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https://github.com/NGSolve/netgen.git
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Merge branch 'occ_parameters_from_python' into 'master'
occ parameters from python, gui and meshsize parameters now the same See merge request jschoeberl/netgen!218
This commit is contained in:
commit
eb77dd284d
@ -989,7 +989,7 @@ namespace netgen
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void OCCSetLocalMeshSize(OCCGeometry & geom, Mesh & mesh,
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const MeshingParameters & mparam)
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const MeshingParameters & mparam, const OCCParameters& occparam)
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{
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mesh.SetGlobalH (mparam.maxh);
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mesh.SetMinimalH (mparam.minh);
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@ -1273,7 +1273,8 @@ namespace netgen
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int OCCGenerateMesh (OCCGeometry & geom, shared_ptr<Mesh> & mesh, MeshingParameters & mparam)
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int OCCGenerateMesh (OCCGeometry & geom, shared_ptr<Mesh> & mesh, MeshingParameters & mparam,
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const OCCParameters& occparam)
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{
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multithread.percent = 0;
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@ -1283,7 +1284,7 @@ namespace netgen
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mesh = make_shared<Mesh>();
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mesh->geomtype = Mesh::GEOM_OCC;
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OCCSetLocalMeshSize(geom,*mesh, mparam);
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OCCSetLocalMeshSize(geom,*mesh, mparam, occparam);
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}
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if (multithread.terminate || mparam.perfstepsend <= MESHCONST_ANALYSE)
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@ -1684,12 +1684,6 @@ void STEP_GetEntityName(const TopoDS_Shape & theShape, STEPCAFControl_Reader * a
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int OCCGeometry :: GenerateMesh (shared_ptr<Mesh> & mesh, MeshingParameters & mparam)
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{
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return OCCGenerateMesh (*this, mesh, mparam);
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}
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const Refinement & OCCGeometry :: GetRefinement () const
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@ -1697,20 +1691,6 @@ void STEP_GetEntityName(const TopoDS_Shape & theShape, STEPCAFControl_Reader * a
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return * new OCCRefinementSurfaces (*this);
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}
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OCCParameters :: OCCParameters()
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{
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resthcloseedgefac = 1;
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resthcloseedgeenable = 1;
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resthminedgelen = 0.001;
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resthminedgelenenable = 1;
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}
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void OCCParameters :: Print(ostream & ost) const
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{
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ost << "OCC Parameters:" << endl
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@ -1720,11 +1700,13 @@ void STEP_GetEntityName(const TopoDS_Shape & theShape, STEPCAFControl_Reader * a
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<< ", min len = " << resthminedgelen << endl;
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}
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DLL_HEADER extern OCCParameters occparam;
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OCCParameters occparam;
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OCCParameters occparam;
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int OCCGeometry :: GenerateMesh (shared_ptr<Mesh> & mesh, MeshingParameters & mparam)
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{
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return OCCGenerateMesh (*this, mesh, mparam, occparam);
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}
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}
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@ -404,26 +404,19 @@ namespace netgen
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public:
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/// Factor for meshing close edges
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double resthcloseedgefac;
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double resthcloseedgefac = 2.;
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/// Enable / Disable detection of close edges
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int resthcloseedgeenable;
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int resthcloseedgeenable = true;
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/// Minimum edge length to be used for dividing edges to mesh points
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double resthminedgelen;
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double resthminedgelen = 0.001;
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/// Enable / Disable use of the minimum edge length (by default use 1e-4)
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int resthminedgelenenable;
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/*!
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Default Constructor for the OpenCascade
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Mesh generation parameter set
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*/
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OCCParameters();
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int resthminedgelenenable = true;
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/*!
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Dump all the OpenCascade specific meshing parameters
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@ -439,16 +432,14 @@ namespace netgen
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DLL_HEADER OCCGeometry * LoadOCC_STEP (const char * filename);
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DLL_HEADER OCCGeometry * LoadOCC_BREP (const char * filename);
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DLL_HEADER extern OCCParameters occparam;
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// Philippose - 31.09.2009
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// External access to the mesh generation functions within the OCC
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// subsystem (Not sure if this is the best way to implement this....!!)
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DLL_HEADER extern int OCCGenerateMesh (OCCGeometry & occgeometry, shared_ptr<Mesh> & mesh,
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MeshingParameters & mparam);
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MeshingParameters & mparam, const OCCParameters& occparam);
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DLL_HEADER extern void OCCSetLocalMeshSize(OCCGeometry & geom, Mesh & mesh, const MeshingParameters & mparam);
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DLL_HEADER extern void OCCSetLocalMeshSize(OCCGeometry & geom, Mesh & mesh, const MeshingParameters & mparam,
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const OCCParameters& occparam);
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DLL_HEADER extern void OCCMeshSurface (OCCGeometry & geom, Mesh & mesh, int perfstepsend, MeshingParameters & mparam);
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@ -28,6 +28,7 @@ namespace netgen
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extern DLL_HEADER shared_ptr<NetgenGeometry> ng_geometry;
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extern DLL_HEADER shared_ptr<Mesh> mesh;
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extern DLL_HEADER MeshingParameters mparam;
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extern DLL_HEADER OCCParameters occparam;
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char * err_needsoccgeometry = (char*) "This operation needs an OCC geometry";
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extern char * err_needsmesh;
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@ -15,6 +15,45 @@ namespace netgen
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extern std::shared_ptr<NetgenGeometry> ng_geometry;
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}
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static string occparameter_description = R"delimiter(
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OCC Specific Meshing Parameters
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-------------------------------
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closeedgefac: Optional[float] = 1.
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Factor for meshing close edges, if None it is disabled.
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minedgelen: Optional[float] = 0.001
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Minimum edge length to be used for dividing edges to mesh points. If
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None this is disabled.
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)delimiter";
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void CreateOCCParametersFromKwargs(OCCParameters& occparam, py::dict kwargs)
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{
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if(kwargs.contains("closeedgefac"))
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{
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auto val = kwargs.attr("pop")("closeedgefac");
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if(val.is_none())
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occparam.resthcloseedgeenable = false;
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else
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{
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occparam.resthcloseedgefac = py::cast<double>(val);
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occparam.resthcloseedgeenable = true;
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}
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}
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if(kwargs.contains("minedgelen"))
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{
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auto val = kwargs.attr("pop")("minedgelen");
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if(val.is_none())
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occparam.resthminedgelenenable = false;
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else
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{
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occparam.resthminedgelen = py::cast<double>(val);
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occparam.resthminedgelenenable = true;
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}
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}
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}
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DLL_HEADER void ExportNgOCC(py::module &m)
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{
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@ -132,20 +171,27 @@ DLL_HEADER void ExportNgOCC(py::module &m)
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MeshingParameters* pars, py::kwargs kwargs)
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{
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MeshingParameters mp;
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if(pars) mp = *pars;
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OCCParameters occparam;
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{
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py::gil_scoped_acquire aq;
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if(pars)
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{
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auto mp_kwargs = CreateDictFromFlags(pars->geometrySpecificParameters);
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CreateOCCParametersFromKwargs(occparam, mp_kwargs);
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mp = *pars;
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}
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CreateOCCParametersFromKwargs(occparam, kwargs);
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CreateMPfromKwargs(mp, kwargs);
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}
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auto mesh = make_shared<Mesh>();
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SetGlobalMesh(mesh);
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mesh->SetGeometry(geo);
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ng_geometry = geo;
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geo->GenerateMesh(mesh,mp);
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OCCGenerateMesh(*geo, mesh, mp, occparam);
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return mesh;
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}, py::arg("mp") = nullptr,
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py::call_guard<py::gil_scoped_release>(),
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meshingparameter_description.c_str())
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(meshingparameter_description + occparameter_description).c_str())
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;
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m.def("LoadOCCGeometry",[] (const string & filename)
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@ -21,15 +21,21 @@ static string stlparameter_description = R"delimiter(
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STL Specific Meshing Parameters
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-------------------------------
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yangle: float =
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yangle: float = 30.
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Angle for edge detection
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contyangle: float =
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contyangle: float = 20.
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Edges continue if angle > contyangle
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edgecornerangle: float =
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edgecornerangle: float = 60.
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Angle of geometry edge at which the mesher should set a point.
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closeedgefac: Optional[float] = 1.
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Factor for meshing close edges, if None it is disabled.
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minedgelen: Optional[float] = 0.001
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Minimum edge length to be used for dividing edges to mesh points. If
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None this is disabled.
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)delimiter";
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void CreateSTLParametersFromKwargs(STLParameters& stlparam, py::dict kwargs)
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@ -235,7 +235,7 @@ class DLL_HEADER STLParameters
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public:
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/// angle for edge detection
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double yangle = 30.;
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double contyangle; //edges continued with contyangle
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double contyangle = 20.; //edges continued with contyangle
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/// angle of geometry edge at which the mesher should set a point
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double edgecornerangle = 60.;
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/// angle inside on chart
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@ -243,25 +243,25 @@ public:
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/// angle for overlapping parts of char
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double outerchartangle = 70.;
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/// 0 .. no, 1 .. local, (2 .. global)
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int usesearchtree;
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int usesearchtree = 0;
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///
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double resthatlasfac;
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bool resthatlasenable;
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double atlasminh;
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double resthatlasfac = 2.;
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bool resthatlasenable = true;
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double atlasminh = 0.1;
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double resthsurfcurvfac = 1.;
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double resthsurfcurvfac = 2.;
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bool resthsurfcurvenable = false;
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double resthchartdistfac = 1.5;
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double resthchartdistfac = 1.2;
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bool resthchartdistenable = true;
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double resthcloseedgefac = 2.;
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double resthcloseedgefac = 1.;
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bool resthcloseedgeenable = true;
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double resthedgeanglefac = 1.;
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bool resthedgeangleenable = false;
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double resthsurfmeshcurvfac = 2.;
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double resthsurfmeshcurvfac = 1.;
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bool resthsurfmeshcurvenable = false;
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double resthlinelengthfac = 0.5;
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@ -21,7 +21,11 @@
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#ifdef OCCGEOMETRY
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#include <occgeom.hpp>
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#endif
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namespace netgen
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{
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DLL_HEADER extern OCCParameters occparam;
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} // namespace netgen
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#endif // OCCGEOMETRY
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#include <nginterface.h>
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@ -859,7 +863,7 @@ namespace nglib
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// slate
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me->DeleteMesh();
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OCCSetLocalMeshSize(*occgeom, *me, mparam);
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OCCSetLocalMeshSize(*occgeom, *me, mparam, occparam);
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return(NG_OK);
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}
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@ -6,61 +6,66 @@ class _MeshsizeObject:
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return MeshingParameters(curvaturesafety=1,
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segmentsperedge=0.3,
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grading=0.7,
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resthsurfcurvfac=0.25,
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resthchartdistfac=0.8,
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resthlinelengthfac=0.2,
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resthcloseedgefac=0.5,
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resthminedgelen=0.002,
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resthedgeanglefac=0.25,
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resthsurfmeshcurvfac=1.)
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surfcurvfac=0.25,
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chartdistfac=0.8,
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linelengthfac=0.2,
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closeedgefac=0.5,
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minedgelen=0.002,
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edgeanglefac=0.25,
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surfmeshcurvfac=1.,
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optsteps3d=5)
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@property
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def coarse(self):
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return MeshingParameters(curvaturesafety=1.5,
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segmentsperedge=0.5,
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grading=0.5,
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resthsurfcurvfac=0.5,
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resthchartdistfac=1,
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resthlinelengthfac=0.35,
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resthcloseedgefac=1,
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resthminedgelen=0.02,
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resthedgeanglefac=0.5,
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resthsurfmeshcurvfac=1.5)
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surfcurvfac=0.5,
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chartdistfac=1,
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linelengthfac=0.35,
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closeedgefac=1,
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minedgelen=0.02,
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edgeanglefac=0.5,
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surfmeshcurvfac=1.5,
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optsteps3d=5)
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@property
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def moderate(self):
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return MeshingParameters(curvaturesafety=2,
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segmentsperedge=1,
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grading=0.3,
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resthsurfcurvfac=1.,
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resthchartdistfac=1.5,
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resthlinelengthfac=0.5,
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resthcloseedgefac=2,
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resthminedgelen=0.2,
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resthedgeanglefac=1,
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resthsurfmeshcurvfac=2.)
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surfcurvfac=1.,
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chartdistfac=1.5,
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linelengthfac=0.5,
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closeedgefac=2,
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minedgelen=0.2,
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edgeanglefac=1,
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surfmeshcurvfac=2.,
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optsteps3d=5)
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@property
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def fine(self):
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return MeshingParameters(curvaturesafety=3,
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segmentsperedge=2,
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grading=0.2,
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resthsurfcurvfac=1.5,
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resthchartdistfac=2,
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resthlinelengthfac=1.5,
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resthcloseedgefac=3.5,
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resthminedgelen=1.,
|
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resthedgeanglefac=1.5,
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resthsurfmeshcurvfac=3.)
|
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surfcurvfac=1.5,
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chartdistfac=2,
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linelengthfac=1.5,
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closeedgefac=3.5,
|
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minedgelen=1.,
|
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edgeanglefac=1.5,
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surfmeshcurvfac=3.,
|
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optsteps3d=5)
|
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|
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@property
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def very_fine(self):
|
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return MeshingParameters(curvaturesafety=5,
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segmentsperedge=3,
|
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grading=0.1,
|
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resthsurfcurvfac=3,
|
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resthchartdistfac=5,
|
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resthlinelengthfac=3,
|
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resthcloseedgefac=5,
|
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resthminedgelen=2.,
|
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resthedgeanglefac=3.,
|
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resthsurfmeshcurvfac=5.)
|
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surfcurvfac=3,
|
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chartdistfac=5,
|
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linelengthfac=3,
|
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closeedgefac=5,
|
||||
minedgelen=2.,
|
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edgeanglefac=3.,
|
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surfmeshcurvfac=5.,
|
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optsteps3d=5)
|
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|
||||
meshsize = _MeshsizeObject()
|
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|
@ -1,6 +1,6 @@
|
||||
cd
|
||||
mkdir -p build/netgen
|
||||
cd build/netgen
|
||||
cmake ../../src/netgen -DUSE_CCACHE=ON -DBUILD_TYPE=DEBUG -DENABLE_UNIT_TESTS=ON
|
||||
cmake ../../src/netgen -DUSE_CCACHE=ON -DBUILD_TYPE=DEBUG -DENABLE_UNIT_TESTS=ON -DUSE_OCC=ON
|
||||
make -j12
|
||||
make install
|
||||
|
@ -1,5 +1,5 @@
|
||||
FROM ubuntu:18.04
|
||||
ENV DEBIAN_FRONTEND=noninteractive
|
||||
MAINTAINER Matthias Hochsteger <matthias.hochsteger@tuwien.ac.at>
|
||||
RUN apt-get update && apt-get -y install python3 libpython3-dev libxmu-dev tk-dev tcl-dev cmake git g++ libglu1-mesa-dev ccache python3-pytest python3-numpy python3-tk clang-tidy python3-distutils clang
|
||||
RUN apt-get update && apt-get -y install python3 libpython3-dev libxmu-dev tk-dev tcl-dev cmake git g++ libglu1-mesa-dev ccache python3-pytest python3-numpy python3-tk clang-tidy python3-distutils clang liboce-ocaf-dev
|
||||
ADD . /root/src/netgen
|
||||
|
@ -1,36 +1,36 @@
|
||||
number_elements = {}
|
||||
number_elements['fichera.geo'] = (35,18,18,35,209,496)
|
||||
number_elements['shaft.geo'] = (2609,874,1775,2609,11282,64486)
|
||||
number_elements['revolution.geo'] = (9143,1252,3868,9143,33305,206010)
|
||||
number_elements['twocubes.geo'] = (42,22,22,42,177,595)
|
||||
number_elements['boxcyl.geo'] = (843,146,366,843,3739,18882)
|
||||
number_elements['ellipticcyl.geo'] = (2202,324,1106,2202,8311,55941)
|
||||
number_elements['trafo.geo'] = (5154,1358,2389,5154,17998,85820)
|
||||
number_elements['cylsphere.geo'] = (706,231,490,706,2797,17554)
|
||||
number_elements['cubeandspheres.geo'] = (98,100,98,98,366,1078)
|
||||
number_elements['manyholes2.geo'] = (128420)
|
||||
number_elements['cubeandring.geo'] = (2014,231,613,2014,7838,38997)
|
||||
number_elements['period.geo'] = (3262,616,1380,3262,11758,69618)
|
||||
number_elements['sphereincube.geo'] = (505,178,329,505,1665,14230)
|
||||
number_elements['cube.geo'] = (6,6,6,6,43,177)
|
||||
number_elements['sphere.geo'] = (126,56,80,126,347,2357)
|
||||
number_elements['cylsphere.geo'] = (706,241,520,706,2826,17819)
|
||||
number_elements['ellipticcone.geo'] = (4973,574,1774,4973,13530,71573)
|
||||
number_elements['ortho.geo'] = (6,6,6,6,43,179)
|
||||
number_elements['cylinder.geo'] = (404,101,282,404,1169,8164)
|
||||
number_elements['twocyl.geo'] = (578,158,419,578,1899,13712)
|
||||
number_elements['manyholes.geo'] = (176503,28935,70662)
|
||||
number_elements['ellipsoid.geo'] = (1271,551,595,1268,5607,38173)
|
||||
number_elements['manyholes2.geo'] = (128244)
|
||||
number_elements['sculpture.geo'] = (477,140,260,477,1330,6769)
|
||||
number_elements['ortho.geo'] = (6,6,6,6,34,180)
|
||||
number_elements['ellipticcone.geo'] = (4973,573,1765,4918,13410,70483)
|
||||
number_elements['cube.geo'] = (6,6,6,6,28,178)
|
||||
number_elements['twobricks.geo'] = (42,22,22,42,177,595)
|
||||
number_elements['lshape3d.geo'] = (18,12,12,18,93,324)
|
||||
number_elements['sculpture.geo'] = (477,140,260,477,1331,6816)
|
||||
number_elements['ellipsoid.geo'] = (1271,661,596,1271,5572,38616)
|
||||
number_elements['matrix.geo'] = (5209,1946,2817,5209,16398,102850)
|
||||
number_elements['cone.geo'] = (1215,501,698,1215,4437,27682)
|
||||
number_elements['cubemcyl.geo'] = (19712,3255,8345,19712,90496,536232)
|
||||
number_elements['revolution.geo'] = (8310,1249,3856,8269,33078,202941)
|
||||
number_elements['circle_on_cube.geo'] = (636,39,189,631,2035,12237)
|
||||
number_elements['sphereincube.geo'] = (508,173,339,515,1652,13829)
|
||||
number_elements['twocubes.geo'] = (42,22,22,42,177,595)
|
||||
number_elements['boundarycondition.geo'] = (39,22,22,39,165,508)
|
||||
number_elements['torus.geo'] = (5522,2530,2740,5522,25614,180197)
|
||||
number_elements['circle_on_cube.geo'] = (636,39,189,636,2056,12409)
|
||||
number_elements['cubemsphere.geo'] = (4737,776,1498,4737,17815,115493)
|
||||
number_elements['part1.stl'] = (1228,347,520,1804,4317,84101)
|
||||
number_elements['hinge.stl'] = (1995,789,1130,2612,6945,136803)
|
||||
number_elements['frame.step'] = (112262,43857,59126)
|
||||
number_elements['screw.step'] = (798,1521,7252)
|
||||
number_elements['ellipticcyl.geo'] = (2202,324,1106,2190,8245,55199)
|
||||
number_elements['trafo.geo'] = (5154,1358,2389,5141,17948,92850)
|
||||
number_elements['boxcyl.geo'] = (843,146,364,843,3700,18677)
|
||||
number_elements['sphere.geo'] = (126,56,80,126,347,2342)
|
||||
number_elements['torus.geo'] = (5520,2171,2739,5510,25402,177967)
|
||||
number_elements['shaft.geo'] = (2609,808,1666,2594,11226,64172)
|
||||
number_elements['cone.geo'] = (1215,447,678,1211,4404,27336)
|
||||
number_elements['cubeandring.geo'] = (2014,231,612,1988,7671,38095)
|
||||
number_elements['manyholes.geo'] = (176503,28896,70408)
|
||||
number_elements['period.geo'] = (3263,574,1349,3236,11645,68523)
|
||||
number_elements['lshape3d.geo'] = (18,12,12,18,93,335)
|
||||
number_elements['cubemsphere.geo'] = (4708,773,1460,4667,17655,114554)
|
||||
number_elements['twocyl.geo'] = (578,147,403,578,1887,13537)
|
||||
number_elements['cubemcyl.geo'] = (19712,3225,8153,19438,89202,524684)
|
||||
number_elements['matrix.geo'] = (5207,1888,2790,5149,16205,101146)
|
||||
number_elements['fichera.geo'] = (35,18,18,35,209,496)
|
||||
number_elements['cylinder.geo'] = (404,101,256,404,1161,8076)
|
||||
number_elements['part1.stl'] = (1228,620,727,1216,1548,3498)
|
||||
number_elements['hinge.stl'] = (1995,1399,1532,1987,2881,4621)
|
||||
number_elements['frame.step'] = (195213,30333,58955)
|
||||
number_elements['screw.step'] = (2021,7011,23730)
|
||||
|
Loading…
Reference in New Issue
Block a user