Add workflow to create MeshShape node by commando and use standard hypotheses for meshing (quad surface)

src/Mod/Fem/App/FemMeshShapeObject.cpp

@@ -27,37 +27,125 @@
 #endif
 
 #include "FemMeshShapeObject.h"
+#include "FemMesh.h"
 #include <App/DocumentObjectPy.h>
 #include <Base/Placement.h>
+#include <Mod/Part/App/PartFeature.h>
+
+#include <SMESH_Gen.hxx>
+#include <SMESH_Mesh.hxx>
+#include <SMDS_PolyhedralVolumeOfNodes.hxx>
+#include <SMDS_VolumeTool.hxx>
+#include <StdMeshers_MaxLength.hxx>
+#include <StdMeshers_LocalLength.hxx>
+#include <StdMeshers_MaxElementArea.hxx>
+#include <StdMeshers_NumberOfSegments.hxx>
+#include <StdMeshers_Deflection1D.hxx>
+#include <StdMeshers_Regular_1D.hxx>
+#include <StdMeshers_StartEndLength.hxx>
+#include <StdMeshers_QuadranglePreference.hxx>
+#include <StdMeshers_Quadrangle_2D.hxx>
+#include <StdMeshers_QuadraticMesh.hxx>
+
 
 using namespace Fem;
 using namespace App;
 
-PROPERTY_SOURCE(Fem::FemMeshShapeObject, Fem::FemMeshShapeObject)
+PROPERTY_SOURCE(Fem::FemMeshShapeObject, Fem::FemMeshObject)
 
 
 FemMeshShapeObject::FemMeshShapeObject()
 {
-    ADD_PROPERTY_TYPE(FemMesh,(), "FEM Mesh",Prop_None,"FEM Mesh object");
+    ADD_PROPERTY_TYPE(Shape,(0), "Shape",Prop_None,"Shape for the analysis");
 }
 
 FemMeshShapeObject::~FemMeshShapeObject()
 {
 }
 
-short FemMeshShapeObject::mustExecute(void) const
+App::DocumentObjectExecReturn *FemMeshShapeObject::execute(void) 
 {
-    return 0;
+    Fem::FemMesh newMesh;
+
+    Part::Feature *feat = Shape.getValue<Part::Feature*>();
+
+    
+    TopoDS_Shape shape = feat->Shape.getValue();
+    
+    newMesh.getSMesh()->ShapeToMesh(shape);
+    SMESH_Gen *myGen = newMesh.getGenerator();
+
+    int hyp=0;
+    SMESH_HypothesisPtr len(new StdMeshers_MaxLength(hyp++, 1, myGen));
+    static_cast<StdMeshers_MaxLength*>(len.get())->SetLength(1.0);
+    newMesh.addHypothesis(shape, len);
+
+    SMESH_HypothesisPtr loc(new StdMeshers_LocalLength(hyp++, 1, myGen));
+    static_cast<StdMeshers_LocalLength*>(loc.get())->SetLength(1.0);
+    newMesh.addHypothesis(shape, loc);
+
+    SMESH_HypothesisPtr area(new StdMeshers_MaxElementArea(hyp++, 1, myGen));
+    static_cast<StdMeshers_MaxElementArea*>(area.get())->SetMaxArea(1.0);
+    newMesh.addHypothesis(shape, area);
+
+    SMESH_HypothesisPtr segm(new StdMeshers_NumberOfSegments(hyp++, 1, myGen));
+    static_cast<StdMeshers_NumberOfSegments*>(segm.get())->SetNumberOfSegments(1);
+    newMesh.addHypothesis(shape, segm);
+
+    SMESH_HypothesisPtr defl(new StdMeshers_Deflection1D(hyp++, 1, myGen));
+    static_cast<StdMeshers_Deflection1D*>(defl.get())->SetDeflection(0.01);
+    newMesh.addHypothesis(shape, defl);
+
+    SMESH_HypothesisPtr reg(new StdMeshers_Regular_1D(hyp++, 1, myGen));
+    newMesh.addHypothesis(shape, reg);
+
+    //SMESH_HypothesisPtr sel(new StdMeshers_StartEndLength(hyp++, 1, myGen));
+    //static_cast<StdMeshers_StartEndLength*>(sel.get())->SetLength(1.0, true);
+    //newMesh.addHypothesis(shape, sel;
+
+    SMESH_HypothesisPtr qdp(new StdMeshers_QuadranglePreference(hyp++,1,myGen));
+    newMesh.addHypothesis(shape, qdp);
+
+    SMESH_HypothesisPtr q2d(new StdMeshers_Quadrangle_2D(hyp++,1,myGen));
+    newMesh.addHypothesis(shape, q2d);
+
+    // create mesh
+    newMesh.compute();
+
+    
+    SMESHDS_Mesh* data = const_cast<SMESH_Mesh*>(newMesh.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();
+
+    // set the value to the object
+    FemMesh.setValue(newMesh);
+
+    
+    return App::DocumentObject::StdReturn;
 }
 
-PyObject *FemMeshShapeObject::getPyObject()
-{
-    if (PythonObject.is(Py::_None())){
-        // ref counter is set to 1
-        PythonObject = Py::Object(new DocumentObjectPy(this),true);
-    }
-    return Py::new_reference_to(PythonObject); 
-}
+//short FemMeshShapeObject::mustExecute(void) const
+//{
+//    return 0;
+//}
+
+//PyObject *FemMeshShapeObject::getPyObject()
+//{
+//    if (PythonObject.is(Py::_None())){
+//        // ref counter is set to 1
+//        PythonObject = Py::Object(new DocumentObjectPy(this),true);
+//    }
+//    return Py::new_reference_to(PythonObject); 
+//}
 
 void FemMeshShapeObject::onChanged(const Property* prop)
 {