//=======================================================================
// function: FillSameDomainFaces
// purpose:
//=======================================================================
void GEOMAlgo_Builder::FillSameDomainFaces()
{
  Standard_Boolean bIsSDF, bHasImage1, bHasImage2, bForward;
  Standard_Integer i, j, aNbFF, nF1, nF2, aNbPBInOn, aNbC, aNbSE;
  Standard_Integer aNbF1, aNbF2, i2s, aNbSD;
  TopTools_MapOfShape aMFence;
  TopTools_ListOfShape aLX1, aLX2;
  TopTools_ListIteratorOfListOfShape aItF1, aItF2;
  NMTTools_ListOfCoupleOfShape aLCS;
  //
  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();
  //
  //
  //mySameDomainShapes.Clear();
  //
  // 1. For each FF find among images of faces
  //    all pairs of same domain faces (SDF) [=> aLCS]
  aNbFF=aFFs.Extent();
  for (i=1; i<=aNbFF; ++i) {
    BOPTools_SSInterference& aFF=aFFs(i);
    aFF.Indices(nF1, nF2);
    //
    const TopoDS_Face& aF1=TopoDS::Face(aDS.Shape(nF1));
    const TopoDS_Face& aF2=TopoDS::Face(aDS.Shape(nF2));
    //
    // if there are no in/on 2D split parts the faces nF1, nF2
    // can not be SDF
    const BOPTools_ListOfPaveBlock& aLPBInOn=aFF.PaveBlocks();
    aNbPBInOn=aLPBInOn.Extent();
    //
    //===
    const TColStd_ListOfInteger& aLSE=aFF.SharedEdges();
    aNbSE=aLSE.Extent();
    if (!aNbPBInOn && !aNbSE) {
      continue;
    }
    //===
    //
    // if there is at least one section edge between faces nF1, nF2
    // they can not be SDF
    BOPTools_SequenceOfCurves& aSC=aFF.Curves();
    aNbC=aSC.Length();
    if (aNbC) {
      continue;
    }
    //
    // the faces are suspected to be SDF.
    // Try to find SDF among images of nF1, nF2
    aMFence.Clear();
    //
    //--------------------------------------------------------
    bHasImage1=mySplitFaces.HasImage(aF1);
    bHasImage2=mySplitFaces.HasImage(aF2);
    //
    aLX1.Clear();
    if (!bHasImage1) {
      aLX1.Append(aF1);
    }
    //
    aLX2.Clear();
    if (!bHasImage2) {
      aLX2.Append(aF2);
    }
    //
    const TopTools_ListOfShape& aLF1r=(bHasImage1)? mySplitFaces.Image(aF1) : aLX1;
    const TopTools_ListOfShape& aLF2r=(bHasImage2)? mySplitFaces.Image(aF2) : aLX2;
    //
    TopTools_DataMapOfIntegerShape aMIS;
    TColStd_ListIteratorOfListOfInteger aItLI;
    NMTDS_BoxBndTreeSelector aSelector;
    NMTDS_BoxBndTree aBBTree;
    NCollection_UBTreeFiller <Standard_Integer, Bnd_Box> aTreeFiller(aBBTree);
    //
    aNbF1=aLF1r.Extent();
    aNbF2=aLF2r.Extent();
    bForward=(aNbF1<aNbF2);
    //
    const TopTools_ListOfShape& aLF1=bForward ? aLF1r : aLF2r;
    const TopTools_ListOfShape& aLF2=bForward ? aLF2r : aLF1r;
    //
    // 1. aTreeFiller
    aItF2.Initialize(aLF2);
    for (i2s=1; aItF2.More(); aItF2.Next(), ++i2s) {
      Bnd_Box aBoxF2s;
      //
      const TopoDS_Face& aF2s=*((TopoDS_Face*)(&aItF2.Value()));
      //
      BRepBndLib::Add(aF2s, aBoxF2s);
      //
      aMIS.Bind(i2s, aF2s);
      //
      aTreeFiller.Add(i2s, aBoxF2s);
    }//for (i2s=1; aItF2.More(); aItF2.Next(), ++i2s) {
    //
    aTreeFiller.Fill();
    //
    // 2.
    aItF1.Initialize(aLF1);
    for (j=1; aItF1.More(); aItF1.Next(), ++j) {
      Bnd_Box aBoxF1x;
      //
      const TopoDS_Face& aF1x=*((TopoDS_Face*)(&aItF1.Value()));
      //
      BRepBndLib::Add(aF1x, aBoxF1x);
      //
      aSelector.Clear();
      aSelector.SetBox(aBoxF1x);
      aNbSD=aBBTree.Select(aSelector);
      if (!aNbSD) {
        continue;
      }
      //
      const TColStd_ListOfInteger& aLI=aSelector.Indices();
      aItLI.Initialize(aLI);
      for (; aItLI.More(); aItLI.Next()) {
        i2s=aItLI.Value();
        const TopoDS_Face& aF2y=*((TopoDS_Face*)(&aMIS.Find(i2s)));
        //
        bIsSDF=NMTTools_Tools::AreFacesSameDomain(aF1x, aF2y, aCtx);
        if (bIsSDF) {
          if (aMFence.Contains(aF1x) || aMFence.Contains(aF2y)) {
            continue;
          }
          aMFence.Add(aF1x);
          aMFence.Add(aF2y);
          //
          NMTTools_CoupleOfShape aCS;
          //
          aCS.SetShape1(aF1x);
          aCS.SetShape2(aF2y);
          aLCS.Append(aCS);
          //
          if (bForward) {
            if (aF1x==aF1) {
              if (!mySplitFaces.HasImage(aF1)) {
                mySplitFaces.Bind(aF1, aF1);
              }
            }
            if (aF2y==aF2) {
              if (!mySplitFaces.HasImage(aF2)) {
                mySplitFaces.Bind(aF2, aF2);
              }
            }
          }
          else {
            if (aF1x==aF2) {
              if (!mySplitFaces.HasImage(aF2)) {
                mySplitFaces.Bind(aF2, aF2);
              }
            }
            if (aF2y==aF1) {
              if (!mySplitFaces.HasImage(aF1)) {
                mySplitFaces.Bind(aF1, aF1);
              }
            }
          }
          //
          break;
        }//if (bIsSDF) {
      }//for (; aItLI.More(); aItLI.Next()) {
    }//for (; aItF1.More(); aItF1.Next()) {
  }//for (i=1; i<=aNbFF; ++i)
  //-------------------------------------------------------------
  aNbC=aLCS.Extent();
  if (!aNbC) {
    return;
  }
  //
  // 2. Find Chains
  NMTTools_IndexedDataMapOfShapeIndexedMapOfShape aMC;
  //
  NMTTools_Tools::FindChains(aLCS, aMC);
  //
  Standard_Boolean bIsImage;
  Standard_Integer aIx, aIxMin, aNbMSDF, k, aNbMFj;
  TopoDS_Shape aFOld, aFSDmin;
  TopTools_IndexedMapOfShape aMFj;
  TopTools_DataMapOfShapeInteger aDMSI;
  //
  aItF1.Initialize(myShapes);
  for (j=1; aItF1.More(); aItF1.Next(), ++j) {
    const TopoDS_Shape& aSj=aItF1.Value();
    aMFj.Clear();
    TopExp::MapShapes(aSj, TopAbs_FACE, aMFj);
    aNbMFj=aMFj.Extent();
    for (k=1; k<=aNbMFj; ++k) {
      const TopoDS_Shape& aFk=aMFj(k);
      if (!aDMSI.IsBound(aFk)) {
	aDMSI.Bind(aFk, j);
      }
    }
  }
  //
  // 3. Fill the map of SDF mySameDomainFaces
  aNbC=aMC.Extent();
  for (i=1; i<=aNbC; ++i) {
   // const TopoDS_Shape& aF=aMC.FindKey(i);
    const TopTools_IndexedMapOfShape& aMSDF=aMC(i);
    //
    aNbMSDF=aMSDF.Extent();
    for (j=1; j<=aNbMSDF; ++j) {
      const TopoDS_Shape& aFSD=aMSDF(j);
      bIsImage=mySplitFaces.IsImage(aFSD);
      aFOld=aFSD;
      if (bIsImage) {
	aFOld=mySplitFaces.ImageFrom(aFSD);
      }
      //
      aIx=aDMSI.Find(aFOld);
      if (j==1) {
	aIxMin=aIx;
	aFSDmin=aFSD;
	continue;
      }
      else {
	if (aIx<aIxMin) {
	  aIxMin=aIx;
	  aFSDmin=aFSD;
	}
      }
    }
    //
    for (j=1; j<=aNbMSDF; ++j) {
      const TopoDS_Shape& aFSD=aMSDF(j);
      mySameDomainShapes.Add(aFSD, aFSDmin);
    }
  }
  //
}
Esempio n. 2
0
//=======================================================================
//function : FindFacePairs
//purpose  : 
//=======================================================================
Standard_Boolean FindFacePairs (const TopoDS_Edge& theE,
                                const TopTools_ListOfShape& thLF,
                                NMTTools_ListOfCoupleOfShape& theLCFF)
{
  Standard_Boolean bFound;
  Standard_Integer i, aNbCEF;
  TopAbs_Orientation aOr, aOrC;
  TopTools_MapOfShape aMFP;
  TopoDS_Face aF1, aF2;
  TopoDS_Edge aEL, aE1;
  TopTools_ListIteratorOfListOfShape aItLF;
  NMTTools_CoupleOfShape aCEF, aCFF;
  NMTTools_ListOfCoupleOfShape aLCEF, aLCEFx;
  NMTTools_ListIteratorOfListOfCoupleOfShape aIt;
  //
  bFound=Standard_True;
  //
  // Preface aLCEF
  aItLF.Initialize(thLF);
  for (; aItLF.More(); aItLF.Next()) { 
    const TopoDS_Face& aFL=TopoDS::Face(aItLF.Value());
    //
    bFound=GEOMAlgo_Tools3D::GetEdgeOnFace(theE, aFL, aEL);
    if (!bFound) {
      return bFound; // it can not be so
    }
    //
    aCEF.SetShape1(aEL);
    aCEF.SetShape2(aFL);
    aLCEF.Append(aCEF);
  }
  //
  aNbCEF=aLCEF.Extent();
  while(aNbCEF) {
    //
    // aLCEFx
    aLCEFx.Clear();
    aIt.Initialize(aLCEF);
    for (i=0; aIt.More(); aIt.Next(), ++i) {
      const NMTTools_CoupleOfShape& aCSx=aIt.Value();
      const TopoDS_Shape& aEx=aCSx.Shape1();
      const TopoDS_Shape& aFx=aCSx.Shape2();
      //
      aOr=aEx.Orientation();
      //
      if (!i) {
        aOrC=TopAbs::Reverse(aOr);
        aE1=TopoDS::Edge(aEx);
        aF1=TopoDS::Face(aFx);
        aMFP.Add(aFx);
        continue;
      }
      //
      if (aOr==aOrC) {
        aLCEFx.Append(aCSx);
        aMFP.Add(aFx);
      }
    }
    //
    // F2
    GEOMAlgo_Tools3D::GetFaceOff(aE1, aF1, aLCEFx, aF2);
    //
    aCFF.SetShape1(aF1);
    aCFF.SetShape2(aF2);
    theLCFF.Append(aCFF);
    //
    aMFP.Add(aF1);
    aMFP.Add(aF2);
    //
    // refine aLCEF
    aLCEFx.Clear();
    aLCEFx=aLCEF;
    aLCEF.Clear();
    aIt.Initialize(aLCEFx);
    for (; aIt.More(); aIt.Next()) {
      const NMTTools_CoupleOfShape& aCSx=aIt.Value();
      const TopoDS_Shape& aFx=aCSx.Shape2();
      if (!aMFP.Contains(aFx)) {
        aLCEF.Append(aCSx);
      }
    }
    //
    aNbCEF=aLCEF.Extent();
  }//while(aNbCEF) {
  //
  return bFound;
}