App::DocumentObjectExecReturn *FemMeshShapeNetgenObject::execute(void)
{
#ifdef FCWithNetgen

    Fem::FemMesh newMesh;

    Part::Feature *feat = Shape.getValue<Part::Feature*>();
    TopoDS_Shape shape = feat->Shape.getValue();

    NETGENPlugin_Mesher myNetGenMesher(newMesh.getSMesh(),shape,true);
    NETGENPlugin_Hypothesis* tet= new NETGENPlugin_Hypothesis(0,1,newMesh.getGenerator());
    tet->SetMaxSize(MaxSize.getValue());
    tet->SetSecondOrder(SecondOrder.getValue());
    tet->SetOptimize(Optimize.getValue());
    int iFineness = Fineness.getValue();
    tet->SetFineness((NETGENPlugin_Hypothesis::Fineness)iFineness);
    if(iFineness == 5){
        tet->SetGrowthRate(GrowthRate.getValue());
        tet->SetNbSegPerEdge(NbSegsPerEdge.getValue());
        tet->SetNbSegPerRadius(NbSegsPerRadius.getValue());
    }
    myNetGenMesher.SetParameters( tet);
    newMesh.getSMesh()->ShapeToMesh(shape);

    myNetGenMesher.Compute();

    // throw Base::RuntimeError("Compute Done\n");

    SMESHDS_Mesh* data = const_cast<SMESH_Mesh*>(newMesh.getSMesh())->GetMeshDS();
    const SMDS_MeshInfo& info = data->GetMeshInfo();
    int numFaces = data->NbFaces();
    int numNode = info.NbNodes();
  //int numTria = info.NbTriangles();
  //int numQuad = info.NbQuadrangles();
  //int numPoly = info.NbPolygons();
    int numVolu = info.NbVolumes();
  //int numTetr = info.NbTetras();
  //int numHexa = info.NbHexas();
  //int numPyrd = info.NbPyramids();
  //int numPris = info.NbPrisms();
  //int numHedr = info.NbPolyhedrons();

    Base::Console().Log("NetgenMesh: %i Nodes, %i Volumes, %i Faces\n",numNode,numVolu,numFaces);

      FemMesh.setValue(newMesh);
    return App::DocumentObject::StdReturn;
#else
    return new App::DocumentObjectExecReturn("The FEM module is built without NETGEN support. Meshing will not work!!!", this);
#endif
}
예제 #2
0
void ViewProviderFEMMeshBuilder::createMesh(const App::Property* prop, SoCoordinate3* coords, SoIndexedFaceSet* faces) const
{
    const Fem::PropertyFemMesh* mesh = static_cast<const Fem::PropertyFemMesh*>(prop);

    SMESHDS_Mesh* data = const_cast<SMESH_Mesh*>(mesh->getValue().getSMesh())->GetMeshDS();
    const SMDS_MeshInfo& info = data->GetMeshInfo();
    int numNode = info.NbNodes();
    int numTria = info.NbTriangles();
    int numQuad = info.NbQuadrangles();
    //int numPoly = info.NbPolygons();
    //int numVolu = info.NbVolumes();
    int numTetr = info.NbTetras();
    //int numHexa = info.NbHexas();
    //int numPyrd = info.NbPyramids();
    //int numPris = info.NbPrisms();
    //int numHedr = info.NbPolyhedrons();

    int index=0;
    std::map<const SMDS_MeshNode*, int> mapNodeIndex;

    // set the point coordinates
    coords->point.setNum(numNode);
    SMDS_NodeIteratorPtr aNodeIter = data->nodesIterator();
    unsigned int i=0;
    SbVec3f* verts = coords->point.startEditing();
    for (;aNodeIter->more();) {
        const SMDS_MeshNode* aNode = aNodeIter->next();
        verts[i++].setValue((float)aNode->X(),(float)aNode->Y(),(float)aNode->Z());
        mapNodeIndex[aNode] = index++;
    }
    coords->point.finishEditing();

    // set the face indices
    index=0;
    faces->coordIndex.setNum(4*numTria + 5*numQuad + 16*numTetr);
    int32_t* indices = faces->coordIndex.startEditing();
    SMDS_FaceIteratorPtr aFaceIter = data->facesIterator();
    for (;aFaceIter->more();) {
        const SMDS_MeshFace* aFace = aFaceIter->next();
        int num = aFace->NbNodes();
        if (num != 3 && num != 4)
            continue;
        for (int j=0; j<num;j++) {
            const SMDS_MeshNode* node = aFace->GetNode(j);
            indices[index++] = mapNodeIndex[node];
        }
        indices[index++] = SO_END_FACE_INDEX;
    }
    SMDS_VolumeIteratorPtr aVolIter = data->volumesIterator();
    for (;aVolIter->more();) {
        const SMDS_MeshVolume* aVol = aVolIter->next();
        int num = aVol->NbNodes();
        if (num != 4)
            continue;
        int i1 = mapNodeIndex[aVol->GetNode(0)];
        int i2 = mapNodeIndex[aVol->GetNode(1)];
        int i3 = mapNodeIndex[aVol->GetNode(2)];
        int i4 = mapNodeIndex[aVol->GetNode(3)];
        indices[index++] = i1;
        indices[index++] = i3;
        indices[index++] = i2;
        indices[index++] = SO_END_FACE_INDEX;
        indices[index++] = i1;
        indices[index++] = i2;
        indices[index++] = i4;
        indices[index++] = SO_END_FACE_INDEX;
        indices[index++] = i1;
        indices[index++] = i4;
        indices[index++] = i3;
        indices[index++] = SO_END_FACE_INDEX;
        indices[index++] = i2;
        indices[index++] = i3;
        indices[index++] = i4;
        indices[index++] = SO_END_FACE_INDEX;
    }
    faces->coordIndex.finishEditing();
}