-// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
+// Copyright (C) 2007-2022 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
#include "utilities.h"
+#ifdef WIN32
+#include <process.h>
+#endif
+
#ifdef _DEBUG_
#define DUMP(txt) \
-// cout << txt
+// std::cout << txt
#else
#define DUMP(txt)
#endif
#include <SMESH_HypoFilter.hxx>
#include <SMESH_MesherHelper.hxx>
#include <SMESH_subMesh.hxx>
+#include <SMESH_MeshEditor.hxx>
+#include <SMESH_ControlPnt.hxx>
#include <list>
#include <cstdlib>
-#include <iostream>
#include <Standard_ProgramError.hxx>
#include <BRepBndLib.hxx>
#include <BRepClass3d_SolidClassifier.hxx>
-#include <BRepMesh_IncrementalMesh.hxx>
#include <BRep_Tool.hxx>
-#include <GCPnts_UniformAbscissa.hxx>
-#include <GeomAdaptor_Curve.hxx>
-#include <IntCurvesFace_Intersector.hxx>
+#include <Bnd_Box.hxx>
#include <OSD_File.hxx>
-#include <Poly_Triangulation.hxx>
#include <Precision.hxx>
#include <TopExp_Explorer.hxx>
#include <TopTools_MapOfShape.hxx>
#include <TopoDS.hxx>
-#include <gp_Ax3.hxx>
-#include <gp_Lin.hxx>
+#include <TopoDS_Vertex.hxx>
#include <gp_Pnt.hxx>
+#include <Basics_DirUtils.hxx>
#include <Basics_Utils.hxx>
#include <GEOMImpl_Types.hxx>
#include <GEOM_wrap.hxx>
#define GMFVERSION GmfDouble
#define GMFDIMENSION 3
+using SMESHUtils::ControlPnt;
+
static void removeFile( const TCollection_AsciiString& fileName )
{
try {
OSD_File( fileName ).Remove();
}
- catch ( Standard_ProgramError ) {
+ catch ( Standard_ProgramError& ) {
MESSAGE("Can't remove file: " << fileName.ToCString() << " ; file does not exist or permission denied");
}
}
*/
//=============================================================================
-HexoticPlugin_Hexotic::HexoticPlugin_Hexotic(int hypId, int studyId, SMESH_Gen* gen)
- : SMESH_3D_Algo(hypId, studyId, gen)
+HexoticPlugin_Hexotic::HexoticPlugin_Hexotic(int hypId, SMESH_Gen* gen)
+ : SMESH_3D_Algo(hypId, gen)
{
- MESSAGE("HexoticPlugin_Hexotic::HexoticPlugin_Hexotic");
_name = "MG-Hexa";
_shapeType = (1 << TopAbs_SHELL) | (1 << TopAbs_SOLID);// 1 bit /shape type
_onlyUnaryInput = false;
#endif
_computeCanceled = false;
- // Copy of what is done in BLSURFPLugin TODO : share the code
- smeshGen_i = SMESH_Gen_i::GetSMESHGen();
- CORBA::Object_var anObject = smeshGen_i->GetNS()->Resolve("/myStudyManager");
- SALOMEDS::StudyManager_var aStudyMgr = SALOMEDS::StudyManager::_narrow(anObject);
-
- myStudy = NULL;
- myStudy = aStudyMgr->GetStudyByID(_studyId);
- if ( !myStudy->_is_nil() )
- MESSAGE("myStudy->StudyId() = " << myStudy->StudyId());
}
//=============================================================================
HexoticPlugin_Hexotic::~HexoticPlugin_Hexotic()
{
- MESSAGE("HexoticPlugin_Hexotic::~HexoticPlugin_Hexotic");
}
bool HexoticPlugin_Hexotic::CheckBLSURFHypothesis( SMESH_Mesh& aMesh,
const TopoDS_Shape& aShape )
{
- // MESSAGE("HexoticPlugin_Hexotic::CheckBLSURFHypothesis");
_blsurfHypo = NULL;
std::list<const SMESHDS_Hypothesis*>::const_iterator itl;
// If a BLSURF hypothesis is applied, get it
SMESH_HypoFilter blsurfFilter;
- blsurfFilter.Init( blsurfFilter.HasName( BLSURFPlugin_Hypothesis::GetHypType() ));
+ blsurfFilter.Init( blsurfFilter.HasName( BLSURFPlugin_Hypothesis::GetHypType(true) ));
+ blsurfFilter.Or ( blsurfFilter.HasName( BLSURFPlugin_Hypothesis::GetHypType(false)));
std::list<const SMESHDS_Hypothesis *> appliedHyps;
aMesh.GetHypotheses( aShape, blsurfFilter, appliedHyps, false );
itl = appliedHyps.begin();
theHyp = (*itl); // use only the first hypothesis
std::string hypName = theHyp->GetName();
- if (hypName == BLSURFPlugin_Hypothesis::GetHypType()) {
+ if (hypName == BLSURFPlugin_Hypothesis::GetHypType(true) ||
+ hypName == BLSURFPlugin_Hypothesis::GetHypType(false) )
+ {
_blsurfHypo = static_cast<const BLSURFPlugin_Hypothesis*> (theHyp);
ASSERT(_blsurfHypo);
return true;
const TopoDS_Shape& aShape,
SMESH_Hypothesis::Hypothesis_Status& aStatus )
{
- // MESSAGE("HexoticPlugin_Hexotic::CheckHypothesis");
_hypothesis = NULL;
std::list<const SMESHDS_Hypothesis*>::const_iterator itl;
const std::list<const SMESHDS_Hypothesis*>& hyps = GetUsedHypothesis(aMesh, aShape, false);
int nbHyp = hyps.size();
if (!nbHyp) {
+ // retrieve BLSURF hypothesis if no hexotic hypothesis has been set
+#ifdef WITH_BLSURFPLUGIN
+ CheckBLSURFHypothesis(aMesh, aShape);
+#endif
aStatus = SMESH_Hypothesis::HYP_OK;
return true; // can work with no hypothesis
}
int number = hexaOutput->GmfStatKwd( iMesh, what );
if ( number > 0 )
{
- // std::string aLine;
- // std::ifstream file(aFile.c_str());
- // while ( !file.eof() ) {
- // getline( file, aLine);
- // if ( aLine == aString ) {
- // getline( file, aLine);
- // std::istringstream stringFlux( aLine );
- // stringFlux >> number;
- number = ( number + defaultValue + std::abs(number - defaultValue) ) / 2;
- // break;
- // }
+ number = ( number + defaultValue + std::abs(number - defaultValue) ) / 2;
}
else
{
number = defaultValue;
}
- //file.close();
return number;
}
//=======================================================================
static void printWarning(const int nbExpected, std::string aString, const int nbFound) {
- cout << std::endl;
- cout << "WARNING : " << nbExpected << " " << aString << " expected, MG-Hexa has found " << nbFound << std::endl;
- cout << "=======" << std::endl;
- cout << std::endl;
+ std::cout << std::endl;
+ std::cout << "WARNING : " << nbExpected << " " << aString << " expected, MG-Hexa has found " << nbFound << std::endl;
+ std::cout << "=======" << std::endl;
+ std::cout << std::endl;
return;
}
//purpose :
//=======================================================================
-static void removeHexoticFiles(TCollection_AsciiString file_In, TCollection_AsciiString file_Out) {
+static void removeHexoticFiles(TCollection_AsciiString file_In, TCollection_AsciiString file_Out)
+{
removeFile( file_In );
removeFile( file_Out );
}
const SMESHDS_Mesh* theMeshDS)
{
int meshID = theHexaInput->GmfOpenMesh( theFile, GmfWrite, GMFVERSION, GMFDIMENSION);
-
+ theHexaInput->SetIsInputMesh( true ); // it's a mesh file
+
// nodes
- int iN = 0, nbNodes = theMeshDS->NbNodes();
+ int iN = 0;
+ smIdType nbNodes = theMeshDS->NbNodes();
theHexaInput->GmfSetKwd( meshID, GmfVertices, nbNodes );
std::map< const SMDS_MeshNode*, int, TIDCompare > node2IdMap;
SMDS_NodeIteratorPtr nodeIt = theMeshDS->nodesIterator();
SMDS_ElemIteratorPtr elemIt = theMeshDS->elementsIterator( SMDSAbs_Edge );
if ( elemIt->more() )
{
- int nbEdges = theMeshDS->GetMeshInfo().NbElements( SMDSAbs_Edge );
+ smIdType nbEdges = theMeshDS->GetMeshInfo().NbElements( SMDSAbs_Edge );
theHexaInput->GmfSetKwd(meshID, GmfEdges, nbEdges );
for ( int gmfID = 1; elemIt->more(); ++gmfID )
{
elemIt = theMeshDS->elementGeomIterator( SMDSGeom_TRIANGLE );
if ( elemIt->more() )
{
- int nbTria = theMeshDS->GetMeshInfo().NbElements( SMDSGeom_TRIANGLE );
+ smIdType nbTria = theMeshDS->GetMeshInfo().NbElements( SMDSGeom_TRIANGLE );
theHexaInput->GmfSetKwd(meshID, GmfTriangles, nbTria );
for ( int gmfID = 1; elemIt->more(); ++gmfID )
{
std::string token;
int shapeID, hexoticShapeID;
const int IdShapeRef = 2;
- int *tabID;
+ std::vector< int > tabID;
double epsilon = Precision::Confusion();
std::map <std::string,int> mapField;
- SMDS_MeshNode** HexoticNode;
- TopoDS_Shape *tabCorner;
+ std::vector< SMDS_MeshNode*> HexoticNode;
+ std::vector< TopoDS_Shape > tabCorner;
const int nbDomains = countShape( theMesh, TopAbs_SHELL );
const int holeID = -1;
if ( nbDomains > 0 )
{
- tabID = new int[nbDomains];
-
- for (int i=0; i<nbDomains; i++)
- tabID[i] = 0;
+ tabID.resize( nbDomains, 0 );
if ( nbDomains == 1 )
tabID[0] = theMeshDS->ShapeToIndex( tabShape[0] );
}
+ else
+ {
+ tabID.resize( 1, 1 );
+ }
SMDS_ElemIteratorPtr eIt = theMeshDS->elementsIterator();
while( eIt->more() )
while ( nIt->more() )
theMeshDS->RemoveFreeNode( nIt->next(), /*sm=*/0 );
+ theHelper->SetElementsOnShape( false );
+
int ver, dim;
int meshID = theHexaOutput->GmfOpenMesh( theFile, GmfRead, &ver, &dim );
+ int nbVerticesInShape = countShape( theMesh, TopAbs_VERTEX );
int nbVertices = getNbShape(theHexaOutput, meshID, GmfVertices );
- int nbCorners = getNbShape(theHexaOutput, meshID, GmfCorners, countShape( theMesh, TopAbs_VERTEX ));
+ int nbCorners = getNbShape(theHexaOutput, meshID, GmfCorners, nbVerticesInShape);
if ( nbVertices == 0 )
return false;
- tabCorner = new TopoDS_Shape[ nbCorners ];
- HexoticNode = new SMDS_MeshNode*[ nbVertices + 1 ];
+ tabCorner.resize( nbCorners );
+ HexoticNode.resize( nbVertices + 1 );
- getShape(theMeshDS, TopAbs_VERTEX, tabCorner);
+ // get the shape vertices if the mesh lies on a shape (and this shape has corners)
+ if ( nbCorners > 0 && nbVerticesInShape > 0 )
+ getShape( theMeshDS, TopAbs_VERTEX, tabCorner.data() );
int nbNodes = theHexaOutput->GmfStatKwd( meshID, GmfVertices );
if ( nbNodes > 0 )
for ( int i = 0; i < 2; ++i )
{
node[i] = HexoticNode[ nodeID[i]];
- if ( node[i]->getshapeId() < 1 )
+ if ( shapeID > 0 && node[i]->getshapeId() < 1 )
theMeshDS->SetNodeOnEdge( node[i], shapeID );
}
aHexoticElement = theHelper->AddEdge( node[0], node[1] );
- if ( aHexoticElement->getshapeId() < 1 )
+ if ( shapeID > 0 && aHexoticElement->getshapeId() < 1 )
theMeshDS->SetMeshElementOnShape( aHexoticElement, shapeID );
}
}
{
for ( int i = 0; i < 8; ++i )
{
- if ( node[i]->getshapeId() < 1 )
+ if ( node[i]->NbInverseElements( SMDSAbs_Face ) == 0 )
theMeshDS->SetNodeInVolume( node[i], shapeID );
}
aHexoticElement = theHelper->AddVolume( node[0], node[3], node[2], node[1],
}
}
}
- cout << std::endl;
+ std::cout << std::endl;
// remove nodes in holes
if ( nbDomains > 1 )
theMeshDS->RemoveFreeNode( HexoticNode[i], subMesh, /*fromGroups=*/false );
}
}
- delete [] tabID;
- delete [] tabCorner;
- delete [] HexoticNode;
+
+ // avoid "Error: No mesh on sub-shape"
+ if ( theMesh->NbVolumes() > 0 )
+ {
+ SMESH_subMesh* smMain = theMesh->GetSubMesh( theMesh->GetShapeToMesh() );
+ SMESH_subMeshIteratorPtr smIt = smMain->getDependsOnIterator( /*includeSelf=*/true );
+ while ( smIt->more() )
+ {
+ SMESH_subMesh* sm = smIt->next();
+ if ( !sm->IsMeshComputed() )
+ sm->SetIsAlwaysComputed( true );
+ }
+ }
+
return true;
}
*/
//=============================================================================
-void HexoticPlugin_Hexotic::SetParameters(const HexoticPlugin_Hypothesis* hyp) {
-
- MESSAGE("HexoticPlugin_Hexotic::SetParameters");
+void HexoticPlugin_Hexotic::SetParameters(const HexoticPlugin_Hypothesis* hyp)
+{
if (hyp) {
_hexesMinLevel = hyp->GetHexesMinLevel();
_hexesMaxLevel = hyp->GetHexesMaxLevel();
_hexesMinSize = hyp->GetMinSize();
_hexesMaxSize = hyp->GetMaxSize();
+ _approxAngle = hyp->GetGeomApproxAngle();
_hexoticIgnoreRidges = hyp->GetHexoticIgnoreRidges();
_hexoticInvalidElements = hyp->GetHexoticInvalidElements();
_hexoticSharpAngleThreshold = hyp->GetHexoticSharpAngleThreshold();
_growth = hyp->GetGrowth();
_facesWithLayers = hyp->GetFacesWithLayers();
_imprintedFaces = hyp->GetImprintedFaces();
+ _keepFiles = hyp->GetKeepFiles();
+ _removeLogOnSuccess = hyp->GetRemoveLogOnSuccess();
+ _logInStandardOutput = hyp->GetStandardOutputLog();
}
else {
- cout << std::endl;
- cout << "WARNING : The MG-Hexa default parameters are taken into account" << std::endl;
- cout << "=======" << std::endl;
+ std::cout << std::endl;
+ std::cout << "WARNING : The MG-Hexa default parameters are taken into account" << std::endl;
+ std::cout << "=======" << std::endl;
_hexesMinLevel = hyp->GetDefaultHexesMinLevel();
_hexesMaxLevel = hyp->GetDefaultHexesMaxLevel();
_hexesMinSize = hyp->GetDefaultMinSize();
_hexesMaxSize = hyp->GetDefaultMaxSize();
+ _approxAngle = hyp->GetDefaultGeomApproxAngle();
_hexoticIgnoreRidges = hyp->GetDefaultHexoticIgnoreRidges();
_hexoticInvalidElements = hyp->GetDefaultHexoticInvalidElements();
_hexoticSharpAngleThreshold = hyp->GetDefaultHexoticSharpAngleThreshold();
_growth = hyp->GetDefaultGrowth();
_facesWithLayers = hyp->GetDefaultFacesWithLayers();
_imprintedFaces = hyp->GetDefaultImprintedFaces();
+ _keepFiles = hyp->GetDefaultKeepFiles();
+ _removeLogOnSuccess = hyp->GetDefaultRemoveLogOnSuccess();
+ _logInStandardOutput = hyp->GetDefaultStandardOutputLog();
}
}
*/
//================================================================================
-std::string HexoticPlugin_Hexotic::getHexoticCommand(const TCollection_AsciiString& Hexotic_In,
- const TCollection_AsciiString& Hexotic_Out,
- const TCollection_AsciiString& Hexotic_SizeMap_Prefix,
- const bool forExecutable) const
+std::string
+HexoticPlugin_Hexotic::getHexoticCommand(const TCollection_AsciiString& Hexotic_In,
+ const TCollection_AsciiString& Hexotic_Out,
+ const TCollection_AsciiString& Hexotic_SizeMap_Prefix,
+ const bool forExecutable) const
{
- cout << std::endl;
- cout << "MG-Hexa execution..." << std::endl;
- cout << _name << " parameters :" << std::endl;
- cout << " " << _name << " Verbosity = " << _hexoticVerbosity << std::endl;
- cout << " " << _name << " Max Memory = " << _hexoticMaxMemory << std::endl;
- cout << " " << _name << " Segments Min Level = " << _hexesMinLevel << std::endl;
- cout << " " << _name << " Segments Max Level = " << _hexesMaxLevel << std::endl;
- cout << " " << _name << " Segments Min Size = " << _hexesMinSize << std::endl;
- cout << " " << _name << " Segments Max Size = " << _hexesMaxSize << std::endl;
- cout << " " << "MG-Hexa can ignore ridges : " << (_hexoticIgnoreRidges ? "yes":"no") << std::endl;
- cout << " " << "MG-Hexa authorize invalide elements : " << ( _hexoticInvalidElements ? "yes":"no") << std::endl;
- cout << " " << _name << " Sharp angle threshold = " << _hexoticSharpAngleThreshold << " degrees" << std::endl;
- cout << " " << _name << " Number of threads = " << _hexoticNbProc << std::endl;
- cout << " " << _name << " Working directory = \"" << _hexoticWorkingDirectory << "\"" << std::endl;
- cout << " " << _name << " Sub. Dom mode = " << _hexoticSdMode << std::endl;
- cout << " " << _name << " Text options = \"" << _textOptions << "\"" << std::endl;
- cout << " " << _name << " Number of layers = " << _nbLayers << std::endl;
- cout << " " << _name << " Size of the first layer = " << _firstLayerSize << std::endl;
- cout << " " << _name << " Direction of the layers = " << ( _direction ? "Inward" : "Outward" ) << std::endl;
- cout << " " << _name << " Growth = " << _growth << std::endl;
+ std::cout << std::endl;
+ std::cout << "MG-Hexa execution..." << std::endl;
+ std::cout << _name << " parameters :" << std::endl;
+ std::cout << " " << _name << " Verbosity = " << _hexoticVerbosity << std::endl;
+ std::cout << " " << _name << " Max Memory = " << _hexoticMaxMemory << std::endl;
+ std::cout << " " << _name << " Segments Min Level = " << _hexesMinLevel << std::endl;
+ std::cout << " " << _name << " Segments Max Level = " << _hexesMaxLevel << std::endl;
+ std::cout << " " << _name << " Segments Min Size = " << _hexesMinSize << std::endl;
+ std::cout << " " << _name << " Segments Max Size = " << _hexesMaxSize << std::endl;
+ std::cout << " " << "MG-Hexa can ignore ridges : " << (_hexoticIgnoreRidges ? "yes":"no") << std::endl;
+ std::cout << " " << "MG-Hexa authorize invalide elements : " << ( _hexoticInvalidElements ? "yes":"no") << std::endl;
+ std::cout << " " << _name << " Sharp angle threshold = " << _hexoticSharpAngleThreshold << " degrees" << std::endl;
+ std::cout << " " << _name << " Number of threads = " << _hexoticNbProc << std::endl;
+ std::cout << " " << _name << " Working directory = \"" << _hexoticWorkingDirectory << "\"" << std::endl;
+ std::cout << " " << _name << " Sub. Dom mode = " << _hexoticSdMode << std::endl;
+ std::cout << " " << _name << " Text options = \"" << _textOptions << "\"" << std::endl;
+ std::cout << " " << _name << " Number of layers = " << _nbLayers << std::endl;
+ std::cout << " " << _name << " Size of the first layer = " << _firstLayerSize << std::endl;
+ std::cout << " " << _name << " Direction of the layers = " << ( _direction ? "Inward" : "Outward" ) << std::endl;
+ std::cout << " " << _name << " Growth = " << _growth << std::endl;
if (!_facesWithLayers.empty()) {
- cout << " " << _name << " Faces with layers = ";
+ std::cout << " " << _name << " Faces with layers = ";
for (size_t i = 0; i < _facesWithLayers.size(); i++)
{
- cout << _facesWithLayers.at(i);
+ std::cout << _facesWithLayers.at(i);
if ((i + 1) != _facesWithLayers.size())
- cout << ", ";
+ std::cout << ", ";
}
- cout << std::endl;
+ std::cout << std::endl;
}
if (!_imprintedFaces.empty()) {
- cout << " " << _name << " Imprinted faces = ";
+ std::cout << " " << _name << " Imprinted faces = ";
for (size_t i = 0; i < _imprintedFaces.size(); i++)
{
- cout << _imprintedFaces.at(i);
+ std::cout << _imprintedFaces.at(i);
if ((i + 1) != _imprintedFaces.size())
- cout << ", ";
+ std::cout << ", ";
}
- cout << std::endl;
+ std::cout << std::endl;
}
TCollection_AsciiString run_Hexotic("mg-hexa.exe");
- TCollection_AsciiString minl = " --min_level ", maxl = " --max_level ", angle = " --ridge_angle ";
- TCollection_AsciiString mins = " --min_size ", maxs = " --max_size ";
- TCollection_AsciiString in = " --in ", out = " --out ";
- TCollection_AsciiString sizeMap = " --read_sizemap ";
+ TCollection_AsciiString minl = " --min_level ", maxl = " --max_level ", angle = " --ridge_angle ";
+ TCollection_AsciiString mins = " --min_size ", maxs = " --max_size ";
+ TCollection_AsciiString in = " --in ", out = " --out ";
+ TCollection_AsciiString sizeMap = " --background_sizemap ";
+ TCollection_AsciiString sizeMapMesh = " --background_mesh ";
TCollection_AsciiString ignoreRidges = " --compute_ridges no ", invalideElements = " --allow_invalid_elements yes ";
- TCollection_AsciiString subdom = " --components ";
+ TCollection_AsciiString subdom = " --components ";
#ifndef WIN32
- TCollection_AsciiString proc = " --max_number_of_threads ";
+ TCollection_AsciiString proc = " --max_number_of_threads ";
#endif
- TCollection_AsciiString verb = " --verbose ";
- TCollection_AsciiString maxmem = " --max_memory ";
+ TCollection_AsciiString verb = " --verbose ";
+ TCollection_AsciiString maxmem = " --max_memory ";
- TCollection_AsciiString comNbLayers = " --number_of_boundary_layers ";
- TCollection_AsciiString comFirstLayerSize = " --height_of_the_first_layer ";
- TCollection_AsciiString comDirection = " --boundary_layers_subdomain_direction ";
- TCollection_AsciiString comGrowth = " --boundary_layers_geometric_progression ";
+ TCollection_AsciiString comNbLayers = " --number_of_boundary_layers ";
+ TCollection_AsciiString comFirstLayerSize = " --height_of_the_first_layer ";
+ TCollection_AsciiString comDirection = " --boundary_layers_subdomain_direction ";
+ TCollection_AsciiString comGrowth = " --boundary_layers_geometric_progression ";
TCollection_AsciiString comFacesWithLayers = " --boundary_layers_surface_ids ";
- TCollection_AsciiString comImptintedFaces = " --imprinted_surface_ids ";
+ TCollection_AsciiString comImptintedFaces = " --imprinted_surface_ids ";
TCollection_AsciiString minLevel, maxLevel, minSize, maxSize, sharpAngle, mode, nbproc, verbosity, maxMemory,
textOptions, nbLayers, firstLayerSize, direction, growth, facesWithLayers, imprintedFaces;
- minLevel = _hexesMinLevel;
- maxLevel = _hexesMaxLevel;
- minSize = _hexesMinSize;
- maxSize = _hexesMaxSize;
+ minLevel = _hexesMinLevel;
+ maxLevel = _hexesMaxLevel;
+ minSize = _hexesMinSize;
+ maxSize = _hexesMaxSize;
sharpAngle = _hexoticSharpAngleThreshold;
// Mode translation for mg-tetra 1.1
switch ( _hexoticSdMode )
mode = "all --manifold_geometry no";
break;
}
- nbproc = _hexoticNbProc;
- verbosity = _hexoticVerbosity;
- maxMemory = _hexoticMaxMemory;
- textOptions = (" " + _textOptions + " ").c_str();
- nbLayers = _nbLayers;
+ nbproc = _hexoticNbProc;
+ verbosity = _hexoticVerbosity;
+ maxMemory = _hexoticMaxMemory;
+ textOptions = (" " + _textOptions + " ").c_str();
+ nbLayers = _nbLayers;
firstLayerSize = _firstLayerSize;
- direction = _direction ? "1" : "-1";
- growth = _growth;
+ direction = _direction ? "1" : "-1";
+ growth = _growth;
for (size_t i = 0; i < _facesWithLayers.size(); i++)
{
facesWithLayers += _facesWithLayers[i];
if (_hexoticSharpAngleThreshold > 0)
run_Hexotic += angle + sharpAngle;
-
- if (_sizeMaps.begin() != _sizeMaps.end() && forExecutable )
- run_Hexotic += sizeMap + Hexotic_SizeMap_Prefix;
+
+ if ( !_sizeMaps.empty() && forExecutable )
+ run_Hexotic += ( sizeMap + Hexotic_SizeMap_Prefix + ".sol " +
+ sizeMapMesh + Hexotic_SizeMap_Prefix + ".mesh " );
if (_nbLayers > 0 &&
_firstLayerSize > 0 &&
// way to share it
TopoDS_Shape HexoticPlugin_Hexotic::entryToShape(std::string entry)
{
- MESSAGE("HexoticPlugin_Hexotic::entryToShape "<<entry );
- if ( myStudy->_is_nil() )
- throw SALOME_Exception("MG-Hexa plugin can't work w/o publishing in the study");
GEOM::GEOM_Object_var aGeomObj;
TopoDS_Shape S = TopoDS_Shape();
- SALOMEDS::SObject_var aSObj = myStudy->FindObjectID( entry.c_str() );
+ SALOMEDS::SObject_var aSObj = SMESH_Gen_i::GetSMESHGen()->getStudyServant()->FindObjectID( entry.c_str() );
if (!aSObj->_is_nil()) {
CORBA::Object_var obj = aSObj->GetObject();
aGeomObj = GEOM::GEOM_Object::_narrow(obj);
aSObj->UnRegister();
}
if ( !aGeomObj->_is_nil() )
- S = smeshGen_i->GeomObjectToShape( aGeomObj.in() );
+ S = SMESH_Gen_i::GetSMESHGen()->GeomObjectToShape( aGeomObj.in() );
return S;
}
* \brief Produces a .mesh file with the size maps informations to give to Hexotic
*/
//================================================================================
-std::vector<std::string> HexoticPlugin_Hexotic::writeSizeMapFile( MG_Hexotic_API* mgOutput,
+
+std::vector<std::string> HexoticPlugin_Hexotic::writeSizeMapFile( MG_Hexotic_API* mgInput,
std::string sizeMapPrefix )
{
HexoticPlugin_Hypothesis::THexoticSizeMaps::iterator it;
-
- std::vector<Control_Pnt> points;
+
+ std::vector<ControlPnt> points;
// Iterate on the size maps
for (it=_sizeMaps.begin(); it!=_sizeMaps.end(); it++)
{
// Open files
int verticesFileID =
- mgOutput->GmfOpenMesh( myVerticesFile.c_str(), GmfWrite, GMFVERSION, GMFDIMENSION );
+ mgInput->GmfOpenMesh( myVerticesFile.c_str(), GmfWrite, GMFVERSION, GMFDIMENSION );
int solFileID =
- mgOutput->GmfOpenMesh( mySolFile.c_str(), GmfWrite, GMFVERSION, GMFDIMENSION );
+ mgInput->GmfOpenMesh( mySolFile.c_str(), GmfWrite, GMFVERSION, GMFDIMENSION );
+
+ mgInput->SetIsInputMesh( false ); // they are not mesh files
int pointsNumber = points.size();
// Vertices Keyword
- mgOutput->GmfSetKwd( verticesFileID, GmfVertices, pointsNumber );
+ mgInput->GmfSetKwd( verticesFileID, GmfVertices, pointsNumber );
// SolAtVertices Keyword
int TypTab[] = {GmfSca};
- mgOutput->GmfSetKwd(solFileID, GmfSolAtVertices, pointsNumber, 1, TypTab);
+ mgInput->GmfSetKwd(solFileID, GmfSolAtVertices, pointsNumber, 1, TypTab);
// Read the control points information from the vector and write it into the files
double ValTab[1];
- std::vector<Control_Pnt>::const_iterator points_it;
+ std::vector<ControlPnt>::const_iterator points_it;
for (points_it = points.begin(); points_it != points.end(); points_it++ )
{
- mgOutput->GmfSetLin( verticesFileID, GmfVertices, points_it->X(), points_it->Y(), points_it->Z(), 0 );
+ mgInput->GmfSetLin( verticesFileID, GmfVertices, points_it->X(), points_it->Y(), points_it->Z(), 0 );
ValTab[0] = points_it->Size();
- mgOutput->GmfSetLin( solFileID, GmfSolAtVertices, ValTab);
+ mgInput->GmfSetLin( solFileID, GmfSolAtVertices, ValTab);
}
// Close Files
- mgOutput->GmfCloseMesh( verticesFileID );
- mgOutput->GmfCloseMesh( solFileID );
+ mgInput->GmfCloseMesh( verticesFileID );
+ mgInput->GmfCloseMesh( solFileID );
std::vector<std::string> fileNames(2);
fileNames[0] = myVerticesFile;
return fileNames;
}
-//================================================================================
-/*!
- * \brief Fills a vector of points from which a size map input file can be written
- */
-//================================================================================
-void HexoticPlugin_Hexotic::createControlPoints( const TopoDS_Shape& aShape,
- const double& theSize,
- std::vector<Control_Pnt>& thePoints )
-{
- if ( aShape.ShapeType() == TopAbs_VERTEX )
- {
- gp_Pnt aPnt = BRep_Tool::Pnt( TopoDS::Vertex(aShape) );
- Control_Pnt aControl_Pnt( aPnt, theSize );
- thePoints.push_back( aControl_Pnt );
- }
- if ( aShape.ShapeType() == TopAbs_EDGE )
- {
- createPointsSampleFromEdge( aShape, theSize, thePoints );
- }
- else if ( aShape.ShapeType() == TopAbs_WIRE )
- {
- TopExp_Explorer Ex;
- for (Ex.Init(aShape,TopAbs_EDGE); Ex.More(); Ex.Next())
- {
- createPointsSampleFromEdge( Ex.Current(), theSize, thePoints );
- }
- }
- else if ( aShape.ShapeType() == TopAbs_FACE )
- {
- createPointsSampleFromFace( aShape, theSize, thePoints );
- }
- else if ( aShape.ShapeType() == TopAbs_SOLID )
- {
- createPointsSampleFromSolid( aShape, theSize, thePoints );
- }
- else if ( aShape.ShapeType() == TopAbs_COMPOUND )
- {
- TopoDS_Iterator it( aShape );
- for(; it.More(); it.Next())
- {
- createControlPoints( it.Value(), theSize, thePoints );
- }
- }
-}
-
-//================================================================================
-/*!
- * \brief Fills a vector of points with point samples approximately
- * \brief spaced with a given size
- */
-//================================================================================
-void HexoticPlugin_Hexotic::createPointsSampleFromEdge( const TopoDS_Shape& aShape,
- const double& theSize,
- std::vector<Control_Pnt>& thePoints )
-{
- double step = theSize;
- double first, last;
- Handle( Geom_Curve ) aCurve = BRep_Tool::Curve( TopoDS::Edge( aShape ), first, last );
- GeomAdaptor_Curve C ( aCurve );
- GCPnts_UniformAbscissa DiscretisationAlgo(C, step , first, last, Precision::Confusion());
- int nbPoints = DiscretisationAlgo.NbPoints();
-
- for ( int i = 1; i <= nbPoints; i++ )
- {
- double param = DiscretisationAlgo.Parameter( i );
- Control_Pnt aPnt;
- aCurve->D0( param, aPnt );
- aPnt.SetSize(theSize);
- thePoints.push_back( aPnt );
- }
-}
-
-//================================================================================
-/*!
- * \brief Fills a vector of points with point samples approximately
- * \brief spaced with a given size
- */
-//================================================================================
-void HexoticPlugin_Hexotic::createPointsSampleFromFace( const TopoDS_Shape& aShape,
- const double& theSize,
- std::vector<Control_Pnt>& thePoints )
-{
- BRepMesh_IncrementalMesh M(aShape, 0.01, Standard_True);
- TopLoc_Location aLocation;
- TopoDS_Face aFace = TopoDS::Face(aShape);
-
- // Triangulate the face
- Handle(Poly_Triangulation) aTri = BRep_Tool::Triangulation (aFace, aLocation);
-
- // Get the transformation associated to the face location
- gp_Trsf aTrsf = aLocation.Transformation();
-
- // Get triangles
- int nbTriangles = aTri->NbTriangles();
- Poly_Array1OfTriangle triangles(1,nbTriangles);
- triangles=aTri->Triangles();
-
- // GetNodes
- int nbNodes = aTri->NbNodes();
- TColgp_Array1OfPnt nodes(1,nbNodes);
- nodes = aTri->Nodes();
-
- // Iterate on triangles and subdivide them
- for(int i=1; i<=nbTriangles; i++)
- {
- Poly_Triangle aTriangle = triangles.Value(i);
- gp_Pnt p1 = nodes.Value(aTriangle.Value(1));
- gp_Pnt p2 = nodes.Value(aTriangle.Value(2));
- gp_Pnt p3 = nodes.Value(aTriangle.Value(3));
-
- p1.Transform(aTrsf);
- p2.Transform(aTrsf);
- p3.Transform(aTrsf);
-
- subdivideTriangle(p1, p2, p3, theSize, thePoints);
- }
-}
-
-//================================================================================
-/*!
- * \brief Fills a vector of points with point samples approximately
- * \brief spaced with a given size
- */
-//================================================================================
-void HexoticPlugin_Hexotic::createPointsSampleFromSolid( const TopoDS_Shape& aShape,
- const double& theSize,
- std::vector<Control_Pnt>& thePoints )
-{
- // Compute the bounding box
- double Xmin, Ymin, Zmin, Xmax, Ymax, Zmax;
- Bnd_Box B;
- BRepBndLib::Add(aShape, B);
- B.Get(Xmin, Ymin, Zmin, Xmax, Ymax, Zmax);
-
- // Create the points
- double step = theSize;
-
- for ( double x=Xmin; x-Xmax<Precision::Confusion(); x=x+step )
- {
- for ( double y=Ymin; y-Ymax<Precision::Confusion(); y=y+step )
- {
- // Step1 : generate the Zmin -> Zmax line
- gp_Pnt startPnt(x, y, Zmin);
- gp_Pnt endPnt(x, y, Zmax);
- gp_Vec aVec(startPnt, endPnt);
- gp_Lin aLine(startPnt, aVec);
- double endParam = Zmax - Zmin;
-
- // Step2 : for each face of aShape:
- std::set<double> intersections;
- std::set<double>::iterator it = intersections.begin();
-
- TopExp_Explorer Ex;
- for (Ex.Init(aShape,TopAbs_FACE); Ex.More(); Ex.Next())
- {
- // check if there is an intersection
- IntCurvesFace_Intersector anIntersector(TopoDS::Face(Ex.Current()), Precision::Confusion());
- anIntersector.Perform(aLine, 0, endParam);
-
- // get the intersection's parameter and store it
- int nbPoints = anIntersector.NbPnt();
- for(int i = 0 ; i < nbPoints ; i++ )
- {
- it = intersections.insert( it, anIntersector.WParameter(i+1) );
- }
- }
- // Step3 : go through the line chunk by chunk
- if ( intersections.begin() != intersections.end() )
- {
- std::set<double>::iterator intersectionsIterator=intersections.begin();
- double first = *intersectionsIterator;
- intersectionsIterator++;
- bool innerPoints = true;
- for ( ; intersectionsIterator!=intersections.end() ; intersectionsIterator++ )
- {
- double second = *intersectionsIterator;
- if ( innerPoints )
- {
- // If the last chunk was outside of the shape or this is the first chunk
- // add the points in the range [first, second] to the points vector
- double localStep = (second -first) / ceil( (second - first) / step );
- for ( double z = Zmin + first; z < Zmin + second; z = z + localStep )
- {
- thePoints.push_back(Control_Pnt( x, y, z, theSize ));
- }
- thePoints.push_back(Control_Pnt( x, y, Zmin + second, theSize ));
- }
- first = second;
- innerPoints = !innerPoints;
- }
- }
- }
- }
-}
-
-//================================================================================
-/*!
- * \brief Subdivides a triangle until it reaches a certain size (recursive function)
- */
-//================================================================================
-void HexoticPlugin_Hexotic::subdivideTriangle( const gp_Pnt& p1,
- const gp_Pnt& p2,
- const gp_Pnt& p3,
- const double& theSize,
- std::vector<Control_Pnt>& thePoints)
-{
- // Size threshold to stop subdividing
- // This value ensures that two control points are distant no more than 2*theSize
- // as shown below
- //
- // The greater distance D of the mass center M to each Edge is 1/3 * Median
- // and Median < sqrt(3/4) * a where a is the greater side (by using Apollonius' thorem).
- // So D < 1/3 * sqrt(3/4) * a and if a < sqrt(3) * S then D < S/2
- // and the distance between two mass centers of two neighbouring triangles
- // sharing an edge is < 2 * 1/2 * S = S
- // If the traingles share a Vertex and no Edge the distance of the mass centers
- // to the Vertices is 2*D < S so the mass centers are distant of less than 2*S
-
- double threshold = sqrt( 3. ) * theSize;
-
- if ( (p1.Distance(p2) > threshold ||
- p2.Distance(p3) > threshold ||
- p3.Distance(p1) > threshold))
- {
- std::vector<gp_Pnt> midPoints = computePointsForSplitting(p1, p2, p3);
-
- subdivideTriangle( midPoints[0], midPoints[1], midPoints[2], theSize, thePoints );
- subdivideTriangle( midPoints[0], p2, midPoints[1], theSize, thePoints );
- subdivideTriangle( midPoints[2], midPoints[1], p3, theSize, thePoints );
- subdivideTriangle( p1, midPoints[0], midPoints[2], theSize, thePoints );
- }
- else
- {
- double x = (p1.X() + p2.X() + p3.X()) / 3 ;
- double y = (p1.Y() + p2.Y() + p3.Y()) / 3 ;
- double z = (p1.Z() + p2.Z() + p3.Z()) / 3 ;
-
- Control_Pnt massCenter( x ,y ,z, theSize );
- thePoints.push_back( massCenter );
- }
-}
-
-//================================================================================
-/*!
- * \brief Returns the appropriate points for splitting a triangle
- * \brief the tangency points of the incircle are used in order to have mostly
- * \brief well-shaped sub-triangles
- */
-//================================================================================
-std::vector<gp_Pnt> HexoticPlugin_Hexotic::computePointsForSplitting( const gp_Pnt& p1,
- const gp_Pnt& p2,
- const gp_Pnt& p3 )
-{
- std::vector<gp_Pnt> midPoints;
- //Change coordinates
- gp_Trsf Trsf_1; // Identity transformation
- gp_Ax3 reference_system(gp::Origin(), gp::DZ(), gp::DX()); // OXY
-
- gp_Vec Vx(p1, p3);
- gp_Vec Vaux(p1, p2);
- gp_Dir Dx(Vx);
- gp_Dir Daux(Vaux);
- gp_Dir Dz = Dx.Crossed(Daux);
- gp_Ax3 current_system(p1, Dz, Dx);
-
- Trsf_1.SetTransformation( reference_system, current_system );
-
- gp_Pnt A = p1.Transformed(Trsf_1);
- gp_Pnt B = p2.Transformed(Trsf_1);
- gp_Pnt C = p3.Transformed(Trsf_1);
-
- double a = B.Distance(C) ;
- double b = A.Distance(C) ;
- double c = B.Distance(A) ;
-
- // Incenter coordinates
- // see http://mathworld.wolfram.com/Incenter.html
- double Xi = ( b*B.X() + c*C.X() ) / ( a + b + c );
- double Yi = ( b*B.Y() ) / ( a + b + c );
- gp_Pnt Center(Xi, Yi, 0);
-
- // Calculate the tangency points of the incircle
- gp_Pnt T1 = tangencyPoint( A, B, Center);
- gp_Pnt T2 = tangencyPoint( B, C, Center);
- gp_Pnt T3 = tangencyPoint( C, A, Center);
-
- gp_Pnt p1_2 = T1.Transformed(Trsf_1.Inverted());
- gp_Pnt p2_3 = T2.Transformed(Trsf_1.Inverted());
- gp_Pnt p3_1 = T3.Transformed(Trsf_1.Inverted());
-
- midPoints.push_back(p1_2);
- midPoints.push_back(p2_3);
- midPoints.push_back(p3_1);
-
- return midPoints;
-}
-
-//================================================================================
-/*!
- * \brief Computes the tangency points of the circle of center Center with
- * \brief the straight line (p1 p2)
- */
-//================================================================================
-gp_Pnt HexoticPlugin_Hexotic::tangencyPoint(const gp_Pnt& p1,
- const gp_Pnt& p2,
- const gp_Pnt& Center)
-{
- double Xt = 0;
- double Yt = 0;
-
- // The tangency point is the intersection of the straight line (p1 p2)
- // and the straight line (Center T) which is orthogonal to (p1 p2)
- if ( fabs(p1.X() - p2.X()) <= Precision::Confusion() )
- {
- Xt=p1.X(); // T is on (p1 p2)
- Yt=Center.Y(); // (Center T) is orthogonal to (p1 p2)
- }
- else if ( fabs(p1.Y() - p2.Y()) <= Precision::Confusion() )
- {
- Yt=p1.Y(); // T is on (p1 p2)
- Xt=Center.X(); // (Center T) is orthogonal to (p1 p2)
- }
- else
- {
- // First straight line coefficients (equation y=a*x+b)
- double a = (p2.Y() - p1.Y()) / (p2.X() - p1.X()) ;
- double b = p1.Y() - a*p1.X(); // p1 is on this straight line
-
- // Second straight line coefficients (equation y=c*x+d)
- double c = -1 / a; // The 2 lines are orthogonal
- double d = Center.Y() - c*Center.X(); // Center is on this straight line
-
- Xt = (d - b) / (a - c);
- Yt = a*Xt + b;
- }
-
- return gp_Pnt( Xt, Yt, 0 );
-}
-
//=============================================================================
/*!
* Here we are going to use the MG-Hexa mesher
//=============================================================================
bool HexoticPlugin_Hexotic::Compute(SMESH_Mesh& aMesh,
- const TopoDS_Shape& aShape)
+ const TopoDS_Shape& /*aShape*/)
{
_computeCanceled = false;
bool Ok = true;
SetParameters(_hypothesis);
- TCollection_AsciiString aTmpDir = _hexoticWorkingDirectory.c_str();
+ TCollection_AsciiString aTmpDir = Kernel_Utils::GetTmpDirByPath(_hexoticWorkingDirectory).c_str();
TCollection_AsciiString aQuote("");
#ifdef WIN32
aQuote = "\"";
Hexotic_Out = aTmpDir + "Hexotic"+getSuffix()+"_Out.mesh";
#ifdef WITH_BLSURFPLUGIN
bool defaultInputFile = true;
- if (_blsurfHypo && !_blsurfHypo->GetQuadAllowed()) {
+ if (_blsurfHypo && _blsurfHypo->GetElementType() == BLSURFPlugin_Hypothesis::Triangles ) {
Hexotic_In = _blsurfHypo->GetGMFFile().c_str();
if ( !Hexotic_In.IsEmpty() &&
SMESH_File( _blsurfHypo->GetGMFFile() ).exists() )
{
+ MESSAGE("Use output file from blsurf as input file from hexotic: " << Hexotic_In);
mgHexa.SetUseExecutable();
+ mgHexa.SetInputFile( _blsurfHypo->GetGMFFile() );
defaultInputFile = false;
}
}
splitQuads(aMesh); // quadrangles are no longer acceptable as input
if ( mgHexa.IsExecutable() )
{
- cout << std::endl;
- cout << "Creating MG-Hexa input mesh file : " << Hexotic_In << std::endl;
+ std::cout << std::endl;
+ std::cout << "Creating MG-Hexa input mesh file : " << Hexotic_In << std::endl;
}
writeInput( &mgHexa, Hexotic_In.ToCString(), meshDS );
#ifdef WITH_BLSURFPLUGIN
std::string run_Hexotic = getHexoticCommand(aQuote + Hexotic_In + aQuote, aQuote + Hexotic_Out + aQuote, Hexotic_SizeMap_Prefix, mgHexa.IsExecutable() );
run_Hexotic += std::string(" 1> ") + aQuote.ToCString() + aLogFileName.ToCString() + aQuote.ToCString(); // dump into file
mgHexa.SetLogFile( aLogFileName.ToCString() );
- cout << "Creating MG-Hexa log file : " << aLogFileName << std::endl;
+ std::cout << "Creating MG-Hexa log file : " << aLogFileName << std::endl;
- cout << std::endl;
- cout << "MG-Hexa command : " << run_Hexotic << std::endl;
+ std::cout << std::endl;
+ std::cout << "MG-Hexa command : " << run_Hexotic << std::endl;
if ( mgHexa.IsExecutable() )
{
// read a result
// --------------
- if ( mgHexa.IsExecutable() )
+ if ( mgHexa.IsExecutable() && SMESH_File( Hexotic_Out.ToCString() ).exists() )
{
#ifndef WIN32
modeFile_Out += Hexotic_Out;
&aHelper, _nbShape, tabShape, tabBox );
std::string log = mgHexa.GetLog();
+ hexahedraMessage = "failed";
if ( Ok )
{
hexahedraMessage = "success";
-#ifndef _DEBUG_
- removeFile(Hexotic_Out);
- removeFile(Hexotic_In);
- //removeFile(aLogFileName);
- for( size_t i=0; i<sizeMapFiles.size(); i++)
- {
- removeFile( TCollection_AsciiString( sizeMapFiles[i].c_str() ) );
- }
-#endif
+ if ( _removeLogOnSuccess )
+ removeFile( aLogFileName );
}
- else
+ else if ( !log.empty() )
{
- hexahedraMessage = "failed";
- if ( mgHexa.IsExecutable() )
- cout << "Problem with MG-Hexa output file " << Hexotic_Out.ToCString() << std::endl;
- // analyse log file
- if ( !log.empty() )
+ if( _computeCanceled )
+ error( "interruption initiated by user" );
+ else
{
+ // get problem description from the log file
char msgLic[] = " Dlim ";
- std::string log = mgHexa.GetLog();
const char* fileBeg = &log[0], *fileEnd = fileBeg + log.size();
if ( std::search( fileBeg, fileEnd, msgLic, msgLic+strlen(msgLic)) != fileEnd )
error("Licence problems.");
}
- if ( !errStr.empty() )
- error(errStr);
}
- cout << "Hexahedra meshing " << hexahedraMessage << std::endl;
- cout << std::endl;
+ else if ( !errStr.empty() )
+ {
+ // the log file is empty
+ removeFile( aLogFileName );
+ INFOS( "MG-Hexa Error, " << errStr);
+ error(COMPERR_ALGO_FAILED, errStr);
+ }
+
+ if ( !Ok && mgHexa.IsExecutable() )
+ std::cout << "Problem with MG-Hexa output file " << Hexotic_Out.ToCString() << std::endl;
+
+ if ( !_keepFiles )
+ {
+ if (! Ok && _computeCanceled )
+ removeFile( aLogFileName );
+ removeFile(Hexotic_Out);
+ removeFile(Hexotic_In);
+ for ( size_t i = 0; i < sizeMapFiles.size(); i++ )
+ removeFile( sizeMapFiles[i].c_str() );
+ }
+ std::cout << "Hexahedra meshing " << hexahedraMessage << std::endl;
+ std::cout << std::endl;
delete [] tabShape;
for (int i=0; i<_nbShape; i++)
_iShape = 0;
}
- if(_computeCanceled)
- return error(SMESH_Comment("interruption initiated by user"));
-
return Ok;
}
bool HexoticPlugin_Hexotic::Compute(SMESH_Mesh & aMesh, SMESH_MesherHelper* aHelper)
{
_computeCanceled = false;
-/*
- SMESH_ComputeErrorPtr myError = SMESH_ComputeError::New();
-*/
+
bool Ok = true;
TCollection_AsciiString hexahedraMessage;
TCollection_AsciiString aQuote("");
#ifdef WIN32
- aQuote = "\"";
+ aQuote = "\"";
#endif
SetParameters(_hypothesis);
Hexotic_In = aTmpDir + "Hexotic"+getSuffix()+"_In.mesh";
Hexotic_Out = aTmpDir + "Hexotic"+getSuffix()+"_Out.mesh";
Hexotic_SizeMap_Prefix = aTmpDir + "Hexotic_SizeMap";
-
+
MG_Hexotic_API mgHexa( _computeCanceled, _progress );
std::vector<std::string> sizeMapFiles = writeSizeMapFile( &mgHexa, Hexotic_SizeMap_Prefix.ToCString() );
std::string run_Hexotic = getHexoticCommand(aQuote + Hexotic_In + aQuote, aQuote + Hexotic_Out + aQuote, Hexotic_SizeMap_Prefix, mgHexa.IsExecutable());
run_Hexotic += std::string(" 1> ") + aQuote.ToCString() + aLogFileName.ToCString() + aQuote.ToCString(); // dump into file
mgHexa.SetLogFile( aLogFileName.ToCString() );
- cout << "Creating MG-Hexa log file : " << aLogFileName << std::endl;
+ std::cout << "Creating MG-Hexa log file : " << aLogFileName << std::endl;
removeHexoticFiles(Hexotic_In, Hexotic_Out);
splitQuads(aMesh); // quadrangles are no longer acceptable as input
- cout << std::endl;
- cout << "Creating MG-Hexa input mesh file : " << Hexotic_In << std::endl;
+ std::cout << std::endl;
+ std::cout << "Creating MG-Hexa input mesh file : " << Hexotic_In << std::endl;
writeInput( &mgHexa, Hexotic_In.ToCString(), aHelper->GetMeshDS() );
if ( mgHexa.IsExecutable() )
{
MESSAGE("HexoticPlugin_Hexotic::Compute");
- cout << std::endl;
- cout << "MG-Hexa command : " << run_Hexotic << std::endl;
+ std::cout << std::endl;
+ std::cout << "MG-Hexa command : " << run_Hexotic << std::endl;
std::string errStr;
Ok = mgHexa.Compute( run_Hexotic, errStr ); // run
// read a result
// --------------
- if ( mgHexa.IsExecutable() )
+ if ( mgHexa.IsExecutable() && SMESH_File( Hexotic_Out.ToCString() ).exists() )
{
modeFile_Out += Hexotic_Out;
system( modeFile_Out.ToCString() );
}
- Ok = readResult( &mgHexa, Hexotic_Out.ToCString(),
- this,
- aHelper );
+ Ok = Ok && readResult( &mgHexa, Hexotic_Out.ToCString(), this, aHelper );
std::string log = mgHexa.GetLog();
if ( Ok )
{
hexahedraMessage = "failed";
if ( mgHexa.IsExecutable() )
- cout << "Problem with MG-Hexa output file " << Hexotic_Out << std::endl;
- // analyse log file
- if ( !log.empty() )
- {
- char msgLic[] = " Dlim ";
- const char* fileBeg = &log[0], *fileEnd = fileBeg + log.size();
- if ( std::search( fileBeg, fileEnd, msgLic, msgLic+strlen(msgLic)) != fileEnd )
- error("Licence problems.");
- }
+ std::cout << "Problem with MG-Hexa output file " << Hexotic_Out << std::endl;
+
+ if ( log.find( " license " ) != std::string::npos ||
+ log.find( " Dlim " ) != std::string::npos )
+ error("License problems.");
+
if ( !errStr.empty() )
error(errStr);
}
- cout << "Hexahedra meshing " << hexahedraMessage << std::endl;
- cout << std::endl;
+ std::cout << "Hexahedra meshing " << hexahedraMessage << std::endl;
+ std::cout << std::endl;
if(_computeCanceled)
return error(SMESH_Comment("interruption initiated by user"));
removeFile(Hexotic_Out);
removeFile(Hexotic_In);
- removeFile(aLogFileName);
+ if ( Ok )
+ removeFile(aLogFileName);
for( size_t i=0; i<sizeMapFiles.size(); i++)
{
removeFile( TCollection_AsciiString(sizeMapFiles[i].c_str()) );
const TopoDS_Shape& aShape,
MapShapeNbElems& aResMap)
{
- std::vector<int> aResVec(SMDSEntity_Last);
- for(int i=SMDSEntity_Node; i<SMDSEntity_Last; i++) aResVec[i] = 0;
+ std::vector<smIdType> aResVec(SMDSEntity_Last);
+ for(smIdType i=SMDSEntity_Node; i<SMDSEntity_Last; i++) aResVec[i] = 0;
SMESH_subMesh * sm = aMesh.GetSubMesh(aShape);
aResMap.insert(std::make_pair(sm,aResVec));