// Copyright (C) 2007-2008 CEA/DEN, EDF R&D, OPEN CASCADE // // Copyright (C) 2003-2007 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 #include #include #include #include #include // OCCT Includes #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 : GetID //purpose : //======================================================================= const Standard_GUID& GEOMImpl_ShapeDriver::GetID() { static Standard_GUID aShapeDriver("FF1BBB54-5D14-4df2-980B-3A668264EA16"); return aShapeDriver; } //======================================================================= //function : GEOMImpl_ShapeDriver //purpose : //======================================================================= GEOMImpl_ShapeDriver::GEOMImpl_ShapeDriver() { } //======================================================================= //function : Execute //purpose : //======================================================================= Standard_Integer GEOMImpl_ShapeDriver::Execute(TFunction_Logbook& log) const { if (Label().IsNull()) return 0; Handle(GEOM_Function) aFunction = GEOM_Function::GetFunction(Label()); GEOMImpl_IShapes aCI (aFunction); Standard_Integer aType = aFunction->GetType(); TopoDS_Shape aShape; BRep_Builder B; if (aType == WIRE_EDGES) { Handle(TColStd_HSequenceOfTransient) aShapes = aCI.GetShapes(); unsigned int ind, nbshapes = aShapes->Length(); TopoDS_Wire aWire; B.MakeWire(aWire); BRepBuilderAPI_MakeWire MW; bool isMWDone = true; // add edges for (ind = 1; ind <= nbshapes; ind++) { Handle(GEOM_Function) aRefShape = Handle(GEOM_Function)::DownCast(aShapes->Value(ind)); TopoDS_Shape aShape_i = aRefShape->GetValue(); if (aShape_i.IsNull()) { Standard_NullObject::Raise("Shape for wire construction is null"); } if (aShape_i.ShapeType() == TopAbs_EDGE) { B.Add(aWire, TopoDS::Edge(aShape_i)); MW.Add(TopoDS::Edge(aShape_i)); if (!MW.IsDone()) { // check status after each edge/wire addition, because the final status // can be OK even in case, when some edges/wires was not accepted. isMWDone = false; } } else if (aShape_i.ShapeType() == TopAbs_WIRE) { TopExp_Explorer exp (aShape_i, TopAbs_EDGE); for (; exp.More(); exp.Next()) { B.Add(aWire, TopoDS::Edge(exp.Current())); MW.Add(TopoDS::Edge(exp.Current())); if (!MW.IsDone()) { // check status after each edge/wire addition, because the final status // can be OK even in case, when some edges/wires was not accepted. isMWDone = false; } } } else { Standard_TypeMismatch::Raise ("Shape for wire construction is neither an edge nor a wire"); } } if (isMWDone) { aShape = MW; } else { // fix edges order Handle(ShapeFix_Wire) aFW = new ShapeFix_Wire; aFW->Load(aWire); aFW->FixReorder(); if (aFW->StatusReorder(ShapeExtend_FAIL1)) { Standard_ConstructionError::Raise("Wire construction failed: several loops detected"); } else if (aFW->StatusReorder(ShapeExtend_FAIL)) { Standard_ConstructionError::Raise("Wire construction failed"); //} else if (aFW->StatusReorder(ShapeExtend_DONE2)) { // Standard_ConstructionError::Raise("Wire construction failed: some gaps detected"); } else { } // IMP 0019766: Building a Wire from unconnected edges by introducing a tolerance Standard_Real aTolerance = aCI.GetTolerance(); if (aTolerance < Precision::Confusion()) aTolerance = Precision::Confusion(); aFW->ClosedWireMode() = Standard_False; aFW->FixConnected(aTolerance); if (aFW->StatusConnected(ShapeExtend_FAIL)) { Standard_ConstructionError::Raise("Wire construction failed: cannot build connected wire"); } // IMP 0019766 aFW->FixGapsByRangesMode() = Standard_True; if (aFW->FixGaps3d()) { Handle(ShapeExtend_WireData) sbwd = aFW->WireData(); Handle(ShapeFix_Edge) aFe = new ShapeFix_Edge; for (Standard_Integer iedge = 1; iedge <= sbwd->NbEdges(); iedge++) { TopoDS_Edge aEdge = TopoDS::Edge(sbwd->Edge(iedge)); aFe->FixVertexTolerance(aEdge); aFe->FixSameParameter(aEdge); } } else if (aFW->StatusGaps3d(ShapeExtend_FAIL)) { Standard_ConstructionError::Raise("Wire construction failed: cannot fix 3d gaps"); } aShape = aFW->WireAPIMake(); } } else if (aType == FACE_WIRE) { Handle(GEOM_Function) aRefBase = aCI.GetBase(); TopoDS_Shape aShapeBase = aRefBase->GetValue(); if (aShapeBase.IsNull()) Standard_NullObject::Raise("Argument Shape is null"); TopoDS_Wire W; if (aShapeBase.ShapeType() == TopAbs_WIRE) { W = TopoDS::Wire(aShapeBase); } else if (aShapeBase.ShapeType() == TopAbs_EDGE && aShapeBase.Closed()) { BRepBuilderAPI_MakeWire MW; MW.Add(TopoDS::Edge(aShapeBase)); if (!MW.IsDone()) { Standard_ConstructionError::Raise("Wire construction failed"); } W = MW; } else { Standard_NullObject::Raise ("Shape for face construction is neither a wire nor a closed edge"); } GEOMImpl_Block6Explorer::MakeFace(W, aCI.GetIsPlanar(), aShape); if (aShape.IsNull()) { Standard_ConstructionError::Raise("Face construction failed"); } } else if (aType == FACE_WIRES) { // Try to build a face from a set of wires and edges int ind; Handle(TColStd_HSequenceOfTransient) aShapes = aCI.GetShapes(); int nbshapes = aShapes->Length(); if (nbshapes < 1) { Standard_ConstructionError::Raise("No wires or edges given"); } // 1. Extract all edges from the given arguments TopTools_MapOfShape aMapEdges; Handle(TopTools_HSequenceOfShape) aSeqEdgesIn = new TopTools_HSequenceOfShape; BRep_Builder B; for (ind = 1; ind <= nbshapes; ind++) { Handle(GEOM_Function) aRefSh_i = Handle(GEOM_Function)::DownCast(aShapes->Value(ind)); TopoDS_Shape aSh_i = aRefSh_i->GetValue(); TopExp_Explorer anExpE_i (aSh_i, TopAbs_EDGE); for (; anExpE_i.More(); anExpE_i.Next()) { if (aMapEdges.Add(anExpE_i.Current())) { aSeqEdgesIn->Append(anExpE_i.Current()); } } } // 2. Connect edges to wires of maximum length Handle(TopTools_HSequenceOfShape) aSeqWiresOut; ShapeAnalysis_FreeBounds::ConnectEdgesToWires(aSeqEdgesIn, Precision::Confusion(), /*shared*/Standard_False, aSeqWiresOut); // 3. Separate closed wires Handle(TopTools_HSequenceOfShape) aSeqClosedWires = new TopTools_HSequenceOfShape; Handle(TopTools_HSequenceOfShape) aSeqOpenWires = new TopTools_HSequenceOfShape; for (ind = 1; ind <= aSeqWiresOut->Length(); ind++) { if (aSeqWiresOut->Value(ind).Closed()) aSeqClosedWires->Append(aSeqWiresOut->Value(ind)); else aSeqOpenWires->Append(aSeqWiresOut->Value(ind)); } if (aSeqClosedWires->Length() < 1) { Standard_ConstructionError::Raise ("There is no closed contour can be built from the given arguments"); } // 4. Build a face / list of faces from all the obtained closed wires // 4.a. Basic face TopoDS_Shape aFFace; TopoDS_Wire aW1 = TopoDS::Wire(aSeqClosedWires->Value(1)); GEOMImpl_Block6Explorer::MakeFace(aW1, aCI.GetIsPlanar(), aFFace); if (aFFace.IsNull()) { Standard_ConstructionError::Raise("Face construction failed"); } // 4.b. Add other wires if (aSeqClosedWires->Length() == 1) { aShape = aFFace; } else { TopoDS_Compound C; BRep_Builder aBuilder; aBuilder.MakeCompound(C); BRepAlgo_FaceRestrictor FR; TopAbs_Orientation OriF = aFFace.Orientation(); TopoDS_Shape aLocalS = aFFace.Oriented(TopAbs_FORWARD); FR.Init(TopoDS::Face(aLocalS), Standard_False, Standard_True); for (ind = 1; ind <= aSeqClosedWires->Length(); ind++) { TopoDS_Wire aW = TopoDS::Wire(aSeqClosedWires->Value(ind)); FR.Add(aW); } FR.Perform(); if (FR.IsDone()) { int k = 0; TopoDS_Shape aFace; for (; FR.More(); FR.Next()) { aFace = FR.Current().Oriented(OriF); aBuilder.Add(C, aFace); k++; } if (k == 1) { aShape = aFace; } else { aShape = C; } } } // 5. Add all open wires to the result if (aSeqOpenWires->Length() > 0) { //Standard_ConstructionError::Raise("There are some open wires"); TopoDS_Compound C; BRep_Builder aBuilder; if (aSeqClosedWires->Length() == 1) { aBuilder.MakeCompound(C); aBuilder.Add(C, aShape); } else { C = TopoDS::Compound(aShape); } for (ind = 1; ind <= aSeqOpenWires->Length(); ind++) { aBuilder.Add(C, aSeqOpenWires->Value(ind)); } aShape = C; } } else if (aType == SHELL_FACES) { Handle(TColStd_HSequenceOfTransient) aShapes = aCI.GetShapes(); unsigned int ind, nbshapes = aShapes->Length(); // add faces BRepBuilderAPI_Sewing aSewing(Precision::Confusion()*10.0); for (ind = 1; ind <= nbshapes; ind++) { Handle(GEOM_Function) aRefShape = Handle(GEOM_Function)::DownCast(aShapes->Value(ind)); TopoDS_Shape aShape_i = aRefShape->GetValue(); if (aShape_i.IsNull()) { Standard_NullObject::Raise("Face for shell construction is null"); } aSewing.Add(aShape_i); } aSewing.Perform(); TopoDS_Shape sh = aSewing.SewedShape(); if( sh.ShapeType()==TopAbs_FACE && nbshapes==1 ) { // case for creation of shell from one face - PAL12722 (skl 26.06.2006) TopoDS_Shell ss; B.MakeShell(ss); B.Add(ss,sh); aShape = ss; } else { //TopExp_Explorer exp (aSewing.SewedShape(), TopAbs_SHELL); TopExp_Explorer exp (sh, TopAbs_SHELL); Standard_Integer ish = 0; for (; exp.More(); exp.Next()) { aShape = exp.Current(); ish++; } if (ish != 1) aShape = aSewing.SewedShape(); } } else if (aType == SOLID_SHELL) { Handle(GEOM_Function) aRefShell = aCI.GetBase(); TopoDS_Shape aShapeShell = aRefShell->GetValue(); if (aShapeShell.IsNull() || aShapeShell.ShapeType() != TopAbs_SHELL) { Standard_NullObject::Raise("Shape for solid construction is null or not a shell"); } BRepCheck_Shell chkShell(TopoDS::Shell(aShapeShell)); if(chkShell.Closed() == BRepCheck_NotClosed) return 0; TopoDS_Solid Sol; B.MakeSolid(Sol); B.Add(Sol, aShapeShell); BRepClass3d_SolidClassifier SC (Sol); SC.PerformInfinitePoint(Precision::Confusion()); if (SC.State() == TopAbs_IN) { B.MakeSolid(Sol); B.Add(Sol, aShapeShell.Reversed()); } aShape = Sol; } else if (aType == SOLID_SHELLS) { Handle(TColStd_HSequenceOfTransient) aShapes = aCI.GetShapes(); unsigned int ind, nbshapes = aShapes->Length(); Standard_Integer ish = 0; TopoDS_Solid Sol; B.MakeSolid(Sol); // add shapes for (ind = 1; ind <= nbshapes; ind++) { Handle(GEOM_Function) aRefShape = Handle(GEOM_Function)::DownCast(aShapes->Value(ind)); TopoDS_Shape aShapeShell = aRefShape->GetValue(); if (aShapeShell.IsNull()) { Standard_NullObject::Raise("Shell for solid construction is null"); } if (aShapeShell.ShapeType() == TopAbs_SHELL) { B.Add(Sol, aShapeShell); ish++; } } if ( ish == 0 ) return 0; BRepClass3d_SolidClassifier SC (Sol); SC.PerformInfinitePoint(Precision::Confusion()); switch (SC.State()) { case TopAbs_IN: aShape = Sol.Reversed(); break; case TopAbs_OUT: aShape = Sol; break; default: // not closed shell? return 0; } } else if (aType == COMPOUND_SHAPES) { Handle(TColStd_HSequenceOfTransient) aShapes = aCI.GetShapes(); unsigned int ind, nbshapes = aShapes->Length(); // add shapes TopoDS_Compound C; B.MakeCompound(C); for (ind = 1; ind <= nbshapes; ind++) { Handle(GEOM_Function) aRefShape = Handle(GEOM_Function)::DownCast(aShapes->Value(ind)); TopoDS_Shape aShape_i = aRefShape->GetValue(); if (aShape_i.IsNull()) { Standard_NullObject::Raise("Shape for compound construction is null"); } B.Add(C, aShape_i); } aShape = C; } else if (aType == REVERSE_ORIENTATION) { Handle(GEOM_Function) aRefShape = aCI.GetBase(); TopoDS_Shape aShape_i = aRefShape->GetValue(); if (aShape_i.IsNull()) { Standard_NullObject::Raise("Shape for reverse is null"); } BRepBuilderAPI_Copy Copy(aShape_i); if( Copy.IsDone() ) { TopoDS_Shape tds = Copy.Shape(); if( tds.IsNull() ) { Standard_ConstructionError::Raise("Orientation aborted : Can not reverse the shape"); } if( tds.Orientation() == TopAbs_FORWARD) tds.Orientation(TopAbs_REVERSED); else tds.Orientation(TopAbs_FORWARD); aShape = tds; } } if (aShape.IsNull()) return 0; // Check shape validity BRepCheck_Analyzer ana (aShape, false); if (!ana.IsValid()) { //Standard_ConstructionError::Raise("Algorithm have produced an invalid shape result"); } aFunction->SetValue(aShape); log.SetTouched(Label()); return 1; } //======================================================================= //function : GEOMImpl_ShapeDriver_Type_ //purpose : //======================================================================= Standard_EXPORT Handle_Standard_Type& GEOMImpl_ShapeDriver_Type_() { static Handle_Standard_Type aType1 = STANDARD_TYPE(TFunction_Driver); if ( aType1.IsNull()) aType1 = STANDARD_TYPE(TFunction_Driver); static Handle_Standard_Type aType2 = STANDARD_TYPE(MMgt_TShared); if ( aType2.IsNull()) aType2 = STANDARD_TYPE(MMgt_TShared); static Handle_Standard_Type aType3 = STANDARD_TYPE(Standard_Transient); if ( aType3.IsNull()) aType3 = STANDARD_TYPE(Standard_Transient); static Handle_Standard_Transient _Ancestors[]= {aType1,aType2,aType3,NULL}; static Handle_Standard_Type _aType = new Standard_Type("GEOMImpl_ShapeDriver", sizeof(GEOMImpl_ShapeDriver), 1, (Standard_Address)_Ancestors, (Standard_Address)NULL); return _aType; } //======================================================================= //function : DownCast //purpose : //======================================================================= const Handle(GEOMImpl_ShapeDriver) Handle(GEOMImpl_ShapeDriver)::DownCast(const Handle(Standard_Transient)& AnObject) { Handle(GEOMImpl_ShapeDriver) _anOtherObject; if (!AnObject.IsNull()) { if (AnObject->IsKind(STANDARD_TYPE(GEOMImpl_ShapeDriver))) { _anOtherObject = Handle(GEOMImpl_ShapeDriver)((Handle(GEOMImpl_ShapeDriver)&)AnObject); } } return _anOtherObject; }