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* Added a separate source and header file for OpenCascade Auxiliary functions which cannot be directly categorised under either geometry or mesh operations.
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libsrc/occ/occauxfunctions.cpp
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138
libsrc/occ/occauxfunctions.cpp
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#ifdef OCCGEOMETRY
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#include <mystdlib.h>
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#include <meshing.hpp>
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#include <occgeom.hpp>
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namespace netgen
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{
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void OCCAutoColourBcProps(Mesh & mesh, OCCGeometry & occgeometry)
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{
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TDF_LabelSequence all_colours;
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Array<int> faces_sorted;
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Array<int> colours_sorted;
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// Extract all the colours to see how many there are
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occgeometry.face_colours->GetColors(all_colours);
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PrintMessage(3,"\nNumber of colours defined in OCC Mesh: ", all_colours.Length());
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if(all_colours.Length() == 0)
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{
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PrintMessage(3,"No colour data detected in OCC Mesh... no changes made!");
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return;
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}
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// One more slot than the number of colours are required, to
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// account for individual faces which have no colour data
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// assigned to them in the CAD software
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faces_sorted.SetSize(all_colours.Length()+1);
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colours_sorted.SetSize(all_colours.Length()+1);
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faces_sorted = 0;
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// Slave Array to identify the colours the faces were assigned to,
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// after the bubble sort routine to sort the automatic boundary
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// identifiers according to the number of surface mesh elements
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// of a given colour
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for(int i = 0; i <= all_colours.Length(); i++) colours_sorted[i] = i;
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// Used to hold the number of surface elements without any OCC
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// colour definition
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int no_colour_faces = 0;
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// Index in the faces array assigned to faces without an
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// OCC Colour definition
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int no_colour_index = 0;
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int nfd = mesh.GetNFD();
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// Extract the number of surface elements having a given OCC colour
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// And save this number into an array for later sorting
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for(int face_index = 1; face_index <= nfd; face_index++)
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{
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Array<SurfaceElementIndex> se_face;
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mesh.GetSurfaceElementsOfFace(face_index, se_face);
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// Note: From the logic in file "occgenmesh.cpp", function "FindEdges"
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// the Face Descriptor Number of an OCC face has a one-to-one mapping
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// to the face number in the OCC face map (fmap)
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TopoDS_Face face = TopoDS::Face(occgeometry.fmap(face_index));
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Quantity_Color face_colour;
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if(occgeometry.face_colours->GetColor(face,XCAFDoc_ColorSurf,face_colour))
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{
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for(int i = 1; i <= all_colours.Length(); i++)
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{
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Quantity_Color ref_colour;
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occgeometry.face_colours->GetColor(all_colours.Value(i),ref_colour);
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if(face_colour == ref_colour)
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{
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faces_sorted[i] = faces_sorted[i] + se_face.Size();
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}
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}
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}
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else
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{
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// Add the number of surface elements without any colour
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// definition separately
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no_colour_faces = no_colour_faces + se_face.Size();
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}
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}
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// Sort the face colour indices according to the number of surface
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// mesh elements which have a specific colour
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BubbleSort(faces_sorted,colours_sorted);
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// Now update the array position assigned for surface elements
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// without any colour definition with the number of elements
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faces_sorted[no_colour_index] = no_colour_faces;
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// Now actually assign the BC Property to the respective faces
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for(int face_index = 1; face_index <= nfd; face_index++)
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{
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TopoDS_Face face = TopoDS::Face(occgeometry.fmap(face_index));
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Quantity_Color face_colour;
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if(occgeometry.face_colours->GetColor(face,XCAFDoc_ColorSurf,face_colour))
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{
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for(int i = 0; i < colours_sorted.Size(); i++)
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{
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Quantity_Color ref_colour;
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if(i != no_colour_index)
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occgeometry.face_colours->GetColor(all_colours.Value(colours_sorted[i]),ref_colour);
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if(face_colour == ref_colour)
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{
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mesh.GetFaceDescriptor(face_index).SetBCProperty(i);
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}
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}
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}
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else
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{
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mesh.GetFaceDescriptor(face_index).SetBCProperty(no_colour_index);
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}
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PrintMessage(4,"Face number: ",face_index," ; BC Property = ",mesh.GetFaceDescriptor(face_index).BCProperty());
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}
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// User Information of the results of the operation
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PrintMessage(3,"OCC Colour based Boundary Condition Property details:");
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for(int i = 0; i < faces_sorted.Size(); i++)
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{
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Quantity_Color ref_colour;
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ref_colour.SetValues(1.0,1.0,0.0,Quantity_TOC_RGB);
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if(colours_sorted[i] > 0) occgeometry.face_colours->GetColor(all_colours.Value(colours_sorted[i]),ref_colour);
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PrintMessage(3, "BC Property: ",i);
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PrintMessage(3, " Nr. of Surface Elements = ", faces_sorted[i]);
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PrintMessage(3, " OCC Colour Index = ", colours_sorted[i]);
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PrintMessage(3, " RGB Face Colour = (",ref_colour.Red(),","
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,ref_colour.Green(),","
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,ref_colour.Blue(),")","\n");
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}
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}
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}
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#endif // #ifdef OCCGEOMETRY
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libsrc/occ/occauxfunctions.hpp
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46
libsrc/occ/occauxfunctions.hpp
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#ifndef FILE_OCCAUXFUNCTIONS
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#define FILE_OCCAUXFUNCTIONS
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// Philippose - 14/03/2009
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// Auxiliary functions for OCC Geometry
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// Use this file and the corresponding ".cpp"
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// file to add miscellaneous functionality
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// to the OpenCascade Geometry support in Netgen
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namespace netgen
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{
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/*! \brief Automatically assign boundary conditions for OCC meshes
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This function allows the boundary condition numbers of a
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mesh created using an OpenCascade (STEP / IGES) geometry
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to be assigned automatically.
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The boundary conditions are assigned based on the face
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colour information (if any) contained in the geometry.
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Currently the following process is used to assign the BC Properties:
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- Extract all the colours present in the OCC Geometry
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- Use colour index 0 (zero) for all faces with no colour defined
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- Calculate the number of faces of the surface mesh for each colour
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- Sort the number of surface elements in ascending order, with the
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colour indices as a slave
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- Use the indices of the sorted array as the BC property number
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Example: If there are 3 colours, present in the file and the number
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of surface elements for each colour are:
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- Colour 0: 8500
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- Colour 1: 120
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- Colour 2: 2200
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- Colour 3: 575
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The above is sorted in ascending order and assigned as BC Properties:
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- BC Prop 0: 120 : Colour 1
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- BC Prop 1: 575 : Colour 3
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- BC Prop 2: 2200 : Colour 2
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- BC Prop 3: 8500 : Colour 0 (no colour defined)
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*/
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extern void OCCAutoColourBcProps(Mesh & mesh, OCCGeometry & occgeometry);
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}
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#endif
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