#include "MED_Factory.hxx"
#include "MED_Utilities.hxx"
#include "SMDS_IteratorOnIterators.hxx"
-#include "SMDS_MeshElement.hxx"
#include "SMDS_MeshNode.hxx"
-#include "SMDS_PolyhedralVolumeOfNodes.hxx"
#include "SMDS_SetIterator.hxx"
#include "SMESHDS_Mesh.hxx"
myDoGroupOfVolumes (false),
myDoGroupOf0DElems(false),
myDoGroupOfBalls(false),
- myAutoDimension(true),
- myAddODOnVertices(false)
+ myAutoDimension(false),
+ myAddODOnVertices(false),
+ myDoAllInGroups(false)
{}
void DriverMED_W_SMESHDS_Mesh::SetFile(const std::string& theFileName,
{
Driver_SMESHDS_Mesh::SetFile(theFileName);
myMedVersion = theId;
+ //MESSAGE("myMedVersion:"<<myMedVersion);
}
void DriverMED_W_SMESHDS_Mesh::SetFile(const std::string& theFileName)
Driver_SMESHDS_Mesh::SetFile(theFileName);
}
+/*!
+ * MED version is either the latest available, or with an inferior minor,
+ * to ensure backward compatibility on writing med files.
+ */
string DriverMED_W_SMESHDS_Mesh::GetVersionString(const MED::EVersion theVersion, int theNbDigits)
{
TInt majeur, mineur, release;
majeur = mineur = release = 0;
-// if ( theVersion == eV2_1 )
-// MED::GetVersionRelease<eV2_1>(majeur, mineur, release);
-// else
- MED::GetVersionRelease<eV2_2>(majeur, mineur, release);
+ MED::GetVersionRelease<eV2_2>(majeur, mineur, release);
+ TInt imposedMineur = mineur;
+ switch( theVersion ) {
+ case MED::eV2_1 :
+ case MED::eV2_2 :
+ case MED::eLATEST : break;
+ case MED::eMINOR_0 : imposedMineur = 0; break;
+ case MED::eMINOR_1 : imposedMineur = 1; break;
+ case MED::eMINOR_2 : imposedMineur = 2; break;
+ case MED::eMINOR_3 : imposedMineur = 3; break;
+ case MED::eMINOR_4 : imposedMineur = 4; break;
+ case MED::eMINOR_5 : imposedMineur = 5; break;
+ case MED::eMINOR_6 : imposedMineur = 6; break;
+ case MED::eMINOR_7 : imposedMineur = 7; break;
+ case MED::eMINOR_8 : imposedMineur = 8; break;
+ case MED::eMINOR_9 : imposedMineur = 9; break;
+ case MED::eVUnknown : imposedMineur = mineur; break;
+ }
+ if (imposedMineur > mineur)
+ imposedMineur = mineur;
ostringstream name;
if ( theNbDigits > 0 )
name << majeur;
if ( theNbDigits > 1 )
- name << "." << mineur;
+ name << "." << imposedMineur;
if ( theNbDigits > 2 )
name << "." << release;
return name.str();
myDoGroupOfVolumes = true;
}
+void DriverMED_W_SMESHDS_Mesh::AddGroupOf0DElems()
+{
+ myDoGroupOf0DElems = true;
+}
+
+void DriverMED_W_SMESHDS_Mesh::AddGroupOfBalls()
+{
+ myDoGroupOfBalls = true;
+}
+
+//================================================================================
+/*!
+ * \brief Set up a flag to add all elements not belonging to any group to
+ * some auxiliary group. This is needed for SMESH -> SAUVE -> SMESH conversion,
+ * which since PAL0023285 reads only SAUVE elements belonging to any group,
+ * and hence can lose some elements. That auxiliary group is ignored while
+ * reading a MED file.
+ */
+//================================================================================
+
+void DriverMED_W_SMESHDS_Mesh::AddAllToGroup()
+{
+ myDoAllInGroups = true;
+}
+
+
namespace
{
typedef double (SMDS_MeshNode::* TGetCoord)() const;
Driver_Mesh::Status DriverMED_W_SMESHDS_Mesh::Perform()
{
Status aResult = DRS_OK;
- if (myMesh->hasConstructionEdges() || myMesh->hasConstructionFaces()) {
- INFOS("SMDS_MESH with hasConstructionEdges() or hasConstructionFaces() do not supports!!!");
- return DRS_FAIL;
- }
try {
- MESSAGE("Perform - myFile : "<<myFile);
+ //MESSAGE("Perform - myFile : "<<myFile);
// Creating the MED mesh for corresponding SMDS structure
//-------------------------------------------------------
}
// Mesh dimension definition
+
+ TInt aMeshDimension = 0;
+ if ( myMesh->NbEdges() > 0 )
+ aMeshDimension = 1;
+ if ( myMesh->NbFaces() > 0 )
+ aMeshDimension = 2;
+ if ( myMesh->NbVolumes() > 0 )
+ aMeshDimension = 3;
+
TInt aSpaceDimension = 3;
TCoordHelperPtr aCoordHelperPtr;
{
bool anIsXDimension = false;
bool anIsYDimension = false;
bool anIsZDimension = false;
- if ( myAutoDimension )
+ if ( myAutoDimension && aMeshDimension < 3 )
{
SMDS_NodeIteratorPtr aNodesIter = myMesh->nodesIterator();
double aBounds[6];
const SMDS_MeshNode* aNode = aNodesIter->next();
aBounds[0] = min(aBounds[0],aNode->X());
aBounds[1] = max(aBounds[1],aNode->X());
-
+
aBounds[2] = min(aBounds[2],aNode->Y());
aBounds[3] = max(aBounds[3],aNode->Y());
anIsXDimension = (aBounds[1] - aBounds[0]) + abs(aBounds[1]) + abs(aBounds[0]) > EPS;
anIsYDimension = (aBounds[3] - aBounds[2]) + abs(aBounds[3]) + abs(aBounds[2]) > EPS;
anIsZDimension = (aBounds[5] - aBounds[4]) + abs(aBounds[5]) + abs(aBounds[4]) > EPS;
- aSpaceDimension = anIsXDimension + anIsYDimension + anIsZDimension;
+ aSpaceDimension = Max( aMeshDimension, anIsXDimension + anIsYDimension + anIsZDimension );
if ( !aSpaceDimension )
aSpaceDimension = 3;
// PAL16857(SMESH not conform to the MED convention):
}
}
- SMDS_NodeIteratorPtr aNodesIter = myMesh->nodesIterator(/*idInceasingOrder=*/true);
+ SMDS_NodeIteratorPtr aNodesIter = myMesh->nodesIterator();
switch ( aSpaceDimension ) {
case 3:
aCoordHelperPtr.reset(new TCoordHelper(aNodesIter,aXYZGetCoord,aXYZName));
break;
}
}
- TInt aMeshDimension = 0;
- if ( myMesh->NbEdges() > 0 )
- aMeshDimension = 1;
- if ( myMesh->NbFaces() > 0 )
- aMeshDimension = 2;
- if ( myMesh->NbVolumes() > 0 )
- aMeshDimension = 3;
-
+ //MESSAGE("myMedVersion:"<<myMedVersion);
MED::PWrapper myMed = CrWrapper(myFile,myMedVersion);
PMeshInfo aMeshInfo = myMed->CrMeshInfo(aMeshDimension,aSpaceDimension,aMeshName);
- MESSAGE("Add - aMeshName : "<<aMeshName<<"; "<<aMeshInfo->GetName());
+ //MESSAGE("Add - aMeshName : "<<aMeshName<<"; "<<aMeshInfo->GetName());
myMed->SetMeshInfo(aMeshInfo);
// Storing SMDS groups and sub-meshes as med families
int nbEdges = myMesh->NbEdges();
int nbFaces = myMesh->NbFaces();
int nbVolumes = myMesh->NbVolumes();
- if (myDoGroupOfNodes && nbNodes) myNodesDefaultFamilyId = REST_NODES_FAMILY;
- if (myDoGroupOfEdges && nbEdges) myEdgesDefaultFamilyId = REST_EDGES_FAMILY;
- if (myDoGroupOfFaces && nbFaces) myFacesDefaultFamilyId = REST_FACES_FAMILY;
- if (myDoGroupOfVolumes && nbVolumes) myVolumesDefaultFamilyId = REST_VOLUMES_FAMILY;
- if (myDoGroupOf0DElems && nb0DElements) my0DElementsDefaultFamilyId = REST_0DELEM_FAMILY;
- if (myDoGroupOfBalls && nbBalls) myBallsDefaultFamilyId = REST_BALL_FAMILY;
-
- MESSAGE("Perform - aFamilyInfo");
+ if (myDoGroupOfNodes) myNodesDefaultFamilyId = REST_NODES_FAMILY;
+ if (myDoGroupOfEdges) myEdgesDefaultFamilyId = REST_EDGES_FAMILY;
+ if (myDoGroupOfFaces) myFacesDefaultFamilyId = REST_FACES_FAMILY;
+ if (myDoGroupOfVolumes) myVolumesDefaultFamilyId = REST_VOLUMES_FAMILY;
+ if (myDoGroupOf0DElems) my0DElementsDefaultFamilyId = REST_0DELEM_FAMILY;
+ if (myDoGroupOfBalls) myBallsDefaultFamilyId = REST_BALL_FAMILY;
+ if (myDoAllInGroups )
+ {
+ if (!myDoGroupOfEdges) myEdgesDefaultFamilyId = NIG_EDGES_FAMILY ;
+ if (!myDoGroupOfFaces) myFacesDefaultFamilyId = NIG_FACES_FAMILY ;
+ if (!myDoGroupOfVolumes) myVolumesDefaultFamilyId = NIG_VOLS_FAMILY ;
+ if (!myDoGroupOf0DElems) my0DElementsDefaultFamilyId = NIG_0DELEM_FAMILY ;
+ if (!myDoGroupOfBalls) myBallsDefaultFamilyId = NIG_BALL_FAMILY ;
+ }
+
+ //MESSAGE("Perform - aFamilyInfo");
list<DriverMED_FamilyPtr> aFamilies;
if (myAllSubMeshes) {
aFamilies = DriverMED_Family::MakeFamilies
myDoGroupOfFaces && nbFaces,
myDoGroupOfVolumes && nbVolumes,
myDoGroupOf0DElems && nb0DElements,
- myDoGroupOfBalls && nbBalls);
+ myDoGroupOfBalls && nbBalls,
+ myDoAllInGroups);
}
else {
aFamilies = DriverMED_Family::MakeFamilies
myDoGroupOfFaces && nbFaces,
myDoGroupOfVolumes && nbVolumes,
myDoGroupOf0DElems && nb0DElements,
- myDoGroupOfBalls && nbBalls);
+ myDoGroupOfBalls && nbBalls,
+ myDoAllInGroups);
}
list<DriverMED_FamilyPtr>::iterator aFamsIter;
for (aFamsIter = aFamilies.begin(); aFamsIter != aFamilies.end(); aFamsIter++)
aNodeInfo->SetCoordUnit( iCoord, aCoordHelperPtr->GetUnit(iCoord));
}
- //cout << " SetNodeInfo(aNodeInfo)" << endl;
- MESSAGE("Perform - aNodeInfo->GetNbElem() = "<<aNbNodes);
+ //MESSAGE("Perform - aNodeInfo->GetNbElem() = "<<aNbNodes);
myMed->SetNodeInfo(aNodeInfo);
aNodeInfo.reset(); // free memory used for arrays
SMDSAbs_Volume));
aTElemTypeDatas.push_back( TElemTypeData(anEntity,
ePENTA15,
- nbElemInfo.NbPrisms( ORDER_QUADRATIC ),
+ nbElemInfo.NbQuadPrisms(),
+ SMDSAbs_Volume));
+ aTElemTypeDatas.push_back( TElemTypeData(anEntity,
+ ePENTA18,
+ nbElemInfo.NbBiQuadPrisms(),
SMDSAbs_Volume));
aTElemTypeDatas.push_back( TElemTypeData(anEntity,
eHEXA8,
continue;
}
+ // build map of family numbers for this type
+ if ( !isElemFamMapBuilt[ aElemTypeData->_smdsType ])
+ {
+ fillElemFamilyMap( anElemFamMap, aFamilies, aElemTypeData->_smdsType );
+ isElemFamMapBuilt[ aElemTypeData->_smdsType ] = true;
+ }
+
// iterator on elements of a current type
SMDS_ElemIteratorPtr elemIterator;
int iElem = 0;
// Treat POLYEDREs
// ----------------
- else if (aElemTypeData->_geomType == ePOLYEDRE )
+ else if ( aElemTypeData->_geomType == ePOLYEDRE )
{
elemIterator = myMesh->elementGeomIterator( SMDSGeom_POLYHEDRA );
-
+
if ( nbPolyhedronNodes == 0 ) {
// Count nb of nodes
while ( elemIterator->more() ) {
const SMDS_MeshElement* anElem = elemIterator->next();
- const SMDS_VtkVolume *aPolyedre = dynamic_cast<const SMDS_VtkVolume*>(anElem);
- if ( !aPolyedre ) continue;
- nbPolyhedronNodes += aPolyedre->NbNodes();
- nbPolyhedronFaces += aPolyedre->NbFaces();
+ nbPolyhedronNodes += anElem->NbNodes();
+ nbPolyhedronFaces += anElem->NbFaces();
if ( ++iElem == aElemTypeData->_nbElems )
break;
}
TInt iFace = 0, iNode = 0;
while ( elemIterator->more() )
{
- const SMDS_MeshElement* anElem = elemIterator->next();
- const SMDS_VtkVolume *aPolyedre = dynamic_cast<const SMDS_VtkVolume*>(anElem);
+ const SMDS_MeshElement* anElem = elemIterator->next();
+ const SMDS_MeshVolume *aPolyedre = myMesh->DownCast< SMDS_MeshVolume >( anElem );
if ( !aPolyedre ) continue;
// index
TInt aNbFaces = aPolyedre->NbFaces();
// allocate data arrays
PBallInfo aBallInfo = myMed->CrBallInfo( aMeshInfo, aElemTypeData->_nbElems );
- // build map of family numbers for this type
- if ( !isElemFamMapBuilt[ aElemTypeData->_smdsType ])
- {
- fillElemFamilyMap( anElemFamMap, aFamilies, aElemTypeData->_smdsType );
- isElemFamMapBuilt[ aElemTypeData->_smdsType ] = true;
- }
-
elemIterator = myMesh->elementsIterator( SMDSAbs_Ball );
while ( elemIterator->more() )
{
{
// Treat standard types
// ---------------------
-
// allocate data arrays
PCellInfo aCellInfo = myMed->CrCellInfo( aMeshInfo,
aElemTypeData->_entity,
theConnMode,
theIsElemNum,
theIsElemNames);
- // build map of family numbers for this type
- if ( !isElemFamMapBuilt[ aElemTypeData->_smdsType ])
- {
- //cout << " fillElemFamilyMap()" << endl;
- fillElemFamilyMap( anElemFamMap, aFamilies, aElemTypeData->_smdsType );
- isElemFamMapBuilt[ aElemTypeData->_smdsType ] = true;
- }
TInt aNbNodes = MED::GetNbNodes(aElemTypeData->_geomType);
elemIterator = myMesh->elementsIterator( aElemTypeData->_smdsType );
// store data in a file
myMed->SetCellInfo(aCellInfo);
}
-
} // loop on geom types
-
-
}
catch(const std::exception& exc) {
INFOS("The following exception was caught:\n\t"<<exc.what());