#!/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 BlenderSceneGen.h and BlenderScene.cpp from the
data structures in BlenderScene.h to map from *any* DNA to
*our* DNA"""
import sys
import os
import re
inputfile = os.path.join("..","..","code","BlenderScene.h")
outputfile_gen = os.path.join("..","..","code","BlenderSceneGen.h")
outputfile_src = os.path.join("..","..","code","BlenderScene.cpp")
template_gen = "BlenderSceneGen.h.template"
template_src = "BlenderScene.cpp.template"
# workaround for stackoverflowing when reading the linked list of scene objects
# with the usual approach. See embedded notes for details.
Structure_Convert_Base_fullcode = """
template <> void Structure::Convert( Base& dest, const FileDatabase& db ) const {
// note: as per https://github.com/assimp/assimp/issues/128,
// reading the Object linked list recursively is prone to stack overflow.
// This structure converter is therefore an hand-written exception that
// does it iteratively.
const int initial_pos = db.reader->GetCurrentPos();
std::pair todo = std::make_pair(&dest, initial_pos);
Base* saved_prev = NULL;
while(true) {
Base& cur_dest = *todo.first;
db.reader->SetCurrentPos(todo.second);
// we know that this is a double-linked, circular list which we never
// traverse backwards, so don't bother resolving the back links.
cur_dest.prev = NULL;
ReadFieldPtr(cur_dest.object,"*object",db);
// just record the offset of the blob data and allocate storage.
// Does _not_ invoke Convert() recursively.
const int old = db.reader->GetCurrentPos();
// the return value of ReadFieldPtr indicates whether the object
// was already cached. In this case, we don't need to resolve
// it again.
if(!ReadFieldPtr(cur_dest.next,"*next",db, true) && cur_dest.next) {
todo = std::make_pair(&*cur_dest.next, db.reader->GetCurrentPos());
continue;
}
break;
}
db.reader->SetCurrentPos(initial_pos + size);
}
"""
Structure_Convert_decl = """
template <> void Structure :: Convert<{a}> (
{a}& dest,
const FileDatabase& db
) const
"""
Structure_Convert_ptrdecl = """
ReadFieldPtr<{policy}>({destcast}dest.{name_canonical},"{name_dna}",db);"""
Structure_Convert_rawptrdecl = """
{{
boost::shared_ptr<{type}> {name_canonical};
ReadFieldPtr<{policy}>({destcast}{name_canonical},"{name_dna}",db);
dest.{name_canonical} = {name_canonical}.get();
}}"""
Structure_Convert_arraydecl = """
ReadFieldArray<{policy}>({destcast}dest.{name_canonical},"{name_dna}",db);"""
Structure_Convert_arraydecl2d = """
ReadFieldArray2<{policy}>({destcast}dest.{name_canonical},"{name_dna}",db);"""
Structure_Convert_normal = """
ReadField<{policy}>({destcast}dest.{name_canonical},"{name_dna}",db);"""
DNA_RegisterConverters_decl = """
void DNA::RegisterConverters() """
DNA_RegisterConverters_add = """
converters["{a}"] = DNA::FactoryPair( &Structure::Allocate<{a}>, &Structure::Convert<{a}> );"""
map_policy = {
"" : "ErrorPolicy_Igno"
,"IGNO" : "ErrorPolicy_Igno"
,"WARN" : "ErrorPolicy_Warn"
,"FAIL" : "ErrorPolicy_Fail"
}
#
def main():
# -----------------------------------------------------------------------
# Parse structure definitions from BlenderScene.h
input = open(inputfile,"rt").read()
#flags = re.ASCII|re.DOTALL|re.MULTILINE
flags = re.DOTALL|re.MULTILINE
#stripcoms = re.compile(r"/\*(.*?)*\/",flags)
getstruct = re.compile(r"struct\s+(\w+?)\s*(:\s*ElemBase)?\s*\{(.*?)^\}\s*;",flags)
getsmartx = re.compile(r"(std\s*::\s*)?(vector)\s*<\s*(boost\s*::\s*)?shared_(ptr)\s*<\s*(\w+)\s*>\s*>\s*",flags)
getsmartp = re.compile(r"(boost\s*::\s*)?shared_(ptr)\s*<\s*(\w+)\s*>\s*",flags)
getrawp = re.compile(r"(\w+)\s*\*\s*",flags)
getsmarta = re.compile(r"(std\s*::\s*)?(vector)\s*<\s*(\w+)\s*>\s*",flags)
getpolicy = re.compile(r"\s*(WARN|FAIL|IGNO)",flags)
stripenum = re.compile(r"enum\s+(\w+)\s*{.*?\}\s*;",flags)
assert getsmartx and getsmartp and getsmarta and getrawp and getpolicy and stripenum
enums = set()
#re.sub(stripcoms," ",input)
#print(input)
hits = {}
while 1:
match = re.search(getstruct,input)
if match is None:
break
tmp = match.groups()[2]
while 1:
match2 = re.search(stripenum,tmp)
if match2 is None:
break
tmp = tmp[match2.end():]
enums.add(match2.groups()[0])
hits[match.groups()[0]] = list(
filter(lambda x:x[:2] != "//" and len(x),
map(str.strip,
re.sub(stripenum," ",match.groups()[2]).split(";")
)))
input = input[match.end():]
for e in enums:
print("Enum: "+e)
for k,v in hits.items():
out = []
for line in v:
policy = "IGNO"
py = re.search(getpolicy,line)
if not py is None:
policy = py.groups()[0]
line = re.sub(getpolicy,"",line)
ty = re.match(getsmartx,line) or re.match(getsmartp,line) or\
re.match(getsmarta,line) or re.match(getrawp,line)
if ty is None:
ty = line.split(None,1)[0]
else:
if len(ty.groups()) == 1:
ty = ty.groups()[-1] + "$"
elif ty.groups()[1] == "ptr":
ty = ty.groups()[2] + "*"
elif ty.groups()[1] == "vector":
ty = ty.groups()[-1] + ("*" if len(ty.groups()) == 3 else "**")
else:
assert False
#print(line)
sp = line.split(',')
out.append((ty,sp[0].split(None)[-1].strip(),policy))
for m in sp[1:]:
out.append((ty,m.strip(),policy))
v[:] = out
print("Structure {0}".format(k))
for elem in out:
print("\t"+"\t".join(elem))
print("")
output = open(outputfile_gen,"wt")
templt = open(template_gen,"rt").read()
s = ""
# -----------------------------------------------------------------------
# Structure::Convert declarations for all supported structures
for k,v in hits.items():
s += Structure_Convert_decl.format(a=k)+";\n";
output.write(templt.replace("",s))
output = open(outputfile_src,"wt")
templt = open(template_src,"rt").read()
s = ""
# -----------------------------------------------------------------------
# Structure::Convert definitions for all supported structures
for k,v in hits.items():
s += "//" + "-"*80
if k == 'Base':
s += Structure_Convert_Base_fullcode
continue
s += Structure_Convert_decl.format(a=k)+ "{ \n";
for type, name, policy in v:
splits = name.split("[",1)
name_canonical = splits[0]
#array_part = "" if len(splits)==1 else "["+splits[1]
is_raw_ptr = not not type.count("$")
ptr_decl = "*"*(type.count("*") + (1 if is_raw_ptr else 0))
name_dna = ptr_decl+name_canonical #+array_part
#required = "false"
policy = map_policy[policy]
destcast = "(int&)" if type in enums else ""
# POINTER
if is_raw_ptr:
type = type.replace('$','')
s += Structure_Convert_rawptrdecl.format(**locals())
elif ptr_decl:
s += Structure_Convert_ptrdecl.format(**locals())
# ARRAY MEMBER
elif name.count('[')==1:
s += Structure_Convert_arraydecl.format(**locals())
elif name.count('[')==2:
s += Structure_Convert_arraydecl2d.format(**locals())
# NORMAL MEMBER
else:
s += Structure_Convert_normal.format(**locals())
s += "\n\n\tdb.reader->IncPtr(size);\n}\n\n"
# -----------------------------------------------------------------------
# DNA::RegisterConverters - collect all available converter functions
# in a std::map
#s += "#if 0\n"
s += "//" + "-"*80 + DNA_RegisterConverters_decl + "{\n"
for k,v in hits.items():
s += DNA_RegisterConverters_add.format(a=k)
s += "\n}\n"
#s += "#endif\n"
output.write(templt.replace("",s))
# we got here, so no error
return 0
if __name__ == "__main__":
sys.exit(main())