*/
void SetOptimizationLevel(in short level) raises (SALOME::SALOME_Exception);
short GetOptimizationLevel();
+ /*!
+ * Algorithm selection: 0-MGTetra HPC, 1-MGTetra
+ */
+ void SetAlgorithm(in short level) raises (SALOME::SALOME_Exception);
+ short GetAlgorithm();
+ /*!
+ * Set use number of threads
+ */
+ void SetUseNumOfThreads(in boolean setThread) raises (SALOME::SALOME_Exception);
+ boolean GetUseNumOfThreads();
+ /*!
+ * Set number of threads to use
+ */
+ void SetNumOfThreads(in short numThreads);
+ short GetNumOfThreads();
+ /*!
+ * PThreadMode defined for MGTetra
+ */
+ void SetPthreadMode(in short pThreadMode) raises (SALOME::SALOME_Exception);
+ short GetPthreadMode();
+ /*!
+ * ParallelMode defined for MGTetra HPC
+ */
+ void SetParallelMode(in short parallelMode) raises (SALOME::SALOME_Exception);
+ short GetParallelMode();
/*!
* Path to working directory
*/
GHS3DPlugin_OptimizerHypothesis.hxx
GHS3DPlugin_OptimizerHypothesis_i.hxx
MG_Tetra_API.hxx
+ MG_TetraHPC_API.hxx
)
# --- sources ---
GHS3DPlugin_OptimizerHypothesis.cxx
GHS3DPlugin_OptimizerHypothesis_i.cxx
MG_Tetra_API.cxx
+ MG_TetraHPC_API.cxx
)
# --- scripts ---
#include "GHS3DPlugin_GHS3D.hxx"
#include "GHS3DPlugin_Hypothesis.hxx"
#include "MG_Tetra_API.hxx"
+#include "MG_TetraHPC_API.hxx"
#include <SMDS_FaceOfNodes.hxx>
#include <SMDS_LinearEdge.hxx>
return true;
}
+
//=============================================================================
/*!
*Here we are going to use the MG-Tetra mesher with geometry
*/
//=============================================================================
-
bool GHS3DPlugin_GHS3D::Compute(SMESH_Mesh& theMesh,
- const TopoDS_Shape& theShape)
+ const TopoDS_Shape& theShape )
+{
+ bool isMGTetra = _hyp->GetAlgorithm() == GHS3DPlugin_Hypothesis::MGTetra;
+
+ if ( isMGTetra )
+ return ComputeMGTetra( theMesh, theShape );
+ else
+ return ComputeMGTetraHPC( theMesh, theShape );
+}
+
+bool GHS3DPlugin_GHS3D::ComputeMGTetra(SMESH_Mesh& theMesh,
+ const TopoDS_Shape& theShape)
{
bool Ok(false);
TopExp_Explorer expBox ( theShape, TopAbs_SOLID );
return Ok;
}
+bool GHS3DPlugin_GHS3D::ComputeMGTetraHPC(SMESH_Mesh& theMesh,
+ const TopoDS_Shape& /*theShape*/)
+{
+ SMESH_MesherHelper helper( theMesh );
+ bool ok = ComputeMGTetraHPC( theMesh, &helper );
+ return ok;
+}
+
//=============================================================================
/*!
*Here we are going to use the MG-Tetra mesher w/o geometry
*/
-//=============================================================================
+//================================0=============================================
bool GHS3DPlugin_GHS3D::Compute(SMESH_Mesh& theMesh,
- SMESH_MesherHelper* theHelper)
+ SMESH_MesherHelper* theHelper )
+{
+ bool isMGTetra = _hyp->GetAlgorithm() == GHS3DPlugin_Hypothesis::MGTetra;
+
+ if ( isMGTetra )
+ return ComputeMGTetra( theMesh, theHelper );
+ else
+ return ComputeMGTetraHPC( theMesh, theHelper );
+
+}
+
+bool GHS3DPlugin_GHS3D::ComputeMGTetra(SMESH_Mesh& theMesh,
+ SMESH_MesherHelper* theHelper)
{
theHelper->IsQuadraticSubMesh( theHelper->GetSubShape() );
return Ok;
}
+//=============================================================================
+// Write a skin mesh into a GMF file or pass it to MG-TetraHPC API
+static void exportGMFHPC( MG_TetraHPC_API* theTetraInput,
+ const char* theFile,
+ const SMESHDS_Mesh* theMeshDS)
+{
+ int meshID = theTetraInput->GmfOpenMesh( theFile, GmfWrite, GMFVERSION, GMFDIMENSION);
+
+ // nodes
+ int iN = 0, nbNodes = theMeshDS->NbNodes();
+ theTetraInput->GmfSetKwd( meshID, GmfVertices, nbNodes );
+ std::map< const SMDS_MeshNode*, int, TIDCompare > node2IdMap;
+ SMDS_NodeIteratorPtr nodeIt = theMeshDS->nodesIterator();
+ SMESH_TNodeXYZ n;
+ while ( nodeIt->more() )
+ {
+ n.Set( nodeIt->next() );
+ theTetraInput->GmfSetLin( meshID, GmfVertices, n.X(), n.Y(), n.Z(), n._node->getshapeId() );
+ node2IdMap.insert( node2IdMap.end(), std::make_pair( n._node, ++iN ));
+ }
+
+ // triangles
+ SMDS_ElemIteratorPtr elemIt = theMeshDS->elementGeomIterator( SMDSGeom_TRIANGLE );
+ if ( elemIt->more() )
+ {
+ int nbTria = theMeshDS->GetMeshInfo().NbElements( SMDSGeom_TRIANGLE );
+ theTetraInput->GmfSetKwd(meshID, GmfTriangles, nbTria );
+ for ( int gmfID = 1; elemIt->more(); ++gmfID )
+ {
+ const SMDS_MeshElement* tria = elemIt->next();
+ theTetraInput->GmfSetLin(meshID, GmfTriangles,
+ node2IdMap[ tria->GetNode( 0 )],
+ node2IdMap[ tria->GetNode( 1 )],
+ node2IdMap[ tria->GetNode( 2 )],
+ tria->getshapeId() );
+ }
+ }
+ theTetraInput->GmfCloseMesh( meshID );
+}
+
+
+//=======================================================================
+//before launching salome
+//SALOME_TMP_DIR (for keep tepal intermediates files) could be set in user's directories
+static TCollection_AsciiString getTmpDir()
+{
+ TCollection_AsciiString aTmpDir;
+ char *Tmp_dir = getenv("SALOME_TMP_DIR");
+ if (Tmp_dir == NULL) Tmp_dir = getenv("TMP");
+ if(Tmp_dir != NULL)
+ {
+ aTmpDir = Tmp_dir;
+#ifdef WIN32
+ if(aTmpDir.Value(aTmpDir.Length()) != '\\') aTmpDir+='\\';
+#else
+ if(aTmpDir.Value(aTmpDir.Length()) != '/') aTmpDir+='/';
+#endif
+ }
+ else
+ {
+#ifdef WIN32
+ aTmpDir = TCollection_AsciiString("C:\\");
+#else
+ aTmpDir = TCollection_AsciiString("/tmp/");
+#endif
+ }
+ return aTmpDir;
+}
+
+bool GHS3DPlugin_GHS3D::ComputeMGTetraHPC(SMESH_Mesh& theMesh,
+ SMESH_MesherHelper* /*theHelper*/)
+{
+ bool Ok=false;
+ TCollection_AsciiString pluginerror("MG-TETRA_HPC: ");
+ SMESHDS_Mesh* meshDS = theMesh.GetMeshDS();
+ if ( theMesh.NbTriangles() == 0 )
+ return error( COMPERR_BAD_INPUT_MESH, "From MGTetra-HPC. No triangles in the mesh" );
+
+ if (_hyp == NULL){
+ pluginerror += "No existing parameters/hypothesis for MG-TETRA_HPC";
+ cout <<"\n"<<pluginerror<<"\n\n";
+ error(COMPERR_ALGO_FAILED, pluginerror.ToCString() );
+ return false;
+ }
+
+ // Not changing values
+ std::string _MEDName = "DOMAIN\0";
+ bool verbose = _hyp ? !_hyp->HasOptionDefined("verbose") : true;
+ bool proximity = _hyp->GetUseVolumeProximity();
+ bool _Multithread = _hyp->GetUseNumOfThreads();
+ double minSize = _hyp->GetMinSize();
+ double maxSize = _hyp->GetMaxSize();
+
+ TCollection_AsciiString
+ tmpDir = getTmpDir(),
+ GHS3DPRL_In,
+ GHS3DPRL_Out,
+ GHS3DPRL_Out_Mesh,
+ GHS3DPRL_Outxml,
+ logFileName,
+ rm("rm -f "),
+ run_nokeep_files,
+ NbPart,
+ fileskinmed(""),
+ path,
+ casenamemed; //_MEDName.c_str());
+
+ casenamemed += (char *)_MEDName.c_str();
+ int n = casenamemed.SearchFromEnd('/');
+
+ if (n>0) {
+ path=casenamemed.SubString(1,n);
+ casenamemed=casenamemed.SubString(n+1,casenamemed.Length());
+ }
+ else
+ path=tmpDir;
+
+ if (casenamemed.Length()>20){
+ casenamemed=casenamemed.SubString(1,20);
+ cerr<<"MEDName truncated (no more 20 characters) = "<<casenamemed<<endl;
+ }
+
+ _genericName = GHS3DPlugin_Hypothesis::GetFileNameHPC(_hyp);
+ TCollection_AsciiString aGenericName((char*) _genericName.c_str() );
+ GHS3DPRL_In = aGenericName + ".mesh";
+ GHS3DPRL_Out = path + casenamemed;
+ GHS3DPRL_Out_Mesh = aGenericName + "_out.mesh";
+ GHS3DPRL_Outxml = path + casenamemed + ".xml"; //master file
+ logFileName = aGenericName + ".log"; // MG library output
+ NbPart = 8;
+
+ run_nokeep_files = rm + GHS3DPRL_In + "* " + path + "tetrahpc.log";
+ system( run_nokeep_files.ToCString() ); //clean files
+ run_nokeep_files = rm + GHS3DPRL_In + "* ";
+ removeFile( GHS3DPRL_Outxml ); //only the master xml file
+
+ MG_TetraHPC_API mgTetraHPC( _computeCanceled, _progress );
+
+ cout << GHS3DPRL_In.ToCString() << endl;
+ exportGMFHPC( &mgTetraHPC, GHS3DPRL_In.ToCString(), meshDS );
+ cout << GHS3DPRL_In.ToCString() << endl;
+ // if ( true /*useLib*/ )
+ // {
+ TCollection_AsciiString cmd = TCollection_AsciiString();
+ std::string _AdvOptions;
+
+ if (_Multithread)
+ cmd += "mg-tetra_hpc.exe";
+ else
+ cmd = cmd + "mpirun --n " + NbPart + " mg-tetra_hpc_mpi.exe";
+
+ cmd = cmd + " --in=" + GHS3DPRL_In;
+
+ if (_Multithread)
+ {
+ cmd = cmd + " --max_number_of_threads " + SMESH_Comment( _hyp->GetNumOfThreads() );
+
+ const char* parallelMode[] = { "none", "reproducible_given_max_number_of_threads", "reproducible", "aggressive" };
+ const short myMode = _hyp->GetParallelMode();
+ if ( myMode >= 0 && myMode < 4 ) {
+ cmd += " --parallel_mode ";
+ cmd += parallelMode[ myMode ];
+ }
+ }
+
+ cmd = cmd + " --gradation " + SMESH_Comment( _hyp->GetGradation() );
+
+ const char* optimizationLevel[] = { "none" , "light" , "standard" , "standard+" , "strong" };
+ const short myOpt = _hyp->GetOptimizationLevel();
+ if ( myOpt >= 0 && myOpt < 5 && myOpt != 3 /*not standard+ for HPC*/) {
+ cmd += " --optimisation_level ";
+ cmd += optimizationLevel[ myOpt ];
+ }
+
+ if ( minSize > 0 ) cmd = cmd + " --min_size " + SMESH_Comment( minSize );
+ if ( maxSize > 0 ) cmd = cmd + " --max_size " + SMESH_Comment( maxSize );
+ if ( verbose ) cmd = cmd + " --verbose " + SMESH_Comment( _hyp->GetVerboseLevel() );
+ if ( proximity ) cmd = cmd + " --volume_proximity_layers " + SMESH_Comment( _hyp->GetNbVolumeProximityLayers() );
+
+ _hyp->SetAdvancedOptionsInCommandLine( _AdvOptions, false );
+ cmd = cmd + " " + _AdvOptions.c_str();
+ cmd = cmd + " --out=" + GHS3DPRL_Out_Mesh;
+ cmd = cmd + " 1>" + logFileName;
+
+ cout << endl
+ << " Run mg-tetra_hpc as library. Creating a mesh file " << GHS3DPRL_Out_Mesh << endl
+ << " Creating a log file : " << logFileName << endl << endl;
+
+ mgTetraHPC.SetLogFile( logFileName.ToCString() );
+
+ std::string log;
+ Ok = mgTetraHPC.Compute( cmd.ToCString(), log );
+
+ if (!Ok)
+ {
+ std::cout << "Error: " << std::endl;
+ std::cout << log << std::endl;
+ // try to guess an error from the output log
+ std::string log2 = mgTetraHPC.GetLog();
+ if ( log2.find("Dlim" ) != std::string::npos ||
+ log2.find("License") != std::string::npos )
+ return error("License problem");
+ std::cout << log2 << std::endl;
+ if ( log2.find("You are using an empty MPI stubs library") != std::string::npos )
+ {
+ std:string msg = "You are using an empty MPI stubs library. Please build it first to be able to use mg-tetra_hpc_mpi.exe.\n";
+ msg += "./salome context\n";
+ msg += "cd $MESHGEMSHOME/stubs\n";
+ msg += "mpicc meshgems_mpi.c -DMESHGEMS_LINUX_BUILD -I../include -shared -fPIC -o $MESHGEMSHOME/lib/Linux_64/libmeshgems_mpi.so";
+ return error(msg);
+ }
+ return error(log);
+ }
+
+ if (!_Multithread)
+ {
+ fileskinmed=path + casenamemed + "_skin.med";
+ cout<<" Write file "<<fileskinmed<<"...";
+ theMesh.ExportMED(fileskinmed.ToCString(),"SKIN_INITIAL",true);
+ cout<<" ...done\n\n";
+ }
+
+ // Call to tetrahpc2med program is not defined here!
+ // Check the real need for calling this program in production!!!
+
+ // ... continue the original code!
+ if (_Multithread)
+ {
+ // check the med file has been created (only one med file, since multithread)
+ TCollection_AsciiString resuMedFile = TCollection_AsciiString(path) + casenamemed + "_1.med";
+ SMESH_File file( resuMedFile.ToCString() );
+ if (file.exists() && file.size() > 0)
+ {
+ Ok = true;
+ pluginerror = pluginerror + "MG-tetra_hpc mesh not loaded in memory, is stored in file "+ resuMedFile;
+ cout<<pluginerror<<endl;
+ error(COMPERR_WARNING, pluginerror.ToCString() );
+ if (!_keepFiles) system( run_nokeep_files.ToCString() );
+ }
+ }
+ else
+ {
+ // read a result, GHS3DPRL_Outxml is the name of master file (previous xml format)
+ FILE * aResultFile = fopen( GHS3DPRL_Outxml.ToCString(), "r" );
+ if (aResultFile){
+ Ok = true;
+ fclose(aResultFile);
+ cout<<"MG-TETRA_HPC OK output master file "<<casenamemed<<".xml exist !\n\n";
+ pluginerror = pluginerror + "MG-tetra_hpc meshes not loaded in memory, are stored in files "+ path + casenamemed + "_*.med";
+ cout<<pluginerror<<endl;
+ error(COMPERR_WARNING, pluginerror.ToCString() );
+ if (!_keepFiles) system( run_nokeep_files.ToCString() );
+ }
+ else{
+ Ok = false; //it is a problem AND my message is NOT overwritten
+ pluginerror = pluginerror + "output master file " + casenamemed + ".xml do not exist";
+ cout<<pluginerror<<endl;
+ error(COMPERR_ALGO_FAILED, pluginerror.ToCString() );
+ cout<<"MG-TETRA_HPC KO output files "<<GHS3DPRL_Out<<" do not exist ! see intermediate files kept:\n";
+ TCollection_AsciiString run_list_files("ls -alt ");
+ run_list_files += GHS3DPRL_Out + "* " + GHS3DPRL_In + "* " + logFileName;
+ system( run_list_files.ToCString() );
+ cout<<endl;
+ }
+ }
+ return Ok;
+}
+
void GHS3DPlugin_GHS3D::CancelCompute()
{
_computeCanceled = true;
virtual bool CheckHypothesis(SMESH_Mesh& aMesh,
const TopoDS_Shape& aShape,
Hypothesis_Status& aStatus);
-
- virtual bool Compute(SMESH_Mesh& aMesh,
- const TopoDS_Shape& aShape);
-
virtual void CancelCompute();
bool computeCanceled() { return _computeCanceled; }
virtual bool Evaluate(SMESH_Mesh& aMesh, const TopoDS_Shape& aShape,
MapShapeNbElems& aResMap);
+ virtual bool Compute(SMESH_Mesh& aMesh,
+ const TopoDS_Shape& aShape);
+
virtual bool Compute(SMESH_Mesh& theMesh,
SMESH_MesherHelper* aHelper);
+ bool ComputeMGTetra(SMESH_Mesh& aMesh,
+ const TopoDS_Shape& aShape);
+
+ bool ComputeMGTetraHPC(SMESH_Mesh& aMesh,
+ const TopoDS_Shape& aShape);
+
+ bool ComputeMGTetra(SMESH_Mesh& theMesh,
+ SMESH_MesherHelper* aHelper);
+
+ bool ComputeMGTetraHPC(SMESH_Mesh& theMesh,
+ SMESH_MesherHelper* aHelper);
+
virtual void SubmeshRestored(SMESH_subMesh* subMesh);
virtual void SetEventListener(SMESH_subMesh* subMesh);
myGradation(DefaultGradation()),
myUseVolumeProximity(DefaultUseVolumeProximity()),
myNbVolumeProximityLayers(DefaultNbVolumeProximityLayers()),
+ myAlgorithm(DefaultAlgorithm()),
+ myNumOfThreads(DefaultNumOfThreads()),
+ myUseNumOfThreads(false),
+ myPthreadModeMG(0),
+ myPthreadModeMGHPC(0),
myMinSize(0),
myMinSizeDefault(0),
myMaxSize(0),
"" // mark of end
};
const char* intOptionNames[] = { "max_number_of_errors_printed", // 1
- "max_number_of_threads", // 4
"" // mark of end
};
const char* doubleOptionNames[] = { "target_quality", // 0
"sliver_angle", // 5
"" // mark of end
};
- const char* charOptionNames[] = { "pthreads_mode", // ""
- "boundary_regeneration", // standard
+ const char* charOptionNames[] = { "boundary_regeneration", // standard
"split_overconstrained_tetrahedra", // no
"" // mark of end
};
-
+ _commonMGTetraAdvancedOptions = { "split_overconstrained_tetrahedra" };
int i = 0;
while (boolOptionNames[i][0])
{
_defaultOptionValues["rectify_jacobian" ] = "yes";
_defaultOptionValues["jacobian_rectification_respect_input_surface_mesh"] = "yes";
_defaultOptionValues["max_number_of_errors_printed" ] = "1";
- _defaultOptionValues["max_number_of_threads" ] = "4";
_defaultOptionValues["target_quality" ] = "";//NoValue();
_defaultOptionValues["sliver_angle" ] = "5";
- _defaultOptionValues["pthreads_mode" ] = "";//NoValue();
_defaultOptionValues["boundary_regeneration" ] = "standard";
_defaultOptionValues["split_overconstrained_tetrahedra" ] = "no";
}
//=======================================================================
-//function : GetToCreateNewNodes
+//function : SetAlgorithm
+//=======================================================================
+void GHS3DPlugin_Hypothesis::SetAlgorithm(ImplementedAlgorithms algoId)
+{
+ if ( myAlgorithm != algoId ) {
+ myAlgorithm = algoId;
+ NotifySubMeshesHypothesisModification();
+ }
+}
+
+//=======================================================================
+//function : short GetAlgorithm() const;
+
+//=======================================================================
+GHS3DPlugin_Hypothesis::ImplementedAlgorithms GHS3DPlugin_Hypothesis::GetAlgorithm() const
+{
+ return (ImplementedAlgorithms) myAlgorithm;
+}
+
+//=======================================================================
+//function : SetPthreadMode
+//=======================================================================
+void GHS3DPlugin_Hypothesis::SetPthreadMode(PThreadMode pThreadsMode )
+{
+ if ( myPthreadModeMG != pThreadsMode ) {
+ myPthreadModeMG = pThreadsMode;
+ NotifySubMeshesHypothesisModification();
+ }
+}
+
+//=======================================================================
+//function : short GetPthreadMode() const;
+
+//=======================================================================
+GHS3DPlugin_Hypothesis::PThreadMode GHS3DPlugin_Hypothesis::GetPthreadMode() const
+{
+ return (PThreadMode)myPthreadModeMG;
+}
+
+//=======================================================================
+//function : SetParallelMode
+//=======================================================================
+void GHS3DPlugin_Hypothesis::SetParallelMode(ParallelMode parallelMode )
+{
+ if ( myPthreadModeMGHPC != parallelMode ) {
+ myPthreadModeMGHPC = parallelMode;
+ NotifySubMeshesHypothesisModification();
+ }
+}
+
+//=======================================================================
+//function : short GetParallelMode() const;
+
//=======================================================================
+GHS3DPlugin_Hypothesis::ParallelMode GHS3DPlugin_Hypothesis::GetParallelMode() const
+{
+ return (ParallelMode)myPthreadModeMGHPC;
+}
+
+//=======================================================================
+//function : SetUseNumOfThreads
+//=======================================================================
+void GHS3DPlugin_Hypothesis::SetUseNumOfThreads(bool setUseOfThreads)
+{
+ if ( myUseNumOfThreads != setUseOfThreads ) {
+ myUseNumOfThreads = setUseOfThreads;
+ NotifySubMeshesHypothesisModification();
+ }
+}
+
+//=======================================================================
+//function : bool GetUseNumOfThreads() const;
+
+//=======================================================================
+bool GHS3DPlugin_Hypothesis::GetUseNumOfThreads() const
+{
+ return myUseNumOfThreads;
+}
+
+//=======================================================================
+//function : SetNumOfThreads
+//=======================================================================
+void GHS3DPlugin_Hypothesis::SetNumOfThreads(short numOfThreads)
+{
+ if ( myNumOfThreads != numOfThreads ) {
+ myNumOfThreads = numOfThreads;
+ NotifySubMeshesHypothesisModification();
+ }
+}
+
+//=======================================================================
+//function : short GetUseNumOfThreads() const;
+
+//=======================================================================
+short GHS3DPlugin_Hypothesis::GetNumOfThreads() const
+{
+ return myNumOfThreads;
+}
+//=======================================================================
+//function : GetToCreateNewNodes
+//=======================================================================
bool GHS3DPlugin_Hypothesis::GetToCreateNewNodes() const
{
return myToCreateNewNodes;
return true;
}
+void GHS3DPlugin_Hypothesis::SetAdvancedOptionsInCommandLine( std::string & cmd, bool isMGTetra ) const
+{
+ std::string option, value;
+ bool isDefault;
+ const TOptionValues* options[] = { & this->_option2value, & this->_customOption2value };
+ for ( int iOp = 0; iOp < 2; ++iOp )
+ {
+ TOptionValues::const_iterator o2v = options[iOp]->begin();
+ for ( ; o2v != options[iOp]->end(); ++o2v )
+ {
+ option = o2v->first;
+ value = this->GetOptionValue( option, &isDefault );
+ std::cout << option << ", " << value << std::endl;
+
+ if ( isDefault )
+ continue;
+
+ if ( value.empty() )//value == NoValue() )
+ {
+ if ( this->_defaultOptionValues.count( option ))
+ continue; // non-custom option with no value
+ //value.clear();
+ }
+
+ if ( strncmp( "no", option.c_str(), 2 ) == 0 ) // options w/o values: --no_*
+ {
+ if ( !value.empty() && ToBool( value ) == false )
+ continue;
+ value.clear();
+ }
+
+ if ( option[0] != '-' )
+ cmd += " --";
+ else
+ cmd += " ";
+ cmd += option + " " + value;
+ }
+ }
+}
+
//================================================================================
/*!
* \brief Return command to run MG-Tetra mesher excluding file prefix (-f)
cmd += " --internalpoints no";
}
- // verbose mode
- if ( verbose && hyp ) {
- cmd += " --verbose " + SMESH_Comment( hyp->myVerboseLevel );
- }
+ if ( hyp )
+ {
+ // verbose mode
+ if ( verbose ) {
+ cmd += " --verbose " + SMESH_Comment( hyp->myVerboseLevel );
+ }
- // boundary recovery version
- // if ( useBndRecovery ) {
- // cmd += " -C";
- // }
+ // boundary recovery version
+ // if ( useBndRecovery ) {
+ // cmd += " -C";
+ // }
- // to use FEM correction
- // if ( fem && hyp && hyp->myToUseFemCorrection) {
- // cmd += " -FEM";
- // }
+ // to use FEM correction
+ // if ( fem && hyp && hyp->myToUseFemCorrection) {
+ // cmd += " -FEM";
+ // }
- // to remove initial central point.
- if ( rem && hyp && hyp->myToRemoveCentralPoint ) {
- if ( forExecutable )
- cmd += " --no_initial_central_point";
- else
- cmd += " --centralpoint no";
- }
+ // to remove initial central point.
+ if ( rem && hyp->myToRemoveCentralPoint ) {
+ if ( forExecutable )
+ cmd += " --no_initial_central_point";
+ else
+ cmd += " --centralpoint no";
+ }
+
+ // options as text
+ // if ( !hyp->myTextOption.empty() ) {
+ // cmd += " " + hyp->myTextOption;
+ // }
- // options as text
- // if ( hyp && !hyp->myTextOption.empty() ) {
- // cmd += " " + hyp->myTextOption;
- // }
- // min/max size
- if ( hyp )
- {
if ( hyp->GetMinSize() > 0 )
cmd += " --min_size " + SMESH_Comment( hyp->GetMinSize() );
+
if ( hyp->GetMaxSize() > 0 )
cmd += " --max_size " + SMESH_Comment( hyp->GetMaxSize() );
- }
- // to define volumic gradation.
- if ( gra && hyp )
- {
- cmd += " --gradation " + SMESH_Comment( hyp->myGradation );
- }
+ // to define volumic gradation.
+ if ( gra )
+ cmd += " --gradation " + SMESH_Comment( hyp->myGradation );
- if ( hyp )
- {
- // proximity
- if ( hyp->GetUseVolumeProximity() )
+ if ( hyp->GetUseNumOfThreads() )
{
- cmd += " --volume_proximity_layers " + SMESH_Comment( hyp->GetNbVolumeProximityLayers() );
+ cmd += " --max_number_of_threads " + SMESH_Comment( hyp->GetNumOfThreads() );
+ const char* pthreadMode[] = { "none" , "aggressive" , "safe" };
+ if ( hyp->myPthreadModeMG >= 0 && hyp->myPthreadModeMG < 3 ) {
+ cmd += " --pthreads_mode ";
+ cmd += pthreadMode[ hyp->myPthreadModeMG ];
+ }
}
- std::string option, value;
- bool isDefault;
- const TOptionValues* options[] = { & hyp->_option2value, & hyp->_customOption2value };
- for ( int iOp = 0; iOp < 2; ++iOp )
+ // proximity
+ if ( hyp->GetUseVolumeProximity() )
{
- TOptionValues::const_iterator o2v = options[iOp]->begin();
- for ( ; o2v != options[iOp]->end(); ++o2v )
- {
- option = o2v->first;
- value = hyp->GetOptionValue( option, &isDefault );
-
- if ( isDefault )
- continue;
- if ( value.empty() )//value == NoValue() )
- {
- if ( hyp->_defaultOptionValues.count( option ))
- continue; // non-custom option with no value
- //value.clear();
- }
- if ( strncmp( "no", option.c_str(), 2 ) == 0 ) // options w/o values: --no_*
- {
- if ( !value.empty() && ToBool( value ) == false )
- continue;
- value.clear();
- }
- if ( option[0] != '-' )
- cmd += " --";
- else
- cmd += " ";
- cmd += option + " " + value;
- }
+ cmd += " --volume_proximity_layers " + SMESH_Comment( hyp->GetNbVolumeProximityLayers() );
}
+
+ hyp->SetAdvancedOptionsInCommandLine( cmd, true );
}
#ifdef WIN32
//================================================================================
/*!
- * \brief Return a unique file name
+ * \brief Return a unique file name for MGTetra
*/
//================================================================================
return aGenericName.ToCString();
}
+//================================================================================
+/*!
+ * \brief Return a unique file name when running MGTetra HPC
+ */
+//================================================================================
+
+std::string GHS3DPlugin_Hypothesis::GetFileNameHPC(const GHS3DPlugin_Hypothesis* hyp)
+{
+ std::string aTmpDir = hyp ? hyp->GetWorkingDirectory() : DefaultWorkingDirectory();
+ if ( !SMESH_File( aTmpDir ).exists() )
+ aTmpDir = Kernel_Utils::GetTmpDirByPath( aTmpDir );
+
+ const char lastChar = *aTmpDir.rbegin();
+#ifdef WIN32
+ if(lastChar != '\\') aTmpDir+='\\';
+#else
+ if(lastChar != '/') aTmpDir+='/';
+#endif
+
+ TCollection_AsciiString aGenericName = (char*)aTmpDir.c_str();
+ aGenericName += "MGTETRAHPC_";
+ aGenericName += getpid();
+ aGenericName += "_";
+ aGenericName += Abs((Standard_Integer)(long) aGenericName.ToCString());
+
+ return aGenericName.ToCString();
+}
+
//================================================================================
/*
* Return the name of executable
*/
void SetVerboseLevel(short level);
short GetVerboseLevel() const;
+ /*!
+ * Implemented algorithms to be executed [0,1]
+ * 0 - MGTetra-HPC
+ * 1 - MGTetra
+ */
+ enum ImplementedAlgorithms { MGTetraHPC = 0, MGTetra };
+ void SetAlgorithm(ImplementedAlgorithms algoId);
+ ImplementedAlgorithms GetAlgorithm() const;
+ /*!
+ * Set Get for flag to use pthread parallel version of the algorithm
+ */
+ void SetUseNumOfThreads(bool setUseOfThreads);
+ bool GetUseNumOfThreads() const;
+ /*!
+ * Set Get num of threads to be used by MGTetra algorithms
+ */
+ void SetNumOfThreads(short numOfThreads);
+ short GetNumOfThreads() const;
+ /*!
+ * Set Get pthread mode used for MGTetra
+ */
+ enum PThreadMode { PThreadNone = 0, PThreadAggressive, Safe };
+ void SetPthreadMode(PThreadMode pthreadMode );
+ PThreadMode GetPthreadMode() const;
+ /*!
+ * Set Get paralle mode used for MGTetra HPC
+ */
+ enum ParallelMode { ParallelNone = 0, ReproducibleGivenMaxNumThreads, Reproducible, ParallelAggressive };
+ void SetParallelMode(ParallelMode parallelMode );
+ ParallelMode GetParallelMode() const;
/*!
* To create new nodes
*/
void ClearOption(const std::string& optionName);
TOptionValues GetOptionValues() const;
const TOptionValues& GetCustomOptionValues() const { return _customOption2value; }
- //static inline const char* NoValue() { return "_"; }
+ /*!
+ * \brief To set the advanced options in the execution command line
+ */
+ void SetAdvancedOptionsInCommandLine( std::string & cmd, bool isMGTetra ) const;
+ //static inline const char* NoValue() { return "_"; }
// struct TEnforcedEdge {
// long ID;
// long node1;
// long node2;
// std::string groupName;
// };
-
-
/*!
* \brief Return command to run MG-Tetra mesher excluding file prefix (-f)
*/
* \brief Return a unique file name
*/
static std::string GetFileName(const GHS3DPlugin_Hypothesis* hyp);
+ /*!
+ * \brief Return a unique file name for MGTetraHPC will have a GHS3D prefix
+ */
+ static std::string GetFileNameHPC(const GHS3DPlugin_Hypothesis* hyp);
/*!
* \brief Return the name of executable
*/
static inline double DefaultGradation() { return 1.05; }
static bool DefaultUseVolumeProximity() { return false; }
static int DefaultNbVolumeProximityLayers() { return 2; }
+ static short DefaultAlgorithm() { return MGTetra; }
+ static short DefaultNumOfThreads() { return 4; }
void SetMinMaxSizeDefault( double theMinSize, double theMaxSize )
{ myMinSizeDefault = theMinSize; myMaxSizeDefault = theMaxSize; }
double myMinSize, myMinSizeDefault;
double myMaxSize, myMaxSizeDefault;
//std::string myTextOption;
+ short myAlgorithm; //member used to pivot between MG-Tetra and MG-Tetra
+ bool myUseNumOfThreads;
+ short myNumOfThreads;
+ short myPthreadModeMG;
+ short myPthreadModeMGHPC;
TOptionValues _option2value, _customOption2value; // user defined values
TOptionValues _defaultOptionValues; // default values
- TOptionNames _doubleOptions, _charOptions, _boolOptions; // to find a type of option
+ TOptionNames _doubleOptions, _charOptions, _boolOptions; // to find a type of option
+ std::vector<std::string> _commonMGTetraAdvancedOptions; // common advanced options for MGTetra and MGTetraHPC
TGHS3DEnforcedVertexList _enfVertexList;
TGHS3DEnforcedVertexCoordsValues _enfVertexCoordsSizeList;
return this->GetImpl()->GetOptimizationLevel();
}
+//=======================================================================
+//function : SetAlgorithm
+//=======================================================================
+void GHS3DPlugin_Hypothesis_i::SetAlgorithm(CORBA::Short algoId)
+{
+ ::GHS3DPlugin_Hypothesis::ImplementedAlgorithms algo = (::GHS3DPlugin_Hypothesis::ImplementedAlgorithms) algoId;
+ ASSERT(myBaseImpl);
+ this->GetImpl()->SetAlgorithm(algo);
+ SMESH::TPythonDump() << _this() << ".SetAlgorithm( " << algoId << " )";
+}
+
+//=======================================================================
+//function : GetAlgorithm
+//=======================================================================
+CORBA::Short GHS3DPlugin_Hypothesis_i::GetAlgorithm()
+{
+ ASSERT(myBaseImpl);
+ return this->GetImpl()->GetAlgorithm();
+}
+
+//=======================================================================
+//function : SetUseNumOfThreads
+//=======================================================================
+void GHS3DPlugin_Hypothesis_i::SetUseNumOfThreads(CORBA::Boolean setThread)
+{
+ ASSERT(myBaseImpl);
+ this->GetImpl()->SetUseNumOfThreads(setThread);
+ SMESH::TPythonDump() << _this() << ".SetUseNumOfThreads( " << setThread << " )";
+}
+
+//=======================================================================
+//function : GetUseNumOfThreads
+//=======================================================================
+CORBA::Boolean GHS3DPlugin_Hypothesis_i::GetUseNumOfThreads()
+{
+ ASSERT(myBaseImpl);
+ return this->GetImpl()->GetUseNumOfThreads();
+}
+
+//=======================================================================
+//function : SetNumOfThreads
+//=======================================================================
+void GHS3DPlugin_Hypothesis_i::SetNumOfThreads(CORBA::Short numOfThreads)
+{
+ ASSERT(myBaseImpl);
+ this->GetImpl()->SetNumOfThreads(numOfThreads);
+ SMESH::TPythonDump() << _this() << ".SetNumOfThreads( " << numOfThreads << " )";
+}
+
+//=======================================================================
+//function : GetNumOfThreads
+//=======================================================================
+CORBA::Short GHS3DPlugin_Hypothesis_i::GetNumOfThreads()
+{
+ ASSERT(myBaseImpl);
+ return this->GetImpl()->GetNumOfThreads();
+}
+
+//=======================================================================
+//function : SetNumOfThreads
+//=======================================================================
+void GHS3DPlugin_Hypothesis_i::SetPthreadMode(CORBA::Short pThreadMode)
+{
+ ::GHS3DPlugin_Hypothesis::PThreadMode mode = (::GHS3DPlugin_Hypothesis::PThreadMode) pThreadMode;
+ ASSERT(myBaseImpl);
+ this->GetImpl()->SetPthreadMode(mode);
+ SMESH::TPythonDump() << _this() << ".SetPthreadMode( " << pThreadMode << " )";
+}
+
+//=======================================================================
+//function : GetNumOfThreads
+//=======================================================================
+CORBA::Short GHS3DPlugin_Hypothesis_i::GetPthreadMode()
+{
+ ASSERT(myBaseImpl);
+ return this->GetImpl()->GetPthreadMode();
+}
+
+//=======================================================================
+//function : SetNumOfThreads
+//=======================================================================
+void GHS3DPlugin_Hypothesis_i::SetParallelMode(CORBA::Short parallelMode)
+{
+ ::GHS3DPlugin_Hypothesis::ParallelMode mode = (::GHS3DPlugin_Hypothesis::ParallelMode) parallelMode;
+ ASSERT(myBaseImpl);
+ this->GetImpl()->SetParallelMode(mode);
+ SMESH::TPythonDump() << _this() << ".SetParallelMode( " << parallelMode << " )";
+}
+
+//=======================================================================
+//function : GetNumOfThreads
+//=======================================================================
+CORBA::Short GHS3DPlugin_Hypothesis_i::GetParallelMode()
+{
+ ASSERT(myBaseImpl);
+ return this->GetImpl()->GetParallelMode();
+}
+
//=======================================================================
//function : SetWorkingDirectory
//=======================================================================
*/
void SetOptimizationLevel(CORBA::Short level);
CORBA::Short GetOptimizationLevel();
+ /*!
+ * Algorithm Id: 0-MGTetra HPC, 1-MGTetra
+ */
+ void SetAlgorithm(CORBA::Short algoId);
+ CORBA::Short GetAlgorithm();
+ /*!
+ * Flag for set get optional use parallelism in MGTetra
+ */
+ void SetUseNumOfThreads(CORBA::Boolean useThreads);
+ CORBA::Boolean GetUseNumOfThreads();
+ /*!
+ * Get set number of threads to use on the parallel MGTetra algorithm
+ */
+ void SetNumOfThreads(CORBA::Short numThreads);
+ CORBA::Short GetNumOfThreads();
+ /*!
+ * PthreadMode: 0-PThreadNone, 1-PThreadAggressive, 2-Safe
+ */
+ void SetPthreadMode(CORBA::Short pThreadMode);
+ CORBA::Short GetPthreadMode();
+ /*!
+ * SetParallelMode level: 0-ParallelNone, 1-ReproducibleGivenMaxNumThreads, 2-Reproducible, 3-ParallelAggressive
+
+ */
+ void SetParallelMode(CORBA::Short parallelMode);
+ CORBA::Short GetParallelMode();
/*!
* Path to working directory
*/
--- /dev/null
+// Copyright (C) 2004-2022 CEA/DEN, EDF R&D
+//
+// This library is free software; you can redistribute it and/or
+// modify it under the terms of the GNU Lesser General Public
+// License as published by the Free Software Foundation; either
+// version 2.1 of the License, or (at your option) any later version.
+//
+// This library is distributed in the hope that it will be useful,
+// but WITHOUT ANY WARRANTY; without even the implied warranty of
+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+// Lesser General Public License for more details.
+//
+// You should have received a copy of the GNU Lesser General Public
+// License along with this library; if not, write to the Free Software
+// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+//
+// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
+//
+
+#include "MG_TetraHPC_API.hxx"
+
+#include <SMESH_Comment.hxx>
+#include <SMESH_File.hxx>
+#include <SMESH_MGLicenseKeyGen.hxx>
+#include <Utils_SALOME_Exception.hxx>
+
+#include <cstring>
+#include <iostream>
+#include <iterator>
+#include <vector>
+
+#ifdef USE_MG_LIBS
+
+extern "C"{
+#include <meshgems/meshgems.h>
+#include <meshgems/tetra_hpc.h>
+}
+
+struct MG_TetraHPC_API::LibData
+{
+ // MG objects
+ context_t * _context;
+ tetra_hpc_session_t * _session;
+ mesh_t * _tria_mesh;
+ sizemap_t * _sizemap;
+ mesh_t * _tetra_mesh;
+
+ // data to pass to MG
+ std::vector<double> _xyz;
+ std::vector<double> _nodeSize; // required nodes
+ std::vector<int> _edgeNodes;
+ int _nbRequiredEdges;
+ std::vector<int> _triaNodes;
+ int _nbRequiredTria;
+
+ int _count;
+ volatile bool& _cancelled_flag;
+ std::string _errorStr;
+ double& _progress;
+
+ LibData( volatile bool & cancelled_flag, double& progress )
+ : _context(0), _session(0), _tria_mesh(0), _sizemap(0), _tetra_mesh(0),
+ _nbRequiredEdges(0), _nbRequiredTria(0),
+ _cancelled_flag( cancelled_flag ), _progress( progress )
+ {
+ }
+ // methods setting callbacks implemented after callback definitions
+ void Init();
+ bool Compute( const std::string& outFile );
+
+ ~LibData()
+ {
+ if ( _tetra_mesh )
+ tetra_hpc_regain_mesh( _session, _tetra_mesh );
+ if ( _session )
+ tetra_hpc_session_delete( _session );
+ if ( _tria_mesh )
+ mesh_delete( _tria_mesh );
+ if ( _sizemap )
+ sizemap_delete( _sizemap );
+ if ( _context )
+ context_delete( _context );
+
+ _tetra_mesh = 0;
+ _session = 0;
+ _tria_mesh = 0;
+ _sizemap = 0;
+ _context = 0;
+ }
+
+ void AddError( const char *txt )
+ {
+ if ( txt )
+ _errorStr += txt;
+ }
+
+ const std::string& GetErrors()
+ {
+ return _errorStr;
+ }
+
+ void MG_Error(const char* txt="")
+ {
+ SMESH_Comment msg("\nMeshGems error. ");
+ msg << txt << "\n";
+ AddError( msg.c_str() );
+ }
+
+ bool SetParam( const std::string& param, const std::string& value )
+ {
+ status_t ret = tetra_hpc_set_param( _session, param.c_str(), value.c_str() );
+#ifdef _DEBUG_
+ //std::cout << param << " = " << value << std::endl;
+#endif
+ return ( ret == STATUS_OK );
+ }
+
+ bool Cancelled()
+ {
+ return _cancelled_flag;
+ }
+
+ int ReadNbSubDomains()
+ {
+ integer nb = 0;
+ status_t ret = mesh_get_subdomain_count( _tetra_mesh, & nb );
+
+ if ( ret != STATUS_OK ) MG_Error("mesh_get_subdomain_count problem");
+ return nb;
+ }
+
+ int ReadNbNodes()
+ {
+ integer nb = 0;
+ status_t ret = mesh_get_vertex_count( _tetra_mesh, & nb );
+
+ if ( ret != STATUS_OK ) MG_Error("mesh_get_vertex_count problem");
+ return nb;
+ }
+
+ int ReadNbEdges()
+ {
+ integer nb = 0;
+ status_t ret = mesh_get_edge_count( _tetra_mesh, & nb );
+
+ if ( ret != STATUS_OK ) MG_Error("mesh_get_edge_count problem");
+ return nb;
+ }
+
+ int ReadNbTria()
+ {
+ integer nb = 0;
+ status_t ret = mesh_get_triangle_count( _tetra_mesh, & nb );
+
+ if ( ret != STATUS_OK ) MG_Error("mesh_get_triangle_count problem");
+ return nb;
+ }
+
+ int ReadNbQuads()
+ {
+ integer nb = 0;
+ status_t ret = mesh_get_quadrangle_count( _tetra_mesh, & nb );
+
+ if ( ret != STATUS_OK ) MG_Error("mesh_get_quadrangle_count problem");
+ return nb;
+ }
+
+ int ReadNbTetra()
+ {
+ integer nb = 0;
+ status_t ret = mesh_get_tetrahedron_count( _tetra_mesh, & nb );
+
+ if ( ret != STATUS_OK ) MG_Error("mesh_get_tetrahedron_count problem");
+ return nb;
+ }
+
+ int ReadNbHexa()
+ {
+ integer nb = 0;
+ status_t ret = mesh_get_hexahedron_count( _tetra_mesh, & nb );
+
+ if ( ret != STATUS_OK ) MG_Error("mesh_get_hexahedron_count problem");
+ return nb;
+ }
+
+ void ResetCounter()
+ {
+ _count = 1;
+ }
+
+ void ReadSubDomain( int* nbNodes, int* faceInd, int* ori, int* domain )
+ {
+ integer tag, seed_type, seed_idx, seed_orientation;
+ status_t ret = mesh_get_subdomain_description( _tetra_mesh, _count,
+ &tag, &seed_type, &seed_idx, &seed_orientation);
+
+ if ( ret != STATUS_OK ) MG_Error( "unable to get a sub-domain description");
+
+ *nbNodes = 3;
+ *faceInd = seed_idx;
+ *domain = tag;
+ *ori = seed_orientation;
+
+ ++_count;
+ }
+ void ReadNodeXYZ( double* x, double* y, double *z, int* /*domain*/ )
+ {
+ real coo[3];
+ status_t ret = mesh_get_vertex_coordinates( _tetra_mesh, _count, coo );
+ if ( ret != STATUS_OK ) MG_Error( "unable to get resulting vertices" );
+
+ *x = coo[0];
+ *y = coo[1];
+ *z = coo[2];
+
+ ++_count;
+ }
+
+ void ReadEdgeNodes( int* node1, int* node2, int* domain )
+ {
+ integer vtx[2], tag;
+ status_t ret = mesh_get_edge_vertices( _tetra_mesh, _count, vtx);
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting edge" );
+
+ *node1 = vtx[0];
+ *node2 = vtx[1];
+
+ ret = mesh_get_edge_tag( _tetra_mesh, _count, &tag );
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting edge tag" );
+
+ *domain = tag;
+
+ ++_count;
+ }
+
+ void ReadTriaNodes( int* node1, int* node2, int* node3, int* domain )
+ {
+ integer vtx[3], tag;
+ status_t ret = mesh_get_triangle_vertices( _tetra_mesh, _count, vtx);
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting triangle" );
+
+ *node1 = vtx[0];
+ *node2 = vtx[1];
+ *node3 = vtx[2];
+
+ ret = mesh_get_triangle_tag( _tetra_mesh, _count, &tag );
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting triangle tag" );
+
+ *domain = tag;
+
+ ++_count;
+ }
+
+ void ReadQuadNodes( int* node1, int* node2, int* node3, int* node4, int* domain )
+ {
+ integer vtx[4], tag;
+ status_t ret = mesh_get_quadrangle_vertices( _tetra_mesh, _count, vtx);
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting quadrangle" );
+
+ *node1 = vtx[0];
+ *node2 = vtx[1];
+ *node3 = vtx[2];
+ *node4 = vtx[3];
+
+ ret = mesh_get_quadrangle_tag( _tetra_mesh, _count, &tag );
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting quadrangle tag" );
+
+ *domain = tag;
+
+ ++_count;
+ }
+
+ void ReadTetraNodes( int* node1, int* node2, int* node3, int* node4, int* domain )
+ {
+ integer vtx[4], tag;
+ status_t ret = mesh_get_tetrahedron_vertices( _tetra_mesh, _count, vtx);
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting tetrahedron" );
+
+ *node1 = vtx[0];
+ *node2 = vtx[1];
+ *node3 = vtx[2];
+ *node4 = vtx[3];
+
+ ret = mesh_get_tetrahedron_tag( _tetra_mesh, _count, &tag );
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting tetrahedron tag" );
+
+ *domain = tag;
+
+ ++_count;
+ }
+
+ void ReadHexaNodes( int* node1, int* node2, int* node3, int* node4,
+ int* node5, int* node6, int* node7, int* node8, int* domain )
+ {
+ integer vtx[8], tag;
+ status_t ret = mesh_get_hexahedron_vertices( _tetra_mesh, _count, vtx);
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting hexahedron" );
+
+ *node1 = vtx[0];
+ *node2 = vtx[1];
+ *node3 = vtx[2];
+ *node4 = vtx[3];
+ *node5 = vtx[4];
+ *node6 = vtx[5];
+ *node7 = vtx[6];
+ *node8 = vtx[7];
+
+ ret = mesh_get_hexahedron_tag( _tetra_mesh, _count, &tag );
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting hexahedron tag" );
+
+ *domain = tag;
+
+ ++_count;
+ }
+
+ void SetNbVertices( int nb )
+ {
+ _xyz.reserve( _xyz.capacity() + nb );
+ }
+
+ void SetNbEdges( int nb )
+ {
+ _edgeNodes.reserve( nb * 2 );
+ }
+
+ void SetNbTria( int nb )
+ {
+ _triaNodes.reserve( nb * 3 );
+ }
+
+ void SetNbReqVertices( int nb )
+ {
+ _nodeSize.reserve( nb );
+ }
+
+ void SetNbReqEdges( int nb )
+ {
+ _nbRequiredEdges = nb;
+ }
+
+ void SetNbReqTria( int nb )
+ {
+ _nbRequiredTria = nb;
+ }
+
+ void AddNode( double x, double y, double z, int /*domain*/ )
+ {
+ _xyz.push_back( x );
+ _xyz.push_back( y );
+ _xyz.push_back( z );
+ }
+
+ void AddSizeAtNode( double size )
+ {
+ _nodeSize.push_back( size );
+ }
+
+ void AddEdgeNodes( int node1, int node2, int /*domain*/ )
+ {
+ _edgeNodes.push_back( node1 );
+ _edgeNodes.push_back( node2 );
+ }
+
+ void AddTriaNodes( int node1, int node2, int node3, int /*domain*/ )
+ {
+ _triaNodes.push_back( node1 );
+ _triaNodes.push_back( node2 );
+ _triaNodes.push_back( node3 );
+ }
+
+ int NbNodes()
+ {
+ return _xyz.size() / 3;
+ }
+
+ double* NodeCoord( int iNode )
+ {
+ return & _xyz[ iNode * 3 ];
+ }
+
+ int NbEdges()
+ {
+ return _edgeNodes.size() / 2;
+ }
+
+ int* GetEdgeNodes( int iEdge )
+ {
+ return & _edgeNodes[ iEdge * 2 ];
+ }
+
+ int NbTriangles()
+ {
+ return _triaNodes.size() / 3;
+ }
+
+ int * GetTriaNodes( int iTria )
+ {
+ return & _triaNodes[ iTria * 3 ];
+ }
+
+ int IsVertexRequired( int iNode )
+ {
+ return ! ( iNode < int( NbNodes() - _nodeSize.size() ));
+ }
+
+ double GetSizeAtVertex( int iNode )
+ {
+ return IsVertexRequired( iNode ) ? _nodeSize[ iNode - NbNodes() + _nodeSize.size() ] : 0.;
+ }
+};
+
+namespace // functions called by MG library to exchange with the application
+{
+ status_t get_vertex_count(integer * nbvtx, void *user_data)
+ {
+ MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+ *nbvtx = data->NbNodes();
+
+ return STATUS_OK;
+ }
+
+ status_t get_vertex_coordinates(integer ivtx, real * xyz, void *user_data)
+ {
+ MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+ double* coord = data->NodeCoord( ivtx-1 );
+ for (int j = 0; j < 3; j++)
+ xyz[j] = coord[j];
+
+ return STATUS_OK;
+ }
+ status_t get_edge_count(integer * nbedge, void *user_data)
+ {
+ MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+ *nbedge = data->NbEdges();
+
+ return STATUS_OK;
+ }
+
+ status_t get_edge_vertices(integer iedge, integer * vedge, void *user_data)
+ {
+ MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+ int* nodes = data->GetEdgeNodes( iedge-1 );
+ vedge[0] = nodes[0];
+ vedge[1] = nodes[1];
+
+ return STATUS_OK;
+ }
+
+ status_t get_triangle_count(integer * nbtri, void *user_data)
+ {
+ MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+ *nbtri = data->NbTriangles();
+
+ return STATUS_OK;
+ }
+
+ status_t get_triangle_vertices(integer itri, integer * vtri, void *user_data)
+ {
+ MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+ int* nodes = data->GetTriaNodes( itri-1 );
+ vtri[0] = nodes[0];
+ vtri[1] = nodes[1];
+ vtri[2] = nodes[2];
+
+ return STATUS_OK;
+ }
+
+ // status_t get_triangle_extra_vertices(integer itri, integer * typetri,
+ // integer * evtri, void *user_data)
+ // {
+ // int j;
+ // MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+
+ // if (1) {
+ // /* We want to describe a linear "3 nodes" triangle */
+ // *typetri = MESHGEMS_MESH_ELEMENT_TYPE_TRIA3;
+ // } else {
+ // /* We want to describe a quadratic "6 nodes" triangle */
+ // *typetri = MESHGEMS_MESH_ELEMENT_TYPE_TRIA6;
+ // for (j = 0; j < 3; j++)
+ // evtri[j] = 0; /* the j'th quadratic vertex index of the itri'th triangle */
+ // }
+
+ // return STATUS_OK;
+ // }
+
+ // status_t get_tetrahedron_count(integer * nbtetra, void *user_data)
+ // {
+ // MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+
+ // *nbtetra = 0; /* the number of tetra in your input mesh (0 if you describe a surface mesh) */
+
+ // return STATUS_OK;
+ // }
+
+ // status_t get_tetrahedron_vertices(integer itetra, integer * vtetra,
+ // void *user_data)
+ // {
+ // int j;
+ // MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+
+ // for (j = 0; j < 4; j++)
+ // vtetra[j] = 0; /* the j'th vertex index of the itetra'th tetrahedron */
+
+ // return STATUS_OK;
+ // }
+
+ status_t get_vertex_required_property(integer ivtx, integer * rvtx, void *user_data)
+ {
+ MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+ *rvtx = data->IsVertexRequired( ivtx - 1 );
+
+ return STATUS_OK;
+ }
+
+ // status_t get_vertex_weight(integer ivtx, real * wvtx, void *user_data)
+ // {
+ // MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+ // *wvtx = data->GetSizeAtVertex( ivtx - 1 );
+
+ // return STATUS_OK;
+ // }
+
+ status_t my_message_cb(message_t * msg, void *user_data)
+ {
+ char *desc;
+ message_get_description(msg, &desc);
+
+ MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+ data->AddError( desc );
+
+#ifdef _DEBUG_
+ //std::cout << desc << std::endl;
+#endif
+
+ return STATUS_OK;
+ }
+
+ status_t my_interrupt_callback(integer *interrupt_status, void *user_data)
+ {
+ MG_TetraHPC_API::LibData* data = (MG_TetraHPC_API::LibData *) user_data;
+ *interrupt_status = ( data->Cancelled() ? INTERRUPT_STOP : INTERRUPT_CONTINUE );
+
+ //std::cout << "INTERRUPT_STOP" << std::endl;
+
+
+ return STATUS_OK;
+ }
+
+} // end namespace
+
+
+void MG_TetraHPC_API::LibData::Init()
+{
+ status_t ret;
+
+ // Create the meshgems working context
+ _context = context_new();
+ if ( !_context ) MG_Error( "unable to create a new context" );
+
+ // Set the message callback for the _context.
+ ret = context_set_message_callback( _context, my_message_cb, this );
+ if ( ret != STATUS_OK ) MG_Error("in context_set_message_callback");
+
+ // Create the structure holding the callbacks giving access to triangle mesh
+ _tria_mesh = mesh_new( _context );
+ if ( !_tria_mesh ) MG_Error("unable to create a new mesh");
+
+ // Set callbacks to provide triangle mesh data
+ mesh_set_get_vertex_count( _tria_mesh, get_vertex_count, this );
+ mesh_set_get_vertex_coordinates( _tria_mesh, get_vertex_coordinates, this );
+ mesh_set_get_vertex_required_property( _tria_mesh, get_vertex_required_property, this );
+ mesh_set_get_edge_count( _tria_mesh, get_edge_count, this);
+ mesh_set_get_edge_vertices( _tria_mesh, get_edge_vertices, this );
+ mesh_set_get_triangle_count( _tria_mesh, get_triangle_count, this );
+ mesh_set_get_triangle_vertices( _tria_mesh, get_triangle_vertices, this );
+
+ // Create a tetra session
+ _session = tetra_hpc_session_new( _context );
+ if ( !_session ) MG_Error( "unable to create a new tetra_hpc session");
+
+ ret = tetra_hpc_set_interrupt_callback( _session, my_interrupt_callback, this );
+ if ( ret != STATUS_OK ) MG_Error("in tetra_set_interrupt_callback");
+
+}
+
+bool MG_TetraHPC_API::LibData::Compute( const std::string& outFile )
+{
+ // MG license
+ std::string errorTxt;
+ if ( !SMESHUtils_MGLicenseKeyGen::SignMesh( _tria_mesh, errorTxt ))
+ {
+ AddError( SMESH_Comment( "Problem with library SalomeMeshGemsKeyGenerator: ") << errorTxt );
+ return false;
+ }
+
+ // Set surface mesh
+ status_t ret = tetra_hpc_set_input_mesh( _session, _tria_mesh );
+ if ( ret != STATUS_OK ) MG_Error( "unable to set surface mesh");
+
+ // // Set a sizemap
+ // if ( !_nodeSize.empty() )
+ // {
+ // _sizemap = meshgems_sizemap_new( _tria_mesh, meshgems_sizemap_type_iso_mesh_vertex,
+ // (void*) &get_vertex_weight, this );
+ // if ( !_sizemap ) MG_Error("unable to create a new sizemap");
+
+ // ret = tetra_hpc_set_sizemap( _session, _sizemap );
+ // if ( ret != STATUS_OK ) MG_Error( "unable to set sizemap");
+ // }
+
+ //////////////////////////////////////////////////////////////////////////////////////////
+ // const char* file = "/tmp/ghs3d_IN.mesh";
+ // mesh_write_mesh( _tria_mesh,file);
+ // std::cout << std::endl << std::endl << "Write " << file << std::endl << std::endl << std::endl;
+
+ ret = tetra_hpc_mesh( _session );
+ if ( ret != STATUS_OK ) return false;
+
+ ret = tetra_hpc_get_mesh( _session, &_tetra_mesh);
+ if (ret != STATUS_OK) MG_Error( "unable to get resulting mesh");
+
+ mesh_write_mesh( _tetra_mesh, outFile.c_str() );
+
+ return true;
+}
+
+#else // ifdef USE_MG_LIBS
+
+struct MG_TetraHPC_API::LibData // to avoid compiler warnings
+{
+ volatile bool& _cancelled_flag;
+ double& _progress;
+ LibData(volatile bool& cancelled_flag, double& progress)
+ : _cancelled_flag{cancelled_flag}, _progress{progress}
+ {}
+};
+
+#endif // ifdef USE_MG_LIBS
+
+
+//================================================================================
+/*!
+ * \brief Constructor
+ */
+//================================================================================
+
+MG_TetraHPC_API::MG_TetraHPC_API(volatile bool& cancelled_flag, double& progress):
+ _nbNodes(0), _nbEdges(0), _nbFaces(0), _nbVolumes(0)
+{
+ _useLib = false;
+ _libData = new LibData( cancelled_flag, progress );
+#ifdef USE_MG_LIBS
+ _useLib = true;
+ _libData->Init();
+ if ( getenv("MG_TetraHPC_USE_EXE"))
+ _useLib = false;
+#endif
+}
+
+//================================================================================
+/*!
+ * \brief Destructor
+ */
+//================================================================================
+
+MG_TetraHPC_API::~MG_TetraHPC_API()
+{
+#ifdef USE_MG_LIBS
+ delete _libData;
+ _libData = 0;
+#endif
+ std::set<int>::iterator id = _openFiles.begin();
+ for ( ; id != _openFiles.end(); ++id )
+ ::GmfCloseMesh( *id );
+ _openFiles.clear();
+}
+
+//================================================================================
+/*!
+ * \brief Return the way of MG usage
+ */
+//================================================================================
+
+bool MG_TetraHPC_API::IsLibrary()
+{
+ return _useLib;
+}
+
+//================================================================================
+/*!
+ * \brief Switch to usage of MG-Tetra executable
+ */
+//================================================================================
+
+void MG_TetraHPC_API::SetUseExecutable()
+{
+ _useLib = false;
+}
+
+//================================================================================
+/*!
+ * \brief Compute the tetra mesh
+ * \param [in] cmdLine - a command to run mg_tetra.exe
+ * \return bool - Ok or not
+ */
+//================================================================================
+
+bool MG_TetraHPC_API::Compute( const std::string& cmdLine, std::string& errStr )
+{
+ std::cout << "Command line from MG_Tetra-HPC: " << cmdLine << "\n";
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+
+ // split cmdLine
+ std::istringstream strm( cmdLine );
+ std::istream_iterator<std::string> sIt( strm ), sEnd;
+ std::vector< std::string > args( sIt, sEnd );
+
+ std::string outFile;
+
+ // set parameters
+ std::string arg, param, value;
+ for ( size_t i = 1; i < args.size(); ++i )
+ {
+ // look for a param name; it starts from "-"
+ arg = args[i];
+ if ( arg.size() < 2 || arg[0] != '-')
+ continue;
+ while ( arg[0] == '-')
+ arg = arg.substr( 1 );
+
+ size_t eqPos = arg.find('=');
+ if ( eqPos != std::string::npos )
+ {
+ param = arg.substr( 0, eqPos );
+ value = arg.substr( eqPos+1 );
+ }
+ else
+ {
+ param = arg;
+ value = "";
+ }
+ if ( param == "out" )
+ {
+ outFile = value;
+ continue;
+ }
+ while ( i+1 < args.size() && args[i+1][0] != '-' )
+ {
+ if ( !value.empty() ) value += " ";
+ value += args[++i];
+ }
+ if ( !_libData->SetParam( param, value ))
+ std::cout << "Warning: wrong param: '" << param <<"' = '" << value << "'" << std::endl;
+ }
+
+ // compute
+ bool ok = _libData->Compute( outFile );
+
+ GetLog(); // write a log file
+ _logFile = ""; // not to write it again
+
+ return ok;
+#endif
+ }
+
+ // add MG license key
+ {
+ std::string errorTxt, meshIn;
+ std::string key = SMESHUtils_MGLicenseKeyGen::GetKey( meshIn,
+ _nbNodes, _nbEdges, _nbFaces, _nbVolumes,
+ errorTxt );
+ if ( key.empty() )
+ {
+ errStr = "Problem with library SalomeMeshGemsKeyGenerator: " + errorTxt;
+ return false;
+ }
+
+ const_cast< std::string& >( cmdLine ) += " --key " + key;
+ }
+
+ std::cout << "Launching: " << cmdLine << std::endl;
+
+ int err = system( cmdLine.c_str() ); // run
+
+ if ( err )
+ {
+ errStr = SMESH_Comment("system command failed with error: ")
+ << strerror( errno );
+ return false;
+ }
+ return true;
+
+}
+
+//================================================================================
+/*!
+ * \brief Prepare for reading a mesh data
+ */
+//================================================================================
+
+int MG_TetraHPC_API::GmfOpenMesh(const char* theFile, int rdOrWr, int * ver, int * dim)
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ return 1;
+#endif
+ }
+ int id = ::GmfOpenMesh(theFile, rdOrWr, ver, dim );
+ _openFiles.insert( id );
+ return id;
+}
+
+//================================================================================
+/*!
+ * \brief Return nb of entities
+ */
+//================================================================================
+
+int MG_TetraHPC_API::GmfStatKwd( int iMesh, GmfKwdCod what )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ switch ( what )
+ {
+ case GmfSubDomainFromGeom: return _libData->ReadNbSubDomains();
+ case GmfVertices: return _libData->ReadNbNodes();
+ case GmfEdges: return _libData->ReadNbEdges();
+ case GmfTriangles: return _libData->ReadNbTria();
+ case GmfQuadrilaterals: return _libData->ReadNbQuads();
+ case GmfTetrahedra: return _libData->ReadNbTetra();
+ case GmfHexahedra: return _libData->ReadNbHexa();
+ default: return 0;
+ }
+ return 0;
+#endif
+ }
+ return ::GmfStatKwd( iMesh, what );
+}
+
+//================================================================================
+/*!
+ * \brief Prepare for reading some data
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfGotoKwd( int iMesh, GmfKwdCod what )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ _libData->ResetCounter();
+ return;
+#endif
+ }
+ ::GmfGotoKwd( iMesh, what );
+}
+
+//================================================================================
+/*!
+ * \brief Return index of a domain identified by a triangle normal
+ * \param [in] iMesh - mesh file index
+ * \param [in] what - must be GmfSubDomainFromGeom
+ * \param [out] nbNodes - nb nodes in a face
+ * \param [out] faceInd - face index
+ * \param [out] ori - face orientation
+ * \param [out] domain - domain index
+ * \param [in] dummy - an artificial param used to discriminate from GmfGetLin() reading
+ * a triangle
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfGetLin( int iMesh, GmfKwdCod what, int* nbNodes, int* faceInd, int* ori, int* domain, int /*dummy*/ )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ _libData->ReadSubDomain( nbNodes, faceInd, ori, domain );
+ return;
+#endif
+ }
+ ::GmfGetLin( iMesh, what, nbNodes, faceInd, ori, domain );
+}
+
+//================================================================================
+/*!
+ * \brief Return coordinates of a next node
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfGetLin(int iMesh, GmfKwdCod what,
+ double* x, double* y, double *z, int* domain )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ _libData->ReadNodeXYZ( x, y, z, domain );
+ return;
+#endif
+ }
+ ::GmfGetLin(iMesh, what, x, y, z, domain );
+}
+
+//================================================================================
+/*!
+ * \brief Return coordinates of a next node
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfGetLin(int iMesh, GmfKwdCod what,
+ float* x, float* y, float *z, int* domain )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ double X,Y,Z;
+ _libData->ReadNodeXYZ( &X, &Y, &Z, domain );
+ *x = X;
+ *y = Y;
+ *z = Z;
+ return;
+#endif
+ }
+ ::GmfGetLin(iMesh, what, x, y, z, domain );
+}
+
+//================================================================================
+/*!
+ * \brief Return node index of a next corner
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfGetLin(int iMesh, GmfKwdCod what, int* node )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ node = 0;
+ return;
+#endif
+ }
+ ::GmfGetLin(iMesh, what, node );
+}
+
+//================================================================================
+/*!
+ * \brief Return node indices of a next edge
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfGetLin(int iMesh, GmfKwdCod what, int* node1, int* node2, int* domain )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ _libData->ReadEdgeNodes( node1, node2, domain );
+ return;
+#endif
+ }
+ ::GmfGetLin( iMesh, what, node1, node2, domain );
+}
+
+//================================================================================
+/*!
+ * \brief Return node indices of a next triangle
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfGetLin(int iMesh, GmfKwdCod what,
+ int* node1, int* node2, int* node3, int* domain )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ _libData->ReadTriaNodes( node1, node2, node3, domain );
+ return;
+#endif
+ }
+ ::GmfGetLin(iMesh, what, node1, node2, node3, domain );
+}
+
+//================================================================================
+/*!
+ * \brief Return node indices of a next tetrahedron or quadrangle
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfGetLin(int iMesh, GmfKwdCod what,
+ int* node1, int* node2, int* node3, int* node4, int* domain )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ if ( what == GmfQuadrilaterals )
+ _libData->ReadQuadNodes( node1, node2, node3, node4, domain );
+ else
+ _libData->ReadTetraNodes( node1, node2, node3, node4, domain );
+ return;
+#endif
+ }
+ ::GmfGetLin(iMesh, what, node1, node2, node3, node4, domain );
+}
+
+//================================================================================
+/*!
+ * \brief Return node indices of a next hexahedron
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfGetLin(int iMesh, GmfKwdCod what,
+ int* node1, int* node2, int* node3, int* node4,
+ int* node5, int* node6, int* node7, int* node8,
+ int* domain )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ _libData->ReadHexaNodes( node1, node2, node3, node4,
+ node5, node6, node7, node8, domain );
+ return;
+#endif
+ }
+ ::GmfGetLin(iMesh, what, node1, node2, node3, node4, node5, node6, node7, node8, domain );
+}
+
+//================================================================================
+/*!
+ * \brief Prepare for passing data to MeshGems
+ */
+//================================================================================
+
+int MG_TetraHPC_API::GmfOpenMesh(const char* theFile, int rdOrWr, int ver, int dim)
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ return 1;
+#endif
+ }
+ int id = ::GmfOpenMesh(theFile, rdOrWr, ver, dim);
+ _openFiles.insert( id );
+ return id;
+}
+
+//================================================================================
+/*!
+ * \brief Set number of entities
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfSetKwd(int iMesh, GmfKwdCod what, int nb )
+{
+ if ( iMesh == 1 )
+ {
+ switch ( what ) {
+ case GmfVertices: _nbNodes = nb; break;
+ case GmfEdges: _nbEdges = nb; break;
+ case GmfTriangles: _nbFaces = nb; break;
+ default:;
+ }
+ }
+
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ switch ( what ) {
+ case GmfVertices: _libData->SetNbVertices( nb ); break;
+ case GmfEdges: _libData->SetNbEdges ( nb ); break;
+ case GmfRequiredEdges: _libData->SetNbReqEdges( nb ); break;
+ case GmfTriangles: _libData->SetNbTria ( nb ); break;
+ case GmfRequiredTriangles: _libData->SetNbReqTria ( nb ); break;
+ default:;
+ }
+ return;
+#endif
+ }
+ ::GmfSetKwd(iMesh, what, nb );
+}
+
+//================================================================================
+/*!
+ * \brief Add coordinates of a node
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfSetLin(int iMesh, GmfKwdCod what, double x, double y, double z, int domain)
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ _libData->AddNode( x, y, z, domain );
+ return;
+#endif
+ }
+ ::GmfSetLin(iMesh, what, x, y, z, domain);
+}
+
+//================================================================================
+/*!
+ * \brief Set number of field entities
+ * \param [in] iMesh - solution file index
+ * \param [in] what - solution type
+ * \param [in] nbNodes - nb of entities
+ * \param [in] nbTypes - nb of data entries in each entity
+ * \param [in] type - types of the data entries
+ *
+ * Used to prepare to storing size at nodes
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfSetKwd(int iMesh, GmfKwdCod what, int nbNodes, int dummy, int type[] )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ if ( what == GmfSolAtVertices ) _libData->SetNbReqVertices( nbNodes );
+ return;
+#endif
+ }
+ ::GmfSetKwd(iMesh, what, nbNodes, dummy, type );
+}
+
+//================================================================================
+/*!
+ * \brief Add solution data
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfSetLin(int iMesh, GmfKwdCod what, double vals[])
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ _libData->AddSizeAtNode( vals[0] );
+ return;
+#endif
+ }
+ ::GmfSetLin(iMesh, what, vals);
+}
+
+//================================================================================
+/*!
+ * \brief Add edge nodes
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfSetLin(int iMesh, GmfKwdCod what, int node1, int node2, int domain )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ _libData->AddEdgeNodes( node1, node2, domain );
+ return;
+#endif
+ }
+ ::GmfSetLin(iMesh, what, node1, node2, domain );
+}
+
+//================================================================================
+/*!
+ * \brief Add a 'required' flag
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfSetLin(int iMesh, GmfKwdCod what, int id )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ return;
+#endif
+ }
+ ::GmfSetLin(iMesh, what, id );
+}
+
+//================================================================================
+/*!
+ * \brief Add triangle nodes
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfSetLin(int iMesh, GmfKwdCod what, int node1, int node2, int node3, int domain )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ _libData->AddTriaNodes( node1, node2, node3, domain );
+ return;
+#endif
+ }
+ ::GmfSetLin(iMesh, what, node1, node2, node3, domain );
+}
+
+//================================================================================
+/*!
+ * \brief Close a file
+ */
+//================================================================================
+
+void MG_TetraHPC_API::GmfCloseMesh( int iMesh )
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ return;
+#endif
+ }
+ ::GmfCloseMesh( iMesh );
+ _openFiles.erase( iMesh );
+}
+
+//================================================================================
+/*!
+ * \brief Return true if the log is not empty
+ */
+//================================================================================
+
+bool MG_TetraHPC_API::HasLog()
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ return !_libData->GetErrors().empty();
+#endif
+ }
+ SMESH_File file( _logFile );
+ return file.size() > 0;
+}
+
+//================================================================================
+/*!
+ * \brief Return log contents
+ */
+//================================================================================
+
+std::string MG_TetraHPC_API::GetLog()
+{
+ if ( _useLib ) {
+#ifdef USE_MG_LIBS
+ const std::string& err = _libData->GetErrors();
+ if ( !_logFile.empty() && !err.empty() )
+ {
+ SMESH_File file( _logFile, /*openForReading=*/false );
+ file.openForWriting();
+ file.write( err.c_str(), err.size() );
+ }
+ return err;
+#endif
+ }
+ std::cout << "_logFile: " << _logFile << std::endl;
+
+ SMESH_File file( _logFile );
+ if (file.exists() && file.size() > 0)
+ return file.getPos();
+ else
+ return "";
+}
--- /dev/null
+// Copyright (C) 2004-2022 CEA/DEN, EDF R&D
+//
+// This library is free software; you can redistribute it and/or
+// modify it under the terms of the GNU Lesser General Public
+// License as published by the Free Software Foundation; either
+// version 2.1 of the License, or (at your option) any later version.
+//
+// This library is distributed in the hope that it will be useful,
+// but WITHOUT ANY WARRANTY; without even the implied warranty of
+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+// Lesser General Public License for more details.
+//
+// You should have received a copy of the GNU Lesser General Public
+// License along with this library; if not, write to the Free Software
+// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+//
+// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
+//
+
+#ifndef __MG_TetraHPC_IO_HXX__
+#define __MG_TetraHPC_IO_HXX__
+
+#include "MG_Tetra_API.hxx"
+
+#include <string>
+#include <set>
+
+/*!
+ * \brief Class providing a transparent switch between MG_TetraHPC usage as
+ * a library and as an executable. API of libmesh5 inherited.
+ */
+class MG_TetraHPC_API
+{
+public:
+
+ MG_TetraHPC_API( volatile bool& cancelled_flag, double& progress );
+ ~MG_TetraHPC_API();
+
+ bool IsLibrary();
+ bool IsExecutable() { return !IsLibrary(); }
+ void SetUseExecutable();
+
+ // IN to MESHGEMS
+ int GmfOpenMesh(const char* theFile, int rdOrWr, int ver, int dim);
+ void GmfSetKwd(int iMesh, GmfKwdCod what, int nb );
+ void GmfSetLin(int iMesh, GmfKwdCod what, double x, double y, double z, int domain);
+ void GmfSetKwd(int iMesh, GmfKwdCod what, int nbNodes, int dummy, int type[] ); // sol type
+ void GmfSetLin(int iMesh, GmfKwdCod what, double vals[]); // sol
+ void GmfSetLin(int iMesh, GmfKwdCod what, int node1, int node2, int domain ); // edge
+ void GmfSetLin(int iMesh, GmfKwdCod what, int id ); // required
+ void GmfSetLin(int iMesh, GmfKwdCod what, int node1, int node2, int node3, int domain ); // tria
+
+ bool Compute( const std::string& cmdLine, std::string& errStr );
+
+ // OUT from MESHGEMS
+ int GmfOpenMesh(const char* theFile, int rdOrWr, int * ver, int * dim);
+ int GmfStatKwd( int iMesh, GmfKwdCod what );
+ void GmfGotoKwd( int iMesh, GmfKwdCod what );
+ void GmfGetLin( int iMesh, GmfKwdCod what, int* nbNodes, int* faceInd, int* ori, int* domain, int dummy );
+ void GmfGetLin(int iMesh, GmfKwdCod what, float* x, float* y, float *z, int* domain );
+ void GmfGetLin(int iMesh, GmfKwdCod what, double* x, double* y, double *z, int* domain );
+ void GmfGetLin(int iMesh, GmfKwdCod what, int* node );
+ void GmfGetLin(int iMesh, GmfKwdCod what, int* node1, int* node2, int* domain );
+ void GmfGetLin(int iMesh, GmfKwdCod what, int* node1, int* node2, int* node3, int* domain );
+ void GmfGetLin(int iMesh, GmfKwdCod what, int* node1, int* node2, int* node3, int* node4, int* domain );
+ void GmfGetLin(int iMesh, GmfKwdCod what, int* node1, int* node2, int* node3, int* node4, int* node5, int* node6, int* node7, int* node8, int* domain );
+ void GmfCloseMesh( int iMesh );
+
+ void SetLogFile( const std::string& logFileName ) { _logFile = logFileName; }
+ bool HasLog();
+ std::string GetLog();
+
+
+ struct LibData;
+
+private:
+
+ bool _useLib;
+ LibData* _libData;
+ std::set<int> _openFiles;
+ std::string _logFile;
+
+
+ // count mesh entities for MG license key generation
+ int _nbNodes;
+ int _nbEdges;
+ int _nbFaces;
+ int _nbVolumes;
+};
+
+#endif
myOptionTable->blockSignals( false );
}
}
+
+void GHS3DPluginGUI_AdvWidget::EnableAdvancedOptions( bool isMGTetra )
+{
+ int iRow = 0, nbRows = myOptionTable->topLevelItemCount();
+ // hard coded: register all possible options here
+ std::vector<std::string>_commonOptions = { "split_overconstrained_tetrahedra" };
+ std::vector<std::string>::iterator tk;
+ for ( ; iRow < nbRows; ++iRow )
+ {
+ // Have to allow advanced option for MGTetra HPC to work
+ tk = std::find( _commonOptions.begin(),
+ _commonOptions.end(),
+ myOptionTable->topLevelItem( iRow )->data( NAME_COL, PARAM_NAME ).toString().toStdString()
+ );
+
+ if ( tk == _commonOptions.end() )
+ myOptionTable->topLevelItem( iRow )->setDisabled( !isMGTetra );
+
+ }
+}
\ No newline at end of file
void AddOption( const char* name_value_type, bool isCustom = false );
void GetOptionAndValue( QTreeWidgetItem * tblRow, QString& option, QString& value, bool& dflt );
-
+ void EnableAdvancedOptions( bool isMGTetra );
public slots:
void itemChanged(QTreeWidgetItem * tblRow, int column);
#include <QCheckBox>
#include <QComboBox>
+#include <QButtonGroup>
#include <QFileInfo>
#include <QFrame>
#include <QGridLayout>
#include <QLineEdit>
#include <QPalette>
#include <QPushButton>
+#include <QRadioButton>
#include <QSpinBox>
+#include <QtWidgets>
#include <QTabWidget>
#include <QTableWidget>
#include <QTableWidgetItem>
myOptimizationLevelCombo(0),
myMinSizeCheck(0),
myMaxSizeCheck(0),
+ myNumOfThreadsCheck(0),
myMinSizeSpin(0),
myMaxSizeSpin(0),
myGradationCheck(0),
myGradationSpin(0),
+ myNumOfThreadsSpin(0),
myUseProximityGroup(0),
myNbProximityLayers(0),
myToMakeGroupsOfDomains(0),
myPThreadsModeCombo(0),
myNumberOfThreadsSpin(0),
mySmoothOffSliversCheck(0),
- myCreateNewNodesCheck(0)
+ myCreateNewNodesCheck(0),
+ myPthreadMode(0),
+ myParallelMode(0)
{
GeomToolSelected = NULL;
GeomToolSelected = getGeomSelectionTool();
return ( hypType() == GHS3DPlugin_OptimizerHypothesis::GetHypType() );
}
+void GHS3DPluginGUI_HypothesisCreator::onRadioButtomSelect()
+{
+ onNumOfThreadsCheck();
+
+ // Disable selection of standart+
+ QStandardItemModel * model = qobject_cast<QStandardItemModel*>(myOptimizationLevelCombo->model());
+ if(!model) return;
+ QStandardItem * item = model->item( GHS3DPlugin_Hypothesis::StandardPlus );
+ if(!item) return;
+
+ if ( myRadioBottomGroup->checkedId() == GHS3DPlugin_Hypothesis::MGTetra )
+ {
+ // Enable selection of stadart+
+ item->setEnabled(true);
+ // Set possibility to check memory options again.
+ myAdvWidget->maxMemoryCheck ->setEnabled( true );
+ myAdvWidget->initialMemoryCheck ->setEnabled( true );
+
+ myAdvWidget->EnableAdvancedOptions( true );
+
+ }
+ else if ( myRadioBottomGroup->checkedId() == GHS3DPlugin_Hypothesis::MGTetraHPC )
+ {
+ // Disable selection of stadart+
+ item->setEnabled(false);
+ // Set to false memory checks and disable checkbox
+ myAdvWidget->maxMemoryCheck ->setChecked( false );
+ myAdvWidget->initialMemoryCheck ->setChecked( false );
+ myAdvWidget->maxMemoryCheck ->setEnabled( false );
+ myAdvWidget->initialMemoryCheck ->setEnabled( false );
+ myAdvWidget->EnableAdvancedOptions( false );
+ }
+
+}
+
+void GHS3DPluginGUI_HypothesisCreator::onNumOfThreadsCheck()
+{
+ if ( myRadioBottomGroup->checkedId() == GHS3DPlugin_Hypothesis::MGTetra )
+ {
+ if ( myNumOfThreadsCheck->isChecked() )
+ myPthreadMode->setEnabled( true );
+ else
+ myPthreadMode->setEnabled( false );
+
+ myParallelMode->setEnabled( false );
+ }
+ else if ( myRadioBottomGroup->checkedId() == GHS3DPlugin_Hypothesis::MGTetraHPC )
+ {
+ if ( myNumOfThreadsCheck->isChecked() )
+ myParallelMode->setEnabled( true );
+ else
+ myParallelMode->setEnabled( false );
+
+ myPthreadMode->setEnabled( false );
+ }
+ else
+ {
+
+ }
+}
+
QFrame* GHS3DPluginGUI_HypothesisCreator::buildFrame()
{
QFrame* fr = new QFrame( 0 );
}
else
{
+ // Algorithm selection
+ QGroupBox* radioBottomGroup = new QGroupBox( tr("GHS3D_ALGO_SELECTION"), myStdGroup );
+ myRadioBottomGroup = new QButtonGroup( radioBottomGroup );
+
+ QRadioButton * GM_MSH = new QRadioButton(tr("GHS3D_ALGO_MGTETRA"), radioBottomGroup );
+ QRadioButton * GM_MSH_HPC = new QRadioButton(tr("GHS3D_ALGO_MGTETRAHPC"), radioBottomGroup );
+
+ myRadioBottomGroup->addButton( GM_MSH, 1 );
+ myRadioBottomGroup->addButton( GM_MSH_HPC, 0 );
+ GM_MSH->setChecked( true );
+
+ QGridLayout* radioBottomLayout = new QGridLayout( radioBottomGroup );
+ radioBottomLayout->setSpacing( 4 );
+ radioBottomLayout->setMargin( 11 );
+ radioBottomLayout->addWidget( GM_MSH, 0, 0, 1, 1 );
+ radioBottomLayout->addWidget( GM_MSH_HPC, 0, 1, 1, 1 );
+
// Main parameters
+ QGroupBox* mainGroup = new QGroupBox( tr("GHS3D_MAIN_PARAMS"), myStdGroup );
+ QLabel* optimizatiolLevelLbl = new QLabel( tr( "GHS3D_OPTIMIZATIOL_LEVEL" ), mainGroup );
+ QLabel* pthreadModeLbl = new QLabel( tr( "GHS3D_PTHREAD_MODE" ), mainGroup );
+ QLabel* parallelStrat = new QLabel( tr( "GHS3D_PARALLE_STRAT" ), mainGroup );
+
+ myOptimizationLevelCombo = new QComboBox( mainGroup );
+ myMinSizeCheck = new QCheckBox( tr("GHS3D_MIN_SIZE"), mainGroup );
+ myMaxSizeCheck = new QCheckBox( tr("GHS3D_MAX_SIZE"), mainGroup );
+ myNumOfThreadsCheck = new QCheckBox( tr("GHS3D_THREADS_SIZE"), mainGroup );
+ myPthreadMode = new QComboBox( mainGroup );
+ myParallelMode = new QComboBox( mainGroup );
+
+ myMinSizeSpin = new SMESHGUI_SpinBox( mainGroup );
+ myMaxSizeSpin = new SMESHGUI_SpinBox( mainGroup );
+ myNumOfThreadsSpin = new SalomeApp_IntSpinBox( 1, 128, 1, mainGroup );
- QGroupBox* mainGroup = new QGroupBox( tr("GHS3D_MAIN_PARAMS"), myStdGroup );
- QLabel* optimizatiolLevelLbl = new QLabel( tr( "GHS3D_OPTIMIZATIOL_LEVEL" ), mainGroup );
- myOptimizationLevelCombo = new QComboBox( mainGroup );
- myMinSizeCheck = new QCheckBox( tr("GHS3D_MIN_SIZE"), mainGroup );
- myMaxSizeCheck = new QCheckBox( tr("GHS3D_MAX_SIZE"), mainGroup );
- myMinSizeSpin = new SMESHGUI_SpinBox( mainGroup );
- myMaxSizeSpin = new SMESHGUI_SpinBox( mainGroup );
myMinSizeCheck->setChecked( false );
myMaxSizeCheck->setChecked( false );
+ myNumOfThreadsCheck->setChecked( false );
+
myMinSizeSpin->RangeStepAndValidator(0, COORD_MAX, 10.0, "length_precision");
myMaxSizeSpin->RangeStepAndValidator(0, COORD_MAX, 10.0, "length_precision");
- myMinSizeSpin->setEnabled( false );
- myMaxSizeSpin->setEnabled( false );
- connect( myMinSizeCheck, SIGNAL( toggled(bool)), myMinSizeSpin, SLOT( setEnabled(bool)));
- connect( myMaxSizeCheck, SIGNAL( toggled(bool)), myMaxSizeSpin, SLOT( setEnabled(bool)));
+ myNumOfThreadsSpin->setValue( 4 );
+
+ myMinSizeSpin ->setEnabled( false );
+ myMaxSizeSpin ->setEnabled( false );
+ myNumOfThreadsSpin->setEnabled(false);
+ myPthreadMode ->setEnabled( false );
+ myParallelMode->setEnabled( false );
+
+ // ACTIONS ON BUTTOMS
+ connect( myMinSizeCheck, SIGNAL( toggled(bool)), myMinSizeSpin, SLOT( setEnabled(bool)));
+ connect( myMaxSizeCheck, SIGNAL( toggled(bool)), myMaxSizeSpin, SLOT( setEnabled(bool)));
+ connect( myNumOfThreadsCheck, SIGNAL( toggled(bool)), myNumOfThreadsSpin, SLOT( setEnabled(bool)));
+ connect( myNumOfThreadsCheck, SIGNAL( toggled(bool)), this, SLOT( onNumOfThreadsCheck() ));
+ connect( myNumOfThreadsCheck, SIGNAL( toggled(bool)), this, SLOT( onNumOfThreadsCheck() ));
+ connect( GM_MSH, SIGNAL( toggled( bool )),this, SLOT( onRadioButtomSelect() ));
QGridLayout* mainLayout = new QGridLayout( mainGroup );
- mainLayout->setSpacing( 6 );
+ mainLayout->setSpacing( 12 );
mainLayout->setMargin( 11 );
mainLayout->addWidget( optimizatiolLevelLbl, 0, 0, 1, 1 );
mainLayout->addWidget( myOptimizationLevelCombo, 0, 1, 1, 1 );
mainLayout->addWidget( myMinSizeSpin, 1, 1, 1, 1 );
mainLayout->addWidget( myMaxSizeCheck, 2, 0, 1, 1 );
mainLayout->addWidget( myMaxSizeSpin, 2, 1, 1, 1 );
-
+ mainLayout->addWidget( myNumOfThreadsCheck, 3, 0, 1, 1 );
+ mainLayout->addWidget( myNumOfThreadsSpin, 3, 1, 1, 1 );
+ mainLayout->addWidget( pthreadModeLbl, 4, 0, 1, 1 );
+ mainLayout->addWidget( myPthreadMode, 4, 1, 1, 1 );
+ mainLayout->addWidget( parallelStrat, 5, 0, 1, 1 );
+ mainLayout->addWidget( myParallelMode, 5, 1, 1, 1 );
+
// Volume proximity
QGroupBox* proxyGroup = new QGroupBox( tr("GHS3D_VOLUME_PROXIMITY"), myStdGroup );
otherLayout->addWidget( myToMeshHolesCheck, 0, 0 );
otherLayout->addWidget( myToMakeGroupsOfDomains, 1, 0 );
+ aStdLayout->addWidget( radioBottomGroup,row++, 0, 1, 2 );
+ aStdLayout->addWidget( mainGroup, row++, 0, 1, 2 );
+ aStdLayout->addWidget( proxyGroup, row++, 0, 1, 2 );
+ aStdLayout->addWidget( otherGroup, row++, 0, 1, 2 );
- aStdLayout->addWidget( mainGroup, row++, 0, 1, 2 );
- aStdLayout->addWidget( proxyGroup, row++, 0, 1, 2 );
- aStdLayout->addWidget( otherGroup, row++, 0, 1, 2 );
+ myPthreadMode->addItems( QStringList() << tr( "MODE_NONE" ) << tr( "MODE_AGGRESSIVE" ) << tr( "MODE_SAFE" ) );
+ myParallelMode->addItems( QStringList() << tr( "MODE_NONE" ) << tr( "MODE_REPRODUCIBLE_GIVEN_MAX_THREADS" ) << tr( "MODE_REPRODUCIBLE" ) << tr( "MODE_AGGRESSIVE" ) );
}
aStdLayout->setRowStretch( row, 10 );
QGridLayout* anEnfLayout = new QGridLayout(myEnfGroup);
myEnforcedTableWidget = new QTableWidget(myEnfGroup);
- myEnforcedTableWidget ->setMinimumWidth(300);
+ myEnforcedTableWidget->setMinimumWidth(300);
myEnforcedTableWidget->setRowCount( 0 );
myEnforcedTableWidget->setColumnCount( ENF_VER_NB_COLUMNS );
myEnforcedTableWidget->setSortingEnabled(true);
}
myToMeshHolesCheck ->setChecked ( data.myToMeshHoles );
myToMakeGroupsOfDomains ->setChecked ( data.myToMakeGroupsOfDomains );
- myOptimizationLevelCombo ->setCurrentIndex( data.myOptimizationLevel );
+
+ if ( data.myAlgorithm == GHS3DPlugin_Hypothesis::MGTetraHPC && data.myOptimizationLevel == GHS3DPlugin_Hypothesis::StandardPlus /*not implemented by MGTetraHPC*/ )
+ myOptimizationLevelCombo ->setCurrentIndex( GHS3DPlugin_Hypothesis::None );
+ else
+ myOptimizationLevelCombo ->setCurrentIndex( data.myOptimizationLevel );
+
if ( myOptimizationCombo ) // optimizer
{
myOptimizationCombo ->setCurrentIndex( data.myOptimization );
}
else
{
- myMinSizeSpin->setValue( data.myMinSize );
- myMinSizeCheck->setChecked( data.myUseMinSize );
- myMaxSizeSpin->setValue( data.myMaxSize );
- myMaxSizeCheck->setChecked( data.myUseMaxSize );
- myGradationCheck->setChecked( data.myUseGradation );
- myGradationSpin->setValue( data.myUseGradation ? data.myGradation : GHS3DPlugin_Hypothesis::DefaultGradation() );
- myUseProximityGroup->setChecked( data.myUseProximity );
- myNbProximityLayers->setValue( data.myNbProximityLayers );
+ myRadioBottomGroup ->button( data.myAlgorithm )->setChecked( true );
+ myMinSizeSpin ->setValue( data.myMinSize );
+ myMinSizeCheck ->setChecked( data.myUseMinSize );
+ myMaxSizeSpin ->setValue( data.myMaxSize );
+ myMaxSizeCheck ->setChecked( data.myUseMaxSize );
+ myGradationCheck ->setChecked( data.myUseGradation );
+ myGradationSpin ->setValue( data.myUseGradation ? data.myGradation : GHS3DPlugin_Hypothesis::DefaultGradation() );
+ myUseProximityGroup ->setChecked( data.myUseProximity );
+ myNbProximityLayers ->setValue( data.myNbProximityLayers );
+ myNumOfThreadsCheck ->setChecked( data.myUseNumOfThreads );
+ myNumOfThreadsSpin ->setValue( data.myNumOfThreads );
+ myPthreadMode ->setCurrentIndex( data.myPthreadMode );
+ myParallelMode ->setCurrentIndex( data.myParallelMode );
}
myAdvWidget->maxMemoryCheck ->setChecked ( data.myMaximumMemory > 0 );
myAdvWidget->maxMemorySpin ->setValue
myAdvWidget->AddOption( that->myCustomOptions[i].in() );
}
myAdvWidget->myOptionTable->resizeColumnToContents( OPTION_NAME_COLUMN );
-
+ myAdvWidget->EnableAdvancedOptions( data.myAlgorithm == GHS3DPlugin_Hypothesis::MGTetra );
TEnfVertexList::const_iterator it;
int rowCount = 0;
h_data.myNumberOfThreads = 1;
h_data.mySmoothOffSlivers = 1;
}
+ h_data.myAlgorithm = h->GetAlgorithm();
h_data.myOptimizationLevel = h->GetOptimizationLevel();
h_data.myMinSize = h->GetMinSize();
h_data.myMaxSize = h->GetMaxSize();
//h_data.myTextOption = h->GetAdvancedOption();
h_data.myLogInStandardOutput = h->GetStandardOutputLog();
h_data.myRemoveLogOnSuccess = h->GetRemoveLogOnSuccess();
+ h_data.myUseNumOfThreads = h->GetUseNumOfThreads();
+ h_data.myNumOfThreads = h->GetNumOfThreads();
+ h_data.myPthreadMode = h->GetPthreadMode();
+ h_data.myParallelMode = h->GetParallelMode();
GHS3DPluginGUI_HypothesisCreator* that = (GHS3DPluginGUI_HypothesisCreator*)this;
that->myOptions = h->GetOptionValues();
if( isCreation() )
SMESH::SetName( SMESH::FindSObject( h ), h_data.myName.toLatin1().constData() );
+ h->SetAlgorithm ((CORBA::Short) h_data.myAlgorithm );
h->SetOptimizationLevel ((CORBA::Short) h_data.myOptimizationLevel );
h->SetMinSize ( h_data.myUseMinSize ? h_data.myMinSize : 0 );
h->SetMaxSize ( h_data.myUseMaxSize ? h_data.myMaxSize : 0 );
//h->SetFEMCorrection ( h_data.myFEMCorrection );
h->SetStandardOutputLog ( h_data.myLogInStandardOutput );
h->SetRemoveLogOnSuccess ( h_data.myRemoveLogOnSuccess );
+ h->SetUseNumOfThreads ( h_data.myUseNumOfThreads );
+ h->SetNumOfThreads ( (CORBA::Short) h_data.myNumOfThreads );
+ h->SetPthreadMode ( (CORBA::Short) h_data.myPthreadMode );
+ h->SetParallelMode ( (CORBA::Short) h_data.myParallelMode );
if ( !opt->_is_nil() )
{
h_data.myNbProximityLayers = myNbProximityLayers->value();
h_data.myToMeshHoles = myToMeshHolesCheck->isChecked();
h_data.myToMakeGroupsOfDomains = myToMakeGroupsOfDomains->isChecked();
+ h_data.myAlgorithm = myRadioBottomGroup->checkedId();
+ h_data.myUseNumOfThreads = myNumOfThreadsCheck->isChecked();
+ h_data.myNumOfThreads = myNumOfThreadsSpin->value();
+ h_data.myPthreadMode = myPthreadMode->currentIndex();
+ h_data.myParallelMode = myParallelMode->currentIndex();
}
h_data.myMaximumMemory = float( myAdvWidget->maxMemoryCheck->isChecked() ? myAdvWidget->maxMemorySpin->value() : -1 );
h_data.myInitialMemory = float( myAdvWidget->initialMemoryCheck->isChecked() ? myAdvWidget->initialMemorySpin->value() : -1 );
#include CORBA_SERVER_HEADER(SMESH_Mesh)
class QWidget;
+class QButtonGroup;
class QComboBox;
class QCheckBox;
class QLineEdit;
short myVerboseLevel;
TEnfVertexList myEnforcedVertices;
TEnfMeshList myEnforcedMeshes;
+ short myAlgorithm, myNumOfThreads, myPthreadMode, myParallelMode;
+ bool myUseNumOfThreads;
int myOptimization, mySplitOverConstrained, myPThreadsMode, myNumberOfThreads;
bool mySmoothOffSlivers;
void onRemoveEnforcedMesh();
//void synchronizeEnforcedMesh();
void checkEnfMeshIsDefined();
+ void onRadioButtomSelect();
+ void onNumOfThreadsCheck();
signals:
void vertexDefined(bool);
QCheckBox* myMaxSizeCheck;
SMESHGUI_SpinBox* myMinSizeSpin;
SMESHGUI_SpinBox* myMaxSizeSpin;
+ QButtonGroup* myRadioBottomGroup;
+ QComboBox* myPthreadMode;
+ QComboBox* myParallelMode;
+ QCheckBox* myNumOfThreadsCheck;
+ SalomeApp_IntSpinBox* myNumOfThreadsSpin;
mutable double myMinSizeDefault, myMaxSizeDefault;
// proximity
QCheckBox* myGradationCheck;
<source>LEVEL_LIGHT</source>
<translation>Light</translation>
</message>
+ <message>
+ <source>GHS3D_PTHREAD_MODE</source>
+ <translation>Pthread Mode</translation>
+ </message>
+ <message>
+ <source>GHS3D_PARALLE_STRAT</source>
+ <translation>Paralle Stategy (HPC)</translation>
+ </message>
+ <message>
+ <source>MODE_NONE</source>
+ <translation>None</translation>
+ </message>
+ <message>
+ <source>MODE_AGGRESSIVE</source>
+ <translation>Aggressive</translation>
+ </message>
+ <message>
+ <source>MODE_SAFE</source>
+ <translation>Safe</translation>
+ </message>
+ <message>
+ <source>MODE_REPRODUCIBLE</source>
+ <translation>Reproducible</translation>
+ </message>
+ <message>
+ <source>MODE_REPRODUCIBLE_GIVEN_MAX_THREADS</source>
+ <translation>Reproducible Given Max Number of Threads</translation>
+ </message>
+ <message>
+ <source>GHS3D_ALGO_SELECTION</source>
+ <translation>Algorithm selection</translation>
+ </message>
+ <message>
+ <source>GHS3D_ALGO_MGTETRA</source>
+ <translation>MG-Tetra</translation>
+ </message>
+ <message>
+ <source>GHS3D_ALGO_MGTETRAHPC</source>
+ <translation>MG-Tetra HPC</translation>
+ </message>
+ <message>
+ <source>GHS3D_THREADS_SIZE</source>
+ <translation>Maximal number of threads</translation>
+ </message>
<message>
<source>LEVEL_MEDIUM</source>
<translation>Medium (standard)</translation>
