-// Copyright (C) 2007-2012 CEA/DEN, EDF R&D, OPEN CASCADE
+// Copyright (C) 2007-2013 CEA/DEN, EDF R&D, OPEN CASCADE
//
// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
static int MYDEBUG = 0;
#endif
-static TCollection_AsciiString NotPublishedObjectName()
-{
- return "__NOT__Published__Object__";
-}
-
namespace SMESH
{
size_t TPythonDump::myCounter = 0;
+ const char theNotPublishedObjectName[] = "__NOT__Published__Object__";
TVar::TVar(CORBA::Double value):myVals(1) { myVals[0] = SMESH_Comment(value); }
TVar::TVar(CORBA::Long value):myVals(1) { myVals[0] = SMESH_Comment(value); }
std::string aString = myStream.str();
TCollection_AsciiString aCollection(Standard_CString(aString.c_str()));
SALOMEDS::Study_var aStudy = aSMESHGen->GetCurrentStudy();
- if(!aStudy->_is_nil() && !aCollection.IsEmpty()){
+ if(!aStudy->_is_nil() && !aCollection.IsEmpty())
+ {
+ const std::string & objEntry = SMESH_Gen_i::GetSMESHGen()->GetLastObjEntry();
+ if ( !objEntry.empty() )
+ aCollection += (TVar::ObjPrefix() + objEntry ).c_str();
aSMESHGen->AddToPythonScript(aStudy->StudyId(),aCollection);
if(MYDEBUG) MESSAGE(aString);
- aSMESHGen->UpdateParameters(""); // prevent misuse of already treated variables
+ // prevent misuse of already treated variables
+ aSMESHGen->UpdateParameters(CORBA::Object_var().in(),"");
}
}
}
- TPythonDump& //!< to store a variable value
+ TPythonDump& //!< store a variable value. Write either a value or '$varID$'
TPythonDump::
operator<<(const TVar& theVarValue)
{
- const std::vector< std::string >& varNames = SMESH_Gen_i::GetSMESHGen()->GetLastParameters();
+ const std::vector< int >& varIDs = SMESH_Gen_i::GetSMESHGen()->GetLastParamIndices();
if ( theVarValue.myVals.size() != 1 )
{
myStream << "[ ";
for ( size_t i = 1; i <= theVarValue.myVals.size(); ++i )
{
- if ( myVarsCounter < varNames.size() && !varNames[ myVarsCounter ].empty() )
- myStream << TVar::Quote() << varNames[ myVarsCounter ] << TVar::Quote();
+ if ( myVarsCounter < varIDs.size() && varIDs[ myVarsCounter ] >= 0 )
+ myStream << TVar::Quote() << varIDs[ myVarsCounter ] << TVar::Quote();
else
myStream << theVarValue.myVals[i-1];
if ( i < theVarValue.myVals.size() )
}
else
{
- if ( myVarsCounter < varNames.size() && !varNames[ myVarsCounter ].empty() )
- myStream << TVar::Quote() << varNames[ myVarsCounter ] << TVar::Quote();
+ if ( myVarsCounter < varIDs.size() && varIDs[ myVarsCounter ] >= 0 )
+ myStream << TVar::Quote() << varIDs[ myVarsCounter ] << TVar::Quote();
else
myStream << theVarValue.myVals[0];
++myVarsCounter;
case Entity_Quad_Edge: myStream<<"Entity_Quad_Edge"; break;
case Entity_Triangle: myStream<<"Entity_Triangle"; break;
case Entity_Quad_Triangle: myStream<<"Entity_Quad_Triangle"; break;
+ case Entity_BiQuad_Triangle: myStream<<"Entity_BiQuad_Triangle"; break;
case Entity_Quadrangle: myStream<<"Entity_Quadrangle"; break;
case Entity_Quad_Quadrangle: myStream<<"Entity_Quad_Quadrangle"; break;
case Entity_BiQuad_Quadrangle: myStream<<"Entity_BiQuad_Quadrangle"; break;
myStream << entry.in();
}
else {
- myStream << NotPublishedObjectName();
+ myStream << theNotPublishedObjectName;
}
return *this;
}
if ( aSMESHGen->CanPublishInStudy( theArg )) // not published SMESH object
myStream << "smeshObj_" << size_t(theArg);
else
- myStream << NotPublishedObjectName();
+ myStream << theNotPublishedObjectName;
}
else
myStream << "None";
if(aSObject->_is_nil() && !CORBA::is_nil(theArg))
myStream << "hyp_" << theArg->GetId();
else
- *this << CORBA::Object_ptr( theArg );
+ *this << aSObject;
return *this;
}
SMESH::ElementType type = types->length() ? types[0] : SMESH::ALL;
return *this << mesh << ".GetIDSource(" << anElementsId << ", " << type << ")";
}
- return *this;
+ return *this << theNotPublishedObjectName;
}
TPythonDump&
{
if ( theArg ) {
FunctorType aFunctorType = theArg->GetFunctorType();
- switch(aFunctorType){
- case FT_AspectRatio: myStream<< "anAspectRatio"; break;
- case FT_AspectRatio3D: myStream<< "anAspectRatio3D"; break;
+ switch(aFunctorType) {
+ case FT_AspectRatio: myStream<< "aAspectRatio"; break;
+ case FT_AspectRatio3D: myStream<< "aAspectRatio3D"; break;
case FT_Warping: myStream<< "aWarping"; break;
case FT_MinimumAngle: myStream<< "aMinimumAngle"; break;
case FT_Taper: myStream<< "aTaper"; break;
case FT_FreeEdges: myStream<< "aFreeEdges"; break;
case FT_FreeNodes: myStream<< "aFreeNodes"; break;
case FT_FreeFaces: myStream<< "aFreeFaces"; break;
+ case FT_EqualNodes: myStream<< "aEqualNodes"; break;
+ case FT_EqualEdges: myStream<< "aEqualEdges"; break;
+ case FT_EqualFaces: myStream<< "aEqualFaces"; break;
+ case FT_EqualVolumes: myStream<< "aEqualVolumes"; break;
case FT_MultiConnection: myStream<< "aMultiConnection"; break;
case FT_MultiConnection2D: myStream<< "aMultiConnection2D"; break;
case FT_Length: myStream<< "aLength"; break;
case FT_BelongToCylinder: myStream<< "aBelongToCylinder"; break;
case FT_BelongToGenSurface: myStream<< "aBelongToGenSurface"; break;
case FT_LyingOnGeom: myStream<< "aLyingOnGeom"; break;
- case FT_CoplanarFaces: myStream<< "aCoplanarFaces"; break;
case FT_RangeOfIds: myStream<< "aRangeOfIds"; break;
case FT_BadOrientedVolume: myStream<< "aBadOrientedVolume"; break;
case FT_BareBorderVolume: myStream<< "aBareBorderVolume"; break;
case FT_OverConstrainedFace: myStream<< "aOverConstrainedFace"; break;
case FT_LinearOrQuadratic: myStream<< "aLinearOrQuadratic"; break;
case FT_GroupColor: myStream<< "aGroupColor"; break;
- case FT_ElemGeomType: myStream<< "anElemGeomType"; break;
+ case FT_ElemGeomType: myStream<< "aElemGeomType"; break;
+ case FT_EntityType: myStream<< "aEntityType"; break;
+ case FT_CoplanarFaces: myStream<< "aCoplanarFaces"; break;
+ case FT_BallDiameter: myStream<< "aBallDiameter"; break;
+ case FT_ConnectedElements: myStream<< "aConnectedElements"; break;
case FT_LessThan: myStream<< "aLessThan"; break;
case FT_MoreThan: myStream<< "aMoreThan"; break;
- case FT_EqualTo: myStream<< "anEqualTo"; break;
+ case FT_EqualTo: myStream<< "aEqualTo"; break;
case FT_LogicalNOT: myStream<< "aLogicalNOT"; break;
case FT_LogicalAND: myStream<< "aLogicalAND"; break;
case FT_LogicalOR: myStream<< "aLogicalOR"; break;
DumpArray( theList, *this );
return *this;
}
+ const char* TPythonDump::NotPublishedObjectName()
+ {
+ return theNotPublishedObjectName;
+ }
TCollection_AsciiString myLongStringStart( "TPythonDump::LongStringStart" );
TCollection_AsciiString myLongStringEnd ( "TPythonDump::LongStringEnd" );
}
// Get trace of restored study
- //SALOMEDS::SObject_wrap aSO = SMESH_Gen_i::ObjectToSObject(theStudy, _this());
SALOMEDS::StudyBuilder_var aStudyBuilder = aStudy->NewBuilder();
SALOMEDS::GenericAttribute_wrap anAttr =
aStudyBuilder->FindOrCreateAttribute(aSO, "AttributePythonObject");
CORBA::Octet* anOctetBuf = (CORBA::Octet*)aBuffer;
Engines::TMPFile_var aStreamFile = new Engines::TMPFile(aLen+1, aLen+1, anOctetBuf, 1);
- bool hasNotPublishedObjects = aScript.Location( NotPublishedObjectName(), 1, aLen);
+ bool hasNotPublishedObjects = aScript.Location( SMESH::theNotPublishedObjectName, 1, aLen);
isValidScript = isValidScript && !hasNotPublishedObjects;
return aStreamFile._retn();
if( isMultiFile )
aScript += "def RebuildData(theStudy):";
aScript += "\n\t";
- aScript += helper + "aFilterManager = " + aSMESHGen + ".CreateFilterManager()\n\t";
- aScript += helper + "aMeasurements = " + aSMESHGen + ".CreateMeasurements()\n\t";
if ( isPublished )
- aScript += aSMESHGen + ".SetCurrentStudy(theStudy)";
+ aScript += aSMESHGen + " = smeshBuilder.New(theStudy)\n\t";
else
- aScript += aSMESHGen + ".SetCurrentStudy(None)";
+ aScript += aSMESHGen + " = smeshBuilder.New(None)\n\t";
+ aScript += helper + "aFilterManager = " + aSMESHGen + ".CreateFilterManager()\n\t";
+ aScript += helper + "aMeasurements = " + aSMESHGen + ".CreateMeasurements()\n\t";
// import python files corresponding to plugins
set<string> moduleNameSet;
string moduleName = hyp_creator->second->GetModuleName();
bool newModule = moduleNameSet.insert( moduleName ).second;
if ( newModule )
- aScript += helper + "\n\t" + "import " + (char*) moduleName.c_str();
+ aScript += helper + "\n\t" + "from salome." + (char*) moduleName.c_str() + " import " + (char*) moduleName.c_str() +"Builder";
}
// Dump trace of restored study
if (theSavedTrace.Length() > 0) {
- // For the convertion of IDL API calls -> smesh.py API, "smesh" standing for SMESH_Gen
+ // For the convertion of IDL API calls -> smeshBuilder.py API, "smesh" standing for SMESH_Gen
// was replaces with "smeshgen" (==TPythonDump::SMESHGenName()).
- // Change "smesh" -> "smeshgen" in the trace saved before passage to smesh.py API
+ // Change "smesh" -> "smeshgen" in the trace saved before passage to smeshBuilder.py API
bool isNewVersion =
theSavedTrace.Location( anOldGen + ".", 1, theSavedTrace.Length() );
if ( !isNewVersion ) {
aScript += helper + "\n" + aNewLines;
}
- // Convert IDL API calls into smesh.py API.
+ // Convert IDL API calls into smeshBuilder.py API.
// Some objects are wrapped with python classes and
// Resource_DataMapOfAsciiStringAsciiString holds methods returning wrapped objects
Resource_DataMapOfAsciiStringAsciiString anEntry2AccessorMethod;
+ std::set< TCollection_AsciiString > aRemovedObjIDs;
if ( !getenv("NO_2smeshpy_conversion"))
aScript = SMESH_2smeshpy::ConvertScript( aScript, anEntry2AccessorMethod,
- theObjectNames, theStudy, isHistoricalDump );
+ theObjectNames, aRemovedObjIDs,
+ theStudy, isHistoricalDump );
// Replace characters used instead of quote marks to quote notebook variables
{
TCollection_AsciiString initPart = "import ";
if ( isMultiFile )
initPart += helper + "salome, ";
- initPart += aSmeshpy + ", SMESH, SALOMEDS\n";
+ initPart += " SMESH, SALOMEDS\n";
+ initPart += "from salome.smesh import smeshBuilder\n";
if ( importGeom && isMultiFile )
{
initPart += ("\n## import GEOM dump file ## \n"
anUpdatedScript += "\n\taStudyBuilder = theStudy.NewBuilder()";
}
for (int ir = 1; ir <= seqRemoved.Length(); ir++) {
+ if ( aRemovedObjIDs.count( seqRemoved.Value(ir) )) continue;
anUpdatedScript += "\n\tSO = theStudy.FindObjectIOR(theStudy.ConvertObjectToIOR(";
anUpdatedScript += seqRemoved.Value(ir);
- // for object wrapped by class of smesh.py
+ // for object wrapped by class of smeshBuilder.py
anEntry = theObjectNames( seqRemoved.Value(ir) );
if ( anEntry2AccessorMethod.IsBound( anEntry ) )
anUpdatedScript += helper + "." + anEntry2AccessorMethod( anEntry );
for (Standard_Integer i = 1; i <= aLen; i += 2)
{
anEntry = aScript.SubString(aSeq->Value(i), aSeq->Value(i + 1));
- aName = geom->GetDumpName( anEntry.ToCString() );
+ aName = geom->GetDumpName( anEntry.ToCString() );
if (aName.IsEmpty() && // Not a GEOM object
theNames.IsBound(anEntry) &&
+ !aRemovedObjIDs.count(anEntry) && // a command creating anEntry was erased
!mapEntries.IsBound(anEntry) && // Not yet processed
!mapRemoved.IsBound(anEntry)) // Was not removed
{
- aName = theObjectNames.Find(anEntry);
+ aName = theObjectNames.Find(anEntry);
aGUIName = theNames.Find(anEntry);
mapEntries.Bind(anEntry, aName);
anUpdatedScript += helper + "\n\t" + aSMESHGen + ".SetName(" + aName;