// Copyright (C) 2005 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License. // // This library is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // // File: BlockFix_UnionFaces.cxx // Created: Tue Dec 7 17:15:42 2004 // Author: Pavel DURANDIN // Open CASCADE SA 2004 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include //======================================================================= //function : BlockFix_UnionFaces //purpose : //======================================================================= BlockFix_UnionFaces::BlockFix_UnionFaces() : myTolerance(Precision::Confusion()) { } //======================================================================= //function : GetTolearnce //purpose : //======================================================================= Standard_Real& BlockFix_UnionFaces::GetTolerance() { return myTolerance; } //======================================================================= //function : AddOrdinaryEdges //purpose : auxilary //======================================================================= // adds edges from the shape to the sequence // seams and equal edges are dropped // Returns true if one of original edges dropped static Standard_Boolean AddOrdinaryEdges(TopTools_SequenceOfShape& edges, const TopoDS_Shape aShape, Standard_Integer& anIndex) { //map of edges TopTools_MapOfShape aNewEdges; //add edges without seams for(TopExp_Explorer exp(aShape,TopAbs_EDGE); exp.More(); exp.Next()) { TopoDS_Shape edge = exp.Current(); if(aNewEdges.Contains(edge)) aNewEdges.Remove(edge); else aNewEdges.Add(edge); } Standard_Boolean isDropped = Standard_False; //merge edges and drop seams for(Standard_Integer i = 1; i <= edges.Length(); i++) { TopoDS_Shape current = edges(i); if(aNewEdges.Contains(current)) { aNewEdges.Remove(current); edges.Remove(i); i--; if(!isDropped) { isDropped = Standard_True; anIndex = i; } } } //add edges to the sequemce for(TopTools_MapIteratorOfMapOfShape anIter(aNewEdges); anIter.More(); anIter.Next()) edges.Append(anIter.Key()); return isDropped; } //======================================================================= //function : ClearRts //purpose : auxilary //======================================================================= static Handle(Geom_Surface) ClearRts(const Handle(Geom_Surface)& aSurface) { if(aSurface->IsKind(STANDARD_TYPE(Geom_RectangularTrimmedSurface))) { Handle(Geom_RectangularTrimmedSurface) rts = Handle(Geom_RectangularTrimmedSurface)::DownCast(aSurface); return rts->BasisSurface(); } return aSurface; } //======================================================================= //function : Perform //purpose : //======================================================================= TopoDS_Shape BlockFix_UnionFaces::Perform(const TopoDS_Shape& Shape) { Handle(ShapeBuild_ReShape) myContext = new ShapeBuild_ReShape; TopoDS_Shape aResShape = myContext->Apply(Shape); // processing each solid TopExp_Explorer exps; for(exps.Init(Shape, TopAbs_SOLID); exps.More(); exps.Next()) { TopoDS_Solid aSolid = TopoDS::Solid(exps.Current()); // creating map of edge faces TopTools_IndexedDataMapOfShapeListOfShape aMapEdgeFaces; TopExp::MapShapesAndAncestors(aSolid, TopAbs_EDGE, TopAbs_FACE, aMapEdgeFaces); // map of processed shapes TopTools_MapOfShape aProcessed; Handle(ShapeBuild_ReShape) aContext = new ShapeBuild_ReShape; Standard_Integer NbModif=0; Standard_Boolean hasFailed = Standard_False; Standard_Real tol = Min(Max(Precision::Confusion(), myTolerance/10.),0.1); // processing each face TopExp_Explorer exp; //for( exp.Init(Shape, TopAbs_FACE); exp.More(); exp.Next()) { for( exp.Init(aSolid, TopAbs_FACE); exp.More(); exp.Next()) { TopoDS_Face aFace = TopoDS::Face(exp.Current().Oriented(TopAbs_FORWARD)); if(aProcessed.Contains(aFace)) continue; Standard_Integer dummy; TopTools_SequenceOfShape edges; AddOrdinaryEdges(edges,aFace,dummy); TopTools_SequenceOfShape faces; faces.Append(aFace); //surface and location to construct result TopLoc_Location aBaseLocation; Handle(Geom_Surface) aBaseSurface = BRep_Tool::Surface(aFace,aBaseLocation); aBaseSurface = ClearRts(aBaseSurface); // find adjacent faces to union Standard_Integer i; for( i = 1; i <= edges.Length(); i++) { TopoDS_Edge edge = TopoDS::Edge(edges(i)); if(BRep_Tool::Degenerated(edge)) continue; const TopTools_ListOfShape& aList = aMapEdgeFaces.FindFromKey(edge); TopTools_ListIteratorOfListOfShape anIter(aList); for( ; anIter.More(); anIter.Next()) { TopoDS_Face anCheckedFace = TopoDS::Face(anIter.Value().Oriented(TopAbs_FORWARD)); if(anCheckedFace.IsSame(aFace)) continue; if(aProcessed.Contains(anCheckedFace)) continue; if(IsSameDomain(aFace,anCheckedFace)) { if(aList.Extent() != 2) { // non mainfold case is not processed continue; } // replacing pcurves TopoDS_Face aMockUpFace; BRep_Builder B; B.MakeFace(aMockUpFace,aBaseSurface,aBaseLocation,0.); MovePCurves(aMockUpFace,anCheckedFace); if(AddOrdinaryEdges(edges,aMockUpFace,dummy)) { // sequence edges is modified i = dummy; } faces.Append(anCheckedFace); aProcessed.Add(anCheckedFace); break; } } } // all faces collected in the sequence. Perform union of faces if(faces.Length() > 1) { NbModif++; TopoDS_Face aResult; BRep_Builder B; B.MakeFace(aResult,aBaseSurface,aBaseLocation,0); Standard_Integer nbWires = 0; // connecting wires while(edges.Length()>0) { Standard_Boolean isEdge3d = Standard_False; nbWires++; TopTools_MapOfShape aVertices; TopoDS_Wire aWire; B.MakeWire(aWire); TopoDS_Edge anEdge = TopoDS::Edge(edges(1)); edges.Remove(1); isEdge3d |= !BRep_Tool::Degenerated(anEdge); B.Add(aWire,anEdge); TopoDS_Vertex V1,V2; TopExp::Vertices(anEdge,V1,V2); aVertices.Add(V1); aVertices.Add(V2); Standard_Boolean isNewFound = Standard_False; do { isNewFound = Standard_False; for(Standard_Integer j = 1; j <= edges.Length(); j++) { anEdge = TopoDS::Edge(edges(j)); TopExp::Vertices(anEdge,V1,V2); if(aVertices.Contains(V1) || aVertices.Contains(V2)) { isEdge3d |= !BRep_Tool::Degenerated(anEdge); aVertices.Add(V1); aVertices.Add(V2); B.Add(aWire,anEdge); edges.Remove(j); j--; isNewFound = Standard_True; } } } while (isNewFound); // sorting eny type of edges aWire = TopoDS::Wire(aContext->Apply(aWire)); TopoDS_Face tmpF = TopoDS::Face(aContext->Apply(faces(1).Oriented(TopAbs_FORWARD))); Handle(ShapeFix_Wire) sfw = new ShapeFix_Wire(aWire,tmpF,Precision::Confusion()); sfw->FixReorder(); Standard_Boolean isDegRemoved = Standard_False; if(!sfw->StatusReorder ( ShapeExtend_FAIL )) { // clear degenerated edges if at least one with 3d curve exist if(isEdge3d) { Handle(ShapeExtend_WireData) sewd = sfw->WireData(); for(Standard_Integer j = 1; j<=sewd->NbEdges();j++) { TopoDS_Edge E = sewd->Edge(j); if(BRep_Tool::Degenerated(E)) { sewd->Remove(j); isDegRemoved = Standard_True; j--; } } } sfw->FixShifted(); if(isDegRemoved) sfw->FixDegenerated(); } TopoDS_Wire aWireFixed = sfw->Wire(); aContext->Replace(aWire,aWireFixed); // add resulting wire if(isEdge3d) { B.Add(aResult,aWireFixed); } else { // sorting edges Handle(ShapeExtend_WireData) sbwd = sfw->WireData(); Standard_Integer nbEdges = sbwd->NbEdges(); // sort degenerated edges and create one edge instead of several ones ShapeAnalysis_WireOrder sawo(Standard_False, 0); ShapeAnalysis_Edge sae; Standard_Integer aLastEdge = nbEdges; for(Standard_Integer j = 1; j <= nbEdges; j++) { Standard_Real f,l; //smh protection on NULL pcurve Handle(Geom2d_Curve) c2d; if(!sae.PCurve(sbwd->Edge(j),tmpF,c2d,f,l)) { aLastEdge--; continue; } sawo.Add(c2d->Value(f).XY(),c2d->Value(l).XY()); } sawo.Perform(); // constructind one degenerative edge gp_XY aStart, anEnd, tmp; Standard_Integer nbFirst = sawo.Ordered(1); TopoDS_Edge anOrigE = TopoDS::Edge(sbwd->Edge(nbFirst).Oriented(TopAbs_FORWARD)); ShapeBuild_Edge sbe; TopoDS_Vertex aDummyV; TopoDS_Edge E = sbe.CopyReplaceVertices(anOrigE,aDummyV,aDummyV); sawo.XY(nbFirst,aStart,tmp); sawo.XY(sawo.Ordered(aLastEdge),tmp,anEnd); gp_XY aVec = anEnd-aStart; Handle(Geom2d_Line) aLine = new Geom2d_Line(aStart,gp_Dir2d(anEnd-aStart)); B.UpdateEdge(E,aLine,tmpF,0.); B.Range(E,tmpF,0.,aVec.Modulus()); Handle(Geom_Curve) C3d; B.UpdateEdge(E,C3d,0.); B.Degenerated(E,Standard_True); TopoDS_Wire aW; B.MakeWire(aW); B.Add(aW,E); B.Add(aResult,aW); } } // perform substitution of face aContext->Replace(aContext->Apply(aFace),aResult); ShapeFix_Face sff (aResult); //Intializing by tolerances sff.SetPrecision(myTolerance); sff.SetMinTolerance(tol); sff.SetMaxTolerance(Max(1.,myTolerance*1000.)); //Setting modes sff.FixOrientationMode() = 0; //sff.FixWireMode() = 0; sff.SetContext(aContext); // Applying the fixes sff.Perform(); if(sff.Status(ShapeExtend_FAIL)) hasFailed = Standard_True; // breaking down to several faces TopoDS_Shape theResult = aContext->Apply(aResult); for(TopExp_Explorer aFaceExp(theResult,TopAbs_FACE);aFaceExp.More();aFaceExp.Next()) { TopoDS_Face aCurrent = TopoDS::Face(aFaceExp.Current().Oriented(TopAbs_FORWARD)); Handle(TColGeom_HArray2OfSurface) grid = new TColGeom_HArray2OfSurface ( 1, 1, 1, 1 ); grid->SetValue ( 1, 1, aBaseSurface ); Handle(ShapeExtend_CompositeSurface) G = new ShapeExtend_CompositeSurface ( grid ); ShapeFix_ComposeShell CompShell; CompShell.Init ( G, aBaseLocation, aCurrent, ::Precision::Confusion() );//myPrecision CompShell.SetContext( aContext ); TopTools_SequenceOfShape parts; ShapeFix_SequenceOfWireSegment wires; for(TopExp_Explorer W_Exp(aCurrent,TopAbs_WIRE);W_Exp.More();W_Exp.Next()) { Handle(ShapeExtend_WireData) sbwd = new ShapeExtend_WireData ( TopoDS::Wire(W_Exp.Current() )); ShapeFix_WireSegment seg ( sbwd, TopAbs_REVERSED ); wires.Append(seg); } CompShell.DispatchWires ( parts,wires ); for (Standard_Integer j=1; j <= parts.Length(); j++ ) { ShapeFix_Face aFixOrient(TopoDS::Face(parts(j))); aFixOrient.SetContext(aContext); aFixOrient.FixOrientation(); } TopoDS_Shape CompRes; if ( faces.Length() !=1 ) { TopoDS_Shell S; B.MakeShell ( S ); for ( i=1; i <= parts.Length(); i++ ) B.Add ( S, parts(i) ); CompRes = S; } else CompRes = parts(1); aContext->Replace(aCurrent,CompRes); } // remove the remaining faces for(i = 2; i <= faces.Length(); i++) aContext->Remove(faces(i)); } } //TopoDS_Shape aResult = Shape; if(NbModif>0) { TopoDS_Shape aResult = aSolid; if(!hasFailed) { aResult = aContext->Apply(aSolid); ShapeFix_Edge sfe; for(exp.Init(aResult,TopAbs_EDGE); exp.More(); exp.Next()) { TopoDS_Edge E = TopoDS::Edge(exp.Current()); sfe.FixVertexTolerance (E); // ptv add fix same parameter sfe.FixSameParameter(E, myTolerance); } myContext->Replace(aSolid,aResult); } } // else { for( exp.Init(aSolid, TopAbs_FACE); exp.More(); exp.Next()) { TopoDS_Face aFace = TopoDS::Face(exp.Current().Oriented(TopAbs_FORWARD)); Handle(ShapeFix_Wire) sfw = new ShapeFix_Wire; sfw->SetContext(myContext); sfw->SetPrecision(myTolerance); sfw->SetMinTolerance(myTolerance); sfw->SetMaxTolerance(Max(1.,myTolerance*1000.)); sfw->SetFace(aFace); for ( TopoDS_Iterator iter(aFace,Standard_False); iter.More(); iter.Next()) { TopoDS_Wire wire = TopoDS::Wire ( iter.Value() ); sfw->Load(wire); sfw->FixReorder(); sfw->FixShifted(); } } // } } // end processing each solid aResShape = myContext->Apply(Shape); return aResShape; } //======================================================================= //function : IsSameDomain //purpose : //======================================================================= Standard_Boolean BlockFix_UnionFaces::IsSameDomain(const TopoDS_Face& aFace, const TopoDS_Face& aCheckedFace) const { //checking the same handless TopLoc_Location L1, L2; Handle(Geom_Surface) S1, S2; S1 = BRep_Tool::Surface(aFace,L1); S2 = BRep_Tool::Surface(aCheckedFace,L2); return (S1 == S2 && L1 == L2); } //======================================================================= //function : MovePCurves //purpose : //======================================================================= void BlockFix_UnionFaces::MovePCurves(TopoDS_Face& aTarget, const TopoDS_Face& aSource) const { BRep_Builder B; for(TopExp_Explorer wexp(aSource,TopAbs_WIRE);wexp.More();wexp.Next()) { Handle(ShapeFix_Wire) sfw = new ShapeFix_Wire(TopoDS::Wire(wexp.Current()), aTarget, Precision::Confusion()); sfw->FixReorder(); Standard_Boolean isReoredFailed = sfw->StatusReorder ( ShapeExtend_FAIL ); sfw->FixEdgeCurves(); if(isReoredFailed) continue; sfw->FixShifted(); sfw->FixDegenerated(); // remove degenerated edges from not degenerated points ShapeAnalysis_Edge sae; Handle(ShapeExtend_WireData) sewd = sfw->WireData(); for(Standard_Integer i = 1; i<=sewd->NbEdges();i++) { TopoDS_Edge E = sewd->Edge(i); if(BRep_Tool::Degenerated(E)&&!sae.HasPCurve(E,aTarget)) { sewd->Remove(i); i--; } } TopoDS_Wire ResWire = sfw->Wire(); B.Add(aTarget,ResWire); } }