SMESH::SMESH_Hypothesis_var hyp = this->createHypothesis( theHypName, theLibName );
// Publish hypothesis/algorithm in the study
- if ( CanPublishInStudy( hyp ) )
- PublishHypothesis( myCurrentStudy, hyp );
+ if ( CanPublishInStudy( hyp ) ) {
+ SALOMEDS::SObject_var aSO = PublishHypothesis( myCurrentStudy, hyp );
+ if ( !aSO->_is_nil() ) {
+ // Update Python script
+ TCollection_AsciiString aStr (aSO->GetID());
+ aStr += " = smesh.CreateHypothesis(\"";
+ aStr += Standard_CString(theHypName);
+ aStr += "\", \"";
+ aStr += Standard_CString(theLibName);
+ aStr += "\")";
+
+ AddToCurrentPyScript(aStr);
+ }
+ }
return hyp._retn();
}
-
+
//=============================================================================
/*!
* SMESH_Gen_i::CreateMesh
SMESH_Mesh_i* meshServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( mesh ).in() );
ASSERT( meshServant );
meshServant->SetShape( theShapeObject );
+
// publish mesh in the study
- if ( CanPublishInStudy( mesh ) )
- PublishMesh( myCurrentStudy, mesh.in() );
+ if ( CanPublishInStudy( mesh ) ) {
+ SALOMEDS::StudyBuilder_var aStudyBuilder = myCurrentStudy->NewBuilder();
+ aStudyBuilder->NewCommand(); // There is a transaction
+ SALOMEDS::SObject_var aSO = PublishMesh( myCurrentStudy, mesh.in() );
+ aStudyBuilder->CommitCommand();
+ if ( !aSO->_is_nil() ) {
+ // Update Python script
+ TCollection_AsciiString aStr (aSO->GetID());
+ aStr += " = smesh.CreateMesh(";
+ SMESH_Gen_i::AddObject(aStr, theShapeObject) += ")";
+
+ AddToCurrentPyScript(aStr);
+ }
+ }
+
return mesh._retn();
}
SMESH::SMESH_Mesh_var aMesh = createMesh();
string aFileName; // = boost::filesystem::path(theFileName).leaf();
// publish mesh in the study
- if ( CanPublishInStudy( aMesh ) )
- PublishMesh( myCurrentStudy, aMesh.in(), aFileName.c_str() );
+ if ( CanPublishInStudy( aMesh ) ) {
+ SALOMEDS::StudyBuilder_var aStudyBuilder = myCurrentStudy->NewBuilder();
+ aStudyBuilder->NewCommand(); // There is a transaction
+ SALOMEDS::SObject_var aSO = PublishMesh( myCurrentStudy, aMesh.in(), aFileName.c_str() );
+ aStudyBuilder->CommitCommand();
+ if ( !aSO->_is_nil() ) {
+ // Update Python script
+ TCollection_AsciiString aStr (aSO->GetID());
+ aStr += " = smesh.CreateMeshesFromUNV(\"";
+ aStr += Standard_CString(theFileName);
+ aStr += "\")";
+
+ AddToCurrentPyScript(aStr);
+ }
+ }
SMESH_Mesh_i* aServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( aMesh ).in() );
ASSERT( aServant );
Unexpect aCatch(SALOME_SalomeException);
if(MYDEBUG) MESSAGE( "SMESH_Gen_i::CreateMeshFromMED" );
+ // Python Dump
+ TCollection_AsciiString aStr ("([");
+
// Retrieve mesh names from the file
DriverMED_R_SMESHDS_Mesh myReader;
myReader.SetFile( theFileName );
list<string> aNames = myReader.GetMeshNames(aStatus);
SMESH::mesh_array_var aResult = new SMESH::mesh_array();
theStatus = (SMESH::DriverMED_ReadStatus)aStatus;
- if(theStatus == SMESH::DRS_OK){
+ if (theStatus == SMESH::DRS_OK) {
+ SALOMEDS::StudyBuilder_var aStudyBuilder = myCurrentStudy->NewBuilder();
+ aStudyBuilder->NewCommand(); // There is a transaction
aResult->length( aNames.size() );
int i = 0;
// Iterate through all meshes and create mesh objects
for ( list<string>::iterator it = aNames.begin(); it != aNames.end(); it++ ) {
+ // Python Dump
+ if (i > 0) aStr += ", ";
+
// create mesh
SMESH::SMESH_Mesh_var mesh = createMesh();
// publish mesh in the study
+ SALOMEDS::SObject_var aSO;
if ( CanPublishInStudy( mesh ) )
- PublishMesh( myCurrentStudy, mesh.in(), (*it).c_str() );
-
+ aSO = PublishMesh( myCurrentStudy, mesh.in(), (*it).c_str() );
+ if ( !aSO->_is_nil() ) {
+ // Python Dump
+ aStr += aSO->GetID();
+ } else {
+ // Python Dump
+ aStr += "mesh_";
+ aStr += TCollection_AsciiString(i);
+ }
+
// Read mesh data (groups are published automatically by ImportMEDFile())
SMESH_Mesh_i* meshServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( mesh ).in() );
ASSERT( meshServant );
aResult[i++] = SMESH::SMESH_Mesh::_duplicate( mesh );
}
+ aStudyBuilder->CommitCommand();
}
+
+ // Update Python script
+ aStr += "], status) = smesh.CreateMeshesFromMED(\"";
+ aStr += Standard_CString(theFileName);
+ aStr += "\")";
+
+ AddToCurrentPyScript(aStr);
+
return aResult._retn();
}
SMESH::SMESH_Mesh_var aMesh = createMesh();
string aFileName; // = boost::filesystem::path(theFileName).leaf();
// publish mesh in the study
- if ( CanPublishInStudy( aMesh ) )
- PublishInStudy( myCurrentStudy, SALOMEDS::SObject::_nil(), aMesh.in(), aFileName.c_str() );
+ if ( CanPublishInStudy( aMesh ) ) {
+ SALOMEDS::StudyBuilder_var aStudyBuilder = myCurrentStudy->NewBuilder();
+ aStudyBuilder->NewCommand(); // There is a transaction
+ SALOMEDS::SObject_var aSO = PublishInStudy
+ ( myCurrentStudy, SALOMEDS::SObject::_nil(), aMesh.in(), aFileName.c_str() );
+ aStudyBuilder->CommitCommand();
+ if ( !aSO->_is_nil() ) {
+ // Update Python script
+ TCollection_AsciiString aStr (aSO->GetID());
+ aStr += " = smesh.CreateMeshesFromSTL(\"";
+ aStr += Standard_CString(theFileName);
+ aStr += "\")";
+
+ AddToCurrentPyScript(aStr);
+ }
+ }
SMESH_Mesh_i* aServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( aMesh ).in() );
ASSERT( aServant );
THROW_SALOME_CORBA_EXCEPTION( "bad Mesh reference",
SALOME::BAD_PARAM );
+ // Update Python script
+ TCollection_AsciiString aStr ("isDone = smesh.Compute(");
+ SMESH_Gen_i::AddObject(aStr, theMesh) += ", ";
+ SMESH_Gen_i::AddObject(aStr, theShapeObject) += ")";
+
+ AddToCurrentPyScript(aStr);
+
+ aStr = "if isDone == 0: print \"Mesh ";
+ SMESH_Gen_i::AddObject(aStr, theMesh) += " computation failed\"";
+ AddToCurrentPyScript(aStr);
+
try {
// get mesh servant
SMESH_Mesh_i* meshServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( theMesh ).in() );
theComponent->GetStudy()->StudyId() != myCurrentStudy->StudyId() )
SetCurrentStudy( theComponent->GetStudy() );
+ // Store study contents as a set of python commands
+ SavePython(myCurrentStudy);
+
StudyContext* myStudyContext = GetCurrentStudyContext();
// Declare a byte stream
// write reference on a shape if exists
SALOMEDS::SObject_var myRef;
+ bool shapeRefFound = false;
bool found = gotBranch->FindSubObject( GetRefOnShapeTag(), myRef );
if ( found ) {
SALOMEDS::SObject_var myShape;
bool ok = myRef->ReferencedObject( myShape );
if ( ok ) {
+ shapeRefFound = (! CORBA::is_nil( myShape->GetObject() ));
string myRefOnObject = myShape->GetID();
- if ( myRefOnObject.length() > 0 ) {
+ if ( shapeRefFound && myRefOnObject.length() > 0 ) {
aSize[ 0 ] = myRefOnObject.length() + 1;
aDataset = new HDFdataset( "Ref on shape", aTopGroup, HDF_STRING, aSize, 1 );
aDataset->CreateOnDisk();
// write applied hypotheses if exist
SALOMEDS::SObject_var myHypBranch;
found = gotBranch->FindSubObject( GetRefOnAppliedHypothesisTag(), myHypBranch );
- if ( found ) {
+ if ( found && !shapeRefFound ) { // remove applied hyps
+ myCurrentStudy->NewBuilder()->RemoveObjectWithChildren( myHypBranch );
+ }
+ if ( found && shapeRefFound ) {
aGroup = new HDFgroup( "Applied Hypotheses", aTopGroup );
aGroup->CreateOnDisk();
// write applied algorithms if exist
SALOMEDS::SObject_var myAlgoBranch;
found = gotBranch->FindSubObject( GetRefOnAppliedAlgorithmsTag(), myAlgoBranch );
- if ( found ) {
+ if ( found && !shapeRefFound ) { // remove applied algos
+ myCurrentStudy->NewBuilder()->RemoveObjectWithChildren( myAlgoBranch );
+ }
+ if ( found && shapeRefFound ) {
aGroup = new HDFgroup( "Applied Algorithms", aTopGroup );
aGroup->CreateOnDisk();
}
// --> submesh objects sub-branches
+
for ( int i = GetSubMeshOnVertexTag(); i <= GetSubMeshOnCompoundTag(); i++ ) {
SALOMEDS::SObject_var mySubmeshBranch;
found = gotBranch->FindSubObject( i, mySubmeshBranch );
+
+ if ( found ) // check if there is shape reference in submeshes
+ {
+ bool hasShapeRef = false;
+ SALOMEDS::ChildIterator_var itSM =
+ myCurrentStudy->NewChildIterator( mySubmeshBranch );
+ for ( ; itSM->More(); itSM->Next() ) {
+ SALOMEDS::SObject_var mySubRef, myShape, mySObject = itSM->Value();
+ if ( mySObject->FindSubObject( GetRefOnShapeTag(), mySubRef ))
+ mySubRef->ReferencedObject( myShape );
+ if ( !CORBA::is_nil( myShape ) && !CORBA::is_nil( myShape->GetObject() ))
+ hasShapeRef = true;
+ else
+ { // remove one submesh
+ if ( shapeRefFound )
+ { // unassign hypothesis
+ SMESH::SMESH_subMesh_var mySubMesh =
+ SMESH::SMESH_subMesh::_narrow( SObjectToObject( mySObject ));
+ if ( !mySubMesh->_is_nil() ) {
+ int shapeID = mySubMesh->GetId();
+ TopoDS_Shape S = mySMESHDSMesh->IndexToShape( shapeID );
+ const list<const SMESHDS_Hypothesis*>& hypList =
+ mySMESHDSMesh->GetHypothesis( S );
+ list<const SMESHDS_Hypothesis*>::const_iterator hyp = hypList.begin();
+ while ( hyp != hypList.end() ) {
+ int hypID = (*hyp++)->GetID(); // goto next hyp here because
+ myLocMesh.RemoveHypothesis( S, hypID ); // hypList changes here
+ }
+ }
+ }
+ myCurrentStudy->NewBuilder()->RemoveObjectWithChildren( mySObject );
+ }
+ } // loop on submeshes of a type
+ if ( !shapeRefFound || !hasShapeRef ) { // remove the whole submeshes branch
+ myCurrentStudy->NewBuilder()->RemoveObjectWithChildren( mySubmeshBranch );
+ found = false;
+ }
+ } // end check if there is shape reference in submeshes
if ( found ) {
char name_meshgroup[ 30 ];
if ( i == GetSubMeshOnVertexTag() )
for ( ; itSM->More(); itSM->Next() ) {
SALOMEDS::SObject_var mySObject = itSM->Value();
CORBA::Object_var anSubObject = SObjectToObject( mySObject );
- if ( !CORBA::is_nil( anSubObject ) ) {
+ if ( !CORBA::is_nil( anSubObject ))
+ {
SMESH::SMESH_subMesh_var mySubMesh = SMESH::SMESH_subMesh::_narrow( anSubObject ) ;
int subid = myStudyContext->findId( string( GetORB()->object_to_string( anSubObject ) ) );
aSubGroup = new HDFgroup( submeshGrpName, aGroup );
aSubGroup->CreateOnDisk();
-// // Put submesh data to MED convertor
-// if ( myImpl->_mapSubMesh.find( mySubMesh->GetId() ) != myImpl->_mapSubMesh.end() ) {
-// if(MYDEBUG) MESSAGE( "VSR - SMESH_Gen_i::Save(): saving submesh with ID = "
-// << mySubMesh->GetId() << " to MED file" );
-// ::SMESH_subMesh* aLocalSubmesh = myImpl->_mapSubMesh[mySubMesh->GetId()];
-// myWriter.AddSubMesh( aLocalSubmesh->GetSubMeshDS(), subid );
-// }
-
- // write reference on a shape if exists
- SALOMEDS::SObject_var mySubRef;
- found = mySObject->FindSubObject( GetRefOnShapeTag(), mySubRef );
- if ( found ) {
- SALOMEDS::SObject_var myShape;
- bool ok = mySubRef->ReferencedObject( myShape );
- if ( ok ) {
- string myRefOnObject = myShape->GetID();
- if ( myRefOnObject.length() > 0 ) {
- aSize[ 0 ] = myRefOnObject.length() + 1;
- aDataset = new HDFdataset( "Ref on shape", aSubGroup, HDF_STRING, aSize, 1 );
- aDataset->CreateOnDisk();
- aDataset->WriteOnDisk( ( char* )( myRefOnObject.c_str() ) );
- aDataset->CloseOnDisk();
- }
- }
- }
+ // write reference on a shape, already checked if it exists
+ SALOMEDS::SObject_var mySubRef, myShape;
+ if ( mySObject->FindSubObject( GetRefOnShapeTag(), mySubRef ))
+ mySubRef->ReferencedObject( myShape );
+ string myRefOnObject = myShape->GetID();
+ if ( myRefOnObject.length() > 0 ) {
+ aSize[ 0 ] = myRefOnObject.length() + 1;
+ aDataset = new HDFdataset( "Ref on shape", aSubGroup, HDF_STRING, aSize, 1 );
+ aDataset->CreateOnDisk();
+ aDataset->WriteOnDisk( ( char* )( myRefOnObject.c_str() ) );
+ aDataset->CloseOnDisk();
+ }
// write applied hypotheses if exist
SALOMEDS::SObject_var mySubHypBranch;
}
}
// All sub-meshes will be stored in MED file
- myWriter.AddAllSubMeshes();
+ if ( shapeRefFound )
+ myWriter.AddAllSubMeshes();
// groups root sub-branch
SALOMEDS::SObject_var myGroupsBranch;
// Store the group contents into MED file
if ( myLocMesh.GetGroup( myGroupImpl->GetLocalID() ) ) {
+
if(MYDEBUG) MESSAGE( "VSR - SMESH_Gen_i::Save(): saving group with StoreName = "
<< grpName << " to MED file" );
SMESHDS_GroupBase* aGrpBaseDS =
if ( aGeomGrp ) {
SALOMEDS::SObject_var mySubRef, myShape;
if (mySObject->FindSubObject( GetRefOnShapeTag(), mySubRef ) &&
- mySubRef->ReferencedObject( myShape ))
+ mySubRef->ReferencedObject( myShape ) &&
+ !CORBA::is_nil( myShape->GetObject() ))
{
string myRefOnObject = myShape->GetID();
if ( myRefOnObject.length() > 0 ) {
aDataset->CloseOnDisk();
}
}
+ else // shape ref is invalid:
+ {
+ // save a group on geometry as ordinary group
+ myWriter.AddGroup( aGeomGrp );
+ }
}
}
}
}
aGroup->CloseOnDisk();
}
- }
+ } // loop on groups
if ( strcmp( strHasData.c_str(), "1" ) == 0 )
{
// Flush current mesh information into MED file
myWriter.Perform();
+ // maybe a shape was deleted in the study
+ if ( !shapeRefFound && !mySMESHDSMesh->ShapeToMesh().IsNull() ) {
+ TopoDS_Shape nullShape;
+ myLocMesh.ShapeToMesh( nullShape ); // remove shape referring data
+ }
// Store node positions on sub-shapes (SMDS_Position):
- aGroup = new HDFgroup( "Node Positions", aTopGroup );
- aGroup->CreateOnDisk();
-
- // in aGroup, create 5 datasets to contain:
- // "Nodes on Edges" - ID of node on edge
- // "Edge positions" - U parameter on node on edge
- // "Nodes on Faces" - ID of node on face
- // "Face U positions" - U parameter of node on face
- // "Face V positions" - V parameter of node on face
-
- // Find out nb of nodes on edges and faces
- // Collect corresponing sub-meshes
- int nbEdgeNodes = 0, nbFaceNodes = 0;
- list<SMESHDS_SubMesh*> aEdgeSM, aFaceSM;
- // loop on SMESHDS_SubMesh'es
- const map<int,SMESHDS_SubMesh*>& aSubMeshes = mySMESHDSMesh->SubMeshes();
- map<int,SMESHDS_SubMesh*>::const_iterator itSubM ( aSubMeshes.begin() );
- for ( ; itSubM != aSubMeshes.end() ; itSubM++ )
+ if ( !mySMESHDSMesh->SubMeshes().empty() )
{
- SMESHDS_SubMesh* aSubMesh = (*itSubM).second;
- if ( aSubMesh->IsComplexSubmesh() )
- continue; // submesh containing other submeshs
- int nbNodes = aSubMesh->NbNodes();
- if ( nbNodes == 0 ) continue;
-
- int aShapeID = (*itSubM).first;
- int aShapeType = mySMESHDSMesh->IndexToShape( aShapeID ).ShapeType();
- // write only SMDS_FacePosition and SMDS_EdgePosition
- switch ( aShapeType ) {
- case TopAbs_FACE:
- nbFaceNodes += nbNodes;
- aFaceSM.push_back( aSubMesh );
- break;
- case TopAbs_EDGE:
- nbEdgeNodes += nbNodes;
- aEdgeSM.push_back( aSubMesh );
- break;
- default:
- continue;
- }
- }
- // Treat positions on edges or faces
- for ( int onFace = 0; onFace < 2; onFace++ )
- {
- // Create arrays to store in datasets
- int iNode = 0, nbNodes = ( onFace ? nbFaceNodes : nbEdgeNodes );
- if (!nbNodes) continue;
- int* aNodeIDs = new int [ nbNodes ];
- double* aUPos = new double [ nbNodes ];
- double* aVPos = ( onFace ? new double[ nbNodes ] : 0 );
-
- // Fill arrays
- // loop on sub-meshes
- list<SMESHDS_SubMesh*> * pListSM = ( onFace ? &aFaceSM : &aEdgeSM );
- list<SMESHDS_SubMesh*>::iterator itSM = pListSM->begin();
- for ( ; itSM != pListSM->end(); itSM++ )
+ aGroup = new HDFgroup( "Node Positions", aTopGroup );
+ aGroup->CreateOnDisk();
+
+ // in aGroup, create 5 datasets to contain:
+ // "Nodes on Edges" - ID of node on edge
+ // "Edge positions" - U parameter on node on edge
+ // "Nodes on Faces" - ID of node on face
+ // "Face U positions" - U parameter of node on face
+ // "Face V positions" - V parameter of node on face
+
+ // Find out nb of nodes on edges and faces
+ // Collect corresponing sub-meshes
+ int nbEdgeNodes = 0, nbFaceNodes = 0;
+ list<SMESHDS_SubMesh*> aEdgeSM, aFaceSM;
+ // loop on SMESHDS_SubMesh'es
+ const map<int,SMESHDS_SubMesh*>& aSubMeshes = mySMESHDSMesh->SubMeshes();
+ map<int,SMESHDS_SubMesh*>::const_iterator itSubM ( aSubMeshes.begin() );
+ for ( ; itSubM != aSubMeshes.end() ; itSubM++ )
{
- SMESHDS_SubMesh* aSubMesh = (*itSM);
+ SMESHDS_SubMesh* aSubMesh = (*itSubM).second;
if ( aSubMesh->IsComplexSubmesh() )
continue; // submesh containing other submeshs
-
- SMDS_NodeIteratorPtr itNode = aSubMesh->GetNodes();
- // loop on nodes in aSubMesh
- while ( itNode->more() )
+ int nbNodes = aSubMesh->NbNodes();
+ if ( nbNodes == 0 ) continue;
+
+ int aShapeID = (*itSubM).first;
+ int aShapeType = mySMESHDSMesh->IndexToShape( aShapeID ).ShapeType();
+ // write only SMDS_FacePosition and SMDS_EdgePosition
+ switch ( aShapeType ) {
+ case TopAbs_FACE:
+ nbFaceNodes += nbNodes;
+ aFaceSM.push_back( aSubMesh );
+ break;
+ case TopAbs_EDGE:
+ nbEdgeNodes += nbNodes;
+ aEdgeSM.push_back( aSubMesh );
+ break;
+ default:
+ continue;
+ }
+ }
+ // Treat positions on edges or faces
+ for ( int onFace = 0; onFace < 2; onFace++ )
+ {
+ // Create arrays to store in datasets
+ int iNode = 0, nbNodes = ( onFace ? nbFaceNodes : nbEdgeNodes );
+ if (!nbNodes) continue;
+ int* aNodeIDs = new int [ nbNodes ];
+ double* aUPos = new double [ nbNodes ];
+ double* aVPos = ( onFace ? new double[ nbNodes ] : 0 );
+
+ // Fill arrays
+ // loop on sub-meshes
+ list<SMESHDS_SubMesh*> * pListSM = ( onFace ? &aFaceSM : &aEdgeSM );
+ list<SMESHDS_SubMesh*>::iterator itSM = pListSM->begin();
+ for ( ; itSM != pListSM->end(); itSM++ )
{
- //node ID
- const SMDS_MeshNode* node = itNode->next();
- aNodeIDs [ iNode ] = node->GetID();
-
- // Position
- const SMDS_PositionPtr pos = node->GetPosition();
- if ( onFace ) { // on FACE
- const SMDS_FacePosition* fPos =
- dynamic_cast<const SMDS_FacePosition*>( pos.get() );
- if ( fPos ) {
- aUPos[ iNode ] = fPos->GetUParameter();
- aVPos[ iNode ] = fPos->GetVParameter();
- iNode++;
+ SMESHDS_SubMesh* aSubMesh = (*itSM);
+ if ( aSubMesh->IsComplexSubmesh() )
+ continue; // submesh containing other submeshs
+
+ SMDS_NodeIteratorPtr itNode = aSubMesh->GetNodes();
+ // loop on nodes in aSubMesh
+ while ( itNode->more() )
+ {
+ //node ID
+ const SMDS_MeshNode* node = itNode->next();
+ aNodeIDs [ iNode ] = node->GetID();
+
+ // Position
+ const SMDS_PositionPtr pos = node->GetPosition();
+ if ( onFace ) { // on FACE
+ const SMDS_FacePosition* fPos =
+ dynamic_cast<const SMDS_FacePosition*>( pos.get() );
+ if ( fPos ) {
+ aUPos[ iNode ] = fPos->GetUParameter();
+ aVPos[ iNode ] = fPos->GetVParameter();
+ iNode++;
+ }
+ else
+ nbNodes--;
}
- else
- nbNodes--;
- }
- else { // on EDGE
- const SMDS_EdgePosition* ePos =
- dynamic_cast<const SMDS_EdgePosition*>( pos.get() );
- if ( ePos ) {
- aUPos[ iNode ] = ePos->GetUParameter();
- iNode++;
+ else { // on EDGE
+ const SMDS_EdgePosition* ePos =
+ dynamic_cast<const SMDS_EdgePosition*>( pos.get() );
+ if ( ePos ) {
+ aUPos[ iNode ] = ePos->GetUParameter();
+ iNode++;
+ }
+ else
+ nbNodes--;
}
- else
- nbNodes--;
- }
- } // loop on nodes in aSubMesh
- } // loop on sub-meshes
+ } // loop on nodes in aSubMesh
+ } // loop on sub-meshes
- // Write datasets
- if ( nbNodes )
- {
- aSize[ 0 ] = nbNodes;
- // IDS
- string aDSName( onFace ? "Nodes on Faces" : "Nodes on Edges");
- aDataset = new HDFdataset( (char*)aDSName.c_str(), aGroup, HDF_INT32, aSize, 1 );
- aDataset->CreateOnDisk();
- aDataset->WriteOnDisk( aNodeIDs );
- aDataset->CloseOnDisk();
-
- // U Positions
- aDSName = ( onFace ? "Face U positions" : "Edge positions");
- aDataset = new HDFdataset( (char*)aDSName.c_str(), aGroup, HDF_FLOAT64, aSize, 1);
- aDataset->CreateOnDisk();
- aDataset->WriteOnDisk( aUPos );
- aDataset->CloseOnDisk();
- // V Positions
- if ( onFace ) {
- aDataset = new HDFdataset( "Face V positions", aGroup, HDF_FLOAT64, aSize, 1);
+ // Write datasets
+ if ( nbNodes )
+ {
+ aSize[ 0 ] = nbNodes;
+ // IDS
+ string aDSName( onFace ? "Nodes on Faces" : "Nodes on Edges");
+ aDataset = new HDFdataset( (char*)aDSName.c_str(), aGroup, HDF_INT32, aSize, 1 );
aDataset->CreateOnDisk();
- aDataset->WriteOnDisk( aVPos );
+ aDataset->WriteOnDisk( aNodeIDs );
aDataset->CloseOnDisk();
+
+ // U Positions
+ aDSName = ( onFace ? "Face U positions" : "Edge positions");
+ aDataset = new HDFdataset( (char*)aDSName.c_str(), aGroup, HDF_FLOAT64, aSize, 1);
+ aDataset->CreateOnDisk();
+ aDataset->WriteOnDisk( aUPos );
+ aDataset->CloseOnDisk();
+ // V Positions
+ if ( onFace ) {
+ aDataset = new HDFdataset( "Face V positions", aGroup, HDF_FLOAT64, aSize, 1);
+ aDataset->CreateOnDisk();
+ aDataset->WriteOnDisk( aVPos );
+ aDataset->CloseOnDisk();
+ }
}
- }
- delete [] aNodeIDs;
- delete [] aUPos;
- if ( aVPos ) delete [] aVPos;
+ delete [] aNodeIDs;
+ delete [] aUPos;
+ if ( aVPos ) delete [] aVPos;
- } // treat positions on edges or faces
+ } // treat positions on edges or faces
- // close "Node Positions" group
- aGroup->CloseOnDisk();
+ // close "Node Positions" group
+ aGroup->CloseOnDisk();
+ } // if ( there are submeshes in SMESHDS_Mesh )
} // if ( hasData )
// close mesh HDF group
}
}
- // try to get applied hypotheses
- if ( aTopGroup->ExistInternalObject( "Applied Hypotheses" ) ) {
- aGroup = new HDFgroup( "Applied Hypotheses", aTopGroup );
+ // try to get applied algorithms
+ if ( aTopGroup->ExistInternalObject( "Applied Algorithms" ) ) {
+ aGroup = new HDFgroup( "Applied Algorithms", aTopGroup );
aGroup->OpenOnDisk();
- // get number of applied hypotheses
+ // get number of applied algorithms
int aNbSubObjects = aGroup->nInternalObjects();
+ if(MYDEBUG) MESSAGE( "VSR - number of applied algos " << aNbSubObjects );
for ( int j = 0; j < aNbSubObjects; j++ ) {
char name_dataset[ HDF_NAME_MAX_LEN+1 ];
aGroup->InternalObjectIndentify( j, name_dataset );
- // check if it is a hypothesis
- if ( string( name_dataset ).substr( 0, 3 ) == string( "Hyp" ) ) {
+ // check if it is an algorithm
+ if ( string( name_dataset ).substr( 0, 4 ) == string( "Algo" ) ) {
aDataset = new HDFdataset( name_dataset, aGroup );
aDataset->OpenOnDisk();
size = aDataset->GetSize();
aDataset->ReadFromDisk( refFromFile );
aDataset->CloseOnDisk();
- // san - it is impossible to recover applied hypotheses using their entries within Load() method
+ // san - it is impossible to recover applied algorithms using their entries within Load() method
//SALOMEDS::SObject_var hypSO = myCurrentStudy->FindObjectID( refFromFile );
//CORBA::Object_var hypObject = SObjectToObject( hypSO );
aGroup->CloseOnDisk();
}
- // try to get applied algorithms
- if ( aTopGroup->ExistInternalObject( "Applied Algorithms" ) ) {
- aGroup = new HDFgroup( "Applied Algorithms", aTopGroup );
+ // try to get applied hypotheses
+ if ( aTopGroup->ExistInternalObject( "Applied Hypotheses" ) ) {
+ aGroup = new HDFgroup( "Applied Hypotheses", aTopGroup );
aGroup->OpenOnDisk();
- // get number of applied algorithms
+ // get number of applied hypotheses
int aNbSubObjects = aGroup->nInternalObjects();
- if(MYDEBUG) MESSAGE( "VSR - number of applied algos " << aNbSubObjects );
for ( int j = 0; j < aNbSubObjects; j++ ) {
char name_dataset[ HDF_NAME_MAX_LEN+1 ];
aGroup->InternalObjectIndentify( j, name_dataset );
- // check if it is an algorithm
- if ( string( name_dataset ).substr( 0, 4 ) == string( "Algo" ) ) {
+ // check if it is a hypothesis
+ if ( string( name_dataset ).substr( 0, 3 ) == string( "Hyp" ) ) {
aDataset = new HDFdataset( name_dataset, aGroup );
aDataset->OpenOnDisk();
size = aDataset->GetSize();
aDataset->ReadFromDisk( refFromFile );
aDataset->CloseOnDisk();
- // san - it is impossible to recover applied algorithms using their entries within Load() method
+ // san - it is impossible to recover applied hypotheses using their entries within Load() method
//SALOMEDS::SObject_var hypSO = myCurrentStudy->FindObjectID( refFromFile );
//CORBA::Object_var hypObject = SObjectToObject( hypSO );
// myReader.GetSubMesh( aSubMeshDS, subid );
// }
- // try to get applied hypotheses
- if ( aSubGroup->ExistInternalObject( "Applied Hypotheses" ) ) {
- // open "applied hypotheses" HDF group
- aSubSubGroup = new HDFgroup( "Applied Hypotheses", aSubGroup );
+ // try to get applied algorithms
+ if ( aSubGroup->ExistInternalObject( "Applied Algorithms" ) ) {
+ // open "applied algorithms" HDF group
+ aSubSubGroup = new HDFgroup( "Applied Algorithms", aSubGroup );
aSubSubGroup->OpenOnDisk();
- // get number of applied hypotheses
+ // get number of applied algorithms
int aNbSubObjects = aSubSubGroup->nInternalObjects();
for ( int l = 0; l < aNbSubObjects; l++ ) {
char name_dataset[ HDF_NAME_MAX_LEN+1 ];
aSubSubGroup->InternalObjectIndentify( l, name_dataset );
- // check if it is a hypothesis
- if ( string( name_dataset ).substr( 0, 3 ) == string( "Hyp" ) ) {
+ // check if it is an algorithm
+ if ( string( name_dataset ).substr( 0, 4 ) == string( "Algo" ) ) {
aDataset = new HDFdataset( name_dataset, aSubSubGroup );
aDataset->OpenOnDisk();
size = aDataset->GetSize();
char* refFromFile = new char[ size ];
aDataset->ReadFromDisk( refFromFile );
aDataset->CloseOnDisk();
-
+
//SALOMEDS::SObject_var hypSO = myCurrentStudy->FindObjectID( refFromFile );
//CORBA::Object_var hypObject = SObjectToObject( hypSO );
int id = atoi( refFromFile );
}
}
}
- // close "applied hypotheses" HDF group
+ // close "applied algorithms" HDF group
aSubSubGroup->CloseOnDisk();
}
-
- // try to get applied algorithms
- if ( aSubGroup->ExistInternalObject( "Applied Algorithms" ) ) {
- // open "applied algorithms" HDF group
- aSubSubGroup = new HDFgroup( "Applied Algorithms", aSubGroup );
+
+ // try to get applied hypotheses
+ if ( aSubGroup->ExistInternalObject( "Applied Hypotheses" ) ) {
+ // open "applied hypotheses" HDF group
+ aSubSubGroup = new HDFgroup( "Applied Hypotheses", aSubGroup );
aSubSubGroup->OpenOnDisk();
- // get number of applied algorithms
+ // get number of applied hypotheses
int aNbSubObjects = aSubSubGroup->nInternalObjects();
for ( int l = 0; l < aNbSubObjects; l++ ) {
char name_dataset[ HDF_NAME_MAX_LEN+1 ];
aSubSubGroup->InternalObjectIndentify( l, name_dataset );
- // check if it is an algorithm
- if ( string( name_dataset ).substr( 0, 4 ) == string( "Algo" ) ) {
+ // check if it is a hypothesis
+ if ( string( name_dataset ).substr( 0, 3 ) == string( "Hyp" ) ) {
aDataset = new HDFdataset( name_dataset, aSubSubGroup );
aDataset->OpenOnDisk();
size = aDataset->GetSize();
char* refFromFile = new char[ size ];
aDataset->ReadFromDisk( refFromFile );
aDataset->CloseOnDisk();
-
+
//SALOMEDS::SObject_var hypSO = myCurrentStudy->FindObjectID( refFromFile );
//CORBA::Object_var hypObject = SObjectToObject( hypSO );
int id = atoi( refFromFile );
}
}
}
- // close "applied algorithms" HDF group
+ // close "applied hypotheses" HDF group
aSubSubGroup->CloseOnDisk();
}
-
+
// close submesh HDF group
aSubGroup->CloseOnDisk();
}