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-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCBoolean.cpp765
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCCurve.cpp618
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCGeometry.cpp932
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCLoader.cpp931
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCLoader.h116
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCMaterial.cpp202
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCOpenings.cpp1955
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCProfile.cpp190
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen1_2x3.cpp3177
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen2_2x3.cpp1927
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_2x3.h4380
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_4.cpp6207
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_4.h5452
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCUtil.cpp701
-rw-r--r--src/mesh/assimp-master/code/AssetLib/IFC/IFCUtil.h411
15 files changed, 27964 insertions, 0 deletions
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCBoolean.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCBoolean.cpp
new file mode 100644
index 0000000..36912a7
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCBoolean.cpp
@@ -0,0 +1,765 @@
+/*
+Open Asset Import Library (assimp)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2022, assimp 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 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.
+
+----------------------------------------------------------------------
+*/
+
+/** @file IFCBoolean.cpp
+ * @brief Implements a subset of Ifc boolean operations
+ */
+
+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER
+
+#include "AssetLib/IFC/IFCUtil.h"
+#include "Common/PolyTools.h"
+#include "PostProcessing/ProcessHelper.h"
+
+
+#include <iterator>
+#include <tuple>
+
+namespace Assimp {
+namespace IFC {
+
+// ------------------------------------------------------------------------------------------------
+// Calculates intersection between line segment and plane. To catch corner cases, specify which side you prefer.
+// The function then generates a hit only if the end is beyond a certain margin in that direction, filtering out
+// "very close to plane" ghost hits as long as start and end stay directly on or within the given plane side.
+bool IntersectSegmentPlane(const IfcVector3 &p, const IfcVector3 &n, const IfcVector3 &e0,
+ const IfcVector3 &e1, bool assumeStartOnWhiteSide, IfcVector3 &out) {
+ const IfcVector3 pdelta = e0 - p, seg = e1 - e0;
+ const IfcFloat dotOne = n * seg, dotTwo = -(n * pdelta);
+
+ // if segment ends on plane, do not report a hit. We stay on that side until a following segment starting at this
+ // point leaves the plane through the other side
+ if (std::abs(dotOne + dotTwo) < ai_epsilon)
+ return false;
+
+ // if segment starts on the plane, report a hit only if the end lies on the *other* side
+ if (std::abs(dotTwo) < ai_epsilon) {
+ if ((assumeStartOnWhiteSide && dotOne + dotTwo < ai_epsilon) || (!assumeStartOnWhiteSide && dotOne + dotTwo > -ai_epsilon)) {
+ out = e0;
+ return true;
+ } else {
+ return false;
+ }
+ }
+
+ // ignore if segment is parallel to plane and far away from it on either side
+ // Warning: if there's a few thousand of such segments which slowly accumulate beyond the epsilon, no hit would be registered
+ if (std::abs(dotOne) < ai_epsilon)
+ return false;
+
+ // t must be in [0..1] if the intersection point is within the given segment
+ const IfcFloat t = dotTwo / dotOne;
+ if (t > 1.0 || t < 0.0)
+ return false;
+
+ out = e0 + t * seg;
+ return true;
+}
+
+// ------------------------------------------------------------------------------------------------
+void FilterPolygon(std::vector<IfcVector3> &resultpoly) {
+ if (resultpoly.size() < 3) {
+ resultpoly.clear();
+ return;
+ }
+
+ IfcVector3 vmin, vmax;
+ ArrayBounds(resultpoly.data(), static_cast<unsigned int>(resultpoly.size()), vmin, vmax);
+
+ // filter our IfcFloat points - those may happen if a point lies
+ // directly on the intersection line or directly on the clipping plane
+ const IfcFloat epsilon = (vmax - vmin).SquareLength() / 1e6f;
+ FuzzyVectorCompare fz(epsilon);
+ std::vector<IfcVector3>::iterator e = std::unique(resultpoly.begin(), resultpoly.end(), fz);
+
+ if (e != resultpoly.end())
+ resultpoly.erase(e, resultpoly.end());
+
+ if (!resultpoly.empty() && fz(resultpoly.front(), resultpoly.back()))
+ resultpoly.pop_back();
+}
+
+// ------------------------------------------------------------------------------------------------
+void WritePolygon(std::vector<IfcVector3> &resultpoly, TempMesh &result) {
+ FilterPolygon(resultpoly);
+
+ if (resultpoly.size() > 2) {
+ result.mVerts.insert(result.mVerts.end(), resultpoly.begin(), resultpoly.end());
+ result.mVertcnt.push_back(static_cast<unsigned int>(resultpoly.size()));
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessBooleanHalfSpaceDifference(const Schema_2x3::IfcHalfSpaceSolid *hs, TempMesh &result,
+ const TempMesh &first_operand,
+ ConversionData & /*conv*/) {
+ ai_assert(hs != nullptr);
+
+ const Schema_2x3::IfcPlane *const plane = hs->BaseSurface->ToPtr<Schema_2x3::IfcPlane>();
+ if (!plane) {
+ IFCImporter::LogError("expected IfcPlane as base surface for the IfcHalfSpaceSolid");
+ return;
+ }
+
+ // extract plane base position vector and normal vector
+ IfcVector3 p, n(0.f, 0.f, 1.f);
+ if (plane->Position->Axis) {
+ ConvertDirection(n, plane->Position->Axis.Get());
+ }
+ ConvertCartesianPoint(p, plane->Position->Location);
+
+ if (!IsTrue(hs->AgreementFlag)) {
+ n *= -1.f;
+ }
+
+ // clip the current contents of `meshout` against the plane we obtained from the second operand
+ const std::vector<IfcVector3> &in = first_operand.mVerts;
+ std::vector<IfcVector3> &outvert = result.mVerts;
+
+ std::vector<unsigned int>::const_iterator begin = first_operand.mVertcnt.begin(),
+ end = first_operand.mVertcnt.end(), iit;
+
+ outvert.reserve(in.size());
+ result.mVertcnt.reserve(first_operand.mVertcnt.size());
+
+ unsigned int vidx = 0;
+ for (iit = begin; iit != end; vidx += *iit++) {
+
+ unsigned int newcount = 0;
+ bool isAtWhiteSide = (in[vidx] - p) * n > -ai_epsilon;
+ for (unsigned int i = 0; i < *iit; ++i) {
+ const IfcVector3 &e0 = in[vidx + i], e1 = in[vidx + (i + 1) % *iit];
+
+ // does the next segment intersect the plane?
+ IfcVector3 isectpos;
+ if (IntersectSegmentPlane(p, n, e0, e1, isAtWhiteSide, isectpos)) {
+ if (isAtWhiteSide) {
+ // e0 is on the right side, so keep it
+ outvert.push_back(e0);
+ outvert.push_back(isectpos);
+ newcount += 2;
+ } else {
+ // e0 is on the wrong side, so drop it and keep e1 instead
+ outvert.push_back(isectpos);
+ ++newcount;
+ }
+ isAtWhiteSide = !isAtWhiteSide;
+ } else {
+ if (isAtWhiteSide) {
+ outvert.push_back(e0);
+ ++newcount;
+ }
+ }
+ }
+
+ if (!newcount) {
+ continue;
+ }
+
+ IfcVector3 vmin, vmax;
+ ArrayBounds(&*(outvert.end() - newcount), newcount, vmin, vmax);
+
+ // filter our IfcFloat points - those may happen if a point lies
+ // directly on the intersection line. However, due to IfcFloat
+ // precision a bitwise comparison is not feasible to detect
+ // this case.
+ const IfcFloat epsilon = (vmax - vmin).SquareLength() / 1e6f;
+ FuzzyVectorCompare fz(epsilon);
+
+ std::vector<IfcVector3>::iterator e = std::unique(outvert.end() - newcount, outvert.end(), fz);
+
+ if (e != outvert.end()) {
+ newcount -= static_cast<unsigned int>(std::distance(e, outvert.end()));
+ outvert.erase(e, outvert.end());
+ }
+ if (fz(*(outvert.end() - newcount), outvert.back())) {
+ outvert.pop_back();
+ --newcount;
+ }
+ if (newcount > 2) {
+ result.mVertcnt.push_back(newcount);
+ } else
+ while (newcount-- > 0) {
+ result.mVerts.pop_back();
+ }
+ }
+ IFCImporter::LogVerboseDebug("generating CSG geometry by plane clipping (IfcBooleanClippingResult)");
+}
+
+// ------------------------------------------------------------------------------------------------
+// Check if e0-e1 intersects a sub-segment of the given boundary line.
+// note: this functions works on 3D vectors, but performs its intersection checks solely in xy.
+// New version takes the supposed inside/outside state as a parameter and treats corner cases as if
+// the line stays on that side. This should make corner cases more stable.
+// Two million assumptions! Boundary should have all z at 0.0, will be treated as closed, should not have
+// segments with length <1e-6, self-intersecting might break the corner case handling... just don't go there, ok?
+bool IntersectsBoundaryProfile(const IfcVector3 &e0, const IfcVector3 &e1, const std::vector<IfcVector3> &boundary,
+ const bool isStartAssumedInside, std::vector<std::pair<size_t, IfcVector3>> &intersect_results,
+ const bool halfOpen = false) {
+ ai_assert(intersect_results.empty());
+
+ // determine winding order - necessary to detect segments going "inwards" or "outwards" from a point directly on the border
+ // positive sum of angles means clockwise order when looking down the -Z axis
+ IfcFloat windingOrder = 0.0;
+ for (size_t i = 0, bcount = boundary.size(); i < bcount; ++i) {
+ IfcVector3 b01 = boundary[(i + 1) % bcount] - boundary[i];
+ IfcVector3 b12 = boundary[(i + 2) % bcount] - boundary[(i + 1) % bcount];
+ IfcVector3 b1_side = IfcVector3(b01.y, -b01.x, 0.0); // rotated 90° clockwise in Z plane
+ // Warning: rough estimate only. A concave poly with lots of small segments each featuring a small counter rotation
+ // could fool the accumulation. Correct implementation would be sum( acos( b01 * b2) * sign( b12 * b1_side))
+ windingOrder += (b1_side.x * b12.x + b1_side.y * b12.y);
+ }
+ windingOrder = windingOrder > 0.0 ? 1.0 : -1.0;
+
+ const IfcVector3 e = e1 - e0;
+
+ for (size_t i = 0, bcount = boundary.size(); i < bcount; ++i) {
+ // boundary segment i: b0-b1
+ const IfcVector3 &b0 = boundary[i];
+ const IfcVector3 &b1 = boundary[(i + 1) % bcount];
+ IfcVector3 b = b1 - b0;
+
+ // segment-segment intersection
+ // solve b0 + b*s = e0 + e*t for (s,t)
+ const IfcFloat det = (-b.x * e.y + e.x * b.y);
+ if (std::abs(det) < ai_epsilon) {
+ // no solutions (parallel lines)
+ continue;
+ }
+ IfcFloat b_sqlen_inv = 1.0 / b.SquareLength();
+
+ const IfcFloat x = b0.x - e0.x;
+ const IfcFloat y = b0.y - e0.y;
+ const IfcFloat s = (x * e.y - e.x * y) / det; // scale along boundary edge
+ const IfcFloat t = (x * b.y - b.x * y) / det; // scale along given segment
+ const IfcVector3 p = e0 + e * t;
+#ifdef ASSIMP_BUILD_DEBUG
+ const IfcVector3 check = b0 + b * s - p;
+ ai_assert((IfcVector2(check.x, check.y)).SquareLength() < 1e-5);
+#endif
+
+ // also calculate the distance of e0 and e1 to the segment. We need to detect the "starts directly on segment"
+ // and "ends directly at segment" cases
+ bool startsAtSegment, endsAtSegment;
+ {
+ // calculate closest point to each end on the segment, clamp that point to the segment's length, then check
+ // distance to that point. This approach is like testing if e0 is inside a capped cylinder.
+ IfcFloat et0 = (b.x * (e0.x - b0.x) + b.y * (e0.y - b0.y)) * b_sqlen_inv;
+ IfcVector3 closestPosToE0OnBoundary = b0 + std::max(IfcFloat(0.0), std::min(IfcFloat(1.0), et0)) * b;
+ startsAtSegment = (closestPosToE0OnBoundary - IfcVector3(e0.x, e0.y, 0.0)).SquareLength() < 1e-12;
+ IfcFloat et1 = (b.x * (e1.x - b0.x) + b.y * (e1.y - b0.y)) * b_sqlen_inv;
+ IfcVector3 closestPosToE1OnBoundary = b0 + std::max(IfcFloat(0.0), std::min(IfcFloat(1.0), et1)) * b;
+ endsAtSegment = (closestPosToE1OnBoundary - IfcVector3(e1.x, e1.y, 0.0)).SquareLength() < 1e-12;
+ }
+
+ // Line segment ends at boundary -> ignore any hit, it will be handled by possibly following segments
+ if (endsAtSegment && !halfOpen)
+ continue;
+
+ // Line segment starts at boundary -> generate a hit only if following that line would change the INSIDE/OUTSIDE
+ // state. This should catch the case where a connected set of segments has a point directly on the boundary,
+ // one segment not hitting it because it ends there and the next segment not hitting it because it starts there
+ // Should NOT generate a hit if the segment only touches the boundary but turns around and stays inside.
+ if (startsAtSegment) {
+ IfcVector3 inside_dir = IfcVector3(b.y, -b.x, 0.0) * windingOrder;
+ bool isGoingInside = (inside_dir * e) > 0.0;
+ if (isGoingInside == isStartAssumedInside)
+ continue;
+
+ // only insert the point into the list if it is sufficiently far away from the previous intersection point.
+ // This way, we avoid duplicate detection if the intersection is directly on the vertex between two segments.
+ if (!intersect_results.empty() && intersect_results.back().first == i - 1) {
+ const IfcVector3 diff = intersect_results.back().second - e0;
+ if (IfcVector2(diff.x, diff.y).SquareLength() < 1e-10)
+ continue;
+ }
+ intersect_results.push_back(std::make_pair(i, e0));
+ continue;
+ }
+
+ // for a valid intersection, s and t should be in range [0,1]. Including a bit of epsilon on s, potential double
+ // hits on two consecutive boundary segments are filtered
+ if (s >= -ai_epsilon * b_sqlen_inv && s <= 1.0 + ai_epsilon * b_sqlen_inv && t >= 0.0 && (t <= 1.0 || halfOpen)) {
+ // only insert the point into the list if it is sufficiently far away from the previous intersection point.
+ // This way, we avoid duplicate detection if the intersection is directly on the vertex between two segments.
+ if (!intersect_results.empty() && intersect_results.back().first == i - 1) {
+ const IfcVector3 diff = intersect_results.back().second - p;
+ if (IfcVector2(diff.x, diff.y).SquareLength() < 1e-10)
+ continue;
+ }
+ intersect_results.push_back(std::make_pair(i, p));
+ }
+ }
+
+ return !intersect_results.empty();
+}
+
+// ------------------------------------------------------------------------------------------------
+// note: this functions works on 3D vectors, but performs its intersection checks solely in xy.
+bool PointInPoly(const IfcVector3 &p, const std::vector<IfcVector3> &boundary) {
+ // even-odd algorithm: take a random vector that extends from p to infinite
+ // and counts how many times it intersects edges of the boundary.
+ // because checking for segment intersections is prone to numeric inaccuracies
+ // or double detections (i.e. when hitting multiple adjacent segments at their
+ // shared vertices) we do it thrice with different rays and vote on it.
+
+ // the even-odd algorithm doesn't work for points which lie directly on
+ // the border of the polygon. If any of our attempts produces this result,
+ // we return false immediately.
+
+ std::vector<std::pair<size_t, IfcVector3>> intersected_boundary;
+ size_t votes = 0;
+
+ IntersectsBoundaryProfile(p, p + IfcVector3(1.0, 0, 0), boundary, true, intersected_boundary, true);
+ votes += intersected_boundary.size() % 2;
+
+ intersected_boundary.clear();
+ IntersectsBoundaryProfile(p, p + IfcVector3(0, 1.0, 0), boundary, true, intersected_boundary, true);
+ votes += intersected_boundary.size() % 2;
+
+ intersected_boundary.clear();
+ IntersectsBoundaryProfile(p, p + IfcVector3(0.6, -0.6, 0.0), boundary, true, intersected_boundary, true);
+ votes += intersected_boundary.size() % 2;
+
+ return votes > 1;
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessPolygonalBoundedBooleanHalfSpaceDifference(const Schema_2x3::IfcPolygonalBoundedHalfSpace *hs, TempMesh &result,
+ const TempMesh &first_operand,
+ ConversionData &conv) {
+ ai_assert(hs != nullptr);
+
+ const Schema_2x3::IfcPlane *const plane = hs->BaseSurface->ToPtr<Schema_2x3::IfcPlane>();
+ if (!plane) {
+ IFCImporter::LogError("expected IfcPlane as base surface for the IfcHalfSpaceSolid");
+ return;
+ }
+
+ // extract plane base position vector and normal vector
+ IfcVector3 p, n(0.f, 0.f, 1.f);
+ if (plane->Position->Axis) {
+ ConvertDirection(n, plane->Position->Axis.Get());
+ }
+ ConvertCartesianPoint(p, plane->Position->Location);
+
+ if (!IsTrue(hs->AgreementFlag)) {
+ n *= -1.f;
+ }
+
+ n.Normalize();
+
+ // obtain the polygonal bounding volume
+ std::shared_ptr<TempMesh> profile = std::shared_ptr<TempMesh>(new TempMesh());
+ if (!ProcessCurve(hs->PolygonalBoundary, *profile.get(), conv)) {
+ IFCImporter::LogError("expected valid polyline for boundary of boolean halfspace");
+ return;
+ }
+
+ // determine winding order by calculating the normal.
+ IfcVector3 profileNormal = TempMesh::ComputePolygonNormal(profile->mVerts.data(), profile->mVerts.size());
+
+ IfcMatrix4 proj_inv;
+ ConvertAxisPlacement(proj_inv, hs->Position);
+
+ // and map everything into a plane coordinate space so all intersection
+ // tests can be done in 2D space.
+ IfcMatrix4 proj = proj_inv;
+ proj.Inverse();
+
+ // clip the current contents of `meshout` against the plane we obtained from the second operand
+ const std::vector<IfcVector3> &in = first_operand.mVerts;
+ std::vector<IfcVector3> &outvert = result.mVerts;
+ std::vector<unsigned int> &outvertcnt = result.mVertcnt;
+
+ outvert.reserve(in.size());
+ outvertcnt.reserve(first_operand.mVertcnt.size());
+
+ unsigned int vidx = 0;
+ std::vector<unsigned int>::const_iterator begin = first_operand.mVertcnt.begin();
+ std::vector<unsigned int>::const_iterator end = first_operand.mVertcnt.end();
+ std::vector<unsigned int>::const_iterator iit;
+ for (iit = begin; iit != end; vidx += *iit++) {
+ // Our new approach: we cut the poly along the plane, then we intersect the part on the black side of the plane
+ // against the bounding polygon. All the white parts, and the black part outside the boundary polygon, are kept.
+ std::vector<IfcVector3> whiteside, blackside;
+
+ {
+ const IfcVector3 *srcVertices = &in[vidx];
+ const size_t srcVtxCount = *iit;
+ if (srcVtxCount == 0)
+ continue;
+
+ IfcVector3 polyNormal = TempMesh::ComputePolygonNormal(srcVertices, srcVtxCount, true);
+
+ // if the poly is parallel to the plane, put it completely on the black or white side
+ if (std::abs(polyNormal * n) > 0.9999) {
+ bool isOnWhiteSide = (srcVertices[0] - p) * n > -ai_epsilon;
+ std::vector<IfcVector3> &targetSide = isOnWhiteSide ? whiteside : blackside;
+ targetSide.insert(targetSide.end(), srcVertices, srcVertices + srcVtxCount);
+ } else {
+ // otherwise start building one polygon for each side. Whenever the current line segment intersects the plane
+ // we put a point there as an end of the current segment. Then we switch to the other side, put a point there, too,
+ // as a beginning of the current segment, and simply continue accumulating vertices.
+ bool isCurrentlyOnWhiteSide = ((srcVertices[0]) - p) * n > -ai_epsilon;
+ for (size_t a = 0; a < srcVtxCount; ++a) {
+ IfcVector3 e0 = srcVertices[a];
+ IfcVector3 e1 = srcVertices[(a + 1) % srcVtxCount];
+ IfcVector3 ei;
+
+ // put starting point to the current mesh
+ std::vector<IfcVector3> &trgt = isCurrentlyOnWhiteSide ? whiteside : blackside;
+ trgt.push_back(srcVertices[a]);
+
+ // if there's an intersection, put an end vertex there, switch to the other side's mesh,
+ // and add a starting vertex there, too
+ bool isPlaneHit = IntersectSegmentPlane(p, n, e0, e1, isCurrentlyOnWhiteSide, ei);
+ if (isPlaneHit) {
+ if (trgt.empty() || (trgt.back() - ei).SquareLength() > 1e-12)
+ trgt.push_back(ei);
+ isCurrentlyOnWhiteSide = !isCurrentlyOnWhiteSide;
+ std::vector<IfcVector3> &newtrgt = isCurrentlyOnWhiteSide ? whiteside : blackside;
+ newtrgt.push_back(ei);
+ }
+ }
+ }
+ }
+
+ // the part on the white side can be written into the target mesh right away
+ WritePolygon(whiteside, result);
+
+ // The black part is the piece we need to get rid of, but only the part of it within the boundary polygon.
+ // So we now need to construct all the polygons that result from BlackSidePoly minus BoundaryPoly.
+ FilterPolygon(blackside);
+
+ // Complicated, II. We run along the polygon. a) When we're inside the boundary, we run on until we hit an
+ // intersection, which means we're leaving it. We then start a new out poly there. b) When we're outside the
+ // boundary, we start collecting vertices until we hit an intersection, then we run along the boundary until we hit
+ // an intersection, then we switch back to the poly and run on on this one again, and so on until we got a closed
+ // loop. Then we continue with the path we left to catch potential additional polys on the other side of the
+ // boundary as described in a)
+ if (!blackside.empty()) {
+ // poly edge index, intersection point, edge index in boundary poly
+ std::vector<std::tuple<size_t, IfcVector3, size_t>> intersections;
+ bool startedInside = PointInPoly(proj * blackside.front(), profile->mVerts);
+ bool isCurrentlyInside = startedInside;
+
+ std::vector<std::pair<size_t, IfcVector3>> intersected_boundary;
+
+ for (size_t a = 0; a < blackside.size(); ++a) {
+ const IfcVector3 e0 = proj * blackside[a];
+ const IfcVector3 e1 = proj * blackside[(a + 1) % blackside.size()];
+
+ intersected_boundary.clear();
+ IntersectsBoundaryProfile(e0, e1, profile->mVerts, isCurrentlyInside, intersected_boundary);
+ // sort the hits by distance from e0 to get the correct in/out/in sequence. Manually :-( I miss you, C++11.
+ if (intersected_boundary.size() > 1) {
+ bool keepSorting = true;
+ while (keepSorting) {
+ keepSorting = false;
+ for (size_t b = 0; b < intersected_boundary.size() - 1; ++b) {
+ if ((intersected_boundary[b + 1].second - e0).SquareLength() < (intersected_boundary[b].second - e0).SquareLength()) {
+ keepSorting = true;
+ std::swap(intersected_boundary[b + 1], intersected_boundary[b]);
+ }
+ }
+ }
+ }
+ // now add them to the list of intersections
+ for (size_t b = 0; b < intersected_boundary.size(); ++b)
+ intersections.push_back(std::make_tuple(a, proj_inv * intersected_boundary[b].second, intersected_boundary[b].first));
+
+ // and calculate our new inside/outside state
+ if (intersected_boundary.size() & 1)
+ isCurrentlyInside = !isCurrentlyInside;
+ }
+
+ // we got a list of in-out-combinations of intersections. That should be an even number of intersections, or
+ // we are facing a non-recoverable error.
+ if ((intersections.size() & 1) != 0) {
+ IFCImporter::LogWarn("Odd number of intersections, can't work with that. Omitting half space boundary check.");
+ continue;
+ }
+
+ if (intersections.size() > 1) {
+ // If we started outside, the first intersection is a out->in intersection. Cycle them so that it
+ // starts with an intersection leaving the boundary
+ if (!startedInside)
+ for (size_t b = 0; b < intersections.size() - 1; ++b)
+ std::swap(intersections[b], intersections[(b + intersections.size() - 1) % intersections.size()]);
+
+ // Filter pairs of out->in->out that lie too close to each other.
+ for (size_t a = 0; intersections.size() > 0 && a < intersections.size() - 1; /**/) {
+ if ((std::get<1>(intersections[a]) - std::get<1>(intersections[(a + 1) % intersections.size()])).SquareLength() < 1e-10)
+ intersections.erase(intersections.begin() + a, intersections.begin() + a + 2);
+ else
+ a++;
+ }
+ if (intersections.size() > 1 && (std::get<1>(intersections.back()) - std::get<1>(intersections.front())).SquareLength() < 1e-10) {
+ intersections.pop_back();
+ intersections.erase(intersections.begin());
+ }
+ }
+
+ // no intersections at all: either completely inside the boundary, so everything gets discarded, or completely outside.
+ // in the latter case we're implementional lost. I'm simply going to ignore this, so a large poly will not get any
+ // holes if the boundary is smaller and does not touch it anywhere.
+ if (intersections.empty()) {
+ // starting point was outside -> everything is outside the boundary -> nothing is clipped -> add black side
+ // to result mesh unchanged
+ if (!startedInside) {
+ outvertcnt.push_back(static_cast<unsigned int>(blackside.size()));
+ outvert.insert(outvert.end(), blackside.begin(), blackside.end());
+ continue;
+ } else {
+ // starting point was inside the boundary -> everything is inside the boundary -> nothing is spared from the
+ // clipping -> nothing left to add to the result mesh
+ continue;
+ }
+ }
+
+ // determine the direction in which we're marching along the boundary polygon. If the src poly is faced upwards
+ // and the boundary is also winded this way, we need to march *backwards* on the boundary.
+ const IfcVector3 polyNormal = IfcMatrix3(proj) * TempMesh::ComputePolygonNormal(blackside.data(), blackside.size());
+ bool marchBackwardsOnBoundary = (profileNormal * polyNormal) >= 0.0;
+
+ // Build closed loops from these intersections. Starting from an intersection leaving the boundary we
+ // walk along the polygon to the next intersection (which should be an IS entering the boundary poly).
+ // From there we walk along the boundary until we hit another intersection leaving the boundary,
+ // walk along the poly to the next IS and so on until we're back at the starting point.
+ // We remove every intersection we "used up", so any remaining intersection is the start of a new loop.
+ while (!intersections.empty()) {
+ std::vector<IfcVector3> resultpoly;
+ size_t currentIntersecIdx = 0;
+
+ while (true) {
+ ai_assert(intersections.size() > currentIntersecIdx + 1);
+ std::tuple<size_t, IfcVector3, size_t> currintsec = intersections[currentIntersecIdx + 0];
+ std::tuple<size_t, IfcVector3, size_t> nextintsec = intersections[currentIntersecIdx + 1];
+ intersections.erase(intersections.begin() + currentIntersecIdx, intersections.begin() + currentIntersecIdx + 2);
+
+ // we start with an in->out intersection
+ resultpoly.push_back(std::get<1>(currintsec));
+ // climb along the polygon to the next intersection, which should be an out->in
+ size_t numPolyPoints = (std::get<0>(currintsec) > std::get<0>(nextintsec) ? blackside.size() : 0) + std::get<0>(nextintsec) - std::get<0>(currintsec);
+ for (size_t a = 1; a <= numPolyPoints; ++a)
+ resultpoly.push_back(blackside[(std::get<0>(currintsec) + a) % blackside.size()]);
+ // put the out->in intersection
+ resultpoly.push_back(std::get<1>(nextintsec));
+
+ // generate segments along the boundary polygon that lie in the poly's plane until we hit another intersection
+ IfcVector3 startingPoint = proj * std::get<1>(nextintsec);
+ size_t currentBoundaryEdgeIdx = (std::get<2>(nextintsec) + (marchBackwardsOnBoundary ? 1 : 0)) % profile->mVerts.size();
+ size_t nextIntsecIdx = SIZE_MAX;
+ while (nextIntsecIdx == SIZE_MAX) {
+ IfcFloat t = 1e10;
+
+ size_t nextBoundaryEdgeIdx = marchBackwardsOnBoundary ? (currentBoundaryEdgeIdx + profile->mVerts.size() - 1) : currentBoundaryEdgeIdx + 1;
+ nextBoundaryEdgeIdx %= profile->mVerts.size();
+ // vertices of the current boundary segments
+ IfcVector3 currBoundaryPoint = profile->mVerts[currentBoundaryEdgeIdx];
+ IfcVector3 nextBoundaryPoint = profile->mVerts[nextBoundaryEdgeIdx];
+ // project the two onto the polygon
+ if (std::abs(polyNormal.z) > 1e-5) {
+ currBoundaryPoint.z = startingPoint.z + (currBoundaryPoint.x - startingPoint.x) * polyNormal.x / polyNormal.z + (currBoundaryPoint.y - startingPoint.y) * polyNormal.y / polyNormal.z;
+ nextBoundaryPoint.z = startingPoint.z + (nextBoundaryPoint.x - startingPoint.x) * polyNormal.x / polyNormal.z + (nextBoundaryPoint.y - startingPoint.y) * polyNormal.y / polyNormal.z;
+ }
+
+ // build a direction that goes along the boundary border but lies in the poly plane
+ IfcVector3 boundaryPlaneNormal = ((nextBoundaryPoint - currBoundaryPoint) ^ profileNormal).Normalize();
+ IfcVector3 dirAtPolyPlane = (boundaryPlaneNormal ^ polyNormal).Normalize() * (marchBackwardsOnBoundary ? -1.0 : 1.0);
+ // if we can project the direction to the plane, we can calculate a maximum marching distance along that dir
+ // until we finish that boundary segment and continue on the next
+ if (std::abs(polyNormal.z) > 1e-5) {
+ t = std::min(t, (nextBoundaryPoint - startingPoint).Length());
+ }
+
+ // check if the direction hits the loop start - if yes, we got a poly to output
+ IfcVector3 dirToThatPoint = proj * resultpoly.front() - startingPoint;
+ IfcFloat tpt = dirToThatPoint * dirAtPolyPlane;
+ if (tpt > -1e-6 && tpt <= t && (dirToThatPoint - tpt * dirAtPolyPlane).SquareLength() < 1e-10) {
+ nextIntsecIdx = intersections.size(); // dirty hack to end marching along the boundary and signal the end of the loop
+ t = tpt;
+ }
+
+ // also check if the direction hits any in->out intersections earlier. If we hit one, we can switch back
+ // to marching along the poly border from that intersection point
+ for (size_t a = 0; a < intersections.size(); a += 2) {
+ dirToThatPoint = proj * std::get<1>(intersections[a]) - startingPoint;
+ tpt = dirToThatPoint * dirAtPolyPlane;
+ if (tpt > -1e-6 && tpt <= t && (dirToThatPoint - tpt * dirAtPolyPlane).SquareLength() < 1e-10) {
+ nextIntsecIdx = a; // switch back to poly and march on from this in->out intersection
+ t = tpt;
+ }
+ }
+
+ // if we keep marching on the boundary, put the segment end point to the result poly and well... keep marching
+ if (nextIntsecIdx == SIZE_MAX) {
+ resultpoly.push_back(proj_inv * nextBoundaryPoint);
+ currentBoundaryEdgeIdx = nextBoundaryEdgeIdx;
+ startingPoint = nextBoundaryPoint;
+ }
+
+ // quick endless loop check
+ if (resultpoly.size() > blackside.size() + profile->mVerts.size()) {
+ IFCImporter::LogError("Encountered endless loop while clipping polygon against poly-bounded half space.");
+ break;
+ }
+ }
+
+ // we're back on the poly - if this is the intersection we started from, we got a closed loop.
+ if (nextIntsecIdx >= intersections.size()) {
+ break;
+ }
+
+ // otherwise it's another intersection. Continue marching from there.
+ currentIntersecIdx = nextIntsecIdx;
+ }
+
+ WritePolygon(resultpoly, result);
+ }
+ }
+ }
+ IFCImporter::LogVerboseDebug("generating CSG geometry by plane clipping with polygonal bounding (IfcBooleanClippingResult)");
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessBooleanExtrudedAreaSolidDifference(const Schema_2x3::IfcExtrudedAreaSolid *as, TempMesh &result,
+ const TempMesh &first_operand,
+ ConversionData &conv) {
+ ai_assert(as != nullptr);
+
+ // This case is handled by reduction to an instance of the quadrify() algorithm.
+ // Obviously, this won't work for arbitrarily complex cases. In fact, the first
+ // operand should be near-planar. Luckily, this is usually the case in Ifc
+ // buildings.
+
+ std::shared_ptr<TempMesh> meshtmp = std::shared_ptr<TempMesh>(new TempMesh());
+ ProcessExtrudedAreaSolid(*as, *meshtmp, conv, false);
+
+ std::vector<TempOpening> openings(1, TempOpening(as, IfcVector3(0, 0, 0), meshtmp, std::shared_ptr<TempMesh>()));
+
+ result = first_operand;
+
+ TempMesh temp;
+
+ std::vector<IfcVector3>::const_iterator vit = first_operand.mVerts.begin();
+ for (unsigned int pcount : first_operand.mVertcnt) {
+ temp.Clear();
+
+ temp.mVerts.insert(temp.mVerts.end(), vit, vit + pcount);
+ temp.mVertcnt.push_back(pcount);
+
+ // The algorithms used to generate mesh geometry sometimes
+ // spit out lines or other degenerates which must be
+ // filtered to avoid running into assertions later on.
+
+ // ComputePolygonNormal returns the Newell normal, so the
+ // length of the normal is the area of the polygon.
+ const IfcVector3 &normal = temp.ComputeLastPolygonNormal(false);
+ if (normal.SquareLength() < static_cast<IfcFloat>(1e-5)) {
+ IFCImporter::LogWarn("skipping degenerate polygon (ProcessBooleanExtrudedAreaSolidDifference)");
+ continue;
+ }
+
+ GenerateOpenings(openings, temp, false, true);
+ result.Append(temp);
+
+ vit += pcount;
+ }
+
+ IFCImporter::LogVerboseDebug("generating CSG geometry by geometric difference to a solid (IfcExtrudedAreaSolid)");
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessBoolean(const Schema_2x3::IfcBooleanResult &boolean, TempMesh &result, ConversionData &conv) {
+ // supported CSG operations:
+ // DIFFERENCE
+ if (const Schema_2x3::IfcBooleanResult *const clip = boolean.ToPtr<Schema_2x3::IfcBooleanResult>()) {
+ if (clip->Operator != "DIFFERENCE") {
+ IFCImporter::LogWarn("encountered unsupported boolean operator: ", (std::string)clip->Operator);
+ return;
+ }
+
+ // supported cases (1st operand):
+ // IfcBooleanResult -- call ProcessBoolean recursively
+ // IfcSweptAreaSolid -- obtain polygonal geometry first
+
+ // supported cases (2nd operand):
+ // IfcHalfSpaceSolid -- easy, clip against plane
+ // IfcExtrudedAreaSolid -- reduce to an instance of the quadrify() algorithm
+
+ const Schema_2x3::IfcHalfSpaceSolid *const hs = clip->SecondOperand->ResolveSelectPtr<Schema_2x3::IfcHalfSpaceSolid>(conv.db);
+ const Schema_2x3::IfcExtrudedAreaSolid *const as = clip->SecondOperand->ResolveSelectPtr<Schema_2x3::IfcExtrudedAreaSolid>(conv.db);
+ if (!hs && !as) {
+ IFCImporter::LogError("expected IfcHalfSpaceSolid or IfcExtrudedAreaSolid as second clipping operand");
+ return;
+ }
+
+ TempMesh first_operand;
+ if (const Schema_2x3::IfcBooleanResult *const op0 = clip->FirstOperand->ResolveSelectPtr<Schema_2x3::IfcBooleanResult>(conv.db)) {
+ ProcessBoolean(*op0, first_operand, conv);
+ } else if (const Schema_2x3::IfcSweptAreaSolid *const swept = clip->FirstOperand->ResolveSelectPtr<Schema_2x3::IfcSweptAreaSolid>(conv.db)) {
+ ProcessSweptAreaSolid(*swept, first_operand, conv);
+ } else {
+ IFCImporter::LogError("expected IfcSweptAreaSolid or IfcBooleanResult as first clipping operand");
+ return;
+ }
+
+ if (hs) {
+
+ const Schema_2x3::IfcPolygonalBoundedHalfSpace *const hs_bounded = clip->SecondOperand->ResolveSelectPtr<Schema_2x3::IfcPolygonalBoundedHalfSpace>(conv.db);
+ if (hs_bounded) {
+ ProcessPolygonalBoundedBooleanHalfSpaceDifference(hs_bounded, result, first_operand, conv);
+ } else {
+ ProcessBooleanHalfSpaceDifference(hs, result, first_operand, conv);
+ }
+ } else {
+ ProcessBooleanExtrudedAreaSolidDifference(as, result, first_operand, conv);
+ }
+ } else {
+ IFCImporter::LogWarn("skipping unknown IfcBooleanResult entity, type is ", boolean.GetClassName());
+ }
+}
+
+} // namespace IFC
+} // namespace Assimp
+
+#endif
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCCurve.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCCurve.cpp
new file mode 100644
index 0000000..19732ef
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCCurve.cpp
@@ -0,0 +1,618 @@
+/*
+Open Asset Import Library (assimp)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2022, assimp 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 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.
+
+----------------------------------------------------------------------
+*/
+
+/** @file IFCProfile.cpp
+ * @brief Read profile and curves entities from IFC files
+ */
+
+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER
+#include "IFCUtil.h"
+
+namespace Assimp {
+namespace IFC {
+namespace {
+
+
+// --------------------------------------------------------------------------------
+// Conic is the base class for Circle and Ellipse
+// --------------------------------------------------------------------------------
+class Conic : public Curve {
+public:
+ // --------------------------------------------------
+ Conic(const Schema_2x3::IfcConic& entity, ConversionData& conv)
+ : Curve(entity,conv) {
+ IfcMatrix4 trafo;
+ ConvertAxisPlacement(trafo,*entity.Position,conv);
+
+ // for convenience, extract the matrix rows
+ location = IfcVector3(trafo.a4,trafo.b4,trafo.c4);
+ p[0] = IfcVector3(trafo.a1,trafo.b1,trafo.c1);
+ p[1] = IfcVector3(trafo.a2,trafo.b2,trafo.c2);
+ p[2] = IfcVector3(trafo.a3,trafo.b3,trafo.c3);
+ }
+
+ // --------------------------------------------------
+ bool IsClosed() const {
+ return true;
+ }
+
+ // --------------------------------------------------
+ size_t EstimateSampleCount(IfcFloat a, IfcFloat b) const {
+ ai_assert( InRange( a ) );
+ ai_assert( InRange( b ) );
+
+ a *= conv.angle_scale;
+ b *= conv.angle_scale;
+
+ a = std::fmod(a,static_cast<IfcFloat>( AI_MATH_TWO_PI ));
+ b = std::fmod(b,static_cast<IfcFloat>( AI_MATH_TWO_PI ));
+ const IfcFloat setting = static_cast<IfcFloat>( AI_MATH_PI * conv.settings.conicSamplingAngle / 180.0 );
+ return static_cast<size_t>( std::ceil(std::abs( b-a)) / setting);
+ }
+
+ // --------------------------------------------------
+ ParamRange GetParametricRange() const {
+ return std::make_pair(static_cast<IfcFloat>( 0. ), static_cast<IfcFloat>( AI_MATH_TWO_PI / conv.angle_scale ));
+ }
+
+protected:
+ IfcVector3 location, p[3];
+};
+
+// --------------------------------------------------------------------------------
+// Circle
+// --------------------------------------------------------------------------------
+class Circle : public Conic {
+public:
+ // --------------------------------------------------
+ Circle(const Schema_2x3::IfcCircle& entity, ConversionData& conv)
+ : Conic(entity,conv)
+ , entity(entity)
+ {
+ }
+
+ // --------------------------------------------------
+ IfcVector3 Eval(IfcFloat u) const {
+ u = -conv.angle_scale * u;
+ return location + static_cast<IfcFloat>(entity.Radius)*(static_cast<IfcFloat>(std::cos(u))*p[0] +
+ static_cast<IfcFloat>(std::sin(u))*p[1]);
+ }
+
+private:
+ const Schema_2x3::IfcCircle& entity;
+};
+
+// --------------------------------------------------------------------------------
+// Ellipse
+// --------------------------------------------------------------------------------
+class Ellipse : public Conic {
+public:
+ // --------------------------------------------------
+ Ellipse(const Schema_2x3::IfcEllipse& entity, ConversionData& conv)
+ : Conic(entity,conv)
+ , entity(entity) {
+ // empty
+ }
+
+ // --------------------------------------------------
+ IfcVector3 Eval(IfcFloat u) const {
+ u = -conv.angle_scale * u;
+ return location + static_cast<IfcFloat>(entity.SemiAxis1)*static_cast<IfcFloat>(std::cos(u))*p[0] +
+ static_cast<IfcFloat>(entity.SemiAxis2)*static_cast<IfcFloat>(std::sin(u))*p[1];
+ }
+
+private:
+ const Schema_2x3::IfcEllipse& entity;
+};
+
+// --------------------------------------------------------------------------------
+// Line
+// --------------------------------------------------------------------------------
+class Line : public Curve {
+public:
+ // --------------------------------------------------
+ Line(const Schema_2x3::IfcLine& entity, ConversionData& conv)
+ : Curve(entity,conv) {
+ ConvertCartesianPoint(p,entity.Pnt);
+ ConvertVector(v,entity.Dir);
+ }
+
+ // --------------------------------------------------
+ bool IsClosed() const {
+ return false;
+ }
+
+ // --------------------------------------------------
+ IfcVector3 Eval(IfcFloat u) const {
+ return p + u*v;
+ }
+
+ // --------------------------------------------------
+ size_t EstimateSampleCount(IfcFloat a, IfcFloat b) const {
+ ai_assert( InRange( a ) );
+ ai_assert( InRange( b ) );
+ // two points are always sufficient for a line segment
+ return a==b ? 1 : 2;
+ }
+
+
+ // --------------------------------------------------
+ void SampleDiscrete(TempMesh& out,IfcFloat a, IfcFloat b) const {
+ ai_assert( InRange( a ) );
+ ai_assert( InRange( b ) );
+
+ if (a == b) {
+ out.mVerts.push_back(Eval(a));
+ return;
+ }
+ out.mVerts.reserve(out.mVerts.size()+2);
+ out.mVerts.push_back(Eval(a));
+ out.mVerts.push_back(Eval(b));
+ }
+
+ // --------------------------------------------------
+ ParamRange GetParametricRange() const {
+ const IfcFloat inf = std::numeric_limits<IfcFloat>::infinity();
+
+ return std::make_pair(-inf,+inf);
+ }
+
+private:
+ IfcVector3 p,v;
+};
+
+// --------------------------------------------------------------------------------
+// CompositeCurve joins multiple smaller, bounded curves
+// --------------------------------------------------------------------------------
+class CompositeCurve : public BoundedCurve {
+ typedef std::pair< std::shared_ptr< BoundedCurve >, bool > CurveEntry;
+
+public:
+ // --------------------------------------------------
+ CompositeCurve(const Schema_2x3::IfcCompositeCurve& entity, ConversionData& conv)
+ : BoundedCurve(entity,conv)
+ , total() {
+ curves.reserve(entity.Segments.size());
+ for(const Schema_2x3::IfcCompositeCurveSegment& curveSegment :entity.Segments) {
+ // according to the specification, this must be a bounded curve
+ std::shared_ptr< Curve > cv(Curve::Convert(curveSegment.ParentCurve,conv));
+ std::shared_ptr< BoundedCurve > bc = std::dynamic_pointer_cast<BoundedCurve>(cv);
+
+ if (!bc) {
+ IFCImporter::LogError("expected segment of composite curve to be a bounded curve");
+ continue;
+ }
+
+ if ( (std::string)curveSegment.Transition != "CONTINUOUS" ) {
+ IFCImporter::LogVerboseDebug("ignoring transition code on composite curve segment, only continuous transitions are supported");
+ }
+
+ curves.push_back( CurveEntry(bc,IsTrue(curveSegment.SameSense)) );
+ total += bc->GetParametricRangeDelta();
+ }
+
+ if (curves.empty()) {
+ throw CurveError("empty composite curve");
+ }
+ }
+
+ // --------------------------------------------------
+ IfcVector3 Eval(IfcFloat u) const {
+ if (curves.empty()) {
+ return IfcVector3();
+ }
+
+ IfcFloat acc = 0;
+ for(const CurveEntry& entry : curves) {
+ const ParamRange& range = entry.first->GetParametricRange();
+ const IfcFloat delta = std::abs(range.second-range.first);
+ if (u < acc+delta) {
+ return entry.first->Eval( entry.second ? (u-acc) + range.first : range.second-(u-acc));
+ }
+
+ acc += delta;
+ }
+ // clamp to end
+ return curves.back().first->Eval(curves.back().first->GetParametricRange().second);
+ }
+
+ // --------------------------------------------------
+ size_t EstimateSampleCount(IfcFloat a, IfcFloat b) const {
+ ai_assert( InRange( a ) );
+ ai_assert( InRange( b ) );
+ size_t cnt = 0;
+
+ IfcFloat acc = 0;
+ for(const CurveEntry& entry : curves) {
+ const ParamRange& range = entry.first->GetParametricRange();
+ const IfcFloat delta = std::abs(range.second-range.first);
+ if (a <= acc+delta && b >= acc) {
+ const IfcFloat at = std::max(static_cast<IfcFloat>( 0. ),a-acc), bt = std::min(delta,b-acc);
+ cnt += entry.first->EstimateSampleCount( entry.second ? at + range.first : range.second - bt, entry.second ? bt + range.first : range.second - at );
+ }
+
+ acc += delta;
+ }
+
+ return cnt;
+ }
+
+ // --------------------------------------------------
+ void SampleDiscrete(TempMesh& out,IfcFloat a, IfcFloat b) const {
+ ai_assert( InRange( a ) );
+ ai_assert( InRange( b ) );
+
+ const size_t cnt = EstimateSampleCount(a,b);
+ out.mVerts.reserve(out.mVerts.size() + cnt);
+
+ for(const CurveEntry& entry : curves) {
+ const size_t curCnt = out.mVerts.size();
+ entry.first->SampleDiscrete(out);
+
+ if (!entry.second && curCnt != out.mVerts.size()) {
+ std::reverse(out.mVerts.begin() + curCnt, out.mVerts.end());
+ }
+ }
+ }
+
+ // --------------------------------------------------
+ ParamRange GetParametricRange() const {
+ return std::make_pair(static_cast<IfcFloat>( 0. ),total);
+ }
+
+private:
+ std::vector< CurveEntry > curves;
+ IfcFloat total;
+};
+
+// --------------------------------------------------------------------------------
+// TrimmedCurve can be used to trim an unbounded curve to a bounded range
+// --------------------------------------------------------------------------------
+class TrimmedCurve : public BoundedCurve {
+public:
+ // --------------------------------------------------
+ TrimmedCurve(const Schema_2x3::IfcTrimmedCurve& entity, ConversionData& conv)
+ : BoundedCurve(entity,conv),
+ base(std::shared_ptr<const Curve>(Curve::Convert(entity.BasisCurve,conv)))
+ {
+ typedef std::shared_ptr<const STEP::EXPRESS::DataType> Entry;
+
+ // for some reason, trimmed curves can either specify a parametric value
+ // or a point on the curve, or both. And they can even specify which of the
+ // two representations they prefer, even though an information invariant
+ // claims that they must be identical if both are present.
+ // oh well.
+ bool have_param = false, have_point = false;
+ IfcVector3 point;
+ for(const Entry& sel :entity.Trim1) {
+ if (const ::Assimp::STEP::EXPRESS::REAL* const r = sel->ToPtr<::Assimp::STEP::EXPRESS::REAL>()) {
+ range.first = *r;
+ have_param = true;
+ break;
+ }
+ else if (const Schema_2x3::IfcCartesianPoint* const curR = sel->ResolveSelectPtr<Schema_2x3::IfcCartesianPoint>(conv.db)) {
+ ConvertCartesianPoint(point, *curR);
+ have_point = true;
+ }
+ }
+ if (!have_param) {
+ if (!have_point || !base->ReverseEval(point,range.first)) {
+ throw CurveError("IfcTrimmedCurve: failed to read first trim parameter, ignoring curve");
+ }
+ }
+ have_param = false, have_point = false;
+ for(const Entry& sel :entity.Trim2) {
+ if (const ::Assimp::STEP::EXPRESS::REAL* const r = sel->ToPtr<::Assimp::STEP::EXPRESS::REAL>()) {
+ range.second = *r;
+ have_param = true;
+ break;
+ }
+ else if (const Schema_2x3::IfcCartesianPoint* const curR = sel->ResolveSelectPtr<Schema_2x3::IfcCartesianPoint>(conv.db)) {
+ ConvertCartesianPoint(point, *curR);
+ have_point = true;
+ }
+ }
+ if (!have_param) {
+ if (!have_point || !base->ReverseEval(point,range.second)) {
+ throw CurveError("IfcTrimmedCurve: failed to read second trim parameter, ignoring curve");
+ }
+ }
+
+ agree_sense = IsTrue(entity.SenseAgreement);
+ if( !agree_sense ) {
+ std::swap(range.first,range.second);
+ }
+
+ // "NOTE In case of a closed curve, it may be necessary to increment t1 or t2
+ // by the parametric length for consistency with the sense flag."
+ if (base->IsClosed()) {
+ if( range.first > range.second ) {
+ range.second += base->GetParametricRangeDelta();
+ }
+ }
+
+ maxval = range.second-range.first;
+ ai_assert(maxval >= 0);
+ }
+
+ // --------------------------------------------------
+ IfcVector3 Eval(IfcFloat p) const {
+ ai_assert(InRange(p));
+ return base->Eval( TrimParam(p) );
+ }
+
+ // --------------------------------------------------
+ size_t EstimateSampleCount(IfcFloat a, IfcFloat b) const {
+ ai_assert( InRange( a ) );
+ ai_assert( InRange( b ) );
+ return base->EstimateSampleCount(TrimParam(a),TrimParam(b));
+ }
+
+ // --------------------------------------------------
+ void SampleDiscrete(TempMesh& out,IfcFloat a,IfcFloat b) const {
+ ai_assert(InRange(a));
+ ai_assert(InRange(b));
+ return base->SampleDiscrete(out,TrimParam(a),TrimParam(b));
+ }
+
+ // --------------------------------------------------
+ ParamRange GetParametricRange() const {
+ return std::make_pair(static_cast<IfcFloat>( 0. ),maxval);
+ }
+
+private:
+ // --------------------------------------------------
+ IfcFloat TrimParam(IfcFloat f) const {
+ return agree_sense ? f + range.first : range.second - f;
+ }
+
+private:
+ ParamRange range;
+ IfcFloat maxval;
+ bool agree_sense;
+
+ std::shared_ptr<const Curve> base;
+};
+
+
+// --------------------------------------------------------------------------------
+// PolyLine is a 'curve' defined by linear interpolation over a set of discrete points
+// --------------------------------------------------------------------------------
+class PolyLine : public BoundedCurve {
+public:
+ // --------------------------------------------------
+ PolyLine(const Schema_2x3::IfcPolyline& entity, ConversionData& conv)
+ : BoundedCurve(entity,conv)
+ {
+ points.reserve(entity.Points.size());
+
+ IfcVector3 t;
+ for(const Schema_2x3::IfcCartesianPoint& cp : entity.Points) {
+ ConvertCartesianPoint(t,cp);
+ points.push_back(t);
+ }
+ }
+
+ // --------------------------------------------------
+ IfcVector3 Eval(IfcFloat p) const {
+ ai_assert(InRange(p));
+
+ const size_t b = static_cast<size_t>(std::floor(p));
+ if (b == points.size()-1) {
+ return points.back();
+ }
+
+ const IfcFloat d = p-static_cast<IfcFloat>(b);
+ return points[b+1] * d + points[b] * (static_cast<IfcFloat>( 1. )-d);
+ }
+
+ // --------------------------------------------------
+ size_t EstimateSampleCount(IfcFloat a, IfcFloat b) const {
+ ai_assert(InRange(a));
+ ai_assert(InRange(b));
+ return static_cast<size_t>( std::ceil(b) - std::floor(a) );
+ }
+
+ // --------------------------------------------------
+ ParamRange GetParametricRange() const {
+ return std::make_pair(static_cast<IfcFloat>( 0. ),static_cast<IfcFloat>(points.size()-1));
+ }
+
+private:
+ std::vector<IfcVector3> points;
+};
+
+} // anon
+
+// ------------------------------------------------------------------------------------------------
+Curve* Curve::Convert(const IFC::Schema_2x3::IfcCurve& curve,ConversionData& conv) {
+ if(curve.ToPtr<Schema_2x3::IfcBoundedCurve>()) {
+ if(const Schema_2x3::IfcPolyline* c = curve.ToPtr<Schema_2x3::IfcPolyline>()) {
+ return new PolyLine(*c,conv);
+ }
+ if(const Schema_2x3::IfcTrimmedCurve* c = curve.ToPtr<Schema_2x3::IfcTrimmedCurve>()) {
+ return new TrimmedCurve(*c,conv);
+ }
+ if(const Schema_2x3::IfcCompositeCurve* c = curve.ToPtr<Schema_2x3::IfcCompositeCurve>()) {
+ return new CompositeCurve(*c,conv);
+ }
+ }
+
+ if(curve.ToPtr<Schema_2x3::IfcConic>()) {
+ if(const Schema_2x3::IfcCircle* c = curve.ToPtr<Schema_2x3::IfcCircle>()) {
+ return new Circle(*c,conv);
+ }
+ if(const Schema_2x3::IfcEllipse* c = curve.ToPtr<Schema_2x3::IfcEllipse>()) {
+ return new Ellipse(*c,conv);
+ }
+ }
+
+ if(const Schema_2x3::IfcLine* c = curve.ToPtr<Schema_2x3::IfcLine>()) {
+ return new Line(*c,conv);
+ }
+
+ // XXX OffsetCurve2D, OffsetCurve3D not currently supported
+ return nullptr;
+}
+
+#ifdef ASSIMP_BUILD_DEBUG
+// ------------------------------------------------------------------------------------------------
+bool Curve::InRange(IfcFloat u) const {
+ const ParamRange range = GetParametricRange();
+ if (IsClosed()) {
+ return true;
+ }
+ const IfcFloat epsilon = Math::getEpsilon<float>();
+ return u - range.first > -epsilon && range.second - u > -epsilon;
+}
+#endif
+
+// ------------------------------------------------------------------------------------------------
+IfcFloat Curve::GetParametricRangeDelta() const {
+ const ParamRange& range = GetParametricRange();
+ return std::abs(range.second - range.first);
+}
+
+// ------------------------------------------------------------------------------------------------
+size_t Curve::EstimateSampleCount(IfcFloat a, IfcFloat b) const {
+ (void)(a); (void)(b);
+ ai_assert( InRange( a ) );
+ ai_assert( InRange( b ) );
+
+ // arbitrary default value, deriving classes should supply better suited values
+ return 16;
+}
+
+// ------------------------------------------------------------------------------------------------
+IfcFloat RecursiveSearch(const Curve* cv, const IfcVector3& val, IfcFloat a, IfcFloat b,
+ unsigned int samples, IfcFloat threshold, unsigned int recurse = 0, unsigned int max_recurse = 15) {
+ ai_assert(samples>1);
+
+ const IfcFloat delta = (b-a)/samples, inf = std::numeric_limits<IfcFloat>::infinity();
+ IfcFloat min_point[2] = {a,b}, min_diff[2] = {inf,inf};
+ IfcFloat runner = a;
+
+ for (unsigned int i = 0; i < samples; ++i, runner += delta) {
+ const IfcFloat diff = (cv->Eval(runner)-val).SquareLength();
+ if (diff < min_diff[0]) {
+ min_diff[1] = min_diff[0];
+ min_point[1] = min_point[0];
+
+ min_diff[0] = diff;
+ min_point[0] = runner;
+ }
+ else if (diff < min_diff[1]) {
+ min_diff[1] = diff;
+ min_point[1] = runner;
+ }
+ }
+
+ ai_assert( min_diff[ 0 ] != inf );
+ ai_assert( min_diff[ 1 ] != inf );
+ if ( std::fabs(a-min_point[0]) < threshold || recurse >= max_recurse) {
+ return min_point[0];
+ }
+
+ // fix for closed curves to take their wrap-over into account
+ if (cv->IsClosed() && std::fabs(min_point[0]-min_point[1]) > cv->GetParametricRangeDelta()*0.5 ) {
+ const Curve::ParamRange& range = cv->GetParametricRange();
+ const IfcFloat wrapdiff = (cv->Eval(range.first)-val).SquareLength();
+
+ if (wrapdiff < min_diff[0]) {
+ const IfcFloat t = min_point[0];
+ min_point[0] = min_point[1] > min_point[0] ? range.first : range.second;
+ min_point[1] = t;
+ }
+ }
+
+ return RecursiveSearch(cv,val,min_point[0],min_point[1],samples,threshold,recurse+1,max_recurse);
+}
+
+// ------------------------------------------------------------------------------------------------
+bool Curve::ReverseEval(const IfcVector3& val, IfcFloat& paramOut) const
+{
+ // note: the following algorithm is not guaranteed to find the 'right' parameter value
+ // in all possible cases, but it will always return at least some value so this function
+ // will never fail in the default implementation.
+
+ // XXX derive threshold from curve topology
+ static const IfcFloat threshold = 1e-4f;
+ static const unsigned int samples = 16;
+
+ const ParamRange& range = GetParametricRange();
+ paramOut = RecursiveSearch(this,val,range.first,range.second,samples,threshold);
+
+ return true;
+}
+
+// ------------------------------------------------------------------------------------------------
+void Curve::SampleDiscrete(TempMesh& out,IfcFloat a, IfcFloat b) const {
+ ai_assert( InRange( a ) );
+ ai_assert( InRange( b ) );
+
+ const size_t cnt = std::max(static_cast<size_t>(0),EstimateSampleCount(a,b));
+ out.mVerts.reserve( out.mVerts.size() + cnt + 1);
+
+ IfcFloat p = a, delta = (b-a)/cnt;
+ for(size_t i = 0; i <= cnt; ++i, p += delta) {
+ out.mVerts.push_back(Eval(p));
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+bool BoundedCurve::IsClosed() const {
+ return false;
+}
+
+// ------------------------------------------------------------------------------------------------
+void BoundedCurve::SampleDiscrete(TempMesh& out) const {
+ const ParamRange& range = GetParametricRange();
+ ai_assert( range.first != std::numeric_limits<IfcFloat>::infinity() );
+ ai_assert( range.second != std::numeric_limits<IfcFloat>::infinity() );
+
+ return SampleDiscrete(out,range.first,range.second);
+}
+
+} // IFC
+} // Assimp
+
+#endif // ASSIMP_BUILD_NO_IFC_IMPORTER
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCGeometry.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCGeometry.cpp
new file mode 100644
index 0000000..ef59542
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCGeometry.cpp
@@ -0,0 +1,932 @@
+/*
+Open Asset Import Library (assimp)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2022, assimp 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 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.
+
+----------------------------------------------------------------------
+*/
+
+/** @file IFCGeometry.cpp
+ * @brief Geometry conversion and synthesis for IFC
+ */
+
+
+
+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER
+#include "IFCUtil.h"
+#include "Common/PolyTools.h"
+#include "PostProcessing/ProcessHelper.h"
+
+#ifdef ASSIMP_USE_HUNTER
+# include <poly2tri/poly2tri.h>
+# include <polyclipping/clipper.hpp>
+#else
+# include "../contrib/poly2tri/poly2tri/poly2tri.h"
+# include "../contrib/clipper/clipper.hpp"
+#endif
+
+#include <memory>
+#include <iterator>
+
+namespace Assimp {
+namespace IFC {
+
+// ------------------------------------------------------------------------------------------------
+bool ProcessPolyloop(const Schema_2x3::IfcPolyLoop& loop, TempMesh& meshout, ConversionData& /*conv*/)
+{
+ size_t cnt = 0;
+ for(const Schema_2x3::IfcCartesianPoint& c : loop.Polygon) {
+ IfcVector3 tmp;
+ ConvertCartesianPoint(tmp,c);
+
+ meshout.mVerts.push_back(tmp);
+ ++cnt;
+ }
+
+ meshout.mVertcnt.push_back(static_cast<unsigned int>(cnt));
+
+ // zero- or one- vertex polyloops simply ignored
+ if (meshout.mVertcnt.back() > 1) {
+ return true;
+ }
+
+ if (meshout.mVertcnt.back()==1) {
+ meshout.mVertcnt.pop_back();
+ meshout.mVerts.pop_back();
+ }
+ return false;
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessPolygonBoundaries(TempMesh& result, const TempMesh& inmesh, size_t master_bounds = (size_t)-1)
+{
+ // handle all trivial cases
+ if(inmesh.mVertcnt.empty()) {
+ return;
+ }
+ if(inmesh.mVertcnt.size() == 1) {
+ result.Append(inmesh);
+ return;
+ }
+
+ ai_assert(std::count(inmesh.mVertcnt.begin(), inmesh.mVertcnt.end(), 0u) == 0);
+
+ typedef std::vector<unsigned int>::const_iterator face_iter;
+
+ face_iter begin = inmesh.mVertcnt.begin(), end = inmesh.mVertcnt.end(), iit;
+ std::vector<unsigned int>::const_iterator outer_polygon_it = end;
+
+ // major task here: given a list of nested polygon boundaries (one of which
+ // is the outer contour), reduce the triangulation task arising here to
+ // one that can be solved using the "quadrulation" algorithm which we use
+ // for pouring windows out of walls. The algorithm does not handle all
+ // cases but at least it is numerically stable and gives "nice" triangles.
+
+ // first compute normals for all polygons using Newell's algorithm
+ // do not normalize 'normals', we need the original length for computing the polygon area
+ std::vector<IfcVector3> normals;
+ inmesh.ComputePolygonNormals(normals,false);
+
+ // One of the polygons might be a IfcFaceOuterBound (in which case `master_bounds`
+ // is its index). Sadly we can't rely on it, the docs say 'At most one of the bounds
+ // shall be of the type IfcFaceOuterBound'
+ IfcFloat area_outer_polygon = 1e-10f;
+ if (master_bounds != (size_t)-1) {
+ ai_assert(master_bounds < inmesh.mVertcnt.size());
+ outer_polygon_it = begin + master_bounds;
+ }
+ else {
+ for(iit = begin; iit != end; ++iit) {
+ // find the polygon with the largest area and take it as the outer bound.
+ IfcVector3& n = normals[std::distance(begin,iit)];
+ const IfcFloat area = n.SquareLength();
+ if (area > area_outer_polygon) {
+ area_outer_polygon = area;
+ outer_polygon_it = iit;
+ }
+ }
+ }
+ if (outer_polygon_it == end) {
+ return;
+ }
+
+ const size_t outer_polygon_size = *outer_polygon_it;
+ const IfcVector3& master_normal = normals[std::distance(begin, outer_polygon_it)];
+
+ // Generate fake openings to meet the interface for the quadrulate
+ // algorithm. It boils down to generating small boxes given the
+ // inner polygon and the surface normal of the outer contour.
+ // It is important that we use the outer contour's normal because
+ // this is the plane onto which the quadrulate algorithm will
+ // project the entire mesh.
+ std::vector<TempOpening> fake_openings;
+ fake_openings.reserve(inmesh.mVertcnt.size()-1);
+
+ std::vector<IfcVector3>::const_iterator vit = inmesh.mVerts.begin(), outer_vit;
+
+ for(iit = begin; iit != end; vit += *iit++) {
+ if (iit == outer_polygon_it) {
+ outer_vit = vit;
+ continue;
+ }
+
+ // Filter degenerate polygons to keep them from causing trouble later on
+ IfcVector3& n = normals[std::distance(begin,iit)];
+ const IfcFloat area = n.SquareLength();
+ if (area < 1e-5f) {
+ IFCImporter::LogWarn("skipping degenerate polygon (ProcessPolygonBoundaries)");
+ continue;
+ }
+
+ fake_openings.push_back(TempOpening());
+ TempOpening& opening = fake_openings.back();
+
+ opening.extrusionDir = master_normal;
+ opening.solid = nullptr;
+
+ opening.profileMesh = std::make_shared<TempMesh>();
+ opening.profileMesh->mVerts.reserve(*iit);
+ opening.profileMesh->mVertcnt.push_back(*iit);
+
+ std::copy(vit, vit + *iit, std::back_inserter(opening.profileMesh->mVerts));
+ }
+
+ // fill a mesh with ONLY the main polygon
+ TempMesh temp;
+ temp.mVerts.reserve(outer_polygon_size);
+ temp.mVertcnt.push_back(static_cast<unsigned int>(outer_polygon_size));
+ std::copy(outer_vit, outer_vit+outer_polygon_size,
+ std::back_inserter(temp.mVerts));
+
+ GenerateOpenings(fake_openings, temp, false, false);
+ result.Append(temp);
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessConnectedFaceSet(const Schema_2x3::IfcConnectedFaceSet& fset, TempMesh& result, ConversionData& conv)
+{
+ for(const Schema_2x3::IfcFace& face : fset.CfsFaces) {
+ // size_t ob = -1, cnt = 0;
+ TempMesh meshout;
+ for(const Schema_2x3::IfcFaceBound& bound : face.Bounds) {
+
+ if(const Schema_2x3::IfcPolyLoop* const polyloop = bound.Bound->ToPtr<Schema_2x3::IfcPolyLoop>()) {
+ if(ProcessPolyloop(*polyloop, meshout,conv)) {
+
+ // The outer boundary is better determined by checking which
+ // polygon covers the largest area.
+
+ //if(bound.ToPtr<IfcFaceOuterBound>()) {
+ // ob = cnt;
+ //}
+ //++cnt;
+
+ }
+ }
+ else {
+ IFCImporter::LogWarn("skipping unknown IfcFaceBound entity, type is ", bound.Bound->GetClassName());
+ continue;
+ }
+
+ // And this, even though it is sometimes TRUE and sometimes FALSE,
+ // does not really improve results.
+
+ /*if(!IsTrue(bound.Orientation)) {
+ size_t c = 0;
+ for(unsigned int& c : meshout.vertcnt) {
+ std::reverse(result.verts.begin() + cnt,result.verts.begin() + cnt + c);
+ cnt += c;
+ }
+ }*/
+ }
+ ProcessPolygonBoundaries(result, meshout);
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessRevolvedAreaSolid(const Schema_2x3::IfcRevolvedAreaSolid& solid, TempMesh& result, ConversionData& conv)
+{
+ TempMesh meshout;
+
+ // first read the profile description
+ if(!ProcessProfile(*solid.SweptArea,meshout,conv) || meshout.mVerts.size()<=1) {
+ return;
+ }
+
+ IfcVector3 axis, pos;
+ ConvertAxisPlacement(axis,pos,solid.Axis);
+
+ IfcMatrix4 tb0,tb1;
+ IfcMatrix4::Translation(pos,tb0);
+ IfcMatrix4::Translation(-pos,tb1);
+
+ const std::vector<IfcVector3>& in = meshout.mVerts;
+ const size_t size=in.size();
+
+ bool has_area = solid.SweptArea->ProfileType == "AREA" && size>2;
+ const IfcFloat max_angle = solid.Angle*conv.angle_scale;
+ if(std::fabs(max_angle) < 1e-3) {
+ if(has_area) {
+ result = meshout;
+ }
+ return;
+ }
+
+ const unsigned int cnt_segments = std::max(2u,static_cast<unsigned int>(conv.settings.cylindricalTessellation * std::fabs(max_angle)/AI_MATH_HALF_PI_F));
+ const IfcFloat delta = max_angle/cnt_segments;
+
+ has_area = has_area && std::fabs(max_angle) < AI_MATH_TWO_PI_F*0.99;
+
+ result.mVerts.reserve(size*((cnt_segments+1)*4+(has_area?2:0)));
+ result.mVertcnt.reserve(size*cnt_segments+2);
+
+ IfcMatrix4 rot;
+ rot = tb0 * IfcMatrix4::Rotation(delta,axis,rot) * tb1;
+
+ size_t base = 0;
+ std::vector<IfcVector3>& out = result.mVerts;
+
+ // dummy data to simplify later processing
+ for(size_t i = 0; i < size; ++i) {
+ out.insert(out.end(),4,in[i]);
+ }
+
+ for(unsigned int seg = 0; seg < cnt_segments; ++seg) {
+ for(size_t i = 0; i < size; ++i) {
+ const size_t next = (i+1)%size;
+
+ result.mVertcnt.push_back(4);
+ const IfcVector3 base_0 = out[base+i*4+3],base_1 = out[base+next*4+3];
+
+ out.push_back(base_0);
+ out.push_back(base_1);
+ out.push_back(rot*base_1);
+ out.push_back(rot*base_0);
+ }
+ base += size*4;
+ }
+
+ out.erase(out.begin(),out.begin()+size*4);
+
+ if(has_area) {
+ // leave the triangulation of the profile area to the ear cutting
+ // implementation in aiProcess_Triangulate - for now we just
+ // feed in two huge polygons.
+ base -= size*8;
+ for(size_t i = size; i--; ) {
+ out.push_back(out[base+i*4+3]);
+ }
+ for(size_t i = 0; i < size; ++i ) {
+ out.push_back(out[i*4]);
+ }
+ result.mVertcnt.push_back(static_cast<unsigned int>(size));
+ result.mVertcnt.push_back(static_cast<unsigned int>(size));
+ }
+
+ IfcMatrix4 trafo;
+ ConvertAxisPlacement(trafo, solid.Position);
+
+ result.Transform(trafo);
+ IFCImporter::LogVerboseDebug("generate mesh procedurally by radial extrusion (IfcRevolvedAreaSolid)");
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessSweptDiskSolid(const Schema_2x3::IfcSweptDiskSolid &solid, TempMesh& result, ConversionData& conv)
+{
+ const Curve* const curve = Curve::Convert(*solid.Directrix, conv);
+ if(!curve) {
+ IFCImporter::LogError("failed to convert Directrix curve (IfcSweptDiskSolid)");
+ return;
+ }
+
+ const unsigned int cnt_segments = conv.settings.cylindricalTessellation;
+ const IfcFloat deltaAngle = AI_MATH_TWO_PI/cnt_segments;
+
+ TempMesh temp;
+ curve->SampleDiscrete(temp, solid.StartParam, solid.EndParam);
+ const std::vector<IfcVector3>& curve_points = temp.mVerts;
+
+ const size_t samples = curve_points.size();
+
+ result.mVerts.reserve(cnt_segments * samples * 4);
+ result.mVertcnt.reserve((cnt_segments - 1) * samples);
+
+ std::vector<IfcVector3> points;
+ points.reserve(cnt_segments * samples);
+
+ if(curve_points.empty()) {
+ IFCImporter::LogWarn("curve evaluation yielded no points (IfcSweptDiskSolid)");
+ return;
+ }
+
+ IfcVector3 current = curve_points[0];
+ IfcVector3 previous = current;
+ IfcVector3 next;
+
+ IfcVector3 startvec;
+ startvec.x = 1.0f;
+ startvec.y = 1.0f;
+ startvec.z = 1.0f;
+
+ unsigned int last_dir = 0;
+
+ // generate circles at the sweep positions
+ for(size_t i = 0; i < samples; ++i) {
+
+ if(i != samples - 1) {
+ next = curve_points[i + 1];
+ }
+
+ // get a direction vector reflecting the approximate curvature (i.e. tangent)
+ IfcVector3 d = (current-previous) + (next-previous);
+
+ d.Normalize();
+
+ // figure out an arbitrary point q so that (p-q) * d = 0,
+ // try to maximize ||(p-q)|| * ||(p_last-q_last)||
+ IfcVector3 q;
+ bool take_any = false;
+
+ for (unsigned int j = 0; j < 2; ++j, take_any = true) {
+ if ((last_dir == 0 || take_any) && std::abs(d.x) > ai_epsilon) {
+ q.y = startvec.y;
+ q.z = startvec.z;
+ q.x = -(d.y * q.y + d.z * q.z) / d.x;
+ last_dir = 0;
+ break;
+ } else if ((last_dir == 1 || take_any) && std::abs(d.y) > ai_epsilon) {
+ q.x = startvec.x;
+ q.z = startvec.z;
+ q.y = -(d.x * q.x + d.z * q.z) / d.y;
+ last_dir = 1;
+ break;
+ } else if ((last_dir == 2 && std::abs(d.z) > ai_epsilon) || take_any) {
+ q.y = startvec.y;
+ q.x = startvec.x;
+ q.z = -(d.y * q.y + d.x * q.x) / d.z;
+ last_dir = 2;
+ break;
+ }
+ }
+
+ q *= solid.Radius / q.Length();
+ startvec = q;
+
+ // generate a rotation matrix to rotate q around d
+ IfcMatrix4 rot;
+ IfcMatrix4::Rotation(deltaAngle,d,rot);
+
+ for (unsigned int seg = 0; seg < cnt_segments; ++seg, q *= rot ) {
+ points.push_back(q + current);
+ }
+
+ previous = current;
+ current = next;
+ }
+
+ // make quads
+ for(size_t i = 0; i < samples - 1; ++i) {
+
+ const aiVector3D& this_start = points[ i * cnt_segments ];
+
+ // locate corresponding point on next sample ring
+ unsigned int best_pair_offset = 0;
+ float best_distance_squared = 1e10f;
+ for (unsigned int seg = 0; seg < cnt_segments; ++seg) {
+ const aiVector3D& p = points[ (i+1) * cnt_segments + seg];
+ const float l = (p-this_start).SquareLength();
+
+ if(l < best_distance_squared) {
+ best_pair_offset = seg;
+ best_distance_squared = l;
+ }
+ }
+
+ for (unsigned int seg = 0; seg < cnt_segments; ++seg) {
+
+ result.mVerts.push_back(points[ i * cnt_segments + (seg % cnt_segments)]);
+ result.mVerts.push_back(points[ i * cnt_segments + (seg + 1) % cnt_segments]);
+ result.mVerts.push_back(points[ (i+1) * cnt_segments + ((seg + 1 + best_pair_offset) % cnt_segments)]);
+ result.mVerts.push_back(points[ (i+1) * cnt_segments + ((seg + best_pair_offset) % cnt_segments)]);
+
+ IfcVector3& v1 = *(result.mVerts.end()-1);
+ IfcVector3& v2 = *(result.mVerts.end()-2);
+ IfcVector3& v3 = *(result.mVerts.end()-3);
+ IfcVector3& v4 = *(result.mVerts.end()-4);
+
+ if (((v4-v3) ^ (v4-v1)) * (v4 - curve_points[i]) < 0.0f) {
+ std::swap(v4, v1);
+ std::swap(v3, v2);
+ }
+
+ result.mVertcnt.push_back(4);
+ }
+ }
+
+ IFCImporter::LogVerboseDebug("generate mesh procedurally by sweeping a disk along a curve (IfcSweptDiskSolid)");
+}
+
+// ------------------------------------------------------------------------------------------------
+IfcMatrix3 DerivePlaneCoordinateSpace(const TempMesh& curmesh, bool& ok, IfcVector3& norOut)
+{
+ const std::vector<IfcVector3>& out = curmesh.mVerts;
+ IfcMatrix3 m;
+
+ ok = true;
+
+ // The input "mesh" must be a single polygon
+ const size_t s = out.size();
+ ai_assert( curmesh.mVertcnt.size() == 1 );
+ ai_assert( curmesh.mVertcnt.back() == s);
+
+ const IfcVector3 any_point = out[s-1];
+ IfcVector3 nor;
+
+ // The input polygon is arbitrarily shaped, therefore we might need some tries
+ // until we find a suitable normal. Note that Newell's algorithm would give
+ // a more robust result, but this variant also gives us a suitable first
+ // axis for the 2D coordinate space on the polygon plane, exploiting the
+ // fact that the input polygon is nearly always a quad.
+ bool done = false;
+ size_t idx( 0 );
+ for (size_t i = 0; !done && i < s-2; done || ++i) {
+ idx = i;
+ for (size_t j = i+1; j < s-1; ++j) {
+ nor = -((out[i]-any_point)^(out[j]-any_point));
+ if(std::fabs(nor.Length()) > 1e-8f) {
+ done = true;
+ break;
+ }
+ }
+ }
+
+ if(!done) {
+ ok = false;
+ return m;
+ }
+
+ nor.Normalize();
+ norOut = nor;
+
+ IfcVector3 r = (out[idx]-any_point);
+ r.Normalize();
+
+ //if(d) {
+ // *d = -any_point * nor;
+ //}
+
+ // Reconstruct orthonormal basis
+ // XXX use Gram Schmidt for increased robustness
+ IfcVector3 u = r ^ nor;
+ u.Normalize();
+
+ m.a1 = r.x;
+ m.a2 = r.y;
+ m.a3 = r.z;
+
+ m.b1 = u.x;
+ m.b2 = u.y;
+ m.b3 = u.z;
+
+ m.c1 = -nor.x;
+ m.c2 = -nor.y;
+ m.c3 = -nor.z;
+
+ return m;
+}
+
+const auto closeDistance = ai_epsilon;
+
+bool areClose(Schema_2x3::IfcCartesianPoint pt1,Schema_2x3::IfcCartesianPoint pt2) {
+ if(pt1.Coordinates.size() != pt2.Coordinates.size())
+ {
+ IFCImporter::LogWarn("unable to compare differently-dimensioned points");
+ return false;
+ }
+ auto coord1 = pt1.Coordinates.begin();
+ auto coord2 = pt2.Coordinates.begin();
+ // we're just testing each dimension separately rather than doing euclidean distance, as we're
+ // looking for very close coordinates
+ for(; coord1 != pt1.Coordinates.end(); coord1++,coord2++)
+ {
+ if(std::fabs(*coord1 - *coord2) > closeDistance)
+ return false;
+ }
+ return true;
+}
+
+bool areClose(IfcVector3 pt1,IfcVector3 pt2) {
+ return (std::fabs(pt1.x - pt2.x) < closeDistance &&
+ std::fabs(pt1.y - pt2.y) < closeDistance &&
+ std::fabs(pt1.z - pt2.z) < closeDistance);
+}
+// Extrudes the given polygon along the direction, converts it into an opening or applies all openings as necessary.
+void ProcessExtrudedArea(const Schema_2x3::IfcExtrudedAreaSolid& solid, const TempMesh& curve,
+ const IfcVector3& extrusionDir, TempMesh& result, ConversionData &conv, bool collect_openings)
+{
+ // Outline: 'curve' is now a list of vertex points forming the underlying profile, extrude along the given axis,
+ // forming new triangles.
+ const bool has_area = solid.SweptArea->ProfileType == "AREA" && curve.mVerts.size() > 2;
+ if (solid.Depth < ai_epsilon) {
+ if( has_area ) {
+ result.Append(curve);
+ }
+ return;
+ }
+
+ result.mVerts.reserve(curve.mVerts.size()*(has_area ? 4 : 2));
+ result.mVertcnt.reserve(curve.mVerts.size() + 2);
+ std::vector<IfcVector3> in = curve.mVerts;
+
+ // First step: transform all vertices into the target coordinate space
+ IfcMatrix4 trafo;
+ ConvertAxisPlacement(trafo, solid.Position);
+
+ IfcVector3 vmin, vmax;
+ MinMaxChooser<IfcVector3>()(vmin, vmax);
+ for(IfcVector3& v : in) {
+ v *= trafo;
+
+ vmin = std::min(vmin, v);
+ vmax = std::max(vmax, v);
+ }
+
+ vmax -= vmin;
+ const IfcFloat diag = vmax.Length();
+ IfcVector3 dir = IfcMatrix3(trafo) * extrusionDir;
+
+ // reverse profile polygon if it's winded in the wrong direction in relation to the extrusion direction
+ IfcVector3 profileNormal = TempMesh::ComputePolygonNormal(in.data(), in.size());
+ if( profileNormal * dir < 0.0 )
+ std::reverse(in.begin(), in.end());
+
+ std::vector<IfcVector3> nors;
+ const bool openings = !!conv.apply_openings && conv.apply_openings->size();
+
+ // Compute the normal vectors for all opening polygons as a prerequisite
+ // to TryAddOpenings_Poly2Tri()
+ // XXX this belongs into the aforementioned function
+ if( openings ) {
+
+ if( !conv.settings.useCustomTriangulation ) {
+ // it is essential to apply the openings in the correct spatial order. The direction
+ // doesn't matter, but we would screw up if we started with e.g. a door in between
+ // two windows.
+ std::sort(conv.apply_openings->begin(), conv.apply_openings->end(), TempOpening::DistanceSorter(in[0]));
+ }
+
+ nors.reserve(conv.apply_openings->size());
+ for(TempOpening& t : *conv.apply_openings) {
+ TempMesh& bounds = *t.profileMesh.get();
+
+ if( bounds.mVerts.size() <= 2 ) {
+ nors.push_back(IfcVector3());
+ continue;
+ }
+ auto nor = ((bounds.mVerts[2] - bounds.mVerts[0]) ^ (bounds.mVerts[1] - bounds.mVerts[0])).Normalize();
+ auto vI0 = bounds.mVertcnt[0];
+ for(size_t faceI = 0; faceI < bounds.mVertcnt.size(); faceI++)
+ {
+ if(bounds.mVertcnt[faceI] >= 3) {
+ // do a check that this is at least parallel to the base plane
+ auto nor2 = ((bounds.mVerts[vI0 + 2] - bounds.mVerts[vI0]) ^ (bounds.mVerts[vI0 + 1] - bounds.mVerts[vI0])).Normalize();
+ if(!areClose(nor,nor2)) {
+ std::stringstream msg;
+ msg << "Face " << faceI << " is not parallel with face 0 - opening on entity " << solid.GetID();
+ IFCImporter::LogWarn(msg.str().c_str());
+ }
+ }
+ }
+ nors.push_back(nor);
+ }
+ }
+
+
+ TempMesh temp;
+ TempMesh& curmesh = openings ? temp : result;
+ std::vector<IfcVector3>& out = curmesh.mVerts;
+
+ size_t sides_with_openings = 0;
+ for( size_t i = 0; i < in.size(); ++i ) {
+ const size_t next = (i + 1) % in.size();
+
+ curmesh.mVertcnt.push_back(4);
+
+ out.push_back(in[i]);
+ out.push_back(in[next]);
+ out.push_back(in[next] + dir);
+ out.push_back(in[i] + dir);
+
+ if( openings ) {
+ if( (in[i] - in[next]).Length() > diag * 0.1 && GenerateOpenings(*conv.apply_openings, temp, true, true, dir) ) {
+ ++sides_with_openings;
+ }
+
+ result.Append(temp);
+ temp.Clear();
+ }
+ }
+
+ if(openings) {
+ for(TempOpening& opening : *conv.apply_openings) {
+ if(!opening.wallPoints.empty()) {
+ std::stringstream msg;
+ msg << "failed to generate all window caps on ID " << (int)solid.GetID();
+ IFCImporter::LogError(msg.str().c_str());
+ }
+ opening.wallPoints.clear();
+ }
+ }
+
+ size_t sides_with_v_openings = 0;
+ if(has_area) {
+
+ for(size_t n = 0; n < 2; ++n) {
+ if(n > 0) {
+ for(size_t i = 0; i < in.size(); ++i)
+ out.push_back(in[i] + dir);
+ }
+ else {
+ for(size_t i = in.size(); i--; )
+ out.push_back(in[i]);
+ }
+
+ curmesh.mVertcnt.push_back(static_cast<unsigned int>(in.size()));
+ if(openings && in.size() > 2) {
+ if(GenerateOpenings(*conv.apply_openings,temp,true,true,dir)) {
+ ++sides_with_v_openings;
+ }
+
+ result.Append(temp);
+ temp.Clear();
+ }
+ }
+ }
+
+ if (openings && (sides_with_openings == 1 || sides_with_v_openings == 2)) {
+ std::stringstream msg;
+ msg << "failed to resolve all openings, presumably their topology is not supported by Assimp - ID " << solid.GetID() << " sides_with_openings " << sides_with_openings << " sides_with_v_openings " << sides_with_v_openings;
+ IFCImporter::LogWarn(msg.str().c_str());
+ }
+
+ IFCImporter::LogVerboseDebug("generate mesh procedurally by extrusion (IfcExtrudedAreaSolid)");
+
+ // If this is an opening element, store both the extruded mesh and the 2D profile mesh
+ // it was created from. Return an empty mesh to the caller.
+ if( collect_openings && !result.IsEmpty() ) {
+ ai_assert(conv.collect_openings);
+ std::shared_ptr<TempMesh> profile = std::shared_ptr<TempMesh>(new TempMesh());
+ profile->Swap(result);
+
+ std::shared_ptr<TempMesh> profile2D = std::shared_ptr<TempMesh>(new TempMesh());
+ profile2D->mVerts.insert(profile2D->mVerts.end(), in.begin(), in.end());
+ profile2D->mVertcnt.push_back(static_cast<unsigned int>(in.size()));
+ conv.collect_openings->push_back(TempOpening(&solid, dir, profile, profile2D));
+
+ ai_assert(result.IsEmpty());
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessExtrudedAreaSolid(const Schema_2x3::IfcExtrudedAreaSolid& solid, TempMesh& result,
+ ConversionData& conv, bool collect_openings)
+{
+ TempMesh meshout;
+
+ // First read the profile description.
+ if(!ProcessProfile(*solid.SweptArea,meshout,conv) || meshout.mVerts.size()<=1) {
+ return;
+ }
+
+ IfcVector3 dir;
+ ConvertDirection(dir,solid.ExtrudedDirection);
+ dir *= solid.Depth;
+
+ // Some profiles bring their own holes, for which we need to provide a container. This all is somewhat backwards,
+ // and there's still so many corner cases uncovered - we really need a generic solution to all of this hole carving.
+ std::vector<TempOpening> fisherPriceMyFirstOpenings;
+ std::vector<TempOpening>* oldApplyOpenings = conv.apply_openings;
+ if( const Schema_2x3::IfcArbitraryProfileDefWithVoids* const cprofile = solid.SweptArea->ToPtr<Schema_2x3::IfcArbitraryProfileDefWithVoids>() ) {
+ if( !cprofile->InnerCurves.empty() ) {
+ // read all inner curves and extrude them to form proper openings.
+ std::vector<TempOpening>* oldCollectOpenings = conv.collect_openings;
+ conv.collect_openings = &fisherPriceMyFirstOpenings;
+
+ for (const Schema_2x3::IfcCurve* curve : cprofile->InnerCurves) {
+ TempMesh curveMesh, tempMesh;
+ ProcessCurve(*curve, curveMesh, conv);
+ ProcessExtrudedArea(solid, curveMesh, dir, tempMesh, conv, true);
+ }
+ // and then apply those to the geometry we're about to generate
+ conv.apply_openings = conv.collect_openings;
+ conv.collect_openings = oldCollectOpenings;
+ }
+ }
+
+ ProcessExtrudedArea(solid, meshout, dir, result, conv, collect_openings);
+ conv.apply_openings = oldApplyOpenings;
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessSweptAreaSolid(const Schema_2x3::IfcSweptAreaSolid& swept, TempMesh& meshout,
+ ConversionData& conv)
+{
+ if(const Schema_2x3::IfcExtrudedAreaSolid* const solid = swept.ToPtr<Schema_2x3::IfcExtrudedAreaSolid>()) {
+ ProcessExtrudedAreaSolid(*solid,meshout,conv, !!conv.collect_openings);
+ }
+ else if(const Schema_2x3::IfcRevolvedAreaSolid* const rev = swept.ToPtr<Schema_2x3::IfcRevolvedAreaSolid>()) {
+ ProcessRevolvedAreaSolid(*rev,meshout,conv);
+ }
+ else {
+ IFCImporter::LogWarn("skipping unknown IfcSweptAreaSolid entity, type is ", swept.GetClassName());
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+bool ProcessGeometricItem(const Schema_2x3::IfcRepresentationItem& geo, unsigned int matid, std::set<unsigned int>& mesh_indices,
+ ConversionData& conv)
+{
+ bool fix_orientation = false;
+ std::shared_ptr< TempMesh > meshtmp = std::make_shared<TempMesh>();
+ if(const Schema_2x3::IfcShellBasedSurfaceModel* shellmod = geo.ToPtr<Schema_2x3::IfcShellBasedSurfaceModel>()) {
+ for (const std::shared_ptr<const Schema_2x3::IfcShell> &shell : shellmod->SbsmBoundary) {
+ try {
+ const ::Assimp::STEP::EXPRESS::ENTITY& e = shell->To<::Assimp::STEP::EXPRESS::ENTITY>();
+ const Schema_2x3::IfcConnectedFaceSet& fs = conv.db.MustGetObject(e).To<Schema_2x3::IfcConnectedFaceSet>();
+
+ ProcessConnectedFaceSet(fs,*meshtmp.get(),conv);
+ }
+ catch(std::bad_cast&) {
+ IFCImporter::LogWarn("unexpected type error, IfcShell ought to inherit from IfcConnectedFaceSet");
+ }
+ }
+ fix_orientation = true;
+ }
+ else if(const Schema_2x3::IfcConnectedFaceSet* fset = geo.ToPtr<Schema_2x3::IfcConnectedFaceSet>()) {
+ ProcessConnectedFaceSet(*fset,*meshtmp.get(),conv);
+ fix_orientation = true;
+ }
+ else if(const Schema_2x3::IfcSweptAreaSolid* swept = geo.ToPtr<Schema_2x3::IfcSweptAreaSolid>()) {
+ ProcessSweptAreaSolid(*swept,*meshtmp.get(),conv);
+ }
+ else if(const Schema_2x3::IfcSweptDiskSolid* disk = geo.ToPtr<Schema_2x3::IfcSweptDiskSolid>()) {
+ ProcessSweptDiskSolid(*disk,*meshtmp.get(),conv);
+ }
+ else if(const Schema_2x3::IfcManifoldSolidBrep* brep = geo.ToPtr<Schema_2x3::IfcManifoldSolidBrep>()) {
+ ProcessConnectedFaceSet(brep->Outer,*meshtmp.get(),conv);
+ fix_orientation = true;
+ }
+ else if(const Schema_2x3::IfcFaceBasedSurfaceModel* surf = geo.ToPtr<Schema_2x3::IfcFaceBasedSurfaceModel>()) {
+ for(const Schema_2x3::IfcConnectedFaceSet& fc : surf->FbsmFaces) {
+ ProcessConnectedFaceSet(fc,*meshtmp.get(),conv);
+ }
+ fix_orientation = true;
+ }
+ else if(const Schema_2x3::IfcBooleanResult* boolean = geo.ToPtr<Schema_2x3::IfcBooleanResult>()) {
+ ProcessBoolean(*boolean,*meshtmp.get(),conv);
+ }
+ else if(geo.ToPtr<Schema_2x3::IfcBoundingBox>()) {
+ // silently skip over bounding boxes
+ return false;
+ }
+ else {
+ std::stringstream toLog;
+ toLog << "skipping unknown IfcGeometricRepresentationItem entity, type is " << geo.GetClassName() << " id is " << geo.GetID();
+ IFCImporter::LogWarn(toLog.str().c_str());
+ return false;
+ }
+
+ // Do we just collect openings for a parent element (i.e. a wall)?
+ // In such a case, we generate the polygonal mesh as usual,
+ // but attach it to a TempOpening instance which will later be applied
+ // to the wall it pertains to.
+
+ // Note: swep area solids are added in ProcessExtrudedAreaSolid(),
+ // which returns an empty mesh.
+ if(conv.collect_openings) {
+ if (!meshtmp->IsEmpty()) {
+ conv.collect_openings->push_back(TempOpening(geo.ToPtr<Schema_2x3::IfcSolidModel>(),
+ IfcVector3(0,0,0),
+ meshtmp,
+ std::shared_ptr<TempMesh>()));
+ }
+ return true;
+ }
+
+ if (meshtmp->IsEmpty()) {
+ return false;
+ }
+
+ meshtmp->RemoveAdjacentDuplicates();
+ meshtmp->RemoveDegenerates();
+
+ if(fix_orientation) {
+// meshtmp->FixupFaceOrientation();
+ }
+
+ aiMesh* const mesh = meshtmp->ToMesh();
+ if(mesh) {
+ mesh->mMaterialIndex = matid;
+ mesh_indices.insert(static_cast<unsigned int>(conv.meshes.size()));
+ conv.meshes.push_back(mesh);
+ return true;
+ }
+ return false;
+}
+
+// ------------------------------------------------------------------------------------------------
+void AssignAddedMeshes(std::set<unsigned int>& mesh_indices,aiNode* nd,
+ ConversionData& /*conv*/)
+{
+ if (!mesh_indices.empty()) {
+ std::set<unsigned int>::const_iterator it = mesh_indices.cbegin();
+ std::set<unsigned int>::const_iterator end = mesh_indices.cend();
+
+ nd->mNumMeshes = static_cast<unsigned int>(mesh_indices.size());
+
+ nd->mMeshes = new unsigned int[nd->mNumMeshes];
+ for(unsigned int i = 0; it != end && i < nd->mNumMeshes; ++i, ++it) {
+ nd->mMeshes[i] = *it;
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+bool TryQueryMeshCache(const Schema_2x3::IfcRepresentationItem& item,
+ std::set<unsigned int>& mesh_indices, unsigned int mat_index,
+ ConversionData& conv)
+{
+ ConversionData::MeshCacheIndex idx(&item, mat_index);
+ ConversionData::MeshCache::const_iterator it = conv.cached_meshes.find(idx);
+ if (it != conv.cached_meshes.end()) {
+ std::copy((*it).second.begin(),(*it).second.end(),std::inserter(mesh_indices, mesh_indices.end()));
+ return true;
+ }
+ return false;
+}
+
+// ------------------------------------------------------------------------------------------------
+void PopulateMeshCache(const Schema_2x3::IfcRepresentationItem& item,
+ const std::set<unsigned int>& mesh_indices, unsigned int mat_index,
+ ConversionData& conv)
+{
+ ConversionData::MeshCacheIndex idx(&item, mat_index);
+ conv.cached_meshes[idx] = mesh_indices;
+}
+
+// ------------------------------------------------------------------------------------------------
+bool ProcessRepresentationItem(const Schema_2x3::IfcRepresentationItem& item, unsigned int matid,
+ std::set<unsigned int>& mesh_indices,
+ ConversionData& conv)
+{
+ // determine material
+ unsigned int localmatid = ProcessMaterials(item.GetID(), matid, conv, true);
+
+ if (!TryQueryMeshCache(item,mesh_indices,localmatid,conv)) {
+ if(ProcessGeometricItem(item,localmatid,mesh_indices,conv)) {
+ if(mesh_indices.size()) {
+ PopulateMeshCache(item,mesh_indices,localmatid,conv);
+ }
+ }
+ else return false;
+ }
+ return true;
+}
+
+
+} // ! IFC
+} // ! Assimp
+
+#endif
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCLoader.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCLoader.cpp
new file mode 100644
index 0000000..0c20686
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCLoader.cpp
@@ -0,0 +1,931 @@
+/*
+Open Asset Import Library (assimp)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2022, assimp 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 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.
+
+----------------------------------------------------------------------
+*/
+
+/** @file IFCLoad.cpp
+ * @brief Implementation of the Industry Foundation Classes loader.
+ */
+
+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER
+
+#include <iterator>
+#include <limits>
+#include <tuple>
+
+#ifndef ASSIMP_BUILD_NO_COMPRESSED_IFC
+#ifdef ASSIMP_USE_HUNTER
+#include <minizip/unzip.h>
+#else
+#include <unzip.h>
+#endif
+#endif
+
+#include "../STEPParser/STEPFileReader.h"
+#include "IFCLoader.h"
+
+#include "IFCUtil.h"
+
+#include <assimp/MemoryIOWrapper.h>
+#include <assimp/importerdesc.h>
+#include <assimp/scene.h>
+#include <assimp/Importer.hpp>
+
+namespace Assimp {
+template <>
+const char *LogFunctions<IFCImporter>::Prefix() {
+ static auto prefix = "IFC: ";
+ return prefix;
+}
+} // namespace Assimp
+
+using namespace Assimp;
+using namespace Assimp::Formatter;
+using namespace Assimp::IFC;
+
+/* DO NOT REMOVE this comment block. The genentitylist.sh script
+ * just looks for names adhering to the IfcSomething naming scheme
+ * and includes all matches in the whitelist for code-generation. Thus,
+ * all entity classes that are only indirectly referenced need to be
+ * mentioned explicitly.
+
+ IfcRepresentationMap
+ IfcProductRepresentation
+ IfcUnitAssignment
+ IfcClosedShell
+ IfcDoor
+
+ */
+
+namespace {
+
+// forward declarations
+void SetUnits(ConversionData &conv);
+void SetCoordinateSpace(ConversionData &conv);
+void ProcessSpatialStructures(ConversionData &conv);
+void MakeTreeRelative(ConversionData &conv);
+void ConvertUnit(const ::Assimp::STEP::EXPRESS::DataType &dt, ConversionData &conv);
+
+} // namespace
+
+static const aiImporterDesc desc = {
+ "Industry Foundation Classes (IFC) Importer",
+ "",
+ "",
+ "",
+ aiImporterFlags_SupportBinaryFlavour,
+ 0,
+ 0,
+ 0,
+ 0,
+ "ifc ifczip step stp"
+};
+
+// ------------------------------------------------------------------------------------------------
+// Constructor to be privately used by Importer
+IFCImporter::IFCImporter() {}
+
+// ------------------------------------------------------------------------------------------------
+// Destructor, private as well
+IFCImporter::~IFCImporter() {
+}
+
+// ------------------------------------------------------------------------------------------------
+// Returns whether the class can handle the format of the given file.
+bool IFCImporter::CanRead(const std::string &pFile, IOSystem *pIOHandler, bool /*checkSig*/) const {
+ // note: this is the common identification for STEP-encoded files, so
+ // it is only unambiguous as long as we don't support any further
+ // file formats with STEP as their encoding.
+ static const char *tokens[] = { "ISO-10303-21" };
+ return SearchFileHeaderForToken(pIOHandler, pFile, tokens, AI_COUNT_OF(tokens));
+}
+
+// ------------------------------------------------------------------------------------------------
+// List all extensions handled by this loader
+const aiImporterDesc *IFCImporter::GetInfo() const {
+ return &desc;
+}
+
+// ------------------------------------------------------------------------------------------------
+// Setup configuration properties for the loader
+void IFCImporter::SetupProperties(const Importer *pImp) {
+ settings.skipSpaceRepresentations = pImp->GetPropertyBool(AI_CONFIG_IMPORT_IFC_SKIP_SPACE_REPRESENTATIONS, true);
+ settings.useCustomTriangulation = pImp->GetPropertyBool(AI_CONFIG_IMPORT_IFC_CUSTOM_TRIANGULATION, true);
+ settings.conicSamplingAngle = std::min(std::max((float)pImp->GetPropertyFloat(AI_CONFIG_IMPORT_IFC_SMOOTHING_ANGLE, AI_IMPORT_IFC_DEFAULT_SMOOTHING_ANGLE), 5.0f), 120.0f);
+ settings.cylindricalTessellation = std::min(std::max(pImp->GetPropertyInteger(AI_CONFIG_IMPORT_IFC_CYLINDRICAL_TESSELLATION, AI_IMPORT_IFC_DEFAULT_CYLINDRICAL_TESSELLATION), 3), 180);
+ settings.skipAnnotations = true;
+}
+
+// ------------------------------------------------------------------------------------------------
+// Imports the given file into the given scene structure.
+void IFCImporter::InternReadFile(const std::string &pFile, aiScene *pScene, IOSystem *pIOHandler) {
+ std::shared_ptr<IOStream> stream(pIOHandler->Open(pFile));
+ if (!stream) {
+ ThrowException("Could not open file for reading");
+ }
+
+ // if this is a ifczip file, decompress its contents first
+ if (GetExtension(pFile) == "ifczip") {
+#ifndef ASSIMP_BUILD_NO_COMPRESSED_IFC
+ unzFile zip = unzOpen(pFile.c_str());
+ if (zip == nullptr) {
+ ThrowException("Could not open ifczip file for reading, unzip failed");
+ }
+
+ // chop 'zip' postfix
+ std::string fileName = pFile.substr(0, pFile.length() - 3);
+
+ std::string::size_type s = pFile.find_last_of('\\');
+ if (s == std::string::npos) {
+ s = pFile.find_last_of('/');
+ }
+ if (s != std::string::npos) {
+ fileName = fileName.substr(s + 1);
+ }
+
+ // search file (same name as the IFCZIP except for the file extension) and place file pointer there
+ if (UNZ_OK == unzGoToFirstFile(zip)) {
+ do {
+ // get file size, etc.
+ unz_file_info fileInfo;
+ char filename[256];
+ unzGetCurrentFileInfo(zip, &fileInfo, filename, sizeof(filename), 0, 0, 0, 0);
+ if (GetExtension(filename) != "ifc") {
+ continue;
+ }
+ uint8_t *buff = new uint8_t[fileInfo.uncompressed_size];
+ LogInfo("Decompressing IFCZIP file");
+ unzOpenCurrentFile(zip);
+ size_t total = 0;
+ int read = 0;
+ do {
+ int bufferSize = fileInfo.uncompressed_size < INT16_MAX ? fileInfo.uncompressed_size : INT16_MAX;
+ void *buffer = malloc(bufferSize);
+ read = unzReadCurrentFile(zip, buffer, bufferSize);
+ if (read > 0) {
+ memcpy((char *)buff + total, buffer, read);
+ total += read;
+ }
+ free(buffer);
+ } while (read > 0);
+ size_t filesize = fileInfo.uncompressed_size;
+ if (total == 0 || size_t(total) != filesize) {
+ delete[] buff;
+ ThrowException("Failed to decompress IFC ZIP file");
+ }
+ unzCloseCurrentFile(zip);
+ stream.reset(new MemoryIOStream(buff, fileInfo.uncompressed_size, true));
+ if (unzGoToNextFile(zip) == UNZ_END_OF_LIST_OF_FILE) {
+ ThrowException("Found no IFC file member in IFCZIP file (1)");
+ }
+ break;
+
+ } while (true);
+ } else {
+ ThrowException("Found no IFC file member in IFCZIP file (2)");
+ }
+
+ unzClose(zip);
+#else
+ ThrowException("Could not open ifczip file for reading, assimp was built without ifczip support");
+#endif
+ }
+
+ std::unique_ptr<STEP::DB> db(STEP::ReadFileHeader(stream));
+ const STEP::HeaderInfo &head = static_cast<const STEP::DB &>(*db).GetHeader();
+
+ if (!head.fileSchema.size() || head.fileSchema.substr(0, 3) != "IFC") {
+ ThrowException("Unrecognized file schema: " + head.fileSchema);
+ }
+
+ if (!DefaultLogger::isNullLogger()) {
+ LogDebug("File schema is \'", head.fileSchema, '\'');
+ if (head.timestamp.length()) {
+ LogDebug("Timestamp \'", head.timestamp, '\'');
+ }
+ if (head.app.length()) {
+ LogDebug("Application/Exporter identline is \'", head.app, '\'');
+ }
+ }
+
+ // obtain a copy of the machine-generated IFC scheme
+ ::Assimp::STEP::EXPRESS::ConversionSchema schema;
+ Schema_2x3::GetSchema(schema);
+
+ // tell the reader which entity types to track with special care
+ static const char *const types_to_track[] = {
+ "ifcsite", "ifcbuilding", "ifcproject"
+ };
+
+ // tell the reader for which types we need to simulate STEPs reverse indices
+ static const char *const inverse_indices_to_track[] = {
+ "ifcrelcontainedinspatialstructure", "ifcrelaggregates", "ifcrelvoidselement", "ifcreldefinesbyproperties", "ifcpropertyset", "ifcstyleditem"
+ };
+
+ // feed the IFC schema into the reader and pre-parse all lines
+ STEP::ReadFile(*db, schema, types_to_track, inverse_indices_to_track);
+ const STEP::LazyObject *proj = db->GetObject("ifcproject");
+ if (!proj) {
+ ThrowException("missing IfcProject entity");
+ }
+
+ ConversionData conv(*db, proj->To<Schema_2x3::IfcProject>(), pScene, settings);
+ SetUnits(conv);
+ SetCoordinateSpace(conv);
+ ProcessSpatialStructures(conv);
+ MakeTreeRelative(conv);
+
+// NOTE - this is a stress test for the importer, but it works only
+// in a build with no entities disabled. See
+// scripts/IFCImporter/CPPGenerator.py
+// for more information.
+#ifdef ASSIMP_IFC_TEST
+ db->EvaluateAll();
+#endif
+
+ // do final data copying
+ if (conv.meshes.size()) {
+ pScene->mNumMeshes = static_cast<unsigned int>(conv.meshes.size());
+ pScene->mMeshes = new aiMesh *[pScene->mNumMeshes]();
+ std::copy(conv.meshes.begin(), conv.meshes.end(), pScene->mMeshes);
+
+ // needed to keep the d'tor from burning us
+ conv.meshes.clear();
+ }
+
+ if (conv.materials.size()) {
+ pScene->mNumMaterials = static_cast<unsigned int>(conv.materials.size());
+ pScene->mMaterials = new aiMaterial *[pScene->mNumMaterials]();
+ std::copy(conv.materials.begin(), conv.materials.end(), pScene->mMaterials);
+
+ // needed to keep the d'tor from burning us
+ conv.materials.clear();
+ }
+
+ // apply world coordinate system (which includes the scaling to convert to meters and a -90 degrees rotation around x)
+ aiMatrix4x4 scale, rot;
+ aiMatrix4x4::Scaling(static_cast<aiVector3D>(IfcVector3(conv.len_scale)), scale);
+ aiMatrix4x4::RotationX(-AI_MATH_HALF_PI_F, rot);
+
+ pScene->mRootNode->mTransformation = rot * scale * conv.wcs * pScene->mRootNode->mTransformation;
+
+ // this must be last because objects are evaluated lazily as we process them
+ if (!DefaultLogger::isNullLogger()) {
+ LogDebug("STEP: evaluated ", db->GetEvaluatedObjectCount(), " object records");
+ }
+}
+
+namespace {
+
+// ------------------------------------------------------------------------------------------------
+void ConvertUnit(const Schema_2x3::IfcNamedUnit &unit, ConversionData &conv) {
+ if (const Schema_2x3::IfcSIUnit *const si = unit.ToPtr<Schema_2x3::IfcSIUnit>()) {
+ if (si->UnitType == "LENGTHUNIT") {
+ conv.len_scale = si->Prefix ? ConvertSIPrefix(si->Prefix) : 1.f;
+ IFCImporter::LogDebug("got units used for lengths");
+ }
+ if (si->UnitType == "PLANEANGLEUNIT") {
+ if (si->Name != "RADIAN") {
+ IFCImporter::LogWarn("expected base unit for angles to be radian");
+ }
+ }
+ } else if (const Schema_2x3::IfcConversionBasedUnit *const convu = unit.ToPtr<Schema_2x3::IfcConversionBasedUnit>()) {
+ if (convu->UnitType == "PLANEANGLEUNIT") {
+ try {
+ conv.angle_scale = convu->ConversionFactor->ValueComponent->To<::Assimp::STEP::EXPRESS::REAL>();
+ ConvertUnit(*convu->ConversionFactor->UnitComponent, conv);
+ IFCImporter::LogDebug("got units used for angles");
+ } catch (std::bad_cast &) {
+ IFCImporter::LogError("skipping unknown IfcConversionBasedUnit.ValueComponent entry - expected REAL");
+ }
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertUnit(const ::Assimp::STEP::EXPRESS::DataType &dt, ConversionData &conv) {
+ try {
+ const ::Assimp::STEP::EXPRESS::ENTITY &e = dt.To<::Assimp::STEP::EXPRESS::ENTITY>();
+
+ const Schema_2x3::IfcNamedUnit &unit = e.ResolveSelect<Schema_2x3::IfcNamedUnit>(conv.db);
+ if (unit.UnitType != "LENGTHUNIT" && unit.UnitType != "PLANEANGLEUNIT") {
+ return;
+ }
+
+ ConvertUnit(unit, conv);
+ } catch (std::bad_cast &) {
+ // not entity, somehow
+ IFCImporter::LogError("skipping unknown IfcUnit entry - expected entity");
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void SetUnits(ConversionData &conv) {
+ // see if we can determine the coordinate space used to express.
+ for (size_t i = 0; i < conv.proj.UnitsInContext->Units.size(); ++i) {
+ ConvertUnit(*conv.proj.UnitsInContext->Units[i], conv);
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void SetCoordinateSpace(ConversionData &conv) {
+ const Schema_2x3::IfcRepresentationContext *fav = nullptr;
+ for (const Schema_2x3::IfcRepresentationContext &v : conv.proj.RepresentationContexts) {
+ fav = &v;
+ // Model should be the most suitable type of context, hence ignore the others
+ if (v.ContextType && v.ContextType.Get() == "Model") {
+ break;
+ }
+ }
+ if (fav) {
+ if (const Schema_2x3::IfcGeometricRepresentationContext *const geo = fav->ToPtr<Schema_2x3::IfcGeometricRepresentationContext>()) {
+ ConvertAxisPlacement(conv.wcs, *geo->WorldCoordinateSystem, conv);
+ IFCImporter::LogDebug("got world coordinate system");
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ResolveObjectPlacement(aiMatrix4x4 &m, const Schema_2x3::IfcObjectPlacement &place, ConversionData &conv) {
+ if (const Schema_2x3::IfcLocalPlacement *const local = place.ToPtr<Schema_2x3::IfcLocalPlacement>()) {
+ IfcMatrix4 tmp;
+ ConvertAxisPlacement(tmp, *local->RelativePlacement, conv);
+
+ m = static_cast<aiMatrix4x4>(tmp);
+
+ if (local->PlacementRelTo) {
+ aiMatrix4x4 tmpM;
+ ResolveObjectPlacement(tmpM, local->PlacementRelTo.Get(), conv);
+ m = tmpM * m;
+ }
+ } else {
+ IFCImporter::LogWarn("skipping unknown IfcObjectPlacement entity, type is ", place.GetClassName());
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+bool ProcessMappedItem(const Schema_2x3::IfcMappedItem &mapped, aiNode *nd_src, std::vector<aiNode *> &subnodes_src, unsigned int matid, ConversionData &conv) {
+ // insert a custom node here, the carthesian transform operator is simply a conventional transformation matrix
+ std::unique_ptr<aiNode> nd(new aiNode());
+ nd->mName.Set("IfcMappedItem");
+
+ // handle the Cartesian operator
+ IfcMatrix4 m;
+ ConvertTransformOperator(m, *mapped.MappingTarget);
+
+ IfcMatrix4 msrc;
+ ConvertAxisPlacement(msrc, *mapped.MappingSource->MappingOrigin, conv);
+
+ msrc = m * msrc;
+
+ std::set<unsigned int> meshes;
+ const size_t old_openings = conv.collect_openings ? conv.collect_openings->size() : 0;
+ if (conv.apply_openings) {
+ IfcMatrix4 minv = msrc;
+ minv.Inverse();
+ for (TempOpening &open : *conv.apply_openings) {
+ open.Transform(minv);
+ }
+ }
+
+ unsigned int localmatid = ProcessMaterials(mapped.GetID(), matid, conv, false);
+ const Schema_2x3::IfcRepresentation &repr = mapped.MappingSource->MappedRepresentation;
+
+ bool got = false;
+ for (const Schema_2x3::IfcRepresentationItem &item : repr.Items) {
+ if (!ProcessRepresentationItem(item, localmatid, meshes, conv)) {
+ IFCImporter::LogWarn("skipping mapped entity of type ", item.GetClassName(), ", no representations could be generated");
+ } else
+ got = true;
+ }
+
+ if (!got) {
+ return false;
+ }
+
+ AssignAddedMeshes(meshes, nd.get(), conv);
+ if (conv.collect_openings) {
+
+ // if this pass serves us only to collect opening geometry,
+ // make sure we transform the TempMesh's which we need to
+ // preserve as well.
+ if (const size_t diff = conv.collect_openings->size() - old_openings) {
+ for (size_t i = 0; i < diff; ++i) {
+ (*conv.collect_openings)[old_openings + i].Transform(msrc);
+ }
+ }
+ }
+
+ nd->mTransformation = nd_src->mTransformation * static_cast<aiMatrix4x4>(msrc);
+ subnodes_src.push_back(nd.release());
+
+ return true;
+}
+
+// ------------------------------------------------------------------------------------------------
+struct RateRepresentationPredicate {
+ int Rate(const Schema_2x3::IfcRepresentation *r) const {
+ // the smaller, the better
+
+ if (!r->RepresentationIdentifier) {
+ // neutral choice if no extra information is specified
+ return 0;
+ }
+
+ const std::string &name = r->RepresentationIdentifier.Get();
+ if (name == "MappedRepresentation") {
+ if (!r->Items.empty()) {
+ // take the first item and base our choice on it
+ const Schema_2x3::IfcMappedItem *const m = r->Items.front()->ToPtr<Schema_2x3::IfcMappedItem>();
+ if (m) {
+ return Rate(m->MappingSource->MappedRepresentation);
+ }
+ }
+ return 100;
+ }
+
+ return Rate(name);
+ }
+
+ int Rate(const std::string &r) const {
+ if (r == "SolidModel") {
+ return -3;
+ }
+
+ // give strong preference to extruded geometry.
+ if (r == "SweptSolid") {
+ return -10;
+ }
+
+ if (r == "Clipping") {
+ return -5;
+ }
+
+ // 'Brep' is difficult to get right due to possible voids in the
+ // polygon boundaries, so take it only if we are forced to (i.e.
+ // if the only alternative is (non-clipping) boolean operations,
+ // which are not supported at all).
+ if (r == "Brep") {
+ return -2;
+ }
+
+ // Curves, bounding boxes - those will most likely not be loaded
+ // as we can't make any use out of this data. So consider them
+ // last.
+ if (r == "BoundingBox" || r == "Curve2D") {
+ return 100;
+ }
+ return 0;
+ }
+
+ bool operator()(const Schema_2x3::IfcRepresentation *a, const Schema_2x3::IfcRepresentation *b) const {
+ return Rate(a) < Rate(b);
+ }
+};
+
+// ------------------------------------------------------------------------------------------------
+void ProcessProductRepresentation(const Schema_2x3::IfcProduct &el, aiNode *nd, std::vector<aiNode *> &subnodes, ConversionData &conv) {
+ if (!el.Representation) {
+ return;
+ }
+
+ // extract Color from metadata, if present
+ unsigned int matid = ProcessMaterials(el.GetID(), std::numeric_limits<uint32_t>::max(), conv, false);
+ std::set<unsigned int> meshes;
+
+ // we want only one representation type, so bring them in a suitable order (i.e try those
+ // that look as if we could read them quickly at first). This way of reading
+ // representation is relatively generic and allows the concrete implementations
+ // for the different representation types to make some sensible choices what
+ // to load and what not to load.
+ const STEP::ListOf<STEP::Lazy<Schema_2x3::IfcRepresentation>, 1, 0> &src = el.Representation.Get()->Representations;
+ std::vector<const Schema_2x3::IfcRepresentation *> repr_ordered(src.size());
+ std::copy(src.begin(), src.end(), repr_ordered.begin());
+ std::sort(repr_ordered.begin(), repr_ordered.end(), RateRepresentationPredicate());
+ for (const Schema_2x3::IfcRepresentation *repr : repr_ordered) {
+ bool res = false;
+ for (const Schema_2x3::IfcRepresentationItem &item : repr->Items) {
+ if (const Schema_2x3::IfcMappedItem *const geo = item.ToPtr<Schema_2x3::IfcMappedItem>()) {
+ res = ProcessMappedItem(*geo, nd, subnodes, matid, conv) || res;
+ } else {
+ res = ProcessRepresentationItem(item, matid, meshes, conv) || res;
+ }
+ }
+ // if we got something meaningful at this point, skip any further representations
+ if (res) {
+ break;
+ }
+ }
+ AssignAddedMeshes(meshes, nd, conv);
+}
+
+typedef std::map<std::string, std::string> Metadata;
+
+// ------------------------------------------------------------------------------------------------
+void ProcessMetadata(const Schema_2x3::ListOf<Schema_2x3::Lazy<Schema_2x3::IfcProperty>, 1, 0> &set, ConversionData &conv, Metadata &properties,
+ const std::string &prefix = std::string(),
+ unsigned int nest = 0) {
+ for (const Schema_2x3::IfcProperty &property : set) {
+ const std::string &key = prefix.length() > 0 ? (prefix + "." + property.Name) : property.Name;
+ if (const Schema_2x3::IfcPropertySingleValue *const singleValue = property.ToPtr<Schema_2x3::IfcPropertySingleValue>()) {
+ if (singleValue->NominalValue) {
+ if (const ::Assimp::STEP::EXPRESS::STRING *str = singleValue->NominalValue.Get()->ToPtr<::Assimp::STEP::EXPRESS::STRING>()) {
+ std::string value = static_cast<std::string>(*str);
+ properties[key] = value;
+ } else if (const ::Assimp::STEP::EXPRESS::REAL *val1 = singleValue->NominalValue.Get()->ToPtr<::Assimp::STEP::EXPRESS::REAL>()) {
+ float value = static_cast<float>(*val1);
+ std::stringstream s;
+ s << value;
+ properties[key] = s.str();
+ } else if (const ::Assimp::STEP::EXPRESS::INTEGER *val2 = singleValue->NominalValue.Get()->ToPtr<::Assimp::STEP::EXPRESS::INTEGER>()) {
+ int64_t curValue = static_cast<int64_t>(*val2);
+ std::stringstream s;
+ s << curValue;
+ properties[key] = s.str();
+ }
+ }
+ } else if (const Schema_2x3::IfcPropertyListValue *const listValue = property.ToPtr<Schema_2x3::IfcPropertyListValue>()) {
+ std::stringstream ss;
+ ss << "[";
+ unsigned index = 0;
+ for (const Schema_2x3::IfcValue::Out &v : listValue->ListValues) {
+ if (!v) continue;
+ if (const ::Assimp::STEP::EXPRESS::STRING *str = v->ToPtr<::Assimp::STEP::EXPRESS::STRING>()) {
+ std::string value = static_cast<std::string>(*str);
+ ss << "'" << value << "'";
+ } else if (const ::Assimp::STEP::EXPRESS::REAL *val1 = v->ToPtr<::Assimp::STEP::EXPRESS::REAL>()) {
+ float value = static_cast<float>(*val1);
+ ss << value;
+ } else if (const ::Assimp::STEP::EXPRESS::INTEGER *val2 = v->ToPtr<::Assimp::STEP::EXPRESS::INTEGER>()) {
+ int64_t value = static_cast<int64_t>(*val2);
+ ss << value;
+ }
+ if (index + 1 < listValue->ListValues.size()) {
+ ss << ",";
+ }
+ index++;
+ }
+ ss << "]";
+ properties[key] = ss.str();
+ } else if (const Schema_2x3::IfcComplexProperty *const complexProp = property.ToPtr<Schema_2x3::IfcComplexProperty>()) {
+ if (nest > 2) { // mostly arbitrary limit to prevent stack overflow vulnerabilities
+ IFCImporter::LogError("maximum nesting level for IfcComplexProperty reached, skipping this property.");
+ } else {
+ ProcessMetadata(complexProp->HasProperties, conv, properties, key, nest + 1);
+ }
+ } else {
+ properties[key] = std::string();
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessMetadata(uint64_t relDefinesByPropertiesID, ConversionData &conv, Metadata &properties) {
+ if (const Schema_2x3::IfcRelDefinesByProperties *const pset = conv.db.GetObject(relDefinesByPropertiesID)->ToPtr<Schema_2x3::IfcRelDefinesByProperties>()) {
+ if (const Schema_2x3::IfcPropertySet *const set = conv.db.GetObject(pset->RelatingPropertyDefinition->GetID())->ToPtr<Schema_2x3::IfcPropertySet>()) {
+ ProcessMetadata(set->HasProperties, conv, properties);
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+aiNode *ProcessSpatialStructure(aiNode *parent, const Schema_2x3::IfcProduct &el, ConversionData &conv,
+ std::vector<TempOpening> *collect_openings = nullptr) {
+ const STEP::DB::RefMap &refs = conv.db.GetRefs();
+
+ // skip over space and annotation nodes - usually, these have no meaning in Assimp's context
+ bool skipGeometry = false;
+ if (conv.settings.skipSpaceRepresentations) {
+ if (el.ToPtr<Schema_2x3::IfcSpace>()) {
+ IFCImporter::LogVerboseDebug("skipping IfcSpace entity due to importer settings");
+ skipGeometry = true;
+ }
+ }
+
+ if (conv.settings.skipAnnotations) {
+ if (el.ToPtr<Schema_2x3::IfcAnnotation>()) {
+ IFCImporter::LogVerboseDebug("skipping IfcAnnotation entity due to importer settings");
+ return nullptr;
+ }
+ }
+
+ // add an output node for this spatial structure
+ aiNode *nd(new aiNode);
+ nd->mName.Set(el.GetClassName() + "_" + (el.Name ? el.Name.Get() : "Unnamed") + "_" + el.GlobalId);
+ nd->mParent = parent;
+
+ conv.already_processed.insert(el.GetID());
+
+ // check for node metadata
+ STEP::DB::RefMapRange children = refs.equal_range(el.GetID());
+ if (children.first != refs.end()) {
+ Metadata properties;
+ if (children.first == children.second) {
+ // handles single property set
+ ProcessMetadata((*children.first).second, conv, properties);
+ } else {
+ // handles multiple property sets (currently all property sets are merged,
+ // which may not be the best solution in the long run)
+ for (STEP::DB::RefMap::const_iterator it = children.first; it != children.second; ++it) {
+ ProcessMetadata((*it).second, conv, properties);
+ }
+ }
+
+ if (!properties.empty()) {
+ aiMetadata *data = aiMetadata::Alloc(static_cast<unsigned int>(properties.size()));
+ unsigned int index(0);
+ for (const Metadata::value_type &kv : properties) {
+ data->Set(index++, kv.first, aiString(kv.second));
+ }
+ nd->mMetaData = data;
+ }
+ }
+
+ if (el.ObjectPlacement) {
+ ResolveObjectPlacement(nd->mTransformation, el.ObjectPlacement.Get(), conv);
+ }
+
+ std::vector<TempOpening> openings;
+
+ IfcMatrix4 myInv;
+ bool didinv = false;
+
+ // convert everything contained directly within this structure,
+ // this may result in more nodes.
+ std::vector<aiNode *> subnodes;
+ try {
+ // locate aggregates and 'contained-in-here'-elements of this spatial structure and add them in recursively
+ // on our way, collect openings in *this* element
+ STEP::DB::RefMapRange range = refs.equal_range(el.GetID());
+
+ for (STEP::DB::RefMapRange range2 = range; range2.first != range.second; ++range2.first) {
+ // skip over meshes that have already been processed before. This is strictly necessary
+ // because the reverse indices also include references contained in argument lists and
+ // therefore every element has a back-reference hold by its parent.
+ if (conv.already_processed.find((*range2.first).second) != conv.already_processed.end()) {
+ continue;
+ }
+ const STEP::LazyObject &obj = conv.db.MustGetObject((*range2.first).second);
+
+ // handle regularly-contained elements
+ if (const Schema_2x3::IfcRelContainedInSpatialStructure *const cont = obj->ToPtr<Schema_2x3::IfcRelContainedInSpatialStructure>()) {
+ if (cont->RelatingStructure->GetID() != el.GetID()) {
+ continue;
+ }
+ for (const Schema_2x3::IfcProduct &pro : cont->RelatedElements) {
+ if (pro.ToPtr<Schema_2x3::IfcOpeningElement>()) {
+ // IfcOpeningElement is handled below. Sadly we can't use it here as is:
+ // The docs say that opening elements are USUALLY attached to building storey,
+ // but we want them for the building elements to which they belong.
+ continue;
+ }
+
+ aiNode *const ndnew = ProcessSpatialStructure(nd, pro, conv, nullptr);
+ if (ndnew) {
+ subnodes.push_back(ndnew);
+ }
+ }
+ }
+ // handle openings, which we collect in a list rather than adding them to the node graph
+ else if (const Schema_2x3::IfcRelVoidsElement *const fills = obj->ToPtr<Schema_2x3::IfcRelVoidsElement>()) {
+ if (fills->RelatingBuildingElement->GetID() == el.GetID()) {
+ const Schema_2x3::IfcFeatureElementSubtraction &open = fills->RelatedOpeningElement;
+
+ // move opening elements to a separate node since they are semantically different than elements that are just 'contained'
+ std::unique_ptr<aiNode> nd_aggr(new aiNode());
+ nd_aggr->mName.Set("$RelVoidsElement");
+ nd_aggr->mParent = nd;
+
+ nd_aggr->mTransformation = nd->mTransformation;
+
+ std::vector<TempOpening> openings_local;
+ aiNode *const ndnew = ProcessSpatialStructure(nd_aggr.get(), open, conv, &openings_local);
+ if (ndnew) {
+
+ nd_aggr->mNumChildren = 1;
+ nd_aggr->mChildren = new aiNode *[1]();
+
+ nd_aggr->mChildren[0] = ndnew;
+
+ if (openings_local.size()) {
+ if (!didinv) {
+ myInv = aiMatrix4x4(nd->mTransformation).Inverse();
+ didinv = true;
+ }
+
+ // we need all openings to be in the local space of *this* node, so transform them
+ for (TempOpening &op : openings_local) {
+ op.Transform(myInv * nd_aggr->mChildren[0]->mTransformation);
+ openings.push_back(op);
+ }
+ }
+ subnodes.push_back(nd_aggr.release());
+ }
+ }
+ }
+ }
+
+ for (; range.first != range.second; ++range.first) {
+ // see note in loop above
+ if (conv.already_processed.find((*range.first).second) != conv.already_processed.end()) {
+ continue;
+ }
+ if (const Schema_2x3::IfcRelAggregates *const aggr = conv.db.GetObject((*range.first).second)->ToPtr<Schema_2x3::IfcRelAggregates>()) {
+ if (aggr->RelatingObject->GetID() != el.GetID()) {
+ continue;
+ }
+
+ // move aggregate elements to a separate node since they are semantically different than elements that are just 'contained'
+ std::unique_ptr<aiNode> nd_aggr(new aiNode());
+ nd_aggr->mName.Set("$RelAggregates");
+ nd_aggr->mParent = nd;
+
+ nd_aggr->mTransformation = nd->mTransformation;
+
+ nd_aggr->mChildren = new aiNode *[aggr->RelatedObjects.size()]();
+ for (const Schema_2x3::IfcObjectDefinition &def : aggr->RelatedObjects) {
+ if (const Schema_2x3::IfcProduct *const prod = def.ToPtr<Schema_2x3::IfcProduct>()) {
+
+ aiNode *const ndnew = ProcessSpatialStructure(nd_aggr.get(), *prod, conv, nullptr);
+ if (ndnew) {
+ nd_aggr->mChildren[nd_aggr->mNumChildren++] = ndnew;
+ }
+ }
+ }
+
+ subnodes.push_back(nd_aggr.release());
+ }
+ }
+
+ conv.collect_openings = collect_openings;
+ if (!conv.collect_openings) {
+ conv.apply_openings = &openings;
+ }
+
+ if (!skipGeometry) {
+ ProcessProductRepresentation(el, nd, subnodes, conv);
+ conv.apply_openings = conv.collect_openings = nullptr;
+ }
+
+ if (subnodes.size()) {
+ nd->mChildren = new aiNode *[subnodes.size()]();
+ for (aiNode *nd2 : subnodes) {
+ nd->mChildren[nd->mNumChildren++] = nd2;
+ nd2->mParent = nd;
+ }
+ }
+ } catch (...) {
+ // it hurts, but I don't want to pull boost::ptr_vector into -noboost only for these few spots here
+ std::for_each(subnodes.begin(), subnodes.end(), delete_fun<aiNode>());
+ throw;
+ }
+
+ ai_assert(conv.already_processed.find(el.GetID()) != conv.already_processed.end());
+ conv.already_processed.erase(conv.already_processed.find(el.GetID()));
+ return nd;
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessSpatialStructures(ConversionData &conv) {
+ // XXX add support for multiple sites (i.e. IfcSpatialStructureElements with composition == COMPLEX)
+
+ // process all products in the file. it is reasonable to assume that a
+ // file that is relevant for us contains at least a site or a building.
+ const STEP::DB::ObjectMapByType &map = conv.db.GetObjectsByType();
+
+ ai_assert(map.find("ifcsite") != map.end());
+ const STEP::DB::ObjectSet *range = &map.find("ifcsite")->second;
+
+ if (range->empty()) {
+ ai_assert(map.find("ifcbuilding") != map.end());
+ range = &map.find("ifcbuilding")->second;
+ if (range->empty()) {
+ // no site, no building - fail;
+ IFCImporter::ThrowException("no root element found (expected IfcBuilding or preferably IfcSite)");
+ }
+ }
+
+ std::vector<aiNode *> nodes;
+
+ for (const STEP::LazyObject *lz : *range) {
+ const Schema_2x3::IfcSpatialStructureElement *const prod = lz->ToPtr<Schema_2x3::IfcSpatialStructureElement>();
+ if (!prod) {
+ continue;
+ }
+ IFCImporter::LogVerboseDebug("looking at spatial structure `", (prod->Name ? prod->Name.Get() : "unnamed"), "`", (prod->ObjectType ? " which is of type " + prod->ObjectType.Get() : ""));
+
+ // the primary sites are referenced by an IFCRELAGGREGATES element which assigns them to the IFCPRODUCT
+ const STEP::DB::RefMap &refs = conv.db.GetRefs();
+ STEP::DB::RefMapRange ref_range = refs.equal_range(conv.proj.GetID());
+ for (; ref_range.first != ref_range.second; ++ref_range.first) {
+ if (const Schema_2x3::IfcRelAggregates *const aggr = conv.db.GetObject((*ref_range.first).second)->ToPtr<Schema_2x3::IfcRelAggregates>()) {
+
+ for (const Schema_2x3::IfcObjectDefinition &def : aggr->RelatedObjects) {
+ // comparing pointer values is not sufficient, we would need to cast them to the same type first
+ // as there is multiple inheritance in the game.
+ if (def.GetID() == prod->GetID()) {
+ IFCImporter::LogVerboseDebug("selecting this spatial structure as root structure");
+ // got it, this is one primary site.
+ nodes.push_back(ProcessSpatialStructure(nullptr, *prod, conv, nullptr));
+ }
+ }
+ }
+ }
+ }
+
+ size_t nb_nodes = nodes.size();
+
+ if (nb_nodes == 0) {
+ IFCImporter::LogWarn("failed to determine primary site element, taking all the IfcSite");
+ for (const STEP::LazyObject *lz : *range) {
+ const Schema_2x3::IfcSpatialStructureElement *const prod = lz->ToPtr<Schema_2x3::IfcSpatialStructureElement>();
+ if (!prod) {
+ continue;
+ }
+
+ nodes.push_back(ProcessSpatialStructure(nullptr, *prod, conv, nullptr));
+ }
+
+ nb_nodes = nodes.size();
+ }
+
+ if (nb_nodes == 1) {
+ conv.out->mRootNode = nodes[0];
+ } else if (nb_nodes > 1) {
+ conv.out->mRootNode = new aiNode("Root");
+ conv.out->mRootNode->mParent = nullptr;
+ conv.out->mRootNode->mNumChildren = static_cast<unsigned int>(nb_nodes);
+ conv.out->mRootNode->mChildren = new aiNode *[conv.out->mRootNode->mNumChildren];
+
+ for (size_t i = 0; i < nb_nodes; ++i) {
+ aiNode *node = nodes[i];
+
+ node->mParent = conv.out->mRootNode;
+
+ conv.out->mRootNode->mChildren[i] = node;
+ }
+ } else {
+ IFCImporter::ThrowException("failed to determine primary site element");
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void MakeTreeRelative(aiNode *start, const aiMatrix4x4 &combined) {
+ // combined is the parent's absolute transformation matrix
+ const aiMatrix4x4 old = start->mTransformation;
+
+ if (!combined.IsIdentity()) {
+ start->mTransformation = aiMatrix4x4(combined).Inverse() * start->mTransformation;
+ }
+
+ // All nodes store absolute transformations right now, so we need to make them relative
+ for (unsigned int i = 0; i < start->mNumChildren; ++i) {
+ MakeTreeRelative(start->mChildren[i], old);
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void MakeTreeRelative(ConversionData &conv) {
+ MakeTreeRelative(conv.out->mRootNode, IfcMatrix4());
+}
+
+} // namespace
+
+#endif
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCLoader.h b/src/mesh/assimp-master/code/AssetLib/IFC/IFCLoader.h
new file mode 100644
index 0000000..7b2c3aa
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCLoader.h
@@ -0,0 +1,116 @@
+/*
+Open Asset Import Library (assimp)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2022, assimp 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 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.
+
+----------------------------------------------------------------------
+*/
+
+/** @file IFC.h
+ * @brief Declaration of the Industry Foundation Classes (IFC) loader main class
+ */
+#ifndef INCLUDED_AI_IFC_LOADER_H
+#define INCLUDED_AI_IFC_LOADER_H
+
+#include <assimp/BaseImporter.h>
+#include <assimp/LogAux.h>
+
+namespace Assimp {
+
+// TinyFormatter.h
+namespace Formatter {
+
+template <typename T, typename TR, typename A>
+class basic_formatter;
+typedef class basic_formatter<char, std::char_traits<char>, std::allocator<char>> format;
+
+} // namespace Formatter
+
+namespace STEP {
+
+class DB;
+
+}
+
+// -------------------------------------------------------------------------------------------
+/** Load the IFC format, which is an open specification to describe building and construction
+ industry data.
+
+ See http://en.wikipedia.org/wiki/Industry_Foundation_Classes
+*/
+// -------------------------------------------------------------------------------------------
+class IFCImporter : public BaseImporter, public LogFunctions<IFCImporter> {
+public:
+ // loader settings, publicly accessible via their corresponding AI_CONFIG constants
+ struct Settings {
+ Settings() :
+ skipSpaceRepresentations(), useCustomTriangulation(), skipAnnotations(), conicSamplingAngle(10.f), cylindricalTessellation(32) {}
+
+ bool skipSpaceRepresentations;
+ bool useCustomTriangulation;
+ bool skipAnnotations;
+ float conicSamplingAngle;
+ int cylindricalTessellation;
+ };
+
+ IFCImporter();
+ ~IFCImporter() override;
+
+ // --------------------
+ bool CanRead(const std::string &pFile,
+ IOSystem *pIOHandler,
+ bool checkSig) const override;
+
+protected:
+ // --------------------
+ const aiImporterDesc *GetInfo() const override;
+
+ // --------------------
+ void SetupProperties(const Importer *pImp) override;
+
+ // --------------------
+ void InternReadFile(const std::string &pFile,
+ aiScene *pScene,
+ IOSystem *pIOHandler) override;
+
+private:
+ Settings settings;
+
+}; // !class IFCImporter
+
+} // end of namespace Assimp
+#endif // !INCLUDED_AI_IFC_LOADER_H
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCMaterial.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCMaterial.cpp
new file mode 100644
index 0000000..6cd0e59
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCMaterial.cpp
@@ -0,0 +1,202 @@
+/*
+Open Asset Import Library (assimp)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2022, assimp 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 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.
+
+----------------------------------------------------------------------
+*/
+
+/** @file IFCMaterial.cpp
+ * @brief Implementation of conversion routines to convert IFC materials to aiMaterial
+ */
+
+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER
+
+#include "IFCUtil.h"
+#include <limits>
+#include <assimp/material.h>
+
+namespace Assimp {
+namespace IFC {
+
+// ------------------------------------------------------------------------------------------------
+static int ConvertShadingMode(const std::string& name) {
+ if (name == "BLINN") {
+ return aiShadingMode_Blinn;
+ }
+ else if (name == "FLAT" || name == "NOTDEFINED") {
+ return aiShadingMode_NoShading;
+ }
+ else if (name == "PHONG") {
+ return aiShadingMode_Phong;
+ }
+ IFCImporter::LogWarn("shading mode ", name, " not recognized by Assimp, using Phong instead");
+ return aiShadingMode_Phong;
+}
+
+// ------------------------------------------------------------------------------------------------
+static void FillMaterial(aiMaterial* mat,const IFC::Schema_2x3::IfcSurfaceStyle* surf,ConversionData& conv) {
+ aiString name;
+ name.Set((surf->Name? surf->Name.Get() : "IfcSurfaceStyle_Unnamed"));
+ mat->AddProperty(&name,AI_MATKEY_NAME);
+
+ // now see which kinds of surface information are present
+ for (const std::shared_ptr<const IFC::Schema_2x3::IfcSurfaceStyleElementSelect> &sel2 : surf->Styles) {
+ if (const IFC::Schema_2x3::IfcSurfaceStyleShading* shade = sel2->ResolveSelectPtr<IFC::Schema_2x3::IfcSurfaceStyleShading>(conv.db)) {
+ aiColor4D col_base,col;
+
+ ConvertColor(col_base, shade->SurfaceColour);
+ mat->AddProperty(&col_base,1, AI_MATKEY_COLOR_DIFFUSE);
+
+ if (const IFC::Schema_2x3::IfcSurfaceStyleRendering* ren = shade->ToPtr<IFC::Schema_2x3::IfcSurfaceStyleRendering>()) {
+
+ if (ren->Transparency) {
+ const float t = 1.f-static_cast<float>(ren->Transparency.Get());
+ mat->AddProperty(&t,1, AI_MATKEY_OPACITY);
+ }
+
+ if (ren->DiffuseColour) {
+ ConvertColor(col, *ren->DiffuseColour.Get(),conv,&col_base);
+ mat->AddProperty(&col,1, AI_MATKEY_COLOR_DIFFUSE);
+ }
+
+ if (ren->SpecularColour) {
+ ConvertColor(col, *ren->SpecularColour.Get(),conv,&col_base);
+ mat->AddProperty(&col,1, AI_MATKEY_COLOR_SPECULAR);
+ }
+
+ if (ren->TransmissionColour) {
+ ConvertColor(col, *ren->TransmissionColour.Get(),conv,&col_base);
+ mat->AddProperty(&col,1, AI_MATKEY_COLOR_TRANSPARENT);
+ }
+
+ if (ren->ReflectionColour) {
+ ConvertColor(col, *ren->ReflectionColour.Get(),conv,&col_base);
+ mat->AddProperty(&col,1, AI_MATKEY_COLOR_REFLECTIVE);
+ }
+
+ const int shading = (ren->SpecularHighlight && ren->SpecularColour)?ConvertShadingMode(ren->ReflectanceMethod):static_cast<int>(aiShadingMode_Gouraud);
+ mat->AddProperty(&shading,1, AI_MATKEY_SHADING_MODEL);
+
+ if (ren->SpecularHighlight) {
+ if(const ::Assimp::STEP::EXPRESS::REAL* rt = ren->SpecularHighlight.Get()->ToPtr<::Assimp::STEP::EXPRESS::REAL>()) {
+ // at this point we don't distinguish between the two distinct ways of
+ // specifying highlight intensities. leave this to the user.
+ const float e = static_cast<float>(*rt);
+ mat->AddProperty(&e,1,AI_MATKEY_SHININESS);
+ }
+ else {
+ IFCImporter::LogWarn("unexpected type error, SpecularHighlight should be a REAL");
+ }
+ }
+ }
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+unsigned int ProcessMaterials(uint64_t id, unsigned int prevMatId, ConversionData& conv, bool forceDefaultMat) {
+ STEP::DB::RefMapRange range = conv.db.GetRefs().equal_range(id);
+ for(;range.first != range.second; ++range.first) {
+ if(const IFC::Schema_2x3::IfcStyledItem* const styled = conv.db.GetObject((*range.first).second)->ToPtr<IFC::Schema_2x3::IfcStyledItem>()) {
+ for(const IFC::Schema_2x3::IfcPresentationStyleAssignment& as : styled->Styles) {
+ for (const std::shared_ptr<const IFC::Schema_2x3::IfcPresentationStyleSelect> &sel : as.Styles) {
+
+ if( const IFC::Schema_2x3::IfcSurfaceStyle* const surf = sel->ResolveSelectPtr<IFC::Schema_2x3::IfcSurfaceStyle>(conv.db) ) {
+ // try to satisfy from cache
+ ConversionData::MaterialCache::iterator mit = conv.cached_materials.find(surf);
+ if( mit != conv.cached_materials.end() )
+ return mit->second;
+
+ // not found, create new material
+ const std::string side = static_cast<std::string>(surf->Side);
+ if( side != "BOTH" ) {
+ IFCImporter::LogWarn("ignoring surface side marker on IFC::IfcSurfaceStyle: ", side);
+ }
+
+ std::unique_ptr<aiMaterial> mat(new aiMaterial());
+
+ FillMaterial(mat.get(), surf, conv);
+
+ conv.materials.push_back(mat.release());
+ unsigned int matindex = static_cast<unsigned int>(conv.materials.size() - 1);
+ conv.cached_materials[surf] = matindex;
+ return matindex;
+ }
+ }
+ }
+ }
+ }
+
+ // no local material defined. If there's global one, use that instead
+ if ( prevMatId != std::numeric_limits<uint32_t>::max() ) {
+ return prevMatId;
+ }
+
+ // we're still here - create an default material if required, or simply fail otherwise
+ if ( !forceDefaultMat ) {
+ return std::numeric_limits<uint32_t>::max();
+ }
+
+ aiString name;
+ name.Set("<IFCDefault>");
+ // ConvertColorToString( color, name);
+
+ // look if there's already a default material with this base color
+ for( size_t a = 0; a < conv.materials.size(); ++a ) {
+ aiString mname;
+ conv.materials[a]->Get(AI_MATKEY_NAME, mname);
+ if ( name == mname ) {
+ return ( unsigned int )a;
+ }
+ }
+
+ // we're here, yet - no default material with suitable color available. Generate one
+ std::unique_ptr<aiMaterial> mat(new aiMaterial());
+ mat->AddProperty(&name,AI_MATKEY_NAME);
+
+ const aiColor4D col = aiColor4D( 0.6f, 0.6f, 0.6f, 1.0f); // aiColor4D( color.r, color.g, color.b, 1.0f);
+ mat->AddProperty(&col,1, AI_MATKEY_COLOR_DIFFUSE);
+
+ conv.materials.push_back(mat.release());
+ return (unsigned int) conv.materials.size() - 1;
+}
+
+} // ! IFC
+} // ! Assimp
+
+#endif // ASSIMP_BUILD_NO_IFC_IMPORTER
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCOpenings.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCOpenings.cpp
new file mode 100644
index 0000000..7420019
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCOpenings.cpp
@@ -0,0 +1,1955 @@
+/*
+Open Asset Import Library (assimp)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2022, assimp 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 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.
+
+----------------------------------------------------------------------
+*/
+
+/** @file IFCOpenings.cpp
+ * @brief Implements a subset of Ifc CSG operations for pouring
+ * holes for windows and doors into walls.
+ */
+
+
+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER
+#include "IFCUtil.h"
+#include "Common/PolyTools.h"
+#include "PostProcessing/ProcessHelper.h"
+
+#ifdef ASSIMP_USE_HUNTER
+# include <poly2tri/poly2tri.h>
+# include <polyclipping/clipper.hpp>
+#else
+# include "../contrib/poly2tri/poly2tri/poly2tri.h"
+# include "../contrib/clipper/clipper.hpp"
+#endif
+
+#include <iterator>
+#include <forward_list>
+#include <deque>
+
+namespace Assimp {
+ namespace IFC {
+
+ using ClipperLib::ulong64;
+ // XXX use full -+ range ...
+ const ClipperLib::long64 max_ulong64 = 1518500249; // clipper.cpp / hiRange var
+
+ //#define to_int64(p) (static_cast<ulong64>( std::max( 0., std::min( static_cast<IfcFloat>((p)), 1.) ) * max_ulong64 ))
+#define to_int64(p) (static_cast<ulong64>(static_cast<IfcFloat>((p) ) * max_ulong64 ))
+#define from_int64(p) (static_cast<IfcFloat>((p)) / max_ulong64)
+#define one_vec (IfcVector2(static_cast<IfcFloat>(1.0),static_cast<IfcFloat>(1.0)))
+
+
+ // fallback method to generate wall openings
+ bool TryAddOpenings_Poly2Tri(const std::vector<TempOpening>& openings,
+ TempMesh& curmesh);
+
+
+typedef std::pair< IfcVector2, IfcVector2 > BoundingBox;
+typedef std::map<IfcVector2,size_t,XYSorter> XYSortedField;
+
+
+// ------------------------------------------------------------------------------------------------
+void QuadrifyPart(const IfcVector2& pmin, const IfcVector2& pmax, XYSortedField& field,
+ const std::vector< BoundingBox >& bbs,
+ std::vector<IfcVector2>& out)
+{
+ if (!(pmin.x-pmax.x) || !(pmin.y-pmax.y)) {
+ return;
+ }
+
+ IfcFloat xs = 1e10, xe = 1e10;
+ bool found = false;
+
+ // Search along the x-axis until we find an opening
+ XYSortedField::iterator start = field.begin();
+ for(; start != field.end(); ++start) {
+ const BoundingBox& bb = bbs[(*start).second];
+ if(bb.first.x >= pmax.x) {
+ break;
+ }
+
+ if (bb.second.x > pmin.x && bb.second.y > pmin.y && bb.first.y < pmax.y) {
+ xs = bb.first.x;
+ xe = bb.second.x;
+ found = true;
+ break;
+ }
+ }
+
+ if (!found) {
+ // the rectangle [pmin,pend] is opaque, fill it
+ out.push_back(pmin);
+ out.push_back(IfcVector2(pmin.x,pmax.y));
+ out.push_back(pmax);
+ out.push_back(IfcVector2(pmax.x,pmin.y));
+ return;
+ }
+
+ xs = std::max(pmin.x,xs);
+ xe = std::min(pmax.x,xe);
+
+ // see if there's an offset to fill at the top of our quad
+ if (xs - pmin.x) {
+ out.push_back(pmin);
+ out.push_back(IfcVector2(pmin.x,pmax.y));
+ out.push_back(IfcVector2(xs,pmax.y));
+ out.push_back(IfcVector2(xs,pmin.y));
+ }
+
+ // search along the y-axis for all openings that overlap xs and our quad
+ IfcFloat ylast = pmin.y;
+ found = false;
+ for(; start != field.end(); ++start) {
+ const BoundingBox& bb = bbs[(*start).second];
+ if (bb.first.x > xs || bb.first.y >= pmax.y) {
+ break;
+ }
+
+ if (bb.second.y > ylast) {
+
+ found = true;
+ const IfcFloat ys = std::max(bb.first.y,pmin.y), ye = std::min(bb.second.y,pmax.y);
+ if (ys - ylast > 0.0f) {
+ QuadrifyPart( IfcVector2(xs,ylast), IfcVector2(xe,ys) ,field,bbs,out);
+ }
+
+ // the following are the window vertices
+
+ /*wnd.push_back(IfcVector2(xs,ys));
+ wnd.push_back(IfcVector2(xs,ye));
+ wnd.push_back(IfcVector2(xe,ye));
+ wnd.push_back(IfcVector2(xe,ys));*/
+ ylast = ye;
+ }
+ }
+ if (!found) {
+ // the rectangle [pmin,pend] is opaque, fill it
+ out.push_back(IfcVector2(xs,pmin.y));
+ out.push_back(IfcVector2(xs,pmax.y));
+ out.push_back(IfcVector2(xe,pmax.y));
+ out.push_back(IfcVector2(xe,pmin.y));
+ return;
+ }
+ if (ylast < pmax.y) {
+ QuadrifyPart( IfcVector2(xs,ylast), IfcVector2(xe,pmax.y) ,field,bbs,out);
+ }
+
+ // now for the whole rest
+ if (pmax.x-xe) {
+ QuadrifyPart(IfcVector2(xe,pmin.y), pmax ,field,bbs,out);
+ }
+}
+
+typedef std::vector<IfcVector2> Contour;
+typedef std::vector<bool> SkipList; // should probably use int for performance reasons
+
+struct ProjectedWindowContour
+{
+ Contour contour;
+ BoundingBox bb;
+ SkipList skiplist;
+ bool is_rectangular;
+
+
+ ProjectedWindowContour(const Contour& contour, const BoundingBox& bb, bool is_rectangular)
+ : contour(contour)
+ , bb(bb)
+ , is_rectangular(is_rectangular)
+ {}
+
+
+ bool IsInvalid() const {
+ return contour.empty();
+ }
+
+ void FlagInvalid() {
+ contour.clear();
+ }
+
+ void PrepareSkiplist() {
+ skiplist.resize(contour.size(),false);
+ }
+};
+
+typedef std::vector< ProjectedWindowContour > ContourVector;
+
+// ------------------------------------------------------------------------------------------------
+bool BoundingBoxesOverlapping( const BoundingBox &ibb, const BoundingBox &bb )
+{
+ // count the '=' case as non-overlapping but as adjacent to each other
+ return ibb.first.x < bb.second.x && ibb.second.x > bb.first.x &&
+ ibb.first.y < bb.second.y && ibb.second.y > bb.first.y;
+}
+
+// ------------------------------------------------------------------------------------------------
+bool IsDuplicateVertex(const IfcVector2& vv, const std::vector<IfcVector2>& temp_contour)
+{
+ // sanity check for duplicate vertices
+ for(const IfcVector2& cp : temp_contour) {
+ if ((cp-vv).SquareLength() < 1e-5f) {
+ return true;
+ }
+ }
+ return false;
+}
+
+// ------------------------------------------------------------------------------------------------
+void ExtractVerticesFromClipper(const ClipperLib::Polygon& poly, std::vector<IfcVector2>& temp_contour,
+ bool filter_duplicates = false)
+{
+ temp_contour.clear();
+ for(const ClipperLib::IntPoint& point : poly) {
+ IfcVector2 vv = IfcVector2( from_int64(point.X), from_int64(point.Y));
+ vv = std::max(vv,IfcVector2());
+ vv = std::min(vv,one_vec);
+
+ if (!filter_duplicates || !IsDuplicateVertex(vv, temp_contour)) {
+ temp_contour.push_back(vv);
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+BoundingBox GetBoundingBox(const ClipperLib::Polygon& poly)
+{
+ IfcVector2 newbb_min, newbb_max;
+ MinMaxChooser<IfcVector2>()(newbb_min, newbb_max);
+
+ for(const ClipperLib::IntPoint& point : poly) {
+ IfcVector2 vv = IfcVector2( from_int64(point.X), from_int64(point.Y));
+
+ // sanity rounding
+ vv = std::max(vv,IfcVector2());
+ vv = std::min(vv,one_vec);
+
+ newbb_min = std::min(newbb_min,vv);
+ newbb_max = std::max(newbb_max,vv);
+ }
+ return BoundingBox(newbb_min, newbb_max);
+}
+
+// ------------------------------------------------------------------------------------------------
+void InsertWindowContours(const ContourVector& contours,
+ const std::vector<TempOpening>& /*openings*/,
+ TempMesh& curmesh)
+{
+ // fix windows - we need to insert the real, polygonal shapes into the quadratic holes that we have now
+ for(size_t i = 0; i < contours.size();++i) {
+ const BoundingBox& bb = contours[i].bb;
+ const std::vector<IfcVector2>& contour = contours[i].contour;
+ if(contour.empty()) {
+ continue;
+ }
+
+ // check if we need to do it at all - many windows just fit perfectly into their quadratic holes,
+ // i.e. their contours *are* already their bounding boxes.
+ if (contour.size() == 4) {
+ std::set<IfcVector2,XYSorter> verts;
+ for(size_t n = 0; n < 4; ++n) {
+ verts.insert(contour[n]);
+ }
+ const std::set<IfcVector2,XYSorter>::const_iterator end = verts.end();
+ if (verts.find(bb.first)!=end && verts.find(bb.second)!=end
+ && verts.find(IfcVector2(bb.first.x,bb.second.y))!=end
+ && verts.find(IfcVector2(bb.second.x,bb.first.y))!=end
+ ) {
+ continue;
+ }
+ }
+
+ const IfcFloat diag = (bb.first-bb.second).Length();
+ const IfcFloat epsilon = diag/1000.f;
+
+ // walk through all contour points and find those that lie on the BB corner
+ size_t last_hit = (size_t)-1, very_first_hit = (size_t)-1;
+ IfcVector2 edge;
+ for(size_t n = 0, e=0, size = contour.size();; n=(n+1)%size, ++e) {
+
+ // sanity checking
+ if (e == size*2) {
+ IFCImporter::LogError("encountered unexpected topology while generating window contour");
+ break;
+ }
+
+ const IfcVector2& v = contour[n];
+
+ bool hit = false;
+ if (std::fabs(v.x-bb.first.x)<epsilon) {
+ edge.x = bb.first.x;
+ hit = true;
+ }
+ else if (std::fabs(v.x-bb.second.x)<epsilon) {
+ edge.x = bb.second.x;
+ hit = true;
+ }
+
+ if (std::fabs(v.y-bb.first.y)<epsilon) {
+ edge.y = bb.first.y;
+ hit = true;
+ }
+ else if (std::fabs(v.y-bb.second.y)<epsilon) {
+ edge.y = bb.second.y;
+ hit = true;
+ }
+
+ if (hit) {
+ if (last_hit != (size_t)-1) {
+
+ const size_t old = curmesh.mVerts.size();
+ size_t cnt = last_hit > n ? size-(last_hit-n) : n-last_hit;
+ for(size_t a = last_hit, ee = 0; ee <= cnt; a=(a+1)%size, ++ee) {
+ // hack: this is to fix cases where opening contours are self-intersecting.
+ // Clipper doesn't produce such polygons, but as soon as we're back in
+ // our brave new floating-point world, very small distances are consumed
+ // by the maximum available precision, leading to self-intersecting
+ // polygons. This fix makes concave windows fail even worse, but
+ // anyway, fail is fail.
+ if ((contour[a] - edge).SquareLength() > diag*diag*0.7) {
+ continue;
+ }
+ curmesh.mVerts.push_back(IfcVector3(contour[a].x, contour[a].y, 0.0f));
+ }
+
+ if (edge != contour[last_hit]) {
+
+ IfcVector2 corner = edge;
+
+ if (std::fabs(contour[last_hit].x-bb.first.x)<epsilon) {
+ corner.x = bb.first.x;
+ }
+ else if (std::fabs(contour[last_hit].x-bb.second.x)<epsilon) {
+ corner.x = bb.second.x;
+ }
+
+ if (std::fabs(contour[last_hit].y-bb.first.y)<epsilon) {
+ corner.y = bb.first.y;
+ }
+ else if (std::fabs(contour[last_hit].y-bb.second.y)<epsilon) {
+ corner.y = bb.second.y;
+ }
+
+ curmesh.mVerts.push_back(IfcVector3(corner.x, corner.y, 0.0f));
+ }
+ else if (cnt == 1) {
+ // avoid degenerate polygons (also known as lines or points)
+ curmesh.mVerts.erase(curmesh.mVerts.begin()+old,curmesh.mVerts.end());
+ }
+
+ if (const size_t d = curmesh.mVerts.size()-old) {
+ curmesh.mVertcnt.push_back(static_cast<unsigned int>(d));
+ std::reverse(curmesh.mVerts.rbegin(),curmesh.mVerts.rbegin()+d);
+ }
+ if (n == very_first_hit) {
+ break;
+ }
+ }
+ else {
+ very_first_hit = n;
+ }
+
+ last_hit = n;
+ }
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void MergeWindowContours (const std::vector<IfcVector2>& a,
+ const std::vector<IfcVector2>& b,
+ ClipperLib::ExPolygons& out)
+{
+ out.clear();
+
+ ClipperLib::Clipper clipper;
+ ClipperLib::Polygon clip;
+
+ for(const IfcVector2& pip : a) {
+ clip.push_back(ClipperLib::IntPoint( to_int64(pip.x), to_int64(pip.y) ));
+ }
+
+ if (ClipperLib::Orientation(clip)) {
+ std::reverse(clip.begin(), clip.end());
+ }
+
+ clipper.AddPolygon(clip, ClipperLib::ptSubject);
+ clip.clear();
+
+ for(const IfcVector2& pip : b) {
+ clip.push_back(ClipperLib::IntPoint( to_int64(pip.x), to_int64(pip.y) ));
+ }
+
+ if (ClipperLib::Orientation(clip)) {
+ std::reverse(clip.begin(), clip.end());
+ }
+
+ clipper.AddPolygon(clip, ClipperLib::ptSubject);
+ clipper.Execute(ClipperLib::ctUnion, out,ClipperLib::pftNonZero,ClipperLib::pftNonZero);
+}
+
+// ------------------------------------------------------------------------------------------------
+// Subtract a from b
+void MakeDisjunctWindowContours (const std::vector<IfcVector2>& a,
+ const std::vector<IfcVector2>& b,
+ ClipperLib::ExPolygons& out)
+{
+ out.clear();
+
+ ClipperLib::Clipper clipper;
+ ClipperLib::Polygon clip;
+
+ for(const IfcVector2& pip : a) {
+ clip.push_back(ClipperLib::IntPoint( to_int64(pip.x), to_int64(pip.y) ));
+ }
+
+ if (ClipperLib::Orientation(clip)) {
+ std::reverse(clip.begin(), clip.end());
+ }
+
+ clipper.AddPolygon(clip, ClipperLib::ptClip);
+ clip.clear();
+
+ for(const IfcVector2& pip : b) {
+ clip.push_back(ClipperLib::IntPoint( to_int64(pip.x), to_int64(pip.y) ));
+ }
+
+ if (ClipperLib::Orientation(clip)) {
+ std::reverse(clip.begin(), clip.end());
+ }
+
+ clipper.AddPolygon(clip, ClipperLib::ptSubject);
+ clipper.Execute(ClipperLib::ctDifference, out,ClipperLib::pftNonZero,ClipperLib::pftNonZero);
+}
+
+// ------------------------------------------------------------------------------------------------
+void CleanupWindowContour(ProjectedWindowContour& window)
+{
+ std::vector<IfcVector2> scratch;
+ std::vector<IfcVector2>& contour = window.contour;
+
+ ClipperLib::Polygon subject;
+ ClipperLib::Clipper clipper;
+ ClipperLib::ExPolygons clipped;
+
+ for(const IfcVector2& pip : contour) {
+ subject.push_back(ClipperLib::IntPoint( to_int64(pip.x), to_int64(pip.y) ));
+ }
+
+ clipper.AddPolygon(subject,ClipperLib::ptSubject);
+ clipper.Execute(ClipperLib::ctUnion,clipped,ClipperLib::pftNonZero,ClipperLib::pftNonZero);
+
+ // This should yield only one polygon or something went wrong
+ if (clipped.size() != 1) {
+
+ // Empty polygon? drop the contour altogether
+ if(clipped.empty()) {
+ IFCImporter::LogError("error during polygon clipping, window contour is degenerate");
+ window.FlagInvalid();
+ return;
+ }
+
+ // Else: take the first only
+ IFCImporter::LogError("error during polygon clipping, window contour is not convex");
+ }
+
+ ExtractVerticesFromClipper(clipped[0].outer, scratch);
+ // Assume the bounding box doesn't change during this operation
+}
+
+// ------------------------------------------------------------------------------------------------
+void CleanupWindowContours(ContourVector& contours)
+{
+ // Use PolyClipper to clean up window contours
+ try {
+ for(ProjectedWindowContour& window : contours) {
+ CleanupWindowContour(window);
+ }
+ }
+ catch (const char* sx) {
+ IFCImporter::LogError("error during polygon clipping, window shape may be wrong: (Clipper: "
+ + std::string(sx) + ")");
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void CleanupOuterContour(const std::vector<IfcVector2>& contour_flat, TempMesh& curmesh)
+{
+ std::vector<IfcVector3> vold;
+ std::vector<unsigned int> iold;
+
+ vold.reserve(curmesh.mVerts.size());
+ iold.reserve(curmesh.mVertcnt.size());
+
+ // Fix the outer contour using polyclipper
+ try {
+
+ ClipperLib::Polygon subject;
+ ClipperLib::Clipper clipper;
+ ClipperLib::ExPolygons clipped;
+
+ ClipperLib::Polygon clip;
+ clip.reserve(contour_flat.size());
+ for(const IfcVector2& pip : contour_flat) {
+ clip.push_back(ClipperLib::IntPoint( to_int64(pip.x), to_int64(pip.y) ));
+ }
+
+ if (!ClipperLib::Orientation(clip)) {
+ std::reverse(clip.begin(), clip.end());
+ }
+
+ // We need to run polyclipper on every single polygon -- we can't run it one all
+ // of them at once or it would merge them all together which would undo all
+ // previous steps
+ subject.reserve(4);
+ size_t index = 0;
+ size_t countdown = 0;
+ for(const IfcVector3& pip : curmesh.mVerts) {
+ if (!countdown) {
+ countdown = curmesh.mVertcnt[index++];
+ if (!countdown) {
+ continue;
+ }
+ }
+ subject.push_back(ClipperLib::IntPoint( to_int64(pip.x), to_int64(pip.y) ));
+ if (--countdown == 0) {
+ if (!ClipperLib::Orientation(subject)) {
+ std::reverse(subject.begin(), subject.end());
+ }
+
+ clipper.AddPolygon(subject,ClipperLib::ptSubject);
+ clipper.AddPolygon(clip,ClipperLib::ptClip);
+
+ clipper.Execute(ClipperLib::ctIntersection,clipped,ClipperLib::pftNonZero,ClipperLib::pftNonZero);
+
+ for(const ClipperLib::ExPolygon& ex : clipped) {
+ iold.push_back(static_cast<unsigned int>(ex.outer.size()));
+ for(const ClipperLib::IntPoint& point : ex.outer) {
+ vold.push_back(IfcVector3(
+ from_int64(point.X),
+ from_int64(point.Y),
+ 0.0f));
+ }
+ }
+
+ subject.clear();
+ clipped.clear();
+ clipper.Clear();
+ }
+ }
+ }
+ catch (const char* sx) {
+ IFCImporter::LogError("Ifc: error during polygon clipping, wall contour line may be wrong: (Clipper: "
+ + std::string(sx) + ")");
+
+ return;
+ }
+
+ // swap data arrays
+ std::swap(vold,curmesh.mVerts);
+ std::swap(iold,curmesh.mVertcnt);
+}
+
+typedef std::vector<TempOpening*> OpeningRefs;
+typedef std::vector<OpeningRefs > OpeningRefVector;
+
+typedef std::vector<std::pair<
+ ContourVector::const_iterator,
+ Contour::const_iterator>
+> ContourRefVector;
+
+// ------------------------------------------------------------------------------------------------
+bool BoundingBoxesAdjacent(const BoundingBox& bb, const BoundingBox& ibb)
+{
+ // TODO: I'm pretty sure there is a much more compact way to check this
+ const IfcFloat epsilon = Math::getEpsilon<float>();
+ return (std::fabs(bb.second.x - ibb.first.x) < epsilon && bb.first.y <= ibb.second.y && bb.second.y >= ibb.first.y) ||
+ (std::fabs(bb.first.x - ibb.second.x) < epsilon && ibb.first.y <= bb.second.y && ibb.second.y >= bb.first.y) ||
+ (std::fabs(bb.second.y - ibb.first.y) < epsilon && bb.first.x <= ibb.second.x && bb.second.x >= ibb.first.x) ||
+ (std::fabs(bb.first.y - ibb.second.y) < epsilon && ibb.first.x <= bb.second.x && ibb.second.x >= bb.first.x);
+}
+
+// ------------------------------------------------------------------------------------------------
+// Check if m0,m1 intersects n0,n1 assuming same ordering of the points in the line segments
+// output the intersection points on n0,n1
+bool IntersectingLineSegments(const IfcVector2& n0, const IfcVector2& n1,
+ const IfcVector2& m0, const IfcVector2& m1,
+ IfcVector2& out0, IfcVector2& out1)
+{
+ const IfcVector2 n0_to_n1 = n1 - n0;
+
+ const IfcVector2 n0_to_m0 = m0 - n0;
+ const IfcVector2 n1_to_m1 = m1 - n1;
+
+ const IfcVector2 n0_to_m1 = m1 - n0;
+
+ const IfcFloat e = 1e-5f;
+ const IfcFloat smalle = 1e-9f;
+
+ static const IfcFloat inf = std::numeric_limits<IfcFloat>::infinity();
+
+ if (!(n0_to_m0.SquareLength() < e*e || std::fabs(n0_to_m0 * n0_to_n1) / (n0_to_m0.Length() * n0_to_n1.Length()) > 1-1e-5 )) {
+ return false;
+ }
+
+ if (!(n1_to_m1.SquareLength() < e*e || std::fabs(n1_to_m1 * n0_to_n1) / (n1_to_m1.Length() * n0_to_n1.Length()) > 1-1e-5 )) {
+ return false;
+ }
+
+ IfcFloat s0;
+ IfcFloat s1;
+
+ // pick the axis with the higher absolute difference so the result
+ // is more accurate. Since we cannot guarantee that the axis with
+ // the higher absolute difference is big enough as to avoid
+ // divisions by zero, the case 0/0 ~ infinity is detected and
+ // handled separately.
+ if(std::fabs(n0_to_n1.x) > std::fabs(n0_to_n1.y)) {
+ s0 = n0_to_m0.x / n0_to_n1.x;
+ s1 = n0_to_m1.x / n0_to_n1.x;
+
+ if (std::fabs(s0) == inf && std::fabs(n0_to_m0.x) < smalle) {
+ s0 = 0.;
+ }
+ if (std::fabs(s1) == inf && std::fabs(n0_to_m1.x) < smalle) {
+ s1 = 0.;
+ }
+ }
+ else {
+ s0 = n0_to_m0.y / n0_to_n1.y;
+ s1 = n0_to_m1.y / n0_to_n1.y;
+
+ if (std::fabs(s0) == inf && std::fabs(n0_to_m0.y) < smalle) {
+ s0 = 0.;
+ }
+ if (std::fabs(s1) == inf && std::fabs(n0_to_m1.y) < smalle) {
+ s1 = 0.;
+ }
+ }
+
+ if (s1 < s0) {
+ std::swap(s1,s0);
+ }
+
+ s0 = std::max(0.0,s0);
+ s1 = std::max(0.0,s1);
+
+ s0 = std::min(1.0,s0);
+ s1 = std::min(1.0,s1);
+
+ if (std::fabs(s1-s0) < e) {
+ return false;
+ }
+
+ out0 = n0 + s0 * n0_to_n1;
+ out1 = n0 + s1 * n0_to_n1;
+
+ return true;
+}
+
+// ------------------------------------------------------------------------------------------------
+void FindAdjacentContours(ContourVector::iterator current, const ContourVector& contours)
+{
+ const IfcFloat sqlen_epsilon = static_cast<IfcFloat>(Math::getEpsilon<float>());
+ const BoundingBox& bb = (*current).bb;
+
+ // What is to be done here is to populate the skip lists for the contour
+ // and to add necessary padding points when needed.
+ SkipList& skiplist = (*current).skiplist;
+
+ // First step to find possible adjacent contours is to check for adjacent bounding
+ // boxes. If the bounding boxes are not adjacent, the contours lines cannot possibly be.
+ for (ContourVector::const_iterator it = contours.begin(), end = contours.end(); it != end; ++it) {
+ if ((*it).IsInvalid()) {
+ continue;
+ }
+
+ // this left here to make clear we also run on the current contour
+ // to check for overlapping contour segments (which can happen due
+ // to projection artifacts).
+ //if(it == current) {
+ // continue;
+ //}
+
+ const bool is_me = it == current;
+
+ const BoundingBox& ibb = (*it).bb;
+
+ // Assumption: the bounding boxes are pairwise disjoint or identical
+ ai_assert(is_me || !BoundingBoxesOverlapping(bb, ibb));
+
+ if (is_me || BoundingBoxesAdjacent(bb, ibb)) {
+
+ // Now do a each-against-everyone check for intersecting contour
+ // lines. This obviously scales terribly, but in typical real
+ // world Ifc files it will not matter since most windows that
+ // are adjacent to each others are rectangular anyway.
+
+ Contour& ncontour = (*current).contour;
+ const Contour& mcontour = (*it).contour;
+
+ for (size_t n = 0; n < ncontour.size(); ++n) {
+ const IfcVector2 n0 = ncontour[n];
+ const IfcVector2 n1 = ncontour[(n+1) % ncontour.size()];
+
+ for (size_t m = 0, mend = (is_me ? n : mcontour.size()); m < mend; ++m) {
+ ai_assert(&mcontour != &ncontour || m < n);
+
+ const IfcVector2 m0 = mcontour[m];
+ const IfcVector2 m1 = mcontour[(m+1) % mcontour.size()];
+
+ IfcVector2 isect0, isect1;
+ if (IntersectingLineSegments(n0,n1, m0, m1, isect0, isect1)) {
+
+ if ((isect0 - n0).SquareLength() > sqlen_epsilon) {
+ ++n;
+
+ ncontour.insert(ncontour.begin() + n, isect0);
+ skiplist.insert(skiplist.begin() + n, true);
+ }
+ else {
+ skiplist[n] = true;
+ }
+
+ if ((isect1 - n1).SquareLength() > sqlen_epsilon) {
+ ++n;
+
+ ncontour.insert(ncontour.begin() + n, isect1);
+ skiplist.insert(skiplist.begin() + n, false);
+ }
+ }
+ }
+ }
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+AI_FORCE_INLINE bool LikelyBorder(const IfcVector2& vdelta)
+{
+ const IfcFloat dot_point_epsilon = static_cast<IfcFloat>(Math::getEpsilon<float>());
+ return std::fabs(vdelta.x * vdelta.y) < dot_point_epsilon;
+}
+
+// ------------------------------------------------------------------------------------------------
+void FindBorderContours(ContourVector::iterator current)
+{
+ const IfcFloat border_epsilon_upper = static_cast<IfcFloat>(1-1e-4);
+ const IfcFloat border_epsilon_lower = static_cast<IfcFloat>(1e-4);
+
+ bool outer_border = false;
+ bool start_on_outer_border = false;
+
+ SkipList& skiplist = (*current).skiplist;
+ IfcVector2 last_proj_point;
+
+ const Contour::const_iterator cbegin = (*current).contour.begin(), cend = (*current).contour.end();
+
+ for (Contour::const_iterator cit = cbegin; cit != cend; ++cit) {
+ const IfcVector2& proj_point = *cit;
+
+ // Check if this connection is along the outer boundary of the projection
+ // plane. In such a case we better drop it because such 'edges' should
+ // not have any geometry to close them (think of door openings).
+ if (proj_point.x <= border_epsilon_lower || proj_point.x >= border_epsilon_upper ||
+ proj_point.y <= border_epsilon_lower || proj_point.y >= border_epsilon_upper) {
+
+ if (outer_border) {
+ ai_assert(cit != cbegin);
+ if (LikelyBorder(proj_point - last_proj_point)) {
+ skiplist[std::distance(cbegin, cit) - 1] = true;
+ }
+ }
+ else if (cit == cbegin) {
+ start_on_outer_border = true;
+ }
+
+ outer_border = true;
+ }
+ else {
+ outer_border = false;
+ }
+
+ last_proj_point = proj_point;
+ }
+
+ // handle last segment
+ if (outer_border && start_on_outer_border) {
+ const IfcVector2& proj_point = *cbegin;
+ if (LikelyBorder(proj_point - last_proj_point)) {
+ skiplist[skiplist.size()-1] = true;
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+AI_FORCE_INLINE bool LikelyDiagonal(IfcVector2 vdelta)
+{
+ vdelta.x = std::fabs(vdelta.x);
+ vdelta.y = std::fabs(vdelta.y);
+ return (std::fabs(vdelta.x-vdelta.y) < 0.8 * std::max(vdelta.x, vdelta.y));
+}
+
+// ------------------------------------------------------------------------------------------------
+void FindLikelyCrossingLines(ContourVector::iterator current)
+{
+ SkipList& skiplist = (*current).skiplist;
+ IfcVector2 last_proj_point;
+
+ const Contour::const_iterator cbegin = (*current).contour.begin(), cend = (*current).contour.end();
+ for (Contour::const_iterator cit = cbegin; cit != cend; ++cit) {
+ const IfcVector2& proj_point = *cit;
+
+ if (cit != cbegin) {
+ IfcVector2 vdelta = proj_point - last_proj_point;
+ if (LikelyDiagonal(vdelta)) {
+ skiplist[std::distance(cbegin, cit) - 1] = true;
+ }
+ }
+
+ last_proj_point = proj_point;
+ }
+
+ // handle last segment
+ if (LikelyDiagonal(*cbegin - last_proj_point)) {
+ skiplist[skiplist.size()-1] = true;
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+size_t CloseWindows(ContourVector& contours,
+ const IfcMatrix4& minv,
+ OpeningRefVector& contours_to_openings,
+ TempMesh& curmesh)
+{
+ size_t closed = 0;
+ // For all contour points, check if one of the assigned openings does
+ // already have points assigned to it. In this case, assume this is
+ // the other side of the wall and generate connections between
+ // the two holes in order to close the window.
+
+ // All this gets complicated by the fact that contours may pertain to
+ // multiple openings(due to merging of adjacent or overlapping openings).
+ // The code is based on the assumption that this happens symmetrically
+ // on both sides of the wall. If it doesn't (which would be a bug anyway)
+ // wrong geometry may be generated.
+ for (ContourVector::iterator it = contours.begin(), end = contours.end(); it != end; ++it) {
+ if ((*it).IsInvalid()) {
+ continue;
+ }
+ OpeningRefs& refs = contours_to_openings[std::distance(contours.begin(), it)];
+
+ bool has_other_side = false;
+ for(const TempOpening* opening : refs) {
+ if(!opening->wallPoints.empty()) {
+ has_other_side = true;
+ break;
+ }
+ }
+
+ if (has_other_side) {
+
+ ContourRefVector adjacent_contours;
+
+ // prepare a skiplist for this contour. The skiplist is used to
+ // eliminate unwanted contour lines for adjacent windows and
+ // those bordering the outer frame.
+ (*it).PrepareSkiplist();
+
+ FindAdjacentContours(it, contours);
+ FindBorderContours(it);
+
+ // if the window is the result of a finite union or intersection of rectangles,
+ // there shouldn't be any crossing or diagonal lines in it. Such lines would
+ // be artifacts caused by numerical inaccuracies or other bugs in polyclipper
+ // and our own code. Since rectangular openings are by far the most frequent
+ // case, it is worth filtering for this corner case.
+ if((*it).is_rectangular) {
+ FindLikelyCrossingLines(it);
+ }
+
+ ai_assert((*it).skiplist.size() == (*it).contour.size());
+
+ SkipList::const_iterator skipbegin = (*it).skiplist.begin();
+
+ curmesh.mVerts.reserve(curmesh.mVerts.size() + (*it).contour.size() * 4);
+ curmesh.mVertcnt.reserve(curmesh.mVertcnt.size() + (*it).contour.size());
+
+ bool reverseCountourFaces = false;
+
+ // compare base poly normal and contour normal to detect if we need to reverse the face winding
+ if(curmesh.mVertcnt.size() > 0) {
+ IfcVector3 basePolyNormal = TempMesh::ComputePolygonNormal(curmesh.mVerts.data(), curmesh.mVertcnt.front());
+
+ std::vector<IfcVector3> worldSpaceContourVtx(it->contour.size());
+
+ for(size_t a = 0; a < it->contour.size(); ++a)
+ worldSpaceContourVtx[a] = minv * IfcVector3(it->contour[a].x, it->contour[a].y, 0.0);
+
+ IfcVector3 contourNormal = TempMesh::ComputePolygonNormal(worldSpaceContourVtx.data(), worldSpaceContourVtx.size());
+
+ reverseCountourFaces = (contourNormal * basePolyNormal) > 0.0;
+ }
+
+ // XXX this algorithm is really a bit inefficient - both in terms
+ // of constant factor and of asymptotic runtime.
+ std::vector<bool>::const_iterator skipit = skipbegin;
+
+ IfcVector3 start0;
+ IfcVector3 start1;
+
+ const Contour::const_iterator cbegin = (*it).contour.begin(), cend = (*it).contour.end();
+
+ bool drop_this_edge = false;
+ for (Contour::const_iterator cit = cbegin; cit != cend; ++cit, drop_this_edge = *skipit++) {
+ const IfcVector2& proj_point = *cit;
+
+ // Locate the closest opposite point. This should be a good heuristic to
+ // connect only the points that are really intended to be connected.
+ IfcFloat best = static_cast<IfcFloat>(1e10);
+ IfcVector3 bestv;
+
+ const IfcVector3 world_point = minv * IfcVector3(proj_point.x,proj_point.y,0.0f);
+
+ for(const TempOpening* opening : refs) {
+ for(const IfcVector3& other : opening->wallPoints) {
+ const IfcFloat sqdist = (world_point - other).SquareLength();
+
+ if (sqdist < best) {
+ // avoid self-connections
+ if(sqdist < 1e-5) {
+ continue;
+ }
+
+ bestv = other;
+ best = sqdist;
+ }
+ }
+ }
+
+ if (drop_this_edge) {
+ curmesh.mVerts.pop_back();
+ curmesh.mVerts.pop_back();
+ }
+ else {
+ curmesh.mVerts.push_back(((cit == cbegin) != reverseCountourFaces) ? world_point : bestv);
+ curmesh.mVerts.push_back(((cit == cbegin) != reverseCountourFaces) ? bestv : world_point);
+
+ curmesh.mVertcnt.push_back(4);
+ ++closed;
+ }
+
+ if (cit == cbegin) {
+ start0 = world_point;
+ start1 = bestv;
+ continue;
+ }
+
+ curmesh.mVerts.push_back(reverseCountourFaces ? bestv : world_point);
+ curmesh.mVerts.push_back(reverseCountourFaces ? world_point : bestv);
+
+ if (cit == cend - 1) {
+ drop_this_edge = *skipit;
+
+ // Check if the final connection (last to first element) is itself
+ // a border edge that needs to be dropped.
+ if (drop_this_edge) {
+ --closed;
+ curmesh.mVertcnt.pop_back();
+ curmesh.mVerts.pop_back();
+ curmesh.mVerts.pop_back();
+ }
+ else {
+ curmesh.mVerts.push_back(reverseCountourFaces ? start0 : start1);
+ curmesh.mVerts.push_back(reverseCountourFaces ? start1 : start0);
+ }
+ }
+ }
+ }
+ else {
+
+ const Contour::const_iterator cbegin = (*it).contour.begin(), cend = (*it).contour.end();
+ for(TempOpening* opening : refs) {
+ ai_assert(opening->wallPoints.empty());
+ opening->wallPoints.reserve(opening->wallPoints.capacity() + (*it).contour.size());
+ for (Contour::const_iterator cit = cbegin; cit != cend; ++cit) {
+
+ const IfcVector2& proj_point = *cit;
+ opening->wallPoints.push_back(minv * IfcVector3(proj_point.x,proj_point.y,0.0f));
+ }
+ }
+ }
+ }
+ return closed;
+}
+
+// ------------------------------------------------------------------------------------------------
+void Quadrify(const std::vector< BoundingBox >& bbs, TempMesh& curmesh)
+{
+ ai_assert(curmesh.IsEmpty());
+
+ std::vector<IfcVector2> quads;
+ quads.reserve(bbs.size()*4);
+
+ // sort openings by x and y axis as a preliminiary to the QuadrifyPart() algorithm
+ XYSortedField field;
+ for (std::vector<BoundingBox>::const_iterator it = bbs.begin(); it != bbs.end(); ++it) {
+ if (field.find((*it).first) != field.end()) {
+ IFCImporter::LogWarn("constraint failure during generation of wall openings, results may be faulty");
+ }
+ field[(*it).first] = std::distance(bbs.begin(),it);
+ }
+
+ QuadrifyPart(IfcVector2(),one_vec,field,bbs,quads);
+ ai_assert(!(quads.size() % 4));
+
+ curmesh.mVertcnt.resize(quads.size()/4,4);
+ curmesh.mVerts.reserve(quads.size());
+ for(const IfcVector2& v2 : quads) {
+ curmesh.mVerts.push_back(IfcVector3(v2.x, v2.y, static_cast<IfcFloat>(0.0)));
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void Quadrify(const ContourVector& contours, TempMesh& curmesh)
+{
+ std::vector<BoundingBox> bbs;
+ bbs.reserve(contours.size());
+
+ for(const ContourVector::value_type& val : contours) {
+ bbs.push_back(val.bb);
+ }
+
+ Quadrify(bbs, curmesh);
+}
+
+// ------------------------------------------------------------------------------------------------
+IfcMatrix4 ProjectOntoPlane(std::vector<IfcVector2>& out_contour, const TempMesh& in_mesh,
+ bool &ok, IfcVector3& nor_out)
+{
+ const std::vector<IfcVector3>& in_verts = in_mesh.mVerts;
+ ok = true;
+
+ IfcMatrix4 m = IfcMatrix4(DerivePlaneCoordinateSpace(in_mesh, ok, nor_out));
+ if(!ok) {
+ return IfcMatrix4();
+ }
+#ifdef ASSIMP_BUILD_DEBUG
+ const IfcFloat det = m.Determinant();
+ ai_assert(std::fabs(det-1) < 1e-5);
+#endif
+
+ IfcFloat zcoord = 0;
+ out_contour.reserve(in_verts.size());
+
+
+ IfcVector3 vmin, vmax;
+ MinMaxChooser<IfcVector3>()(vmin, vmax);
+
+ // Project all points into the new coordinate system, collect min/max verts on the way
+ for(const IfcVector3& x : in_verts) {
+ const IfcVector3 vv = m * x;
+ // keep Z offset in the plane coordinate system. Ignoring precision issues
+ // (which are present, of course), this should be the same value for
+ // all polygon vertices (assuming the polygon is planar).
+
+ // XXX this should be guarded, but we somehow need to pick a suitable
+ // epsilon
+ // if(coord != -1.0f) {
+ // assert(std::fabs(coord - vv.z) < 1e-3f);
+ // }
+ zcoord += vv.z;
+ vmin = std::min(vv, vmin);
+ vmax = std::max(vv, vmax);
+
+ out_contour.push_back(IfcVector2(vv.x,vv.y));
+ }
+
+ zcoord /= in_verts.size();
+
+ // Further improve the projection by mapping the entire working set into
+ // [0,1] range. This gives us a consistent data range so all epsilons
+ // used below can be constants.
+ vmax -= vmin;
+ for(IfcVector2& vv : out_contour) {
+ vv.x = (vv.x - vmin.x) / vmax.x;
+ vv.y = (vv.y - vmin.y) / vmax.y;
+
+ // sanity rounding
+ vv = std::max(vv,IfcVector2());
+ vv = std::min(vv,one_vec);
+ }
+
+ IfcMatrix4 mult;
+ mult.a1 = static_cast<IfcFloat>(1.0) / vmax.x;
+ mult.b2 = static_cast<IfcFloat>(1.0) / vmax.y;
+
+ mult.a4 = -vmin.x * mult.a1;
+ mult.b4 = -vmin.y * mult.b2;
+ mult.c4 = -zcoord;
+ m = mult * m;
+
+ // debug code to verify correctness
+#ifdef ASSIMP_BUILD_DEBUG
+ std::vector<IfcVector2> out_contour2;
+ for(const IfcVector3& x : in_verts) {
+ const IfcVector3& vv = m * x;
+
+ out_contour2.push_back(IfcVector2(vv.x,vv.y));
+ ai_assert(std::fabs(vv.z) < vmax.z + 1e-8);
+ }
+
+ for(size_t i = 0; i < out_contour.size(); ++i) {
+ ai_assert((out_contour[i] - out_contour2[i]).SquareLength() < ai_epsilon);
+ }
+#endif
+
+ return m;
+}
+
+// ------------------------------------------------------------------------------------------------
+bool GenerateOpenings(std::vector<TempOpening>& openings,
+ TempMesh& curmesh,
+ bool check_intersection,
+ bool generate_connection_geometry,
+ const IfcVector3& wall_extrusion_axis)
+{
+ OpeningRefVector contours_to_openings;
+
+ // Try to derive a solid base plane within the current surface for use as
+ // working coordinate system. Map all vertices onto this plane and
+ // rescale them to [0,1] range. This normalization means all further
+ // epsilons need not be scaled.
+ bool ok = true;
+
+ std::vector<IfcVector2> contour_flat;
+
+ IfcVector3 nor;
+ const IfcMatrix4 m = ProjectOntoPlane(contour_flat, curmesh, ok, nor);
+ if(!ok) {
+ return false;
+ }
+
+ // Obtain inverse transform for getting back to world space later on
+ const IfcMatrix4 minv = IfcMatrix4(m).Inverse();
+
+ // Compute bounding boxes for all 2D openings in projection space
+ ContourVector contours;
+
+ std::vector<IfcVector2> temp_contour;
+ std::vector<IfcVector2> temp_contour2;
+
+ IfcVector3 wall_extrusion_axis_norm = wall_extrusion_axis;
+ wall_extrusion_axis_norm.Normalize();
+
+ for(TempOpening& opening :openings) {
+
+ // extrusionDir may be 0,0,0 on case where the opening mesh is not an
+ // IfcExtrudedAreaSolid but something else (i.e. a brep)
+ IfcVector3 norm_extrusion_dir = opening.extrusionDir;
+ if (norm_extrusion_dir.SquareLength() > 1e-10) {
+ norm_extrusion_dir.Normalize();
+ }
+ else {
+ norm_extrusion_dir = IfcVector3();
+ }
+
+ TempMesh* profile_data = opening.profileMesh.get();
+ bool is_2d_source = false;
+ if (opening.profileMesh2D && norm_extrusion_dir.SquareLength() > 0) {
+ if (std::fabs(norm_extrusion_dir * nor) > 0.9) {
+ profile_data = opening.profileMesh2D.get();
+ is_2d_source = true;
+ }
+ }
+ std::vector<IfcVector3> profile_verts = profile_data->mVerts;
+ std::vector<unsigned int> profile_vertcnts = profile_data->mVertcnt;
+ if(profile_verts.size() <= 2) {
+ continue;
+ }
+
+ // The opening meshes are real 3D meshes so skip over all faces
+ // clearly facing into the wrong direction. Also, we need to check
+ // whether the meshes do actually intersect the base surface plane.
+ // This is done by recording minimum and maximum values for the
+ // d component of the plane equation for all polys and checking
+ // against surface d.
+
+ // Use the sign of the dot product of the face normal to the plane
+ // normal to determine to which side of the difference mesh a
+ // triangle belongs. Get independent bounding boxes and vertex
+ // sets for both sides and take the better one (we can't just
+ // take both - this would likely cause major screwup of vertex
+ // winding, producing errors as late as in CloseWindows()).
+ IfcFloat dmin, dmax;
+ MinMaxChooser<IfcFloat>()(dmin,dmax);
+
+ temp_contour.clear();
+ temp_contour2.clear();
+
+ IfcVector2 vpmin,vpmax;
+ MinMaxChooser<IfcVector2>()(vpmin,vpmax);
+
+ IfcVector2 vpmin2,vpmax2;
+ MinMaxChooser<IfcVector2>()(vpmin2,vpmax2);
+
+ for (size_t f = 0, vi_total = 0, fend = profile_vertcnts.size(); f < fend; ++f) {
+
+ bool side_flag = true;
+ if (!is_2d_source) {
+ const IfcVector3 face_nor = ((profile_verts[vi_total+2] - profile_verts[vi_total]) ^
+ (profile_verts[vi_total+1] - profile_verts[vi_total])).Normalize();
+
+ const IfcFloat abs_dot_face_nor = std::abs(nor * face_nor);
+ if (abs_dot_face_nor < 0.9) {
+ vi_total += profile_vertcnts[f];
+ continue;
+ }
+
+ side_flag = nor * face_nor > 0;
+ }
+
+ for (unsigned int vi = 0, vend = profile_vertcnts[f]; vi < vend; ++vi, ++vi_total) {
+ const IfcVector3& x = profile_verts[vi_total];
+
+ const IfcVector3 v = m * x;
+ IfcVector2 vv(v.x, v.y);
+
+ //if(check_intersection) {
+ dmin = std::min(dmin, v.z);
+ dmax = std::max(dmax, v.z);
+ //}
+
+ // sanity rounding
+ vv = std::max(vv,IfcVector2());
+ vv = std::min(vv,one_vec);
+
+ if(side_flag) {
+ vpmin = std::min(vpmin,vv);
+ vpmax = std::max(vpmax,vv);
+ }
+ else {
+ vpmin2 = std::min(vpmin2,vv);
+ vpmax2 = std::max(vpmax2,vv);
+ }
+
+ std::vector<IfcVector2>& store = side_flag ? temp_contour : temp_contour2;
+
+ if (!IsDuplicateVertex(vv, store)) {
+ store.push_back(vv);
+ }
+ }
+ }
+
+ if (temp_contour2.size() > 2) {
+ ai_assert(!is_2d_source);
+ const IfcVector2 area = vpmax-vpmin;
+ const IfcVector2 area2 = vpmax2-vpmin2;
+ if (temp_contour.size() <= 2 || std::fabs(area2.x * area2.y) > std::fabs(area.x * area.y)) {
+ temp_contour.swap(temp_contour2);
+
+ vpmax = vpmax2;
+ vpmin = vpmin2;
+ }
+ }
+ if(temp_contour.size() <= 2) {
+ continue;
+ }
+
+ // TODO: This epsilon may be too large
+ const IfcFloat epsilon = std::fabs(dmax-dmin) * 0.0001;
+ if (!is_2d_source && check_intersection && (0 < dmin-epsilon || 0 > dmax+epsilon)) {
+ continue;
+ }
+
+ BoundingBox bb = BoundingBox(vpmin,vpmax);
+
+ // Skip over very small openings - these are likely projection errors
+ // (i.e. they don't belong to this side of the wall)
+ if(std::fabs(vpmax.x - vpmin.x) * std::fabs(vpmax.y - vpmin.y) < static_cast<IfcFloat>(1e-10)) {
+ continue;
+ }
+ std::vector<TempOpening*> joined_openings(1, &opening);
+
+ bool is_rectangle = temp_contour.size() == 4;
+
+ // See if this BB intersects or is in close adjacency to any other BB we have so far.
+ for (ContourVector::iterator it = contours.begin(); it != contours.end(); ) {
+ const BoundingBox& ibb = (*it).bb;
+
+ if (BoundingBoxesOverlapping(ibb, bb)) {
+
+ if (!(*it).is_rectangular) {
+ is_rectangle = false;
+ }
+
+ const std::vector<IfcVector2>& other = (*it).contour;
+ ClipperLib::ExPolygons poly;
+
+ // First check whether subtracting the old contour (to which ibb belongs)
+ // from the new contour (to which bb belongs) yields an updated bb which
+ // no longer overlaps ibb
+ MakeDisjunctWindowContours(other, temp_contour, poly);
+ if(poly.size() == 1) {
+
+ const BoundingBox newbb = GetBoundingBox(poly[0].outer);
+ if (!BoundingBoxesOverlapping(ibb, newbb )) {
+ // Good guy bounding box
+ bb = newbb ;
+
+ ExtractVerticesFromClipper(poly[0].outer, temp_contour, false);
+ continue;
+ }
+ }
+
+ // Take these two overlapping contours and try to merge them. If they
+ // overlap (which should not happen, but in fact happens-in-the-real-
+ // world [tm] ), resume using a single contour and a single bounding box.
+ MergeWindowContours(temp_contour, other, poly);
+
+ if (poly.size() > 1) {
+ return TryAddOpenings_Poly2Tri(openings, curmesh);
+ }
+ else if (poly.size() == 0) {
+ IFCImporter::LogWarn("ignoring duplicate opening");
+ temp_contour.clear();
+ break;
+ }
+ else {
+ IFCImporter::LogVerboseDebug("merging overlapping openings");
+ ExtractVerticesFromClipper(poly[0].outer, temp_contour, false);
+
+ // Generate the union of the bounding boxes
+ bb.first = std::min(bb.first, ibb.first);
+ bb.second = std::max(bb.second, ibb.second);
+
+ // Update contour-to-opening tables accordingly
+ if (generate_connection_geometry) {
+ std::vector<TempOpening*>& t = contours_to_openings[std::distance(contours.begin(),it)];
+ joined_openings.insert(joined_openings.end(), t.begin(), t.end());
+
+ contours_to_openings.erase(contours_to_openings.begin() + std::distance(contours.begin(),it));
+ }
+
+ contours.erase(it);
+
+ // Restart from scratch because the newly formed BB might now
+ // overlap any other BB which its constituent BBs didn't
+ // previously overlap.
+ it = contours.begin();
+ continue;
+ }
+ }
+ ++it;
+ }
+
+ if(!temp_contour.empty()) {
+ if (generate_connection_geometry) {
+ contours_to_openings.push_back(std::vector<TempOpening*>(
+ joined_openings.begin(),
+ joined_openings.end()));
+ }
+
+ contours.push_back(ProjectedWindowContour(temp_contour, bb, is_rectangle));
+ }
+ }
+
+ // Check if we still have any openings left - it may well be that this is
+ // not the cause, for example if all the opening candidates don't intersect
+ // this surface or point into a direction perpendicular to it.
+ if (contours.empty()) {
+ return false;
+ }
+
+ curmesh.Clear();
+
+ // Generate a base subdivision into quads to accommodate the given list
+ // of window bounding boxes.
+ Quadrify(contours,curmesh);
+
+ // Run a sanity cleanup pass on the window contours to avoid generating
+ // artifacts during the contour generation phase later on.
+ CleanupWindowContours(contours);
+
+ // Previously we reduced all windows to rectangular AABBs in projection
+ // space, now it is time to fill the gaps between the BBs and the real
+ // window openings.
+ InsertWindowContours(contours,openings, curmesh);
+
+ // Clip the entire outer contour of our current result against the real
+ // outer contour of the surface. This is necessary because the result
+ // of the Quadrify() algorithm is always a square area spanning
+ // over [0,1]^2 (i.e. entire projection space).
+ CleanupOuterContour(contour_flat, curmesh);
+
+ // Undo the projection and get back to world (or local object) space
+ for(IfcVector3& v3 : curmesh.mVerts) {
+ v3 = minv * v3;
+ }
+
+ // Generate window caps to connect the symmetric openings on both sides
+ // of the wall.
+ if (generate_connection_geometry) {
+ CloseWindows(contours, minv, contours_to_openings, curmesh);
+ }
+ return true;
+}
+
+std::vector<IfcVector2> GetContourInPlane2D(std::shared_ptr<TempMesh> mesh,IfcMatrix3 planeSpace,
+ IfcVector3 planeNor,IfcFloat planeOffset,
+ IfcVector3 extrusionDir,IfcVector3& wall_extrusion,bool& first,bool& ok) {
+ std::vector<IfcVector2> contour;
+
+ const auto outernor = ((mesh->mVerts[2] - mesh->mVerts[0]) ^ (mesh->mVerts[1] - mesh->mVerts[0])).Normalize();
+ const IfcFloat dot = planeNor * outernor;
+ if (std::fabs(dot) < 1.f - ai_epsilon) {
+ std::stringstream msg;
+ msg << "Skipping: Unaligned opening (" << planeNor.x << ", " << planeNor.y << ", " << planeNor.z << ")";
+ msg << " . ( " << outernor.x << ", " << outernor.y << ", " << outernor.z << ") = " << dot;
+ IFCImporter::LogDebug(msg.str().c_str());
+ ok = false;
+ return contour;
+ }
+
+ const std::vector<IfcVector3>& va = mesh->mVerts;
+ if(va.size() <= 2) {
+ std::stringstream msg;
+ msg << "Skipping: Only " << va.size() << " verticies in opening mesh.";
+ IFCImporter::LogDebug(msg.str().c_str());
+ ok = false;
+ return contour;
+ }
+
+ for(const IfcVector3& xx : mesh->mVerts) {
+ IfcVector3 vv = planeSpace * xx,vv_extr = planeSpace * (xx + extrusionDir);
+
+ const bool is_extruded_side = std::fabs(vv.z - planeOffset) > std::fabs(vv_extr.z - planeOffset);
+ if(first) {
+ first = false;
+ if(dot > 0.f) {
+ wall_extrusion = extrusionDir;
+ if(is_extruded_side) {
+ wall_extrusion = -wall_extrusion;
+ }
+ }
+ }
+
+ // XXX should not be necessary - but it is. Why? For precision reasons?
+ vv = is_extruded_side ? vv_extr : vv;
+ contour.push_back(IfcVector2(vv.x,vv.y));
+ }
+ ok = true;
+
+ return contour;
+}
+
+const float close{ ai_epsilon };
+
+static bool isClose(IfcVector2 first,IfcVector2 second) {
+ auto diff = (second - first);
+ return (std::fabs(diff.x) < close && std::fabs(diff.y) < close);
+}
+
+static void logSegment(std::pair<IfcVector2,IfcVector2> segment) {
+ std::stringstream msg2;
+ msg2 << " Segment: \n";
+ msg2 << " " << segment.first.x << " " << segment.first.y << " \n";
+ msg2 << " " << segment.second.x << " " << segment.second.y << " \n";
+ IFCImporter::LogInfo(msg2.str().c_str());
+}
+
+std::vector<std::vector<IfcVector2>> GetContoursInPlane3D(std::shared_ptr<TempMesh> mesh,IfcMatrix3 planeSpace,
+ IfcFloat planeOffset) {
+
+ {
+ std::stringstream msg;
+ msg << "GetContoursInPlane3D: planeSpace is \n";
+ msg << planeSpace.a1 << " " << planeSpace.a2 << " " << planeSpace.a3 << " " << "\n";
+ msg << planeSpace.b1 << " " << planeSpace.b2 << " " << planeSpace.b3 << " " << "\n";
+ msg << planeSpace.c1 << " " << planeSpace.c2 << " " << planeSpace.c3 << " " << "\n";
+ msg << "\n planeOffset is " << planeOffset;
+ IFCImporter::LogInfo(msg.str().c_str());
+ }
+
+ // we'll put our line segments in here, and then merge them together into contours later
+ std::deque<std::pair<IfcVector2,IfcVector2>> lineSegments;
+
+ // find the lines giving the intersection of the faces with the plane - we'll work in planeSpace throughout.
+ size_t vI0{ 0 }; // vertex index for first vertex in plane
+ for(auto nVertices : mesh->mVertcnt) { // iterate over faces
+ {
+ std::stringstream msg;
+ msg << "GetContoursInPlane3D: face (transformed) is \n";
+ for(auto vI = vI0; vI < vI0 + nVertices; vI++) {
+ auto v = planeSpace * mesh->mVerts[vI];
+ msg << " " << v.x << " " << v.y << " " << v.z << " " << "\n";
+ }
+ IFCImporter::LogInfo(msg.str().c_str());
+ }
+
+ if(nVertices <= 2) // not a plane, a point or line
+ {
+ std::stringstream msg;
+ msg << "GetContoursInPlane3D: found point or line when expecting plane (only " << nVertices << " vertices)";
+ IFCImporter::LogWarn(msg.str().c_str());
+ vI0 += nVertices;
+ continue;
+ }
+
+ auto v0 = planeSpace * mesh->mVerts[vI0];
+
+ // now calculate intersections between face and plane
+ IfcVector2 firstPoint;
+ bool gotFirstPoint(false);
+
+ if(std::fabs(v0.z - planeOffset) < close) {
+ // first point is on the plane
+ firstPoint.x = v0.x;
+ firstPoint.y = v0.y;
+ gotFirstPoint = true;
+ }
+
+ auto vn = v0;
+ for(auto vI = vI0 + 1; vI < vI0 + nVertices; vI++) {
+ auto vp = vn;
+ vn = planeSpace * mesh->mVerts[vI];
+ IfcVector3 intersection;
+
+ if(std::fabs(vn.z - planeOffset) < close) {
+ // on the plane
+ intersection = vn;
+ }
+ else if((vn.z > planeOffset) != (vp.z > planeOffset))
+ {
+ // passes through the plane
+ auto vdir = vn - vp;
+ auto scale = (planeOffset - vp.z) / vdir.z;
+ intersection = vp + scale * vdir;
+ }
+ else {
+ // nowhere near - move on
+ continue;
+ }
+
+ if(!gotFirstPoint) {
+ if(std::fabs(vp.z - planeOffset) < close) {
+ // just had a second line along the plane
+ firstPoint.x = vp.x;
+ firstPoint.y = vp.y;
+ IfcVector2 secondPoint(intersection.x,intersection.y);
+ auto s = std::pair<IfcVector2,IfcVector2>(firstPoint,secondPoint);
+ logSegment(s);
+ lineSegments.push_back(s);
+ // next firstpoint should be this one
+ }
+ else {
+ // store the first intersection point
+ firstPoint.x = intersection.x;
+ firstPoint.y = intersection.y;
+ gotFirstPoint = true;
+ }
+ }
+ else {
+ // now got the second point, so store the pair
+ IfcVector2 secondPoint(intersection.x,intersection.y);
+ auto s = std::pair<IfcVector2,IfcVector2>(firstPoint,secondPoint);
+ logSegment(s);
+ lineSegments.push_back(s);
+
+ // - note that we don't move onto the next face as a non-convex face can create two or more intersections with a plane
+ gotFirstPoint = false;
+ }
+ }
+ if(gotFirstPoint) {
+ IFCImporter::LogWarn("GetContoursInPlane3D: odd number of intersections with plane");
+ }
+ vI0 += nVertices;
+ }
+
+ {
+ std::stringstream msg;
+ msg << "GetContoursInPlane3D: found " << lineSegments.size() << " line segments:\n";
+ IFCImporter::LogInfo(msg.str().c_str());
+
+ for(auto& s : lineSegments) {
+ logSegment(s);
+ }
+
+ }
+
+ // now merge contours until we have the best-looking polygons we can
+ std::vector<Contour> contours;
+ while(!lineSegments.empty()) {
+ // start with a polygon and make the best closed contour we can
+ const auto& firstSeg = lineSegments.front();
+ std::deque<IfcVector2> contour{ firstSeg.first, firstSeg.second };
+ lineSegments.pop_front();
+ bool foundNextPoint{ true };
+ bool closedContour{ false };
+ while(foundNextPoint) {
+ foundNextPoint = false;
+ for(auto nextSeg = lineSegments.begin(); nextSeg != lineSegments.end(); nextSeg++) {
+ // see if we can match up both ends - in which case we've closed the contour
+ if((isClose(contour.front(),nextSeg->first) && isClose(contour.back(),nextSeg->second)) ||
+ (isClose(contour.back(),nextSeg->first) && isClose(contour.front(),nextSeg->second))
+ ) {
+ lineSegments.erase(nextSeg);
+ closedContour = true;
+ break;
+ }
+
+ // otherwise, see if we can match up either end
+ foundNextPoint = true;
+ if(isClose(contour.front(),nextSeg->first)) {
+ contour.push_front(nextSeg->second);
+ }
+ else if(isClose(contour.front(),nextSeg->second)) {
+ contour.push_front(nextSeg->first);
+ }
+ else if(isClose(contour.back(),nextSeg->first)) {
+ contour.push_back(nextSeg->second);
+ }
+ else if(isClose(contour.back(),nextSeg->second)) {
+ contour.push_back(nextSeg->first);
+ }
+ else {
+ foundNextPoint = false;
+ }
+ if(foundNextPoint) {
+ lineSegments.erase(nextSeg);
+ break;
+ }
+ }
+ }
+
+ if(!closedContour) {
+ IFCImporter::LogWarn("GetContoursInPlane3D: did not close contour");
+ }
+
+ // now add the contour if we can
+ if(contour.size() <= 2) {
+ IFCImporter::LogWarn("GetContoursInPlane3D: discarding line/point contour");
+ continue;
+ }
+ Contour c{};
+ for(auto p : contour)
+ {
+ c.push_back(p);
+ }
+ contours.push_back(c);
+ }
+
+ {
+ std::stringstream msg;
+ msg << "GetContoursInPlane3D: found " << contours.size() << " contours:\n";
+
+ for(auto c : contours) {
+ msg << " Contour: \n";
+ for(auto p : c) {
+ msg << " " << p.x << " " << p.y << " \n";
+ }
+ }
+
+ IFCImporter::LogInfo(msg.str().c_str());
+ }
+
+
+ return contours;
+}
+
+std::vector<std::vector<IfcVector2>> GetContoursInPlane(std::shared_ptr<TempMesh> mesh,IfcMatrix3 planeSpace,
+ IfcVector3 planeNor,IfcFloat planeOffset,
+ IfcVector3 extrusionDir,IfcVector3& wall_extrusion,bool& first) {
+
+ if(mesh->mVertcnt.size() == 1)
+ {
+ bool ok;
+ auto contour = GetContourInPlane2D(mesh,planeSpace,planeNor,planeOffset,extrusionDir,wall_extrusion,first,ok);
+ if(ok)
+ return std::vector<std::vector<IfcVector2>> {contour};
+ else
+ return std::vector<std::vector<IfcVector2>> {};
+ }
+ else
+ {
+ return GetContoursInPlane3D(mesh,planeSpace,planeOffset);
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+bool TryAddOpenings_Poly2Tri(const std::vector<TempOpening>& openings,
+ TempMesh& curmesh)
+{
+ IFCImporter::LogWarn("forced to use poly2tri fallback method to generate wall openings");
+ std::vector<IfcVector3>& out = curmesh.mVerts;
+
+ bool result = false;
+
+ // Try to derive a solid base plane within the current surface for use as
+ // working coordinate system.
+ bool ok;
+ IfcVector3 nor;
+ const IfcMatrix3 m = DerivePlaneCoordinateSpace(curmesh, ok, nor);
+ if (!ok) {
+ return false;
+ }
+
+ const IfcMatrix3 minv = IfcMatrix3(m).Inverse();
+
+
+ IfcFloat coord = -1;
+
+ std::vector<IfcVector2> contour_flat;
+ contour_flat.reserve(out.size());
+
+ IfcVector2 vmin, vmax;
+ MinMaxChooser<IfcVector2>()(vmin, vmax);
+
+ // Move all points into the new coordinate system, collecting min/max verts on the way
+ for(IfcVector3& x : out) {
+ const IfcVector3 vv = m * x;
+
+ // keep Z offset in the plane coordinate system. Ignoring precision issues
+ // (which are present, of course), this should be the same value for
+ // all polygon vertices (assuming the polygon is planar).
+
+
+ // XXX this should be guarded, but we somehow need to pick a suitable
+ // epsilon
+ // if(coord != -1.0f) {
+ // assert(std::fabs(coord - vv.z) < 1e-3f);
+ // }
+
+ coord = vv.z;
+
+ vmin = std::min(IfcVector2(vv.x, vv.y), vmin);
+ vmax = std::max(IfcVector2(vv.x, vv.y), vmax);
+
+ contour_flat.push_back(IfcVector2(vv.x,vv.y));
+ }
+
+ // With the current code in DerivePlaneCoordinateSpace,
+ // vmin,vmax should always be the 0...1 rectangle (+- numeric inaccuracies)
+ // but here we won't rely on this.
+
+ vmax -= vmin;
+
+ // If this happens then the projection must have been wrong.
+ ai_assert(vmax.Length());
+
+ ClipperLib::ExPolygons clipped;
+ ClipperLib::Polygons holes_union;
+
+
+ IfcVector3 wall_extrusion;
+ bool first = true;
+
+ try {
+
+ ClipperLib::Clipper clipper_holes;
+
+ for(const TempOpening& t : openings) {
+ auto contours = GetContoursInPlane(t.profileMesh,m,nor,coord,t.extrusionDir,wall_extrusion,first);
+
+ for(auto& contour : contours) {
+ // scale to clipping space
+ ClipperLib::Polygon hole;
+ for(IfcVector2& pip : contour) {
+ pip.x = (pip.x - vmin.x) / vmax.x;
+ pip.y = (pip.y - vmin.y) / vmax.y;
+
+ hole.push_back(ClipperLib::IntPoint(to_int64(pip.x),to_int64(pip.y)));
+ }
+
+ if(!ClipperLib::Orientation(hole)) {
+ std::reverse(hole.begin(),hole.end());
+ // assert(ClipperLib::Orientation(hole));
+ }
+
+ /*ClipperLib::Polygons pol_temp(1), pol_temp2(1);
+ pol_temp[0] = hole;
+
+ ClipperLib::OffsetPolygons(pol_temp,pol_temp2,5.0);
+ hole = pol_temp2[0];*/
+
+ clipper_holes.AddPolygon(hole,ClipperLib::ptSubject);
+ {
+ std::stringstream msg;
+ msg << "- added polygon ";
+ for(auto elem : hole) {
+ msg << " (" << elem.X << ", " << elem.Y << ")";
+ }
+ IFCImporter::LogDebug(msg.str().c_str());
+ }
+ }
+ }
+
+ clipper_holes.Execute(ClipperLib::ctUnion,holes_union,
+ ClipperLib::pftNonZero,
+ ClipperLib::pftNonZero);
+
+ if (holes_union.empty()) {
+ return false;
+ }
+
+ // Now that we have the big union of all holes, subtract it from the outer contour
+ // to obtain the final polygon to feed into the triangulator.
+ {
+ ClipperLib::Polygon poly;
+ for(IfcVector2& pip : contour_flat) {
+ pip.x = (pip.x - vmin.x) / vmax.x;
+ pip.y = (pip.y - vmin.y) / vmax.y;
+
+ poly.push_back(ClipperLib::IntPoint( to_int64(pip.x), to_int64(pip.y) ));
+ }
+
+ if (ClipperLib::Orientation(poly)) {
+ std::reverse(poly.begin(), poly.end());
+ }
+ clipper_holes.Clear();
+ clipper_holes.AddPolygon(poly,ClipperLib::ptSubject);
+
+ clipper_holes.AddPolygons(holes_union,ClipperLib::ptClip);
+ clipper_holes.Execute(ClipperLib::ctDifference,clipped,
+ ClipperLib::pftNonZero,
+ ClipperLib::pftNonZero);
+ }
+
+ }
+ catch (const char* sx) {
+ IFCImporter::LogError("Ifc: error during polygon clipping, skipping openings for this face: (Clipper: "
+ + std::string(sx) + ")");
+
+ return false;
+ }
+
+ std::vector<IfcVector3> old_verts;
+ std::vector<unsigned int> old_vertcnt;
+
+ old_verts.swap(curmesh.mVerts);
+ old_vertcnt.swap(curmesh.mVertcnt);
+
+ std::vector< std::vector<p2t::Point*> > contours;
+ for(ClipperLib::ExPolygon& clip : clipped) {
+
+ contours.clear();
+
+ // Build the outer polygon contour line for feeding into poly2tri
+ std::vector<p2t::Point*> contour_points;
+ for(ClipperLib::IntPoint& point : clip.outer) {
+ contour_points.push_back( new p2t::Point(from_int64(point.X), from_int64(point.Y)) );
+ }
+
+ p2t::CDT* cdt ;
+ try {
+ // Note: this relies on custom modifications in poly2tri to raise runtime_error's
+ // instead if assertions. These failures are not debug only, they can actually
+ // happen in production use if the input data is broken. An assertion would be
+ // inappropriate.
+ cdt = new p2t::CDT(contour_points);
+ }
+ catch(const std::exception& e) {
+ IFCImporter::LogError("Ifc: error during polygon triangulation, skipping some openings: (poly2tri: "
+ + std::string(e.what()) + ")");
+ continue;
+ }
+
+
+ // Build the poly2tri inner contours for all holes we got from ClipperLib
+ for(ClipperLib::Polygon& opening : clip.holes) {
+
+ contours.push_back(std::vector<p2t::Point*>());
+ std::vector<p2t::Point*>& contour = contours.back();
+
+ for(ClipperLib::IntPoint& point : opening) {
+ contour.push_back( new p2t::Point(from_int64(point.X), from_int64(point.Y)) );
+ }
+
+ cdt->AddHole(contour);
+ }
+
+ try {
+ // Note: See above
+ cdt->Triangulate();
+ }
+ catch(const std::exception& e) {
+ IFCImporter::LogError("Ifc: error during polygon triangulation, skipping some openings: (poly2tri: "
+ + std::string(e.what()) + ")");
+ continue;
+ }
+
+ const std::vector<p2t::Triangle*> tris = cdt->GetTriangles();
+
+ // Collect the triangles we just produced
+ for(p2t::Triangle* tri : tris) {
+ for(int i = 0; i < 3; ++i) {
+
+ const IfcVector2 v = IfcVector2(
+ static_cast<IfcFloat>( tri->GetPoint(i)->x ),
+ static_cast<IfcFloat>( tri->GetPoint(i)->y )
+ );
+
+ ai_assert(v.x <= 1.0 && v.x >= 0.0 && v.y <= 1.0 && v.y >= 0.0);
+ const IfcVector3 v3 = minv * IfcVector3(vmin.x + v.x * vmax.x, vmin.y + v.y * vmax.y,coord) ;
+
+ curmesh.mVerts.push_back(v3);
+ }
+ curmesh.mVertcnt.push_back(3);
+ }
+
+ result = true;
+ }
+
+ if (!result) {
+ // revert -- it's a shame, but better than nothing
+ curmesh.mVerts.insert(curmesh.mVerts.end(),old_verts.begin(), old_verts.end());
+ curmesh.mVertcnt.insert(curmesh.mVertcnt.end(),old_vertcnt.begin(), old_vertcnt.end());
+
+ IFCImporter::LogError("Ifc: revert, could not generate openings for this wall");
+ }
+
+ return result;
+}
+
+
+ } // ! IFC
+} // ! Assimp
+
+#undef to_int64
+#undef from_int64
+#undef one_vec
+
+#endif
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCProfile.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCProfile.cpp
new file mode 100644
index 0000000..aa31124
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCProfile.cpp
@@ -0,0 +1,190 @@
+/*
+Open Asset Import Library (assimp)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2022, assimp 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 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.
+
+----------------------------------------------------------------------
+*/
+
+/** @file IFCProfile.cpp
+ * @brief Read profile and curves entities from IFC files
+ */
+
+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER
+
+#include "IFCUtil.h"
+
+namespace Assimp {
+namespace IFC {
+
+// ------------------------------------------------------------------------------------------------
+void ProcessPolyLine(const Schema_2x3::IfcPolyline& def, TempMesh& meshout, ConversionData& /*conv*/)
+{
+ // this won't produce a valid mesh, it just spits out a list of vertices
+ IfcVector3 t;
+ for(const Schema_2x3::IfcCartesianPoint& cp : def.Points) {
+ ConvertCartesianPoint(t,cp);
+ meshout.mVerts.push_back(t);
+ }
+ meshout.mVertcnt.push_back(static_cast<unsigned int>(meshout.mVerts.size()));
+}
+
+// ------------------------------------------------------------------------------------------------
+bool ProcessCurve(const Schema_2x3::IfcCurve& curve, TempMesh& meshout, ConversionData& conv)
+{
+ std::unique_ptr<const Curve> cv(Curve::Convert(curve,conv));
+ if (!cv) {
+ IFCImporter::LogWarn("skipping unknown IfcCurve entity, type is ", curve.GetClassName());
+ return false;
+ }
+
+ // we must have a bounded curve at this point
+ if (const BoundedCurve* bc = dynamic_cast<const BoundedCurve*>(cv.get())) {
+ try {
+ bc->SampleDiscrete(meshout);
+ }
+ catch(const CurveError& cv) {
+ IFCImporter::LogError(cv.mStr, " (error occurred while processing curve)");
+ return false;
+ }
+ meshout.mVertcnt.push_back(static_cast<unsigned int>(meshout.mVerts.size()));
+ return true;
+ }
+
+ IFCImporter::LogError("cannot use unbounded curve as profile");
+ return false;
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessClosedProfile(const Schema_2x3::IfcArbitraryClosedProfileDef& def, TempMesh& meshout, ConversionData& conv)
+{
+ ProcessCurve(def.OuterCurve,meshout,conv);
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessOpenProfile(const Schema_2x3::IfcArbitraryOpenProfileDef& def, TempMesh& meshout, ConversionData& conv)
+{
+ ProcessCurve(def.Curve,meshout,conv);
+}
+
+// ------------------------------------------------------------------------------------------------
+void ProcessParametrizedProfile(const Schema_2x3::IfcParameterizedProfileDef& def, TempMesh& meshout, ConversionData& conv)
+{
+ if(const Schema_2x3::IfcRectangleProfileDef* const cprofile = def.ToPtr<Schema_2x3::IfcRectangleProfileDef>()) {
+ const IfcFloat x = cprofile->XDim*0.5f, y = cprofile->YDim*0.5f;
+
+ meshout.mVerts.reserve(meshout.mVerts.size()+4);
+ meshout.mVerts.push_back( IfcVector3( x, y, 0.f ));
+ meshout.mVerts.push_back( IfcVector3(-x, y, 0.f ));
+ meshout.mVerts.push_back( IfcVector3(-x,-y, 0.f ));
+ meshout.mVerts.push_back( IfcVector3( x,-y, 0.f ));
+ meshout.mVertcnt.push_back(4);
+ }
+ else if( const Schema_2x3::IfcCircleProfileDef* const circle = def.ToPtr<Schema_2x3::IfcCircleProfileDef>()) {
+ if(def.ToPtr<Schema_2x3::IfcCircleHollowProfileDef>()) {
+ // TODO
+ }
+ const size_t segments = conv.settings.cylindricalTessellation;
+ const IfcFloat delta = AI_MATH_TWO_PI_F/segments, radius = circle->Radius;
+
+ meshout.mVerts.reserve(segments);
+
+ IfcFloat angle = 0.f;
+ for(size_t i = 0; i < segments; ++i, angle += delta) {
+ meshout.mVerts.push_back( IfcVector3( std::cos(angle)*radius, std::sin(angle)*radius, 0.f ));
+ }
+
+ meshout.mVertcnt.push_back(static_cast<unsigned int>(segments));
+ }
+ else if( const Schema_2x3::IfcIShapeProfileDef* const ishape = def.ToPtr<Schema_2x3::IfcIShapeProfileDef>()) {
+ // construct simplified IBeam shape
+ const IfcFloat offset = (ishape->OverallWidth - ishape->WebThickness) / 2;
+ const IfcFloat inner_height = ishape->OverallDepth - ishape->FlangeThickness * 2;
+
+ meshout.mVerts.reserve(12);
+ meshout.mVerts.push_back(IfcVector3(0,0,0));
+ meshout.mVerts.push_back(IfcVector3(0,ishape->FlangeThickness,0));
+ meshout.mVerts.push_back(IfcVector3(offset,ishape->FlangeThickness,0));
+ meshout.mVerts.push_back(IfcVector3(offset,ishape->FlangeThickness + inner_height,0));
+ meshout.mVerts.push_back(IfcVector3(0,ishape->FlangeThickness + inner_height,0));
+ meshout.mVerts.push_back(IfcVector3(0,ishape->OverallDepth,0));
+ meshout.mVerts.push_back(IfcVector3(ishape->OverallWidth,ishape->OverallDepth,0));
+ meshout.mVerts.push_back(IfcVector3(ishape->OverallWidth,ishape->FlangeThickness + inner_height,0));
+ meshout.mVerts.push_back(IfcVector3(offset+ishape->WebThickness,ishape->FlangeThickness + inner_height,0));
+ meshout.mVerts.push_back(IfcVector3(offset+ishape->WebThickness,ishape->FlangeThickness,0));
+ meshout.mVerts.push_back(IfcVector3(ishape->OverallWidth,ishape->FlangeThickness,0));
+ meshout.mVerts.push_back(IfcVector3(ishape->OverallWidth,0,0));
+
+ meshout.mVertcnt.push_back(12);
+ }
+ else {
+ IFCImporter::LogWarn("skipping unknown IfcParameterizedProfileDef entity, type is ", def.GetClassName());
+ return;
+ }
+
+ IfcMatrix4 trafo;
+ ConvertAxisPlacement(trafo, *def.Position);
+ meshout.Transform(trafo);
+}
+
+// ------------------------------------------------------------------------------------------------
+bool ProcessProfile(const Schema_2x3::IfcProfileDef& prof, TempMesh& meshout, ConversionData& conv)
+{
+ if(const Schema_2x3::IfcArbitraryClosedProfileDef* const cprofile = prof.ToPtr<Schema_2x3::IfcArbitraryClosedProfileDef>()) {
+ ProcessClosedProfile(*cprofile,meshout,conv);
+ }
+ else if(const Schema_2x3::IfcArbitraryOpenProfileDef* const copen = prof.ToPtr<Schema_2x3::IfcArbitraryOpenProfileDef>()) {
+ ProcessOpenProfile(*copen,meshout,conv);
+ }
+ else if(const Schema_2x3::IfcParameterizedProfileDef* const cparam = prof.ToPtr<Schema_2x3::IfcParameterizedProfileDef>()) {
+ ProcessParametrizedProfile(*cparam,meshout,conv);
+ }
+ else {
+ IFCImporter::LogWarn("skipping unknown IfcProfileDef entity, type is ", prof.GetClassName());
+ return false;
+ }
+ meshout.RemoveAdjacentDuplicates();
+ if (!meshout.mVertcnt.size() || meshout.mVertcnt.front() <= 1) {
+ return false;
+ }
+ return true;
+}
+
+} // ! IFC
+} // ! Assimp
+
+#endif // ASSIMP_BUILD_NO_IFC_IMPORTER
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen1_2x3.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen1_2x3.cpp
new file mode 100644
index 0000000..a6f7ae3
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen1_2x3.cpp
@@ -0,0 +1,3177 @@
+/*
+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 */
+
+//#include "AssimpPCH.h"
+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER
+
+#include "IFCReaderGen_2x3.h"
+
+#if _MSC_VER
+# pragma warning(push)
+# pragma warning(disable : 4702)
+#endif // _MSC_VER
+
+namespace Assimp {
+
+using namespace ::Assimp::IFC;
+using namespace ::Assimp::IFC::Schema_2x3;
+
+namespace {
+ typedef EXPRESS::ConversionSchema::SchemaEntry SchemaEntry;
+
+ static const SchemaEntry schema_raw_2x3[] = {
+ SchemaEntry("ifcstairtypeenum",nullptr )
+, SchemaEntry("ifcspacetypeenum",nullptr )
+, SchemaEntry("ifcwalltypeenum",nullptr )
+, SchemaEntry("ifcmonthinyearnumber",nullptr )
+, SchemaEntry("ifcheatfluxdensitymeasure",nullptr )
+, SchemaEntry("ifckinematicviscositymeasure",nullptr )
+, SchemaEntry("ifcsequenceenum",nullptr )
+, SchemaEntry("ifcairtoairheatrecoverytypeenum",nullptr )
+, SchemaEntry("ifcactorselect",nullptr )
+, SchemaEntry("ifctransformertypeenum",nullptr )
+, SchemaEntry("ifcunitaryequipmenttypeenum",nullptr )
+, SchemaEntry("ifcelectricflowstoragedevicetypeenum",nullptr )
+, SchemaEntry("ifcenergysequenceenum",nullptr )
+, SchemaEntry("ifcworkcontroltypeenum",nullptr )
+, SchemaEntry("ifccurvaturemeasure",nullptr )
+, SchemaEntry("ifcparametervalue",nullptr )
+, SchemaEntry("ifcappliedvalueselect",nullptr )
+, SchemaEntry("ifcwarpingconstantmeasure",nullptr )
+, SchemaEntry("ifcarithmeticoperatorenum",nullptr )
+, SchemaEntry("ifclinearforcemeasure",nullptr )
+, SchemaEntry("ifcwindowpanelpositionenum",nullptr )
+, SchemaEntry("ifcflowmetertypeenum",nullptr )
+, SchemaEntry("ifcrampflighttypeenum",nullptr )
+, SchemaEntry("ifcspecularhighlightselect",nullptr )
+, SchemaEntry("ifcactiontypeenum",nullptr )
+, SchemaEntry("ifcgeometricprojectionenum",nullptr )
+, SchemaEntry("ifctimeseriesdatatypeenum",nullptr )
+, SchemaEntry("ifcmagneticfluxmeasure",nullptr )
+, SchemaEntry("ifcobjecttypeenum",nullptr )
+, SchemaEntry("ifcdataoriginenum",nullptr )
+, SchemaEntry("ifcmassdensitymeasure",nullptr )
+, SchemaEntry("ifclightfixturetypeenum",nullptr )
+, SchemaEntry("ifcservicelifetypeenum",nullptr )
+, SchemaEntry("ifcelectricvoltagemeasure",nullptr )
+, SchemaEntry("ifcheatingvaluemeasure",nullptr )
+, SchemaEntry("ifcpresentabletext",nullptr )
+, SchemaEntry("ifcaheadorbehind",nullptr )
+, SchemaEntry("ifcsimplevalue",nullptr )
+, SchemaEntry("ifcsensortypeenum",nullptr )
+, SchemaEntry("ifcderivedunitenum",nullptr )
+, SchemaEntry("ifcsizeselect",nullptr )
+, SchemaEntry("ifctransportelementtypeenum",nullptr )
+, SchemaEntry("ifcinventorytypeenum",nullptr )
+, SchemaEntry("ifctextdecoration",nullptr )
+, SchemaEntry("ifcdirectionsenseenum",nullptr )
+, SchemaEntry("ifcductfittingtypeenum",nullptr )
+, SchemaEntry("ifcdocumentstatusenum",nullptr )
+, SchemaEntry("ifcslabtypeenum",nullptr )
+, SchemaEntry("ifcdoorstyleconstructionenum",nullptr )
+, SchemaEntry("ifcvolumemeasure",nullptr )
+, SchemaEntry("ifcinductancemeasure",nullptr )
+, SchemaEntry("ifccurtainwalltypeenum",nullptr )
+, SchemaEntry("ifcsiunitname",nullptr )
+, SchemaEntry("ifcspecularexponent",nullptr )
+, SchemaEntry("ifcsoundpressuremeasure",nullptr )
+, SchemaEntry("ifcanalysistheorytypeenum",nullptr )
+, SchemaEntry("ifcgasterminaltypeenum",nullptr )
+, SchemaEntry("ifcyearnumber",nullptr )
+, SchemaEntry("ifcmodulusofelasticitymeasure",nullptr )
+, SchemaEntry("ifcchangeactionenum",nullptr )
+, SchemaEntry("ifcdampertypeenum",nullptr )
+, SchemaEntry("ifcevaporatortypeenum",nullptr )
+, SchemaEntry("ifcionconcentrationmeasure",nullptr )
+, SchemaEntry("ifcductsegmenttypeenum",nullptr )
+, SchemaEntry("ifcprotectivedevicetypeenum",nullptr )
+, SchemaEntry("ifcabsorbeddosemeasure",nullptr )
+, SchemaEntry("ifcmassperlengthmeasure",nullptr )
+, SchemaEntry("ifctextfontname",nullptr )
+, SchemaEntry("ifcorientationselect",nullptr )
+, SchemaEntry("ifcilluminancemeasure",nullptr )
+, SchemaEntry("ifcfiresuppressionterminaltypeenum",nullptr )
+, SchemaEntry("ifcfontstyle",nullptr )
+, SchemaEntry("ifcmomentofinertiameasure",nullptr )
+, SchemaEntry("ifcmodulusofsubgradereactionmeasure",nullptr )
+, SchemaEntry("ifccomplexnumber",nullptr )
+, SchemaEntry("ifchumidifiertypeenum",nullptr )
+, SchemaEntry("ifcpresentationstyleselect",nullptr )
+, SchemaEntry("ifcthermaltransmittancemeasure",nullptr )
+, SchemaEntry("ifcribplatedirectionenum",nullptr )
+, SchemaEntry("ifcclassificationnotationselect",nullptr )
+, SchemaEntry("ifcminuteinhour",nullptr )
+, SchemaEntry("ifcinternalorexternalenum",nullptr )
+, SchemaEntry("ifcrotationalfrequencymeasure",nullptr )
+, SchemaEntry("ifcsanitaryterminaltypeenum",nullptr )
+, SchemaEntry("ifcsymbolstyleselect",nullptr )
+, SchemaEntry("ifcelementcompositionenum",nullptr )
+, SchemaEntry("ifctextpath",nullptr )
+, SchemaEntry("ifcpowermeasure",nullptr )
+, SchemaEntry("ifcsurfacestyleelementselect",nullptr )
+, SchemaEntry("ifcresourceconsumptionenum",nullptr )
+, SchemaEntry("ifcelectriccapacitancemeasure",nullptr )
+, SchemaEntry("ifclayersetdirectionenum",nullptr )
+, SchemaEntry("ifcrailingtypeenum",nullptr )
+, SchemaEntry("ifcobjectiveenum",nullptr )
+, SchemaEntry("ifcdocumentselect",nullptr )
+, SchemaEntry("ifcmodulusoflinearsubgradereactionmeasure",nullptr )
+, SchemaEntry("ifcthermaladmittancemeasure",nullptr )
+, SchemaEntry("ifctransitioncode",nullptr )
+, SchemaEntry("ifcconnectiontypeenum",nullptr )
+, SchemaEntry("ifcmonetarymeasure",nullptr )
+, SchemaEntry("ifcstackterminaltypeenum",nullptr )
+, SchemaEntry("ifccolour",nullptr )
+, SchemaEntry("ifctext",nullptr )
+, SchemaEntry("ifccontextdependentmeasure",nullptr )
+, SchemaEntry("ifcthermalconductivitymeasure",nullptr )
+, SchemaEntry("ifcprojectedortruelengthenum",nullptr )
+, SchemaEntry("ifcpressuremeasure",nullptr )
+, SchemaEntry("ifcmoisturediffusivitymeasure",nullptr )
+, SchemaEntry("ifcbooleanoperator",nullptr )
+, SchemaEntry("ifcpropertysourceenum",nullptr )
+, SchemaEntry("ifctimestamp",nullptr )
+, SchemaEntry("ifcmaterialselect",nullptr )
+, SchemaEntry("ifcgloballyuniqueid",nullptr )
+, SchemaEntry("ifcreflectancemethodenum",nullptr )
+, SchemaEntry("ifcvaporpermeabilitymeasure",nullptr )
+, SchemaEntry("ifctimeseriesscheduletypeenum",nullptr )
+, SchemaEntry("ifclinearmomentmeasure",nullptr )
+, SchemaEntry("ifcgeometricsetselect",nullptr )
+, SchemaEntry("ifcsectionmodulusmeasure",nullptr )
+, SchemaEntry("ifcbsplinecurveform",nullptr )
+, SchemaEntry("ifcdimensionextentusage",nullptr )
+, SchemaEntry("ifcthermalexpansioncoefficientmeasure",nullptr )
+, SchemaEntry("ifchourinday",nullptr )
+, SchemaEntry("ifclinearvelocitymeasure",nullptr )
+, SchemaEntry("ifctorquemeasure",nullptr )
+, SchemaEntry("ifctemperaturegradientmeasure",nullptr )
+, SchemaEntry("ifcfillstyleselect",nullptr )
+, SchemaEntry("ifcelectricchargemeasure",nullptr )
+, SchemaEntry("ifcheatexchangertypeenum",nullptr )
+, SchemaEntry("ifcelectriccurrentenum",nullptr )
+, SchemaEntry("ifcdaylightsavinghour",nullptr )
+, SchemaEntry("ifcshell",nullptr )
+, SchemaEntry("ifcdoseequivalentmeasure",nullptr )
+, SchemaEntry("ifcprojectordertypeenum",nullptr )
+, SchemaEntry("ifcderivedmeasurevalue",nullptr )
+, SchemaEntry("ifclightdistributioncurveenum",nullptr )
+, SchemaEntry("ifcwarpingmomentmeasure",nullptr )
+, SchemaEntry("ifcmembertypeenum",nullptr )
+, SchemaEntry("ifcsoundpowermeasure",nullptr )
+, SchemaEntry("ifctextalignment",nullptr )
+, SchemaEntry("ifccurveoredgecurve",nullptr )
+, SchemaEntry("ifcmassflowratemeasure",nullptr )
+, SchemaEntry("ifcisothermalmoisturecapacitymeasure",nullptr )
+, SchemaEntry("ifccsgselect",nullptr )
+, SchemaEntry("ifccoolingtowertypeenum",nullptr )
+, SchemaEntry("ifcmassmeasure",nullptr )
+, SchemaEntry("ifcpileconstructionenum",nullptr )
+, SchemaEntry("ifcdoorstyleoperationenum",nullptr )
+, SchemaEntry("ifcflowdirectionenum",nullptr )
+, SchemaEntry("ifcthermalloadsourceenum",nullptr )
+, SchemaEntry("ifclengthmeasure",nullptr )
+, SchemaEntry("ifcconstraintenum",nullptr )
+, SchemaEntry("ifcaxis2placement",nullptr )
+, SchemaEntry("ifcloadgrouptypeenum",nullptr )
+, SchemaEntry("ifcvalue",nullptr )
+, SchemaEntry("ifcreinforcingbarsurfaceenum",nullptr )
+, SchemaEntry("ifcprojectorderrecordtypeenum",nullptr )
+, SchemaEntry("ifcdatetimeselect",nullptr )
+, SchemaEntry("ifcstructuralsurfacetypeenum",nullptr )
+, SchemaEntry("ifcpermeablecoveringoperationenum",nullptr )
+, SchemaEntry("ifcfontweight",nullptr )
+, SchemaEntry("ifcphmeasure",nullptr )
+, SchemaEntry("ifcdescriptivemeasure",nullptr )
+, SchemaEntry("ifccurvestylefontselect",nullptr )
+, SchemaEntry("ifcunit",nullptr )
+, SchemaEntry("ifchatchlinedistanceselect",nullptr )
+, SchemaEntry("ifctextstyleselect",nullptr )
+, SchemaEntry("ifcmetricvalueselect",nullptr )
+, SchemaEntry("ifcvectorordirection",nullptr )
+, SchemaEntry("ifcassemblyplaceenum",nullptr )
+, SchemaEntry("ifcairterminaltypeenum",nullptr )
+, SchemaEntry("ifccoveringtypeenum",nullptr )
+, SchemaEntry("ifcplanarforcemeasure",nullptr )
+, SchemaEntry("ifcvalvetypeenum",nullptr )
+, SchemaEntry("ifcalarmtypeenum",nullptr )
+, SchemaEntry("ifcdynamicviscositymeasure",nullptr )
+, SchemaEntry("ifccurrencyenum",nullptr )
+, SchemaEntry("ifcmodulusofrotationalsubgradereactionmeasure",nullptr )
+, SchemaEntry("ifccablecarrierfittingtypeenum",nullptr )
+, SchemaEntry("ifcboolean",nullptr )
+, SchemaEntry("ifcactionsourcetypeenum",nullptr )
+, SchemaEntry("ifcstructuralactivityassignmentselect",nullptr )
+, SchemaEntry("ifcdistributionchamberelementtypeenum",nullptr )
+, SchemaEntry("ifcevaporativecoolertypeenum",nullptr )
+, SchemaEntry("ifcmagneticfluxdensitymeasure",nullptr )
+, SchemaEntry("ifclightdistributiondatasourceselect",nullptr )
+, SchemaEntry("ifctubebundletypeenum",nullptr )
+, SchemaEntry("ifcaccelerationmeasure",nullptr )
+, SchemaEntry("ifcboilertypeenum",nullptr )
+, SchemaEntry("ifcramptypeenum",nullptr )
+, SchemaEntry("ifcluminousintensitydistributionmeasure",nullptr )
+, SchemaEntry("ifctrimmingpreference",nullptr )
+, SchemaEntry("ifcspecificheatcapacitymeasure",nullptr )
+, SchemaEntry("ifcamountofsubstancemeasure",nullptr )
+, SchemaEntry("ifcroleenum",nullptr )
+, SchemaEntry("ifcdocumentconfidentialityenum",nullptr )
+, SchemaEntry("ifcfrequencymeasure",nullptr )
+, SchemaEntry("ifcsectiontypeenum",nullptr )
+, SchemaEntry("ifcelementassemblytypeenum",nullptr )
+, SchemaEntry("ifcfootingtypeenum",nullptr )
+, SchemaEntry("ifclayereditem",nullptr )
+, SchemaEntry("ifccablesegmenttypeenum",nullptr )
+, SchemaEntry("ifcdefinedsymbolselect",nullptr )
+, SchemaEntry("ifcbuildingelementproxytypeenum",nullptr )
+, SchemaEntry("ifcelectricgeneratortypeenum",nullptr )
+, SchemaEntry("ifcrotationalstiffnessmeasure",nullptr )
+, SchemaEntry("ifcspaceheatertypeenum",nullptr )
+, SchemaEntry("ifcareameasure",nullptr )
+, SchemaEntry("ifclabel",nullptr )
+, SchemaEntry("ifccostscheduletypeenum",nullptr )
+, SchemaEntry("ifcswitchingdevicetypeenum",nullptr )
+, SchemaEntry("ifcelectrictimecontroltypeenum",nullptr )
+, SchemaEntry("ifcfiltertypeenum",nullptr )
+, SchemaEntry("ifcpositivelengthmeasure",nullptr )
+, SchemaEntry("ifcnullstyle",nullptr )
+, SchemaEntry("ifcconditioncriterionselect",nullptr )
+, SchemaEntry("ifcshearmodulusmeasure",nullptr )
+, SchemaEntry("ifcnormalisedratiomeasure",nullptr )
+, SchemaEntry("ifcdoorpaneloperationenum",nullptr )
+, SchemaEntry("ifcpointorvertexpoint",nullptr )
+, SchemaEntry("ifcrooftypeenum",nullptr )
+, SchemaEntry("ifccountmeasure",nullptr )
+, SchemaEntry("ifcelectricconductancemeasure",nullptr )
+, SchemaEntry("ifcproceduretypeenum",nullptr )
+, SchemaEntry("ifcflowinstrumenttypeenum",nullptr )
+, SchemaEntry("ifcelectricmotortypeenum",nullptr )
+, SchemaEntry("ifcsurfaceside",nullptr )
+, SchemaEntry("ifcstructuralcurvetypeenum",nullptr )
+, SchemaEntry("ifccondensertypeenum",nullptr )
+, SchemaEntry("ifclinearstiffnessmeasure",nullptr )
+, SchemaEntry("ifcunitenum",nullptr )
+, SchemaEntry("ifcoccupanttypeenum",nullptr )
+, SchemaEntry("ifcthermalloadtypeenum",nullptr )
+, SchemaEntry("ifcreinforcingbarroleenum",nullptr )
+, SchemaEntry("ifcbenchmarkenum",nullptr )
+, SchemaEntry("ifcpositiveplaneanglemeasure",nullptr )
+, SchemaEntry("ifctexttransformation",nullptr )
+, SchemaEntry("ifcdraughtingcalloutelement",nullptr )
+, SchemaEntry("ifcratiomeasure",nullptr )
+, SchemaEntry("ifcsolidanglemeasure",nullptr )
+, SchemaEntry("ifcpipesegmenttypeenum",nullptr )
+, SchemaEntry("ifccablecarriersegmenttypeenum",nullptr )
+, SchemaEntry("ifccolourorfactor",nullptr )
+, SchemaEntry("ifcidentifier",nullptr )
+, SchemaEntry("ifctendontypeenum",nullptr )
+, SchemaEntry("ifccontrollertypeenum",nullptr )
+, SchemaEntry("ifcradioactivitymeasure",nullptr )
+, SchemaEntry("ifctimemeasure",nullptr )
+, SchemaEntry("ifcpumptypeenum",nullptr )
+, SchemaEntry("ifcelectricheatertypeenum",nullptr )
+, SchemaEntry("ifcbeamtypeenum",nullptr )
+, SchemaEntry("ifcstateenum",nullptr )
+, SchemaEntry("ifcsiprefix",nullptr )
+, SchemaEntry("ifcnumericmeasure",nullptr )
+, SchemaEntry("ifcoutlettypeenum",nullptr )
+, SchemaEntry("ifccompoundplaneanglemeasure",nullptr )
+, SchemaEntry("ifcservicelifefactortypeenum",nullptr )
+, SchemaEntry("ifclogicaloperatorenum",nullptr )
+, SchemaEntry("ifcbooleanoperand",nullptr )
+, SchemaEntry("ifcobjectreferenceselect",nullptr )
+, SchemaEntry("ifccooledbeamtypeenum",nullptr )
+, SchemaEntry("ifcductsilencertypeenum",nullptr )
+, SchemaEntry("ifcsectionalareaintegralmeasure",nullptr )
+, SchemaEntry("ifcfontvariant",nullptr )
+, SchemaEntry("ifcvolumetricflowratemeasure",nullptr )
+, SchemaEntry("ifcplatetypeenum",nullptr )
+, SchemaEntry("ifcenvironmentalimpactcategoryenum",nullptr )
+, SchemaEntry("ifcvibrationisolatortypeenum",nullptr )
+, SchemaEntry("ifcthermodynamictemperaturemeasure",nullptr )
+, SchemaEntry("ifcrotationalmassmeasure",nullptr )
+, SchemaEntry("ifcsecondinminute",nullptr )
+, SchemaEntry("ifcdayinmonthnumber",nullptr )
+, SchemaEntry("ifcdimensioncount",nullptr )
+, SchemaEntry("ifcwindowstyleoperationenum",nullptr )
+, SchemaEntry("ifcthermalresistancemeasure",nullptr )
+, SchemaEntry("ifcmeasurevalue",nullptr )
+, SchemaEntry("ifcwindowpaneloperationenum",nullptr )
+, SchemaEntry("ifcchillertypeenum",nullptr )
+, SchemaEntry("ifcpositiveratiomeasure",nullptr )
+, SchemaEntry("ifcinteger",nullptr )
+, SchemaEntry("ifclogical",nullptr )
+, SchemaEntry("ifcjunctionboxtypeenum",nullptr )
+, SchemaEntry("ifcaddresstypeenum",nullptr )
+, SchemaEntry("ifcwasteterminaltypeenum",nullptr )
+, SchemaEntry("ifctrimmingselect",nullptr )
+, SchemaEntry("ifclightemissionsourceenum",nullptr )
+, SchemaEntry("ifcsoundscaleenum",nullptr )
+, SchemaEntry("ifcluminousfluxmeasure",nullptr )
+, SchemaEntry("ifcelectricresistancemeasure",nullptr )
+, SchemaEntry("ifcintegercountratemeasure",nullptr )
+, SchemaEntry("ifcphysicalorvirtualenum",nullptr )
+, SchemaEntry("ifcmolecularweightmeasure",nullptr )
+, SchemaEntry("ifcprofiletypeenum",nullptr )
+, SchemaEntry("ifcboxalignment",nullptr )
+, SchemaEntry("ifcglobalorlocalenum",nullptr )
+, SchemaEntry("ifcspecularroughness",nullptr )
+, SchemaEntry("ifclamptypeenum",nullptr )
+, SchemaEntry("ifcpiletypeenum",nullptr )
+, SchemaEntry("ifcelectriccurrentmeasure",nullptr )
+, SchemaEntry("ifcfantypeenum",nullptr )
+, SchemaEntry("ifcsurfaceorfacesurface",nullptr )
+, SchemaEntry("ifcpipefittingtypeenum",nullptr )
+, SchemaEntry("ifctanktypeenum",nullptr )
+, SchemaEntry("ifccurvefontorscaledcurvefontselect",nullptr )
+, SchemaEntry("ifcwindowstyleconstructionenum",nullptr )
+, SchemaEntry("ifcairterminalboxtypeenum",nullptr )
+, SchemaEntry("ifcstairflighttypeenum",nullptr )
+, SchemaEntry("ifcluminousintensitymeasure",nullptr )
+, SchemaEntry("ifcmotorconnectiontypeenum",nullptr )
+, SchemaEntry("ifcplaneanglemeasure",nullptr )
+, SchemaEntry("ifcactuatortypeenum",nullptr )
+, SchemaEntry("ifccolumntypeenum",nullptr )
+, SchemaEntry("ifctextfontselect",nullptr )
+, SchemaEntry("ifcdoorpanelpositionenum",nullptr )
+, SchemaEntry("ifccoiltypeenum",nullptr )
+, SchemaEntry("ifcangularvelocitymeasure",nullptr )
+, SchemaEntry("ifcanalysismodeltypeenum",nullptr )
+, SchemaEntry("ifclibraryselect",nullptr )
+, SchemaEntry("ifcforcemeasure",nullptr )
+, SchemaEntry("ifcfillareastyletileshapeselect",nullptr )
+, SchemaEntry("ifcelectricappliancetypeenum",nullptr )
+, SchemaEntry("ifcsurfacetextureenum",nullptr )
+, SchemaEntry("ifccharacterstyleselect",nullptr )
+, SchemaEntry("ifcenergymeasure",nullptr )
+, SchemaEntry("ifcreal",nullptr )
+, SchemaEntry("ifccompressortypeenum",nullptr )
+, SchemaEntry("ifcelectricdistributionpointfunctionenum",nullptr )
+, SchemaEntry("ifcroot",&STEP::ObjectHelper<IfcRoot,4>::Construct )
+, SchemaEntry("ifcobjectdefinition",&STEP::ObjectHelper<IfcObjectDefinition,0>::Construct )
+, SchemaEntry("ifctypeobject",&STEP::ObjectHelper<IfcTypeObject,2>::Construct )
+, SchemaEntry("ifctypeproduct",&STEP::ObjectHelper<IfcTypeProduct,2>::Construct )
+, SchemaEntry("ifcelementtype",&STEP::ObjectHelper<IfcElementType,1>::Construct )
+, SchemaEntry("ifcdistributionelementtype",&STEP::ObjectHelper<IfcDistributionElementType,0>::Construct )
+, SchemaEntry("ifcdistributionflowelementtype",&STEP::ObjectHelper<IfcDistributionFlowElementType,0>::Construct )
+, SchemaEntry("ifcflowcontrollertype",&STEP::ObjectHelper<IfcFlowControllerType,0>::Construct )
+, SchemaEntry("ifcelectrictimecontroltype",&STEP::ObjectHelper<IfcElectricTimeControlType,1>::Construct )
+, SchemaEntry("ifcrepresentation",&STEP::ObjectHelper<IfcRepresentation,4>::Construct )
+, SchemaEntry("ifcshapemodel",&STEP::ObjectHelper<IfcShapeModel,0>::Construct )
+, SchemaEntry("ifctopologyrepresentation",&STEP::ObjectHelper<IfcTopologyRepresentation,0>::Construct )
+, SchemaEntry("ifcrelationship",&STEP::ObjectHelper<IfcRelationship,0>::Construct )
+, SchemaEntry("ifcrelconnects",&STEP::ObjectHelper<IfcRelConnects,0>::Construct )
+, SchemaEntry("ifcrelcoversspaces",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcflowfittingtype",&STEP::ObjectHelper<IfcFlowFittingType,0>::Construct )
+, SchemaEntry("ifccablecarrierfittingtype",&STEP::ObjectHelper<IfcCableCarrierFittingType,1>::Construct )
+, SchemaEntry("ifcstructuralconnectioncondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcslippageconnectioncondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcenergyconversiondevicetype",&STEP::ObjectHelper<IfcEnergyConversionDeviceType,0>::Construct )
+, SchemaEntry("ifccoiltype",&STEP::ObjectHelper<IfcCoilType,1>::Construct )
+, SchemaEntry("ifcobject",&STEP::ObjectHelper<IfcObject,1>::Construct )
+, SchemaEntry("ifccontrol",&STEP::ObjectHelper<IfcControl,0>::Construct )
+, SchemaEntry("ifcperformancehistory",&STEP::ObjectHelper<IfcPerformanceHistory,1>::Construct )
+, SchemaEntry("ifcrepresentationitem",&STEP::ObjectHelper<IfcRepresentationItem,0>::Construct )
+, SchemaEntry("ifcgeometricrepresentationitem",&STEP::ObjectHelper<IfcGeometricRepresentationItem,0>::Construct )
+, SchemaEntry("ifctextliteral",&STEP::ObjectHelper<IfcTextLiteral,3>::Construct )
+, SchemaEntry("ifctextliteralwithextent",&STEP::ObjectHelper<IfcTextLiteralWithExtent,2>::Construct )
+, SchemaEntry("ifcproductrepresentation",&STEP::ObjectHelper<IfcProductRepresentation,3>::Construct )
+, SchemaEntry("ifcproduct",&STEP::ObjectHelper<IfcProduct,2>::Construct )
+, SchemaEntry("ifcelement",&STEP::ObjectHelper<IfcElement,1>::Construct )
+, SchemaEntry("ifcdistributionelement",&STEP::ObjectHelper<IfcDistributionElement,0>::Construct )
+, SchemaEntry("ifcdistributionflowelement",&STEP::ObjectHelper<IfcDistributionFlowElement,0>::Construct )
+, SchemaEntry("ifccurve",&STEP::ObjectHelper<IfcCurve,0>::Construct )
+, SchemaEntry("ifcboundedcurve",&STEP::ObjectHelper<IfcBoundedCurve,0>::Construct )
+, SchemaEntry("ifccompositecurve",&STEP::ObjectHelper<IfcCompositeCurve,2>::Construct )
+, SchemaEntry("ifc2dcompositecurve",&STEP::ObjectHelper<Ifc2DCompositeCurve,0>::Construct )
+, SchemaEntry("ifcboundarycondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcboundaryfacecondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccartesiantransformationoperator",&STEP::ObjectHelper<IfcCartesianTransformationOperator,4>::Construct )
+, SchemaEntry("ifccartesiantransformationoperator3d",&STEP::ObjectHelper<IfcCartesianTransformationOperator3D,1>::Construct )
+, SchemaEntry("ifcproperty",&STEP::ObjectHelper<IfcProperty,2>::Construct )
+, SchemaEntry("ifcsimpleproperty",&STEP::ObjectHelper<IfcSimpleProperty,0>::Construct )
+, SchemaEntry("ifcpropertyenumeratedvalue",&STEP::ObjectHelper<IfcPropertyEnumeratedValue,2>::Construct )
+, SchemaEntry("ifcpresentationlayerassignment",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpresentationlayerwithstyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcbuildingelementtype",&STEP::ObjectHelper<IfcBuildingElementType,0>::Construct )
+, SchemaEntry("ifcstairflighttype",&STEP::ObjectHelper<IfcStairFlightType,1>::Construct )
+, SchemaEntry("ifcsurface",&STEP::ObjectHelper<IfcSurface,0>::Construct )
+, SchemaEntry("ifcelementarysurface",&STEP::ObjectHelper<IfcElementarySurface,1>::Construct )
+, SchemaEntry("ifcplane",&STEP::ObjectHelper<IfcPlane,0>::Construct )
+, SchemaEntry("ifcbooleanresult",&STEP::ObjectHelper<IfcBooleanResult,3>::Construct )
+, SchemaEntry("ifcbooleanclippingresult",&STEP::ObjectHelper<IfcBooleanClippingResult,0>::Construct )
+, SchemaEntry("ifcsolidmodel",&STEP::ObjectHelper<IfcSolidModel,0>::Construct )
+, SchemaEntry("ifcmanifoldsolidbrep",&STEP::ObjectHelper<IfcManifoldSolidBrep,1>::Construct )
+, SchemaEntry("ifcprofileproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcgeneralprofileproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralprofileproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcflowterminaltype",&STEP::ObjectHelper<IfcFlowTerminalType,0>::Construct )
+, SchemaEntry("ifcstackterminaltype",&STEP::ObjectHelper<IfcStackTerminalType,1>::Construct )
+, SchemaEntry("ifcstructuralitem",&STEP::ObjectHelper<IfcStructuralItem,0>::Construct )
+, SchemaEntry("ifcstructuralconnection",&STEP::ObjectHelper<IfcStructuralConnection,1>::Construct )
+, SchemaEntry("ifcstructuralcurveconnection",&STEP::ObjectHelper<IfcStructuralCurveConnection,0>::Construct )
+, SchemaEntry("ifcjunctionboxtype",&STEP::ObjectHelper<IfcJunctionBoxType,1>::Construct )
+, SchemaEntry("ifcrelassociates",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociatesconstraint",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpropertydefinition",&STEP::ObjectHelper<IfcPropertyDefinition,0>::Construct )
+, SchemaEntry("ifcpropertysetdefinition",&STEP::ObjectHelper<IfcPropertySetDefinition,0>::Construct )
+, SchemaEntry("ifcdoorpanelproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconstraintrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcspacethermalloadproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifclibraryinformation",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcprocess",&STEP::ObjectHelper<IfcProcess,0>::Construct )
+, SchemaEntry("ifctask",&STEP::ObjectHelper<IfcTask,5>::Construct )
+, SchemaEntry("ifcappliedvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcenvironmentalimpactvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelfillselement",&STEP::ObjectHelper<IfcRelFillsElement,2>::Construct )
+, SchemaEntry("ifcprocedure",&STEP::ObjectHelper<IfcProcedure,3>::Construct )
+, SchemaEntry("ifcstructuralload",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadstatic",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadsingledisplacement",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcproxy",&STEP::ObjectHelper<IfcProxy,2>::Construct )
+, SchemaEntry("ifccurvestylefont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcresource",&STEP::ObjectHelper<IfcResource,0>::Construct )
+, SchemaEntry("ifcconstructionresource",&STEP::ObjectHelper<IfcConstructionResource,4>::Construct )
+, SchemaEntry("ifcsubcontractresource",&STEP::ObjectHelper<IfcSubContractResource,2>::Construct )
+, SchemaEntry("ifccalendardate",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdocumentelectronicformat",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelcontainedinspatialstructure",&STEP::ObjectHelper<IfcRelContainedInSpatialStructure,2>::Construct )
+, SchemaEntry("ifcmaterialproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcproductsofcombustionproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctopologicalrepresentationitem",&STEP::ObjectHelper<IfcTopologicalRepresentationItem,0>::Construct )
+, SchemaEntry("ifcedge",&STEP::ObjectHelper<IfcEdge,2>::Construct )
+, SchemaEntry("ifcedgecurve",&STEP::ObjectHelper<IfcEdgeCurve,2>::Construct )
+, SchemaEntry("ifcplatetype",&STEP::ObjectHelper<IfcPlateType,1>::Construct )
+, SchemaEntry("ifcobjectplacement",&STEP::ObjectHelper<IfcObjectPlacement,0>::Construct )
+, SchemaEntry("ifcgridplacement",&STEP::ObjectHelper<IfcGridPlacement,2>::Construct )
+, SchemaEntry("ifcfiresuppressionterminaltype",&STEP::ObjectHelper<IfcFireSuppressionTerminalType,1>::Construct )
+, SchemaEntry("ifcmechanicalmaterialproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcflowstoragedevice",&STEP::ObjectHelper<IfcFlowStorageDevice,0>::Construct )
+, SchemaEntry("ifcperson",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsweptsurface",&STEP::ObjectHelper<IfcSweptSurface,2>::Construct )
+, SchemaEntry("ifcsurfaceofrevolution",&STEP::ObjectHelper<IfcSurfaceOfRevolution,1>::Construct )
+, SchemaEntry("ifcorientededge",&STEP::ObjectHelper<IfcOrientedEdge,2>::Construct )
+, SchemaEntry("ifcownerhistory",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassigns",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassignstoactor",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdirection",&STEP::ObjectHelper<IfcDirection,1>::Construct )
+, SchemaEntry("ifcreinforcementbarproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcprofiledef",&STEP::ObjectHelper<IfcProfileDef,2>::Construct )
+, SchemaEntry("ifcparameterizedprofiledef",&STEP::ObjectHelper<IfcParameterizedProfileDef,1>::Construct )
+, SchemaEntry("ifccshapeprofiledef",&STEP::ObjectHelper<IfcCShapeProfileDef,6>::Construct )
+, SchemaEntry("ifcfeatureelement",&STEP::ObjectHelper<IfcFeatureElement,0>::Construct )
+, SchemaEntry("ifcfeatureelementsubtraction",&STEP::ObjectHelper<IfcFeatureElementSubtraction,0>::Construct )
+, SchemaEntry("ifcedgefeature",&STEP::ObjectHelper<IfcEdgeFeature,1>::Construct )
+, SchemaEntry("ifcchamferedgefeature",&STEP::ObjectHelper<IfcChamferEdgeFeature,2>::Construct )
+, SchemaEntry("ifcbuildingelement",&STEP::ObjectHelper<IfcBuildingElement,0>::Construct )
+, SchemaEntry("ifccolumn",&STEP::ObjectHelper<IfcColumn,0>::Construct )
+, SchemaEntry("ifcpropertyreferencevalue",&STEP::ObjectHelper<IfcPropertyReferenceValue,2>::Construct )
+, SchemaEntry("ifcmaterialclassificationrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcelectricmotortype",&STEP::ObjectHelper<IfcElectricMotorType,1>::Construct )
+, SchemaEntry("ifcspatialstructureelementtype",&STEP::ObjectHelper<IfcSpatialStructureElementType,0>::Construct )
+, SchemaEntry("ifcspacetype",&STEP::ObjectHelper<IfcSpaceType,1>::Construct )
+, SchemaEntry("ifcexternalreference",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcexternallydefinedhatchstyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccolumntype",&STEP::ObjectHelper<IfcColumnType,1>::Construct )
+, SchemaEntry("ifccranerailashapeprofiledef",&STEP::ObjectHelper<IfcCraneRailAShapeProfileDef,12>::Construct )
+, SchemaEntry("ifccondensertype",&STEP::ObjectHelper<IfcCondenserType,1>::Construct )
+, SchemaEntry("ifcrelconnectselements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelconnectswithrealizingelements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccircleprofiledef",&STEP::ObjectHelper<IfcCircleProfileDef,1>::Construct )
+, SchemaEntry("ifccirclehollowprofiledef",&STEP::ObjectHelper<IfcCircleHollowProfileDef,1>::Construct )
+, SchemaEntry("ifcorganizationrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcplacement",&STEP::ObjectHelper<IfcPlacement,1>::Construct )
+, SchemaEntry("ifcaxis2placement3d",&STEP::ObjectHelper<IfcAxis2Placement3D,2>::Construct )
+, SchemaEntry("ifcpresentationstyle",&STEP::ObjectHelper<IfcPresentationStyle,1>::Construct )
+, SchemaEntry("ifccurvestyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcequipmentelement",&STEP::ObjectHelper<IfcEquipmentElement,0>::Construct )
+, SchemaEntry("ifccompositecurvesegment",&STEP::ObjectHelper<IfcCompositeCurveSegment,3>::Construct )
+, SchemaEntry("ifcrectangleprofiledef",&STEP::ObjectHelper<IfcRectangleProfileDef,2>::Construct )
+, SchemaEntry("ifcphysicalquantity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcphysicalcomplexquantity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociateslibrary",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelsequence",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcbuildingelementproxy",&STEP::ObjectHelper<IfcBuildingElementProxy,1>::Construct )
+, SchemaEntry("ifcdistributioncontrolelementtype",&STEP::ObjectHelper<IfcDistributionControlElementType,0>::Construct )
+, SchemaEntry("ifcflowinstrumenttype",&STEP::ObjectHelper<IfcFlowInstrumentType,1>::Construct )
+, SchemaEntry("ifcdraughtingcallout",&STEP::ObjectHelper<IfcDraughtingCallout,1>::Construct )
+, SchemaEntry("ifcdimensioncurvedirectedcallout",&STEP::ObjectHelper<IfcDimensionCurveDirectedCallout,0>::Construct )
+, SchemaEntry("ifclineardimension",&STEP::ObjectHelper<IfcLinearDimension,0>::Construct )
+, SchemaEntry("ifcelementassembly",&STEP::ObjectHelper<IfcElementAssembly,2>::Construct )
+, SchemaEntry("ifcdraughtingcalloutrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccsgprimitive3d",&STEP::ObjectHelper<IfcCsgPrimitive3D,1>::Construct )
+, SchemaEntry("ifcrightcircularcone",&STEP::ObjectHelper<IfcRightCircularCone,2>::Construct )
+, SchemaEntry("ifcexternallydefinedsurfacestyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcprojectorder",&STEP::ObjectHelper<IfcProjectOrder,3>::Construct )
+, SchemaEntry("ifcpropertyconstraintrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifclshapeprofiledef",&STEP::ObjectHelper<IfcLShapeProfileDef,8>::Construct )
+, SchemaEntry("ifcangulardimension",&STEP::ObjectHelper<IfcAngularDimension,0>::Construct )
+, SchemaEntry("ifctextstylefordefinedfont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifclocalplacement",&STEP::ObjectHelper<IfcLocalPlacement,2>::Construct )
+, SchemaEntry("ifcsweptareasolid",&STEP::ObjectHelper<IfcSweptAreaSolid,2>::Construct )
+, SchemaEntry("ifcrevolvedareasolid",&STEP::ObjectHelper<IfcRevolvedAreaSolid,2>::Construct )
+, SchemaEntry("ifcstructuralsurfaceconnection",&STEP::ObjectHelper<IfcStructuralSurfaceConnection,0>::Construct )
+, SchemaEntry("ifcradiusdimension",&STEP::ObjectHelper<IfcRadiusDimension,0>::Construct )
+, SchemaEntry("ifcsweptdisksolid",&STEP::ObjectHelper<IfcSweptDiskSolid,5>::Construct )
+, SchemaEntry("ifchalfspacesolid",&STEP::ObjectHelper<IfcHalfSpaceSolid,2>::Construct )
+, SchemaEntry("ifcpolygonalboundedhalfspace",&STEP::ObjectHelper<IfcPolygonalBoundedHalfSpace,2>::Construct )
+, SchemaEntry("ifctimeseriesschedule",&STEP::ObjectHelper<IfcTimeSeriesSchedule,3>::Construct )
+, SchemaEntry("ifcdimensioncalloutrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccooledbeamtype",&STEP::ObjectHelper<IfcCooledBeamType,1>::Construct )
+, SchemaEntry("ifcproject",&STEP::ObjectHelper<IfcProject,4>::Construct )
+, SchemaEntry("ifcapprovalrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcevaporatortype",&STEP::ObjectHelper<IfcEvaporatorType,1>::Construct )
+, SchemaEntry("ifclaborresource",&STEP::ObjectHelper<IfcLaborResource,1>::Construct )
+, SchemaEntry("ifcstructuralloadsingledisplacementdistortion",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpropertyboundedvalue",&STEP::ObjectHelper<IfcPropertyBoundedValue,3>::Construct )
+, SchemaEntry("ifcrampflighttype",&STEP::ObjectHelper<IfcRampFlightType,1>::Construct )
+, SchemaEntry("ifcmember",&STEP::ObjectHelper<IfcMember,0>::Construct )
+, SchemaEntry("ifcstructuralloadplanarforce",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctubebundletype",&STEP::ObjectHelper<IfcTubeBundleType,1>::Construct )
+, SchemaEntry("ifcvalvetype",&STEP::ObjectHelper<IfcValveType,1>::Construct )
+, SchemaEntry("ifcexternallydefinedtextfont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctrimmedcurve",&STEP::ObjectHelper<IfcTrimmedCurve,5>::Construct )
+, SchemaEntry("ifcreldefines",&STEP::ObjectHelper<IfcRelDefines,1>::Construct )
+, SchemaEntry("ifcreldefinesbyproperties",&STEP::ObjectHelper<IfcRelDefinesByProperties,1>::Construct )
+, SchemaEntry("ifcrelassignstocontrol",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcactor",&STEP::ObjectHelper<IfcActor,1>::Construct )
+, SchemaEntry("ifcoccupant",&STEP::ObjectHelper<IfcOccupant,1>::Construct )
+, SchemaEntry("ifchumidifiertype",&STEP::ObjectHelper<IfcHumidifierType,1>::Construct )
+, SchemaEntry("ifcarbitraryopenprofiledef",&STEP::ObjectHelper<IfcArbitraryOpenProfileDef,1>::Construct )
+, SchemaEntry("ifcrelassignstoprojectorder",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpermit",&STEP::ObjectHelper<IfcPermit,1>::Construct )
+, SchemaEntry("ifcoffsetcurve3d",&STEP::ObjectHelper<IfcOffsetCurve3D,4>::Construct )
+, SchemaEntry("ifclightsource",&STEP::ObjectHelper<IfcLightSource,4>::Construct )
+, SchemaEntry("ifclightsourcepositional",&STEP::ObjectHelper<IfcLightSourcePositional,5>::Construct )
+, SchemaEntry("ifcsurfacetexture",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcblobtexture",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccompositeprofiledef",&STEP::ObjectHelper<IfcCompositeProfileDef,2>::Construct )
+, SchemaEntry("ifcdocumentinformation",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsurfacestylelighting",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcphysicalsimplequantity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcquantityarea",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctimeseries",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcclassificationnotation",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcramp",&STEP::ObjectHelper<IfcRamp,1>::Construct )
+, SchemaEntry("ifcpredefineditem",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpredefinedcurvefont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpredefinedcolour",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccurrencyrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcflowmovingdevice",&STEP::ObjectHelper<IfcFlowMovingDevice,0>::Construct )
+, SchemaEntry("ifcspaceheatertype",&STEP::ObjectHelper<IfcSpaceHeaterType,1>::Construct )
+, SchemaEntry("ifclamptype",&STEP::ObjectHelper<IfcLampType,1>::Construct )
+, SchemaEntry("ifcbuildingelementcomponent",&STEP::ObjectHelper<IfcBuildingElementComponent,0>::Construct )
+, SchemaEntry("ifcreinforcingelement",&STEP::ObjectHelper<IfcReinforcingElement,1>::Construct )
+, SchemaEntry("ifcreinforcingbar",&STEP::ObjectHelper<IfcReinforcingBar,5>::Construct )
+, SchemaEntry("ifcelectricheatertype",&STEP::ObjectHelper<IfcElectricHeaterType,1>::Construct )
+, SchemaEntry("ifctshapeprofiledef",&STEP::ObjectHelper<IfcTShapeProfileDef,10>::Construct )
+, SchemaEntry("ifcconstraint",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcobjective",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralactivity",&STEP::ObjectHelper<IfcStructuralActivity,2>::Construct )
+, SchemaEntry("ifcstructuralaction",&STEP::ObjectHelper<IfcStructuralAction,2>::Construct )
+, SchemaEntry("ifctexturecoordinate",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctexturemap",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmonetaryunit",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcquantitytime",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctablerow",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifclightdistributiondata",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcductfittingtype",&STEP::ObjectHelper<IfcDuctFittingType,1>::Construct )
+, SchemaEntry("ifccartesiantransformationoperator2d",&STEP::ObjectHelper<IfcCartesianTransformationOperator2D,0>::Construct )
+, SchemaEntry("ifccartesiantransformationoperator2dnonuniform",&STEP::ObjectHelper<IfcCartesianTransformationOperator2DnonUniform,1>::Construct )
+, SchemaEntry("ifcclassificationnotationfacet",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociatesapproval",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdraughtingpredefinedcurvefont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadsingleforce",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadsingleforcewarping",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccurvestylefontandscaling",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcvirtualelement",&STEP::ObjectHelper<IfcVirtualElement,0>::Construct )
+, SchemaEntry("ifcrightcircularcylinder",&STEP::ObjectHelper<IfcRightCircularCylinder,2>::Construct )
+, SchemaEntry("ifcoutlettype",&STEP::ObjectHelper<IfcOutletType,1>::Construct )
+, SchemaEntry("ifcreldecomposes",&STEP::ObjectHelper<IfcRelDecomposes,2>::Construct )
+, SchemaEntry("ifcrelnests",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccovering",&STEP::ObjectHelper<IfcCovering,1>::Construct )
+, SchemaEntry("ifcexternallydefinedsymbol",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcirregulartimeseries",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpolyline",&STEP::ObjectHelper<IfcPolyline,1>::Construct )
+, SchemaEntry("ifcpath",&STEP::ObjectHelper<IfcPath,1>::Construct )
+, SchemaEntry("ifcelementcomponent",&STEP::ObjectHelper<IfcElementComponent,0>::Construct )
+, SchemaEntry("ifcfastener",&STEP::ObjectHelper<IfcFastener,0>::Construct )
+, SchemaEntry("ifcmappeditem",&STEP::ObjectHelper<IfcMappedItem,2>::Construct )
+, SchemaEntry("ifcmetric",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdocumentreference",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsectionproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrectangularpyramid",&STEP::ObjectHelper<IfcRectangularPyramid,3>::Construct )
+, SchemaEntry("ifcrelreferencedinspatialstructure",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccrewresource",&STEP::ObjectHelper<IfcCrewResource,0>::Construct )
+, SchemaEntry("ifcnamedunit",&STEP::ObjectHelper<IfcNamedUnit,2>::Construct )
+, SchemaEntry("ifccontextdependentunit",&STEP::ObjectHelper<IfcContextDependentUnit,1>::Construct )
+, SchemaEntry("ifcunitaryequipmenttype",&STEP::ObjectHelper<IfcUnitaryEquipmentType,1>::Construct )
+, SchemaEntry("ifcroof",&STEP::ObjectHelper<IfcRoof,1>::Construct )
+, SchemaEntry("ifcrelassignstasks",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralmember",&STEP::ObjectHelper<IfcStructuralMember,0>::Construct )
+, SchemaEntry("ifcrelconnectsports",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstylemodel",&STEP::ObjectHelper<IfcStyleModel,0>::Construct )
+, SchemaEntry("ifcstyledrepresentation",&STEP::ObjectHelper<IfcStyledRepresentation,0>::Construct )
+, SchemaEntry("ifcspatialstructureelement",&STEP::ObjectHelper<IfcSpatialStructureElement,2>::Construct )
+, SchemaEntry("ifcbuilding",&STEP::ObjectHelper<IfcBuilding,3>::Construct )
+, SchemaEntry("ifcconnectedfaceset",&STEP::ObjectHelper<IfcConnectedFaceSet,1>::Construct )
+, SchemaEntry("ifcopenshell",&STEP::ObjectHelper<IfcOpenShell,0>::Construct )
+, SchemaEntry("ifcfacetedbrep",&STEP::ObjectHelper<IfcFacetedBrep,0>::Construct )
+, SchemaEntry("ifclocaltime",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmechanicalconcretematerialproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconic",&STEP::ObjectHelper<IfcConic,1>::Construct )
+, SchemaEntry("ifccoveringtype",&STEP::ObjectHelper<IfcCoveringType,1>::Construct )
+, SchemaEntry("ifcroundedrectangleprofiledef",&STEP::ObjectHelper<IfcRoundedRectangleProfileDef,1>::Construct )
+, SchemaEntry("ifcairterminaltype",&STEP::ObjectHelper<IfcAirTerminalType,1>::Construct )
+, SchemaEntry("ifcflowmovingdevicetype",&STEP::ObjectHelper<IfcFlowMovingDeviceType,0>::Construct )
+, SchemaEntry("ifccompressortype",&STEP::ObjectHelper<IfcCompressorType,1>::Construct )
+, SchemaEntry("ifcwindowpanelproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpredefinedsymbol",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpredefinedterminatorsymbol",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcishapeprofiledef",&STEP::ObjectHelper<IfcIShapeProfileDef,5>::Construct )
+, SchemaEntry("ifcasymmetricishapeprofiledef",&STEP::ObjectHelper<IfcAsymmetricIShapeProfileDef,4>::Construct )
+, SchemaEntry("ifccontrollertype",&STEP::ObjectHelper<IfcControllerType,1>::Construct )
+, SchemaEntry("ifcrailing",&STEP::ObjectHelper<IfcRailing,1>::Construct )
+, SchemaEntry("ifcgroup",&STEP::ObjectHelper<IfcGroup,0>::Construct )
+, SchemaEntry("ifcasset",&STEP::ObjectHelper<IfcAsset,9>::Construct )
+, SchemaEntry("ifcmaterialdefinitionrepresentation",&STEP::ObjectHelper<IfcMaterialDefinitionRepresentation,1>::Construct )
+, SchemaEntry("ifccurvestylefontpattern",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcapprovalpropertyrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrailingtype",&STEP::ObjectHelper<IfcRailingType,1>::Construct )
+, SchemaEntry("ifcwall",&STEP::ObjectHelper<IfcWall,0>::Construct )
+, SchemaEntry("ifcclassificationitem",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralpointconnection",&STEP::ObjectHelper<IfcStructuralPointConnection,0>::Construct )
+, SchemaEntry("ifcconnectiongeometry",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconnectionpointgeometry",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctimeseriesvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpropertylistvalue",&STEP::ObjectHelper<IfcPropertyListValue,2>::Construct )
+, SchemaEntry("ifcfurniturestandard",&STEP::ObjectHelper<IfcFurnitureStandard,0>::Construct )
+, SchemaEntry("ifcrelschedulescostitems",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcelectricgeneratortype",&STEP::ObjectHelper<IfcElectricGeneratorType,1>::Construct )
+, SchemaEntry("ifcdoor",&STEP::ObjectHelper<IfcDoor,2>::Construct )
+, SchemaEntry("ifcstyleditem",&STEP::ObjectHelper<IfcStyledItem,3>::Construct )
+, SchemaEntry("ifcannotationoccurrence",&STEP::ObjectHelper<IfcAnnotationOccurrence,0>::Construct )
+, SchemaEntry("ifcannotationsymboloccurrence",&STEP::ObjectHelper<IfcAnnotationSymbolOccurrence,0>::Construct )
+, SchemaEntry("ifcarbitraryclosedprofiledef",&STEP::ObjectHelper<IfcArbitraryClosedProfileDef,1>::Construct )
+, SchemaEntry("ifcarbitraryprofiledefwithvoids",&STEP::ObjectHelper<IfcArbitraryProfileDefWithVoids,1>::Construct )
+, SchemaEntry("ifcline",&STEP::ObjectHelper<IfcLine,2>::Construct )
+, SchemaEntry("ifcmateriallayerset",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcflowsegmenttype",&STEP::ObjectHelper<IfcFlowSegmentType,0>::Construct )
+, SchemaEntry("ifcairterminalboxtype",&STEP::ObjectHelper<IfcAirTerminalBoxType,1>::Construct )
+, SchemaEntry("ifcrelconnectsstructuralmember",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpropertysinglevalue",&STEP::ObjectHelper<IfcPropertySingleValue,2>::Construct )
+, SchemaEntry("ifcalarmtype",&STEP::ObjectHelper<IfcAlarmType,1>::Construct )
+, SchemaEntry("ifcellipseprofiledef",&STEP::ObjectHelper<IfcEllipseProfileDef,2>::Construct )
+, SchemaEntry("ifcstair",&STEP::ObjectHelper<IfcStair,1>::Construct )
+, SchemaEntry("ifcpredefinedtextfont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctextstylefontmodel",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsurfacestyleshading",&STEP::ObjectHelper<IfcSurfaceStyleShading,1>::Construct )
+, SchemaEntry("ifcpumptype",&STEP::ObjectHelper<IfcPumpType,1>::Construct )
+, SchemaEntry("ifcdefinedsymbol",&STEP::ObjectHelper<IfcDefinedSymbol,2>::Construct )
+, SchemaEntry("ifcclassificationitemrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcgeneralmaterialproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcelementcomponenttype",&STEP::ObjectHelper<IfcElementComponentType,0>::Construct )
+, SchemaEntry("ifcfastenertype",&STEP::ObjectHelper<IfcFastenerType,0>::Construct )
+, SchemaEntry("ifcmechanicalfastenertype",&STEP::ObjectHelper<IfcMechanicalFastenerType,0>::Construct )
+, SchemaEntry("ifcpermeablecoveringproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcflowfitting",&STEP::ObjectHelper<IfcFlowFitting,0>::Construct )
+, SchemaEntry("ifcapproval",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcshapeaspect",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconstraintclassificationrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifclightsourcedirectional",&STEP::ObjectHelper<IfcLightSourceDirectional,1>::Construct )
+, SchemaEntry("ifcsurfacestyle",&STEP::ObjectHelper<IfcSurfaceStyle,2>::Construct )
+, SchemaEntry("ifcrelconnectsstructuralactivity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociatesprofileproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcannotationsurface",&STEP::ObjectHelper<IfcAnnotationSurface,2>::Construct )
+, SchemaEntry("ifcfuelproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcflowcontroller",&STEP::ObjectHelper<IfcFlowController,0>::Construct )
+, SchemaEntry("ifcfailureconnectioncondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcbuildingstorey",&STEP::ObjectHelper<IfcBuildingStorey,1>::Construct )
+, SchemaEntry("ifcworkcontrol",&STEP::ObjectHelper<IfcWorkControl,10>::Construct )
+, SchemaEntry("ifcworkschedule",&STEP::ObjectHelper<IfcWorkSchedule,0>::Construct )
+, SchemaEntry("ifctable",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcductsegmenttype",&STEP::ObjectHelper<IfcDuctSegmentType,1>::Construct )
+, SchemaEntry("ifcstructuralsteelprofileproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdraughtingpredefinedtextfont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcface",&STEP::ObjectHelper<IfcFace,1>::Construct )
+, SchemaEntry("ifcstructuralsurfacemember",&STEP::ObjectHelper<IfcStructuralSurfaceMember,2>::Construct )
+, SchemaEntry("ifcstructuralsurfacemembervarying",&STEP::ObjectHelper<IfcStructuralSurfaceMemberVarying,2>::Construct )
+, SchemaEntry("ifcfacesurface",&STEP::ObjectHelper<IfcFaceSurface,2>::Construct )
+, SchemaEntry("ifcclassification",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmateriallist",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccostschedule",&STEP::ObjectHelper<IfcCostSchedule,8>::Construct )
+, SchemaEntry("ifccoordinateduniversaltimeoffset",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcplanarextent",&STEP::ObjectHelper<IfcPlanarExtent,2>::Construct )
+, SchemaEntry("ifcplanarbox",&STEP::ObjectHelper<IfcPlanarBox,1>::Construct )
+, SchemaEntry("ifcfillareastyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsectionreinforcementproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccolourspecification",&STEP::ObjectHelper<IfcColourSpecification,1>::Construct )
+, SchemaEntry("ifcvector",&STEP::ObjectHelper<IfcVector,2>::Construct )
+, SchemaEntry("ifcbeam",&STEP::ObjectHelper<IfcBeam,0>::Construct )
+, SchemaEntry("ifccolourrgb",&STEP::ObjectHelper<IfcColourRgb,3>::Construct )
+, SchemaEntry("ifcstructuralplanaraction",&STEP::ObjectHelper<IfcStructuralPlanarAction,1>::Construct )
+, SchemaEntry("ifcstructuralplanaractionvarying",&STEP::ObjectHelper<IfcStructuralPlanarActionVarying,2>::Construct )
+, SchemaEntry("ifcsite",&STEP::ObjectHelper<IfcSite,5>::Construct )
+, SchemaEntry("ifcdiscreteaccessorytype",&STEP::ObjectHelper<IfcDiscreteAccessoryType,0>::Construct )
+, SchemaEntry("ifcvibrationisolatortype",&STEP::ObjectHelper<IfcVibrationIsolatorType,1>::Construct )
+, SchemaEntry("ifcevaporativecoolertype",&STEP::ObjectHelper<IfcEvaporativeCoolerType,1>::Construct )
+, SchemaEntry("ifcdistributionchamberelementtype",&STEP::ObjectHelper<IfcDistributionChamberElementType,1>::Construct )
+, SchemaEntry("ifcfeatureelementaddition",&STEP::ObjectHelper<IfcFeatureElementAddition,0>::Construct )
+, SchemaEntry("ifcrelassignstoresource",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructureddimensioncallout",&STEP::ObjectHelper<IfcStructuredDimensionCallout,0>::Construct )
+, SchemaEntry("ifccoolingtowertype",&STEP::ObjectHelper<IfcCoolingTowerType,1>::Construct )
+, SchemaEntry("ifccenterlineprofiledef",&STEP::ObjectHelper<IfcCenterLineProfileDef,1>::Construct )
+, SchemaEntry("ifctexturevertex",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcorganization",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcwindowstyle",&STEP::ObjectHelper<IfcWindowStyle,4>::Construct )
+, SchemaEntry("ifclightsourcegoniometric",&STEP::ObjectHelper<IfcLightSourceGoniometric,6>::Construct )
+, SchemaEntry("ifcribplateprofileproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctransformertype",&STEP::ObjectHelper<IfcTransformerType,1>::Construct )
+, SchemaEntry("ifcmembertype",&STEP::ObjectHelper<IfcMemberType,1>::Construct )
+, SchemaEntry("ifcsurfaceoflinearextrusion",&STEP::ObjectHelper<IfcSurfaceOfLinearExtrusion,2>::Construct )
+, SchemaEntry("ifcmotorconnectiontype",&STEP::ObjectHelper<IfcMotorConnectionType,1>::Construct )
+, SchemaEntry("ifcflowtreatmentdevicetype",&STEP::ObjectHelper<IfcFlowTreatmentDeviceType,0>::Construct )
+, SchemaEntry("ifcductsilencertype",&STEP::ObjectHelper<IfcDuctSilencerType,1>::Construct )
+, SchemaEntry("ifcwindowliningproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcfurnishingelementtype",&STEP::ObjectHelper<IfcFurnishingElementType,0>::Construct )
+, SchemaEntry("ifcsystemfurnitureelementtype",&STEP::ObjectHelper<IfcSystemFurnitureElementType,0>::Construct )
+, SchemaEntry("ifcconnectionpointeccentricity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcwasteterminaltype",&STEP::ObjectHelper<IfcWasteTerminalType,1>::Construct )
+, SchemaEntry("ifcbsplinecurve",&STEP::ObjectHelper<IfcBSplineCurve,5>::Construct )
+, SchemaEntry("ifcbeziercurve",&STEP::ObjectHelper<IfcBezierCurve,0>::Construct )
+, SchemaEntry("ifcdocumentinformationrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcactuatortype",&STEP::ObjectHelper<IfcActuatorType,1>::Construct )
+, SchemaEntry("ifcdistributioncontrolelement",&STEP::ObjectHelper<IfcDistributionControlElement,1>::Construct )
+, SchemaEntry("ifcannotation",&STEP::ObjectHelper<IfcAnnotation,0>::Construct )
+, SchemaEntry("ifcrelassociatesdocument",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdoorliningproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcshellbasedsurfacemodel",&STEP::ObjectHelper<IfcShellBasedSurfaceModel,1>::Construct )
+, SchemaEntry("ifcactionrequest",&STEP::ObjectHelper<IfcActionRequest,1>::Construct )
+, SchemaEntry("ifcextrudedareasolid",&STEP::ObjectHelper<IfcExtrudedAreaSolid,2>::Construct )
+, SchemaEntry("ifcsystem",&STEP::ObjectHelper<IfcSystem,0>::Construct )
+, SchemaEntry("ifcfillareastylehatching",&STEP::ObjectHelper<IfcFillAreaStyleHatching,5>::Construct )
+, SchemaEntry("ifcrelvoidselement",&STEP::ObjectHelper<IfcRelVoidsElement,2>::Construct )
+, SchemaEntry("ifcrelconnectspathelements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelspaceboundary",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsurfacecurvesweptareasolid",&STEP::ObjectHelper<IfcSurfaceCurveSweptAreaSolid,4>::Construct )
+, SchemaEntry("ifccartesiantransformationoperator3dnonuniform",&STEP::ObjectHelper<IfcCartesianTransformationOperator3DnonUniform,2>::Construct )
+, SchemaEntry("ifcrelinteractionrequirements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccurtainwalltype",&STEP::ObjectHelper<IfcCurtainWallType,1>::Construct )
+, SchemaEntry("ifcquantitylength",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcequipmentstandard",&STEP::ObjectHelper<IfcEquipmentStandard,0>::Construct )
+, SchemaEntry("ifcflowstoragedevicetype",&STEP::ObjectHelper<IfcFlowStorageDeviceType,0>::Construct )
+, SchemaEntry("ifcvirtualgridintersection",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdiameterdimension",&STEP::ObjectHelper<IfcDiameterDimension,0>::Construct )
+, SchemaEntry("ifcswitchingdevicetype",&STEP::ObjectHelper<IfcSwitchingDeviceType,1>::Construct )
+, SchemaEntry("ifcaddress",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctelecomaddress",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcwindow",&STEP::ObjectHelper<IfcWindow,2>::Construct )
+, SchemaEntry("ifcmechanicalsteelmaterialproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcflowtreatmentdevice",&STEP::ObjectHelper<IfcFlowTreatmentDevice,0>::Construct )
+, SchemaEntry("ifcrelservicesbuildings",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcchillertype",&STEP::ObjectHelper<IfcChillerType,1>::Construct )
+, SchemaEntry("ifcrelassignstoproduct",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrectanglehollowprofiledef",&STEP::ObjectHelper<IfcRectangleHollowProfileDef,3>::Construct )
+, SchemaEntry("ifcenergyproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcboxedhalfspace",&STEP::ObjectHelper<IfcBoxedHalfSpace,1>::Construct )
+, SchemaEntry("ifcaxis2placement2d",&STEP::ObjectHelper<IfcAxis2Placement2D,1>::Construct )
+, SchemaEntry("ifcspaceprogram",&STEP::ObjectHelper<IfcSpaceProgram,5>::Construct )
+, SchemaEntry("ifcpoint",&STEP::ObjectHelper<IfcPoint,0>::Construct )
+, SchemaEntry("ifccartesianpoint",&STEP::ObjectHelper<IfcCartesianPoint,1>::Construct )
+, SchemaEntry("ifcboundedsurface",&STEP::ObjectHelper<IfcBoundedSurface,0>::Construct )
+, SchemaEntry("ifcloop",&STEP::ObjectHelper<IfcLoop,0>::Construct )
+, SchemaEntry("ifcpolyloop",&STEP::ObjectHelper<IfcPolyLoop,1>::Construct )
+, SchemaEntry("ifcpredefinedpointmarkersymbol",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcterminatorsymbol",&STEP::ObjectHelper<IfcTerminatorSymbol,1>::Construct )
+, SchemaEntry("ifcdimensioncurveterminator",&STEP::ObjectHelper<IfcDimensionCurveTerminator,1>::Construct )
+, SchemaEntry("ifcrelprojectselement",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctrapeziumprofiledef",&STEP::ObjectHelper<IfcTrapeziumProfileDef,4>::Construct )
+, SchemaEntry("ifcrepresentationcontext",&STEP::ObjectHelper<IfcRepresentationContext,2>::Construct )
+, SchemaEntry("ifcgeometricrepresentationcontext",&STEP::ObjectHelper<IfcGeometricRepresentationContext,4>::Construct )
+, SchemaEntry("ifctextstylewithboxcharacteristics",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccurveboundedplane",&STEP::ObjectHelper<IfcCurveBoundedPlane,3>::Construct )
+, SchemaEntry("ifcquantitycount",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctimeseriesreferencerelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadtemperature",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsiunit",&STEP::ObjectHelper<IfcSIUnit,2>::Construct )
+, SchemaEntry("ifcstructuralreaction",&STEP::ObjectHelper<IfcStructuralReaction,0>::Construct )
+, SchemaEntry("ifcstructuralpointreaction",&STEP::ObjectHelper<IfcStructuralPointReaction,0>::Construct )
+, SchemaEntry("ifcaxis1placement",&STEP::ObjectHelper<IfcAxis1Placement,1>::Construct )
+, SchemaEntry("ifcreinforcementdefinitionproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcelectricappliancetype",&STEP::ObjectHelper<IfcElectricApplianceType,1>::Construct )
+, SchemaEntry("ifcsensortype",&STEP::ObjectHelper<IfcSensorType,1>::Construct )
+, SchemaEntry("ifcfurnishingelement",&STEP::ObjectHelper<IfcFurnishingElement,0>::Construct )
+, SchemaEntry("ifcprotectivedevicetype",&STEP::ObjectHelper<IfcProtectiveDeviceType,1>::Construct )
+, SchemaEntry("ifczshapeprofiledef",&STEP::ObjectHelper<IfcZShapeProfileDef,6>::Construct )
+, SchemaEntry("ifcscheduletimecontrol",&STEP::ObjectHelper<IfcScheduleTimeControl,18>::Construct )
+, SchemaEntry("ifcrepresentationmap",&STEP::ObjectHelper<IfcRepresentationMap,2>::Construct )
+, SchemaEntry("ifcclosedshell",&STEP::ObjectHelper<IfcClosedShell,0>::Construct )
+, SchemaEntry("ifcbuildingelementpart",&STEP::ObjectHelper<IfcBuildingElementPart,0>::Construct )
+, SchemaEntry("ifcdraughtingpredefinedcolour",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpostaladdress",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcblock",&STEP::ObjectHelper<IfcBlock,3>::Construct )
+, SchemaEntry("ifclightfixturetype",&STEP::ObjectHelper<IfcLightFixtureType,1>::Construct )
+, SchemaEntry("ifcopeningelement",&STEP::ObjectHelper<IfcOpeningElement,0>::Construct )
+, SchemaEntry("ifclightsourcespot",&STEP::ObjectHelper<IfcLightSourceSpot,4>::Construct )
+, SchemaEntry("ifctendonanchor",&STEP::ObjectHelper<IfcTendonAnchor,0>::Construct )
+, SchemaEntry("ifcsurfacestylerefraction",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcelectricflowstoragedevicetype",&STEP::ObjectHelper<IfcElectricFlowStorageDeviceType,1>::Construct )
+, SchemaEntry("ifcfluidflowproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsphere",&STEP::ObjectHelper<IfcSphere,1>::Construct )
+, SchemaEntry("ifcrelassociatesappliedvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdampertype",&STEP::ObjectHelper<IfcDamperType,1>::Construct )
+, SchemaEntry("ifcprojectorderrecord",&STEP::ObjectHelper<IfcProjectOrderRecord,2>::Construct )
+, SchemaEntry("ifcdimensionalexponents",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcreldefinesbytype",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdistributionchamberelement",&STEP::ObjectHelper<IfcDistributionChamberElement,0>::Construct )
+, SchemaEntry("ifcmechanicalfastener",&STEP::ObjectHelper<IfcMechanicalFastener,2>::Construct )
+, SchemaEntry("ifcquantityvolume",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrectangulartrimmedsurface",&STEP::ObjectHelper<IfcRectangularTrimmedSurface,7>::Construct )
+, SchemaEntry("ifcdateandtime",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifczone",&STEP::ObjectHelper<IfcZone,0>::Construct )
+, SchemaEntry("ifcfantype",&STEP::ObjectHelper<IfcFanType,1>::Construct )
+, SchemaEntry("ifcgeometricset",&STEP::ObjectHelper<IfcGeometricSet,1>::Construct )
+, SchemaEntry("ifcfillareastyletiles",&STEP::ObjectHelper<IfcFillAreaStyleTiles,3>::Construct )
+, SchemaEntry("ifcpixeltexture",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccablesegmenttype",&STEP::ObjectHelper<IfcCableSegmentType,1>::Construct )
+, SchemaEntry("ifcreloverridesproperties",&STEP::ObjectHelper<IfcRelOverridesProperties,1>::Construct )
+, SchemaEntry("ifcmeasurewithunit",&STEP::ObjectHelper<IfcMeasureWithUnit,2>::Construct )
+, SchemaEntry("ifcslabtype",&STEP::ObjectHelper<IfcSlabType,1>::Construct )
+, SchemaEntry("ifcservicelife",&STEP::ObjectHelper<IfcServiceLife,2>::Construct )
+, SchemaEntry("ifcfurnituretype",&STEP::ObjectHelper<IfcFurnitureType,1>::Construct )
+, SchemaEntry("ifccostitem",&STEP::ObjectHelper<IfcCostItem,0>::Construct )
+, SchemaEntry("ifcreinforcingmesh",&STEP::ObjectHelper<IfcReinforcingMesh,8>::Construct )
+, SchemaEntry("ifcextendedmaterialproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcactorrole",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcfacetedbrepwithvoids",&STEP::ObjectHelper<IfcFacetedBrepWithVoids,1>::Construct )
+, SchemaEntry("ifcconstraintaggregationrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcgasterminaltype",&STEP::ObjectHelper<IfcGasTerminalType,1>::Construct )
+, SchemaEntry("ifcrelconnectswitheccentricity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpile",&STEP::ObjectHelper<IfcPile,2>::Construct )
+, SchemaEntry("ifcfillareastyletilesymbolwithstyle",&STEP::ObjectHelper<IfcFillAreaStyleTileSymbolWithStyle,1>::Construct )
+, SchemaEntry("ifcelectricalbaseproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconstructionmaterialresource",&STEP::ObjectHelper<IfcConstructionMaterialResource,2>::Construct )
+, SchemaEntry("ifcannotationcurveoccurrence",&STEP::ObjectHelper<IfcAnnotationCurveOccurrence,0>::Construct )
+, SchemaEntry("ifcdimensioncurve",&STEP::ObjectHelper<IfcDimensionCurve,0>::Construct )
+, SchemaEntry("ifcgeometriccurveset",&STEP::ObjectHelper<IfcGeometricCurveSet,0>::Construct )
+, SchemaEntry("ifcrelaggregates",&STEP::ObjectHelper<IfcRelAggregates,0>::Construct )
+, SchemaEntry("ifcfacebasedsurfacemodel",&STEP::ObjectHelper<IfcFaceBasedSurfaceModel,1>::Construct )
+, SchemaEntry("ifcenergyconversiondevice",&STEP::ObjectHelper<IfcEnergyConversionDevice,0>::Construct )
+, SchemaEntry("ifcrampflight",&STEP::ObjectHelper<IfcRampFlight,0>::Construct )
+, SchemaEntry("ifcpropertyenumeration",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcvertexloop",&STEP::ObjectHelper<IfcVertexLoop,1>::Construct )
+, SchemaEntry("ifcplate",&STEP::ObjectHelper<IfcPlate,0>::Construct )
+, SchemaEntry("ifcushapeprofiledef",&STEP::ObjectHelper<IfcUShapeProfileDef,8>::Construct )
+, SchemaEntry("ifchygroscopicmaterialproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcfacebound",&STEP::ObjectHelper<IfcFaceBound,2>::Construct )
+, SchemaEntry("ifcfaceouterbound",&STEP::ObjectHelper<IfcFaceOuterBound,0>::Construct )
+, SchemaEntry("ifconedirectionrepeatfactor",&STEP::ObjectHelper<IfcOneDirectionRepeatFactor,1>::Construct )
+, SchemaEntry("ifcboilertype",&STEP::ObjectHelper<IfcBoilerType,1>::Construct )
+, SchemaEntry("ifcconstructionequipmentresource",&STEP::ObjectHelper<IfcConstructionEquipmentResource,0>::Construct )
+, SchemaEntry("ifccomplexproperty",&STEP::ObjectHelper<IfcComplexProperty,2>::Construct )
+, SchemaEntry("ifcfooting",&STEP::ObjectHelper<IfcFooting,1>::Construct )
+, SchemaEntry("ifcopticalmaterialproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconstructionproductresource",&STEP::ObjectHelper<IfcConstructionProductResource,0>::Construct )
+, SchemaEntry("ifcboundaryedgecondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcderivedprofiledef",&STEP::ObjectHelper<IfcDerivedProfileDef,3>::Construct )
+, SchemaEntry("ifcpropertytablevalue",&STEP::ObjectHelper<IfcPropertyTableValue,5>::Construct )
+, SchemaEntry("ifcrelassignstogroup",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcflowmetertype",&STEP::ObjectHelper<IfcFlowMeterType,1>::Construct )
+, SchemaEntry("ifcdoorstyle",&STEP::ObjectHelper<IfcDoorStyle,4>::Construct )
+, SchemaEntry("ifcrelconnectsporttoelement",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociatesclassification",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcunitassignment",&STEP::ObjectHelper<IfcUnitAssignment,1>::Construct )
+, SchemaEntry("ifcflowterminal",&STEP::ObjectHelper<IfcFlowTerminal,0>::Construct )
+, SchemaEntry("ifccranerailfshapeprofiledef",&STEP::ObjectHelper<IfcCraneRailFShapeProfileDef,9>::Construct )
+, SchemaEntry("ifcflowsegment",&STEP::ObjectHelper<IfcFlowSegment,0>::Construct )
+, SchemaEntry("ifcelementquantity",&STEP::ObjectHelper<IfcElementQuantity,2>::Construct )
+, SchemaEntry("ifcboundarynodecondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcboundarynodeconditionwarping",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccurtainwall",&STEP::ObjectHelper<IfcCurtainWall,0>::Construct )
+, SchemaEntry("ifcdiscreteaccessory",&STEP::ObjectHelper<IfcDiscreteAccessory,0>::Construct )
+, SchemaEntry("ifcgrid",&STEP::ObjectHelper<IfcGrid,3>::Construct )
+, SchemaEntry("ifcsanitaryterminaltype",&STEP::ObjectHelper<IfcSanitaryTerminalType,1>::Construct )
+, SchemaEntry("ifcsoundproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsubedge",&STEP::ObjectHelper<IfcSubedge,1>::Construct )
+, SchemaEntry("ifctextstyletextmodel",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcfiltertype",&STEP::ObjectHelper<IfcFilterType,1>::Construct )
+, SchemaEntry("ifcsymbolstyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctendon",&STEP::ObjectHelper<IfcTendon,8>::Construct )
+, SchemaEntry("ifcdimensionpair",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadgroup",&STEP::ObjectHelper<IfcStructuralLoadGroup,5>::Construct )
+, SchemaEntry("ifcpresentationstyleassignment",&STEP::ObjectHelper<IfcPresentationStyleAssignment,1>::Construct )
+, SchemaEntry("ifcregulartimeseries",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralcurvemember",&STEP::ObjectHelper<IfcStructuralCurveMember,1>::Construct )
+, SchemaEntry("ifclightsourceambient",&STEP::ObjectHelper<IfcLightSourceAmbient,0>::Construct )
+, SchemaEntry("ifccondition",&STEP::ObjectHelper<IfcCondition,0>::Construct )
+, SchemaEntry("ifcport",&STEP::ObjectHelper<IfcPort,0>::Construct )
+, SchemaEntry("ifcspace",&STEP::ObjectHelper<IfcSpace,2>::Construct )
+, SchemaEntry("ifcheatexchangertype",&STEP::ObjectHelper<IfcHeatExchangerType,1>::Construct )
+, SchemaEntry("ifctanktype",&STEP::ObjectHelper<IfcTankType,1>::Construct )
+, SchemaEntry("ifcinventory",&STEP::ObjectHelper<IfcInventory,6>::Construct )
+, SchemaEntry("ifctextstyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcappliedvaluerelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsoundvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctransportelementtype",&STEP::ObjectHelper<IfcTransportElementType,1>::Construct )
+, SchemaEntry("ifcairtoairheatrecoverytype",&STEP::ObjectHelper<IfcAirToAirHeatRecoveryType,1>::Construct )
+, SchemaEntry("ifcstairflight",&STEP::ObjectHelper<IfcStairFlight,4>::Construct )
+, SchemaEntry("ifcelectricalelement",&STEP::ObjectHelper<IfcElectricalElement,0>::Construct )
+, SchemaEntry("ifclightintensitydistribution",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcclassificationreference",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsurfacestylewithtextures",&STEP::ObjectHelper<IfcSurfaceStyleWithTextures,1>::Construct )
+, SchemaEntry("ifcboundingbox",&STEP::ObjectHelper<IfcBoundingBox,4>::Construct )
+, SchemaEntry("ifcapplication",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcwalltype",&STEP::ObjectHelper<IfcWallType,1>::Construct )
+, SchemaEntry("ifcmove",&STEP::ObjectHelper<IfcMove,3>::Construct )
+, SchemaEntry("ifccircle",&STEP::ObjectHelper<IfcCircle,1>::Construct )
+, SchemaEntry("ifcoffsetcurve2d",&STEP::ObjectHelper<IfcOffsetCurve2D,3>::Construct )
+, SchemaEntry("ifcmateriallayersetusage",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpointoncurve",&STEP::ObjectHelper<IfcPointOnCurve,2>::Construct )
+, SchemaEntry("ifcstructuralresultgroup",&STEP::ObjectHelper<IfcStructuralResultGroup,3>::Construct )
+, SchemaEntry("ifcsectionedspine",&STEP::ObjectHelper<IfcSectionedSpine,3>::Construct )
+, SchemaEntry("ifcslab",&STEP::ObjectHelper<IfcSlab,1>::Construct )
+, SchemaEntry("ifcconnectionportgeometry",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcquantityweight",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociatesmaterial",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcvertex",&STEP::ObjectHelper<IfcVertex,0>::Construct )
+, SchemaEntry("ifcvertexpoint",&STEP::ObjectHelper<IfcVertexPoint,1>::Construct )
+, SchemaEntry("ifcreferencesvaluedocument",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpersonandorganization",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelflowcontrolelements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassignstoprocess",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructurallinearaction",&STEP::ObjectHelper<IfcStructuralLinearAction,1>::Construct )
+, SchemaEntry("ifcstructurallinearactionvarying",&STEP::ObjectHelper<IfcStructuralLinearActionVarying,2>::Construct )
+, SchemaEntry("ifcbuildingelementproxytype",&STEP::ObjectHelper<IfcBuildingElementProxyType,1>::Construct )
+, SchemaEntry("ifcprojectionelement",&STEP::ObjectHelper<IfcProjectionElement,0>::Construct )
+, SchemaEntry("ifcderivedunit",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcapprovalactorrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconversionbasedunit",&STEP::ObjectHelper<IfcConversionBasedUnit,2>::Construct )
+, SchemaEntry("ifcmaterial",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcgeometricrepresentationsubcontext",&STEP::ObjectHelper<IfcGeometricRepresentationSubContext,4>::Construct )
+, SchemaEntry("ifcannotationsurfaceoccurrence",&STEP::ObjectHelper<IfcAnnotationSurfaceOccurrence,0>::Construct )
+, SchemaEntry("ifcpredefineddimensionsymbol",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcroundededgefeature",&STEP::ObjectHelper<IfcRoundedEdgeFeature,1>::Construct )
+, SchemaEntry("ifcrelcoversbldgelements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcelectricdistributionpoint",&STEP::ObjectHelper<IfcElectricDistributionPoint,2>::Construct )
+, SchemaEntry("ifccablecarriersegmenttype",&STEP::ObjectHelper<IfcCableCarrierSegmentType,1>::Construct )
+, SchemaEntry("ifcstructuralloadlinearforce",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcgridaxis",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcirregulartimeseriesvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcwallstandardcase",&STEP::ObjectHelper<IfcWallStandardCase,0>::Construct )
+, SchemaEntry("ifcreloccupiesspaces",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcderivedunitelement",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccsgsolid",&STEP::ObjectHelper<IfcCsgSolid,1>::Construct )
+, SchemaEntry("ifcbeamtype",&STEP::ObjectHelper<IfcBeamType,1>::Construct )
+, SchemaEntry("ifcannotationfillarea",&STEP::ObjectHelper<IfcAnnotationFillArea,2>::Construct )
+, SchemaEntry("ifcrelaxation",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralcurvemembervarying",&STEP::ObjectHelper<IfcStructuralCurveMemberVarying,0>::Construct )
+, SchemaEntry("ifcpointonsurface",&STEP::ObjectHelper<IfcPointOnSurface,3>::Construct )
+, SchemaEntry("ifcpropertydependencyrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcvertexbasedtexturemap",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcorderaction",&STEP::ObjectHelper<IfcOrderAction,1>::Construct )
+, SchemaEntry("ifclibraryreference",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcedgeloop",&STEP::ObjectHelper<IfcEdgeLoop,1>::Construct )
+, SchemaEntry("ifcannotationfillareaoccurrence",&STEP::ObjectHelper<IfcAnnotationFillAreaOccurrence,2>::Construct )
+, SchemaEntry("ifcrelconnectsstructuralelement",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcworkplan",&STEP::ObjectHelper<IfcWorkPlan,0>::Construct )
+, SchemaEntry("ifcellipse",&STEP::ObjectHelper<IfcEllipse,2>::Construct )
+, SchemaEntry("ifcproductdefinitionshape",&STEP::ObjectHelper<IfcProductDefinitionShape,0>::Construct )
+, SchemaEntry("ifcprojectioncurve",&STEP::ObjectHelper<IfcProjectionCurve,0>::Construct )
+, SchemaEntry("ifcelectricalcircuit",&STEP::ObjectHelper<IfcElectricalCircuit,0>::Construct )
+, SchemaEntry("ifcrationalbeziercurve",&STEP::ObjectHelper<IfcRationalBezierCurve,1>::Construct )
+, SchemaEntry("ifcstructuralpointaction",&STEP::ObjectHelper<IfcStructuralPointAction,0>::Construct )
+, SchemaEntry("ifcservicelifefactor",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcthermalmaterialproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctexturecoordinategenerator",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpipesegmenttype",&STEP::ObjectHelper<IfcPipeSegmentType,1>::Construct )
+, SchemaEntry("ifctwodirectionrepeatfactor",&STEP::ObjectHelper<IfcTwoDirectionRepeatFactor,1>::Construct )
+, SchemaEntry("ifcshaperepresentation",&STEP::ObjectHelper<IfcShapeRepresentation,0>::Construct )
+, SchemaEntry("ifcpropertyset",&STEP::ObjectHelper<IfcPropertySet,1>::Construct )
+, SchemaEntry("ifcsurfacestylerendering",&STEP::ObjectHelper<IfcSurfaceStyleRendering,8>::Construct )
+, SchemaEntry("ifcdistributionport",&STEP::ObjectHelper<IfcDistributionPort,1>::Construct )
+, SchemaEntry("ifcimagetexture",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpipefittingtype",&STEP::ObjectHelper<IfcPipeFittingType,1>::Construct )
+, SchemaEntry("ifctransportelement",&STEP::ObjectHelper<IfcTransportElement,3>::Construct )
+, SchemaEntry("ifcannotationtextoccurrence",&STEP::ObjectHelper<IfcAnnotationTextOccurrence,0>::Construct )
+, SchemaEntry("ifcconnectionsurfacegeometry",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralanalysismodel",&STEP::ObjectHelper<IfcStructuralAnalysisModel,4>::Construct )
+, SchemaEntry("ifcconnectioncurvegeometry",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconditioncriterion",&STEP::ObjectHelper<IfcConditionCriterion,2>::Construct )
+, SchemaEntry("ifcwaterproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmateriallayer",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccostvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+
+ };
+}
+
+// -----------------------------------------------------------------------------------------------------------
+void IFC::Schema_2x3::GetSchema(EXPRESS::ConversionSchema& out) {
+ out = EXPRESS::ConversionSchema(schema_raw_2x3);
+}
+
+namespace STEP {
+
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<NotImplemented>(const STEP::DB& /*db*/, const LIST& /*params*/, NotImplemented* /*in*/)
+{
+ return 0;
+}
+
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRoot>(const DB& db, const LIST& params, IfcRoot* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRoot"); } do { // convert the 'GlobalId' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->GlobalId, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRoot to be a `IfcGloballyUniqueId`")); }
+ } while(0);
+ do { // convert the 'OwnerHistory' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->OwnerHistory, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRoot to be a `IfcOwnerHistory`")); }
+ } while(0);
+ do { // convert the 'Name' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[2]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRoot to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'Description' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRoot,4>::aux_is_derived[3]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Description, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRoot to be a `IfcText`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcObjectDefinition>(const DB& db, const LIST& params, IfcObjectDefinition* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRoot*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcObjectDefinition"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTypeObject>(const DB& db, const LIST& params, IfcTypeObject* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObjectDefinition*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTypeProduct>(const DB& db, const LIST& params, IfcTypeProduct* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementType>(const DB& db, const LIST& params, IfcElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionElementType>(const DB& db, const LIST& params, IfcDistributionElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionFlowElementType>(const DB& db, const LIST& params, IfcDistributionFlowElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowControllerType>(const DB& db, const LIST& params, IfcFlowControllerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricTimeControlType>(const DB& db, const LIST& params, IfcElectricTimeControlType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRepresentation>(const DB& db, const LIST& params, IfcRepresentation* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRepresentation"); } do { // convert the 'ContextOfItems' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->ContextOfItems, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentation to be a `IfcRepresentationContext`")); }
+ } while(0);
+ do { // convert the 'RepresentationIdentifier' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RepresentationIdentifier, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentation to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'RepresentationType' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[2]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RepresentationType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRepresentation to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'Items' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentation,4>::aux_is_derived[3]=true; break; }
+ try { GenericConvert( in->Items, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRepresentation to be a `SET [1:?] OF IfcRepresentationItem`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcShapeModel>(const DB& db, const LIST& params, IfcShapeModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentation*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTopologyRepresentation>(const DB& db, const LIST& params, IfcTopologyRepresentation* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcShapeModel*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelationship>(const DB& db, const LIST& params, IfcRelationship* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRoot*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRelationship"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelConnects>(const DB& db, const LIST& params, IfcRelConnects* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelationship*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRelConnects"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowFittingType>(const DB& db, const LIST& params, IfcFlowFittingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableCarrierFittingType>(const DB& db, const LIST& params, IfcCableCarrierFittingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFittingType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEnergyConversionDeviceType>(const DB& db, const LIST& params, IfcEnergyConversionDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCoilType>(const DB& db, const LIST& params, IfcCoilType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcObject>(const DB& db, const LIST& params, IfcObject* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObjectDefinition*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcObject"); } do { // convert the 'ObjectType' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcObject,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ObjectType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcObject to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcControl>(const DB& db, const LIST& params, IfcControl* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPerformanceHistory>(const DB& db, const LIST& params, IfcPerformanceHistory* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRepresentationItem>(const DB& /*db*/, const LIST& /*params*/, IfcRepresentationItem* /*in*/)
+{
+ size_t base = 0;
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeometricRepresentationItem>(const DB& db, const LIST& params, IfcGeometricRepresentationItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTextLiteral>(const DB& db, const LIST& params, IfcTextLiteral* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTextLiteralWithExtent>(const DB& db, const LIST& params, IfcTextLiteralWithExtent* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTextLiteral*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProductRepresentation>(const DB& db, const LIST& params, IfcProductRepresentation* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcProductRepresentation"); } do { // convert the 'Name' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProductRepresentation,3>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProductRepresentation to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'Description' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProductRepresentation,3>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Description, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProductRepresentation to be a `IfcText`")); }
+ } while(0);
+ do { // convert the 'Representations' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProductRepresentation,3>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->Representations, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcProductRepresentation to be a `LIST [1:?] OF IfcRepresentation`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProduct>(const DB& db, const LIST& params, IfcProduct* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+ if (params.GetSize() < 7) { throw STEP::TypeError("expected 7 arguments to IfcProduct"); } do { // convert the 'ObjectPlacement' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProduct,2>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ObjectPlacement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcProduct to be a `IfcObjectPlacement`")); }
+ } while(0);
+ do { // convert the 'Representation' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProduct,2>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Representation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcProduct to be a `IfcProductRepresentation`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElement>(const DB& db, const LIST& params, IfcElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcElement"); } do { // convert the 'Tag' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcElement,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Tag, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcElement to be a `IfcIdentifier`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionElement>(const DB& db, const LIST& params, IfcDistributionElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionFlowElement>(const DB& db, const LIST& params, IfcDistributionFlowElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCurve>(const DB& db, const LIST& params, IfcCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoundedCurve>(const DB& db, const LIST& params, IfcBoundedCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCompositeCurve>(const DB& db, const LIST& params, IfcCompositeCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcCompositeCurve"); } do { // convert the 'Segments' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCompositeCurve,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Segments, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCompositeCurve to be a `LIST [1:?] OF IfcCompositeCurveSegment`")); }
+ } while(0);
+ do { // convert the 'SelfIntersect' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCompositeCurve,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->SelfIntersect, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCompositeCurve to be a `LOGICAL`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<Ifc2DCompositeCurve>(const DB& db, const LIST& params, Ifc2DCompositeCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCompositeCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianTransformationOperator>(const DB& db, const LIST& params, IfcCartesianTransformationOperator* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcCartesianTransformationOperator"); } do { // convert the 'Axis1' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Axis1, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCartesianTransformationOperator to be a `IfcDirection`")); }
+ } while(0);
+ do { // convert the 'Axis2' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Axis2, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCartesianTransformationOperator to be a `IfcDirection`")); }
+ } while(0);
+ do { // convert the 'LocalOrigin' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->LocalOrigin, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcCartesianTransformationOperator to be a `IfcCartesianPoint`")); }
+ } while(0);
+ do { // convert the 'Scale' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator,4>::aux_is_derived[3]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Scale, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcCartesianTransformationOperator to be a `REAL`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianTransformationOperator3D>(const DB& db, const LIST& params, IfcCartesianTransformationOperator3D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCartesianTransformationOperator*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcCartesianTransformationOperator3D"); } do { // convert the 'Axis3' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCartesianTransformationOperator3D,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Axis3, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcCartesianTransformationOperator3D to be a `IfcDirection`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProperty>(const DB& db, const LIST& params, IfcProperty* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcProperty"); } do { // convert the 'Name' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProperty,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProperty to be a `IfcIdentifier`")); }
+ } while(0);
+ do { // convert the 'Description' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProperty,2>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Description, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProperty to be a `IfcText`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSimpleProperty>(const DB& db, const LIST& params, IfcSimpleProperty* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProperty*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcSimpleProperty"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyEnumeratedValue>(const DB& db, const LIST& params, IfcPropertyEnumeratedValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElementType>(const DB& db, const LIST& params, IfcBuildingElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStairFlightType>(const DB& db, const LIST& params, IfcStairFlightType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurface>(const DB& db, const LIST& params, IfcSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementarySurface>(const DB& db, const LIST& params, IfcElementarySurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSurface*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcElementarySurface"); } do { // convert the 'Position' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcElementarySurface,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Position, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcElementarySurface to be a `IfcAxis2Placement3D`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlane>(const DB& db, const LIST& params, IfcPlane* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementarySurface*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPlane"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBooleanResult>(const DB& db, const LIST& params, IfcBooleanResult* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcBooleanResult"); } do { // convert the 'Operator' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBooleanResult,3>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Operator, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBooleanResult to be a `IfcBooleanOperator`")); }
+ } while(0);
+ do { // convert the 'FirstOperand' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBooleanResult,3>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->FirstOperand, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBooleanResult to be a `IfcBooleanOperand`")); }
+ } while(0);
+ do { // convert the 'SecondOperand' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBooleanResult,3>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->SecondOperand, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBooleanResult to be a `IfcBooleanOperand`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBooleanClippingResult>(const DB& db, const LIST& params, IfcBooleanClippingResult* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBooleanResult*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcBooleanClippingResult"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSolidModel>(const DB& db, const LIST& params, IfcSolidModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcManifoldSolidBrep>(const DB& db, const LIST& params, IfcManifoldSolidBrep* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSolidModel*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcManifoldSolidBrep"); } do { // convert the 'Outer' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcManifoldSolidBrep,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Outer, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcManifoldSolidBrep to be a `IfcClosedShell`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowTerminalType>(const DB& db, const LIST& params, IfcFlowTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStackTerminalType>(const DB& db, const LIST& params, IfcStackTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralItem>(const DB& db, const LIST& params, IfcStructuralItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralConnection>(const DB& db, const LIST& params, IfcStructuralConnection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralCurveConnection>(const DB& db, const LIST& params, IfcStructuralCurveConnection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralConnection*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcJunctionBoxType>(const DB& db, const LIST& params, IfcJunctionBoxType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFittingType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyDefinition>(const DB& db, const LIST& params, IfcPropertyDefinition* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRoot*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertyDefinition"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertySetDefinition>(const DB& db, const LIST& params, IfcPropertySetDefinition* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPropertyDefinition*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertySetDefinition"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProcess>(const DB& db, const LIST& params, IfcProcess* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTask>(const DB& db, const LIST& params, IfcTask* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProcess*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelFillsElement>(const DB& db, const LIST& params, IfcRelFillsElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelFillsElement"); } do { // convert the 'RelatingOpeningElement' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatingOpeningElement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelFillsElement to be a `IfcOpeningElement`")); }
+ } while(0);
+ do { // convert the 'RelatedBuildingElement' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatedBuildingElement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelFillsElement to be a `IfcElement`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProcedure>(const DB& db, const LIST& params, IfcProcedure* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProcess*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProxy>(const DB& db, const LIST& params, IfcProxy* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcResource>(const DB& db, const LIST& params, IfcResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionResource>(const DB& db, const LIST& params, IfcConstructionResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSubContractResource>(const DB& db, const LIST& params, IfcSubContractResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelContainedInSpatialStructure>(const DB& db, const LIST& params, IfcRelContainedInSpatialStructure* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelContainedInSpatialStructure"); } do { // convert the 'RelatedElements' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatedElements, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelContainedInSpatialStructure to be a `SET [1:?] OF IfcProduct`")); }
+ } while(0);
+ do { // convert the 'RelatingStructure' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatingStructure, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelContainedInSpatialStructure to be a `IfcSpatialStructureElement`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTopologicalRepresentationItem>(const DB& db, const LIST& params, IfcTopologicalRepresentationItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEdge>(const DB& db, const LIST& params, IfcEdge* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEdgeCurve>(const DB& db, const LIST& params, IfcEdgeCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEdge*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlateType>(const DB& db, const LIST& params, IfcPlateType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcObjectPlacement>(const DB& /*db*/, const LIST& /*params*/, IfcObjectPlacement* /*in*/)
+{
+ size_t base = 0;
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGridPlacement>(const DB& db, const LIST& params, IfcGridPlacement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObjectPlacement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFireSuppressionTerminalType>(const DB& db, const LIST& params, IfcFireSuppressionTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowStorageDevice>(const DB& db, const LIST& params, IfcFlowStorageDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSweptSurface>(const DB& db, const LIST& params, IfcSweptSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceOfRevolution>(const DB& db, const LIST& params, IfcSurfaceOfRevolution* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOrientedEdge>(const DB& db, const LIST& params, IfcOrientedEdge* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEdge*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDirection>(const DB& db, const LIST& params, IfcDirection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcDirection"); } do { // convert the 'DirectionRatios' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->DirectionRatios, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcDirection to be a `LIST [2:3] OF REAL`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProfileDef>(const DB& db, const LIST& params, IfcProfileDef* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcProfileDef"); } do { // convert the 'ProfileType' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProfileDef,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->ProfileType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProfileDef to be a `IfcProfileTypeEnum`")); }
+ } while(0);
+ do { // convert the 'ProfileName' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcProfileDef,2>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ProfileName, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProfileDef to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcParameterizedProfileDef>(const DB& db, const LIST& params, IfcParameterizedProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProfileDef*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcParameterizedProfileDef"); } do { // convert the 'Position' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcParameterizedProfileDef,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Position, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcParameterizedProfileDef to be a `IfcAxis2Placement2D`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCShapeProfileDef>(const DB& db, const LIST& params, IfcCShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFeatureElement>(const DB& db, const LIST& params, IfcFeatureElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcFeatureElement"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFeatureElementSubtraction>(const DB& db, const LIST& params, IfcFeatureElementSubtraction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElement*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcFeatureElementSubtraction"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEdgeFeature>(const DB& db, const LIST& params, IfcEdgeFeature* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElementSubtraction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcChamferEdgeFeature>(const DB& db, const LIST& params, IfcChamferEdgeFeature* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEdgeFeature*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElement>(const DB& db, const LIST& params, IfcBuildingElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcBuildingElement"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcColumn>(const DB& db, const LIST& params, IfcColumn* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyReferenceValue>(const DB& db, const LIST& params, IfcPropertyReferenceValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricMotorType>(const DB& db, const LIST& params, IfcElectricMotorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpatialStructureElementType>(const DB& db, const LIST& params, IfcSpatialStructureElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpaceType>(const DB& db, const LIST& params, IfcSpaceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcColumnType>(const DB& db, const LIST& params, IfcColumnType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCraneRailAShapeProfileDef>(const DB& db, const LIST& params, IfcCraneRailAShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCondenserType>(const DB& db, const LIST& params, IfcCondenserType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCircleProfileDef>(const DB& db, const LIST& params, IfcCircleProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcCircleProfileDef"); } do { // convert the 'Radius' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcCircleProfileDef,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Radius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcCircleProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCircleHollowProfileDef>(const DB& db, const LIST& params, IfcCircleHollowProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCircleProfileDef*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcCircleHollowProfileDef"); } do { // convert the 'WallThickness' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->WallThickness, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcCircleHollowProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlacement>(const DB& db, const LIST& params, IfcPlacement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPlacement"); } do { // convert the 'Location' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcPlacement,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Location, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPlacement to be a `IfcCartesianPoint`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAxis2Placement3D>(const DB& db, const LIST& params, IfcAxis2Placement3D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPlacement*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcAxis2Placement3D"); } do { // convert the 'Axis' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Axis, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis2Placement3D to be a `IfcDirection`")); }
+ } while(0);
+ do { // convert the 'RefDirection' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RefDirection, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcAxis2Placement3D to be a `IfcDirection`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPresentationStyle>(const DB& db, const LIST& params, IfcPresentationStyle* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPresentationStyle"); } do { // convert the 'Name' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcPresentationStyle,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPresentationStyle to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEquipmentElement>(const DB& db, const LIST& params, IfcEquipmentElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCompositeCurveSegment>(const DB& db, const LIST& params, IfcCompositeCurveSegment* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcCompositeCurveSegment"); } do { // convert the 'Transition' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Transition, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCompositeCurveSegment to be a `IfcTransitionCode`")); }
+ } while(0);
+ do { // convert the 'SameSense' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->SameSense, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCompositeCurveSegment to be a `BOOLEAN`")); }
+ } while(0);
+ do { // convert the 'ParentCurve' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->ParentCurve, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcCompositeCurveSegment to be a `IfcCurve`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRectangleProfileDef>(const DB& db, const LIST& params, IfcRectangleProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcRectangleProfileDef"); } do { // convert the 'XDim' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRectangleProfileDef,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->XDim, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRectangleProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'YDim' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRectangleProfileDef,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->YDim, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRectangleProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElementProxy>(const DB& db, const LIST& params, IfcBuildingElementProxy* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionControlElementType>(const DB& db, const LIST& params, IfcDistributionControlElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowInstrumentType>(const DB& db, const LIST& params, IfcFlowInstrumentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDraughtingCallout>(const DB& db, const LIST& params, IfcDraughtingCallout* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDimensionCurveDirectedCallout>(const DB& db, const LIST& params, IfcDimensionCurveDirectedCallout* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDraughtingCallout*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLinearDimension>(const DB& db, const LIST& params, IfcLinearDimension* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDimensionCurveDirectedCallout*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementAssembly>(const DB& db, const LIST& params, IfcElementAssembly* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCsgPrimitive3D>(const DB& db, const LIST& params, IfcCsgPrimitive3D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRightCircularCone>(const DB& db, const LIST& params, IfcRightCircularCone* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCsgPrimitive3D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProjectOrder>(const DB& db, const LIST& params, IfcProjectOrder* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLShapeProfileDef>(const DB& db, const LIST& params, IfcLShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAngularDimension>(const DB& db, const LIST& params, IfcAngularDimension* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDimensionCurveDirectedCallout*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLocalPlacement>(const DB& db, const LIST& params, IfcLocalPlacement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObjectPlacement*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcLocalPlacement"); } do { // convert the 'PlacementRelTo' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->PlacementRelTo, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcLocalPlacement to be a `IfcObjectPlacement`")); }
+ } while(0);
+ do { // convert the 'RelativePlacement' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelativePlacement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcLocalPlacement to be a `IfcAxis2Placement`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSweptAreaSolid>(const DB& db, const LIST& params, IfcSweptAreaSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSolidModel*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcSweptAreaSolid"); } do { // convert the 'SweptArea' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSweptAreaSolid,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->SweptArea, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSweptAreaSolid to be a `IfcProfileDef`")); }
+ } while(0);
+ do { // convert the 'Position' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSweptAreaSolid,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->Position, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSweptAreaSolid to be a `IfcAxis2Placement3D`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRevolvedAreaSolid>(const DB& db, const LIST& params, IfcRevolvedAreaSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRevolvedAreaSolid"); } do { // convert the 'Axis' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Axis, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRevolvedAreaSolid to be a `IfcAxis1Placement`")); }
+ } while(0);
+ do { // convert the 'Angle' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Angle, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRevolvedAreaSolid to be a `IfcPlaneAngleMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralSurfaceConnection>(const DB& db, const LIST& params, IfcStructuralSurfaceConnection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralConnection*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRadiusDimension>(const DB& db, const LIST& params, IfcRadiusDimension* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDimensionCurveDirectedCallout*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSweptDiskSolid>(const DB& db, const LIST& params, IfcSweptDiskSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSolidModel*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcSweptDiskSolid"); } do { // convert the 'Directrix' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Directrix, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSweptDiskSolid to be a `IfcCurve`")); }
+ } while(0);
+ do { // convert the 'Radius' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Radius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSweptDiskSolid to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'InnerRadius' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->InnerRadius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSweptDiskSolid to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'StartParam' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->StartParam, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSweptDiskSolid to be a `IfcParameterValue`")); }
+ } while(0);
+ do { // convert the 'EndParam' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->EndParam, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcSweptDiskSolid to be a `IfcParameterValue`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcHalfSpaceSolid>(const DB& db, const LIST& params, IfcHalfSpaceSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcHalfSpaceSolid"); } do { // convert the 'BaseSurface' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcHalfSpaceSolid,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->BaseSurface, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcHalfSpaceSolid to be a `IfcSurface`")); }
+ } while(0);
+ do { // convert the 'AgreementFlag' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcHalfSpaceSolid,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->AgreementFlag, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcHalfSpaceSolid to be a `BOOLEAN`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPolygonalBoundedHalfSpace>(const DB& db, const LIST& params, IfcPolygonalBoundedHalfSpace* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcHalfSpaceSolid*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPolygonalBoundedHalfSpace"); } do { // convert the 'Position' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Position, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPolygonalBoundedHalfSpace to be a `IfcAxis2Placement3D`")); }
+ } while(0);
+ do { // convert the 'PolygonalBoundary' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->PolygonalBoundary, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPolygonalBoundedHalfSpace to be a `IfcBoundedCurve`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTimeSeriesSchedule>(const DB& db, const LIST& params, IfcTimeSeriesSchedule* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCooledBeamType>(const DB& db, const LIST& params, IfcCooledBeamType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProject>(const DB& db, const LIST& params, IfcProject* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+ if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcProject"); } do { // convert the 'LongName' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->LongName, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcProject to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'Phase' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Phase, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcProject to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'RepresentationContexts' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RepresentationContexts, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcProject to be a `SET [1:?] OF IfcRepresentationContext`")); }
+ } while(0);
+ do { // convert the 'UnitsInContext' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->UnitsInContext, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcProject to be a `IfcUnitAssignment`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEvaporatorType>(const DB& db, const LIST& params, IfcEvaporatorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLaborResource>(const DB& db, const LIST& params, IfcLaborResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyBoundedValue>(const DB& db, const LIST& params, IfcPropertyBoundedValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRampFlightType>(const DB& db, const LIST& params, IfcRampFlightType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMember>(const DB& db, const LIST& params, IfcMember* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTubeBundleType>(const DB& db, const LIST& params, IfcTubeBundleType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcValveType>(const DB& db, const LIST& params, IfcValveType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTrimmedCurve>(const DB& db, const LIST& params, IfcTrimmedCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcTrimmedCurve"); } do { // convert the 'BasisCurve' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->BasisCurve, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcTrimmedCurve to be a `IfcCurve`")); }
+ } while(0);
+ do { // convert the 'Trim1' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Trim1, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcTrimmedCurve to be a `SET [1:2] OF IfcTrimmingSelect`")); }
+ } while(0);
+ do { // convert the 'Trim2' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Trim2, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcTrimmedCurve to be a `SET [1:2] OF IfcTrimmingSelect`")); }
+ } while(0);
+ do { // convert the 'SenseAgreement' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->SenseAgreement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcTrimmedCurve to be a `BOOLEAN`")); }
+ } while(0);
+ do { // convert the 'MasterRepresentation' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->MasterRepresentation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcTrimmedCurve to be a `IfcTrimmingPreference`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelDefines>(const DB& db, const LIST& params, IfcRelDefines* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelationship*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcRelDefines"); } do { // convert the 'RelatedObjects' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDefines,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->RelatedObjects, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelDefines to be a `SET [1:?] OF IfcObject`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelDefinesByProperties>(const DB& db, const LIST& params, IfcRelDefinesByProperties* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelDefines*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelDefinesByProperties"); } do { // convert the 'RelatingPropertyDefinition' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDefinesByProperties,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->RelatingPropertyDefinition, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelDefinesByProperties to be a `IfcPropertySetDefinition`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcActor>(const DB& db, const LIST& params, IfcActor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOccupant>(const DB& db, const LIST& params, IfcOccupant* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcActor*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcHumidifierType>(const DB& db, const LIST& params, IfcHumidifierType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcArbitraryOpenProfileDef>(const DB& db, const LIST& params, IfcArbitraryOpenProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProfileDef*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcArbitraryOpenProfileDef"); } do { // convert the 'Curve' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcArbitraryOpenProfileDef,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Curve, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcArbitraryOpenProfileDef to be a `IfcBoundedCurve`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPermit>(const DB& db, const LIST& params, IfcPermit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOffsetCurve3D>(const DB& db, const LIST& params, IfcOffsetCurve3D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSource>(const DB& db, const LIST& params, IfcLightSource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSourcePositional>(const DB& db, const LIST& params, IfcLightSourcePositional* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLightSource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCompositeProfileDef>(const DB& db, const LIST& params, IfcCompositeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRamp>(const DB& db, const LIST& params, IfcRamp* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowMovingDevice>(const DB& db, const LIST& params, IfcFlowMovingDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpaceHeaterType>(const DB& db, const LIST& params, IfcSpaceHeaterType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLampType>(const DB& db, const LIST& params, IfcLampType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElementComponent>(const DB& db, const LIST& params, IfcBuildingElementComponent* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcReinforcingElement>(const DB& db, const LIST& params, IfcReinforcingElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementComponent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcReinforcingBar>(const DB& db, const LIST& params, IfcReinforcingBar* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricHeaterType>(const DB& db, const LIST& params, IfcElectricHeaterType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTShapeProfileDef>(const DB& db, const LIST& params, IfcTShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralActivity>(const DB& db, const LIST& params, IfcStructuralActivity* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralAction>(const DB& db, const LIST& params, IfcStructuralAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralActivity*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDuctFittingType>(const DB& db, const LIST& params, IfcDuctFittingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFittingType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianTransformationOperator2D>(const DB& db, const LIST& params, IfcCartesianTransformationOperator2D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCartesianTransformationOperator*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianTransformationOperator2DnonUniform>(const DB& db, const LIST& params, IfcCartesianTransformationOperator2DnonUniform* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCartesianTransformationOperator2D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVirtualElement>(const DB& db, const LIST& params, IfcVirtualElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRightCircularCylinder>(const DB& db, const LIST& params, IfcRightCircularCylinder* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCsgPrimitive3D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOutletType>(const DB& db, const LIST& params, IfcOutletType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelDecomposes>(const DB& db, const LIST& params, IfcRelDecomposes* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelationship*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelDecomposes"); } do { // convert the 'RelatingObject' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDecomposes,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->RelatingObject, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelDecomposes to be a `IfcObjectDefinition`")); }
+ } while(0);
+ do { // convert the 'RelatedObjects' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRelDecomposes,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->RelatedObjects, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelDecomposes to be a `SET [1:?] OF IfcObjectDefinition`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCovering>(const DB& db, const LIST& params, IfcCovering* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPolyline>(const DB& db, const LIST& params, IfcPolyline* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPolyline"); } do { // convert the 'Points' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Points, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPolyline to be a `LIST [2:?] OF IfcCartesianPoint`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPath>(const DB& db, const LIST& params, IfcPath* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementComponent>(const DB& db, const LIST& params, IfcElementComponent* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFastener>(const DB& db, const LIST& params, IfcFastener* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMappedItem>(const DB& db, const LIST& params, IfcMappedItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentationItem*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcMappedItem"); } do { // convert the 'MappingSource' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->MappingSource, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcMappedItem to be a `IfcRepresentationMap`")); }
+ } while(0);
+ do { // convert the 'MappingTarget' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->MappingTarget, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcMappedItem to be a `IfcCartesianTransformationOperator`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRectangularPyramid>(const DB& db, const LIST& params, IfcRectangularPyramid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCsgPrimitive3D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCrewResource>(const DB& db, const LIST& params, IfcCrewResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcNamedUnit>(const DB& db, const LIST& params, IfcNamedUnit* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcNamedUnit"); } do { // convert the 'Dimensions' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcNamedUnit,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Dimensions, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcNamedUnit to be a `IfcDimensionalExponents`")); }
+ } while(0);
+ do { // convert the 'UnitType' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcNamedUnit,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->UnitType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcNamedUnit to be a `IfcUnitEnum`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcContextDependentUnit>(const DB& db, const LIST& params, IfcContextDependentUnit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcNamedUnit*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcUnitaryEquipmentType>(const DB& db, const LIST& params, IfcUnitaryEquipmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRoof>(const DB& db, const LIST& params, IfcRoof* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralMember>(const DB& db, const LIST& params, IfcStructuralMember* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStyleModel>(const DB& db, const LIST& params, IfcStyleModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentation*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStyledRepresentation>(const DB& db, const LIST& params, IfcStyledRepresentation* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStyleModel*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpatialStructureElement>(const DB& db, const LIST& params, IfcSpatialStructureElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+ if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcSpatialStructureElement"); } do { // convert the 'LongName' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSpatialStructureElement,2>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->LongName, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcSpatialStructureElement to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'CompositionType' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSpatialStructureElement,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->CompositionType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcSpatialStructureElement to be a `IfcElementCompositionEnum`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuilding>(const DB& db, const LIST& params, IfcBuilding* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElement*>(in));
+ if (params.GetSize() < 12) { throw STEP::TypeError("expected 12 arguments to IfcBuilding"); } do { // convert the 'ElevationOfRefHeight' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ElevationOfRefHeight, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcBuilding to be a `IfcLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'ElevationOfTerrain' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ElevationOfTerrain, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcBuilding to be a `IfcLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'BuildingAddress' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->BuildingAddress, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 11 to IfcBuilding to be a `IfcPostalAddress`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConnectedFaceSet>(const DB& db, const LIST& params, IfcConnectedFaceSet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcConnectedFaceSet"); } do { // convert the 'CfsFaces' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcConnectedFaceSet,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->CfsFaces, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcConnectedFaceSet to be a `SET [1:?] OF IfcFace`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOpenShell>(const DB& db, const LIST& params, IfcOpenShell* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConnectedFaceSet*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFacetedBrep>(const DB& db, const LIST& params, IfcFacetedBrep* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcManifoldSolidBrep*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConic>(const DB& db, const LIST& params, IfcConic* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcConic"); } do { // convert the 'Position' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcConic,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Position, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcConic to be a `IfcAxis2Placement`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCoveringType>(const DB& db, const LIST& params, IfcCoveringType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRoundedRectangleProfileDef>(const DB& db, const LIST& params, IfcRoundedRectangleProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRectangleProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAirTerminalType>(const DB& db, const LIST& params, IfcAirTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowMovingDeviceType>(const DB& db, const LIST& params, IfcFlowMovingDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCompressorType>(const DB& db, const LIST& params, IfcCompressorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowMovingDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcIShapeProfileDef>(const DB& db, const LIST& params, IfcIShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcIShapeProfileDef"); } do { // convert the 'OverallWidth' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->OverallWidth, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'OverallDepth' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->OverallDepth, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'WebThickness' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->WebThickness, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'FlangeThickness' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[3]=true; break; }
+ try { GenericConvert( in->FlangeThickness, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'FilletRadius' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcIShapeProfileDef,5>::aux_is_derived[4]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->FilletRadius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAsymmetricIShapeProfileDef>(const DB& db, const LIST& params, IfcAsymmetricIShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcIShapeProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcControllerType>(const DB& db, const LIST& params, IfcControllerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRailing>(const DB& db, const LIST& params, IfcRailing* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGroup>(const DB& db, const LIST& params, IfcGroup* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAsset>(const DB& db, const LIST& params, IfcAsset* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMaterialDefinitionRepresentation>(const DB& db, const LIST& params, IfcMaterialDefinitionRepresentation* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProductRepresentation*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRailingType>(const DB& db, const LIST& params, IfcRailingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWall>(const DB& db, const LIST& params, IfcWall* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralPointConnection>(const DB& db, const LIST& params, IfcStructuralPointConnection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralConnection*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyListValue>(const DB& db, const LIST& params, IfcPropertyListValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertyListValue"); } do { // convert the 'ListValues' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->ListValues, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPropertyListValue to be a `LIST [1:?] OF IfcValue`")); }
+ } while(0);
+ do { // convert the 'Unit' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Unit, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPropertyListValue to be a `IfcUnit`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFurnitureStandard>(const DB& db, const LIST& params, IfcFurnitureStandard* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricGeneratorType>(const DB& db, const LIST& params, IfcElectricGeneratorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDoor>(const DB& db, const LIST& params, IfcDoor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+ if (params.GetSize() < 10) { throw STEP::TypeError("expected 10 arguments to IfcDoor"); } do { // convert the 'OverallHeight' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->OverallHeight, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcDoor to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'OverallWidth' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->OverallWidth, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcDoor to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStyledItem>(const DB& db, const LIST& params, IfcStyledItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentationItem*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcStyledItem"); } do { // convert the 'Item' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcStyledItem,3>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Item, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcStyledItem to be a `IfcRepresentationItem`")); }
+ } while(0);
+ do { // convert the 'Styles' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcStyledItem,3>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->Styles, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcStyledItem to be a `SET [1:?] OF IfcPresentationStyleAssignment`")); }
+ } while(0);
+ do { // convert the 'Name' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcStyledItem,3>::aux_is_derived[2]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcStyledItem to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotationOccurrence>(const DB& db, const LIST& params, IfcAnnotationOccurrence* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStyledItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotationSymbolOccurrence>(const DB& db, const LIST& params, IfcAnnotationSymbolOccurrence* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcAnnotationOccurrence*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcArbitraryClosedProfileDef>(const DB& db, const LIST& params, IfcArbitraryClosedProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProfileDef*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcArbitraryClosedProfileDef"); } do { // convert the 'OuterCurve' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcArbitraryClosedProfileDef,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->OuterCurve, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcArbitraryClosedProfileDef to be a `IfcCurve`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcArbitraryProfileDefWithVoids>(const DB& db, const LIST& params, IfcArbitraryProfileDefWithVoids* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcArbitraryClosedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLine>(const DB& db, const LIST& params, IfcLine* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcLine"); } do { // convert the 'Pnt' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Pnt, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcLine to be a `IfcCartesianPoint`")); }
+ } while(0);
+ do { // convert the 'Dir' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Dir, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcLine to be a `IfcVector`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowSegmentType>(const DB& db, const LIST& params, IfcFlowSegmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAirTerminalBoxType>(const DB& db, const LIST& params, IfcAirTerminalBoxType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertySingleValue>(const DB& db, const LIST& params, IfcPropertySingleValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertySingleValue"); } do { // convert the 'NominalValue' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->NominalValue, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPropertySingleValue to be a `IfcValue`")); }
+ } while(0);
+ do { // convert the 'Unit' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Unit, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPropertySingleValue to be a `IfcUnit`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAlarmType>(const DB& db, const LIST& params, IfcAlarmType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEllipseProfileDef>(const DB& db, const LIST& params, IfcEllipseProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStair>(const DB& db, const LIST& params, IfcStair* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceStyleShading>(const DB& db, const LIST& params, IfcSurfaceStyleShading* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcSurfaceStyleShading"); } do { // convert the 'SurfaceColour' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcSurfaceStyleShading,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->SurfaceColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSurfaceStyleShading to be a `IfcColourRgb`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPumpType>(const DB& db, const LIST& params, IfcPumpType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowMovingDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDefinedSymbol>(const DB& db, const LIST& params, IfcDefinedSymbol* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementComponentType>(const DB& db, const LIST& params, IfcElementComponentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFastenerType>(const DB& db, const LIST& params, IfcFastenerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMechanicalFastenerType>(const DB& db, const LIST& params, IfcMechanicalFastenerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFastenerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowFitting>(const DB& db, const LIST& params, IfcFlowFitting* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSourceDirectional>(const DB& db, const LIST& params, IfcLightSourceDirectional* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLightSource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+
+} // ! STEP
+} // ! Assimp
+
+#if _MSC_VER
+# pragma warning(pop)
+#endif // _MSC_VER
+
+#endif
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen2_2x3.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen2_2x3.cpp
new file mode 100644
index 0000000..0d70511
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen2_2x3.cpp
@@ -0,0 +1,1927 @@
+/*
+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.
+
+----------------------------------------------------------------------
+*/
+
+//#include "AssimpPCH.h"
+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER
+
+#include "IFCReaderGen_2x3.h"
+
+#if _MSC_VER
+# pragma warning(push)
+# pragma warning(disable : 4702)
+#endif // _MSC_VER
+
+namespace Assimp {
+using namespace IFC;
+using namespace ::Assimp::IFC::Schema_2x3;
+
+namespace STEP {
+
+template <> size_t GenericFill<IfcSurfaceStyle>(const DB& db, const LIST& params, IfcSurfaceStyle* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPresentationStyle*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcSurfaceStyle"); } do { // convert the 'Side' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Side, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSurfaceStyle to be a `IfcSurfaceSide`")); }
+ } while(0);
+ do { // convert the 'Styles' argument
+ std::shared_ptr<const DataType> arg = params[ base++ ];
+ try { GenericConvert( in->Styles, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSurfaceStyle to be a `SET [1:5] OF IfcSurfaceStyleElementSelect`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotationSurface>(const DB& db, const LIST& params, IfcAnnotationSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowController>(const DB& db, const LIST& params, IfcFlowController* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingStorey>(const DB& db, const LIST& params, IfcBuildingStorey* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWorkControl>(const DB& db, const LIST& params, IfcWorkControl* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWorkSchedule>(const DB& db, const LIST& params, IfcWorkSchedule* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcWorkControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDuctSegmentType>(const DB& db, const LIST& params, IfcDuctSegmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegmentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFace>(const DB& db, const LIST& params, IfcFace* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcFace"); } do { // convert the 'Bounds' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcFace,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Bounds, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFace to be a `SET [1:?] OF IfcFaceBound`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralSurfaceMember>(const DB& db, const LIST& params, IfcStructuralSurfaceMember* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralMember*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralSurfaceMemberVarying>(const DB& db, const LIST& params, IfcStructuralSurfaceMemberVarying* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralSurfaceMember*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFaceSurface>(const DB& db, const LIST& params, IfcFaceSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFace*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCostSchedule>(const DB& db, const LIST& params, IfcCostSchedule* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlanarExtent>(const DB& db, const LIST& params, IfcPlanarExtent* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlanarBox>(const DB& db, const LIST& params, IfcPlanarBox* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPlanarExtent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcColourSpecification>(const DB& db, const LIST& params, IfcColourSpecification* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcColourSpecification"); } do { // convert the 'Name' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcColourSpecification,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcColourSpecification to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVector>(const DB& db, const LIST& params, IfcVector* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcVector"); } do { // convert the 'Orientation' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Orientation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcVector to be a `IfcDirection`")); }
+ } while(0);
+ do { // convert the 'Magnitude' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Magnitude, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcVector to be a `IfcLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBeam>(const DB& db, const LIST& params, IfcBeam* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcColourRgb>(const DB& db, const LIST& params, IfcColourRgb* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcColourSpecification*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcColourRgb"); } do { // convert the 'Red' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Red, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); }
+ } while(0);
+ do { // convert the 'Green' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Green, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); }
+ } while(0);
+ do { // convert the 'Blue' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Blue, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralPlanarAction>(const DB& db, const LIST& params, IfcStructuralPlanarAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralAction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralPlanarActionVarying>(const DB& db, const LIST& params, IfcStructuralPlanarActionVarying* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralPlanarAction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSite>(const DB& db, const LIST& params, IfcSite* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElement*>(in));
+ if (params.GetSize() < 14) { throw STEP::TypeError("expected 14 arguments to IfcSite"); } do { // convert the 'RefLatitude' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RefLatitude, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcSite to be a `IfcCompoundPlaneAngleMeasure`")); }
+ } while(0);
+ do { // convert the 'RefLongitude' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RefLongitude, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcSite to be a `IfcCompoundPlaneAngleMeasure`")); }
+ } while(0);
+ do { // convert the 'RefElevation' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RefElevation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 11 to IfcSite to be a `IfcLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'LandTitleNumber' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->LandTitleNumber, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 12 to IfcSite to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'SiteAddress' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->SiteAddress, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 13 to IfcSite to be a `IfcPostalAddress`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDiscreteAccessoryType>(const DB& db, const LIST& params, IfcDiscreteAccessoryType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVibrationIsolatorType>(const DB& db, const LIST& params, IfcVibrationIsolatorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDiscreteAccessoryType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEvaporativeCoolerType>(const DB& db, const LIST& params, IfcEvaporativeCoolerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionChamberElementType>(const DB& db, const LIST& params, IfcDistributionChamberElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFeatureElementAddition>(const DB& db, const LIST& params, IfcFeatureElementAddition* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuredDimensionCallout>(const DB& db, const LIST& params, IfcStructuredDimensionCallout* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDraughtingCallout*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCoolingTowerType>(const DB& db, const LIST& params, IfcCoolingTowerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCenterLineProfileDef>(const DB& db, const LIST& params, IfcCenterLineProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcArbitraryOpenProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWindowStyle>(const DB& db, const LIST& params, IfcWindowStyle* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSourceGoniometric>(const DB& db, const LIST& params, IfcLightSourceGoniometric* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLightSource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTransformerType>(const DB& db, const LIST& params, IfcTransformerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMemberType>(const DB& db, const LIST& params, IfcMemberType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceOfLinearExtrusion>(const DB& db, const LIST& params, IfcSurfaceOfLinearExtrusion* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMotorConnectionType>(const DB& db, const LIST& params, IfcMotorConnectionType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowTreatmentDeviceType>(const DB& db, const LIST& params, IfcFlowTreatmentDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDuctSilencerType>(const DB& db, const LIST& params, IfcDuctSilencerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTreatmentDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFurnishingElementType>(const DB& db, const LIST& params, IfcFurnishingElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSystemFurnitureElementType>(const DB& db, const LIST& params, IfcSystemFurnitureElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFurnishingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWasteTerminalType>(const DB& db, const LIST& params, IfcWasteTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBSplineCurve>(const DB& db, const LIST& params, IfcBSplineCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcBSplineCurve"); } do { // convert the 'Degree' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Degree, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBSplineCurve to be a `INTEGER`")); }
+ } while(0);
+ do { // convert the 'ControlPointsList' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->ControlPointsList, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBSplineCurve to be a `LIST [2:?] OF IfcCartesianPoint`")); }
+ } while(0);
+ do { // convert the 'CurveForm' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->CurveForm, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBSplineCurve to be a `IfcBSplineCurveForm`")); }
+ } while(0);
+ do { // convert the 'ClosedCurve' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[3]=true; break; }
+ try { GenericConvert( in->ClosedCurve, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcBSplineCurve to be a `LOGICAL`")); }
+ } while(0);
+ do { // convert the 'SelfIntersect' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcBSplineCurve,5>::aux_is_derived[4]=true; break; }
+ try { GenericConvert( in->SelfIntersect, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcBSplineCurve to be a `LOGICAL`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBezierCurve>(const DB& db, const LIST& params, IfcBezierCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBSplineCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcActuatorType>(const DB& db, const LIST& params, IfcActuatorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionControlElement>(const DB& db, const LIST& params, IfcDistributionControlElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotation>(const DB& db, const LIST& params, IfcAnnotation* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+ if (params.GetSize() < 7) { throw STEP::TypeError("expected 7 arguments to IfcAnnotation"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcShellBasedSurfaceModel>(const DB& db, const LIST& params, IfcShellBasedSurfaceModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcShellBasedSurfaceModel"); } do { // convert the 'SbsmBoundary' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->SbsmBoundary, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcShellBasedSurfaceModel to be a `SET [1:?] OF IfcShell`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcActionRequest>(const DB& db, const LIST& params, IfcActionRequest* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcExtrudedAreaSolid>(const DB& db, const LIST& params, IfcExtrudedAreaSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcExtrudedAreaSolid"); } do { // convert the 'ExtrudedDirection' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->ExtrudedDirection, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcExtrudedAreaSolid to be a `IfcDirection`")); }
+ } while(0);
+ do { // convert the 'Depth' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Depth, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcExtrudedAreaSolid to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSystem>(const DB& db, const LIST& params, IfcSystem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFillAreaStyleHatching>(const DB& db, const LIST& params, IfcFillAreaStyleHatching* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelVoidsElement>(const DB& db, const LIST& params, IfcRelVoidsElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelVoidsElement"); } do { // convert the 'RelatingBuildingElement' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatingBuildingElement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelVoidsElement to be a `IfcElement`")); }
+ } while(0);
+ do { // convert the 'RelatedOpeningElement' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatedOpeningElement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelVoidsElement to be a `IfcFeatureElementSubtraction`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceCurveSweptAreaSolid>(const DB& db, const LIST& params, IfcSurfaceCurveSweptAreaSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianTransformationOperator3DnonUniform>(const DB& db, const LIST& params, IfcCartesianTransformationOperator3DnonUniform* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCartesianTransformationOperator3D*>(in));
+ if (params.GetSize() < 7) { throw STEP::TypeError("expected 7 arguments to IfcCartesianTransformationOperator3DnonUniform"); } do { // convert the 'Scale2' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Scale2, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcCartesianTransformationOperator3DnonUniform to be a `REAL`")); }
+ } while(0);
+ do { // convert the 'Scale3' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Scale3, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcCartesianTransformationOperator3DnonUniform to be a `REAL`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCurtainWallType>(const DB& db, const LIST& params, IfcCurtainWallType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEquipmentStandard>(const DB& db, const LIST& params, IfcEquipmentStandard* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowStorageDeviceType>(const DB& db, const LIST& params, IfcFlowStorageDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDiameterDimension>(const DB& db, const LIST& params, IfcDiameterDimension* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDimensionCurveDirectedCallout*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSwitchingDeviceType>(const DB& db, const LIST& params, IfcSwitchingDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWindow>(const DB& db, const LIST& params, IfcWindow* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowTreatmentDevice>(const DB& db, const LIST& params, IfcFlowTreatmentDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcChillerType>(const DB& db, const LIST& params, IfcChillerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRectangleHollowProfileDef>(const DB& db, const LIST& params, IfcRectangleHollowProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRectangleProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoxedHalfSpace>(const DB& db, const LIST& params, IfcBoxedHalfSpace* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcHalfSpaceSolid*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAxis2Placement2D>(const DB& db, const LIST& params, IfcAxis2Placement2D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPlacement*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcAxis2Placement2D"); } do { // convert the 'RefDirection' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RefDirection, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis2Placement2D to be a `IfcDirection`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpaceProgram>(const DB& db, const LIST& params, IfcSpaceProgram* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPoint>(const DB& db, const LIST& params, IfcPoint* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianPoint>(const DB& db, const LIST& params, IfcCartesianPoint* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPoint*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcCartesianPoint"); } do { // convert the 'Coordinates' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Coordinates, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCartesianPoint to be a `LIST [1:3] OF IfcLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoundedSurface>(const DB& db, const LIST& params, IfcBoundedSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLoop>(const DB& db, const LIST& params, IfcLoop* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPolyLoop>(const DB& db, const LIST& params, IfcPolyLoop* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLoop*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPolyLoop"); } do { // convert the 'Polygon' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Polygon, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPolyLoop to be a `LIST [3:?] OF IfcCartesianPoint`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTerminatorSymbol>(const DB& db, const LIST& params, IfcTerminatorSymbol* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcAnnotationSymbolOccurrence*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDimensionCurveTerminator>(const DB& db, const LIST& params, IfcDimensionCurveTerminator* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTerminatorSymbol*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTrapeziumProfileDef>(const DB& db, const LIST& params, IfcTrapeziumProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRepresentationContext>(const DB& db, const LIST& params, IfcRepresentationContext* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcRepresentationContext"); } do { // convert the 'ContextIdentifier' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentationContext,2>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ContextIdentifier, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentationContext to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'ContextType' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcRepresentationContext,2>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ContextType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentationContext to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeometricRepresentationContext>(const DB& db, const LIST& params, IfcGeometricRepresentationContext* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentationContext*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcGeometricRepresentationContext"); } do { // convert the 'CoordinateSpaceDimension' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->CoordinateSpaceDimension, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcGeometricRepresentationContext to be a `IfcDimensionCount`")); }
+ } while(0);
+ do { // convert the 'Precision' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Precision, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcGeometricRepresentationContext to be a `REAL`")); }
+ } while(0);
+ do { // convert the 'WorldCoordinateSystem' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->WorldCoordinateSystem, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcGeometricRepresentationContext to be a `IfcAxis2Placement`")); }
+ } while(0);
+ do { // convert the 'TrueNorth' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcGeometricRepresentationContext,4>::aux_is_derived[3]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->TrueNorth, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcGeometricRepresentationContext to be a `IfcDirection`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCurveBoundedPlane>(const DB& db, const LIST& params, IfcCurveBoundedPlane* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSIUnit>(const DB& db, const LIST& params, IfcSIUnit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcNamedUnit*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcSIUnit"); } do { // convert the 'Prefix' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Prefix, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSIUnit to be a `IfcSIPrefix`")); }
+ } while(0);
+ do { // convert the 'Name' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSIUnit to be a `IfcSIUnitName`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralReaction>(const DB& db, const LIST& params, IfcStructuralReaction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralActivity*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralPointReaction>(const DB& db, const LIST& params, IfcStructuralPointReaction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralReaction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAxis1Placement>(const DB& db, const LIST& params, IfcAxis1Placement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPlacement*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcAxis1Placement"); } do { // convert the 'Axis' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Axis, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis1Placement to be a `IfcDirection`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricApplianceType>(const DB& db, const LIST& params, IfcElectricApplianceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSensorType>(const DB& db, const LIST& params, IfcSensorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFurnishingElement>(const DB& db, const LIST& params, IfcFurnishingElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProtectiveDeviceType>(const DB& db, const LIST& params, IfcProtectiveDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcZShapeProfileDef>(const DB& db, const LIST& params, IfcZShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcScheduleTimeControl>(const DB& db, const LIST& params, IfcScheduleTimeControl* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRepresentationMap>(const DB& db, const LIST& params, IfcRepresentationMap* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcRepresentationMap"); } do { // convert the 'MappingOrigin' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->MappingOrigin, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentationMap to be a `IfcAxis2Placement`")); }
+ } while(0);
+ do { // convert the 'MappedRepresentation' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->MappedRepresentation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentationMap to be a `IfcRepresentation`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcClosedShell>(const DB& db, const LIST& params, IfcClosedShell* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConnectedFaceSet*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcClosedShell"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElementPart>(const DB& db, const LIST& params, IfcBuildingElementPart* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementComponent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBlock>(const DB& db, const LIST& params, IfcBlock* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCsgPrimitive3D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightFixtureType>(const DB& db, const LIST& params, IfcLightFixtureType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOpeningElement>(const DB& db, const LIST& params, IfcOpeningElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElementSubtraction*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcOpeningElement"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSourceSpot>(const DB& db, const LIST& params, IfcLightSourceSpot* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLightSourcePositional*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTendonAnchor>(const DB& db, const LIST& params, IfcTendonAnchor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricFlowStorageDeviceType>(const DB& db, const LIST& params, IfcElectricFlowStorageDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowStorageDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSphere>(const DB& db, const LIST& params, IfcSphere* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCsgPrimitive3D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDamperType>(const DB& db, const LIST& params, IfcDamperType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProjectOrderRecord>(const DB& db, const LIST& params, IfcProjectOrderRecord* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionChamberElement>(const DB& db, const LIST& params, IfcDistributionChamberElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMechanicalFastener>(const DB& db, const LIST& params, IfcMechanicalFastener* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFastener*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRectangularTrimmedSurface>(const DB& db, const LIST& params, IfcRectangularTrimmedSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcZone>(const DB& db, const LIST& params, IfcZone* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFanType>(const DB& db, const LIST& params, IfcFanType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowMovingDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeometricSet>(const DB& db, const LIST& params, IfcGeometricSet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFillAreaStyleTiles>(const DB& db, const LIST& params, IfcFillAreaStyleTiles* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableSegmentType>(const DB& db, const LIST& params, IfcCableSegmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegmentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelOverridesProperties>(const DB& db, const LIST& params, IfcRelOverridesProperties* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelDefinesByProperties*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMeasureWithUnit>(const DB& db, const LIST& params, IfcMeasureWithUnit* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcMeasureWithUnit"); } do { // convert the 'ValueComponent' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->ValueComponent, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcMeasureWithUnit to be a `IfcValue`")); }
+ } while(0);
+ do { // convert the 'UnitComponent' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->UnitComponent, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcMeasureWithUnit to be a `IfcUnit`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSlabType>(const DB& db, const LIST& params, IfcSlabType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcServiceLife>(const DB& db, const LIST& params, IfcServiceLife* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFurnitureType>(const DB& db, const LIST& params, IfcFurnitureType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFurnishingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCostItem>(const DB& db, const LIST& params, IfcCostItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcReinforcingMesh>(const DB& db, const LIST& params, IfcReinforcingMesh* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFacetedBrepWithVoids>(const DB& db, const LIST& params, IfcFacetedBrepWithVoids* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcManifoldSolidBrep*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGasTerminalType>(const DB& db, const LIST& params, IfcGasTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPile>(const DB& db, const LIST& params, IfcPile* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFillAreaStyleTileSymbolWithStyle>(const DB& db, const LIST& params, IfcFillAreaStyleTileSymbolWithStyle* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionMaterialResource>(const DB& db, const LIST& params, IfcConstructionMaterialResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotationCurveOccurrence>(const DB& db, const LIST& params, IfcAnnotationCurveOccurrence* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcAnnotationOccurrence*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDimensionCurve>(const DB& db, const LIST& params, IfcDimensionCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcAnnotationCurveOccurrence*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeometricCurveSet>(const DB& db, const LIST& params, IfcGeometricCurveSet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricSet*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelAggregates>(const DB& db, const LIST& params, IfcRelAggregates* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelDecomposes*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelAggregates"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFaceBasedSurfaceModel>(const DB& db, const LIST& params, IfcFaceBasedSurfaceModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcFaceBasedSurfaceModel"); } do { // convert the 'FbsmFaces' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->FbsmFaces, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFaceBasedSurfaceModel to be a `SET [1:?] OF IfcConnectedFaceSet`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEnergyConversionDevice>(const DB& db, const LIST& params, IfcEnergyConversionDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRampFlight>(const DB& db, const LIST& params, IfcRampFlight* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVertexLoop>(const DB& db, const LIST& params, IfcVertexLoop* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLoop*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlate>(const DB& db, const LIST& params, IfcPlate* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcUShapeProfileDef>(const DB& db, const LIST& params, IfcUShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFaceBound>(const DB& db, const LIST& params, IfcFaceBound* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcFaceBound"); } do { // convert the 'Bound' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcFaceBound,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Bound, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFaceBound to be a `IfcLoop`")); }
+ } while(0);
+ do { // convert the 'Orientation' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::Schema_2x3::IfcFaceBound,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->Orientation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcFaceBound to be a `BOOLEAN`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFaceOuterBound>(const DB& db, const LIST& params, IfcFaceOuterBound* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFaceBound*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcFaceOuterBound"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOneDirectionRepeatFactor>(const DB& db, const LIST& params, IfcOneDirectionRepeatFactor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoilerType>(const DB& db, const LIST& params, IfcBoilerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionEquipmentResource>(const DB& db, const LIST& params, IfcConstructionEquipmentResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcComplexProperty>(const DB& db, const LIST& params, IfcComplexProperty* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProperty*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcComplexProperty"); } do { // convert the 'UsageName' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->UsageName, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcComplexProperty to be a `IfcIdentifier`")); }
+ } while(0);
+ do { // convert the 'HasProperties' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->HasProperties, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcComplexProperty to be a `SET [1:?] OF IfcProperty`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFooting>(const DB& db, const LIST& params, IfcFooting* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionProductResource>(const DB& db, const LIST& params, IfcConstructionProductResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDerivedProfileDef>(const DB& db, const LIST& params, IfcDerivedProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyTableValue>(const DB& db, const LIST& params, IfcPropertyTableValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowMeterType>(const DB& db, const LIST& params, IfcFlowMeterType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDoorStyle>(const DB& db, const LIST& params, IfcDoorStyle* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcUnitAssignment>(const DB& db, const LIST& params, IfcUnitAssignment* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcUnitAssignment"); } do { // convert the 'Units' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Units, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcUnitAssignment to be a `SET [1:?] OF IfcUnit`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowTerminal>(const DB& db, const LIST& params, IfcFlowTerminal* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCraneRailFShapeProfileDef>(const DB& db, const LIST& params, IfcCraneRailFShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowSegment>(const DB& db, const LIST& params, IfcFlowSegment* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementQuantity>(const DB& db, const LIST& params, IfcElementQuantity* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPropertySetDefinition*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcElementQuantity"); } do { // convert the 'MethodOfMeasurement' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->MethodOfMeasurement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcElementQuantity to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'Quantities' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Quantities, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcElementQuantity to be a `SET [1:?] OF IfcPhysicalQuantity`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCurtainWall>(const DB& db, const LIST& params, IfcCurtainWall* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDiscreteAccessory>(const DB& db, const LIST& params, IfcDiscreteAccessory* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGrid>(const DB& db, const LIST& params, IfcGrid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSanitaryTerminalType>(const DB& db, const LIST& params, IfcSanitaryTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSubedge>(const DB& db, const LIST& params, IfcSubedge* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEdge*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFilterType>(const DB& db, const LIST& params, IfcFilterType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTreatmentDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTendon>(const DB& db, const LIST& params, IfcTendon* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralLoadGroup>(const DB& db, const LIST& params, IfcStructuralLoadGroup* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPresentationStyleAssignment>(const DB& db, const LIST& params, IfcPresentationStyleAssignment* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPresentationStyleAssignment"); } do { // convert the 'Styles' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Styles, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPresentationStyleAssignment to be a `SET [1:?] OF IfcPresentationStyleSelect`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralCurveMember>(const DB& db, const LIST& params, IfcStructuralCurveMember* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralMember*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSourceAmbient>(const DB& db, const LIST& params, IfcLightSourceAmbient* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLightSource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCondition>(const DB& db, const LIST& params, IfcCondition* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPort>(const DB& db, const LIST& params, IfcPort* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpace>(const DB& db, const LIST& params, IfcSpace* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElement*>(in));
+ if (params.GetSize() < 11) { throw STEP::TypeError("expected 11 arguments to IfcSpace"); } do { // convert the 'InteriorOrExteriorSpace' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->InteriorOrExteriorSpace, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcSpace to be a `IfcInternalOrExternalEnum`")); }
+ } while(0);
+ do { // convert the 'ElevationWithFlooring' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ElevationWithFlooring, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcSpace to be a `IfcLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcHeatExchangerType>(const DB& db, const LIST& params, IfcHeatExchangerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTankType>(const DB& db, const LIST& params, IfcTankType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowStorageDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcInventory>(const DB& db, const LIST& params, IfcInventory* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTransportElementType>(const DB& db, const LIST& params, IfcTransportElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAirToAirHeatRecoveryType>(const DB& db, const LIST& params, IfcAirToAirHeatRecoveryType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStairFlight>(const DB& db, const LIST& params, IfcStairFlight* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricalElement>(const DB& db, const LIST& params, IfcElectricalElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceStyleWithTextures>(const DB& db, const LIST& params, IfcSurfaceStyleWithTextures* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcSurfaceStyleWithTextures"); } do { // convert the 'Textures' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Textures, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSurfaceStyleWithTextures to be a `LIST [1:?] OF IfcSurfaceTexture`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoundingBox>(const DB& db, const LIST& params, IfcBoundingBox* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcBoundingBox"); } do { // convert the 'Corner' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Corner, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBoundingBox to be a `IfcCartesianPoint`")); }
+ } while(0);
+ do { // convert the 'XDim' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->XDim, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'YDim' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->YDim, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'ZDim' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->ZDim, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWallType>(const DB& db, const LIST& params, IfcWallType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMove>(const DB& db, const LIST& params, IfcMove* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTask*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCircle>(const DB& db, const LIST& params, IfcCircle* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConic*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcCircle"); } do { // convert the 'Radius' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Radius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCircle to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOffsetCurve2D>(const DB& db, const LIST& params, IfcOffsetCurve2D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPointOnCurve>(const DB& db, const LIST& params, IfcPointOnCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPoint*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralResultGroup>(const DB& db, const LIST& params, IfcStructuralResultGroup* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSectionedSpine>(const DB& db, const LIST& params, IfcSectionedSpine* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSlab>(const DB& db, const LIST& params, IfcSlab* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVertex>(const DB& db, const LIST& params, IfcVertex* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVertexPoint>(const DB& db, const LIST& params, IfcVertexPoint* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcVertex*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralLinearAction>(const DB& db, const LIST& params, IfcStructuralLinearAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralAction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralLinearActionVarying>(const DB& db, const LIST& params, IfcStructuralLinearActionVarying* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralLinearAction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElementProxyType>(const DB& db, const LIST& params, IfcBuildingElementProxyType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProjectionElement>(const DB& db, const LIST& params, IfcProjectionElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElementAddition*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConversionBasedUnit>(const DB& db, const LIST& params, IfcConversionBasedUnit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcNamedUnit*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcConversionBasedUnit"); } do { // convert the 'Name' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcConversionBasedUnit to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'ConversionFactor' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->ConversionFactor, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcConversionBasedUnit to be a `IfcMeasureWithUnit`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeometricRepresentationSubContext>(const DB& db, const LIST& params, IfcGeometricRepresentationSubContext* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationContext*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotationSurfaceOccurrence>(const DB& db, const LIST& params, IfcAnnotationSurfaceOccurrence* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcAnnotationOccurrence*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRoundedEdgeFeature>(const DB& db, const LIST& params, IfcRoundedEdgeFeature* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEdgeFeature*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricDistributionPoint>(const DB& db, const LIST& params, IfcElectricDistributionPoint* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowController*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableCarrierSegmentType>(const DB& db, const LIST& params, IfcCableCarrierSegmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegmentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWallStandardCase>(const DB& db, const LIST& params, IfcWallStandardCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcWall*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCsgSolid>(const DB& db, const LIST& params, IfcCsgSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSolidModel*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBeamType>(const DB& db, const LIST& params, IfcBeamType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotationFillArea>(const DB& db, const LIST& params, IfcAnnotationFillArea* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralCurveMemberVarying>(const DB& db, const LIST& params, IfcStructuralCurveMemberVarying* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralCurveMember*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPointOnSurface>(const DB& db, const LIST& params, IfcPointOnSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPoint*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOrderAction>(const DB& db, const LIST& params, IfcOrderAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTask*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEdgeLoop>(const DB& db, const LIST& params, IfcEdgeLoop* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLoop*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotationFillAreaOccurrence>(const DB& db, const LIST& params, IfcAnnotationFillAreaOccurrence* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcAnnotationOccurrence*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWorkPlan>(const DB& db, const LIST& params, IfcWorkPlan* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcWorkControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEllipse>(const DB& db, const LIST& params, IfcEllipse* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConic*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcEllipse"); } do { // convert the 'SemiAxis1' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->SemiAxis1, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcEllipse to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'SemiAxis2' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->SemiAxis2, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcEllipse to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProductDefinitionShape>(const DB& db, const LIST& params, IfcProductDefinitionShape* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProductRepresentation*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProjectionCurve>(const DB& db, const LIST& params, IfcProjectionCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcAnnotationCurveOccurrence*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricalCircuit>(const DB& db, const LIST& params, IfcElectricalCircuit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSystem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRationalBezierCurve>(const DB& db, const LIST& params, IfcRationalBezierCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBezierCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralPointAction>(const DB& db, const LIST& params, IfcStructuralPointAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralAction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPipeSegmentType>(const DB& db, const LIST& params, IfcPipeSegmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegmentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTwoDirectionRepeatFactor>(const DB& db, const LIST& params, IfcTwoDirectionRepeatFactor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcOneDirectionRepeatFactor*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcShapeRepresentation>(const DB& db, const LIST& params, IfcShapeRepresentation* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcShapeModel*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertySet>(const DB& db, const LIST& params, IfcPropertySet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPropertySetDefinition*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcPropertySet"); } do { // convert the 'HasProperties' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->HasProperties, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcPropertySet to be a `SET [1:?] OF IfcProperty`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceStyleRendering>(const DB& db, const LIST& params, IfcSurfaceStyleRendering* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSurfaceStyleShading*>(in));
+ if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcSurfaceStyleRendering"); } do { // convert the 'Transparency' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Transparency, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSurfaceStyleRendering to be a `IfcNormalisedRatioMeasure`")); }
+ } while(0);
+ do { // convert the 'DiffuseColour' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->DiffuseColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
+ } while(0);
+ do { // convert the 'TransmissionColour' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->TransmissionColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
+ } while(0);
+ do { // convert the 'DiffuseTransmissionColour' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->DiffuseTransmissionColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
+ } while(0);
+ do { // convert the 'ReflectionColour' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ReflectionColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
+ } while(0);
+ do { // convert the 'SpecularColour' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->SpecularColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
+ } while(0);
+ do { // convert the 'SpecularHighlight' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->SpecularHighlight, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcSurfaceStyleRendering to be a `IfcSpecularHighlightSelect`")); }
+ } while(0);
+ do { // convert the 'ReflectanceMethod' argument
+ std::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->ReflectanceMethod, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcSurfaceStyleRendering to be a `IfcReflectanceMethodEnum`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionPort>(const DB& db, const LIST& params, IfcDistributionPort* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPort*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPipeFittingType>(const DB& db, const LIST& params, IfcPipeFittingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFittingType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTransportElement>(const DB& db, const LIST& params, IfcTransportElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotationTextOccurrence>(const DB& db, const LIST& params, IfcAnnotationTextOccurrence* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcAnnotationOccurrence*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralAnalysisModel>(const DB& db, const LIST& params, IfcStructuralAnalysisModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSystem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConditionCriterion>(const DB& db, const LIST& params, IfcConditionCriterion* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+
+} // ! STEP
+} // ! Assimp
+
+#if _MSC_VER
+# pragma warning(pop)
+#endif // _MSC_VER
+
+#endif
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_2x3.h b/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_2x3.h
new file mode 100644
index 0000000..f87f121
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_2x3.h
@@ -0,0 +1,4380 @@
+/*
+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 "AssetLib/Step/STEPFile.h"
+
+#ifdef _MSC_VER
+# pragma warning(push)
+# pragma warning( disable : 4512 )
+#endif // _MSC_VER
+
+namespace Assimp {
+namespace IFC {
+ namespace Schema_2x3 {
+
+ using namespace STEP;
+ using namespace STEP::EXPRESS;
+
+
+ struct NotImplemented : public ObjectHelper<NotImplemented,0> {
+
+ };
+
+
+ // ******************************************************************************
+ // IFC Custom data types
+ // ******************************************************************************
+
+
+ // C++ wrapper type for IfcAbsorbedDoseMeasure
+ typedef REAL IfcAbsorbedDoseMeasure;
+ // C++ wrapper type for IfcAccelerationMeasure
+ typedef REAL IfcAccelerationMeasure;
+ // C++ wrapper type for IfcAmountOfSubstanceMeasure
+ typedef REAL IfcAmountOfSubstanceMeasure;
+ // C++ wrapper type for IfcAngularVelocityMeasure
+ typedef REAL IfcAngularVelocityMeasure;
+ // C++ wrapper type for IfcAreaMeasure
+ typedef REAL IfcAreaMeasure;
+ // C++ wrapper type for IfcBoolean
+ typedef BOOLEAN IfcBoolean;
+ // C++ wrapper type for IfcBoxAlignment
+ typedef STRING IfcBoxAlignment;
+ // C++ wrapper type for IfcCompoundPlaneAngleMeasure
+ typedef ListOf< INTEGER, 3, 3 > IfcCompoundPlaneAngleMeasure;
+ // C++ wrapper type for IfcContextDependentMeasure
+ typedef REAL IfcContextDependentMeasure;
+ // C++ wrapper type for IfcCountMeasure
+ typedef NUMBER IfcCountMeasure;
+ // C++ wrapper type for IfcCurvatureMeasure
+ typedef REAL IfcCurvatureMeasure;
+ // C++ wrapper type for IfcDayInMonthNumber
+ typedef INTEGER IfcDayInMonthNumber;
+ // C++ wrapper type for IfcDaylightSavingHour
+ typedef INTEGER IfcDaylightSavingHour;
+ // C++ wrapper type for IfcDescriptiveMeasure
+ typedef STRING IfcDescriptiveMeasure;
+ // C++ wrapper type for IfcDimensionCount
+ typedef INTEGER IfcDimensionCount;
+ // C++ wrapper type for IfcDoseEquivalentMeasure
+ typedef REAL IfcDoseEquivalentMeasure;
+ // C++ wrapper type for IfcDynamicViscosityMeasure
+ typedef REAL IfcDynamicViscosityMeasure;
+ // C++ wrapper type for IfcElectricCapacitanceMeasure
+ typedef REAL IfcElectricCapacitanceMeasure;
+ // C++ wrapper type for IfcElectricChargeMeasure
+ typedef REAL IfcElectricChargeMeasure;
+ // C++ wrapper type for IfcElectricConductanceMeasure
+ typedef REAL IfcElectricConductanceMeasure;
+ // C++ wrapper type for IfcElectricCurrentMeasure
+ typedef REAL IfcElectricCurrentMeasure;
+ // C++ wrapper type for IfcElectricResistanceMeasure
+ typedef REAL IfcElectricResistanceMeasure;
+ // C++ wrapper type for IfcElectricVoltageMeasure
+ typedef REAL IfcElectricVoltageMeasure;
+ // C++ wrapper type for IfcEnergyMeasure
+ typedef REAL IfcEnergyMeasure;
+ // C++ wrapper type for IfcFontStyle
+ typedef STRING IfcFontStyle;
+ // C++ wrapper type for IfcFontVariant
+ typedef STRING IfcFontVariant;
+ // C++ wrapper type for IfcFontWeight
+ typedef STRING IfcFontWeight;
+ // C++ wrapper type for IfcForceMeasure
+ typedef REAL IfcForceMeasure;
+ // C++ wrapper type for IfcFrequencyMeasure
+ typedef REAL IfcFrequencyMeasure;
+ // C++ wrapper type for IfcGloballyUniqueId
+ typedef STRING IfcGloballyUniqueId;
+ // C++ wrapper type for IfcHeatFluxDensityMeasure
+ typedef REAL IfcHeatFluxDensityMeasure;
+ // C++ wrapper type for IfcHeatingValueMeasure
+ typedef REAL IfcHeatingValueMeasure;
+ // C++ wrapper type for IfcHourInDay
+ typedef INTEGER IfcHourInDay;
+ // C++ wrapper type for IfcIdentifier
+ typedef STRING IfcIdentifier;
+ // C++ wrapper type for IfcIlluminanceMeasure
+ typedef REAL IfcIlluminanceMeasure;
+ // C++ wrapper type for IfcInductanceMeasure
+ typedef REAL IfcInductanceMeasure;
+ // C++ wrapper type for IfcInteger
+ typedef INTEGER IfcInteger;
+ // C++ wrapper type for IfcIntegerCountRateMeasure
+ typedef INTEGER IfcIntegerCountRateMeasure;
+ // C++ wrapper type for IfcIonConcentrationMeasure
+ typedef REAL IfcIonConcentrationMeasure;
+ // C++ wrapper type for IfcIsothermalMoistureCapacityMeasure
+ typedef REAL IfcIsothermalMoistureCapacityMeasure;
+ // C++ wrapper type for IfcKinematicViscosityMeasure
+ typedef REAL IfcKinematicViscosityMeasure;
+ // C++ wrapper type for IfcLabel
+ typedef STRING IfcLabel;
+ // C++ wrapper type for IfcLengthMeasure
+ typedef REAL IfcLengthMeasure;
+ // C++ wrapper type for IfcLinearForceMeasure
+ typedef REAL IfcLinearForceMeasure;
+ // C++ wrapper type for IfcLinearMomentMeasure
+ typedef REAL IfcLinearMomentMeasure;
+ // C++ wrapper type for IfcLinearStiffnessMeasure
+ typedef REAL IfcLinearStiffnessMeasure;
+ // C++ wrapper type for IfcLinearVelocityMeasure
+ typedef REAL IfcLinearVelocityMeasure;
+ // C++ wrapper type for IfcLogical
+ typedef LOGICAL IfcLogical;
+ // C++ wrapper type for IfcLuminousFluxMeasure
+ typedef REAL IfcLuminousFluxMeasure;
+ // C++ wrapper type for IfcLuminousIntensityDistributionMeasure
+ typedef REAL IfcLuminousIntensityDistributionMeasure;
+ // C++ wrapper type for IfcLuminousIntensityMeasure
+ typedef REAL IfcLuminousIntensityMeasure;
+ // C++ wrapper type for IfcMagneticFluxDensityMeasure
+ typedef REAL IfcMagneticFluxDensityMeasure;
+ // C++ wrapper type for IfcMagneticFluxMeasure
+ typedef REAL IfcMagneticFluxMeasure;
+ // C++ wrapper type for IfcMassDensityMeasure
+ typedef REAL IfcMassDensityMeasure;
+ // C++ wrapper type for IfcMassFlowRateMeasure
+ typedef REAL IfcMassFlowRateMeasure;
+ // C++ wrapper type for IfcMassMeasure
+ typedef REAL IfcMassMeasure;
+ // C++ wrapper type for IfcMassPerLengthMeasure
+ typedef REAL IfcMassPerLengthMeasure;
+ // C++ wrapper type for IfcMinuteInHour
+ typedef INTEGER IfcMinuteInHour;
+ // C++ wrapper type for IfcModulusOfElasticityMeasure
+ typedef REAL IfcModulusOfElasticityMeasure;
+ // C++ wrapper type for IfcModulusOfLinearSubgradeReactionMeasure
+ typedef REAL IfcModulusOfLinearSubgradeReactionMeasure;
+ // C++ wrapper type for IfcModulusOfRotationalSubgradeReactionMeasure
+ typedef REAL IfcModulusOfRotationalSubgradeReactionMeasure;
+ // C++ wrapper type for IfcModulusOfSubgradeReactionMeasure
+ typedef REAL IfcModulusOfSubgradeReactionMeasure;
+ // C++ wrapper type for IfcMoistureDiffusivityMeasure
+ typedef REAL IfcMoistureDiffusivityMeasure;
+ // C++ wrapper type for IfcMolecularWeightMeasure
+ typedef REAL IfcMolecularWeightMeasure;
+ // C++ wrapper type for IfcMomentOfInertiaMeasure
+ typedef REAL IfcMomentOfInertiaMeasure;
+ // C++ wrapper type for IfcMonetaryMeasure
+ typedef REAL IfcMonetaryMeasure;
+ // C++ wrapper type for IfcMonthInYearNumber
+ typedef INTEGER IfcMonthInYearNumber;
+ // C++ wrapper type for IfcNormalisedRatioMeasure
+ typedef REAL IfcNormalisedRatioMeasure;
+ // C++ wrapper type for IfcNumericMeasure
+ typedef NUMBER IfcNumericMeasure;
+ // C++ wrapper type for IfcPHMeasure
+ typedef REAL IfcPHMeasure;
+ // C++ wrapper type for IfcParameterValue
+ typedef REAL IfcParameterValue;
+ // C++ wrapper type for IfcPlanarForceMeasure
+ typedef REAL IfcPlanarForceMeasure;
+ // C++ wrapper type for IfcPlaneAngleMeasure
+ typedef REAL IfcPlaneAngleMeasure;
+ // C++ wrapper type for IfcPositiveLengthMeasure
+ typedef REAL IfcPositiveLengthMeasure;
+ // C++ wrapper type for IfcPositivePlaneAngleMeasure
+ typedef REAL IfcPositivePlaneAngleMeasure;
+ // C++ wrapper type for IfcPositiveRatioMeasure
+ typedef REAL IfcPositiveRatioMeasure;
+ // C++ wrapper type for IfcPowerMeasure
+ typedef REAL IfcPowerMeasure;
+ // C++ wrapper type for IfcPresentableText
+ typedef STRING IfcPresentableText;
+ // C++ wrapper type for IfcPressureMeasure
+ typedef REAL IfcPressureMeasure;
+ // C++ wrapper type for IfcRadioActivityMeasure
+ typedef REAL IfcRadioActivityMeasure;
+ // C++ wrapper type for IfcRatioMeasure
+ typedef REAL IfcRatioMeasure;
+ // C++ wrapper type for IfcReal
+ typedef REAL IfcReal;
+ // C++ wrapper type for IfcRotationalFrequencyMeasure
+ typedef REAL IfcRotationalFrequencyMeasure;
+ // C++ wrapper type for IfcRotationalMassMeasure
+ typedef REAL IfcRotationalMassMeasure;
+ // C++ wrapper type for IfcRotationalStiffnessMeasure
+ typedef REAL IfcRotationalStiffnessMeasure;
+ // C++ wrapper type for IfcSecondInMinute
+ typedef REAL IfcSecondInMinute;
+ // C++ wrapper type for IfcSectionModulusMeasure
+ typedef REAL IfcSectionModulusMeasure;
+ // C++ wrapper type for IfcSectionalAreaIntegralMeasure
+ typedef REAL IfcSectionalAreaIntegralMeasure;
+ // C++ wrapper type for IfcShearModulusMeasure
+ typedef REAL IfcShearModulusMeasure;
+ // C++ wrapper type for IfcSolidAngleMeasure
+ typedef REAL IfcSolidAngleMeasure;
+ // C++ wrapper type for IfcSoundPowerMeasure
+ typedef REAL IfcSoundPowerMeasure;
+ // C++ wrapper type for IfcSoundPressureMeasure
+ typedef REAL IfcSoundPressureMeasure;
+ // C++ wrapper type for IfcSpecificHeatCapacityMeasure
+ typedef REAL IfcSpecificHeatCapacityMeasure;
+ // C++ wrapper type for IfcSpecularExponent
+ typedef REAL IfcSpecularExponent;
+ // C++ wrapper type for IfcSpecularRoughness
+ typedef REAL IfcSpecularRoughness;
+ // C++ wrapper type for IfcTemperatureGradientMeasure
+ typedef REAL IfcTemperatureGradientMeasure;
+ // C++ wrapper type for IfcText
+ typedef STRING IfcText;
+ // C++ wrapper type for IfcTextAlignment
+ typedef STRING IfcTextAlignment;
+ // C++ wrapper type for IfcTextDecoration
+ typedef STRING IfcTextDecoration;
+ // C++ wrapper type for IfcTextFontName
+ typedef STRING IfcTextFontName;
+ // C++ wrapper type for IfcTextTransformation
+ typedef STRING IfcTextTransformation;
+ // C++ wrapper type for IfcThermalAdmittanceMeasure
+ typedef REAL IfcThermalAdmittanceMeasure;
+ // C++ wrapper type for IfcThermalConductivityMeasure
+ typedef REAL IfcThermalConductivityMeasure;
+ // C++ wrapper type for IfcThermalExpansionCoefficientMeasure
+ typedef REAL IfcThermalExpansionCoefficientMeasure;
+ // C++ wrapper type for IfcThermalResistanceMeasure
+ typedef REAL IfcThermalResistanceMeasure;
+ // C++ wrapper type for IfcThermalTransmittanceMeasure
+ typedef REAL IfcThermalTransmittanceMeasure;
+ // C++ wrapper type for IfcThermodynamicTemperatureMeasure
+ typedef REAL IfcThermodynamicTemperatureMeasure;
+ // C++ wrapper type for IfcTimeMeasure
+ typedef REAL IfcTimeMeasure;
+ // C++ wrapper type for IfcTimeStamp
+ typedef INTEGER IfcTimeStamp;
+ // C++ wrapper type for IfcTorqueMeasure
+ typedef REAL IfcTorqueMeasure;
+ // C++ wrapper type for IfcVaporPermeabilityMeasure
+ typedef REAL IfcVaporPermeabilityMeasure;
+ // C++ wrapper type for IfcVolumeMeasure
+ typedef REAL IfcVolumeMeasure;
+ // C++ wrapper type for IfcVolumetricFlowRateMeasure
+ typedef REAL IfcVolumetricFlowRateMeasure;
+ // C++ wrapper type for IfcWarpingConstantMeasure
+ typedef REAL IfcWarpingConstantMeasure;
+ // C++ wrapper type for IfcWarpingMomentMeasure
+ typedef REAL IfcWarpingMomentMeasure;
+ // C++ wrapper type for IfcYearNumber
+ typedef INTEGER IfcYearNumber;
+ // C++ wrapper type for IfcActionSourceTypeEnum
+ typedef ENUMERATION IfcActionSourceTypeEnum;
+ // C++ wrapper type for IfcActionTypeEnum
+ typedef ENUMERATION IfcActionTypeEnum;
+ // C++ wrapper type for IfcActuatorTypeEnum
+ typedef ENUMERATION IfcActuatorTypeEnum;
+ // C++ wrapper type for IfcAddressTypeEnum
+ typedef ENUMERATION IfcAddressTypeEnum;
+ // C++ wrapper type for IfcAheadOrBehind
+ typedef ENUMERATION IfcAheadOrBehind;
+ // C++ wrapper type for IfcAirTerminalBoxTypeEnum
+ typedef ENUMERATION IfcAirTerminalBoxTypeEnum;
+ // C++ wrapper type for IfcAirTerminalTypeEnum
+ typedef ENUMERATION IfcAirTerminalTypeEnum;
+ // C++ wrapper type for IfcAirToAirHeatRecoveryTypeEnum
+ typedef ENUMERATION IfcAirToAirHeatRecoveryTypeEnum;
+ // C++ wrapper type for IfcAlarmTypeEnum
+ typedef ENUMERATION IfcAlarmTypeEnum;
+ // C++ wrapper type for IfcAnalysisModelTypeEnum
+ typedef ENUMERATION IfcAnalysisModelTypeEnum;
+ // C++ wrapper type for IfcAnalysisTheoryTypeEnum
+ typedef ENUMERATION IfcAnalysisTheoryTypeEnum;
+ // C++ wrapper type for IfcArithmeticOperatorEnum
+ typedef ENUMERATION IfcArithmeticOperatorEnum;
+ // C++ wrapper type for IfcAssemblyPlaceEnum
+ typedef ENUMERATION IfcAssemblyPlaceEnum;
+ // C++ wrapper type for IfcBSplineCurveForm
+ typedef ENUMERATION IfcBSplineCurveForm;
+ // C++ wrapper type for IfcBeamTypeEnum
+ typedef ENUMERATION IfcBeamTypeEnum;
+ // C++ wrapper type for IfcBenchmarkEnum
+ typedef ENUMERATION IfcBenchmarkEnum;
+ // C++ wrapper type for IfcBoilerTypeEnum
+ typedef ENUMERATION IfcBoilerTypeEnum;
+ // C++ wrapper type for IfcBooleanOperator
+ typedef ENUMERATION IfcBooleanOperator;
+ // C++ wrapper type for IfcBuildingElementProxyTypeEnum
+ typedef ENUMERATION IfcBuildingElementProxyTypeEnum;
+ // C++ wrapper type for IfcCableCarrierFittingTypeEnum
+ typedef ENUMERATION IfcCableCarrierFittingTypeEnum;
+ // C++ wrapper type for IfcCableCarrierSegmentTypeEnum
+ typedef ENUMERATION IfcCableCarrierSegmentTypeEnum;
+ // C++ wrapper type for IfcCableSegmentTypeEnum
+ typedef ENUMERATION IfcCableSegmentTypeEnum;
+ // C++ wrapper type for IfcChangeActionEnum
+ typedef ENUMERATION IfcChangeActionEnum;
+ // C++ wrapper type for IfcChillerTypeEnum
+ typedef ENUMERATION IfcChillerTypeEnum;
+ // C++ wrapper type for IfcCoilTypeEnum
+ typedef ENUMERATION IfcCoilTypeEnum;
+ // C++ wrapper type for IfcColumnTypeEnum
+ typedef ENUMERATION IfcColumnTypeEnum;
+ // C++ wrapper type for IfcCompressorTypeEnum
+ typedef ENUMERATION IfcCompressorTypeEnum;
+ // C++ wrapper type for IfcCondenserTypeEnum
+ typedef ENUMERATION IfcCondenserTypeEnum;
+ // C++ wrapper type for IfcConnectionTypeEnum
+ typedef ENUMERATION IfcConnectionTypeEnum;
+ // C++ wrapper type for IfcConstraintEnum
+ typedef ENUMERATION IfcConstraintEnum;
+ // C++ wrapper type for IfcControllerTypeEnum
+ typedef ENUMERATION IfcControllerTypeEnum;
+ // C++ wrapper type for IfcCooledBeamTypeEnum
+ typedef ENUMERATION IfcCooledBeamTypeEnum;
+ // C++ wrapper type for IfcCoolingTowerTypeEnum
+ typedef ENUMERATION IfcCoolingTowerTypeEnum;
+ // C++ wrapper type for IfcCostScheduleTypeEnum
+ typedef ENUMERATION IfcCostScheduleTypeEnum;
+ // C++ wrapper type for IfcCoveringTypeEnum
+ typedef ENUMERATION IfcCoveringTypeEnum;
+ // C++ wrapper type for IfcCurrencyEnum
+ typedef ENUMERATION IfcCurrencyEnum;
+ // C++ wrapper type for IfcCurtainWallTypeEnum
+ typedef ENUMERATION IfcCurtainWallTypeEnum;
+ // C++ wrapper type for IfcDamperTypeEnum
+ typedef ENUMERATION IfcDamperTypeEnum;
+ // C++ wrapper type for IfcDataOriginEnum
+ typedef ENUMERATION IfcDataOriginEnum;
+ // C++ wrapper type for IfcDerivedUnitEnum
+ typedef ENUMERATION IfcDerivedUnitEnum;
+ // C++ wrapper type for IfcDimensionExtentUsage
+ typedef ENUMERATION IfcDimensionExtentUsage;
+ // C++ wrapper type for IfcDirectionSenseEnum
+ typedef ENUMERATION IfcDirectionSenseEnum;
+ // C++ wrapper type for IfcDistributionChamberElementTypeEnum
+ typedef ENUMERATION IfcDistributionChamberElementTypeEnum;
+ // C++ wrapper type for IfcDocumentConfidentialityEnum
+ typedef ENUMERATION IfcDocumentConfidentialityEnum;
+ // C++ wrapper type for IfcDocumentStatusEnum
+ typedef ENUMERATION IfcDocumentStatusEnum;
+ // C++ wrapper type for IfcDoorPanelOperationEnum
+ typedef ENUMERATION IfcDoorPanelOperationEnum;
+ // C++ wrapper type for IfcDoorPanelPositionEnum
+ typedef ENUMERATION IfcDoorPanelPositionEnum;
+ // C++ wrapper type for IfcDoorStyleConstructionEnum
+ typedef ENUMERATION IfcDoorStyleConstructionEnum;
+ // C++ wrapper type for IfcDoorStyleOperationEnum
+ typedef ENUMERATION IfcDoorStyleOperationEnum;
+ // C++ wrapper type for IfcDuctFittingTypeEnum
+ typedef ENUMERATION IfcDuctFittingTypeEnum;
+ // C++ wrapper type for IfcDuctSegmentTypeEnum
+ typedef ENUMERATION IfcDuctSegmentTypeEnum;
+ // C++ wrapper type for IfcDuctSilencerTypeEnum
+ typedef ENUMERATION IfcDuctSilencerTypeEnum;
+ // C++ wrapper type for IfcElectricApplianceTypeEnum
+ typedef ENUMERATION IfcElectricApplianceTypeEnum;
+ // C++ wrapper type for IfcElectricCurrentEnum
+ typedef ENUMERATION IfcElectricCurrentEnum;
+ // C++ wrapper type for IfcElectricDistributionPointFunctionEnum
+ typedef ENUMERATION IfcElectricDistributionPointFunctionEnum;
+ // C++ wrapper type for IfcElectricFlowStorageDeviceTypeEnum
+ typedef ENUMERATION IfcElectricFlowStorageDeviceTypeEnum;
+ // C++ wrapper type for IfcElectricGeneratorTypeEnum
+ typedef ENUMERATION IfcElectricGeneratorTypeEnum;
+ // C++ wrapper type for IfcElectricHeaterTypeEnum
+ typedef ENUMERATION IfcElectricHeaterTypeEnum;
+ // C++ wrapper type for IfcElectricMotorTypeEnum
+ typedef ENUMERATION IfcElectricMotorTypeEnum;
+ // C++ wrapper type for IfcElectricTimeControlTypeEnum
+ typedef ENUMERATION IfcElectricTimeControlTypeEnum;
+ // C++ wrapper type for IfcElementAssemblyTypeEnum
+ typedef ENUMERATION IfcElementAssemblyTypeEnum;
+ // C++ wrapper type for IfcElementCompositionEnum
+ typedef ENUMERATION IfcElementCompositionEnum;
+ // C++ wrapper type for IfcEnergySequenceEnum
+ typedef ENUMERATION IfcEnergySequenceEnum;
+ // C++ wrapper type for IfcEnvironmentalImpactCategoryEnum
+ typedef ENUMERATION IfcEnvironmentalImpactCategoryEnum;
+ // C++ wrapper type for IfcEvaporativeCoolerTypeEnum
+ typedef ENUMERATION IfcEvaporativeCoolerTypeEnum;
+ // C++ wrapper type for IfcEvaporatorTypeEnum
+ typedef ENUMERATION IfcEvaporatorTypeEnum;
+ // C++ wrapper type for IfcFanTypeEnum
+ typedef ENUMERATION IfcFanTypeEnum;
+ // C++ wrapper type for IfcFilterTypeEnum
+ typedef ENUMERATION IfcFilterTypeEnum;
+ // C++ wrapper type for IfcFireSuppressionTerminalTypeEnum
+ typedef ENUMERATION IfcFireSuppressionTerminalTypeEnum;
+ // C++ wrapper type for IfcFlowDirectionEnum
+ typedef ENUMERATION IfcFlowDirectionEnum;
+ // C++ wrapper type for IfcFlowInstrumentTypeEnum
+ typedef ENUMERATION IfcFlowInstrumentTypeEnum;
+ // C++ wrapper type for IfcFlowMeterTypeEnum
+ typedef ENUMERATION IfcFlowMeterTypeEnum;
+ // C++ wrapper type for IfcFootingTypeEnum
+ typedef ENUMERATION IfcFootingTypeEnum;
+ // C++ wrapper type for IfcGasTerminalTypeEnum
+ typedef ENUMERATION IfcGasTerminalTypeEnum;
+ // C++ wrapper type for IfcGeometricProjectionEnum
+ typedef ENUMERATION IfcGeometricProjectionEnum;
+ // C++ wrapper type for IfcGlobalOrLocalEnum
+ typedef ENUMERATION IfcGlobalOrLocalEnum;
+ // C++ wrapper type for IfcHeatExchangerTypeEnum
+ typedef ENUMERATION IfcHeatExchangerTypeEnum;
+ // C++ wrapper type for IfcHumidifierTypeEnum
+ typedef ENUMERATION IfcHumidifierTypeEnum;
+ // C++ wrapper type for IfcInternalOrExternalEnum
+ typedef ENUMERATION IfcInternalOrExternalEnum;
+ // C++ wrapper type for IfcInventoryTypeEnum
+ typedef ENUMERATION IfcInventoryTypeEnum;
+ // C++ wrapper type for IfcJunctionBoxTypeEnum
+ typedef ENUMERATION IfcJunctionBoxTypeEnum;
+ // C++ wrapper type for IfcLampTypeEnum
+ typedef ENUMERATION IfcLampTypeEnum;
+ // C++ wrapper type for IfcLayerSetDirectionEnum
+ typedef ENUMERATION IfcLayerSetDirectionEnum;
+ // C++ wrapper type for IfcLightDistributionCurveEnum
+ typedef ENUMERATION IfcLightDistributionCurveEnum;
+ // C++ wrapper type for IfcLightEmissionSourceEnum
+ typedef ENUMERATION IfcLightEmissionSourceEnum;
+ // C++ wrapper type for IfcLightFixtureTypeEnum
+ typedef ENUMERATION IfcLightFixtureTypeEnum;
+ // C++ wrapper type for IfcLoadGroupTypeEnum
+ typedef ENUMERATION IfcLoadGroupTypeEnum;
+ // C++ wrapper type for IfcLogicalOperatorEnum
+ typedef ENUMERATION IfcLogicalOperatorEnum;
+ // C++ wrapper type for IfcMemberTypeEnum
+ typedef ENUMERATION IfcMemberTypeEnum;
+ // C++ wrapper type for IfcMotorConnectionTypeEnum
+ typedef ENUMERATION IfcMotorConnectionTypeEnum;
+ // C++ wrapper type for IfcNullStyle
+ typedef ENUMERATION IfcNullStyle;
+ // C++ wrapper type for IfcObjectTypeEnum
+ typedef ENUMERATION IfcObjectTypeEnum;
+ // C++ wrapper type for IfcObjectiveEnum
+ typedef ENUMERATION IfcObjectiveEnum;
+ // C++ wrapper type for IfcOccupantTypeEnum
+ typedef ENUMERATION IfcOccupantTypeEnum;
+ // C++ wrapper type for IfcOutletTypeEnum
+ typedef ENUMERATION IfcOutletTypeEnum;
+ // C++ wrapper type for IfcPermeableCoveringOperationEnum
+ typedef ENUMERATION IfcPermeableCoveringOperationEnum;
+ // C++ wrapper type for IfcPhysicalOrVirtualEnum
+ typedef ENUMERATION IfcPhysicalOrVirtualEnum;
+ // C++ wrapper type for IfcPileConstructionEnum
+ typedef ENUMERATION IfcPileConstructionEnum;
+ // C++ wrapper type for IfcPileTypeEnum
+ typedef ENUMERATION IfcPileTypeEnum;
+ // C++ wrapper type for IfcPipeFittingTypeEnum
+ typedef ENUMERATION IfcPipeFittingTypeEnum;
+ // C++ wrapper type for IfcPipeSegmentTypeEnum
+ typedef ENUMERATION IfcPipeSegmentTypeEnum;
+ // C++ wrapper type for IfcPlateTypeEnum
+ typedef ENUMERATION IfcPlateTypeEnum;
+ // C++ wrapper type for IfcProcedureTypeEnum
+ typedef ENUMERATION IfcProcedureTypeEnum;
+ // C++ wrapper type for IfcProfileTypeEnum
+ typedef ENUMERATION IfcProfileTypeEnum;
+ // C++ wrapper type for IfcProjectOrderRecordTypeEnum
+ typedef ENUMERATION IfcProjectOrderRecordTypeEnum;
+ // C++ wrapper type for IfcProjectOrderTypeEnum
+ typedef ENUMERATION IfcProjectOrderTypeEnum;
+ // C++ wrapper type for IfcProjectedOrTrueLengthEnum
+ typedef ENUMERATION IfcProjectedOrTrueLengthEnum;
+ // C++ wrapper type for IfcPropertySourceEnum
+ typedef ENUMERATION IfcPropertySourceEnum;
+ // C++ wrapper type for IfcProtectiveDeviceTypeEnum
+ typedef ENUMERATION IfcProtectiveDeviceTypeEnum;
+ // C++ wrapper type for IfcPumpTypeEnum
+ typedef ENUMERATION IfcPumpTypeEnum;
+ // C++ wrapper type for IfcRailingTypeEnum
+ typedef ENUMERATION IfcRailingTypeEnum;
+ // C++ wrapper type for IfcRampFlightTypeEnum
+ typedef ENUMERATION IfcRampFlightTypeEnum;
+ // C++ wrapper type for IfcRampTypeEnum
+ typedef ENUMERATION IfcRampTypeEnum;
+ // C++ wrapper type for IfcReflectanceMethodEnum
+ typedef ENUMERATION IfcReflectanceMethodEnum;
+ // C++ wrapper type for IfcReinforcingBarRoleEnum
+ typedef ENUMERATION IfcReinforcingBarRoleEnum;
+ // C++ wrapper type for IfcReinforcingBarSurfaceEnum
+ typedef ENUMERATION IfcReinforcingBarSurfaceEnum;
+ // C++ wrapper type for IfcResourceConsumptionEnum
+ typedef ENUMERATION IfcResourceConsumptionEnum;
+ // C++ wrapper type for IfcRibPlateDirectionEnum
+ typedef ENUMERATION IfcRibPlateDirectionEnum;
+ // C++ wrapper type for IfcRoleEnum
+ typedef ENUMERATION IfcRoleEnum;
+ // C++ wrapper type for IfcRoofTypeEnum
+ typedef ENUMERATION IfcRoofTypeEnum;
+ // C++ wrapper type for IfcSIPrefix
+ typedef ENUMERATION IfcSIPrefix;
+ // C++ wrapper type for IfcSIUnitName
+ typedef ENUMERATION IfcSIUnitName;
+ // C++ wrapper type for IfcSanitaryTerminalTypeEnum
+ typedef ENUMERATION IfcSanitaryTerminalTypeEnum;
+ // C++ wrapper type for IfcSectionTypeEnum
+ typedef ENUMERATION IfcSectionTypeEnum;
+ // C++ wrapper type for IfcSensorTypeEnum
+ typedef ENUMERATION IfcSensorTypeEnum;
+ // C++ wrapper type for IfcSequenceEnum
+ typedef ENUMERATION IfcSequenceEnum;
+ // C++ wrapper type for IfcServiceLifeFactorTypeEnum
+ typedef ENUMERATION IfcServiceLifeFactorTypeEnum;
+ // C++ wrapper type for IfcServiceLifeTypeEnum
+ typedef ENUMERATION IfcServiceLifeTypeEnum;
+ // C++ wrapper type for IfcSlabTypeEnum
+ typedef ENUMERATION IfcSlabTypeEnum;
+ // C++ wrapper type for IfcSoundScaleEnum
+ typedef ENUMERATION IfcSoundScaleEnum;
+ // C++ wrapper type for IfcSpaceHeaterTypeEnum
+ typedef ENUMERATION IfcSpaceHeaterTypeEnum;
+ // C++ wrapper type for IfcSpaceTypeEnum
+ typedef ENUMERATION IfcSpaceTypeEnum;
+ // C++ wrapper type for IfcStackTerminalTypeEnum
+ typedef ENUMERATION IfcStackTerminalTypeEnum;
+ // C++ wrapper type for IfcStairFlightTypeEnum
+ typedef ENUMERATION IfcStairFlightTypeEnum;
+ // C++ wrapper type for IfcStairTypeEnum
+ typedef ENUMERATION IfcStairTypeEnum;
+ // C++ wrapper type for IfcStateEnum
+ typedef ENUMERATION IfcStateEnum;
+ // C++ wrapper type for IfcStructuralCurveTypeEnum
+ typedef ENUMERATION IfcStructuralCurveTypeEnum;
+ // C++ wrapper type for IfcStructuralSurfaceTypeEnum
+ typedef ENUMERATION IfcStructuralSurfaceTypeEnum;
+ // C++ wrapper type for IfcSurfaceSide
+ typedef ENUMERATION IfcSurfaceSide;
+ // C++ wrapper type for IfcSurfaceTextureEnum
+ typedef ENUMERATION IfcSurfaceTextureEnum;
+ // C++ wrapper type for IfcSwitchingDeviceTypeEnum
+ typedef ENUMERATION IfcSwitchingDeviceTypeEnum;
+ // C++ wrapper type for IfcTankTypeEnum
+ typedef ENUMERATION IfcTankTypeEnum;
+ // C++ wrapper type for IfcTendonTypeEnum
+ typedef ENUMERATION IfcTendonTypeEnum;
+ // C++ wrapper type for IfcTextPath
+ typedef ENUMERATION IfcTextPath;
+ // C++ wrapper type for IfcThermalLoadSourceEnum
+ typedef ENUMERATION IfcThermalLoadSourceEnum;
+ // C++ wrapper type for IfcThermalLoadTypeEnum
+ typedef ENUMERATION IfcThermalLoadTypeEnum;
+ // C++ wrapper type for IfcTimeSeriesDataTypeEnum
+ typedef ENUMERATION IfcTimeSeriesDataTypeEnum;
+ // C++ wrapper type for IfcTimeSeriesScheduleTypeEnum
+ typedef ENUMERATION IfcTimeSeriesScheduleTypeEnum;
+ // C++ wrapper type for IfcTransformerTypeEnum
+ typedef ENUMERATION IfcTransformerTypeEnum;
+ // C++ wrapper type for IfcTransitionCode
+ typedef ENUMERATION IfcTransitionCode;
+ // C++ wrapper type for IfcTransportElementTypeEnum
+ typedef ENUMERATION IfcTransportElementTypeEnum;
+ // C++ wrapper type for IfcTrimmingPreference
+ typedef ENUMERATION IfcTrimmingPreference;
+ // C++ wrapper type for IfcTubeBundleTypeEnum
+ typedef ENUMERATION IfcTubeBundleTypeEnum;
+ // C++ wrapper type for IfcUnitEnum
+ typedef ENUMERATION IfcUnitEnum;
+ // C++ wrapper type for IfcUnitaryEquipmentTypeEnum
+ typedef ENUMERATION IfcUnitaryEquipmentTypeEnum;
+ // C++ wrapper type for IfcValveTypeEnum
+ typedef ENUMERATION IfcValveTypeEnum;
+ // C++ wrapper type for IfcVibrationIsolatorTypeEnum
+ typedef ENUMERATION IfcVibrationIsolatorTypeEnum;
+ // C++ wrapper type for IfcWallTypeEnum
+ typedef ENUMERATION IfcWallTypeEnum;
+ // C++ wrapper type for IfcWasteTerminalTypeEnum
+ typedef ENUMERATION IfcWasteTerminalTypeEnum;
+ // C++ wrapper type for IfcWindowPanelOperationEnum
+ typedef ENUMERATION IfcWindowPanelOperationEnum;
+ // C++ wrapper type for IfcWindowPanelPositionEnum
+ typedef ENUMERATION IfcWindowPanelPositionEnum;
+ // C++ wrapper type for IfcWindowStyleConstructionEnum
+ typedef ENUMERATION IfcWindowStyleConstructionEnum;
+ // C++ wrapper type for IfcWindowStyleOperationEnum
+ typedef ENUMERATION IfcWindowStyleOperationEnum;
+ // C++ wrapper type for IfcWorkControlTypeEnum
+ typedef ENUMERATION IfcWorkControlTypeEnum;
+ // C++ wrapper type for IfcActorSelect
+ typedef SELECT IfcActorSelect;
+ // C++ wrapper type for IfcAppliedValueSelect
+ typedef SELECT IfcAppliedValueSelect;
+ // C++ wrapper type for IfcAxis2Placement
+ typedef SELECT IfcAxis2Placement;
+ // C++ wrapper type for IfcBooleanOperand
+ typedef SELECT IfcBooleanOperand;
+ // C++ wrapper type for IfcCharacterStyleSelect
+ typedef SELECT IfcCharacterStyleSelect;
+ // C++ wrapper type for IfcClassificationNotationSelect
+ typedef SELECT IfcClassificationNotationSelect;
+ // C++ wrapper type for IfcColour
+ typedef SELECT IfcColour;
+ // C++ wrapper type for IfcColourOrFactor
+ typedef SELECT IfcColourOrFactor;
+ // C++ wrapper type for IfcConditionCriterionSelect
+ typedef SELECT IfcConditionCriterionSelect;
+ // C++ wrapper type for IfcCsgSelect
+ typedef SELECT IfcCsgSelect;
+ // C++ wrapper type for IfcCurveFontOrScaledCurveFontSelect
+ typedef SELECT IfcCurveFontOrScaledCurveFontSelect;
+ // C++ wrapper type for IfcCurveOrEdgeCurve
+ typedef SELECT IfcCurveOrEdgeCurve;
+ // C++ wrapper type for IfcCurveStyleFontSelect
+ typedef SELECT IfcCurveStyleFontSelect;
+ // C++ wrapper type for IfcDateTimeSelect
+ typedef SELECT IfcDateTimeSelect;
+ // C++ wrapper type for IfcDefinedSymbolSelect
+ typedef SELECT IfcDefinedSymbolSelect;
+ // C++ wrapper type for IfcDerivedMeasureValue
+ typedef SELECT IfcDerivedMeasureValue;
+ // C++ wrapper type for IfcDocumentSelect
+ typedef SELECT IfcDocumentSelect;
+ // C++ wrapper type for IfcDraughtingCalloutElement
+ typedef SELECT IfcDraughtingCalloutElement;
+ // C++ wrapper type for IfcFillAreaStyleTileShapeSelect
+ typedef SELECT IfcFillAreaStyleTileShapeSelect;
+ // C++ wrapper type for IfcFillStyleSelect
+ typedef SELECT IfcFillStyleSelect;
+ // C++ wrapper type for IfcGeometricSetSelect
+ typedef SELECT IfcGeometricSetSelect;
+ // C++ wrapper type for IfcHatchLineDistanceSelect
+ typedef SELECT IfcHatchLineDistanceSelect;
+ // C++ wrapper type for IfcLayeredItem
+ typedef SELECT IfcLayeredItem;
+ // C++ wrapper type for IfcLibrarySelect
+ typedef SELECT IfcLibrarySelect;
+ // C++ wrapper type for IfcLightDistributionDataSourceSelect
+ typedef SELECT IfcLightDistributionDataSourceSelect;
+ // C++ wrapper type for IfcMaterialSelect
+ typedef SELECT IfcMaterialSelect;
+ // C++ wrapper type for IfcMeasureValue
+ typedef SELECT IfcMeasureValue;
+ // C++ wrapper type for IfcMetricValueSelect
+ typedef SELECT IfcMetricValueSelect;
+ // C++ wrapper type for IfcObjectReferenceSelect
+ typedef SELECT IfcObjectReferenceSelect;
+ // C++ wrapper type for IfcOrientationSelect
+ typedef SELECT IfcOrientationSelect;
+ // C++ wrapper type for IfcPointOrVertexPoint
+ typedef SELECT IfcPointOrVertexPoint;
+ // C++ wrapper type for IfcPresentationStyleSelect
+ typedef SELECT IfcPresentationStyleSelect;
+ // C++ wrapper type for IfcShell
+ typedef SELECT IfcShell;
+ // C++ wrapper type for IfcSimpleValue
+ typedef SELECT IfcSimpleValue;
+ // C++ wrapper type for IfcSizeSelect
+ typedef SELECT IfcSizeSelect;
+ // C++ wrapper type for IfcSpecularHighlightSelect
+ typedef SELECT IfcSpecularHighlightSelect;
+ // C++ wrapper type for IfcStructuralActivityAssignmentSelect
+ typedef SELECT IfcStructuralActivityAssignmentSelect;
+ // C++ wrapper type for IfcSurfaceOrFaceSurface
+ typedef SELECT IfcSurfaceOrFaceSurface;
+ // C++ wrapper type for IfcSurfaceStyleElementSelect
+ typedef SELECT IfcSurfaceStyleElementSelect;
+ // C++ wrapper type for IfcSymbolStyleSelect
+ typedef SELECT IfcSymbolStyleSelect;
+ // C++ wrapper type for IfcTextFontSelect
+ typedef SELECT IfcTextFontSelect;
+ // C++ wrapper type for IfcTextStyleSelect
+ typedef SELECT IfcTextStyleSelect;
+ // C++ wrapper type for IfcTrimmingSelect
+ typedef SELECT IfcTrimmingSelect;
+ // C++ wrapper type for IfcUnit
+ typedef SELECT IfcUnit;
+ // C++ wrapper type for IfcValue
+ typedef SELECT IfcValue;
+ // C++ wrapper type for IfcVectorOrDirection
+ typedef SELECT IfcVectorOrDirection;
+
+
+ // ******************************************************************************
+ // IFC Entities
+ // ******************************************************************************
+
+ struct IfcRepresentationItem;
+ struct IfcGeometricRepresentationItem;
+ struct IfcCurve;
+ struct IfcBoundedCurve;
+ struct IfcCompositeCurve;
+ struct Ifc2DCompositeCurve;
+ struct IfcRoot;
+ struct IfcObjectDefinition;
+ struct IfcObject;
+ struct IfcControl;
+ struct IfcActionRequest;
+ struct IfcActor;
+ typedef NotImplemented IfcActorRole; // (not currently used by Assimp)
+ struct IfcTypeObject;
+ struct IfcTypeProduct;
+ struct IfcElementType;
+ struct IfcDistributionElementType;
+ struct IfcDistributionControlElementType;
+ struct IfcActuatorType;
+ typedef NotImplemented IfcAddress; // (not currently used by Assimp)
+ struct IfcDistributionFlowElementType;
+ struct IfcFlowControllerType;
+ struct IfcAirTerminalBoxType;
+ struct IfcFlowTerminalType;
+ struct IfcAirTerminalType;
+ struct IfcEnergyConversionDeviceType;
+ struct IfcAirToAirHeatRecoveryType;
+ struct IfcAlarmType;
+ struct IfcDraughtingCallout;
+ struct IfcDimensionCurveDirectedCallout;
+ struct IfcAngularDimension;
+ struct IfcProduct;
+ struct IfcAnnotation;
+ struct IfcStyledItem;
+ struct IfcAnnotationOccurrence;
+ struct IfcAnnotationCurveOccurrence;
+ struct IfcAnnotationFillArea;
+ struct IfcAnnotationFillAreaOccurrence;
+ struct IfcAnnotationSurface;
+ struct IfcAnnotationSurfaceOccurrence;
+ struct IfcAnnotationSymbolOccurrence;
+ struct IfcAnnotationTextOccurrence;
+ typedef NotImplemented IfcApplication; // (not currently used by Assimp)
+ typedef NotImplemented IfcAppliedValue; // (not currently used by Assimp)
+ typedef NotImplemented IfcAppliedValueRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcApproval; // (not currently used by Assimp)
+ typedef NotImplemented IfcApprovalActorRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcApprovalPropertyRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcApprovalRelationship; // (not currently used by Assimp)
+ struct IfcProfileDef;
+ struct IfcArbitraryClosedProfileDef;
+ struct IfcArbitraryOpenProfileDef;
+ struct IfcArbitraryProfileDefWithVoids;
+ struct IfcGroup;
+ struct IfcAsset;
+ struct IfcParameterizedProfileDef;
+ struct IfcIShapeProfileDef;
+ struct IfcAsymmetricIShapeProfileDef;
+ struct IfcPlacement;
+ struct IfcAxis1Placement;
+ struct IfcAxis2Placement2D;
+ struct IfcAxis2Placement3D;
+ struct IfcBSplineCurve;
+ struct IfcElement;
+ struct IfcBuildingElement;
+ struct IfcBeam;
+ struct IfcBuildingElementType;
+ struct IfcBeamType;
+ struct IfcBezierCurve;
+ typedef NotImplemented IfcSurfaceTexture; // (not currently used by Assimp)
+ typedef NotImplemented IfcBlobTexture; // (not currently used by Assimp)
+ struct IfcCsgPrimitive3D;
+ struct IfcBlock;
+ struct IfcBoilerType;
+ struct IfcBooleanResult;
+ struct IfcBooleanClippingResult;
+ typedef NotImplemented IfcBoundaryCondition; // (not currently used by Assimp)
+ typedef NotImplemented IfcBoundaryEdgeCondition; // (not currently used by Assimp)
+ typedef NotImplemented IfcBoundaryFaceCondition; // (not currently used by Assimp)
+ typedef NotImplemented IfcBoundaryNodeCondition; // (not currently used by Assimp)
+ typedef NotImplemented IfcBoundaryNodeConditionWarping; // (not currently used by Assimp)
+ struct IfcSurface;
+ struct IfcBoundedSurface;
+ struct IfcBoundingBox;
+ struct IfcHalfSpaceSolid;
+ struct IfcBoxedHalfSpace;
+ struct IfcSpatialStructureElement;
+ struct IfcBuilding;
+ struct IfcBuildingElementComponent;
+ struct IfcBuildingElementPart;
+ struct IfcBuildingElementProxy;
+ struct IfcBuildingElementProxyType;
+ struct IfcBuildingStorey;
+ struct IfcCShapeProfileDef;
+ struct IfcFlowFittingType;
+ struct IfcCableCarrierFittingType;
+ struct IfcFlowSegmentType;
+ struct IfcCableCarrierSegmentType;
+ struct IfcCableSegmentType;
+ typedef NotImplemented IfcCalendarDate; // (not currently used by Assimp)
+ struct IfcPoint;
+ struct IfcCartesianPoint;
+ struct IfcCartesianTransformationOperator;
+ struct IfcCartesianTransformationOperator2D;
+ struct IfcCartesianTransformationOperator2DnonUniform;
+ struct IfcCartesianTransformationOperator3D;
+ struct IfcCartesianTransformationOperator3DnonUniform;
+ struct IfcCenterLineProfileDef;
+ struct IfcFeatureElement;
+ struct IfcFeatureElementSubtraction;
+ struct IfcEdgeFeature;
+ struct IfcChamferEdgeFeature;
+ struct IfcChillerType;
+ struct IfcConic;
+ struct IfcCircle;
+ struct IfcCircleProfileDef;
+ struct IfcCircleHollowProfileDef;
+ typedef NotImplemented IfcClassification; // (not currently used by Assimp)
+ typedef NotImplemented IfcClassificationItem; // (not currently used by Assimp)
+ typedef NotImplemented IfcClassificationItemRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcClassificationNotation; // (not currently used by Assimp)
+ typedef NotImplemented IfcClassificationNotationFacet; // (not currently used by Assimp)
+ typedef NotImplemented IfcExternalReference; // (not currently used by Assimp)
+ typedef NotImplemented IfcClassificationReference; // (not currently used by Assimp)
+ struct IfcTopologicalRepresentationItem;
+ struct IfcConnectedFaceSet;
+ struct IfcClosedShell;
+ struct IfcCoilType;
+ struct IfcColourSpecification;
+ struct IfcColourRgb;
+ struct IfcColumn;
+ struct IfcColumnType;
+ struct IfcProperty;
+ struct IfcComplexProperty;
+ struct IfcCompositeCurveSegment;
+ struct IfcCompositeProfileDef;
+ struct IfcFlowMovingDeviceType;
+ struct IfcCompressorType;
+ struct IfcCondenserType;
+ struct IfcCondition;
+ struct IfcConditionCriterion;
+ typedef NotImplemented IfcConnectionGeometry; // (not currently used by Assimp)
+ typedef NotImplemented IfcConnectionCurveGeometry; // (not currently used by Assimp)
+ typedef NotImplemented IfcConnectionPointGeometry; // (not currently used by Assimp)
+ typedef NotImplemented IfcConnectionPointEccentricity; // (not currently used by Assimp)
+ typedef NotImplemented IfcConnectionPortGeometry; // (not currently used by Assimp)
+ typedef NotImplemented IfcConnectionSurfaceGeometry; // (not currently used by Assimp)
+ typedef NotImplemented IfcConstraint; // (not currently used by Assimp)
+ typedef NotImplemented IfcConstraintAggregationRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcConstraintClassificationRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcConstraintRelationship; // (not currently used by Assimp)
+ struct IfcResource;
+ struct IfcConstructionResource;
+ struct IfcConstructionEquipmentResource;
+ struct IfcConstructionMaterialResource;
+ struct IfcConstructionProductResource;
+ struct IfcNamedUnit;
+ struct IfcContextDependentUnit;
+ struct IfcControllerType;
+ struct IfcConversionBasedUnit;
+ struct IfcCooledBeamType;
+ struct IfcCoolingTowerType;
+ typedef NotImplemented IfcCoordinatedUniversalTimeOffset; // (not currently used by Assimp)
+ struct IfcCostItem;
+ struct IfcCostSchedule;
+ typedef NotImplemented IfcCostValue; // (not currently used by Assimp)
+ struct IfcCovering;
+ struct IfcCoveringType;
+ struct IfcCraneRailAShapeProfileDef;
+ struct IfcCraneRailFShapeProfileDef;
+ struct IfcCrewResource;
+ struct IfcSolidModel;
+ struct IfcCsgSolid;
+ typedef NotImplemented IfcCurrencyRelationship; // (not currently used by Assimp)
+ struct IfcCurtainWall;
+ struct IfcCurtainWallType;
+ struct IfcCurveBoundedPlane;
+ struct IfcPresentationStyle;
+ typedef NotImplemented IfcCurveStyle; // (not currently used by Assimp)
+ typedef NotImplemented IfcCurveStyleFont; // (not currently used by Assimp)
+ typedef NotImplemented IfcCurveStyleFontAndScaling; // (not currently used by Assimp)
+ typedef NotImplemented IfcCurveStyleFontPattern; // (not currently used by Assimp)
+ struct IfcDamperType;
+ typedef NotImplemented IfcDateAndTime; // (not currently used by Assimp)
+ struct IfcDefinedSymbol;
+ struct IfcDerivedProfileDef;
+ typedef NotImplemented IfcDerivedUnit; // (not currently used by Assimp)
+ typedef NotImplemented IfcDerivedUnitElement; // (not currently used by Assimp)
+ struct IfcDiameterDimension;
+ typedef NotImplemented IfcDraughtingCalloutRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcDimensionCalloutRelationship; // (not currently used by Assimp)
+ struct IfcDimensionCurve;
+ struct IfcTerminatorSymbol;
+ struct IfcDimensionCurveTerminator;
+ typedef NotImplemented IfcDimensionPair; // (not currently used by Assimp)
+ typedef NotImplemented IfcDimensionalExponents; // (not currently used by Assimp)
+ struct IfcDirection;
+ struct IfcElementComponent;
+ struct IfcDiscreteAccessory;
+ struct IfcElementComponentType;
+ struct IfcDiscreteAccessoryType;
+ struct IfcDistributionElement;
+ struct IfcDistributionFlowElement;
+ struct IfcDistributionChamberElement;
+ struct IfcDistributionChamberElementType;
+ struct IfcDistributionControlElement;
+ struct IfcPort;
+ struct IfcDistributionPort;
+ typedef NotImplemented IfcDocumentElectronicFormat; // (not currently used by Assimp)
+ typedef NotImplemented IfcDocumentInformation; // (not currently used by Assimp)
+ typedef NotImplemented IfcDocumentInformationRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcDocumentReference; // (not currently used by Assimp)
+ struct IfcDoor;
+ struct IfcPropertyDefinition;
+ struct IfcPropertySetDefinition;
+ typedef NotImplemented IfcDoorLiningProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcDoorPanelProperties; // (not currently used by Assimp)
+ struct IfcDoorStyle;
+ typedef NotImplemented IfcPreDefinedItem; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedColour; // (not currently used by Assimp)
+ typedef NotImplemented IfcDraughtingPreDefinedColour; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedCurveFont; // (not currently used by Assimp)
+ typedef NotImplemented IfcDraughtingPreDefinedCurveFont; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedTextFont; // (not currently used by Assimp)
+ typedef NotImplemented IfcDraughtingPreDefinedTextFont; // (not currently used by Assimp)
+ struct IfcDuctFittingType;
+ struct IfcDuctSegmentType;
+ struct IfcFlowTreatmentDeviceType;
+ struct IfcDuctSilencerType;
+ struct IfcEdge;
+ struct IfcEdgeCurve;
+ struct IfcLoop;
+ struct IfcEdgeLoop;
+ struct IfcElectricApplianceType;
+ struct IfcFlowController;
+ struct IfcElectricDistributionPoint;
+ struct IfcFlowStorageDeviceType;
+ struct IfcElectricFlowStorageDeviceType;
+ struct IfcElectricGeneratorType;
+ struct IfcElectricHeaterType;
+ struct IfcElectricMotorType;
+ struct IfcElectricTimeControlType;
+ typedef NotImplemented IfcEnergyProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcElectricalBaseProperties; // (not currently used by Assimp)
+ struct IfcSystem;
+ struct IfcElectricalCircuit;
+ struct IfcElectricalElement;
+ struct IfcElementAssembly;
+ struct IfcElementQuantity;
+ struct IfcElementarySurface;
+ struct IfcEllipse;
+ struct IfcEllipseProfileDef;
+ struct IfcEnergyConversionDevice;
+ typedef NotImplemented IfcEnvironmentalImpactValue; // (not currently used by Assimp)
+ struct IfcEquipmentElement;
+ struct IfcEquipmentStandard;
+ struct IfcEvaporativeCoolerType;
+ struct IfcEvaporatorType;
+ typedef NotImplemented IfcMaterialProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcExtendedMaterialProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcExternallyDefinedHatchStyle; // (not currently used by Assimp)
+ typedef NotImplemented IfcExternallyDefinedSurfaceStyle; // (not currently used by Assimp)
+ typedef NotImplemented IfcExternallyDefinedSymbol; // (not currently used by Assimp)
+ typedef NotImplemented IfcExternallyDefinedTextFont; // (not currently used by Assimp)
+ struct IfcSweptAreaSolid;
+ struct IfcExtrudedAreaSolid;
+ struct IfcFace;
+ struct IfcFaceBasedSurfaceModel;
+ struct IfcFaceBound;
+ struct IfcFaceOuterBound;
+ struct IfcFaceSurface;
+ struct IfcManifoldSolidBrep;
+ struct IfcFacetedBrep;
+ struct IfcFacetedBrepWithVoids;
+ typedef NotImplemented IfcStructuralConnectionCondition; // (not currently used by Assimp)
+ typedef NotImplemented IfcFailureConnectionCondition; // (not currently used by Assimp)
+ struct IfcFanType;
+ struct IfcFastener;
+ struct IfcFastenerType;
+ struct IfcFeatureElementAddition;
+ typedef NotImplemented IfcFillAreaStyle; // (not currently used by Assimp)
+ struct IfcFillAreaStyleHatching;
+ struct IfcFillAreaStyleTileSymbolWithStyle;
+ struct IfcFillAreaStyleTiles;
+ struct IfcFilterType;
+ struct IfcFireSuppressionTerminalType;
+ struct IfcFlowFitting;
+ struct IfcFlowInstrumentType;
+ struct IfcFlowMeterType;
+ struct IfcFlowMovingDevice;
+ struct IfcFlowSegment;
+ struct IfcFlowStorageDevice;
+ struct IfcFlowTerminal;
+ struct IfcFlowTreatmentDevice;
+ typedef NotImplemented IfcFluidFlowProperties; // (not currently used by Assimp)
+ struct IfcFooting;
+ typedef NotImplemented IfcFuelProperties; // (not currently used by Assimp)
+ struct IfcFurnishingElement;
+ struct IfcFurnishingElementType;
+ struct IfcFurnitureStandard;
+ struct IfcFurnitureType;
+ struct IfcGasTerminalType;
+ typedef NotImplemented IfcGeneralMaterialProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcProfileProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcGeneralProfileProperties; // (not currently used by Assimp)
+ struct IfcGeometricSet;
+ struct IfcGeometricCurveSet;
+ struct IfcRepresentationContext;
+ struct IfcGeometricRepresentationContext;
+ struct IfcGeometricRepresentationSubContext;
+ struct IfcGrid;
+ typedef NotImplemented IfcGridAxis; // (not currently used by Assimp)
+ struct IfcObjectPlacement;
+ struct IfcGridPlacement;
+ struct IfcHeatExchangerType;
+ struct IfcHumidifierType;
+ typedef NotImplemented IfcHygroscopicMaterialProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcImageTexture; // (not currently used by Assimp)
+ struct IfcInventory;
+ typedef NotImplemented IfcTimeSeries; // (not currently used by Assimp)
+ typedef NotImplemented IfcIrregularTimeSeries; // (not currently used by Assimp)
+ typedef NotImplemented IfcIrregularTimeSeriesValue; // (not currently used by Assimp)
+ struct IfcJunctionBoxType;
+ struct IfcLShapeProfileDef;
+ struct IfcLaborResource;
+ struct IfcLampType;
+ typedef NotImplemented IfcLibraryInformation; // (not currently used by Assimp)
+ typedef NotImplemented IfcLibraryReference; // (not currently used by Assimp)
+ typedef NotImplemented IfcLightDistributionData; // (not currently used by Assimp)
+ struct IfcLightFixtureType;
+ typedef NotImplemented IfcLightIntensityDistribution; // (not currently used by Assimp)
+ struct IfcLightSource;
+ struct IfcLightSourceAmbient;
+ struct IfcLightSourceDirectional;
+ struct IfcLightSourceGoniometric;
+ struct IfcLightSourcePositional;
+ struct IfcLightSourceSpot;
+ struct IfcLine;
+ struct IfcLinearDimension;
+ struct IfcLocalPlacement;
+ typedef NotImplemented IfcLocalTime; // (not currently used by Assimp)
+ struct IfcMappedItem;
+ typedef NotImplemented IfcMaterial; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialClassificationRelationship; // (not currently used by Assimp)
+ struct IfcProductRepresentation;
+ struct IfcMaterialDefinitionRepresentation;
+ typedef NotImplemented IfcMaterialLayer; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialLayerSet; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialLayerSetUsage; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialList; // (not currently used by Assimp)
+ struct IfcMeasureWithUnit;
+ typedef NotImplemented IfcMechanicalMaterialProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcMechanicalConcreteMaterialProperties; // (not currently used by Assimp)
+ struct IfcMechanicalFastener;
+ struct IfcMechanicalFastenerType;
+ typedef NotImplemented IfcMechanicalSteelMaterialProperties; // (not currently used by Assimp)
+ struct IfcMember;
+ struct IfcMemberType;
+ typedef NotImplemented IfcMetric; // (not currently used by Assimp)
+ typedef NotImplemented IfcMonetaryUnit; // (not currently used by Assimp)
+ struct IfcMotorConnectionType;
+ struct IfcProcess;
+ struct IfcTask;
+ struct IfcMove;
+ typedef NotImplemented IfcObjective; // (not currently used by Assimp)
+ struct IfcOccupant;
+ struct IfcOffsetCurve2D;
+ struct IfcOffsetCurve3D;
+ struct IfcOneDirectionRepeatFactor;
+ struct IfcOpenShell;
+ struct IfcOpeningElement;
+ typedef NotImplemented IfcOpticalMaterialProperties; // (not currently used by Assimp)
+ struct IfcOrderAction;
+ typedef NotImplemented IfcOrganization; // (not currently used by Assimp)
+ typedef NotImplemented IfcOrganizationRelationship; // (not currently used by Assimp)
+ struct IfcOrientedEdge;
+ struct IfcOutletType;
+ typedef NotImplemented IfcOwnerHistory; // (not currently used by Assimp)
+ struct IfcPath;
+ struct IfcPerformanceHistory;
+ typedef NotImplemented IfcPermeableCoveringProperties; // (not currently used by Assimp)
+ struct IfcPermit;
+ typedef NotImplemented IfcPerson; // (not currently used by Assimp)
+ typedef NotImplemented IfcPersonAndOrganization; // (not currently used by Assimp)
+ typedef NotImplemented IfcPhysicalQuantity; // (not currently used by Assimp)
+ typedef NotImplemented IfcPhysicalComplexQuantity; // (not currently used by Assimp)
+ typedef NotImplemented IfcPhysicalSimpleQuantity; // (not currently used by Assimp)
+ struct IfcPile;
+ struct IfcPipeFittingType;
+ struct IfcPipeSegmentType;
+ typedef NotImplemented IfcPixelTexture; // (not currently used by Assimp)
+ struct IfcPlanarExtent;
+ struct IfcPlanarBox;
+ struct IfcPlane;
+ struct IfcPlate;
+ struct IfcPlateType;
+ struct IfcPointOnCurve;
+ struct IfcPointOnSurface;
+ struct IfcPolyLoop;
+ struct IfcPolygonalBoundedHalfSpace;
+ struct IfcPolyline;
+ typedef NotImplemented IfcPostalAddress; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedSymbol; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedDimensionSymbol; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedPointMarkerSymbol; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedTerminatorSymbol; // (not currently used by Assimp)
+ typedef NotImplemented IfcPresentationLayerAssignment; // (not currently used by Assimp)
+ typedef NotImplemented IfcPresentationLayerWithStyle; // (not currently used by Assimp)
+ struct IfcPresentationStyleAssignment;
+ struct IfcProcedure;
+ struct IfcProductDefinitionShape;
+ typedef NotImplemented IfcProductsOfCombustionProperties; // (not currently used by Assimp)
+ struct IfcProject;
+ struct IfcProjectOrder;
+ struct IfcProjectOrderRecord;
+ struct IfcProjectionCurve;
+ struct IfcProjectionElement;
+ struct IfcSimpleProperty;
+ struct IfcPropertyBoundedValue;
+ typedef NotImplemented IfcPropertyConstraintRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcPropertyDependencyRelationship; // (not currently used by Assimp)
+ struct IfcPropertyEnumeratedValue;
+ typedef NotImplemented IfcPropertyEnumeration; // (not currently used by Assimp)
+ struct IfcPropertyListValue;
+ struct IfcPropertyReferenceValue;
+ struct IfcPropertySet;
+ struct IfcPropertySingleValue;
+ struct IfcPropertyTableValue;
+ struct IfcProtectiveDeviceType;
+ struct IfcProxy;
+ struct IfcPumpType;
+ typedef NotImplemented IfcQuantityArea; // (not currently used by Assimp)
+ typedef NotImplemented IfcQuantityCount; // (not currently used by Assimp)
+ typedef NotImplemented IfcQuantityLength; // (not currently used by Assimp)
+ typedef NotImplemented IfcQuantityTime; // (not currently used by Assimp)
+ typedef NotImplemented IfcQuantityVolume; // (not currently used by Assimp)
+ typedef NotImplemented IfcQuantityWeight; // (not currently used by Assimp)
+ struct IfcRadiusDimension;
+ struct IfcRailing;
+ struct IfcRailingType;
+ struct IfcRamp;
+ struct IfcRampFlight;
+ struct IfcRampFlightType;
+ struct IfcRationalBezierCurve;
+ struct IfcRectangleProfileDef;
+ struct IfcRectangleHollowProfileDef;
+ struct IfcRectangularPyramid;
+ struct IfcRectangularTrimmedSurface;
+ typedef NotImplemented IfcReferencesValueDocument; // (not currently used by Assimp)
+ typedef NotImplemented IfcRegularTimeSeries; // (not currently used by Assimp)
+ typedef NotImplemented IfcReinforcementBarProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcReinforcementDefinitionProperties; // (not currently used by Assimp)
+ struct IfcReinforcingElement;
+ struct IfcReinforcingBar;
+ struct IfcReinforcingMesh;
+ struct IfcRelationship;
+ struct IfcRelDecomposes;
+ struct IfcRelAggregates;
+ typedef NotImplemented IfcRelAssigns; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToControl; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsTasks; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToActor; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToGroup; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToProcess; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToProduct; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToProjectOrder; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToResource; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociates; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesAppliedValue; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesApproval; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesClassification; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesConstraint; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesDocument; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesLibrary; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesMaterial; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesProfileProperties; // (not currently used by Assimp)
+ struct IfcRelConnects;
+ typedef NotImplemented IfcRelConnectsElements; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsPathElements; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsPortToElement; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsPorts; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsStructuralActivity; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsStructuralElement; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsStructuralMember; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsWithEccentricity; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsWithRealizingElements; // (not currently used by Assimp)
+ struct IfcRelContainedInSpatialStructure;
+ typedef NotImplemented IfcRelCoversBldgElements; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelCoversSpaces; // (not currently used by Assimp)
+ struct IfcRelDefines;
+ struct IfcRelDefinesByProperties;
+ typedef NotImplemented IfcRelDefinesByType; // (not currently used by Assimp)
+ struct IfcRelFillsElement;
+ typedef NotImplemented IfcRelFlowControlElements; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelInteractionRequirements; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelNests; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelOccupiesSpaces; // (not currently used by Assimp)
+ struct IfcRelOverridesProperties;
+ typedef NotImplemented IfcRelProjectsElement; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelReferencedInSpatialStructure; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelSchedulesCostItems; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelSequence; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelServicesBuildings; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelSpaceBoundary; // (not currently used by Assimp)
+ struct IfcRelVoidsElement;
+ typedef NotImplemented IfcRelaxation; // (not currently used by Assimp)
+ struct IfcRepresentation;
+ struct IfcRepresentationMap;
+ struct IfcRevolvedAreaSolid;
+ typedef NotImplemented IfcRibPlateProfileProperties; // (not currently used by Assimp)
+ struct IfcRightCircularCone;
+ struct IfcRightCircularCylinder;
+ struct IfcRoof;
+ struct IfcRoundedEdgeFeature;
+ struct IfcRoundedRectangleProfileDef;
+ struct IfcSIUnit;
+ struct IfcSanitaryTerminalType;
+ struct IfcScheduleTimeControl;
+ typedef NotImplemented IfcSectionProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcSectionReinforcementProperties; // (not currently used by Assimp)
+ struct IfcSectionedSpine;
+ struct IfcSensorType;
+ struct IfcServiceLife;
+ typedef NotImplemented IfcServiceLifeFactor; // (not currently used by Assimp)
+ typedef NotImplemented IfcShapeAspect; // (not currently used by Assimp)
+ struct IfcShapeModel;
+ struct IfcShapeRepresentation;
+ struct IfcShellBasedSurfaceModel;
+ struct IfcSite;
+ struct IfcSlab;
+ struct IfcSlabType;
+ typedef NotImplemented IfcSlippageConnectionCondition; // (not currently used by Assimp)
+ typedef NotImplemented IfcSoundProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcSoundValue; // (not currently used by Assimp)
+ struct IfcSpace;
+ struct IfcSpaceHeaterType;
+ struct IfcSpaceProgram;
+ typedef NotImplemented IfcSpaceThermalLoadProperties; // (not currently used by Assimp)
+ struct IfcSpatialStructureElementType;
+ struct IfcSpaceType;
+ struct IfcSphere;
+ struct IfcStackTerminalType;
+ struct IfcStair;
+ struct IfcStairFlight;
+ struct IfcStairFlightType;
+ struct IfcStructuralActivity;
+ struct IfcStructuralAction;
+ struct IfcStructuralAnalysisModel;
+ struct IfcStructuralItem;
+ struct IfcStructuralConnection;
+ struct IfcStructuralCurveConnection;
+ struct IfcStructuralMember;
+ struct IfcStructuralCurveMember;
+ struct IfcStructuralCurveMemberVarying;
+ struct IfcStructuralLinearAction;
+ struct IfcStructuralLinearActionVarying;
+ typedef NotImplemented IfcStructuralLoad; // (not currently used by Assimp)
+ struct IfcStructuralLoadGroup;
+ typedef NotImplemented IfcStructuralLoadStatic; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadLinearForce; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadPlanarForce; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadSingleDisplacement; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadSingleDisplacementDistortion; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadSingleForce; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadSingleForceWarping; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadTemperature; // (not currently used by Assimp)
+ struct IfcStructuralPlanarAction;
+ struct IfcStructuralPlanarActionVarying;
+ struct IfcStructuralPointAction;
+ struct IfcStructuralPointConnection;
+ struct IfcStructuralReaction;
+ struct IfcStructuralPointReaction;
+ typedef NotImplemented IfcStructuralProfileProperties; // (not currently used by Assimp)
+ struct IfcStructuralResultGroup;
+ typedef NotImplemented IfcStructuralSteelProfileProperties; // (not currently used by Assimp)
+ struct IfcStructuralSurfaceConnection;
+ struct IfcStructuralSurfaceMember;
+ struct IfcStructuralSurfaceMemberVarying;
+ struct IfcStructuredDimensionCallout;
+ struct IfcStyleModel;
+ struct IfcStyledRepresentation;
+ struct IfcSubContractResource;
+ struct IfcSubedge;
+ struct IfcSurfaceCurveSweptAreaSolid;
+ struct IfcSweptSurface;
+ struct IfcSurfaceOfLinearExtrusion;
+ struct IfcSurfaceOfRevolution;
+ struct IfcSurfaceStyle;
+ typedef NotImplemented IfcSurfaceStyleLighting; // (not currently used by Assimp)
+ typedef NotImplemented IfcSurfaceStyleRefraction; // (not currently used by Assimp)
+ struct IfcSurfaceStyleShading;
+ struct IfcSurfaceStyleRendering;
+ struct IfcSurfaceStyleWithTextures;
+ struct IfcSweptDiskSolid;
+ struct IfcSwitchingDeviceType;
+ typedef NotImplemented IfcSymbolStyle; // (not currently used by Assimp)
+ struct IfcSystemFurnitureElementType;
+ struct IfcTShapeProfileDef;
+ typedef NotImplemented IfcTable; // (not currently used by Assimp)
+ typedef NotImplemented IfcTableRow; // (not currently used by Assimp)
+ struct IfcTankType;
+ typedef NotImplemented IfcTelecomAddress; // (not currently used by Assimp)
+ struct IfcTendon;
+ struct IfcTendonAnchor;
+ struct IfcTextLiteral;
+ struct IfcTextLiteralWithExtent;
+ typedef NotImplemented IfcTextStyle; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextStyleFontModel; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextStyleForDefinedFont; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextStyleTextModel; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextStyleWithBoxCharacteristics; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextureCoordinate; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextureCoordinateGenerator; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextureMap; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextureVertex; // (not currently used by Assimp)
+ typedef NotImplemented IfcThermalMaterialProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcTimeSeriesReferenceRelationship; // (not currently used by Assimp)
+ struct IfcTimeSeriesSchedule;
+ typedef NotImplemented IfcTimeSeriesValue; // (not currently used by Assimp)
+ struct IfcTopologyRepresentation;
+ struct IfcTransformerType;
+ struct IfcTransportElement;
+ struct IfcTransportElementType;
+ struct IfcTrapeziumProfileDef;
+ struct IfcTrimmedCurve;
+ struct IfcTubeBundleType;
+ struct IfcTwoDirectionRepeatFactor;
+ struct IfcUShapeProfileDef;
+ struct IfcUnitAssignment;
+ struct IfcUnitaryEquipmentType;
+ struct IfcValveType;
+ struct IfcVector;
+ struct IfcVertex;
+ typedef NotImplemented IfcVertexBasedTextureMap; // (not currently used by Assimp)
+ struct IfcVertexLoop;
+ struct IfcVertexPoint;
+ struct IfcVibrationIsolatorType;
+ struct IfcVirtualElement;
+ typedef NotImplemented IfcVirtualGridIntersection; // (not currently used by Assimp)
+ struct IfcWall;
+ struct IfcWallStandardCase;
+ struct IfcWallType;
+ struct IfcWasteTerminalType;
+ typedef NotImplemented IfcWaterProperties; // (not currently used by Assimp)
+ struct IfcWindow;
+ typedef NotImplemented IfcWindowLiningProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcWindowPanelProperties; // (not currently used by Assimp)
+ struct IfcWindowStyle;
+ struct IfcWorkControl;
+ struct IfcWorkPlan;
+ struct IfcWorkSchedule;
+ struct IfcZShapeProfileDef;
+ struct IfcZone;
+
+
+
+ // C++ wrapper for IfcRepresentationItem
+ struct IfcRepresentationItem : ObjectHelper<IfcRepresentationItem,0> { IfcRepresentationItem() : Object("IfcRepresentationItem") {}
+
+ };
+
+ // C++ wrapper for IfcGeometricRepresentationItem
+ struct IfcGeometricRepresentationItem : IfcRepresentationItem, ObjectHelper<IfcGeometricRepresentationItem,0> { IfcGeometricRepresentationItem() : Object("IfcGeometricRepresentationItem") {}
+
+ };
+
+ // C++ wrapper for IfcCurve
+ struct IfcCurve : IfcGeometricRepresentationItem, ObjectHelper<IfcCurve,0> { IfcCurve() : Object("IfcCurve") {}
+
+ };
+
+ // C++ wrapper for IfcBoundedCurve
+ struct IfcBoundedCurve : IfcCurve, ObjectHelper<IfcBoundedCurve,0> { IfcBoundedCurve() : Object("IfcBoundedCurve") {}
+
+ };
+
+ // C++ wrapper for IfcCompositeCurve
+ struct IfcCompositeCurve : IfcBoundedCurve, ObjectHelper<IfcCompositeCurve,2> { IfcCompositeCurve() : Object("IfcCompositeCurve") {}
+ ListOf< Lazy< IfcCompositeCurveSegment >, 1, 0 > Segments;
+ LOGICAL::Out SelfIntersect;
+ };
+
+ // C++ wrapper for Ifc2DCompositeCurve
+ struct Ifc2DCompositeCurve : IfcCompositeCurve, ObjectHelper<Ifc2DCompositeCurve,0> { Ifc2DCompositeCurve() : Object("Ifc2DCompositeCurve") {}
+
+ };
+
+ // C++ wrapper for IfcRoot
+ struct IfcRoot : ObjectHelper<IfcRoot,4> { IfcRoot() : Object("IfcRoot") {}
+ IfcGloballyUniqueId::Out GlobalId;
+ Lazy< NotImplemented > OwnerHistory;
+ Maybe< IfcLabel::Out > Name;
+ Maybe< IfcText::Out > Description;
+ };
+
+ // C++ wrapper for IfcObjectDefinition
+ struct IfcObjectDefinition : IfcRoot, ObjectHelper<IfcObjectDefinition,0> { IfcObjectDefinition() : Object("IfcObjectDefinition") {}
+
+ };
+
+ // C++ wrapper for IfcObject
+ struct IfcObject : IfcObjectDefinition, ObjectHelper<IfcObject,1> { IfcObject() : Object("IfcObject") {}
+ Maybe< IfcLabel::Out > ObjectType;
+ };
+
+ // C++ wrapper for IfcControl
+ struct IfcControl : IfcObject, ObjectHelper<IfcControl,0> { IfcControl() : Object("IfcControl") {}
+
+ };
+
+ // C++ wrapper for IfcActionRequest
+ struct IfcActionRequest : IfcControl, ObjectHelper<IfcActionRequest,1> { IfcActionRequest() : Object("IfcActionRequest") {}
+ IfcIdentifier::Out RequestID;
+ };
+
+ // C++ wrapper for IfcActor
+ struct IfcActor : IfcObject, ObjectHelper<IfcActor,1> { IfcActor() : Object("IfcActor") {}
+ IfcActorSelect::Out TheActor;
+ };
+
+ // C++ wrapper for IfcTypeObject
+ struct IfcTypeObject : IfcObjectDefinition, ObjectHelper<IfcTypeObject,2> { IfcTypeObject() : Object("IfcTypeObject") {}
+ Maybe< IfcLabel::Out > ApplicableOccurrence;
+ Maybe< ListOf< Lazy< IfcPropertySetDefinition >, 1, 0 > > HasPropertySets;
+ };
+
+ // C++ wrapper for IfcTypeProduct
+ struct IfcTypeProduct : IfcTypeObject, ObjectHelper<IfcTypeProduct,2> { IfcTypeProduct() : Object("IfcTypeProduct") {}
+ Maybe< ListOf< Lazy< IfcRepresentationMap >, 1, 0 > > RepresentationMaps;
+ Maybe< IfcLabel::Out > Tag;
+ };
+
+ // C++ wrapper for IfcElementType
+ struct IfcElementType : IfcTypeProduct, ObjectHelper<IfcElementType,1> { IfcElementType() : Object("IfcElementType") {}
+ Maybe< IfcLabel::Out > ElementType;
+ };
+
+ // C++ wrapper for IfcDistributionElementType
+ struct IfcDistributionElementType : IfcElementType, ObjectHelper<IfcDistributionElementType,0> { IfcDistributionElementType() : Object("IfcDistributionElementType") {}
+
+ };
+
+ // C++ wrapper for IfcDistributionControlElementType
+ struct IfcDistributionControlElementType : IfcDistributionElementType, ObjectHelper<IfcDistributionControlElementType,0> { IfcDistributionControlElementType() : Object("IfcDistributionControlElementType") {}
+
+ };
+
+ // C++ wrapper for IfcActuatorType
+ struct IfcActuatorType : IfcDistributionControlElementType, ObjectHelper<IfcActuatorType,1> { IfcActuatorType() : Object("IfcActuatorType") {}
+ IfcActuatorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcDistributionFlowElementType
+ struct IfcDistributionFlowElementType : IfcDistributionElementType, ObjectHelper<IfcDistributionFlowElementType,0> { IfcDistributionFlowElementType() : Object("IfcDistributionFlowElementType") {}
+
+ };
+
+ // C++ wrapper for IfcFlowControllerType
+ struct IfcFlowControllerType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowControllerType,0> { IfcFlowControllerType() : Object("IfcFlowControllerType") {}
+
+ };
+
+ // C++ wrapper for IfcAirTerminalBoxType
+ struct IfcAirTerminalBoxType : IfcFlowControllerType, ObjectHelper<IfcAirTerminalBoxType,1> { IfcAirTerminalBoxType() : Object("IfcAirTerminalBoxType") {}
+ IfcAirTerminalBoxTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowTerminalType
+ struct IfcFlowTerminalType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowTerminalType,0> { IfcFlowTerminalType() : Object("IfcFlowTerminalType") {}
+
+ };
+
+ // C++ wrapper for IfcAirTerminalType
+ struct IfcAirTerminalType : IfcFlowTerminalType, ObjectHelper<IfcAirTerminalType,1> { IfcAirTerminalType() : Object("IfcAirTerminalType") {}
+ IfcAirTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcEnergyConversionDeviceType
+ struct IfcEnergyConversionDeviceType : IfcDistributionFlowElementType, ObjectHelper<IfcEnergyConversionDeviceType,0> { IfcEnergyConversionDeviceType() : Object("IfcEnergyConversionDeviceType") {}
+
+ };
+
+ // C++ wrapper for IfcAirToAirHeatRecoveryType
+ struct IfcAirToAirHeatRecoveryType : IfcEnergyConversionDeviceType, ObjectHelper<IfcAirToAirHeatRecoveryType,1> { IfcAirToAirHeatRecoveryType() : Object("IfcAirToAirHeatRecoveryType") {}
+ IfcAirToAirHeatRecoveryTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcAlarmType
+ struct IfcAlarmType : IfcDistributionControlElementType, ObjectHelper<IfcAlarmType,1> { IfcAlarmType() : Object("IfcAlarmType") {}
+ IfcAlarmTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcDraughtingCallout
+ struct IfcDraughtingCallout : IfcGeometricRepresentationItem, ObjectHelper<IfcDraughtingCallout,1> { IfcDraughtingCallout() : Object("IfcDraughtingCallout") {}
+ ListOf< IfcDraughtingCalloutElement, 1, 0 >::Out Contents;
+ };
+
+ // C++ wrapper for IfcDimensionCurveDirectedCallout
+ struct IfcDimensionCurveDirectedCallout : IfcDraughtingCallout, ObjectHelper<IfcDimensionCurveDirectedCallout,0> { IfcDimensionCurveDirectedCallout() : Object("IfcDimensionCurveDirectedCallout") {}
+
+ };
+
+ // C++ wrapper for IfcAngularDimension
+ struct IfcAngularDimension : IfcDimensionCurveDirectedCallout, ObjectHelper<IfcAngularDimension,0> { IfcAngularDimension() : Object("IfcAngularDimension") {}
+
+ };
+
+ // C++ wrapper for IfcProduct
+ struct IfcProduct : IfcObject, ObjectHelper<IfcProduct,2> { IfcProduct() : Object("IfcProduct") {}
+ Maybe< Lazy< IfcObjectPlacement > > ObjectPlacement;
+ Maybe< Lazy< IfcProductRepresentation > > Representation;
+ };
+
+ // C++ wrapper for IfcAnnotation
+ struct IfcAnnotation : IfcProduct, ObjectHelper<IfcAnnotation,0> { IfcAnnotation() : Object("IfcAnnotation") {}
+
+ };
+
+ // C++ wrapper for IfcStyledItem
+ struct IfcStyledItem : IfcRepresentationItem, ObjectHelper<IfcStyledItem,3> { IfcStyledItem() : Object("IfcStyledItem") {}
+ Maybe< Lazy< IfcRepresentationItem > > Item;
+ ListOf< Lazy< IfcPresentationStyleAssignment >, 1, 0 > Styles;
+ Maybe< IfcLabel::Out > Name;
+ };
+
+ // C++ wrapper for IfcAnnotationOccurrence
+ struct IfcAnnotationOccurrence : IfcStyledItem, ObjectHelper<IfcAnnotationOccurrence,0> { IfcAnnotationOccurrence() : Object("IfcAnnotationOccurrence") {}
+
+ };
+
+ // C++ wrapper for IfcAnnotationCurveOccurrence
+ struct IfcAnnotationCurveOccurrence : IfcAnnotationOccurrence, ObjectHelper<IfcAnnotationCurveOccurrence,0> { IfcAnnotationCurveOccurrence() : Object("IfcAnnotationCurveOccurrence") {}
+
+ };
+
+ // C++ wrapper for IfcAnnotationFillArea
+ struct IfcAnnotationFillArea : IfcGeometricRepresentationItem, ObjectHelper<IfcAnnotationFillArea,2> { IfcAnnotationFillArea() : Object("IfcAnnotationFillArea") {}
+ Lazy< IfcCurve > OuterBoundary;
+ Maybe< ListOf< Lazy< IfcCurve >, 1, 0 > > InnerBoundaries;
+ };
+
+ // C++ wrapper for IfcAnnotationFillAreaOccurrence
+ struct IfcAnnotationFillAreaOccurrence : IfcAnnotationOccurrence, ObjectHelper<IfcAnnotationFillAreaOccurrence,2> { IfcAnnotationFillAreaOccurrence() : Object("IfcAnnotationFillAreaOccurrence") {}
+ Maybe< Lazy< IfcPoint > > FillStyleTarget;
+ Maybe< IfcGlobalOrLocalEnum::Out > GlobalOrLocal;
+ };
+
+ // C++ wrapper for IfcAnnotationSurface
+ struct IfcAnnotationSurface : IfcGeometricRepresentationItem, ObjectHelper<IfcAnnotationSurface,2> { IfcAnnotationSurface() : Object("IfcAnnotationSurface") {}
+ Lazy< IfcGeometricRepresentationItem > Item;
+ Maybe< Lazy< NotImplemented > > TextureCoordinates;
+ };
+
+ // C++ wrapper for IfcAnnotationSurfaceOccurrence
+ struct IfcAnnotationSurfaceOccurrence : IfcAnnotationOccurrence, ObjectHelper<IfcAnnotationSurfaceOccurrence,0> { IfcAnnotationSurfaceOccurrence() : Object("IfcAnnotationSurfaceOccurrence") {}
+
+ };
+
+ // C++ wrapper for IfcAnnotationSymbolOccurrence
+ struct IfcAnnotationSymbolOccurrence : IfcAnnotationOccurrence, ObjectHelper<IfcAnnotationSymbolOccurrence,0> { IfcAnnotationSymbolOccurrence() : Object("IfcAnnotationSymbolOccurrence") {}
+
+ };
+
+ // C++ wrapper for IfcAnnotationTextOccurrence
+ struct IfcAnnotationTextOccurrence : IfcAnnotationOccurrence, ObjectHelper<IfcAnnotationTextOccurrence,0> { IfcAnnotationTextOccurrence() : Object("IfcAnnotationTextOccurrence") {}
+
+ };
+
+ // C++ wrapper for IfcProfileDef
+ struct IfcProfileDef : ObjectHelper<IfcProfileDef,2> { IfcProfileDef() : Object("IfcProfileDef") {}
+ IfcProfileTypeEnum::Out ProfileType;
+ Maybe< IfcLabel::Out > ProfileName;
+ };
+
+ // C++ wrapper for IfcArbitraryClosedProfileDef
+ struct IfcArbitraryClosedProfileDef : IfcProfileDef, ObjectHelper<IfcArbitraryClosedProfileDef,1> { IfcArbitraryClosedProfileDef() : Object("IfcArbitraryClosedProfileDef") {}
+ Lazy< IfcCurve > OuterCurve;
+ };
+
+ // C++ wrapper for IfcArbitraryOpenProfileDef
+ struct IfcArbitraryOpenProfileDef : IfcProfileDef, ObjectHelper<IfcArbitraryOpenProfileDef,1> { IfcArbitraryOpenProfileDef() : Object("IfcArbitraryOpenProfileDef") {}
+ Lazy< IfcBoundedCurve > Curve;
+ };
+
+ // C++ wrapper for IfcArbitraryProfileDefWithVoids
+ struct IfcArbitraryProfileDefWithVoids : IfcArbitraryClosedProfileDef, ObjectHelper<IfcArbitraryProfileDefWithVoids,1> { IfcArbitraryProfileDefWithVoids() : Object("IfcArbitraryProfileDefWithVoids") {}
+ ListOf< Lazy< IfcCurve >, 1, 0 > InnerCurves;
+ };
+
+ // C++ wrapper for IfcGroup
+ struct IfcGroup : IfcObject, ObjectHelper<IfcGroup,0> { IfcGroup() : Object("IfcGroup") {}
+
+ };
+
+ // C++ wrapper for IfcAsset
+ struct IfcAsset : IfcGroup, ObjectHelper<IfcAsset,9> { IfcAsset() : Object("IfcAsset") {}
+ IfcIdentifier::Out AssetID;
+ Lazy< NotImplemented > OriginalValue;
+ Lazy< NotImplemented > CurrentValue;
+ Lazy< NotImplemented > TotalReplacementCost;
+ IfcActorSelect::Out Owner;
+ IfcActorSelect::Out User;
+ Lazy< NotImplemented > ResponsiblePerson;
+ Lazy< NotImplemented > IncorporationDate;
+ Lazy< NotImplemented > DepreciatedValue;
+ };
+
+ // C++ wrapper for IfcParameterizedProfileDef
+ struct IfcParameterizedProfileDef : IfcProfileDef, ObjectHelper<IfcParameterizedProfileDef,1> { IfcParameterizedProfileDef() : Object("IfcParameterizedProfileDef") {}
+ Lazy< IfcAxis2Placement2D > Position;
+ };
+
+ // C++ wrapper for IfcIShapeProfileDef
+ struct IfcIShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcIShapeProfileDef,5> { IfcIShapeProfileDef() : Object("IfcIShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out OverallWidth;
+ IfcPositiveLengthMeasure::Out OverallDepth;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out FlangeThickness;
+ Maybe< IfcPositiveLengthMeasure::Out > FilletRadius;
+ };
+
+ // C++ wrapper for IfcAsymmetricIShapeProfileDef
+ struct IfcAsymmetricIShapeProfileDef : IfcIShapeProfileDef, ObjectHelper<IfcAsymmetricIShapeProfileDef,4> { IfcAsymmetricIShapeProfileDef() : Object("IfcAsymmetricIShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out TopFlangeWidth;
+ Maybe< IfcPositiveLengthMeasure::Out > TopFlangeThickness;
+ Maybe< IfcPositiveLengthMeasure::Out > TopFlangeFilletRadius;
+ Maybe< IfcPositiveLengthMeasure::Out > CentreOfGravityInY;
+ };
+
+ // C++ wrapper for IfcPlacement
+ struct IfcPlacement : IfcGeometricRepresentationItem, ObjectHelper<IfcPlacement,1> { IfcPlacement() : Object("IfcPlacement") {}
+ Lazy< IfcCartesianPoint > Location;
+ };
+
+ // C++ wrapper for IfcAxis1Placement
+ struct IfcAxis1Placement : IfcPlacement, ObjectHelper<IfcAxis1Placement,1> { IfcAxis1Placement() : Object("IfcAxis1Placement") {}
+ Maybe< Lazy< IfcDirection > > Axis;
+ };
+
+ // C++ wrapper for IfcAxis2Placement2D
+ struct IfcAxis2Placement2D : IfcPlacement, ObjectHelper<IfcAxis2Placement2D,1> { IfcAxis2Placement2D() : Object("IfcAxis2Placement2D") {}
+ Maybe< Lazy< IfcDirection > > RefDirection;
+ };
+
+ // C++ wrapper for IfcAxis2Placement3D
+ struct IfcAxis2Placement3D : IfcPlacement, ObjectHelper<IfcAxis2Placement3D,2> { IfcAxis2Placement3D() : Object("IfcAxis2Placement3D") {}
+ Maybe< Lazy< IfcDirection > > Axis;
+ Maybe< Lazy< IfcDirection > > RefDirection;
+ };
+
+ // C++ wrapper for IfcBSplineCurve
+ struct IfcBSplineCurve : IfcBoundedCurve, ObjectHelper<IfcBSplineCurve,5> { IfcBSplineCurve() : Object("IfcBSplineCurve") {}
+ INTEGER::Out Degree;
+ ListOf< Lazy< IfcCartesianPoint >, 2, 0 > ControlPointsList;
+ IfcBSplineCurveForm::Out CurveForm;
+ LOGICAL::Out ClosedCurve;
+ LOGICAL::Out SelfIntersect;
+ };
+
+ // C++ wrapper for IfcElement
+ struct IfcElement : IfcProduct, ObjectHelper<IfcElement,1> { IfcElement() : Object("IfcElement") {}
+ Maybe< IfcIdentifier::Out > Tag;
+ };
+
+ // C++ wrapper for IfcBuildingElement
+ struct IfcBuildingElement : IfcElement, ObjectHelper<IfcBuildingElement,0> { IfcBuildingElement() : Object("IfcBuildingElement") {}
+
+ };
+
+ // C++ wrapper for IfcBeam
+ struct IfcBeam : IfcBuildingElement, ObjectHelper<IfcBeam,0> { IfcBeam() : Object("IfcBeam") {}
+
+ };
+
+ // C++ wrapper for IfcBuildingElementType
+ struct IfcBuildingElementType : IfcElementType, ObjectHelper<IfcBuildingElementType,0> { IfcBuildingElementType() : Object("IfcBuildingElementType") {}
+
+ };
+
+ // C++ wrapper for IfcBeamType
+ struct IfcBeamType : IfcBuildingElementType, ObjectHelper<IfcBeamType,1> { IfcBeamType() : Object("IfcBeamType") {}
+ IfcBeamTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcBezierCurve
+ struct IfcBezierCurve : IfcBSplineCurve, ObjectHelper<IfcBezierCurve,0> { IfcBezierCurve() : Object("IfcBezierCurve") {}
+
+ };
+
+ // C++ wrapper for IfcCsgPrimitive3D
+ struct IfcCsgPrimitive3D : IfcGeometricRepresentationItem, ObjectHelper<IfcCsgPrimitive3D,1> { IfcCsgPrimitive3D() : Object("IfcCsgPrimitive3D") {}
+ Lazy< IfcAxis2Placement3D > Position;
+ };
+
+ // C++ wrapper for IfcBlock
+ struct IfcBlock : IfcCsgPrimitive3D, ObjectHelper<IfcBlock,3> { IfcBlock() : Object("IfcBlock") {}
+ IfcPositiveLengthMeasure::Out XLength;
+ IfcPositiveLengthMeasure::Out YLength;
+ IfcPositiveLengthMeasure::Out ZLength;
+ };
+
+ // C++ wrapper for IfcBoilerType
+ struct IfcBoilerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcBoilerType,1> { IfcBoilerType() : Object("IfcBoilerType") {}
+ IfcBoilerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcBooleanResult
+ struct IfcBooleanResult : IfcGeometricRepresentationItem, ObjectHelper<IfcBooleanResult,3> { IfcBooleanResult() : Object("IfcBooleanResult") {}
+ IfcBooleanOperator::Out Operator;
+ IfcBooleanOperand::Out FirstOperand;
+ IfcBooleanOperand::Out SecondOperand;
+ };
+
+ // C++ wrapper for IfcBooleanClippingResult
+ struct IfcBooleanClippingResult : IfcBooleanResult, ObjectHelper<IfcBooleanClippingResult,0> { IfcBooleanClippingResult() : Object("IfcBooleanClippingResult") {}
+
+ };
+
+ // C++ wrapper for IfcSurface
+ struct IfcSurface : IfcGeometricRepresentationItem, ObjectHelper<IfcSurface,0> { IfcSurface() : Object("IfcSurface") {}
+
+ };
+
+ // C++ wrapper for IfcBoundedSurface
+ struct IfcBoundedSurface : IfcSurface, ObjectHelper<IfcBoundedSurface,0> { IfcBoundedSurface() : Object("IfcBoundedSurface") {}
+
+ };
+
+ // C++ wrapper for IfcBoundingBox
+ struct IfcBoundingBox : IfcGeometricRepresentationItem, ObjectHelper<IfcBoundingBox,4> { IfcBoundingBox() : Object("IfcBoundingBox") {}
+ Lazy< IfcCartesianPoint > Corner;
+ IfcPositiveLengthMeasure::Out XDim;
+ IfcPositiveLengthMeasure::Out YDim;
+ IfcPositiveLengthMeasure::Out ZDim;
+ };
+
+ // C++ wrapper for IfcHalfSpaceSolid
+ struct IfcHalfSpaceSolid : IfcGeometricRepresentationItem, ObjectHelper<IfcHalfSpaceSolid,2> { IfcHalfSpaceSolid() : Object("IfcHalfSpaceSolid") {}
+ Lazy< IfcSurface > BaseSurface;
+ BOOLEAN::Out AgreementFlag;
+ };
+
+ // C++ wrapper for IfcBoxedHalfSpace
+ struct IfcBoxedHalfSpace : IfcHalfSpaceSolid, ObjectHelper<IfcBoxedHalfSpace,1> { IfcBoxedHalfSpace() : Object("IfcBoxedHalfSpace") {}
+ Lazy< IfcBoundingBox > Enclosure;
+ };
+
+ // C++ wrapper for IfcSpatialStructureElement
+ struct IfcSpatialStructureElement : IfcProduct, ObjectHelper<IfcSpatialStructureElement,2> { IfcSpatialStructureElement() : Object("IfcSpatialStructureElement") {}
+ Maybe< IfcLabel::Out > LongName;
+ IfcElementCompositionEnum::Out CompositionType;
+ };
+
+ // C++ wrapper for IfcBuilding
+ struct IfcBuilding : IfcSpatialStructureElement, ObjectHelper<IfcBuilding,3> { IfcBuilding() : Object("IfcBuilding") {}
+ Maybe< IfcLengthMeasure::Out > ElevationOfRefHeight;
+ Maybe< IfcLengthMeasure::Out > ElevationOfTerrain;
+ Maybe< Lazy< NotImplemented > > BuildingAddress;
+ };
+
+ // C++ wrapper for IfcBuildingElementComponent
+ struct IfcBuildingElementComponent : IfcBuildingElement, ObjectHelper<IfcBuildingElementComponent,0> { IfcBuildingElementComponent() : Object("IfcBuildingElementComponent") {}
+
+ };
+
+ // C++ wrapper for IfcBuildingElementPart
+ struct IfcBuildingElementPart : IfcBuildingElementComponent, ObjectHelper<IfcBuildingElementPart,0> { IfcBuildingElementPart() : Object("IfcBuildingElementPart") {}
+
+ };
+
+ // C++ wrapper for IfcBuildingElementProxy
+ struct IfcBuildingElementProxy : IfcBuildingElement, ObjectHelper<IfcBuildingElementProxy,1> { IfcBuildingElementProxy() : Object("IfcBuildingElementProxy") {}
+ Maybe< IfcElementCompositionEnum::Out > CompositionType;
+ };
+
+ // C++ wrapper for IfcBuildingElementProxyType
+ struct IfcBuildingElementProxyType : IfcBuildingElementType, ObjectHelper<IfcBuildingElementProxyType,1> { IfcBuildingElementProxyType() : Object("IfcBuildingElementProxyType") {}
+ IfcBuildingElementProxyTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcBuildingStorey
+ struct IfcBuildingStorey : IfcSpatialStructureElement, ObjectHelper<IfcBuildingStorey,1> { IfcBuildingStorey() : Object("IfcBuildingStorey") {}
+ Maybe< IfcLengthMeasure::Out > Elevation;
+ };
+
+ // C++ wrapper for IfcCShapeProfileDef
+ struct IfcCShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcCShapeProfileDef,6> { IfcCShapeProfileDef() : Object("IfcCShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out Depth;
+ IfcPositiveLengthMeasure::Out Width;
+ IfcPositiveLengthMeasure::Out WallThickness;
+ IfcPositiveLengthMeasure::Out Girth;
+ Maybe< IfcPositiveLengthMeasure::Out > InternalFilletRadius;
+ Maybe< IfcPositiveLengthMeasure::Out > CentreOfGravityInX;
+ };
+
+ // C++ wrapper for IfcFlowFittingType
+ struct IfcFlowFittingType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowFittingType,0> { IfcFlowFittingType() : Object("IfcFlowFittingType") {}
+
+ };
+
+ // C++ wrapper for IfcCableCarrierFittingType
+ struct IfcCableCarrierFittingType : IfcFlowFittingType, ObjectHelper<IfcCableCarrierFittingType,1> { IfcCableCarrierFittingType() : Object("IfcCableCarrierFittingType") {}
+ IfcCableCarrierFittingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowSegmentType
+ struct IfcFlowSegmentType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowSegmentType,0> { IfcFlowSegmentType() : Object("IfcFlowSegmentType") {}
+
+ };
+
+ // C++ wrapper for IfcCableCarrierSegmentType
+ struct IfcCableCarrierSegmentType : IfcFlowSegmentType, ObjectHelper<IfcCableCarrierSegmentType,1> { IfcCableCarrierSegmentType() : Object("IfcCableCarrierSegmentType") {}
+ IfcCableCarrierSegmentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCableSegmentType
+ struct IfcCableSegmentType : IfcFlowSegmentType, ObjectHelper<IfcCableSegmentType,1> { IfcCableSegmentType() : Object("IfcCableSegmentType") {}
+ IfcCableSegmentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPoint
+ struct IfcPoint : IfcGeometricRepresentationItem, ObjectHelper<IfcPoint,0> { IfcPoint() : Object("IfcPoint") {}
+
+ };
+
+ // C++ wrapper for IfcCartesianPoint
+ struct IfcCartesianPoint : IfcPoint, ObjectHelper<IfcCartesianPoint,1> { IfcCartesianPoint() : Object("IfcCartesianPoint") {}
+ ListOf< IfcLengthMeasure, 1, 3 >::Out Coordinates;
+ };
+
+ // C++ wrapper for IfcCartesianTransformationOperator
+ struct IfcCartesianTransformationOperator : IfcGeometricRepresentationItem, ObjectHelper<IfcCartesianTransformationOperator,4> { IfcCartesianTransformationOperator() : Object("IfcCartesianTransformationOperator") {}
+ Maybe< Lazy< IfcDirection > > Axis1;
+ Maybe< Lazy< IfcDirection > > Axis2;
+ Lazy< IfcCartesianPoint > LocalOrigin;
+ Maybe< REAL::Out > Scale;
+ };
+
+ // C++ wrapper for IfcCartesianTransformationOperator2D
+ struct IfcCartesianTransformationOperator2D : IfcCartesianTransformationOperator, ObjectHelper<IfcCartesianTransformationOperator2D,0> { IfcCartesianTransformationOperator2D() : Object("IfcCartesianTransformationOperator2D") {}
+
+ };
+
+ // C++ wrapper for IfcCartesianTransformationOperator2DnonUniform
+ struct IfcCartesianTransformationOperator2DnonUniform : IfcCartesianTransformationOperator2D, ObjectHelper<IfcCartesianTransformationOperator2DnonUniform,1> { IfcCartesianTransformationOperator2DnonUniform() : Object("IfcCartesianTransformationOperator2DnonUniform") {}
+ Maybe< REAL::Out > Scale2;
+ };
+
+ // C++ wrapper for IfcCartesianTransformationOperator3D
+ struct IfcCartesianTransformationOperator3D : IfcCartesianTransformationOperator, ObjectHelper<IfcCartesianTransformationOperator3D,1> { IfcCartesianTransformationOperator3D() : Object("IfcCartesianTransformationOperator3D") {}
+ Maybe< Lazy< IfcDirection > > Axis3;
+ };
+
+ // C++ wrapper for IfcCartesianTransformationOperator3DnonUniform
+ struct IfcCartesianTransformationOperator3DnonUniform : IfcCartesianTransformationOperator3D, ObjectHelper<IfcCartesianTransformationOperator3DnonUniform,2> { IfcCartesianTransformationOperator3DnonUniform() : Object("IfcCartesianTransformationOperator3DnonUniform") {}
+ Maybe< REAL::Out > Scale2;
+ Maybe< REAL::Out > Scale3;
+ };
+
+ // C++ wrapper for IfcCenterLineProfileDef
+ struct IfcCenterLineProfileDef : IfcArbitraryOpenProfileDef, ObjectHelper<IfcCenterLineProfileDef,1> { IfcCenterLineProfileDef() : Object("IfcCenterLineProfileDef") {}
+ IfcPositiveLengthMeasure::Out Thickness;
+ };
+
+ // C++ wrapper for IfcFeatureElement
+ struct IfcFeatureElement : IfcElement, ObjectHelper<IfcFeatureElement,0> { IfcFeatureElement() : Object("IfcFeatureElement") {}
+
+ };
+
+ // C++ wrapper for IfcFeatureElementSubtraction
+ struct IfcFeatureElementSubtraction : IfcFeatureElement, ObjectHelper<IfcFeatureElementSubtraction,0> { IfcFeatureElementSubtraction() : Object("IfcFeatureElementSubtraction") {}
+
+ };
+
+ // C++ wrapper for IfcEdgeFeature
+ struct IfcEdgeFeature : IfcFeatureElementSubtraction, ObjectHelper<IfcEdgeFeature,1> { IfcEdgeFeature() : Object("IfcEdgeFeature") {}
+ Maybe< IfcPositiveLengthMeasure::Out > FeatureLength;
+ };
+
+ // C++ wrapper for IfcChamferEdgeFeature
+ struct IfcChamferEdgeFeature : IfcEdgeFeature, ObjectHelper<IfcChamferEdgeFeature,2> { IfcChamferEdgeFeature() : Object("IfcChamferEdgeFeature") {}
+ Maybe< IfcPositiveLengthMeasure::Out > Width;
+ Maybe< IfcPositiveLengthMeasure::Out > Height;
+ };
+
+ // C++ wrapper for IfcChillerType
+ struct IfcChillerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcChillerType,1> { IfcChillerType() : Object("IfcChillerType") {}
+ IfcChillerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcConic
+ struct IfcConic : IfcCurve, ObjectHelper<IfcConic,1> { IfcConic() : Object("IfcConic") {}
+ IfcAxis2Placement::Out Position;
+ };
+
+ // C++ wrapper for IfcCircle
+ struct IfcCircle : IfcConic, ObjectHelper<IfcCircle,1> { IfcCircle() : Object("IfcCircle") {}
+ IfcPositiveLengthMeasure::Out Radius;
+ };
+
+ // C++ wrapper for IfcCircleProfileDef
+ struct IfcCircleProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcCircleProfileDef,1> { IfcCircleProfileDef() : Object("IfcCircleProfileDef") {}
+ IfcPositiveLengthMeasure::Out Radius;
+ };
+
+ // C++ wrapper for IfcCircleHollowProfileDef
+ struct IfcCircleHollowProfileDef : IfcCircleProfileDef, ObjectHelper<IfcCircleHollowProfileDef,1> { IfcCircleHollowProfileDef() : Object("IfcCircleHollowProfileDef") {}
+ IfcPositiveLengthMeasure::Out WallThickness;
+ };
+
+ // C++ wrapper for IfcTopologicalRepresentationItem
+ struct IfcTopologicalRepresentationItem : IfcRepresentationItem, ObjectHelper<IfcTopologicalRepresentationItem,0> { IfcTopologicalRepresentationItem() : Object("IfcTopologicalRepresentationItem") {}
+
+ };
+
+ // C++ wrapper for IfcConnectedFaceSet
+ struct IfcConnectedFaceSet : IfcTopologicalRepresentationItem, ObjectHelper<IfcConnectedFaceSet,1> { IfcConnectedFaceSet() : Object("IfcConnectedFaceSet") {}
+ ListOf< Lazy< IfcFace >, 1, 0 > CfsFaces;
+ };
+
+ // C++ wrapper for IfcClosedShell
+ struct IfcClosedShell : IfcConnectedFaceSet, ObjectHelper<IfcClosedShell,0> { IfcClosedShell() : Object("IfcClosedShell") {}
+
+ };
+
+ // C++ wrapper for IfcCoilType
+ struct IfcCoilType : IfcEnergyConversionDeviceType, ObjectHelper<IfcCoilType,1> { IfcCoilType() : Object("IfcCoilType") {}
+ IfcCoilTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcColourSpecification
+ struct IfcColourSpecification : ObjectHelper<IfcColourSpecification,1> { IfcColourSpecification() : Object("IfcColourSpecification") {}
+ Maybe< IfcLabel::Out > Name;
+ };
+
+ // C++ wrapper for IfcColourRgb
+ struct IfcColourRgb : IfcColourSpecification, ObjectHelper<IfcColourRgb,3> { IfcColourRgb() : Object("IfcColourRgb") {}
+ IfcNormalisedRatioMeasure::Out Red;
+ IfcNormalisedRatioMeasure::Out Green;
+ IfcNormalisedRatioMeasure::Out Blue;
+ };
+
+ // C++ wrapper for IfcColumn
+ struct IfcColumn : IfcBuildingElement, ObjectHelper<IfcColumn,0> { IfcColumn() : Object("IfcColumn") {}
+
+ };
+
+ // C++ wrapper for IfcColumnType
+ struct IfcColumnType : IfcBuildingElementType, ObjectHelper<IfcColumnType,1> { IfcColumnType() : Object("IfcColumnType") {}
+ IfcColumnTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcProperty
+ struct IfcProperty : ObjectHelper<IfcProperty,2> { IfcProperty() : Object("IfcProperty") {}
+ IfcIdentifier::Out Name;
+ Maybe< IfcText::Out > Description;
+ };
+
+ // C++ wrapper for IfcComplexProperty
+ struct IfcComplexProperty : IfcProperty, ObjectHelper<IfcComplexProperty,2> { IfcComplexProperty() : Object("IfcComplexProperty") {}
+ IfcIdentifier::Out UsageName;
+ ListOf< Lazy< IfcProperty >, 1, 0 > HasProperties;
+ };
+
+ // C++ wrapper for IfcCompositeCurveSegment
+ struct IfcCompositeCurveSegment : IfcGeometricRepresentationItem, ObjectHelper<IfcCompositeCurveSegment,3> { IfcCompositeCurveSegment() : Object("IfcCompositeCurveSegment") {}
+ IfcTransitionCode::Out Transition;
+ BOOLEAN::Out SameSense;
+ Lazy< IfcCurve > ParentCurve;
+ };
+
+ // C++ wrapper for IfcCompositeProfileDef
+ struct IfcCompositeProfileDef : IfcProfileDef, ObjectHelper<IfcCompositeProfileDef,2> { IfcCompositeProfileDef() : Object("IfcCompositeProfileDef") {}
+ ListOf< Lazy< IfcProfileDef >, 2, 0 > Profiles;
+ Maybe< IfcLabel::Out > Label;
+ };
+
+ // C++ wrapper for IfcFlowMovingDeviceType
+ struct IfcFlowMovingDeviceType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowMovingDeviceType,0> { IfcFlowMovingDeviceType() : Object("IfcFlowMovingDeviceType") {}
+
+ };
+
+ // C++ wrapper for IfcCompressorType
+ struct IfcCompressorType : IfcFlowMovingDeviceType, ObjectHelper<IfcCompressorType,1> { IfcCompressorType() : Object("IfcCompressorType") {}
+ IfcCompressorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCondenserType
+ struct IfcCondenserType : IfcEnergyConversionDeviceType, ObjectHelper<IfcCondenserType,1> { IfcCondenserType() : Object("IfcCondenserType") {}
+ IfcCondenserTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCondition
+ struct IfcCondition : IfcGroup, ObjectHelper<IfcCondition,0> { IfcCondition() : Object("IfcCondition") {}
+
+ };
+
+ // C++ wrapper for IfcConditionCriterion
+ struct IfcConditionCriterion : IfcControl, ObjectHelper<IfcConditionCriterion,2> { IfcConditionCriterion() : Object("IfcConditionCriterion") {}
+ IfcConditionCriterionSelect::Out Criterion;
+ IfcDateTimeSelect::Out CriterionDateTime;
+ };
+
+ // C++ wrapper for IfcResource
+ struct IfcResource : IfcObject, ObjectHelper<IfcResource,0> { IfcResource() : Object("IfcResource") {}
+
+ };
+
+ // C++ wrapper for IfcConstructionResource
+ struct IfcConstructionResource : IfcResource, ObjectHelper<IfcConstructionResource,4> { IfcConstructionResource() : Object("IfcConstructionResource") {}
+ Maybe< IfcIdentifier::Out > ResourceIdentifier;
+ Maybe< IfcLabel::Out > ResourceGroup;
+ Maybe< IfcResourceConsumptionEnum::Out > ResourceConsumption;
+ Maybe< Lazy< IfcMeasureWithUnit > > BaseQuantity;
+ };
+
+ // C++ wrapper for IfcConstructionEquipmentResource
+ struct IfcConstructionEquipmentResource : IfcConstructionResource, ObjectHelper<IfcConstructionEquipmentResource,0> { IfcConstructionEquipmentResource() : Object("IfcConstructionEquipmentResource") {}
+
+ };
+
+ // C++ wrapper for IfcConstructionMaterialResource
+ struct IfcConstructionMaterialResource : IfcConstructionResource, ObjectHelper<IfcConstructionMaterialResource,2> { IfcConstructionMaterialResource() : Object("IfcConstructionMaterialResource") {}
+ Maybe< ListOf< IfcActorSelect, 1, 0 >::Out > Suppliers;
+ Maybe< IfcRatioMeasure::Out > UsageRatio;
+ };
+
+ // C++ wrapper for IfcConstructionProductResource
+ struct IfcConstructionProductResource : IfcConstructionResource, ObjectHelper<IfcConstructionProductResource,0> { IfcConstructionProductResource() : Object("IfcConstructionProductResource") {}
+
+ };
+
+ // C++ wrapper for IfcNamedUnit
+ struct IfcNamedUnit : ObjectHelper<IfcNamedUnit,2> { IfcNamedUnit() : Object("IfcNamedUnit") {}
+ Lazy< NotImplemented > Dimensions;
+ IfcUnitEnum::Out UnitType;
+ };
+
+ // C++ wrapper for IfcContextDependentUnit
+ struct IfcContextDependentUnit : IfcNamedUnit, ObjectHelper<IfcContextDependentUnit,1> { IfcContextDependentUnit() : Object("IfcContextDependentUnit") {}
+ IfcLabel::Out Name;
+ };
+
+ // C++ wrapper for IfcControllerType
+ struct IfcControllerType : IfcDistributionControlElementType, ObjectHelper<IfcControllerType,1> { IfcControllerType() : Object("IfcControllerType") {}
+ IfcControllerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcConversionBasedUnit
+ struct IfcConversionBasedUnit : IfcNamedUnit, ObjectHelper<IfcConversionBasedUnit,2> { IfcConversionBasedUnit() : Object("IfcConversionBasedUnit") {}
+ IfcLabel::Out Name;
+ Lazy< IfcMeasureWithUnit > ConversionFactor;
+ };
+
+ // C++ wrapper for IfcCooledBeamType
+ struct IfcCooledBeamType : IfcEnergyConversionDeviceType, ObjectHelper<IfcCooledBeamType,1> { IfcCooledBeamType() : Object("IfcCooledBeamType") {}
+ IfcCooledBeamTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCoolingTowerType
+ struct IfcCoolingTowerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcCoolingTowerType,1> { IfcCoolingTowerType() : Object("IfcCoolingTowerType") {}
+ IfcCoolingTowerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCostItem
+ struct IfcCostItem : IfcControl, ObjectHelper<IfcCostItem,0> { IfcCostItem() : Object("IfcCostItem") {}
+
+ };
+
+ // C++ wrapper for IfcCostSchedule
+ struct IfcCostSchedule : IfcControl, ObjectHelper<IfcCostSchedule,8> { IfcCostSchedule() : Object("IfcCostSchedule") {}
+ Maybe< IfcActorSelect::Out > SubmittedBy;
+ Maybe< IfcActorSelect::Out > PreparedBy;
+ Maybe< IfcDateTimeSelect::Out > SubmittedOn;
+ Maybe< IfcLabel::Out > Status;
+ Maybe< ListOf< IfcActorSelect, 1, 0 >::Out > TargetUsers;
+ Maybe< IfcDateTimeSelect::Out > UpdateDate;
+ IfcIdentifier::Out ID;
+ IfcCostScheduleTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCovering
+ struct IfcCovering : IfcBuildingElement, ObjectHelper<IfcCovering,1> { IfcCovering() : Object("IfcCovering") {}
+ Maybe< IfcCoveringTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCoveringType
+ struct IfcCoveringType : IfcBuildingElementType, ObjectHelper<IfcCoveringType,1> { IfcCoveringType() : Object("IfcCoveringType") {}
+ IfcCoveringTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCraneRailAShapeProfileDef
+ struct IfcCraneRailAShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcCraneRailAShapeProfileDef,12> { IfcCraneRailAShapeProfileDef() : Object("IfcCraneRailAShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out OverallHeight;
+ IfcPositiveLengthMeasure::Out BaseWidth2;
+ Maybe< IfcPositiveLengthMeasure::Out > Radius;
+ IfcPositiveLengthMeasure::Out HeadWidth;
+ IfcPositiveLengthMeasure::Out HeadDepth2;
+ IfcPositiveLengthMeasure::Out HeadDepth3;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out BaseWidth4;
+ IfcPositiveLengthMeasure::Out BaseDepth1;
+ IfcPositiveLengthMeasure::Out BaseDepth2;
+ IfcPositiveLengthMeasure::Out BaseDepth3;
+ Maybe< IfcPositiveLengthMeasure::Out > CentreOfGravityInY;
+ };
+
+ // C++ wrapper for IfcCraneRailFShapeProfileDef
+ struct IfcCraneRailFShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcCraneRailFShapeProfileDef,9> { IfcCraneRailFShapeProfileDef() : Object("IfcCraneRailFShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out OverallHeight;
+ IfcPositiveLengthMeasure::Out HeadWidth;
+ Maybe< IfcPositiveLengthMeasure::Out > Radius;
+ IfcPositiveLengthMeasure::Out HeadDepth2;
+ IfcPositiveLengthMeasure::Out HeadDepth3;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out BaseDepth1;
+ IfcPositiveLengthMeasure::Out BaseDepth2;
+ Maybe< IfcPositiveLengthMeasure::Out > CentreOfGravityInY;
+ };
+
+ // C++ wrapper for IfcCrewResource
+ struct IfcCrewResource : IfcConstructionResource, ObjectHelper<IfcCrewResource,0> { IfcCrewResource() : Object("IfcCrewResource") {}
+
+ };
+
+ // C++ wrapper for IfcSolidModel
+ struct IfcSolidModel : IfcGeometricRepresentationItem, ObjectHelper<IfcSolidModel,0> { IfcSolidModel() : Object("IfcSolidModel") {}
+
+ };
+
+ // C++ wrapper for IfcCsgSolid
+ struct IfcCsgSolid : IfcSolidModel, ObjectHelper<IfcCsgSolid,1> { IfcCsgSolid() : Object("IfcCsgSolid") {}
+ IfcCsgSelect::Out TreeRootExpression;
+ };
+
+ // C++ wrapper for IfcCurtainWall
+ struct IfcCurtainWall : IfcBuildingElement, ObjectHelper<IfcCurtainWall,0> { IfcCurtainWall() : Object("IfcCurtainWall") {}
+
+ };
+
+ // C++ wrapper for IfcCurtainWallType
+ struct IfcCurtainWallType : IfcBuildingElementType, ObjectHelper<IfcCurtainWallType,1> { IfcCurtainWallType() : Object("IfcCurtainWallType") {}
+ IfcCurtainWallTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCurveBoundedPlane
+ struct IfcCurveBoundedPlane : IfcBoundedSurface, ObjectHelper<IfcCurveBoundedPlane,3> { IfcCurveBoundedPlane() : Object("IfcCurveBoundedPlane") {}
+ Lazy< IfcPlane > BasisSurface;
+ Lazy< IfcCurve > OuterBoundary;
+ ListOf< Lazy< IfcCurve >, 0, 0 > InnerBoundaries;
+ };
+
+ // C++ wrapper for IfcPresentationStyle
+ struct IfcPresentationStyle : ObjectHelper<IfcPresentationStyle,1> { IfcPresentationStyle() : Object("IfcPresentationStyle") {}
+ Maybe< IfcLabel::Out > Name;
+ };
+
+ // C++ wrapper for IfcDamperType
+ struct IfcDamperType : IfcFlowControllerType, ObjectHelper<IfcDamperType,1> { IfcDamperType() : Object("IfcDamperType") {}
+ IfcDamperTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcDefinedSymbol
+ struct IfcDefinedSymbol : IfcGeometricRepresentationItem, ObjectHelper<IfcDefinedSymbol,2> { IfcDefinedSymbol() : Object("IfcDefinedSymbol") {}
+ IfcDefinedSymbolSelect::Out Definition;
+ Lazy< IfcCartesianTransformationOperator2D > Target;
+ };
+
+ // C++ wrapper for IfcDerivedProfileDef
+ struct IfcDerivedProfileDef : IfcProfileDef, ObjectHelper<IfcDerivedProfileDef,3> { IfcDerivedProfileDef() : Object("IfcDerivedProfileDef") {}
+ Lazy< IfcProfileDef > ParentProfile;
+ Lazy< IfcCartesianTransformationOperator2D > Operator;
+ Maybe< IfcLabel::Out > Label;
+ };
+
+ // C++ wrapper for IfcDiameterDimension
+ struct IfcDiameterDimension : IfcDimensionCurveDirectedCallout, ObjectHelper<IfcDiameterDimension,0> { IfcDiameterDimension() : Object("IfcDiameterDimension") {}
+
+ };
+
+ // C++ wrapper for IfcDimensionCurve
+ struct IfcDimensionCurve : IfcAnnotationCurveOccurrence, ObjectHelper<IfcDimensionCurve,0> { IfcDimensionCurve() : Object("IfcDimensionCurve") {}
+
+ };
+
+ // C++ wrapper for IfcTerminatorSymbol
+ struct IfcTerminatorSymbol : IfcAnnotationSymbolOccurrence, ObjectHelper<IfcTerminatorSymbol,1> { IfcTerminatorSymbol() : Object("IfcTerminatorSymbol") {}
+ Lazy< IfcAnnotationCurveOccurrence > AnnotatedCurve;
+ };
+
+ // C++ wrapper for IfcDimensionCurveTerminator
+ struct IfcDimensionCurveTerminator : IfcTerminatorSymbol, ObjectHelper<IfcDimensionCurveTerminator,1> { IfcDimensionCurveTerminator() : Object("IfcDimensionCurveTerminator") {}
+ IfcDimensionExtentUsage::Out Role;
+ };
+
+ // C++ wrapper for IfcDirection
+ struct IfcDirection : IfcGeometricRepresentationItem, ObjectHelper<IfcDirection,1> { IfcDirection() : Object("IfcDirection") {}
+ ListOf< REAL, 2, 3 >::Out DirectionRatios;
+ };
+
+ // C++ wrapper for IfcElementComponent
+ struct IfcElementComponent : IfcElement, ObjectHelper<IfcElementComponent,0> { IfcElementComponent() : Object("IfcElementComponent") {}
+
+ };
+
+ // C++ wrapper for IfcDiscreteAccessory
+ struct IfcDiscreteAccessory : IfcElementComponent, ObjectHelper<IfcDiscreteAccessory,0> { IfcDiscreteAccessory() : Object("IfcDiscreteAccessory") {}
+
+ };
+
+ // C++ wrapper for IfcElementComponentType
+ struct IfcElementComponentType : IfcElementType, ObjectHelper<IfcElementComponentType,0> { IfcElementComponentType() : Object("IfcElementComponentType") {}
+
+ };
+
+ // C++ wrapper for IfcDiscreteAccessoryType
+ struct IfcDiscreteAccessoryType : IfcElementComponentType, ObjectHelper<IfcDiscreteAccessoryType,0> { IfcDiscreteAccessoryType() : Object("IfcDiscreteAccessoryType") {}
+
+ };
+
+ // C++ wrapper for IfcDistributionElement
+ struct IfcDistributionElement : IfcElement, ObjectHelper<IfcDistributionElement,0> { IfcDistributionElement() : Object("IfcDistributionElement") {}
+
+ };
+
+ // C++ wrapper for IfcDistributionFlowElement
+ struct IfcDistributionFlowElement : IfcDistributionElement, ObjectHelper<IfcDistributionFlowElement,0> { IfcDistributionFlowElement() : Object("IfcDistributionFlowElement") {}
+
+ };
+
+ // C++ wrapper for IfcDistributionChamberElement
+ struct IfcDistributionChamberElement : IfcDistributionFlowElement, ObjectHelper<IfcDistributionChamberElement,0> { IfcDistributionChamberElement() : Object("IfcDistributionChamberElement") {}
+
+ };
+
+ // C++ wrapper for IfcDistributionChamberElementType
+ struct IfcDistributionChamberElementType : IfcDistributionFlowElementType, ObjectHelper<IfcDistributionChamberElementType,1> { IfcDistributionChamberElementType() : Object("IfcDistributionChamberElementType") {}
+ IfcDistributionChamberElementTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcDistributionControlElement
+ struct IfcDistributionControlElement : IfcDistributionElement, ObjectHelper<IfcDistributionControlElement,1> { IfcDistributionControlElement() : Object("IfcDistributionControlElement") {}
+ Maybe< IfcIdentifier::Out > ControlElementId;
+ };
+
+ // C++ wrapper for IfcPort
+ struct IfcPort : IfcProduct, ObjectHelper<IfcPort,0> { IfcPort() : Object("IfcPort") {}
+
+ };
+
+ // C++ wrapper for IfcDistributionPort
+ struct IfcDistributionPort : IfcPort, ObjectHelper<IfcDistributionPort,1> { IfcDistributionPort() : Object("IfcDistributionPort") {}
+ Maybe< IfcFlowDirectionEnum::Out > FlowDirection;
+ };
+
+ // C++ wrapper for IfcDoor
+ struct IfcDoor : IfcBuildingElement, ObjectHelper<IfcDoor,2> { IfcDoor() : Object("IfcDoor") {}
+ Maybe< IfcPositiveLengthMeasure::Out > OverallHeight;
+ Maybe< IfcPositiveLengthMeasure::Out > OverallWidth;
+ };
+
+ // C++ wrapper for IfcPropertyDefinition
+ struct IfcPropertyDefinition : IfcRoot, ObjectHelper<IfcPropertyDefinition,0> { IfcPropertyDefinition() : Object("IfcPropertyDefinition") {}
+
+ };
+
+ // C++ wrapper for IfcPropertySetDefinition
+ struct IfcPropertySetDefinition : IfcPropertyDefinition, ObjectHelper<IfcPropertySetDefinition,0> { IfcPropertySetDefinition() : Object("IfcPropertySetDefinition") {}
+
+ };
+
+ // C++ wrapper for IfcDoorStyle
+ struct IfcDoorStyle : IfcTypeProduct, ObjectHelper<IfcDoorStyle,4> { IfcDoorStyle() : Object("IfcDoorStyle") {}
+ IfcDoorStyleOperationEnum::Out OperationType;
+ IfcDoorStyleConstructionEnum::Out ConstructionType;
+ BOOLEAN::Out ParameterTakesPrecedence;
+ BOOLEAN::Out Sizeable;
+ };
+
+ // C++ wrapper for IfcDuctFittingType
+ struct IfcDuctFittingType : IfcFlowFittingType, ObjectHelper<IfcDuctFittingType,1> { IfcDuctFittingType() : Object("IfcDuctFittingType") {}
+ IfcDuctFittingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcDuctSegmentType
+ struct IfcDuctSegmentType : IfcFlowSegmentType, ObjectHelper<IfcDuctSegmentType,1> { IfcDuctSegmentType() : Object("IfcDuctSegmentType") {}
+ IfcDuctSegmentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowTreatmentDeviceType
+ struct IfcFlowTreatmentDeviceType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowTreatmentDeviceType,0> { IfcFlowTreatmentDeviceType() : Object("IfcFlowTreatmentDeviceType") {}
+
+ };
+
+ // C++ wrapper for IfcDuctSilencerType
+ struct IfcDuctSilencerType : IfcFlowTreatmentDeviceType, ObjectHelper<IfcDuctSilencerType,1> { IfcDuctSilencerType() : Object("IfcDuctSilencerType") {}
+ IfcDuctSilencerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcEdge
+ struct IfcEdge : IfcTopologicalRepresentationItem, ObjectHelper<IfcEdge,2> { IfcEdge() : Object("IfcEdge") {}
+ Lazy< IfcVertex > EdgeStart;
+ Lazy< IfcVertex > EdgeEnd;
+ };
+
+ // C++ wrapper for IfcEdgeCurve
+ struct IfcEdgeCurve : IfcEdge, ObjectHelper<IfcEdgeCurve,2> { IfcEdgeCurve() : Object("IfcEdgeCurve") {}
+ Lazy< IfcCurve > EdgeGeometry;
+ BOOLEAN::Out SameSense;
+ };
+
+ // C++ wrapper for IfcLoop
+ struct IfcLoop : IfcTopologicalRepresentationItem, ObjectHelper<IfcLoop,0> { IfcLoop() : Object("IfcLoop") {}
+
+ };
+
+ // C++ wrapper for IfcEdgeLoop
+ struct IfcEdgeLoop : IfcLoop, ObjectHelper<IfcEdgeLoop,1> { IfcEdgeLoop() : Object("IfcEdgeLoop") {}
+ ListOf< Lazy< IfcOrientedEdge >, 1, 0 > EdgeList;
+ };
+
+ // C++ wrapper for IfcElectricApplianceType
+ struct IfcElectricApplianceType : IfcFlowTerminalType, ObjectHelper<IfcElectricApplianceType,1> { IfcElectricApplianceType() : Object("IfcElectricApplianceType") {}
+ IfcElectricApplianceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowController
+ struct IfcFlowController : IfcDistributionFlowElement, ObjectHelper<IfcFlowController,0> { IfcFlowController() : Object("IfcFlowController") {}
+
+ };
+
+ // C++ wrapper for IfcElectricDistributionPoint
+ struct IfcElectricDistributionPoint : IfcFlowController, ObjectHelper<IfcElectricDistributionPoint,2> { IfcElectricDistributionPoint() : Object("IfcElectricDistributionPoint") {}
+ IfcElectricDistributionPointFunctionEnum::Out DistributionPointFunction;
+ Maybe< IfcLabel::Out > UserDefinedFunction;
+ };
+
+ // C++ wrapper for IfcFlowStorageDeviceType
+ struct IfcFlowStorageDeviceType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowStorageDeviceType,0> { IfcFlowStorageDeviceType() : Object("IfcFlowStorageDeviceType") {}
+
+ };
+
+ // C++ wrapper for IfcElectricFlowStorageDeviceType
+ struct IfcElectricFlowStorageDeviceType : IfcFlowStorageDeviceType, ObjectHelper<IfcElectricFlowStorageDeviceType,1> { IfcElectricFlowStorageDeviceType() : Object("IfcElectricFlowStorageDeviceType") {}
+ IfcElectricFlowStorageDeviceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricGeneratorType
+ struct IfcElectricGeneratorType : IfcEnergyConversionDeviceType, ObjectHelper<IfcElectricGeneratorType,1> { IfcElectricGeneratorType() : Object("IfcElectricGeneratorType") {}
+ IfcElectricGeneratorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricHeaterType
+ struct IfcElectricHeaterType : IfcFlowTerminalType, ObjectHelper<IfcElectricHeaterType,1> { IfcElectricHeaterType() : Object("IfcElectricHeaterType") {}
+ IfcElectricHeaterTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricMotorType
+ struct IfcElectricMotorType : IfcEnergyConversionDeviceType, ObjectHelper<IfcElectricMotorType,1> { IfcElectricMotorType() : Object("IfcElectricMotorType") {}
+ IfcElectricMotorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricTimeControlType
+ struct IfcElectricTimeControlType : IfcFlowControllerType, ObjectHelper<IfcElectricTimeControlType,1> { IfcElectricTimeControlType() : Object("IfcElectricTimeControlType") {}
+ IfcElectricTimeControlTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSystem
+ struct IfcSystem : IfcGroup, ObjectHelper<IfcSystem,0> { IfcSystem() : Object("IfcSystem") {}
+
+ };
+
+ // C++ wrapper for IfcElectricalCircuit
+ struct IfcElectricalCircuit : IfcSystem, ObjectHelper<IfcElectricalCircuit,0> { IfcElectricalCircuit() : Object("IfcElectricalCircuit") {}
+
+ };
+
+ // C++ wrapper for IfcElectricalElement
+ struct IfcElectricalElement : IfcElement, ObjectHelper<IfcElectricalElement,0> { IfcElectricalElement() : Object("IfcElectricalElement") {}
+
+ };
+
+ // C++ wrapper for IfcElementAssembly
+ struct IfcElementAssembly : IfcElement, ObjectHelper<IfcElementAssembly,2> { IfcElementAssembly() : Object("IfcElementAssembly") {}
+ Maybe< IfcAssemblyPlaceEnum::Out > AssemblyPlace;
+ IfcElementAssemblyTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcElementQuantity
+ struct IfcElementQuantity : IfcPropertySetDefinition, ObjectHelper<IfcElementQuantity,2> { IfcElementQuantity() : Object("IfcElementQuantity") {}
+ Maybe< IfcLabel::Out > MethodOfMeasurement;
+ ListOf< Lazy< NotImplemented >, 1, 0 > Quantities;
+ };
+
+ // C++ wrapper for IfcElementarySurface
+ struct IfcElementarySurface : IfcSurface, ObjectHelper<IfcElementarySurface,1> { IfcElementarySurface() : Object("IfcElementarySurface") {}
+ Lazy< IfcAxis2Placement3D > Position;
+ };
+
+ // C++ wrapper for IfcEllipse
+ struct IfcEllipse : IfcConic, ObjectHelper<IfcEllipse,2> { IfcEllipse() : Object("IfcEllipse") {}
+ IfcPositiveLengthMeasure::Out SemiAxis1;
+ IfcPositiveLengthMeasure::Out SemiAxis2;
+ };
+
+ // C++ wrapper for IfcEllipseProfileDef
+ struct IfcEllipseProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcEllipseProfileDef,2> { IfcEllipseProfileDef() : Object("IfcEllipseProfileDef") {}
+ IfcPositiveLengthMeasure::Out SemiAxis1;
+ IfcPositiveLengthMeasure::Out SemiAxis2;
+ };
+
+ // C++ wrapper for IfcEnergyConversionDevice
+ struct IfcEnergyConversionDevice : IfcDistributionFlowElement, ObjectHelper<IfcEnergyConversionDevice,0> { IfcEnergyConversionDevice() : Object("IfcEnergyConversionDevice") {}
+
+ };
+
+ // C++ wrapper for IfcEquipmentElement
+ struct IfcEquipmentElement : IfcElement, ObjectHelper<IfcEquipmentElement,0> { IfcEquipmentElement() : Object("IfcEquipmentElement") {}
+
+ };
+
+ // C++ wrapper for IfcEquipmentStandard
+ struct IfcEquipmentStandard : IfcControl, ObjectHelper<IfcEquipmentStandard,0> { IfcEquipmentStandard() : Object("IfcEquipmentStandard") {}
+
+ };
+
+ // C++ wrapper for IfcEvaporativeCoolerType
+ struct IfcEvaporativeCoolerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcEvaporativeCoolerType,1> { IfcEvaporativeCoolerType() : Object("IfcEvaporativeCoolerType") {}
+ IfcEvaporativeCoolerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcEvaporatorType
+ struct IfcEvaporatorType : IfcEnergyConversionDeviceType, ObjectHelper<IfcEvaporatorType,1> { IfcEvaporatorType() : Object("IfcEvaporatorType") {}
+ IfcEvaporatorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSweptAreaSolid
+ struct IfcSweptAreaSolid : IfcSolidModel, ObjectHelper<IfcSweptAreaSolid,2> { IfcSweptAreaSolid() : Object("IfcSweptAreaSolid") {}
+ Lazy< IfcProfileDef > SweptArea;
+ Lazy< IfcAxis2Placement3D > Position;
+ };
+
+ // C++ wrapper for IfcExtrudedAreaSolid
+ struct IfcExtrudedAreaSolid : IfcSweptAreaSolid, ObjectHelper<IfcExtrudedAreaSolid,2> { IfcExtrudedAreaSolid() : Object("IfcExtrudedAreaSolid") {}
+ Lazy< IfcDirection > ExtrudedDirection;
+ IfcPositiveLengthMeasure::Out Depth;
+ };
+
+ // C++ wrapper for IfcFace
+ struct IfcFace : IfcTopologicalRepresentationItem, ObjectHelper<IfcFace,1> { IfcFace() : Object("IfcFace") {}
+ ListOf< Lazy< IfcFaceBound >, 1, 0 > Bounds;
+ };
+
+ // C++ wrapper for IfcFaceBasedSurfaceModel
+ struct IfcFaceBasedSurfaceModel : IfcGeometricRepresentationItem, ObjectHelper<IfcFaceBasedSurfaceModel,1> { IfcFaceBasedSurfaceModel() : Object("IfcFaceBasedSurfaceModel") {}
+ ListOf< Lazy< IfcConnectedFaceSet >, 1, 0 > FbsmFaces;
+ };
+
+ // C++ wrapper for IfcFaceBound
+ struct IfcFaceBound : IfcTopologicalRepresentationItem, ObjectHelper<IfcFaceBound,2> { IfcFaceBound() : Object("IfcFaceBound") {}
+ Lazy< IfcLoop > Bound;
+ BOOLEAN::Out Orientation;
+ };
+
+ // C++ wrapper for IfcFaceOuterBound
+ struct IfcFaceOuterBound : IfcFaceBound, ObjectHelper<IfcFaceOuterBound,0> { IfcFaceOuterBound() : Object("IfcFaceOuterBound") {}
+
+ };
+
+ // C++ wrapper for IfcFaceSurface
+ struct IfcFaceSurface : IfcFace, ObjectHelper<IfcFaceSurface,2> { IfcFaceSurface() : Object("IfcFaceSurface") {}
+ Lazy< IfcSurface > FaceSurface;
+ BOOLEAN::Out SameSense;
+ };
+
+ // C++ wrapper for IfcManifoldSolidBrep
+ struct IfcManifoldSolidBrep : IfcSolidModel, ObjectHelper<IfcManifoldSolidBrep,1> { IfcManifoldSolidBrep() : Object("IfcManifoldSolidBrep") {}
+ Lazy< IfcClosedShell > Outer;
+ };
+
+ // C++ wrapper for IfcFacetedBrep
+ struct IfcFacetedBrep : IfcManifoldSolidBrep, ObjectHelper<IfcFacetedBrep,0> { IfcFacetedBrep() : Object("IfcFacetedBrep") {}
+
+ };
+
+ // C++ wrapper for IfcFacetedBrepWithVoids
+ struct IfcFacetedBrepWithVoids : IfcManifoldSolidBrep, ObjectHelper<IfcFacetedBrepWithVoids,1> { IfcFacetedBrepWithVoids() : Object("IfcFacetedBrepWithVoids") {}
+ ListOf< Lazy< IfcClosedShell >, 1, 0 > Voids;
+ };
+
+ // C++ wrapper for IfcFanType
+ struct IfcFanType : IfcFlowMovingDeviceType, ObjectHelper<IfcFanType,1> { IfcFanType() : Object("IfcFanType") {}
+ IfcFanTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFastener
+ struct IfcFastener : IfcElementComponent, ObjectHelper<IfcFastener,0> { IfcFastener() : Object("IfcFastener") {}
+
+ };
+
+ // C++ wrapper for IfcFastenerType
+ struct IfcFastenerType : IfcElementComponentType, ObjectHelper<IfcFastenerType,0> { IfcFastenerType() : Object("IfcFastenerType") {}
+
+ };
+
+ // C++ wrapper for IfcFeatureElementAddition
+ struct IfcFeatureElementAddition : IfcFeatureElement, ObjectHelper<IfcFeatureElementAddition,0> { IfcFeatureElementAddition() : Object("IfcFeatureElementAddition") {}
+
+ };
+
+ // C++ wrapper for IfcFillAreaStyleHatching
+ struct IfcFillAreaStyleHatching : IfcGeometricRepresentationItem, ObjectHelper<IfcFillAreaStyleHatching,5> { IfcFillAreaStyleHatching() : Object("IfcFillAreaStyleHatching") {}
+ Lazy< NotImplemented > HatchLineAppearance;
+ IfcHatchLineDistanceSelect::Out StartOfNextHatchLine;
+ Maybe< Lazy< IfcCartesianPoint > > PointOfReferenceHatchLine;
+ Maybe< Lazy< IfcCartesianPoint > > PatternStart;
+ IfcPlaneAngleMeasure::Out HatchLineAngle;
+ };
+
+ // C++ wrapper for IfcFillAreaStyleTileSymbolWithStyle
+ struct IfcFillAreaStyleTileSymbolWithStyle : IfcGeometricRepresentationItem, ObjectHelper<IfcFillAreaStyleTileSymbolWithStyle,1> { IfcFillAreaStyleTileSymbolWithStyle() : Object("IfcFillAreaStyleTileSymbolWithStyle") {}
+ Lazy< IfcAnnotationSymbolOccurrence > Symbol;
+ };
+
+ // C++ wrapper for IfcFillAreaStyleTiles
+ struct IfcFillAreaStyleTiles : IfcGeometricRepresentationItem, ObjectHelper<IfcFillAreaStyleTiles,3> { IfcFillAreaStyleTiles() : Object("IfcFillAreaStyleTiles") {}
+ Lazy< IfcOneDirectionRepeatFactor > TilingPattern;
+ ListOf< IfcFillAreaStyleTileShapeSelect, 1, 0 >::Out Tiles;
+ IfcPositiveRatioMeasure::Out TilingScale;
+ };
+
+ // C++ wrapper for IfcFilterType
+ struct IfcFilterType : IfcFlowTreatmentDeviceType, ObjectHelper<IfcFilterType,1> { IfcFilterType() : Object("IfcFilterType") {}
+ IfcFilterTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFireSuppressionTerminalType
+ struct IfcFireSuppressionTerminalType : IfcFlowTerminalType, ObjectHelper<IfcFireSuppressionTerminalType,1> { IfcFireSuppressionTerminalType() : Object("IfcFireSuppressionTerminalType") {}
+ IfcFireSuppressionTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowFitting
+ struct IfcFlowFitting : IfcDistributionFlowElement, ObjectHelper<IfcFlowFitting,0> { IfcFlowFitting() : Object("IfcFlowFitting") {}
+
+ };
+
+ // C++ wrapper for IfcFlowInstrumentType
+ struct IfcFlowInstrumentType : IfcDistributionControlElementType, ObjectHelper<IfcFlowInstrumentType,1> { IfcFlowInstrumentType() : Object("IfcFlowInstrumentType") {}
+ IfcFlowInstrumentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowMeterType
+ struct IfcFlowMeterType : IfcFlowControllerType, ObjectHelper<IfcFlowMeterType,1> { IfcFlowMeterType() : Object("IfcFlowMeterType") {}
+ IfcFlowMeterTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowMovingDevice
+ struct IfcFlowMovingDevice : IfcDistributionFlowElement, ObjectHelper<IfcFlowMovingDevice,0> { IfcFlowMovingDevice() : Object("IfcFlowMovingDevice") {}
+
+ };
+
+ // C++ wrapper for IfcFlowSegment
+ struct IfcFlowSegment : IfcDistributionFlowElement, ObjectHelper<IfcFlowSegment,0> { IfcFlowSegment() : Object("IfcFlowSegment") {}
+
+ };
+
+ // C++ wrapper for IfcFlowStorageDevice
+ struct IfcFlowStorageDevice : IfcDistributionFlowElement, ObjectHelper<IfcFlowStorageDevice,0> { IfcFlowStorageDevice() : Object("IfcFlowStorageDevice") {}
+
+ };
+
+ // C++ wrapper for IfcFlowTerminal
+ struct IfcFlowTerminal : IfcDistributionFlowElement, ObjectHelper<IfcFlowTerminal,0> { IfcFlowTerminal() : Object("IfcFlowTerminal") {}
+
+ };
+
+ // C++ wrapper for IfcFlowTreatmentDevice
+ struct IfcFlowTreatmentDevice : IfcDistributionFlowElement, ObjectHelper<IfcFlowTreatmentDevice,0> { IfcFlowTreatmentDevice() : Object("IfcFlowTreatmentDevice") {}
+
+ };
+
+ // C++ wrapper for IfcFooting
+ struct IfcFooting : IfcBuildingElement, ObjectHelper<IfcFooting,1> { IfcFooting() : Object("IfcFooting") {}
+ IfcFootingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFurnishingElement
+ struct IfcFurnishingElement : IfcElement, ObjectHelper<IfcFurnishingElement,0> { IfcFurnishingElement() : Object("IfcFurnishingElement") {}
+
+ };
+
+ // C++ wrapper for IfcFurnishingElementType
+ struct IfcFurnishingElementType : IfcElementType, ObjectHelper<IfcFurnishingElementType,0> { IfcFurnishingElementType() : Object("IfcFurnishingElementType") {}
+
+ };
+
+ // C++ wrapper for IfcFurnitureStandard
+ struct IfcFurnitureStandard : IfcControl, ObjectHelper<IfcFurnitureStandard,0> { IfcFurnitureStandard() : Object("IfcFurnitureStandard") {}
+
+ };
+
+ // C++ wrapper for IfcFurnitureType
+ struct IfcFurnitureType : IfcFurnishingElementType, ObjectHelper<IfcFurnitureType,1> { IfcFurnitureType() : Object("IfcFurnitureType") {}
+ IfcAssemblyPlaceEnum::Out AssemblyPlace;
+ };
+
+ // C++ wrapper for IfcGasTerminalType
+ struct IfcGasTerminalType : IfcFlowTerminalType, ObjectHelper<IfcGasTerminalType,1> { IfcGasTerminalType() : Object("IfcGasTerminalType") {}
+ IfcGasTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcGeometricSet
+ struct IfcGeometricSet : IfcGeometricRepresentationItem, ObjectHelper<IfcGeometricSet,1> { IfcGeometricSet() : Object("IfcGeometricSet") {}
+ ListOf< IfcGeometricSetSelect, 1, 0 >::Out Elements;
+ };
+
+ // C++ wrapper for IfcGeometricCurveSet
+ struct IfcGeometricCurveSet : IfcGeometricSet, ObjectHelper<IfcGeometricCurveSet,0> { IfcGeometricCurveSet() : Object("IfcGeometricCurveSet") {}
+
+ };
+
+ // C++ wrapper for IfcRepresentationContext
+ struct IfcRepresentationContext : ObjectHelper<IfcRepresentationContext,2> { IfcRepresentationContext() : Object("IfcRepresentationContext") {}
+ Maybe< IfcLabel::Out > ContextIdentifier;
+ Maybe< IfcLabel::Out > ContextType;
+ };
+
+ // C++ wrapper for IfcGeometricRepresentationContext
+ struct IfcGeometricRepresentationContext : IfcRepresentationContext, ObjectHelper<IfcGeometricRepresentationContext,4> { IfcGeometricRepresentationContext() : Object("IfcGeometricRepresentationContext") {}
+ IfcDimensionCount::Out CoordinateSpaceDimension;
+ Maybe< REAL::Out > Precision;
+ IfcAxis2Placement::Out WorldCoordinateSystem;
+ Maybe< Lazy< IfcDirection > > TrueNorth;
+ };
+
+ // C++ wrapper for IfcGeometricRepresentationSubContext
+ struct IfcGeometricRepresentationSubContext : IfcGeometricRepresentationContext, ObjectHelper<IfcGeometricRepresentationSubContext,4> { IfcGeometricRepresentationSubContext() : Object("IfcGeometricRepresentationSubContext") {}
+ Lazy< IfcGeometricRepresentationContext > ParentContext;
+ Maybe< IfcPositiveRatioMeasure::Out > TargetScale;
+ IfcGeometricProjectionEnum::Out TargetView;
+ Maybe< IfcLabel::Out > UserDefinedTargetView;
+ };
+
+ // C++ wrapper for IfcGrid
+ struct IfcGrid : IfcProduct, ObjectHelper<IfcGrid,3> { IfcGrid() : Object("IfcGrid") {}
+ ListOf< Lazy< NotImplemented >, 1, 0 > UAxes;
+ ListOf< Lazy< NotImplemented >, 1, 0 > VAxes;
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > WAxes;
+ };
+
+ // C++ wrapper for IfcObjectPlacement
+ struct IfcObjectPlacement : ObjectHelper<IfcObjectPlacement,0> { IfcObjectPlacement() : Object("IfcObjectPlacement") {}
+
+ };
+
+ // C++ wrapper for IfcGridPlacement
+ struct IfcGridPlacement : IfcObjectPlacement, ObjectHelper<IfcGridPlacement,2> { IfcGridPlacement() : Object("IfcGridPlacement") {}
+ Lazy< NotImplemented > PlacementLocation;
+ Maybe< Lazy< NotImplemented > > PlacementRefDirection;
+ };
+
+ // C++ wrapper for IfcHeatExchangerType
+ struct IfcHeatExchangerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcHeatExchangerType,1> { IfcHeatExchangerType() : Object("IfcHeatExchangerType") {}
+ IfcHeatExchangerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcHumidifierType
+ struct IfcHumidifierType : IfcEnergyConversionDeviceType, ObjectHelper<IfcHumidifierType,1> { IfcHumidifierType() : Object("IfcHumidifierType") {}
+ IfcHumidifierTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcInventory
+ struct IfcInventory : IfcGroup, ObjectHelper<IfcInventory,6> { IfcInventory() : Object("IfcInventory") {}
+ IfcInventoryTypeEnum::Out InventoryType;
+ IfcActorSelect::Out Jurisdiction;
+ ListOf< Lazy< NotImplemented >, 1, 0 > ResponsiblePersons;
+ Lazy< NotImplemented > LastUpdateDate;
+ Maybe< Lazy< NotImplemented > > CurrentValue;
+ Maybe< Lazy< NotImplemented > > OriginalValue;
+ };
+
+ // C++ wrapper for IfcJunctionBoxType
+ struct IfcJunctionBoxType : IfcFlowFittingType, ObjectHelper<IfcJunctionBoxType,1> { IfcJunctionBoxType() : Object("IfcJunctionBoxType") {}
+ IfcJunctionBoxTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcLShapeProfileDef
+ struct IfcLShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcLShapeProfileDef,8> { IfcLShapeProfileDef() : Object("IfcLShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out Depth;
+ Maybe< IfcPositiveLengthMeasure::Out > Width;
+ IfcPositiveLengthMeasure::Out Thickness;
+ Maybe< IfcPositiveLengthMeasure::Out > FilletRadius;
+ Maybe< IfcPositiveLengthMeasure::Out > EdgeRadius;
+ Maybe< IfcPlaneAngleMeasure::Out > LegSlope;
+ Maybe< IfcPositiveLengthMeasure::Out > CentreOfGravityInX;
+ Maybe< IfcPositiveLengthMeasure::Out > CentreOfGravityInY;
+ };
+
+ // C++ wrapper for IfcLaborResource
+ struct IfcLaborResource : IfcConstructionResource, ObjectHelper<IfcLaborResource,1> { IfcLaborResource() : Object("IfcLaborResource") {}
+ Maybe< IfcText::Out > SkillSet;
+ };
+
+ // C++ wrapper for IfcLampType
+ struct IfcLampType : IfcFlowTerminalType, ObjectHelper<IfcLampType,1> { IfcLampType() : Object("IfcLampType") {}
+ IfcLampTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcLightFixtureType
+ struct IfcLightFixtureType : IfcFlowTerminalType, ObjectHelper<IfcLightFixtureType,1> { IfcLightFixtureType() : Object("IfcLightFixtureType") {}
+ IfcLightFixtureTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcLightSource
+ struct IfcLightSource : IfcGeometricRepresentationItem, ObjectHelper<IfcLightSource,4> { IfcLightSource() : Object("IfcLightSource") {}
+ Maybe< IfcLabel::Out > Name;
+ Lazy< IfcColourRgb > LightColour;
+ Maybe< IfcNormalisedRatioMeasure::Out > AmbientIntensity;
+ Maybe< IfcNormalisedRatioMeasure::Out > Intensity;
+ };
+
+ // C++ wrapper for IfcLightSourceAmbient
+ struct IfcLightSourceAmbient : IfcLightSource, ObjectHelper<IfcLightSourceAmbient,0> { IfcLightSourceAmbient() : Object("IfcLightSourceAmbient") {}
+
+ };
+
+ // C++ wrapper for IfcLightSourceDirectional
+ struct IfcLightSourceDirectional : IfcLightSource, ObjectHelper<IfcLightSourceDirectional,1> { IfcLightSourceDirectional() : Object("IfcLightSourceDirectional") {}
+ Lazy< IfcDirection > Orientation;
+ };
+
+ // C++ wrapper for IfcLightSourceGoniometric
+ struct IfcLightSourceGoniometric : IfcLightSource, ObjectHelper<IfcLightSourceGoniometric,6> { IfcLightSourceGoniometric() : Object("IfcLightSourceGoniometric") {}
+ Lazy< IfcAxis2Placement3D > Position;
+ Maybe< Lazy< IfcColourRgb > > ColourAppearance;
+ IfcThermodynamicTemperatureMeasure::Out ColourTemperature;
+ IfcLuminousFluxMeasure::Out LuminousFlux;
+ IfcLightEmissionSourceEnum::Out LightEmissionSource;
+ IfcLightDistributionDataSourceSelect::Out LightDistributionDataSource;
+ };
+
+ // C++ wrapper for IfcLightSourcePositional
+ struct IfcLightSourcePositional : IfcLightSource, ObjectHelper<IfcLightSourcePositional,5> { IfcLightSourcePositional() : Object("IfcLightSourcePositional") {}
+ Lazy< IfcCartesianPoint > Position;
+ IfcPositiveLengthMeasure::Out Radius;
+ IfcReal::Out ConstantAttenuation;
+ IfcReal::Out DistanceAttenuation;
+ IfcReal::Out QuadricAttenuation;
+ };
+
+ // C++ wrapper for IfcLightSourceSpot
+ struct IfcLightSourceSpot : IfcLightSourcePositional, ObjectHelper<IfcLightSourceSpot,4> { IfcLightSourceSpot() : Object("IfcLightSourceSpot") {}
+ Lazy< IfcDirection > Orientation;
+ Maybe< IfcReal::Out > ConcentrationExponent;
+ IfcPositivePlaneAngleMeasure::Out SpreadAngle;
+ IfcPositivePlaneAngleMeasure::Out BeamWidthAngle;
+ };
+
+ // C++ wrapper for IfcLine
+ struct IfcLine : IfcCurve, ObjectHelper<IfcLine,2> { IfcLine() : Object("IfcLine") {}
+ Lazy< IfcCartesianPoint > Pnt;
+ Lazy< IfcVector > Dir;
+ };
+
+ // C++ wrapper for IfcLinearDimension
+ struct IfcLinearDimension : IfcDimensionCurveDirectedCallout, ObjectHelper<IfcLinearDimension,0> { IfcLinearDimension() : Object("IfcLinearDimension") {}
+
+ };
+
+ // C++ wrapper for IfcLocalPlacement
+ struct IfcLocalPlacement : IfcObjectPlacement, ObjectHelper<IfcLocalPlacement,2> { IfcLocalPlacement() : Object("IfcLocalPlacement") {}
+ Maybe< Lazy< IfcObjectPlacement > > PlacementRelTo;
+ IfcAxis2Placement::Out RelativePlacement;
+ };
+
+ // C++ wrapper for IfcMappedItem
+ struct IfcMappedItem : IfcRepresentationItem, ObjectHelper<IfcMappedItem,2> { IfcMappedItem() : Object("IfcMappedItem") {}
+ Lazy< IfcRepresentationMap > MappingSource;
+ Lazy< IfcCartesianTransformationOperator > MappingTarget;
+ };
+
+ // C++ wrapper for IfcProductRepresentation
+ struct IfcProductRepresentation : ObjectHelper<IfcProductRepresentation,3> { IfcProductRepresentation() : Object("IfcProductRepresentation") {}
+ Maybe< IfcLabel::Out > Name;
+ Maybe< IfcText::Out > Description;
+ ListOf< Lazy< IfcRepresentation >, 1, 0 > Representations;
+ };
+
+ // C++ wrapper for IfcMaterialDefinitionRepresentation
+ struct IfcMaterialDefinitionRepresentation : IfcProductRepresentation, ObjectHelper<IfcMaterialDefinitionRepresentation,1> { IfcMaterialDefinitionRepresentation() : Object("IfcMaterialDefinitionRepresentation") {}
+ Lazy< NotImplemented > RepresentedMaterial;
+ };
+
+ // C++ wrapper for IfcMeasureWithUnit
+ struct IfcMeasureWithUnit : ObjectHelper<IfcMeasureWithUnit,2> { IfcMeasureWithUnit() : Object("IfcMeasureWithUnit") {}
+ IfcValue::Out ValueComponent;
+ IfcUnit::Out UnitComponent;
+ };
+
+ // C++ wrapper for IfcMechanicalFastener
+ struct IfcMechanicalFastener : IfcFastener, ObjectHelper<IfcMechanicalFastener,2> { IfcMechanicalFastener() : Object("IfcMechanicalFastener") {}
+ Maybe< IfcPositiveLengthMeasure::Out > NominalDiameter;
+ Maybe< IfcPositiveLengthMeasure::Out > NominalLength;
+ };
+
+ // C++ wrapper for IfcMechanicalFastenerType
+ struct IfcMechanicalFastenerType : IfcFastenerType, ObjectHelper<IfcMechanicalFastenerType,0> { IfcMechanicalFastenerType() : Object("IfcMechanicalFastenerType") {}
+
+ };
+
+ // C++ wrapper for IfcMember
+ struct IfcMember : IfcBuildingElement, ObjectHelper<IfcMember,0> { IfcMember() : Object("IfcMember") {}
+
+ };
+
+ // C++ wrapper for IfcMemberType
+ struct IfcMemberType : IfcBuildingElementType, ObjectHelper<IfcMemberType,1> { IfcMemberType() : Object("IfcMemberType") {}
+ IfcMemberTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcMotorConnectionType
+ struct IfcMotorConnectionType : IfcEnergyConversionDeviceType, ObjectHelper<IfcMotorConnectionType,1> { IfcMotorConnectionType() : Object("IfcMotorConnectionType") {}
+ IfcMotorConnectionTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcProcess
+ struct IfcProcess : IfcObject, ObjectHelper<IfcProcess,0> { IfcProcess() : Object("IfcProcess") {}
+
+ };
+
+ // C++ wrapper for IfcTask
+ struct IfcTask : IfcProcess, ObjectHelper<IfcTask,5> { IfcTask() : Object("IfcTask") {}
+ IfcIdentifier::Out TaskId;
+ Maybe< IfcLabel::Out > Status;
+ Maybe< IfcLabel::Out > WorkMethod;
+ BOOLEAN::Out IsMilestone;
+ Maybe< INTEGER::Out > Priority;
+ };
+
+ // C++ wrapper for IfcMove
+ struct IfcMove : IfcTask, ObjectHelper<IfcMove,3> { IfcMove() : Object("IfcMove") {}
+ Lazy< IfcSpatialStructureElement > MoveFrom;
+ Lazy< IfcSpatialStructureElement > MoveTo;
+ Maybe< ListOf< IfcText, 1, 0 >::Out > PunchList;
+ };
+
+ // C++ wrapper for IfcOccupant
+ struct IfcOccupant : IfcActor, ObjectHelper<IfcOccupant,1> { IfcOccupant() : Object("IfcOccupant") {}
+ IfcOccupantTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcOffsetCurve2D
+ struct IfcOffsetCurve2D : IfcCurve, ObjectHelper<IfcOffsetCurve2D,3> { IfcOffsetCurve2D() : Object("IfcOffsetCurve2D") {}
+ Lazy< IfcCurve > BasisCurve;
+ IfcLengthMeasure::Out Distance;
+ LOGICAL::Out SelfIntersect;
+ };
+
+ // C++ wrapper for IfcOffsetCurve3D
+ struct IfcOffsetCurve3D : IfcCurve, ObjectHelper<IfcOffsetCurve3D,4> { IfcOffsetCurve3D() : Object("IfcOffsetCurve3D") {}
+ Lazy< IfcCurve > BasisCurve;
+ IfcLengthMeasure::Out Distance;
+ LOGICAL::Out SelfIntersect;
+ Lazy< IfcDirection > RefDirection;
+ };
+
+ // C++ wrapper for IfcOneDirectionRepeatFactor
+ struct IfcOneDirectionRepeatFactor : IfcGeometricRepresentationItem, ObjectHelper<IfcOneDirectionRepeatFactor,1> { IfcOneDirectionRepeatFactor() : Object("IfcOneDirectionRepeatFactor") {}
+ Lazy< IfcVector > RepeatFactor;
+ };
+
+ // C++ wrapper for IfcOpenShell
+ struct IfcOpenShell : IfcConnectedFaceSet, ObjectHelper<IfcOpenShell,0> { IfcOpenShell() : Object("IfcOpenShell") {}
+
+ };
+
+ // C++ wrapper for IfcOpeningElement
+ struct IfcOpeningElement : IfcFeatureElementSubtraction, ObjectHelper<IfcOpeningElement,0> { IfcOpeningElement() : Object("IfcOpeningElement") {}
+
+ };
+
+ // C++ wrapper for IfcOrderAction
+ struct IfcOrderAction : IfcTask, ObjectHelper<IfcOrderAction,1> { IfcOrderAction() : Object("IfcOrderAction") {}
+ IfcIdentifier::Out ActionID;
+ };
+
+ // C++ wrapper for IfcOrientedEdge
+ struct IfcOrientedEdge : IfcEdge, ObjectHelper<IfcOrientedEdge,2> { IfcOrientedEdge() : Object("IfcOrientedEdge") {}
+ Lazy< IfcEdge > EdgeElement;
+ BOOLEAN::Out Orientation;
+ };
+
+ // C++ wrapper for IfcOutletType
+ struct IfcOutletType : IfcFlowTerminalType, ObjectHelper<IfcOutletType,1> { IfcOutletType() : Object("IfcOutletType") {}
+ IfcOutletTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPath
+ struct IfcPath : IfcTopologicalRepresentationItem, ObjectHelper<IfcPath,1> { IfcPath() : Object("IfcPath") {}
+ ListOf< Lazy< IfcOrientedEdge >, 1, 0 > EdgeList;
+ };
+
+ // C++ wrapper for IfcPerformanceHistory
+ struct IfcPerformanceHistory : IfcControl, ObjectHelper<IfcPerformanceHistory,1> { IfcPerformanceHistory() : Object("IfcPerformanceHistory") {}
+ IfcLabel::Out LifeCyclePhase;
+ };
+
+ // C++ wrapper for IfcPermit
+ struct IfcPermit : IfcControl, ObjectHelper<IfcPermit,1> { IfcPermit() : Object("IfcPermit") {}
+ IfcIdentifier::Out PermitID;
+ };
+
+ // C++ wrapper for IfcPile
+ struct IfcPile : IfcBuildingElement, ObjectHelper<IfcPile,2> { IfcPile() : Object("IfcPile") {}
+ IfcPileTypeEnum::Out PredefinedType;
+ Maybe< IfcPileConstructionEnum::Out > ConstructionType;
+ };
+
+ // C++ wrapper for IfcPipeFittingType
+ struct IfcPipeFittingType : IfcFlowFittingType, ObjectHelper<IfcPipeFittingType,1> { IfcPipeFittingType() : Object("IfcPipeFittingType") {}
+ IfcPipeFittingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPipeSegmentType
+ struct IfcPipeSegmentType : IfcFlowSegmentType, ObjectHelper<IfcPipeSegmentType,1> { IfcPipeSegmentType() : Object("IfcPipeSegmentType") {}
+ IfcPipeSegmentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPlanarExtent
+ struct IfcPlanarExtent : IfcGeometricRepresentationItem, ObjectHelper<IfcPlanarExtent,2> { IfcPlanarExtent() : Object("IfcPlanarExtent") {}
+ IfcLengthMeasure::Out SizeInX;
+ IfcLengthMeasure::Out SizeInY;
+ };
+
+ // C++ wrapper for IfcPlanarBox
+ struct IfcPlanarBox : IfcPlanarExtent, ObjectHelper<IfcPlanarBox,1> { IfcPlanarBox() : Object("IfcPlanarBox") {}
+ IfcAxis2Placement::Out Placement;
+ };
+
+ // C++ wrapper for IfcPlane
+ struct IfcPlane : IfcElementarySurface, ObjectHelper<IfcPlane,0> { IfcPlane() : Object("IfcPlane") {}
+
+ };
+
+ // C++ wrapper for IfcPlate
+ struct IfcPlate : IfcBuildingElement, ObjectHelper<IfcPlate,0> { IfcPlate() : Object("IfcPlate") {}
+
+ };
+
+ // C++ wrapper for IfcPlateType
+ struct IfcPlateType : IfcBuildingElementType, ObjectHelper<IfcPlateType,1> { IfcPlateType() : Object("IfcPlateType") {}
+ IfcPlateTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPointOnCurve
+ struct IfcPointOnCurve : IfcPoint, ObjectHelper<IfcPointOnCurve,2> { IfcPointOnCurve() : Object("IfcPointOnCurve") {}
+ Lazy< IfcCurve > BasisCurve;
+ IfcParameterValue::Out PointParameter;
+ };
+
+ // C++ wrapper for IfcPointOnSurface
+ struct IfcPointOnSurface : IfcPoint, ObjectHelper<IfcPointOnSurface,3> { IfcPointOnSurface() : Object("IfcPointOnSurface") {}
+ Lazy< IfcSurface > BasisSurface;
+ IfcParameterValue::Out PointParameterU;
+ IfcParameterValue::Out PointParameterV;
+ };
+
+ // C++ wrapper for IfcPolyLoop
+ struct IfcPolyLoop : IfcLoop, ObjectHelper<IfcPolyLoop,1> { IfcPolyLoop() : Object("IfcPolyLoop") {}
+ ListOf< Lazy< IfcCartesianPoint >, 3, 0 > Polygon;
+ };
+
+ // C++ wrapper for IfcPolygonalBoundedHalfSpace
+ struct IfcPolygonalBoundedHalfSpace : IfcHalfSpaceSolid, ObjectHelper<IfcPolygonalBoundedHalfSpace,2> { IfcPolygonalBoundedHalfSpace() : Object("IfcPolygonalBoundedHalfSpace") {}
+ Lazy< IfcAxis2Placement3D > Position;
+ Lazy< IfcBoundedCurve > PolygonalBoundary;
+ };
+
+ // C++ wrapper for IfcPolyline
+ struct IfcPolyline : IfcBoundedCurve, ObjectHelper<IfcPolyline,1> { IfcPolyline() : Object("IfcPolyline") {}
+ ListOf< Lazy< IfcCartesianPoint >, 2, 0 > Points;
+ };
+
+ // C++ wrapper for IfcPresentationStyleAssignment
+ struct IfcPresentationStyleAssignment : ObjectHelper<IfcPresentationStyleAssignment,1> { IfcPresentationStyleAssignment() : Object("IfcPresentationStyleAssignment") {}
+ ListOf< IfcPresentationStyleSelect, 1, 0 >::Out Styles;
+ };
+
+ // C++ wrapper for IfcProcedure
+ struct IfcProcedure : IfcProcess, ObjectHelper<IfcProcedure,3> { IfcProcedure() : Object("IfcProcedure") {}
+ IfcIdentifier::Out ProcedureID;
+ IfcProcedureTypeEnum::Out ProcedureType;
+ Maybe< IfcLabel::Out > UserDefinedProcedureType;
+ };
+
+ // C++ wrapper for IfcProductDefinitionShape
+ struct IfcProductDefinitionShape : IfcProductRepresentation, ObjectHelper<IfcProductDefinitionShape,0> { IfcProductDefinitionShape() : Object("IfcProductDefinitionShape") {}
+
+ };
+
+ // C++ wrapper for IfcProject
+ struct IfcProject : IfcObject, ObjectHelper<IfcProject,4> { IfcProject() : Object("IfcProject") {}
+ Maybe< IfcLabel::Out > LongName;
+ Maybe< IfcLabel::Out > Phase;
+ ListOf< Lazy< IfcRepresentationContext >, 1, 0 > RepresentationContexts;
+ Lazy< IfcUnitAssignment > UnitsInContext;
+ };
+
+ // C++ wrapper for IfcProjectOrder
+ struct IfcProjectOrder : IfcControl, ObjectHelper<IfcProjectOrder,3> { IfcProjectOrder() : Object("IfcProjectOrder") {}
+ IfcIdentifier::Out ID;
+ IfcProjectOrderTypeEnum::Out PredefinedType;
+ Maybe< IfcLabel::Out > Status;
+ };
+
+ // C++ wrapper for IfcProjectOrderRecord
+ struct IfcProjectOrderRecord : IfcControl, ObjectHelper<IfcProjectOrderRecord,2> { IfcProjectOrderRecord() : Object("IfcProjectOrderRecord") {}
+ ListOf< Lazy< NotImplemented >, 1, 0 > Records;
+ IfcProjectOrderRecordTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcProjectionCurve
+ struct IfcProjectionCurve : IfcAnnotationCurveOccurrence, ObjectHelper<IfcProjectionCurve,0> { IfcProjectionCurve() : Object("IfcProjectionCurve") {}
+
+ };
+
+ // C++ wrapper for IfcProjectionElement
+ struct IfcProjectionElement : IfcFeatureElementAddition, ObjectHelper<IfcProjectionElement,0> { IfcProjectionElement() : Object("IfcProjectionElement") {}
+
+ };
+
+ // C++ wrapper for IfcSimpleProperty
+ struct IfcSimpleProperty : IfcProperty, ObjectHelper<IfcSimpleProperty,0> { IfcSimpleProperty() : Object("IfcSimpleProperty") {}
+
+ };
+
+ // C++ wrapper for IfcPropertyBoundedValue
+ struct IfcPropertyBoundedValue : IfcSimpleProperty, ObjectHelper<IfcPropertyBoundedValue,3> { IfcPropertyBoundedValue() : Object("IfcPropertyBoundedValue") {}
+ Maybe< IfcValue::Out > UpperBoundValue;
+ Maybe< IfcValue::Out > LowerBoundValue;
+ Maybe< IfcUnit::Out > Unit;
+ };
+
+ // C++ wrapper for IfcPropertyEnumeratedValue
+ struct IfcPropertyEnumeratedValue : IfcSimpleProperty, ObjectHelper<IfcPropertyEnumeratedValue,2> { IfcPropertyEnumeratedValue() : Object("IfcPropertyEnumeratedValue") {}
+ ListOf< IfcValue, 1, 0 >::Out EnumerationValues;
+ Maybe< Lazy< NotImplemented > > EnumerationReference;
+ };
+
+ // C++ wrapper for IfcPropertyListValue
+ struct IfcPropertyListValue : IfcSimpleProperty, ObjectHelper<IfcPropertyListValue,2> { IfcPropertyListValue() : Object("IfcPropertyListValue") {}
+ ListOf< IfcValue, 1, 0 >::Out ListValues;
+ Maybe< IfcUnit::Out > Unit;
+ };
+
+ // C++ wrapper for IfcPropertyReferenceValue
+ struct IfcPropertyReferenceValue : IfcSimpleProperty, ObjectHelper<IfcPropertyReferenceValue,2> { IfcPropertyReferenceValue() : Object("IfcPropertyReferenceValue") {}
+ Maybe< IfcLabel::Out > UsageName;
+ IfcObjectReferenceSelect::Out PropertyReference;
+ };
+
+ // C++ wrapper for IfcPropertySet
+ struct IfcPropertySet : IfcPropertySetDefinition, ObjectHelper<IfcPropertySet,1> { IfcPropertySet() : Object("IfcPropertySet") {}
+ ListOf< Lazy< IfcProperty >, 1, 0 > HasProperties;
+ };
+
+ // C++ wrapper for IfcPropertySingleValue
+ struct IfcPropertySingleValue : IfcSimpleProperty, ObjectHelper<IfcPropertySingleValue,2> { IfcPropertySingleValue() : Object("IfcPropertySingleValue") {}
+ Maybe< IfcValue::Out > NominalValue;
+ Maybe< IfcUnit::Out > Unit;
+ };
+
+ // C++ wrapper for IfcPropertyTableValue
+ struct IfcPropertyTableValue : IfcSimpleProperty, ObjectHelper<IfcPropertyTableValue,5> { IfcPropertyTableValue() : Object("IfcPropertyTableValue") {}
+ ListOf< IfcValue, 1, 0 >::Out DefiningValues;
+ ListOf< IfcValue, 1, 0 >::Out DefinedValues;
+ Maybe< IfcText::Out > Expression;
+ Maybe< IfcUnit::Out > DefiningUnit;
+ Maybe< IfcUnit::Out > DefinedUnit;
+ };
+
+ // C++ wrapper for IfcProtectiveDeviceType
+ struct IfcProtectiveDeviceType : IfcFlowControllerType, ObjectHelper<IfcProtectiveDeviceType,1> { IfcProtectiveDeviceType() : Object("IfcProtectiveDeviceType") {}
+ IfcProtectiveDeviceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcProxy
+ struct IfcProxy : IfcProduct, ObjectHelper<IfcProxy,2> { IfcProxy() : Object("IfcProxy") {}
+ IfcObjectTypeEnum::Out ProxyType;
+ Maybe< IfcLabel::Out > Tag;
+ };
+
+ // C++ wrapper for IfcPumpType
+ struct IfcPumpType : IfcFlowMovingDeviceType, ObjectHelper<IfcPumpType,1> { IfcPumpType() : Object("IfcPumpType") {}
+ IfcPumpTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcRadiusDimension
+ struct IfcRadiusDimension : IfcDimensionCurveDirectedCallout, ObjectHelper<IfcRadiusDimension,0> { IfcRadiusDimension() : Object("IfcRadiusDimension") {}
+
+ };
+
+ // C++ wrapper for IfcRailing
+ struct IfcRailing : IfcBuildingElement, ObjectHelper<IfcRailing,1> { IfcRailing() : Object("IfcRailing") {}
+ Maybe< IfcRailingTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcRailingType
+ struct IfcRailingType : IfcBuildingElementType, ObjectHelper<IfcRailingType,1> { IfcRailingType() : Object("IfcRailingType") {}
+ IfcRailingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcRamp
+ struct IfcRamp : IfcBuildingElement, ObjectHelper<IfcRamp,1> { IfcRamp() : Object("IfcRamp") {}
+ IfcRampTypeEnum::Out ShapeType;
+ };
+
+ // C++ wrapper for IfcRampFlight
+ struct IfcRampFlight : IfcBuildingElement, ObjectHelper<IfcRampFlight,0> { IfcRampFlight() : Object("IfcRampFlight") {}
+
+ };
+
+ // C++ wrapper for IfcRampFlightType
+ struct IfcRampFlightType : IfcBuildingElementType, ObjectHelper<IfcRampFlightType,1> { IfcRampFlightType() : Object("IfcRampFlightType") {}
+ IfcRampFlightTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcRationalBezierCurve
+ struct IfcRationalBezierCurve : IfcBezierCurve, ObjectHelper<IfcRationalBezierCurve,1> { IfcRationalBezierCurve() : Object("IfcRationalBezierCurve") {}
+ ListOf< REAL, 2, 0 >::Out WeightsData;
+ };
+
+ // C++ wrapper for IfcRectangleProfileDef
+ struct IfcRectangleProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcRectangleProfileDef,2> { IfcRectangleProfileDef() : Object("IfcRectangleProfileDef") {}
+ IfcPositiveLengthMeasure::Out XDim;
+ IfcPositiveLengthMeasure::Out YDim;
+ };
+
+ // C++ wrapper for IfcRectangleHollowProfileDef
+ struct IfcRectangleHollowProfileDef : IfcRectangleProfileDef, ObjectHelper<IfcRectangleHollowProfileDef,3> { IfcRectangleHollowProfileDef() : Object("IfcRectangleHollowProfileDef") {}
+ IfcPositiveLengthMeasure::Out WallThickness;
+ Maybe< IfcPositiveLengthMeasure::Out > InnerFilletRadius;
+ Maybe< IfcPositiveLengthMeasure::Out > OuterFilletRadius;
+ };
+
+ // C++ wrapper for IfcRectangularPyramid
+ struct IfcRectangularPyramid : IfcCsgPrimitive3D, ObjectHelper<IfcRectangularPyramid,3> { IfcRectangularPyramid() : Object("IfcRectangularPyramid") {}
+ IfcPositiveLengthMeasure::Out XLength;
+ IfcPositiveLengthMeasure::Out YLength;
+ IfcPositiveLengthMeasure::Out Height;
+ };
+
+ // C++ wrapper for IfcRectangularTrimmedSurface
+ struct IfcRectangularTrimmedSurface : IfcBoundedSurface, ObjectHelper<IfcRectangularTrimmedSurface,7> { IfcRectangularTrimmedSurface() : Object("IfcRectangularTrimmedSurface") {}
+ Lazy< IfcSurface > BasisSurface;
+ IfcParameterValue::Out U1;
+ IfcParameterValue::Out V1;
+ IfcParameterValue::Out U2;
+ IfcParameterValue::Out V2;
+ BOOLEAN::Out Usense;
+ BOOLEAN::Out Vsense;
+ };
+
+ // C++ wrapper for IfcReinforcingElement
+ struct IfcReinforcingElement : IfcBuildingElementComponent, ObjectHelper<IfcReinforcingElement,1> { IfcReinforcingElement() : Object("IfcReinforcingElement") {}
+ Maybe< IfcLabel::Out > SteelGrade;
+ };
+
+ // C++ wrapper for IfcReinforcingBar
+ struct IfcReinforcingBar : IfcReinforcingElement, ObjectHelper<IfcReinforcingBar,5> { IfcReinforcingBar() : Object("IfcReinforcingBar") {}
+ IfcPositiveLengthMeasure::Out NominalDiameter;
+ IfcAreaMeasure::Out CrossSectionArea;
+ Maybe< IfcPositiveLengthMeasure::Out > BarLength;
+ IfcReinforcingBarRoleEnum::Out BarRole;
+ Maybe< IfcReinforcingBarSurfaceEnum::Out > BarSurface;
+ };
+
+ // C++ wrapper for IfcReinforcingMesh
+ struct IfcReinforcingMesh : IfcReinforcingElement, ObjectHelper<IfcReinforcingMesh,8> { IfcReinforcingMesh() : Object("IfcReinforcingMesh") {}
+ Maybe< IfcPositiveLengthMeasure::Out > MeshLength;
+ Maybe< IfcPositiveLengthMeasure::Out > MeshWidth;
+ IfcPositiveLengthMeasure::Out LongitudinalBarNominalDiameter;
+ IfcPositiveLengthMeasure::Out TransverseBarNominalDiameter;
+ IfcAreaMeasure::Out LongitudinalBarCrossSectionArea;
+ IfcAreaMeasure::Out TransverseBarCrossSectionArea;
+ IfcPositiveLengthMeasure::Out LongitudinalBarSpacing;
+ IfcPositiveLengthMeasure::Out TransverseBarSpacing;
+ };
+
+ // C++ wrapper for IfcRelationship
+ struct IfcRelationship : IfcRoot, ObjectHelper<IfcRelationship,0> { IfcRelationship() : Object("IfcRelationship") {}
+
+ };
+
+ // C++ wrapper for IfcRelDecomposes
+ struct IfcRelDecomposes : IfcRelationship, ObjectHelper<IfcRelDecomposes,2> { IfcRelDecomposes() : Object("IfcRelDecomposes") {}
+ Lazy< IfcObjectDefinition > RelatingObject;
+ ListOf< Lazy< IfcObjectDefinition >, 1, 0 > RelatedObjects;
+ };
+
+ // C++ wrapper for IfcRelAggregates
+ struct IfcRelAggregates : IfcRelDecomposes, ObjectHelper<IfcRelAggregates,0> { IfcRelAggregates() : Object("IfcRelAggregates") {}
+
+ };
+
+ // C++ wrapper for IfcRelConnects
+ struct IfcRelConnects : IfcRelationship, ObjectHelper<IfcRelConnects,0> { IfcRelConnects() : Object("IfcRelConnects") {}
+
+ };
+
+ // C++ wrapper for IfcRelContainedInSpatialStructure
+ struct IfcRelContainedInSpatialStructure : IfcRelConnects, ObjectHelper<IfcRelContainedInSpatialStructure,2> { IfcRelContainedInSpatialStructure() : Object("IfcRelContainedInSpatialStructure") {}
+ ListOf< Lazy< IfcProduct >, 1, 0 > RelatedElements;
+ Lazy< IfcSpatialStructureElement > RelatingStructure;
+ };
+
+ // C++ wrapper for IfcRelDefines
+ struct IfcRelDefines : IfcRelationship, ObjectHelper<IfcRelDefines,1> { IfcRelDefines() : Object("IfcRelDefines") {}
+ ListOf< Lazy< IfcObject >, 1, 0 > RelatedObjects;
+ };
+
+ // C++ wrapper for IfcRelDefinesByProperties
+ struct IfcRelDefinesByProperties : IfcRelDefines, ObjectHelper<IfcRelDefinesByProperties,1> { IfcRelDefinesByProperties() : Object("IfcRelDefinesByProperties") {}
+ Lazy< IfcPropertySetDefinition > RelatingPropertyDefinition;
+ };
+
+ // C++ wrapper for IfcRelFillsElement
+ struct IfcRelFillsElement : IfcRelConnects, ObjectHelper<IfcRelFillsElement,2> { IfcRelFillsElement() : Object("IfcRelFillsElement") {}
+ Lazy< IfcOpeningElement > RelatingOpeningElement;
+ Lazy< IfcElement > RelatedBuildingElement;
+ };
+
+ // C++ wrapper for IfcRelOverridesProperties
+ struct IfcRelOverridesProperties : IfcRelDefinesByProperties, ObjectHelper<IfcRelOverridesProperties,1> { IfcRelOverridesProperties() : Object("IfcRelOverridesProperties") {}
+ ListOf< Lazy< IfcProperty >, 1, 0 > OverridingProperties;
+ };
+
+ // C++ wrapper for IfcRelVoidsElement
+ struct IfcRelVoidsElement : IfcRelConnects, ObjectHelper<IfcRelVoidsElement,2> { IfcRelVoidsElement() : Object("IfcRelVoidsElement") {}
+ Lazy< IfcElement > RelatingBuildingElement;
+ Lazy< IfcFeatureElementSubtraction > RelatedOpeningElement;
+ };
+
+ // C++ wrapper for IfcRepresentation
+ struct IfcRepresentation : ObjectHelper<IfcRepresentation,4> { IfcRepresentation() : Object("IfcRepresentation") {}
+ Lazy< IfcRepresentationContext > ContextOfItems;
+ Maybe< IfcLabel::Out > RepresentationIdentifier;
+ Maybe< IfcLabel::Out > RepresentationType;
+ ListOf< Lazy< IfcRepresentationItem >, 1, 0 > Items;
+ };
+
+ // C++ wrapper for IfcRepresentationMap
+ struct IfcRepresentationMap : ObjectHelper<IfcRepresentationMap,2> { IfcRepresentationMap() : Object("IfcRepresentationMap") {}
+ IfcAxis2Placement::Out MappingOrigin;
+ Lazy< IfcRepresentation > MappedRepresentation;
+ };
+
+ // C++ wrapper for IfcRevolvedAreaSolid
+ struct IfcRevolvedAreaSolid : IfcSweptAreaSolid, ObjectHelper<IfcRevolvedAreaSolid,2> { IfcRevolvedAreaSolid() : Object("IfcRevolvedAreaSolid") {}
+ Lazy< IfcAxis1Placement > Axis;
+ IfcPlaneAngleMeasure::Out Angle;
+ };
+
+ // C++ wrapper for IfcRightCircularCone
+ struct IfcRightCircularCone : IfcCsgPrimitive3D, ObjectHelper<IfcRightCircularCone,2> { IfcRightCircularCone() : Object("IfcRightCircularCone") {}
+ IfcPositiveLengthMeasure::Out Height;
+ IfcPositiveLengthMeasure::Out BottomRadius;
+ };
+
+ // C++ wrapper for IfcRightCircularCylinder
+ struct IfcRightCircularCylinder : IfcCsgPrimitive3D, ObjectHelper<IfcRightCircularCylinder,2> { IfcRightCircularCylinder() : Object("IfcRightCircularCylinder") {}
+ IfcPositiveLengthMeasure::Out Height;
+ IfcPositiveLengthMeasure::Out Radius;
+ };
+
+ // C++ wrapper for IfcRoof
+ struct IfcRoof : IfcBuildingElement, ObjectHelper<IfcRoof,1> { IfcRoof() : Object("IfcRoof") {}
+ IfcRoofTypeEnum::Out ShapeType;
+ };
+
+ // C++ wrapper for IfcRoundedEdgeFeature
+ struct IfcRoundedEdgeFeature : IfcEdgeFeature, ObjectHelper<IfcRoundedEdgeFeature,1> { IfcRoundedEdgeFeature() : Object("IfcRoundedEdgeFeature") {}
+ Maybe< IfcPositiveLengthMeasure::Out > Radius;
+ };
+
+ // C++ wrapper for IfcRoundedRectangleProfileDef
+ struct IfcRoundedRectangleProfileDef : IfcRectangleProfileDef, ObjectHelper<IfcRoundedRectangleProfileDef,1> { IfcRoundedRectangleProfileDef() : Object("IfcRoundedRectangleProfileDef") {}
+ IfcPositiveLengthMeasure::Out RoundingRadius;
+ };
+
+ // C++ wrapper for IfcSIUnit
+ struct IfcSIUnit : IfcNamedUnit, ObjectHelper<IfcSIUnit,2> { IfcSIUnit() : Object("IfcSIUnit") {}
+ Maybe< IfcSIPrefix::Out > Prefix;
+ IfcSIUnitName::Out Name;
+ };
+
+ // C++ wrapper for IfcSanitaryTerminalType
+ struct IfcSanitaryTerminalType : IfcFlowTerminalType, ObjectHelper<IfcSanitaryTerminalType,1> { IfcSanitaryTerminalType() : Object("IfcSanitaryTerminalType") {}
+ IfcSanitaryTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcScheduleTimeControl
+ struct IfcScheduleTimeControl : IfcControl, ObjectHelper<IfcScheduleTimeControl,18> { IfcScheduleTimeControl() : Object("IfcScheduleTimeControl") {}
+ Maybe< IfcDateTimeSelect::Out > ActualStart;
+ Maybe< IfcDateTimeSelect::Out > EarlyStart;
+ Maybe< IfcDateTimeSelect::Out > LateStart;
+ Maybe< IfcDateTimeSelect::Out > ScheduleStart;
+ Maybe< IfcDateTimeSelect::Out > ActualFinish;
+ Maybe< IfcDateTimeSelect::Out > EarlyFinish;
+ Maybe< IfcDateTimeSelect::Out > LateFinish;
+ Maybe< IfcDateTimeSelect::Out > ScheduleFinish;
+ Maybe< IfcTimeMeasure::Out > ScheduleDuration;
+ Maybe< IfcTimeMeasure::Out > ActualDuration;
+ Maybe< IfcTimeMeasure::Out > RemainingTime;
+ Maybe< IfcTimeMeasure::Out > FreeFloat;
+ Maybe< IfcTimeMeasure::Out > TotalFloat;
+ Maybe< BOOLEAN::Out > IsCritical;
+ Maybe< IfcDateTimeSelect::Out > StatusTime;
+ Maybe< IfcTimeMeasure::Out > StartFloat;
+ Maybe< IfcTimeMeasure::Out > FinishFloat;
+ Maybe< IfcPositiveRatioMeasure::Out > Completion;
+ };
+
+ // C++ wrapper for IfcSectionedSpine
+ struct IfcSectionedSpine : IfcGeometricRepresentationItem, ObjectHelper<IfcSectionedSpine,3> { IfcSectionedSpine() : Object("IfcSectionedSpine") {}
+ Lazy< IfcCompositeCurve > SpineCurve;
+ ListOf< Lazy< IfcProfileDef >, 2, 0 > CrossSections;
+ ListOf< Lazy< IfcAxis2Placement3D >, 2, 0 > CrossSectionPositions;
+ };
+
+ // C++ wrapper for IfcSensorType
+ struct IfcSensorType : IfcDistributionControlElementType, ObjectHelper<IfcSensorType,1> { IfcSensorType() : Object("IfcSensorType") {}
+ IfcSensorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcServiceLife
+ struct IfcServiceLife : IfcControl, ObjectHelper<IfcServiceLife,2> { IfcServiceLife() : Object("IfcServiceLife") {}
+ IfcServiceLifeTypeEnum::Out ServiceLifeType;
+ IfcTimeMeasure::Out ServiceLifeDuration;
+ };
+
+ // C++ wrapper for IfcShapeModel
+ struct IfcShapeModel : IfcRepresentation, ObjectHelper<IfcShapeModel,0> { IfcShapeModel() : Object("IfcShapeModel") {}
+
+ };
+
+ // C++ wrapper for IfcShapeRepresentation
+ struct IfcShapeRepresentation : IfcShapeModel, ObjectHelper<IfcShapeRepresentation,0> { IfcShapeRepresentation() : Object("IfcShapeRepresentation") {}
+
+ };
+
+ // C++ wrapper for IfcShellBasedSurfaceModel
+ struct IfcShellBasedSurfaceModel : IfcGeometricRepresentationItem, ObjectHelper<IfcShellBasedSurfaceModel,1> { IfcShellBasedSurfaceModel() : Object("IfcShellBasedSurfaceModel") {}
+ ListOf< IfcShell, 1, 0 >::Out SbsmBoundary;
+ };
+
+ // C++ wrapper for IfcSite
+ struct IfcSite : IfcSpatialStructureElement, ObjectHelper<IfcSite,5> { IfcSite() : Object("IfcSite") {}
+ Maybe< IfcCompoundPlaneAngleMeasure::Out > RefLatitude;
+ Maybe< IfcCompoundPlaneAngleMeasure::Out > RefLongitude;
+ Maybe< IfcLengthMeasure::Out > RefElevation;
+ Maybe< IfcLabel::Out > LandTitleNumber;
+ Maybe< Lazy< NotImplemented > > SiteAddress;
+ };
+
+ // C++ wrapper for IfcSlab
+ struct IfcSlab : IfcBuildingElement, ObjectHelper<IfcSlab,1> { IfcSlab() : Object("IfcSlab") {}
+ Maybe< IfcSlabTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSlabType
+ struct IfcSlabType : IfcBuildingElementType, ObjectHelper<IfcSlabType,1> { IfcSlabType() : Object("IfcSlabType") {}
+ IfcSlabTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSpace
+ struct IfcSpace : IfcSpatialStructureElement, ObjectHelper<IfcSpace,2> { IfcSpace() : Object("IfcSpace") {}
+ IfcInternalOrExternalEnum::Out InteriorOrExteriorSpace;
+ Maybe< IfcLengthMeasure::Out > ElevationWithFlooring;
+ };
+
+ // C++ wrapper for IfcSpaceHeaterType
+ struct IfcSpaceHeaterType : IfcEnergyConversionDeviceType, ObjectHelper<IfcSpaceHeaterType,1> { IfcSpaceHeaterType() : Object("IfcSpaceHeaterType") {}
+ IfcSpaceHeaterTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSpaceProgram
+ struct IfcSpaceProgram : IfcControl, ObjectHelper<IfcSpaceProgram,5> { IfcSpaceProgram() : Object("IfcSpaceProgram") {}
+ IfcIdentifier::Out SpaceProgramIdentifier;
+ Maybe< IfcAreaMeasure::Out > MaxRequiredArea;
+ Maybe< IfcAreaMeasure::Out > MinRequiredArea;
+ Maybe< Lazy< IfcSpatialStructureElement > > RequestedLocation;
+ IfcAreaMeasure::Out StandardRequiredArea;
+ };
+
+ // C++ wrapper for IfcSpatialStructureElementType
+ struct IfcSpatialStructureElementType : IfcElementType, ObjectHelper<IfcSpatialStructureElementType,0> { IfcSpatialStructureElementType() : Object("IfcSpatialStructureElementType") {}
+
+ };
+
+ // C++ wrapper for IfcSpaceType
+ struct IfcSpaceType : IfcSpatialStructureElementType, ObjectHelper<IfcSpaceType,1> { IfcSpaceType() : Object("IfcSpaceType") {}
+ IfcSpaceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSphere
+ struct IfcSphere : IfcCsgPrimitive3D, ObjectHelper<IfcSphere,1> { IfcSphere() : Object("IfcSphere") {}
+ IfcPositiveLengthMeasure::Out Radius;
+ };
+
+ // C++ wrapper for IfcStackTerminalType
+ struct IfcStackTerminalType : IfcFlowTerminalType, ObjectHelper<IfcStackTerminalType,1> { IfcStackTerminalType() : Object("IfcStackTerminalType") {}
+ IfcStackTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcStair
+ struct IfcStair : IfcBuildingElement, ObjectHelper<IfcStair,1> { IfcStair() : Object("IfcStair") {}
+ IfcStairTypeEnum::Out ShapeType;
+ };
+
+ // C++ wrapper for IfcStairFlight
+ struct IfcStairFlight : IfcBuildingElement, ObjectHelper<IfcStairFlight,4> { IfcStairFlight() : Object("IfcStairFlight") {}
+ Maybe< INTEGER::Out > NumberOfRiser;
+ Maybe< INTEGER::Out > NumberOfTreads;
+ Maybe< IfcPositiveLengthMeasure::Out > RiserHeight;
+ Maybe< IfcPositiveLengthMeasure::Out > TreadLength;
+ };
+
+ // C++ wrapper for IfcStairFlightType
+ struct IfcStairFlightType : IfcBuildingElementType, ObjectHelper<IfcStairFlightType,1> { IfcStairFlightType() : Object("IfcStairFlightType") {}
+ IfcStairFlightTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcStructuralActivity
+ struct IfcStructuralActivity : IfcProduct, ObjectHelper<IfcStructuralActivity,2> { IfcStructuralActivity() : Object("IfcStructuralActivity") {}
+ Lazy< NotImplemented > AppliedLoad;
+ IfcGlobalOrLocalEnum::Out GlobalOrLocal;
+ };
+
+ // C++ wrapper for IfcStructuralAction
+ struct IfcStructuralAction : IfcStructuralActivity, ObjectHelper<IfcStructuralAction,2> { IfcStructuralAction() : Object("IfcStructuralAction") {}
+ BOOLEAN::Out DestabilizingLoad;
+ Maybe< Lazy< IfcStructuralReaction > > CausedBy;
+ };
+
+ // C++ wrapper for IfcStructuralAnalysisModel
+ struct IfcStructuralAnalysisModel : IfcSystem, ObjectHelper<IfcStructuralAnalysisModel,4> { IfcStructuralAnalysisModel() : Object("IfcStructuralAnalysisModel") {}
+ IfcAnalysisModelTypeEnum::Out PredefinedType;
+ Maybe< Lazy< IfcAxis2Placement3D > > OrientationOf2DPlane;
+ Maybe< ListOf< Lazy< IfcStructuralLoadGroup >, 1, 0 > > LoadedBy;
+ Maybe< ListOf< Lazy< IfcStructuralResultGroup >, 1, 0 > > HasResults;
+ };
+
+ // C++ wrapper for IfcStructuralItem
+ struct IfcStructuralItem : IfcProduct, ObjectHelper<IfcStructuralItem,0> { IfcStructuralItem() : Object("IfcStructuralItem") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralConnection
+ struct IfcStructuralConnection : IfcStructuralItem, ObjectHelper<IfcStructuralConnection,1> { IfcStructuralConnection() : Object("IfcStructuralConnection") {}
+ Maybe< Lazy< NotImplemented > > AppliedCondition;
+ };
+
+ // C++ wrapper for IfcStructuralCurveConnection
+ struct IfcStructuralCurveConnection : IfcStructuralConnection, ObjectHelper<IfcStructuralCurveConnection,0> { IfcStructuralCurveConnection() : Object("IfcStructuralCurveConnection") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralMember
+ struct IfcStructuralMember : IfcStructuralItem, ObjectHelper<IfcStructuralMember,0> { IfcStructuralMember() : Object("IfcStructuralMember") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralCurveMember
+ struct IfcStructuralCurveMember : IfcStructuralMember, ObjectHelper<IfcStructuralCurveMember,1> { IfcStructuralCurveMember() : Object("IfcStructuralCurveMember") {}
+ IfcStructuralCurveTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcStructuralCurveMemberVarying
+ struct IfcStructuralCurveMemberVarying : IfcStructuralCurveMember, ObjectHelper<IfcStructuralCurveMemberVarying,0> { IfcStructuralCurveMemberVarying() : Object("IfcStructuralCurveMemberVarying") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralLinearAction
+ struct IfcStructuralLinearAction : IfcStructuralAction, ObjectHelper<IfcStructuralLinearAction,1> { IfcStructuralLinearAction() : Object("IfcStructuralLinearAction") {}
+ IfcProjectedOrTrueLengthEnum::Out ProjectedOrTrue;
+ };
+
+ // C++ wrapper for IfcStructuralLinearActionVarying
+ struct IfcStructuralLinearActionVarying : IfcStructuralLinearAction, ObjectHelper<IfcStructuralLinearActionVarying,2> { IfcStructuralLinearActionVarying() : Object("IfcStructuralLinearActionVarying") {}
+ Lazy< NotImplemented > VaryingAppliedLoadLocation;
+ ListOf< Lazy< NotImplemented >, 1, 0 > SubsequentAppliedLoads;
+ };
+
+ // C++ wrapper for IfcStructuralLoadGroup
+ struct IfcStructuralLoadGroup : IfcGroup, ObjectHelper<IfcStructuralLoadGroup,5> { IfcStructuralLoadGroup() : Object("IfcStructuralLoadGroup") {}
+ IfcLoadGroupTypeEnum::Out PredefinedType;
+ IfcActionTypeEnum::Out ActionType;
+ IfcActionSourceTypeEnum::Out ActionSource;
+ Maybe< IfcPositiveRatioMeasure::Out > Coefficient;
+ Maybe< IfcLabel::Out > Purpose;
+ };
+
+ // C++ wrapper for IfcStructuralPlanarAction
+ struct IfcStructuralPlanarAction : IfcStructuralAction, ObjectHelper<IfcStructuralPlanarAction,1> { IfcStructuralPlanarAction() : Object("IfcStructuralPlanarAction") {}
+ IfcProjectedOrTrueLengthEnum::Out ProjectedOrTrue;
+ };
+
+ // C++ wrapper for IfcStructuralPlanarActionVarying
+ struct IfcStructuralPlanarActionVarying : IfcStructuralPlanarAction, ObjectHelper<IfcStructuralPlanarActionVarying,2> { IfcStructuralPlanarActionVarying() : Object("IfcStructuralPlanarActionVarying") {}
+ Lazy< NotImplemented > VaryingAppliedLoadLocation;
+ ListOf< Lazy< NotImplemented >, 2, 0 > SubsequentAppliedLoads;
+ };
+
+ // C++ wrapper for IfcStructuralPointAction
+ struct IfcStructuralPointAction : IfcStructuralAction, ObjectHelper<IfcStructuralPointAction,0> { IfcStructuralPointAction() : Object("IfcStructuralPointAction") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralPointConnection
+ struct IfcStructuralPointConnection : IfcStructuralConnection, ObjectHelper<IfcStructuralPointConnection,0> { IfcStructuralPointConnection() : Object("IfcStructuralPointConnection") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralReaction
+ struct IfcStructuralReaction : IfcStructuralActivity, ObjectHelper<IfcStructuralReaction,0> { IfcStructuralReaction() : Object("IfcStructuralReaction") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralPointReaction
+ struct IfcStructuralPointReaction : IfcStructuralReaction, ObjectHelper<IfcStructuralPointReaction,0> { IfcStructuralPointReaction() : Object("IfcStructuralPointReaction") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralResultGroup
+ struct IfcStructuralResultGroup : IfcGroup, ObjectHelper<IfcStructuralResultGroup,3> { IfcStructuralResultGroup() : Object("IfcStructuralResultGroup") {}
+ IfcAnalysisTheoryTypeEnum::Out TheoryType;
+ Maybe< Lazy< IfcStructuralLoadGroup > > ResultForLoadGroup;
+ BOOLEAN::Out IsLinear;
+ };
+
+ // C++ wrapper for IfcStructuralSurfaceConnection
+ struct IfcStructuralSurfaceConnection : IfcStructuralConnection, ObjectHelper<IfcStructuralSurfaceConnection,0> { IfcStructuralSurfaceConnection() : Object("IfcStructuralSurfaceConnection") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralSurfaceMember
+ struct IfcStructuralSurfaceMember : IfcStructuralMember, ObjectHelper<IfcStructuralSurfaceMember,2> { IfcStructuralSurfaceMember() : Object("IfcStructuralSurfaceMember") {}
+ IfcStructuralSurfaceTypeEnum::Out PredefinedType;
+ Maybe< IfcPositiveLengthMeasure::Out > Thickness;
+ };
+
+ // C++ wrapper for IfcStructuralSurfaceMemberVarying
+ struct IfcStructuralSurfaceMemberVarying : IfcStructuralSurfaceMember, ObjectHelper<IfcStructuralSurfaceMemberVarying,2> { IfcStructuralSurfaceMemberVarying() : Object("IfcStructuralSurfaceMemberVarying") {}
+ ListOf< IfcPositiveLengthMeasure, 2, 0 >::Out SubsequentThickness;
+ Lazy< NotImplemented > VaryingThicknessLocation;
+ };
+
+ // C++ wrapper for IfcStructuredDimensionCallout
+ struct IfcStructuredDimensionCallout : IfcDraughtingCallout, ObjectHelper<IfcStructuredDimensionCallout,0> { IfcStructuredDimensionCallout() : Object("IfcStructuredDimensionCallout") {}
+
+ };
+
+ // C++ wrapper for IfcStyleModel
+ struct IfcStyleModel : IfcRepresentation, ObjectHelper<IfcStyleModel,0> { IfcStyleModel() : Object("IfcStyleModel") {}
+
+ };
+
+ // C++ wrapper for IfcStyledRepresentation
+ struct IfcStyledRepresentation : IfcStyleModel, ObjectHelper<IfcStyledRepresentation,0> { IfcStyledRepresentation() : Object("IfcStyledRepresentation") {}
+
+ };
+
+ // C++ wrapper for IfcSubContractResource
+ struct IfcSubContractResource : IfcConstructionResource, ObjectHelper<IfcSubContractResource,2> { IfcSubContractResource() : Object("IfcSubContractResource") {}
+ Maybe< IfcActorSelect::Out > SubContractor;
+ Maybe< IfcText::Out > JobDescription;
+ };
+
+ // C++ wrapper for IfcSubedge
+ struct IfcSubedge : IfcEdge, ObjectHelper<IfcSubedge,1> { IfcSubedge() : Object("IfcSubedge") {}
+ Lazy< IfcEdge > ParentEdge;
+ };
+
+ // C++ wrapper for IfcSurfaceCurveSweptAreaSolid
+ struct IfcSurfaceCurveSweptAreaSolid : IfcSweptAreaSolid, ObjectHelper<IfcSurfaceCurveSweptAreaSolid,4> { IfcSurfaceCurveSweptAreaSolid() : Object("IfcSurfaceCurveSweptAreaSolid") {}
+ Lazy< IfcCurve > Directrix;
+ IfcParameterValue::Out StartParam;
+ IfcParameterValue::Out EndParam;
+ Lazy< IfcSurface > ReferenceSurface;
+ };
+
+ // C++ wrapper for IfcSweptSurface
+ struct IfcSweptSurface : IfcSurface, ObjectHelper<IfcSweptSurface,2> { IfcSweptSurface() : Object("IfcSweptSurface") {}
+ Lazy< IfcProfileDef > SweptCurve;
+ Lazy< IfcAxis2Placement3D > Position;
+ };
+
+ // C++ wrapper for IfcSurfaceOfLinearExtrusion
+ struct IfcSurfaceOfLinearExtrusion : IfcSweptSurface, ObjectHelper<IfcSurfaceOfLinearExtrusion,2> { IfcSurfaceOfLinearExtrusion() : Object("IfcSurfaceOfLinearExtrusion") {}
+ Lazy< IfcDirection > ExtrudedDirection;
+ IfcLengthMeasure::Out Depth;
+ };
+
+ // C++ wrapper for IfcSurfaceOfRevolution
+ struct IfcSurfaceOfRevolution : IfcSweptSurface, ObjectHelper<IfcSurfaceOfRevolution,1> { IfcSurfaceOfRevolution() : Object("IfcSurfaceOfRevolution") {}
+ Lazy< IfcAxis1Placement > AxisPosition;
+ };
+
+ // C++ wrapper for IfcSurfaceStyle
+ struct IfcSurfaceStyle : IfcPresentationStyle, ObjectHelper<IfcSurfaceStyle,2> { IfcSurfaceStyle() : Object("IfcSurfaceStyle") {}
+ IfcSurfaceSide::Out Side;
+ ListOf< IfcSurfaceStyleElementSelect, 1, 5 >::Out Styles;
+ };
+
+ // C++ wrapper for IfcSurfaceStyleShading
+ struct IfcSurfaceStyleShading : ObjectHelper<IfcSurfaceStyleShading,1> { IfcSurfaceStyleShading() : Object("IfcSurfaceStyleShading") {}
+ Lazy< IfcColourRgb > SurfaceColour;
+ };
+
+ // C++ wrapper for IfcSurfaceStyleRendering
+ struct IfcSurfaceStyleRendering : IfcSurfaceStyleShading, ObjectHelper<IfcSurfaceStyleRendering,8> { IfcSurfaceStyleRendering() : Object("IfcSurfaceStyleRendering") {}
+ Maybe< IfcNormalisedRatioMeasure::Out > Transparency;
+ Maybe< IfcColourOrFactor::Out > DiffuseColour;
+ Maybe< IfcColourOrFactor::Out > TransmissionColour;
+ Maybe< IfcColourOrFactor::Out > DiffuseTransmissionColour;
+ Maybe< IfcColourOrFactor::Out > ReflectionColour;
+ Maybe< IfcColourOrFactor::Out > SpecularColour;
+ Maybe< IfcSpecularHighlightSelect::Out > SpecularHighlight;
+ IfcReflectanceMethodEnum::Out ReflectanceMethod;
+ };
+
+ // C++ wrapper for IfcSurfaceStyleWithTextures
+ struct IfcSurfaceStyleWithTextures : ObjectHelper<IfcSurfaceStyleWithTextures,1> { IfcSurfaceStyleWithTextures() : Object("IfcSurfaceStyleWithTextures") {}
+ ListOf< Lazy< NotImplemented >, 1, 0 > Textures;
+ };
+
+ // C++ wrapper for IfcSweptDiskSolid
+ struct IfcSweptDiskSolid : IfcSolidModel, ObjectHelper<IfcSweptDiskSolid,5> { IfcSweptDiskSolid() : Object("IfcSweptDiskSolid") {}
+ Lazy< IfcCurve > Directrix;
+ IfcPositiveLengthMeasure::Out Radius;
+ Maybe< IfcPositiveLengthMeasure::Out > InnerRadius;
+ IfcParameterValue::Out StartParam;
+ IfcParameterValue::Out EndParam;
+ };
+
+ // C++ wrapper for IfcSwitchingDeviceType
+ struct IfcSwitchingDeviceType : IfcFlowControllerType, ObjectHelper<IfcSwitchingDeviceType,1> { IfcSwitchingDeviceType() : Object("IfcSwitchingDeviceType") {}
+ IfcSwitchingDeviceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSystemFurnitureElementType
+ struct IfcSystemFurnitureElementType : IfcFurnishingElementType, ObjectHelper<IfcSystemFurnitureElementType,0> { IfcSystemFurnitureElementType() : Object("IfcSystemFurnitureElementType") {}
+
+ };
+
+ // C++ wrapper for IfcTShapeProfileDef
+ struct IfcTShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcTShapeProfileDef,10> { IfcTShapeProfileDef() : Object("IfcTShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out Depth;
+ IfcPositiveLengthMeasure::Out FlangeWidth;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out FlangeThickness;
+ Maybe< IfcPositiveLengthMeasure::Out > FilletRadius;
+ Maybe< IfcPositiveLengthMeasure::Out > FlangeEdgeRadius;
+ Maybe< IfcPositiveLengthMeasure::Out > WebEdgeRadius;
+ Maybe< IfcPlaneAngleMeasure::Out > WebSlope;
+ Maybe< IfcPlaneAngleMeasure::Out > FlangeSlope;
+ Maybe< IfcPositiveLengthMeasure::Out > CentreOfGravityInY;
+ };
+
+ // C++ wrapper for IfcTankType
+ struct IfcTankType : IfcFlowStorageDeviceType, ObjectHelper<IfcTankType,1> { IfcTankType() : Object("IfcTankType") {}
+ IfcTankTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcTendon
+ struct IfcTendon : IfcReinforcingElement, ObjectHelper<IfcTendon,8> { IfcTendon() : Object("IfcTendon") {}
+ IfcTendonTypeEnum::Out PredefinedType;
+ IfcPositiveLengthMeasure::Out NominalDiameter;
+ IfcAreaMeasure::Out CrossSectionArea;
+ Maybe< IfcForceMeasure::Out > TensionForce;
+ Maybe< IfcPressureMeasure::Out > PreStress;
+ Maybe< IfcNormalisedRatioMeasure::Out > FrictionCoefficient;
+ Maybe< IfcPositiveLengthMeasure::Out > AnchorageSlip;
+ Maybe< IfcPositiveLengthMeasure::Out > MinCurvatureRadius;
+ };
+
+ // C++ wrapper for IfcTendonAnchor
+ struct IfcTendonAnchor : IfcReinforcingElement, ObjectHelper<IfcTendonAnchor,0> { IfcTendonAnchor() : Object("IfcTendonAnchor") {}
+
+ };
+
+ // C++ wrapper for IfcTextLiteral
+ struct IfcTextLiteral : IfcGeometricRepresentationItem, ObjectHelper<IfcTextLiteral,3> { IfcTextLiteral() : Object("IfcTextLiteral") {}
+ IfcPresentableText::Out Literal;
+ IfcAxis2Placement::Out Placement;
+ IfcTextPath::Out Path;
+ };
+
+ // C++ wrapper for IfcTextLiteralWithExtent
+ struct IfcTextLiteralWithExtent : IfcTextLiteral, ObjectHelper<IfcTextLiteralWithExtent,2> { IfcTextLiteralWithExtent() : Object("IfcTextLiteralWithExtent") {}
+ Lazy< IfcPlanarExtent > Extent;
+ IfcBoxAlignment::Out BoxAlignment;
+ };
+
+ // C++ wrapper for IfcTimeSeriesSchedule
+ struct IfcTimeSeriesSchedule : IfcControl, ObjectHelper<IfcTimeSeriesSchedule,3> { IfcTimeSeriesSchedule() : Object("IfcTimeSeriesSchedule") {}
+ Maybe< ListOf< IfcDateTimeSelect, 1, 0 >::Out > ApplicableDates;
+ IfcTimeSeriesScheduleTypeEnum::Out TimeSeriesScheduleType;
+ Lazy< NotImplemented > TimeSeries;
+ };
+
+ // C++ wrapper for IfcTopologyRepresentation
+ struct IfcTopologyRepresentation : IfcShapeModel, ObjectHelper<IfcTopologyRepresentation,0> { IfcTopologyRepresentation() : Object("IfcTopologyRepresentation") {}
+
+ };
+
+ // C++ wrapper for IfcTransformerType
+ struct IfcTransformerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcTransformerType,1> { IfcTransformerType() : Object("IfcTransformerType") {}
+ IfcTransformerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcTransportElement
+ struct IfcTransportElement : IfcElement, ObjectHelper<IfcTransportElement,3> { IfcTransportElement() : Object("IfcTransportElement") {}
+ Maybe< IfcTransportElementTypeEnum::Out > OperationType;
+ Maybe< IfcMassMeasure::Out > CapacityByWeight;
+ Maybe< IfcCountMeasure::Out > CapacityByNumber;
+ };
+
+ // C++ wrapper for IfcTransportElementType
+ struct IfcTransportElementType : IfcElementType, ObjectHelper<IfcTransportElementType,1> { IfcTransportElementType() : Object("IfcTransportElementType") {}
+ IfcTransportElementTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcTrapeziumProfileDef
+ struct IfcTrapeziumProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcTrapeziumProfileDef,4> { IfcTrapeziumProfileDef() : Object("IfcTrapeziumProfileDef") {}
+ IfcPositiveLengthMeasure::Out BottomXDim;
+ IfcPositiveLengthMeasure::Out TopXDim;
+ IfcPositiveLengthMeasure::Out YDim;
+ IfcLengthMeasure::Out TopXOffset;
+ };
+
+ // C++ wrapper for IfcTrimmedCurve
+ struct IfcTrimmedCurve : IfcBoundedCurve, ObjectHelper<IfcTrimmedCurve,5> { IfcTrimmedCurve() : Object("IfcTrimmedCurve") {}
+ Lazy< IfcCurve > BasisCurve;
+ ListOf< IfcTrimmingSelect, 1, 2 >::Out Trim1;
+ ListOf< IfcTrimmingSelect, 1, 2 >::Out Trim2;
+ BOOLEAN::Out SenseAgreement;
+ IfcTrimmingPreference::Out MasterRepresentation;
+ };
+
+ // C++ wrapper for IfcTubeBundleType
+ struct IfcTubeBundleType : IfcEnergyConversionDeviceType, ObjectHelper<IfcTubeBundleType,1> { IfcTubeBundleType() : Object("IfcTubeBundleType") {}
+ IfcTubeBundleTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcTwoDirectionRepeatFactor
+ struct IfcTwoDirectionRepeatFactor : IfcOneDirectionRepeatFactor, ObjectHelper<IfcTwoDirectionRepeatFactor,1> { IfcTwoDirectionRepeatFactor() : Object("IfcTwoDirectionRepeatFactor") {}
+ Lazy< IfcVector > SecondRepeatFactor;
+ };
+
+ // C++ wrapper for IfcUShapeProfileDef
+ struct IfcUShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcUShapeProfileDef,8> { IfcUShapeProfileDef() : Object("IfcUShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out Depth;
+ IfcPositiveLengthMeasure::Out FlangeWidth;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out FlangeThickness;
+ Maybe< IfcPositiveLengthMeasure::Out > FilletRadius;
+ Maybe< IfcPositiveLengthMeasure::Out > EdgeRadius;
+ Maybe< IfcPlaneAngleMeasure::Out > FlangeSlope;
+ Maybe< IfcPositiveLengthMeasure::Out > CentreOfGravityInX;
+ };
+
+ // C++ wrapper for IfcUnitAssignment
+ struct IfcUnitAssignment : ObjectHelper<IfcUnitAssignment,1> { IfcUnitAssignment() : Object("IfcUnitAssignment") {}
+ ListOf< IfcUnit, 1, 0 >::Out Units;
+ };
+
+ // C++ wrapper for IfcUnitaryEquipmentType
+ struct IfcUnitaryEquipmentType : IfcEnergyConversionDeviceType, ObjectHelper<IfcUnitaryEquipmentType,1> { IfcUnitaryEquipmentType() : Object("IfcUnitaryEquipmentType") {}
+ IfcUnitaryEquipmentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcValveType
+ struct IfcValveType : IfcFlowControllerType, ObjectHelper<IfcValveType,1> { IfcValveType() : Object("IfcValveType") {}
+ IfcValveTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcVector
+ struct IfcVector : IfcGeometricRepresentationItem, ObjectHelper<IfcVector,2> { IfcVector() : Object("IfcVector") {}
+ Lazy< IfcDirection > Orientation;
+ IfcLengthMeasure::Out Magnitude;
+ };
+
+ // C++ wrapper for IfcVertex
+ struct IfcVertex : IfcTopologicalRepresentationItem, ObjectHelper<IfcVertex,0> { IfcVertex() : Object("IfcVertex") {}
+
+ };
+
+ // C++ wrapper for IfcVertexLoop
+ struct IfcVertexLoop : IfcLoop, ObjectHelper<IfcVertexLoop,1> { IfcVertexLoop() : Object("IfcVertexLoop") {}
+ Lazy< IfcVertex > LoopVertex;
+ };
+
+ // C++ wrapper for IfcVertexPoint
+ struct IfcVertexPoint : IfcVertex, ObjectHelper<IfcVertexPoint,1> { IfcVertexPoint() : Object("IfcVertexPoint") {}
+ Lazy< IfcPoint > VertexGeometry;
+ };
+
+ // C++ wrapper for IfcVibrationIsolatorType
+ struct IfcVibrationIsolatorType : IfcDiscreteAccessoryType, ObjectHelper<IfcVibrationIsolatorType,1> { IfcVibrationIsolatorType() : Object("IfcVibrationIsolatorType") {}
+ IfcVibrationIsolatorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcVirtualElement
+ struct IfcVirtualElement : IfcElement, ObjectHelper<IfcVirtualElement,0> { IfcVirtualElement() : Object("IfcVirtualElement") {}
+
+ };
+
+ // C++ wrapper for IfcWall
+ struct IfcWall : IfcBuildingElement, ObjectHelper<IfcWall,0> { IfcWall() : Object("IfcWall") {}
+
+ };
+
+ // C++ wrapper for IfcWallStandardCase
+ struct IfcWallStandardCase : IfcWall, ObjectHelper<IfcWallStandardCase,0> { IfcWallStandardCase() : Object("IfcWallStandardCase") {}
+
+ };
+
+ // C++ wrapper for IfcWallType
+ struct IfcWallType : IfcBuildingElementType, ObjectHelper<IfcWallType,1> { IfcWallType() : Object("IfcWallType") {}
+ IfcWallTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcWasteTerminalType
+ struct IfcWasteTerminalType : IfcFlowTerminalType, ObjectHelper<IfcWasteTerminalType,1> { IfcWasteTerminalType() : Object("IfcWasteTerminalType") {}
+ IfcWasteTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcWindow
+ struct IfcWindow : IfcBuildingElement, ObjectHelper<IfcWindow,2> { IfcWindow() : Object("IfcWindow") {}
+ Maybe< IfcPositiveLengthMeasure::Out > OverallHeight;
+ Maybe< IfcPositiveLengthMeasure::Out > OverallWidth;
+ };
+
+ // C++ wrapper for IfcWindowStyle
+ struct IfcWindowStyle : IfcTypeProduct, ObjectHelper<IfcWindowStyle,4> { IfcWindowStyle() : Object("IfcWindowStyle") {}
+ IfcWindowStyleConstructionEnum::Out ConstructionType;
+ IfcWindowStyleOperationEnum::Out OperationType;
+ BOOLEAN::Out ParameterTakesPrecedence;
+ BOOLEAN::Out Sizeable;
+ };
+
+ // C++ wrapper for IfcWorkControl
+ struct IfcWorkControl : IfcControl, ObjectHelper<IfcWorkControl,10> { IfcWorkControl() : Object("IfcWorkControl") {}
+ IfcIdentifier::Out Identifier;
+ IfcDateTimeSelect::Out CreationDate;
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > Creators;
+ Maybe< IfcLabel::Out > Purpose;
+ Maybe< IfcTimeMeasure::Out > Duration;
+ Maybe< IfcTimeMeasure::Out > TotalFloat;
+ IfcDateTimeSelect::Out StartTime;
+ Maybe< IfcDateTimeSelect::Out > FinishTime;
+ Maybe< IfcWorkControlTypeEnum::Out > WorkControlType;
+ Maybe< IfcLabel::Out > UserDefinedControlType;
+ };
+
+ // C++ wrapper for IfcWorkPlan
+ struct IfcWorkPlan : IfcWorkControl, ObjectHelper<IfcWorkPlan,0> { IfcWorkPlan() : Object("IfcWorkPlan") {}
+
+ };
+
+ // C++ wrapper for IfcWorkSchedule
+ struct IfcWorkSchedule : IfcWorkControl, ObjectHelper<IfcWorkSchedule,0> { IfcWorkSchedule() : Object("IfcWorkSchedule") {}
+
+ };
+
+ // C++ wrapper for IfcZShapeProfileDef
+ struct IfcZShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcZShapeProfileDef,6> { IfcZShapeProfileDef() : Object("IfcZShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out Depth;
+ IfcPositiveLengthMeasure::Out FlangeWidth;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out FlangeThickness;
+ Maybe< IfcPositiveLengthMeasure::Out > FilletRadius;
+ Maybe< IfcPositiveLengthMeasure::Out > EdgeRadius;
+ };
+
+ // C++ wrapper for IfcZone
+ struct IfcZone : IfcGroup, ObjectHelper<IfcZone,0> { IfcZone() : Object("IfcZone") {}
+
+ };
+
+ void GetSchema(EXPRESS::ConversionSchema& out);
+ } //! Schema_2x3
+} //! IFC
+
+namespace STEP {
+
+ // ******************************************************************************
+ // Converter stubs
+ // ******************************************************************************
+
+#define DECL_CONV_STUB(type) template <> size_t GenericFill<IFC::Schema_2x3::type>(const STEP::DB& db, const EXPRESS::LIST& params, IFC::Schema_2x3::type* in)
+
+ DECL_CONV_STUB(IfcRepresentationItem);
+ DECL_CONV_STUB(IfcGeometricRepresentationItem);
+ DECL_CONV_STUB(IfcCurve);
+ DECL_CONV_STUB(IfcBoundedCurve);
+ DECL_CONV_STUB(IfcCompositeCurve);
+ DECL_CONV_STUB(Ifc2DCompositeCurve);
+ DECL_CONV_STUB(IfcRoot);
+ DECL_CONV_STUB(IfcObjectDefinition);
+ DECL_CONV_STUB(IfcObject);
+ DECL_CONV_STUB(IfcControl);
+ DECL_CONV_STUB(IfcActionRequest);
+ DECL_CONV_STUB(IfcActor);
+ DECL_CONV_STUB(IfcTypeObject);
+ DECL_CONV_STUB(IfcTypeProduct);
+ DECL_CONV_STUB(IfcElementType);
+ DECL_CONV_STUB(IfcDistributionElementType);
+ DECL_CONV_STUB(IfcDistributionControlElementType);
+ DECL_CONV_STUB(IfcActuatorType);
+ DECL_CONV_STUB(IfcDistributionFlowElementType);
+ DECL_CONV_STUB(IfcFlowControllerType);
+ DECL_CONV_STUB(IfcAirTerminalBoxType);
+ DECL_CONV_STUB(IfcFlowTerminalType);
+ DECL_CONV_STUB(IfcAirTerminalType);
+ DECL_CONV_STUB(IfcEnergyConversionDeviceType);
+ DECL_CONV_STUB(IfcAirToAirHeatRecoveryType);
+ DECL_CONV_STUB(IfcAlarmType);
+ DECL_CONV_STUB(IfcDraughtingCallout);
+ DECL_CONV_STUB(IfcDimensionCurveDirectedCallout);
+ DECL_CONV_STUB(IfcAngularDimension);
+ DECL_CONV_STUB(IfcProduct);
+ DECL_CONV_STUB(IfcAnnotation);
+ DECL_CONV_STUB(IfcStyledItem);
+ DECL_CONV_STUB(IfcAnnotationOccurrence);
+ DECL_CONV_STUB(IfcAnnotationCurveOccurrence);
+ DECL_CONV_STUB(IfcAnnotationFillArea);
+ DECL_CONV_STUB(IfcAnnotationFillAreaOccurrence);
+ DECL_CONV_STUB(IfcAnnotationSurface);
+ DECL_CONV_STUB(IfcAnnotationSurfaceOccurrence);
+ DECL_CONV_STUB(IfcAnnotationSymbolOccurrence);
+ DECL_CONV_STUB(IfcAnnotationTextOccurrence);
+ DECL_CONV_STUB(IfcProfileDef);
+ DECL_CONV_STUB(IfcArbitraryClosedProfileDef);
+ DECL_CONV_STUB(IfcArbitraryOpenProfileDef);
+ DECL_CONV_STUB(IfcArbitraryProfileDefWithVoids);
+ DECL_CONV_STUB(IfcGroup);
+ DECL_CONV_STUB(IfcAsset);
+ DECL_CONV_STUB(IfcParameterizedProfileDef);
+ DECL_CONV_STUB(IfcIShapeProfileDef);
+ DECL_CONV_STUB(IfcAsymmetricIShapeProfileDef);
+ DECL_CONV_STUB(IfcPlacement);
+ DECL_CONV_STUB(IfcAxis1Placement);
+ DECL_CONV_STUB(IfcAxis2Placement2D);
+ DECL_CONV_STUB(IfcAxis2Placement3D);
+ DECL_CONV_STUB(IfcBSplineCurve);
+ DECL_CONV_STUB(IfcElement);
+ DECL_CONV_STUB(IfcBuildingElement);
+ DECL_CONV_STUB(IfcBeam);
+ DECL_CONV_STUB(IfcBuildingElementType);
+ DECL_CONV_STUB(IfcBeamType);
+ DECL_CONV_STUB(IfcBezierCurve);
+ DECL_CONV_STUB(IfcCsgPrimitive3D);
+ DECL_CONV_STUB(IfcBlock);
+ DECL_CONV_STUB(IfcBoilerType);
+ DECL_CONV_STUB(IfcBooleanResult);
+ DECL_CONV_STUB(IfcBooleanClippingResult);
+ DECL_CONV_STUB(IfcSurface);
+ DECL_CONV_STUB(IfcBoundedSurface);
+ DECL_CONV_STUB(IfcBoundingBox);
+ DECL_CONV_STUB(IfcHalfSpaceSolid);
+ DECL_CONV_STUB(IfcBoxedHalfSpace);
+ DECL_CONV_STUB(IfcSpatialStructureElement);
+ DECL_CONV_STUB(IfcBuilding);
+ DECL_CONV_STUB(IfcBuildingElementComponent);
+ DECL_CONV_STUB(IfcBuildingElementPart);
+ DECL_CONV_STUB(IfcBuildingElementProxy);
+ DECL_CONV_STUB(IfcBuildingElementProxyType);
+ DECL_CONV_STUB(IfcBuildingStorey);
+ DECL_CONV_STUB(IfcCShapeProfileDef);
+ DECL_CONV_STUB(IfcFlowFittingType);
+ DECL_CONV_STUB(IfcCableCarrierFittingType);
+ DECL_CONV_STUB(IfcFlowSegmentType);
+ DECL_CONV_STUB(IfcCableCarrierSegmentType);
+ DECL_CONV_STUB(IfcCableSegmentType);
+ DECL_CONV_STUB(IfcPoint);
+ DECL_CONV_STUB(IfcCartesianPoint);
+ DECL_CONV_STUB(IfcCartesianTransformationOperator);
+ DECL_CONV_STUB(IfcCartesianTransformationOperator2D);
+ DECL_CONV_STUB(IfcCartesianTransformationOperator2DnonUniform);
+ DECL_CONV_STUB(IfcCartesianTransformationOperator3D);
+ DECL_CONV_STUB(IfcCartesianTransformationOperator3DnonUniform);
+ DECL_CONV_STUB(IfcCenterLineProfileDef);
+ DECL_CONV_STUB(IfcFeatureElement);
+ DECL_CONV_STUB(IfcFeatureElementSubtraction);
+ DECL_CONV_STUB(IfcEdgeFeature);
+ DECL_CONV_STUB(IfcChamferEdgeFeature);
+ DECL_CONV_STUB(IfcChillerType);
+ DECL_CONV_STUB(IfcConic);
+ DECL_CONV_STUB(IfcCircle);
+ DECL_CONV_STUB(IfcCircleProfileDef);
+ DECL_CONV_STUB(IfcCircleHollowProfileDef);
+ DECL_CONV_STUB(IfcTopologicalRepresentationItem);
+ DECL_CONV_STUB(IfcConnectedFaceSet);
+ DECL_CONV_STUB(IfcClosedShell);
+ DECL_CONV_STUB(IfcCoilType);
+ DECL_CONV_STUB(IfcColourSpecification);
+ DECL_CONV_STUB(IfcColourRgb);
+ DECL_CONV_STUB(IfcColumn);
+ DECL_CONV_STUB(IfcColumnType);
+ DECL_CONV_STUB(IfcProperty);
+ DECL_CONV_STUB(IfcComplexProperty);
+ DECL_CONV_STUB(IfcCompositeCurveSegment);
+ DECL_CONV_STUB(IfcCompositeProfileDef);
+ DECL_CONV_STUB(IfcFlowMovingDeviceType);
+ DECL_CONV_STUB(IfcCompressorType);
+ DECL_CONV_STUB(IfcCondenserType);
+ DECL_CONV_STUB(IfcCondition);
+ DECL_CONV_STUB(IfcConditionCriterion);
+ DECL_CONV_STUB(IfcResource);
+ DECL_CONV_STUB(IfcConstructionResource);
+ DECL_CONV_STUB(IfcConstructionEquipmentResource);
+ DECL_CONV_STUB(IfcConstructionMaterialResource);
+ DECL_CONV_STUB(IfcConstructionProductResource);
+ DECL_CONV_STUB(IfcNamedUnit);
+ DECL_CONV_STUB(IfcContextDependentUnit);
+ DECL_CONV_STUB(IfcControllerType);
+ DECL_CONV_STUB(IfcConversionBasedUnit);
+ DECL_CONV_STUB(IfcCooledBeamType);
+ DECL_CONV_STUB(IfcCoolingTowerType);
+ DECL_CONV_STUB(IfcCostItem);
+ DECL_CONV_STUB(IfcCostSchedule);
+ DECL_CONV_STUB(IfcCovering);
+ DECL_CONV_STUB(IfcCoveringType);
+ DECL_CONV_STUB(IfcCraneRailAShapeProfileDef);
+ DECL_CONV_STUB(IfcCraneRailFShapeProfileDef);
+ DECL_CONV_STUB(IfcCrewResource);
+ DECL_CONV_STUB(IfcSolidModel);
+ DECL_CONV_STUB(IfcCsgSolid);
+ DECL_CONV_STUB(IfcCurtainWall);
+ DECL_CONV_STUB(IfcCurtainWallType);
+ DECL_CONV_STUB(IfcCurveBoundedPlane);
+ DECL_CONV_STUB(IfcPresentationStyle);
+ DECL_CONV_STUB(IfcDamperType);
+ DECL_CONV_STUB(IfcDefinedSymbol);
+ DECL_CONV_STUB(IfcDerivedProfileDef);
+ DECL_CONV_STUB(IfcDiameterDimension);
+ DECL_CONV_STUB(IfcDimensionCurve);
+ DECL_CONV_STUB(IfcTerminatorSymbol);
+ DECL_CONV_STUB(IfcDimensionCurveTerminator);
+ DECL_CONV_STUB(IfcDirection);
+ DECL_CONV_STUB(IfcElementComponent);
+ DECL_CONV_STUB(IfcDiscreteAccessory);
+ DECL_CONV_STUB(IfcElementComponentType);
+ DECL_CONV_STUB(IfcDiscreteAccessoryType);
+ DECL_CONV_STUB(IfcDistributionElement);
+ DECL_CONV_STUB(IfcDistributionFlowElement);
+ DECL_CONV_STUB(IfcDistributionChamberElement);
+ DECL_CONV_STUB(IfcDistributionChamberElementType);
+ DECL_CONV_STUB(IfcDistributionControlElement);
+ DECL_CONV_STUB(IfcPort);
+ DECL_CONV_STUB(IfcDistributionPort);
+ DECL_CONV_STUB(IfcDoor);
+ DECL_CONV_STUB(IfcPropertyDefinition);
+ DECL_CONV_STUB(IfcPropertySetDefinition);
+ DECL_CONV_STUB(IfcDoorStyle);
+ DECL_CONV_STUB(IfcDuctFittingType);
+ DECL_CONV_STUB(IfcDuctSegmentType);
+ DECL_CONV_STUB(IfcFlowTreatmentDeviceType);
+ DECL_CONV_STUB(IfcDuctSilencerType);
+ DECL_CONV_STUB(IfcEdge);
+ DECL_CONV_STUB(IfcEdgeCurve);
+ DECL_CONV_STUB(IfcLoop);
+ DECL_CONV_STUB(IfcEdgeLoop);
+ DECL_CONV_STUB(IfcElectricApplianceType);
+ DECL_CONV_STUB(IfcFlowController);
+ DECL_CONV_STUB(IfcElectricDistributionPoint);
+ DECL_CONV_STUB(IfcFlowStorageDeviceType);
+ DECL_CONV_STUB(IfcElectricFlowStorageDeviceType);
+ DECL_CONV_STUB(IfcElectricGeneratorType);
+ DECL_CONV_STUB(IfcElectricHeaterType);
+ DECL_CONV_STUB(IfcElectricMotorType);
+ DECL_CONV_STUB(IfcElectricTimeControlType);
+ DECL_CONV_STUB(IfcSystem);
+ DECL_CONV_STUB(IfcElectricalCircuit);
+ DECL_CONV_STUB(IfcElectricalElement);
+ DECL_CONV_STUB(IfcElementAssembly);
+ DECL_CONV_STUB(IfcElementQuantity);
+ DECL_CONV_STUB(IfcElementarySurface);
+ DECL_CONV_STUB(IfcEllipse);
+ DECL_CONV_STUB(IfcEllipseProfileDef);
+ DECL_CONV_STUB(IfcEnergyConversionDevice);
+ DECL_CONV_STUB(IfcEquipmentElement);
+ DECL_CONV_STUB(IfcEquipmentStandard);
+ DECL_CONV_STUB(IfcEvaporativeCoolerType);
+ DECL_CONV_STUB(IfcEvaporatorType);
+ DECL_CONV_STUB(IfcSweptAreaSolid);
+ DECL_CONV_STUB(IfcExtrudedAreaSolid);
+ DECL_CONV_STUB(IfcFace);
+ DECL_CONV_STUB(IfcFaceBasedSurfaceModel);
+ DECL_CONV_STUB(IfcFaceBound);
+ DECL_CONV_STUB(IfcFaceOuterBound);
+ DECL_CONV_STUB(IfcFaceSurface);
+ DECL_CONV_STUB(IfcManifoldSolidBrep);
+ DECL_CONV_STUB(IfcFacetedBrep);
+ DECL_CONV_STUB(IfcFacetedBrepWithVoids);
+ DECL_CONV_STUB(IfcFanType);
+ DECL_CONV_STUB(IfcFastener);
+ DECL_CONV_STUB(IfcFastenerType);
+ DECL_CONV_STUB(IfcFeatureElementAddition);
+ DECL_CONV_STUB(IfcFillAreaStyleHatching);
+ DECL_CONV_STUB(IfcFillAreaStyleTileSymbolWithStyle);
+ DECL_CONV_STUB(IfcFillAreaStyleTiles);
+ DECL_CONV_STUB(IfcFilterType);
+ DECL_CONV_STUB(IfcFireSuppressionTerminalType);
+ DECL_CONV_STUB(IfcFlowFitting);
+ DECL_CONV_STUB(IfcFlowInstrumentType);
+ DECL_CONV_STUB(IfcFlowMeterType);
+ DECL_CONV_STUB(IfcFlowMovingDevice);
+ DECL_CONV_STUB(IfcFlowSegment);
+ DECL_CONV_STUB(IfcFlowStorageDevice);
+ DECL_CONV_STUB(IfcFlowTerminal);
+ DECL_CONV_STUB(IfcFlowTreatmentDevice);
+ DECL_CONV_STUB(IfcFooting);
+ DECL_CONV_STUB(IfcFurnishingElement);
+ DECL_CONV_STUB(IfcFurnishingElementType);
+ DECL_CONV_STUB(IfcFurnitureStandard);
+ DECL_CONV_STUB(IfcFurnitureType);
+ DECL_CONV_STUB(IfcGasTerminalType);
+ DECL_CONV_STUB(IfcGeometricSet);
+ DECL_CONV_STUB(IfcGeometricCurveSet);
+ DECL_CONV_STUB(IfcRepresentationContext);
+ DECL_CONV_STUB(IfcGeometricRepresentationContext);
+ DECL_CONV_STUB(IfcGeometricRepresentationSubContext);
+ DECL_CONV_STUB(IfcGrid);
+ DECL_CONV_STUB(IfcObjectPlacement);
+ DECL_CONV_STUB(IfcGridPlacement);
+ DECL_CONV_STUB(IfcHeatExchangerType);
+ DECL_CONV_STUB(IfcHumidifierType);
+ DECL_CONV_STUB(IfcInventory);
+ DECL_CONV_STUB(IfcJunctionBoxType);
+ DECL_CONV_STUB(IfcLShapeProfileDef);
+ DECL_CONV_STUB(IfcLaborResource);
+ DECL_CONV_STUB(IfcLampType);
+ DECL_CONV_STUB(IfcLightFixtureType);
+ DECL_CONV_STUB(IfcLightSource);
+ DECL_CONV_STUB(IfcLightSourceAmbient);
+ DECL_CONV_STUB(IfcLightSourceDirectional);
+ DECL_CONV_STUB(IfcLightSourceGoniometric);
+ DECL_CONV_STUB(IfcLightSourcePositional);
+ DECL_CONV_STUB(IfcLightSourceSpot);
+ DECL_CONV_STUB(IfcLine);
+ DECL_CONV_STUB(IfcLinearDimension);
+ DECL_CONV_STUB(IfcLocalPlacement);
+ DECL_CONV_STUB(IfcMappedItem);
+ DECL_CONV_STUB(IfcProductRepresentation);
+ DECL_CONV_STUB(IfcMaterialDefinitionRepresentation);
+ DECL_CONV_STUB(IfcMeasureWithUnit);
+ DECL_CONV_STUB(IfcMechanicalFastener);
+ DECL_CONV_STUB(IfcMechanicalFastenerType);
+ DECL_CONV_STUB(IfcMember);
+ DECL_CONV_STUB(IfcMemberType);
+ DECL_CONV_STUB(IfcMotorConnectionType);
+ DECL_CONV_STUB(IfcProcess);
+ DECL_CONV_STUB(IfcTask);
+ DECL_CONV_STUB(IfcMove);
+ DECL_CONV_STUB(IfcOccupant);
+ DECL_CONV_STUB(IfcOffsetCurve2D);
+ DECL_CONV_STUB(IfcOffsetCurve3D);
+ DECL_CONV_STUB(IfcOneDirectionRepeatFactor);
+ DECL_CONV_STUB(IfcOpenShell);
+ DECL_CONV_STUB(IfcOpeningElement);
+ DECL_CONV_STUB(IfcOrderAction);
+ DECL_CONV_STUB(IfcOrientedEdge);
+ DECL_CONV_STUB(IfcOutletType);
+ DECL_CONV_STUB(IfcPath);
+ DECL_CONV_STUB(IfcPerformanceHistory);
+ DECL_CONV_STUB(IfcPermit);
+ DECL_CONV_STUB(IfcPile);
+ DECL_CONV_STUB(IfcPipeFittingType);
+ DECL_CONV_STUB(IfcPipeSegmentType);
+ DECL_CONV_STUB(IfcPlanarExtent);
+ DECL_CONV_STUB(IfcPlanarBox);
+ DECL_CONV_STUB(IfcPlane);
+ DECL_CONV_STUB(IfcPlate);
+ DECL_CONV_STUB(IfcPlateType);
+ DECL_CONV_STUB(IfcPointOnCurve);
+ DECL_CONV_STUB(IfcPointOnSurface);
+ DECL_CONV_STUB(IfcPolyLoop);
+ DECL_CONV_STUB(IfcPolygonalBoundedHalfSpace);
+ DECL_CONV_STUB(IfcPolyline);
+ DECL_CONV_STUB(IfcPresentationStyleAssignment);
+ DECL_CONV_STUB(IfcProcedure);
+ DECL_CONV_STUB(IfcProductDefinitionShape);
+ DECL_CONV_STUB(IfcProject);
+ DECL_CONV_STUB(IfcProjectOrder);
+ DECL_CONV_STUB(IfcProjectOrderRecord);
+ DECL_CONV_STUB(IfcProjectionCurve);
+ DECL_CONV_STUB(IfcProjectionElement);
+ DECL_CONV_STUB(IfcSimpleProperty);
+ DECL_CONV_STUB(IfcPropertyBoundedValue);
+ DECL_CONV_STUB(IfcPropertyEnumeratedValue);
+ DECL_CONV_STUB(IfcPropertyListValue);
+ DECL_CONV_STUB(IfcPropertyReferenceValue);
+ DECL_CONV_STUB(IfcPropertySet);
+ DECL_CONV_STUB(IfcPropertySingleValue);
+ DECL_CONV_STUB(IfcPropertyTableValue);
+ DECL_CONV_STUB(IfcProtectiveDeviceType);
+ DECL_CONV_STUB(IfcProxy);
+ DECL_CONV_STUB(IfcPumpType);
+ DECL_CONV_STUB(IfcRadiusDimension);
+ DECL_CONV_STUB(IfcRailing);
+ DECL_CONV_STUB(IfcRailingType);
+ DECL_CONV_STUB(IfcRamp);
+ DECL_CONV_STUB(IfcRampFlight);
+ DECL_CONV_STUB(IfcRampFlightType);
+ DECL_CONV_STUB(IfcRationalBezierCurve);
+ DECL_CONV_STUB(IfcRectangleProfileDef);
+ DECL_CONV_STUB(IfcRectangleHollowProfileDef);
+ DECL_CONV_STUB(IfcRectangularPyramid);
+ DECL_CONV_STUB(IfcRectangularTrimmedSurface);
+ DECL_CONV_STUB(IfcReinforcingElement);
+ DECL_CONV_STUB(IfcReinforcingBar);
+ DECL_CONV_STUB(IfcReinforcingMesh);
+ DECL_CONV_STUB(IfcRelationship);
+ DECL_CONV_STUB(IfcRelDecomposes);
+ DECL_CONV_STUB(IfcRelAggregates);
+ DECL_CONV_STUB(IfcRelConnects);
+ DECL_CONV_STUB(IfcRelContainedInSpatialStructure);
+ DECL_CONV_STUB(IfcRelDefines);
+ DECL_CONV_STUB(IfcRelDefinesByProperties);
+ DECL_CONV_STUB(IfcRelFillsElement);
+ DECL_CONV_STUB(IfcRelOverridesProperties);
+ DECL_CONV_STUB(IfcRelVoidsElement);
+ DECL_CONV_STUB(IfcRepresentation);
+ DECL_CONV_STUB(IfcRepresentationMap);
+ DECL_CONV_STUB(IfcRevolvedAreaSolid);
+ DECL_CONV_STUB(IfcRightCircularCone);
+ DECL_CONV_STUB(IfcRightCircularCylinder);
+ DECL_CONV_STUB(IfcRoof);
+ DECL_CONV_STUB(IfcRoundedEdgeFeature);
+ DECL_CONV_STUB(IfcRoundedRectangleProfileDef);
+ DECL_CONV_STUB(IfcSIUnit);
+ DECL_CONV_STUB(IfcSanitaryTerminalType);
+ DECL_CONV_STUB(IfcScheduleTimeControl);
+ DECL_CONV_STUB(IfcSectionedSpine);
+ DECL_CONV_STUB(IfcSensorType);
+ DECL_CONV_STUB(IfcServiceLife);
+ DECL_CONV_STUB(IfcShapeModel);
+ DECL_CONV_STUB(IfcShapeRepresentation);
+ DECL_CONV_STUB(IfcShellBasedSurfaceModel);
+ DECL_CONV_STUB(IfcSite);
+ DECL_CONV_STUB(IfcSlab);
+ DECL_CONV_STUB(IfcSlabType);
+ DECL_CONV_STUB(IfcSpace);
+ DECL_CONV_STUB(IfcSpaceHeaterType);
+ DECL_CONV_STUB(IfcSpaceProgram);
+ DECL_CONV_STUB(IfcSpatialStructureElementType);
+ DECL_CONV_STUB(IfcSpaceType);
+ DECL_CONV_STUB(IfcSphere);
+ DECL_CONV_STUB(IfcStackTerminalType);
+ DECL_CONV_STUB(IfcStair);
+ DECL_CONV_STUB(IfcStairFlight);
+ DECL_CONV_STUB(IfcStairFlightType);
+ DECL_CONV_STUB(IfcStructuralActivity);
+ DECL_CONV_STUB(IfcStructuralAction);
+ DECL_CONV_STUB(IfcStructuralAnalysisModel);
+ DECL_CONV_STUB(IfcStructuralItem);
+ DECL_CONV_STUB(IfcStructuralConnection);
+ DECL_CONV_STUB(IfcStructuralCurveConnection);
+ DECL_CONV_STUB(IfcStructuralMember);
+ DECL_CONV_STUB(IfcStructuralCurveMember);
+ DECL_CONV_STUB(IfcStructuralCurveMemberVarying);
+ DECL_CONV_STUB(IfcStructuralLinearAction);
+ DECL_CONV_STUB(IfcStructuralLinearActionVarying);
+ DECL_CONV_STUB(IfcStructuralLoadGroup);
+ DECL_CONV_STUB(IfcStructuralPlanarAction);
+ DECL_CONV_STUB(IfcStructuralPlanarActionVarying);
+ DECL_CONV_STUB(IfcStructuralPointAction);
+ DECL_CONV_STUB(IfcStructuralPointConnection);
+ DECL_CONV_STUB(IfcStructuralReaction);
+ DECL_CONV_STUB(IfcStructuralPointReaction);
+ DECL_CONV_STUB(IfcStructuralResultGroup);
+ DECL_CONV_STUB(IfcStructuralSurfaceConnection);
+ DECL_CONV_STUB(IfcStructuralSurfaceMember);
+ DECL_CONV_STUB(IfcStructuralSurfaceMemberVarying);
+ DECL_CONV_STUB(IfcStructuredDimensionCallout);
+ DECL_CONV_STUB(IfcStyleModel);
+ DECL_CONV_STUB(IfcStyledRepresentation);
+ DECL_CONV_STUB(IfcSubContractResource);
+ DECL_CONV_STUB(IfcSubedge);
+ DECL_CONV_STUB(IfcSurfaceCurveSweptAreaSolid);
+ DECL_CONV_STUB(IfcSweptSurface);
+ DECL_CONV_STUB(IfcSurfaceOfLinearExtrusion);
+ DECL_CONV_STUB(IfcSurfaceOfRevolution);
+ DECL_CONV_STUB(IfcSurfaceStyle);
+ DECL_CONV_STUB(IfcSurfaceStyleShading);
+ DECL_CONV_STUB(IfcSurfaceStyleRendering);
+ DECL_CONV_STUB(IfcSurfaceStyleWithTextures);
+ DECL_CONV_STUB(IfcSweptDiskSolid);
+ DECL_CONV_STUB(IfcSwitchingDeviceType);
+ DECL_CONV_STUB(IfcSystemFurnitureElementType);
+ DECL_CONV_STUB(IfcTShapeProfileDef);
+ DECL_CONV_STUB(IfcTankType);
+ DECL_CONV_STUB(IfcTendon);
+ DECL_CONV_STUB(IfcTendonAnchor);
+ DECL_CONV_STUB(IfcTextLiteral);
+ DECL_CONV_STUB(IfcTextLiteralWithExtent);
+ DECL_CONV_STUB(IfcTimeSeriesSchedule);
+ DECL_CONV_STUB(IfcTopologyRepresentation);
+ DECL_CONV_STUB(IfcTransformerType);
+ DECL_CONV_STUB(IfcTransportElement);
+ DECL_CONV_STUB(IfcTransportElementType);
+ DECL_CONV_STUB(IfcTrapeziumProfileDef);
+ DECL_CONV_STUB(IfcTrimmedCurve);
+ DECL_CONV_STUB(IfcTubeBundleType);
+ DECL_CONV_STUB(IfcTwoDirectionRepeatFactor);
+ DECL_CONV_STUB(IfcUShapeProfileDef);
+ DECL_CONV_STUB(IfcUnitAssignment);
+ DECL_CONV_STUB(IfcUnitaryEquipmentType);
+ DECL_CONV_STUB(IfcValveType);
+ DECL_CONV_STUB(IfcVector);
+ DECL_CONV_STUB(IfcVertex);
+ DECL_CONV_STUB(IfcVertexLoop);
+ DECL_CONV_STUB(IfcVertexPoint);
+ DECL_CONV_STUB(IfcVibrationIsolatorType);
+ DECL_CONV_STUB(IfcVirtualElement);
+ DECL_CONV_STUB(IfcWall);
+ DECL_CONV_STUB(IfcWallStandardCase);
+ DECL_CONV_STUB(IfcWallType);
+ DECL_CONV_STUB(IfcWasteTerminalType);
+ DECL_CONV_STUB(IfcWindow);
+ DECL_CONV_STUB(IfcWindowStyle);
+ DECL_CONV_STUB(IfcWorkControl);
+ DECL_CONV_STUB(IfcWorkPlan);
+ DECL_CONV_STUB(IfcWorkSchedule);
+ DECL_CONV_STUB(IfcZShapeProfileDef);
+ DECL_CONV_STUB(IfcZone);
+
+
+#undef DECL_CONV_STUB
+
+} //! STEP
+} //! Assimp
+
+#ifdef _MSC_VER
+# pragma warning(pop)
+#endif // _MSC_VER
+
+#endif // INCLUDED_IFC_READER_GEN_H
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_4.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_4.cpp
new file mode 100644
index 0000000..1793229
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_4.cpp
@@ -0,0 +1,6207 @@
+/*
+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 "AssimpPCH.h"
+#include "IFCReaderGen_4.h"
+
+namespace Assimp {
+using namespace IFC;
+using namespace ::Assimp::IFC::Schema_4;
+
+namespace {
+
+ typedef EXPRESS::ConversionSchema::SchemaEntry SchemaEntry;
+ const SchemaEntry schema_raw[] = {
+ SchemaEntry("ifcstrippedoptional",NULL )
+, SchemaEntry("ifcabsorbeddosemeasure",NULL )
+, SchemaEntry("ifcaccelerationmeasure",NULL )
+, SchemaEntry("ifcamountofsubstancemeasure",NULL )
+, SchemaEntry("ifcangularvelocitymeasure",NULL )
+, SchemaEntry("ifcarcindex",NULL )
+, SchemaEntry("ifcareadensitymeasure",NULL )
+, SchemaEntry("ifcareameasure",NULL )
+, SchemaEntry("ifcbinary",NULL )
+, SchemaEntry("ifcboolean",NULL )
+, SchemaEntry("ifcboxalignment",NULL )
+, SchemaEntry("ifccardinalpointreference",NULL )
+, SchemaEntry("ifccomplexnumber",NULL )
+, SchemaEntry("ifccompoundplaneanglemeasure",NULL )
+, SchemaEntry("ifccontextdependentmeasure",NULL )
+, SchemaEntry("ifccountmeasure",NULL )
+, SchemaEntry("ifccurvaturemeasure",NULL )
+, SchemaEntry("ifcdate",NULL )
+, SchemaEntry("ifcdatetime",NULL )
+, SchemaEntry("ifcdayinmonthnumber",NULL )
+, SchemaEntry("ifcdayinweeknumber",NULL )
+, SchemaEntry("ifcdescriptivemeasure",NULL )
+, SchemaEntry("ifcdimensioncount",NULL )
+, SchemaEntry("ifcdoseequivalentmeasure",NULL )
+, SchemaEntry("ifcduration",NULL )
+, SchemaEntry("ifcdynamicviscositymeasure",NULL )
+, SchemaEntry("ifcelectriccapacitancemeasure",NULL )
+, SchemaEntry("ifcelectricchargemeasure",NULL )
+, SchemaEntry("ifcelectricconductancemeasure",NULL )
+, SchemaEntry("ifcelectriccurrentmeasure",NULL )
+, SchemaEntry("ifcelectricresistancemeasure",NULL )
+, SchemaEntry("ifcelectricvoltagemeasure",NULL )
+, SchemaEntry("ifcenergymeasure",NULL )
+, SchemaEntry("ifcfontstyle",NULL )
+, SchemaEntry("ifcfontvariant",NULL )
+, SchemaEntry("ifcfontweight",NULL )
+, SchemaEntry("ifcforcemeasure",NULL )
+, SchemaEntry("ifcfrequencymeasure",NULL )
+, SchemaEntry("ifcgloballyuniqueid",NULL )
+, SchemaEntry("ifcheatfluxdensitymeasure",NULL )
+, SchemaEntry("ifcheatingvaluemeasure",NULL )
+, SchemaEntry("ifcidentifier",NULL )
+, SchemaEntry("ifcilluminancemeasure",NULL )
+, SchemaEntry("ifcinductancemeasure",NULL )
+, SchemaEntry("ifcinteger",NULL )
+, SchemaEntry("ifcintegercountratemeasure",NULL )
+, SchemaEntry("ifcionconcentrationmeasure",NULL )
+, SchemaEntry("ifcisothermalmoisturecapacitymeasure",NULL )
+, SchemaEntry("ifckinematicviscositymeasure",NULL )
+, SchemaEntry("ifclabel",NULL )
+, SchemaEntry("ifclanguageid",NULL )
+, SchemaEntry("ifclengthmeasure",NULL )
+, SchemaEntry("ifclineindex",NULL )
+, SchemaEntry("ifclinearforcemeasure",NULL )
+, SchemaEntry("ifclinearmomentmeasure",NULL )
+, SchemaEntry("ifclinearstiffnessmeasure",NULL )
+, SchemaEntry("ifclinearvelocitymeasure",NULL )
+, SchemaEntry("ifclogical",NULL )
+, SchemaEntry("ifcluminousfluxmeasure",NULL )
+, SchemaEntry("ifcluminousintensitydistributionmeasure",NULL )
+, SchemaEntry("ifcluminousintensitymeasure",NULL )
+, SchemaEntry("ifcmagneticfluxdensitymeasure",NULL )
+, SchemaEntry("ifcmagneticfluxmeasure",NULL )
+, SchemaEntry("ifcmassdensitymeasure",NULL )
+, SchemaEntry("ifcmassflowratemeasure",NULL )
+, SchemaEntry("ifcmassmeasure",NULL )
+, SchemaEntry("ifcmassperlengthmeasure",NULL )
+, SchemaEntry("ifcmodulusofelasticitymeasure",NULL )
+, SchemaEntry("ifcmodulusoflinearsubgradereactionmeasure",NULL )
+, SchemaEntry("ifcmodulusofrotationalsubgradereactionmeasure",NULL )
+, SchemaEntry("ifcmodulusofsubgradereactionmeasure",NULL )
+, SchemaEntry("ifcmoisturediffusivitymeasure",NULL )
+, SchemaEntry("ifcmolecularweightmeasure",NULL )
+, SchemaEntry("ifcmomentofinertiameasure",NULL )
+, SchemaEntry("ifcmonetarymeasure",NULL )
+, SchemaEntry("ifcmonthinyearnumber",NULL )
+, SchemaEntry("ifcnonnegativelengthmeasure",NULL )
+, SchemaEntry("ifcnormalisedratiomeasure",NULL )
+, SchemaEntry("ifcnumericmeasure",NULL )
+, SchemaEntry("ifcphmeasure",NULL )
+, SchemaEntry("ifcparametervalue",NULL )
+, SchemaEntry("ifcplanarforcemeasure",NULL )
+, SchemaEntry("ifcplaneanglemeasure",NULL )
+, SchemaEntry("ifcpositiveinteger",NULL )
+, SchemaEntry("ifcpositivelengthmeasure",NULL )
+, SchemaEntry("ifcpositiveplaneanglemeasure",NULL )
+, SchemaEntry("ifcpositiveratiomeasure",NULL )
+, SchemaEntry("ifcpowermeasure",NULL )
+, SchemaEntry("ifcpresentabletext",NULL )
+, SchemaEntry("ifcpressuremeasure",NULL )
+, SchemaEntry("ifcpropertysetdefinitionset",NULL )
+, SchemaEntry("ifcradioactivitymeasure",NULL )
+, SchemaEntry("ifcratiomeasure",NULL )
+, SchemaEntry("ifcreal",NULL )
+, SchemaEntry("ifcrotationalfrequencymeasure",NULL )
+, SchemaEntry("ifcrotationalmassmeasure",NULL )
+, SchemaEntry("ifcrotationalstiffnessmeasure",NULL )
+, SchemaEntry("ifcsectionmodulusmeasure",NULL )
+, SchemaEntry("ifcsectionalareaintegralmeasure",NULL )
+, SchemaEntry("ifcshearmodulusmeasure",NULL )
+, SchemaEntry("ifcsolidanglemeasure",NULL )
+, SchemaEntry("ifcsoundpowerlevelmeasure",NULL )
+, SchemaEntry("ifcsoundpowermeasure",NULL )
+, SchemaEntry("ifcsoundpressurelevelmeasure",NULL )
+, SchemaEntry("ifcsoundpressuremeasure",NULL )
+, SchemaEntry("ifcspecificheatcapacitymeasure",NULL )
+, SchemaEntry("ifcspecularexponent",NULL )
+, SchemaEntry("ifcspecularroughness",NULL )
+, SchemaEntry("ifctemperaturegradientmeasure",NULL )
+, SchemaEntry("ifctemperaturerateofchangemeasure",NULL )
+, SchemaEntry("ifctext",NULL )
+, SchemaEntry("ifctextalignment",NULL )
+, SchemaEntry("ifctextdecoration",NULL )
+, SchemaEntry("ifctextfontname",NULL )
+, SchemaEntry("ifctexttransformation",NULL )
+, SchemaEntry("ifcthermaladmittancemeasure",NULL )
+, SchemaEntry("ifcthermalconductivitymeasure",NULL )
+, SchemaEntry("ifcthermalexpansioncoefficientmeasure",NULL )
+, SchemaEntry("ifcthermalresistancemeasure",NULL )
+, SchemaEntry("ifcthermaltransmittancemeasure",NULL )
+, SchemaEntry("ifcthermodynamictemperaturemeasure",NULL )
+, SchemaEntry("ifctime",NULL )
+, SchemaEntry("ifctimemeasure",NULL )
+, SchemaEntry("ifctimestamp",NULL )
+, SchemaEntry("ifctorquemeasure",NULL )
+, SchemaEntry("ifcurireference",NULL )
+, SchemaEntry("ifcvaporpermeabilitymeasure",NULL )
+, SchemaEntry("ifcvolumemeasure",NULL )
+, SchemaEntry("ifcvolumetricflowratemeasure",NULL )
+, SchemaEntry("ifcwarpingconstantmeasure",NULL )
+, SchemaEntry("ifcwarpingmomentmeasure",NULL )
+, SchemaEntry("ifcactionrequesttypeenum",NULL )
+, SchemaEntry("ifcactionsourcetypeenum",NULL )
+, SchemaEntry("ifcactiontypeenum",NULL )
+, SchemaEntry("ifcactuatortypeenum",NULL )
+, SchemaEntry("ifcaddresstypeenum",NULL )
+, SchemaEntry("ifcairterminalboxtypeenum",NULL )
+, SchemaEntry("ifcairterminaltypeenum",NULL )
+, SchemaEntry("ifcairtoairheatrecoverytypeenum",NULL )
+, SchemaEntry("ifcalarmtypeenum",NULL )
+, SchemaEntry("ifcanalysismodeltypeenum",NULL )
+, SchemaEntry("ifcanalysistheorytypeenum",NULL )
+, SchemaEntry("ifcarithmeticoperatorenum",NULL )
+, SchemaEntry("ifcassemblyplaceenum",NULL )
+, SchemaEntry("ifcaudiovisualappliancetypeenum",NULL )
+, SchemaEntry("ifcbsplinecurveform",NULL )
+, SchemaEntry("ifcbsplinesurfaceform",NULL )
+, SchemaEntry("ifcbeamtypeenum",NULL )
+, SchemaEntry("ifcbenchmarkenum",NULL )
+, SchemaEntry("ifcboilertypeenum",NULL )
+, SchemaEntry("ifcbooleanoperator",NULL )
+, SchemaEntry("ifcbuildingelementparttypeenum",NULL )
+, SchemaEntry("ifcbuildingelementproxytypeenum",NULL )
+, SchemaEntry("ifcbuildingsystemtypeenum",NULL )
+, SchemaEntry("ifcburnertypeenum",NULL )
+, SchemaEntry("ifccablecarrierfittingtypeenum",NULL )
+, SchemaEntry("ifccablecarriersegmenttypeenum",NULL )
+, SchemaEntry("ifccablefittingtypeenum",NULL )
+, SchemaEntry("ifccablesegmenttypeenum",NULL )
+, SchemaEntry("ifcchangeactionenum",NULL )
+, SchemaEntry("ifcchillertypeenum",NULL )
+, SchemaEntry("ifcchimneytypeenum",NULL )
+, SchemaEntry("ifccoiltypeenum",NULL )
+, SchemaEntry("ifccolumntypeenum",NULL )
+, SchemaEntry("ifccommunicationsappliancetypeenum",NULL )
+, SchemaEntry("ifccomplexpropertytemplatetypeenum",NULL )
+, SchemaEntry("ifccompressortypeenum",NULL )
+, SchemaEntry("ifccondensertypeenum",NULL )
+, SchemaEntry("ifcconnectiontypeenum",NULL )
+, SchemaEntry("ifcconstraintenum",NULL )
+, SchemaEntry("ifcconstructionequipmentresourcetypeenum",NULL )
+, SchemaEntry("ifcconstructionmaterialresourcetypeenum",NULL )
+, SchemaEntry("ifcconstructionproductresourcetypeenum",NULL )
+, SchemaEntry("ifccontrollertypeenum",NULL )
+, SchemaEntry("ifccooledbeamtypeenum",NULL )
+, SchemaEntry("ifccoolingtowertypeenum",NULL )
+, SchemaEntry("ifccostitemtypeenum",NULL )
+, SchemaEntry("ifccostscheduletypeenum",NULL )
+, SchemaEntry("ifccoveringtypeenum",NULL )
+, SchemaEntry("ifccrewresourcetypeenum",NULL )
+, SchemaEntry("ifccurtainwalltypeenum",NULL )
+, SchemaEntry("ifccurveinterpolationenum",NULL )
+, SchemaEntry("ifcdampertypeenum",NULL )
+, SchemaEntry("ifcdataoriginenum",NULL )
+, SchemaEntry("ifcderivedunitenum",NULL )
+, SchemaEntry("ifcdirectionsenseenum",NULL )
+, SchemaEntry("ifcdiscreteaccessorytypeenum",NULL )
+, SchemaEntry("ifcdistributionchamberelementtypeenum",NULL )
+, SchemaEntry("ifcdistributionporttypeenum",NULL )
+, SchemaEntry("ifcdistributionsystemenum",NULL )
+, SchemaEntry("ifcdocumentconfidentialityenum",NULL )
+, SchemaEntry("ifcdocumentstatusenum",NULL )
+, SchemaEntry("ifcdoorpaneloperationenum",NULL )
+, SchemaEntry("ifcdoorpanelpositionenum",NULL )
+, SchemaEntry("ifcdoorstyleconstructionenum",NULL )
+, SchemaEntry("ifcdoorstyleoperationenum",NULL )
+, SchemaEntry("ifcdoortypeenum",NULL )
+, SchemaEntry("ifcdoortypeoperationenum",NULL )
+, SchemaEntry("ifcductfittingtypeenum",NULL )
+, SchemaEntry("ifcductsegmenttypeenum",NULL )
+, SchemaEntry("ifcductsilencertypeenum",NULL )
+, SchemaEntry("ifcelectricappliancetypeenum",NULL )
+, SchemaEntry("ifcelectricdistributionboardtypeenum",NULL )
+, SchemaEntry("ifcelectricflowstoragedevicetypeenum",NULL )
+, SchemaEntry("ifcelectricgeneratortypeenum",NULL )
+, SchemaEntry("ifcelectricmotortypeenum",NULL )
+, SchemaEntry("ifcelectrictimecontroltypeenum",NULL )
+, SchemaEntry("ifcelementassemblytypeenum",NULL )
+, SchemaEntry("ifcelementcompositionenum",NULL )
+, SchemaEntry("ifcenginetypeenum",NULL )
+, SchemaEntry("ifcevaporativecoolertypeenum",NULL )
+, SchemaEntry("ifcevaporatortypeenum",NULL )
+, SchemaEntry("ifceventtriggertypeenum",NULL )
+, SchemaEntry("ifceventtypeenum",NULL )
+, SchemaEntry("ifcexternalspatialelementtypeenum",NULL )
+, SchemaEntry("ifcfantypeenum",NULL )
+, SchemaEntry("ifcfastenertypeenum",NULL )
+, SchemaEntry("ifcfiltertypeenum",NULL )
+, SchemaEntry("ifcfiresuppressionterminaltypeenum",NULL )
+, SchemaEntry("ifcflowdirectionenum",NULL )
+, SchemaEntry("ifcflowinstrumenttypeenum",NULL )
+, SchemaEntry("ifcflowmetertypeenum",NULL )
+, SchemaEntry("ifcfootingtypeenum",NULL )
+, SchemaEntry("ifcfurnituretypeenum",NULL )
+, SchemaEntry("ifcgeographicelementtypeenum",NULL )
+, SchemaEntry("ifcgeometricprojectionenum",NULL )
+, SchemaEntry("ifcglobalorlocalenum",NULL )
+, SchemaEntry("ifcgridtypeenum",NULL )
+, SchemaEntry("ifcheatexchangertypeenum",NULL )
+, SchemaEntry("ifchumidifiertypeenum",NULL )
+, SchemaEntry("ifcinterceptortypeenum",NULL )
+, SchemaEntry("ifcinternalorexternalenum",NULL )
+, SchemaEntry("ifcinventorytypeenum",NULL )
+, SchemaEntry("ifcjunctionboxtypeenum",NULL )
+, SchemaEntry("ifcknottype",NULL )
+, SchemaEntry("ifclaborresourcetypeenum",NULL )
+, SchemaEntry("ifclamptypeenum",NULL )
+, SchemaEntry("ifclayersetdirectionenum",NULL )
+, SchemaEntry("ifclightdistributioncurveenum",NULL )
+, SchemaEntry("ifclightemissionsourceenum",NULL )
+, SchemaEntry("ifclightfixturetypeenum",NULL )
+, SchemaEntry("ifcloadgrouptypeenum",NULL )
+, SchemaEntry("ifclogicaloperatorenum",NULL )
+, SchemaEntry("ifcmechanicalfastenertypeenum",NULL )
+, SchemaEntry("ifcmedicaldevicetypeenum",NULL )
+, SchemaEntry("ifcmembertypeenum",NULL )
+, SchemaEntry("ifcmotorconnectiontypeenum",NULL )
+, SchemaEntry("ifcnullstyle",NULL )
+, SchemaEntry("ifcobjecttypeenum",NULL )
+, SchemaEntry("ifcobjectiveenum",NULL )
+, SchemaEntry("ifcoccupanttypeenum",NULL )
+, SchemaEntry("ifcopeningelementtypeenum",NULL )
+, SchemaEntry("ifcoutlettypeenum",NULL )
+, SchemaEntry("ifcperformancehistorytypeenum",NULL )
+, SchemaEntry("ifcpermeablecoveringoperationenum",NULL )
+, SchemaEntry("ifcpermittypeenum",NULL )
+, SchemaEntry("ifcphysicalorvirtualenum",NULL )
+, SchemaEntry("ifcpileconstructionenum",NULL )
+, SchemaEntry("ifcpiletypeenum",NULL )
+, SchemaEntry("ifcpipefittingtypeenum",NULL )
+, SchemaEntry("ifcpipesegmenttypeenum",NULL )
+, SchemaEntry("ifcplatetypeenum",NULL )
+, SchemaEntry("ifcpreferredsurfacecurverepresentation",NULL )
+, SchemaEntry("ifcproceduretypeenum",NULL )
+, SchemaEntry("ifcprofiletypeenum",NULL )
+, SchemaEntry("ifcprojectordertypeenum",NULL )
+, SchemaEntry("ifcprojectedortruelengthenum",NULL )
+, SchemaEntry("ifcprojectionelementtypeenum",NULL )
+, SchemaEntry("ifcpropertysettemplatetypeenum",NULL )
+, SchemaEntry("ifcprotectivedevicetrippingunittypeenum",NULL )
+, SchemaEntry("ifcprotectivedevicetypeenum",NULL )
+, SchemaEntry("ifcpumptypeenum",NULL )
+, SchemaEntry("ifcrailingtypeenum",NULL )
+, SchemaEntry("ifcrampflighttypeenum",NULL )
+, SchemaEntry("ifcramptypeenum",NULL )
+, SchemaEntry("ifcrecurrencetypeenum",NULL )
+, SchemaEntry("ifcreflectancemethodenum",NULL )
+, SchemaEntry("ifcreinforcingbarroleenum",NULL )
+, SchemaEntry("ifcreinforcingbarsurfaceenum",NULL )
+, SchemaEntry("ifcreinforcingbartypeenum",NULL )
+, SchemaEntry("ifcreinforcingmeshtypeenum",NULL )
+, SchemaEntry("ifcroleenum",NULL )
+, SchemaEntry("ifcrooftypeenum",NULL )
+, SchemaEntry("ifcsiprefix",NULL )
+, SchemaEntry("ifcsiunitname",NULL )
+, SchemaEntry("ifcsanitaryterminaltypeenum",NULL )
+, SchemaEntry("ifcsectiontypeenum",NULL )
+, SchemaEntry("ifcsensortypeenum",NULL )
+, SchemaEntry("ifcsequenceenum",NULL )
+, SchemaEntry("ifcshadingdevicetypeenum",NULL )
+, SchemaEntry("ifcsimplepropertytemplatetypeenum",NULL )
+, SchemaEntry("ifcslabtypeenum",NULL )
+, SchemaEntry("ifcsolardevicetypeenum",NULL )
+, SchemaEntry("ifcspaceheatertypeenum",NULL )
+, SchemaEntry("ifcspacetypeenum",NULL )
+, SchemaEntry("ifcspatialzonetypeenum",NULL )
+, SchemaEntry("ifcstackterminaltypeenum",NULL )
+, SchemaEntry("ifcstairflighttypeenum",NULL )
+, SchemaEntry("ifcstairtypeenum",NULL )
+, SchemaEntry("ifcstateenum",NULL )
+, SchemaEntry("ifcstructuralcurveactivitytypeenum",NULL )
+, SchemaEntry("ifcstructuralcurvemembertypeenum",NULL )
+, SchemaEntry("ifcstructuralsurfaceactivitytypeenum",NULL )
+, SchemaEntry("ifcstructuralsurfacemembertypeenum",NULL )
+, SchemaEntry("ifcsubcontractresourcetypeenum",NULL )
+, SchemaEntry("ifcsurfacefeaturetypeenum",NULL )
+, SchemaEntry("ifcsurfaceside",NULL )
+, SchemaEntry("ifcswitchingdevicetypeenum",NULL )
+, SchemaEntry("ifcsystemfurnitureelementtypeenum",NULL )
+, SchemaEntry("ifctanktypeenum",NULL )
+, SchemaEntry("ifctaskdurationenum",NULL )
+, SchemaEntry("ifctasktypeenum",NULL )
+, SchemaEntry("ifctendonanchortypeenum",NULL )
+, SchemaEntry("ifctendontypeenum",NULL )
+, SchemaEntry("ifctextpath",NULL )
+, SchemaEntry("ifctimeseriesdatatypeenum",NULL )
+, SchemaEntry("ifctransformertypeenum",NULL )
+, SchemaEntry("ifctransitioncode",NULL )
+, SchemaEntry("ifctransportelementtypeenum",NULL )
+, SchemaEntry("ifctrimmingpreference",NULL )
+, SchemaEntry("ifctubebundletypeenum",NULL )
+, SchemaEntry("ifcunitenum",NULL )
+, SchemaEntry("ifcunitarycontrolelementtypeenum",NULL )
+, SchemaEntry("ifcunitaryequipmenttypeenum",NULL )
+, SchemaEntry("ifcvalvetypeenum",NULL )
+, SchemaEntry("ifcvibrationisolatortypeenum",NULL )
+, SchemaEntry("ifcvoidingfeaturetypeenum",NULL )
+, SchemaEntry("ifcwalltypeenum",NULL )
+, SchemaEntry("ifcwasteterminaltypeenum",NULL )
+, SchemaEntry("ifcwindowpaneloperationenum",NULL )
+, SchemaEntry("ifcwindowpanelpositionenum",NULL )
+, SchemaEntry("ifcwindowstyleconstructionenum",NULL )
+, SchemaEntry("ifcwindowstyleoperationenum",NULL )
+, SchemaEntry("ifcwindowtypeenum",NULL )
+, SchemaEntry("ifcwindowtypepartitioningenum",NULL )
+, SchemaEntry("ifcworkcalendartypeenum",NULL )
+, SchemaEntry("ifcworkplantypeenum",NULL )
+, SchemaEntry("ifcworkscheduletypeenum",NULL )
+, SchemaEntry("ifcactorselect",NULL )
+, SchemaEntry("ifcappliedvalueselect",NULL )
+, SchemaEntry("ifcaxis2placement",NULL )
+, SchemaEntry("ifcbendingparameterselect",NULL )
+, SchemaEntry("ifcbooleanoperand",NULL )
+, SchemaEntry("ifcclassificationreferenceselect",NULL )
+, SchemaEntry("ifcclassificationselect",NULL )
+, SchemaEntry("ifccolour",NULL )
+, SchemaEntry("ifccolourorfactor",NULL )
+, SchemaEntry("ifccoordinatereferencesystemselect",NULL )
+, SchemaEntry("ifccsgselect",NULL )
+, SchemaEntry("ifccurvefontorscaledcurvefontselect",NULL )
+, SchemaEntry("ifccurveonsurface",NULL )
+, SchemaEntry("ifccurveoredgecurve",NULL )
+, SchemaEntry("ifccurvestylefontselect",NULL )
+, SchemaEntry("ifcdefinitionselect",NULL )
+, SchemaEntry("ifcderivedmeasurevalue",NULL )
+, SchemaEntry("ifcdocumentselect",NULL )
+, SchemaEntry("ifcfillstyleselect",NULL )
+, SchemaEntry("ifcgeometricsetselect",NULL )
+, SchemaEntry("ifcgridplacementdirectionselect",NULL )
+, SchemaEntry("ifchatchlinedistanceselect",NULL )
+, SchemaEntry("ifclayereditem",NULL )
+, SchemaEntry("ifclibraryselect",NULL )
+, SchemaEntry("ifclightdistributiondatasourceselect",NULL )
+, SchemaEntry("ifcmaterialselect",NULL )
+, SchemaEntry("ifcmeasurevalue",NULL )
+, SchemaEntry("ifcmetricvalueselect",NULL )
+, SchemaEntry("ifcmodulusofrotationalsubgradereactionselect",NULL )
+, SchemaEntry("ifcmodulusofsubgradereactionselect",NULL )
+, SchemaEntry("ifcmodulusoftranslationalsubgradereactionselect",NULL )
+, SchemaEntry("ifcobjectreferenceselect",NULL )
+, SchemaEntry("ifcpointorvertexpoint",NULL )
+, SchemaEntry("ifcpresentationstyleselect",NULL )
+, SchemaEntry("ifcprocessselect",NULL )
+, SchemaEntry("ifcproductrepresentationselect",NULL )
+, SchemaEntry("ifcproductselect",NULL )
+, SchemaEntry("ifcpropertysetdefinitionselect",NULL )
+, SchemaEntry("ifcresourceobjectselect",NULL )
+, SchemaEntry("ifcresourceselect",NULL )
+, SchemaEntry("ifcrotationalstiffnessselect",NULL )
+, SchemaEntry("ifcsegmentindexselect",NULL )
+, SchemaEntry("ifcshell",NULL )
+, SchemaEntry("ifcsimplevalue",NULL )
+, SchemaEntry("ifcsizeselect",NULL )
+, SchemaEntry("ifcsolidorshell",NULL )
+, SchemaEntry("ifcspaceboundaryselect",NULL )
+, SchemaEntry("ifcspecularhighlightselect",NULL )
+, SchemaEntry("ifcstructuralactivityassignmentselect",NULL )
+, SchemaEntry("ifcstyleassignmentselect",NULL )
+, SchemaEntry("ifcsurfaceorfacesurface",NULL )
+, SchemaEntry("ifcsurfacestyleelementselect",NULL )
+, SchemaEntry("ifctextfontselect",NULL )
+, SchemaEntry("ifctimeorratioselect",NULL )
+, SchemaEntry("ifctranslationalstiffnessselect",NULL )
+, SchemaEntry("ifctrimmingselect",NULL )
+, SchemaEntry("ifcunit",NULL )
+, SchemaEntry("ifcvalue",NULL )
+, SchemaEntry("ifcvectorordirection",NULL )
+, SchemaEntry("ifcwarpingstiffnessselect",NULL )
+, SchemaEntry("ifcroot",&STEP::ObjectHelper<IfcRoot,4>::Construct )
+, SchemaEntry("ifcobjectdefinition",&STEP::ObjectHelper<IfcObjectDefinition,0>::Construct )
+, SchemaEntry("ifcobject",&STEP::ObjectHelper<IfcObject,1>::Construct )
+, SchemaEntry("ifccontrol",&STEP::ObjectHelper<IfcControl,1>::Construct )
+, SchemaEntry("ifcactionrequest",&STEP::ObjectHelper<IfcActionRequest,3>::Construct )
+, SchemaEntry("ifcactor",&STEP::ObjectHelper<IfcActor,1>::Construct )
+, SchemaEntry("ifcactorrole",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcproduct",&STEP::ObjectHelper<IfcProduct,2>::Construct )
+, SchemaEntry("ifcelement",&STEP::ObjectHelper<IfcElement,1>::Construct )
+, SchemaEntry("ifcdistributionelement",&STEP::ObjectHelper<IfcDistributionElement,0>::Construct )
+, SchemaEntry("ifcdistributioncontrolelement",&STEP::ObjectHelper<IfcDistributionControlElement,0>::Construct )
+, SchemaEntry("ifcactuator",&STEP::ObjectHelper<IfcActuator,1>::Construct )
+, SchemaEntry("ifctypeobject",&STEP::ObjectHelper<IfcTypeObject,2>::Construct )
+, SchemaEntry("ifctypeproduct",&STEP::ObjectHelper<IfcTypeProduct,2>::Construct )
+, SchemaEntry("ifcelementtype",&STEP::ObjectHelper<IfcElementType,1>::Construct )
+, SchemaEntry("ifcdistributionelementtype",&STEP::ObjectHelper<IfcDistributionElementType,0>::Construct )
+, SchemaEntry("ifcdistributioncontrolelementtype",&STEP::ObjectHelper<IfcDistributionControlElementType,0>::Construct )
+, SchemaEntry("ifcactuatortype",&STEP::ObjectHelper<IfcActuatorType,1>::Construct )
+, SchemaEntry("ifcaddress",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrepresentationitem",&STEP::ObjectHelper<IfcRepresentationItem,0>::Construct )
+, SchemaEntry("ifcgeometricrepresentationitem",&STEP::ObjectHelper<IfcGeometricRepresentationItem,0>::Construct )
+, SchemaEntry("ifcsolidmodel",&STEP::ObjectHelper<IfcSolidModel,0>::Construct )
+, SchemaEntry("ifcmanifoldsolidbrep",&STEP::ObjectHelper<IfcManifoldSolidBrep,1>::Construct )
+, SchemaEntry("ifcadvancedbrep",&STEP::ObjectHelper<IfcAdvancedBrep,0>::Construct )
+, SchemaEntry("ifcadvancedbrepwithvoids",&STEP::ObjectHelper<IfcAdvancedBrepWithVoids,1>::Construct )
+, SchemaEntry("ifctopologicalrepresentationitem",&STEP::ObjectHelper<IfcTopologicalRepresentationItem,0>::Construct )
+, SchemaEntry("ifcface",&STEP::ObjectHelper<IfcFace,1>::Construct )
+, SchemaEntry("ifcfacesurface",&STEP::ObjectHelper<IfcFaceSurface,2>::Construct )
+, SchemaEntry("ifcadvancedface",&STEP::ObjectHelper<IfcAdvancedFace,0>::Construct )
+, SchemaEntry("ifcdistributionflowelement",&STEP::ObjectHelper<IfcDistributionFlowElement,0>::Construct )
+, SchemaEntry("ifcflowterminal",&STEP::ObjectHelper<IfcFlowTerminal,0>::Construct )
+, SchemaEntry("ifcairterminal",&STEP::ObjectHelper<IfcAirTerminal,1>::Construct )
+, SchemaEntry("ifcflowcontroller",&STEP::ObjectHelper<IfcFlowController,0>::Construct )
+, SchemaEntry("ifcairterminalbox",&STEP::ObjectHelper<IfcAirTerminalBox,1>::Construct )
+, SchemaEntry("ifcdistributionflowelementtype",&STEP::ObjectHelper<IfcDistributionFlowElementType,0>::Construct )
+, SchemaEntry("ifcflowcontrollertype",&STEP::ObjectHelper<IfcFlowControllerType,0>::Construct )
+, SchemaEntry("ifcairterminalboxtype",&STEP::ObjectHelper<IfcAirTerminalBoxType,1>::Construct )
+, SchemaEntry("ifcflowterminaltype",&STEP::ObjectHelper<IfcFlowTerminalType,0>::Construct )
+, SchemaEntry("ifcairterminaltype",&STEP::ObjectHelper<IfcAirTerminalType,1>::Construct )
+, SchemaEntry("ifcenergyconversiondevice",&STEP::ObjectHelper<IfcEnergyConversionDevice,0>::Construct )
+, SchemaEntry("ifcairtoairheatrecovery",&STEP::ObjectHelper<IfcAirToAirHeatRecovery,1>::Construct )
+, SchemaEntry("ifcenergyconversiondevicetype",&STEP::ObjectHelper<IfcEnergyConversionDeviceType,0>::Construct )
+, SchemaEntry("ifcairtoairheatrecoverytype",&STEP::ObjectHelper<IfcAirToAirHeatRecoveryType,1>::Construct )
+, SchemaEntry("ifcalarm",&STEP::ObjectHelper<IfcAlarm,1>::Construct )
+, SchemaEntry("ifcalarmtype",&STEP::ObjectHelper<IfcAlarmType,1>::Construct )
+, SchemaEntry("ifcannotation",&STEP::ObjectHelper<IfcAnnotation,0>::Construct )
+, SchemaEntry("ifcannotationfillarea",&STEP::ObjectHelper<IfcAnnotationFillArea,2>::Construct )
+, SchemaEntry("ifcapplication",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcappliedvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcapproval",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcresourcelevelrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcapprovalrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcprofiledef",&STEP::ObjectHelper<IfcProfileDef,2>::Construct )
+, SchemaEntry("ifcarbitraryclosedprofiledef",&STEP::ObjectHelper<IfcArbitraryClosedProfileDef,1>::Construct )
+, SchemaEntry("ifcarbitraryopenprofiledef",&STEP::ObjectHelper<IfcArbitraryOpenProfileDef,1>::Construct )
+, SchemaEntry("ifcarbitraryprofiledefwithvoids",&STEP::ObjectHelper<IfcArbitraryProfileDefWithVoids,1>::Construct )
+, SchemaEntry("ifcgroup",&STEP::ObjectHelper<IfcGroup,0>::Construct )
+, SchemaEntry("ifcasset",&STEP::ObjectHelper<IfcAsset,9>::Construct )
+, SchemaEntry("ifcparameterizedprofiledef",&STEP::ObjectHelper<IfcParameterizedProfileDef,1>::Construct )
+, SchemaEntry("ifcasymmetricishapeprofiledef",&STEP::ObjectHelper<IfcAsymmetricIShapeProfileDef,12>::Construct )
+, SchemaEntry("ifcaudiovisualappliance",&STEP::ObjectHelper<IfcAudioVisualAppliance,1>::Construct )
+, SchemaEntry("ifcaudiovisualappliancetype",&STEP::ObjectHelper<IfcAudioVisualApplianceType,1>::Construct )
+, SchemaEntry("ifcplacement",&STEP::ObjectHelper<IfcPlacement,1>::Construct )
+, SchemaEntry("ifcaxis1placement",&STEP::ObjectHelper<IfcAxis1Placement,1>::Construct )
+, SchemaEntry("ifcaxis2placement2d",&STEP::ObjectHelper<IfcAxis2Placement2D,1>::Construct )
+, SchemaEntry("ifcaxis2placement3d",&STEP::ObjectHelper<IfcAxis2Placement3D,2>::Construct )
+, SchemaEntry("ifccurve",&STEP::ObjectHelper<IfcCurve,0>::Construct )
+, SchemaEntry("ifcboundedcurve",&STEP::ObjectHelper<IfcBoundedCurve,0>::Construct )
+, SchemaEntry("ifcbsplinecurve",&STEP::ObjectHelper<IfcBSplineCurve,5>::Construct )
+, SchemaEntry("ifcbsplinecurvewithknots",&STEP::ObjectHelper<IfcBSplineCurveWithKnots,3>::Construct )
+, SchemaEntry("ifcsurface",&STEP::ObjectHelper<IfcSurface,0>::Construct )
+, SchemaEntry("ifcboundedsurface",&STEP::ObjectHelper<IfcBoundedSurface,0>::Construct )
+, SchemaEntry("ifcbsplinesurface",&STEP::ObjectHelper<IfcBSplineSurface,6>::Construct )
+, SchemaEntry("ifcbsplinesurfacewithknots",&STEP::ObjectHelper<IfcBSplineSurfaceWithKnots,5>::Construct )
+, SchemaEntry("ifcbuildingelement",&STEP::ObjectHelper<IfcBuildingElement,0>::Construct )
+, SchemaEntry("ifcbeam",&STEP::ObjectHelper<IfcBeam,1>::Construct )
+, SchemaEntry("ifcbeamstandardcase",&STEP::ObjectHelper<IfcBeamStandardCase,0>::Construct )
+, SchemaEntry("ifcbuildingelementtype",&STEP::ObjectHelper<IfcBuildingElementType,0>::Construct )
+, SchemaEntry("ifcbeamtype",&STEP::ObjectHelper<IfcBeamType,1>::Construct )
+, SchemaEntry("ifcpresentationitem",&STEP::ObjectHelper<IfcPresentationItem,0>::Construct )
+, SchemaEntry("ifcsurfacetexture",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcblobtexture",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccsgprimitive3d",&STEP::ObjectHelper<IfcCsgPrimitive3D,1>::Construct )
+, SchemaEntry("ifcblock",&STEP::ObjectHelper<IfcBlock,3>::Construct )
+, SchemaEntry("ifcboiler",&STEP::ObjectHelper<IfcBoiler,1>::Construct )
+, SchemaEntry("ifcboilertype",&STEP::ObjectHelper<IfcBoilerType,1>::Construct )
+, SchemaEntry("ifcbooleanresult",&STEP::ObjectHelper<IfcBooleanResult,3>::Construct )
+, SchemaEntry("ifcbooleanclippingresult",&STEP::ObjectHelper<IfcBooleanClippingResult,0>::Construct )
+, SchemaEntry("ifcboundarycondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccompositecurve",&STEP::ObjectHelper<IfcCompositeCurve,2>::Construct )
+, SchemaEntry("ifccompositecurveonsurface",&STEP::ObjectHelper<IfcCompositeCurveOnSurface,0>::Construct )
+, SchemaEntry("ifcboundarycurve",&STEP::ObjectHelper<IfcBoundaryCurve,0>::Construct )
+, SchemaEntry("ifcboundaryedgecondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcboundaryfacecondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcboundarynodecondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcboundarynodeconditionwarping",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcboundingbox",&STEP::ObjectHelper<IfcBoundingBox,4>::Construct )
+, SchemaEntry("ifchalfspacesolid",&STEP::ObjectHelper<IfcHalfSpaceSolid,2>::Construct )
+, SchemaEntry("ifcboxedhalfspace",&STEP::ObjectHelper<IfcBoxedHalfSpace,1>::Construct )
+, SchemaEntry("ifcspatialelement",&STEP::ObjectHelper<IfcSpatialElement,1>::Construct )
+, SchemaEntry("ifcspatialstructureelement",&STEP::ObjectHelper<IfcSpatialStructureElement,1>::Construct )
+, SchemaEntry("ifcbuilding",&STEP::ObjectHelper<IfcBuilding,3>::Construct )
+, SchemaEntry("ifcelementcomponent",&STEP::ObjectHelper<IfcElementComponent,0>::Construct )
+, SchemaEntry("ifcbuildingelementpart",&STEP::ObjectHelper<IfcBuildingElementPart,1>::Construct )
+, SchemaEntry("ifcelementcomponenttype",&STEP::ObjectHelper<IfcElementComponentType,0>::Construct )
+, SchemaEntry("ifcbuildingelementparttype",&STEP::ObjectHelper<IfcBuildingElementPartType,1>::Construct )
+, SchemaEntry("ifcbuildingelementproxy",&STEP::ObjectHelper<IfcBuildingElementProxy,1>::Construct )
+, SchemaEntry("ifcbuildingelementproxytype",&STEP::ObjectHelper<IfcBuildingElementProxyType,1>::Construct )
+, SchemaEntry("ifcbuildingstorey",&STEP::ObjectHelper<IfcBuildingStorey,1>::Construct )
+, SchemaEntry("ifcsystem",&STEP::ObjectHelper<IfcSystem,0>::Construct )
+, SchemaEntry("ifcbuildingsystem",&STEP::ObjectHelper<IfcBuildingSystem,2>::Construct )
+, SchemaEntry("ifcburner",&STEP::ObjectHelper<IfcBurner,1>::Construct )
+, SchemaEntry("ifcburnertype",&STEP::ObjectHelper<IfcBurnerType,1>::Construct )
+, SchemaEntry("ifccshapeprofiledef",&STEP::ObjectHelper<IfcCShapeProfileDef,5>::Construct )
+, SchemaEntry("ifcflowfitting",&STEP::ObjectHelper<IfcFlowFitting,0>::Construct )
+, SchemaEntry("ifccablecarrierfitting",&STEP::ObjectHelper<IfcCableCarrierFitting,1>::Construct )
+, SchemaEntry("ifcflowfittingtype",&STEP::ObjectHelper<IfcFlowFittingType,0>::Construct )
+, SchemaEntry("ifccablecarrierfittingtype",&STEP::ObjectHelper<IfcCableCarrierFittingType,1>::Construct )
+, SchemaEntry("ifcflowsegment",&STEP::ObjectHelper<IfcFlowSegment,0>::Construct )
+, SchemaEntry("ifccablecarriersegment",&STEP::ObjectHelper<IfcCableCarrierSegment,1>::Construct )
+, SchemaEntry("ifcflowsegmenttype",&STEP::ObjectHelper<IfcFlowSegmentType,0>::Construct )
+, SchemaEntry("ifccablecarriersegmenttype",&STEP::ObjectHelper<IfcCableCarrierSegmentType,1>::Construct )
+, SchemaEntry("ifccablefitting",&STEP::ObjectHelper<IfcCableFitting,1>::Construct )
+, SchemaEntry("ifccablefittingtype",&STEP::ObjectHelper<IfcCableFittingType,1>::Construct )
+, SchemaEntry("ifccablesegment",&STEP::ObjectHelper<IfcCableSegment,1>::Construct )
+, SchemaEntry("ifccablesegmenttype",&STEP::ObjectHelper<IfcCableSegmentType,1>::Construct )
+, SchemaEntry("ifcpoint",&STEP::ObjectHelper<IfcPoint,0>::Construct )
+, SchemaEntry("ifccartesianpoint",&STEP::ObjectHelper<IfcCartesianPoint,1>::Construct )
+, SchemaEntry("ifccartesianpointlist",&STEP::ObjectHelper<IfcCartesianPointList,0>::Construct )
+, SchemaEntry("ifccartesianpointlist2d",&STEP::ObjectHelper<IfcCartesianPointList2D,0>::Construct )
+, SchemaEntry("ifccartesianpointlist3d",&STEP::ObjectHelper<IfcCartesianPointList3D,0>::Construct )
+, SchemaEntry("ifccartesiantransformationoperator",&STEP::ObjectHelper<IfcCartesianTransformationOperator,4>::Construct )
+, SchemaEntry("ifccartesiantransformationoperator2d",&STEP::ObjectHelper<IfcCartesianTransformationOperator2D,0>::Construct )
+, SchemaEntry("ifccartesiantransformationoperator2dnonuniform",&STEP::ObjectHelper<IfcCartesianTransformationOperator2DnonUniform,1>::Construct )
+, SchemaEntry("ifccartesiantransformationoperator3d",&STEP::ObjectHelper<IfcCartesianTransformationOperator3D,1>::Construct )
+, SchemaEntry("ifccartesiantransformationoperator3dnonuniform",&STEP::ObjectHelper<IfcCartesianTransformationOperator3DnonUniform,2>::Construct )
+, SchemaEntry("ifccenterlineprofiledef",&STEP::ObjectHelper<IfcCenterLineProfileDef,1>::Construct )
+, SchemaEntry("ifcchiller",&STEP::ObjectHelper<IfcChiller,1>::Construct )
+, SchemaEntry("ifcchillertype",&STEP::ObjectHelper<IfcChillerType,1>::Construct )
+, SchemaEntry("ifcchimney",&STEP::ObjectHelper<IfcChimney,1>::Construct )
+, SchemaEntry("ifcchimneytype",&STEP::ObjectHelper<IfcChimneyType,1>::Construct )
+, SchemaEntry("ifcconic",&STEP::ObjectHelper<IfcConic,1>::Construct )
+, SchemaEntry("ifccircle",&STEP::ObjectHelper<IfcCircle,1>::Construct )
+, SchemaEntry("ifccircleprofiledef",&STEP::ObjectHelper<IfcCircleProfileDef,1>::Construct )
+, SchemaEntry("ifccirclehollowprofiledef",&STEP::ObjectHelper<IfcCircleHollowProfileDef,1>::Construct )
+, SchemaEntry("ifccivilelement",&STEP::ObjectHelper<IfcCivilElement,0>::Construct )
+, SchemaEntry("ifccivilelementtype",&STEP::ObjectHelper<IfcCivilElementType,0>::Construct )
+, SchemaEntry("ifcexternalinformation",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcclassification",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcexternalreference",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcclassificationreference",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconnectedfaceset",&STEP::ObjectHelper<IfcConnectedFaceSet,1>::Construct )
+, SchemaEntry("ifcclosedshell",&STEP::ObjectHelper<IfcClosedShell,0>::Construct )
+, SchemaEntry("ifccoil",&STEP::ObjectHelper<IfcCoil,1>::Construct )
+, SchemaEntry("ifccoiltype",&STEP::ObjectHelper<IfcCoilType,1>::Construct )
+, SchemaEntry("ifccolourspecification",&STEP::ObjectHelper<IfcColourSpecification,1>::Construct )
+, SchemaEntry("ifccolourrgb",&STEP::ObjectHelper<IfcColourRgb,3>::Construct )
+, SchemaEntry("ifccolourrgblist",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccolumn",&STEP::ObjectHelper<IfcColumn,1>::Construct )
+, SchemaEntry("ifccolumnstandardcase",&STEP::ObjectHelper<IfcColumnStandardCase,0>::Construct )
+, SchemaEntry("ifccolumntype",&STEP::ObjectHelper<IfcColumnType,1>::Construct )
+, SchemaEntry("ifccommunicationsappliance",&STEP::ObjectHelper<IfcCommunicationsAppliance,1>::Construct )
+, SchemaEntry("ifccommunicationsappliancetype",&STEP::ObjectHelper<IfcCommunicationsApplianceType,1>::Construct )
+, SchemaEntry("ifcpropertyabstraction",&STEP::ObjectHelper<IfcPropertyAbstraction,0>::Construct )
+, SchemaEntry("ifcproperty",&STEP::ObjectHelper<IfcProperty,2>::Construct )
+, SchemaEntry("ifccomplexproperty",&STEP::ObjectHelper<IfcComplexProperty,2>::Construct )
+, SchemaEntry("ifcpropertydefinition",&STEP::ObjectHelper<IfcPropertyDefinition,0>::Construct )
+, SchemaEntry("ifcpropertytemplatedefinition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpropertytemplate",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccomplexpropertytemplate",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccompositecurvesegment",&STEP::ObjectHelper<IfcCompositeCurveSegment,3>::Construct )
+, SchemaEntry("ifccompositeprofiledef",&STEP::ObjectHelper<IfcCompositeProfileDef,2>::Construct )
+, SchemaEntry("ifcflowmovingdevice",&STEP::ObjectHelper<IfcFlowMovingDevice,0>::Construct )
+, SchemaEntry("ifccompressor",&STEP::ObjectHelper<IfcCompressor,1>::Construct )
+, SchemaEntry("ifcflowmovingdevicetype",&STEP::ObjectHelper<IfcFlowMovingDeviceType,0>::Construct )
+, SchemaEntry("ifccompressortype",&STEP::ObjectHelper<IfcCompressorType,1>::Construct )
+, SchemaEntry("ifccondenser",&STEP::ObjectHelper<IfcCondenser,1>::Construct )
+, SchemaEntry("ifccondensertype",&STEP::ObjectHelper<IfcCondenserType,1>::Construct )
+, SchemaEntry("ifcconnectiongeometry",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconnectioncurvegeometry",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconnectionpointgeometry",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconnectionpointeccentricity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconnectionsurfacegeometry",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconnectionvolumegeometry",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcconstraint",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcresource",&STEP::ObjectHelper<IfcResource,2>::Construct )
+, SchemaEntry("ifcconstructionresource",&STEP::ObjectHelper<IfcConstructionResource,3>::Construct )
+, SchemaEntry("ifcconstructionequipmentresource",&STEP::ObjectHelper<IfcConstructionEquipmentResource,1>::Construct )
+, SchemaEntry("ifctyperesource",&STEP::ObjectHelper<IfcTypeResource,3>::Construct )
+, SchemaEntry("ifcconstructionresourcetype",&STEP::ObjectHelper<IfcConstructionResourceType,2>::Construct )
+, SchemaEntry("ifcconstructionequipmentresourcetype",&STEP::ObjectHelper<IfcConstructionEquipmentResourceType,1>::Construct )
+, SchemaEntry("ifcconstructionmaterialresource",&STEP::ObjectHelper<IfcConstructionMaterialResource,1>::Construct )
+, SchemaEntry("ifcconstructionmaterialresourcetype",&STEP::ObjectHelper<IfcConstructionMaterialResourceType,1>::Construct )
+, SchemaEntry("ifcconstructionproductresource",&STEP::ObjectHelper<IfcConstructionProductResource,1>::Construct )
+, SchemaEntry("ifcconstructionproductresourcetype",&STEP::ObjectHelper<IfcConstructionProductResourceType,1>::Construct )
+, SchemaEntry("ifccontext",&STEP::ObjectHelper<IfcContext,5>::Construct )
+, SchemaEntry("ifcnamedunit",&STEP::ObjectHelper<IfcNamedUnit,2>::Construct )
+, SchemaEntry("ifccontextdependentunit",&STEP::ObjectHelper<IfcContextDependentUnit,1>::Construct )
+, SchemaEntry("ifccontroller",&STEP::ObjectHelper<IfcController,1>::Construct )
+, SchemaEntry("ifccontrollertype",&STEP::ObjectHelper<IfcControllerType,1>::Construct )
+, SchemaEntry("ifcconversionbasedunit",&STEP::ObjectHelper<IfcConversionBasedUnit,2>::Construct )
+, SchemaEntry("ifcconversionbasedunitwithoffset",&STEP::ObjectHelper<IfcConversionBasedUnitWithOffset,1>::Construct )
+, SchemaEntry("ifccooledbeam",&STEP::ObjectHelper<IfcCooledBeam,1>::Construct )
+, SchemaEntry("ifccooledbeamtype",&STEP::ObjectHelper<IfcCooledBeamType,1>::Construct )
+, SchemaEntry("ifccoolingtower",&STEP::ObjectHelper<IfcCoolingTower,1>::Construct )
+, SchemaEntry("ifccoolingtowertype",&STEP::ObjectHelper<IfcCoolingTowerType,1>::Construct )
+, SchemaEntry("ifccoordinateoperation",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccoordinatereferencesystem",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccostitem",&STEP::ObjectHelper<IfcCostItem,3>::Construct )
+, SchemaEntry("ifccostschedule",&STEP::ObjectHelper<IfcCostSchedule,4>::Construct )
+, SchemaEntry("ifccostvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccovering",&STEP::ObjectHelper<IfcCovering,1>::Construct )
+, SchemaEntry("ifccoveringtype",&STEP::ObjectHelper<IfcCoveringType,1>::Construct )
+, SchemaEntry("ifccrewresource",&STEP::ObjectHelper<IfcCrewResource,1>::Construct )
+, SchemaEntry("ifccrewresourcetype",&STEP::ObjectHelper<IfcCrewResourceType,1>::Construct )
+, SchemaEntry("ifccsgsolid",&STEP::ObjectHelper<IfcCsgSolid,1>::Construct )
+, SchemaEntry("ifccurrencyrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccurtainwall",&STEP::ObjectHelper<IfcCurtainWall,1>::Construct )
+, SchemaEntry("ifccurtainwalltype",&STEP::ObjectHelper<IfcCurtainWallType,1>::Construct )
+, SchemaEntry("ifccurveboundedplane",&STEP::ObjectHelper<IfcCurveBoundedPlane,3>::Construct )
+, SchemaEntry("ifccurveboundedsurface",&STEP::ObjectHelper<IfcCurveBoundedSurface,3>::Construct )
+, SchemaEntry("ifcpresentationstyle",&STEP::ObjectHelper<IfcPresentationStyle,1>::Construct )
+, SchemaEntry("ifccurvestyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccurvestylefont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccurvestylefontandscaling",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifccurvestylefontpattern",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcelementarysurface",&STEP::ObjectHelper<IfcElementarySurface,1>::Construct )
+, SchemaEntry("ifccylindricalsurface",&STEP::ObjectHelper<IfcCylindricalSurface,1>::Construct )
+, SchemaEntry("ifcdamper",&STEP::ObjectHelper<IfcDamper,1>::Construct )
+, SchemaEntry("ifcdampertype",&STEP::ObjectHelper<IfcDamperType,1>::Construct )
+, SchemaEntry("ifcderivedprofiledef",&STEP::ObjectHelper<IfcDerivedProfileDef,3>::Construct )
+, SchemaEntry("ifcderivedunit",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcderivedunitelement",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdimensionalexponents",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdirection",&STEP::ObjectHelper<IfcDirection,1>::Construct )
+, SchemaEntry("ifcdiscreteaccessory",&STEP::ObjectHelper<IfcDiscreteAccessory,1>::Construct )
+, SchemaEntry("ifcdiscreteaccessorytype",&STEP::ObjectHelper<IfcDiscreteAccessoryType,1>::Construct )
+, SchemaEntry("ifcdistributionchamberelement",&STEP::ObjectHelper<IfcDistributionChamberElement,1>::Construct )
+, SchemaEntry("ifcdistributionchamberelementtype",&STEP::ObjectHelper<IfcDistributionChamberElementType,1>::Construct )
+, SchemaEntry("ifcdistributionsystem",&STEP::ObjectHelper<IfcDistributionSystem,2>::Construct )
+, SchemaEntry("ifcdistributioncircuit",&STEP::ObjectHelper<IfcDistributionCircuit,0>::Construct )
+, SchemaEntry("ifcport",&STEP::ObjectHelper<IfcPort,0>::Construct )
+, SchemaEntry("ifcdistributionport",&STEP::ObjectHelper<IfcDistributionPort,3>::Construct )
+, SchemaEntry("ifcdocumentinformation",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdocumentinformationrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdocumentreference",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdoor",&STEP::ObjectHelper<IfcDoor,5>::Construct )
+, SchemaEntry("ifcpropertysetdefinition",&STEP::ObjectHelper<IfcPropertySetDefinition,0>::Construct )
+, SchemaEntry("ifcpredefinedpropertyset",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdoorliningproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdoorpanelproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdoorstandardcase",&STEP::ObjectHelper<IfcDoorStandardCase,0>::Construct )
+, SchemaEntry("ifcdoorstyle",&STEP::ObjectHelper<IfcDoorStyle,4>::Construct )
+, SchemaEntry("ifcdoortype",&STEP::ObjectHelper<IfcDoorType,4>::Construct )
+, SchemaEntry("ifcpredefineditem",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpredefinedcolour",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdraughtingpredefinedcolour",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpredefinedcurvefont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcdraughtingpredefinedcurvefont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcductfitting",&STEP::ObjectHelper<IfcDuctFitting,1>::Construct )
+, SchemaEntry("ifcductfittingtype",&STEP::ObjectHelper<IfcDuctFittingType,1>::Construct )
+, SchemaEntry("ifcductsegment",&STEP::ObjectHelper<IfcDuctSegment,1>::Construct )
+, SchemaEntry("ifcductsegmenttype",&STEP::ObjectHelper<IfcDuctSegmentType,1>::Construct )
+, SchemaEntry("ifcflowtreatmentdevice",&STEP::ObjectHelper<IfcFlowTreatmentDevice,0>::Construct )
+, SchemaEntry("ifcductsilencer",&STEP::ObjectHelper<IfcDuctSilencer,1>::Construct )
+, SchemaEntry("ifcflowtreatmentdevicetype",&STEP::ObjectHelper<IfcFlowTreatmentDeviceType,0>::Construct )
+, SchemaEntry("ifcductsilencertype",&STEP::ObjectHelper<IfcDuctSilencerType,1>::Construct )
+, SchemaEntry("ifcedge",&STEP::ObjectHelper<IfcEdge,2>::Construct )
+, SchemaEntry("ifcedgecurve",&STEP::ObjectHelper<IfcEdgeCurve,2>::Construct )
+, SchemaEntry("ifcloop",&STEP::ObjectHelper<IfcLoop,0>::Construct )
+, SchemaEntry("ifcedgeloop",&STEP::ObjectHelper<IfcEdgeLoop,1>::Construct )
+, SchemaEntry("ifcelectricappliance",&STEP::ObjectHelper<IfcElectricAppliance,1>::Construct )
+, SchemaEntry("ifcelectricappliancetype",&STEP::ObjectHelper<IfcElectricApplianceType,1>::Construct )
+, SchemaEntry("ifcelectricdistributionboard",&STEP::ObjectHelper<IfcElectricDistributionBoard,1>::Construct )
+, SchemaEntry("ifcelectricdistributionboardtype",&STEP::ObjectHelper<IfcElectricDistributionBoardType,1>::Construct )
+, SchemaEntry("ifcflowstoragedevice",&STEP::ObjectHelper<IfcFlowStorageDevice,0>::Construct )
+, SchemaEntry("ifcelectricflowstoragedevice",&STEP::ObjectHelper<IfcElectricFlowStorageDevice,1>::Construct )
+, SchemaEntry("ifcflowstoragedevicetype",&STEP::ObjectHelper<IfcFlowStorageDeviceType,0>::Construct )
+, SchemaEntry("ifcelectricflowstoragedevicetype",&STEP::ObjectHelper<IfcElectricFlowStorageDeviceType,1>::Construct )
+, SchemaEntry("ifcelectricgenerator",&STEP::ObjectHelper<IfcElectricGenerator,1>::Construct )
+, SchemaEntry("ifcelectricgeneratortype",&STEP::ObjectHelper<IfcElectricGeneratorType,1>::Construct )
+, SchemaEntry("ifcelectricmotor",&STEP::ObjectHelper<IfcElectricMotor,1>::Construct )
+, SchemaEntry("ifcelectricmotortype",&STEP::ObjectHelper<IfcElectricMotorType,1>::Construct )
+, SchemaEntry("ifcelectrictimecontrol",&STEP::ObjectHelper<IfcElectricTimeControl,1>::Construct )
+, SchemaEntry("ifcelectrictimecontroltype",&STEP::ObjectHelper<IfcElectricTimeControlType,1>::Construct )
+, SchemaEntry("ifcelementassembly",&STEP::ObjectHelper<IfcElementAssembly,2>::Construct )
+, SchemaEntry("ifcelementassemblytype",&STEP::ObjectHelper<IfcElementAssemblyType,1>::Construct )
+, SchemaEntry("ifcquantityset",&STEP::ObjectHelper<IfcQuantitySet,0>::Construct )
+, SchemaEntry("ifcelementquantity",&STEP::ObjectHelper<IfcElementQuantity,2>::Construct )
+, SchemaEntry("ifcellipse",&STEP::ObjectHelper<IfcEllipse,2>::Construct )
+, SchemaEntry("ifcellipseprofiledef",&STEP::ObjectHelper<IfcEllipseProfileDef,2>::Construct )
+, SchemaEntry("ifcengine",&STEP::ObjectHelper<IfcEngine,1>::Construct )
+, SchemaEntry("ifcenginetype",&STEP::ObjectHelper<IfcEngineType,1>::Construct )
+, SchemaEntry("ifcevaporativecooler",&STEP::ObjectHelper<IfcEvaporativeCooler,1>::Construct )
+, SchemaEntry("ifcevaporativecoolertype",&STEP::ObjectHelper<IfcEvaporativeCoolerType,1>::Construct )
+, SchemaEntry("ifcevaporator",&STEP::ObjectHelper<IfcEvaporator,1>::Construct )
+, SchemaEntry("ifcevaporatortype",&STEP::ObjectHelper<IfcEvaporatorType,1>::Construct )
+, SchemaEntry("ifcprocess",&STEP::ObjectHelper<IfcProcess,2>::Construct )
+, SchemaEntry("ifcevent",&STEP::ObjectHelper<IfcEvent,4>::Construct )
+, SchemaEntry("ifcschedulingtime",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifceventtime",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctypeprocess",&STEP::ObjectHelper<IfcTypeProcess,3>::Construct )
+, SchemaEntry("ifceventtype",&STEP::ObjectHelper<IfcEventType,3>::Construct )
+, SchemaEntry("ifcextendedproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcexternalreferencerelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcexternalspatialstructureelement",&STEP::ObjectHelper<IfcExternalSpatialStructureElement,0>::Construct )
+, SchemaEntry("ifcexternalspatialelement",&STEP::ObjectHelper<IfcExternalSpatialElement,1>::Construct )
+, SchemaEntry("ifcexternallydefinedhatchstyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcexternallydefinedsurfacestyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcexternallydefinedtextfont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsweptareasolid",&STEP::ObjectHelper<IfcSweptAreaSolid,2>::Construct )
+, SchemaEntry("ifcextrudedareasolid",&STEP::ObjectHelper<IfcExtrudedAreaSolid,2>::Construct )
+, SchemaEntry("ifcextrudedareasolidtapered",&STEP::ObjectHelper<IfcExtrudedAreaSolidTapered,1>::Construct )
+, SchemaEntry("ifcfacebasedsurfacemodel",&STEP::ObjectHelper<IfcFaceBasedSurfaceModel,1>::Construct )
+, SchemaEntry("ifcfacebound",&STEP::ObjectHelper<IfcFaceBound,2>::Construct )
+, SchemaEntry("ifcfaceouterbound",&STEP::ObjectHelper<IfcFaceOuterBound,0>::Construct )
+, SchemaEntry("ifcfacetedbrep",&STEP::ObjectHelper<IfcFacetedBrep,0>::Construct )
+, SchemaEntry("ifcfacetedbrepwithvoids",&STEP::ObjectHelper<IfcFacetedBrepWithVoids,1>::Construct )
+, SchemaEntry("ifcstructuralconnectioncondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcfailureconnectioncondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcfan",&STEP::ObjectHelper<IfcFan,1>::Construct )
+, SchemaEntry("ifcfantype",&STEP::ObjectHelper<IfcFanType,1>::Construct )
+, SchemaEntry("ifcfastener",&STEP::ObjectHelper<IfcFastener,1>::Construct )
+, SchemaEntry("ifcfastenertype",&STEP::ObjectHelper<IfcFastenerType,1>::Construct )
+, SchemaEntry("ifcfeatureelement",&STEP::ObjectHelper<IfcFeatureElement,0>::Construct )
+, SchemaEntry("ifcfeatureelementaddition",&STEP::ObjectHelper<IfcFeatureElementAddition,0>::Construct )
+, SchemaEntry("ifcfeatureelementsubtraction",&STEP::ObjectHelper<IfcFeatureElementSubtraction,0>::Construct )
+, SchemaEntry("ifcfillareastyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcfillareastylehatching",&STEP::ObjectHelper<IfcFillAreaStyleHatching,5>::Construct )
+, SchemaEntry("ifcfillareastyletiles",&STEP::ObjectHelper<IfcFillAreaStyleTiles,3>::Construct )
+, SchemaEntry("ifcfilter",&STEP::ObjectHelper<IfcFilter,1>::Construct )
+, SchemaEntry("ifcfiltertype",&STEP::ObjectHelper<IfcFilterType,1>::Construct )
+, SchemaEntry("ifcfiresuppressionterminal",&STEP::ObjectHelper<IfcFireSuppressionTerminal,1>::Construct )
+, SchemaEntry("ifcfiresuppressionterminaltype",&STEP::ObjectHelper<IfcFireSuppressionTerminalType,1>::Construct )
+, SchemaEntry("ifcfixedreferencesweptareasolid",&STEP::ObjectHelper<IfcFixedReferenceSweptAreaSolid,4>::Construct )
+, SchemaEntry("ifcflowinstrument",&STEP::ObjectHelper<IfcFlowInstrument,1>::Construct )
+, SchemaEntry("ifcflowinstrumenttype",&STEP::ObjectHelper<IfcFlowInstrumentType,1>::Construct )
+, SchemaEntry("ifcflowmeter",&STEP::ObjectHelper<IfcFlowMeter,1>::Construct )
+, SchemaEntry("ifcflowmetertype",&STEP::ObjectHelper<IfcFlowMeterType,1>::Construct )
+, SchemaEntry("ifcfooting",&STEP::ObjectHelper<IfcFooting,1>::Construct )
+, SchemaEntry("ifcfootingtype",&STEP::ObjectHelper<IfcFootingType,1>::Construct )
+, SchemaEntry("ifcfurnishingelement",&STEP::ObjectHelper<IfcFurnishingElement,0>::Construct )
+, SchemaEntry("ifcfurnishingelementtype",&STEP::ObjectHelper<IfcFurnishingElementType,0>::Construct )
+, SchemaEntry("ifcfurniture",&STEP::ObjectHelper<IfcFurniture,1>::Construct )
+, SchemaEntry("ifcfurnituretype",&STEP::ObjectHelper<IfcFurnitureType,2>::Construct )
+, SchemaEntry("ifcgeographicelement",&STEP::ObjectHelper<IfcGeographicElement,1>::Construct )
+, SchemaEntry("ifcgeographicelementtype",&STEP::ObjectHelper<IfcGeographicElementType,1>::Construct )
+, SchemaEntry("ifcgeometricset",&STEP::ObjectHelper<IfcGeometricSet,1>::Construct )
+, SchemaEntry("ifcgeometriccurveset",&STEP::ObjectHelper<IfcGeometricCurveSet,0>::Construct )
+, SchemaEntry("ifcrepresentationcontext",&STEP::ObjectHelper<IfcRepresentationContext,2>::Construct )
+, SchemaEntry("ifcgeometricrepresentationcontext",&STEP::ObjectHelper<IfcGeometricRepresentationContext,4>::Construct )
+, SchemaEntry("ifcgeometricrepresentationsubcontext",&STEP::ObjectHelper<IfcGeometricRepresentationSubContext,4>::Construct )
+, SchemaEntry("ifcgrid",&STEP::ObjectHelper<IfcGrid,4>::Construct )
+, SchemaEntry("ifcgridaxis",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcobjectplacement",&STEP::ObjectHelper<IfcObjectPlacement,0>::Construct )
+, SchemaEntry("ifcgridplacement",&STEP::ObjectHelper<IfcGridPlacement,2>::Construct )
+, SchemaEntry("ifcheatexchanger",&STEP::ObjectHelper<IfcHeatExchanger,1>::Construct )
+, SchemaEntry("ifcheatexchangertype",&STEP::ObjectHelper<IfcHeatExchangerType,1>::Construct )
+, SchemaEntry("ifchumidifier",&STEP::ObjectHelper<IfcHumidifier,1>::Construct )
+, SchemaEntry("ifchumidifiertype",&STEP::ObjectHelper<IfcHumidifierType,1>::Construct )
+, SchemaEntry("ifcishapeprofiledef",&STEP::ObjectHelper<IfcIShapeProfileDef,7>::Construct )
+, SchemaEntry("ifcimagetexture",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcindexedcolourmap",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcindexedpolycurve",&STEP::ObjectHelper<IfcIndexedPolyCurve,3>::Construct )
+, SchemaEntry("ifctessellateditem",&STEP::ObjectHelper<IfcTessellatedItem,0>::Construct )
+, SchemaEntry("ifcindexedpolygonalface",&STEP::ObjectHelper<IfcIndexedPolygonalFace,1>::Construct )
+, SchemaEntry("ifcindexedpolygonalfacewithvoids",&STEP::ObjectHelper<IfcIndexedPolygonalFaceWithVoids,0>::Construct )
+, SchemaEntry("ifctexturecoordinate",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcindexedtexturemap",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcindexedtriangletexturemap",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcinterceptor",&STEP::ObjectHelper<IfcInterceptor,1>::Construct )
+, SchemaEntry("ifcinterceptortype",&STEP::ObjectHelper<IfcInterceptorType,1>::Construct )
+, SchemaEntry("ifcsurfacecurve",&STEP::ObjectHelper<IfcSurfaceCurve,3>::Construct )
+, SchemaEntry("ifcintersectioncurve",&STEP::ObjectHelper<IfcIntersectionCurve,0>::Construct )
+, SchemaEntry("ifcinventory",&STEP::ObjectHelper<IfcInventory,6>::Construct )
+, SchemaEntry("ifctimeseries",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcirregulartimeseries",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcirregulartimeseriesvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcjunctionbox",&STEP::ObjectHelper<IfcJunctionBox,1>::Construct )
+, SchemaEntry("ifcjunctionboxtype",&STEP::ObjectHelper<IfcJunctionBoxType,1>::Construct )
+, SchemaEntry("ifclshapeprofiledef",&STEP::ObjectHelper<IfcLShapeProfileDef,6>::Construct )
+, SchemaEntry("ifclaborresource",&STEP::ObjectHelper<IfcLaborResource,1>::Construct )
+, SchemaEntry("ifclaborresourcetype",&STEP::ObjectHelper<IfcLaborResourceType,1>::Construct )
+, SchemaEntry("ifclagtime",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifclamp",&STEP::ObjectHelper<IfcLamp,1>::Construct )
+, SchemaEntry("ifclamptype",&STEP::ObjectHelper<IfcLampType,1>::Construct )
+, SchemaEntry("ifclibraryinformation",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifclibraryreference",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifclightdistributiondata",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifclightfixture",&STEP::ObjectHelper<IfcLightFixture,1>::Construct )
+, SchemaEntry("ifclightfixturetype",&STEP::ObjectHelper<IfcLightFixtureType,1>::Construct )
+, SchemaEntry("ifclightintensitydistribution",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifclightsource",&STEP::ObjectHelper<IfcLightSource,4>::Construct )
+, SchemaEntry("ifclightsourceambient",&STEP::ObjectHelper<IfcLightSourceAmbient,0>::Construct )
+, SchemaEntry("ifclightsourcedirectional",&STEP::ObjectHelper<IfcLightSourceDirectional,1>::Construct )
+, SchemaEntry("ifclightsourcegoniometric",&STEP::ObjectHelper<IfcLightSourceGoniometric,6>::Construct )
+, SchemaEntry("ifclightsourcepositional",&STEP::ObjectHelper<IfcLightSourcePositional,5>::Construct )
+, SchemaEntry("ifclightsourcespot",&STEP::ObjectHelper<IfcLightSourceSpot,4>::Construct )
+, SchemaEntry("ifcline",&STEP::ObjectHelper<IfcLine,2>::Construct )
+, SchemaEntry("ifclocalplacement",&STEP::ObjectHelper<IfcLocalPlacement,2>::Construct )
+, SchemaEntry("ifcmapconversion",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmappeditem",&STEP::ObjectHelper<IfcMappedItem,2>::Construct )
+, SchemaEntry("ifcmaterialdefinition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterial",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialclassificationrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialconstituent",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialconstituentset",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcproductrepresentation",&STEP::ObjectHelper<IfcProductRepresentation,3>::Construct )
+, SchemaEntry("ifcmaterialdefinitionrepresentation",&STEP::ObjectHelper<IfcMaterialDefinitionRepresentation,1>::Construct )
+, SchemaEntry("ifcmateriallayer",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmateriallayerset",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialusagedefinition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmateriallayersetusage",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmateriallayerwithoffsets",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmateriallist",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialprofile",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialprofileset",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialprofilesetusage",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialprofilesetusagetapering",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialprofilewithoffsets",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmaterialrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmeasurewithunit",&STEP::ObjectHelper<IfcMeasureWithUnit,2>::Construct )
+, SchemaEntry("ifcmechanicalfastener",&STEP::ObjectHelper<IfcMechanicalFastener,3>::Construct )
+, SchemaEntry("ifcmechanicalfastenertype",&STEP::ObjectHelper<IfcMechanicalFastenerType,3>::Construct )
+, SchemaEntry("ifcmedicaldevice",&STEP::ObjectHelper<IfcMedicalDevice,1>::Construct )
+, SchemaEntry("ifcmedicaldevicetype",&STEP::ObjectHelper<IfcMedicalDeviceType,1>::Construct )
+, SchemaEntry("ifcmember",&STEP::ObjectHelper<IfcMember,1>::Construct )
+, SchemaEntry("ifcmemberstandardcase",&STEP::ObjectHelper<IfcMemberStandardCase,0>::Construct )
+, SchemaEntry("ifcmembertype",&STEP::ObjectHelper<IfcMemberType,1>::Construct )
+, SchemaEntry("ifcmetric",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmirroredprofiledef",&STEP::ObjectHelper<IfcMirroredProfileDef,0>::Construct )
+, SchemaEntry("ifcmonetaryunit",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcmotorconnection",&STEP::ObjectHelper<IfcMotorConnection,1>::Construct )
+, SchemaEntry("ifcmotorconnectiontype",&STEP::ObjectHelper<IfcMotorConnectionType,1>::Construct )
+, SchemaEntry("ifcobjective",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcoccupant",&STEP::ObjectHelper<IfcOccupant,1>::Construct )
+, SchemaEntry("ifcoffsetcurve2d",&STEP::ObjectHelper<IfcOffsetCurve2D,3>::Construct )
+, SchemaEntry("ifcoffsetcurve3d",&STEP::ObjectHelper<IfcOffsetCurve3D,4>::Construct )
+, SchemaEntry("ifcopenshell",&STEP::ObjectHelper<IfcOpenShell,0>::Construct )
+, SchemaEntry("ifcopeningelement",&STEP::ObjectHelper<IfcOpeningElement,1>::Construct )
+, SchemaEntry("ifcopeningstandardcase",&STEP::ObjectHelper<IfcOpeningStandardCase,0>::Construct )
+, SchemaEntry("ifcorganization",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcorganizationrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcorientededge",&STEP::ObjectHelper<IfcOrientedEdge,2>::Construct )
+, SchemaEntry("ifcouterboundarycurve",&STEP::ObjectHelper<IfcOuterBoundaryCurve,0>::Construct )
+, SchemaEntry("ifcoutlet",&STEP::ObjectHelper<IfcOutlet,1>::Construct )
+, SchemaEntry("ifcoutlettype",&STEP::ObjectHelper<IfcOutletType,1>::Construct )
+, SchemaEntry("ifcownerhistory",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpath",&STEP::ObjectHelper<IfcPath,1>::Construct )
+, SchemaEntry("ifcpcurve",&STEP::ObjectHelper<IfcPcurve,2>::Construct )
+, SchemaEntry("ifcperformancehistory",&STEP::ObjectHelper<IfcPerformanceHistory,2>::Construct )
+, SchemaEntry("ifcpermeablecoveringproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpermit",&STEP::ObjectHelper<IfcPermit,3>::Construct )
+, SchemaEntry("ifcperson",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpersonandorganization",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcphysicalquantity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcphysicalcomplexquantity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcphysicalsimplequantity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpile",&STEP::ObjectHelper<IfcPile,2>::Construct )
+, SchemaEntry("ifcpiletype",&STEP::ObjectHelper<IfcPileType,1>::Construct )
+, SchemaEntry("ifcpipefitting",&STEP::ObjectHelper<IfcPipeFitting,1>::Construct )
+, SchemaEntry("ifcpipefittingtype",&STEP::ObjectHelper<IfcPipeFittingType,1>::Construct )
+, SchemaEntry("ifcpipesegment",&STEP::ObjectHelper<IfcPipeSegment,1>::Construct )
+, SchemaEntry("ifcpipesegmenttype",&STEP::ObjectHelper<IfcPipeSegmentType,1>::Construct )
+, SchemaEntry("ifcpixeltexture",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcplanarextent",&STEP::ObjectHelper<IfcPlanarExtent,2>::Construct )
+, SchemaEntry("ifcplanarbox",&STEP::ObjectHelper<IfcPlanarBox,1>::Construct )
+, SchemaEntry("ifcplane",&STEP::ObjectHelper<IfcPlane,0>::Construct )
+, SchemaEntry("ifcplate",&STEP::ObjectHelper<IfcPlate,1>::Construct )
+, SchemaEntry("ifcplatestandardcase",&STEP::ObjectHelper<IfcPlateStandardCase,0>::Construct )
+, SchemaEntry("ifcplatetype",&STEP::ObjectHelper<IfcPlateType,1>::Construct )
+, SchemaEntry("ifcpointoncurve",&STEP::ObjectHelper<IfcPointOnCurve,2>::Construct )
+, SchemaEntry("ifcpointonsurface",&STEP::ObjectHelper<IfcPointOnSurface,3>::Construct )
+, SchemaEntry("ifcpolyloop",&STEP::ObjectHelper<IfcPolyLoop,1>::Construct )
+, SchemaEntry("ifcpolygonalboundedhalfspace",&STEP::ObjectHelper<IfcPolygonalBoundedHalfSpace,2>::Construct )
+, SchemaEntry("ifctessellatedfaceset",&STEP::ObjectHelper<IfcTessellatedFaceSet,1>::Construct )
+, SchemaEntry("ifcpolygonalfaceset",&STEP::ObjectHelper<IfcPolygonalFaceSet,3>::Construct )
+, SchemaEntry("ifcpolyline",&STEP::ObjectHelper<IfcPolyline,1>::Construct )
+, SchemaEntry("ifcpostaladdress",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpredefinedproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpredefinedtextfont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpresentationlayerassignment",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpresentationlayerwithstyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpresentationstyleassignment",&STEP::ObjectHelper<IfcPresentationStyleAssignment,1>::Construct )
+, SchemaEntry("ifcprocedure",&STEP::ObjectHelper<IfcProcedure,1>::Construct )
+, SchemaEntry("ifcproceduretype",&STEP::ObjectHelper<IfcProcedureType,1>::Construct )
+, SchemaEntry("ifcproductdefinitionshape",&STEP::ObjectHelper<IfcProductDefinitionShape,0>::Construct )
+, SchemaEntry("ifcprofileproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcproject",&STEP::ObjectHelper<IfcProject,0>::Construct )
+, SchemaEntry("ifcprojectlibrary",&STEP::ObjectHelper<IfcProjectLibrary,0>::Construct )
+, SchemaEntry("ifcprojectorder",&STEP::ObjectHelper<IfcProjectOrder,3>::Construct )
+, SchemaEntry("ifcprojectedcrs",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcprojectionelement",&STEP::ObjectHelper<IfcProjectionElement,1>::Construct )
+, SchemaEntry("ifcsimpleproperty",&STEP::ObjectHelper<IfcSimpleProperty,0>::Construct )
+, SchemaEntry("ifcpropertyboundedvalue",&STEP::ObjectHelper<IfcPropertyBoundedValue,4>::Construct )
+, SchemaEntry("ifcpropertydependencyrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpropertyenumeratedvalue",&STEP::ObjectHelper<IfcPropertyEnumeratedValue,2>::Construct )
+, SchemaEntry("ifcpropertyenumeration",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpropertylistvalue",&STEP::ObjectHelper<IfcPropertyListValue,2>::Construct )
+, SchemaEntry("ifcpropertyreferencevalue",&STEP::ObjectHelper<IfcPropertyReferenceValue,2>::Construct )
+, SchemaEntry("ifcpropertyset",&STEP::ObjectHelper<IfcPropertySet,1>::Construct )
+, SchemaEntry("ifcpropertysettemplate",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcpropertysinglevalue",&STEP::ObjectHelper<IfcPropertySingleValue,2>::Construct )
+, SchemaEntry("ifcpropertytablevalue",&STEP::ObjectHelper<IfcPropertyTableValue,6>::Construct )
+, SchemaEntry("ifcprotectivedevice",&STEP::ObjectHelper<IfcProtectiveDevice,1>::Construct )
+, SchemaEntry("ifcprotectivedevicetrippingunit",&STEP::ObjectHelper<IfcProtectiveDeviceTrippingUnit,1>::Construct )
+, SchemaEntry("ifcprotectivedevicetrippingunittype",&STEP::ObjectHelper<IfcProtectiveDeviceTrippingUnitType,1>::Construct )
+, SchemaEntry("ifcprotectivedevicetype",&STEP::ObjectHelper<IfcProtectiveDeviceType,1>::Construct )
+, SchemaEntry("ifcproxy",&STEP::ObjectHelper<IfcProxy,2>::Construct )
+, SchemaEntry("ifcpump",&STEP::ObjectHelper<IfcPump,1>::Construct )
+, SchemaEntry("ifcpumptype",&STEP::ObjectHelper<IfcPumpType,1>::Construct )
+, SchemaEntry("ifcquantityarea",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcquantitycount",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcquantitylength",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcquantitytime",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcquantityvolume",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcquantityweight",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrailing",&STEP::ObjectHelper<IfcRailing,1>::Construct )
+, SchemaEntry("ifcrailingtype",&STEP::ObjectHelper<IfcRailingType,1>::Construct )
+, SchemaEntry("ifcramp",&STEP::ObjectHelper<IfcRamp,1>::Construct )
+, SchemaEntry("ifcrampflight",&STEP::ObjectHelper<IfcRampFlight,1>::Construct )
+, SchemaEntry("ifcrampflighttype",&STEP::ObjectHelper<IfcRampFlightType,1>::Construct )
+, SchemaEntry("ifcramptype",&STEP::ObjectHelper<IfcRampType,1>::Construct )
+, SchemaEntry("ifcrationalbsplinecurvewithknots",&STEP::ObjectHelper<IfcRationalBSplineCurveWithKnots,1>::Construct )
+, SchemaEntry("ifcrationalbsplinesurfacewithknots",&STEP::ObjectHelper<IfcRationalBSplineSurfaceWithKnots,0>::Construct )
+, SchemaEntry("ifcrectangleprofiledef",&STEP::ObjectHelper<IfcRectangleProfileDef,2>::Construct )
+, SchemaEntry("ifcrectanglehollowprofiledef",&STEP::ObjectHelper<IfcRectangleHollowProfileDef,3>::Construct )
+, SchemaEntry("ifcrectangularpyramid",&STEP::ObjectHelper<IfcRectangularPyramid,3>::Construct )
+, SchemaEntry("ifcrectangulartrimmedsurface",&STEP::ObjectHelper<IfcRectangularTrimmedSurface,7>::Construct )
+, SchemaEntry("ifcrecurrencepattern",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcreference",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcregulartimeseries",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcreinforcementbarproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcreinforcementdefinitionproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcreinforcingelement",&STEP::ObjectHelper<IfcReinforcingElement,1>::Construct )
+, SchemaEntry("ifcreinforcingbar",&STEP::ObjectHelper<IfcReinforcingBar,5>::Construct )
+, SchemaEntry("ifcreinforcingelementtype",&STEP::ObjectHelper<IfcReinforcingElementType,0>::Construct )
+, SchemaEntry("ifcreinforcingbartype",&STEP::ObjectHelper<IfcReinforcingBarType,7>::Construct )
+, SchemaEntry("ifcreinforcingmesh",&STEP::ObjectHelper<IfcReinforcingMesh,9>::Construct )
+, SchemaEntry("ifcreinforcingmeshtype",&STEP::ObjectHelper<IfcReinforcingMeshType,11>::Construct )
+, SchemaEntry("ifcrelationship",&STEP::ObjectHelper<IfcRelationship,0>::Construct )
+, SchemaEntry("ifcreldecomposes",&STEP::ObjectHelper<IfcRelDecomposes,0>::Construct )
+, SchemaEntry("ifcrelaggregates",&STEP::ObjectHelper<IfcRelAggregates,2>::Construct )
+, SchemaEntry("ifcrelassigns",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassignstoactor",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassignstocontrol",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassignstogroup",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassignstogroupbyfactor",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassignstoprocess",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassignstoproduct",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassignstoresource",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociates",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociatesapproval",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociatesclassification",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociatesconstraint",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociatesdocument",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociateslibrary",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelassociatesmaterial",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelconnects",&STEP::ObjectHelper<IfcRelConnects,0>::Construct )
+, SchemaEntry("ifcrelconnectselements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelconnectspathelements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelconnectsporttoelement",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelconnectsports",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelconnectsstructuralactivity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelconnectsstructuralmember",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelconnectswitheccentricity",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelconnectswithrealizingelements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelcontainedinspatialstructure",&STEP::ObjectHelper<IfcRelContainedInSpatialStructure,2>::Construct )
+, SchemaEntry("ifcrelcoversbldgelements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelcoversspaces",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcreldeclares",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcreldefines",&STEP::ObjectHelper<IfcRelDefines,0>::Construct )
+, SchemaEntry("ifcreldefinesbyobject",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcreldefinesbyproperties",&STEP::ObjectHelper<IfcRelDefinesByProperties,2>::Construct )
+, SchemaEntry("ifcreldefinesbytemplate",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcreldefinesbytype",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelfillselement",&STEP::ObjectHelper<IfcRelFillsElement,2>::Construct )
+, SchemaEntry("ifcrelflowcontrolelements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelinterfereselements",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelnests",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelprojectselement",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelreferencedinspatialstructure",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelsequence",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelservicesbuildings",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelspaceboundary",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelspaceboundary1stlevel",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelspaceboundary2ndlevel",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrelvoidselement",&STEP::ObjectHelper<IfcRelVoidsElement,2>::Construct )
+, SchemaEntry("ifcreparametrisedcompositecurvesegment",&STEP::ObjectHelper<IfcReparametrisedCompositeCurveSegment,1>::Construct )
+, SchemaEntry("ifcrepresentation",&STEP::ObjectHelper<IfcRepresentation,4>::Construct )
+, SchemaEntry("ifcrepresentationmap",&STEP::ObjectHelper<IfcRepresentationMap,2>::Construct )
+, SchemaEntry("ifcresourceapprovalrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcresourceconstraintrelationship",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcresourcetime",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcrevolvedareasolid",&STEP::ObjectHelper<IfcRevolvedAreaSolid,2>::Construct )
+, SchemaEntry("ifcrevolvedareasolidtapered",&STEP::ObjectHelper<IfcRevolvedAreaSolidTapered,1>::Construct )
+, SchemaEntry("ifcrightcircularcone",&STEP::ObjectHelper<IfcRightCircularCone,2>::Construct )
+, SchemaEntry("ifcrightcircularcylinder",&STEP::ObjectHelper<IfcRightCircularCylinder,2>::Construct )
+, SchemaEntry("ifcroof",&STEP::ObjectHelper<IfcRoof,1>::Construct )
+, SchemaEntry("ifcrooftype",&STEP::ObjectHelper<IfcRoofType,1>::Construct )
+, SchemaEntry("ifcroundedrectangleprofiledef",&STEP::ObjectHelper<IfcRoundedRectangleProfileDef,1>::Construct )
+, SchemaEntry("ifcsiunit",&STEP::ObjectHelper<IfcSIUnit,2>::Construct )
+, SchemaEntry("ifcsanitaryterminal",&STEP::ObjectHelper<IfcSanitaryTerminal,1>::Construct )
+, SchemaEntry("ifcsanitaryterminaltype",&STEP::ObjectHelper<IfcSanitaryTerminalType,1>::Construct )
+, SchemaEntry("ifcseamcurve",&STEP::ObjectHelper<IfcSeamCurve,0>::Construct )
+, SchemaEntry("ifcsectionproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsectionreinforcementproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsectionedspine",&STEP::ObjectHelper<IfcSectionedSpine,3>::Construct )
+, SchemaEntry("ifcsensor",&STEP::ObjectHelper<IfcSensor,1>::Construct )
+, SchemaEntry("ifcsensortype",&STEP::ObjectHelper<IfcSensorType,1>::Construct )
+, SchemaEntry("ifcshadingdevice",&STEP::ObjectHelper<IfcShadingDevice,1>::Construct )
+, SchemaEntry("ifcshadingdevicetype",&STEP::ObjectHelper<IfcShadingDeviceType,1>::Construct )
+, SchemaEntry("ifcshapeaspect",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcshapemodel",&STEP::ObjectHelper<IfcShapeModel,0>::Construct )
+, SchemaEntry("ifcshaperepresentation",&STEP::ObjectHelper<IfcShapeRepresentation,0>::Construct )
+, SchemaEntry("ifcshellbasedsurfacemodel",&STEP::ObjectHelper<IfcShellBasedSurfaceModel,1>::Construct )
+, SchemaEntry("ifcsimplepropertytemplate",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsite",&STEP::ObjectHelper<IfcSite,5>::Construct )
+, SchemaEntry("ifcslab",&STEP::ObjectHelper<IfcSlab,1>::Construct )
+, SchemaEntry("ifcslabelementedcase",&STEP::ObjectHelper<IfcSlabElementedCase,0>::Construct )
+, SchemaEntry("ifcslabstandardcase",&STEP::ObjectHelper<IfcSlabStandardCase,0>::Construct )
+, SchemaEntry("ifcslabtype",&STEP::ObjectHelper<IfcSlabType,1>::Construct )
+, SchemaEntry("ifcslippageconnectioncondition",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsolardevice",&STEP::ObjectHelper<IfcSolarDevice,1>::Construct )
+, SchemaEntry("ifcsolardevicetype",&STEP::ObjectHelper<IfcSolarDeviceType,1>::Construct )
+, SchemaEntry("ifcspace",&STEP::ObjectHelper<IfcSpace,2>::Construct )
+, SchemaEntry("ifcspaceheater",&STEP::ObjectHelper<IfcSpaceHeater,1>::Construct )
+, SchemaEntry("ifcspaceheatertype",&STEP::ObjectHelper<IfcSpaceHeaterType,1>::Construct )
+, SchemaEntry("ifcspatialelementtype",&STEP::ObjectHelper<IfcSpatialElementType,1>::Construct )
+, SchemaEntry("ifcspatialstructureelementtype",&STEP::ObjectHelper<IfcSpatialStructureElementType,0>::Construct )
+, SchemaEntry("ifcspacetype",&STEP::ObjectHelper<IfcSpaceType,2>::Construct )
+, SchemaEntry("ifcspatialzone",&STEP::ObjectHelper<IfcSpatialZone,1>::Construct )
+, SchemaEntry("ifcspatialzonetype",&STEP::ObjectHelper<IfcSpatialZoneType,2>::Construct )
+, SchemaEntry("ifcsphere",&STEP::ObjectHelper<IfcSphere,1>::Construct )
+, SchemaEntry("ifcsphericalsurface",&STEP::ObjectHelper<IfcSphericalSurface,1>::Construct )
+, SchemaEntry("ifcstackterminal",&STEP::ObjectHelper<IfcStackTerminal,1>::Construct )
+, SchemaEntry("ifcstackterminaltype",&STEP::ObjectHelper<IfcStackTerminalType,1>::Construct )
+, SchemaEntry("ifcstair",&STEP::ObjectHelper<IfcStair,1>::Construct )
+, SchemaEntry("ifcstairflight",&STEP::ObjectHelper<IfcStairFlight,5>::Construct )
+, SchemaEntry("ifcstairflighttype",&STEP::ObjectHelper<IfcStairFlightType,1>::Construct )
+, SchemaEntry("ifcstairtype",&STEP::ObjectHelper<IfcStairType,1>::Construct )
+, SchemaEntry("ifcstructuralactivity",&STEP::ObjectHelper<IfcStructuralActivity,2>::Construct )
+, SchemaEntry("ifcstructuralaction",&STEP::ObjectHelper<IfcStructuralAction,1>::Construct )
+, SchemaEntry("ifcstructuralanalysismodel",&STEP::ObjectHelper<IfcStructuralAnalysisModel,5>::Construct )
+, SchemaEntry("ifcstructuralitem",&STEP::ObjectHelper<IfcStructuralItem,0>::Construct )
+, SchemaEntry("ifcstructuralconnection",&STEP::ObjectHelper<IfcStructuralConnection,1>::Construct )
+, SchemaEntry("ifcstructuralcurveaction",&STEP::ObjectHelper<IfcStructuralCurveAction,2>::Construct )
+, SchemaEntry("ifcstructuralcurveconnection",&STEP::ObjectHelper<IfcStructuralCurveConnection,1>::Construct )
+, SchemaEntry("ifcstructuralmember",&STEP::ObjectHelper<IfcStructuralMember,0>::Construct )
+, SchemaEntry("ifcstructuralcurvemember",&STEP::ObjectHelper<IfcStructuralCurveMember,2>::Construct )
+, SchemaEntry("ifcstructuralcurvemembervarying",&STEP::ObjectHelper<IfcStructuralCurveMemberVarying,0>::Construct )
+, SchemaEntry("ifcstructuralreaction",&STEP::ObjectHelper<IfcStructuralReaction,0>::Construct )
+, SchemaEntry("ifcstructuralcurvereaction",&STEP::ObjectHelper<IfcStructuralCurveReaction,1>::Construct )
+, SchemaEntry("ifcstructurallinearaction",&STEP::ObjectHelper<IfcStructuralLinearAction,0>::Construct )
+, SchemaEntry("ifcstructuralload",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadgroup",&STEP::ObjectHelper<IfcStructuralLoadGroup,5>::Construct )
+, SchemaEntry("ifcstructuralloadcase",&STEP::ObjectHelper<IfcStructuralLoadCase,1>::Construct )
+, SchemaEntry("ifcstructuralloadconfiguration",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadorresult",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadstatic",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadlinearforce",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadplanarforce",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadsingledisplacement",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadsingledisplacementdistortion",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadsingleforce",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadsingleforcewarping",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralloadtemperature",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcstructuralsurfaceaction",&STEP::ObjectHelper<IfcStructuralSurfaceAction,2>::Construct )
+, SchemaEntry("ifcstructuralplanaraction",&STEP::ObjectHelper<IfcStructuralPlanarAction,0>::Construct )
+, SchemaEntry("ifcstructuralpointaction",&STEP::ObjectHelper<IfcStructuralPointAction,0>::Construct )
+, SchemaEntry("ifcstructuralpointconnection",&STEP::ObjectHelper<IfcStructuralPointConnection,1>::Construct )
+, SchemaEntry("ifcstructuralpointreaction",&STEP::ObjectHelper<IfcStructuralPointReaction,0>::Construct )
+, SchemaEntry("ifcstructuralresultgroup",&STEP::ObjectHelper<IfcStructuralResultGroup,3>::Construct )
+, SchemaEntry("ifcstructuralsurfaceconnection",&STEP::ObjectHelper<IfcStructuralSurfaceConnection,0>::Construct )
+, SchemaEntry("ifcstructuralsurfacemember",&STEP::ObjectHelper<IfcStructuralSurfaceMember,2>::Construct )
+, SchemaEntry("ifcstructuralsurfacemembervarying",&STEP::ObjectHelper<IfcStructuralSurfaceMemberVarying,0>::Construct )
+, SchemaEntry("ifcstructuralsurfacereaction",&STEP::ObjectHelper<IfcStructuralSurfaceReaction,1>::Construct )
+, SchemaEntry("ifcstylemodel",&STEP::ObjectHelper<IfcStyleModel,0>::Construct )
+, SchemaEntry("ifcstyleditem",&STEP::ObjectHelper<IfcStyledItem,3>::Construct )
+, SchemaEntry("ifcstyledrepresentation",&STEP::ObjectHelper<IfcStyledRepresentation,0>::Construct )
+, SchemaEntry("ifcsubcontractresource",&STEP::ObjectHelper<IfcSubContractResource,1>::Construct )
+, SchemaEntry("ifcsubcontractresourcetype",&STEP::ObjectHelper<IfcSubContractResourceType,1>::Construct )
+, SchemaEntry("ifcsubedge",&STEP::ObjectHelper<IfcSubedge,1>::Construct )
+, SchemaEntry("ifcsurfacecurvesweptareasolid",&STEP::ObjectHelper<IfcSurfaceCurveSweptAreaSolid,4>::Construct )
+, SchemaEntry("ifcsurfacefeature",&STEP::ObjectHelper<IfcSurfaceFeature,1>::Construct )
+, SchemaEntry("ifcsweptsurface",&STEP::ObjectHelper<IfcSweptSurface,2>::Construct )
+, SchemaEntry("ifcsurfaceoflinearextrusion",&STEP::ObjectHelper<IfcSurfaceOfLinearExtrusion,2>::Construct )
+, SchemaEntry("ifcsurfaceofrevolution",&STEP::ObjectHelper<IfcSurfaceOfRevolution,1>::Construct )
+, SchemaEntry("ifcsurfacereinforcementarea",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsurfacestyle",&STEP::ObjectHelper<IfcSurfaceStyle,2>::Construct )
+, SchemaEntry("ifcsurfacestylelighting",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsurfacestylerefraction",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcsurfacestyleshading",&STEP::ObjectHelper<IfcSurfaceStyleShading,2>::Construct )
+, SchemaEntry("ifcsurfacestylerendering",&STEP::ObjectHelper<IfcSurfaceStyleRendering,7>::Construct )
+, SchemaEntry("ifcsurfacestylewithtextures",&STEP::ObjectHelper<IfcSurfaceStyleWithTextures,1>::Construct )
+, SchemaEntry("ifcsweptdisksolid",&STEP::ObjectHelper<IfcSweptDiskSolid,5>::Construct )
+, SchemaEntry("ifcsweptdisksolidpolygonal",&STEP::ObjectHelper<IfcSweptDiskSolidPolygonal,1>::Construct )
+, SchemaEntry("ifcswitchingdevice",&STEP::ObjectHelper<IfcSwitchingDevice,1>::Construct )
+, SchemaEntry("ifcswitchingdevicetype",&STEP::ObjectHelper<IfcSwitchingDeviceType,1>::Construct )
+, SchemaEntry("ifcsystemfurnitureelement",&STEP::ObjectHelper<IfcSystemFurnitureElement,1>::Construct )
+, SchemaEntry("ifcsystemfurnitureelementtype",&STEP::ObjectHelper<IfcSystemFurnitureElementType,1>::Construct )
+, SchemaEntry("ifctshapeprofiledef",&STEP::ObjectHelper<IfcTShapeProfileDef,9>::Construct )
+, SchemaEntry("ifctable",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctablecolumn",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctablerow",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctank",&STEP::ObjectHelper<IfcTank,1>::Construct )
+, SchemaEntry("ifctanktype",&STEP::ObjectHelper<IfcTankType,1>::Construct )
+, SchemaEntry("ifctask",&STEP::ObjectHelper<IfcTask,6>::Construct )
+, SchemaEntry("ifctasktime",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctasktimerecurring",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctasktype",&STEP::ObjectHelper<IfcTaskType,2>::Construct )
+, SchemaEntry("ifctelecomaddress",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctendon",&STEP::ObjectHelper<IfcTendon,8>::Construct )
+, SchemaEntry("ifctendonanchor",&STEP::ObjectHelper<IfcTendonAnchor,1>::Construct )
+, SchemaEntry("ifctendonanchortype",&STEP::ObjectHelper<IfcTendonAnchorType,1>::Construct )
+, SchemaEntry("ifctendontype",&STEP::ObjectHelper<IfcTendonType,4>::Construct )
+, SchemaEntry("ifctextliteral",&STEP::ObjectHelper<IfcTextLiteral,3>::Construct )
+, SchemaEntry("ifctextliteralwithextent",&STEP::ObjectHelper<IfcTextLiteralWithExtent,2>::Construct )
+, SchemaEntry("ifctextstyle",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctextstylefontmodel",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctextstylefordefinedfont",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctextstyletextmodel",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctexturecoordinategenerator",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctexturemap",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctexturevertex",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctexturevertexlist",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctimeperiod",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctimeseriesvalue",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifctopologyrepresentation",&STEP::ObjectHelper<IfcTopologyRepresentation,0>::Construct )
+, SchemaEntry("ifctoroidalsurface",&STEP::ObjectHelper<IfcToroidalSurface,2>::Construct )
+, SchemaEntry("ifctransformer",&STEP::ObjectHelper<IfcTransformer,1>::Construct )
+, SchemaEntry("ifctransformertype",&STEP::ObjectHelper<IfcTransformerType,1>::Construct )
+, SchemaEntry("ifctransportelement",&STEP::ObjectHelper<IfcTransportElement,1>::Construct )
+, SchemaEntry("ifctransportelementtype",&STEP::ObjectHelper<IfcTransportElementType,1>::Construct )
+, SchemaEntry("ifctrapeziumprofiledef",&STEP::ObjectHelper<IfcTrapeziumProfileDef,4>::Construct )
+, SchemaEntry("ifctriangulatedfaceset",&STEP::ObjectHelper<IfcTriangulatedFaceSet,2>::Construct )
+, SchemaEntry("ifctrimmedcurve",&STEP::ObjectHelper<IfcTrimmedCurve,5>::Construct )
+, SchemaEntry("ifctubebundle",&STEP::ObjectHelper<IfcTubeBundle,1>::Construct )
+, SchemaEntry("ifctubebundletype",&STEP::ObjectHelper<IfcTubeBundleType,1>::Construct )
+, SchemaEntry("ifcushapeprofiledef",&STEP::ObjectHelper<IfcUShapeProfileDef,7>::Construct )
+, SchemaEntry("ifcunitassignment",&STEP::ObjectHelper<IfcUnitAssignment,1>::Construct )
+, SchemaEntry("ifcunitarycontrolelement",&STEP::ObjectHelper<IfcUnitaryControlElement,1>::Construct )
+, SchemaEntry("ifcunitarycontrolelementtype",&STEP::ObjectHelper<IfcUnitaryControlElementType,1>::Construct )
+, SchemaEntry("ifcunitaryequipment",&STEP::ObjectHelper<IfcUnitaryEquipment,1>::Construct )
+, SchemaEntry("ifcunitaryequipmenttype",&STEP::ObjectHelper<IfcUnitaryEquipmentType,1>::Construct )
+, SchemaEntry("ifcvalve",&STEP::ObjectHelper<IfcValve,1>::Construct )
+, SchemaEntry("ifcvalvetype",&STEP::ObjectHelper<IfcValveType,1>::Construct )
+, SchemaEntry("ifcvector",&STEP::ObjectHelper<IfcVector,2>::Construct )
+, SchemaEntry("ifcvertex",&STEP::ObjectHelper<IfcVertex,0>::Construct )
+, SchemaEntry("ifcvertexloop",&STEP::ObjectHelper<IfcVertexLoop,1>::Construct )
+, SchemaEntry("ifcvertexpoint",&STEP::ObjectHelper<IfcVertexPoint,1>::Construct )
+, SchemaEntry("ifcvibrationisolator",&STEP::ObjectHelper<IfcVibrationIsolator,1>::Construct )
+, SchemaEntry("ifcvibrationisolatortype",&STEP::ObjectHelper<IfcVibrationIsolatorType,1>::Construct )
+, SchemaEntry("ifcvirtualelement",&STEP::ObjectHelper<IfcVirtualElement,0>::Construct )
+, SchemaEntry("ifcvirtualgridintersection",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcvoidingfeature",&STEP::ObjectHelper<IfcVoidingFeature,1>::Construct )
+, SchemaEntry("ifcwall",&STEP::ObjectHelper<IfcWall,1>::Construct )
+, SchemaEntry("ifcwallelementedcase",&STEP::ObjectHelper<IfcWallElementedCase,0>::Construct )
+, SchemaEntry("ifcwallstandardcase",&STEP::ObjectHelper<IfcWallStandardCase,0>::Construct )
+, SchemaEntry("ifcwalltype",&STEP::ObjectHelper<IfcWallType,1>::Construct )
+, SchemaEntry("ifcwasteterminal",&STEP::ObjectHelper<IfcWasteTerminal,1>::Construct )
+, SchemaEntry("ifcwasteterminaltype",&STEP::ObjectHelper<IfcWasteTerminalType,1>::Construct )
+, SchemaEntry("ifcwindow",&STEP::ObjectHelper<IfcWindow,5>::Construct )
+, SchemaEntry("ifcwindowliningproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcwindowpanelproperties",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifcwindowstandardcase",&STEP::ObjectHelper<IfcWindowStandardCase,0>::Construct )
+, SchemaEntry("ifcwindowstyle",&STEP::ObjectHelper<IfcWindowStyle,4>::Construct )
+, SchemaEntry("ifcwindowtype",&STEP::ObjectHelper<IfcWindowType,4>::Construct )
+, SchemaEntry("ifcworkcalendar",&STEP::ObjectHelper<IfcWorkCalendar,3>::Construct )
+, SchemaEntry("ifcworkcontrol",&STEP::ObjectHelper<IfcWorkControl,7>::Construct )
+, SchemaEntry("ifcworkplan",&STEP::ObjectHelper<IfcWorkPlan,1>::Construct )
+, SchemaEntry("ifcworkschedule",&STEP::ObjectHelper<IfcWorkSchedule,1>::Construct )
+, SchemaEntry("ifcworktime",&STEP::ObjectHelper<NotImplemented,0>::Construct )
+, SchemaEntry("ifczshapeprofiledef",&STEP::ObjectHelper<IfcZShapeProfileDef,6>::Construct )
+, SchemaEntry("ifczone",&STEP::ObjectHelper<IfcZone,1>::Construct )
+
+ };
+}
+
+// -----------------------------------------------------------------------------------------------------------
+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;
+}
+
+
+
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRoot>(const DB& db, const LIST& params, IfcRoot* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRoot"); } do { // convert the 'GlobalId' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRoot,4>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->GlobalId, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRoot to be a `IfcGloballyUniqueId`")); }
+ } while(0);
+ do { // convert the 'OwnerHistory' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRoot,4>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->OwnerHistory, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRoot to be a `IfcOwnerHistory`")); }
+ } while(0);
+ do { // convert the 'Name' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRoot,4>::aux_is_derived[2]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRoot to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'Description' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRoot,4>::aux_is_derived[3]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Description, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRoot to be a `IfcText`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcObjectDefinition>(const DB& db, const LIST& params, IfcObjectDefinition* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRoot*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcObjectDefinition"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcObject>(const DB& db, const LIST& params, IfcObject* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObjectDefinition*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcObject"); } do { // convert the 'ObjectType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcObject,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ObjectType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcObject to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcControl>(const DB& db, const LIST& params, IfcControl* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcActionRequest>(const DB& db, const LIST& params, IfcActionRequest* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcActor>(const DB& db, const LIST& params, IfcActor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProduct>(const DB& db, const LIST& params, IfcProduct* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+ if (params.GetSize() < 7) { throw STEP::TypeError("expected 7 arguments to IfcProduct"); } do { // convert the 'ObjectPlacement' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcProduct,2>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ObjectPlacement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcProduct to be a `IfcObjectPlacement`")); }
+ } while(0);
+ do { // convert the 'Representation' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcProduct,2>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Representation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcProduct to be a `IfcProductRepresentation`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElement>(const DB& db, const LIST& params, IfcElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcElement"); } do { // convert the 'Tag' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcElement,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Tag, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcElement to be a `IfcIdentifier`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionElement>(const DB& db, const LIST& params, IfcDistributionElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionControlElement>(const DB& db, const LIST& params, IfcDistributionControlElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcActuator>(const DB& db, const LIST& params, IfcActuator* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTypeObject>(const DB& db, const LIST& params, IfcTypeObject* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObjectDefinition*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTypeProduct>(const DB& db, const LIST& params, IfcTypeProduct* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementType>(const DB& db, const LIST& params, IfcElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionElementType>(const DB& db, const LIST& params, IfcDistributionElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionControlElementType>(const DB& db, const LIST& params, IfcDistributionControlElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcActuatorType>(const DB& db, const LIST& params, IfcActuatorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRepresentationItem>(const DB& db, const LIST& params, IfcRepresentationItem* in)
+{
+ size_t base = 0;
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeometricRepresentationItem>(const DB& db, const LIST& params, IfcGeometricRepresentationItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSolidModel>(const DB& db, const LIST& params, IfcSolidModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcManifoldSolidBrep>(const DB& db, const LIST& params, IfcManifoldSolidBrep* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSolidModel*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcManifoldSolidBrep"); } do { // convert the 'Outer' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcManifoldSolidBrep,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Outer, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcManifoldSolidBrep to be a `IfcClosedShell`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAdvancedBrep>(const DB& db, const LIST& params, IfcAdvancedBrep* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcManifoldSolidBrep*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAdvancedBrepWithVoids>(const DB& db, const LIST& params, IfcAdvancedBrepWithVoids* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcAdvancedBrep*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTopologicalRepresentationItem>(const DB& db, const LIST& params, IfcTopologicalRepresentationItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFace>(const DB& db, const LIST& params, IfcFace* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcFace"); } do { // convert the 'Bounds' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcFace,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Bounds, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFace to be a `SET [1:?] OF IfcFaceBound`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFaceSurface>(const DB& db, const LIST& params, IfcFaceSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFace*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAdvancedFace>(const DB& db, const LIST& params, IfcAdvancedFace* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFaceSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionFlowElement>(const DB& db, const LIST& params, IfcDistributionFlowElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowTerminal>(const DB& db, const LIST& params, IfcFlowTerminal* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAirTerminal>(const DB& db, const LIST& params, IfcAirTerminal* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowController>(const DB& db, const LIST& params, IfcFlowController* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAirTerminalBox>(const DB& db, const LIST& params, IfcAirTerminalBox* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowController*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionFlowElementType>(const DB& db, const LIST& params, IfcDistributionFlowElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowControllerType>(const DB& db, const LIST& params, IfcFlowControllerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAirTerminalBoxType>(const DB& db, const LIST& params, IfcAirTerminalBoxType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowTerminalType>(const DB& db, const LIST& params, IfcFlowTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAirTerminalType>(const DB& db, const LIST& params, IfcAirTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEnergyConversionDevice>(const DB& db, const LIST& params, IfcEnergyConversionDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAirToAirHeatRecovery>(const DB& db, const LIST& params, IfcAirToAirHeatRecovery* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEnergyConversionDeviceType>(const DB& db, const LIST& params, IfcEnergyConversionDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAirToAirHeatRecoveryType>(const DB& db, const LIST& params, IfcAirToAirHeatRecoveryType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAlarm>(const DB& db, const LIST& params, IfcAlarm* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAlarmType>(const DB& db, const LIST& params, IfcAlarmType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotation>(const DB& db, const LIST& params, IfcAnnotation* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+ if (params.GetSize() < 7) { throw STEP::TypeError("expected 7 arguments to IfcAnnotation"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAnnotationFillArea>(const DB& db, const LIST& params, IfcAnnotationFillArea* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProfileDef>(const DB& db, const LIST& params, IfcProfileDef* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcProfileDef"); } do { // convert the 'ProfileType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcProfileDef,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->ProfileType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProfileDef to be a `IfcProfileTypeEnum`")); }
+ } while(0);
+ do { // convert the 'ProfileName' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcProfileDef,2>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ProfileName, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProfileDef to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcArbitraryClosedProfileDef>(const DB& db, const LIST& params, IfcArbitraryClosedProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProfileDef*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcArbitraryClosedProfileDef"); } do { // convert the 'OuterCurve' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcArbitraryClosedProfileDef,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->OuterCurve, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcArbitraryClosedProfileDef to be a `IfcCurve`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcArbitraryOpenProfileDef>(const DB& db, const LIST& params, IfcArbitraryOpenProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProfileDef*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcArbitraryOpenProfileDef"); } do { // convert the 'Curve' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcArbitraryOpenProfileDef,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Curve, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcArbitraryOpenProfileDef to be a `IfcBoundedCurve`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcArbitraryProfileDefWithVoids>(const DB& db, const LIST& params, IfcArbitraryProfileDefWithVoids* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcArbitraryClosedProfileDef*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcArbitraryProfileDefWithVoids"); } do { // convert the 'InnerCurves' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->InnerCurves, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcArbitraryProfileDefWithVoids to be a `SET [1:?] OF IfcCurve`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGroup>(const DB& db, const LIST& params, IfcGroup* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAsset>(const DB& db, const LIST& params, IfcAsset* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcParameterizedProfileDef>(const DB& db, const LIST& params, IfcParameterizedProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProfileDef*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcParameterizedProfileDef"); } do { // convert the 'Position' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcParameterizedProfileDef,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Position, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcParameterizedProfileDef to be a `IfcAxis2Placement2D`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAsymmetricIShapeProfileDef>(const DB& db, const LIST& params, IfcAsymmetricIShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAudioVisualAppliance>(const DB& db, const LIST& params, IfcAudioVisualAppliance* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAudioVisualApplianceType>(const DB& db, const LIST& params, IfcAudioVisualApplianceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlacement>(const DB& db, const LIST& params, IfcPlacement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPlacement"); } do { // convert the 'Location' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcPlacement,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Location, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPlacement to be a `IfcCartesianPoint`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAxis1Placement>(const DB& db, const LIST& params, IfcAxis1Placement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPlacement*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcAxis1Placement"); } do { // convert the 'Axis' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Axis, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis1Placement to be a `IfcDirection`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAxis2Placement2D>(const DB& db, const LIST& params, IfcAxis2Placement2D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPlacement*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcAxis2Placement2D"); } do { // convert the 'RefDirection' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RefDirection, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis2Placement2D to be a `IfcDirection`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcAxis2Placement3D>(const DB& db, const LIST& params, IfcAxis2Placement3D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPlacement*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcAxis2Placement3D"); } do { // convert the 'Axis' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Axis, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcAxis2Placement3D to be a `IfcDirection`")); }
+ } while(0);
+ do { // convert the 'RefDirection' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RefDirection, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcAxis2Placement3D to be a `IfcDirection`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCurve>(const DB& db, const LIST& params, IfcCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoundedCurve>(const DB& db, const LIST& params, IfcBoundedCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBSplineCurve>(const DB& db, const LIST& params, IfcBSplineCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcBSplineCurve"); } do { // convert the 'Degree' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcBSplineCurve,5>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Degree, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBSplineCurve to be a `IfcInteger`")); }
+ } while(0);
+ do { // convert the 'ControlPointsList' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcBSplineCurve,5>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->ControlPointsList, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBSplineCurve to be a `LIST [2:?] OF IfcCartesianPoint`")); }
+ } while(0);
+ do { // convert the 'CurveForm' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcBSplineCurve,5>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->CurveForm, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBSplineCurve to be a `IfcBSplineCurveForm`")); }
+ } while(0);
+ do { // convert the 'ClosedCurve' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcBSplineCurve,5>::aux_is_derived[3]=true; break; }
+ try { GenericConvert( in->ClosedCurve, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcBSplineCurve to be a `IfcLogical`")); }
+ } while(0);
+ do { // convert the 'SelfIntersect' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcBSplineCurve,5>::aux_is_derived[4]=true; break; }
+ try { GenericConvert( in->SelfIntersect, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcBSplineCurve to be a `IfcLogical`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBSplineCurveWithKnots>(const DB& db, const LIST& params, IfcBSplineCurveWithKnots* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBSplineCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurface>(const DB& db, const LIST& params, IfcSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoundedSurface>(const DB& db, const LIST& params, IfcBoundedSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBSplineSurface>(const DB& db, const LIST& params, IfcBSplineSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBSplineSurfaceWithKnots>(const DB& db, const LIST& params, IfcBSplineSurfaceWithKnots* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBSplineSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElement>(const DB& db, const LIST& params, IfcBuildingElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcBuildingElement"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBeam>(const DB& db, const LIST& params, IfcBeam* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBeamStandardCase>(const DB& db, const LIST& params, IfcBeamStandardCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBeam*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElementType>(const DB& db, const LIST& params, IfcBuildingElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBeamType>(const DB& db, const LIST& params, IfcBeamType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPresentationItem>(const DB& db, const LIST& params, IfcPresentationItem* in)
+{
+ size_t base = 0;
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCsgPrimitive3D>(const DB& db, const LIST& params, IfcCsgPrimitive3D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBlock>(const DB& db, const LIST& params, IfcBlock* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCsgPrimitive3D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoiler>(const DB& db, const LIST& params, IfcBoiler* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoilerType>(const DB& db, const LIST& params, IfcBoilerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBooleanResult>(const DB& db, const LIST& params, IfcBooleanResult* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcBooleanResult"); } do { // convert the 'Operator' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcBooleanResult,3>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Operator, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBooleanResult to be a `IfcBooleanOperator`")); }
+ } while(0);
+ do { // convert the 'FirstOperand' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcBooleanResult,3>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->FirstOperand, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBooleanResult to be a `IfcBooleanOperand`")); }
+ } while(0);
+ do { // convert the 'SecondOperand' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcBooleanResult,3>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->SecondOperand, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBooleanResult to be a `IfcBooleanOperand`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBooleanClippingResult>(const DB& db, const LIST& params, IfcBooleanClippingResult* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBooleanResult*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcBooleanClippingResult"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCompositeCurve>(const DB& db, const LIST& params, IfcCompositeCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcCompositeCurve"); } do { // convert the 'Segments' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCompositeCurve,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Segments, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCompositeCurve to be a `LIST [1:?] OF IfcCompositeCurveSegment`")); }
+ } while(0);
+ do { // convert the 'SelfIntersect' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCompositeCurve,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->SelfIntersect, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCompositeCurve to be a `IfcLogical`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCompositeCurveOnSurface>(const DB& db, const LIST& params, IfcCompositeCurveOnSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCompositeCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoundaryCurve>(const DB& db, const LIST& params, IfcBoundaryCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCompositeCurveOnSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoundingBox>(const DB& db, const LIST& params, IfcBoundingBox* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcBoundingBox"); } do { // convert the 'Corner' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Corner, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcBoundingBox to be a `IfcCartesianPoint`")); }
+ } while(0);
+ do { // convert the 'XDim' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->XDim, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'YDim' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->YDim, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'ZDim' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->ZDim, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcBoundingBox to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcHalfSpaceSolid>(const DB& db, const LIST& params, IfcHalfSpaceSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcHalfSpaceSolid"); } do { // convert the 'BaseSurface' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcHalfSpaceSolid,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->BaseSurface, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcHalfSpaceSolid to be a `IfcSurface`")); }
+ } while(0);
+ do { // convert the 'AgreementFlag' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcHalfSpaceSolid,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->AgreementFlag, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcHalfSpaceSolid to be a `IfcBoolean`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBoxedHalfSpace>(const DB& db, const LIST& params, IfcBoxedHalfSpace* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcHalfSpaceSolid*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpatialElement>(const DB& db, const LIST& params, IfcSpatialElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcSpatialElement"); } do { // convert the 'LongName' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSpatialElement,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->LongName, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcSpatialElement to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpatialStructureElement>(const DB& db, const LIST& params, IfcSpatialStructureElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialElement*>(in));
+ if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcSpatialStructureElement"); } do { // convert the 'CompositionType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSpatialStructureElement,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->CompositionType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcSpatialStructureElement to be a `IfcElementCompositionEnum`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuilding>(const DB& db, const LIST& params, IfcBuilding* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElement*>(in));
+ if (params.GetSize() < 12) { throw STEP::TypeError("expected 12 arguments to IfcBuilding"); } do { // convert the 'ElevationOfRefHeight' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ElevationOfRefHeight, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcBuilding to be a `IfcLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'ElevationOfTerrain' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ElevationOfTerrain, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcBuilding to be a `IfcLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'BuildingAddress' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->BuildingAddress, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 11 to IfcBuilding to be a `IfcPostalAddress`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementComponent>(const DB& db, const LIST& params, IfcElementComponent* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElementPart>(const DB& db, const LIST& params, IfcBuildingElementPart* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementComponentType>(const DB& db, const LIST& params, IfcElementComponentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElementPartType>(const DB& db, const LIST& params, IfcBuildingElementPartType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElementProxy>(const DB& db, const LIST& params, IfcBuildingElementProxy* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingElementProxyType>(const DB& db, const LIST& params, IfcBuildingElementProxyType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingStorey>(const DB& db, const LIST& params, IfcBuildingStorey* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSystem>(const DB& db, const LIST& params, IfcSystem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBuildingSystem>(const DB& db, const LIST& params, IfcBuildingSystem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSystem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBurner>(const DB& db, const LIST& params, IfcBurner* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcBurnerType>(const DB& db, const LIST& params, IfcBurnerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCShapeProfileDef>(const DB& db, const LIST& params, IfcCShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowFitting>(const DB& db, const LIST& params, IfcFlowFitting* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableCarrierFitting>(const DB& db, const LIST& params, IfcCableCarrierFitting* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFitting*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowFittingType>(const DB& db, const LIST& params, IfcFlowFittingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableCarrierFittingType>(const DB& db, const LIST& params, IfcCableCarrierFittingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFittingType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowSegment>(const DB& db, const LIST& params, IfcFlowSegment* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableCarrierSegment>(const DB& db, const LIST& params, IfcCableCarrierSegment* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegment*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowSegmentType>(const DB& db, const LIST& params, IfcFlowSegmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableCarrierSegmentType>(const DB& db, const LIST& params, IfcCableCarrierSegmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegmentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableFitting>(const DB& db, const LIST& params, IfcCableFitting* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFitting*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableFittingType>(const DB& db, const LIST& params, IfcCableFittingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFittingType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableSegment>(const DB& db, const LIST& params, IfcCableSegment* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegment*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCableSegmentType>(const DB& db, const LIST& params, IfcCableSegmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegmentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPoint>(const DB& db, const LIST& params, IfcPoint* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianPoint>(const DB& db, const LIST& params, IfcCartesianPoint* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPoint*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcCartesianPoint"); } do { // convert the 'Coordinates' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Coordinates, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCartesianPoint to be a `LIST [1:3] OF IfcLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianPointList>(const DB& db, const LIST& params, IfcCartesianPointList* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianPointList2D>(const DB& db, const LIST& params, IfcCartesianPointList2D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCartesianPointList*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianPointList3D>(const DB& db, const LIST& params, IfcCartesianPointList3D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCartesianPointList*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianTransformationOperator>(const DB& db, const LIST& params, IfcCartesianTransformationOperator* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcCartesianTransformationOperator"); } do { // convert the 'Axis1' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCartesianTransformationOperator,4>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Axis1, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCartesianTransformationOperator to be a `IfcDirection`")); }
+ } while(0);
+ do { // convert the 'Axis2' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCartesianTransformationOperator,4>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Axis2, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCartesianTransformationOperator to be a `IfcDirection`")); }
+ } while(0);
+ do { // convert the 'LocalOrigin' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCartesianTransformationOperator,4>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->LocalOrigin, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcCartesianTransformationOperator to be a `IfcCartesianPoint`")); }
+ } while(0);
+ do { // convert the 'Scale' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCartesianTransformationOperator,4>::aux_is_derived[3]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Scale, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcCartesianTransformationOperator to be a `IfcReal`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianTransformationOperator2D>(const DB& db, const LIST& params, IfcCartesianTransformationOperator2D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCartesianTransformationOperator*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianTransformationOperator2DnonUniform>(const DB& db, const LIST& params, IfcCartesianTransformationOperator2DnonUniform* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCartesianTransformationOperator2D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianTransformationOperator3D>(const DB& db, const LIST& params, IfcCartesianTransformationOperator3D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCartesianTransformationOperator*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcCartesianTransformationOperator3D"); } do { // convert the 'Axis3' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCartesianTransformationOperator3D,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Axis3, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcCartesianTransformationOperator3D to be a `IfcDirection`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCartesianTransformationOperator3DnonUniform>(const DB& db, const LIST& params, IfcCartesianTransformationOperator3DnonUniform* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCartesianTransformationOperator3D*>(in));
+ if (params.GetSize() < 7) { throw STEP::TypeError("expected 7 arguments to IfcCartesianTransformationOperator3DnonUniform"); } do { // convert the 'Scale2' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Scale2, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcCartesianTransformationOperator3DnonUniform to be a `IfcReal`")); }
+ } while(0);
+ do { // convert the 'Scale3' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Scale3, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcCartesianTransformationOperator3DnonUniform to be a `IfcReal`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCenterLineProfileDef>(const DB& db, const LIST& params, IfcCenterLineProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcArbitraryOpenProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcChiller>(const DB& db, const LIST& params, IfcChiller* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcChillerType>(const DB& db, const LIST& params, IfcChillerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcChimney>(const DB& db, const LIST& params, IfcChimney* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcChimneyType>(const DB& db, const LIST& params, IfcChimneyType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConic>(const DB& db, const LIST& params, IfcConic* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcConic"); } do { // convert the 'Position' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcConic,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Position, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcConic to be a `IfcAxis2Placement`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCircle>(const DB& db, const LIST& params, IfcCircle* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConic*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcCircle"); } do { // convert the 'Radius' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Radius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCircle to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCircleProfileDef>(const DB& db, const LIST& params, IfcCircleProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcCircleProfileDef"); } do { // convert the 'Radius' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCircleProfileDef,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Radius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcCircleProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCircleHollowProfileDef>(const DB& db, const LIST& params, IfcCircleHollowProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCircleProfileDef*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcCircleHollowProfileDef"); } do { // convert the 'WallThickness' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->WallThickness, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcCircleHollowProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCivilElement>(const DB& db, const LIST& params, IfcCivilElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCivilElementType>(const DB& db, const LIST& params, IfcCivilElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConnectedFaceSet>(const DB& db, const LIST& params, IfcConnectedFaceSet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcConnectedFaceSet"); } do { // convert the 'CfsFaces' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcConnectedFaceSet,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->CfsFaces, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcConnectedFaceSet to be a `SET [1:?] OF IfcFace`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcClosedShell>(const DB& db, const LIST& params, IfcClosedShell* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConnectedFaceSet*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcClosedShell"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCoil>(const DB& db, const LIST& params, IfcCoil* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCoilType>(const DB& db, const LIST& params, IfcCoilType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcColourSpecification>(const DB& db, const LIST& params, IfcColourSpecification* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcColourSpecification"); } do { // convert the 'Name' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcColourSpecification,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcColourSpecification to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcColourRgb>(const DB& db, const LIST& params, IfcColourRgb* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcColourSpecification*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcColourRgb"); } do { // convert the 'Red' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Red, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); }
+ } while(0);
+ do { // convert the 'Green' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Green, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); }
+ } while(0);
+ do { // convert the 'Blue' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Blue, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcColourRgb to be a `IfcNormalisedRatioMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcColumn>(const DB& db, const LIST& params, IfcColumn* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcColumnStandardCase>(const DB& db, const LIST& params, IfcColumnStandardCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcColumn*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcColumnType>(const DB& db, const LIST& params, IfcColumnType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCommunicationsAppliance>(const DB& db, const LIST& params, IfcCommunicationsAppliance* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCommunicationsApplianceType>(const DB& db, const LIST& params, IfcCommunicationsApplianceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyAbstraction>(const DB& db, const LIST& params, IfcPropertyAbstraction* in)
+{
+ size_t base = 0;
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProperty>(const DB& db, const LIST& params, IfcProperty* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPropertyAbstraction*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcProperty"); } do { // convert the 'Name' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcProperty,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProperty to be a `IfcIdentifier`")); }
+ } while(0);
+ do { // convert the 'Description' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcProperty,2>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Description, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProperty to be a `IfcText`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcComplexProperty>(const DB& db, const LIST& params, IfcComplexProperty* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProperty*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcComplexProperty"); } do { // convert the 'UsageName' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->UsageName, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcComplexProperty to be a `IfcIdentifier`")); }
+ } while(0);
+ do { // convert the 'HasProperties' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->HasProperties, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcComplexProperty to be a `SET [1:?] OF IfcProperty`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyDefinition>(const DB& db, const LIST& params, IfcPropertyDefinition* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRoot*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertyDefinition"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCompositeCurveSegment>(const DB& db, const LIST& params, IfcCompositeCurveSegment* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcCompositeCurveSegment"); } do { // convert the 'Transition' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCompositeCurveSegment,3>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Transition, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcCompositeCurveSegment to be a `IfcTransitionCode`")); }
+ } while(0);
+ do { // convert the 'SameSense' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCompositeCurveSegment,3>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->SameSense, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcCompositeCurveSegment to be a `IfcBoolean`")); }
+ } while(0);
+ do { // convert the 'ParentCurve' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcCompositeCurveSegment,3>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->ParentCurve, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcCompositeCurveSegment to be a `IfcCurve`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCompositeProfileDef>(const DB& db, const LIST& params, IfcCompositeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowMovingDevice>(const DB& db, const LIST& params, IfcFlowMovingDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCompressor>(const DB& db, const LIST& params, IfcCompressor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowMovingDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowMovingDeviceType>(const DB& db, const LIST& params, IfcFlowMovingDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCompressorType>(const DB& db, const LIST& params, IfcCompressorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowMovingDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCondenser>(const DB& db, const LIST& params, IfcCondenser* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCondenserType>(const DB& db, const LIST& params, IfcCondenserType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcResource>(const DB& db, const LIST& params, IfcResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionResource>(const DB& db, const LIST& params, IfcConstructionResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionEquipmentResource>(const DB& db, const LIST& params, IfcConstructionEquipmentResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTypeResource>(const DB& db, const LIST& params, IfcTypeResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionResourceType>(const DB& db, const LIST& params, IfcConstructionResourceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionEquipmentResourceType>(const DB& db, const LIST& params, IfcConstructionEquipmentResourceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResourceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionMaterialResource>(const DB& db, const LIST& params, IfcConstructionMaterialResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionMaterialResourceType>(const DB& db, const LIST& params, IfcConstructionMaterialResourceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResourceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionProductResource>(const DB& db, const LIST& params, IfcConstructionProductResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConstructionProductResourceType>(const DB& db, const LIST& params, IfcConstructionProductResourceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResourceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcContext>(const DB& db, const LIST& params, IfcContext* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObjectDefinition*>(in));
+ if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcContext"); } do { // convert the 'ObjectType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcContext,5>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ObjectType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcContext to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'LongName' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcContext,5>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->LongName, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcContext to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'Phase' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcContext,5>::aux_is_derived[2]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Phase, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcContext to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'RepresentationContexts' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcContext,5>::aux_is_derived[3]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RepresentationContexts, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcContext to be a `SET [1:?] OF IfcRepresentationContext`")); }
+ } while(0);
+ do { // convert the 'UnitsInContext' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcContext,5>::aux_is_derived[4]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->UnitsInContext, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcContext to be a `IfcUnitAssignment`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcNamedUnit>(const DB& db, const LIST& params, IfcNamedUnit* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcNamedUnit"); } do { // convert the 'Dimensions' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcNamedUnit,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Dimensions, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcNamedUnit to be a `IfcDimensionalExponents`")); }
+ } while(0);
+ do { // convert the 'UnitType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcNamedUnit,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->UnitType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcNamedUnit to be a `IfcUnitEnum`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcContextDependentUnit>(const DB& db, const LIST& params, IfcContextDependentUnit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcNamedUnit*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcController>(const DB& db, const LIST& params, IfcController* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcControllerType>(const DB& db, const LIST& params, IfcControllerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConversionBasedUnit>(const DB& db, const LIST& params, IfcConversionBasedUnit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcNamedUnit*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcConversionBasedUnit"); } do { // convert the 'Name' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcConversionBasedUnit,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcConversionBasedUnit to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'ConversionFactor' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcConversionBasedUnit,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->ConversionFactor, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcConversionBasedUnit to be a `IfcMeasureWithUnit`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcConversionBasedUnitWithOffset>(const DB& db, const LIST& params, IfcConversionBasedUnitWithOffset* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConversionBasedUnit*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCooledBeam>(const DB& db, const LIST& params, IfcCooledBeam* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCooledBeamType>(const DB& db, const LIST& params, IfcCooledBeamType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCoolingTower>(const DB& db, const LIST& params, IfcCoolingTower* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCoolingTowerType>(const DB& db, const LIST& params, IfcCoolingTowerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCostItem>(const DB& db, const LIST& params, IfcCostItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCostSchedule>(const DB& db, const LIST& params, IfcCostSchedule* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCovering>(const DB& db, const LIST& params, IfcCovering* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCoveringType>(const DB& db, const LIST& params, IfcCoveringType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCrewResource>(const DB& db, const LIST& params, IfcCrewResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCrewResourceType>(const DB& db, const LIST& params, IfcCrewResourceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResourceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCsgSolid>(const DB& db, const LIST& params, IfcCsgSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSolidModel*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCurtainWall>(const DB& db, const LIST& params, IfcCurtainWall* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCurtainWallType>(const DB& db, const LIST& params, IfcCurtainWallType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCurveBoundedPlane>(const DB& db, const LIST& params, IfcCurveBoundedPlane* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCurveBoundedSurface>(const DB& db, const LIST& params, IfcCurveBoundedSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPresentationStyle>(const DB& db, const LIST& params, IfcPresentationStyle* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPresentationStyle"); } do { // convert the 'Name' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcPresentationStyle,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPresentationStyle to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementarySurface>(const DB& db, const LIST& params, IfcElementarySurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSurface*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcElementarySurface"); } do { // convert the 'Position' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcElementarySurface,1>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Position, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcElementarySurface to be a `IfcAxis2Placement3D`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcCylindricalSurface>(const DB& db, const LIST& params, IfcCylindricalSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementarySurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDamper>(const DB& db, const LIST& params, IfcDamper* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowController*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDamperType>(const DB& db, const LIST& params, IfcDamperType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDerivedProfileDef>(const DB& db, const LIST& params, IfcDerivedProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDirection>(const DB& db, const LIST& params, IfcDirection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcDirection"); } do { // convert the 'DirectionRatios' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->DirectionRatios, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcDirection to be a `LIST [2:3] OF IfcReal`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDiscreteAccessory>(const DB& db, const LIST& params, IfcDiscreteAccessory* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDiscreteAccessoryType>(const DB& db, const LIST& params, IfcDiscreteAccessoryType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionChamberElement>(const DB& db, const LIST& params, IfcDistributionChamberElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionChamberElementType>(const DB& db, const LIST& params, IfcDistributionChamberElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionSystem>(const DB& db, const LIST& params, IfcDistributionSystem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSystem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionCircuit>(const DB& db, const LIST& params, IfcDistributionCircuit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionSystem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPort>(const DB& db, const LIST& params, IfcPort* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDistributionPort>(const DB& db, const LIST& params, IfcDistributionPort* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPort*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDoor>(const DB& db, const LIST& params, IfcDoor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+ if (params.GetSize() < 13) { throw STEP::TypeError("expected 13 arguments to IfcDoor"); } do { // convert the 'OverallHeight' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcDoor,5>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->OverallHeight, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcDoor to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'OverallWidth' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcDoor,5>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->OverallWidth, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcDoor to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'PredefinedType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcDoor,5>::aux_is_derived[2]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->PredefinedType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcDoor to be a `IfcDoorTypeEnum`")); }
+ } while(0);
+ do { // convert the 'OperationType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcDoor,5>::aux_is_derived[3]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->OperationType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 11 to IfcDoor to be a `IfcDoorTypeOperationEnum`")); }
+ } while(0);
+ do { // convert the 'UserDefinedOperationType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcDoor,5>::aux_is_derived[4]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->UserDefinedOperationType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 12 to IfcDoor to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertySetDefinition>(const DB& db, const LIST& params, IfcPropertySetDefinition* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPropertyDefinition*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertySetDefinition"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDoorStandardCase>(const DB& db, const LIST& params, IfcDoorStandardCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDoor*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDoorStyle>(const DB& db, const LIST& params, IfcDoorStyle* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDoorType>(const DB& db, const LIST& params, IfcDoorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDuctFitting>(const DB& db, const LIST& params, IfcDuctFitting* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFitting*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDuctFittingType>(const DB& db, const LIST& params, IfcDuctFittingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFittingType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDuctSegment>(const DB& db, const LIST& params, IfcDuctSegment* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegment*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDuctSegmentType>(const DB& db, const LIST& params, IfcDuctSegmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegmentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowTreatmentDevice>(const DB& db, const LIST& params, IfcFlowTreatmentDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDuctSilencer>(const DB& db, const LIST& params, IfcDuctSilencer* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTreatmentDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowTreatmentDeviceType>(const DB& db, const LIST& params, IfcFlowTreatmentDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcDuctSilencerType>(const DB& db, const LIST& params, IfcDuctSilencerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTreatmentDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEdge>(const DB& db, const LIST& params, IfcEdge* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEdgeCurve>(const DB& db, const LIST& params, IfcEdgeCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEdge*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLoop>(const DB& db, const LIST& params, IfcLoop* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEdgeLoop>(const DB& db, const LIST& params, IfcEdgeLoop* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLoop*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricAppliance>(const DB& db, const LIST& params, IfcElectricAppliance* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricApplianceType>(const DB& db, const LIST& params, IfcElectricApplianceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricDistributionBoard>(const DB& db, const LIST& params, IfcElectricDistributionBoard* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowController*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricDistributionBoardType>(const DB& db, const LIST& params, IfcElectricDistributionBoardType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowStorageDevice>(const DB& db, const LIST& params, IfcFlowStorageDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricFlowStorageDevice>(const DB& db, const LIST& params, IfcElectricFlowStorageDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowStorageDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowStorageDeviceType>(const DB& db, const LIST& params, IfcFlowStorageDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionFlowElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricFlowStorageDeviceType>(const DB& db, const LIST& params, IfcElectricFlowStorageDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowStorageDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricGenerator>(const DB& db, const LIST& params, IfcElectricGenerator* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricGeneratorType>(const DB& db, const LIST& params, IfcElectricGeneratorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricMotor>(const DB& db, const LIST& params, IfcElectricMotor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricMotorType>(const DB& db, const LIST& params, IfcElectricMotorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricTimeControl>(const DB& db, const LIST& params, IfcElectricTimeControl* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowController*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElectricTimeControlType>(const DB& db, const LIST& params, IfcElectricTimeControlType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementAssembly>(const DB& db, const LIST& params, IfcElementAssembly* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementAssemblyType>(const DB& db, const LIST& params, IfcElementAssemblyType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcQuantitySet>(const DB& db, const LIST& params, IfcQuantitySet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPropertySetDefinition*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcQuantitySet"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcElementQuantity>(const DB& db, const LIST& params, IfcElementQuantity* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcQuantitySet*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcElementQuantity"); } do { // convert the 'MethodOfMeasurement' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->MethodOfMeasurement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcElementQuantity to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'Quantities' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Quantities, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcElementQuantity to be a `SET [1:?] OF IfcPhysicalQuantity`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEllipse>(const DB& db, const LIST& params, IfcEllipse* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConic*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcEllipse"); } do { // convert the 'SemiAxis1' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->SemiAxis1, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcEllipse to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'SemiAxis2' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->SemiAxis2, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcEllipse to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEllipseProfileDef>(const DB& db, const LIST& params, IfcEllipseProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEngine>(const DB& db, const LIST& params, IfcEngine* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEngineType>(const DB& db, const LIST& params, IfcEngineType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEvaporativeCooler>(const DB& db, const LIST& params, IfcEvaporativeCooler* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEvaporativeCoolerType>(const DB& db, const LIST& params, IfcEvaporativeCoolerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEvaporator>(const DB& db, const LIST& params, IfcEvaporator* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEvaporatorType>(const DB& db, const LIST& params, IfcEvaporatorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProcess>(const DB& db, const LIST& params, IfcProcess* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEvent>(const DB& db, const LIST& params, IfcEvent* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProcess*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTypeProcess>(const DB& db, const LIST& params, IfcTypeProcess* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeObject*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcEventType>(const DB& db, const LIST& params, IfcEventType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeProcess*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcExternalSpatialStructureElement>(const DB& db, const LIST& params, IfcExternalSpatialStructureElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcExternalSpatialElement>(const DB& db, const LIST& params, IfcExternalSpatialElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcExternalSpatialStructureElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSweptAreaSolid>(const DB& db, const LIST& params, IfcSweptAreaSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSolidModel*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcSweptAreaSolid"); } do { // convert the 'SweptArea' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSweptAreaSolid,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->SweptArea, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSweptAreaSolid to be a `IfcProfileDef`")); }
+ } while(0);
+ do { // convert the 'Position' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSweptAreaSolid,2>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Position, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSweptAreaSolid to be a `IfcAxis2Placement3D`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcExtrudedAreaSolid>(const DB& db, const LIST& params, IfcExtrudedAreaSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcExtrudedAreaSolid"); } do { // convert the 'ExtrudedDirection' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcExtrudedAreaSolid,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->ExtrudedDirection, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcExtrudedAreaSolid to be a `IfcDirection`")); }
+ } while(0);
+ do { // convert the 'Depth' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcExtrudedAreaSolid,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->Depth, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcExtrudedAreaSolid to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcExtrudedAreaSolidTapered>(const DB& db, const LIST& params, IfcExtrudedAreaSolidTapered* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcExtrudedAreaSolid*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFaceBasedSurfaceModel>(const DB& db, const LIST& params, IfcFaceBasedSurfaceModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcFaceBasedSurfaceModel"); } do { // convert the 'FbsmFaces' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->FbsmFaces, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFaceBasedSurfaceModel to be a `SET [1:?] OF IfcConnectedFaceSet`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFaceBound>(const DB& db, const LIST& params, IfcFaceBound* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcFaceBound"); } do { // convert the 'Bound' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcFaceBound,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Bound, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcFaceBound to be a `IfcLoop`")); }
+ } while(0);
+ do { // convert the 'Orientation' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcFaceBound,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->Orientation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcFaceBound to be a `IfcBoolean`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFaceOuterBound>(const DB& db, const LIST& params, IfcFaceOuterBound* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFaceBound*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcFaceOuterBound"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFacetedBrep>(const DB& db, const LIST& params, IfcFacetedBrep* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcManifoldSolidBrep*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFacetedBrepWithVoids>(const DB& db, const LIST& params, IfcFacetedBrepWithVoids* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFacetedBrep*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFan>(const DB& db, const LIST& params, IfcFan* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowMovingDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFanType>(const DB& db, const LIST& params, IfcFanType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowMovingDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFastener>(const DB& db, const LIST& params, IfcFastener* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFastenerType>(const DB& db, const LIST& params, IfcFastenerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFeatureElement>(const DB& db, const LIST& params, IfcFeatureElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcFeatureElement"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFeatureElementAddition>(const DB& db, const LIST& params, IfcFeatureElementAddition* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFeatureElementSubtraction>(const DB& db, const LIST& params, IfcFeatureElementSubtraction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElement*>(in));
+ if (params.GetSize() < 8) { throw STEP::TypeError("expected 8 arguments to IfcFeatureElementSubtraction"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFillAreaStyleHatching>(const DB& db, const LIST& params, IfcFillAreaStyleHatching* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFillAreaStyleTiles>(const DB& db, const LIST& params, IfcFillAreaStyleTiles* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFilter>(const DB& db, const LIST& params, IfcFilter* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTreatmentDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFilterType>(const DB& db, const LIST& params, IfcFilterType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTreatmentDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFireSuppressionTerminal>(const DB& db, const LIST& params, IfcFireSuppressionTerminal* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFireSuppressionTerminalType>(const DB& db, const LIST& params, IfcFireSuppressionTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFixedReferenceSweptAreaSolid>(const DB& db, const LIST& params, IfcFixedReferenceSweptAreaSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowInstrument>(const DB& db, const LIST& params, IfcFlowInstrument* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowInstrumentType>(const DB& db, const LIST& params, IfcFlowInstrumentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowMeter>(const DB& db, const LIST& params, IfcFlowMeter* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowController*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFlowMeterType>(const DB& db, const LIST& params, IfcFlowMeterType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFooting>(const DB& db, const LIST& params, IfcFooting* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFootingType>(const DB& db, const LIST& params, IfcFootingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFurnishingElement>(const DB& db, const LIST& params, IfcFurnishingElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFurnishingElementType>(const DB& db, const LIST& params, IfcFurnishingElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFurniture>(const DB& db, const LIST& params, IfcFurniture* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFurnishingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcFurnitureType>(const DB& db, const LIST& params, IfcFurnitureType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFurnishingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeographicElement>(const DB& db, const LIST& params, IfcGeographicElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeographicElementType>(const DB& db, const LIST& params, IfcGeographicElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeometricSet>(const DB& db, const LIST& params, IfcGeometricSet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeometricCurveSet>(const DB& db, const LIST& params, IfcGeometricCurveSet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricSet*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRepresentationContext>(const DB& db, const LIST& params, IfcRepresentationContext* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcRepresentationContext"); } do { // convert the 'ContextIdentifier' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRepresentationContext,2>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ContextIdentifier, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentationContext to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'ContextType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRepresentationContext,2>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ContextType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentationContext to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeometricRepresentationContext>(const DB& db, const LIST& params, IfcGeometricRepresentationContext* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentationContext*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcGeometricRepresentationContext"); } do { // convert the 'CoordinateSpaceDimension' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcGeometricRepresentationContext,4>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->CoordinateSpaceDimension, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcGeometricRepresentationContext to be a `IfcDimensionCount`")); }
+ } while(0);
+ do { // convert the 'Precision' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcGeometricRepresentationContext,4>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Precision, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcGeometricRepresentationContext to be a `IfcReal`")); }
+ } while(0);
+ do { // convert the 'WorldCoordinateSystem' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcGeometricRepresentationContext,4>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->WorldCoordinateSystem, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcGeometricRepresentationContext to be a `IfcAxis2Placement`")); }
+ } while(0);
+ do { // convert the 'TrueNorth' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcGeometricRepresentationContext,4>::aux_is_derived[3]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->TrueNorth, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcGeometricRepresentationContext to be a `IfcDirection`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGeometricRepresentationSubContext>(const DB& db, const LIST& params, IfcGeometricRepresentationSubContext* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationContext*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGrid>(const DB& db, const LIST& params, IfcGrid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcObjectPlacement>(const DB& db, const LIST& params, IfcObjectPlacement* in)
+{
+ size_t base = 0;
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcGridPlacement>(const DB& db, const LIST& params, IfcGridPlacement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObjectPlacement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcHeatExchanger>(const DB& db, const LIST& params, IfcHeatExchanger* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcHeatExchangerType>(const DB& db, const LIST& params, IfcHeatExchangerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcHumidifier>(const DB& db, const LIST& params, IfcHumidifier* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcHumidifierType>(const DB& db, const LIST& params, IfcHumidifierType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcIShapeProfileDef>(const DB& db, const LIST& params, IfcIShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+ if (params.GetSize() < 10) { throw STEP::TypeError("expected 10 arguments to IfcIShapeProfileDef"); } do { // convert the 'OverallWidth' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->OverallWidth, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'OverallDepth' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->OverallDepth, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'WebThickness' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->WebThickness, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'FlangeThickness' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->FlangeThickness, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcIShapeProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'FilletRadius' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->FilletRadius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcIShapeProfileDef to be a `IfcNonNegativeLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'FlangeEdgeRadius' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->FlangeEdgeRadius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcIShapeProfileDef to be a `IfcNonNegativeLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'FlangeSlope' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->FlangeSlope, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcIShapeProfileDef to be a `IfcPlaneAngleMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcIndexedPolyCurve>(const DB& db, const LIST& params, IfcIndexedPolyCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTessellatedItem>(const DB& db, const LIST& params, IfcTessellatedItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcIndexedPolygonalFace>(const DB& db, const LIST& params, IfcIndexedPolygonalFace* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTessellatedItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcIndexedPolygonalFaceWithVoids>(const DB& db, const LIST& params, IfcIndexedPolygonalFaceWithVoids* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcIndexedPolygonalFace*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcInterceptor>(const DB& db, const LIST& params, IfcInterceptor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTreatmentDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcInterceptorType>(const DB& db, const LIST& params, IfcInterceptorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTreatmentDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceCurve>(const DB& db, const LIST& params, IfcSurfaceCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcIntersectionCurve>(const DB& db, const LIST& params, IfcIntersectionCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSurfaceCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcInventory>(const DB& db, const LIST& params, IfcInventory* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcJunctionBox>(const DB& db, const LIST& params, IfcJunctionBox* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFitting*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcJunctionBoxType>(const DB& db, const LIST& params, IfcJunctionBoxType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFittingType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLShapeProfileDef>(const DB& db, const LIST& params, IfcLShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLaborResource>(const DB& db, const LIST& params, IfcLaborResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLaborResourceType>(const DB& db, const LIST& params, IfcLaborResourceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResourceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLamp>(const DB& db, const LIST& params, IfcLamp* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLampType>(const DB& db, const LIST& params, IfcLampType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightFixture>(const DB& db, const LIST& params, IfcLightFixture* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightFixtureType>(const DB& db, const LIST& params, IfcLightFixtureType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSource>(const DB& db, const LIST& params, IfcLightSource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSourceAmbient>(const DB& db, const LIST& params, IfcLightSourceAmbient* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLightSource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSourceDirectional>(const DB& db, const LIST& params, IfcLightSourceDirectional* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLightSource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSourceGoniometric>(const DB& db, const LIST& params, IfcLightSourceGoniometric* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLightSource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSourcePositional>(const DB& db, const LIST& params, IfcLightSourcePositional* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLightSource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLightSourceSpot>(const DB& db, const LIST& params, IfcLightSourceSpot* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLightSourcePositional*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLine>(const DB& db, const LIST& params, IfcLine* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcLine"); } do { // convert the 'Pnt' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Pnt, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcLine to be a `IfcCartesianPoint`")); }
+ } while(0);
+ do { // convert the 'Dir' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Dir, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcLine to be a `IfcVector`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcLocalPlacement>(const DB& db, const LIST& params, IfcLocalPlacement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcObjectPlacement*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcLocalPlacement"); } do { // convert the 'PlacementRelTo' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->PlacementRelTo, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcLocalPlacement to be a `IfcObjectPlacement`")); }
+ } while(0);
+ do { // convert the 'RelativePlacement' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelativePlacement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcLocalPlacement to be a `IfcAxis2Placement`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMappedItem>(const DB& db, const LIST& params, IfcMappedItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentationItem*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcMappedItem"); } do { // convert the 'MappingSource' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->MappingSource, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcMappedItem to be a `IfcRepresentationMap`")); }
+ } while(0);
+ do { // convert the 'MappingTarget' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->MappingTarget, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcMappedItem to be a `IfcCartesianTransformationOperator`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProductRepresentation>(const DB& db, const LIST& params, IfcProductRepresentation* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcProductRepresentation"); } do { // convert the 'Name' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcProductRepresentation,3>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcProductRepresentation to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'Description' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcProductRepresentation,3>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Description, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcProductRepresentation to be a `IfcText`")); }
+ } while(0);
+ do { // convert the 'Representations' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcProductRepresentation,3>::aux_is_derived[2]=true; break; }
+ try { GenericConvert( in->Representations, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcProductRepresentation to be a `LIST [1:?] OF IfcRepresentation`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMaterialDefinitionRepresentation>(const DB& db, const LIST& params, IfcMaterialDefinitionRepresentation* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProductRepresentation*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMeasureWithUnit>(const DB& db, const LIST& params, IfcMeasureWithUnit* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcMeasureWithUnit"); } do { // convert the 'ValueComponent' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->ValueComponent, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcMeasureWithUnit to be a `IfcValue`")); }
+ } while(0);
+ do { // convert the 'UnitComponent' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->UnitComponent, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcMeasureWithUnit to be a `IfcUnit`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMechanicalFastener>(const DB& db, const LIST& params, IfcMechanicalFastener* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMechanicalFastenerType>(const DB& db, const LIST& params, IfcMechanicalFastenerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMedicalDevice>(const DB& db, const LIST& params, IfcMedicalDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMedicalDeviceType>(const DB& db, const LIST& params, IfcMedicalDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMember>(const DB& db, const LIST& params, IfcMember* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMemberStandardCase>(const DB& db, const LIST& params, IfcMemberStandardCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcMember*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMemberType>(const DB& db, const LIST& params, IfcMemberType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMirroredProfileDef>(const DB& db, const LIST& params, IfcMirroredProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDerivedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMotorConnection>(const DB& db, const LIST& params, IfcMotorConnection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcMotorConnectionType>(const DB& db, const LIST& params, IfcMotorConnectionType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOccupant>(const DB& db, const LIST& params, IfcOccupant* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcActor*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOffsetCurve2D>(const DB& db, const LIST& params, IfcOffsetCurve2D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOffsetCurve3D>(const DB& db, const LIST& params, IfcOffsetCurve3D* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOpenShell>(const DB& db, const LIST& params, IfcOpenShell* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConnectedFaceSet*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOpeningElement>(const DB& db, const LIST& params, IfcOpeningElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElementSubtraction*>(in));
+ if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcOpeningElement"); } do { // convert the 'PredefinedType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcOpeningElement,1>::aux_is_derived[0]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->PredefinedType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcOpeningElement to be a `IfcOpeningElementTypeEnum`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOpeningStandardCase>(const DB& db, const LIST& params, IfcOpeningStandardCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcOpeningElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOrientedEdge>(const DB& db, const LIST& params, IfcOrientedEdge* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEdge*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOuterBoundaryCurve>(const DB& db, const LIST& params, IfcOuterBoundaryCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundaryCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOutlet>(const DB& db, const LIST& params, IfcOutlet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcOutletType>(const DB& db, const LIST& params, IfcOutletType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPath>(const DB& db, const LIST& params, IfcPath* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPcurve>(const DB& db, const LIST& params, IfcPcurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPerformanceHistory>(const DB& db, const LIST& params, IfcPerformanceHistory* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPermit>(const DB& db, const LIST& params, IfcPermit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPile>(const DB& db, const LIST& params, IfcPile* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPileType>(const DB& db, const LIST& params, IfcPileType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPipeFitting>(const DB& db, const LIST& params, IfcPipeFitting* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFitting*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPipeFittingType>(const DB& db, const LIST& params, IfcPipeFittingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowFittingType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPipeSegment>(const DB& db, const LIST& params, IfcPipeSegment* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegment*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPipeSegmentType>(const DB& db, const LIST& params, IfcPipeSegmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowSegmentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlanarExtent>(const DB& db, const LIST& params, IfcPlanarExtent* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlanarBox>(const DB& db, const LIST& params, IfcPlanarBox* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPlanarExtent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlane>(const DB& db, const LIST& params, IfcPlane* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementarySurface*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPlane"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlate>(const DB& db, const LIST& params, IfcPlate* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlateStandardCase>(const DB& db, const LIST& params, IfcPlateStandardCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPlate*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPlateType>(const DB& db, const LIST& params, IfcPlateType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPointOnCurve>(const DB& db, const LIST& params, IfcPointOnCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPoint*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPointOnSurface>(const DB& db, const LIST& params, IfcPointOnSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPoint*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPolyLoop>(const DB& db, const LIST& params, IfcPolyLoop* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLoop*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPolyLoop"); } do { // convert the 'Polygon' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Polygon, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPolyLoop to be a `LIST [3:?] OF IfcCartesianPoint`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPolygonalBoundedHalfSpace>(const DB& db, const LIST& params, IfcPolygonalBoundedHalfSpace* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcHalfSpaceSolid*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPolygonalBoundedHalfSpace"); } do { // convert the 'Position' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Position, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPolygonalBoundedHalfSpace to be a `IfcAxis2Placement3D`")); }
+ } while(0);
+ do { // convert the 'PolygonalBoundary' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->PolygonalBoundary, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPolygonalBoundedHalfSpace to be a `IfcBoundedCurve`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTessellatedFaceSet>(const DB& db, const LIST& params, IfcTessellatedFaceSet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTessellatedItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPolygonalFaceSet>(const DB& db, const LIST& params, IfcPolygonalFaceSet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTessellatedFaceSet*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPolyline>(const DB& db, const LIST& params, IfcPolyline* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPolyline"); } do { // convert the 'Points' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Points, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPolyline to be a `LIST [2:?] OF IfcCartesianPoint`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPresentationStyleAssignment>(const DB& db, const LIST& params, IfcPresentationStyleAssignment* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcPresentationStyleAssignment"); } do { // convert the 'Styles' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Styles, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcPresentationStyleAssignment to be a `SET [1:?] OF IfcPresentationStyleSelect`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProcedure>(const DB& db, const LIST& params, IfcProcedure* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProcess*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProcedureType>(const DB& db, const LIST& params, IfcProcedureType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeProcess*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProductDefinitionShape>(const DB& db, const LIST& params, IfcProductDefinitionShape* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProductRepresentation*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProject>(const DB& db, const LIST& params, IfcProject* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcContext*>(in));
+ if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcProject"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProjectLibrary>(const DB& db, const LIST& params, IfcProjectLibrary* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcContext*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProjectOrder>(const DB& db, const LIST& params, IfcProjectOrder* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProjectionElement>(const DB& db, const LIST& params, IfcProjectionElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElementAddition*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSimpleProperty>(const DB& db, const LIST& params, IfcSimpleProperty* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProperty*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcSimpleProperty"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyBoundedValue>(const DB& db, const LIST& params, IfcPropertyBoundedValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyEnumeratedValue>(const DB& db, const LIST& params, IfcPropertyEnumeratedValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyListValue>(const DB& db, const LIST& params, IfcPropertyListValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertyListValue"); } do { // convert the 'ListValues' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ListValues, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPropertyListValue to be a `LIST [1:?] OF IfcValue`")); }
+ } while(0);
+ do { // convert the 'Unit' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Unit, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPropertyListValue to be a `IfcUnit`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyReferenceValue>(const DB& db, const LIST& params, IfcPropertyReferenceValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertySet>(const DB& db, const LIST& params, IfcPropertySet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPropertySetDefinition*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcPropertySet"); } do { // convert the 'HasProperties' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->HasProperties, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcPropertySet to be a `SET [1:?] OF IfcProperty`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertySingleValue>(const DB& db, const LIST& params, IfcPropertySingleValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcPropertySingleValue"); } do { // convert the 'NominalValue' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->NominalValue, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcPropertySingleValue to be a `IfcValue`")); }
+ } while(0);
+ do { // convert the 'Unit' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Unit, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcPropertySingleValue to be a `IfcUnit`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPropertyTableValue>(const DB& db, const LIST& params, IfcPropertyTableValue* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSimpleProperty*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProtectiveDevice>(const DB& db, const LIST& params, IfcProtectiveDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowController*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProtectiveDeviceTrippingUnit>(const DB& db, const LIST& params, IfcProtectiveDeviceTrippingUnit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProtectiveDeviceTrippingUnitType>(const DB& db, const LIST& params, IfcProtectiveDeviceTrippingUnitType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProtectiveDeviceType>(const DB& db, const LIST& params, IfcProtectiveDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcProxy>(const DB& db, const LIST& params, IfcProxy* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPump>(const DB& db, const LIST& params, IfcPump* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowMovingDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcPumpType>(const DB& db, const LIST& params, IfcPumpType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowMovingDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRailing>(const DB& db, const LIST& params, IfcRailing* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRailingType>(const DB& db, const LIST& params, IfcRailingType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRamp>(const DB& db, const LIST& params, IfcRamp* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRampFlight>(const DB& db, const LIST& params, IfcRampFlight* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRampFlightType>(const DB& db, const LIST& params, IfcRampFlightType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRampType>(const DB& db, const LIST& params, IfcRampType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRationalBSplineCurveWithKnots>(const DB& db, const LIST& params, IfcRationalBSplineCurveWithKnots* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBSplineCurveWithKnots*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRationalBSplineSurfaceWithKnots>(const DB& db, const LIST& params, IfcRationalBSplineSurfaceWithKnots* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBSplineSurfaceWithKnots*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRectangleProfileDef>(const DB& db, const LIST& params, IfcRectangleProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcRectangleProfileDef"); } do { // convert the 'XDim' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRectangleProfileDef,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->XDim, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRectangleProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'YDim' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRectangleProfileDef,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->YDim, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRectangleProfileDef to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRectangleHollowProfileDef>(const DB& db, const LIST& params, IfcRectangleHollowProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRectangleProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRectangularPyramid>(const DB& db, const LIST& params, IfcRectangularPyramid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCsgPrimitive3D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRectangularTrimmedSurface>(const DB& db, const LIST& params, IfcRectangularTrimmedSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcReinforcingElement>(const DB& db, const LIST& params, IfcReinforcingElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcReinforcingBar>(const DB& db, const LIST& params, IfcReinforcingBar* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcReinforcingElementType>(const DB& db, const LIST& params, IfcReinforcingElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcReinforcingBarType>(const DB& db, const LIST& params, IfcReinforcingBarType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcReinforcingMesh>(const DB& db, const LIST& params, IfcReinforcingMesh* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcReinforcingMeshType>(const DB& db, const LIST& params, IfcReinforcingMeshType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelationship>(const DB& db, const LIST& params, IfcRelationship* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRoot*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRelationship"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelDecomposes>(const DB& db, const LIST& params, IfcRelDecomposes* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelationship*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRelDecomposes"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelAggregates>(const DB& db, const LIST& params, IfcRelAggregates* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelDecomposes*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelAggregates"); } do { // convert the 'RelatingObject' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatingObject, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelAggregates to be a `IfcObjectDefinition`")); }
+ } while(0);
+ do { // convert the 'RelatedObjects' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatedObjects, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelAggregates to be a `SET [1:?] OF IfcObjectDefinition`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelConnects>(const DB& db, const LIST& params, IfcRelConnects* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelationship*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRelConnects"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelContainedInSpatialStructure>(const DB& db, const LIST& params, IfcRelContainedInSpatialStructure* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelContainedInSpatialStructure"); } do { // convert the 'RelatedElements' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatedElements, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelContainedInSpatialStructure to be a `SET [1:?] OF IfcProduct`")); }
+ } while(0);
+ do { // convert the 'RelatingStructure' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatingStructure, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelContainedInSpatialStructure to be a `IfcSpatialElement`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelDefines>(const DB& db, const LIST& params, IfcRelDefines* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelationship*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRelDefines"); } return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelDefinesByProperties>(const DB& db, const LIST& params, IfcRelDefinesByProperties* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelDefines*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelDefinesByProperties"); } do { // convert the 'RelatedObjects' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatedObjects, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelDefinesByProperties to be a `SET [1:?] OF IfcObjectDefinition`")); }
+ } while(0);
+ do { // convert the 'RelatingPropertyDefinition' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatingPropertyDefinition, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelDefinesByProperties to be a `IfcPropertySetDefinitionSelect`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelFillsElement>(const DB& db, const LIST& params, IfcRelFillsElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelConnects*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelFillsElement"); } do { // convert the 'RelatingOpeningElement' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatingOpeningElement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelFillsElement to be a `IfcOpeningElement`")); }
+ } while(0);
+ do { // convert the 'RelatedBuildingElement' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatedBuildingElement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelFillsElement to be a `IfcElement`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRelVoidsElement>(const DB& db, const LIST& params, IfcRelVoidsElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRelDecomposes*>(in));
+ if (params.GetSize() < 6) { throw STEP::TypeError("expected 6 arguments to IfcRelVoidsElement"); } do { // convert the 'RelatingBuildingElement' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatingBuildingElement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcRelVoidsElement to be a `IfcElement`")); }
+ } while(0);
+ do { // convert the 'RelatedOpeningElement' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->RelatedOpeningElement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcRelVoidsElement to be a `IfcFeatureElementSubtraction`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcReparametrisedCompositeCurveSegment>(const DB& db, const LIST& params, IfcReparametrisedCompositeCurveSegment* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCompositeCurveSegment*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRepresentation>(const DB& db, const LIST& params, IfcRepresentation* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRepresentation"); } do { // convert the 'ContextOfItems' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRepresentation,4>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->ContextOfItems, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentation to be a `IfcRepresentationContext`")); }
+ } while(0);
+ do { // convert the 'RepresentationIdentifier' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRepresentation,4>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RepresentationIdentifier, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentation to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'RepresentationType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRepresentation,4>::aux_is_derived[2]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RepresentationType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRepresentation to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'Items' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRepresentation,4>::aux_is_derived[3]=true; break; }
+ try { GenericConvert( in->Items, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRepresentation to be a `SET [1:?] OF IfcRepresentationItem`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRepresentationMap>(const DB& db, const LIST& params, IfcRepresentationMap* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcRepresentationMap"); } do { // convert the 'MappingOrigin' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->MappingOrigin, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcRepresentationMap to be a `IfcAxis2Placement`")); }
+ } while(0);
+ do { // convert the 'MappedRepresentation' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->MappedRepresentation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcRepresentationMap to be a `IfcRepresentation`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRevolvedAreaSolid>(const DB& db, const LIST& params, IfcRevolvedAreaSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcRevolvedAreaSolid"); } do { // convert the 'Axis' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRevolvedAreaSolid,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Axis, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcRevolvedAreaSolid to be a `IfcAxis1Placement`")); }
+ } while(0);
+ do { // convert the 'Angle' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcRevolvedAreaSolid,2>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->Angle, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcRevolvedAreaSolid to be a `IfcPlaneAngleMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRevolvedAreaSolidTapered>(const DB& db, const LIST& params, IfcRevolvedAreaSolidTapered* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRevolvedAreaSolid*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRightCircularCone>(const DB& db, const LIST& params, IfcRightCircularCone* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCsgPrimitive3D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRightCircularCylinder>(const DB& db, const LIST& params, IfcRightCircularCylinder* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCsgPrimitive3D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRoof>(const DB& db, const LIST& params, IfcRoof* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRoofType>(const DB& db, const LIST& params, IfcRoofType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcRoundedRectangleProfileDef>(const DB& db, const LIST& params, IfcRoundedRectangleProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRectangleProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSIUnit>(const DB& db, const LIST& params, IfcSIUnit* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcNamedUnit*>(in));
+ if (params.GetSize() < 4) { throw STEP::TypeError("expected 4 arguments to IfcSIUnit"); } do { // convert the 'Prefix' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Prefix, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSIUnit to be a `IfcSIPrefix`")); }
+ } while(0);
+ do { // convert the 'Name' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSIUnit to be a `IfcSIUnitName`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSanitaryTerminal>(const DB& db, const LIST& params, IfcSanitaryTerminal* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSanitaryTerminalType>(const DB& db, const LIST& params, IfcSanitaryTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSeamCurve>(const DB& db, const LIST& params, IfcSeamCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSurfaceCurve*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSectionedSpine>(const DB& db, const LIST& params, IfcSectionedSpine* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSensor>(const DB& db, const LIST& params, IfcSensor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSensorType>(const DB& db, const LIST& params, IfcSensorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcShadingDevice>(const DB& db, const LIST& params, IfcShadingDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcShadingDeviceType>(const DB& db, const LIST& params, IfcShadingDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcShapeModel>(const DB& db, const LIST& params, IfcShapeModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentation*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcShapeRepresentation>(const DB& db, const LIST& params, IfcShapeRepresentation* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcShapeModel*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcShellBasedSurfaceModel>(const DB& db, const LIST& params, IfcShellBasedSurfaceModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcShellBasedSurfaceModel"); } do { // convert the 'SbsmBoundary' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->SbsmBoundary, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcShellBasedSurfaceModel to be a `SET [1:?] OF IfcShell`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSite>(const DB& db, const LIST& params, IfcSite* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElement*>(in));
+ if (params.GetSize() < 14) { throw STEP::TypeError("expected 14 arguments to IfcSite"); } do { // convert the 'RefLatitude' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RefLatitude, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcSite to be a `IfcCompoundPlaneAngleMeasure`")); }
+ } while(0);
+ do { // convert the 'RefLongitude' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RefLongitude, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcSite to be a `IfcCompoundPlaneAngleMeasure`")); }
+ } while(0);
+ do { // convert the 'RefElevation' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->RefElevation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 11 to IfcSite to be a `IfcLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'LandTitleNumber' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->LandTitleNumber, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 12 to IfcSite to be a `IfcLabel`")); }
+ } while(0);
+ do { // convert the 'SiteAddress' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->SiteAddress, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 13 to IfcSite to be a `IfcPostalAddress`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSlab>(const DB& db, const LIST& params, IfcSlab* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSlabElementedCase>(const DB& db, const LIST& params, IfcSlabElementedCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSlab*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSlabStandardCase>(const DB& db, const LIST& params, IfcSlabStandardCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSlab*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSlabType>(const DB& db, const LIST& params, IfcSlabType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSolarDevice>(const DB& db, const LIST& params, IfcSolarDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSolarDeviceType>(const DB& db, const LIST& params, IfcSolarDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpace>(const DB& db, const LIST& params, IfcSpace* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElement*>(in));
+ if (params.GetSize() < 11) { throw STEP::TypeError("expected 11 arguments to IfcSpace"); } do { // convert the 'PredefinedType' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->PredefinedType, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 9 to IfcSpace to be a `IfcSpaceTypeEnum`")); }
+ } while(0);
+ do { // convert the 'ElevationWithFlooring' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ElevationWithFlooring, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 10 to IfcSpace to be a `IfcLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpaceHeater>(const DB& db, const LIST& params, IfcSpaceHeater* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpaceHeaterType>(const DB& db, const LIST& params, IfcSpaceHeaterType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpatialElementType>(const DB& db, const LIST& params, IfcSpatialElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpatialStructureElementType>(const DB& db, const LIST& params, IfcSpatialStructureElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpaceType>(const DB& db, const LIST& params, IfcSpaceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialStructureElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpatialZone>(const DB& db, const LIST& params, IfcSpatialZone* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSpatialZoneType>(const DB& db, const LIST& params, IfcSpatialZoneType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSpatialElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSphere>(const DB& db, const LIST& params, IfcSphere* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcCsgPrimitive3D*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSphericalSurface>(const DB& db, const LIST& params, IfcSphericalSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementarySurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStackTerminal>(const DB& db, const LIST& params, IfcStackTerminal* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStackTerminalType>(const DB& db, const LIST& params, IfcStackTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStair>(const DB& db, const LIST& params, IfcStair* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStairFlight>(const DB& db, const LIST& params, IfcStairFlight* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStairFlightType>(const DB& db, const LIST& params, IfcStairFlightType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStairType>(const DB& db, const LIST& params, IfcStairType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralActivity>(const DB& db, const LIST& params, IfcStructuralActivity* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralAction>(const DB& db, const LIST& params, IfcStructuralAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralActivity*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralAnalysisModel>(const DB& db, const LIST& params, IfcStructuralAnalysisModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSystem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralItem>(const DB& db, const LIST& params, IfcStructuralItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralConnection>(const DB& db, const LIST& params, IfcStructuralConnection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralCurveAction>(const DB& db, const LIST& params, IfcStructuralCurveAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralAction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralCurveConnection>(const DB& db, const LIST& params, IfcStructuralCurveConnection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralConnection*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralMember>(const DB& db, const LIST& params, IfcStructuralMember* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralCurveMember>(const DB& db, const LIST& params, IfcStructuralCurveMember* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralMember*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralCurveMemberVarying>(const DB& db, const LIST& params, IfcStructuralCurveMemberVarying* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralCurveMember*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralReaction>(const DB& db, const LIST& params, IfcStructuralReaction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralActivity*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralCurveReaction>(const DB& db, const LIST& params, IfcStructuralCurveReaction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralReaction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralLinearAction>(const DB& db, const LIST& params, IfcStructuralLinearAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralCurveAction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralLoadGroup>(const DB& db, const LIST& params, IfcStructuralLoadGroup* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralLoadCase>(const DB& db, const LIST& params, IfcStructuralLoadCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralLoadGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralSurfaceAction>(const DB& db, const LIST& params, IfcStructuralSurfaceAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralAction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralPlanarAction>(const DB& db, const LIST& params, IfcStructuralPlanarAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralSurfaceAction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralPointAction>(const DB& db, const LIST& params, IfcStructuralPointAction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralAction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralPointConnection>(const DB& db, const LIST& params, IfcStructuralPointConnection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralConnection*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralPointReaction>(const DB& db, const LIST& params, IfcStructuralPointReaction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralReaction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralResultGroup>(const DB& db, const LIST& params, IfcStructuralResultGroup* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGroup*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralSurfaceConnection>(const DB& db, const LIST& params, IfcStructuralSurfaceConnection* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralConnection*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralSurfaceMember>(const DB& db, const LIST& params, IfcStructuralSurfaceMember* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralMember*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralSurfaceMemberVarying>(const DB& db, const LIST& params, IfcStructuralSurfaceMemberVarying* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralSurfaceMember*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStructuralSurfaceReaction>(const DB& db, const LIST& params, IfcStructuralSurfaceReaction* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStructuralReaction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStyleModel>(const DB& db, const LIST& params, IfcStyleModel* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentation*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStyledItem>(const DB& db, const LIST& params, IfcStyledItem* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcRepresentationItem*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcStyledItem"); } do { // convert the 'Item' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Item, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcStyledItem to be a `IfcRepresentationItem`")); }
+ } while(0);
+ do { // convert the 'Styles' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Styles, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcStyledItem to be a `SET [1:?] OF IfcStyleAssignmentSelect`")); }
+ } while(0);
+ do { // convert the 'Name' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Name, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcStyledItem to be a `IfcLabel`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcStyledRepresentation>(const DB& db, const LIST& params, IfcStyledRepresentation* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcStyleModel*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSubContractResource>(const DB& db, const LIST& params, IfcSubContractResource* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResource*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSubContractResourceType>(const DB& db, const LIST& params, IfcSubContractResourceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcConstructionResourceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSubedge>(const DB& db, const LIST& params, IfcSubedge* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEdge*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceCurveSweptAreaSolid>(const DB& db, const LIST& params, IfcSurfaceCurveSweptAreaSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptAreaSolid*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceFeature>(const DB& db, const LIST& params, IfcSurfaceFeature* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSweptSurface>(const DB& db, const LIST& params, IfcSweptSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceOfLinearExtrusion>(const DB& db, const LIST& params, IfcSurfaceOfLinearExtrusion* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceOfRevolution>(const DB& db, const LIST& params, IfcSurfaceOfRevolution* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptSurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceStyle>(const DB& db, const LIST& params, IfcSurfaceStyle* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPresentationStyle*>(in));
+ if (params.GetSize() < 3) { throw STEP::TypeError("expected 3 arguments to IfcSurfaceStyle"); } do { // convert the 'Side' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Side, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSurfaceStyle to be a `IfcSurfaceSide`")); }
+ } while(0);
+ do { // convert the 'Styles' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Styles, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSurfaceStyle to be a `SET [1:5] OF IfcSurfaceStyleElementSelect`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceStyleShading>(const DB& db, const LIST& params, IfcSurfaceStyleShading* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPresentationItem*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcSurfaceStyleShading"); } do { // convert the 'SurfaceColour' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSurfaceStyleShading,2>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->SurfaceColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSurfaceStyleShading to be a `IfcColourRgb`")); }
+ } while(0);
+ do { // convert the 'Transparency' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSurfaceStyleShading,2>::aux_is_derived[1]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->Transparency, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSurfaceStyleShading to be a `IfcNormalisedRatioMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceStyleRendering>(const DB& db, const LIST& params, IfcSurfaceStyleRendering* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSurfaceStyleShading*>(in));
+ if (params.GetSize() < 9) { throw STEP::TypeError("expected 9 arguments to IfcSurfaceStyleRendering"); } do { // convert the 'DiffuseColour' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->DiffuseColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
+ } while(0);
+ do { // convert the 'TransmissionColour' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->TransmissionColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
+ } while(0);
+ do { // convert the 'DiffuseTransmissionColour' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->DiffuseTransmissionColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
+ } while(0);
+ do { // convert the 'ReflectionColour' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->ReflectionColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 5 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
+ } while(0);
+ do { // convert the 'SpecularColour' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->SpecularColour, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 6 to IfcSurfaceStyleRendering to be a `IfcColourOrFactor`")); }
+ } while(0);
+ do { // convert the 'SpecularHighlight' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->SpecularHighlight, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 7 to IfcSurfaceStyleRendering to be a `IfcSpecularHighlightSelect`")); }
+ } while(0);
+ do { // convert the 'ReflectanceMethod' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->ReflectanceMethod, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 8 to IfcSurfaceStyleRendering to be a `IfcReflectanceMethodEnum`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSurfaceStyleWithTextures>(const DB& db, const LIST& params, IfcSurfaceStyleWithTextures* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcPresentationItem*>(in));
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcSurfaceStyleWithTextures"); } do { // convert the 'Textures' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Textures, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSurfaceStyleWithTextures to be a `LIST [1:?] OF IfcSurfaceTexture`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSweptDiskSolid>(const DB& db, const LIST& params, IfcSweptDiskSolid* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSolidModel*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcSweptDiskSolid"); } do { // convert the 'Directrix' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSweptDiskSolid,5>::aux_is_derived[0]=true; break; }
+ try { GenericConvert( in->Directrix, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcSweptDiskSolid to be a `IfcCurve`")); }
+ } while(0);
+ do { // convert the 'Radius' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSweptDiskSolid,5>::aux_is_derived[1]=true; break; }
+ try { GenericConvert( in->Radius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcSweptDiskSolid to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'InnerRadius' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSweptDiskSolid,5>::aux_is_derived[2]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->InnerRadius, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcSweptDiskSolid to be a `IfcPositiveLengthMeasure`")); }
+ } while(0);
+ do { // convert the 'StartParam' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSweptDiskSolid,5>::aux_is_derived[3]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->StartParam, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcSweptDiskSolid to be a `IfcParameterValue`")); }
+ } while(0);
+ do { // convert the 'EndParam' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ if (dynamic_cast<const ISDERIVED*>(&*arg)) { in->ObjectHelper<Assimp::IFC::IfcSweptDiskSolid,5>::aux_is_derived[4]=true; break; }
+ if (dynamic_cast<const UNSET*>(&*arg)) break;
+ try { GenericConvert( in->EndParam, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcSweptDiskSolid to be a `IfcParameterValue`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSweptDiskSolidPolygonal>(const DB& db, const LIST& params, IfcSweptDiskSolidPolygonal* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSweptDiskSolid*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSwitchingDevice>(const DB& db, const LIST& params, IfcSwitchingDevice* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowController*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSwitchingDeviceType>(const DB& db, const LIST& params, IfcSwitchingDeviceType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSystemFurnitureElement>(const DB& db, const LIST& params, IfcSystemFurnitureElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFurnishingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcSystemFurnitureElementType>(const DB& db, const LIST& params, IfcSystemFurnitureElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFurnishingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTShapeProfileDef>(const DB& db, const LIST& params, IfcTShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTank>(const DB& db, const LIST& params, IfcTank* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowStorageDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTankType>(const DB& db, const LIST& params, IfcTankType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowStorageDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTask>(const DB& db, const LIST& params, IfcTask* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcProcess*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTaskType>(const DB& db, const LIST& params, IfcTaskType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeProcess*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTendon>(const DB& db, const LIST& params, IfcTendon* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTendonAnchor>(const DB& db, const LIST& params, IfcTendonAnchor* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTendonAnchorType>(const DB& db, const LIST& params, IfcTendonAnchorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTendonType>(const DB& db, const LIST& params, IfcTendonType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcReinforcingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTextLiteral>(const DB& db, const LIST& params, IfcTextLiteral* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTextLiteralWithExtent>(const DB& db, const LIST& params, IfcTextLiteralWithExtent* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTextLiteral*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTopologyRepresentation>(const DB& db, const LIST& params, IfcTopologyRepresentation* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcShapeModel*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcToroidalSurface>(const DB& db, const LIST& params, IfcToroidalSurface* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementarySurface*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTransformer>(const DB& db, const LIST& params, IfcTransformer* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTransformerType>(const DB& db, const LIST& params, IfcTransformerType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTransportElement>(const DB& db, const LIST& params, IfcTransportElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTransportElementType>(const DB& db, const LIST& params, IfcTransportElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTrapeziumProfileDef>(const DB& db, const LIST& params, IfcTrapeziumProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTriangulatedFaceSet>(const DB& db, const LIST& params, IfcTriangulatedFaceSet* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTessellatedFaceSet*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTrimmedCurve>(const DB& db, const LIST& params, IfcTrimmedCurve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBoundedCurve*>(in));
+ if (params.GetSize() < 5) { throw STEP::TypeError("expected 5 arguments to IfcTrimmedCurve"); } do { // convert the 'BasisCurve' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->BasisCurve, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcTrimmedCurve to be a `IfcCurve`")); }
+ } while(0);
+ do { // convert the 'Trim1' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Trim1, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcTrimmedCurve to be a `SET [1:2] OF IfcTrimmingSelect`")); }
+ } while(0);
+ do { // convert the 'Trim2' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Trim2, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 2 to IfcTrimmedCurve to be a `SET [1:2] OF IfcTrimmingSelect`")); }
+ } while(0);
+ do { // convert the 'SenseAgreement' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->SenseAgreement, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 3 to IfcTrimmedCurve to be a `IfcBoolean`")); }
+ } while(0);
+ do { // convert the 'MasterRepresentation' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->MasterRepresentation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 4 to IfcTrimmedCurve to be a `IfcTrimmingPreference`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTubeBundle>(const DB& db, const LIST& params, IfcTubeBundle* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcTubeBundleType>(const DB& db, const LIST& params, IfcTubeBundleType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcUShapeProfileDef>(const DB& db, const LIST& params, IfcUShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcUnitAssignment>(const DB& db, const LIST& params, IfcUnitAssignment* in)
+{
+ size_t base = 0;
+ if (params.GetSize() < 1) { throw STEP::TypeError("expected 1 arguments to IfcUnitAssignment"); } do { // convert the 'Units' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Units, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcUnitAssignment to be a `SET [1:?] OF IfcUnit`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcUnitaryControlElement>(const DB& db, const LIST& params, IfcUnitaryControlElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcUnitaryControlElementType>(const DB& db, const LIST& params, IfcUnitaryControlElementType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcDistributionControlElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcUnitaryEquipment>(const DB& db, const LIST& params, IfcUnitaryEquipment* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDevice*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcUnitaryEquipmentType>(const DB& db, const LIST& params, IfcUnitaryEquipmentType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcEnergyConversionDeviceType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcValve>(const DB& db, const LIST& params, IfcValve* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowController*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcValveType>(const DB& db, const LIST& params, IfcValveType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowControllerType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVector>(const DB& db, const LIST& params, IfcVector* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcGeometricRepresentationItem*>(in));
+ if (params.GetSize() < 2) { throw STEP::TypeError("expected 2 arguments to IfcVector"); } do { // convert the 'Orientation' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Orientation, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 0 to IfcVector to be a `IfcDirection`")); }
+ } while(0);
+ do { // convert the 'Magnitude' argument
+ boost::shared_ptr<const DataType> arg = params[base++];
+ try { GenericConvert( in->Magnitude, arg, db ); break; }
+ catch (const TypeError& t) { throw TypeError(t.what() + std::string(" - expected argument 1 to IfcVector to be a `IfcLengthMeasure`")); }
+ } while(0);
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVertex>(const DB& db, const LIST& params, IfcVertex* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTopologicalRepresentationItem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVertexLoop>(const DB& db, const LIST& params, IfcVertexLoop* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcLoop*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVertexPoint>(const DB& db, const LIST& params, IfcVertexPoint* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcVertex*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVibrationIsolator>(const DB& db, const LIST& params, IfcVibrationIsolator* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponent*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVibrationIsolatorType>(const DB& db, const LIST& params, IfcVibrationIsolatorType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElementComponentType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVirtualElement>(const DB& db, const LIST& params, IfcVirtualElement* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcVoidingFeature>(const DB& db, const LIST& params, IfcVoidingFeature* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFeatureElementSubtraction*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWall>(const DB& db, const LIST& params, IfcWall* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWallElementedCase>(const DB& db, const LIST& params, IfcWallElementedCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcWall*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWallStandardCase>(const DB& db, const LIST& params, IfcWallStandardCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcWall*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWallType>(const DB& db, const LIST& params, IfcWallType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWasteTerminal>(const DB& db, const LIST& params, IfcWasteTerminal* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminal*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWasteTerminalType>(const DB& db, const LIST& params, IfcWasteTerminalType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcFlowTerminalType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWindow>(const DB& db, const LIST& params, IfcWindow* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElement*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWindowStandardCase>(const DB& db, const LIST& params, IfcWindowStandardCase* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcWindow*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWindowStyle>(const DB& db, const LIST& params, IfcWindowStyle* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcTypeProduct*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWindowType>(const DB& db, const LIST& params, IfcWindowType* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcBuildingElementType*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWorkCalendar>(const DB& db, const LIST& params, IfcWorkCalendar* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWorkControl>(const DB& db, const LIST& params, IfcWorkControl* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWorkPlan>(const DB& db, const LIST& params, IfcWorkPlan* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcWorkControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcWorkSchedule>(const DB& db, const LIST& params, IfcWorkSchedule* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcWorkControl*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcZShapeProfileDef>(const DB& db, const LIST& params, IfcZShapeProfileDef* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcParameterizedProfileDef*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+// -----------------------------------------------------------------------------------------------------------
+template <> size_t GenericFill<IfcZone>(const DB& db, const LIST& params, IfcZone* in)
+{
+ size_t base = GenericFill(db,params,static_cast<IfcSystem*>(in));
+// this data structure is not used yet, so there is no code generated to fill its members
+ return base;
+}
+
+} // ! STEP
+} // ! Assimp
+
+#endif
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_4.h b/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_4.h
new file mode 100644
index 0000000..abf0219
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCReaderGen_4.h
@@ -0,0 +1,5452 @@
+/*
+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 {
+namespace Schema_4 {
+
+ using namespace STEP;
+ using namespace STEP::EXPRESS;
+
+
+ struct NotImplemented : public ObjectHelper<NotImplemented,0> {
+
+ };
+
+
+ // ******************************************************************************
+ // IFC Custom data types
+ // ******************************************************************************
+
+
+ // C++ wrapper type for IfcStrippedOptional
+ typedef BOOLEAN IfcStrippedOptional;
+ // C++ wrapper type for IfcAbsorbedDoseMeasure
+ typedef REAL IfcAbsorbedDoseMeasure;
+ // C++ wrapper type for IfcAccelerationMeasure
+ typedef REAL IfcAccelerationMeasure;
+ // C++ wrapper type for IfcAmountOfSubstanceMeasure
+ typedef REAL IfcAmountOfSubstanceMeasure;
+ // C++ wrapper type for IfcAngularVelocityMeasure
+ typedef REAL IfcAngularVelocityMeasure;
+ // C++ wrapper type for IfcArcIndex
+ typedef ListOf< INTEGER, 3, 3 > IfcArcIndex;
+ // C++ wrapper type for IfcAreaDensityMeasure
+ typedef REAL IfcAreaDensityMeasure;
+ // C++ wrapper type for IfcAreaMeasure
+ typedef REAL IfcAreaMeasure;
+ // C++ wrapper type for IfcBoolean
+ typedef BOOLEAN IfcBoolean;
+ // C++ wrapper type for IfcBoxAlignment
+ typedef STRING IfcBoxAlignment;
+ // C++ wrapper type for IfcCardinalPointReference
+ typedef INTEGER IfcCardinalPointReference;
+ // C++ wrapper type for IfcCompoundPlaneAngleMeasure
+ typedef ListOf< INTEGER, 3, 4 > IfcCompoundPlaneAngleMeasure;
+ // C++ wrapper type for IfcContextDependentMeasure
+ typedef REAL IfcContextDependentMeasure;
+ // C++ wrapper type for IfcCountMeasure
+ typedef NUMBER IfcCountMeasure;
+ // C++ wrapper type for IfcCurvatureMeasure
+ typedef REAL IfcCurvatureMeasure;
+ // C++ wrapper type for IfcDate
+ typedef STRING IfcDate;
+ // C++ wrapper type for IfcDateTime
+ typedef STRING IfcDateTime;
+ // C++ wrapper type for IfcDayInMonthNumber
+ typedef INTEGER IfcDayInMonthNumber;
+ // C++ wrapper type for IfcDayInWeekNumber
+ typedef INTEGER IfcDayInWeekNumber;
+ // C++ wrapper type for IfcDescriptiveMeasure
+ typedef STRING IfcDescriptiveMeasure;
+ // C++ wrapper type for IfcDimensionCount
+ typedef INTEGER IfcDimensionCount;
+ // C++ wrapper type for IfcDoseEquivalentMeasure
+ typedef REAL IfcDoseEquivalentMeasure;
+ // C++ wrapper type for IfcDuration
+ typedef STRING IfcDuration;
+ // C++ wrapper type for IfcDynamicViscosityMeasure
+ typedef REAL IfcDynamicViscosityMeasure;
+ // C++ wrapper type for IfcElectricCapacitanceMeasure
+ typedef REAL IfcElectricCapacitanceMeasure;
+ // C++ wrapper type for IfcElectricChargeMeasure
+ typedef REAL IfcElectricChargeMeasure;
+ // C++ wrapper type for IfcElectricConductanceMeasure
+ typedef REAL IfcElectricConductanceMeasure;
+ // C++ wrapper type for IfcElectricCurrentMeasure
+ typedef REAL IfcElectricCurrentMeasure;
+ // C++ wrapper type for IfcElectricResistanceMeasure
+ typedef REAL IfcElectricResistanceMeasure;
+ // C++ wrapper type for IfcElectricVoltageMeasure
+ typedef REAL IfcElectricVoltageMeasure;
+ // C++ wrapper type for IfcEnergyMeasure
+ typedef REAL IfcEnergyMeasure;
+ // C++ wrapper type for IfcFontStyle
+ typedef STRING IfcFontStyle;
+ // C++ wrapper type for IfcFontVariant
+ typedef STRING IfcFontVariant;
+ // C++ wrapper type for IfcFontWeight
+ typedef STRING IfcFontWeight;
+ // C++ wrapper type for IfcForceMeasure
+ typedef REAL IfcForceMeasure;
+ // C++ wrapper type for IfcFrequencyMeasure
+ typedef REAL IfcFrequencyMeasure;
+ // C++ wrapper type for IfcGloballyUniqueId
+ typedef STRING IfcGloballyUniqueId;
+ // C++ wrapper type for IfcHeatFluxDensityMeasure
+ typedef REAL IfcHeatFluxDensityMeasure;
+ // C++ wrapper type for IfcHeatingValueMeasure
+ typedef REAL IfcHeatingValueMeasure;
+ // C++ wrapper type for IfcIdentifier
+ typedef STRING IfcIdentifier;
+ // C++ wrapper type for IfcIlluminanceMeasure
+ typedef REAL IfcIlluminanceMeasure;
+ // C++ wrapper type for IfcInductanceMeasure
+ typedef REAL IfcInductanceMeasure;
+ // C++ wrapper type for IfcInteger
+ typedef INTEGER IfcInteger;
+ // C++ wrapper type for IfcIntegerCountRateMeasure
+ typedef INTEGER IfcIntegerCountRateMeasure;
+ // C++ wrapper type for IfcIonConcentrationMeasure
+ typedef REAL IfcIonConcentrationMeasure;
+ // C++ wrapper type for IfcIsothermalMoistureCapacityMeasure
+ typedef REAL IfcIsothermalMoistureCapacityMeasure;
+ // C++ wrapper type for IfcKinematicViscosityMeasure
+ typedef REAL IfcKinematicViscosityMeasure;
+ // C++ wrapper type for IfcLabel
+ typedef STRING IfcLabel;
+ // C++ wrapper type for IfcLanguageId
+ typedef STRING IfcLanguageId;
+ // C++ wrapper type for IfcLengthMeasure
+ typedef REAL IfcLengthMeasure;
+ // C++ wrapper type for IfcLineIndex
+ typedef ListOf< INTEGER, 2, 0 > IfcLineIndex;
+ // C++ wrapper type for IfcLinearForceMeasure
+ typedef REAL IfcLinearForceMeasure;
+ // C++ wrapper type for IfcLinearMomentMeasure
+ typedef REAL IfcLinearMomentMeasure;
+ // C++ wrapper type for IfcLinearStiffnessMeasure
+ typedef REAL IfcLinearStiffnessMeasure;
+ // C++ wrapper type for IfcLinearVelocityMeasure
+ typedef REAL IfcLinearVelocityMeasure;
+ // C++ wrapper type for IfcLogical
+ typedef LOGICAL IfcLogical;
+ // C++ wrapper type for IfcLuminousFluxMeasure
+ typedef REAL IfcLuminousFluxMeasure;
+ // C++ wrapper type for IfcLuminousIntensityDistributionMeasure
+ typedef REAL IfcLuminousIntensityDistributionMeasure;
+ // C++ wrapper type for IfcLuminousIntensityMeasure
+ typedef REAL IfcLuminousIntensityMeasure;
+ // C++ wrapper type for IfcMagneticFluxDensityMeasure
+ typedef REAL IfcMagneticFluxDensityMeasure;
+ // C++ wrapper type for IfcMagneticFluxMeasure
+ typedef REAL IfcMagneticFluxMeasure;
+ // C++ wrapper type for IfcMassDensityMeasure
+ typedef REAL IfcMassDensityMeasure;
+ // C++ wrapper type for IfcMassFlowRateMeasure
+ typedef REAL IfcMassFlowRateMeasure;
+ // C++ wrapper type for IfcMassMeasure
+ typedef REAL IfcMassMeasure;
+ // C++ wrapper type for IfcMassPerLengthMeasure
+ typedef REAL IfcMassPerLengthMeasure;
+ // C++ wrapper type for IfcModulusOfElasticityMeasure
+ typedef REAL IfcModulusOfElasticityMeasure;
+ // C++ wrapper type for IfcModulusOfLinearSubgradeReactionMeasure
+ typedef REAL IfcModulusOfLinearSubgradeReactionMeasure;
+ // C++ wrapper type for IfcModulusOfRotationalSubgradeReactionMeasure
+ typedef REAL IfcModulusOfRotationalSubgradeReactionMeasure;
+ // C++ wrapper type for IfcModulusOfSubgradeReactionMeasure
+ typedef REAL IfcModulusOfSubgradeReactionMeasure;
+ // C++ wrapper type for IfcMoistureDiffusivityMeasure
+ typedef REAL IfcMoistureDiffusivityMeasure;
+ // C++ wrapper type for IfcMolecularWeightMeasure
+ typedef REAL IfcMolecularWeightMeasure;
+ // C++ wrapper type for IfcMomentOfInertiaMeasure
+ typedef REAL IfcMomentOfInertiaMeasure;
+ // C++ wrapper type for IfcMonetaryMeasure
+ typedef REAL IfcMonetaryMeasure;
+ // C++ wrapper type for IfcMonthInYearNumber
+ typedef INTEGER IfcMonthInYearNumber;
+ // C++ wrapper type for IfcNonNegativeLengthMeasure
+ typedef REAL IfcNonNegativeLengthMeasure;
+ // C++ wrapper type for IfcNormalisedRatioMeasure
+ typedef REAL IfcNormalisedRatioMeasure;
+ // C++ wrapper type for IfcNumericMeasure
+ typedef NUMBER IfcNumericMeasure;
+ // C++ wrapper type for IfcPHMeasure
+ typedef REAL IfcPHMeasure;
+ // C++ wrapper type for IfcParameterValue
+ typedef REAL IfcParameterValue;
+ // C++ wrapper type for IfcPlanarForceMeasure
+ typedef REAL IfcPlanarForceMeasure;
+ // C++ wrapper type for IfcPlaneAngleMeasure
+ typedef REAL IfcPlaneAngleMeasure;
+ // C++ wrapper type for IfcPositiveInteger
+ typedef INTEGER IfcPositiveInteger;
+ // C++ wrapper type for IfcPositiveLengthMeasure
+ typedef REAL IfcPositiveLengthMeasure;
+ // C++ wrapper type for IfcPositivePlaneAngleMeasure
+ typedef REAL IfcPositivePlaneAngleMeasure;
+ // C++ wrapper type for IfcPositiveRatioMeasure
+ typedef REAL IfcPositiveRatioMeasure;
+ // C++ wrapper type for IfcPowerMeasure
+ typedef REAL IfcPowerMeasure;
+ // C++ wrapper type for IfcPresentableText
+ typedef STRING IfcPresentableText;
+ // C++ wrapper type for IfcPressureMeasure
+ typedef REAL IfcPressureMeasure;
+ // C++ wrapper type for IfcRadioActivityMeasure
+ typedef REAL IfcRadioActivityMeasure;
+ // C++ wrapper type for IfcRatioMeasure
+ typedef REAL IfcRatioMeasure;
+ // C++ wrapper type for IfcReal
+ typedef REAL IfcReal;
+ // C++ wrapper type for IfcRotationalFrequencyMeasure
+ typedef REAL IfcRotationalFrequencyMeasure;
+ // C++ wrapper type for IfcRotationalMassMeasure
+ typedef REAL IfcRotationalMassMeasure;
+ // C++ wrapper type for IfcRotationalStiffnessMeasure
+ typedef REAL IfcRotationalStiffnessMeasure;
+ // C++ wrapper type for IfcSectionModulusMeasure
+ typedef REAL IfcSectionModulusMeasure;
+ // C++ wrapper type for IfcSectionalAreaIntegralMeasure
+ typedef REAL IfcSectionalAreaIntegralMeasure;
+ // C++ wrapper type for IfcShearModulusMeasure
+ typedef REAL IfcShearModulusMeasure;
+ // C++ wrapper type for IfcSolidAngleMeasure
+ typedef REAL IfcSolidAngleMeasure;
+ // C++ wrapper type for IfcSoundPowerLevelMeasure
+ typedef REAL IfcSoundPowerLevelMeasure;
+ // C++ wrapper type for IfcSoundPowerMeasure
+ typedef REAL IfcSoundPowerMeasure;
+ // C++ wrapper type for IfcSoundPressureLevelMeasure
+ typedef REAL IfcSoundPressureLevelMeasure;
+ // C++ wrapper type for IfcSoundPressureMeasure
+ typedef REAL IfcSoundPressureMeasure;
+ // C++ wrapper type for IfcSpecificHeatCapacityMeasure
+ typedef REAL IfcSpecificHeatCapacityMeasure;
+ // C++ wrapper type for IfcSpecularExponent
+ typedef REAL IfcSpecularExponent;
+ // C++ wrapper type for IfcSpecularRoughness
+ typedef REAL IfcSpecularRoughness;
+ // C++ wrapper type for IfcTemperatureGradientMeasure
+ typedef REAL IfcTemperatureGradientMeasure;
+ // C++ wrapper type for IfcTemperatureRateOfChangeMeasure
+ typedef REAL IfcTemperatureRateOfChangeMeasure;
+ // C++ wrapper type for IfcText
+ typedef STRING IfcText;
+ // C++ wrapper type for IfcTextAlignment
+ typedef STRING IfcTextAlignment;
+ // C++ wrapper type for IfcTextDecoration
+ typedef STRING IfcTextDecoration;
+ // C++ wrapper type for IfcTextFontName
+ typedef STRING IfcTextFontName;
+ // C++ wrapper type for IfcTextTransformation
+ typedef STRING IfcTextTransformation;
+ // C++ wrapper type for IfcThermalAdmittanceMeasure
+ typedef REAL IfcThermalAdmittanceMeasure;
+ // C++ wrapper type for IfcThermalConductivityMeasure
+ typedef REAL IfcThermalConductivityMeasure;
+ // C++ wrapper type for IfcThermalExpansionCoefficientMeasure
+ typedef REAL IfcThermalExpansionCoefficientMeasure;
+ // C++ wrapper type for IfcThermalResistanceMeasure
+ typedef REAL IfcThermalResistanceMeasure;
+ // C++ wrapper type for IfcThermalTransmittanceMeasure
+ typedef REAL IfcThermalTransmittanceMeasure;
+ // C++ wrapper type for IfcThermodynamicTemperatureMeasure
+ typedef REAL IfcThermodynamicTemperatureMeasure;
+ // C++ wrapper type for IfcTime
+ typedef STRING IfcTime;
+ // C++ wrapper type for IfcTimeMeasure
+ typedef REAL IfcTimeMeasure;
+ // C++ wrapper type for IfcTimeStamp
+ typedef INTEGER IfcTimeStamp;
+ // C++ wrapper type for IfcTorqueMeasure
+ typedef REAL IfcTorqueMeasure;
+ // C++ wrapper type for IfcURIReference
+ typedef STRING IfcURIReference;
+ // C++ wrapper type for IfcVaporPermeabilityMeasure
+ typedef REAL IfcVaporPermeabilityMeasure;
+ // C++ wrapper type for IfcVolumeMeasure
+ typedef REAL IfcVolumeMeasure;
+ // C++ wrapper type for IfcVolumetricFlowRateMeasure
+ typedef REAL IfcVolumetricFlowRateMeasure;
+ // C++ wrapper type for IfcWarpingConstantMeasure
+ typedef REAL IfcWarpingConstantMeasure;
+ // C++ wrapper type for IfcWarpingMomentMeasure
+ typedef REAL IfcWarpingMomentMeasure;
+ // C++ wrapper type for IfcActionRequestTypeEnum
+ typedef ENUMERATION IfcActionRequestTypeEnum;
+ // C++ wrapper type for IfcActionSourceTypeEnum
+ typedef ENUMERATION IfcActionSourceTypeEnum;
+ // C++ wrapper type for IfcActionTypeEnum
+ typedef ENUMERATION IfcActionTypeEnum;
+ // C++ wrapper type for IfcActuatorTypeEnum
+ typedef ENUMERATION IfcActuatorTypeEnum;
+ // C++ wrapper type for IfcAddressTypeEnum
+ typedef ENUMERATION IfcAddressTypeEnum;
+ // C++ wrapper type for IfcAirTerminalBoxTypeEnum
+ typedef ENUMERATION IfcAirTerminalBoxTypeEnum;
+ // C++ wrapper type for IfcAirTerminalTypeEnum
+ typedef ENUMERATION IfcAirTerminalTypeEnum;
+ // C++ wrapper type for IfcAirToAirHeatRecoveryTypeEnum
+ typedef ENUMERATION IfcAirToAirHeatRecoveryTypeEnum;
+ // C++ wrapper type for IfcAlarmTypeEnum
+ typedef ENUMERATION IfcAlarmTypeEnum;
+ // C++ wrapper type for IfcAnalysisModelTypeEnum
+ typedef ENUMERATION IfcAnalysisModelTypeEnum;
+ // C++ wrapper type for IfcAnalysisTheoryTypeEnum
+ typedef ENUMERATION IfcAnalysisTheoryTypeEnum;
+ // C++ wrapper type for IfcArithmeticOperatorEnum
+ typedef ENUMERATION IfcArithmeticOperatorEnum;
+ // C++ wrapper type for IfcAssemblyPlaceEnum
+ typedef ENUMERATION IfcAssemblyPlaceEnum;
+ // C++ wrapper type for IfcAudioVisualApplianceTypeEnum
+ typedef ENUMERATION IfcAudioVisualApplianceTypeEnum;
+ // C++ wrapper type for IfcBSplineCurveForm
+ typedef ENUMERATION IfcBSplineCurveForm;
+ // C++ wrapper type for IfcBSplineSurfaceForm
+ typedef ENUMERATION IfcBSplineSurfaceForm;
+ // C++ wrapper type for IfcBeamTypeEnum
+ typedef ENUMERATION IfcBeamTypeEnum;
+ // C++ wrapper type for IfcBenchmarkEnum
+ typedef ENUMERATION IfcBenchmarkEnum;
+ // C++ wrapper type for IfcBoilerTypeEnum
+ typedef ENUMERATION IfcBoilerTypeEnum;
+ // C++ wrapper type for IfcBooleanOperator
+ typedef ENUMERATION IfcBooleanOperator;
+ // C++ wrapper type for IfcBuildingElementPartTypeEnum
+ typedef ENUMERATION IfcBuildingElementPartTypeEnum;
+ // C++ wrapper type for IfcBuildingElementProxyTypeEnum
+ typedef ENUMERATION IfcBuildingElementProxyTypeEnum;
+ // C++ wrapper type for IfcBuildingSystemTypeEnum
+ typedef ENUMERATION IfcBuildingSystemTypeEnum;
+ // C++ wrapper type for IfcBurnerTypeEnum
+ typedef ENUMERATION IfcBurnerTypeEnum;
+ // C++ wrapper type for IfcCableCarrierFittingTypeEnum
+ typedef ENUMERATION IfcCableCarrierFittingTypeEnum;
+ // C++ wrapper type for IfcCableCarrierSegmentTypeEnum
+ typedef ENUMERATION IfcCableCarrierSegmentTypeEnum;
+ // C++ wrapper type for IfcCableFittingTypeEnum
+ typedef ENUMERATION IfcCableFittingTypeEnum;
+ // C++ wrapper type for IfcCableSegmentTypeEnum
+ typedef ENUMERATION IfcCableSegmentTypeEnum;
+ // C++ wrapper type for IfcChangeActionEnum
+ typedef ENUMERATION IfcChangeActionEnum;
+ // C++ wrapper type for IfcChillerTypeEnum
+ typedef ENUMERATION IfcChillerTypeEnum;
+ // C++ wrapper type for IfcChimneyTypeEnum
+ typedef ENUMERATION IfcChimneyTypeEnum;
+ // C++ wrapper type for IfcCoilTypeEnum
+ typedef ENUMERATION IfcCoilTypeEnum;
+ // C++ wrapper type for IfcColumnTypeEnum
+ typedef ENUMERATION IfcColumnTypeEnum;
+ // C++ wrapper type for IfcCommunicationsApplianceTypeEnum
+ typedef ENUMERATION IfcCommunicationsApplianceTypeEnum;
+ // C++ wrapper type for IfcComplexPropertyTemplateTypeEnum
+ typedef ENUMERATION IfcComplexPropertyTemplateTypeEnum;
+ // C++ wrapper type for IfcCompressorTypeEnum
+ typedef ENUMERATION IfcCompressorTypeEnum;
+ // C++ wrapper type for IfcCondenserTypeEnum
+ typedef ENUMERATION IfcCondenserTypeEnum;
+ // C++ wrapper type for IfcConnectionTypeEnum
+ typedef ENUMERATION IfcConnectionTypeEnum;
+ // C++ wrapper type for IfcConstraintEnum
+ typedef ENUMERATION IfcConstraintEnum;
+ // C++ wrapper type for IfcConstructionEquipmentResourceTypeEnum
+ typedef ENUMERATION IfcConstructionEquipmentResourceTypeEnum;
+ // C++ wrapper type for IfcConstructionMaterialResourceTypeEnum
+ typedef ENUMERATION IfcConstructionMaterialResourceTypeEnum;
+ // C++ wrapper type for IfcConstructionProductResourceTypeEnum
+ typedef ENUMERATION IfcConstructionProductResourceTypeEnum;
+ // C++ wrapper type for IfcControllerTypeEnum
+ typedef ENUMERATION IfcControllerTypeEnum;
+ // C++ wrapper type for IfcCooledBeamTypeEnum
+ typedef ENUMERATION IfcCooledBeamTypeEnum;
+ // C++ wrapper type for IfcCoolingTowerTypeEnum
+ typedef ENUMERATION IfcCoolingTowerTypeEnum;
+ // C++ wrapper type for IfcCostItemTypeEnum
+ typedef ENUMERATION IfcCostItemTypeEnum;
+ // C++ wrapper type for IfcCostScheduleTypeEnum
+ typedef ENUMERATION IfcCostScheduleTypeEnum;
+ // C++ wrapper type for IfcCoveringTypeEnum
+ typedef ENUMERATION IfcCoveringTypeEnum;
+ // C++ wrapper type for IfcCrewResourceTypeEnum
+ typedef ENUMERATION IfcCrewResourceTypeEnum;
+ // C++ wrapper type for IfcCurtainWallTypeEnum
+ typedef ENUMERATION IfcCurtainWallTypeEnum;
+ // C++ wrapper type for IfcCurveInterpolationEnum
+ typedef ENUMERATION IfcCurveInterpolationEnum;
+ // C++ wrapper type for IfcDamperTypeEnum
+ typedef ENUMERATION IfcDamperTypeEnum;
+ // C++ wrapper type for IfcDataOriginEnum
+ typedef ENUMERATION IfcDataOriginEnum;
+ // C++ wrapper type for IfcDerivedUnitEnum
+ typedef ENUMERATION IfcDerivedUnitEnum;
+ // C++ wrapper type for IfcDirectionSenseEnum
+ typedef ENUMERATION IfcDirectionSenseEnum;
+ // C++ wrapper type for IfcDiscreteAccessoryTypeEnum
+ typedef ENUMERATION IfcDiscreteAccessoryTypeEnum;
+ // C++ wrapper type for IfcDistributionChamberElementTypeEnum
+ typedef ENUMERATION IfcDistributionChamberElementTypeEnum;
+ // C++ wrapper type for IfcDistributionPortTypeEnum
+ typedef ENUMERATION IfcDistributionPortTypeEnum;
+ // C++ wrapper type for IfcDistributionSystemEnum
+ typedef ENUMERATION IfcDistributionSystemEnum;
+ // C++ wrapper type for IfcDocumentConfidentialityEnum
+ typedef ENUMERATION IfcDocumentConfidentialityEnum;
+ // C++ wrapper type for IfcDocumentStatusEnum
+ typedef ENUMERATION IfcDocumentStatusEnum;
+ // C++ wrapper type for IfcDoorPanelOperationEnum
+ typedef ENUMERATION IfcDoorPanelOperationEnum;
+ // C++ wrapper type for IfcDoorPanelPositionEnum
+ typedef ENUMERATION IfcDoorPanelPositionEnum;
+ // C++ wrapper type for IfcDoorStyleConstructionEnum
+ typedef ENUMERATION IfcDoorStyleConstructionEnum;
+ // C++ wrapper type for IfcDoorStyleOperationEnum
+ typedef ENUMERATION IfcDoorStyleOperationEnum;
+ // C++ wrapper type for IfcDoorTypeEnum
+ typedef ENUMERATION IfcDoorTypeEnum;
+ // C++ wrapper type for IfcDoorTypeOperationEnum
+ typedef ENUMERATION IfcDoorTypeOperationEnum;
+ // C++ wrapper type for IfcDuctFittingTypeEnum
+ typedef ENUMERATION IfcDuctFittingTypeEnum;
+ // C++ wrapper type for IfcDuctSegmentTypeEnum
+ typedef ENUMERATION IfcDuctSegmentTypeEnum;
+ // C++ wrapper type for IfcDuctSilencerTypeEnum
+ typedef ENUMERATION IfcDuctSilencerTypeEnum;
+ // C++ wrapper type for IfcElectricApplianceTypeEnum
+ typedef ENUMERATION IfcElectricApplianceTypeEnum;
+ // C++ wrapper type for IfcElectricDistributionBoardTypeEnum
+ typedef ENUMERATION IfcElectricDistributionBoardTypeEnum;
+ // C++ wrapper type for IfcElectricFlowStorageDeviceTypeEnum
+ typedef ENUMERATION IfcElectricFlowStorageDeviceTypeEnum;
+ // C++ wrapper type for IfcElectricGeneratorTypeEnum
+ typedef ENUMERATION IfcElectricGeneratorTypeEnum;
+ // C++ wrapper type for IfcElectricMotorTypeEnum
+ typedef ENUMERATION IfcElectricMotorTypeEnum;
+ // C++ wrapper type for IfcElectricTimeControlTypeEnum
+ typedef ENUMERATION IfcElectricTimeControlTypeEnum;
+ // C++ wrapper type for IfcElementAssemblyTypeEnum
+ typedef ENUMERATION IfcElementAssemblyTypeEnum;
+ // C++ wrapper type for IfcElementCompositionEnum
+ typedef ENUMERATION IfcElementCompositionEnum;
+ // C++ wrapper type for IfcEngineTypeEnum
+ typedef ENUMERATION IfcEngineTypeEnum;
+ // C++ wrapper type for IfcEvaporativeCoolerTypeEnum
+ typedef ENUMERATION IfcEvaporativeCoolerTypeEnum;
+ // C++ wrapper type for IfcEvaporatorTypeEnum
+ typedef ENUMERATION IfcEvaporatorTypeEnum;
+ // C++ wrapper type for IfcEventTriggerTypeEnum
+ typedef ENUMERATION IfcEventTriggerTypeEnum;
+ // C++ wrapper type for IfcEventTypeEnum
+ typedef ENUMERATION IfcEventTypeEnum;
+ // C++ wrapper type for IfcExternalSpatialElementTypeEnum
+ typedef ENUMERATION IfcExternalSpatialElementTypeEnum;
+ // C++ wrapper type for IfcFanTypeEnum
+ typedef ENUMERATION IfcFanTypeEnum;
+ // C++ wrapper type for IfcFastenerTypeEnum
+ typedef ENUMERATION IfcFastenerTypeEnum;
+ // C++ wrapper type for IfcFilterTypeEnum
+ typedef ENUMERATION IfcFilterTypeEnum;
+ // C++ wrapper type for IfcFireSuppressionTerminalTypeEnum
+ typedef ENUMERATION IfcFireSuppressionTerminalTypeEnum;
+ // C++ wrapper type for IfcFlowDirectionEnum
+ typedef ENUMERATION IfcFlowDirectionEnum;
+ // C++ wrapper type for IfcFlowInstrumentTypeEnum
+ typedef ENUMERATION IfcFlowInstrumentTypeEnum;
+ // C++ wrapper type for IfcFlowMeterTypeEnum
+ typedef ENUMERATION IfcFlowMeterTypeEnum;
+ // C++ wrapper type for IfcFootingTypeEnum
+ typedef ENUMERATION IfcFootingTypeEnum;
+ // C++ wrapper type for IfcFurnitureTypeEnum
+ typedef ENUMERATION IfcFurnitureTypeEnum;
+ // C++ wrapper type for IfcGeographicElementTypeEnum
+ typedef ENUMERATION IfcGeographicElementTypeEnum;
+ // C++ wrapper type for IfcGeometricProjectionEnum
+ typedef ENUMERATION IfcGeometricProjectionEnum;
+ // C++ wrapper type for IfcGlobalOrLocalEnum
+ typedef ENUMERATION IfcGlobalOrLocalEnum;
+ // C++ wrapper type for IfcGridTypeEnum
+ typedef ENUMERATION IfcGridTypeEnum;
+ // C++ wrapper type for IfcHeatExchangerTypeEnum
+ typedef ENUMERATION IfcHeatExchangerTypeEnum;
+ // C++ wrapper type for IfcHumidifierTypeEnum
+ typedef ENUMERATION IfcHumidifierTypeEnum;
+ // C++ wrapper type for IfcInterceptorTypeEnum
+ typedef ENUMERATION IfcInterceptorTypeEnum;
+ // C++ wrapper type for IfcInternalOrExternalEnum
+ typedef ENUMERATION IfcInternalOrExternalEnum;
+ // C++ wrapper type for IfcInventoryTypeEnum
+ typedef ENUMERATION IfcInventoryTypeEnum;
+ // C++ wrapper type for IfcJunctionBoxTypeEnum
+ typedef ENUMERATION IfcJunctionBoxTypeEnum;
+ // C++ wrapper type for IfcKnotType
+ typedef ENUMERATION IfcKnotType;
+ // C++ wrapper type for IfcLaborResourceTypeEnum
+ typedef ENUMERATION IfcLaborResourceTypeEnum;
+ // C++ wrapper type for IfcLampTypeEnum
+ typedef ENUMERATION IfcLampTypeEnum;
+ // C++ wrapper type for IfcLayerSetDirectionEnum
+ typedef ENUMERATION IfcLayerSetDirectionEnum;
+ // C++ wrapper type for IfcLightDistributionCurveEnum
+ typedef ENUMERATION IfcLightDistributionCurveEnum;
+ // C++ wrapper type for IfcLightEmissionSourceEnum
+ typedef ENUMERATION IfcLightEmissionSourceEnum;
+ // C++ wrapper type for IfcLightFixtureTypeEnum
+ typedef ENUMERATION IfcLightFixtureTypeEnum;
+ // C++ wrapper type for IfcLoadGroupTypeEnum
+ typedef ENUMERATION IfcLoadGroupTypeEnum;
+ // C++ wrapper type for IfcLogicalOperatorEnum
+ typedef ENUMERATION IfcLogicalOperatorEnum;
+ // C++ wrapper type for IfcMechanicalFastenerTypeEnum
+ typedef ENUMERATION IfcMechanicalFastenerTypeEnum;
+ // C++ wrapper type for IfcMedicalDeviceTypeEnum
+ typedef ENUMERATION IfcMedicalDeviceTypeEnum;
+ // C++ wrapper type for IfcMemberTypeEnum
+ typedef ENUMERATION IfcMemberTypeEnum;
+ // C++ wrapper type for IfcMotorConnectionTypeEnum
+ typedef ENUMERATION IfcMotorConnectionTypeEnum;
+ // C++ wrapper type for IfcNullStyle
+ typedef ENUMERATION IfcNullStyle;
+ // C++ wrapper type for IfcObjectTypeEnum
+ typedef ENUMERATION IfcObjectTypeEnum;
+ // C++ wrapper type for IfcObjectiveEnum
+ typedef ENUMERATION IfcObjectiveEnum;
+ // C++ wrapper type for IfcOccupantTypeEnum
+ typedef ENUMERATION IfcOccupantTypeEnum;
+ // C++ wrapper type for IfcOpeningElementTypeEnum
+ typedef ENUMERATION IfcOpeningElementTypeEnum;
+ // C++ wrapper type for IfcOutletTypeEnum
+ typedef ENUMERATION IfcOutletTypeEnum;
+ // C++ wrapper type for IfcPerformanceHistoryTypeEnum
+ typedef ENUMERATION IfcPerformanceHistoryTypeEnum;
+ // C++ wrapper type for IfcPermeableCoveringOperationEnum
+ typedef ENUMERATION IfcPermeableCoveringOperationEnum;
+ // C++ wrapper type for IfcPermitTypeEnum
+ typedef ENUMERATION IfcPermitTypeEnum;
+ // C++ wrapper type for IfcPhysicalOrVirtualEnum
+ typedef ENUMERATION IfcPhysicalOrVirtualEnum;
+ // C++ wrapper type for IfcPileConstructionEnum
+ typedef ENUMERATION IfcPileConstructionEnum;
+ // C++ wrapper type for IfcPileTypeEnum
+ typedef ENUMERATION IfcPileTypeEnum;
+ // C++ wrapper type for IfcPipeFittingTypeEnum
+ typedef ENUMERATION IfcPipeFittingTypeEnum;
+ // C++ wrapper type for IfcPipeSegmentTypeEnum
+ typedef ENUMERATION IfcPipeSegmentTypeEnum;
+ // C++ wrapper type for IfcPlateTypeEnum
+ typedef ENUMERATION IfcPlateTypeEnum;
+ // C++ wrapper type for IfcPreferredSurfaceCurveRepresentation
+ typedef ENUMERATION IfcPreferredSurfaceCurveRepresentation;
+ // C++ wrapper type for IfcProcedureTypeEnum
+ typedef ENUMERATION IfcProcedureTypeEnum;
+ // C++ wrapper type for IfcProfileTypeEnum
+ typedef ENUMERATION IfcProfileTypeEnum;
+ // C++ wrapper type for IfcProjectOrderTypeEnum
+ typedef ENUMERATION IfcProjectOrderTypeEnum;
+ // C++ wrapper type for IfcProjectedOrTrueLengthEnum
+ typedef ENUMERATION IfcProjectedOrTrueLengthEnum;
+ // C++ wrapper type for IfcProjectionElementTypeEnum
+ typedef ENUMERATION IfcProjectionElementTypeEnum;
+ // C++ wrapper type for IfcPropertySetTemplateTypeEnum
+ typedef ENUMERATION IfcPropertySetTemplateTypeEnum;
+ // C++ wrapper type for IfcProtectiveDeviceTrippingUnitTypeEnum
+ typedef ENUMERATION IfcProtectiveDeviceTrippingUnitTypeEnum;
+ // C++ wrapper type for IfcProtectiveDeviceTypeEnum
+ typedef ENUMERATION IfcProtectiveDeviceTypeEnum;
+ // C++ wrapper type for IfcPumpTypeEnum
+ typedef ENUMERATION IfcPumpTypeEnum;
+ // C++ wrapper type for IfcRailingTypeEnum
+ typedef ENUMERATION IfcRailingTypeEnum;
+ // C++ wrapper type for IfcRampFlightTypeEnum
+ typedef ENUMERATION IfcRampFlightTypeEnum;
+ // C++ wrapper type for IfcRampTypeEnum
+ typedef ENUMERATION IfcRampTypeEnum;
+ // C++ wrapper type for IfcRecurrenceTypeEnum
+ typedef ENUMERATION IfcRecurrenceTypeEnum;
+ // C++ wrapper type for IfcReflectanceMethodEnum
+ typedef ENUMERATION IfcReflectanceMethodEnum;
+ // C++ wrapper type for IfcReinforcingBarRoleEnum
+ typedef ENUMERATION IfcReinforcingBarRoleEnum;
+ // C++ wrapper type for IfcReinforcingBarSurfaceEnum
+ typedef ENUMERATION IfcReinforcingBarSurfaceEnum;
+ // C++ wrapper type for IfcReinforcingBarTypeEnum
+ typedef ENUMERATION IfcReinforcingBarTypeEnum;
+ // C++ wrapper type for IfcReinforcingMeshTypeEnum
+ typedef ENUMERATION IfcReinforcingMeshTypeEnum;
+ // C++ wrapper type for IfcRoleEnum
+ typedef ENUMERATION IfcRoleEnum;
+ // C++ wrapper type for IfcRoofTypeEnum
+ typedef ENUMERATION IfcRoofTypeEnum;
+ // C++ wrapper type for IfcSIPrefix
+ typedef ENUMERATION IfcSIPrefix;
+ // C++ wrapper type for IfcSIUnitName
+ typedef ENUMERATION IfcSIUnitName;
+ // C++ wrapper type for IfcSanitaryTerminalTypeEnum
+ typedef ENUMERATION IfcSanitaryTerminalTypeEnum;
+ // C++ wrapper type for IfcSectionTypeEnum
+ typedef ENUMERATION IfcSectionTypeEnum;
+ // C++ wrapper type for IfcSensorTypeEnum
+ typedef ENUMERATION IfcSensorTypeEnum;
+ // C++ wrapper type for IfcSequenceEnum
+ typedef ENUMERATION IfcSequenceEnum;
+ // C++ wrapper type for IfcShadingDeviceTypeEnum
+ typedef ENUMERATION IfcShadingDeviceTypeEnum;
+ // C++ wrapper type for IfcSimplePropertyTemplateTypeEnum
+ typedef ENUMERATION IfcSimplePropertyTemplateTypeEnum;
+ // C++ wrapper type for IfcSlabTypeEnum
+ typedef ENUMERATION IfcSlabTypeEnum;
+ // C++ wrapper type for IfcSolarDeviceTypeEnum
+ typedef ENUMERATION IfcSolarDeviceTypeEnum;
+ // C++ wrapper type for IfcSpaceHeaterTypeEnum
+ typedef ENUMERATION IfcSpaceHeaterTypeEnum;
+ // C++ wrapper type for IfcSpaceTypeEnum
+ typedef ENUMERATION IfcSpaceTypeEnum;
+ // C++ wrapper type for IfcSpatialZoneTypeEnum
+ typedef ENUMERATION IfcSpatialZoneTypeEnum;
+ // C++ wrapper type for IfcStackTerminalTypeEnum
+ typedef ENUMERATION IfcStackTerminalTypeEnum;
+ // C++ wrapper type for IfcStairFlightTypeEnum
+ typedef ENUMERATION IfcStairFlightTypeEnum;
+ // C++ wrapper type for IfcStairTypeEnum
+ typedef ENUMERATION IfcStairTypeEnum;
+ // C++ wrapper type for IfcStateEnum
+ typedef ENUMERATION IfcStateEnum;
+ // C++ wrapper type for IfcStructuralCurveActivityTypeEnum
+ typedef ENUMERATION IfcStructuralCurveActivityTypeEnum;
+ // C++ wrapper type for IfcStructuralCurveMemberTypeEnum
+ typedef ENUMERATION IfcStructuralCurveMemberTypeEnum;
+ // C++ wrapper type for IfcStructuralSurfaceActivityTypeEnum
+ typedef ENUMERATION IfcStructuralSurfaceActivityTypeEnum;
+ // C++ wrapper type for IfcStructuralSurfaceMemberTypeEnum
+ typedef ENUMERATION IfcStructuralSurfaceMemberTypeEnum;
+ // C++ wrapper type for IfcSubContractResourceTypeEnum
+ typedef ENUMERATION IfcSubContractResourceTypeEnum;
+ // C++ wrapper type for IfcSurfaceFeatureTypeEnum
+ typedef ENUMERATION IfcSurfaceFeatureTypeEnum;
+ // C++ wrapper type for IfcSurfaceSide
+ typedef ENUMERATION IfcSurfaceSide;
+ // C++ wrapper type for IfcSwitchingDeviceTypeEnum
+ typedef ENUMERATION IfcSwitchingDeviceTypeEnum;
+ // C++ wrapper type for IfcSystemFurnitureElementTypeEnum
+ typedef ENUMERATION IfcSystemFurnitureElementTypeEnum;
+ // C++ wrapper type for IfcTankTypeEnum
+ typedef ENUMERATION IfcTankTypeEnum;
+ // C++ wrapper type for IfcTaskDurationEnum
+ typedef ENUMERATION IfcTaskDurationEnum;
+ // C++ wrapper type for IfcTaskTypeEnum
+ typedef ENUMERATION IfcTaskTypeEnum;
+ // C++ wrapper type for IfcTendonAnchorTypeEnum
+ typedef ENUMERATION IfcTendonAnchorTypeEnum;
+ // C++ wrapper type for IfcTendonTypeEnum
+ typedef ENUMERATION IfcTendonTypeEnum;
+ // C++ wrapper type for IfcTextPath
+ typedef ENUMERATION IfcTextPath;
+ // C++ wrapper type for IfcTimeSeriesDataTypeEnum
+ typedef ENUMERATION IfcTimeSeriesDataTypeEnum;
+ // C++ wrapper type for IfcTransformerTypeEnum
+ typedef ENUMERATION IfcTransformerTypeEnum;
+ // C++ wrapper type for IfcTransitionCode
+ typedef ENUMERATION IfcTransitionCode;
+ // C++ wrapper type for IfcTransportElementTypeEnum
+ typedef ENUMERATION IfcTransportElementTypeEnum;
+ // C++ wrapper type for IfcTrimmingPreference
+ typedef ENUMERATION IfcTrimmingPreference;
+ // C++ wrapper type for IfcTubeBundleTypeEnum
+ typedef ENUMERATION IfcTubeBundleTypeEnum;
+ // C++ wrapper type for IfcUnitEnum
+ typedef ENUMERATION IfcUnitEnum;
+ // C++ wrapper type for IfcUnitaryControlElementTypeEnum
+ typedef ENUMERATION IfcUnitaryControlElementTypeEnum;
+ // C++ wrapper type for IfcUnitaryEquipmentTypeEnum
+ typedef ENUMERATION IfcUnitaryEquipmentTypeEnum;
+ // C++ wrapper type for IfcValveTypeEnum
+ typedef ENUMERATION IfcValveTypeEnum;
+ // C++ wrapper type for IfcVibrationIsolatorTypeEnum
+ typedef ENUMERATION IfcVibrationIsolatorTypeEnum;
+ // C++ wrapper type for IfcVoidingFeatureTypeEnum
+ typedef ENUMERATION IfcVoidingFeatureTypeEnum;
+ // C++ wrapper type for IfcWallTypeEnum
+ typedef ENUMERATION IfcWallTypeEnum;
+ // C++ wrapper type for IfcWasteTerminalTypeEnum
+ typedef ENUMERATION IfcWasteTerminalTypeEnum;
+ // C++ wrapper type for IfcWindowPanelOperationEnum
+ typedef ENUMERATION IfcWindowPanelOperationEnum;
+ // C++ wrapper type for IfcWindowPanelPositionEnum
+ typedef ENUMERATION IfcWindowPanelPositionEnum;
+ // C++ wrapper type for IfcWindowStyleConstructionEnum
+ typedef ENUMERATION IfcWindowStyleConstructionEnum;
+ // C++ wrapper type for IfcWindowStyleOperationEnum
+ typedef ENUMERATION IfcWindowStyleOperationEnum;
+ // C++ wrapper type for IfcWindowTypeEnum
+ typedef ENUMERATION IfcWindowTypeEnum;
+ // C++ wrapper type for IfcWindowTypePartitioningEnum
+ typedef ENUMERATION IfcWindowTypePartitioningEnum;
+ // C++ wrapper type for IfcWorkCalendarTypeEnum
+ typedef ENUMERATION IfcWorkCalendarTypeEnum;
+ // C++ wrapper type for IfcWorkPlanTypeEnum
+ typedef ENUMERATION IfcWorkPlanTypeEnum;
+ // C++ wrapper type for IfcWorkScheduleTypeEnum
+ typedef ENUMERATION IfcWorkScheduleTypeEnum;
+ // C++ wrapper type for IfcActorSelect
+ typedef SELECT IfcActorSelect;
+ // C++ wrapper type for IfcAppliedValueSelect
+ typedef SELECT IfcAppliedValueSelect;
+ // C++ wrapper type for IfcAxis2Placement
+ typedef SELECT IfcAxis2Placement;
+ // C++ wrapper type for IfcBendingParameterSelect
+ typedef SELECT IfcBendingParameterSelect;
+ // C++ wrapper type for IfcBooleanOperand
+ typedef SELECT IfcBooleanOperand;
+ // C++ wrapper type for IfcClassificationReferenceSelect
+ typedef SELECT IfcClassificationReferenceSelect;
+ // C++ wrapper type for IfcClassificationSelect
+ typedef SELECT IfcClassificationSelect;
+ // C++ wrapper type for IfcColour
+ typedef SELECT IfcColour;
+ // C++ wrapper type for IfcColourOrFactor
+ typedef SELECT IfcColourOrFactor;
+ // C++ wrapper type for IfcCoordinateReferenceSystemSelect
+ typedef SELECT IfcCoordinateReferenceSystemSelect;
+ // C++ wrapper type for IfcCsgSelect
+ typedef SELECT IfcCsgSelect;
+ // C++ wrapper type for IfcCurveFontOrScaledCurveFontSelect
+ typedef SELECT IfcCurveFontOrScaledCurveFontSelect;
+ // C++ wrapper type for IfcCurveOnSurface
+ typedef SELECT IfcCurveOnSurface;
+ // C++ wrapper type for IfcCurveOrEdgeCurve
+ typedef SELECT IfcCurveOrEdgeCurve;
+ // C++ wrapper type for IfcCurveStyleFontSelect
+ typedef SELECT IfcCurveStyleFontSelect;
+ // C++ wrapper type for IfcDefinitionSelect
+ typedef SELECT IfcDefinitionSelect;
+ // C++ wrapper type for IfcDerivedMeasureValue
+ typedef SELECT IfcDerivedMeasureValue;
+ // C++ wrapper type for IfcDocumentSelect
+ typedef SELECT IfcDocumentSelect;
+ // C++ wrapper type for IfcFillStyleSelect
+ typedef SELECT IfcFillStyleSelect;
+ // C++ wrapper type for IfcGeometricSetSelect
+ typedef SELECT IfcGeometricSetSelect;
+ // C++ wrapper type for IfcGridPlacementDirectionSelect
+ typedef SELECT IfcGridPlacementDirectionSelect;
+ // C++ wrapper type for IfcHatchLineDistanceSelect
+ typedef SELECT IfcHatchLineDistanceSelect;
+ // C++ wrapper type for IfcLayeredItem
+ typedef SELECT IfcLayeredItem;
+ // C++ wrapper type for IfcLibrarySelect
+ typedef SELECT IfcLibrarySelect;
+ // C++ wrapper type for IfcLightDistributionDataSourceSelect
+ typedef SELECT IfcLightDistributionDataSourceSelect;
+ // C++ wrapper type for IfcMaterialSelect
+ typedef SELECT IfcMaterialSelect;
+ // C++ wrapper type for IfcMeasureValue
+ typedef SELECT IfcMeasureValue;
+ // C++ wrapper type for IfcMetricValueSelect
+ typedef SELECT IfcMetricValueSelect;
+ // C++ wrapper type for IfcModulusOfRotationalSubgradeReactionSelect
+ typedef SELECT IfcModulusOfRotationalSubgradeReactionSelect;
+ // C++ wrapper type for IfcModulusOfSubgradeReactionSelect
+ typedef SELECT IfcModulusOfSubgradeReactionSelect;
+ // C++ wrapper type for IfcModulusOfTranslationalSubgradeReactionSelect
+ typedef SELECT IfcModulusOfTranslationalSubgradeReactionSelect;
+ // C++ wrapper type for IfcObjectReferenceSelect
+ typedef SELECT IfcObjectReferenceSelect;
+ // C++ wrapper type for IfcPointOrVertexPoint
+ typedef SELECT IfcPointOrVertexPoint;
+ // C++ wrapper type for IfcPresentationStyleSelect
+ typedef SELECT IfcPresentationStyleSelect;
+ // C++ wrapper type for IfcProcessSelect
+ typedef SELECT IfcProcessSelect;
+ // C++ wrapper type for IfcProductRepresentationSelect
+ typedef SELECT IfcProductRepresentationSelect;
+ // C++ wrapper type for IfcProductSelect
+ typedef SELECT IfcProductSelect;
+ // C++ wrapper type for IfcPropertySetDefinitionSelect
+ typedef SELECT IfcPropertySetDefinitionSelect;
+ // C++ wrapper type for IfcResourceObjectSelect
+ typedef SELECT IfcResourceObjectSelect;
+ // C++ wrapper type for IfcResourceSelect
+ typedef SELECT IfcResourceSelect;
+ // C++ wrapper type for IfcRotationalStiffnessSelect
+ typedef SELECT IfcRotationalStiffnessSelect;
+ // C++ wrapper type for IfcSegmentIndexSelect
+ typedef SELECT IfcSegmentIndexSelect;
+ // C++ wrapper type for IfcShell
+ typedef SELECT IfcShell;
+ // C++ wrapper type for IfcSimpleValue
+ typedef SELECT IfcSimpleValue;
+ // C++ wrapper type for IfcSizeSelect
+ typedef SELECT IfcSizeSelect;
+ // C++ wrapper type for IfcSolidOrShell
+ typedef SELECT IfcSolidOrShell;
+ // C++ wrapper type for IfcSpaceBoundarySelect
+ typedef SELECT IfcSpaceBoundarySelect;
+ // C++ wrapper type for IfcSpecularHighlightSelect
+ typedef SELECT IfcSpecularHighlightSelect;
+ // C++ wrapper type for IfcStructuralActivityAssignmentSelect
+ typedef SELECT IfcStructuralActivityAssignmentSelect;
+ // C++ wrapper type for IfcStyleAssignmentSelect
+ typedef SELECT IfcStyleAssignmentSelect;
+ // C++ wrapper type for IfcSurfaceOrFaceSurface
+ typedef SELECT IfcSurfaceOrFaceSurface;
+ // C++ wrapper type for IfcSurfaceStyleElementSelect
+ typedef SELECT IfcSurfaceStyleElementSelect;
+ // C++ wrapper type for IfcTextFontSelect
+ typedef SELECT IfcTextFontSelect;
+ // C++ wrapper type for IfcTimeOrRatioSelect
+ typedef SELECT IfcTimeOrRatioSelect;
+ // C++ wrapper type for IfcTranslationalStiffnessSelect
+ typedef SELECT IfcTranslationalStiffnessSelect;
+ // C++ wrapper type for IfcTrimmingSelect
+ typedef SELECT IfcTrimmingSelect;
+ // C++ wrapper type for IfcUnit
+ typedef SELECT IfcUnit;
+ // C++ wrapper type for IfcValue
+ typedef SELECT IfcValue;
+ // C++ wrapper type for IfcVectorOrDirection
+ typedef SELECT IfcVectorOrDirection;
+ // C++ wrapper type for IfcWarpingStiffnessSelect
+ typedef SELECT IfcWarpingStiffnessSelect;
+
+
+ // ******************************************************************************
+ // IFC Entities
+ // ******************************************************************************
+
+ struct IfcRoot;
+ struct IfcObjectDefinition;
+ struct IfcObject;
+ struct IfcControl;
+ struct IfcActionRequest;
+ struct IfcActor;
+ typedef NotImplemented IfcActorRole; // (not currently used by Assimp)
+ struct IfcProduct;
+ struct IfcElement;
+ struct IfcDistributionElement;
+ struct IfcDistributionControlElement;
+ struct IfcActuator;
+ struct IfcTypeObject;
+ struct IfcTypeProduct;
+ struct IfcElementType;
+ struct IfcDistributionElementType;
+ struct IfcDistributionControlElementType;
+ struct IfcActuatorType;
+ typedef NotImplemented IfcAddress; // (not currently used by Assimp)
+ struct IfcRepresentationItem;
+ struct IfcGeometricRepresentationItem;
+ struct IfcSolidModel;
+ struct IfcManifoldSolidBrep;
+ struct IfcAdvancedBrep;
+ struct IfcAdvancedBrepWithVoids;
+ struct IfcTopologicalRepresentationItem;
+ struct IfcFace;
+ struct IfcFaceSurface;
+ struct IfcAdvancedFace;
+ struct IfcDistributionFlowElement;
+ struct IfcFlowTerminal;
+ struct IfcAirTerminal;
+ struct IfcFlowController;
+ struct IfcAirTerminalBox;
+ struct IfcDistributionFlowElementType;
+ struct IfcFlowControllerType;
+ struct IfcAirTerminalBoxType;
+ struct IfcFlowTerminalType;
+ struct IfcAirTerminalType;
+ struct IfcEnergyConversionDevice;
+ struct IfcAirToAirHeatRecovery;
+ struct IfcEnergyConversionDeviceType;
+ struct IfcAirToAirHeatRecoveryType;
+ struct IfcAlarm;
+ struct IfcAlarmType;
+ struct IfcAnnotation;
+ struct IfcAnnotationFillArea;
+ typedef NotImplemented IfcApplication; // (not currently used by Assimp)
+ typedef NotImplemented IfcAppliedValue; // (not currently used by Assimp)
+ typedef NotImplemented IfcApproval; // (not currently used by Assimp)
+ typedef NotImplemented IfcResourceLevelRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcApprovalRelationship; // (not currently used by Assimp)
+ struct IfcProfileDef;
+ struct IfcArbitraryClosedProfileDef;
+ struct IfcArbitraryOpenProfileDef;
+ struct IfcArbitraryProfileDefWithVoids;
+ struct IfcGroup;
+ struct IfcAsset;
+ struct IfcParameterizedProfileDef;
+ struct IfcAsymmetricIShapeProfileDef;
+ struct IfcAudioVisualAppliance;
+ struct IfcAudioVisualApplianceType;
+ struct IfcPlacement;
+ struct IfcAxis1Placement;
+ struct IfcAxis2Placement2D;
+ struct IfcAxis2Placement3D;
+ struct IfcCurve;
+ struct IfcBoundedCurve;
+ struct IfcBSplineCurve;
+ struct IfcBSplineCurveWithKnots;
+ struct IfcSurface;
+ struct IfcBoundedSurface;
+ struct IfcBSplineSurface;
+ struct IfcBSplineSurfaceWithKnots;
+ struct IfcBuildingElement;
+ struct IfcBeam;
+ struct IfcBeamStandardCase;
+ struct IfcBuildingElementType;
+ struct IfcBeamType;
+ struct IfcPresentationItem;
+ typedef NotImplemented IfcSurfaceTexture; // (not currently used by Assimp)
+ typedef NotImplemented IfcBlobTexture; // (not currently used by Assimp)
+ struct IfcCsgPrimitive3D;
+ struct IfcBlock;
+ struct IfcBoiler;
+ struct IfcBoilerType;
+ struct IfcBooleanResult;
+ struct IfcBooleanClippingResult;
+ typedef NotImplemented IfcBoundaryCondition; // (not currently used by Assimp)
+ struct IfcCompositeCurve;
+ struct IfcCompositeCurveOnSurface;
+ struct IfcBoundaryCurve;
+ typedef NotImplemented IfcBoundaryEdgeCondition; // (not currently used by Assimp)
+ typedef NotImplemented IfcBoundaryFaceCondition; // (not currently used by Assimp)
+ typedef NotImplemented IfcBoundaryNodeCondition; // (not currently used by Assimp)
+ typedef NotImplemented IfcBoundaryNodeConditionWarping; // (not currently used by Assimp)
+ struct IfcBoundingBox;
+ struct IfcHalfSpaceSolid;
+ struct IfcBoxedHalfSpace;
+ struct IfcSpatialElement;
+ struct IfcSpatialStructureElement;
+ struct IfcBuilding;
+ struct IfcElementComponent;
+ struct IfcBuildingElementPart;
+ struct IfcElementComponentType;
+ struct IfcBuildingElementPartType;
+ struct IfcBuildingElementProxy;
+ struct IfcBuildingElementProxyType;
+ struct IfcBuildingStorey;
+ struct IfcSystem;
+ struct IfcBuildingSystem;
+ struct IfcBurner;
+ struct IfcBurnerType;
+ struct IfcCShapeProfileDef;
+ struct IfcFlowFitting;
+ struct IfcCableCarrierFitting;
+ struct IfcFlowFittingType;
+ struct IfcCableCarrierFittingType;
+ struct IfcFlowSegment;
+ struct IfcCableCarrierSegment;
+ struct IfcFlowSegmentType;
+ struct IfcCableCarrierSegmentType;
+ struct IfcCableFitting;
+ struct IfcCableFittingType;
+ struct IfcCableSegment;
+ struct IfcCableSegmentType;
+ struct IfcPoint;
+ struct IfcCartesianPoint;
+ struct IfcCartesianPointList;
+ struct IfcCartesianPointList2D;
+ struct IfcCartesianPointList3D;
+ struct IfcCartesianTransformationOperator;
+ struct IfcCartesianTransformationOperator2D;
+ struct IfcCartesianTransformationOperator2DnonUniform;
+ struct IfcCartesianTransformationOperator3D;
+ struct IfcCartesianTransformationOperator3DnonUniform;
+ struct IfcCenterLineProfileDef;
+ struct IfcChiller;
+ struct IfcChillerType;
+ struct IfcChimney;
+ struct IfcChimneyType;
+ struct IfcConic;
+ struct IfcCircle;
+ struct IfcCircleProfileDef;
+ struct IfcCircleHollowProfileDef;
+ struct IfcCivilElement;
+ struct IfcCivilElementType;
+ typedef NotImplemented IfcExternalInformation; // (not currently used by Assimp)
+ typedef NotImplemented IfcClassification; // (not currently used by Assimp)
+ typedef NotImplemented IfcExternalReference; // (not currently used by Assimp)
+ typedef NotImplemented IfcClassificationReference; // (not currently used by Assimp)
+ struct IfcConnectedFaceSet;
+ struct IfcClosedShell;
+ struct IfcCoil;
+ struct IfcCoilType;
+ struct IfcColourSpecification;
+ struct IfcColourRgb;
+ typedef NotImplemented IfcColourRgbList; // (not currently used by Assimp)
+ struct IfcColumn;
+ struct IfcColumnStandardCase;
+ struct IfcColumnType;
+ struct IfcCommunicationsAppliance;
+ struct IfcCommunicationsApplianceType;
+ struct IfcPropertyAbstraction;
+ struct IfcProperty;
+ struct IfcComplexProperty;
+ struct IfcPropertyDefinition;
+ typedef NotImplemented IfcPropertyTemplateDefinition; // (not currently used by Assimp)
+ typedef NotImplemented IfcPropertyTemplate; // (not currently used by Assimp)
+ typedef NotImplemented IfcComplexPropertyTemplate; // (not currently used by Assimp)
+ struct IfcCompositeCurveSegment;
+ struct IfcCompositeProfileDef;
+ struct IfcFlowMovingDevice;
+ struct IfcCompressor;
+ struct IfcFlowMovingDeviceType;
+ struct IfcCompressorType;
+ struct IfcCondenser;
+ struct IfcCondenserType;
+ typedef NotImplemented IfcConnectionGeometry; // (not currently used by Assimp)
+ typedef NotImplemented IfcConnectionCurveGeometry; // (not currently used by Assimp)
+ typedef NotImplemented IfcConnectionPointGeometry; // (not currently used by Assimp)
+ typedef NotImplemented IfcConnectionPointEccentricity; // (not currently used by Assimp)
+ typedef NotImplemented IfcConnectionSurfaceGeometry; // (not currently used by Assimp)
+ typedef NotImplemented IfcConnectionVolumeGeometry; // (not currently used by Assimp)
+ typedef NotImplemented IfcConstraint; // (not currently used by Assimp)
+ struct IfcResource;
+ struct IfcConstructionResource;
+ struct IfcConstructionEquipmentResource;
+ struct IfcTypeResource;
+ struct IfcConstructionResourceType;
+ struct IfcConstructionEquipmentResourceType;
+ struct IfcConstructionMaterialResource;
+ struct IfcConstructionMaterialResourceType;
+ struct IfcConstructionProductResource;
+ struct IfcConstructionProductResourceType;
+ struct IfcContext;
+ struct IfcNamedUnit;
+ struct IfcContextDependentUnit;
+ struct IfcController;
+ struct IfcControllerType;
+ struct IfcConversionBasedUnit;
+ struct IfcConversionBasedUnitWithOffset;
+ struct IfcCooledBeam;
+ struct IfcCooledBeamType;
+ struct IfcCoolingTower;
+ struct IfcCoolingTowerType;
+ typedef NotImplemented IfcCoordinateOperation; // (not currently used by Assimp)
+ typedef NotImplemented IfcCoordinateReferenceSystem; // (not currently used by Assimp)
+ struct IfcCostItem;
+ struct IfcCostSchedule;
+ typedef NotImplemented IfcCostValue; // (not currently used by Assimp)
+ struct IfcCovering;
+ struct IfcCoveringType;
+ struct IfcCrewResource;
+ struct IfcCrewResourceType;
+ struct IfcCsgSolid;
+ typedef NotImplemented IfcCurrencyRelationship; // (not currently used by Assimp)
+ struct IfcCurtainWall;
+ struct IfcCurtainWallType;
+ struct IfcCurveBoundedPlane;
+ struct IfcCurveBoundedSurface;
+ struct IfcPresentationStyle;
+ typedef NotImplemented IfcCurveStyle; // (not currently used by Assimp)
+ typedef NotImplemented IfcCurveStyleFont; // (not currently used by Assimp)
+ typedef NotImplemented IfcCurveStyleFontAndScaling; // (not currently used by Assimp)
+ typedef NotImplemented IfcCurveStyleFontPattern; // (not currently used by Assimp)
+ struct IfcElementarySurface;
+ struct IfcCylindricalSurface;
+ struct IfcDamper;
+ struct IfcDamperType;
+ struct IfcDerivedProfileDef;
+ typedef NotImplemented IfcDerivedUnit; // (not currently used by Assimp)
+ typedef NotImplemented IfcDerivedUnitElement; // (not currently used by Assimp)
+ typedef NotImplemented IfcDimensionalExponents; // (not currently used by Assimp)
+ struct IfcDirection;
+ struct IfcDiscreteAccessory;
+ struct IfcDiscreteAccessoryType;
+ struct IfcDistributionChamberElement;
+ struct IfcDistributionChamberElementType;
+ struct IfcDistributionSystem;
+ struct IfcDistributionCircuit;
+ struct IfcPort;
+ struct IfcDistributionPort;
+ typedef NotImplemented IfcDocumentInformation; // (not currently used by Assimp)
+ typedef NotImplemented IfcDocumentInformationRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcDocumentReference; // (not currently used by Assimp)
+ struct IfcDoor;
+ struct IfcPropertySetDefinition;
+ typedef NotImplemented IfcPreDefinedPropertySet; // (not currently used by Assimp)
+ typedef NotImplemented IfcDoorLiningProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcDoorPanelProperties; // (not currently used by Assimp)
+ struct IfcDoorStandardCase;
+ struct IfcDoorStyle;
+ struct IfcDoorType;
+ typedef NotImplemented IfcPreDefinedItem; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedColour; // (not currently used by Assimp)
+ typedef NotImplemented IfcDraughtingPreDefinedColour; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedCurveFont; // (not currently used by Assimp)
+ typedef NotImplemented IfcDraughtingPreDefinedCurveFont; // (not currently used by Assimp)
+ struct IfcDuctFitting;
+ struct IfcDuctFittingType;
+ struct IfcDuctSegment;
+ struct IfcDuctSegmentType;
+ struct IfcFlowTreatmentDevice;
+ struct IfcDuctSilencer;
+ struct IfcFlowTreatmentDeviceType;
+ struct IfcDuctSilencerType;
+ struct IfcEdge;
+ struct IfcEdgeCurve;
+ struct IfcLoop;
+ struct IfcEdgeLoop;
+ struct IfcElectricAppliance;
+ struct IfcElectricApplianceType;
+ struct IfcElectricDistributionBoard;
+ struct IfcElectricDistributionBoardType;
+ struct IfcFlowStorageDevice;
+ struct IfcElectricFlowStorageDevice;
+ struct IfcFlowStorageDeviceType;
+ struct IfcElectricFlowStorageDeviceType;
+ struct IfcElectricGenerator;
+ struct IfcElectricGeneratorType;
+ struct IfcElectricMotor;
+ struct IfcElectricMotorType;
+ struct IfcElectricTimeControl;
+ struct IfcElectricTimeControlType;
+ struct IfcElementAssembly;
+ struct IfcElementAssemblyType;
+ struct IfcQuantitySet;
+ struct IfcElementQuantity;
+ struct IfcEllipse;
+ struct IfcEllipseProfileDef;
+ struct IfcEngine;
+ struct IfcEngineType;
+ struct IfcEvaporativeCooler;
+ struct IfcEvaporativeCoolerType;
+ struct IfcEvaporator;
+ struct IfcEvaporatorType;
+ struct IfcProcess;
+ struct IfcEvent;
+ typedef NotImplemented IfcSchedulingTime; // (not currently used by Assimp)
+ typedef NotImplemented IfcEventTime; // (not currently used by Assimp)
+ struct IfcTypeProcess;
+ struct IfcEventType;
+ typedef NotImplemented IfcExtendedProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcExternalReferenceRelationship; // (not currently used by Assimp)
+ struct IfcExternalSpatialStructureElement;
+ struct IfcExternalSpatialElement;
+ typedef NotImplemented IfcExternallyDefinedHatchStyle; // (not currently used by Assimp)
+ typedef NotImplemented IfcExternallyDefinedSurfaceStyle; // (not currently used by Assimp)
+ typedef NotImplemented IfcExternallyDefinedTextFont; // (not currently used by Assimp)
+ struct IfcSweptAreaSolid;
+ struct IfcExtrudedAreaSolid;
+ struct IfcExtrudedAreaSolidTapered;
+ struct IfcFaceBasedSurfaceModel;
+ struct IfcFaceBound;
+ struct IfcFaceOuterBound;
+ struct IfcFacetedBrep;
+ struct IfcFacetedBrepWithVoids;
+ typedef NotImplemented IfcStructuralConnectionCondition; // (not currently used by Assimp)
+ typedef NotImplemented IfcFailureConnectionCondition; // (not currently used by Assimp)
+ struct IfcFan;
+ struct IfcFanType;
+ struct IfcFastener;
+ struct IfcFastenerType;
+ struct IfcFeatureElement;
+ struct IfcFeatureElementAddition;
+ struct IfcFeatureElementSubtraction;
+ typedef NotImplemented IfcFillAreaStyle; // (not currently used by Assimp)
+ struct IfcFillAreaStyleHatching;
+ struct IfcFillAreaStyleTiles;
+ struct IfcFilter;
+ struct IfcFilterType;
+ struct IfcFireSuppressionTerminal;
+ struct IfcFireSuppressionTerminalType;
+ struct IfcFixedReferenceSweptAreaSolid;
+ struct IfcFlowInstrument;
+ struct IfcFlowInstrumentType;
+ struct IfcFlowMeter;
+ struct IfcFlowMeterType;
+ struct IfcFooting;
+ struct IfcFootingType;
+ struct IfcFurnishingElement;
+ struct IfcFurnishingElementType;
+ struct IfcFurniture;
+ struct IfcFurnitureType;
+ struct IfcGeographicElement;
+ struct IfcGeographicElementType;
+ struct IfcGeometricSet;
+ struct IfcGeometricCurveSet;
+ struct IfcRepresentationContext;
+ struct IfcGeometricRepresentationContext;
+ struct IfcGeometricRepresentationSubContext;
+ struct IfcGrid;
+ typedef NotImplemented IfcGridAxis; // (not currently used by Assimp)
+ struct IfcObjectPlacement;
+ struct IfcGridPlacement;
+ struct IfcHeatExchanger;
+ struct IfcHeatExchangerType;
+ struct IfcHumidifier;
+ struct IfcHumidifierType;
+ struct IfcIShapeProfileDef;
+ typedef NotImplemented IfcImageTexture; // (not currently used by Assimp)
+ typedef NotImplemented IfcIndexedColourMap; // (not currently used by Assimp)
+ struct IfcIndexedPolyCurve;
+ struct IfcTessellatedItem;
+ struct IfcIndexedPolygonalFace;
+ struct IfcIndexedPolygonalFaceWithVoids;
+ typedef NotImplemented IfcTextureCoordinate; // (not currently used by Assimp)
+ typedef NotImplemented IfcIndexedTextureMap; // (not currently used by Assimp)
+ typedef NotImplemented IfcIndexedTriangleTextureMap; // (not currently used by Assimp)
+ struct IfcInterceptor;
+ struct IfcInterceptorType;
+ struct IfcSurfaceCurve;
+ struct IfcIntersectionCurve;
+ struct IfcInventory;
+ typedef NotImplemented IfcTimeSeries; // (not currently used by Assimp)
+ typedef NotImplemented IfcIrregularTimeSeries; // (not currently used by Assimp)
+ typedef NotImplemented IfcIrregularTimeSeriesValue; // (not currently used by Assimp)
+ struct IfcJunctionBox;
+ struct IfcJunctionBoxType;
+ struct IfcLShapeProfileDef;
+ struct IfcLaborResource;
+ struct IfcLaborResourceType;
+ typedef NotImplemented IfcLagTime; // (not currently used by Assimp)
+ struct IfcLamp;
+ struct IfcLampType;
+ typedef NotImplemented IfcLibraryInformation; // (not currently used by Assimp)
+ typedef NotImplemented IfcLibraryReference; // (not currently used by Assimp)
+ typedef NotImplemented IfcLightDistributionData; // (not currently used by Assimp)
+ struct IfcLightFixture;
+ struct IfcLightFixtureType;
+ typedef NotImplemented IfcLightIntensityDistribution; // (not currently used by Assimp)
+ struct IfcLightSource;
+ struct IfcLightSourceAmbient;
+ struct IfcLightSourceDirectional;
+ struct IfcLightSourceGoniometric;
+ struct IfcLightSourcePositional;
+ struct IfcLightSourceSpot;
+ struct IfcLine;
+ struct IfcLocalPlacement;
+ typedef NotImplemented IfcMapConversion; // (not currently used by Assimp)
+ struct IfcMappedItem;
+ typedef NotImplemented IfcMaterialDefinition; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterial; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialClassificationRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialConstituent; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialConstituentSet; // (not currently used by Assimp)
+ struct IfcProductRepresentation;
+ struct IfcMaterialDefinitionRepresentation;
+ typedef NotImplemented IfcMaterialLayer; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialLayerSet; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialUsageDefinition; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialLayerSetUsage; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialLayerWithOffsets; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialList; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialProfile; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialProfileSet; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialProfileSetUsage; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialProfileSetUsageTapering; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialProfileWithOffsets; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcMaterialRelationship; // (not currently used by Assimp)
+ struct IfcMeasureWithUnit;
+ struct IfcMechanicalFastener;
+ struct IfcMechanicalFastenerType;
+ struct IfcMedicalDevice;
+ struct IfcMedicalDeviceType;
+ struct IfcMember;
+ struct IfcMemberStandardCase;
+ struct IfcMemberType;
+ typedef NotImplemented IfcMetric; // (not currently used by Assimp)
+ struct IfcMirroredProfileDef;
+ typedef NotImplemented IfcMonetaryUnit; // (not currently used by Assimp)
+ struct IfcMotorConnection;
+ struct IfcMotorConnectionType;
+ typedef NotImplemented IfcObjective; // (not currently used by Assimp)
+ struct IfcOccupant;
+ struct IfcOffsetCurve2D;
+ struct IfcOffsetCurve3D;
+ struct IfcOpenShell;
+ struct IfcOpeningElement;
+ struct IfcOpeningStandardCase;
+ typedef NotImplemented IfcOrganization; // (not currently used by Assimp)
+ typedef NotImplemented IfcOrganizationRelationship; // (not currently used by Assimp)
+ struct IfcOrientedEdge;
+ struct IfcOuterBoundaryCurve;
+ struct IfcOutlet;
+ struct IfcOutletType;
+ typedef NotImplemented IfcOwnerHistory; // (not currently used by Assimp)
+ struct IfcPath;
+ struct IfcPcurve;
+ struct IfcPerformanceHistory;
+ typedef NotImplemented IfcPermeableCoveringProperties; // (not currently used by Assimp)
+ struct IfcPermit;
+ typedef NotImplemented IfcPerson; // (not currently used by Assimp)
+ typedef NotImplemented IfcPersonAndOrganization; // (not currently used by Assimp)
+ typedef NotImplemented IfcPhysicalQuantity; // (not currently used by Assimp)
+ typedef NotImplemented IfcPhysicalComplexQuantity; // (not currently used by Assimp)
+ typedef NotImplemented IfcPhysicalSimpleQuantity; // (not currently used by Assimp)
+ struct IfcPile;
+ struct IfcPileType;
+ struct IfcPipeFitting;
+ struct IfcPipeFittingType;
+ struct IfcPipeSegment;
+ struct IfcPipeSegmentType;
+ typedef NotImplemented IfcPixelTexture; // (not currently used by Assimp)
+ struct IfcPlanarExtent;
+ struct IfcPlanarBox;
+ struct IfcPlane;
+ struct IfcPlate;
+ struct IfcPlateStandardCase;
+ struct IfcPlateType;
+ struct IfcPointOnCurve;
+ struct IfcPointOnSurface;
+ struct IfcPolyLoop;
+ struct IfcPolygonalBoundedHalfSpace;
+ struct IfcTessellatedFaceSet;
+ struct IfcPolygonalFaceSet;
+ struct IfcPolyline;
+ typedef NotImplemented IfcPostalAddress; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcPreDefinedTextFont; // (not currently used by Assimp)
+ typedef NotImplemented IfcPresentationLayerAssignment; // (not currently used by Assimp)
+ typedef NotImplemented IfcPresentationLayerWithStyle; // (not currently used by Assimp)
+ struct IfcPresentationStyleAssignment;
+ struct IfcProcedure;
+ struct IfcProcedureType;
+ struct IfcProductDefinitionShape;
+ typedef NotImplemented IfcProfileProperties; // (not currently used by Assimp)
+ struct IfcProject;
+ struct IfcProjectLibrary;
+ struct IfcProjectOrder;
+ typedef NotImplemented IfcProjectedCRS; // (not currently used by Assimp)
+ struct IfcProjectionElement;
+ struct IfcSimpleProperty;
+ struct IfcPropertyBoundedValue;
+ typedef NotImplemented IfcPropertyDependencyRelationship; // (not currently used by Assimp)
+ struct IfcPropertyEnumeratedValue;
+ typedef NotImplemented IfcPropertyEnumeration; // (not currently used by Assimp)
+ struct IfcPropertyListValue;
+ struct IfcPropertyReferenceValue;
+ struct IfcPropertySet;
+ typedef NotImplemented IfcPropertySetTemplate; // (not currently used by Assimp)
+ struct IfcPropertySingleValue;
+ struct IfcPropertyTableValue;
+ struct IfcProtectiveDevice;
+ struct IfcProtectiveDeviceTrippingUnit;
+ struct IfcProtectiveDeviceTrippingUnitType;
+ struct IfcProtectiveDeviceType;
+ struct IfcProxy;
+ struct IfcPump;
+ struct IfcPumpType;
+ typedef NotImplemented IfcQuantityArea; // (not currently used by Assimp)
+ typedef NotImplemented IfcQuantityCount; // (not currently used by Assimp)
+ typedef NotImplemented IfcQuantityLength; // (not currently used by Assimp)
+ typedef NotImplemented IfcQuantityTime; // (not currently used by Assimp)
+ typedef NotImplemented IfcQuantityVolume; // (not currently used by Assimp)
+ typedef NotImplemented IfcQuantityWeight; // (not currently used by Assimp)
+ struct IfcRailing;
+ struct IfcRailingType;
+ struct IfcRamp;
+ struct IfcRampFlight;
+ struct IfcRampFlightType;
+ struct IfcRampType;
+ struct IfcRationalBSplineCurveWithKnots;
+ struct IfcRationalBSplineSurfaceWithKnots;
+ struct IfcRectangleProfileDef;
+ struct IfcRectangleHollowProfileDef;
+ struct IfcRectangularPyramid;
+ struct IfcRectangularTrimmedSurface;
+ typedef NotImplemented IfcRecurrencePattern; // (not currently used by Assimp)
+ typedef NotImplemented IfcReference; // (not currently used by Assimp)
+ typedef NotImplemented IfcRegularTimeSeries; // (not currently used by Assimp)
+ typedef NotImplemented IfcReinforcementBarProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcReinforcementDefinitionProperties; // (not currently used by Assimp)
+ struct IfcReinforcingElement;
+ struct IfcReinforcingBar;
+ struct IfcReinforcingElementType;
+ struct IfcReinforcingBarType;
+ struct IfcReinforcingMesh;
+ struct IfcReinforcingMeshType;
+ struct IfcRelationship;
+ struct IfcRelDecomposes;
+ struct IfcRelAggregates;
+ typedef NotImplemented IfcRelAssigns; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToActor; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToControl; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToGroup; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToGroupByFactor; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToProcess; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToProduct; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssignsToResource; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociates; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesApproval; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesClassification; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesConstraint; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesDocument; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesLibrary; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelAssociatesMaterial; // (not currently used by Assimp)
+ struct IfcRelConnects;
+ typedef NotImplemented IfcRelConnectsElements; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsPathElements; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsPortToElement; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsPorts; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsStructuralActivity; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsStructuralMember; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsWithEccentricity; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelConnectsWithRealizingElements; // (not currently used by Assimp)
+ struct IfcRelContainedInSpatialStructure;
+ typedef NotImplemented IfcRelCoversBldgElements; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelCoversSpaces; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelDeclares; // (not currently used by Assimp)
+ struct IfcRelDefines;
+ typedef NotImplemented IfcRelDefinesByObject; // (not currently used by Assimp)
+ struct IfcRelDefinesByProperties;
+ typedef NotImplemented IfcRelDefinesByTemplate; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelDefinesByType; // (not currently used by Assimp)
+ struct IfcRelFillsElement;
+ typedef NotImplemented IfcRelFlowControlElements; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelInterferesElements; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelNests; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelProjectsElement; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelReferencedInSpatialStructure; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelSequence; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelServicesBuildings; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelSpaceBoundary; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelSpaceBoundary1stLevel; // (not currently used by Assimp)
+ typedef NotImplemented IfcRelSpaceBoundary2ndLevel; // (not currently used by Assimp)
+ struct IfcRelVoidsElement;
+ struct IfcReparametrisedCompositeCurveSegment;
+ struct IfcRepresentation;
+ struct IfcRepresentationMap;
+ typedef NotImplemented IfcResourceApprovalRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcResourceConstraintRelationship; // (not currently used by Assimp)
+ typedef NotImplemented IfcResourceTime; // (not currently used by Assimp)
+ struct IfcRevolvedAreaSolid;
+ struct IfcRevolvedAreaSolidTapered;
+ struct IfcRightCircularCone;
+ struct IfcRightCircularCylinder;
+ struct IfcRoof;
+ struct IfcRoofType;
+ struct IfcRoundedRectangleProfileDef;
+ struct IfcSIUnit;
+ struct IfcSanitaryTerminal;
+ struct IfcSanitaryTerminalType;
+ struct IfcSeamCurve;
+ typedef NotImplemented IfcSectionProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcSectionReinforcementProperties; // (not currently used by Assimp)
+ struct IfcSectionedSpine;
+ struct IfcSensor;
+ struct IfcSensorType;
+ struct IfcShadingDevice;
+ struct IfcShadingDeviceType;
+ typedef NotImplemented IfcShapeAspect; // (not currently used by Assimp)
+ struct IfcShapeModel;
+ struct IfcShapeRepresentation;
+ struct IfcShellBasedSurfaceModel;
+ typedef NotImplemented IfcSimplePropertyTemplate; // (not currently used by Assimp)
+ struct IfcSite;
+ struct IfcSlab;
+ struct IfcSlabElementedCase;
+ struct IfcSlabStandardCase;
+ struct IfcSlabType;
+ typedef NotImplemented IfcSlippageConnectionCondition; // (not currently used by Assimp)
+ struct IfcSolarDevice;
+ struct IfcSolarDeviceType;
+ struct IfcSpace;
+ struct IfcSpaceHeater;
+ struct IfcSpaceHeaterType;
+ struct IfcSpatialElementType;
+ struct IfcSpatialStructureElementType;
+ struct IfcSpaceType;
+ struct IfcSpatialZone;
+ struct IfcSpatialZoneType;
+ struct IfcSphere;
+ struct IfcSphericalSurface;
+ struct IfcStackTerminal;
+ struct IfcStackTerminalType;
+ struct IfcStair;
+ struct IfcStairFlight;
+ struct IfcStairFlightType;
+ struct IfcStairType;
+ struct IfcStructuralActivity;
+ struct IfcStructuralAction;
+ struct IfcStructuralAnalysisModel;
+ struct IfcStructuralItem;
+ struct IfcStructuralConnection;
+ struct IfcStructuralCurveAction;
+ struct IfcStructuralCurveConnection;
+ struct IfcStructuralMember;
+ struct IfcStructuralCurveMember;
+ struct IfcStructuralCurveMemberVarying;
+ struct IfcStructuralReaction;
+ struct IfcStructuralCurveReaction;
+ struct IfcStructuralLinearAction;
+ typedef NotImplemented IfcStructuralLoad; // (not currently used by Assimp)
+ struct IfcStructuralLoadGroup;
+ struct IfcStructuralLoadCase;
+ typedef NotImplemented IfcStructuralLoadConfiguration; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadOrResult; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadStatic; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadLinearForce; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadPlanarForce; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadSingleDisplacement; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadSingleDisplacementDistortion; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadSingleForce; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadSingleForceWarping; // (not currently used by Assimp)
+ typedef NotImplemented IfcStructuralLoadTemperature; // (not currently used by Assimp)
+ struct IfcStructuralSurfaceAction;
+ struct IfcStructuralPlanarAction;
+ struct IfcStructuralPointAction;
+ struct IfcStructuralPointConnection;
+ struct IfcStructuralPointReaction;
+ struct IfcStructuralResultGroup;
+ struct IfcStructuralSurfaceConnection;
+ struct IfcStructuralSurfaceMember;
+ struct IfcStructuralSurfaceMemberVarying;
+ struct IfcStructuralSurfaceReaction;
+ struct IfcStyleModel;
+ struct IfcStyledItem;
+ struct IfcStyledRepresentation;
+ struct IfcSubContractResource;
+ struct IfcSubContractResourceType;
+ struct IfcSubedge;
+ struct IfcSurfaceCurveSweptAreaSolid;
+ struct IfcSurfaceFeature;
+ struct IfcSweptSurface;
+ struct IfcSurfaceOfLinearExtrusion;
+ struct IfcSurfaceOfRevolution;
+ typedef NotImplemented IfcSurfaceReinforcementArea; // (not currently used by Assimp)
+ struct IfcSurfaceStyle;
+ typedef NotImplemented IfcSurfaceStyleLighting; // (not currently used by Assimp)
+ typedef NotImplemented IfcSurfaceStyleRefraction; // (not currently used by Assimp)
+ struct IfcSurfaceStyleShading;
+ struct IfcSurfaceStyleRendering;
+ struct IfcSurfaceStyleWithTextures;
+ struct IfcSweptDiskSolid;
+ struct IfcSweptDiskSolidPolygonal;
+ struct IfcSwitchingDevice;
+ struct IfcSwitchingDeviceType;
+ struct IfcSystemFurnitureElement;
+ struct IfcSystemFurnitureElementType;
+ struct IfcTShapeProfileDef;
+ typedef NotImplemented IfcTable; // (not currently used by Assimp)
+ typedef NotImplemented IfcTableColumn; // (not currently used by Assimp)
+ typedef NotImplemented IfcTableRow; // (not currently used by Assimp)
+ struct IfcTank;
+ struct IfcTankType;
+ struct IfcTask;
+ typedef NotImplemented IfcTaskTime; // (not currently used by Assimp)
+ typedef NotImplemented IfcTaskTimeRecurring; // (not currently used by Assimp)
+ struct IfcTaskType;
+ typedef NotImplemented IfcTelecomAddress; // (not currently used by Assimp)
+ struct IfcTendon;
+ struct IfcTendonAnchor;
+ struct IfcTendonAnchorType;
+ struct IfcTendonType;
+ struct IfcTextLiteral;
+ struct IfcTextLiteralWithExtent;
+ typedef NotImplemented IfcTextStyle; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextStyleFontModel; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextStyleForDefinedFont; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextStyleTextModel; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextureCoordinateGenerator; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextureMap; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextureVertex; // (not currently used by Assimp)
+ typedef NotImplemented IfcTextureVertexList; // (not currently used by Assimp)
+ typedef NotImplemented IfcTimePeriod; // (not currently used by Assimp)
+ typedef NotImplemented IfcTimeSeriesValue; // (not currently used by Assimp)
+ struct IfcTopologyRepresentation;
+ struct IfcToroidalSurface;
+ struct IfcTransformer;
+ struct IfcTransformerType;
+ struct IfcTransportElement;
+ struct IfcTransportElementType;
+ struct IfcTrapeziumProfileDef;
+ struct IfcTriangulatedFaceSet;
+ struct IfcTrimmedCurve;
+ struct IfcTubeBundle;
+ struct IfcTubeBundleType;
+ struct IfcUShapeProfileDef;
+ struct IfcUnitAssignment;
+ struct IfcUnitaryControlElement;
+ struct IfcUnitaryControlElementType;
+ struct IfcUnitaryEquipment;
+ struct IfcUnitaryEquipmentType;
+ struct IfcValve;
+ struct IfcValveType;
+ struct IfcVector;
+ struct IfcVertex;
+ struct IfcVertexLoop;
+ struct IfcVertexPoint;
+ struct IfcVibrationIsolator;
+ struct IfcVibrationIsolatorType;
+ struct IfcVirtualElement;
+ typedef NotImplemented IfcVirtualGridIntersection; // (not currently used by Assimp)
+ struct IfcVoidingFeature;
+ struct IfcWall;
+ struct IfcWallElementedCase;
+ struct IfcWallStandardCase;
+ struct IfcWallType;
+ struct IfcWasteTerminal;
+ struct IfcWasteTerminalType;
+ struct IfcWindow;
+ typedef NotImplemented IfcWindowLiningProperties; // (not currently used by Assimp)
+ typedef NotImplemented IfcWindowPanelProperties; // (not currently used by Assimp)
+ struct IfcWindowStandardCase;
+ struct IfcWindowStyle;
+ struct IfcWindowType;
+ struct IfcWorkCalendar;
+ struct IfcWorkControl;
+ struct IfcWorkPlan;
+ struct IfcWorkSchedule;
+ typedef NotImplemented IfcWorkTime; // (not currently used by Assimp)
+ struct IfcZShapeProfileDef;
+ struct IfcZone;
+
+
+
+ // C++ wrapper for IfcRoot
+ struct IfcRoot : ObjectHelper<IfcRoot,4> { IfcRoot() : Object("IfcRoot") {}
+ IfcGloballyUniqueId::Out GlobalId;
+ Maybe< Lazy< NotImplemented > > OwnerHistory;
+ Maybe< IfcLabel::Out > Name;
+ Maybe< IfcText::Out > Description;
+ };
+
+ // C++ wrapper for IfcObjectDefinition
+ struct IfcObjectDefinition : IfcRoot, ObjectHelper<IfcObjectDefinition,0> { IfcObjectDefinition() : Object("IfcObjectDefinition") {}
+
+ };
+
+ // C++ wrapper for IfcObject
+ struct IfcObject : IfcObjectDefinition, ObjectHelper<IfcObject,1> { IfcObject() : Object("IfcObject") {}
+ Maybe< IfcLabel::Out > ObjectType;
+ };
+
+ // C++ wrapper for IfcControl
+ struct IfcControl : IfcObject, ObjectHelper<IfcControl,1> { IfcControl() : Object("IfcControl") {}
+ Maybe< IfcIdentifier::Out > Identification;
+ };
+
+ // C++ wrapper for IfcActionRequest
+ struct IfcActionRequest : IfcControl, ObjectHelper<IfcActionRequest,3> { IfcActionRequest() : Object("IfcActionRequest") {}
+ Maybe< IfcActionRequestTypeEnum::Out > PredefinedType;
+ Maybe< IfcLabel::Out > Status;
+ Maybe< IfcText::Out > LongDescription;
+ };
+
+ // C++ wrapper for IfcActor
+ struct IfcActor : IfcObject, ObjectHelper<IfcActor,1> { IfcActor() : Object("IfcActor") {}
+ IfcActorSelect::Out TheActor;
+ };
+
+ // C++ wrapper for IfcProduct
+ struct IfcProduct : IfcObject, ObjectHelper<IfcProduct,2> { IfcProduct() : Object("IfcProduct") {}
+ Maybe< Lazy< IfcObjectPlacement > > ObjectPlacement;
+ Maybe< Lazy< IfcProductRepresentation > > Representation;
+ };
+
+ // C++ wrapper for IfcElement
+ struct IfcElement : IfcProduct, ObjectHelper<IfcElement,1> { IfcElement() : Object("IfcElement") {}
+ Maybe< IfcIdentifier::Out > Tag;
+ };
+
+ // C++ wrapper for IfcDistributionElement
+ struct IfcDistributionElement : IfcElement, ObjectHelper<IfcDistributionElement,0> { IfcDistributionElement() : Object("IfcDistributionElement") {}
+
+ };
+
+ // C++ wrapper for IfcDistributionControlElement
+ struct IfcDistributionControlElement : IfcDistributionElement, ObjectHelper<IfcDistributionControlElement,0> { IfcDistributionControlElement() : Object("IfcDistributionControlElement") {}
+
+ };
+
+ // C++ wrapper for IfcActuator
+ struct IfcActuator : IfcDistributionControlElement, ObjectHelper<IfcActuator,1> { IfcActuator() : Object("IfcActuator") {}
+ Maybe< IfcActuatorTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcTypeObject
+ struct IfcTypeObject : IfcObjectDefinition, ObjectHelper<IfcTypeObject,2> { IfcTypeObject() : Object("IfcTypeObject") {}
+ Maybe< IfcIdentifier::Out > ApplicableOccurrence;
+ Maybe< ListOf< Lazy< IfcPropertySetDefinition >, 1, 0 > > HasPropertySets;
+ };
+
+ // C++ wrapper for IfcTypeProduct
+ struct IfcTypeProduct : IfcTypeObject, ObjectHelper<IfcTypeProduct,2> { IfcTypeProduct() : Object("IfcTypeProduct") {}
+ Maybe< ListOf< Lazy< IfcRepresentationMap >, 1, 0 > > RepresentationMaps;
+ Maybe< IfcLabel::Out > Tag;
+ };
+
+ // C++ wrapper for IfcElementType
+ struct IfcElementType : IfcTypeProduct, ObjectHelper<IfcElementType,1> { IfcElementType() : Object("IfcElementType") {}
+ Maybe< IfcLabel::Out > ElementType;
+ };
+
+ // C++ wrapper for IfcDistributionElementType
+ struct IfcDistributionElementType : IfcElementType, ObjectHelper<IfcDistributionElementType,0> { IfcDistributionElementType() : Object("IfcDistributionElementType") {}
+
+ };
+
+ // C++ wrapper for IfcDistributionControlElementType
+ struct IfcDistributionControlElementType : IfcDistributionElementType, ObjectHelper<IfcDistributionControlElementType,0> { IfcDistributionControlElementType() : Object("IfcDistributionControlElementType") {}
+
+ };
+
+ // C++ wrapper for IfcActuatorType
+ struct IfcActuatorType : IfcDistributionControlElementType, ObjectHelper<IfcActuatorType,1> { IfcActuatorType() : Object("IfcActuatorType") {}
+ IfcActuatorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcRepresentationItem
+ struct IfcRepresentationItem : ObjectHelper<IfcRepresentationItem,0> { IfcRepresentationItem() : Object("IfcRepresentationItem") {}
+
+ };
+
+ // C++ wrapper for IfcGeometricRepresentationItem
+ struct IfcGeometricRepresentationItem : IfcRepresentationItem, ObjectHelper<IfcGeometricRepresentationItem,0> { IfcGeometricRepresentationItem() : Object("IfcGeometricRepresentationItem") {}
+
+ };
+
+ // C++ wrapper for IfcSolidModel
+ struct IfcSolidModel : IfcGeometricRepresentationItem, ObjectHelper<IfcSolidModel,0> { IfcSolidModel() : Object("IfcSolidModel") {}
+
+ };
+
+ // C++ wrapper for IfcManifoldSolidBrep
+ struct IfcManifoldSolidBrep : IfcSolidModel, ObjectHelper<IfcManifoldSolidBrep,1> { IfcManifoldSolidBrep() : Object("IfcManifoldSolidBrep") {}
+ Lazy< IfcClosedShell > Outer;
+ };
+
+ // C++ wrapper for IfcAdvancedBrep
+ struct IfcAdvancedBrep : IfcManifoldSolidBrep, ObjectHelper<IfcAdvancedBrep,0> { IfcAdvancedBrep() : Object("IfcAdvancedBrep") {}
+
+ };
+
+ // C++ wrapper for IfcAdvancedBrepWithVoids
+ struct IfcAdvancedBrepWithVoids : IfcAdvancedBrep, ObjectHelper<IfcAdvancedBrepWithVoids,1> { IfcAdvancedBrepWithVoids() : Object("IfcAdvancedBrepWithVoids") {}
+ ListOf< Lazy< IfcClosedShell >, 1, 0 > Voids;
+ };
+
+ // C++ wrapper for IfcTopologicalRepresentationItem
+ struct IfcTopologicalRepresentationItem : IfcRepresentationItem, ObjectHelper<IfcTopologicalRepresentationItem,0> { IfcTopologicalRepresentationItem() : Object("IfcTopologicalRepresentationItem") {}
+
+ };
+
+ // C++ wrapper for IfcFace
+ struct IfcFace : IfcTopologicalRepresentationItem, ObjectHelper<IfcFace,1> { IfcFace() : Object("IfcFace") {}
+ ListOf< Lazy< IfcFaceBound >, 1, 0 > Bounds;
+ };
+
+ // C++ wrapper for IfcFaceSurface
+ struct IfcFaceSurface : IfcFace, ObjectHelper<IfcFaceSurface,2> { IfcFaceSurface() : Object("IfcFaceSurface") {}
+ Lazy< IfcSurface > FaceSurface;
+ IfcBoolean::Out SameSense;
+ };
+
+ // C++ wrapper for IfcAdvancedFace
+ struct IfcAdvancedFace : IfcFaceSurface, ObjectHelper<IfcAdvancedFace,0> { IfcAdvancedFace() : Object("IfcAdvancedFace") {}
+
+ };
+
+ // C++ wrapper for IfcDistributionFlowElement
+ struct IfcDistributionFlowElement : IfcDistributionElement, ObjectHelper<IfcDistributionFlowElement,0> { IfcDistributionFlowElement() : Object("IfcDistributionFlowElement") {}
+
+ };
+
+ // C++ wrapper for IfcFlowTerminal
+ struct IfcFlowTerminal : IfcDistributionFlowElement, ObjectHelper<IfcFlowTerminal,0> { IfcFlowTerminal() : Object("IfcFlowTerminal") {}
+
+ };
+
+ // C++ wrapper for IfcAirTerminal
+ struct IfcAirTerminal : IfcFlowTerminal, ObjectHelper<IfcAirTerminal,1> { IfcAirTerminal() : Object("IfcAirTerminal") {}
+ Maybe< IfcAirTerminalTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowController
+ struct IfcFlowController : IfcDistributionFlowElement, ObjectHelper<IfcFlowController,0> { IfcFlowController() : Object("IfcFlowController") {}
+
+ };
+
+ // C++ wrapper for IfcAirTerminalBox
+ struct IfcAirTerminalBox : IfcFlowController, ObjectHelper<IfcAirTerminalBox,1> { IfcAirTerminalBox() : Object("IfcAirTerminalBox") {}
+ Maybe< IfcAirTerminalBoxTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcDistributionFlowElementType
+ struct IfcDistributionFlowElementType : IfcDistributionElementType, ObjectHelper<IfcDistributionFlowElementType,0> { IfcDistributionFlowElementType() : Object("IfcDistributionFlowElementType") {}
+
+ };
+
+ // C++ wrapper for IfcFlowControllerType
+ struct IfcFlowControllerType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowControllerType,0> { IfcFlowControllerType() : Object("IfcFlowControllerType") {}
+
+ };
+
+ // C++ wrapper for IfcAirTerminalBoxType
+ struct IfcAirTerminalBoxType : IfcFlowControllerType, ObjectHelper<IfcAirTerminalBoxType,1> { IfcAirTerminalBoxType() : Object("IfcAirTerminalBoxType") {}
+ IfcAirTerminalBoxTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowTerminalType
+ struct IfcFlowTerminalType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowTerminalType,0> { IfcFlowTerminalType() : Object("IfcFlowTerminalType") {}
+
+ };
+
+ // C++ wrapper for IfcAirTerminalType
+ struct IfcAirTerminalType : IfcFlowTerminalType, ObjectHelper<IfcAirTerminalType,1> { IfcAirTerminalType() : Object("IfcAirTerminalType") {}
+ IfcAirTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcEnergyConversionDevice
+ struct IfcEnergyConversionDevice : IfcDistributionFlowElement, ObjectHelper<IfcEnergyConversionDevice,0> { IfcEnergyConversionDevice() : Object("IfcEnergyConversionDevice") {}
+
+ };
+
+ // C++ wrapper for IfcAirToAirHeatRecovery
+ struct IfcAirToAirHeatRecovery : IfcEnergyConversionDevice, ObjectHelper<IfcAirToAirHeatRecovery,1> { IfcAirToAirHeatRecovery() : Object("IfcAirToAirHeatRecovery") {}
+ Maybe< IfcAirToAirHeatRecoveryTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcEnergyConversionDeviceType
+ struct IfcEnergyConversionDeviceType : IfcDistributionFlowElementType, ObjectHelper<IfcEnergyConversionDeviceType,0> { IfcEnergyConversionDeviceType() : Object("IfcEnergyConversionDeviceType") {}
+
+ };
+
+ // C++ wrapper for IfcAirToAirHeatRecoveryType
+ struct IfcAirToAirHeatRecoveryType : IfcEnergyConversionDeviceType, ObjectHelper<IfcAirToAirHeatRecoveryType,1> { IfcAirToAirHeatRecoveryType() : Object("IfcAirToAirHeatRecoveryType") {}
+ IfcAirToAirHeatRecoveryTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcAlarm
+ struct IfcAlarm : IfcDistributionControlElement, ObjectHelper<IfcAlarm,1> { IfcAlarm() : Object("IfcAlarm") {}
+ Maybe< IfcAlarmTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcAlarmType
+ struct IfcAlarmType : IfcDistributionControlElementType, ObjectHelper<IfcAlarmType,1> { IfcAlarmType() : Object("IfcAlarmType") {}
+ IfcAlarmTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcAnnotation
+ struct IfcAnnotation : IfcProduct, ObjectHelper<IfcAnnotation,0> { IfcAnnotation() : Object("IfcAnnotation") {}
+
+ };
+
+ // C++ wrapper for IfcAnnotationFillArea
+ struct IfcAnnotationFillArea : IfcGeometricRepresentationItem, ObjectHelper<IfcAnnotationFillArea,2> { IfcAnnotationFillArea() : Object("IfcAnnotationFillArea") {}
+ Lazy< IfcCurve > OuterBoundary;
+ Maybe< ListOf< Lazy< IfcCurve >, 1, 0 > > InnerBoundaries;
+ };
+
+ // C++ wrapper for IfcProfileDef
+ struct IfcProfileDef : ObjectHelper<IfcProfileDef,2> { IfcProfileDef() : Object("IfcProfileDef") {}
+ IfcProfileTypeEnum::Out ProfileType;
+ Maybe< IfcLabel::Out > ProfileName;
+ };
+
+ // C++ wrapper for IfcArbitraryClosedProfileDef
+ struct IfcArbitraryClosedProfileDef : IfcProfileDef, ObjectHelper<IfcArbitraryClosedProfileDef,1> { IfcArbitraryClosedProfileDef() : Object("IfcArbitraryClosedProfileDef") {}
+ Lazy< IfcCurve > OuterCurve;
+ };
+
+ // C++ wrapper for IfcArbitraryOpenProfileDef
+ struct IfcArbitraryOpenProfileDef : IfcProfileDef, ObjectHelper<IfcArbitraryOpenProfileDef,1> { IfcArbitraryOpenProfileDef() : Object("IfcArbitraryOpenProfileDef") {}
+ Lazy< IfcBoundedCurve > Curve;
+ };
+
+ // C++ wrapper for IfcArbitraryProfileDefWithVoids
+ struct IfcArbitraryProfileDefWithVoids : IfcArbitraryClosedProfileDef, ObjectHelper<IfcArbitraryProfileDefWithVoids,1> { IfcArbitraryProfileDefWithVoids() : Object("IfcArbitraryProfileDefWithVoids") {}
+ ListOf< Lazy< IfcCurve >, 1, 0 > InnerCurves;
+ };
+
+ // C++ wrapper for IfcGroup
+ struct IfcGroup : IfcObject, ObjectHelper<IfcGroup,0> { IfcGroup() : Object("IfcGroup") {}
+
+ };
+
+ // C++ wrapper for IfcAsset
+ struct IfcAsset : IfcGroup, ObjectHelper<IfcAsset,9> { IfcAsset() : Object("IfcAsset") {}
+ Maybe< IfcIdentifier::Out > Identification;
+ Maybe< Lazy< NotImplemented > > OriginalValue;
+ Maybe< Lazy< NotImplemented > > CurrentValue;
+ Maybe< Lazy< NotImplemented > > TotalReplacementCost;
+ Maybe< IfcActorSelect::Out > Owner;
+ Maybe< IfcActorSelect::Out > User;
+ Maybe< Lazy< NotImplemented > > ResponsiblePerson;
+ Maybe< IfcDate::Out > IncorporationDate;
+ Maybe< Lazy< NotImplemented > > DepreciatedValue;
+ };
+
+ // C++ wrapper for IfcParameterizedProfileDef
+ struct IfcParameterizedProfileDef : IfcProfileDef, ObjectHelper<IfcParameterizedProfileDef,1> { IfcParameterizedProfileDef() : Object("IfcParameterizedProfileDef") {}
+ Maybe< Lazy< IfcAxis2Placement2D > > Position;
+ };
+
+ // C++ wrapper for IfcAsymmetricIShapeProfileDef
+ struct IfcAsymmetricIShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcAsymmetricIShapeProfileDef,12> { IfcAsymmetricIShapeProfileDef() : Object("IfcAsymmetricIShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out BottomFlangeWidth;
+ IfcPositiveLengthMeasure::Out OverallDepth;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out BottomFlangeThickness;
+ Maybe< IfcNonNegativeLengthMeasure::Out > BottomFlangeFilletRadius;
+ IfcPositiveLengthMeasure::Out TopFlangeWidth;
+ Maybe< IfcPositiveLengthMeasure::Out > TopFlangeThickness;
+ Maybe< IfcNonNegativeLengthMeasure::Out > TopFlangeFilletRadius;
+ Maybe< IfcNonNegativeLengthMeasure::Out > BottomFlangeEdgeRadius;
+ Maybe< IfcPlaneAngleMeasure::Out > BottomFlangeSlope;
+ Maybe< IfcNonNegativeLengthMeasure::Out > TopFlangeEdgeRadius;
+ Maybe< IfcPlaneAngleMeasure::Out > TopFlangeSlope;
+ };
+
+ // C++ wrapper for IfcAudioVisualAppliance
+ struct IfcAudioVisualAppliance : IfcFlowTerminal, ObjectHelper<IfcAudioVisualAppliance,1> { IfcAudioVisualAppliance() : Object("IfcAudioVisualAppliance") {}
+ Maybe< IfcAudioVisualApplianceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcAudioVisualApplianceType
+ struct IfcAudioVisualApplianceType : IfcFlowTerminalType, ObjectHelper<IfcAudioVisualApplianceType,1> { IfcAudioVisualApplianceType() : Object("IfcAudioVisualApplianceType") {}
+ IfcAudioVisualApplianceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPlacement
+ struct IfcPlacement : IfcGeometricRepresentationItem, ObjectHelper<IfcPlacement,1> { IfcPlacement() : Object("IfcPlacement") {}
+ Lazy< IfcCartesianPoint > Location;
+ };
+
+ // C++ wrapper for IfcAxis1Placement
+ struct IfcAxis1Placement : IfcPlacement, ObjectHelper<IfcAxis1Placement,1> { IfcAxis1Placement() : Object("IfcAxis1Placement") {}
+ Maybe< Lazy< IfcDirection > > Axis;
+ };
+
+ // C++ wrapper for IfcAxis2Placement2D
+ struct IfcAxis2Placement2D : IfcPlacement, ObjectHelper<IfcAxis2Placement2D,1> { IfcAxis2Placement2D() : Object("IfcAxis2Placement2D") {}
+ Maybe< Lazy< IfcDirection > > RefDirection;
+ };
+
+ // C++ wrapper for IfcAxis2Placement3D
+ struct IfcAxis2Placement3D : IfcPlacement, ObjectHelper<IfcAxis2Placement3D,2> { IfcAxis2Placement3D() : Object("IfcAxis2Placement3D") {}
+ Maybe< Lazy< IfcDirection > > Axis;
+ Maybe< Lazy< IfcDirection > > RefDirection;
+ };
+
+ // C++ wrapper for IfcCurve
+ struct IfcCurve : IfcGeometricRepresentationItem, ObjectHelper<IfcCurve,0> { IfcCurve() : Object("IfcCurve") {}
+
+ };
+
+ // C++ wrapper for IfcBoundedCurve
+ struct IfcBoundedCurve : IfcCurve, ObjectHelper<IfcBoundedCurve,0> { IfcBoundedCurve() : Object("IfcBoundedCurve") {}
+
+ };
+
+ // C++ wrapper for IfcBSplineCurve
+ struct IfcBSplineCurve : IfcBoundedCurve, ObjectHelper<IfcBSplineCurve,5> { IfcBSplineCurve() : Object("IfcBSplineCurve") {}
+ IfcInteger::Out Degree;
+ ListOf< Lazy< IfcCartesianPoint >, 2, 0 > ControlPointsList;
+ IfcBSplineCurveForm::Out CurveForm;
+ IfcLogical::Out ClosedCurve;
+ IfcLogical::Out SelfIntersect;
+ };
+
+ // C++ wrapper for IfcBSplineCurveWithKnots
+ struct IfcBSplineCurveWithKnots : IfcBSplineCurve, ObjectHelper<IfcBSplineCurveWithKnots,3> { IfcBSplineCurveWithKnots() : Object("IfcBSplineCurveWithKnots") {}
+ ListOf< IfcInteger, 2, 0 >::Out KnotMultiplicities;
+ ListOf< IfcParameterValue, 2, 0 >::Out Knots;
+ IfcKnotType::Out KnotSpec;
+ };
+
+ // C++ wrapper for IfcSurface
+ struct IfcSurface : IfcGeometricRepresentationItem, ObjectHelper<IfcSurface,0> { IfcSurface() : Object("IfcSurface") {}
+
+ };
+
+ // C++ wrapper for IfcBoundedSurface
+ struct IfcBoundedSurface : IfcSurface, ObjectHelper<IfcBoundedSurface,0> { IfcBoundedSurface() : Object("IfcBoundedSurface") {}
+
+ };
+
+ // C++ wrapper for IfcBSplineSurface
+ struct IfcBSplineSurface : IfcBoundedSurface, ObjectHelper<IfcBSplineSurface,6> { IfcBSplineSurface() : Object("IfcBSplineSurface") {}
+ IfcInteger::Out UDegree;
+ IfcInteger::Out VDegree;
+ IfcBSplineSurfaceForm::Out SurfaceForm;
+ IfcLogical::Out UClosed;
+ IfcLogical::Out VClosed;
+ IfcLogical::Out SelfIntersect;
+ };
+
+ // C++ wrapper for IfcBSplineSurfaceWithKnots
+ struct IfcBSplineSurfaceWithKnots : IfcBSplineSurface, ObjectHelper<IfcBSplineSurfaceWithKnots,5> { IfcBSplineSurfaceWithKnots() : Object("IfcBSplineSurfaceWithKnots") {}
+ ListOf< IfcInteger, 2, 0 >::Out UMultiplicities;
+ ListOf< IfcInteger, 2, 0 >::Out VMultiplicities;
+ ListOf< IfcParameterValue, 2, 0 >::Out UKnots;
+ ListOf< IfcParameterValue, 2, 0 >::Out VKnots;
+ IfcKnotType::Out KnotSpec;
+ };
+
+ // C++ wrapper for IfcBuildingElement
+ struct IfcBuildingElement : IfcElement, ObjectHelper<IfcBuildingElement,0> { IfcBuildingElement() : Object("IfcBuildingElement") {}
+
+ };
+
+ // C++ wrapper for IfcBeam
+ struct IfcBeam : IfcBuildingElement, ObjectHelper<IfcBeam,1> { IfcBeam() : Object("IfcBeam") {}
+ Maybe< IfcBeamTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcBeamStandardCase
+ struct IfcBeamStandardCase : IfcBeam, ObjectHelper<IfcBeamStandardCase,0> { IfcBeamStandardCase() : Object("IfcBeamStandardCase") {}
+
+ };
+
+ // C++ wrapper for IfcBuildingElementType
+ struct IfcBuildingElementType : IfcElementType, ObjectHelper<IfcBuildingElementType,0> { IfcBuildingElementType() : Object("IfcBuildingElementType") {}
+
+ };
+
+ // C++ wrapper for IfcBeamType
+ struct IfcBeamType : IfcBuildingElementType, ObjectHelper<IfcBeamType,1> { IfcBeamType() : Object("IfcBeamType") {}
+ IfcBeamTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPresentationItem
+ struct IfcPresentationItem : ObjectHelper<IfcPresentationItem,0> { IfcPresentationItem() : Object("IfcPresentationItem") {}
+
+ };
+
+ // C++ wrapper for IfcCsgPrimitive3D
+ struct IfcCsgPrimitive3D : IfcGeometricRepresentationItem, ObjectHelper<IfcCsgPrimitive3D,1> { IfcCsgPrimitive3D() : Object("IfcCsgPrimitive3D") {}
+ Lazy< IfcAxis2Placement3D > Position;
+ };
+
+ // C++ wrapper for IfcBlock
+ struct IfcBlock : IfcCsgPrimitive3D, ObjectHelper<IfcBlock,3> { IfcBlock() : Object("IfcBlock") {}
+ IfcPositiveLengthMeasure::Out XLength;
+ IfcPositiveLengthMeasure::Out YLength;
+ IfcPositiveLengthMeasure::Out ZLength;
+ };
+
+ // C++ wrapper for IfcBoiler
+ struct IfcBoiler : IfcEnergyConversionDevice, ObjectHelper<IfcBoiler,1> { IfcBoiler() : Object("IfcBoiler") {}
+ Maybe< IfcBoilerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcBoilerType
+ struct IfcBoilerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcBoilerType,1> { IfcBoilerType() : Object("IfcBoilerType") {}
+ IfcBoilerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcBooleanResult
+ struct IfcBooleanResult : IfcGeometricRepresentationItem, ObjectHelper<IfcBooleanResult,3> { IfcBooleanResult() : Object("IfcBooleanResult") {}
+ IfcBooleanOperator::Out Operator;
+ IfcBooleanOperand::Out FirstOperand;
+ IfcBooleanOperand::Out SecondOperand;
+ };
+
+ // C++ wrapper for IfcBooleanClippingResult
+ struct IfcBooleanClippingResult : IfcBooleanResult, ObjectHelper<IfcBooleanClippingResult,0> { IfcBooleanClippingResult() : Object("IfcBooleanClippingResult") {}
+
+ };
+
+ // C++ wrapper for IfcCompositeCurve
+ struct IfcCompositeCurve : IfcBoundedCurve, ObjectHelper<IfcCompositeCurve,2> { IfcCompositeCurve() : Object("IfcCompositeCurve") {}
+ ListOf< Lazy< IfcCompositeCurveSegment >, 1, 0 > Segments;
+ IfcLogical::Out SelfIntersect;
+ };
+
+ // C++ wrapper for IfcCompositeCurveOnSurface
+ struct IfcCompositeCurveOnSurface : IfcCompositeCurve, ObjectHelper<IfcCompositeCurveOnSurface,0> { IfcCompositeCurveOnSurface() : Object("IfcCompositeCurveOnSurface") {}
+
+ };
+
+ // C++ wrapper for IfcBoundaryCurve
+ struct IfcBoundaryCurve : IfcCompositeCurveOnSurface, ObjectHelper<IfcBoundaryCurve,0> { IfcBoundaryCurve() : Object("IfcBoundaryCurve") {}
+
+ };
+
+ // C++ wrapper for IfcBoundingBox
+ struct IfcBoundingBox : IfcGeometricRepresentationItem, ObjectHelper<IfcBoundingBox,4> { IfcBoundingBox() : Object("IfcBoundingBox") {}
+ Lazy< IfcCartesianPoint > Corner;
+ IfcPositiveLengthMeasure::Out XDim;
+ IfcPositiveLengthMeasure::Out YDim;
+ IfcPositiveLengthMeasure::Out ZDim;
+ };
+
+ // C++ wrapper for IfcHalfSpaceSolid
+ struct IfcHalfSpaceSolid : IfcGeometricRepresentationItem, ObjectHelper<IfcHalfSpaceSolid,2> { IfcHalfSpaceSolid() : Object("IfcHalfSpaceSolid") {}
+ Lazy< IfcSurface > BaseSurface;
+ IfcBoolean::Out AgreementFlag;
+ };
+
+ // C++ wrapper for IfcBoxedHalfSpace
+ struct IfcBoxedHalfSpace : IfcHalfSpaceSolid, ObjectHelper<IfcBoxedHalfSpace,1> { IfcBoxedHalfSpace() : Object("IfcBoxedHalfSpace") {}
+ Lazy< IfcBoundingBox > Enclosure;
+ };
+
+ // C++ wrapper for IfcSpatialElement
+ struct IfcSpatialElement : IfcProduct, ObjectHelper<IfcSpatialElement,1> { IfcSpatialElement() : Object("IfcSpatialElement") {}
+ Maybe< IfcLabel::Out > LongName;
+ };
+
+ // C++ wrapper for IfcSpatialStructureElement
+ struct IfcSpatialStructureElement : IfcSpatialElement, ObjectHelper<IfcSpatialStructureElement,1> { IfcSpatialStructureElement() : Object("IfcSpatialStructureElement") {}
+ Maybe< IfcElementCompositionEnum::Out > CompositionType;
+ };
+
+ // C++ wrapper for IfcBuilding
+ struct IfcBuilding : IfcSpatialStructureElement, ObjectHelper<IfcBuilding,3> { IfcBuilding() : Object("IfcBuilding") {}
+ Maybe< IfcLengthMeasure::Out > ElevationOfRefHeight;
+ Maybe< IfcLengthMeasure::Out > ElevationOfTerrain;
+ Maybe< Lazy< NotImplemented > > BuildingAddress;
+ };
+
+ // C++ wrapper for IfcElementComponent
+ struct IfcElementComponent : IfcElement, ObjectHelper<IfcElementComponent,0> { IfcElementComponent() : Object("IfcElementComponent") {}
+
+ };
+
+ // C++ wrapper for IfcBuildingElementPart
+ struct IfcBuildingElementPart : IfcElementComponent, ObjectHelper<IfcBuildingElementPart,1> { IfcBuildingElementPart() : Object("IfcBuildingElementPart") {}
+ Maybe< IfcBuildingElementPartTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcElementComponentType
+ struct IfcElementComponentType : IfcElementType, ObjectHelper<IfcElementComponentType,0> { IfcElementComponentType() : Object("IfcElementComponentType") {}
+
+ };
+
+ // C++ wrapper for IfcBuildingElementPartType
+ struct IfcBuildingElementPartType : IfcElementComponentType, ObjectHelper<IfcBuildingElementPartType,1> { IfcBuildingElementPartType() : Object("IfcBuildingElementPartType") {}
+ IfcBuildingElementPartTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcBuildingElementProxy
+ struct IfcBuildingElementProxy : IfcBuildingElement, ObjectHelper<IfcBuildingElementProxy,1> { IfcBuildingElementProxy() : Object("IfcBuildingElementProxy") {}
+ Maybe< IfcBuildingElementProxyTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcBuildingElementProxyType
+ struct IfcBuildingElementProxyType : IfcBuildingElementType, ObjectHelper<IfcBuildingElementProxyType,1> { IfcBuildingElementProxyType() : Object("IfcBuildingElementProxyType") {}
+ IfcBuildingElementProxyTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcBuildingStorey
+ struct IfcBuildingStorey : IfcSpatialStructureElement, ObjectHelper<IfcBuildingStorey,1> { IfcBuildingStorey() : Object("IfcBuildingStorey") {}
+ Maybe< IfcLengthMeasure::Out > Elevation;
+ };
+
+ // C++ wrapper for IfcSystem
+ struct IfcSystem : IfcGroup, ObjectHelper<IfcSystem,0> { IfcSystem() : Object("IfcSystem") {}
+
+ };
+
+ // C++ wrapper for IfcBuildingSystem
+ struct IfcBuildingSystem : IfcSystem, ObjectHelper<IfcBuildingSystem,2> { IfcBuildingSystem() : Object("IfcBuildingSystem") {}
+ Maybe< IfcBuildingSystemTypeEnum::Out > PredefinedType;
+ Maybe< IfcLabel::Out > LongName;
+ };
+
+ // C++ wrapper for IfcBurner
+ struct IfcBurner : IfcEnergyConversionDevice, ObjectHelper<IfcBurner,1> { IfcBurner() : Object("IfcBurner") {}
+ Maybe< IfcBurnerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcBurnerType
+ struct IfcBurnerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcBurnerType,1> { IfcBurnerType() : Object("IfcBurnerType") {}
+ IfcBurnerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCShapeProfileDef
+ struct IfcCShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcCShapeProfileDef,5> { IfcCShapeProfileDef() : Object("IfcCShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out Depth;
+ IfcPositiveLengthMeasure::Out Width;
+ IfcPositiveLengthMeasure::Out WallThickness;
+ IfcPositiveLengthMeasure::Out Girth;
+ Maybe< IfcNonNegativeLengthMeasure::Out > InternalFilletRadius;
+ };
+
+ // C++ wrapper for IfcFlowFitting
+ struct IfcFlowFitting : IfcDistributionFlowElement, ObjectHelper<IfcFlowFitting,0> { IfcFlowFitting() : Object("IfcFlowFitting") {}
+
+ };
+
+ // C++ wrapper for IfcCableCarrierFitting
+ struct IfcCableCarrierFitting : IfcFlowFitting, ObjectHelper<IfcCableCarrierFitting,1> { IfcCableCarrierFitting() : Object("IfcCableCarrierFitting") {}
+ Maybe< IfcCableCarrierFittingTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowFittingType
+ struct IfcFlowFittingType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowFittingType,0> { IfcFlowFittingType() : Object("IfcFlowFittingType") {}
+
+ };
+
+ // C++ wrapper for IfcCableCarrierFittingType
+ struct IfcCableCarrierFittingType : IfcFlowFittingType, ObjectHelper<IfcCableCarrierFittingType,1> { IfcCableCarrierFittingType() : Object("IfcCableCarrierFittingType") {}
+ IfcCableCarrierFittingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowSegment
+ struct IfcFlowSegment : IfcDistributionFlowElement, ObjectHelper<IfcFlowSegment,0> { IfcFlowSegment() : Object("IfcFlowSegment") {}
+
+ };
+
+ // C++ wrapper for IfcCableCarrierSegment
+ struct IfcCableCarrierSegment : IfcFlowSegment, ObjectHelper<IfcCableCarrierSegment,1> { IfcCableCarrierSegment() : Object("IfcCableCarrierSegment") {}
+ Maybe< IfcCableCarrierSegmentTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowSegmentType
+ struct IfcFlowSegmentType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowSegmentType,0> { IfcFlowSegmentType() : Object("IfcFlowSegmentType") {}
+
+ };
+
+ // C++ wrapper for IfcCableCarrierSegmentType
+ struct IfcCableCarrierSegmentType : IfcFlowSegmentType, ObjectHelper<IfcCableCarrierSegmentType,1> { IfcCableCarrierSegmentType() : Object("IfcCableCarrierSegmentType") {}
+ IfcCableCarrierSegmentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCableFitting
+ struct IfcCableFitting : IfcFlowFitting, ObjectHelper<IfcCableFitting,1> { IfcCableFitting() : Object("IfcCableFitting") {}
+ Maybe< IfcCableFittingTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCableFittingType
+ struct IfcCableFittingType : IfcFlowFittingType, ObjectHelper<IfcCableFittingType,1> { IfcCableFittingType() : Object("IfcCableFittingType") {}
+ IfcCableFittingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCableSegment
+ struct IfcCableSegment : IfcFlowSegment, ObjectHelper<IfcCableSegment,1> { IfcCableSegment() : Object("IfcCableSegment") {}
+ Maybe< IfcCableSegmentTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCableSegmentType
+ struct IfcCableSegmentType : IfcFlowSegmentType, ObjectHelper<IfcCableSegmentType,1> { IfcCableSegmentType() : Object("IfcCableSegmentType") {}
+ IfcCableSegmentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPoint
+ struct IfcPoint : IfcGeometricRepresentationItem, ObjectHelper<IfcPoint,0> { IfcPoint() : Object("IfcPoint") {}
+
+ };
+
+ // C++ wrapper for IfcCartesianPoint
+ struct IfcCartesianPoint : IfcPoint, ObjectHelper<IfcCartesianPoint,1> { IfcCartesianPoint() : Object("IfcCartesianPoint") {}
+ ListOf< IfcLengthMeasure, 1, 3 >::Out Coordinates;
+ };
+
+ // C++ wrapper for IfcCartesianPointList
+ struct IfcCartesianPointList : IfcGeometricRepresentationItem, ObjectHelper<IfcCartesianPointList,0> { IfcCartesianPointList() : Object("IfcCartesianPointList") {}
+
+ };
+
+ // C++ wrapper for IfcCartesianPointList2D
+ struct IfcCartesianPointList2D : IfcCartesianPointList, ObjectHelper<IfcCartesianPointList2D,0> { IfcCartesianPointList2D() : Object("IfcCartesianPointList2D") {}
+
+ };
+
+ // C++ wrapper for IfcCartesianPointList3D
+ struct IfcCartesianPointList3D : IfcCartesianPointList, ObjectHelper<IfcCartesianPointList3D,0> { IfcCartesianPointList3D() : Object("IfcCartesianPointList3D") {}
+
+ };
+
+ // C++ wrapper for IfcCartesianTransformationOperator
+ struct IfcCartesianTransformationOperator : IfcGeometricRepresentationItem, ObjectHelper<IfcCartesianTransformationOperator,4> { IfcCartesianTransformationOperator() : Object("IfcCartesianTransformationOperator") {}
+ Maybe< Lazy< IfcDirection > > Axis1;
+ Maybe< Lazy< IfcDirection > > Axis2;
+ Lazy< IfcCartesianPoint > LocalOrigin;
+ Maybe< IfcReal::Out > Scale;
+ };
+
+ // C++ wrapper for IfcCartesianTransformationOperator2D
+ struct IfcCartesianTransformationOperator2D : IfcCartesianTransformationOperator, ObjectHelper<IfcCartesianTransformationOperator2D,0> { IfcCartesianTransformationOperator2D() : Object("IfcCartesianTransformationOperator2D") {}
+
+ };
+
+ // C++ wrapper for IfcCartesianTransformationOperator2DnonUniform
+ struct IfcCartesianTransformationOperator2DnonUniform : IfcCartesianTransformationOperator2D, ObjectHelper<IfcCartesianTransformationOperator2DnonUniform,1> { IfcCartesianTransformationOperator2DnonUniform() : Object("IfcCartesianTransformationOperator2DnonUniform") {}
+ Maybe< IfcReal::Out > Scale2;
+ };
+
+ // C++ wrapper for IfcCartesianTransformationOperator3D
+ struct IfcCartesianTransformationOperator3D : IfcCartesianTransformationOperator, ObjectHelper<IfcCartesianTransformationOperator3D,1> { IfcCartesianTransformationOperator3D() : Object("IfcCartesianTransformationOperator3D") {}
+ Maybe< Lazy< IfcDirection > > Axis3;
+ };
+
+ // C++ wrapper for IfcCartesianTransformationOperator3DnonUniform
+ struct IfcCartesianTransformationOperator3DnonUniform : IfcCartesianTransformationOperator3D, ObjectHelper<IfcCartesianTransformationOperator3DnonUniform,2> { IfcCartesianTransformationOperator3DnonUniform() : Object("IfcCartesianTransformationOperator3DnonUniform") {}
+ Maybe< IfcReal::Out > Scale2;
+ Maybe< IfcReal::Out > Scale3;
+ };
+
+ // C++ wrapper for IfcCenterLineProfileDef
+ struct IfcCenterLineProfileDef : IfcArbitraryOpenProfileDef, ObjectHelper<IfcCenterLineProfileDef,1> { IfcCenterLineProfileDef() : Object("IfcCenterLineProfileDef") {}
+ IfcPositiveLengthMeasure::Out Thickness;
+ };
+
+ // C++ wrapper for IfcChiller
+ struct IfcChiller : IfcEnergyConversionDevice, ObjectHelper<IfcChiller,1> { IfcChiller() : Object("IfcChiller") {}
+ Maybe< IfcChillerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcChillerType
+ struct IfcChillerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcChillerType,1> { IfcChillerType() : Object("IfcChillerType") {}
+ IfcChillerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcChimney
+ struct IfcChimney : IfcBuildingElement, ObjectHelper<IfcChimney,1> { IfcChimney() : Object("IfcChimney") {}
+ Maybe< IfcChimneyTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcChimneyType
+ struct IfcChimneyType : IfcBuildingElementType, ObjectHelper<IfcChimneyType,1> { IfcChimneyType() : Object("IfcChimneyType") {}
+ IfcChimneyTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcConic
+ struct IfcConic : IfcCurve, ObjectHelper<IfcConic,1> { IfcConic() : Object("IfcConic") {}
+ IfcAxis2Placement::Out Position;
+ };
+
+ // C++ wrapper for IfcCircle
+ struct IfcCircle : IfcConic, ObjectHelper<IfcCircle,1> { IfcCircle() : Object("IfcCircle") {}
+ IfcPositiveLengthMeasure::Out Radius;
+ };
+
+ // C++ wrapper for IfcCircleProfileDef
+ struct IfcCircleProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcCircleProfileDef,1> { IfcCircleProfileDef() : Object("IfcCircleProfileDef") {}
+ IfcPositiveLengthMeasure::Out Radius;
+ };
+
+ // C++ wrapper for IfcCircleHollowProfileDef
+ struct IfcCircleHollowProfileDef : IfcCircleProfileDef, ObjectHelper<IfcCircleHollowProfileDef,1> { IfcCircleHollowProfileDef() : Object("IfcCircleHollowProfileDef") {}
+ IfcPositiveLengthMeasure::Out WallThickness;
+ };
+
+ // C++ wrapper for IfcCivilElement
+ struct IfcCivilElement : IfcElement, ObjectHelper<IfcCivilElement,0> { IfcCivilElement() : Object("IfcCivilElement") {}
+
+ };
+
+ // C++ wrapper for IfcCivilElementType
+ struct IfcCivilElementType : IfcElementType, ObjectHelper<IfcCivilElementType,0> { IfcCivilElementType() : Object("IfcCivilElementType") {}
+
+ };
+
+ // C++ wrapper for IfcConnectedFaceSet
+ struct IfcConnectedFaceSet : IfcTopologicalRepresentationItem, ObjectHelper<IfcConnectedFaceSet,1> { IfcConnectedFaceSet() : Object("IfcConnectedFaceSet") {}
+ ListOf< Lazy< IfcFace >, 1, 0 > CfsFaces;
+ };
+
+ // C++ wrapper for IfcClosedShell
+ struct IfcClosedShell : IfcConnectedFaceSet, ObjectHelper<IfcClosedShell,0> { IfcClosedShell() : Object("IfcClosedShell") {}
+
+ };
+
+ // C++ wrapper for IfcCoil
+ struct IfcCoil : IfcEnergyConversionDevice, ObjectHelper<IfcCoil,1> { IfcCoil() : Object("IfcCoil") {}
+ Maybe< IfcCoilTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCoilType
+ struct IfcCoilType : IfcEnergyConversionDeviceType, ObjectHelper<IfcCoilType,1> { IfcCoilType() : Object("IfcCoilType") {}
+ IfcCoilTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcColourSpecification
+ struct IfcColourSpecification : IfcPresentationItem, ObjectHelper<IfcColourSpecification,1> { IfcColourSpecification() : Object("IfcColourSpecification") {}
+ Maybe< IfcLabel::Out > Name;
+ };
+
+ // C++ wrapper for IfcColourRgb
+ struct IfcColourRgb : IfcColourSpecification, ObjectHelper<IfcColourRgb,3> { IfcColourRgb() : Object("IfcColourRgb") {}
+ IfcNormalisedRatioMeasure::Out Red;
+ IfcNormalisedRatioMeasure::Out Green;
+ IfcNormalisedRatioMeasure::Out Blue;
+ };
+
+ // C++ wrapper for IfcColumn
+ struct IfcColumn : IfcBuildingElement, ObjectHelper<IfcColumn,1> { IfcColumn() : Object("IfcColumn") {}
+ Maybe< IfcColumnTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcColumnStandardCase
+ struct IfcColumnStandardCase : IfcColumn, ObjectHelper<IfcColumnStandardCase,0> { IfcColumnStandardCase() : Object("IfcColumnStandardCase") {}
+
+ };
+
+ // C++ wrapper for IfcColumnType
+ struct IfcColumnType : IfcBuildingElementType, ObjectHelper<IfcColumnType,1> { IfcColumnType() : Object("IfcColumnType") {}
+ IfcColumnTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCommunicationsAppliance
+ struct IfcCommunicationsAppliance : IfcFlowTerminal, ObjectHelper<IfcCommunicationsAppliance,1> { IfcCommunicationsAppliance() : Object("IfcCommunicationsAppliance") {}
+ Maybe< IfcCommunicationsApplianceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCommunicationsApplianceType
+ struct IfcCommunicationsApplianceType : IfcFlowTerminalType, ObjectHelper<IfcCommunicationsApplianceType,1> { IfcCommunicationsApplianceType() : Object("IfcCommunicationsApplianceType") {}
+ IfcCommunicationsApplianceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPropertyAbstraction
+ struct IfcPropertyAbstraction : ObjectHelper<IfcPropertyAbstraction,0> { IfcPropertyAbstraction() : Object("IfcPropertyAbstraction") {}
+
+ };
+
+ // C++ wrapper for IfcProperty
+ struct IfcProperty : IfcPropertyAbstraction, ObjectHelper<IfcProperty,2> { IfcProperty() : Object("IfcProperty") {}
+ IfcIdentifier::Out Name;
+ Maybe< IfcText::Out > Description;
+ };
+
+ // C++ wrapper for IfcComplexProperty
+ struct IfcComplexProperty : IfcProperty, ObjectHelper<IfcComplexProperty,2> { IfcComplexProperty() : Object("IfcComplexProperty") {}
+ IfcIdentifier::Out UsageName;
+ ListOf< Lazy< IfcProperty >, 1, 0 > HasProperties;
+ };
+
+ // C++ wrapper for IfcPropertyDefinition
+ struct IfcPropertyDefinition : IfcRoot, ObjectHelper<IfcPropertyDefinition,0> { IfcPropertyDefinition() : Object("IfcPropertyDefinition") {}
+
+ };
+
+ // C++ wrapper for IfcCompositeCurveSegment
+ struct IfcCompositeCurveSegment : IfcGeometricRepresentationItem, ObjectHelper<IfcCompositeCurveSegment,3> { IfcCompositeCurveSegment() : Object("IfcCompositeCurveSegment") {}
+ IfcTransitionCode::Out Transition;
+ IfcBoolean::Out SameSense;
+ Lazy< IfcCurve > ParentCurve;
+ };
+
+ // C++ wrapper for IfcCompositeProfileDef
+ struct IfcCompositeProfileDef : IfcProfileDef, ObjectHelper<IfcCompositeProfileDef,2> { IfcCompositeProfileDef() : Object("IfcCompositeProfileDef") {}
+ ListOf< Lazy< IfcProfileDef >, 2, 0 > Profiles;
+ Maybe< IfcLabel::Out > Label;
+ };
+
+ // C++ wrapper for IfcFlowMovingDevice
+ struct IfcFlowMovingDevice : IfcDistributionFlowElement, ObjectHelper<IfcFlowMovingDevice,0> { IfcFlowMovingDevice() : Object("IfcFlowMovingDevice") {}
+
+ };
+
+ // C++ wrapper for IfcCompressor
+ struct IfcCompressor : IfcFlowMovingDevice, ObjectHelper<IfcCompressor,1> { IfcCompressor() : Object("IfcCompressor") {}
+ Maybe< IfcCompressorTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowMovingDeviceType
+ struct IfcFlowMovingDeviceType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowMovingDeviceType,0> { IfcFlowMovingDeviceType() : Object("IfcFlowMovingDeviceType") {}
+
+ };
+
+ // C++ wrapper for IfcCompressorType
+ struct IfcCompressorType : IfcFlowMovingDeviceType, ObjectHelper<IfcCompressorType,1> { IfcCompressorType() : Object("IfcCompressorType") {}
+ IfcCompressorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCondenser
+ struct IfcCondenser : IfcEnergyConversionDevice, ObjectHelper<IfcCondenser,1> { IfcCondenser() : Object("IfcCondenser") {}
+ Maybe< IfcCondenserTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCondenserType
+ struct IfcCondenserType : IfcEnergyConversionDeviceType, ObjectHelper<IfcCondenserType,1> { IfcCondenserType() : Object("IfcCondenserType") {}
+ IfcCondenserTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcResource
+ struct IfcResource : IfcObject, ObjectHelper<IfcResource,2> { IfcResource() : Object("IfcResource") {}
+ Maybe< IfcIdentifier::Out > Identification;
+ Maybe< IfcText::Out > LongDescription;
+ };
+
+ // C++ wrapper for IfcConstructionResource
+ struct IfcConstructionResource : IfcResource, ObjectHelper<IfcConstructionResource,3> { IfcConstructionResource() : Object("IfcConstructionResource") {}
+ Maybe< Lazy< NotImplemented > > Usage;
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > BaseCosts;
+ Maybe< Lazy< NotImplemented > > BaseQuantity;
+ };
+
+ // C++ wrapper for IfcConstructionEquipmentResource
+ struct IfcConstructionEquipmentResource : IfcConstructionResource, ObjectHelper<IfcConstructionEquipmentResource,1> { IfcConstructionEquipmentResource() : Object("IfcConstructionEquipmentResource") {}
+ Maybe< IfcConstructionEquipmentResourceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcTypeResource
+ struct IfcTypeResource : IfcTypeObject, ObjectHelper<IfcTypeResource,3> { IfcTypeResource() : Object("IfcTypeResource") {}
+ Maybe< IfcIdentifier::Out > Identification;
+ Maybe< IfcText::Out > LongDescription;
+ Maybe< IfcLabel::Out > ResourceType;
+ };
+
+ // C++ wrapper for IfcConstructionResourceType
+ struct IfcConstructionResourceType : IfcTypeResource, ObjectHelper<IfcConstructionResourceType,2> { IfcConstructionResourceType() : Object("IfcConstructionResourceType") {}
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > BaseCosts;
+ Maybe< Lazy< NotImplemented > > BaseQuantity;
+ };
+
+ // C++ wrapper for IfcConstructionEquipmentResourceType
+ struct IfcConstructionEquipmentResourceType : IfcConstructionResourceType, ObjectHelper<IfcConstructionEquipmentResourceType,1> { IfcConstructionEquipmentResourceType() : Object("IfcConstructionEquipmentResourceType") {}
+ IfcConstructionEquipmentResourceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcConstructionMaterialResource
+ struct IfcConstructionMaterialResource : IfcConstructionResource, ObjectHelper<IfcConstructionMaterialResource,1> { IfcConstructionMaterialResource() : Object("IfcConstructionMaterialResource") {}
+ Maybe< IfcConstructionMaterialResourceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcConstructionMaterialResourceType
+ struct IfcConstructionMaterialResourceType : IfcConstructionResourceType, ObjectHelper<IfcConstructionMaterialResourceType,1> { IfcConstructionMaterialResourceType() : Object("IfcConstructionMaterialResourceType") {}
+ IfcConstructionMaterialResourceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcConstructionProductResource
+ struct IfcConstructionProductResource : IfcConstructionResource, ObjectHelper<IfcConstructionProductResource,1> { IfcConstructionProductResource() : Object("IfcConstructionProductResource") {}
+ Maybe< IfcConstructionProductResourceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcConstructionProductResourceType
+ struct IfcConstructionProductResourceType : IfcConstructionResourceType, ObjectHelper<IfcConstructionProductResourceType,1> { IfcConstructionProductResourceType() : Object("IfcConstructionProductResourceType") {}
+ IfcConstructionProductResourceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcContext
+ struct IfcContext : IfcObjectDefinition, ObjectHelper<IfcContext,5> { IfcContext() : Object("IfcContext") {}
+ Maybe< IfcLabel::Out > ObjectType;
+ Maybe< IfcLabel::Out > LongName;
+ Maybe< IfcLabel::Out > Phase;
+ Maybe< ListOf< Lazy< IfcRepresentationContext >, 1, 0 > > RepresentationContexts;
+ Maybe< Lazy< IfcUnitAssignment > > UnitsInContext;
+ };
+
+ // C++ wrapper for IfcNamedUnit
+ struct IfcNamedUnit : ObjectHelper<IfcNamedUnit,2> { IfcNamedUnit() : Object("IfcNamedUnit") {}
+ Lazy< NotImplemented > Dimensions;
+ IfcUnitEnum::Out UnitType;
+ };
+
+ // C++ wrapper for IfcContextDependentUnit
+ struct IfcContextDependentUnit : IfcNamedUnit, ObjectHelper<IfcContextDependentUnit,1> { IfcContextDependentUnit() : Object("IfcContextDependentUnit") {}
+ IfcLabel::Out Name;
+ };
+
+ // C++ wrapper for IfcController
+ struct IfcController : IfcDistributionControlElement, ObjectHelper<IfcController,1> { IfcController() : Object("IfcController") {}
+ Maybe< IfcControllerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcControllerType
+ struct IfcControllerType : IfcDistributionControlElementType, ObjectHelper<IfcControllerType,1> { IfcControllerType() : Object("IfcControllerType") {}
+ IfcControllerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcConversionBasedUnit
+ struct IfcConversionBasedUnit : IfcNamedUnit, ObjectHelper<IfcConversionBasedUnit,2> { IfcConversionBasedUnit() : Object("IfcConversionBasedUnit") {}
+ IfcLabel::Out Name;
+ Lazy< IfcMeasureWithUnit > ConversionFactor;
+ };
+
+ // C++ wrapper for IfcConversionBasedUnitWithOffset
+ struct IfcConversionBasedUnitWithOffset : IfcConversionBasedUnit, ObjectHelper<IfcConversionBasedUnitWithOffset,1> { IfcConversionBasedUnitWithOffset() : Object("IfcConversionBasedUnitWithOffset") {}
+ IfcReal::Out ConversionOffset;
+ };
+
+ // C++ wrapper for IfcCooledBeam
+ struct IfcCooledBeam : IfcEnergyConversionDevice, ObjectHelper<IfcCooledBeam,1> { IfcCooledBeam() : Object("IfcCooledBeam") {}
+ Maybe< IfcCooledBeamTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCooledBeamType
+ struct IfcCooledBeamType : IfcEnergyConversionDeviceType, ObjectHelper<IfcCooledBeamType,1> { IfcCooledBeamType() : Object("IfcCooledBeamType") {}
+ IfcCooledBeamTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCoolingTower
+ struct IfcCoolingTower : IfcEnergyConversionDevice, ObjectHelper<IfcCoolingTower,1> { IfcCoolingTower() : Object("IfcCoolingTower") {}
+ Maybe< IfcCoolingTowerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCoolingTowerType
+ struct IfcCoolingTowerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcCoolingTowerType,1> { IfcCoolingTowerType() : Object("IfcCoolingTowerType") {}
+ IfcCoolingTowerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCostItem
+ struct IfcCostItem : IfcControl, ObjectHelper<IfcCostItem,3> { IfcCostItem() : Object("IfcCostItem") {}
+ Maybe< IfcCostItemTypeEnum::Out > PredefinedType;
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > CostValues;
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > CostQuantities;
+ };
+
+ // C++ wrapper for IfcCostSchedule
+ struct IfcCostSchedule : IfcControl, ObjectHelper<IfcCostSchedule,4> { IfcCostSchedule() : Object("IfcCostSchedule") {}
+ Maybe< IfcCostScheduleTypeEnum::Out > PredefinedType;
+ Maybe< IfcLabel::Out > Status;
+ Maybe< IfcDateTime::Out > SubmittedOn;
+ Maybe< IfcDateTime::Out > UpdateDate;
+ };
+
+ // C++ wrapper for IfcCovering
+ struct IfcCovering : IfcBuildingElement, ObjectHelper<IfcCovering,1> { IfcCovering() : Object("IfcCovering") {}
+ Maybe< IfcCoveringTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCoveringType
+ struct IfcCoveringType : IfcBuildingElementType, ObjectHelper<IfcCoveringType,1> { IfcCoveringType() : Object("IfcCoveringType") {}
+ IfcCoveringTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCrewResource
+ struct IfcCrewResource : IfcConstructionResource, ObjectHelper<IfcCrewResource,1> { IfcCrewResource() : Object("IfcCrewResource") {}
+ Maybe< IfcCrewResourceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCrewResourceType
+ struct IfcCrewResourceType : IfcConstructionResourceType, ObjectHelper<IfcCrewResourceType,1> { IfcCrewResourceType() : Object("IfcCrewResourceType") {}
+ IfcCrewResourceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCsgSolid
+ struct IfcCsgSolid : IfcSolidModel, ObjectHelper<IfcCsgSolid,1> { IfcCsgSolid() : Object("IfcCsgSolid") {}
+ IfcCsgSelect::Out TreeRootExpression;
+ };
+
+ // C++ wrapper for IfcCurtainWall
+ struct IfcCurtainWall : IfcBuildingElement, ObjectHelper<IfcCurtainWall,1> { IfcCurtainWall() : Object("IfcCurtainWall") {}
+ Maybe< IfcCurtainWallTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcCurtainWallType
+ struct IfcCurtainWallType : IfcBuildingElementType, ObjectHelper<IfcCurtainWallType,1> { IfcCurtainWallType() : Object("IfcCurtainWallType") {}
+ IfcCurtainWallTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcCurveBoundedPlane
+ struct IfcCurveBoundedPlane : IfcBoundedSurface, ObjectHelper<IfcCurveBoundedPlane,3> { IfcCurveBoundedPlane() : Object("IfcCurveBoundedPlane") {}
+ Lazy< IfcPlane > BasisSurface;
+ Lazy< IfcCurve > OuterBoundary;
+ ListOf< Lazy< IfcCurve >, 0, 0 > InnerBoundaries;
+ };
+
+ // C++ wrapper for IfcCurveBoundedSurface
+ struct IfcCurveBoundedSurface : IfcBoundedSurface, ObjectHelper<IfcCurveBoundedSurface,3> { IfcCurveBoundedSurface() : Object("IfcCurveBoundedSurface") {}
+ Lazy< IfcSurface > BasisSurface;
+ ListOf< Lazy< IfcBoundaryCurve >, 1, 0 > Boundaries;
+ IfcBoolean::Out ImplicitOuter;
+ };
+
+ // C++ wrapper for IfcPresentationStyle
+ struct IfcPresentationStyle : ObjectHelper<IfcPresentationStyle,1> { IfcPresentationStyle() : Object("IfcPresentationStyle") {}
+ Maybe< IfcLabel::Out > Name;
+ };
+
+ // C++ wrapper for IfcElementarySurface
+ struct IfcElementarySurface : IfcSurface, ObjectHelper<IfcElementarySurface,1> { IfcElementarySurface() : Object("IfcElementarySurface") {}
+ Lazy< IfcAxis2Placement3D > Position;
+ };
+
+ // C++ wrapper for IfcCylindricalSurface
+ struct IfcCylindricalSurface : IfcElementarySurface, ObjectHelper<IfcCylindricalSurface,1> { IfcCylindricalSurface() : Object("IfcCylindricalSurface") {}
+ IfcPositiveLengthMeasure::Out Radius;
+ };
+
+ // C++ wrapper for IfcDamper
+ struct IfcDamper : IfcFlowController, ObjectHelper<IfcDamper,1> { IfcDamper() : Object("IfcDamper") {}
+ Maybe< IfcDamperTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcDamperType
+ struct IfcDamperType : IfcFlowControllerType, ObjectHelper<IfcDamperType,1> { IfcDamperType() : Object("IfcDamperType") {}
+ IfcDamperTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcDerivedProfileDef
+ struct IfcDerivedProfileDef : IfcProfileDef, ObjectHelper<IfcDerivedProfileDef,3> { IfcDerivedProfileDef() : Object("IfcDerivedProfileDef") {}
+ Lazy< IfcProfileDef > ParentProfile;
+ Lazy< IfcCartesianTransformationOperator2D > Operator;
+ Maybe< IfcLabel::Out > Label;
+ };
+
+ // C++ wrapper for IfcDirection
+ struct IfcDirection : IfcGeometricRepresentationItem, ObjectHelper<IfcDirection,1> { IfcDirection() : Object("IfcDirection") {}
+ ListOf< IfcReal, 2, 3 >::Out DirectionRatios;
+ };
+
+ // C++ wrapper for IfcDiscreteAccessory
+ struct IfcDiscreteAccessory : IfcElementComponent, ObjectHelper<IfcDiscreteAccessory,1> { IfcDiscreteAccessory() : Object("IfcDiscreteAccessory") {}
+ Maybe< IfcDiscreteAccessoryTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcDiscreteAccessoryType
+ struct IfcDiscreteAccessoryType : IfcElementComponentType, ObjectHelper<IfcDiscreteAccessoryType,1> { IfcDiscreteAccessoryType() : Object("IfcDiscreteAccessoryType") {}
+ IfcDiscreteAccessoryTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcDistributionChamberElement
+ struct IfcDistributionChamberElement : IfcDistributionFlowElement, ObjectHelper<IfcDistributionChamberElement,1> { IfcDistributionChamberElement() : Object("IfcDistributionChamberElement") {}
+ Maybe< IfcDistributionChamberElementTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcDistributionChamberElementType
+ struct IfcDistributionChamberElementType : IfcDistributionFlowElementType, ObjectHelper<IfcDistributionChamberElementType,1> { IfcDistributionChamberElementType() : Object("IfcDistributionChamberElementType") {}
+ IfcDistributionChamberElementTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcDistributionSystem
+ struct IfcDistributionSystem : IfcSystem, ObjectHelper<IfcDistributionSystem,2> { IfcDistributionSystem() : Object("IfcDistributionSystem") {}
+ Maybe< IfcLabel::Out > LongName;
+ Maybe< IfcDistributionSystemEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcDistributionCircuit
+ struct IfcDistributionCircuit : IfcDistributionSystem, ObjectHelper<IfcDistributionCircuit,0> { IfcDistributionCircuit() : Object("IfcDistributionCircuit") {}
+
+ };
+
+ // C++ wrapper for IfcPort
+ struct IfcPort : IfcProduct, ObjectHelper<IfcPort,0> { IfcPort() : Object("IfcPort") {}
+
+ };
+
+ // C++ wrapper for IfcDistributionPort
+ struct IfcDistributionPort : IfcPort, ObjectHelper<IfcDistributionPort,3> { IfcDistributionPort() : Object("IfcDistributionPort") {}
+ Maybe< IfcFlowDirectionEnum::Out > FlowDirection;
+ Maybe< IfcDistributionPortTypeEnum::Out > PredefinedType;
+ Maybe< IfcDistributionSystemEnum::Out > SystemType;
+ };
+
+ // C++ wrapper for IfcDoor
+ struct IfcDoor : IfcBuildingElement, ObjectHelper<IfcDoor,5> { IfcDoor() : Object("IfcDoor") {}
+ Maybe< IfcPositiveLengthMeasure::Out > OverallHeight;
+ Maybe< IfcPositiveLengthMeasure::Out > OverallWidth;
+ Maybe< IfcDoorTypeEnum::Out > PredefinedType;
+ Maybe< IfcDoorTypeOperationEnum::Out > OperationType;
+ Maybe< IfcLabel::Out > UserDefinedOperationType;
+ };
+
+ // C++ wrapper for IfcPropertySetDefinition
+ struct IfcPropertySetDefinition : IfcPropertyDefinition, ObjectHelper<IfcPropertySetDefinition,0> { IfcPropertySetDefinition() : Object("IfcPropertySetDefinition") {}
+
+ };
+
+ // C++ wrapper for IfcDoorStandardCase
+ struct IfcDoorStandardCase : IfcDoor, ObjectHelper<IfcDoorStandardCase,0> { IfcDoorStandardCase() : Object("IfcDoorStandardCase") {}
+
+ };
+
+ // C++ wrapper for IfcDoorStyle
+ struct IfcDoorStyle : IfcTypeProduct, ObjectHelper<IfcDoorStyle,4> { IfcDoorStyle() : Object("IfcDoorStyle") {}
+ IfcDoorStyleOperationEnum::Out OperationType;
+ IfcDoorStyleConstructionEnum::Out ConstructionType;
+ IfcBoolean::Out ParameterTakesPrecedence;
+ IfcBoolean::Out Sizeable;
+ };
+
+ // C++ wrapper for IfcDoorType
+ struct IfcDoorType : IfcBuildingElementType, ObjectHelper<IfcDoorType,4> { IfcDoorType() : Object("IfcDoorType") {}
+ IfcDoorTypeEnum::Out PredefinedType;
+ IfcDoorTypeOperationEnum::Out OperationType;
+ Maybe< IfcBoolean::Out > ParameterTakesPrecedence;
+ Maybe< IfcLabel::Out > UserDefinedOperationType;
+ };
+
+ // C++ wrapper for IfcDuctFitting
+ struct IfcDuctFitting : IfcFlowFitting, ObjectHelper<IfcDuctFitting,1> { IfcDuctFitting() : Object("IfcDuctFitting") {}
+ Maybe< IfcDuctFittingTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcDuctFittingType
+ struct IfcDuctFittingType : IfcFlowFittingType, ObjectHelper<IfcDuctFittingType,1> { IfcDuctFittingType() : Object("IfcDuctFittingType") {}
+ IfcDuctFittingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcDuctSegment
+ struct IfcDuctSegment : IfcFlowSegment, ObjectHelper<IfcDuctSegment,1> { IfcDuctSegment() : Object("IfcDuctSegment") {}
+ Maybe< IfcDuctSegmentTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcDuctSegmentType
+ struct IfcDuctSegmentType : IfcFlowSegmentType, ObjectHelper<IfcDuctSegmentType,1> { IfcDuctSegmentType() : Object("IfcDuctSegmentType") {}
+ IfcDuctSegmentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowTreatmentDevice
+ struct IfcFlowTreatmentDevice : IfcDistributionFlowElement, ObjectHelper<IfcFlowTreatmentDevice,0> { IfcFlowTreatmentDevice() : Object("IfcFlowTreatmentDevice") {}
+
+ };
+
+ // C++ wrapper for IfcDuctSilencer
+ struct IfcDuctSilencer : IfcFlowTreatmentDevice, ObjectHelper<IfcDuctSilencer,1> { IfcDuctSilencer() : Object("IfcDuctSilencer") {}
+ Maybe< IfcDuctSilencerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowTreatmentDeviceType
+ struct IfcFlowTreatmentDeviceType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowTreatmentDeviceType,0> { IfcFlowTreatmentDeviceType() : Object("IfcFlowTreatmentDeviceType") {}
+
+ };
+
+ // C++ wrapper for IfcDuctSilencerType
+ struct IfcDuctSilencerType : IfcFlowTreatmentDeviceType, ObjectHelper<IfcDuctSilencerType,1> { IfcDuctSilencerType() : Object("IfcDuctSilencerType") {}
+ IfcDuctSilencerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcEdge
+ struct IfcEdge : IfcTopologicalRepresentationItem, ObjectHelper<IfcEdge,2> { IfcEdge() : Object("IfcEdge") {}
+ Lazy< IfcVertex > EdgeStart;
+ Lazy< IfcVertex > EdgeEnd;
+ };
+
+ // C++ wrapper for IfcEdgeCurve
+ struct IfcEdgeCurve : IfcEdge, ObjectHelper<IfcEdgeCurve,2> { IfcEdgeCurve() : Object("IfcEdgeCurve") {}
+ Lazy< IfcCurve > EdgeGeometry;
+ IfcBoolean::Out SameSense;
+ };
+
+ // C++ wrapper for IfcLoop
+ struct IfcLoop : IfcTopologicalRepresentationItem, ObjectHelper<IfcLoop,0> { IfcLoop() : Object("IfcLoop") {}
+
+ };
+
+ // C++ wrapper for IfcEdgeLoop
+ struct IfcEdgeLoop : IfcLoop, ObjectHelper<IfcEdgeLoop,1> { IfcEdgeLoop() : Object("IfcEdgeLoop") {}
+ ListOf< Lazy< IfcOrientedEdge >, 1, 0 > EdgeList;
+ };
+
+ // C++ wrapper for IfcElectricAppliance
+ struct IfcElectricAppliance : IfcFlowTerminal, ObjectHelper<IfcElectricAppliance,1> { IfcElectricAppliance() : Object("IfcElectricAppliance") {}
+ Maybe< IfcElectricApplianceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricApplianceType
+ struct IfcElectricApplianceType : IfcFlowTerminalType, ObjectHelper<IfcElectricApplianceType,1> { IfcElectricApplianceType() : Object("IfcElectricApplianceType") {}
+ IfcElectricApplianceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricDistributionBoard
+ struct IfcElectricDistributionBoard : IfcFlowController, ObjectHelper<IfcElectricDistributionBoard,1> { IfcElectricDistributionBoard() : Object("IfcElectricDistributionBoard") {}
+ Maybe< IfcElectricDistributionBoardTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricDistributionBoardType
+ struct IfcElectricDistributionBoardType : IfcFlowControllerType, ObjectHelper<IfcElectricDistributionBoardType,1> { IfcElectricDistributionBoardType() : Object("IfcElectricDistributionBoardType") {}
+ IfcElectricDistributionBoardTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowStorageDevice
+ struct IfcFlowStorageDevice : IfcDistributionFlowElement, ObjectHelper<IfcFlowStorageDevice,0> { IfcFlowStorageDevice() : Object("IfcFlowStorageDevice") {}
+
+ };
+
+ // C++ wrapper for IfcElectricFlowStorageDevice
+ struct IfcElectricFlowStorageDevice : IfcFlowStorageDevice, ObjectHelper<IfcElectricFlowStorageDevice,1> { IfcElectricFlowStorageDevice() : Object("IfcElectricFlowStorageDevice") {}
+ Maybe< IfcElectricFlowStorageDeviceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowStorageDeviceType
+ struct IfcFlowStorageDeviceType : IfcDistributionFlowElementType, ObjectHelper<IfcFlowStorageDeviceType,0> { IfcFlowStorageDeviceType() : Object("IfcFlowStorageDeviceType") {}
+
+ };
+
+ // C++ wrapper for IfcElectricFlowStorageDeviceType
+ struct IfcElectricFlowStorageDeviceType : IfcFlowStorageDeviceType, ObjectHelper<IfcElectricFlowStorageDeviceType,1> { IfcElectricFlowStorageDeviceType() : Object("IfcElectricFlowStorageDeviceType") {}
+ IfcElectricFlowStorageDeviceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricGenerator
+ struct IfcElectricGenerator : IfcEnergyConversionDevice, ObjectHelper<IfcElectricGenerator,1> { IfcElectricGenerator() : Object("IfcElectricGenerator") {}
+ Maybe< IfcElectricGeneratorTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricGeneratorType
+ struct IfcElectricGeneratorType : IfcEnergyConversionDeviceType, ObjectHelper<IfcElectricGeneratorType,1> { IfcElectricGeneratorType() : Object("IfcElectricGeneratorType") {}
+ IfcElectricGeneratorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricMotor
+ struct IfcElectricMotor : IfcEnergyConversionDevice, ObjectHelper<IfcElectricMotor,1> { IfcElectricMotor() : Object("IfcElectricMotor") {}
+ Maybe< IfcElectricMotorTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricMotorType
+ struct IfcElectricMotorType : IfcEnergyConversionDeviceType, ObjectHelper<IfcElectricMotorType,1> { IfcElectricMotorType() : Object("IfcElectricMotorType") {}
+ IfcElectricMotorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricTimeControl
+ struct IfcElectricTimeControl : IfcFlowController, ObjectHelper<IfcElectricTimeControl,1> { IfcElectricTimeControl() : Object("IfcElectricTimeControl") {}
+ Maybe< IfcElectricTimeControlTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcElectricTimeControlType
+ struct IfcElectricTimeControlType : IfcFlowControllerType, ObjectHelper<IfcElectricTimeControlType,1> { IfcElectricTimeControlType() : Object("IfcElectricTimeControlType") {}
+ IfcElectricTimeControlTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcElementAssembly
+ struct IfcElementAssembly : IfcElement, ObjectHelper<IfcElementAssembly,2> { IfcElementAssembly() : Object("IfcElementAssembly") {}
+ Maybe< IfcAssemblyPlaceEnum::Out > AssemblyPlace;
+ Maybe< IfcElementAssemblyTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcElementAssemblyType
+ struct IfcElementAssemblyType : IfcElementType, ObjectHelper<IfcElementAssemblyType,1> { IfcElementAssemblyType() : Object("IfcElementAssemblyType") {}
+ IfcElementAssemblyTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcQuantitySet
+ struct IfcQuantitySet : IfcPropertySetDefinition, ObjectHelper<IfcQuantitySet,0> { IfcQuantitySet() : Object("IfcQuantitySet") {}
+
+ };
+
+ // C++ wrapper for IfcElementQuantity
+ struct IfcElementQuantity : IfcQuantitySet, ObjectHelper<IfcElementQuantity,2> { IfcElementQuantity() : Object("IfcElementQuantity") {}
+ Maybe< IfcLabel::Out > MethodOfMeasurement;
+ ListOf< Lazy< NotImplemented >, 1, 0 > Quantities;
+ };
+
+ // C++ wrapper for IfcEllipse
+ struct IfcEllipse : IfcConic, ObjectHelper<IfcEllipse,2> { IfcEllipse() : Object("IfcEllipse") {}
+ IfcPositiveLengthMeasure::Out SemiAxis1;
+ IfcPositiveLengthMeasure::Out SemiAxis2;
+ };
+
+ // C++ wrapper for IfcEllipseProfileDef
+ struct IfcEllipseProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcEllipseProfileDef,2> { IfcEllipseProfileDef() : Object("IfcEllipseProfileDef") {}
+ IfcPositiveLengthMeasure::Out SemiAxis1;
+ IfcPositiveLengthMeasure::Out SemiAxis2;
+ };
+
+ // C++ wrapper for IfcEngine
+ struct IfcEngine : IfcEnergyConversionDevice, ObjectHelper<IfcEngine,1> { IfcEngine() : Object("IfcEngine") {}
+ Maybe< IfcEngineTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcEngineType
+ struct IfcEngineType : IfcEnergyConversionDeviceType, ObjectHelper<IfcEngineType,1> { IfcEngineType() : Object("IfcEngineType") {}
+ IfcEngineTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcEvaporativeCooler
+ struct IfcEvaporativeCooler : IfcEnergyConversionDevice, ObjectHelper<IfcEvaporativeCooler,1> { IfcEvaporativeCooler() : Object("IfcEvaporativeCooler") {}
+ Maybe< IfcEvaporativeCoolerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcEvaporativeCoolerType
+ struct IfcEvaporativeCoolerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcEvaporativeCoolerType,1> { IfcEvaporativeCoolerType() : Object("IfcEvaporativeCoolerType") {}
+ IfcEvaporativeCoolerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcEvaporator
+ struct IfcEvaporator : IfcEnergyConversionDevice, ObjectHelper<IfcEvaporator,1> { IfcEvaporator() : Object("IfcEvaporator") {}
+ Maybe< IfcEvaporatorTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcEvaporatorType
+ struct IfcEvaporatorType : IfcEnergyConversionDeviceType, ObjectHelper<IfcEvaporatorType,1> { IfcEvaporatorType() : Object("IfcEvaporatorType") {}
+ IfcEvaporatorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcProcess
+ struct IfcProcess : IfcObject, ObjectHelper<IfcProcess,2> { IfcProcess() : Object("IfcProcess") {}
+ Maybe< IfcIdentifier::Out > Identification;
+ Maybe< IfcText::Out > LongDescription;
+ };
+
+ // C++ wrapper for IfcEvent
+ struct IfcEvent : IfcProcess, ObjectHelper<IfcEvent,4> { IfcEvent() : Object("IfcEvent") {}
+ Maybe< IfcEventTypeEnum::Out > PredefinedType;
+ Maybe< IfcEventTriggerTypeEnum::Out > EventTriggerType;
+ Maybe< IfcLabel::Out > UserDefinedEventTriggerType;
+ Maybe< Lazy< NotImplemented > > EventOccurenceTime;
+ };
+
+ // C++ wrapper for IfcTypeProcess
+ struct IfcTypeProcess : IfcTypeObject, ObjectHelper<IfcTypeProcess,3> { IfcTypeProcess() : Object("IfcTypeProcess") {}
+ Maybe< IfcIdentifier::Out > Identification;
+ Maybe< IfcText::Out > LongDescription;
+ Maybe< IfcLabel::Out > ProcessType;
+ };
+
+ // C++ wrapper for IfcEventType
+ struct IfcEventType : IfcTypeProcess, ObjectHelper<IfcEventType,3> { IfcEventType() : Object("IfcEventType") {}
+ IfcEventTypeEnum::Out PredefinedType;
+ IfcEventTriggerTypeEnum::Out EventTriggerType;
+ Maybe< IfcLabel::Out > UserDefinedEventTriggerType;
+ };
+
+ // C++ wrapper for IfcExternalSpatialStructureElement
+ struct IfcExternalSpatialStructureElement : IfcSpatialElement, ObjectHelper<IfcExternalSpatialStructureElement,0> { IfcExternalSpatialStructureElement() : Object("IfcExternalSpatialStructureElement") {}
+
+ };
+
+ // C++ wrapper for IfcExternalSpatialElement
+ struct IfcExternalSpatialElement : IfcExternalSpatialStructureElement, ObjectHelper<IfcExternalSpatialElement,1> { IfcExternalSpatialElement() : Object("IfcExternalSpatialElement") {}
+ Maybe< IfcExternalSpatialElementTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSweptAreaSolid
+ struct IfcSweptAreaSolid : IfcSolidModel, ObjectHelper<IfcSweptAreaSolid,2> { IfcSweptAreaSolid() : Object("IfcSweptAreaSolid") {}
+ Lazy< IfcProfileDef > SweptArea;
+ Maybe< Lazy< IfcAxis2Placement3D > > Position;
+ };
+
+ // C++ wrapper for IfcExtrudedAreaSolid
+ struct IfcExtrudedAreaSolid : IfcSweptAreaSolid, ObjectHelper<IfcExtrudedAreaSolid,2> { IfcExtrudedAreaSolid() : Object("IfcExtrudedAreaSolid") {}
+ Lazy< IfcDirection > ExtrudedDirection;
+ IfcPositiveLengthMeasure::Out Depth;
+ };
+
+ // C++ wrapper for IfcExtrudedAreaSolidTapered
+ struct IfcExtrudedAreaSolidTapered : IfcExtrudedAreaSolid, ObjectHelper<IfcExtrudedAreaSolidTapered,1> { IfcExtrudedAreaSolidTapered() : Object("IfcExtrudedAreaSolidTapered") {}
+ Lazy< IfcProfileDef > EndSweptArea;
+ };
+
+ // C++ wrapper for IfcFaceBasedSurfaceModel
+ struct IfcFaceBasedSurfaceModel : IfcGeometricRepresentationItem, ObjectHelper<IfcFaceBasedSurfaceModel,1> { IfcFaceBasedSurfaceModel() : Object("IfcFaceBasedSurfaceModel") {}
+ ListOf< Lazy< IfcConnectedFaceSet >, 1, 0 > FbsmFaces;
+ };
+
+ // C++ wrapper for IfcFaceBound
+ struct IfcFaceBound : IfcTopologicalRepresentationItem, ObjectHelper<IfcFaceBound,2> { IfcFaceBound() : Object("IfcFaceBound") {}
+ Lazy< IfcLoop > Bound;
+ IfcBoolean::Out Orientation;
+ };
+
+ // C++ wrapper for IfcFaceOuterBound
+ struct IfcFaceOuterBound : IfcFaceBound, ObjectHelper<IfcFaceOuterBound,0> { IfcFaceOuterBound() : Object("IfcFaceOuterBound") {}
+
+ };
+
+ // C++ wrapper for IfcFacetedBrep
+ struct IfcFacetedBrep : IfcManifoldSolidBrep, ObjectHelper<IfcFacetedBrep,0> { IfcFacetedBrep() : Object("IfcFacetedBrep") {}
+
+ };
+
+ // C++ wrapper for IfcFacetedBrepWithVoids
+ struct IfcFacetedBrepWithVoids : IfcFacetedBrep, ObjectHelper<IfcFacetedBrepWithVoids,1> { IfcFacetedBrepWithVoids() : Object("IfcFacetedBrepWithVoids") {}
+ ListOf< Lazy< IfcClosedShell >, 1, 0 > Voids;
+ };
+
+ // C++ wrapper for IfcFan
+ struct IfcFan : IfcFlowMovingDevice, ObjectHelper<IfcFan,1> { IfcFan() : Object("IfcFan") {}
+ Maybe< IfcFanTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFanType
+ struct IfcFanType : IfcFlowMovingDeviceType, ObjectHelper<IfcFanType,1> { IfcFanType() : Object("IfcFanType") {}
+ IfcFanTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFastener
+ struct IfcFastener : IfcElementComponent, ObjectHelper<IfcFastener,1> { IfcFastener() : Object("IfcFastener") {}
+ Maybe< IfcFastenerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFastenerType
+ struct IfcFastenerType : IfcElementComponentType, ObjectHelper<IfcFastenerType,1> { IfcFastenerType() : Object("IfcFastenerType") {}
+ IfcFastenerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFeatureElement
+ struct IfcFeatureElement : IfcElement, ObjectHelper<IfcFeatureElement,0> { IfcFeatureElement() : Object("IfcFeatureElement") {}
+
+ };
+
+ // C++ wrapper for IfcFeatureElementAddition
+ struct IfcFeatureElementAddition : IfcFeatureElement, ObjectHelper<IfcFeatureElementAddition,0> { IfcFeatureElementAddition() : Object("IfcFeatureElementAddition") {}
+
+ };
+
+ // C++ wrapper for IfcFeatureElementSubtraction
+ struct IfcFeatureElementSubtraction : IfcFeatureElement, ObjectHelper<IfcFeatureElementSubtraction,0> { IfcFeatureElementSubtraction() : Object("IfcFeatureElementSubtraction") {}
+
+ };
+
+ // C++ wrapper for IfcFillAreaStyleHatching
+ struct IfcFillAreaStyleHatching : IfcGeometricRepresentationItem, ObjectHelper<IfcFillAreaStyleHatching,5> { IfcFillAreaStyleHatching() : Object("IfcFillAreaStyleHatching") {}
+ Lazy< NotImplemented > HatchLineAppearance;
+ IfcHatchLineDistanceSelect::Out StartOfNextHatchLine;
+ Maybe< Lazy< IfcCartesianPoint > > PointOfReferenceHatchLine;
+ Maybe< Lazy< IfcCartesianPoint > > PatternStart;
+ IfcPlaneAngleMeasure::Out HatchLineAngle;
+ };
+
+ // C++ wrapper for IfcFillAreaStyleTiles
+ struct IfcFillAreaStyleTiles : IfcGeometricRepresentationItem, ObjectHelper<IfcFillAreaStyleTiles,3> { IfcFillAreaStyleTiles() : Object("IfcFillAreaStyleTiles") {}
+ ListOf< Lazy< IfcVector >, 2, 2 > TilingPattern;
+ ListOf< Lazy< IfcStyledItem >, 1, 0 > Tiles;
+ IfcPositiveRatioMeasure::Out TilingScale;
+ };
+
+ // C++ wrapper for IfcFilter
+ struct IfcFilter : IfcFlowTreatmentDevice, ObjectHelper<IfcFilter,1> { IfcFilter() : Object("IfcFilter") {}
+ Maybe< IfcFilterTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFilterType
+ struct IfcFilterType : IfcFlowTreatmentDeviceType, ObjectHelper<IfcFilterType,1> { IfcFilterType() : Object("IfcFilterType") {}
+ IfcFilterTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFireSuppressionTerminal
+ struct IfcFireSuppressionTerminal : IfcFlowTerminal, ObjectHelper<IfcFireSuppressionTerminal,1> { IfcFireSuppressionTerminal() : Object("IfcFireSuppressionTerminal") {}
+ Maybe< IfcFireSuppressionTerminalTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFireSuppressionTerminalType
+ struct IfcFireSuppressionTerminalType : IfcFlowTerminalType, ObjectHelper<IfcFireSuppressionTerminalType,1> { IfcFireSuppressionTerminalType() : Object("IfcFireSuppressionTerminalType") {}
+ IfcFireSuppressionTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFixedReferenceSweptAreaSolid
+ struct IfcFixedReferenceSweptAreaSolid : IfcSweptAreaSolid, ObjectHelper<IfcFixedReferenceSweptAreaSolid,4> { IfcFixedReferenceSweptAreaSolid() : Object("IfcFixedReferenceSweptAreaSolid") {}
+ Lazy< IfcCurve > Directrix;
+ Maybe< IfcParameterValue::Out > StartParam;
+ Maybe< IfcParameterValue::Out > EndParam;
+ Lazy< IfcDirection > FixedReference;
+ };
+
+ // C++ wrapper for IfcFlowInstrument
+ struct IfcFlowInstrument : IfcDistributionControlElement, ObjectHelper<IfcFlowInstrument,1> { IfcFlowInstrument() : Object("IfcFlowInstrument") {}
+ Maybe< IfcFlowInstrumentTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowInstrumentType
+ struct IfcFlowInstrumentType : IfcDistributionControlElementType, ObjectHelper<IfcFlowInstrumentType,1> { IfcFlowInstrumentType() : Object("IfcFlowInstrumentType") {}
+ IfcFlowInstrumentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowMeter
+ struct IfcFlowMeter : IfcFlowController, ObjectHelper<IfcFlowMeter,1> { IfcFlowMeter() : Object("IfcFlowMeter") {}
+ Maybe< IfcFlowMeterTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFlowMeterType
+ struct IfcFlowMeterType : IfcFlowControllerType, ObjectHelper<IfcFlowMeterType,1> { IfcFlowMeterType() : Object("IfcFlowMeterType") {}
+ IfcFlowMeterTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFooting
+ struct IfcFooting : IfcBuildingElement, ObjectHelper<IfcFooting,1> { IfcFooting() : Object("IfcFooting") {}
+ Maybe< IfcFootingTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFootingType
+ struct IfcFootingType : IfcBuildingElementType, ObjectHelper<IfcFootingType,1> { IfcFootingType() : Object("IfcFootingType") {}
+ IfcFootingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcFurnishingElement
+ struct IfcFurnishingElement : IfcElement, ObjectHelper<IfcFurnishingElement,0> { IfcFurnishingElement() : Object("IfcFurnishingElement") {}
+
+ };
+
+ // C++ wrapper for IfcFurnishingElementType
+ struct IfcFurnishingElementType : IfcElementType, ObjectHelper<IfcFurnishingElementType,0> { IfcFurnishingElementType() : Object("IfcFurnishingElementType") {}
+
+ };
+
+ // C++ wrapper for IfcFurniture
+ struct IfcFurniture : IfcFurnishingElement, ObjectHelper<IfcFurniture,1> { IfcFurniture() : Object("IfcFurniture") {}
+ Maybe< IfcFurnitureTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcFurnitureType
+ struct IfcFurnitureType : IfcFurnishingElementType, ObjectHelper<IfcFurnitureType,2> { IfcFurnitureType() : Object("IfcFurnitureType") {}
+ IfcAssemblyPlaceEnum::Out AssemblyPlace;
+ Maybe< IfcFurnitureTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcGeographicElement
+ struct IfcGeographicElement : IfcElement, ObjectHelper<IfcGeographicElement,1> { IfcGeographicElement() : Object("IfcGeographicElement") {}
+ Maybe< IfcGeographicElementTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcGeographicElementType
+ struct IfcGeographicElementType : IfcElementType, ObjectHelper<IfcGeographicElementType,1> { IfcGeographicElementType() : Object("IfcGeographicElementType") {}
+ IfcGeographicElementTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcGeometricSet
+ struct IfcGeometricSet : IfcGeometricRepresentationItem, ObjectHelper<IfcGeometricSet,1> { IfcGeometricSet() : Object("IfcGeometricSet") {}
+ ListOf< IfcGeometricSetSelect, 1, 0 >::Out Elements;
+ };
+
+ // C++ wrapper for IfcGeometricCurveSet
+ struct IfcGeometricCurveSet : IfcGeometricSet, ObjectHelper<IfcGeometricCurveSet,0> { IfcGeometricCurveSet() : Object("IfcGeometricCurveSet") {}
+
+ };
+
+ // C++ wrapper for IfcRepresentationContext
+ struct IfcRepresentationContext : ObjectHelper<IfcRepresentationContext,2> { IfcRepresentationContext() : Object("IfcRepresentationContext") {}
+ Maybe< IfcLabel::Out > ContextIdentifier;
+ Maybe< IfcLabel::Out > ContextType;
+ };
+
+ // C++ wrapper for IfcGeometricRepresentationContext
+ struct IfcGeometricRepresentationContext : IfcRepresentationContext, ObjectHelper<IfcGeometricRepresentationContext,4> { IfcGeometricRepresentationContext() : Object("IfcGeometricRepresentationContext") {}
+ IfcDimensionCount::Out CoordinateSpaceDimension;
+ Maybe< IfcReal::Out > Precision;
+ IfcAxis2Placement::Out WorldCoordinateSystem;
+ Maybe< Lazy< IfcDirection > > TrueNorth;
+ };
+
+ // C++ wrapper for IfcGeometricRepresentationSubContext
+ struct IfcGeometricRepresentationSubContext : IfcGeometricRepresentationContext, ObjectHelper<IfcGeometricRepresentationSubContext,4> { IfcGeometricRepresentationSubContext() : Object("IfcGeometricRepresentationSubContext") {}
+ Lazy< IfcGeometricRepresentationContext > ParentContext;
+ Maybe< IfcPositiveRatioMeasure::Out > TargetScale;
+ IfcGeometricProjectionEnum::Out TargetView;
+ Maybe< IfcLabel::Out > UserDefinedTargetView;
+ };
+
+ // C++ wrapper for IfcGrid
+ struct IfcGrid : IfcProduct, ObjectHelper<IfcGrid,4> { IfcGrid() : Object("IfcGrid") {}
+ ListOf< Lazy< NotImplemented >, 1, 0 > UAxes;
+ ListOf< Lazy< NotImplemented >, 1, 0 > VAxes;
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > WAxes;
+ Maybe< IfcGridTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcObjectPlacement
+ struct IfcObjectPlacement : ObjectHelper<IfcObjectPlacement,0> { IfcObjectPlacement() : Object("IfcObjectPlacement") {}
+
+ };
+
+ // C++ wrapper for IfcGridPlacement
+ struct IfcGridPlacement : IfcObjectPlacement, ObjectHelper<IfcGridPlacement,2> { IfcGridPlacement() : Object("IfcGridPlacement") {}
+ Lazy< NotImplemented > PlacementLocation;
+ Maybe< IfcGridPlacementDirectionSelect::Out > PlacementRefDirection;
+ };
+
+ // C++ wrapper for IfcHeatExchanger
+ struct IfcHeatExchanger : IfcEnergyConversionDevice, ObjectHelper<IfcHeatExchanger,1> { IfcHeatExchanger() : Object("IfcHeatExchanger") {}
+ Maybe< IfcHeatExchangerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcHeatExchangerType
+ struct IfcHeatExchangerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcHeatExchangerType,1> { IfcHeatExchangerType() : Object("IfcHeatExchangerType") {}
+ IfcHeatExchangerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcHumidifier
+ struct IfcHumidifier : IfcEnergyConversionDevice, ObjectHelper<IfcHumidifier,1> { IfcHumidifier() : Object("IfcHumidifier") {}
+ Maybe< IfcHumidifierTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcHumidifierType
+ struct IfcHumidifierType : IfcEnergyConversionDeviceType, ObjectHelper<IfcHumidifierType,1> { IfcHumidifierType() : Object("IfcHumidifierType") {}
+ IfcHumidifierTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcIShapeProfileDef
+ struct IfcIShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcIShapeProfileDef,7> { IfcIShapeProfileDef() : Object("IfcIShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out OverallWidth;
+ IfcPositiveLengthMeasure::Out OverallDepth;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out FlangeThickness;
+ Maybe< IfcNonNegativeLengthMeasure::Out > FilletRadius;
+ Maybe< IfcNonNegativeLengthMeasure::Out > FlangeEdgeRadius;
+ Maybe< IfcPlaneAngleMeasure::Out > FlangeSlope;
+ };
+
+ // C++ wrapper for IfcIndexedPolyCurve
+ struct IfcIndexedPolyCurve : IfcBoundedCurve, ObjectHelper<IfcIndexedPolyCurve,3> { IfcIndexedPolyCurve() : Object("IfcIndexedPolyCurve") {}
+ Lazy< IfcCartesianPointList > Points;
+ Maybe< ListOf< IfcSegmentIndexSelect, 1, 0 >::Out > Segments;
+ Maybe< IfcBoolean::Out > SelfIntersect;
+ };
+
+ // C++ wrapper for IfcTessellatedItem
+ struct IfcTessellatedItem : IfcGeometricRepresentationItem, ObjectHelper<IfcTessellatedItem,0> { IfcTessellatedItem() : Object("IfcTessellatedItem") {}
+
+ };
+
+ // C++ wrapper for IfcIndexedPolygonalFace
+ struct IfcIndexedPolygonalFace : IfcTessellatedItem, ObjectHelper<IfcIndexedPolygonalFace,1> { IfcIndexedPolygonalFace() : Object("IfcIndexedPolygonalFace") {}
+ ListOf< IfcPositiveInteger, 3, 0 >::Out CoordIndex;
+ };
+
+ // C++ wrapper for IfcIndexedPolygonalFaceWithVoids
+ struct IfcIndexedPolygonalFaceWithVoids : IfcIndexedPolygonalFace, ObjectHelper<IfcIndexedPolygonalFaceWithVoids,0> { IfcIndexedPolygonalFaceWithVoids() : Object("IfcIndexedPolygonalFaceWithVoids") {}
+
+ };
+
+ // C++ wrapper for IfcInterceptor
+ struct IfcInterceptor : IfcFlowTreatmentDevice, ObjectHelper<IfcInterceptor,1> { IfcInterceptor() : Object("IfcInterceptor") {}
+ Maybe< IfcInterceptorTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcInterceptorType
+ struct IfcInterceptorType : IfcFlowTreatmentDeviceType, ObjectHelper<IfcInterceptorType,1> { IfcInterceptorType() : Object("IfcInterceptorType") {}
+ IfcInterceptorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSurfaceCurve
+ struct IfcSurfaceCurve : IfcCurve, ObjectHelper<IfcSurfaceCurve,3> { IfcSurfaceCurve() : Object("IfcSurfaceCurve") {}
+ Lazy< IfcCurve > Curve3D;
+ ListOf< Lazy< IfcPcurve >, 1, 2 > AssociatedGeometry;
+ IfcPreferredSurfaceCurveRepresentation::Out MasterRepresentation;
+ };
+
+ // C++ wrapper for IfcIntersectionCurve
+ struct IfcIntersectionCurve : IfcSurfaceCurve, ObjectHelper<IfcIntersectionCurve,0> { IfcIntersectionCurve() : Object("IfcIntersectionCurve") {}
+
+ };
+
+ // C++ wrapper for IfcInventory
+ struct IfcInventory : IfcGroup, ObjectHelper<IfcInventory,6> { IfcInventory() : Object("IfcInventory") {}
+ Maybe< IfcInventoryTypeEnum::Out > PredefinedType;
+ Maybe< IfcActorSelect::Out > Jurisdiction;
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > ResponsiblePersons;
+ Maybe< IfcDate::Out > LastUpdateDate;
+ Maybe< Lazy< NotImplemented > > CurrentValue;
+ Maybe< Lazy< NotImplemented > > OriginalValue;
+ };
+
+ // C++ wrapper for IfcJunctionBox
+ struct IfcJunctionBox : IfcFlowFitting, ObjectHelper<IfcJunctionBox,1> { IfcJunctionBox() : Object("IfcJunctionBox") {}
+ Maybe< IfcJunctionBoxTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcJunctionBoxType
+ struct IfcJunctionBoxType : IfcFlowFittingType, ObjectHelper<IfcJunctionBoxType,1> { IfcJunctionBoxType() : Object("IfcJunctionBoxType") {}
+ IfcJunctionBoxTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcLShapeProfileDef
+ struct IfcLShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcLShapeProfileDef,6> { IfcLShapeProfileDef() : Object("IfcLShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out Depth;
+ Maybe< IfcPositiveLengthMeasure::Out > Width;
+ IfcPositiveLengthMeasure::Out Thickness;
+ Maybe< IfcNonNegativeLengthMeasure::Out > FilletRadius;
+ Maybe< IfcNonNegativeLengthMeasure::Out > EdgeRadius;
+ Maybe< IfcPlaneAngleMeasure::Out > LegSlope;
+ };
+
+ // C++ wrapper for IfcLaborResource
+ struct IfcLaborResource : IfcConstructionResource, ObjectHelper<IfcLaborResource,1> { IfcLaborResource() : Object("IfcLaborResource") {}
+ Maybe< IfcLaborResourceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcLaborResourceType
+ struct IfcLaborResourceType : IfcConstructionResourceType, ObjectHelper<IfcLaborResourceType,1> { IfcLaborResourceType() : Object("IfcLaborResourceType") {}
+ IfcLaborResourceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcLamp
+ struct IfcLamp : IfcFlowTerminal, ObjectHelper<IfcLamp,1> { IfcLamp() : Object("IfcLamp") {}
+ Maybe< IfcLampTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcLampType
+ struct IfcLampType : IfcFlowTerminalType, ObjectHelper<IfcLampType,1> { IfcLampType() : Object("IfcLampType") {}
+ IfcLampTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcLightFixture
+ struct IfcLightFixture : IfcFlowTerminal, ObjectHelper<IfcLightFixture,1> { IfcLightFixture() : Object("IfcLightFixture") {}
+ Maybe< IfcLightFixtureTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcLightFixtureType
+ struct IfcLightFixtureType : IfcFlowTerminalType, ObjectHelper<IfcLightFixtureType,1> { IfcLightFixtureType() : Object("IfcLightFixtureType") {}
+ IfcLightFixtureTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcLightSource
+ struct IfcLightSource : IfcGeometricRepresentationItem, ObjectHelper<IfcLightSource,4> { IfcLightSource() : Object("IfcLightSource") {}
+ Maybe< IfcLabel::Out > Name;
+ Lazy< IfcColourRgb > LightColour;
+ Maybe< IfcNormalisedRatioMeasure::Out > AmbientIntensity;
+ Maybe< IfcNormalisedRatioMeasure::Out > Intensity;
+ };
+
+ // C++ wrapper for IfcLightSourceAmbient
+ struct IfcLightSourceAmbient : IfcLightSource, ObjectHelper<IfcLightSourceAmbient,0> { IfcLightSourceAmbient() : Object("IfcLightSourceAmbient") {}
+
+ };
+
+ // C++ wrapper for IfcLightSourceDirectional
+ struct IfcLightSourceDirectional : IfcLightSource, ObjectHelper<IfcLightSourceDirectional,1> { IfcLightSourceDirectional() : Object("IfcLightSourceDirectional") {}
+ Lazy< IfcDirection > Orientation;
+ };
+
+ // C++ wrapper for IfcLightSourceGoniometric
+ struct IfcLightSourceGoniometric : IfcLightSource, ObjectHelper<IfcLightSourceGoniometric,6> { IfcLightSourceGoniometric() : Object("IfcLightSourceGoniometric") {}
+ Lazy< IfcAxis2Placement3D > Position;
+ Maybe< Lazy< IfcColourRgb > > ColourAppearance;
+ IfcThermodynamicTemperatureMeasure::Out ColourTemperature;
+ IfcLuminousFluxMeasure::Out LuminousFlux;
+ IfcLightEmissionSourceEnum::Out LightEmissionSource;
+ IfcLightDistributionDataSourceSelect::Out LightDistributionDataSource;
+ };
+
+ // C++ wrapper for IfcLightSourcePositional
+ struct IfcLightSourcePositional : IfcLightSource, ObjectHelper<IfcLightSourcePositional,5> { IfcLightSourcePositional() : Object("IfcLightSourcePositional") {}
+ Lazy< IfcCartesianPoint > Position;
+ IfcPositiveLengthMeasure::Out Radius;
+ IfcReal::Out ConstantAttenuation;
+ IfcReal::Out DistanceAttenuation;
+ IfcReal::Out QuadricAttenuation;
+ };
+
+ // C++ wrapper for IfcLightSourceSpot
+ struct IfcLightSourceSpot : IfcLightSourcePositional, ObjectHelper<IfcLightSourceSpot,4> { IfcLightSourceSpot() : Object("IfcLightSourceSpot") {}
+ Lazy< IfcDirection > Orientation;
+ Maybe< IfcReal::Out > ConcentrationExponent;
+ IfcPositivePlaneAngleMeasure::Out SpreadAngle;
+ IfcPositivePlaneAngleMeasure::Out BeamWidthAngle;
+ };
+
+ // C++ wrapper for IfcLine
+ struct IfcLine : IfcCurve, ObjectHelper<IfcLine,2> { IfcLine() : Object("IfcLine") {}
+ Lazy< IfcCartesianPoint > Pnt;
+ Lazy< IfcVector > Dir;
+ };
+
+ // C++ wrapper for IfcLocalPlacement
+ struct IfcLocalPlacement : IfcObjectPlacement, ObjectHelper<IfcLocalPlacement,2> { IfcLocalPlacement() : Object("IfcLocalPlacement") {}
+ Maybe< Lazy< IfcObjectPlacement > > PlacementRelTo;
+ IfcAxis2Placement::Out RelativePlacement;
+ };
+
+ // C++ wrapper for IfcMappedItem
+ struct IfcMappedItem : IfcRepresentationItem, ObjectHelper<IfcMappedItem,2> { IfcMappedItem() : Object("IfcMappedItem") {}
+ Lazy< IfcRepresentationMap > MappingSource;
+ Lazy< IfcCartesianTransformationOperator > MappingTarget;
+ };
+
+ // C++ wrapper for IfcProductRepresentation
+ struct IfcProductRepresentation : ObjectHelper<IfcProductRepresentation,3> { IfcProductRepresentation() : Object("IfcProductRepresentation") {}
+ Maybe< IfcLabel::Out > Name;
+ Maybe< IfcText::Out > Description;
+ ListOf< Lazy< IfcRepresentation >, 1, 0 > Representations;
+ };
+
+ // C++ wrapper for IfcMaterialDefinitionRepresentation
+ struct IfcMaterialDefinitionRepresentation : IfcProductRepresentation, ObjectHelper<IfcMaterialDefinitionRepresentation,1> { IfcMaterialDefinitionRepresentation() : Object("IfcMaterialDefinitionRepresentation") {}
+ Lazy< NotImplemented > RepresentedMaterial;
+ };
+
+ // C++ wrapper for IfcMeasureWithUnit
+ struct IfcMeasureWithUnit : ObjectHelper<IfcMeasureWithUnit,2> { IfcMeasureWithUnit() : Object("IfcMeasureWithUnit") {}
+ IfcValue::Out ValueComponent;
+ IfcUnit::Out UnitComponent;
+ };
+
+ // C++ wrapper for IfcMechanicalFastener
+ struct IfcMechanicalFastener : IfcElementComponent, ObjectHelper<IfcMechanicalFastener,3> { IfcMechanicalFastener() : Object("IfcMechanicalFastener") {}
+ Maybe< IfcPositiveLengthMeasure::Out > NominalDiameter;
+ Maybe< IfcPositiveLengthMeasure::Out > NominalLength;
+ Maybe< IfcMechanicalFastenerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcMechanicalFastenerType
+ struct IfcMechanicalFastenerType : IfcElementComponentType, ObjectHelper<IfcMechanicalFastenerType,3> { IfcMechanicalFastenerType() : Object("IfcMechanicalFastenerType") {}
+ IfcMechanicalFastenerTypeEnum::Out PredefinedType;
+ Maybe< IfcPositiveLengthMeasure::Out > NominalDiameter;
+ Maybe< IfcPositiveLengthMeasure::Out > NominalLength;
+ };
+
+ // C++ wrapper for IfcMedicalDevice
+ struct IfcMedicalDevice : IfcFlowTerminal, ObjectHelper<IfcMedicalDevice,1> { IfcMedicalDevice() : Object("IfcMedicalDevice") {}
+ Maybe< IfcMedicalDeviceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcMedicalDeviceType
+ struct IfcMedicalDeviceType : IfcFlowTerminalType, ObjectHelper<IfcMedicalDeviceType,1> { IfcMedicalDeviceType() : Object("IfcMedicalDeviceType") {}
+ IfcMedicalDeviceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcMember
+ struct IfcMember : IfcBuildingElement, ObjectHelper<IfcMember,1> { IfcMember() : Object("IfcMember") {}
+ Maybe< IfcMemberTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcMemberStandardCase
+ struct IfcMemberStandardCase : IfcMember, ObjectHelper<IfcMemberStandardCase,0> { IfcMemberStandardCase() : Object("IfcMemberStandardCase") {}
+
+ };
+
+ // C++ wrapper for IfcMemberType
+ struct IfcMemberType : IfcBuildingElementType, ObjectHelper<IfcMemberType,1> { IfcMemberType() : Object("IfcMemberType") {}
+ IfcMemberTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcMirroredProfileDef
+ struct IfcMirroredProfileDef : IfcDerivedProfileDef, ObjectHelper<IfcMirroredProfileDef,0> { IfcMirroredProfileDef() : Object("IfcMirroredProfileDef") {}
+
+ };
+
+ // C++ wrapper for IfcMotorConnection
+ struct IfcMotorConnection : IfcEnergyConversionDevice, ObjectHelper<IfcMotorConnection,1> { IfcMotorConnection() : Object("IfcMotorConnection") {}
+ Maybe< IfcMotorConnectionTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcMotorConnectionType
+ struct IfcMotorConnectionType : IfcEnergyConversionDeviceType, ObjectHelper<IfcMotorConnectionType,1> { IfcMotorConnectionType() : Object("IfcMotorConnectionType") {}
+ IfcMotorConnectionTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcOccupant
+ struct IfcOccupant : IfcActor, ObjectHelper<IfcOccupant,1> { IfcOccupant() : Object("IfcOccupant") {}
+ Maybe< IfcOccupantTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcOffsetCurve2D
+ struct IfcOffsetCurve2D : IfcCurve, ObjectHelper<IfcOffsetCurve2D,3> { IfcOffsetCurve2D() : Object("IfcOffsetCurve2D") {}
+ Lazy< IfcCurve > BasisCurve;
+ IfcLengthMeasure::Out Distance;
+ IfcLogical::Out SelfIntersect;
+ };
+
+ // C++ wrapper for IfcOffsetCurve3D
+ struct IfcOffsetCurve3D : IfcCurve, ObjectHelper<IfcOffsetCurve3D,4> { IfcOffsetCurve3D() : Object("IfcOffsetCurve3D") {}
+ Lazy< IfcCurve > BasisCurve;
+ IfcLengthMeasure::Out Distance;
+ IfcLogical::Out SelfIntersect;
+ Lazy< IfcDirection > RefDirection;
+ };
+
+ // C++ wrapper for IfcOpenShell
+ struct IfcOpenShell : IfcConnectedFaceSet, ObjectHelper<IfcOpenShell,0> { IfcOpenShell() : Object("IfcOpenShell") {}
+
+ };
+
+ // C++ wrapper for IfcOpeningElement
+ struct IfcOpeningElement : IfcFeatureElementSubtraction, ObjectHelper<IfcOpeningElement,1> { IfcOpeningElement() : Object("IfcOpeningElement") {}
+ Maybe< IfcOpeningElementTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcOpeningStandardCase
+ struct IfcOpeningStandardCase : IfcOpeningElement, ObjectHelper<IfcOpeningStandardCase,0> { IfcOpeningStandardCase() : Object("IfcOpeningStandardCase") {}
+
+ };
+
+ // C++ wrapper for IfcOrientedEdge
+ struct IfcOrientedEdge : IfcEdge, ObjectHelper<IfcOrientedEdge,2> { IfcOrientedEdge() : Object("IfcOrientedEdge") {}
+ Lazy< IfcEdge > EdgeElement;
+ IfcBoolean::Out Orientation;
+ };
+
+ // C++ wrapper for IfcOuterBoundaryCurve
+ struct IfcOuterBoundaryCurve : IfcBoundaryCurve, ObjectHelper<IfcOuterBoundaryCurve,0> { IfcOuterBoundaryCurve() : Object("IfcOuterBoundaryCurve") {}
+
+ };
+
+ // C++ wrapper for IfcOutlet
+ struct IfcOutlet : IfcFlowTerminal, ObjectHelper<IfcOutlet,1> { IfcOutlet() : Object("IfcOutlet") {}
+ Maybe< IfcOutletTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcOutletType
+ struct IfcOutletType : IfcFlowTerminalType, ObjectHelper<IfcOutletType,1> { IfcOutletType() : Object("IfcOutletType") {}
+ IfcOutletTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPath
+ struct IfcPath : IfcTopologicalRepresentationItem, ObjectHelper<IfcPath,1> { IfcPath() : Object("IfcPath") {}
+ ListOf< Lazy< IfcOrientedEdge >, 1, 0 > EdgeList;
+ };
+
+ // C++ wrapper for IfcPcurve
+ struct IfcPcurve : IfcCurve, ObjectHelper<IfcPcurve,2> { IfcPcurve() : Object("IfcPcurve") {}
+ Lazy< IfcSurface > BasisSurface;
+ Lazy< IfcCurve > ReferenceCurve;
+ };
+
+ // C++ wrapper for IfcPerformanceHistory
+ struct IfcPerformanceHistory : IfcControl, ObjectHelper<IfcPerformanceHistory,2> { IfcPerformanceHistory() : Object("IfcPerformanceHistory") {}
+ IfcLabel::Out LifeCyclePhase;
+ Maybe< IfcPerformanceHistoryTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcPermit
+ struct IfcPermit : IfcControl, ObjectHelper<IfcPermit,3> { IfcPermit() : Object("IfcPermit") {}
+ Maybe< IfcPermitTypeEnum::Out > PredefinedType;
+ Maybe< IfcLabel::Out > Status;
+ Maybe< IfcText::Out > LongDescription;
+ };
+
+ // C++ wrapper for IfcPile
+ struct IfcPile : IfcBuildingElement, ObjectHelper<IfcPile,2> { IfcPile() : Object("IfcPile") {}
+ Maybe< IfcPileTypeEnum::Out > PredefinedType;
+ Maybe< IfcPileConstructionEnum::Out > ConstructionType;
+ };
+
+ // C++ wrapper for IfcPileType
+ struct IfcPileType : IfcBuildingElementType, ObjectHelper<IfcPileType,1> { IfcPileType() : Object("IfcPileType") {}
+ IfcPileTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPipeFitting
+ struct IfcPipeFitting : IfcFlowFitting, ObjectHelper<IfcPipeFitting,1> { IfcPipeFitting() : Object("IfcPipeFitting") {}
+ Maybe< IfcPipeFittingTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcPipeFittingType
+ struct IfcPipeFittingType : IfcFlowFittingType, ObjectHelper<IfcPipeFittingType,1> { IfcPipeFittingType() : Object("IfcPipeFittingType") {}
+ IfcPipeFittingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPipeSegment
+ struct IfcPipeSegment : IfcFlowSegment, ObjectHelper<IfcPipeSegment,1> { IfcPipeSegment() : Object("IfcPipeSegment") {}
+ Maybe< IfcPipeSegmentTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcPipeSegmentType
+ struct IfcPipeSegmentType : IfcFlowSegmentType, ObjectHelper<IfcPipeSegmentType,1> { IfcPipeSegmentType() : Object("IfcPipeSegmentType") {}
+ IfcPipeSegmentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPlanarExtent
+ struct IfcPlanarExtent : IfcGeometricRepresentationItem, ObjectHelper<IfcPlanarExtent,2> { IfcPlanarExtent() : Object("IfcPlanarExtent") {}
+ IfcLengthMeasure::Out SizeInX;
+ IfcLengthMeasure::Out SizeInY;
+ };
+
+ // C++ wrapper for IfcPlanarBox
+ struct IfcPlanarBox : IfcPlanarExtent, ObjectHelper<IfcPlanarBox,1> { IfcPlanarBox() : Object("IfcPlanarBox") {}
+ IfcAxis2Placement::Out Placement;
+ };
+
+ // C++ wrapper for IfcPlane
+ struct IfcPlane : IfcElementarySurface, ObjectHelper<IfcPlane,0> { IfcPlane() : Object("IfcPlane") {}
+
+ };
+
+ // C++ wrapper for IfcPlate
+ struct IfcPlate : IfcBuildingElement, ObjectHelper<IfcPlate,1> { IfcPlate() : Object("IfcPlate") {}
+ Maybe< IfcPlateTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcPlateStandardCase
+ struct IfcPlateStandardCase : IfcPlate, ObjectHelper<IfcPlateStandardCase,0> { IfcPlateStandardCase() : Object("IfcPlateStandardCase") {}
+
+ };
+
+ // C++ wrapper for IfcPlateType
+ struct IfcPlateType : IfcBuildingElementType, ObjectHelper<IfcPlateType,1> { IfcPlateType() : Object("IfcPlateType") {}
+ IfcPlateTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcPointOnCurve
+ struct IfcPointOnCurve : IfcPoint, ObjectHelper<IfcPointOnCurve,2> { IfcPointOnCurve() : Object("IfcPointOnCurve") {}
+ Lazy< IfcCurve > BasisCurve;
+ IfcParameterValue::Out PointParameter;
+ };
+
+ // C++ wrapper for IfcPointOnSurface
+ struct IfcPointOnSurface : IfcPoint, ObjectHelper<IfcPointOnSurface,3> { IfcPointOnSurface() : Object("IfcPointOnSurface") {}
+ Lazy< IfcSurface > BasisSurface;
+ IfcParameterValue::Out PointParameterU;
+ IfcParameterValue::Out PointParameterV;
+ };
+
+ // C++ wrapper for IfcPolyLoop
+ struct IfcPolyLoop : IfcLoop, ObjectHelper<IfcPolyLoop,1> { IfcPolyLoop() : Object("IfcPolyLoop") {}
+ ListOf< Lazy< IfcCartesianPoint >, 3, 0 > Polygon;
+ };
+
+ // C++ wrapper for IfcPolygonalBoundedHalfSpace
+ struct IfcPolygonalBoundedHalfSpace : IfcHalfSpaceSolid, ObjectHelper<IfcPolygonalBoundedHalfSpace,2> { IfcPolygonalBoundedHalfSpace() : Object("IfcPolygonalBoundedHalfSpace") {}
+ Lazy< IfcAxis2Placement3D > Position;
+ Lazy< IfcBoundedCurve > PolygonalBoundary;
+ };
+
+ // C++ wrapper for IfcTessellatedFaceSet
+ struct IfcTessellatedFaceSet : IfcTessellatedItem, ObjectHelper<IfcTessellatedFaceSet,1> { IfcTessellatedFaceSet() : Object("IfcTessellatedFaceSet") {}
+ Lazy< IfcCartesianPointList3D > Coordinates;
+ };
+
+ // C++ wrapper for IfcPolygonalFaceSet
+ struct IfcPolygonalFaceSet : IfcTessellatedFaceSet, ObjectHelper<IfcPolygonalFaceSet,3> { IfcPolygonalFaceSet() : Object("IfcPolygonalFaceSet") {}
+ Maybe< IfcBoolean::Out > Closed;
+ ListOf< Lazy< IfcIndexedPolygonalFace >, 1, 0 > Faces;
+ Maybe< ListOf< IfcPositiveInteger, 1, 0 >::Out > PnIndex;
+ };
+
+ // C++ wrapper for IfcPolyline
+ struct IfcPolyline : IfcBoundedCurve, ObjectHelper<IfcPolyline,1> { IfcPolyline() : Object("IfcPolyline") {}
+ ListOf< Lazy< IfcCartesianPoint >, 2, 0 > Points;
+ };
+
+ // C++ wrapper for IfcPresentationStyleAssignment
+ struct IfcPresentationStyleAssignment : ObjectHelper<IfcPresentationStyleAssignment,1> { IfcPresentationStyleAssignment() : Object("IfcPresentationStyleAssignment") {}
+ ListOf< IfcPresentationStyleSelect, 1, 0 >::Out Styles;
+ };
+
+ // C++ wrapper for IfcProcedure
+ struct IfcProcedure : IfcProcess, ObjectHelper<IfcProcedure,1> { IfcProcedure() : Object("IfcProcedure") {}
+ Maybe< IfcProcedureTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcProcedureType
+ struct IfcProcedureType : IfcTypeProcess, ObjectHelper<IfcProcedureType,1> { IfcProcedureType() : Object("IfcProcedureType") {}
+ IfcProcedureTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcProductDefinitionShape
+ struct IfcProductDefinitionShape : IfcProductRepresentation, ObjectHelper<IfcProductDefinitionShape,0> { IfcProductDefinitionShape() : Object("IfcProductDefinitionShape") {}
+
+ };
+
+ // C++ wrapper for IfcProject
+ struct IfcProject : IfcContext, ObjectHelper<IfcProject,0> { IfcProject() : Object("IfcProject") {}
+
+ };
+
+ // C++ wrapper for IfcProjectLibrary
+ struct IfcProjectLibrary : IfcContext, ObjectHelper<IfcProjectLibrary,0> { IfcProjectLibrary() : Object("IfcProjectLibrary") {}
+
+ };
+
+ // C++ wrapper for IfcProjectOrder
+ struct IfcProjectOrder : IfcControl, ObjectHelper<IfcProjectOrder,3> { IfcProjectOrder() : Object("IfcProjectOrder") {}
+ Maybe< IfcProjectOrderTypeEnum::Out > PredefinedType;
+ Maybe< IfcLabel::Out > Status;
+ Maybe< IfcText::Out > LongDescription;
+ };
+
+ // C++ wrapper for IfcProjectionElement
+ struct IfcProjectionElement : IfcFeatureElementAddition, ObjectHelper<IfcProjectionElement,1> { IfcProjectionElement() : Object("IfcProjectionElement") {}
+ Maybe< IfcProjectionElementTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSimpleProperty
+ struct IfcSimpleProperty : IfcProperty, ObjectHelper<IfcSimpleProperty,0> { IfcSimpleProperty() : Object("IfcSimpleProperty") {}
+
+ };
+
+ // C++ wrapper for IfcPropertyBoundedValue
+ struct IfcPropertyBoundedValue : IfcSimpleProperty, ObjectHelper<IfcPropertyBoundedValue,4> { IfcPropertyBoundedValue() : Object("IfcPropertyBoundedValue") {}
+ Maybe< IfcValue::Out > UpperBoundValue;
+ Maybe< IfcValue::Out > LowerBoundValue;
+ Maybe< IfcUnit::Out > Unit;
+ Maybe< IfcValue::Out > SetPointValue;
+ };
+
+ // C++ wrapper for IfcPropertyEnumeratedValue
+ struct IfcPropertyEnumeratedValue : IfcSimpleProperty, ObjectHelper<IfcPropertyEnumeratedValue,2> { IfcPropertyEnumeratedValue() : Object("IfcPropertyEnumeratedValue") {}
+ Maybe< ListOf< IfcValue, 1, 0 >::Out > EnumerationValues;
+ Maybe< Lazy< NotImplemented > > EnumerationReference;
+ };
+
+ // C++ wrapper for IfcPropertyListValue
+ struct IfcPropertyListValue : IfcSimpleProperty, ObjectHelper<IfcPropertyListValue,2> { IfcPropertyListValue() : Object("IfcPropertyListValue") {}
+ Maybe< ListOf< IfcValue, 1, 0 >::Out > ListValues;
+ Maybe< IfcUnit::Out > Unit;
+ };
+
+ // C++ wrapper for IfcPropertyReferenceValue
+ struct IfcPropertyReferenceValue : IfcSimpleProperty, ObjectHelper<IfcPropertyReferenceValue,2> { IfcPropertyReferenceValue() : Object("IfcPropertyReferenceValue") {}
+ Maybe< IfcText::Out > UsageName;
+ Maybe< IfcObjectReferenceSelect::Out > PropertyReference;
+ };
+
+ // C++ wrapper for IfcPropertySet
+ struct IfcPropertySet : IfcPropertySetDefinition, ObjectHelper<IfcPropertySet,1> { IfcPropertySet() : Object("IfcPropertySet") {}
+ ListOf< Lazy< IfcProperty >, 1, 0 > HasProperties;
+ };
+
+ // C++ wrapper for IfcPropertySingleValue
+ struct IfcPropertySingleValue : IfcSimpleProperty, ObjectHelper<IfcPropertySingleValue,2> { IfcPropertySingleValue() : Object("IfcPropertySingleValue") {}
+ Maybe< IfcValue::Out > NominalValue;
+ Maybe< IfcUnit::Out > Unit;
+ };
+
+ // C++ wrapper for IfcPropertyTableValue
+ struct IfcPropertyTableValue : IfcSimpleProperty, ObjectHelper<IfcPropertyTableValue,6> { IfcPropertyTableValue() : Object("IfcPropertyTableValue") {}
+ Maybe< ListOf< IfcValue, 1, 0 >::Out > DefiningValues;
+ Maybe< ListOf< IfcValue, 1, 0 >::Out > DefinedValues;
+ Maybe< IfcText::Out > Expression;
+ Maybe< IfcUnit::Out > DefiningUnit;
+ Maybe< IfcUnit::Out > DefinedUnit;
+ Maybe< IfcCurveInterpolationEnum::Out > CurveInterpolation;
+ };
+
+ // C++ wrapper for IfcProtectiveDevice
+ struct IfcProtectiveDevice : IfcFlowController, ObjectHelper<IfcProtectiveDevice,1> { IfcProtectiveDevice() : Object("IfcProtectiveDevice") {}
+ Maybe< IfcProtectiveDeviceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcProtectiveDeviceTrippingUnit
+ struct IfcProtectiveDeviceTrippingUnit : IfcDistributionControlElement, ObjectHelper<IfcProtectiveDeviceTrippingUnit,1> { IfcProtectiveDeviceTrippingUnit() : Object("IfcProtectiveDeviceTrippingUnit") {}
+ Maybe< IfcProtectiveDeviceTrippingUnitTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcProtectiveDeviceTrippingUnitType
+ struct IfcProtectiveDeviceTrippingUnitType : IfcDistributionControlElementType, ObjectHelper<IfcProtectiveDeviceTrippingUnitType,1> { IfcProtectiveDeviceTrippingUnitType() : Object("IfcProtectiveDeviceTrippingUnitType") {}
+ IfcProtectiveDeviceTrippingUnitTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcProtectiveDeviceType
+ struct IfcProtectiveDeviceType : IfcFlowControllerType, ObjectHelper<IfcProtectiveDeviceType,1> { IfcProtectiveDeviceType() : Object("IfcProtectiveDeviceType") {}
+ IfcProtectiveDeviceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcProxy
+ struct IfcProxy : IfcProduct, ObjectHelper<IfcProxy,2> { IfcProxy() : Object("IfcProxy") {}
+ IfcObjectTypeEnum::Out ProxyType;
+ Maybe< IfcLabel::Out > Tag;
+ };
+
+ // C++ wrapper for IfcPump
+ struct IfcPump : IfcFlowMovingDevice, ObjectHelper<IfcPump,1> { IfcPump() : Object("IfcPump") {}
+ Maybe< IfcPumpTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcPumpType
+ struct IfcPumpType : IfcFlowMovingDeviceType, ObjectHelper<IfcPumpType,1> { IfcPumpType() : Object("IfcPumpType") {}
+ IfcPumpTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcRailing
+ struct IfcRailing : IfcBuildingElement, ObjectHelper<IfcRailing,1> { IfcRailing() : Object("IfcRailing") {}
+ Maybe< IfcRailingTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcRailingType
+ struct IfcRailingType : IfcBuildingElementType, ObjectHelper<IfcRailingType,1> { IfcRailingType() : Object("IfcRailingType") {}
+ IfcRailingTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcRamp
+ struct IfcRamp : IfcBuildingElement, ObjectHelper<IfcRamp,1> { IfcRamp() : Object("IfcRamp") {}
+ Maybe< IfcRampTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcRampFlight
+ struct IfcRampFlight : IfcBuildingElement, ObjectHelper<IfcRampFlight,1> { IfcRampFlight() : Object("IfcRampFlight") {}
+ Maybe< IfcRampFlightTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcRampFlightType
+ struct IfcRampFlightType : IfcBuildingElementType, ObjectHelper<IfcRampFlightType,1> { IfcRampFlightType() : Object("IfcRampFlightType") {}
+ IfcRampFlightTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcRampType
+ struct IfcRampType : IfcBuildingElementType, ObjectHelper<IfcRampType,1> { IfcRampType() : Object("IfcRampType") {}
+ IfcRampTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcRationalBSplineCurveWithKnots
+ struct IfcRationalBSplineCurveWithKnots : IfcBSplineCurveWithKnots, ObjectHelper<IfcRationalBSplineCurveWithKnots,1> { IfcRationalBSplineCurveWithKnots() : Object("IfcRationalBSplineCurveWithKnots") {}
+ ListOf< IfcReal, 2, 0 >::Out WeightsData;
+ };
+
+ // C++ wrapper for IfcRationalBSplineSurfaceWithKnots
+ struct IfcRationalBSplineSurfaceWithKnots : IfcBSplineSurfaceWithKnots, ObjectHelper<IfcRationalBSplineSurfaceWithKnots,0> { IfcRationalBSplineSurfaceWithKnots() : Object("IfcRationalBSplineSurfaceWithKnots") {}
+
+ };
+
+ // C++ wrapper for IfcRectangleProfileDef
+ struct IfcRectangleProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcRectangleProfileDef,2> { IfcRectangleProfileDef() : Object("IfcRectangleProfileDef") {}
+ IfcPositiveLengthMeasure::Out XDim;
+ IfcPositiveLengthMeasure::Out YDim;
+ };
+
+ // C++ wrapper for IfcRectangleHollowProfileDef
+ struct IfcRectangleHollowProfileDef : IfcRectangleProfileDef, ObjectHelper<IfcRectangleHollowProfileDef,3> { IfcRectangleHollowProfileDef() : Object("IfcRectangleHollowProfileDef") {}
+ IfcPositiveLengthMeasure::Out WallThickness;
+ Maybe< IfcNonNegativeLengthMeasure::Out > InnerFilletRadius;
+ Maybe< IfcNonNegativeLengthMeasure::Out > OuterFilletRadius;
+ };
+
+ // C++ wrapper for IfcRectangularPyramid
+ struct IfcRectangularPyramid : IfcCsgPrimitive3D, ObjectHelper<IfcRectangularPyramid,3> { IfcRectangularPyramid() : Object("IfcRectangularPyramid") {}
+ IfcPositiveLengthMeasure::Out XLength;
+ IfcPositiveLengthMeasure::Out YLength;
+ IfcPositiveLengthMeasure::Out Height;
+ };
+
+ // C++ wrapper for IfcRectangularTrimmedSurface
+ struct IfcRectangularTrimmedSurface : IfcBoundedSurface, ObjectHelper<IfcRectangularTrimmedSurface,7> { IfcRectangularTrimmedSurface() : Object("IfcRectangularTrimmedSurface") {}
+ Lazy< IfcSurface > BasisSurface;
+ IfcParameterValue::Out U1;
+ IfcParameterValue::Out V1;
+ IfcParameterValue::Out U2;
+ IfcParameterValue::Out V2;
+ IfcBoolean::Out Usense;
+ IfcBoolean::Out Vsense;
+ };
+
+ // C++ wrapper for IfcReinforcingElement
+ struct IfcReinforcingElement : IfcElementComponent, ObjectHelper<IfcReinforcingElement,1> { IfcReinforcingElement() : Object("IfcReinforcingElement") {}
+ Maybe< IfcLabel::Out > SteelGrade;
+ };
+
+ // C++ wrapper for IfcReinforcingBar
+ struct IfcReinforcingBar : IfcReinforcingElement, ObjectHelper<IfcReinforcingBar,5> { IfcReinforcingBar() : Object("IfcReinforcingBar") {}
+ Maybe< IfcPositiveLengthMeasure::Out > NominalDiameter;
+ Maybe< IfcAreaMeasure::Out > CrossSectionArea;
+ Maybe< IfcPositiveLengthMeasure::Out > BarLength;
+ Maybe< IfcReinforcingBarTypeEnum::Out > PredefinedType;
+ Maybe< IfcReinforcingBarSurfaceEnum::Out > BarSurface;
+ };
+
+ // C++ wrapper for IfcReinforcingElementType
+ struct IfcReinforcingElementType : IfcElementComponentType, ObjectHelper<IfcReinforcingElementType,0> { IfcReinforcingElementType() : Object("IfcReinforcingElementType") {}
+
+ };
+
+ // C++ wrapper for IfcReinforcingBarType
+ struct IfcReinforcingBarType : IfcReinforcingElementType, ObjectHelper<IfcReinforcingBarType,7> { IfcReinforcingBarType() : Object("IfcReinforcingBarType") {}
+ IfcReinforcingBarTypeEnum::Out PredefinedType;
+ Maybe< IfcPositiveLengthMeasure::Out > NominalDiameter;
+ Maybe< IfcAreaMeasure::Out > CrossSectionArea;
+ Maybe< IfcPositiveLengthMeasure::Out > BarLength;
+ Maybe< IfcReinforcingBarSurfaceEnum::Out > BarSurface;
+ Maybe< IfcLabel::Out > BendingShapeCode;
+ Maybe< ListOf< IfcBendingParameterSelect, 1, 0 >::Out > BendingParameters;
+ };
+
+ // C++ wrapper for IfcReinforcingMesh
+ struct IfcReinforcingMesh : IfcReinforcingElement, ObjectHelper<IfcReinforcingMesh,9> { IfcReinforcingMesh() : Object("IfcReinforcingMesh") {}
+ Maybe< IfcPositiveLengthMeasure::Out > MeshLength;
+ Maybe< IfcPositiveLengthMeasure::Out > MeshWidth;
+ Maybe< IfcPositiveLengthMeasure::Out > LongitudinalBarNominalDiameter;
+ Maybe< IfcPositiveLengthMeasure::Out > TransverseBarNominalDiameter;
+ Maybe< IfcAreaMeasure::Out > LongitudinalBarCrossSectionArea;
+ Maybe< IfcAreaMeasure::Out > TransverseBarCrossSectionArea;
+ Maybe< IfcPositiveLengthMeasure::Out > LongitudinalBarSpacing;
+ Maybe< IfcPositiveLengthMeasure::Out > TransverseBarSpacing;
+ Maybe< IfcReinforcingMeshTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcReinforcingMeshType
+ struct IfcReinforcingMeshType : IfcReinforcingElementType, ObjectHelper<IfcReinforcingMeshType,11> { IfcReinforcingMeshType() : Object("IfcReinforcingMeshType") {}
+ IfcReinforcingMeshTypeEnum::Out PredefinedType;
+ Maybe< IfcPositiveLengthMeasure::Out > MeshLength;
+ Maybe< IfcPositiveLengthMeasure::Out > MeshWidth;
+ Maybe< IfcPositiveLengthMeasure::Out > LongitudinalBarNominalDiameter;
+ Maybe< IfcPositiveLengthMeasure::Out > TransverseBarNominalDiameter;
+ Maybe< IfcAreaMeasure::Out > LongitudinalBarCrossSectionArea;
+ Maybe< IfcAreaMeasure::Out > TransverseBarCrossSectionArea;
+ Maybe< IfcPositiveLengthMeasure::Out > LongitudinalBarSpacing;
+ Maybe< IfcPositiveLengthMeasure::Out > TransverseBarSpacing;
+ Maybe< IfcLabel::Out > BendingShapeCode;
+ Maybe< ListOf< IfcBendingParameterSelect, 1, 0 >::Out > BendingParameters;
+ };
+
+ // C++ wrapper for IfcRelationship
+ struct IfcRelationship : IfcRoot, ObjectHelper<IfcRelationship,0> { IfcRelationship() : Object("IfcRelationship") {}
+
+ };
+
+ // C++ wrapper for IfcRelDecomposes
+ struct IfcRelDecomposes : IfcRelationship, ObjectHelper<IfcRelDecomposes,0> { IfcRelDecomposes() : Object("IfcRelDecomposes") {}
+
+ };
+
+ // C++ wrapper for IfcRelAggregates
+ struct IfcRelAggregates : IfcRelDecomposes, ObjectHelper<IfcRelAggregates,2> { IfcRelAggregates() : Object("IfcRelAggregates") {}
+ Lazy< IfcObjectDefinition > RelatingObject;
+ ListOf< Lazy< IfcObjectDefinition >, 1, 0 > RelatedObjects;
+ };
+
+ // C++ wrapper for IfcRelConnects
+ struct IfcRelConnects : IfcRelationship, ObjectHelper<IfcRelConnects,0> { IfcRelConnects() : Object("IfcRelConnects") {}
+
+ };
+
+ // C++ wrapper for IfcRelContainedInSpatialStructure
+ struct IfcRelContainedInSpatialStructure : IfcRelConnects, ObjectHelper<IfcRelContainedInSpatialStructure,2> { IfcRelContainedInSpatialStructure() : Object("IfcRelContainedInSpatialStructure") {}
+ ListOf< Lazy< IfcProduct >, 1, 0 > RelatedElements;
+ Lazy< IfcSpatialElement > RelatingStructure;
+ };
+
+ // C++ wrapper for IfcRelDefines
+ struct IfcRelDefines : IfcRelationship, ObjectHelper<IfcRelDefines,0> { IfcRelDefines() : Object("IfcRelDefines") {}
+
+ };
+
+ // C++ wrapper for IfcRelDefinesByProperties
+ struct IfcRelDefinesByProperties : IfcRelDefines, ObjectHelper<IfcRelDefinesByProperties,2> { IfcRelDefinesByProperties() : Object("IfcRelDefinesByProperties") {}
+ ListOf< Lazy< IfcObjectDefinition >, 1, 0 > RelatedObjects;
+ IfcPropertySetDefinitionSelect::Out RelatingPropertyDefinition;
+ };
+
+ // C++ wrapper for IfcRelFillsElement
+ struct IfcRelFillsElement : IfcRelConnects, ObjectHelper<IfcRelFillsElement,2> { IfcRelFillsElement() : Object("IfcRelFillsElement") {}
+ Lazy< IfcOpeningElement > RelatingOpeningElement;
+ Lazy< IfcElement > RelatedBuildingElement;
+ };
+
+ // C++ wrapper for IfcRelVoidsElement
+ struct IfcRelVoidsElement : IfcRelDecomposes, ObjectHelper<IfcRelVoidsElement,2> { IfcRelVoidsElement() : Object("IfcRelVoidsElement") {}
+ Lazy< IfcElement > RelatingBuildingElement;
+ Lazy< IfcFeatureElementSubtraction > RelatedOpeningElement;
+ };
+
+ // C++ wrapper for IfcReparametrisedCompositeCurveSegment
+ struct IfcReparametrisedCompositeCurveSegment : IfcCompositeCurveSegment, ObjectHelper<IfcReparametrisedCompositeCurveSegment,1> { IfcReparametrisedCompositeCurveSegment() : Object("IfcReparametrisedCompositeCurveSegment") {}
+ IfcParameterValue::Out ParamLength;
+ };
+
+ // C++ wrapper for IfcRepresentation
+ struct IfcRepresentation : ObjectHelper<IfcRepresentation,4> { IfcRepresentation() : Object("IfcRepresentation") {}
+ Lazy< IfcRepresentationContext > ContextOfItems;
+ Maybe< IfcLabel::Out > RepresentationIdentifier;
+ Maybe< IfcLabel::Out > RepresentationType;
+ ListOf< Lazy< IfcRepresentationItem >, 1, 0 > Items;
+ };
+
+ // C++ wrapper for IfcRepresentationMap
+ struct IfcRepresentationMap : ObjectHelper<IfcRepresentationMap,2> { IfcRepresentationMap() : Object("IfcRepresentationMap") {}
+ IfcAxis2Placement::Out MappingOrigin;
+ Lazy< IfcRepresentation > MappedRepresentation;
+ };
+
+ // C++ wrapper for IfcRevolvedAreaSolid
+ struct IfcRevolvedAreaSolid : IfcSweptAreaSolid, ObjectHelper<IfcRevolvedAreaSolid,2> { IfcRevolvedAreaSolid() : Object("IfcRevolvedAreaSolid") {}
+ Lazy< IfcAxis1Placement > Axis;
+ IfcPlaneAngleMeasure::Out Angle;
+ };
+
+ // C++ wrapper for IfcRevolvedAreaSolidTapered
+ struct IfcRevolvedAreaSolidTapered : IfcRevolvedAreaSolid, ObjectHelper<IfcRevolvedAreaSolidTapered,1> { IfcRevolvedAreaSolidTapered() : Object("IfcRevolvedAreaSolidTapered") {}
+ Lazy< IfcProfileDef > EndSweptArea;
+ };
+
+ // C++ wrapper for IfcRightCircularCone
+ struct IfcRightCircularCone : IfcCsgPrimitive3D, ObjectHelper<IfcRightCircularCone,2> { IfcRightCircularCone() : Object("IfcRightCircularCone") {}
+ IfcPositiveLengthMeasure::Out Height;
+ IfcPositiveLengthMeasure::Out BottomRadius;
+ };
+
+ // C++ wrapper for IfcRightCircularCylinder
+ struct IfcRightCircularCylinder : IfcCsgPrimitive3D, ObjectHelper<IfcRightCircularCylinder,2> { IfcRightCircularCylinder() : Object("IfcRightCircularCylinder") {}
+ IfcPositiveLengthMeasure::Out Height;
+ IfcPositiveLengthMeasure::Out Radius;
+ };
+
+ // C++ wrapper for IfcRoof
+ struct IfcRoof : IfcBuildingElement, ObjectHelper<IfcRoof,1> { IfcRoof() : Object("IfcRoof") {}
+ Maybe< IfcRoofTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcRoofType
+ struct IfcRoofType : IfcBuildingElementType, ObjectHelper<IfcRoofType,1> { IfcRoofType() : Object("IfcRoofType") {}
+ IfcRoofTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcRoundedRectangleProfileDef
+ struct IfcRoundedRectangleProfileDef : IfcRectangleProfileDef, ObjectHelper<IfcRoundedRectangleProfileDef,1> { IfcRoundedRectangleProfileDef() : Object("IfcRoundedRectangleProfileDef") {}
+ IfcPositiveLengthMeasure::Out RoundingRadius;
+ };
+
+ // C++ wrapper for IfcSIUnit
+ struct IfcSIUnit : IfcNamedUnit, ObjectHelper<IfcSIUnit,2> { IfcSIUnit() : Object("IfcSIUnit") {}
+ Maybe< IfcSIPrefix::Out > Prefix;
+ IfcSIUnitName::Out Name;
+ };
+
+ // C++ wrapper for IfcSanitaryTerminal
+ struct IfcSanitaryTerminal : IfcFlowTerminal, ObjectHelper<IfcSanitaryTerminal,1> { IfcSanitaryTerminal() : Object("IfcSanitaryTerminal") {}
+ Maybe< IfcSanitaryTerminalTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSanitaryTerminalType
+ struct IfcSanitaryTerminalType : IfcFlowTerminalType, ObjectHelper<IfcSanitaryTerminalType,1> { IfcSanitaryTerminalType() : Object("IfcSanitaryTerminalType") {}
+ IfcSanitaryTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSeamCurve
+ struct IfcSeamCurve : IfcSurfaceCurve, ObjectHelper<IfcSeamCurve,0> { IfcSeamCurve() : Object("IfcSeamCurve") {}
+
+ };
+
+ // C++ wrapper for IfcSectionedSpine
+ struct IfcSectionedSpine : IfcGeometricRepresentationItem, ObjectHelper<IfcSectionedSpine,3> { IfcSectionedSpine() : Object("IfcSectionedSpine") {}
+ Lazy< IfcCompositeCurve > SpineCurve;
+ ListOf< Lazy< IfcProfileDef >, 2, 0 > CrossSections;
+ ListOf< Lazy< IfcAxis2Placement3D >, 2, 0 > CrossSectionPositions;
+ };
+
+ // C++ wrapper for IfcSensor
+ struct IfcSensor : IfcDistributionControlElement, ObjectHelper<IfcSensor,1> { IfcSensor() : Object("IfcSensor") {}
+ Maybe< IfcSensorTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSensorType
+ struct IfcSensorType : IfcDistributionControlElementType, ObjectHelper<IfcSensorType,1> { IfcSensorType() : Object("IfcSensorType") {}
+ IfcSensorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcShadingDevice
+ struct IfcShadingDevice : IfcBuildingElement, ObjectHelper<IfcShadingDevice,1> { IfcShadingDevice() : Object("IfcShadingDevice") {}
+ Maybe< IfcShadingDeviceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcShadingDeviceType
+ struct IfcShadingDeviceType : IfcBuildingElementType, ObjectHelper<IfcShadingDeviceType,1> { IfcShadingDeviceType() : Object("IfcShadingDeviceType") {}
+ IfcShadingDeviceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcShapeModel
+ struct IfcShapeModel : IfcRepresentation, ObjectHelper<IfcShapeModel,0> { IfcShapeModel() : Object("IfcShapeModel") {}
+
+ };
+
+ // C++ wrapper for IfcShapeRepresentation
+ struct IfcShapeRepresentation : IfcShapeModel, ObjectHelper<IfcShapeRepresentation,0> { IfcShapeRepresentation() : Object("IfcShapeRepresentation") {}
+
+ };
+
+ // C++ wrapper for IfcShellBasedSurfaceModel
+ struct IfcShellBasedSurfaceModel : IfcGeometricRepresentationItem, ObjectHelper<IfcShellBasedSurfaceModel,1> { IfcShellBasedSurfaceModel() : Object("IfcShellBasedSurfaceModel") {}
+ ListOf< IfcShell, 1, 0 >::Out SbsmBoundary;
+ };
+
+ // C++ wrapper for IfcSite
+ struct IfcSite : IfcSpatialStructureElement, ObjectHelper<IfcSite,5> { IfcSite() : Object("IfcSite") {}
+ Maybe< IfcCompoundPlaneAngleMeasure::Out > RefLatitude;
+ Maybe< IfcCompoundPlaneAngleMeasure::Out > RefLongitude;
+ Maybe< IfcLengthMeasure::Out > RefElevation;
+ Maybe< IfcLabel::Out > LandTitleNumber;
+ Maybe< Lazy< NotImplemented > > SiteAddress;
+ };
+
+ // C++ wrapper for IfcSlab
+ struct IfcSlab : IfcBuildingElement, ObjectHelper<IfcSlab,1> { IfcSlab() : Object("IfcSlab") {}
+ Maybe< IfcSlabTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSlabElementedCase
+ struct IfcSlabElementedCase : IfcSlab, ObjectHelper<IfcSlabElementedCase,0> { IfcSlabElementedCase() : Object("IfcSlabElementedCase") {}
+
+ };
+
+ // C++ wrapper for IfcSlabStandardCase
+ struct IfcSlabStandardCase : IfcSlab, ObjectHelper<IfcSlabStandardCase,0> { IfcSlabStandardCase() : Object("IfcSlabStandardCase") {}
+
+ };
+
+ // C++ wrapper for IfcSlabType
+ struct IfcSlabType : IfcBuildingElementType, ObjectHelper<IfcSlabType,1> { IfcSlabType() : Object("IfcSlabType") {}
+ IfcSlabTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSolarDevice
+ struct IfcSolarDevice : IfcEnergyConversionDevice, ObjectHelper<IfcSolarDevice,1> { IfcSolarDevice() : Object("IfcSolarDevice") {}
+ Maybe< IfcSolarDeviceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSolarDeviceType
+ struct IfcSolarDeviceType : IfcEnergyConversionDeviceType, ObjectHelper<IfcSolarDeviceType,1> { IfcSolarDeviceType() : Object("IfcSolarDeviceType") {}
+ IfcSolarDeviceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSpace
+ struct IfcSpace : IfcSpatialStructureElement, ObjectHelper<IfcSpace,2> { IfcSpace() : Object("IfcSpace") {}
+ Maybe< IfcSpaceTypeEnum::Out > PredefinedType;
+ Maybe< IfcLengthMeasure::Out > ElevationWithFlooring;
+ };
+
+ // C++ wrapper for IfcSpaceHeater
+ struct IfcSpaceHeater : IfcFlowTerminal, ObjectHelper<IfcSpaceHeater,1> { IfcSpaceHeater() : Object("IfcSpaceHeater") {}
+ Maybe< IfcSpaceHeaterTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSpaceHeaterType
+ struct IfcSpaceHeaterType : IfcFlowTerminalType, ObjectHelper<IfcSpaceHeaterType,1> { IfcSpaceHeaterType() : Object("IfcSpaceHeaterType") {}
+ IfcSpaceHeaterTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSpatialElementType
+ struct IfcSpatialElementType : IfcTypeProduct, ObjectHelper<IfcSpatialElementType,1> { IfcSpatialElementType() : Object("IfcSpatialElementType") {}
+ Maybe< IfcLabel::Out > ElementType;
+ };
+
+ // C++ wrapper for IfcSpatialStructureElementType
+ struct IfcSpatialStructureElementType : IfcSpatialElementType, ObjectHelper<IfcSpatialStructureElementType,0> { IfcSpatialStructureElementType() : Object("IfcSpatialStructureElementType") {}
+
+ };
+
+ // C++ wrapper for IfcSpaceType
+ struct IfcSpaceType : IfcSpatialStructureElementType, ObjectHelper<IfcSpaceType,2> { IfcSpaceType() : Object("IfcSpaceType") {}
+ IfcSpaceTypeEnum::Out PredefinedType;
+ Maybe< IfcLabel::Out > LongName;
+ };
+
+ // C++ wrapper for IfcSpatialZone
+ struct IfcSpatialZone : IfcSpatialElement, ObjectHelper<IfcSpatialZone,1> { IfcSpatialZone() : Object("IfcSpatialZone") {}
+ Maybe< IfcSpatialZoneTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSpatialZoneType
+ struct IfcSpatialZoneType : IfcSpatialElementType, ObjectHelper<IfcSpatialZoneType,2> { IfcSpatialZoneType() : Object("IfcSpatialZoneType") {}
+ IfcSpatialZoneTypeEnum::Out PredefinedType;
+ Maybe< IfcLabel::Out > LongName;
+ };
+
+ // C++ wrapper for IfcSphere
+ struct IfcSphere : IfcCsgPrimitive3D, ObjectHelper<IfcSphere,1> { IfcSphere() : Object("IfcSphere") {}
+ IfcPositiveLengthMeasure::Out Radius;
+ };
+
+ // C++ wrapper for IfcSphericalSurface
+ struct IfcSphericalSurface : IfcElementarySurface, ObjectHelper<IfcSphericalSurface,1> { IfcSphericalSurface() : Object("IfcSphericalSurface") {}
+ IfcPositiveLengthMeasure::Out Radius;
+ };
+
+ // C++ wrapper for IfcStackTerminal
+ struct IfcStackTerminal : IfcFlowTerminal, ObjectHelper<IfcStackTerminal,1> { IfcStackTerminal() : Object("IfcStackTerminal") {}
+ Maybe< IfcStackTerminalTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcStackTerminalType
+ struct IfcStackTerminalType : IfcFlowTerminalType, ObjectHelper<IfcStackTerminalType,1> { IfcStackTerminalType() : Object("IfcStackTerminalType") {}
+ IfcStackTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcStair
+ struct IfcStair : IfcBuildingElement, ObjectHelper<IfcStair,1> { IfcStair() : Object("IfcStair") {}
+ Maybe< IfcStairTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcStairFlight
+ struct IfcStairFlight : IfcBuildingElement, ObjectHelper<IfcStairFlight,5> { IfcStairFlight() : Object("IfcStairFlight") {}
+ Maybe< IfcInteger::Out > NumberOfRisers;
+ Maybe< IfcInteger::Out > NumberOfTreads;
+ Maybe< IfcPositiveLengthMeasure::Out > RiserHeight;
+ Maybe< IfcPositiveLengthMeasure::Out > TreadLength;
+ Maybe< IfcStairFlightTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcStairFlightType
+ struct IfcStairFlightType : IfcBuildingElementType, ObjectHelper<IfcStairFlightType,1> { IfcStairFlightType() : Object("IfcStairFlightType") {}
+ IfcStairFlightTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcStairType
+ struct IfcStairType : IfcBuildingElementType, ObjectHelper<IfcStairType,1> { IfcStairType() : Object("IfcStairType") {}
+ IfcStairTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcStructuralActivity
+ struct IfcStructuralActivity : IfcProduct, ObjectHelper<IfcStructuralActivity,2> { IfcStructuralActivity() : Object("IfcStructuralActivity") {}
+ Lazy< NotImplemented > AppliedLoad;
+ IfcGlobalOrLocalEnum::Out GlobalOrLocal;
+ };
+
+ // C++ wrapper for IfcStructuralAction
+ struct IfcStructuralAction : IfcStructuralActivity, ObjectHelper<IfcStructuralAction,1> { IfcStructuralAction() : Object("IfcStructuralAction") {}
+ Maybe< IfcBoolean::Out > DestabilizingLoad;
+ };
+
+ // C++ wrapper for IfcStructuralAnalysisModel
+ struct IfcStructuralAnalysisModel : IfcSystem, ObjectHelper<IfcStructuralAnalysisModel,5> { IfcStructuralAnalysisModel() : Object("IfcStructuralAnalysisModel") {}
+ IfcAnalysisModelTypeEnum::Out PredefinedType;
+ Maybe< Lazy< IfcAxis2Placement3D > > OrientationOf2DPlane;
+ Maybe< ListOf< Lazy< IfcStructuralLoadGroup >, 1, 0 > > LoadedBy;
+ Maybe< ListOf< Lazy< IfcStructuralResultGroup >, 1, 0 > > HasResults;
+ Maybe< Lazy< IfcObjectPlacement > > SharedPlacement;
+ };
+
+ // C++ wrapper for IfcStructuralItem
+ struct IfcStructuralItem : IfcProduct, ObjectHelper<IfcStructuralItem,0> { IfcStructuralItem() : Object("IfcStructuralItem") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralConnection
+ struct IfcStructuralConnection : IfcStructuralItem, ObjectHelper<IfcStructuralConnection,1> { IfcStructuralConnection() : Object("IfcStructuralConnection") {}
+ Maybe< Lazy< NotImplemented > > AppliedCondition;
+ };
+
+ // C++ wrapper for IfcStructuralCurveAction
+ struct IfcStructuralCurveAction : IfcStructuralAction, ObjectHelper<IfcStructuralCurveAction,2> { IfcStructuralCurveAction() : Object("IfcStructuralCurveAction") {}
+ Maybe< IfcProjectedOrTrueLengthEnum::Out > ProjectedOrTrue;
+ IfcStructuralCurveActivityTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcStructuralCurveConnection
+ struct IfcStructuralCurveConnection : IfcStructuralConnection, ObjectHelper<IfcStructuralCurveConnection,1> { IfcStructuralCurveConnection() : Object("IfcStructuralCurveConnection") {}
+ Lazy< IfcDirection > Axis;
+ };
+
+ // C++ wrapper for IfcStructuralMember
+ struct IfcStructuralMember : IfcStructuralItem, ObjectHelper<IfcStructuralMember,0> { IfcStructuralMember() : Object("IfcStructuralMember") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralCurveMember
+ struct IfcStructuralCurveMember : IfcStructuralMember, ObjectHelper<IfcStructuralCurveMember,2> { IfcStructuralCurveMember() : Object("IfcStructuralCurveMember") {}
+ IfcStructuralCurveMemberTypeEnum::Out PredefinedType;
+ Lazy< IfcDirection > Axis;
+ };
+
+ // C++ wrapper for IfcStructuralCurveMemberVarying
+ struct IfcStructuralCurveMemberVarying : IfcStructuralCurveMember, ObjectHelper<IfcStructuralCurveMemberVarying,0> { IfcStructuralCurveMemberVarying() : Object("IfcStructuralCurveMemberVarying") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralReaction
+ struct IfcStructuralReaction : IfcStructuralActivity, ObjectHelper<IfcStructuralReaction,0> { IfcStructuralReaction() : Object("IfcStructuralReaction") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralCurveReaction
+ struct IfcStructuralCurveReaction : IfcStructuralReaction, ObjectHelper<IfcStructuralCurveReaction,1> { IfcStructuralCurveReaction() : Object("IfcStructuralCurveReaction") {}
+ IfcStructuralCurveActivityTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcStructuralLinearAction
+ struct IfcStructuralLinearAction : IfcStructuralCurveAction, ObjectHelper<IfcStructuralLinearAction,0> { IfcStructuralLinearAction() : Object("IfcStructuralLinearAction") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralLoadGroup
+ struct IfcStructuralLoadGroup : IfcGroup, ObjectHelper<IfcStructuralLoadGroup,5> { IfcStructuralLoadGroup() : Object("IfcStructuralLoadGroup") {}
+ IfcLoadGroupTypeEnum::Out PredefinedType;
+ IfcActionTypeEnum::Out ActionType;
+ IfcActionSourceTypeEnum::Out ActionSource;
+ Maybe< IfcRatioMeasure::Out > Coefficient;
+ Maybe< IfcLabel::Out > Purpose;
+ };
+
+ // C++ wrapper for IfcStructuralLoadCase
+ struct IfcStructuralLoadCase : IfcStructuralLoadGroup, ObjectHelper<IfcStructuralLoadCase,1> { IfcStructuralLoadCase() : Object("IfcStructuralLoadCase") {}
+ Maybe< ListOf< IfcRatioMeasure, 3, 3 >::Out > SelfWeightCoefficients;
+ };
+
+ // C++ wrapper for IfcStructuralSurfaceAction
+ struct IfcStructuralSurfaceAction : IfcStructuralAction, ObjectHelper<IfcStructuralSurfaceAction,2> { IfcStructuralSurfaceAction() : Object("IfcStructuralSurfaceAction") {}
+ Maybe< IfcProjectedOrTrueLengthEnum::Out > ProjectedOrTrue;
+ IfcStructuralSurfaceActivityTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcStructuralPlanarAction
+ struct IfcStructuralPlanarAction : IfcStructuralSurfaceAction, ObjectHelper<IfcStructuralPlanarAction,0> { IfcStructuralPlanarAction() : Object("IfcStructuralPlanarAction") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralPointAction
+ struct IfcStructuralPointAction : IfcStructuralAction, ObjectHelper<IfcStructuralPointAction,0> { IfcStructuralPointAction() : Object("IfcStructuralPointAction") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralPointConnection
+ struct IfcStructuralPointConnection : IfcStructuralConnection, ObjectHelper<IfcStructuralPointConnection,1> { IfcStructuralPointConnection() : Object("IfcStructuralPointConnection") {}
+ Maybe< Lazy< IfcAxis2Placement3D > > ConditionCoordinateSystem;
+ };
+
+ // C++ wrapper for IfcStructuralPointReaction
+ struct IfcStructuralPointReaction : IfcStructuralReaction, ObjectHelper<IfcStructuralPointReaction,0> { IfcStructuralPointReaction() : Object("IfcStructuralPointReaction") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralResultGroup
+ struct IfcStructuralResultGroup : IfcGroup, ObjectHelper<IfcStructuralResultGroup,3> { IfcStructuralResultGroup() : Object("IfcStructuralResultGroup") {}
+ IfcAnalysisTheoryTypeEnum::Out TheoryType;
+ Maybe< Lazy< IfcStructuralLoadGroup > > ResultForLoadGroup;
+ IfcBoolean::Out IsLinear;
+ };
+
+ // C++ wrapper for IfcStructuralSurfaceConnection
+ struct IfcStructuralSurfaceConnection : IfcStructuralConnection, ObjectHelper<IfcStructuralSurfaceConnection,0> { IfcStructuralSurfaceConnection() : Object("IfcStructuralSurfaceConnection") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralSurfaceMember
+ struct IfcStructuralSurfaceMember : IfcStructuralMember, ObjectHelper<IfcStructuralSurfaceMember,2> { IfcStructuralSurfaceMember() : Object("IfcStructuralSurfaceMember") {}
+ IfcStructuralSurfaceMemberTypeEnum::Out PredefinedType;
+ Maybe< IfcPositiveLengthMeasure::Out > Thickness;
+ };
+
+ // C++ wrapper for IfcStructuralSurfaceMemberVarying
+ struct IfcStructuralSurfaceMemberVarying : IfcStructuralSurfaceMember, ObjectHelper<IfcStructuralSurfaceMemberVarying,0> { IfcStructuralSurfaceMemberVarying() : Object("IfcStructuralSurfaceMemberVarying") {}
+
+ };
+
+ // C++ wrapper for IfcStructuralSurfaceReaction
+ struct IfcStructuralSurfaceReaction : IfcStructuralReaction, ObjectHelper<IfcStructuralSurfaceReaction,1> { IfcStructuralSurfaceReaction() : Object("IfcStructuralSurfaceReaction") {}
+ IfcStructuralSurfaceActivityTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcStyleModel
+ struct IfcStyleModel : IfcRepresentation, ObjectHelper<IfcStyleModel,0> { IfcStyleModel() : Object("IfcStyleModel") {}
+
+ };
+
+ // C++ wrapper for IfcStyledItem
+ struct IfcStyledItem : IfcRepresentationItem, ObjectHelper<IfcStyledItem,3> { IfcStyledItem() : Object("IfcStyledItem") {}
+ Maybe< Lazy< IfcRepresentationItem > > Item;
+ ListOf< IfcStyleAssignmentSelect, 1, 0 >::Out Styles;
+ Maybe< IfcLabel::Out > Name;
+ };
+
+ // C++ wrapper for IfcStyledRepresentation
+ struct IfcStyledRepresentation : IfcStyleModel, ObjectHelper<IfcStyledRepresentation,0> { IfcStyledRepresentation() : Object("IfcStyledRepresentation") {}
+
+ };
+
+ // C++ wrapper for IfcSubContractResource
+ struct IfcSubContractResource : IfcConstructionResource, ObjectHelper<IfcSubContractResource,1> { IfcSubContractResource() : Object("IfcSubContractResource") {}
+ Maybe< IfcSubContractResourceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSubContractResourceType
+ struct IfcSubContractResourceType : IfcConstructionResourceType, ObjectHelper<IfcSubContractResourceType,1> { IfcSubContractResourceType() : Object("IfcSubContractResourceType") {}
+ IfcSubContractResourceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSubedge
+ struct IfcSubedge : IfcEdge, ObjectHelper<IfcSubedge,1> { IfcSubedge() : Object("IfcSubedge") {}
+ Lazy< IfcEdge > ParentEdge;
+ };
+
+ // C++ wrapper for IfcSurfaceCurveSweptAreaSolid
+ struct IfcSurfaceCurveSweptAreaSolid : IfcSweptAreaSolid, ObjectHelper<IfcSurfaceCurveSweptAreaSolid,4> { IfcSurfaceCurveSweptAreaSolid() : Object("IfcSurfaceCurveSweptAreaSolid") {}
+ Lazy< IfcCurve > Directrix;
+ Maybe< IfcParameterValue::Out > StartParam;
+ Maybe< IfcParameterValue::Out > EndParam;
+ Lazy< IfcSurface > ReferenceSurface;
+ };
+
+ // C++ wrapper for IfcSurfaceFeature
+ struct IfcSurfaceFeature : IfcFeatureElement, ObjectHelper<IfcSurfaceFeature,1> { IfcSurfaceFeature() : Object("IfcSurfaceFeature") {}
+ Maybe< IfcSurfaceFeatureTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSweptSurface
+ struct IfcSweptSurface : IfcSurface, ObjectHelper<IfcSweptSurface,2> { IfcSweptSurface() : Object("IfcSweptSurface") {}
+ Lazy< IfcProfileDef > SweptCurve;
+ Maybe< Lazy< IfcAxis2Placement3D > > Position;
+ };
+
+ // C++ wrapper for IfcSurfaceOfLinearExtrusion
+ struct IfcSurfaceOfLinearExtrusion : IfcSweptSurface, ObjectHelper<IfcSurfaceOfLinearExtrusion,2> { IfcSurfaceOfLinearExtrusion() : Object("IfcSurfaceOfLinearExtrusion") {}
+ Lazy< IfcDirection > ExtrudedDirection;
+ IfcLengthMeasure::Out Depth;
+ };
+
+ // C++ wrapper for IfcSurfaceOfRevolution
+ struct IfcSurfaceOfRevolution : IfcSweptSurface, ObjectHelper<IfcSurfaceOfRevolution,1> { IfcSurfaceOfRevolution() : Object("IfcSurfaceOfRevolution") {}
+ Lazy< IfcAxis1Placement > AxisPosition;
+ };
+
+ // C++ wrapper for IfcSurfaceStyle
+ struct IfcSurfaceStyle : IfcPresentationStyle, ObjectHelper<IfcSurfaceStyle,2> { IfcSurfaceStyle() : Object("IfcSurfaceStyle") {}
+ IfcSurfaceSide::Out Side;
+ ListOf< IfcSurfaceStyleElementSelect, 1, 5 >::Out Styles;
+ };
+
+ // C++ wrapper for IfcSurfaceStyleShading
+ struct IfcSurfaceStyleShading : IfcPresentationItem, ObjectHelper<IfcSurfaceStyleShading,2> { IfcSurfaceStyleShading() : Object("IfcSurfaceStyleShading") {}
+ Lazy< IfcColourRgb > SurfaceColour;
+ Maybe< IfcNormalisedRatioMeasure::Out > Transparency;
+ };
+
+ // C++ wrapper for IfcSurfaceStyleRendering
+ struct IfcSurfaceStyleRendering : IfcSurfaceStyleShading, ObjectHelper<IfcSurfaceStyleRendering,7> { IfcSurfaceStyleRendering() : Object("IfcSurfaceStyleRendering") {}
+ Maybe< IfcColourOrFactor::Out > DiffuseColour;
+ Maybe< IfcColourOrFactor::Out > TransmissionColour;
+ Maybe< IfcColourOrFactor::Out > DiffuseTransmissionColour;
+ Maybe< IfcColourOrFactor::Out > ReflectionColour;
+ Maybe< IfcColourOrFactor::Out > SpecularColour;
+ Maybe< IfcSpecularHighlightSelect::Out > SpecularHighlight;
+ IfcReflectanceMethodEnum::Out ReflectanceMethod;
+ };
+
+ // C++ wrapper for IfcSurfaceStyleWithTextures
+ struct IfcSurfaceStyleWithTextures : IfcPresentationItem, ObjectHelper<IfcSurfaceStyleWithTextures,1> { IfcSurfaceStyleWithTextures() : Object("IfcSurfaceStyleWithTextures") {}
+ ListOf< Lazy< NotImplemented >, 1, 0 > Textures;
+ };
+
+ // C++ wrapper for IfcSweptDiskSolid
+ struct IfcSweptDiskSolid : IfcSolidModel, ObjectHelper<IfcSweptDiskSolid,5> { IfcSweptDiskSolid() : Object("IfcSweptDiskSolid") {}
+ Lazy< IfcCurve > Directrix;
+ IfcPositiveLengthMeasure::Out Radius;
+ Maybe< IfcPositiveLengthMeasure::Out > InnerRadius;
+ Maybe< IfcParameterValue::Out > StartParam;
+ Maybe< IfcParameterValue::Out > EndParam;
+ };
+
+ // C++ wrapper for IfcSweptDiskSolidPolygonal
+ struct IfcSweptDiskSolidPolygonal : IfcSweptDiskSolid, ObjectHelper<IfcSweptDiskSolidPolygonal,1> { IfcSweptDiskSolidPolygonal() : Object("IfcSweptDiskSolidPolygonal") {}
+ Maybe< IfcPositiveLengthMeasure::Out > FilletRadius;
+ };
+
+ // C++ wrapper for IfcSwitchingDevice
+ struct IfcSwitchingDevice : IfcFlowController, ObjectHelper<IfcSwitchingDevice,1> { IfcSwitchingDevice() : Object("IfcSwitchingDevice") {}
+ Maybe< IfcSwitchingDeviceTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSwitchingDeviceType
+ struct IfcSwitchingDeviceType : IfcFlowControllerType, ObjectHelper<IfcSwitchingDeviceType,1> { IfcSwitchingDeviceType() : Object("IfcSwitchingDeviceType") {}
+ IfcSwitchingDeviceTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcSystemFurnitureElement
+ struct IfcSystemFurnitureElement : IfcFurnishingElement, ObjectHelper<IfcSystemFurnitureElement,1> { IfcSystemFurnitureElement() : Object("IfcSystemFurnitureElement") {}
+ Maybe< IfcSystemFurnitureElementTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcSystemFurnitureElementType
+ struct IfcSystemFurnitureElementType : IfcFurnishingElementType, ObjectHelper<IfcSystemFurnitureElementType,1> { IfcSystemFurnitureElementType() : Object("IfcSystemFurnitureElementType") {}
+ Maybe< IfcSystemFurnitureElementTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcTShapeProfileDef
+ struct IfcTShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcTShapeProfileDef,9> { IfcTShapeProfileDef() : Object("IfcTShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out Depth;
+ IfcPositiveLengthMeasure::Out FlangeWidth;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out FlangeThickness;
+ Maybe< IfcNonNegativeLengthMeasure::Out > FilletRadius;
+ Maybe< IfcNonNegativeLengthMeasure::Out > FlangeEdgeRadius;
+ Maybe< IfcNonNegativeLengthMeasure::Out > WebEdgeRadius;
+ Maybe< IfcPlaneAngleMeasure::Out > WebSlope;
+ Maybe< IfcPlaneAngleMeasure::Out > FlangeSlope;
+ };
+
+ // C++ wrapper for IfcTank
+ struct IfcTank : IfcFlowStorageDevice, ObjectHelper<IfcTank,1> { IfcTank() : Object("IfcTank") {}
+ Maybe< IfcTankTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcTankType
+ struct IfcTankType : IfcFlowStorageDeviceType, ObjectHelper<IfcTankType,1> { IfcTankType() : Object("IfcTankType") {}
+ IfcTankTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcTask
+ struct IfcTask : IfcProcess, ObjectHelper<IfcTask,6> { IfcTask() : Object("IfcTask") {}
+ Maybe< IfcLabel::Out > Status;
+ Maybe< IfcLabel::Out > WorkMethod;
+ IfcBoolean::Out IsMilestone;
+ Maybe< IfcInteger::Out > Priority;
+ Maybe< Lazy< NotImplemented > > TaskTime;
+ Maybe< IfcTaskTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcTaskType
+ struct IfcTaskType : IfcTypeProcess, ObjectHelper<IfcTaskType,2> { IfcTaskType() : Object("IfcTaskType") {}
+ IfcTaskTypeEnum::Out PredefinedType;
+ Maybe< IfcLabel::Out > WorkMethod;
+ };
+
+ // C++ wrapper for IfcTendon
+ struct IfcTendon : IfcReinforcingElement, ObjectHelper<IfcTendon,8> { IfcTendon() : Object("IfcTendon") {}
+ Maybe< IfcTendonTypeEnum::Out > PredefinedType;
+ Maybe< IfcPositiveLengthMeasure::Out > NominalDiameter;
+ Maybe< IfcAreaMeasure::Out > CrossSectionArea;
+ Maybe< IfcForceMeasure::Out > TensionForce;
+ Maybe< IfcPressureMeasure::Out > PreStress;
+ Maybe< IfcNormalisedRatioMeasure::Out > FrictionCoefficient;
+ Maybe< IfcPositiveLengthMeasure::Out > AnchorageSlip;
+ Maybe< IfcPositiveLengthMeasure::Out > MinCurvatureRadius;
+ };
+
+ // C++ wrapper for IfcTendonAnchor
+ struct IfcTendonAnchor : IfcReinforcingElement, ObjectHelper<IfcTendonAnchor,1> { IfcTendonAnchor() : Object("IfcTendonAnchor") {}
+ Maybe< IfcTendonAnchorTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcTendonAnchorType
+ struct IfcTendonAnchorType : IfcReinforcingElementType, ObjectHelper<IfcTendonAnchorType,1> { IfcTendonAnchorType() : Object("IfcTendonAnchorType") {}
+ IfcTendonAnchorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcTendonType
+ struct IfcTendonType : IfcReinforcingElementType, ObjectHelper<IfcTendonType,4> { IfcTendonType() : Object("IfcTendonType") {}
+ IfcTendonTypeEnum::Out PredefinedType;
+ Maybe< IfcPositiveLengthMeasure::Out > NominalDiameter;
+ Maybe< IfcAreaMeasure::Out > CrossSectionArea;
+ Maybe< IfcPositiveLengthMeasure::Out > SheathDiameter;
+ };
+
+ // C++ wrapper for IfcTextLiteral
+ struct IfcTextLiteral : IfcGeometricRepresentationItem, ObjectHelper<IfcTextLiteral,3> { IfcTextLiteral() : Object("IfcTextLiteral") {}
+ IfcPresentableText::Out Literal;
+ IfcAxis2Placement::Out Placement;
+ IfcTextPath::Out Path;
+ };
+
+ // C++ wrapper for IfcTextLiteralWithExtent
+ struct IfcTextLiteralWithExtent : IfcTextLiteral, ObjectHelper<IfcTextLiteralWithExtent,2> { IfcTextLiteralWithExtent() : Object("IfcTextLiteralWithExtent") {}
+ Lazy< IfcPlanarExtent > Extent;
+ IfcBoxAlignment::Out BoxAlignment;
+ };
+
+ // C++ wrapper for IfcTopologyRepresentation
+ struct IfcTopologyRepresentation : IfcShapeModel, ObjectHelper<IfcTopologyRepresentation,0> { IfcTopologyRepresentation() : Object("IfcTopologyRepresentation") {}
+
+ };
+
+ // C++ wrapper for IfcToroidalSurface
+ struct IfcToroidalSurface : IfcElementarySurface, ObjectHelper<IfcToroidalSurface,2> { IfcToroidalSurface() : Object("IfcToroidalSurface") {}
+ IfcPositiveLengthMeasure::Out MajorRadius;
+ IfcPositiveLengthMeasure::Out MinorRadius;
+ };
+
+ // C++ wrapper for IfcTransformer
+ struct IfcTransformer : IfcEnergyConversionDevice, ObjectHelper<IfcTransformer,1> { IfcTransformer() : Object("IfcTransformer") {}
+ Maybe< IfcTransformerTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcTransformerType
+ struct IfcTransformerType : IfcEnergyConversionDeviceType, ObjectHelper<IfcTransformerType,1> { IfcTransformerType() : Object("IfcTransformerType") {}
+ IfcTransformerTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcTransportElement
+ struct IfcTransportElement : IfcElement, ObjectHelper<IfcTransportElement,1> { IfcTransportElement() : Object("IfcTransportElement") {}
+ Maybe< IfcTransportElementTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcTransportElementType
+ struct IfcTransportElementType : IfcElementType, ObjectHelper<IfcTransportElementType,1> { IfcTransportElementType() : Object("IfcTransportElementType") {}
+ IfcTransportElementTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcTrapeziumProfileDef
+ struct IfcTrapeziumProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcTrapeziumProfileDef,4> { IfcTrapeziumProfileDef() : Object("IfcTrapeziumProfileDef") {}
+ IfcPositiveLengthMeasure::Out BottomXDim;
+ IfcPositiveLengthMeasure::Out TopXDim;
+ IfcPositiveLengthMeasure::Out YDim;
+ IfcLengthMeasure::Out TopXOffset;
+ };
+
+ // C++ wrapper for IfcTriangulatedFaceSet
+ struct IfcTriangulatedFaceSet : IfcTessellatedFaceSet, ObjectHelper<IfcTriangulatedFaceSet,2> { IfcTriangulatedFaceSet() : Object("IfcTriangulatedFaceSet") {}
+ Maybe< IfcBoolean::Out > Closed;
+ Maybe< ListOf< IfcPositiveInteger, 1, 0 >::Out > PnIndex;
+ };
+
+ // C++ wrapper for IfcTrimmedCurve
+ struct IfcTrimmedCurve : IfcBoundedCurve, ObjectHelper<IfcTrimmedCurve,5> { IfcTrimmedCurve() : Object("IfcTrimmedCurve") {}
+ Lazy< IfcCurve > BasisCurve;
+ ListOf< IfcTrimmingSelect, 1, 2 >::Out Trim1;
+ ListOf< IfcTrimmingSelect, 1, 2 >::Out Trim2;
+ IfcBoolean::Out SenseAgreement;
+ IfcTrimmingPreference::Out MasterRepresentation;
+ };
+
+ // C++ wrapper for IfcTubeBundle
+ struct IfcTubeBundle : IfcEnergyConversionDevice, ObjectHelper<IfcTubeBundle,1> { IfcTubeBundle() : Object("IfcTubeBundle") {}
+ Maybe< IfcTubeBundleTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcTubeBundleType
+ struct IfcTubeBundleType : IfcEnergyConversionDeviceType, ObjectHelper<IfcTubeBundleType,1> { IfcTubeBundleType() : Object("IfcTubeBundleType") {}
+ IfcTubeBundleTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcUShapeProfileDef
+ struct IfcUShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcUShapeProfileDef,7> { IfcUShapeProfileDef() : Object("IfcUShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out Depth;
+ IfcPositiveLengthMeasure::Out FlangeWidth;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out FlangeThickness;
+ Maybe< IfcNonNegativeLengthMeasure::Out > FilletRadius;
+ Maybe< IfcNonNegativeLengthMeasure::Out > EdgeRadius;
+ Maybe< IfcPlaneAngleMeasure::Out > FlangeSlope;
+ };
+
+ // C++ wrapper for IfcUnitAssignment
+ struct IfcUnitAssignment : ObjectHelper<IfcUnitAssignment,1> { IfcUnitAssignment() : Object("IfcUnitAssignment") {}
+ ListOf< IfcUnit, 1, 0 >::Out Units;
+ };
+
+ // C++ wrapper for IfcUnitaryControlElement
+ struct IfcUnitaryControlElement : IfcDistributionControlElement, ObjectHelper<IfcUnitaryControlElement,1> { IfcUnitaryControlElement() : Object("IfcUnitaryControlElement") {}
+ Maybe< IfcUnitaryControlElementTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcUnitaryControlElementType
+ struct IfcUnitaryControlElementType : IfcDistributionControlElementType, ObjectHelper<IfcUnitaryControlElementType,1> { IfcUnitaryControlElementType() : Object("IfcUnitaryControlElementType") {}
+ IfcUnitaryControlElementTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcUnitaryEquipment
+ struct IfcUnitaryEquipment : IfcEnergyConversionDevice, ObjectHelper<IfcUnitaryEquipment,1> { IfcUnitaryEquipment() : Object("IfcUnitaryEquipment") {}
+ Maybe< IfcUnitaryEquipmentTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcUnitaryEquipmentType
+ struct IfcUnitaryEquipmentType : IfcEnergyConversionDeviceType, ObjectHelper<IfcUnitaryEquipmentType,1> { IfcUnitaryEquipmentType() : Object("IfcUnitaryEquipmentType") {}
+ IfcUnitaryEquipmentTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcValve
+ struct IfcValve : IfcFlowController, ObjectHelper<IfcValve,1> { IfcValve() : Object("IfcValve") {}
+ Maybe< IfcValveTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcValveType
+ struct IfcValveType : IfcFlowControllerType, ObjectHelper<IfcValveType,1> { IfcValveType() : Object("IfcValveType") {}
+ IfcValveTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcVector
+ struct IfcVector : IfcGeometricRepresentationItem, ObjectHelper<IfcVector,2> { IfcVector() : Object("IfcVector") {}
+ Lazy< IfcDirection > Orientation;
+ IfcLengthMeasure::Out Magnitude;
+ };
+
+ // C++ wrapper for IfcVertex
+ struct IfcVertex : IfcTopologicalRepresentationItem, ObjectHelper<IfcVertex,0> { IfcVertex() : Object("IfcVertex") {}
+
+ };
+
+ // C++ wrapper for IfcVertexLoop
+ struct IfcVertexLoop : IfcLoop, ObjectHelper<IfcVertexLoop,1> { IfcVertexLoop() : Object("IfcVertexLoop") {}
+ Lazy< IfcVertex > LoopVertex;
+ };
+
+ // C++ wrapper for IfcVertexPoint
+ struct IfcVertexPoint : IfcVertex, ObjectHelper<IfcVertexPoint,1> { IfcVertexPoint() : Object("IfcVertexPoint") {}
+ Lazy< IfcPoint > VertexGeometry;
+ };
+
+ // C++ wrapper for IfcVibrationIsolator
+ struct IfcVibrationIsolator : IfcElementComponent, ObjectHelper<IfcVibrationIsolator,1> { IfcVibrationIsolator() : Object("IfcVibrationIsolator") {}
+ Maybe< IfcVibrationIsolatorTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcVibrationIsolatorType
+ struct IfcVibrationIsolatorType : IfcElementComponentType, ObjectHelper<IfcVibrationIsolatorType,1> { IfcVibrationIsolatorType() : Object("IfcVibrationIsolatorType") {}
+ IfcVibrationIsolatorTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcVirtualElement
+ struct IfcVirtualElement : IfcElement, ObjectHelper<IfcVirtualElement,0> { IfcVirtualElement() : Object("IfcVirtualElement") {}
+
+ };
+
+ // C++ wrapper for IfcVoidingFeature
+ struct IfcVoidingFeature : IfcFeatureElementSubtraction, ObjectHelper<IfcVoidingFeature,1> { IfcVoidingFeature() : Object("IfcVoidingFeature") {}
+ Maybe< IfcVoidingFeatureTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcWall
+ struct IfcWall : IfcBuildingElement, ObjectHelper<IfcWall,1> { IfcWall() : Object("IfcWall") {}
+ Maybe< IfcWallTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcWallElementedCase
+ struct IfcWallElementedCase : IfcWall, ObjectHelper<IfcWallElementedCase,0> { IfcWallElementedCase() : Object("IfcWallElementedCase") {}
+
+ };
+
+ // C++ wrapper for IfcWallStandardCase
+ struct IfcWallStandardCase : IfcWall, ObjectHelper<IfcWallStandardCase,0> { IfcWallStandardCase() : Object("IfcWallStandardCase") {}
+
+ };
+
+ // C++ wrapper for IfcWallType
+ struct IfcWallType : IfcBuildingElementType, ObjectHelper<IfcWallType,1> { IfcWallType() : Object("IfcWallType") {}
+ IfcWallTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcWasteTerminal
+ struct IfcWasteTerminal : IfcFlowTerminal, ObjectHelper<IfcWasteTerminal,1> { IfcWasteTerminal() : Object("IfcWasteTerminal") {}
+ Maybe< IfcWasteTerminalTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcWasteTerminalType
+ struct IfcWasteTerminalType : IfcFlowTerminalType, ObjectHelper<IfcWasteTerminalType,1> { IfcWasteTerminalType() : Object("IfcWasteTerminalType") {}
+ IfcWasteTerminalTypeEnum::Out PredefinedType;
+ };
+
+ // C++ wrapper for IfcWindow
+ struct IfcWindow : IfcBuildingElement, ObjectHelper<IfcWindow,5> { IfcWindow() : Object("IfcWindow") {}
+ Maybe< IfcPositiveLengthMeasure::Out > OverallHeight;
+ Maybe< IfcPositiveLengthMeasure::Out > OverallWidth;
+ Maybe< IfcWindowTypeEnum::Out > PredefinedType;
+ Maybe< IfcWindowTypePartitioningEnum::Out > PartitioningType;
+ Maybe< IfcLabel::Out > UserDefinedPartitioningType;
+ };
+
+ // C++ wrapper for IfcWindowStandardCase
+ struct IfcWindowStandardCase : IfcWindow, ObjectHelper<IfcWindowStandardCase,0> { IfcWindowStandardCase() : Object("IfcWindowStandardCase") {}
+
+ };
+
+ // C++ wrapper for IfcWindowStyle
+ struct IfcWindowStyle : IfcTypeProduct, ObjectHelper<IfcWindowStyle,4> { IfcWindowStyle() : Object("IfcWindowStyle") {}
+ IfcWindowStyleConstructionEnum::Out ConstructionType;
+ IfcWindowStyleOperationEnum::Out OperationType;
+ IfcBoolean::Out ParameterTakesPrecedence;
+ IfcBoolean::Out Sizeable;
+ };
+
+ // C++ wrapper for IfcWindowType
+ struct IfcWindowType : IfcBuildingElementType, ObjectHelper<IfcWindowType,4> { IfcWindowType() : Object("IfcWindowType") {}
+ IfcWindowTypeEnum::Out PredefinedType;
+ IfcWindowTypePartitioningEnum::Out PartitioningType;
+ Maybe< IfcBoolean::Out > ParameterTakesPrecedence;
+ Maybe< IfcLabel::Out > UserDefinedPartitioningType;
+ };
+
+ // C++ wrapper for IfcWorkCalendar
+ struct IfcWorkCalendar : IfcControl, ObjectHelper<IfcWorkCalendar,3> { IfcWorkCalendar() : Object("IfcWorkCalendar") {}
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > WorkingTimes;
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > ExceptionTimes;
+ Maybe< IfcWorkCalendarTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcWorkControl
+ struct IfcWorkControl : IfcControl, ObjectHelper<IfcWorkControl,7> { IfcWorkControl() : Object("IfcWorkControl") {}
+ IfcDateTime::Out CreationDate;
+ Maybe< ListOf< Lazy< NotImplemented >, 1, 0 > > Creators;
+ Maybe< IfcLabel::Out > Purpose;
+ Maybe< IfcDuration::Out > Duration;
+ Maybe< IfcDuration::Out > TotalFloat;
+ IfcDateTime::Out StartTime;
+ Maybe< IfcDateTime::Out > FinishTime;
+ };
+
+ // C++ wrapper for IfcWorkPlan
+ struct IfcWorkPlan : IfcWorkControl, ObjectHelper<IfcWorkPlan,1> { IfcWorkPlan() : Object("IfcWorkPlan") {}
+ Maybe< IfcWorkPlanTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcWorkSchedule
+ struct IfcWorkSchedule : IfcWorkControl, ObjectHelper<IfcWorkSchedule,1> { IfcWorkSchedule() : Object("IfcWorkSchedule") {}
+ Maybe< IfcWorkScheduleTypeEnum::Out > PredefinedType;
+ };
+
+ // C++ wrapper for IfcZShapeProfileDef
+ struct IfcZShapeProfileDef : IfcParameterizedProfileDef, ObjectHelper<IfcZShapeProfileDef,6> { IfcZShapeProfileDef() : Object("IfcZShapeProfileDef") {}
+ IfcPositiveLengthMeasure::Out Depth;
+ IfcPositiveLengthMeasure::Out FlangeWidth;
+ IfcPositiveLengthMeasure::Out WebThickness;
+ IfcPositiveLengthMeasure::Out FlangeThickness;
+ Maybe< IfcNonNegativeLengthMeasure::Out > FilletRadius;
+ Maybe< IfcNonNegativeLengthMeasure::Out > EdgeRadius;
+ };
+
+ // C++ wrapper for IfcZone
+ struct IfcZone : IfcSystem, ObjectHelper<IfcZone,1> { IfcZone() : Object("IfcZone") {}
+ Maybe< IfcLabel::Out > LongName;
+ };
+
+ 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)
+
+ DECL_CONV_STUB( IfcRoot );
+ DECL_CONV_STUB( IfcObjectDefinition );
+ DECL_CONV_STUB( IfcObject );
+ DECL_CONV_STUB( IfcControl );
+ DECL_CONV_STUB( IfcActionRequest );
+ DECL_CONV_STUB( IfcActor );
+ DECL_CONV_STUB( IfcProduct );
+ DECL_CONV_STUB( IfcElement );
+ DECL_CONV_STUB( IfcDistributionElement );
+ DECL_CONV_STUB( IfcDistributionControlElement );
+ DECL_CONV_STUB( IfcActuator );
+ DECL_CONV_STUB( IfcTypeObject );
+ DECL_CONV_STUB( IfcTypeProduct );
+ DECL_CONV_STUB( IfcElementType );
+ DECL_CONV_STUB( IfcDistributionElementType );
+ DECL_CONV_STUB( IfcDistributionControlElementType );
+ DECL_CONV_STUB( IfcActuatorType );
+ DECL_CONV_STUB( IfcRepresentationItem );
+ DECL_CONV_STUB( IfcGeometricRepresentationItem );
+ DECL_CONV_STUB( IfcSolidModel );
+ DECL_CONV_STUB( IfcManifoldSolidBrep );
+ DECL_CONV_STUB( IfcAdvancedBrep );
+ DECL_CONV_STUB( IfcAdvancedBrepWithVoids );
+ DECL_CONV_STUB( IfcTopologicalRepresentationItem );
+ DECL_CONV_STUB( IfcFace );
+ DECL_CONV_STUB( IfcFaceSurface );
+ DECL_CONV_STUB( IfcAdvancedFace );
+ DECL_CONV_STUB( IfcDistributionFlowElement );
+ DECL_CONV_STUB( IfcFlowTerminal );
+ DECL_CONV_STUB( IfcAirTerminal );
+ DECL_CONV_STUB( IfcFlowController );
+ DECL_CONV_STUB( IfcAirTerminalBox );
+ DECL_CONV_STUB( IfcDistributionFlowElementType );
+ DECL_CONV_STUB( IfcFlowControllerType );
+ DECL_CONV_STUB( IfcAirTerminalBoxType );
+ DECL_CONV_STUB( IfcFlowTerminalType );
+ DECL_CONV_STUB( IfcAirTerminalType );
+ DECL_CONV_STUB( IfcEnergyConversionDevice );
+ DECL_CONV_STUB( IfcAirToAirHeatRecovery );
+ DECL_CONV_STUB( IfcEnergyConversionDeviceType );
+ DECL_CONV_STUB( IfcAirToAirHeatRecoveryType );
+ DECL_CONV_STUB( IfcAlarm );
+ DECL_CONV_STUB( IfcAlarmType );
+ DECL_CONV_STUB( IfcAnnotation );
+ DECL_CONV_STUB( IfcAnnotationFillArea );
+ DECL_CONV_STUB( IfcProfileDef );
+ DECL_CONV_STUB( IfcArbitraryClosedProfileDef );
+ DECL_CONV_STUB( IfcArbitraryOpenProfileDef );
+ DECL_CONV_STUB( IfcArbitraryProfileDefWithVoids );
+ DECL_CONV_STUB( IfcGroup );
+ DECL_CONV_STUB( IfcAsset );
+ DECL_CONV_STUB( IfcParameterizedProfileDef );
+ DECL_CONV_STUB( IfcAsymmetricIShapeProfileDef );
+ DECL_CONV_STUB( IfcAudioVisualAppliance );
+ DECL_CONV_STUB( IfcAudioVisualApplianceType );
+ DECL_CONV_STUB( IfcPlacement );
+ DECL_CONV_STUB( IfcAxis1Placement );
+ DECL_CONV_STUB( IfcAxis2Placement2D );
+ DECL_CONV_STUB( IfcAxis2Placement3D );
+ DECL_CONV_STUB( IfcCurve );
+ DECL_CONV_STUB( IfcBoundedCurve );
+ DECL_CONV_STUB( IfcBSplineCurve );
+ DECL_CONV_STUB( IfcBSplineCurveWithKnots );
+ DECL_CONV_STUB( IfcSurface );
+ DECL_CONV_STUB( IfcBoundedSurface );
+ DECL_CONV_STUB( IfcBSplineSurface );
+ DECL_CONV_STUB( IfcBSplineSurfaceWithKnots );
+ DECL_CONV_STUB( IfcBuildingElement );
+ DECL_CONV_STUB( IfcBeam );
+ DECL_CONV_STUB( IfcBeamStandardCase );
+ DECL_CONV_STUB( IfcBuildingElementType );
+ DECL_CONV_STUB( IfcBeamType );
+ DECL_CONV_STUB( IfcPresentationItem );
+ DECL_CONV_STUB( IfcCsgPrimitive3D );
+ DECL_CONV_STUB( IfcBlock );
+ DECL_CONV_STUB( IfcBoiler );
+ DECL_CONV_STUB( IfcBoilerType );
+ DECL_CONV_STUB( IfcBooleanResult );
+ DECL_CONV_STUB( IfcBooleanClippingResult );
+ DECL_CONV_STUB( IfcCompositeCurve );
+ DECL_CONV_STUB( IfcCompositeCurveOnSurface );
+ DECL_CONV_STUB( IfcBoundaryCurve );
+ DECL_CONV_STUB( IfcBoundingBox );
+ DECL_CONV_STUB( IfcHalfSpaceSolid );
+ DECL_CONV_STUB( IfcBoxedHalfSpace );
+ DECL_CONV_STUB( IfcSpatialElement );
+ DECL_CONV_STUB( IfcSpatialStructureElement );
+ DECL_CONV_STUB( IfcBuilding );
+ DECL_CONV_STUB( IfcElementComponent );
+ DECL_CONV_STUB( IfcBuildingElementPart );
+ DECL_CONV_STUB( IfcElementComponentType );
+ DECL_CONV_STUB( IfcBuildingElementPartType );
+ DECL_CONV_STUB( IfcBuildingElementProxy );
+ DECL_CONV_STUB( IfcBuildingElementProxyType );
+ DECL_CONV_STUB( IfcBuildingStorey );
+ DECL_CONV_STUB( IfcSystem );
+ DECL_CONV_STUB( IfcBuildingSystem );
+ DECL_CONV_STUB( IfcBurner );
+ DECL_CONV_STUB( IfcBurnerType );
+ DECL_CONV_STUB( IfcCShapeProfileDef );
+ DECL_CONV_STUB( IfcFlowFitting );
+ DECL_CONV_STUB( IfcCableCarrierFitting );
+ DECL_CONV_STUB( IfcFlowFittingType );
+ DECL_CONV_STUB( IfcCableCarrierFittingType );
+ DECL_CONV_STUB( IfcFlowSegment );
+ DECL_CONV_STUB( IfcCableCarrierSegment );
+ DECL_CONV_STUB( IfcFlowSegmentType );
+ DECL_CONV_STUB( IfcCableCarrierSegmentType );
+ DECL_CONV_STUB( IfcCableFitting );
+ DECL_CONV_STUB( IfcCableFittingType );
+ DECL_CONV_STUB( IfcCableSegment );
+ DECL_CONV_STUB( IfcCableSegmentType );
+ DECL_CONV_STUB( IfcPoint );
+ DECL_CONV_STUB( IfcCartesianPoint );
+ DECL_CONV_STUB( IfcCartesianPointList );
+ DECL_CONV_STUB( IfcCartesianPointList2D );
+ DECL_CONV_STUB( IfcCartesianPointList3D );
+ DECL_CONV_STUB( IfcCartesianTransformationOperator );
+ DECL_CONV_STUB( IfcCartesianTransformationOperator2D );
+ DECL_CONV_STUB( IfcCartesianTransformationOperator2DnonUniform );
+ DECL_CONV_STUB( IfcCartesianTransformationOperator3D );
+ DECL_CONV_STUB( IfcCartesianTransformationOperator3DnonUniform );
+ DECL_CONV_STUB( IfcCenterLineProfileDef );
+ DECL_CONV_STUB( IfcChiller );
+ DECL_CONV_STUB( IfcChillerType );
+ DECL_CONV_STUB( IfcChimney );
+ DECL_CONV_STUB( IfcChimneyType );
+ DECL_CONV_STUB( IfcConic );
+ DECL_CONV_STUB( IfcCircle );
+ DECL_CONV_STUB( IfcCircleProfileDef );
+ DECL_CONV_STUB( IfcCircleHollowProfileDef );
+ DECL_CONV_STUB( IfcCivilElement );
+ DECL_CONV_STUB( IfcCivilElementType );
+ DECL_CONV_STUB( IfcConnectedFaceSet );
+ DECL_CONV_STUB( IfcClosedShell );
+ DECL_CONV_STUB( IfcCoil );
+ DECL_CONV_STUB( IfcCoilType );
+ DECL_CONV_STUB( IfcColourSpecification );
+ DECL_CONV_STUB( IfcColourRgb );
+ DECL_CONV_STUB( IfcColumn );
+ DECL_CONV_STUB( IfcColumnStandardCase );
+ DECL_CONV_STUB( IfcColumnType );
+ DECL_CONV_STUB( IfcCommunicationsAppliance );
+ DECL_CONV_STUB( IfcCommunicationsApplianceType );
+ DECL_CONV_STUB( IfcPropertyAbstraction );
+ DECL_CONV_STUB( IfcProperty );
+ DECL_CONV_STUB( IfcComplexProperty );
+ DECL_CONV_STUB( IfcPropertyDefinition );
+ DECL_CONV_STUB( IfcCompositeCurveSegment );
+ DECL_CONV_STUB( IfcCompositeProfileDef );
+ DECL_CONV_STUB( IfcFlowMovingDevice );
+ DECL_CONV_STUB( IfcCompressor );
+ DECL_CONV_STUB( IfcFlowMovingDeviceType );
+ DECL_CONV_STUB( IfcCompressorType );
+ DECL_CONV_STUB( IfcCondenser );
+ DECL_CONV_STUB( IfcCondenserType );
+ DECL_CONV_STUB( IfcResource );
+ DECL_CONV_STUB( IfcConstructionResource );
+ DECL_CONV_STUB( IfcConstructionEquipmentResource );
+ DECL_CONV_STUB( IfcTypeResource );
+ DECL_CONV_STUB( IfcConstructionResourceType );
+ DECL_CONV_STUB( IfcConstructionEquipmentResourceType );
+ DECL_CONV_STUB( IfcConstructionMaterialResource );
+ DECL_CONV_STUB( IfcConstructionMaterialResourceType );
+ DECL_CONV_STUB( IfcConstructionProductResource );
+ DECL_CONV_STUB( IfcConstructionProductResourceType );
+ DECL_CONV_STUB( IfcContext );
+ DECL_CONV_STUB( IfcNamedUnit );
+ DECL_CONV_STUB( IfcContextDependentUnit );
+ DECL_CONV_STUB( IfcController );
+ DECL_CONV_STUB( IfcControllerType );
+ DECL_CONV_STUB( IfcConversionBasedUnit );
+ DECL_CONV_STUB( IfcConversionBasedUnitWithOffset );
+ DECL_CONV_STUB( IfcCooledBeam );
+ DECL_CONV_STUB( IfcCooledBeamType );
+ DECL_CONV_STUB( IfcCoolingTower );
+ DECL_CONV_STUB( IfcCoolingTowerType );
+ DECL_CONV_STUB( IfcCostItem );
+ DECL_CONV_STUB( IfcCostSchedule );
+ DECL_CONV_STUB( IfcCovering );
+ DECL_CONV_STUB( IfcCoveringType );
+ DECL_CONV_STUB( IfcCrewResource );
+ DECL_CONV_STUB( IfcCrewResourceType );
+ DECL_CONV_STUB( IfcCsgSolid );
+ DECL_CONV_STUB( IfcCurtainWall );
+ DECL_CONV_STUB( IfcCurtainWallType );
+ DECL_CONV_STUB( IfcCurveBoundedPlane );
+ DECL_CONV_STUB( IfcCurveBoundedSurface );
+ DECL_CONV_STUB( IfcPresentationStyle );
+ DECL_CONV_STUB( IfcElementarySurface );
+ DECL_CONV_STUB( IfcCylindricalSurface );
+ DECL_CONV_STUB( IfcDamper );
+ DECL_CONV_STUB( IfcDamperType );
+ DECL_CONV_STUB( IfcDerivedProfileDef );
+ DECL_CONV_STUB( IfcDirection );
+ DECL_CONV_STUB( IfcDiscreteAccessory );
+ DECL_CONV_STUB( IfcDiscreteAccessoryType );
+ DECL_CONV_STUB( IfcDistributionChamberElement );
+ DECL_CONV_STUB( IfcDistributionChamberElementType );
+ DECL_CONV_STUB( IfcDistributionSystem );
+ DECL_CONV_STUB( IfcDistributionCircuit );
+ DECL_CONV_STUB( IfcPort );
+ DECL_CONV_STUB( IfcDistributionPort );
+ DECL_CONV_STUB( IfcDoor );
+ DECL_CONV_STUB( IfcPropertySetDefinition );
+ DECL_CONV_STUB( IfcDoorStandardCase );
+ DECL_CONV_STUB( IfcDoorStyle );
+ DECL_CONV_STUB( IfcDoorType );
+ DECL_CONV_STUB( IfcDuctFitting );
+ DECL_CONV_STUB( IfcDuctFittingType );
+ DECL_CONV_STUB( IfcDuctSegment );
+ DECL_CONV_STUB( IfcDuctSegmentType );
+ DECL_CONV_STUB( IfcFlowTreatmentDevice );
+ DECL_CONV_STUB( IfcDuctSilencer );
+ DECL_CONV_STUB( IfcFlowTreatmentDeviceType );
+ DECL_CONV_STUB( IfcDuctSilencerType );
+ DECL_CONV_STUB( IfcEdge );
+ DECL_CONV_STUB( IfcEdgeCurve );
+ DECL_CONV_STUB( IfcLoop );
+ DECL_CONV_STUB( IfcEdgeLoop );
+ DECL_CONV_STUB( IfcElectricAppliance );
+ DECL_CONV_STUB( IfcElectricApplianceType );
+ DECL_CONV_STUB( IfcElectricDistributionBoard );
+ DECL_CONV_STUB( IfcElectricDistributionBoardType );
+ DECL_CONV_STUB( IfcFlowStorageDevice );
+ DECL_CONV_STUB( IfcElectricFlowStorageDevice );
+ DECL_CONV_STUB( IfcFlowStorageDeviceType );
+ DECL_CONV_STUB( IfcElectricFlowStorageDeviceType );
+ DECL_CONV_STUB( IfcElectricGenerator );
+ DECL_CONV_STUB( IfcElectricGeneratorType );
+ DECL_CONV_STUB( IfcElectricMotor );
+ DECL_CONV_STUB( IfcElectricMotorType );
+ DECL_CONV_STUB( IfcElectricTimeControl );
+ DECL_CONV_STUB( IfcElectricTimeControlType );
+ DECL_CONV_STUB( IfcElementAssembly );
+ DECL_CONV_STUB( IfcElementAssemblyType );
+ DECL_CONV_STUB( IfcQuantitySet );
+ DECL_CONV_STUB( IfcElementQuantity );
+ DECL_CONV_STUB( IfcEllipse );
+ DECL_CONV_STUB( IfcEllipseProfileDef );
+ DECL_CONV_STUB( IfcEngine );
+ DECL_CONV_STUB( IfcEngineType );
+ DECL_CONV_STUB( IfcEvaporativeCooler );
+ DECL_CONV_STUB( IfcEvaporativeCoolerType );
+ DECL_CONV_STUB( IfcEvaporator );
+ DECL_CONV_STUB( IfcEvaporatorType );
+ DECL_CONV_STUB( IfcProcess );
+ DECL_CONV_STUB( IfcEvent );
+ DECL_CONV_STUB( IfcTypeProcess );
+ DECL_CONV_STUB( IfcEventType );
+ DECL_CONV_STUB( IfcExternalSpatialStructureElement );
+ DECL_CONV_STUB( IfcExternalSpatialElement );
+ DECL_CONV_STUB( IfcSweptAreaSolid );
+ DECL_CONV_STUB( IfcExtrudedAreaSolid );
+ DECL_CONV_STUB( IfcExtrudedAreaSolidTapered );
+ DECL_CONV_STUB( IfcFaceBasedSurfaceModel );
+ DECL_CONV_STUB( IfcFaceBound );
+ DECL_CONV_STUB( IfcFaceOuterBound );
+ DECL_CONV_STUB( IfcFacetedBrep );
+ DECL_CONV_STUB( IfcFacetedBrepWithVoids );
+ DECL_CONV_STUB( IfcFan );
+ DECL_CONV_STUB( IfcFanType );
+ DECL_CONV_STUB( IfcFastener );
+ DECL_CONV_STUB( IfcFastenerType );
+ DECL_CONV_STUB( IfcFeatureElement );
+ DECL_CONV_STUB( IfcFeatureElementAddition );
+ DECL_CONV_STUB( IfcFeatureElementSubtraction );
+ DECL_CONV_STUB( IfcFillAreaStyleHatching );
+ DECL_CONV_STUB( IfcFillAreaStyleTiles );
+ DECL_CONV_STUB( IfcFilter );
+ DECL_CONV_STUB( IfcFilterType );
+ DECL_CONV_STUB( IfcFireSuppressionTerminal );
+ DECL_CONV_STUB( IfcFireSuppressionTerminalType );
+ DECL_CONV_STUB( IfcFixedReferenceSweptAreaSolid );
+ DECL_CONV_STUB( IfcFlowInstrument );
+ DECL_CONV_STUB( IfcFlowInstrumentType );
+ DECL_CONV_STUB( IfcFlowMeter );
+ DECL_CONV_STUB( IfcFlowMeterType );
+ DECL_CONV_STUB( IfcFooting );
+ DECL_CONV_STUB( IfcFootingType );
+ DECL_CONV_STUB( IfcFurnishingElement );
+ DECL_CONV_STUB( IfcFurnishingElementType );
+ DECL_CONV_STUB( IfcFurniture );
+ DECL_CONV_STUB( IfcFurnitureType );
+ DECL_CONV_STUB( IfcGeographicElement );
+ DECL_CONV_STUB( IfcGeographicElementType );
+ DECL_CONV_STUB( IfcGeometricSet );
+ DECL_CONV_STUB( IfcGeometricCurveSet );
+ DECL_CONV_STUB( IfcRepresentationContext );
+ DECL_CONV_STUB( IfcGeometricRepresentationContext );
+ DECL_CONV_STUB( IfcGeometricRepresentationSubContext );
+ DECL_CONV_STUB( IfcGrid );
+ DECL_CONV_STUB( IfcObjectPlacement );
+ DECL_CONV_STUB( IfcGridPlacement );
+ DECL_CONV_STUB( IfcHeatExchanger );
+ DECL_CONV_STUB( IfcHeatExchangerType );
+ DECL_CONV_STUB( IfcHumidifier );
+ DECL_CONV_STUB( IfcHumidifierType );
+ DECL_CONV_STUB( IfcIShapeProfileDef );
+ DECL_CONV_STUB( IfcIndexedPolyCurve );
+ DECL_CONV_STUB( IfcTessellatedItem );
+ DECL_CONV_STUB( IfcIndexedPolygonalFace );
+ DECL_CONV_STUB( IfcIndexedPolygonalFaceWithVoids );
+ DECL_CONV_STUB( IfcInterceptor );
+ DECL_CONV_STUB( IfcInterceptorType );
+ DECL_CONV_STUB( IfcSurfaceCurve );
+ DECL_CONV_STUB( IfcIntersectionCurve );
+ DECL_CONV_STUB( IfcInventory );
+ DECL_CONV_STUB( IfcJunctionBox );
+ DECL_CONV_STUB( IfcJunctionBoxType );
+ DECL_CONV_STUB( IfcLShapeProfileDef );
+ DECL_CONV_STUB( IfcLaborResource );
+ DECL_CONV_STUB( IfcLaborResourceType );
+ DECL_CONV_STUB( IfcLamp );
+ DECL_CONV_STUB( IfcLampType );
+ DECL_CONV_STUB( IfcLightFixture );
+ DECL_CONV_STUB( IfcLightFixtureType );
+ DECL_CONV_STUB( IfcLightSource );
+ DECL_CONV_STUB( IfcLightSourceAmbient );
+ DECL_CONV_STUB( IfcLightSourceDirectional );
+ DECL_CONV_STUB( IfcLightSourceGoniometric );
+ DECL_CONV_STUB( IfcLightSourcePositional );
+ DECL_CONV_STUB( IfcLightSourceSpot );
+ DECL_CONV_STUB( IfcLine );
+ DECL_CONV_STUB( IfcLocalPlacement );
+ DECL_CONV_STUB( IfcMappedItem );
+ DECL_CONV_STUB( IfcProductRepresentation );
+ DECL_CONV_STUB( IfcMaterialDefinitionRepresentation );
+ DECL_CONV_STUB( IfcMeasureWithUnit );
+ DECL_CONV_STUB( IfcMechanicalFastener );
+ DECL_CONV_STUB( IfcMechanicalFastenerType );
+ DECL_CONV_STUB( IfcMedicalDevice );
+ DECL_CONV_STUB( IfcMedicalDeviceType );
+ DECL_CONV_STUB( IfcMember );
+ DECL_CONV_STUB( IfcMemberStandardCase );
+ DECL_CONV_STUB( IfcMemberType );
+ DECL_CONV_STUB( IfcMirroredProfileDef );
+ DECL_CONV_STUB( IfcMotorConnection );
+ DECL_CONV_STUB( IfcMotorConnectionType );
+ DECL_CONV_STUB( IfcOccupant );
+ DECL_CONV_STUB( IfcOffsetCurve2D );
+ DECL_CONV_STUB( IfcOffsetCurve3D );
+ DECL_CONV_STUB( IfcOpenShell );
+ DECL_CONV_STUB( IfcOpeningElement );
+ DECL_CONV_STUB( IfcOpeningStandardCase );
+ DECL_CONV_STUB( IfcOrientedEdge );
+ DECL_CONV_STUB( IfcOuterBoundaryCurve );
+ DECL_CONV_STUB( IfcOutlet );
+ DECL_CONV_STUB( IfcOutletType );
+ DECL_CONV_STUB( IfcPath );
+ DECL_CONV_STUB( IfcPcurve );
+ DECL_CONV_STUB( IfcPerformanceHistory );
+ DECL_CONV_STUB( IfcPermit );
+ DECL_CONV_STUB( IfcPile );
+ DECL_CONV_STUB( IfcPileType );
+ DECL_CONV_STUB( IfcPipeFitting );
+ DECL_CONV_STUB( IfcPipeFittingType );
+ DECL_CONV_STUB( IfcPipeSegment );
+ DECL_CONV_STUB( IfcPipeSegmentType );
+ DECL_CONV_STUB( IfcPlanarExtent );
+ DECL_CONV_STUB( IfcPlanarBox );
+ DECL_CONV_STUB( IfcPlane );
+ DECL_CONV_STUB( IfcPlate );
+ DECL_CONV_STUB( IfcPlateStandardCase );
+ DECL_CONV_STUB( IfcPlateType );
+ DECL_CONV_STUB( IfcPointOnCurve );
+ DECL_CONV_STUB( IfcPointOnSurface );
+ DECL_CONV_STUB( IfcPolyLoop );
+ DECL_CONV_STUB( IfcPolygonalBoundedHalfSpace );
+ DECL_CONV_STUB( IfcTessellatedFaceSet );
+ DECL_CONV_STUB( IfcPolygonalFaceSet );
+ DECL_CONV_STUB( IfcPolyline );
+ DECL_CONV_STUB( IfcPresentationStyleAssignment );
+ DECL_CONV_STUB( IfcProcedure );
+ DECL_CONV_STUB( IfcProcedureType );
+ DECL_CONV_STUB( IfcProductDefinitionShape );
+ DECL_CONV_STUB( IfcProject );
+ DECL_CONV_STUB( IfcProjectLibrary );
+ DECL_CONV_STUB( IfcProjectOrder );
+ DECL_CONV_STUB( IfcProjectionElement );
+ DECL_CONV_STUB( IfcSimpleProperty );
+ DECL_CONV_STUB( IfcPropertyBoundedValue );
+ DECL_CONV_STUB( IfcPropertyEnumeratedValue );
+ DECL_CONV_STUB( IfcPropertyListValue );
+ DECL_CONV_STUB( IfcPropertyReferenceValue );
+ DECL_CONV_STUB( IfcPropertySet );
+ DECL_CONV_STUB( IfcPropertySingleValue );
+ DECL_CONV_STUB( IfcPropertyTableValue );
+ DECL_CONV_STUB( IfcProtectiveDevice );
+ DECL_CONV_STUB( IfcProtectiveDeviceTrippingUnit );
+ DECL_CONV_STUB( IfcProtectiveDeviceTrippingUnitType );
+ DECL_CONV_STUB( IfcProtectiveDeviceType );
+ DECL_CONV_STUB( IfcProxy );
+ DECL_CONV_STUB( IfcPump );
+ DECL_CONV_STUB( IfcPumpType );
+ DECL_CONV_STUB( IfcRailing );
+ DECL_CONV_STUB( IfcRailingType );
+ DECL_CONV_STUB( IfcRamp );
+ DECL_CONV_STUB( IfcRampFlight );
+ DECL_CONV_STUB( IfcRampFlightType );
+ DECL_CONV_STUB( IfcRampType );
+ DECL_CONV_STUB( IfcRationalBSplineCurveWithKnots );
+ DECL_CONV_STUB( IfcRationalBSplineSurfaceWithKnots );
+ DECL_CONV_STUB( IfcRectangleProfileDef );
+ DECL_CONV_STUB( IfcRectangleHollowProfileDef );
+ DECL_CONV_STUB( IfcRectangularPyramid );
+ DECL_CONV_STUB( IfcRectangularTrimmedSurface );
+ DECL_CONV_STUB( IfcReinforcingElement );
+ DECL_CONV_STUB( IfcReinforcingBar );
+ DECL_CONV_STUB( IfcReinforcingElementType );
+ DECL_CONV_STUB( IfcReinforcingBarType );
+ DECL_CONV_STUB( IfcReinforcingMesh );
+ DECL_CONV_STUB( IfcReinforcingMeshType );
+ DECL_CONV_STUB( IfcRelationship );
+ DECL_CONV_STUB( IfcRelDecomposes );
+ DECL_CONV_STUB( IfcRelAggregates );
+ DECL_CONV_STUB( IfcRelConnects );
+ DECL_CONV_STUB( IfcRelContainedInSpatialStructure );
+ DECL_CONV_STUB( IfcRelDefines );
+ DECL_CONV_STUB( IfcRelDefinesByProperties );
+ DECL_CONV_STUB( IfcRelFillsElement );
+ DECL_CONV_STUB( IfcRelVoidsElement );
+ DECL_CONV_STUB( IfcReparametrisedCompositeCurveSegment );
+ DECL_CONV_STUB( IfcRepresentation );
+ DECL_CONV_STUB( IfcRepresentationMap );
+ DECL_CONV_STUB( IfcRevolvedAreaSolid );
+ DECL_CONV_STUB( IfcRevolvedAreaSolidTapered );
+ DECL_CONV_STUB( IfcRightCircularCone );
+ DECL_CONV_STUB( IfcRightCircularCylinder );
+ DECL_CONV_STUB( IfcRoof );
+ DECL_CONV_STUB( IfcRoofType );
+ DECL_CONV_STUB( IfcRoundedRectangleProfileDef );
+ DECL_CONV_STUB( IfcSIUnit );
+ DECL_CONV_STUB( IfcSanitaryTerminal );
+ DECL_CONV_STUB( IfcSanitaryTerminalType );
+ DECL_CONV_STUB( IfcSeamCurve );
+ DECL_CONV_STUB( IfcSectionedSpine );
+ DECL_CONV_STUB( IfcSensor );
+ DECL_CONV_STUB( IfcSensorType );
+ DECL_CONV_STUB( IfcShadingDevice );
+ DECL_CONV_STUB( IfcShadingDeviceType );
+ DECL_CONV_STUB( IfcShapeModel );
+ DECL_CONV_STUB( IfcShapeRepresentation );
+ DECL_CONV_STUB( IfcShellBasedSurfaceModel );
+ DECL_CONV_STUB( IfcSite );
+ DECL_CONV_STUB( IfcSlab );
+ DECL_CONV_STUB( IfcSlabElementedCase );
+ DECL_CONV_STUB( IfcSlabStandardCase );
+ DECL_CONV_STUB( IfcSlabType );
+ DECL_CONV_STUB( IfcSolarDevice );
+ DECL_CONV_STUB( IfcSolarDeviceType );
+ DECL_CONV_STUB( IfcSpace );
+ DECL_CONV_STUB( IfcSpaceHeater );
+ DECL_CONV_STUB( IfcSpaceHeaterType );
+ DECL_CONV_STUB( IfcSpatialElementType );
+ DECL_CONV_STUB( IfcSpatialStructureElementType );
+ DECL_CONV_STUB( IfcSpaceType );
+ DECL_CONV_STUB( IfcSpatialZone );
+ DECL_CONV_STUB( IfcSpatialZoneType );
+ DECL_CONV_STUB( IfcSphere );
+ DECL_CONV_STUB( IfcSphericalSurface );
+ DECL_CONV_STUB( IfcStackTerminal );
+ DECL_CONV_STUB( IfcStackTerminalType );
+ DECL_CONV_STUB( IfcStair );
+ DECL_CONV_STUB( IfcStairFlight );
+ DECL_CONV_STUB( IfcStairFlightType );
+ DECL_CONV_STUB( IfcStairType );
+ DECL_CONV_STUB( IfcStructuralActivity );
+ DECL_CONV_STUB( IfcStructuralAction );
+ DECL_CONV_STUB( IfcStructuralAnalysisModel );
+ DECL_CONV_STUB( IfcStructuralItem );
+ DECL_CONV_STUB( IfcStructuralConnection );
+ DECL_CONV_STUB( IfcStructuralCurveAction );
+ DECL_CONV_STUB( IfcStructuralCurveConnection );
+ DECL_CONV_STUB( IfcStructuralMember );
+ DECL_CONV_STUB( IfcStructuralCurveMember );
+ DECL_CONV_STUB( IfcStructuralCurveMemberVarying );
+ DECL_CONV_STUB( IfcStructuralReaction );
+ DECL_CONV_STUB( IfcStructuralCurveReaction );
+ DECL_CONV_STUB( IfcStructuralLinearAction );
+ DECL_CONV_STUB( IfcStructuralLoadGroup );
+ DECL_CONV_STUB( IfcStructuralLoadCase );
+ DECL_CONV_STUB( IfcStructuralSurfaceAction );
+ DECL_CONV_STUB( IfcStructuralPlanarAction );
+ DECL_CONV_STUB( IfcStructuralPointAction );
+ DECL_CONV_STUB( IfcStructuralPointConnection );
+ DECL_CONV_STUB( IfcStructuralPointReaction );
+ DECL_CONV_STUB( IfcStructuralResultGroup );
+ DECL_CONV_STUB( IfcStructuralSurfaceConnection );
+ DECL_CONV_STUB( IfcStructuralSurfaceMember );
+ DECL_CONV_STUB( IfcStructuralSurfaceMemberVarying );
+ DECL_CONV_STUB( IfcStructuralSurfaceReaction );
+ DECL_CONV_STUB( IfcStyleModel );
+ DECL_CONV_STUB( IfcStyledItem );
+ DECL_CONV_STUB( IfcStyledRepresentation );
+ DECL_CONV_STUB( IfcSubContractResource );
+ DECL_CONV_STUB( IfcSubContractResourceType );
+ DECL_CONV_STUB( IfcSubedge );
+ DECL_CONV_STUB( IfcSurfaceCurveSweptAreaSolid );
+ DECL_CONV_STUB( IfcSurfaceFeature );
+ DECL_CONV_STUB( IfcSweptSurface );
+ DECL_CONV_STUB( IfcSurfaceOfLinearExtrusion );
+ DECL_CONV_STUB( IfcSurfaceOfRevolution );
+ DECL_CONV_STUB( IfcSurfaceStyle );
+ DECL_CONV_STUB( IfcSurfaceStyleShading );
+ DECL_CONV_STUB( IfcSurfaceStyleRendering );
+ DECL_CONV_STUB( IfcSurfaceStyleWithTextures );
+ DECL_CONV_STUB( IfcSweptDiskSolid );
+ DECL_CONV_STUB( IfcSweptDiskSolidPolygonal );
+ DECL_CONV_STUB( IfcSwitchingDevice );
+ DECL_CONV_STUB( IfcSwitchingDeviceType );
+ DECL_CONV_STUB( IfcSystemFurnitureElement );
+ DECL_CONV_STUB( IfcSystemFurnitureElementType );
+ DECL_CONV_STUB( IfcTShapeProfileDef );
+ DECL_CONV_STUB( IfcTank );
+ DECL_CONV_STUB( IfcTankType );
+ DECL_CONV_STUB( IfcTask );
+ DECL_CONV_STUB( IfcTaskType );
+ DECL_CONV_STUB( IfcTendon );
+ DECL_CONV_STUB( IfcTendonAnchor );
+ DECL_CONV_STUB( IfcTendonAnchorType );
+ DECL_CONV_STUB( IfcTendonType );
+ DECL_CONV_STUB( IfcTextLiteral );
+ DECL_CONV_STUB( IfcTextLiteralWithExtent );
+ DECL_CONV_STUB( IfcTopologyRepresentation );
+ DECL_CONV_STUB( IfcToroidalSurface );
+ DECL_CONV_STUB( IfcTransformer );
+ DECL_CONV_STUB( IfcTransformerType );
+ DECL_CONV_STUB( IfcTransportElement );
+ DECL_CONV_STUB( IfcTransportElementType );
+ DECL_CONV_STUB( IfcTrapeziumProfileDef );
+ DECL_CONV_STUB( IfcTriangulatedFaceSet );
+ DECL_CONV_STUB( IfcTrimmedCurve );
+ DECL_CONV_STUB( IfcTubeBundle );
+ DECL_CONV_STUB( IfcTubeBundleType );
+ DECL_CONV_STUB( IfcUShapeProfileDef );
+ DECL_CONV_STUB( IfcUnitAssignment );
+ DECL_CONV_STUB( IfcUnitaryControlElement );
+ DECL_CONV_STUB( IfcUnitaryControlElementType );
+ DECL_CONV_STUB( IfcUnitaryEquipment );
+ DECL_CONV_STUB( IfcUnitaryEquipmentType );
+ DECL_CONV_STUB( IfcValve );
+ DECL_CONV_STUB( IfcValveType );
+ DECL_CONV_STUB( IfcVector );
+ DECL_CONV_STUB( IfcVertex );
+ DECL_CONV_STUB( IfcVertexLoop );
+ DECL_CONV_STUB( IfcVertexPoint );
+ DECL_CONV_STUB( IfcVibrationIsolator );
+ DECL_CONV_STUB( IfcVibrationIsolatorType );
+ DECL_CONV_STUB( IfcVirtualElement );
+ DECL_CONV_STUB( IfcVoidingFeature );
+ DECL_CONV_STUB( IfcWall );
+ DECL_CONV_STUB( IfcWallElementedCase );
+ DECL_CONV_STUB( IfcWallStandardCase );
+ DECL_CONV_STUB( IfcWallType );
+ DECL_CONV_STUB( IfcWasteTerminal );
+ DECL_CONV_STUB( IfcWasteTerminalType );
+ DECL_CONV_STUB( IfcWindow );
+ DECL_CONV_STUB( IfcWindowStandardCase );
+ DECL_CONV_STUB( IfcWindowStyle );
+ DECL_CONV_STUB( IfcWindowType );
+ DECL_CONV_STUB( IfcWorkCalendar );
+ DECL_CONV_STUB( IfcWorkControl );
+ DECL_CONV_STUB( IfcWorkPlan );
+ DECL_CONV_STUB( IfcWorkSchedule );
+ DECL_CONV_STUB( IfcZShapeProfileDef );
+ DECL_CONV_STUB( IfcZone );
+
+
+#undef DECL_CONV_STUB
+
+} //! Schema_4
+} //! STEP
+} //! Assimp
+
+#endif // INCLUDED_IFC_READER_GEN_H
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCUtil.cpp b/src/mesh/assimp-master/code/AssetLib/IFC/IFCUtil.cpp
new file mode 100644
index 0000000..6b378c1
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCUtil.cpp
@@ -0,0 +1,701 @@
+/*
+Open Asset Import Library (assimp)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2022, assimp 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 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.
+
+----------------------------------------------------------------------
+*/
+
+/** @file IFCUtil.cpp
+ * @brief Implementation of conversion routines for some common Ifc helper entities.
+ */
+
+#ifndef ASSIMP_BUILD_NO_IFC_IMPORTER
+
+#include "AssetLib/IFC/IFCUtil.h"
+#include "Common/PolyTools.h"
+#include "PostProcessing/ProcessHelper.h"
+
+namespace Assimp {
+namespace IFC {
+
+// ------------------------------------------------------------------------------------------------
+void TempOpening::Transform(const IfcMatrix4& mat) {
+ if(profileMesh) {
+ profileMesh->Transform(mat);
+ }
+ if(profileMesh2D) {
+ profileMesh2D->Transform(mat);
+ }
+ extrusionDir *= IfcMatrix3(mat);
+}
+
+// ------------------------------------------------------------------------------------------------
+aiMesh* TempMesh::ToMesh()
+{
+ ai_assert(mVerts.size() == std::accumulate(mVertcnt.begin(),mVertcnt.end(),size_t(0)));
+
+ if (mVerts.empty()) {
+ return nullptr;
+ }
+
+ std::unique_ptr<aiMesh> mesh(new aiMesh());
+
+ // copy vertices
+ mesh->mNumVertices = static_cast<unsigned int>(mVerts.size());
+ mesh->mVertices = new aiVector3D[mesh->mNumVertices];
+ std::copy(mVerts.begin(),mVerts.end(),mesh->mVertices);
+
+ // and build up faces
+ mesh->mNumFaces = static_cast<unsigned int>(mVertcnt.size());
+ mesh->mFaces = new aiFace[mesh->mNumFaces];
+
+ for(unsigned int i = 0,n=0, acc = 0; i < mesh->mNumFaces; ++n) {
+ aiFace& f = mesh->mFaces[i];
+ if (!mVertcnt[n]) {
+ --mesh->mNumFaces;
+ continue;
+ }
+
+ f.mNumIndices = mVertcnt[n];
+ f.mIndices = new unsigned int[f.mNumIndices];
+ for(unsigned int a = 0; a < f.mNumIndices; ++a) {
+ f.mIndices[a] = acc++;
+ }
+
+ ++i;
+ }
+
+ return mesh.release();
+}
+
+// ------------------------------------------------------------------------------------------------
+void TempMesh::Clear()
+{
+ mVerts.clear();
+ mVertcnt.clear();
+}
+
+// ------------------------------------------------------------------------------------------------
+void TempMesh::Transform(const IfcMatrix4& mat)
+{
+ for(IfcVector3& v : mVerts) {
+ v *= mat;
+ }
+}
+
+// ------------------------------------------------------------------------------
+IfcVector3 TempMesh::Center() const
+{
+ return (mVerts.size() == 0) ? IfcVector3(0.0f, 0.0f, 0.0f) : (std::accumulate(mVerts.begin(),mVerts.end(),IfcVector3()) / static_cast<IfcFloat>(mVerts.size()));
+}
+
+// ------------------------------------------------------------------------------------------------
+void TempMesh::Append(const TempMesh& other)
+{
+ mVerts.insert(mVerts.end(),other.mVerts.begin(),other.mVerts.end());
+ mVertcnt.insert(mVertcnt.end(),other.mVertcnt.begin(),other.mVertcnt.end());
+}
+
+// ------------------------------------------------------------------------------------------------
+void TempMesh::RemoveDegenerates()
+{
+ // The strategy is simple: walk the mesh and compute normals using
+ // Newell's algorithm. The length of the normals gives the area
+ // of the polygons, which is close to zero for lines.
+
+ std::vector<IfcVector3> normals;
+ ComputePolygonNormals(normals, false);
+
+ bool drop = false;
+ size_t inor = 0;
+
+ std::vector<IfcVector3>::iterator vit = mVerts.begin();
+ for (std::vector<unsigned int>::iterator it = mVertcnt.begin(); it != mVertcnt.end(); ++inor) {
+ const unsigned int pcount = *it;
+
+ if (normals[inor].SquareLength() < 1e-10f) {
+ it = mVertcnt.erase(it);
+ vit = mVerts.erase(vit, vit + pcount);
+
+ drop = true;
+ continue;
+ }
+
+ vit += pcount;
+ ++it;
+ }
+
+ if(drop) {
+ IFCImporter::LogVerboseDebug("removing degenerate faces");
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+IfcVector3 TempMesh::ComputePolygonNormal(const IfcVector3* vtcs, size_t cnt, bool normalize)
+{
+ std::vector<IfcFloat> temp((cnt+2)*3);
+ for( size_t vofs = 0, i = 0; vofs < cnt; ++vofs )
+ {
+ const IfcVector3& v = vtcs[vofs];
+ temp[i++] = v.x;
+ temp[i++] = v.y;
+ temp[i++] = v.z;
+ }
+
+ IfcVector3 nor;
+ NewellNormal<3, 3, 3>(nor, static_cast<int>(cnt), &temp[0], &temp[1], &temp[2]);
+ return normalize ? nor.Normalize() : nor;
+}
+
+// ------------------------------------------------------------------------------------------------
+void TempMesh::ComputePolygonNormals(std::vector<IfcVector3>& normals,
+ bool normalize,
+ size_t ofs) const
+{
+ size_t max_vcount = 0;
+ std::vector<unsigned int>::const_iterator begin = mVertcnt.begin()+ofs, end = mVertcnt.end(), iit;
+ for(iit = begin; iit != end; ++iit) {
+ max_vcount = std::max(max_vcount,static_cast<size_t>(*iit));
+ }
+
+ std::vector<IfcFloat> temp((max_vcount+2)*4);
+ normals.reserve( normals.size() + mVertcnt.size()-ofs );
+
+ // `NewellNormal()` currently has a relatively strange interface and need to
+ // re-structure things a bit to meet them.
+ size_t vidx = std::accumulate(mVertcnt.begin(),begin,0);
+ for(iit = begin; iit != end; vidx += *iit++) {
+ if (!*iit) {
+ normals.push_back(IfcVector3());
+ continue;
+ }
+ for(size_t vofs = 0, cnt = 0; vofs < *iit; ++vofs) {
+ const IfcVector3& v = mVerts[vidx+vofs];
+ temp[cnt++] = v.x;
+ temp[cnt++] = v.y;
+ temp[cnt++] = v.z;
+#ifdef ASSIMP_BUILD_DEBUG
+ temp[cnt] = std::numeric_limits<IfcFloat>::quiet_NaN();
+#endif
+ ++cnt;
+ }
+
+ normals.push_back(IfcVector3());
+ NewellNormal<4,4,4>(normals.back(),*iit,&temp[0],&temp[1],&temp[2]);
+ }
+
+ if(normalize) {
+ for(IfcVector3& n : normals) {
+ n.Normalize();
+ }
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+// Compute the normal of the last polygon in the given mesh
+IfcVector3 TempMesh::ComputeLastPolygonNormal(bool normalize) const {
+ return ComputePolygonNormal(&mVerts[mVerts.size() - mVertcnt.back()], mVertcnt.back(), normalize);
+}
+
+struct CompareVector {
+ bool operator () (const IfcVector3& a, const IfcVector3& b) const {
+ IfcVector3 d = a - b;
+ IfcFloat eps = ai_epsilon;
+ return d.x < -eps || (std::abs(d.x) < eps && d.y < -eps) || (std::abs(d.x) < eps && std::abs(d.y) < eps && d.z < -eps);
+ }
+};
+
+struct FindVector {
+ IfcVector3 v;
+ FindVector(const IfcVector3& p) : v(p) { }
+ bool operator()(const IfcVector3 &p) {
+ return FuzzyVectorCompare(ai_epsilon)(p, v);
+ }
+};
+
+// ------------------------------------------------------------------------------------------------
+void TempMesh::FixupFaceOrientation()
+{
+ const IfcVector3 vavg = Center();
+
+ // create a list of start indices for all faces to allow random access to faces
+ std::vector<size_t> faceStartIndices(mVertcnt.size());
+ for( size_t i = 0, a = 0; a < mVertcnt.size(); i += mVertcnt[a], ++a )
+ faceStartIndices[a] = i;
+
+ // list all faces on a vertex
+ std::map<IfcVector3, std::vector<size_t>, CompareVector> facesByVertex;
+ for( size_t a = 0; a < mVertcnt.size(); ++a )
+ {
+ for( size_t b = 0; b < mVertcnt[a]; ++b )
+ facesByVertex[mVerts[faceStartIndices[a] + b]].push_back(a);
+ }
+ // determine neighbourhood for all polys
+ std::vector<size_t> neighbour(mVerts.size(), SIZE_MAX);
+ std::vector<size_t> tempIntersect(10);
+ for( size_t a = 0; a < mVertcnt.size(); ++a )
+ {
+ for( size_t b = 0; b < mVertcnt[a]; ++b )
+ {
+ size_t ib = faceStartIndices[a] + b, nib = faceStartIndices[a] + (b + 1) % mVertcnt[a];
+ const std::vector<size_t>& facesOnB = facesByVertex[mVerts[ib]];
+ const std::vector<size_t>& facesOnNB = facesByVertex[mVerts[nib]];
+ // there should be exactly one or two faces which appear in both lists. Our face and the other side
+ std::vector<size_t>::iterator sectstart = tempIntersect.begin();
+ std::vector<size_t>::iterator sectend = std::set_intersection(
+ facesOnB.begin(), facesOnB.end(), facesOnNB.begin(), facesOnNB.end(), sectstart);
+
+ if( std::distance(sectstart, sectend) != 2 )
+ continue;
+ if( *sectstart == a )
+ ++sectstart;
+ neighbour[ib] = *sectstart;
+ }
+ }
+
+ // now we're getting started. We take the face which is the farthest away from the center. This face is most probably
+ // facing outwards. So we reverse this face to point outwards in relation to the center. Then we adapt neighbouring
+ // faces to have the same winding until all faces have been tested.
+ std::vector<bool> faceDone(mVertcnt.size(), false);
+ while( std::count(faceDone.begin(), faceDone.end(), false) != 0 )
+ {
+ // find the farthest of the remaining faces
+ size_t farthestIndex = SIZE_MAX;
+ IfcFloat farthestDistance = -1.0;
+ for( size_t a = 0; a < mVertcnt.size(); ++a )
+ {
+ if( faceDone[a] )
+ continue;
+ IfcVector3 faceCenter = std::accumulate(mVerts.begin() + faceStartIndices[a],
+ mVerts.begin() + faceStartIndices[a] + mVertcnt[a], IfcVector3(0.0)) / IfcFloat(mVertcnt[a]);
+ IfcFloat dst = (faceCenter - vavg).SquareLength();
+ if( dst > farthestDistance ) { farthestDistance = dst; farthestIndex = a; }
+ }
+
+ // calculate its normal and reverse the poly if its facing towards the mesh center
+ IfcVector3 farthestNormal = ComputePolygonNormal(mVerts.data() + faceStartIndices[farthestIndex], mVertcnt[farthestIndex]);
+ IfcVector3 farthestCenter = std::accumulate(mVerts.begin() + faceStartIndices[farthestIndex],
+ mVerts.begin() + faceStartIndices[farthestIndex] + mVertcnt[farthestIndex], IfcVector3(0.0))
+ / IfcFloat(mVertcnt[farthestIndex]);
+ // We accept a bit of negative orientation without reversing. In case of doubt, prefer the orientation given in
+ // the file.
+ if( (farthestNormal * (farthestCenter - vavg).Normalize()) < -0.4 )
+ {
+ size_t fsi = faceStartIndices[farthestIndex], fvc = mVertcnt[farthestIndex];
+ std::reverse(mVerts.begin() + fsi, mVerts.begin() + fsi + fvc);
+ std::reverse(neighbour.begin() + fsi, neighbour.begin() + fsi + fvc);
+ // because of the neighbour index belonging to the edge starting with the point at the same index, we need to
+ // cycle the neighbours through to match the edges again.
+ // Before: points A - B - C - D with edge neighbour p - q - r - s
+ // After: points D - C - B - A, reversed neighbours are s - r - q - p, but the should be
+ // r q p s
+ for( size_t a = 0; a < fvc - 1; ++a )
+ std::swap(neighbour[fsi + a], neighbour[fsi + a + 1]);
+ }
+ faceDone[farthestIndex] = true;
+ std::vector<size_t> todo;
+ todo.push_back(farthestIndex);
+
+ // go over its neighbour faces recursively and adapt their winding order to match the farthest face
+ while( !todo.empty() )
+ {
+ size_t tdf = todo.back();
+ size_t vsi = faceStartIndices[tdf], vc = mVertcnt[tdf];
+ todo.pop_back();
+
+ // check its neighbours
+ for( size_t a = 0; a < vc; ++a )
+ {
+ // ignore neighbours if we already checked them
+ size_t nbi = neighbour[vsi + a];
+ if( nbi == SIZE_MAX || faceDone[nbi] )
+ continue;
+
+ const IfcVector3& vp = mVerts[vsi + a];
+ size_t nbvsi = faceStartIndices[nbi], nbvc = mVertcnt[nbi];
+ std::vector<IfcVector3>::iterator it = std::find_if(mVerts.begin() + nbvsi, mVerts.begin() + nbvsi + nbvc, FindVector(vp));
+ ai_assert(it != mVerts.begin() + nbvsi + nbvc);
+ size_t nb_vidx = std::distance(mVerts.begin() + nbvsi, it);
+ // two faces winded in the same direction should have a crossed edge, where one face has p0->p1 and the other
+ // has p1'->p0'. If the next point on the neighbouring face is also the next on the current face, we need
+ // to reverse the neighbour
+ nb_vidx = (nb_vidx + 1) % nbvc;
+ size_t oursideidx = (a + 1) % vc;
+ if (FuzzyVectorCompare(ai_epsilon)(mVerts[vsi + oursideidx], mVerts[nbvsi + nb_vidx])) {
+ std::reverse(mVerts.begin() + nbvsi, mVerts.begin() + nbvsi + nbvc);
+ std::reverse(neighbour.begin() + nbvsi, neighbour.begin() + nbvsi + nbvc);
+ for (size_t aa = 0; aa < nbvc - 1; ++aa) {
+ std::swap(neighbour[nbvsi + aa], neighbour[nbvsi + aa + 1]);
+ }
+ }
+
+ // either way we're done with the neighbour. Mark it as done and continue checking from there recursively
+ faceDone[nbi] = true;
+ todo.push_back(nbi);
+ }
+ }
+
+ // no more faces reachable from this part of the surface, start over with a disjunct part and its farthest face
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void TempMesh::RemoveAdjacentDuplicates() {
+ bool drop = false;
+ std::vector<IfcVector3>::iterator base = mVerts.begin();
+ for(unsigned int& cnt : mVertcnt) {
+ if (cnt < 2){
+ base += cnt;
+ continue;
+ }
+
+ IfcVector3 vmin,vmax;
+ ArrayBounds(&*base, cnt ,vmin,vmax);
+
+
+ const IfcFloat epsilon = (vmax-vmin).SquareLength() / static_cast<IfcFloat>(1e9);
+ //const IfcFloat dotepsilon = 1e-9;
+
+ //// look for vertices that lie directly on the line between their predecessor and their
+ //// successor and replace them with either of them.
+
+ //for(size_t i = 0; i < cnt; ++i) {
+ // IfcVector3& v1 = *(base+i), &v0 = *(base+(i?i-1:cnt-1)), &v2 = *(base+(i+1)%cnt);
+ // const IfcVector3& d0 = (v1-v0), &d1 = (v2-v1);
+ // const IfcFloat l0 = d0.SquareLength(), l1 = d1.SquareLength();
+ // if (!l0 || !l1) {
+ // continue;
+ // }
+
+ // const IfcFloat d = (d0/std::sqrt(l0))*(d1/std::sqrt(l1));
+
+ // if ( d >= 1.f-dotepsilon ) {
+ // v1 = v0;
+ // }
+ // else if ( d < -1.f+dotepsilon ) {
+ // v2 = v1;
+ // continue;
+ // }
+ //}
+
+ // drop any identical, adjacent vertices. this pass will collect the dropouts
+ // of the previous pass as a side-effect.
+ FuzzyVectorCompare fz(epsilon);
+ std::vector<IfcVector3>::iterator end = base+cnt, e = std::unique( base, end, fz );
+ if (e != end) {
+ cnt -= static_cast<unsigned int>(std::distance(e, end));
+ mVerts.erase(e,end);
+ drop = true;
+ }
+
+ // check front and back vertices for this polygon
+ if (cnt > 1 && fz(*base,*(base+cnt-1))) {
+ mVerts.erase(base+ --cnt);
+ drop = true;
+ }
+
+ // removing adjacent duplicates shouldn't erase everything :-)
+ ai_assert(cnt>0);
+ base += cnt;
+ }
+ if(drop) {
+ IFCImporter::LogVerboseDebug("removing duplicate vertices");
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void TempMesh::Swap(TempMesh& other)
+{
+ mVertcnt.swap(other.mVertcnt);
+ mVerts.swap(other.mVerts);
+}
+
+// ------------------------------------------------------------------------------------------------
+bool IsTrue(const ::Assimp::STEP::EXPRESS::BOOLEAN& in)
+{
+ return (std::string)in == "TRUE" || (std::string)in == "T";
+}
+
+// ------------------------------------------------------------------------------------------------
+IfcFloat ConvertSIPrefix(const std::string& prefix)
+{
+ if (prefix == "EXA") {
+ return 1e18f;
+ }
+ else if (prefix == "PETA") {
+ return 1e15f;
+ }
+ else if (prefix == "TERA") {
+ return 1e12f;
+ }
+ else if (prefix == "GIGA") {
+ return 1e9f;
+ }
+ else if (prefix == "MEGA") {
+ return 1e6f;
+ }
+ else if (prefix == "KILO") {
+ return 1e3f;
+ }
+ else if (prefix == "HECTO") {
+ return 1e2f;
+ }
+ else if (prefix == "DECA") {
+ return 1e-0f;
+ }
+ else if (prefix == "DECI") {
+ return 1e-1f;
+ }
+ else if (prefix == "CENTI") {
+ return 1e-2f;
+ }
+ else if (prefix == "MILLI") {
+ return 1e-3f;
+ }
+ else if (prefix == "MICRO") {
+ return 1e-6f;
+ }
+ else if (prefix == "NANO") {
+ return 1e-9f;
+ }
+ else if (prefix == "PICO") {
+ return 1e-12f;
+ }
+ else if (prefix == "FEMTO") {
+ return 1e-15f;
+ }
+ else if (prefix == "ATTO") {
+ return 1e-18f;
+ }
+ else {
+ IFCImporter::LogError("Unrecognized SI prefix: ", prefix);
+ return 1;
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertColor(aiColor4D& out, const Schema_2x3::IfcColourRgb& in)
+{
+ out.r = static_cast<float>( in.Red );
+ out.g = static_cast<float>( in.Green );
+ out.b = static_cast<float>( in.Blue );
+ out.a = static_cast<float>( 1.f );
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertColor(aiColor4D& out, const Schema_2x3::IfcColourOrFactor& in,ConversionData& conv,const aiColor4D* base)
+{
+ if (const ::Assimp::STEP::EXPRESS::REAL* const r = in.ToPtr<::Assimp::STEP::EXPRESS::REAL>()) {
+ out.r = out.g = out.b = static_cast<float>(*r);
+ if(base) {
+ out.r *= static_cast<float>( base->r );
+ out.g *= static_cast<float>( base->g );
+ out.b *= static_cast<float>( base->b );
+ out.a = static_cast<float>( base->a );
+ }
+ else out.a = 1.0;
+ }
+ else if (const Schema_2x3::IfcColourRgb* const rgb = in.ResolveSelectPtr<Schema_2x3::IfcColourRgb>(conv.db)) {
+ ConvertColor(out,*rgb);
+ }
+ else {
+ IFCImporter::LogWarn("skipping unknown IfcColourOrFactor entity");
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertCartesianPoint(IfcVector3& out, const Schema_2x3::IfcCartesianPoint& in)
+{
+ out = IfcVector3();
+ for(size_t i = 0; i < in.Coordinates.size(); ++i) {
+ out[static_cast<unsigned int>(i)] = in.Coordinates[i];
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertVector(IfcVector3& out, const Schema_2x3::IfcVector& in)
+{
+ ConvertDirection(out,in.Orientation);
+ out *= in.Magnitude;
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertDirection(IfcVector3& out, const Schema_2x3::IfcDirection& in)
+{
+ out = IfcVector3();
+ for(size_t i = 0; i < in.DirectionRatios.size(); ++i) {
+ out[static_cast<unsigned int>(i)] = in.DirectionRatios[i];
+ }
+ const IfcFloat len = out.Length();
+ if (len < ai_epsilon) {
+ IFCImporter::LogWarn("direction vector magnitude too small, normalization would result in a division by zero");
+ return;
+ }
+ out /= len;
+}
+
+// ------------------------------------------------------------------------------------------------
+void AssignMatrixAxes(IfcMatrix4& out, const IfcVector3& x, const IfcVector3& y, const IfcVector3& z)
+{
+ out.a1 = x.x;
+ out.b1 = x.y;
+ out.c1 = x.z;
+
+ out.a2 = y.x;
+ out.b2 = y.y;
+ out.c2 = y.z;
+
+ out.a3 = z.x;
+ out.b3 = z.y;
+ out.c3 = z.z;
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertAxisPlacement(IfcMatrix4& out, const Schema_2x3::IfcAxis2Placement3D& in)
+{
+ IfcVector3 loc;
+ ConvertCartesianPoint(loc,in.Location);
+
+ IfcVector3 z(0.f,0.f,1.f),r(1.f,0.f,0.f),x;
+
+ if (in.Axis) {
+ ConvertDirection(z,*in.Axis.Get());
+ }
+ if (in.RefDirection) {
+ ConvertDirection(r,*in.RefDirection.Get());
+ }
+
+ IfcVector3 v = r.Normalize();
+ IfcVector3 tmpx = z * (v*z);
+
+ x = (v-tmpx).Normalize();
+ IfcVector3 y = (z^x);
+
+ IfcMatrix4::Translation(loc,out);
+ AssignMatrixAxes(out,x,y,z);
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertAxisPlacement(IfcMatrix4& out, const Schema_2x3::IfcAxis2Placement2D& in)
+{
+ IfcVector3 loc;
+ ConvertCartesianPoint(loc,in.Location);
+
+ IfcVector3 x(1.f,0.f,0.f);
+ if (in.RefDirection) {
+ ConvertDirection(x,*in.RefDirection.Get());
+ }
+
+ const IfcVector3 y = IfcVector3(x.y,-x.x,0.f);
+
+ IfcMatrix4::Translation(loc,out);
+ AssignMatrixAxes(out,x,y,IfcVector3(0.f,0.f,1.f));
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertAxisPlacement(IfcVector3& axis, IfcVector3& pos, const Schema_2x3::IfcAxis1Placement& in)
+{
+ ConvertCartesianPoint(pos,in.Location);
+ if (in.Axis) {
+ ConvertDirection(axis,in.Axis.Get());
+ }
+ else {
+ axis = IfcVector3(0.f,0.f,1.f);
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertAxisPlacement(IfcMatrix4& out, const Schema_2x3::IfcAxis2Placement& in, ConversionData& conv)
+{
+ if(const Schema_2x3::IfcAxis2Placement3D* pl3 = in.ResolveSelectPtr<Schema_2x3::IfcAxis2Placement3D>(conv.db)) {
+ ConvertAxisPlacement(out,*pl3);
+ }
+ else if(const Schema_2x3::IfcAxis2Placement2D* pl2 = in.ResolveSelectPtr<Schema_2x3::IfcAxis2Placement2D>(conv.db)) {
+ ConvertAxisPlacement(out,*pl2);
+ }
+ else {
+ IFCImporter::LogWarn("skipping unknown IfcAxis2Placement entity");
+ }
+}
+
+// ------------------------------------------------------------------------------------------------
+void ConvertTransformOperator(IfcMatrix4& out, const Schema_2x3::IfcCartesianTransformationOperator& op)
+{
+ IfcVector3 loc;
+ ConvertCartesianPoint(loc,op.LocalOrigin);
+
+ IfcVector3 x(1.f,0.f,0.f),y(0.f,1.f,0.f),z(0.f,0.f,1.f);
+ if (op.Axis1) {
+ ConvertDirection(x,*op.Axis1.Get());
+ }
+ if (op.Axis2) {
+ ConvertDirection(y,*op.Axis2.Get());
+ }
+ if (const Schema_2x3::IfcCartesianTransformationOperator3D* op2 = op.ToPtr<Schema_2x3::IfcCartesianTransformationOperator3D>()) {
+ if(op2->Axis3) {
+ ConvertDirection(z,*op2->Axis3.Get());
+ }
+ }
+
+ IfcMatrix4 locm;
+ IfcMatrix4::Translation(loc,locm);
+ AssignMatrixAxes(out,x,y,z);
+
+
+ IfcVector3 vscale;
+ if (const Schema_2x3::IfcCartesianTransformationOperator3DnonUniform* nuni = op.ToPtr<Schema_2x3::IfcCartesianTransformationOperator3DnonUniform>()) {
+ vscale.x = nuni->Scale?op.Scale.Get():1.f;
+ vscale.y = nuni->Scale2?nuni->Scale2.Get():1.f;
+ vscale.z = nuni->Scale3?nuni->Scale3.Get():1.f;
+ }
+ else {
+ const IfcFloat sc = op.Scale?op.Scale.Get():1.f;
+ vscale = IfcVector3(sc,sc,sc);
+ }
+
+ IfcMatrix4 s;
+ IfcMatrix4::Scaling(vscale,s);
+
+ out = locm * out * s;
+}
+
+
+} // ! IFC
+} // ! Assimp
+
+#endif
diff --git a/src/mesh/assimp-master/code/AssetLib/IFC/IFCUtil.h b/src/mesh/assimp-master/code/AssetLib/IFC/IFCUtil.h
new file mode 100644
index 0000000..b5f72a5
--- /dev/null
+++ b/src/mesh/assimp-master/code/AssetLib/IFC/IFCUtil.h
@@ -0,0 +1,411 @@
+/*
+Open Asset Import Library (assimp)
+----------------------------------------------------------------------
+
+Copyright (c) 2006-2022, assimp 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 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.
+
+----------------------------------------------------------------------
+*/
+
+/** @file IFC.cpp
+ * @brief Implementation of the Industry Foundation Classes loader.
+ */
+
+#ifndef INCLUDED_IFCUTIL_H
+#define INCLUDED_IFCUTIL_H
+
+#include "AssetLib/IFC/IFCReaderGen_2x3.h"
+#include "AssetLib/IFC/IFCLoader.h"
+#include "AssetLib/Step/STEPFile.h"
+
+#include <assimp/mesh.h>
+#include <assimp/material.h>
+
+#include <utility>
+
+struct aiNode;
+
+namespace Assimp {
+namespace IFC {
+
+ typedef double IfcFloat;
+
+ // IfcFloat-precision math data types
+ typedef aiVector2t<IfcFloat> IfcVector2;
+ typedef aiVector3t<IfcFloat> IfcVector3;
+ typedef aiMatrix4x4t<IfcFloat> IfcMatrix4;
+ typedef aiMatrix3x3t<IfcFloat> IfcMatrix3;
+ typedef aiColor4t<IfcFloat> IfcColor4;
+
+
+// ------------------------------------------------------------------------------------------------
+// Helper for std::for_each to delete all heap-allocated items in a container
+// ------------------------------------------------------------------------------------------------
+template<typename T>
+struct delete_fun {
+ void operator()(T* del) {
+ delete del;
+ }
+};
+
+
+
+// ------------------------------------------------------------------------------------------------
+// Helper used during mesh construction. Aids at creating aiMesh'es out of relatively few polygons.
+// ------------------------------------------------------------------------------------------------
+struct TempMesh {
+ std::vector<IfcVector3> mVerts;
+ std::vector<unsigned int> mVertcnt;
+
+ // utilities
+ aiMesh* ToMesh();
+ void Clear();
+ void Transform(const IfcMatrix4& mat);
+ IfcVector3 Center() const;
+ void Append(const TempMesh& other);
+ bool IsEmpty() const;
+ void RemoveAdjacentDuplicates();
+ void RemoveDegenerates();
+ void FixupFaceOrientation();
+ static IfcVector3 ComputePolygonNormal(const IfcVector3* vtcs, size_t cnt, bool normalize = true);
+ IfcVector3 ComputeLastPolygonNormal(bool normalize = true) const;
+ void ComputePolygonNormals(std::vector<IfcVector3>& normals, bool normalize = true, size_t ofs = 0) const;
+ void Swap(TempMesh& other);
+};
+
+inline
+bool TempMesh::IsEmpty() const {
+ return mVerts.empty() && mVertcnt.empty();
+}
+
+
+// ------------------------------------------------------------------------------------------------
+// Temporary representation of an opening in a wall or a floor
+// ------------------------------------------------------------------------------------------------
+struct TempOpening
+{
+ const IFC::Schema_2x3::IfcSolidModel *solid;
+ IfcVector3 extrusionDir;
+
+ std::shared_ptr<TempMesh> profileMesh;
+ std::shared_ptr<TempMesh> profileMesh2D;
+
+ // list of points generated for this opening. This is used to
+ // create connections between two opposing holes created
+ // from a single opening instance (two because walls tend to
+ // have two sides). If !empty(), the other side of the wall
+ // has already been processed.
+ std::vector<IfcVector3> wallPoints;
+
+ // ------------------------------------------------------------------------------
+ TempOpening()
+ : solid()
+ , extrusionDir()
+ , profileMesh()
+ {
+ }
+
+ // ------------------------------------------------------------------------------
+ TempOpening(const IFC::Schema_2x3::IfcSolidModel *solid, IfcVector3 extrusionDir,
+ std::shared_ptr<TempMesh> profileMesh,
+ std::shared_ptr<TempMesh> profileMesh2D) :
+ solid(solid), extrusionDir(extrusionDir), profileMesh(std::move(profileMesh)), profileMesh2D(std::move(profileMesh2D)) {
+ }
+
+ // ------------------------------------------------------------------------------
+ void Transform(const IfcMatrix4& mat); // defined later since TempMesh is not complete yet
+
+
+
+ // ------------------------------------------------------------------------------
+ // Helper to sort openings by distance from a given base point
+ struct DistanceSorter {
+
+ DistanceSorter(const IfcVector3& base) : base(base) {}
+
+ bool operator () (const TempOpening& a, const TempOpening& b) const {
+ return (a.profileMesh->Center()-base).SquareLength() < (b.profileMesh->Center()-base).SquareLength();
+ }
+
+ IfcVector3 base;
+ };
+};
+
+
+// ------------------------------------------------------------------------------------------------
+// Intermediate data storage during conversion. Keeps everything and a bit more.
+// ------------------------------------------------------------------------------------------------
+struct ConversionData
+{
+ ConversionData(const STEP::DB& db, const IFC::Schema_2x3::IfcProject& proj, aiScene* out,const IFCImporter::Settings& settings)
+ : len_scale(1.0)
+ , angle_scale(-1.0)
+ , db(db)
+ , proj(proj)
+ , out(out)
+ , settings(settings)
+ , apply_openings()
+ , collect_openings()
+ {}
+
+ ~ConversionData() {
+ std::for_each(meshes.begin(),meshes.end(),delete_fun<aiMesh>());
+ std::for_each(materials.begin(),materials.end(),delete_fun<aiMaterial>());
+ }
+
+ IfcFloat len_scale, angle_scale;
+ bool plane_angle_in_radians;
+
+ const STEP::DB& db;
+ const IFC::Schema_2x3::IfcProject& proj;
+ aiScene* out;
+
+ IfcMatrix4 wcs;
+ std::vector<aiMesh*> meshes;
+ std::vector<aiMaterial*> materials;
+
+ struct MeshCacheIndex {
+ const IFC::Schema_2x3::IfcRepresentationItem* item; unsigned int matindex;
+ MeshCacheIndex() : item(nullptr), matindex(0) { }
+ MeshCacheIndex(const IFC::Schema_2x3::IfcRepresentationItem* i, unsigned int mi) : item(i), matindex(mi) { }
+ bool operator == (const MeshCacheIndex& o) const { return item == o.item && matindex == o.matindex; }
+ bool operator < (const MeshCacheIndex& o) const { return item < o.item || (item == o.item && matindex < o.matindex); }
+ };
+ typedef std::map<MeshCacheIndex, std::set<unsigned int> > MeshCache;
+ MeshCache cached_meshes;
+
+ typedef std::map<const IFC::Schema_2x3::IfcSurfaceStyle*, unsigned int> MaterialCache;
+ MaterialCache cached_materials;
+
+ const IFCImporter::Settings& settings;
+
+ // Intermediate arrays used to resolve openings in walls: only one of them
+ // can be given at a time. apply_openings if present if the current element
+ // is a wall and needs its openings to be poured into its geometry while
+ // collect_openings is present only if the current element is an
+ // IfcOpeningElement, for which all the geometry needs to be preserved
+ // for later processing by a parent, which is a wall.
+ std::vector<TempOpening>* apply_openings;
+ std::vector<TempOpening>* collect_openings;
+
+ std::set<uint64_t> already_processed;
+};
+
+
+// ------------------------------------------------------------------------------------------------
+// Binary predicate to compare vectors with a given, quadratic epsilon.
+// ------------------------------------------------------------------------------------------------
+struct FuzzyVectorCompare {
+
+ FuzzyVectorCompare(IfcFloat epsilon) : epsilon(epsilon) {}
+ bool operator()(const IfcVector3& a, const IfcVector3& b) {
+ return std::abs((a-b).SquareLength()) < epsilon;
+ }
+
+ const IfcFloat epsilon;
+};
+
+
+// ------------------------------------------------------------------------------------------------
+// Ordering predicate to totally order R^2 vectors first by x and then by y
+// ------------------------------------------------------------------------------------------------
+struct XYSorter {
+
+ // sort first by X coordinates, then by Y coordinates
+ bool operator () (const IfcVector2&a, const IfcVector2& b) const {
+ if (a.x == b.x) {
+ return a.y < b.y;
+ }
+ return a.x < b.x;
+ }
+};
+
+
+
+// conversion routines for common IFC entities, implemented in IFCUtil.cpp
+void ConvertColor(aiColor4D& out, const Schema_2x3::IfcColourRgb& in);
+void ConvertColor(aiColor4D& out, const Schema_2x3::IfcColourOrFactor& in,ConversionData& conv,const aiColor4D* base);
+void ConvertCartesianPoint(IfcVector3& out, const Schema_2x3::IfcCartesianPoint& in);
+void ConvertDirection(IfcVector3& out, const Schema_2x3::IfcDirection& in);
+void ConvertVector(IfcVector3& out, const Schema_2x3::IfcVector& in);
+void AssignMatrixAxes(IfcMatrix4& out, const IfcVector3& x, const IfcVector3& y, const IfcVector3& z);
+void ConvertAxisPlacement(IfcMatrix4& out, const Schema_2x3::IfcAxis2Placement3D& in);
+void ConvertAxisPlacement(IfcMatrix4& out, const Schema_2x3::IfcAxis2Placement2D& in);
+void ConvertAxisPlacement(IfcVector3& axis, IfcVector3& pos, const IFC::Schema_2x3::IfcAxis1Placement& in);
+void ConvertAxisPlacement(IfcMatrix4& out, const Schema_2x3::IfcAxis2Placement& in, ConversionData& conv);
+void ConvertTransformOperator(IfcMatrix4& out, const Schema_2x3::IfcCartesianTransformationOperator& op);
+bool IsTrue(const Assimp::STEP::EXPRESS::BOOLEAN& in);
+IfcFloat ConvertSIPrefix(const std::string& prefix);
+
+
+// IFCProfile.cpp
+bool ProcessProfile(const Schema_2x3::IfcProfileDef& prof, TempMesh& meshout, ConversionData& conv);
+bool ProcessCurve(const Schema_2x3::IfcCurve& curve, TempMesh& meshout, ConversionData& conv);
+
+// IFCMaterial.cpp
+unsigned int ProcessMaterials(uint64_t id, unsigned int prevMatId, ConversionData& conv, bool forceDefaultMat);
+
+// IFCGeometry.cpp
+IfcMatrix3 DerivePlaneCoordinateSpace(const TempMesh& curmesh, bool& ok, IfcVector3& norOut);
+bool ProcessRepresentationItem(const Schema_2x3::IfcRepresentationItem& item, unsigned int matid, std::set<unsigned int>& mesh_indices, ConversionData& conv);
+void AssignAddedMeshes(std::set<unsigned int>& mesh_indices,aiNode* nd,ConversionData& /*conv*/);
+
+void ProcessSweptAreaSolid(const Schema_2x3::IfcSweptAreaSolid& swept, TempMesh& meshout,
+ ConversionData& conv);
+
+void ProcessExtrudedAreaSolid(const Schema_2x3::IfcExtrudedAreaSolid& solid, TempMesh& result,
+ ConversionData& conv, bool collect_openings);
+
+// IFCBoolean.cpp
+
+void ProcessBoolean(const Schema_2x3::IfcBooleanResult& boolean, TempMesh& result, ConversionData& conv);
+void ProcessBooleanHalfSpaceDifference(const Schema_2x3::IfcHalfSpaceSolid* hs, TempMesh& result,
+ const TempMesh& first_operand,
+ ConversionData& conv);
+
+void ProcessPolygonalBoundedBooleanHalfSpaceDifference(const Schema_2x3::IfcPolygonalBoundedHalfSpace* hs, TempMesh& result,
+ const TempMesh& first_operand,
+ ConversionData& conv);
+void ProcessBooleanExtrudedAreaSolidDifference(const Schema_2x3::IfcExtrudedAreaSolid* as, TempMesh& result,
+ const TempMesh& first_operand,
+ ConversionData& conv);
+
+
+// IFCOpenings.cpp
+
+bool GenerateOpenings(std::vector<TempOpening>& openings,
+ TempMesh& curmesh,
+ bool check_intersection,
+ bool generate_connection_geometry,
+ const IfcVector3& wall_extrusion_axis = IfcVector3(0,1,0));
+
+
+
+// IFCCurve.cpp
+
+// ------------------------------------------------------------------------------------------------
+// Custom exception for use by members of the Curve class
+// ------------------------------------------------------------------------------------------------
+class CurveError {
+public:
+ CurveError(const std::string& s)
+ : mStr(s) {
+ // empty
+ }
+
+ std::string mStr;
+};
+
+// ------------------------------------------------------------------------------------------------
+// Temporary representation for an arbitrary sub-class of IfcCurve. Used to sample the curves
+// to obtain a list of line segments.
+// ------------------------------------------------------------------------------------------------
+class Curve {
+protected:
+ Curve(const Schema_2x3::IfcCurve& base_entity, ConversionData& conv)
+ : base_entity(base_entity)
+ , conv(conv) {
+ // empty
+ }
+
+public:
+ typedef std::pair<IfcFloat, IfcFloat> ParamRange;
+
+ virtual ~Curve() {}
+
+
+ // check if a curve is closed
+ virtual bool IsClosed() const = 0;
+
+ // evaluate the curve at the given parametric position
+ virtual IfcVector3 Eval(IfcFloat p) const = 0;
+
+ // try to match a point on the curve to a given parameter
+ // for self-intersecting curves, the result is not ambiguous and
+ // it is undefined which parameter is returned.
+ virtual bool ReverseEval(const IfcVector3& val, IfcFloat& paramOut) const;
+
+ // get the range of the curve (both inclusive).
+ // +inf and -inf are valid return values, the curve is not bounded in such a case.
+ virtual std::pair<IfcFloat,IfcFloat> GetParametricRange() const = 0;
+ IfcFloat GetParametricRangeDelta() const;
+
+ // estimate the number of sample points that this curve will require
+ virtual size_t EstimateSampleCount(IfcFloat start,IfcFloat end) const;
+
+ // intelligently sample the curve based on the current settings
+ // and append the result to the mesh
+ virtual void SampleDiscrete(TempMesh& out,IfcFloat start,IfcFloat end) const;
+
+#ifdef ASSIMP_BUILD_DEBUG
+ // check if a particular parameter value lies within the well-defined range
+ bool InRange(IfcFloat) const;
+#endif
+ static Curve* Convert(const IFC::Schema_2x3::IfcCurve&,ConversionData& conv);
+
+protected:
+ const Schema_2x3::IfcCurve& base_entity;
+ ConversionData& conv;
+};
+
+
+// --------------------------------------------------------------------------------
+// A BoundedCurve always holds the invariant that GetParametricRange()
+// never returns infinite values.
+// --------------------------------------------------------------------------------
+class BoundedCurve : public Curve {
+public:
+ BoundedCurve(const Schema_2x3::IfcBoundedCurve& entity, ConversionData& conv)
+ : Curve(entity,conv)
+ {}
+
+public:
+
+ bool IsClosed() const;
+
+public:
+
+ // sample the entire curve
+ void SampleDiscrete(TempMesh& out) const;
+ using Curve::SampleDiscrete;
+};
+
+// IfcProfile.cpp
+bool ProcessCurve(const Schema_2x3::IfcCurve& curve, TempMesh& meshout, ConversionData& conv);
+}
+}
+
+#endif