- IFC reader regenerated from schema to include IfcArbitraryProfileDefWithVoids
- implemented IfcArbitraryProfileDefWithVoids to fix solar panel covers in test\models-nonbsd\IFC\rac_basic_sample_project.ifc - warning: another dirty hack on top of dirty hacks - one day all these CSG implementations will blow up in our faces. Mark my words.pull/533/head
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b5e3e18bf0
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806d3ac8e1
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@ -522,43 +522,23 @@ IfcMatrix3 DerivePlaneCoordinateSpace(const TempMesh& curmesh, bool& ok, IfcVect
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return m;
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}
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// ------------------------------------------------------------------------------------------------
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void ProcessExtrudedAreaSolid(const IfcExtrudedAreaSolid& solid, TempMesh& result,
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ConversionData& conv, bool collect_openings)
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// Extrudes the given polygon along the direction, converts it into an opening or applies all openings as necessary.
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void ProcessExtrudedArea(const IfcExtrudedAreaSolid& solid, const TempMesh& curve,
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const IfcVector3& extrusionDir, TempMesh& result, ConversionData &conv, bool collect_openings)
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{
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TempMesh meshout;
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// First read the profile description
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if(!ProcessProfile(*solid.SweptArea,meshout,conv) || meshout.verts.size()<=1) {
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return;
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}
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IfcVector3 dir;
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ConvertDirection(dir,solid.ExtrudedDirection);
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dir *= solid.Depth; /*
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if(conv.collect_openings && !conv.apply_openings) {
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dir *= 1000.0;
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} */
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// Outline: assuming that `meshout.verts` is now a list of vertex points forming
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// the underlying profile, extrude along the given axis, forming new
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// triangles.
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std::vector<IfcVector3>& in = meshout.verts;
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const size_t size=in.size();
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const bool has_area = solid.SweptArea->ProfileType == "AREA" && size>2;
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// Outline: 'curve' is now a list of vertex points forming the underlying profile, extrude along the given axis,
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// forming new triangles.
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const bool has_area = solid.SweptArea->ProfileType == "AREA" && curve.verts.size() > 2;
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if( solid.Depth < 1e-6 ) {
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if( has_area ) {
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result = meshout;
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result.Append(curve);
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}
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return;
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}
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result.verts.reserve(size*(has_area?4:2));
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result.vertcnt.reserve(meshout.vertcnt.size()+2);
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result.verts.reserve(curve.verts.size()*(has_area ? 4 : 2));
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result.vertcnt.reserve(curve.verts.size() + 2);
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std::vector<IfcVector3> in = curve.verts;
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// First step: transform all vertices into the target coordinate space
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IfcMatrix4 trafo;
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@ -575,9 +555,7 @@ void ProcessExtrudedAreaSolid(const IfcExtrudedAreaSolid& solid, TempMesh& resul
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vmax -= vmin;
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const IfcFloat diag = vmax.Length();
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IfcVector3 min = in[0];
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dir *= IfcMatrix3(trafo);
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IfcVector3 dir = IfcMatrix3(trafo) * extrusionDir;
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// reverse profile polygon if it's winded in the wrong direction in relation to the extrusion direction
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IfcVector3 profileNormal = TempMesh::ComputePolygonNormal(in.data(), in.size());
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@ -596,8 +574,7 @@ void ProcessExtrudedAreaSolid(const IfcExtrudedAreaSolid& solid, TempMesh& resul
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// it is essential to apply the openings in the correct spatial order. The direction
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// doesn't matter, but we would screw up if we started with e.g. a door in between
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// two windows.
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std::sort(conv.apply_openings->begin(),conv.apply_openings->end(),
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TempOpening::DistanceSorter(min));
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std::sort(conv.apply_openings->begin(), conv.apply_openings->end(), TempOpening::DistanceSorter(in[0]));
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}
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nors.reserve(conv.apply_openings->size());
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@ -618,8 +595,8 @@ void ProcessExtrudedAreaSolid(const IfcExtrudedAreaSolid& solid, TempMesh& resul
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std::vector<IfcVector3>& out = curmesh.verts;
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size_t sides_with_openings = 0;
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for(size_t i = 0; i < size; ++i) {
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const size_t next = (i+1)%size;
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for( size_t i = 0; i < in.size(); ++i ) {
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const size_t next = (i + 1) % in.size();
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curmesh.vertcnt.push_back(4);
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@ -652,15 +629,16 @@ void ProcessExtrudedAreaSolid(const IfcExtrudedAreaSolid& solid, TempMesh& resul
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for( size_t n = 0; n < 2; ++n ) {
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if( n > 0 ) {
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for(size_t i = 0; i < size; ++i )
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for( size_t i = 0; i < in.size(); ++i )
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out.push_back(in[i] + dir);
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} else {
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for(size_t i = size; i--; )
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}
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else {
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for( size_t i = in.size(); i--; )
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out.push_back(in[i]);
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}
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curmesh.vertcnt.push_back(size);
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if(openings && size > 2) {
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curmesh.vertcnt.push_back(in.size());
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if( openings && in.size() > 2 ) {
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if( GenerateOpenings(*conv.apply_openings, nors, temp, true, true, dir) ) {
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++sides_with_v_openings;
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}
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@ -685,13 +663,54 @@ void ProcessExtrudedAreaSolid(const IfcExtrudedAreaSolid& solid, TempMesh& resul
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profile->Swap(result);
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boost::shared_ptr<TempMesh> profile2D = boost::shared_ptr<TempMesh>(new TempMesh());
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profile2D->Swap(meshout);
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profile2D->verts.insert(profile2D->verts.end(), in.begin(), in.end());
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profile2D->vertcnt.push_back(in.size());
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conv.collect_openings->push_back(TempOpening(&solid, dir, profile, profile2D));
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ai_assert(result.IsEmpty());
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}
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}
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// ------------------------------------------------------------------------------------------------
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void ProcessExtrudedAreaSolid(const IfcExtrudedAreaSolid& solid, TempMesh& result,
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ConversionData& conv, bool collect_openings)
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{
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TempMesh meshout;
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// First read the profile description.
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if(!ProcessProfile(*solid.SweptArea,meshout,conv) || meshout.verts.size()<=1) {
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return;
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}
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IfcVector3 dir;
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ConvertDirection(dir,solid.ExtrudedDirection);
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dir *= solid.Depth;
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// Some profiles bring their own holes, for which we need to provide a container. This all is somewhat backwards,
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// and there's still so many corner cases uncovered - we really need a generic solution to all of this hole carving.
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std::vector<TempOpening> fisherPriceMyFirstOpenings;
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std::vector<TempOpening>* oldApplyOpenings = conv.apply_openings;
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if( const IfcArbitraryProfileDefWithVoids* const cprofile = solid.SweptArea->ToPtr<IfcArbitraryProfileDefWithVoids>() ) {
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if( !cprofile->InnerCurves.empty() ) {
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// read all inner curves and extrude them to form proper openings.
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std::vector<TempOpening>* oldCollectOpenings = conv.collect_openings;
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conv.collect_openings = &fisherPriceMyFirstOpenings;
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BOOST_FOREACH(const IfcCurve* curve, cprofile->InnerCurves) {
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TempMesh curveMesh, tempMesh;
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ProcessCurve(*curve, curveMesh, conv);
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ProcessExtrudedArea(solid, curveMesh, dir, tempMesh, conv, true);
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}
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// and then apply those to the geometry we're about to generate
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conv.apply_openings = conv.collect_openings;
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conv.collect_openings = oldCollectOpenings;
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}
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}
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ProcessExtrudedArea(solid, meshout, dir, result, conv, collect_openings);
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conv.apply_openings = oldApplyOpenings;
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}
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// ------------------------------------------------------------------------------------------------
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void ProcessSweptAreaSolid(const IfcSweptAreaSolid& swept, TempMesh& meshout,
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ConversionData& conv)
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@ -784,7 +803,7 @@ bool ProcessGeometricItem(const IfcRepresentationItem& geo, unsigned int matid,
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meshtmp->RemoveDegenerates();
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if(fix_orientation) {
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meshtmp->FixupFaceOrientation();
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// meshtmp->FixupFaceOrientation();
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}
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aiMesh* const mesh = meshtmp->ToMesh();
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File diff suppressed because it is too large
Load Diff
7292
code/IFCReaderGen.h
7292
code/IFCReaderGen.h
File diff suppressed because it is too large
Load Diff
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@ -271,6 +271,7 @@ IfcFloat ConvertSIPrefix(const std::string& prefix);
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// IFCProfile.cpp
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bool ProcessProfile(const IfcProfileDef& prof, TempMesh& meshout, ConversionData& conv);
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bool ProcessCurve(const IfcCurve& curve, TempMesh& meshout, ConversionData& conv);
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// IFCMaterial.cpp
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unsigned int ProcessMaterials(uint64_t id, unsigned int prevMatId, ConversionData& conv, bool forceDefaultMat);
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@ -11,6 +11,7 @@
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IfcAnnotation
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IfcArbitraryClosedProfileDef
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IfcArbitraryOpenProfileDef
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IfcArbitraryProfileDefWithVoids
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IfcAxis1Placement
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IfcAxis2Placement
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IfcAxis2Placement2D
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File diff suppressed because it is too large
Load Diff
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