : REAL := 0;

+    END_LOCAL;

+  

+    IF (SIZEOF(cp1.Coordinates) > 2) THEN

+      cp1z := cp1.Coordinates[3];

+    END_IF;

+  

+    IF (SIZEOF(cp2.Coordinates) > 2) THEN

+      cp2z := cp2.Coordinates[3];

+    END_IF;

+  

+    RETURN (IfcSameValue(cp1x,cp2x,Epsilon) AND

+            IfcSameValue(cp1y,cp2y,Epsilon) AND

+            IfcSameValue(cp1z,cp2z,Epsilon));

+END_FUNCTION;

+

+FUNCTION IfcSameDirection

+	(dir1, dir2 : IfcDirection; Epsilon : REAL)

+	: LOGICAL;

+    LOCAL

+      dir1x : REAL := dir1.DirectionRatios[1];

+      dir1y : REAL := dir1.DirectionRatios[2];

+      dir1z : REAL := 0;

+      dir2x : REAL := dir2.DirectionRatios[1];

+      dir2y : REAL := dir2.DirectionRatios[2];

+      dir2z : REAL := 0;

+    END_LOCAL;

+  

+    IF (SIZEOF(dir1.DirectionRatios) > 2) THEN

+      dir1z := dir1.DirectionRatios[3];

+    END_IF;

+  

+    IF (SIZEOF(dir2.DirectionRatios) > 2) THEN

+      dir2z := dir2.DirectionRatios[3];

+    END_IF;

+    

+    RETURN (IfcSameValue(dir1x,dir2x,Epsilon) AND

+            IfcSameValue(dir1y,dir2y,Epsilon) AND

+            IfcSameValue(dir1z,dir2z,Epsilon));

+END_FUNCTION;

+

+FUNCTION IfcSameValidPrecision

+	(Epsilon1, Epsilon2 : REAL)

+	: LOGICAL;

+    LOCAL

+      ValidEps1, ValidEps2 : REAL;

+      DefaultEps           : REAL := 0.000001;

+      DerivationOfEps      : REAL := 1.001;

+      UpperEps             : REAL := 1.0;

+    END_LOCAL;

+    

+      ValidEps1 := NVL(Epsilon1, DefaultEps);

+      ValidEps2 := NVL(Epsilon2, DefaultEps);

+      RETURN ((0.0 < ValidEps1) AND (ValidEps1 <= (DerivationOfEps * ValidEps2)) AND 

+              (ValidEps2 <= (DerivationOfEps * ValidEps1)) AND (ValidEps2 < UpperEps));

+END_FUNCTION;

+

+FUNCTION IfcSameValue

+	(Value1, Value2 : REAL; Epsilon : REAL)

+	: LOGICAL;

+    LOCAL

+      ValidEps    : REAL;

+      DefaultEps  : REAL := 0.000001;

+    END_LOCAL;

+    

+    ValidEps := NVL(Epsilon, DefaultEps);

+    RETURN ((Value1 + ValidEps > Value2) AND (Value1 < Value2 + ValidEps));

+END_FUNCTION;

+

+FUNCTION IfcScalarTimesVector

+	(Scalar : REAL; Vec : IfcVectorOrDirection)

+	: IfcVector;

+  LOCAL

+    V : IfcDirection;

+    Mag : REAL;

+    Result : IfcVector;

+  END_LOCAL;

+  

+    IF NOT EXISTS (Scalar) OR NOT EXISTS (Vec) THEN

+      RETURN (?) ;

+    ELSE

+      IF 'IFC2X3.IFCVECTOR' IN TYPEOF (Vec) THEN

+        V := Vec.Orientation;

+        Mag := Scalar * Vec.Magnitude;

+      ELSE

+        V := Vec;

+        Mag := Scalar;

+      END_IF;

+      IF (Mag < 0.0 ) THEN

+        REPEAT i := 1 TO SIZEOF(V.DirectionRatios);

+          V.DirectionRatios[i] := -V.DirectionRatios[i];

+        END_REPEAT;

+        Mag := -Mag;

+      END_IF;

+      Result := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector(IfcNormalise(V), Mag);

+    END_IF;

+    RETURN (Result);

+END_FUNCTION;

+

+FUNCTION IfcSecondProjAxis

+	(ZAxis, XAxis, Arg: IfcDirection)

+	: IfcDirection;

+  LOCAL

+    YAxis : IfcVector;

+    V     : IfcDirection;

+    Temp  : IfcVector;

+  END_LOCAL;

+  

+    IF NOT EXISTS(Arg) THEN

+      V := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([0.0,1.0,0.0]);

+    ELSE

+      V := Arg;

+    END_IF;

+    Temp  := IfcScalarTimesVector(IfcDotProduct(V, ZAxis), ZAxis);

+    YAxis := IfcVectorDifference(V, Temp);

+    Temp  := IfcScalarTimesVector(IfcDotProduct(V, XAxis), XAxis);

+    YAxis := IfcVectorDifference(YAxis, Temp);

+    YAxis := IfcNormalise(YAxis);

+    RETURN(YAxis.Orientation);

+END_FUNCTION;

+

+FUNCTION IfcShapeRepresentationTypes

+	(RepType : IfcLabel; Items : SET OF IfcRepresentationItem)

+	: LOGICAL;

+      

+      LOCAL

+        Count : INTEGER := 0;

+      END_LOCAL;

+  

+      CASE RepType OF 

+      'Curve2D' :

+        BEGIN 

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCCURVE' IN TYPEOF(temp)) 

+                   AND (temp.Dim = 2)));

+        END;

+      'Annotation2D' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | (

+                    SIZEOF(TYPEOF(temp) * [

+                     'IFC2X3.IFCPOINT',

+                     'IFC2X3.IFCCURVE',

+                     'IFC2X3.IFCGEOMETRICCURVESET',

+                     'IFC2X3.IFCANNOTATIONFILLAREA',

+                     'IFC2X3.IFCDEFINEDSYMBOL',

+                     'IFC2X3.IFCTEXTLITERAL',

+                     'IFC2X3.IFCDRAUGHTINGCALLOUT']) = 1)

+                   ));

+        END;

+      'GeometricSet' : 

+        BEGIN 

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCGEOMETRICSET' IN TYPEOF(temp))

+                   OR ('IFC2X3.IFCPOINT' IN TYPEOF(temp))

+                   OR ('IFC2X3.IFCCURVE' IN TYPEOF(temp))

+                   OR ('IFC2X3.IFCSURFACE' IN TYPEOF(temp))));

+        END;

+      'GeometricCurveSet' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCGEOMETRICCURVESET' IN TYPEOF(temp))

+                   OR ('IFC2X3.IFCGEOMETRICSET' IN TYPEOF(temp))

+                   OR ('IFC2X3.IFCPOINT' IN TYPEOF(temp))

+                   OR ('IFC2X3.IFCCURVE' IN TYPEOF(temp))));

+           REPEAT i:=1 TO HIINDEX(Items);  

+             IF ('IFC2X3.IFCGEOMETRICSET' IN TYPEOF(Items[i]))

+             THEN

+               IF (SIZEOF(QUERY(temp <* Items[i]\IfcGeometricSet.Elements | 'IFC2X3.IFCSURFACE' IN TYPEOF(temp))) > 0)

+               THEN

+                 Count := Count - 1;

+               END_IF;

+             END_IF;

+           END_REPEAT;

+        END;

+      'SurfaceModel' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | SIZEOF([

+                     'IFC2X3.IFCSHELLBASEDSURFACEMODEL',

+                     'IFC2X3.IFCFACEBASEDSURFACEMODEL',

+                     'IFC2X3.IFCFACETEDBREP',

+                     'IFC2X3.IFCFACETEDBREPWITHVOIDS'] * TYPEOF(temp)) >= 1

+                   ));      

+        END;

+      'SolidModel' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCSOLIDMODEL' IN TYPEOF(temp))));            

+        END;

+      'SweptSolid' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCSWEPTAREASOLID' IN TYPEOF(temp))));            

+        END;

+      'CSG' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCBOOLEANRESULT' IN TYPEOF(temp))));            

+        END;

+      'Clipping' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCBOOLEANCLIPPINGRESULT' IN TYPEOF(temp))));            

+        END;

+      'AdvancedSweptSolid' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCSURFACECURVESWEPTAREASOLID' IN TYPEOF(temp))

+                   OR ('IFC2X3.IFCSWEPTDISKSOLID' IN TYPEOF(temp))));      

+        END;

+      'Brep' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCFACETEDBREP' IN TYPEOF(temp))

+                   OR ('IFC2X3.IFCFACETEDBREPWITHVOIDS' IN TYPEOF(temp))));      

+        END;

+      'BoundingBox' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCBOUNDINGBOX' IN TYPEOF(temp))));

+          IF (SIZEOF(Items) > 1)

+          THEN

+            Count := 0;

+          END_IF;   

+        END;

+      'SectionedSpine' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCSECTIONEDSPINE' IN TYPEOF(temp))));      

+        END;

+      'MappedRepresentation' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | ('IFC2X3.IFCMAPPEDITEM' IN TYPEOF(temp))));  

+        END;

+       OTHERWISE : RETURN(?);

+      END_CASE;

+      RETURN (Count = SIZEOF(Items));

+END_FUNCTION;

+

+FUNCTION IfcTopologyRepresentationTypes

+	(RepType : IfcLabel; Items : SET OF IfcRepresentationItem)

+	: LOGICAL;

+      

+      LOCAL

+        Count : INTEGER := 0;

+      END_LOCAL;

+  

+      CASE RepType OF 

+      'Vertex' :

+        BEGIN 

+          Count := SIZEOF(QUERY(temp <* Items | 

+                    ('IFC2X3.IFCVERTEX' IN TYPEOF(temp))));

+        END;

+      'Edge' : 

+        BEGIN 

+          Count := SIZEOF(QUERY(temp <* Items | 

+                    ('IFC2X3.IFCEDGE' IN TYPEOF(temp))));

+        END;

+      'Path' : 

+        BEGIN 

+          Count := SIZEOF(QUERY(temp <* Items | 

+                    ('IFC2X3.IFCPATH' IN TYPEOF(temp))));

+        END;

+      'Face' : 

+        BEGIN 

+          Count := SIZEOF(QUERY(temp <* Items | 

+                    ('IFC2X3.IFCFACE' IN TYPEOF(temp))));

+        END;

+      'Shell' :

+        BEGIN

+          Count := SIZEOF(QUERY(temp <* Items | 

+                    ('IFC2X3.IFCOPENSHELL' IN TYPEOF(temp))

+                      OR ('IFC2X3.IFCCLOSEDSHELL' IN TYPEOF(temp))));

+        END;

+      'Undefined': RETURN(TRUE);

+       OTHERWISE : RETURN(?);

+      END_CASE;

+      RETURN (Count = SIZEOF(Items));

+END_FUNCTION;

+

+FUNCTION IfcUniquePropertyName

+	(Properties : SET [1:?] OF IfcProperty)

+	: LOGICAL;

+  

+  LOCAL

+    Names : SET OF IfcIdentifier := [];

+  END_LOCAL;

+  

+  REPEAT i:=1 TO HIINDEX(Properties);

+    Names := Names + Properties[i].Name;

+  END_REPEAT;

+  RETURN (SIZEOF(Names) = SIZEOF(Properties));

+END_FUNCTION;

+

+FUNCTION IfcValidCalendarDate

+	(Date : IfcCalendarDate)

+	: LOGICAL;

+  IF NOT ({1 <= Date.DayComponent <= 31}) THEN    

+    RETURN(FALSE);  

+  END_IF;

+  CASE Date.MonthComponent OF

+    4         : RETURN({ 1<= Date.DayComponent <= 30});

+    6         : RETURN({ 1<= Date.DayComponent <= 30});

+    9         : RETURN({ 1<= Date.DayComponent <= 30});

+    11        : RETURN({ 1<= Date.DayComponent <= 30});    

+    2         :    

+    BEGIN

+      IF (IfcLeapYear(Date.YearComponent)) THEN

+        RETURN({ 1<= Date.DayComponent <= 29});      

+      ELSE

+        RETURN({ 1<= Date.DayComponent <= 28});      

+      END_IF;    

+    END;

+    OTHERWISE : RETURN(TRUE);  

+  END_CASE;

+END_FUNCTION;

+

+FUNCTION IfcValidTime

+	(Time: IfcLocalTime)

+	: BOOLEAN;

+  IF EXISTS (Time.SecondComponent) THEN

+    RETURN (EXISTS (Time.MinuteComponent));  

+  ELSE    

+    RETURN (TRUE);  

+  END_IF;

+END_FUNCTION;

+

+FUNCTION IfcVectorDifference

+	(Arg1, Arg2 : IfcVectorOrDirection)

+	: IfcVector;

+  LOCAL

+    Result : IfcVector;

+    Res, Vec1, Vec2 : IfcDirection;

+    Mag, Mag1, Mag2 : REAL;

+    Ndim : INTEGER;

+  END_LOCAL;

+  

+    IF ((NOT EXISTS (Arg1)) OR (NOT EXISTS (Arg2))) OR (Arg1.Dim <> Arg2.Dim) THEN

+      RETURN (?) ;

+    ELSE

+      BEGIN

+        IF 'IFC2X3.IFCVECTOR' IN TYPEOF(Arg1) THEN

+          Mag1 := Arg1.Magnitude;

+          Vec1 := Arg1.Orientation;

+        ELSE

+          Mag1 := 1.0;

+          Vec1 := Arg1;

+        END_IF;

+        IF 'IFC2X3.IFCVECTOR' IN TYPEOF(Arg2) THEN

+          Mag2 := Arg2.Magnitude;

+          Vec2 := Arg2.Orientation;

+        ELSE

+          Mag2 := 1.0;

+          Vec2 := Arg2;

+        END_IF;

+        Vec1 := IfcNormalise (Vec1);

+        Vec2 := IfcNormalise (Vec2);

+        Ndim := SIZEOF(Vec1.DirectionRatios);

+        Mag  := 0.0;

+        Res  := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([0.0:Ndim]);

+  

+        REPEAT i := 1 TO Ndim;

+          Res.DirectionRatios[i] := Mag1*Vec1.DirectionRatios[i] - Mag2*Vec2.DirectionRatios[i];

+          Mag := Mag + (Res.DirectionRatios[i]*Res.DirectionRatios[i]);

+        END_REPEAT;

+  

+        IF (Mag > 0.0 ) THEN

+          Result := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector( Res, SQRT(Mag));

+        ELSE

+          Result := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector( Vec1, 0.0);

+        END_IF;

+      END;

+    END_IF;

+    RETURN (Result);

+END_FUNCTION;

+

+FUNCTION IfcVectorSum

+	(Arg1, Arg2 : IfcVectorOrDirection)

+	: IfcVector;

+  LOCAL

+    Result : IfcVector;

+    Res, Vec1, Vec2 : IfcDirection;

+    Mag, Mag1, Mag2 : REAL;

+    Ndim : INTEGER;

+  END_LOCAL;

+  

+    IF ((NOT EXISTS (Arg1)) OR (NOT EXISTS (Arg2))) OR (Arg1.Dim <> Arg2.Dim) THEN

+      RETURN (?) ;

+    ELSE

+      BEGIN

+        IF 'IFC2X3.IFCVECTOR' IN TYPEOF(Arg1) THEN

+          Mag1 := Arg1.Magnitude;

+          Vec1 := Arg1.Orientation;

+        ELSE

+          Mag1 := 1.0;

+          Vec1 := Arg1;

+        END_IF;

+        IF 'IFC2X3.IFCVECTOR' IN TYPEOF(Arg2) THEN

+          Mag2 := Arg2.Magnitude;

+          Vec2 := Arg2.Orientation;

+        ELSE

+          Mag2 := 1.0;

+          Vec2 := Arg2;

+        END_IF;

+        Vec1 := IfcNormalise (Vec1);

+        Vec2 := IfcNormalise (Vec2);

+        Ndim := SIZEOF(Vec1.DirectionRatios);

+        Mag  := 0.0;

+        Res  := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcDirection([0.0:Ndim]);

+  

+        REPEAT i := 1 TO Ndim;

+          Res.DirectionRatios[i] := Mag1*Vec1.DirectionRatios[i] + Mag2*Vec2.DirectionRatios[i];

+          Mag := Mag + (Res.DirectionRatios[i]*Res.DirectionRatios[i]);

+        END_REPEAT;

+  

+        IF (Mag > 0.0 ) THEN

+          Result := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector( Res, SQRT(Mag));

+        ELSE

+          Result := IfcRepresentationItem() || IfcGeometricRepresentationItem () || IfcVector( Vec1, 0.0);

+        END_IF;

+      END;

+    END_IF;

+    RETURN (Result);

+END_FUNCTION;

+

+RULE IfcRepresentationContextSameWCS FOR 

+	(IfcGeometricRepresentationContext);

+    LOCAL

+      IsDifferent  : LOGICAL := FALSE;

+    END_LOCAL;

+      IF (SIZEOF(IfcGeometricRepresentationContext) > 1)

+      THEN

+        REPEAT i := 2 TO HIINDEX(IfcGeometricRepresentationContext);

+          IF (IfcGeometricRepresentationContext[1].WorldCoordinateSystem :<>: IfcGeometricRepresentationContext[i].WorldCoordinateSystem)

+          THEN

+            IsDifferent := (NOT(IfcSameValidPrecision(IfcGeometricRepresentationContext[1].Precision,

+                                                      IfcGeometricRepresentationContext[i].Precision)))

+                        OR (NOT(IfcSameAxis2Placement(IfcGeometricRepresentationContext[1].WorldCoordinateSystem,

+                                                      IfcGeometricRepresentationContext[i].WorldCoordinateSystem,

+                                                      IfcGeometricRepresentationContext[1].Precision)));

+            IF (IsDifferent = TRUE) THEN

+              ESCAPE;

+            END_IF;

+          END_IF;

+        END_REPEAT;

+      END_IF;

+    WHERE

+      WR1 : IsDifferent = FALSE;

+END_RULE;

+

+RULE IfcSingleProjectInstance FOR 

+	(IfcProject);

+    WHERE

+      WR1 : SIZEOF(IfcProject) <= 1;

+END_RULE;

+

+END_SCHEMA;

diff --git a/libs/assimp/scripts/StepImporter/step_entitylist.txt b/libs/assimp/scripts/StepImporter/step_entitylist.txt
new file mode 100644
index 0000000..223f57a
--- /dev/null
+++ b/libs/assimp/scripts/StepImporter/step_entitylist.txt
@@ -0,0 +1,1015 @@
+# ==============================================================================
+# List of IFC structures needed by Assimp
+# ==============================================================================
+# use genentitylist.sh to update this list
+
+# This machine-generated list is not complete, it lacks many intermediate
+# classes in the inheritance hierarchy. Those are magically augmented by the
+# code generator. Also, the names of all used entities need to be present
+# in the source code for this to work.
+absorbed_dose_measure_with_unit
+absorbed_dose_unit
+abstract_variable
+acceleration_measure_with_unit
+acceleration_unit
+action;
+action_assignment
+action_directive;
+action_method;
+action_method_assignment
+action_method_relationship;
+action_method_role;
+action_property;
+action_property_representation;
+action_relationship;
+action_request_assignment
+action_request_solution;
+action_request_status;
+action_status;
+address;
+advanced_brep_shape_representation
+advanced_face
+alternate_product_relationship;
+amount_of_substance_measure_with_unit
+amount_of_substance_unit
+angle_direction_reference
+angular_dimension
+angular_location
+angular_size
+angularity_tolerance
+annotation_curve_occurrence
+annotation_fill_area
+annotation_fill_area_occurrence
+annotation_occurrence
+annotation_occurrence_associativity
+annotation_occurrence_relationship;
+annotation_plane
+annotation_subfigure_occurrence
+annotation_symbol
+annotation_symbol_occurrence
+annotation_text
+annotation_text_character
+annotation_text_occurrence
+apex
+application_context;
+application_context_element
+application_protocol_definition;
+applied_action_assignment
+applied_action_method_assignment
+applied_action_request_assignment
+applied_approval_assignment
+applied_attribute_classification_assignment
+applied_certification_assignment
+applied_classification_assignment
+applied_contract_assignment
+applied_date_and_time_assignment
+applied_date_assignment
+applied_document_reference
+applied_document_usage_constraint_assignment
+applied_effectivity_assignment
+applied_event_occurrence_assignment
+applied_external_identification_assignment
+applied_group_assignment
+applied_identification_assignment
+applied_name_assignment
+applied_organization_assignment
+applied_organizational_project_assignment
+applied_person_and_organization_assignment
+applied_presented_item
+applied_security_classification_assignment
+applied_time_interval_assignment
+applied_usage_right
+approval;
+approval_assignment
+approval_date_time;
+approval_person_organization;
+approval_relationship;
+approval_role;
+approval_status;
+area_in_set;
+area_measure_with_unit
+area_unit
+assembly_component_usage
+assembly_component_usage_substitute;
+assigned_requirement
+atomic_formula
+attribute_assertion
+attribute_classification_assignment
+attribute_language_assignment
+attribute_value_assignment
+attribute_value_role;
+auxiliary_geometric_representation_item
+axis1_placement
+axis2_placement_2d
+axis2_placement_3d
+b_spline_curve
+b_spline_curve_with_knots
+b_spline_surface
+b_spline_surface_with_knots
+back_chaining_rule
+back_chaining_rule_body
+background_colour
+beveled_sheet_representation
+bezier_curve
+bezier_surface
+binary_generic_expression
+binary_numeric_expression
+binary_representation_item
+block
+boolean_expression
+boolean_literal
+boolean_representation_item
+boolean_result
+boundary_curve
+bounded_curve
+bounded_pcurve
+bounded_surface
+bounded_surface_curve
+box_domain
+boxed_half_space
+breakdown_context
+breakdown_element_group_assignment
+breakdown_element_realization
+breakdown_element_usage
+breakdown_of
+brep_with_voids
+bytes_representation_item
+calendar_date
+camera_image
+camera_image_3d_with_scale
+camera_model
+camera_model_d3
+camera_model_d3_multi_clipping
+camera_model_d3_multi_clipping_intersection
+camera_model_d3_multi_clipping_union
+camera_model_d3_with_hlhsr
+camera_model_with_light_sources
+camera_usage
+capacitance_measure_with_unit
+capacitance_unit
+cartesian_point
+cartesian_transformation_operator
+cartesian_transformation_operator_2d
+cartesian_transformation_operator_3d
+cc_design_approval
+cc_design_certification
+cc_design_contract
+cc_design_date_and_time_assignment
+cc_design_person_and_organization_assignment
+cc_design_security_classification
+cc_design_specification_reference
+celsius_temperature_measure_with_unit
+centre_of_symmetry
+certification;
+certification_assignment
+certification_type;
+change
+change_request
+character_glyph_font_usage;
+character_glyph_style_outline
+character_glyph_style_stroke
+character_glyph_symbol
+character_glyph_symbol_outline
+character_glyph_symbol_stroke
+characteristic_data_column_header
+characteristic_data_column_header_link
+characteristic_data_table_header
+characteristic_data_table_header_decomposition
+characteristic_type
+characterized_class
+characterized_object;
+circle
+circular_runout_tolerance
+class
+class_by_extension
+class_by_intension
+class_system
+class_usage_effectivity_context_assignment
+classification_assignment
+classification_role;
+closed_shell
+coaxiality_tolerance
+colour;
+colour_rgb
+colour_specification
+common_datum
+comparison_expression
+complex_clause
+complex_conjunctive_clause
+complex_disjunctive_clause
+complex_shelled_solid
+composite_assembly_definition
+composite_assembly_sequence_definition
+composite_assembly_table
+composite_curve
+composite_curve_on_surface
+composite_curve_segment
+composite_material_designation
+composite_shape_aspect
+composite_sheet_representation
+composite_text
+composite_text_with_associated_curves
+composite_text_with_blanking_box
+composite_text_with_delineation
+composite_text_with_extent
+compound_representation_item
+compound_shape_representation
+concentricity_tolerance
+concept_feature_operator;
+concept_feature_relationship;
+concept_feature_relationship_with_condition
+conditional_concept_feature
+conductance_measure_with_unit
+conductance_unit
+configurable_item
+configuration_design;
+configuration_effectivity
+configuration_item;
+configuration_item_hierarchical_relationship
+configuration_item_relationship;
+configuration_item_revision_sequence
+configured_effectivity_assignment
+configured_effectivity_context_assignment
+conic
+conical_stepped_hole_transition
+conical_surface
+connected_edge_set
+connected_face_set
+connected_face_sub_set
+constructive_geometry_representation
+constructive_geometry_representation_relationship
+contact_ratio_representation
+context_dependent_invisibility
+context_dependent_over_riding_styled_item
+context_dependent_shape_representation;
+context_dependent_unit
+contract;
+contract_assignment
+contract_relationship;
+contract_type;
+conversion_based_unit
+coordinated_universal_time_offset;
+csg_shape_representation
+csg_solid
+currency
+currency_measure_with_unit
+curve
+curve_bounded_surface
+curve_dimension
+curve_replica
+curve_style
+curve_style_font
+curve_style_font_and_scaling
+curve_style_font_pattern
+curve_style_rendering;
+curve_swept_solid_shape_representation
+cylindrical_surface
+cylindricity_tolerance
+data_environment;
+date
+date_and_time;
+date_and_time_assignment
+date_assignment
+date_representation_item
+date_role;
+date_time_representation_item
+date_time_role;
+dated_effectivity
+datum
+datum_feature
+datum_feature_callout
+datum_reference;
+datum_target
+datum_target_callout
+default_tolerance_table
+default_tolerance_table_cell
+defined_symbol
+definitional_representation
+definitional_representation_relationship
+definitional_representation_relationship_with_same_context
+degenerate_pcurve
+degenerate_toroidal_surface
+derived_shape_aspect
+derived_unit
+derived_unit_element;
+description_attribute;
+descriptive_representation_item
+design_context
+design_make_from_relationship
+diameter_dimension
+dielectric_constant_measure_with_unit
+dimension_callout
+dimension_callout_component_relationship
+dimension_callout_relationship
+dimension_curve
+dimension_curve_directed_callout
+dimension_curve_terminator
+dimension_curve_terminator_to_projection_curve_associativity
+dimension_pair
+dimension_related_tolerance_zone_element;
+dimension_text_associativity
+dimensional_characteristic_representation;
+dimensional_exponents;
+dimensional_location
+dimensional_location_with_path
+dimensional_size
+dimensional_size_with_path
+directed_action
+directed_dimensional_location
+direction
+document;
+document_file
+document_identifier
+document_identifier_assignment
+document_product_association;
+document_product_equivalence
+document_reference
+document_relationship;
+document_representation_type;
+document_type;
+document_usage_constraint;
+document_usage_constraint_assignment
+document_usage_role;
+dose_equivalent_measure_with_unit
+dose_equivalent_unit
+double_offset_shelled_solid
+draped_defined_transformation
+draughting_annotation_occurrence
+draughting_callout
+draughting_callout_relationship;
+draughting_elements
+draughting_model
+draughting_model_item_association
+draughting_pre_defined_colour
+draughting_pre_defined_curve_font
+draughting_pre_defined_text_font
+draughting_subfigure_representation
+draughting_symbol_representation
+draughting_text_literal_with_delineation
+draughting_title;
+drawing_definition;
+drawing_revision
+drawing_revision_sequence;
+drawing_sheet_revision
+drawing_sheet_revision_sequence
+drawing_sheet_revision_usage
+edge
+edge_based_wireframe_model
+edge_based_wireframe_shape_representation
+edge_blended_solid
+edge_curve
+edge_loop
+effectivity
+effectivity_assignment
+effectivity_context_assignment
+effectivity_context_role;
+effectivity_relationship;
+electric_charge_measure_with_unit
+electric_charge_unit
+electric_current_measure_with_unit
+electric_current_unit
+electric_potential_measure_with_unit
+electric_potential_unit
+elementary_brep_shape_representation
+elementary_surface
+ellipse
+energy_measure_with_unit
+energy_unit
+entity_assertion
+enum_reference_prefix
+environment;
+evaluated_characteristic
+evaluated_degenerate_pcurve
+evaluation_product_definition
+event_occurrence;
+event_occurrence_assignment
+event_occurrence_relationship;
+event_occurrence_role;
+exclusive_product_concept_feature_category
+executed_action
+expanded_uncertainty
+explicit_procedural_geometric_representation_item_relationship
+explicit_procedural_representation_item_relationship
+explicit_procedural_representation_relationship
+explicit_procedural_shape_representation_relationship
+expression
+expression_conversion_based_unit
+extension
+extent
+external_class_library
+external_identification_assignment
+external_source;
+external_source_relationship;
+externally_defined_class
+externally_defined_colour
+externally_defined_context_dependent_unit
+externally_defined_conversion_based_unit
+externally_defined_currency
+externally_defined_curve_font
+externally_defined_dimension_definition
+externally_defined_general_property
+externally_defined_hatch_style
+externally_defined_item;
+externally_defined_item_relationship;
+externally_defined_marker
+externally_defined_picture_representation_item
+externally_defined_representation_item
+externally_defined_string
+externally_defined_symbol
+externally_defined_terminator_symbol
+externally_defined_text_font
+externally_defined_tile
+externally_defined_tile_style
+extruded_area_solid
+extruded_face_solid
+extruded_face_solid_with_draft_angle
+extruded_face_solid_with_multiple_draft_angles
+extruded_face_solid_with_trim_conditions
+face
+face_based_surface_model
+face_bound
+face_outer_bound
+face_surface
+faceted_brep
+faceted_brep_shape_representation
+fact_type
+fill_area_style
+fill_area_style_colour;
+fill_area_style_hatching
+fill_area_style_tile_coloured_region
+fill_area_style_tile_curve_with_style
+fill_area_style_tile_symbol_with_style
+fill_area_style_tiles
+flat_pattern_ply_representation_relationship
+flatness_tolerance
+force_measure_with_unit
+force_unit
+forward_chaining_rule
+forward_chaining_rule_premise
+founded_item
+frequency_measure_with_unit
+frequency_unit
+func
+functional_breakdown_context
+functional_element_usage
+functionally_defined_transformation;
+general_material_property
+general_property;
+general_property_association;
+general_property_relationship;
+generic_character_glyph_symbol
+generic_expression
+generic_literal
+generic_variable
+geometric_alignment
+geometric_curve_set
+geometric_intersection
+geometric_item_specific_usage
+geometric_model_element_relationship
+geometric_representation_context
+geometric_representation_item
+geometric_set
+geometric_tolerance;
+geometric_tolerance_relationship;
+geometric_tolerance_with_datum_reference
+geometric_tolerance_with_defined_unit
+geometrical_tolerance_callout
+geometrically_bounded_2d_wireframe_representation
+geometrically_bounded_surface_shape_representation
+geometrically_bounded_wireframe_shape_representation
+global_assignment
+global_uncertainty_assigned_context
+global_unit_assigned_context
+ground_fact
+group;
+group_assignment
+group_relationship;
+half_space_solid
+hardness_representation
+hidden_element_over_riding_styled_item
+hyperbola
+id_attribute;
+identification_assignment
+identification_role;
+illuminance_measure_with_unit
+illuminance_unit
+included_text_block
+inclusion_product_concept_feature
+indirectly_selected_elements
+indirectly_selected_shape_elements
+inductance_measure_with_unit
+inductance_unit
+information_right
+information_usage_right
+instance_usage_context_assignment
+instanced_feature
+int_literal
+integer_representation_item
+intersection_curve
+interval_expression
+invisibility;
+iso4217_currency
+item_defined_transformation;
+item_identified_representation_usage;
+known_source
+laid_defined_transformation
+laminate_table
+language
+leader_curve
+leader_directed_callout
+leader_directed_dimension
+leader_terminator
+length_measure_with_unit
+length_unit
+light_source
+light_source_ambient
+light_source_directional
+light_source_positional
+light_source_spot
+limits_and_fits;
+line
+line_profile_tolerance
+linear_dimension
+literal_conjunction
+literal_disjunction
+literal_number
+local_time;
+logical_literal
+logical_representation_item
+loop
+loss_tangent_measure_with_unit
+lot_effectivity
+luminous_flux_measure_with_unit
+luminous_flux_unit
+luminous_intensity_measure_with_unit
+luminous_intensity_unit
+magnetic_flux_density_measure_with_unit
+magnetic_flux_density_unit
+magnetic_flux_measure_with_unit
+magnetic_flux_unit
+make_from_usage_option
+manifold_solid_brep
+manifold_subsurface_shape_representation
+manifold_surface_shape_representation
+mapped_item
+mass_measure_with_unit
+mass_unit
+material_designation;
+material_designation_characterization;
+material_property
+material_property_representation
+measure_qualification;
+measure_representation_item
+measure_with_unit
+mechanical_context
+mechanical_design_and_draughting_relationship
+mechanical_design_geometric_presentation_area
+mechanical_design_geometric_presentation_representation
+mechanical_design_presentation_representation_with_draughting
+mechanical_design_shaded_presentation_area
+mechanical_design_shaded_presentation_representation
+min_and_major_ply_orientation_basis
+modified_geometric_tolerance
+modified_solid
+modified_solid_with_placed_configuration
+moments_of_inertia_representation
+multi_language_attribute_assignment
+multiple_arity_boolean_expression
+multiple_arity_generic_expression
+multiple_arity_numeric_expression
+name_assignment
+name_attribute;
+named_unit
+next_assembly_usage_occurrence
+non_manifold_surface_shape_representation
+null_representation_item
+numeric_expression
+object_role;
+offset_curve_2d
+offset_curve_3d
+offset_surface
+one_direction_repeat_factor
+open_shell
+ordinal_date
+ordinate_dimension
+organization;
+organization_assignment
+organization_relationship;
+organization_role;
+organizational_address
+organizational_project;
+organizational_project_assignment
+organizational_project_relationship;
+organizational_project_role;
+oriented_closed_shell
+oriented_edge
+oriented_face
+oriented_open_shell
+oriented_path
+oriented_surface
+outer_boundary_curve
+over_riding_styled_item
+package_product_concept_feature
+parabola
+parallel_offset
+parallelism_tolerance
+parametric_representation_context
+part_laminate_table
+partial_document_with_structured_text_representation_assignment
+path
+pcurve
+percentage_laminate_definition
+percentage_laminate_table
+percentage_ply_definition
+perpendicular_to
+perpendicularity_tolerance
+person;
+person_and_organization;
+person_and_organization_address
+person_and_organization_assignment
+person_and_organization_role;
+personal_address
+physical_breakdown_context
+physical_element_usage
+picture_representation
+picture_representation_item
+placed_datum_target_feature
+placed_feature
+placement
+planar_box
+planar_extent
+plane
+plane_angle_measure_with_unit
+plane_angle_unit
+plus_minus_tolerance;
+ply_laminate_definition
+ply_laminate_sequence_definition
+ply_laminate_table
+point
+point_and_vector
+point_on_curve
+point_on_surface
+point_path
+point_replica
+point_style
+polar_complex_number_literal
+poly_loop
+polyline
+position_tolerance
+positioned_sketch
+power_measure_with_unit
+power_unit
+pre_defined_colour
+pre_defined_curve_font
+pre_defined_dimension_symbol
+pre_defined_geometrical_tolerance_symbol
+pre_defined_item;
+pre_defined_marker
+pre_defined_point_marker_symbol
+pre_defined_surface_condition_symbol
+pre_defined_surface_side_style
+pre_defined_symbol
+pre_defined_terminator_symbol
+pre_defined_text_font
+pre_defined_tile
+precision_qualifier;
+predefined_picture_representation_item
+presentation_area
+presentation_layer_assignment;
+presentation_representation
+presentation_set;
+presentation_size;
+presentation_style_assignment
+presentation_style_by_context
+presentation_view
+presented_item
+presented_item_representation;
+pressure_measure_with_unit
+pressure_unit
+procedural_representation
+procedural_representation_sequence
+procedural_shape_representation
+procedural_shape_representation_sequence
+product;
+product_category;
+product_class
+product_concept;
+product_concept_context
+product_concept_feature;
+product_concept_feature_association;
+product_concept_feature_category
+product_concept_feature_category_usage
+product_concept_relationship;
+product_context
+product_definition
+product_definition_context
+product_definition_context_association;
+product_definition_context_role;
+product_definition_effectivity
+product_definition_element_relationship
+product_definition_formation;
+product_definition_formation_relationship;
+product_definition_formation_with_specified_source
+product_definition_group_assignment
+product_definition_occurrence_relationship;
+product_definition_relationship;
+product_definition_shape
+product_definition_substitute;
+product_definition_usage
+product_definition_with_associated_documents
+product_identification
+product_material_composition_relationship
+product_related_product_category
+product_specification
+projected_zone_definition
+projection_curve
+projection_directed_callout
+promissory_usage_occurrence
+property_definition;
+property_definition_relationship;
+property_definition_representation;
+qualified_representation_item
+qualitative_uncertainty
+quantified_assembly_component_usage
+quasi_uniform_curve
+quasi_uniform_surface
+radioactivity_measure_with_unit
+radioactivity_unit
+radius_dimension
+range_characteristic
+ratio_measure_with_unit
+ratio_unit
+rational_b_spline_curve
+rational_b_spline_surface
+rational_representation_item
+real_literal
+real_representation_item
+rectangular_composite_surface
+rectangular_trimmed_surface
+referenced_modified_datum
+relative_event_occurrence
+rep_item_group
+reparametrised_composite_curve_segment
+representation;
+representation_context;
+representation_item
+representation_item_relationship;
+representation_map;
+representation_relationship;
+representation_relationship_with_transformation
+requirement_assigned_object
+requirement_assignment
+requirement_source
+requirement_view_definition_relationship
+resistance_measure_with_unit
+resistance_unit
+revolved_area_solid
+revolved_face_solid
+revolved_face_solid_with_trim_conditions
+right_angular_wedge
+right_circular_cone
+right_circular_cylinder
+right_to_usage_association
+role_association;
+roundness_tolerance
+row_representation_item
+row_value
+row_variable
+rule_action
+rule_condition
+rule_definition
+rule_set
+rule_set_group
+rule_software_definition
+rule_superseded_assignment
+rule_supersedence
+ruled_surface_swept_area_solid
+runout_zone_definition
+runout_zone_orientation;
+runout_zone_orientation_reference_direction
+satisfied_requirement
+satisfies_requirement
+satisfying_item
+scalar_variable
+scattering_parameter
+sculptured_solid
+seam_curve
+security_classification;
+security_classification_assignment
+security_classification_level;
+serial_numbered_effectivity
+shape_aspect;
+shape_aspect_associativity
+shape_aspect_deriving_relationship
+shape_aspect_relationship;
+shape_definition_representation
+shape_dimension_representation
+shape_feature_definition
+shape_representation
+shape_representation_relationship
+shape_representation_with_parameters
+shell_based_surface_model
+shell_based_wireframe_model
+shell_based_wireframe_shape_representation
+shelled_solid
+si_absorbed_dose_unit
+si_capacitance_unit
+si_conductance_unit
+si_dose_equivalent_unit
+si_electric_charge_unit
+si_electric_potential_unit
+si_energy_unit
+si_force_unit
+si_frequency_unit
+si_illuminance_unit
+si_inductance_unit
+si_magnetic_flux_density_unit
+si_magnetic_flux_unit
+si_power_unit
+si_pressure_unit
+si_radioactivity_unit
+si_resistance_unit
+si_unit
+simple_boolean_expression
+simple_clause
+simple_generic_expression
+simple_numeric_expression
+slash_expression
+smeared_material_definition
+solid_angle_measure_with_unit
+solid_angle_unit
+solid_curve_font
+solid_model
+solid_replica
+solid_with_angle_based_chamfer
+solid_with_chamfered_edges
+solid_with_circular_pattern
+solid_with_circular_pocket
+solid_with_circular_protrusion
+solid_with_conical_bottom_round_hole
+solid_with_constant_radius_edge_blend
+solid_with_curved_slot
+solid_with_depression
+solid_with_double_offset_chamfer
+solid_with_flat_bottom_round_hole
+solid_with_general_pocket
+solid_with_general_protrusion
+solid_with_groove
+solid_with_hole
+solid_with_incomplete_circular_pattern
+solid_with_incomplete_rectangular_pattern
+solid_with_pocket
+solid_with_protrusion
+solid_with_rectangular_pattern
+solid_with_rectangular_pocket
+solid_with_rectangular_protrusion
+solid_with_shape_element_pattern
+solid_with_single_offset_chamfer
+solid_with_slot
+solid_with_spherical_bottom_round_hole
+solid_with_stepped_round_hole
+solid_with_stepped_round_hole_and_conical_transitions
+solid_with_straight_slot
+solid_with_tee_section_slot
+solid_with_through_depression
+solid_with_trapezoidal_section_slot
+solid_with_variable_radius_edge_blend
+source_for_requirement
+sourced_requirement
+specification_definition
+specified_higher_usage_occurrence
+sphere
+spherical_surface
+standard_uncertainty
+start_request
+start_work
+straightness_tolerance
+structured_dimension_callout
+structured_text_composition
+structured_text_representation
+styled_item
+subedge
+subface
+supplied_part_relationship
+surface
+surface_condition_callout
+surface_curve
+surface_curve_swept_area_solid
+surface_of_linear_extrusion
+surface_of_revolution
+surface_patch
+surface_profile_tolerance
+surface_rendering_properties;
+surface_replica
+surface_side_style
+surface_style_boundary
+surface_style_control_grid
+surface_style_fill_area
+surface_style_parameter_line
+surface_style_reflectance_ambient;
+surface_style_reflectance_ambient_diffuse
+surface_style_reflectance_ambient_diffuse_specular
+surface_style_rendering;
+surface_style_rendering_with_properties
+surface_style_segmentation_curve
+surface_style_silhouette
+surface_style_transparent;
+surface_style_usage
+surface_texture_representation
+surfaced_open_shell
+swept_area_solid
+swept_disk_solid
+swept_face_solid
+swept_surface
+symbol
+symbol_colour;
+symbol_representation
+symbol_representation_map
+symbol_style
+symbol_target
+symmetric_shape_aspect
+symmetry_tolerance
+table_representation_item
+tactile_appearance_representation
+tagged_text_format
+tagged_text_item
+tangent
+terminator_symbol
+text_font;
+text_font_family;
+text_font_in_family;
+text_literal
+text_literal_with_associated_curves
+text_literal_with_blanking_box
+text_literal_with_delineation
+text_literal_with_extent
+text_string_representation
+text_style
+text_style_for_defined_font;
+text_style_with_box_characteristics
+text_style_with_mirror
+text_style_with_spacing
+thermal_resistance_measure_with_unit
+thermal_resistance_unit
+thermodynamic_temperature_measure_with_unit
+thermodynamic_temperature_unit
+thickened_face_solid
+thickness_laminate_definition
+thickness_laminate_table
+time_interval;
+time_interval_assignment
+time_interval_based_effectivity
+time_interval_relationship;
+time_interval_role;
+time_interval_with_bounds
+time_measure_with_unit
+time_unit
+tolerance_value;
+tolerance_zone
+tolerance_zone_definition
+tolerance_zone_form;
+topological_representation_item
+toroidal_surface
+torus
+total_runout_tolerance
+track_blended_solid
+track_blended_solid_with_end_conditions
+transformation_with_derived_angle
+trimmed_curve
+two_direction_repeat_factor
+type_qualifier;
+unary_generic_expression
+unary_numeric_expression
+uncertainty_assigned_representation
+uncertainty_measure_with_unit
+uncertainty_qualifier
+uniform_curve
+uniform_resource_identifier
+uniform_surface
+usage_association
+user_defined_curve_font
+user_defined_marker
+user_defined_terminator_symbol
+user_selected_elements
+user_selected_shape_elements
+value_range
+value_representation_item
+variable_semantics
+variational_representation_item
+vector
+vector_style
+velocity_measure_with_unit
+velocity_unit
+versioned_action_request;
+vertex
+vertex_loop
+vertex_point
+vertex_shell
+view_volume
+visual_appearance_representation
+volume_measure_with_unit
+volume_unit
+week_of_year_and_day_date
+wire_shell
+year_month
+zone_structural_makeup