Exemplo n.º 1
0
//=======================================================================
// function: BuildSplitFaces
// purpose:
//=======================================================================
void GEOMAlgo_Builder::BuildSplitFaces()
{
  const NMTDS_ShapesDataStructure& aDS=*myPaveFiller->DS();
  NMTTools_PaveFiller* pPF=myPaveFiller;
  NMTDS_InterfPool* pIP=pPF->IP();
  BOPTools_CArray1OfSSInterference& aFFs=pIP->SSInterferences();
  const Handle(IntTools_Context)& aCtx= pPF->Context();
  //
  Standard_Boolean bToReverse, bIsClosed, bIsDegenerated;
  Standard_Integer i, aNb, aNbF, nF;
  TopTools_MapOfShape aMFence;
  TColStd_IndexedMapOfInteger aMFP;
  TopExp_Explorer anExp;
  TopoDS_Face aFF;
  TopoDS_Edge aSp, aEE;
  TopTools_ListIteratorOfListOfShape aIt;
  TopAbs_Orientation anOriF, anOriE;
  //
  mySplitFaces.Clear();
  //
  // 1. Select Faces to process (MFP)
  aNb=aDS.NumberOfShapesOfTheObject();
  for (i=1; i<=aNb; ++i) {
    const TopoDS_Shape& aF=aDS.Shape(i);
    if (aF.ShapeType()!=TopAbs_FACE) {
      continue;
    }
    if (!aMFence.Add(aF)) {
      continue;
    }
    //
    if (myInParts.Contains(aF)) {
      aMFP.Add(i);
      continue;
    }
    //
    anExp.Init(aF, TopAbs_EDGE);
    for (; anExp.More(); anExp.Next()) {
      const TopoDS_Shape& aE=anExp.Current();
      if (myImages.HasImage(aE)) {
        aMFP.Add(i);
        break;
      }
    }
    //
    //===
    {
      Standard_Integer aNbFFs, aNbSE, j, n1, n2;
      //
      aNbFFs=aFFs.Extent();
      for (j=1; j<=aNbFFs; ++j) {
        BOPTools_SSInterference& aFFj=aFFs(j);
        aFFj.Indices(n1, n2);
        if (!(n1==i || n2==i)) {
          continue;
        }
        //
        const TColStd_ListOfInteger& aLSE=aFFj.SharedEdges();
        aNbSE=aLSE.Extent();
        if (aNbSE) {
          aMFP.Add(i);
          break;
        }
      }
    }
    //===
    //
  }// for (i=1; i<=aNb; ++i)
  //
  // 2. ProcessFaces
  aNbF=aMFP.Extent();
  for (i=1; i<=aNbF; ++i) {
    nF=aMFP(i);
    const TopoDS_Face& aF=TopoDS::Face(aDS.Shape(nF));
    anOriF=aF.Orientation();
    aFF=aF;
    aFF.Orientation(TopAbs_FORWARD);
    //
    aMFence.Clear();
    //
    // 2.1. Fill WES
    GEOMAlgo_WireEdgeSet aWES;
    aWES.SetFace(aFF);
    //
    //  2.1.1. Add Split parts
    anExp.Init(aFF, TopAbs_EDGE);
    for (; anExp.More(); anExp.Next()) {
      const TopoDS_Edge& aE=TopoDS::Edge(anExp.Current());
      anOriE=aE.Orientation();
      //
      if (!myImages.HasImage(aE)) {
        if (anOriE==TopAbs_INTERNAL) {
          aEE=aE;
          aEE.Orientation(TopAbs_FORWARD);
          aWES.AddStartElement(aEE);
          aEE.Orientation(TopAbs_REVERSED);
          aWES.AddStartElement(aEE);
        }
        else {
          aWES.AddStartElement(aE);
        }
        continue;
      }
      //
      bIsDegenerated=BRep_Tool::Degenerated(aE);
      //modified by NIZNHY-PKV Wed Mar 07 07:46:09 2012f
      bIsClosed=IsClosed(aE, aF);
      //bIsClosed=BRep_Tool::IsClosed(aE, aF);
      //modified by NIZNHY-PKV Wed Mar 07 07:46:13 2012t
      //
      const TopTools_ListOfShape& aLIE=myImages.Image(aE);
      aIt.Initialize(aLIE);
      for (; aIt.More(); aIt.Next()) {
        aSp=TopoDS::Edge(aIt.Value());
        //
        if (bIsDegenerated) {
          aSp.Orientation(anOriE);
          aWES.AddStartElement(aSp);
          continue;
        }
        //
        if (anOriE==TopAbs_INTERNAL) {
          aSp.Orientation(TopAbs_FORWARD);
          aWES.AddStartElement(aSp);
          aSp.Orientation(TopAbs_REVERSED);
          aWES.AddStartElement(aSp);
          continue;
        }
        //
        if (bIsClosed){
          if (aMFence.Add(aSp)) {
            //
            if (!BRep_Tool::IsClosed(aSp, aF)){
              BOPTools_Tools3D::DoSplitSEAMOnFace(aSp, aF);
            }
            //
            aSp.Orientation(TopAbs_FORWARD);
            aWES.AddStartElement(aSp);
            aSp.Orientation(TopAbs_REVERSED);
            aWES.AddStartElement(aSp);
          }
          continue;
        }// if (aMFence.Add(aSp))
        //
        aSp.Orientation(anOriE);
        bToReverse=BOPTools_Tools3D::IsSplitToReverse1(aSp, aE, aCtx);
        if (bToReverse) {
          aSp.Reverse();
        }
        aWES.AddStartElement(aSp);
      }// for (; aIt.More(); aIt.Next()) {
    }// for (; anExp.More(); anExp.Next()) {
    //
    // 2.1.2. Add In2D Parts
    if (myInParts.Contains(aF)) {
      const TopTools_ListOfShape& aLE=myInParts.FindFromKey(aF);
      aIt.Initialize(aLE);
      for (; aIt.More(); aIt.Next()) {
        aSp=TopoDS::Edge(aIt.Value());
        //
        aSp.Orientation(TopAbs_FORWARD);
        aWES.AddStartElement(aSp);
        //
        aSp.Orientation(TopAbs_REVERSED);
        aWES.AddStartElement(aSp);
      }
    }
    //
    // 2.2. Build images Faces
    TopTools_ListOfShape aLFR;
    GEOMAlgo_ShapeSet aS1, aS2;
    //
    const TopTools_ListOfShape& aSE=aWES.StartElements();
    aS1.Add(aSE);
    aS2.Add(aFF, TopAbs_EDGE);
    if (aS1.IsEqual(aS2)) {
      aLFR.Append(aF);
    }
    else {
      GEOMAlgo_BuilderFace aBF;
      //
      aBF.SetFace(aFF);
      aBF.SetContext(aCtx);
      aBF.SetShapes(aSE);
      // <-DEB
      aBF.Perform();
      //
      const TopTools_ListOfShape& aLF=aBF.Areas();
      aIt.Initialize(aLF);
      for (; aIt.More(); aIt.Next()) {
        TopoDS_Shape& aFR=aIt.Value();
        if (anOriF==TopAbs_REVERSED) {
          aFR.Orientation(TopAbs_REVERSED);
        }
        aLFR.Append(aFR);
      }
    }
    //
    // 2.3. Collect draft images Faces
    mySplitFaces.Bind(aF, aLFR);
  }//for (i=1; i<=aNbF; ++i)
}
Exemplo n.º 2
0
//=======================================================================
//function : PerformLoops
//purpose  : 
//=======================================================================
  void GEOMAlgo_BuilderFace::PerformLoops()
{
  myErrorStatus=0;
  //
  Standard_Boolean bFlag;
  Standard_Integer aNbEA;
  TopTools_ListIteratorOfListOfShape aIt;
  TopTools_MapIteratorOfMapOfOrientedShape aItM;
  TopTools_IndexedDataMapOfShapeListOfShape aVEMap;
  TopTools_MapOfOrientedShape aMAdded;
  TopoDS_Iterator aItW;
  BRep_Builder aBB; 
  GEOMAlgo_WireEdgeSet aWES;
  GEOMAlgo_WESCorrector aWESCor;
  //
  // 1. Usual Wires 
  myLoops.Clear();
  aWES.SetFace(myFace);
  //
  aIt.Initialize (myShapes);
  for (; aIt.More(); aIt.Next()) {
    const TopoDS_Shape& aE=aIt.Value();
    if (!myShapesToAvoid.Contains(aE)) {
      aWES.AddStartElement(aE);
    }
  }
  //
  aWESCor.SetWES(aWES);
  aWESCor.Perform();
  //
  GEOMAlgo_WireEdgeSet& aWESN=aWESCor.NewWES();
  const TopTools_ListOfShape& aLW=aWESN.Shapes();
  //
  aIt.Initialize (aLW);
  for (; aIt.More(); aIt.Next()) {
    const TopoDS_Shape& aW=aIt.Value();
    myLoops.Append(aW);
  }
  //modified by NIZNHY-PKV Tue Aug  5 15:09:29 2008f
  // Post Treatment
  TopTools_MapOfOrientedShape aMEP;
  // 
  // a. collect all edges that are in loops
  aIt.Initialize (myLoops);
  for (; aIt.More(); aIt.Next()) {
    const TopoDS_Shape& aW=aIt.Value();
    aItW.Initialize(aW);
    for (; aItW.More(); aItW.Next()) {
      const TopoDS_Shape& aE=aItW.Value();
      aMEP.Add(aE);
    }
  }
  // 
  // b. collect all edges that are to avoid
  aItM.Initialize(myShapesToAvoid);
  for (; aItM.More(); aItM.Next()) {
    const TopoDS_Shape& aE=aItM.Key();
    aMEP.Add(aE);
  }
  //
  // c. add all edges that are not processed to myShapesToAvoid
  aIt.Initialize (myShapes);
  for (; aIt.More(); aIt.Next()) {
    const TopoDS_Shape& aE=aIt.Value();
    if (!aMEP.Contains(aE)) {
      myShapesToAvoid.Add(aE);
    }
  }
  //modified by NIZNHY-PKV Tue Aug  5 15:09:35 2008t
  //
  // 2. Internal Wires
  myLoopsInternal.Clear();
  //
  aNbEA=myShapesToAvoid.Extent();
  aItM.Initialize(myShapesToAvoid);
  for (; aItM.More(); aItM.Next()) {
    const TopoDS_Shape& aEE=aItM.Key();
    TopExp::MapShapesAndAncestors(aEE, TopAbs_VERTEX, TopAbs_EDGE, aVEMap);
  }
  //
  bFlag=Standard_True;
  aItM.Initialize(myShapesToAvoid);
  for (; aItM.More()&&bFlag; aItM.Next()) {
    const TopoDS_Shape& aEE=aItM.Key();
    if (!aMAdded.Add(aEE)) {
      continue;
    }
    //
    // make new wire
    TopoDS_Wire aW;
    aBB.MakeWire(aW);
    aBB.Add(aW, aEE);
    //
    aItW.Initialize(aW);
    for (; aItW.More()&&bFlag; aItW.Next()) {
      const TopoDS_Edge& aE=TopoDS::Edge(aItW.Value());
      //
      TopoDS_Iterator aItE(aE);
      for (; aItE.More()&&bFlag; aItE.Next()) {
	const TopoDS_Vertex& aV = TopoDS::Vertex(aItE.Value());
	const TopTools_ListOfShape& aLE=aVEMap.FindFromKey(aV);
	aIt.Initialize(aLE);
	for (; aIt.More()&&bFlag; aIt.Next()) { 
	  const TopoDS_Shape& aEx=aIt.Value();
	  if (aMAdded.Add(aEx)) {
	    aBB.Add(aW, aEx);
	    if(aMAdded.Extent()==aNbEA) {
	      bFlag=!bFlag;
	    }
	  }
	}//for (; aIt.More(); aIt.Next()) { 
      }//for (; aItE.More(); aItE.Next()) {
    }//for (; aItW.More(); aItW.Next()) {
    myLoopsInternal.Append(aW);
  }//for (; aItM.More(); aItM.Next()) {
}