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#include <ShapeFix_FixSmallFace.ixx>
#include <TopoDS.hxx>
#include <TopoDS_Shell.hxx>
#include <TopoDS_Edge.hxx>
#include <TopoDS_Vertex.hxx>
#include <TopoDS_Iterator.hxx>
#include <TopExp_Explorer.hxx>
#include <TopExp.hxx>
#include <BRep_Tool.hxx>
#include <Geom_Curve.hxx>
#include <Geom_Surface.hxx>
#include <Geom_BSplineSurface.hxx>
#include <Geom_BezierSurface.hxx>
#include <ShapeAnalysis_Curve.hxx>
//#include <GeomLProp_SLProps.hxx>
#include <GeomAdaptor_Surface.hxx>
#include <Geom_ElementarySurface.hxx>
//#include <TColStd_Array2OfReal.hxx>
#include <gp_Dir.hxx>
#include <gp_Vec.hxx>
//#include <TColStd_Array1OfReal.hxx>
#include <TColgp_Array1OfPnt.hxx>
#include <TopTools_Array1OfShape.hxx>
#include <TColgp_Array2OfPnt.hxx>
#include <TColgp_SequenceOfXYZ.hxx>
#include <BRep_Builder.hxx>
#include <ShapeBuild_ReShape.hxx>
#include <BRepTools.hxx>
#include <ShapeFix_Edge.hxx>
#include <Precision.hxx>
#include <TopoDS_Wire.hxx>
#include <ShapeFix_Wire.hxx>
#include <Geom_Line.hxx>
#include <TopExp.hxx>
#include <ElCLib.hxx>
#include <TopoDS_Builder.hxx>
#include <TopoDS_Compound.hxx>
#include <Poly_Polygon3D.hxx>
#include <Geom2d_Curve.hxx>
#include <BRepLib.hxx>
#include <GeomLib.hxx>
#include <ShapeFix_Face.hxx>
#include <ShapeFix_Wire.hxx>
#include <Geom_TrimmedCurve.hxx>
#include <GeomAdaptor_Curve.hxx>
#include <ShapeFix_Shape.hxx>
#include <Precision.hxx>
#include <TopExp_Explorer.hxx>
#include <TopTools_DataMapOfShapeListOfShape.hxx>
#include <ShapeAnalysis_DataMapOfShapeListOfReal.hxx>
#include <TopoDS_Compound.hxx>
#include <TopoDS_Iterator.hxx>
ShapeFix_FixSmallFace::ShapeFix_FixSmallFace()
{
myStatus = ShapeExtend::EncodeStatus ( ShapeExtend_OK );
SetPrecision(Precision::Confusion());
}
void ShapeFix_FixSmallFace::Init(const TopoDS_Shape& S)
{
myShape = S;
if ( Context().IsNull() )
SetContext ( new ShapeBuild_ReShape );
myResult = myShape;
Context()->Apply(myShape);
}
void ShapeFix_FixSmallFace::Perform()
{
FixSpotFace();
FixStripFace();
}
TopoDS_Shape ShapeFix_FixSmallFace::FixSpotFace()
{
// gp_Pnt spot;
// Standard_Real spotol;
Standard_Boolean done = Standard_False;
TopAbs_ShapeEnum st = myShape.ShapeType();
if (st == TopAbs_COMPOUND || st == TopAbs_COMPSOLID || st == TopAbs_SOLID || st == TopAbs_SHELL || st == TopAbs_FACE) {
for (TopExp_Explorer itf (myShape,TopAbs_FACE); itf.More(); itf.Next()) {
//smh#8
TopoDS_Shape tmpFace = Context()->Apply(itf.Current());
TopoDS_Face F = TopoDS::Face (tmpFace);
if(F.IsNull()) continue;
if (myAnalyzer.CheckSpotFace (F,Precision()))
{
ReplaceVerticesInCaseOfSpot(F,Precision());
RemoveFacesInCaseOfSpot(F);
myStatus = ShapeExtend::EncodeStatus ( ShapeExtend_DONE1 );
done = Standard_True;
}
}
myShape = Context()->Apply(myShape);
Handle(ShapeFix_Wire) sfw = new ShapeFix_Wire;
if (done)
{
if (myShape.IsNull()) return myShape;
/*ShapeFix_Wire sfw;
sfw.SetContext(Context());
sfw.SetPrecision(Precision::Confusion());
if (myShape.IsNull()) return myShape;
for (TopExp_Explorer itfw (myShape,TopAbs_FACE); itfw.More(); itfw.Next()) {
for (TopExp_Explorer itw (myShape,TopAbs_WIRE); itw.More(); itw.Next()) {
TopoDS_Wire w = TopoDS::Wire(itw.Current());
sfw.Init(w, TopoDS::Face(itfw.Current()), Precision::Confusion());
sfw->FixNotchedEdgesMode() = 0;
if(sfw.Perform())
Context()->Replace(w, sfw.Wire());
}
}*/
myShape = FixShape();
}
//myShape = Context()->Apply(myShape);
myResult = myShape;
}
return myShape;
}
Standard_Boolean ShapeFix_FixSmallFace::ReplaceVerticesInCaseOfSpot(TopoDS_Face& F,const Standard_Real /*tol*/) const
{
TColgp_SequenceOfXYZ thePositions;
gp_XYZ thePosition;
BRep_Builder theBuilder;
Standard_Real theMaxDev;
Standard_Real theMaxTol = 0.0;
thePositions.Clear();
gp_Pnt thePoint;
//smh#8
TopoDS_Shape tmpFace = Context()->Apply(F);
F = TopoDS::Face(tmpFace);
// gka Mar2000 Protection against faces without wires
// but they occur due to bugs in the algorithm itself, it needs to be fixed
Standard_Boolean isWir = Standard_False;
for(TopoDS_Iterator itw(F,Standard_False) ; itw.More();itw.Next()) {
if(itw.Value().ShapeType() != TopAbs_WIRE)
continue;
TopoDS_Wire w1 = TopoDS::Wire(itw.Value());
if (!w1.IsNull()) {isWir = Standard_True; break;}
}
if(!isWir) return Standard_True;
//Accumulating positions and maximal vertex tolerance
for (TopExp_Explorer iter_vertex(F,TopAbs_VERTEX); iter_vertex.More(); iter_vertex.Next()) {
TopoDS_Vertex V = TopoDS::Vertex (iter_vertex.Current());
thePoint = BRep_Tool::Pnt(V);
if (theMaxTol <= (BRep_Tool::Tolerance(V))) theMaxTol = BRep_Tool::Tolerance(V);
thePositions.Append(thePoint.XYZ());
}
//Calculate common vertex position
thePosition = gp_XYZ(0.,0.,0.);
Standard_Integer theNbPos = thePositions.Length();
Standard_Integer i; // svv Jan11 2000 : porting on DEC
for ( i = 1; i <= theNbPos; i++ ) thePosition += thePositions.Value(i);
if ( theNbPos > 1 ) thePosition /= theNbPos;
// Calculate maximal deviation
theMaxDev = 0.;
for ( i = 1; i <= theNbPos; i++ ) {
Standard_Real theDeviation = (thePosition-thePositions.Value(i)).Modulus();
if ( theDeviation > theMaxDev ) theMaxDev = theDeviation;
}
theMaxDev *= 1.00001;
//Cretate new vertex with mean point
TopoDS_Vertex theSharedVertex;
theBuilder.MakeVertex(theSharedVertex);
theBuilder.UpdateVertex( theSharedVertex, gp_Pnt(thePosition), theMaxDev+theMaxTol/2 );
//Use external tolerance
// if (tol!=-1.0) theBuilder.UpdateVertex( theSharedVertex, tol);
//Replacing all vertices in the face by new one
TopoDS_Vertex theNewVertex;
for ( TopExp_Explorer iter_vert(F,TopAbs_VERTEX); iter_vert.More(); iter_vert.Next()) {
TopoDS_Vertex V = TopoDS::Vertex (iter_vert.Current());
if (V.Orientation()==TopAbs_FORWARD)
//smh#8
{
TopoDS_Shape tmpVertexFwd = theSharedVertex.Oriented(TopAbs_FORWARD);
theNewVertex = TopoDS::Vertex(tmpVertexFwd);
}
else
//smh#8
{
TopoDS_Shape tmpVertexRev = theSharedVertex.Oriented(TopAbs_REVERSED);
theNewVertex = TopoDS::Vertex(tmpVertexRev);
}
Context()->Replace(V, theNewVertex);
}
return Standard_True;
}
Standard_Boolean ShapeFix_FixSmallFace::RemoveFacesInCaseOfSpot(const TopoDS_Face& F) const
{
for ( TopExp_Explorer iter_vert(F,TopAbs_EDGE); iter_vert.More(); iter_vert.Next()) {
TopoDS_Edge Ed = TopoDS::Edge (iter_vert.Current());
Context()->Remove(Ed);
}
Context()->Remove(F);
return Standard_True;
}
TopoDS_Shape ShapeFix_FixSmallFace::FixStripFace(const Standard_Boolean wasdone)
{
if(myShape.IsNull()) return myShape;
TopAbs_ShapeEnum st = myShape.ShapeType();
// BRep_Builder theBuilder;
Standard_Boolean done = wasdone;
if (st == TopAbs_COMPOUND || st == TopAbs_COMPSOLID ||st == TopAbs_SOLID || st == TopAbs_SHELL || st == TopAbs_FACE) {
for (TopExp_Explorer itf (myShape,TopAbs_FACE); itf.More(); itf.Next()) {
TopoDS_Face F = TopoDS::Face (itf.Current());
//smh#8
TopoDS_Shape tmpFace = Context()->Apply(F);
F= TopoDS::Face(tmpFace);
if(F.IsNull()) continue;
// Standard_Real dmax = 1;
TopoDS_Edge E1,E2;
if (myAnalyzer.CheckStripFace (F, E1,E2,Precision()))
{
if(ReplaceInCaseOfStrip(F,E1,E2, Precision()))
RemoveFacesInCaseOfStrip(F);
myStatus = ShapeExtend::EncodeStatus ( ShapeExtend_DONE2 );
done = Standard_True;
}
}
myShape = Context()->Apply(myShape);
//Particular case of empty shell
if (!myShape.IsNull())
{
for (TopExp_Explorer exp_s (myShape,TopAbs_SHELL); exp_s.More(); exp_s.Next()) {
TopoDS_Shell Sh = TopoDS::Shell (exp_s.Current());
TopExp_Explorer ex_sh(Sh,TopAbs_FACE);
if (!ex_sh.More()) { Context()->Remove(Sh);
// cout << "Empty shell was removed" << endl;
}
}
myShape = Context()->Apply(myShape);
//Fixing of missing pcurves on new edges, if thay were inserted
if (done)
{
if (myShape.IsNull()) return myShape;
TopoDS_Shape theResult;
myShape = FixShape();
//myShape = Context()->Apply(myShape);
myResult = myShape;
}
}
}
return myShape;
}
Standard_Boolean ShapeFix_FixSmallFace::ReplaceInCaseOfStrip(TopoDS_Face& F,TopoDS_Edge& E1,TopoDS_Edge& E2, const Standard_Real tol) const
{
if(E1.IsNull() || E2.IsNull()) return Standard_False;
TopoDS_Edge theSharedEdge;
TopoDS_Face F1,F2;
//smh#8
TopoDS_Shape tmpFace = Context()->Apply(F);
F= TopoDS::Face(tmpFace);
for(TopExp_Explorer expf(myShape,TopAbs_FACE); expf.More(); expf.Next()) {
//smh#8
TopoDS_Shape tmpShape = Context()->Apply(expf.Current());
TopoDS_Face tempF = TopoDS::Face (tmpShape);
if(tempF.IsNull() || tempF.IsSame(F)) continue;
for(TopExp_Explorer expe(tempF,TopAbs_EDGE); expe.More(); expe.Next()) {
TopoDS_Edge tempE = TopoDS::Edge (expe.Current());
if(tempE.IsSame(E1)) F1 = tempF;
if(tempE.IsSame(E2)) F2 = tempF;
if(!F1.IsNull()) break; // && !F2.IsNull()) break;
}
}
//Compute shared edge for this face
if(F1.IsNull() && F2.IsNull()) return Standard_True;
TopoDS_Edge E1tmp = E1;
TopoDS_Edge E2tmp = E2;
if(F1.IsNull()) {
E1tmp = E2;
E2tmp = E1;
F1 = F2;
}
theSharedEdge = ComputeSharedEdgeForStripFace(F, E1tmp, E2tmp, F1, tol);
//Replace two long edges by new one
if (theSharedEdge.IsNull()) return Standard_False;
if (E1.Orientation()==TopAbs_REVERSED) {
Context()->Replace(E1tmp, theSharedEdge.Oriented(TopAbs_REVERSED));
if(F.Orientation() == F1.Orientation())
Context()->Replace(E2tmp, theSharedEdge);
else
Context()->Replace(E2tmp, theSharedEdge.Oriented(TopAbs_REVERSED));
}
else
{
Context()->Replace(E1tmp, theSharedEdge);
if(F.Orientation() == F1.Orientation())
Context()->Replace(E2tmp, theSharedEdge.Oriented(TopAbs_REVERSED));
else
Context()->Replace(E2tmp, theSharedEdge);
}
//Remove short edges
for (TopExp_Explorer exp_e (F,TopAbs_EDGE); exp_e.More(); exp_e.Next()) {
TopoDS_Edge shortedge = TopoDS::Edge (exp_e.Current());
if (!shortedge.IsSame(E1tmp) && !shortedge.IsSame(E2tmp)) Context()->Remove(shortedge);
}
return Standard_True;
}
Standard_Boolean ShapeFix_FixSmallFace::RemoveFacesInCaseOfStrip(const TopoDS_Face& F) const
{
Context()->Remove(F);
return Standard_True;
}
TopoDS_Edge ShapeFix_FixSmallFace::ComputeSharedEdgeForStripFace(const TopoDS_Face& /*F*/,const TopoDS_Edge& E1,const TopoDS_Edge& E2,const TopoDS_Face& F1,const Standard_Real tol) const
{
BRep_Builder theBuilder;
//Compute deviation between two vertices and create new vertices
TopoDS_Edge theNewEdge;
TopoDS_Vertex V1,V2, V3, V4;
TopExp::Vertices (E1,V1,V2);
TopExp::Vertices (E2,V3,V4);
gp_Pnt p1, p2;
Standard_Real dev;
p1 = BRep_Tool::Pnt(V1);
p2 = BRep_Tool::Pnt(V3);
dev = p1.Distance(p2);
TopoDS_Vertex theFirstVer;
TopoDS_Vertex theSecondVer;
theBuilder.MakeVertex(theFirstVer);
theBuilder.MakeVertex(theSecondVer);
gp_XYZ thePosition;
TopoDS_Shape temp;
if ((dev<=BRep_Tool::Tolerance (V1)) || (dev<=BRep_Tool::Tolerance (V3)) || (dev<=tol)) {
if (V1.IsSame(V3))
// #ifdef AIX CKY : applies to all platforms
theFirstVer = V1;
// theFirstVer = TopoDS::Vertex(V1);
else {
dev = (dev/2)*1.0001;
thePosition = (p1.XYZ()+p2.XYZ())/2;
theBuilder.UpdateVertex(theFirstVer, gp_Pnt(thePosition), dev );
//if(Context()->Status(V1, temp) != 0) theFirstVer = TopoDS::Vertex (temp); //If this vertex already recorded in map
//else //take recorded vertex
// if(theRepVert->Status(V3, temp) != 0) theFirstVer = TopoDS::Vertex (temp);
if (V1.Orientation()==TopAbs_FORWARD) Context()->Replace(V1, theFirstVer.Oriented(TopAbs_FORWARD));
else Context()->Replace(V1, theFirstVer.Oriented(TopAbs_REVERSED));
if (V3.Orientation()==TopAbs_FORWARD) Context()->Replace(V3, theFirstVer.Oriented(TopAbs_FORWARD));
else Context()->Replace(V3, theFirstVer.Oriented(TopAbs_REVERSED));
}
if(V1.IsSame(V2) || V3.IsSame(V4))
theSecondVer = theFirstVer;
else {
if (!V2.IsSame(V4)) {
// #ifdef AIX CKY : applies to all platforms
p1 = BRep_Tool::Pnt(V2);
p2 = BRep_Tool::Pnt(V4);
dev = p1.Distance(p2);
thePosition = (p1.XYZ()+p2.XYZ())/2;
theBuilder.UpdateVertex(theSecondVer, gp_Pnt(thePosition), dev );
//if(theRepVert->Status(V2, temp) != 0) theSecondVer = TopoDS::Vertex (temp); //If this vertex already recorded in map
//else
// if(theRepVert->Status(V4, temp) != 0) theSecondVer = TopoDS::Vertex (temp);
}
else theSecondVer = V2;
}
if (!V2.IsSame(theSecondVer)) {
if (V2.Orientation()==TopAbs_FORWARD) Context()->Replace(V2, theSecondVer.Oriented(TopAbs_FORWARD));
else Context()->Replace(V2, theSecondVer.Oriented(TopAbs_REVERSED));
if (V4.Orientation()==TopAbs_FORWARD) Context()->Replace(V4, theSecondVer.Oriented(TopAbs_FORWARD));
else Context()->Replace(V4, theSecondVer.Oriented(TopAbs_REVERSED));
}
}
else {
p2 = BRep_Tool::Pnt(V4);
dev = p1.Distance(p2);
if ((dev<=BRep_Tool::Tolerance (V1)) || (dev<=BRep_Tool::Tolerance (V4)) || (dev<=tol)) {
if (V1.IsSame(V4))
// #ifdef AIX CKY : applies to all platforms
theFirstVer = V1;
// theFirstVer = TopoDS::Vertex(V1);
else {
dev = (dev/2)*1.0001;
thePosition = (p1.XYZ()+p2.XYZ())/2;
theBuilder.UpdateVertex(theFirstVer, gp_Pnt(thePosition), dev );
// if(theRepVert->Status(V1, temp) != 0) theFirstVer = TopoDS::Vertex (temp); //If this vertex already recorded in map
// else
// if(theRepVert->Status(V4, temp) != 0) theFirstVer = TopoDS::Vertex (temp);
if (V1.Orientation()==TopAbs_FORWARD) Context()->Replace(V1, theFirstVer.Oriented(TopAbs_FORWARD));
else Context()->Replace(V1, theFirstVer.Oriented(TopAbs_REVERSED));
if (V4.Orientation()==TopAbs_FORWARD) Context()->Replace(V4, theFirstVer.Oriented(TopAbs_FORWARD));
else Context()->Replace(V4, theFirstVer.Oriented(TopAbs_REVERSED));
}
if(V1.IsSame(V2) || V3.IsSame(V4))
theSecondVer = theFirstVer;
else {
if (!V2.IsSame(V3)) {
p1 = BRep_Tool::Pnt(V2);
p2 = BRep_Tool::Pnt(V3);
dev = p1.Distance(p2);
thePosition = (p1.XYZ()+p2.XYZ())/2;
theBuilder.UpdateVertex(theSecondVer, gp_Pnt(thePosition), dev );
}
else theSecondVer = V2;
}
// if(theRepVert->Status(V2, temp) != 0) theSecondVer = TopoDS::Vertex (temp); //If this vertex already recorded in map
// else
// if(theRepVert->Status(V3, temp) != 0) theSecondVer = TopoDS::Vertex (temp);
if (!V2.IsSame(theSecondVer)) {
if (V2.Orientation()==TopAbs_FORWARD) Context()->Replace(V2, theSecondVer.Oriented(TopAbs_FORWARD));
else Context()->Replace(V2, theSecondVer.Oriented(TopAbs_REVERSED));
if (V3.Orientation()==TopAbs_FORWARD) Context()->Replace(V3, theSecondVer.Oriented(TopAbs_FORWARD));
else Context()->Replace(V3, theSecondVer.Oriented(TopAbs_REVERSED));
}
}
else {
#ifdef DEB
cout << "The face is not strip face" << endl;
#endif
return theNewEdge;
}
}
if (theFirstVer.IsNull() || theSecondVer.IsNull()) return theNewEdge;
//Cretate new edge
theBuilder.MakeEdge(theNewEdge);
Standard_Real f, l, fp1, lp1/*, fp2, lp2*/;
TopLoc_Location loc;
Handle(Geom_Curve) the3dcurve;
the3dcurve = BRep_Tool::Curve(E1, f, l);
Handle(Geom2d_Curve) the2dcurve1, the2dcurve2, thenew1, thenew2;
if (!F1.IsNull())
{
the2dcurve1 = BRep_Tool::CurveOnSurface(E1, F1, fp1, lp1);
if(!the2dcurve1.IsNull() && fp1!=f && lp1!=l) GeomLib::SameRange(Precision::Confusion(), the2dcurve1, fp1, lp1, f, l, thenew1);
}
/* if (!F2.IsNull())
{
the2dcurve2 = BRep_Tool::CurveOnSurface(E2, F2, fp2, lp2);
if(!the2dcurve2.IsNull()) GeomLib::SameRange(Precision::Confusion(), the2dcurve2, fp2, lp2, f, l, thenew2);
}*/
Standard_Real maxdev;
if ((BRep_Tool::Tolerance(theFirstVer))<=(BRep_Tool::Tolerance(theSecondVer)))
maxdev = (BRep_Tool::Tolerance(theSecondVer));
else maxdev = (BRep_Tool::Tolerance(theFirstVer));
theBuilder.UpdateVertex(theFirstVer, maxdev);
theBuilder.UpdateVertex(theSecondVer, maxdev);
//Standard_Boolean IsFree = Standard_True;
theBuilder.SameParameter(theNewEdge, Standard_False);
the3dcurve = BRep_Tool::Curve(E1, f, l);
theBuilder.UpdateEdge(theNewEdge, the3dcurve, maxdev);
theBuilder.Range(theNewEdge, f, l);
if (!F1.IsNull() && !thenew1.IsNull())
{
theBuilder.UpdateEdge(theNewEdge, thenew1, F1, maxdev);
//IsFree = Standard_False;
}
/*if (!F2.IsNull() && !thenew2.IsNull())
{
theBuilder.UpdateEdge(theNewEdge, thenew2, F2, maxdev);
IsFree = Standard_False;
}*/
theBuilder.Add(theNewEdge, theFirstVer.Oriented(TopAbs_FORWARD));
theBuilder.Add(theNewEdge, theSecondVer.Oriented(TopAbs_REVERSED));
//Call fixsameparameter for computing distance between 3d and pcurves, if edge is not free
// if (!IsFree)
// {
// ShapeFix_Edge sfe;
// if (!F1.IsNull() && !thenew1.IsNull()) sfe.FixReversed2d(theNewEdge, F1);
// if (!F2.IsNull() && !thenew2.IsNull()) sfe.FixReversed2d(theNewEdge, F2);
// sfe.FixSameParameter(theNewEdge, maxdev);
// }
return theNewEdge;
}
TopoDS_Shape ShapeFix_FixSmallFace::FixSplitFace(const TopoDS_Shape& /*S*/)
{
if (myShape.IsNull()) return myShape;
TopAbs_ShapeEnum st = myShape.ShapeType();
Standard_Boolean done = Standard_False;
TopoDS_Compound theSplittedFaces;
BRep_Builder theBuilder;
if (st == TopAbs_COMPOUND || st == TopAbs_COMPSOLID ||
st == TopAbs_SOLID || st == TopAbs_SHELL || st == TopAbs_FACE) {
for (TopExp_Explorer itf (myShape,TopAbs_FACE); itf.More(); itf.Next()) {
TopoDS_Face F = TopoDS::Face (itf.Current());
TopoDS_Compound CompSplittedFaces;
theBuilder.MakeCompound(CompSplittedFaces);
if(SplitOneFace(F, CompSplittedFaces)) {
done = Standard_True;
Context()->Replace(F, CompSplittedFaces);
}
}
}
if(done) myStatus = ShapeExtend::EncodeStatus ( ShapeExtend_DONE3 );
myShape = Context()->Apply(myShape);
myResult = myShape;
return myShape;
}
TopoDS_Shape ShapeFix_FixSmallFace::SplitFaces()
{
myShape = RemoveSmallFaces();
myResult = myShape;
return myShape;
}
Standard_Boolean ShapeFix_FixSmallFace::SplitOneFace(TopoDS_Face& F,TopoDS_Compound& theSplittedFaces)
{
TopTools_DataMapOfShapeListOfShape MapEdges;
ShapeAnalysis_DataMapOfShapeListOfReal MapParam;
TopoDS_Compound theAllVert;
BRep_Builder theBuilder;
theBuilder.MakeCompound(theAllVert);
//smh#8
TopoDS_Shape tmpShape = Context()->Apply(F);
F = TopoDS::Face(tmpShape);
if (myAnalyzer.CheckSplittingVertices(F,MapEdges,MapParam,theAllVert) != 0)
{
TopoDS_Wire tempwire;
//Take information about splitting vertices
if (theAllVert.IsNull()) return Standard_False;
//Standard_Integer i;
TopoDS_Vertex V;
TopExp_Explorer itc(theAllVert,TopAbs_VERTEX); V = TopoDS::Vertex (itc.Current());
if (V.IsNull()) return Standard_False;
gp_Pnt proj;
gp_Pnt vp = BRep_Tool::Pnt(V);
TopoDS_Vertex theNewVertex;
TopoDS_Edge E;
TopoDS_Edge theFirstEdge, theSecondEdge;
{
//If one vertex presents do splitting by two faces
ShapeAnalysis_Curve SAC;
for (TopExp_Explorer ite(F,TopAbs_EDGE); ite.More(); ite.Next()) {
E = TopoDS::Edge (ite.Current());
TopoDS_Vertex V1,V2;
TopExp::Vertices (E,V1,V2);
Standard_Real cf,cl;
Handle(Geom_Curve) C3D = BRep_Tool::Curve (E,cf,cl);
if (C3D.IsNull()) continue;
if (V.IsSame(V1) || V.IsSame(V2)) continue;
Standard_Real vt = BRep_Tool::Tolerance (V);
Standard_Real param;
Standard_Real dist = SAC.Project (C3D,vp,vt*10.,proj,param,cf,cl);
if (dist==0) continue; //Projection on same curve but on other edge ?
if ( dist <= vt )
{
theBuilder.MakeVertex(theNewVertex);
theBuilder.UpdateVertex(theNewVertex, proj, Precision::Confusion());
theBuilder.MakeEdge(theFirstEdge);
theBuilder.MakeEdge(theSecondEdge);
Standard_Real f, l;
Handle(Geom_Curve) the3dcurve = BRep_Tool::Curve(E, f, l);
theBuilder.UpdateEdge(theFirstEdge, the3dcurve,Precision::Confusion());
theBuilder.UpdateEdge(theSecondEdge, the3dcurve,Precision::Confusion());
if (V1.Orientation()==TopAbs_FORWARD)
{
theBuilder.Add(theFirstEdge, V1);
theBuilder.Add(theFirstEdge,theNewVertex.Oriented(TopAbs_REVERSED));
theBuilder.Add(theSecondEdge,theNewVertex.Oriented(TopAbs_FORWARD));
theBuilder.Add(theSecondEdge, V2);
}
else {
theBuilder.Add(theFirstEdge,V2);
theBuilder.Add(theFirstEdge,theNewVertex.Oriented(TopAbs_REVERSED));
theBuilder.Add(theSecondEdge,theNewVertex.Oriented(TopAbs_FORWARD));
theBuilder.Add(theSecondEdge, V1);
}
theBuilder.Range(theFirstEdge, cf, param);
theBuilder.Range(theSecondEdge, param, cl);
//Replace old edge by two new edges
TopoDS_Wire twoedges;
theBuilder.MakeWire(twoedges);
if (E.Orientation() == TopAbs_FORWARD)
{
theBuilder.Add(twoedges, theFirstEdge.Oriented(TopAbs_FORWARD));
theBuilder.Add(twoedges, theSecondEdge.Oriented(TopAbs_FORWARD));
}
else
{
theBuilder.Add(twoedges, theFirstEdge.Oriented(TopAbs_REVERSED));
theBuilder.Add(twoedges, theSecondEdge.Oriented(TopAbs_REVERSED));
}
Context()->Replace(E, twoedges);
break;
}
}
if (theNewVertex.IsNull()) return Standard_False;
//Create split edge
TopoDS_Edge theSplitEdge;
gp_Lin lin(vp, gp_Dir(gp_Vec( vp, proj)));
Standard_Real firstparam = ElCLib::Parameter(lin, vp);
Standard_Real lastparam = ElCLib::Parameter(lin, proj);
Handle(Geom_Line) L = new Geom_Line( vp, gp_Vec( vp, proj));
Handle(Geom_Curve) the3dc = L;
theBuilder.MakeEdge(theSplitEdge, the3dc, Precision::Confusion());
theBuilder.Add(theSplitEdge, V.Oriented(TopAbs_FORWARD));
theBuilder.Add(theSplitEdge, theNewVertex.Oriented(TopAbs_REVERSED));
theBuilder.Range(theSplitEdge, firstparam, lastparam);
//Add pcurve in new edge
Handle(ShapeFix_Edge) sfe = new ShapeFix_Edge;
sfe->FixAddPCurve(theSplitEdge, F, Standard_False);
//Reorder the wire
TopoDS_Wire wireonface;
//Inher loop is not support yet !!!
TopExp_Explorer itw(F,TopAbs_WIRE);
wireonface = TopoDS::Wire (itw.Current());
itw.Next();
if (itw.More()) return Standard_False; //if face contains more than one wire
Handle(ShapeFix_Wire) sfw = new ShapeFix_Wire;
sfw->Init(wireonface, F, Precision::Confusion());
sfw->FixReorder();
wireonface = sfw->Wire();
//Create two new wires
TopoDS_Wire w1, w2;
theBuilder.MakeWire(w1);
theBuilder.MakeWire(w2);
theBuilder.MakeWire(tempwire);
for (TopExp_Explorer itnew(wireonface, TopAbs_EDGE ); itnew.More(); itnew.Next())
{
TopoDS_Edge ce = TopoDS::Edge (itnew.Current());
if (ce.IsSame(E))
{
theBuilder.Remove(wireonface, ce);
theBuilder.Add(wireonface, theFirstEdge.Oriented(TopAbs_FORWARD));
theBuilder.Add(wireonface, theSecondEdge.Oriented(TopAbs_FORWARD));
}
}
sfw->Init(wireonface, F, Precision::Confusion());
sfw->FixReorder();
wireonface = sfw->Wire();
for (TopExp_Explorer itere(wireonface, TopAbs_EDGE); itere.More(); itere.Next())
{
TopoDS_Edge ce = TopoDS::Edge (itere.Current());
TopoDS_Vertex thecontrol;
if (ce.Orientation () == TopAbs_FORWARD) thecontrol = TopExp::LastVertex(ce);
else thecontrol = TopExp::FirstVertex(ce);
theBuilder.Add(w1, ce);
if (thecontrol.IsSame(V))
{
theBuilder.Add(w1, theSplitEdge.Oriented(TopAbs_FORWARD));
TopoDS_Wire wtemp = w1;
w1 = w2;
w2 = wtemp;
}
if (thecontrol.IsSame(theNewVertex))
{
theBuilder.Add(w1, theSplitEdge.Oriented(TopAbs_REVERSED));
TopoDS_Wire wtemp = w1;
w1 = w2;
w2 = wtemp;
}
}
if ( w1.IsNull()|| w2.IsNull() ) return Standard_False;
//Create two new faces and replace old one
TopoDS_Face F1;
TopoDS_Face F2;
theBuilder.MakeFace(F1, BRep_Tool::Surface(F), Precision::Confusion());
theBuilder.MakeFace(F2, BRep_Tool::Surface(F), Precision::Confusion());
theBuilder.Add(F1, w1);
theBuilder.Add(F2, w2);
TopoDS_Compound tf;
theBuilder.MakeCompound(tf);
theBuilder.Add(tf,F1);
theBuilder.Add(tf, F2);
//Call recursive spliteoneface() for each face
if(!SplitOneFace(F1, theSplittedFaces)) theBuilder.Add(theSplittedFaces, F1);
if(!SplitOneFace(F2, theSplittedFaces)) theBuilder.Add(theSplittedFaces, F2);
}
return Standard_True ;
}
return Standard_False ;
}
TopoDS_Shape ShapeFix_FixSmallFace::RemoveSmallFaces()
{
myShape = SplitFaces();
myShape = FixSpotFace();
myShape = FixStripFace ();
return myShape;
}
TopoDS_Face ShapeFix_FixSmallFace::FixFace(const TopoDS_Face& F)
{
//smh#8
TopoDS_Shape emptyCopied = F.EmptyCopied();
TopoDS_Face theFixedFace = TopoDS::Face(emptyCopied);
// BRep_Builder theBuilder;
// Handle(ShapeFix_Wire) sfw = new ShapeFix_Wire;
// sfw->SetContext(Context());
// for (TopExp_Explorer exp_w (F,TopAbs_WIRE); exp_w.More(); exp_w.Next()) {
// TopoDS_Wire theCurWire = TopoDS::Wire (exp_w.Current());
// sfw->Init(theCurWire, F, Precision::Confusion());
// if(sfw->NbEdges() == 0) continue;
// sfw->FixNotchedEdgesMode() = 0;
// sfw->Perform();
// theCurWire = sfw->Wire();
// theBuilder.Add(theFixedFace, theCurWire);
// }
Handle(ShapeFix_Face) sff = new ShapeFix_Face;
sff->SetContext(Context());
sff->Init(F);
sff->Perform();
//sff->Init(theFixedFace);
//sff->FixOrientation();
theFixedFace = sff->Face();
return theFixedFace;
}
TopoDS_Shape ShapeFix_FixSmallFace::FixShape()
{
TopoDS_Shape FixSh;
if(myShape.IsNull()) return FixSh;
/*ShapeFix_Shape sfs;
sfs.SetContext(Context());
sfs.SetPrecision(Precision::Confusion());
sfs.Init(myShape);
sfs.Perform();
FixSh = sfs.Shape();*/
for(TopExp_Explorer expf(myShape,TopAbs_FACE) ; expf.More(); expf.Next()) {
TopoDS_Face F = TopoDS::Face(expf.Current());
//smh#8
TopoDS_Shape tmpFace = Context()->Apply(F);
F= TopoDS::Face(tmpFace);
TopoDS_Face newF = FixFace(F);
Context()->Replace(F,newF);
}
FixSh = Context()->Apply(myShape);
return FixSh;
}
TopoDS_Shape ShapeFix_FixSmallFace::Shape()
{
return myShape;
}
Standard_Boolean ShapeFix_FixSmallFace::FixPinFace (TopoDS_Face& /*F*/)
{
return Standard_True;
}
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