-// Copyright (C) 2007-2008 CEA/DEN, EDF R&D, OPEN CASCADE
+// Copyright (C) 2007-2011 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
+// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
+// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
//
-// 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.
+// 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.
//
-// 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.
+// 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
+// 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
+// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
//
+
// SMESH SMESH_I : idl implementation based on 'SMESH' unit's calsses
-//
// File : SMESH_2smeshpy.cxx
// Created : Fri Nov 18 13:20:10 2005
// Author : Edward AGAPOV (eap)
#include "utilities.h"
#include "SMESH_PythonDump.hxx"
#include "SMESH_NoteBook.hxx"
-#include "Resource_DataMapOfAsciiStringAsciiString.hxx"
+#include "SMESH_Filter_i.hxx"
+
+#include <Resource_DataMapOfAsciiStringAsciiString.hxx>
+#include <Resource_DataMapIteratorOfDataMapOfAsciiStringAsciiString.hxx>
#include "SMESH_Gen_i.hxx"
-/* SALOME headers that include CORBA headers that include windows.h
+/* SALOME headers that include CORBA headers that include windows.h
* that defines GetObject symbol as GetObjectA should stand before SALOME headers
* that declare methods named GetObject - to apply the same rules of GetObject renaming
* and thus to avoid mess with GetObject symbol on Windows */
IMPLEMENT_STANDARD_HANDLE (_pySubMesh ,_pyObject);
IMPLEMENT_STANDARD_HANDLE (_pyMeshEditor ,_pyObject);
IMPLEMENT_STANDARD_HANDLE (_pyHypothesis ,_pyObject);
-IMPLEMENT_STANDARD_HANDLE (_pyFilterManager ,_pyObject);
+IMPLEMENT_STANDARD_HANDLE (_pySelfEraser ,_pyObject);
+IMPLEMENT_STANDARD_HANDLE (_pyGroup ,_pyObject);
+IMPLEMENT_STANDARD_HANDLE (_pyFilter ,_pyObject);
IMPLEMENT_STANDARD_HANDLE (_pyAlgorithm ,_pyHypothesis);
IMPLEMENT_STANDARD_HANDLE (_pyComplexParamHypo,_pyHypothesis);
IMPLEMENT_STANDARD_HANDLE (_pyNumberOfSegmentsHyp,_pyHypothesis);
IMPLEMENT_STANDARD_RTTIEXT(_pySubMesh ,_pyObject);
IMPLEMENT_STANDARD_RTTIEXT(_pyMeshEditor ,_pyObject);
IMPLEMENT_STANDARD_RTTIEXT(_pyHypothesis ,_pyObject);
-IMPLEMENT_STANDARD_RTTIEXT(_pyFilterManager ,_pyObject);
+IMPLEMENT_STANDARD_RTTIEXT(_pySelfEraser ,_pyObject);
+IMPLEMENT_STANDARD_RTTIEXT(_pyGroup ,_pyObject);
+IMPLEMENT_STANDARD_RTTIEXT(_pyFilter ,_pyObject);
IMPLEMENT_STANDARD_RTTIEXT(_pyAlgorithm ,_pyHypothesis);
IMPLEMENT_STANDARD_RTTIEXT(_pyComplexParamHypo,_pyHypothesis);
IMPLEMENT_STANDARD_RTTIEXT(_pyNumberOfSegmentsHyp,_pyHypothesis);
return find( name ) != end();
}
};
+
+ //================================================================================
+ /*!
+ * \brief Returns a mesh by object
+ */
+ //================================================================================
+
+ Handle(_pyMesh) ObjectToMesh( const Handle( _pyObject )& obj )
+ {
+ if ( !obj.IsNull() )
+ {
+ if ( obj->IsKind( STANDARD_TYPE( _pyMesh )))
+ return Handle(_pyMesh)::DownCast( obj );
+ else if ( obj->IsKind( STANDARD_TYPE( _pySubMesh )))
+ return Handle(_pySubMesh)::DownCast( obj )->GetMesh();
+ else if ( obj->IsKind( STANDARD_TYPE( _pyGroup )))
+ return Handle(_pyGroup)::DownCast( obj )->GetMesh();
+ }
+ return Handle(_pyMesh)();
+ }
+
+ //================================================================================
+ /*!
+ * \brief Check if objects used as args have been created by previous commands
+ */
+ //================================================================================
+
+ void CheckObjectPresence( const Handle(_pyCommand)& cmd, set<_pyID> & presentObjects)
+ {
+ for ( int iArg = cmd->GetNbArgs(); iArg; --iArg )
+ {
+ const _pyID& arg = cmd->GetArg( iArg );
+ if ( arg.IsEmpty() || arg.Value( 1 ) == '"' || arg.Value( 1 ) == '\'' )
+ continue;
+ list< _pyID > idList = cmd->GetStudyEntries( arg );
+ list< _pyID >::iterator id = idList.begin();
+ for ( ; id != idList.end(); ++id )
+ if ( !theGen->IsGeomObject( *id ) && !presentObjects.count( *id ))
+ {
+ cmd->Comment();
+ cmd->GetString() += " ### " ;
+ cmd->GetString() += *id + " has not been yet created";
+ return;
+ }
+ }
+ const _pyID& obj = cmd->GetObject();
+ if ( !obj.IsEmpty() && cmd->IsStudyEntry( obj ) && !presentObjects.count( obj ))
+ {
+ cmd->Comment();
+ cmd->GetString() += " ### not created object" ;
+ }
+ const _pyID& result = cmd->GetResultValue();
+ if ( result.IsEmpty() || result.Value( 1 ) == '"' || result.Value( 1 ) == '\'' )
+ return;
+ list< _pyID > idList = cmd->GetStudyEntries( result );
+ list< _pyID >::iterator id = idList.begin();
+ for ( ; id != idList.end(); ++id )
+ presentObjects.insert( *id );
+ }
}
//================================================================================
* \brief Convert python script using commands of smesh.py
* \param theScript - Input script
* \retval TCollection_AsciiString - Convertion result
+ * \param theToKeepAllCommands - to keep all commands or
+ * to exclude commands relating to objects removed from study
*
* Class SMESH_2smeshpy declared in SMESH_PythonDump.hxx
*/
//================================================================================
TCollection_AsciiString
-SMESH_2smeshpy::ConvertScript(const TCollection_AsciiString& theScript,
+SMESH_2smeshpy::ConvertScript(const TCollection_AsciiString& theScript,
Resource_DataMapOfAsciiStringAsciiString& theEntry2AccessorMethod,
- Resource_DataMapOfAsciiStringAsciiString& theObjectNames)
+ Resource_DataMapOfAsciiStringAsciiString& theObjectNames,
+ SALOMEDS::Study_ptr& theStudy,
+ const bool theToKeepAllCommands)
{
- theGen = new _pyGen( theEntry2AccessorMethod, theObjectNames );
+ theGen = new _pyGen( theEntry2AccessorMethod, theObjectNames, theStudy, theToKeepAllCommands );
// split theScript into separate commands
SMESH_NoteBook * aNoteBook = new SMESH_NoteBook();
-
+
int from = 1, end = theScript.Length(), to;
while ( from < end && ( to = theScript.Location( "\n", from, end )))
{
aNoteBook->AddCommand( theScript.SubString( from, to - 1 ));
from = to + 1;
}
-
+
aNoteBook->ReplaceVariables();
TCollection_AsciiString aNoteScript = aNoteBook->GetResultScript();
delete aNoteBook;
aNoteBook = 0;
-
+
// split theScript into separate commands
from = 1, end = aNoteScript.Length();
while ( from < end && ( to = aNoteScript.Location( "\n", from, end )))
MESSAGE_BEGIN ( std::endl << " ######## RESULT ######## " << std::endl<< std::endl );
#endif
+ // clean commmands of removed objects depending on myIsPublished flag
+ theGen->ClearCommands();
+
// reorder commands after conversion
list< Handle(_pyCommand) >::iterator cmd;
bool orderChanges;
if ( (*cmd)->SetDependentCmdsAfter() )
orderChanges = true;
} while ( orderChanges );
-
+
// concat commands back into a script
- TCollection_AsciiString aScript;
+ TCollection_AsciiString aScript, aPrevCmd;
+ set<_pyID> createdObjects;
for ( cmd = theGen->GetCommands().begin(); cmd != theGen->GetCommands().end(); ++cmd )
{
#ifdef DUMP_CONVERSION
MESSAGE_ADD ( "## COM " << (*cmd)->GetOrderNb() << ": "<< (*cmd)->GetString() << std::endl );
#endif
- if ( !(*cmd)->IsEmpty() ) {
+ if ( !(*cmd)->IsEmpty() && aPrevCmd != (*cmd)->GetString()) {
+ CheckObjectPresence( *cmd, createdObjects );
+ aPrevCmd = (*cmd)->GetString();
aScript += "\n";
- aScript += (*cmd)->GetString();
+ aScript += aPrevCmd;
}
}
aScript += "\n";
+ theGen->Free();
theGen.Nullify();
return aScript;
//================================================================================
_pyGen::_pyGen(Resource_DataMapOfAsciiStringAsciiString& theEntry2AccessorMethod,
- Resource_DataMapOfAsciiStringAsciiString& theObjectNames)
- : _pyObject( new _pyCommand( TPythonDump::SMESHGenName(), 0 )),
+ Resource_DataMapOfAsciiStringAsciiString& theObjectNames,
+ SALOMEDS::Study_ptr& theStudy,
+ const bool theToKeepAllCommands)
+ : _pyObject( new _pyCommand( "", 0 )),
+ myNbCommands( 0 ),
myID2AccessorMethod( theEntry2AccessorMethod ),
- myObjectNames( theObjectNames )
+ myObjectNames( theObjectNames ),
+ myNbFilters( 0 ),
+ myToKeepAllCommands( theToKeepAllCommands ),
+ myStudy( SALOMEDS::Study::_duplicate( theStudy )),
+ myGeomIDNb(0), myGeomIDIndex(-1)
{
- myNbCommands = 0;
- myHasPattern = false;
// make that GetID() to return TPythonDump::SMESHGenName()
+ GetCreationCmd()->Clear();
+ GetCreationCmd()->GetString() = TPythonDump::SMESHGenName();
GetCreationCmd()->GetString() += "=";
+
+ // Find 1st digit of study entry by which a GEOM object differs from a SMESH object
+ if ( !theObjectNames.IsEmpty() && !CORBA::is_nil( theStudy ))
+ {
+ // find a GEOM entry
+ _pyID geomID;
+ SALOMEDS::SComponent_var geomComp = theStudy->FindComponent("GEOM");
+ if ( geomComp->_is_nil() ) return;
+ CORBA::String_var entry = geomComp->GetID();
+ geomID = entry.in();
+
+ // find a SMESH entry
+ _pyID smeshID;
+ Resource_DataMapIteratorOfDataMapOfAsciiStringAsciiString e2n( theObjectNames );
+ for ( ; e2n.More() && smeshID.IsEmpty(); e2n.Next() )
+ if ( _pyCommand::IsStudyEntry( e2n.Key() ))
+ smeshID = e2n.Key();
+
+ // find 1st difference between smeshID and geomID
+ if ( !geomID.IsEmpty() && !smeshID.IsEmpty() )
+ for ( int i = 1; i <= geomID.Length() && i <= smeshID.Length(); ++i )
+ if ( geomID.Value( i ) != smeshID.Value( i ))
+ {
+ myGeomIDNb = geomID.Value( i );
+ myGeomIDIndex = i;
+ }
+ }
}
//================================================================================
MESSAGE ( "## COM " << myNbCommands << ": "<< aCommand->GetString() );
#endif
- _pyID objID = aCommand->GetObject();
+ const _pyID& objID = aCommand->GetObject();
if ( objID.IsEmpty() )
return aCommand;
+ // Find an object to process theCommand
+
// SMESH_Gen method?
- if ( objID == this->GetID() ) {
+ if ( objID == this->GetID() || objID == SMESH_2smeshpy::GenName())
+ {
this->Process( aCommand );
return aCommand;
}
-
- // SMESH_subMesh method?
- map< _pyID, Handle(_pySubMesh) >::iterator id_subMesh = mySubMeshes.find( objID );
- if ( id_subMesh != mySubMeshes.end() ) {
- id_subMesh->second->Process( aCommand );
- return aCommand;
- }
// SMESH_Mesh method?
map< _pyID, Handle(_pyMesh) >::iterator id_mesh = myMeshes.find( objID );
- if ( id_mesh != myMeshes.end() ) {
+ if ( id_mesh != myMeshes.end() )
+ {
+ //id_mesh->second->AddProcessedCmd( aCommand );
+
// check for mesh editor object
if ( aCommand->GetMethod() == "GetMeshEditor" ) { // MeshEditor creation
_pyID editorID = aCommand->GetResultValue();
Handle(_pyMeshEditor) editor = new _pyMeshEditor( aCommand );
myMeshEditors.insert( make_pair( editorID, editor ));
return aCommand;
- }
+ }
// check for SubMesh objects
else if ( aCommand->GetMethod() == "GetSubMesh" ) { // SubMesh creation
_pyID subMeshID = aCommand->GetResultValue();
Handle(_pySubMesh) subMesh = new _pySubMesh( aCommand );
- mySubMeshes.insert( make_pair( subMeshID, subMesh ));
+ myObjects.insert( make_pair( subMeshID, subMesh ));
}
- id_mesh->second->Process( aCommand );
- return aCommand;
- }
- //SMESH_FilterManager method?
- if ( theCommand.Search( "aFilterManager" ) != -1 ) {
- if ( theCommand.Search( "CreateFilterManager" ) != -1 )
- myFilterManager = new _pyFilterManager( aCommand );
- else if ( !myFilterManager.IsNull() )
- myFilterManager->Process( aCommand );
+ id_mesh->second->Process( aCommand );
+ id_mesh->second->AddProcessedCmd( aCommand );
return aCommand;
}
// SMESH_MeshEditor method?
map< _pyID, Handle(_pyMeshEditor) >::iterator id_editor = myMeshEditors.find( objID );
- if ( id_editor != myMeshEditors.end() ) {
+ if ( id_editor != myMeshEditors.end() )
+ {
+ const TCollection_AsciiString& method = aCommand->GetMethod();
+
+ // some commands of SMESH_MeshEditor create meshes and groups
+ _pyID meshID, groups;
+ if ( method.Search("MakeMesh") != -1 )
+ meshID = aCommand->GetResultValue();
+ else if ( method == "MakeBoundaryMesh")
+ meshID = aCommand->GetResultValue(1);
+ else if ( method == "MakeBoundaryElements")
+ meshID = aCommand->GetResultValue(2);
+
+ if ( method.Search("MakeGroups") != -1 ||
+ method == "ExtrusionAlongPathX" ||
+ method == "ExtrusionAlongPathObjX" ||
+ method == "DoubleNodeGroupNew" ||
+ method == "DoubleNodeGroupsNew" ||
+ method == "DoubleNodeElemGroupNew" ||
+ method == "DoubleNodeElemGroupsNew" )
+ groups = aCommand->GetResultValue();
+ else if ( method == "MakeBoundaryMesh" )
+ groups = aCommand->GetResultValue(2);
+ else if ( method == "MakeBoundaryElements")
+ groups = aCommand->GetResultValue(3);
+
id_editor->second->Process( aCommand );
- TCollection_AsciiString processedCommand = aCommand->GetString();
- // some commands of SMESH_MeshEditor create meshes
- if ( aCommand->GetMethod().Search("MakeMesh") != -1 ) {
- Handle(_pyMesh) mesh = new _pyMesh( aCommand, aCommand->GetResultValue() );
+ id_editor->second->AddProcessedCmd( aCommand );
+
+ if ( !meshID.IsEmpty() &&
+ !myMeshes.count( meshID ) &&
+ aCommand->IsStudyEntry( meshID ))
+ {
+ TCollection_AsciiString processedCommand = aCommand->GetString();
+ Handle(_pyMesh) mesh = new _pyMesh( aCommand, meshID );
+ myMeshes.insert( make_pair( meshID, mesh ));
+ aCommand->Clear();
aCommand->GetString() = processedCommand; // discard changes made by _pyMesh
- myMeshes.insert( make_pair( mesh->GetID(), mesh ));
+ }
+ if ( !groups.IsEmpty() )
+ {
+ if ( !aCommand->IsStudyEntry( meshID ))
+ meshID = id_editor->second->GetMesh();
+ Handle(_pyMesh) mesh = myMeshes[ meshID ];
+
+ list< _pyID > idList = aCommand->GetStudyEntries( groups );
+ list< _pyID >::iterator grID = idList.begin();
+ for ( ; grID != idList.end(); ++grID )
+ if ( !myObjects.count( *grID ))
+ {
+ Handle(_pyGroup) group = new _pyGroup( aCommand, *grID );
+ AddObject( group );
+ if ( !mesh.IsNull() ) mesh->AddGroup( group );
+ }
}
return aCommand;
- }
+ } // SMESH_MeshEditor methods
+
// SMESH_Hypothesis method?
list< Handle(_pyHypothesis) >::iterator hyp = myHypos.begin();
for ( ; hyp != myHypos.end(); ++hyp )
if ( !(*hyp)->IsAlgo() && objID == (*hyp)->GetID() ) {
(*hyp)->Process( aCommand );
+ (*hyp)->AddProcessedCmd( aCommand );
return aCommand;
}
+ // aFilterManager.CreateFilter() ?
+ if ( aCommand->GetMethod() == "CreateFilter" )
+ {
+ // Set a more human readable name to a filter
+ // aFilter0x7fbf6c71cfb0 -> aFilter_nb
+ _pyID newID, filterID = aCommand->GetResultValue();
+ int pos = filterID.Search( "0x" );
+ if ( pos > 1 )
+ newID = (filterID.SubString(1,pos-1) + "_") + _pyID( ++myNbFilters );
+
+ Handle(_pyObject) filter( new _pyFilter( aCommand, newID ));
+ AddObject( filter );
+ }
+
+ // other object method?
+ map< _pyID, Handle(_pyObject) >::iterator id_obj = myObjects.find( objID );
+ if ( id_obj != myObjects.end() ) {
+ id_obj->second->Process( aCommand );
+ id_obj->second->AddProcessedCmd( aCommand );
+ return aCommand;
+ }
+
// Add access to a wrapped mesh
AddMeshAccessorMethod( aCommand );
// PAL12227. PythonDump was not updated at proper time; result is
// aCriteria.append(SMESH.Filter.Criterion(17,26,0,'L1',26,25,1e-07,SMESH.EDGE,-1))
// TypeError: __init__() takes exactly 11 arguments (10 given)
- char wrongCommand[] = "SMESH.Filter.Criterion(";
+ const char wrongCommand[] = "SMESH.Filter.Criterion(";
if ( int beg = theCommand.Location( wrongCommand, 1, theCommand.Length() ))
{
_pyCommand tmpCmd( theCommand.SubString( beg, theCommand.Length() ), -1);
aCommand->GetString().Trunc( beg - 1 );
aCommand->GetString() += tmpCmd.GetString();
}
+ // IMP issue 0021014
+ // set GetCriterion(elementType,CritType,Compare,Treshold,UnaryOp,BinaryOp,Tolerance)
+ // 1 2 3 4 5 6 7
+ // instead of "SMESH.Filter.Criterion(
+ // Type,Compare,Threshold,ThresholdStr,ThresholdID,UnaryOp,BinaryOp,Tolerance,TypeOfElement,Precision)
+ // 1 2 3 4 5 6 7 8 9 10
+ // in order to avoid the problem of type mismatch of long and FunctorType
+ const TCollection_AsciiString
+ SMESH("SMESH."), dfltFunctor = "SMESH.FT_Undefined", dftlTol = "1e-07", dftlPreci = "-1";
+ TCollection_AsciiString
+ Type = aCommand->GetArg(1), // long
+ Compare = aCommand->GetArg(2), // long
+ Threshold = aCommand->GetArg(3), // double
+ ThresholdStr = aCommand->GetArg(4), // string
+ ThresholdID = aCommand->GetArg(5), // string
+ UnaryOp = aCommand->GetArg(6), // long
+ BinaryOp = aCommand->GetArg(7), // long
+ Tolerance = aCommand->GetArg(8), // double
+ TypeOfElement = aCommand->GetArg(9), // ElementType
+ Precision = aCommand->GetArg(10); // long
+ Type = SMESH + SMESH::FunctorTypeToString( SMESH::FunctorType( Type.IntegerValue() ));
+ Compare = SMESH + SMESH::FunctorTypeToString( SMESH::FunctorType( Compare.IntegerValue() ));
+ UnaryOp = SMESH + SMESH::FunctorTypeToString( SMESH::FunctorType( UnaryOp.IntegerValue() ));
+ BinaryOp = SMESH + SMESH::FunctorTypeToString( SMESH::FunctorType( BinaryOp.IntegerValue() ));
+
+ aCommand->RemoveArgs();
+ aCommand->SetObject( SMESH_2smeshpy::GenName() );
+ aCommand->SetMethod( "GetCriterion" );
+
+ aCommand->SetArg( 1, TypeOfElement );
+ aCommand->SetArg( 2, Type );
+ aCommand->SetArg( 3, Compare );
+
+ if ( Type == "SMESH.FT_ElemGeomType" && Threshold.IsIntegerValue() )
+ {
+ // set SMESH.GeometryType instead of a numerical Threshold
+ const char* types[SMESH::Geom_POLYHEDRA+1] = {
+ "Geom_POINT", "Geom_EDGE", "Geom_TRIANGLE", "Geom_QUADRANGLE", "Geom_POLYGON",
+ "Geom_TETRA", "Geom_PYRAMID", "Geom_HEXA", "Geom_PENTA", "Geom_HEXAGONAL_PRISM",
+ "Geom_POLYHEDRA"
+ };
+ int iGeom = Threshold.IntegerValue();
+ if ( -1 < iGeom && iGeom < SMESH::Geom_POLYHEDRA+1 )
+ Threshold = SMESH + types[ iGeom ];
+ }
+ if ( ThresholdID.Length() != 2 && ThresholdStr.Length() != 2) // not '' or ""
+ aCommand->SetArg( 4, ThresholdID.SubString( 2, ThresholdID.Length()-1 )); // shape entry
+ else if ( ThresholdStr.Length() != 2 )
+ aCommand->SetArg( 4, ThresholdStr );
+ else if ( ThresholdID.Length() != 2 )
+ aCommand->SetArg( 4, ThresholdID );
+ else
+ aCommand->SetArg( 4, Threshold );
+ // find the last not default arg
+ int lastDefault = 8;
+ if ( Tolerance == dftlTol ) {
+ lastDefault = 7;
+ if ( BinaryOp == dfltFunctor ) {
+ lastDefault = 6;
+ if ( UnaryOp == dfltFunctor )
+ lastDefault = 5;
+ }
+ }
+ if ( 5 < lastDefault ) aCommand->SetArg( 5, UnaryOp );
+ if ( 6 < lastDefault ) aCommand->SetArg( 6, BinaryOp );
+ if ( 7 < lastDefault ) aCommand->SetArg( 7, Tolerance );
+ if ( Precision != dftlPreci )
+ {
+ TCollection_AsciiString crit = aCommand->GetResultValue();
+ aCommand->GetString() += "; ";
+ aCommand->GetString() += crit + ".Precision = " + Precision;
+ }
}
return aCommand;
}
//================================================================================
/*!
- * \brief Convert the command or remember it for later conversion
+ * \brief Convert the command or remember it for later conversion
* \param theCommand - The python command calling a method of SMESH_Gen
*/
//================================================================================
// Concatenate( [mesh1, ...], ... )
// CreateHypothesis( theHypType, theLibName )
// Compute( mesh, geom )
+ // Evaluate( mesh, geom )
// mesh creation
TCollection_AsciiString method = theCommand->GetMethod();
myMeshes.insert( make_pair( mesh->GetID(), mesh ));
return;
}
- if ( method == "CreateMeshesFromUNV" || method == "CreateMeshesFromSTL")
+ if ( method == "CreateMeshesFromUNV" ||
+ method == "CreateMeshesFromSTL" ||
+ method == "CreateMeshesFromCGNS" ||
+ method == "CopyMesh" )
{
Handle(_pyMesh) mesh = new _pyMesh( theCommand, theCommand->GetResultValue() );
myMeshes.insert( make_pair( mesh->GetID(), mesh ));
return;
}
- if( method == "CreateMeshesFromMED")
+ if( method == "CreateMeshesFromMED" || method == "CreateMeshesFromSAUV")
{
for(int ind = 0;ind<theCommand->GetNbResultValues();ind++)
{
- Handle(_pyMesh) mesh = new _pyMesh( theCommand, theCommand->GetResultValue(ind));
- myMeshes.insert( make_pair( theCommand->GetResultValue(ind), mesh ));
+ const _pyID& meshID = theCommand->GetResultValue(ind+1);
+ if ( !theCommand->IsStudyEntry( meshID ) ) continue;
+ Handle(_pyMesh) mesh = new _pyMesh( theCommand, theCommand->GetResultValue(ind+1));
+ myMeshes.insert( make_pair( mesh->GetID(), mesh ));
}
}
if ( id_mesh != myMeshes.end() ) {
theCommand->SetObject( meshID );
theCommand->RemoveArgs();
- id_mesh->second->Flush();
+ id_mesh->second->Process( theCommand );
+ id_mesh->second->AddProcessedCmd( theCommand );
return;
}
}
- // leave only one smeshgen.GetPattern() in the script
- if ( method == "GetPattern" ) {
- if ( myHasPattern ) {
- theCommand->Clear();
+ // smeshgen.Evaluate( mesh, geom ) --> mesh.Evaluate(geom)
+ if ( method == "Evaluate" )
+ {
+ const _pyID& meshID = theCommand->GetArg( 1 );
+ map< _pyID, Handle(_pyMesh) >::iterator id_mesh = myMeshes.find( meshID );
+ if ( id_mesh != myMeshes.end() ) {
+ theCommand->SetObject( meshID );
+ _pyID geom = theCommand->GetArg( 2 );
+ theCommand->RemoveArgs();
+ theCommand->SetArg( 1, geom );
+ id_mesh->second->AddProcessedCmd( theCommand );
return;
}
- myHasPattern = true;
}
+ // objects erasing creation command if no more it's commands invoked:
+ // SMESH_Pattern, FilterManager
+ if ( method == "GetPattern" ||
+ method == "CreateFilterManager" ||
+ method == "CreateMeasurements" ) {
+ Handle(_pyObject) obj = new _pySelfEraser( theCommand );
+ if ( !myObjects.insert( make_pair( obj->GetID(), obj )).second )
+ theCommand->Clear(); // already created
+ }
// Concatenate( [mesh1, ...], ... )
- if ( method == "Concatenate" || method == "ConcatenateWithGroups")
+ else if ( method == "Concatenate" || method == "ConcatenateWithGroups")
{
if ( method == "ConcatenateWithGroups" ) {
theCommand->SetMethod( "Concatenate" );
myMeshes.insert( make_pair( mesh->GetID(), mesh ));
AddMeshAccessorMethod( theCommand );
}
+ else if ( method == "SetName" ) // SetName(obj,name)
+ {
+ // store theCommand as one of object commands to erase it along with the object
+ const _pyID& objID = theCommand->GetArg( 1 );
+ Handle(_pyObject) obj = FindObject( objID );
+ if ( !obj.IsNull() )
+ obj->AddProcessedCmd( theCommand );
+ }
// Replace name of SMESH_Gen
void _pyGen::Flush()
{
- // create empty command
+ // create an empty command
myLastCommand = new _pyCommand();
- if ( !myFilterManager.IsNull() )
- myFilterManager->Flush();
+ map< _pyID, Handle(_pyMesh) >::iterator id_mesh;
+ map< _pyID, Handle(_pyObject) >::iterator id_obj;
+ list< Handle(_pyHypothesis) >::iterator hyp;
- map< _pyID, Handle(_pyMesh) >::iterator id_mesh = myMeshes.begin();
- for ( ; id_mesh != myMeshes.end(); ++id_mesh )
+ if ( IsToKeepAllCommands() ) // historical dump
+ {
+ // set myIsPublished = true to all objects
+ for ( id_mesh = myMeshes.begin(); id_mesh != myMeshes.end(); ++id_mesh )
+ id_mesh->second->SetRemovedFromStudy( false );
+ for ( hyp = myHypos.begin(); hyp != myHypos.end(); ++hyp )
+ (*hyp)->SetRemovedFromStudy( false );
+ for ( id_obj = myObjects.begin(); id_obj != myObjects.end(); ++id_obj )
+ id_obj->second->SetRemovedFromStudy( false );
+ }
+ // set myIsPublished = false to all objects depending on
+ // meshes built on a removed geometry
+ for ( id_mesh = myMeshes.begin(); id_mesh != myMeshes.end(); ++id_mesh )
+ if ( id_mesh->second->IsNotGeomPublished() )
+ id_mesh->second->SetRemovedFromStudy( true );
+
+ // Flush meshes
+ for ( id_mesh = myMeshes.begin(); id_mesh != myMeshes.end(); ++id_mesh )
if ( ! id_mesh->second.IsNull() )
id_mesh->second->Flush();
- list< Handle(_pyHypothesis) >::iterator hyp = myHypos.begin();
- for ( ; hyp != myHypos.end(); ++hyp )
+ // Flush hyps
+ for ( hyp = myHypos.begin(); hyp != myHypos.end(); ++hyp )
if ( !hyp->IsNull() ) {
(*hyp)->Flush();
// smeshgen.CreateHypothesis() --> smesh.smesh.CreateHypothesis()
(*hyp)->GetCreationCmd()->SetObject( SMESH_2smeshpy::GenName() );
}
- map< _pyID, Handle(_pySubMesh) >::iterator id_subMesh = mySubMeshes.begin();
- for ( ; id_subMesh != mySubMeshes.end(); ++id_subMesh )
- if ( ! id_subMesh->second.IsNull() )
- id_subMesh->second->Flush();
+ // Flush other objects
+ for ( id_obj = myObjects.begin(); id_obj != myObjects.end(); ++id_obj )
+ if ( ! id_obj->second.IsNull() )
+ id_obj->second->Flush();
myLastCommand->SetOrderNb( ++myNbCommands );
myCommands.push_back( myLastCommand );
}
+//================================================================================
+/*!
+ * \brief Clean commmands of removed objects depending on myIsPublished flag
+ */
+//================================================================================
+
+void _pyGen::ClearCommands()
+{
+ map< _pyID, Handle(_pyMesh) >::iterator id_mesh = myMeshes.begin();
+ for ( ; id_mesh != myMeshes.end(); ++id_mesh )
+ id_mesh->second->ClearCommands();
+
+ list< Handle(_pyHypothesis) >::iterator hyp = myHypos.begin();
+ for ( ; hyp != myHypos.end(); ++hyp )
+ if ( !hyp->IsNull() )
+ (*hyp)->ClearCommands();
+
+ map< _pyID, Handle(_pyObject) >::iterator id_obj = myObjects.begin();
+ for ( ; id_obj != myObjects.end(); ++id_obj )
+ id_obj->second->ClearCommands();
+}
+
+//================================================================================
+/*!
+ * \brief Release mutual handles of objects
+ */
+//================================================================================
+
+void _pyGen::Free()
+{
+ map< _pyID, Handle(_pyMesh) >::iterator id_mesh = myMeshes.begin();
+ for ( ; id_mesh != myMeshes.end(); ++id_mesh )
+ id_mesh->second->Free();
+ myMeshes.clear();
+
+ map< _pyID, Handle(_pyMeshEditor) >::iterator id_ed = myMeshEditors.begin();
+ for ( ; id_ed != myMeshEditors.end(); ++id_ed )
+ id_ed->second->Free();
+ myMeshEditors.clear();
+
+ map< _pyID, Handle(_pyObject) >::iterator id_obj = myObjects.begin();
+ for ( ; id_obj != myObjects.end(); ++id_obj )
+ id_obj->second->Free();
+ myObjects.clear();
+
+ list< Handle(_pyHypothesis) >::iterator hyp = myHypos.begin();
+ for ( ; hyp != myHypos.end(); ++hyp )
+ if ( !hyp->IsNull() )
+ (*hyp)->Free();
+ myHypos.clear();
+
+ myFile2ExportedMesh.clear();
+}
+
//================================================================================
/*!
* \brief Add access method to mesh that is an argument
if ( !hyp->IsNull() &&
(*hyp)->IsAlgo() &&
theHypothesis->CanBeCreatedBy( (*hyp)->GetAlgoType() ) &&
- (*hyp)->GetGeom() == theGeom &&
+ (*hyp)->GetGeom() == theGeom &&
(*hyp)->GetMesh() == theMesh )
return *hyp;
return 0;
Handle(_pySubMesh) _pyGen::FindSubMesh( const _pyID& theSubMeshID )
{
- map< _pyID, Handle(_pySubMesh) >::iterator id_subMesh = mySubMeshes.begin();
- for ( ; id_subMesh != mySubMeshes.end(); ++id_subMesh ) {
- Handle(_pySubMesh) sm = id_subMesh->second;
- if ( !id_subMesh->second.IsNull() && theSubMeshID == id_subMesh->second->GetID() )
- return sm;
- }
+ map< _pyID, Handle(_pyObject) >::iterator id_subMesh = myObjects.find(theSubMeshID);
+ if ( id_subMesh != myObjects.end() )
+ return Handle(_pySubMesh)::DownCast( id_subMesh->second );
return Handle(_pySubMesh)();
}
//================================================================================
void _pyGen::setNeighbourCommand( Handle(_pyCommand)& theCmd,
- Handle(_pyCommand)& theOtherCmd,
- const bool theIsAfter )
+ Handle(_pyCommand)& theOtherCmd,
+ const bool theIsAfter )
{
list< Handle(_pyCommand) >::iterator pos;
pos = find( myCommands.begin(), myCommands.end(), theCmd );
aNewID = theID + _pyID( ":" ) + _pyID( index++ );
}
while ( myObjectNames.IsBound( aNewID ) );
-
- myObjectNames.Bind( aNewID, myObjectNames.IsBound( theID )
- ? (myObjectNames.Find( theID ) + _pyID( "_" ) + _pyID( index-1 ))
- : _pyID( "A" ) + aNewID );
+
+ myObjectNames.Bind( aNewID, myObjectNames.IsBound( theID )
+ ? (myObjectNames.Find( theID ) + _pyID( "_" ) + _pyID( index-1 ))
+ : _pyID( "A" ) + aNewID );
return aNewID;
}
//================================================================================
/*!
- * \brief Find out type of geom group
- * \param grpID - The geom group entry
- * \retval int - The type
- */
-//================================================================================
-
-static bool sameGroupType( const _pyID& grpID,
- const TCollection_AsciiString& theType)
-{
- // define group type as smesh.Mesh.Group() does
- int type = -1;
- SALOMEDS::Study_var study = SMESH_Gen_i::GetSMESHGen()->GetCurrentStudy();
- SALOMEDS::SObject_var aSObj = study->FindObjectID( grpID.ToCString() );
- if ( !aSObj->_is_nil() ) {
- GEOM::GEOM_Object_var aGeomObj = GEOM::GEOM_Object::_narrow( aSObj->GetObject() );
- if ( !aGeomObj->_is_nil() ) {
- switch ( aGeomObj->GetShapeType() ) {
- case GEOM::VERTEX: type = SMESH::NODE; break;
- case GEOM::EDGE: type = SMESH::EDGE; break;
- case GEOM::FACE: type = SMESH::FACE; break;
- case GEOM::SOLID:
- case GEOM::SHELL: type = SMESH::VOLUME; break;
- case GEOM::COMPOUND: {
- GEOM::GEOM_Gen_ptr aGeomGen = SMESH_Gen_i::GetSMESHGen()->GetGeomEngine();
- if ( !aGeomGen->_is_nil() ) {
- GEOM::GEOM_IGroupOperations_var aGrpOp =
- aGeomGen->GetIGroupOperations( study->StudyId() );
- if ( !aGrpOp->_is_nil() ) {
- switch ( aGrpOp->GetType( aGeomObj )) {
- case TopAbs_VERTEX: type = SMESH::NODE; break;
- case TopAbs_EDGE: type = SMESH::EDGE; break;
- case TopAbs_FACE: type = SMESH::FACE; break;
- case TopAbs_SOLID: type = SMESH::VOLUME; break;
- default:;
- }
- }
- }
- }
- default:;
- }
- }
+ * \brief Stores theObj in myObjects
+ */
+//================================================================================
+
+void _pyGen::AddObject( Handle(_pyObject)& theObj )
+{
+ if ( theObj.IsNull() ) return;
+
+ if ( theObj->IsKind( STANDARD_TYPE( _pyMesh )))
+ myMeshes.insert( make_pair( theObj->GetID(), Handle(_pyMesh)::DownCast( theObj )));
+
+ else if ( theObj->IsKind( STANDARD_TYPE( _pyMeshEditor )))
+ myMeshEditors.insert( make_pair( theObj->GetID(), Handle(_pyMeshEditor)::DownCast( theObj )));
+
+ else
+ myObjects.insert( make_pair( theObj->GetID(), theObj ));
+}
+
+//================================================================================
+/*!
+ * \brief Finds a _pyObject by ID
+ */
+//================================================================================
+
+Handle(_pyObject) _pyGen::FindObject( const _pyID& theObjID ) const
+{
+ {
+ map< _pyID, Handle(_pyObject) >::const_iterator id_obj = myObjects.find( theObjID );
+ if ( id_obj != myObjects.end() )
+ return id_obj->second;
}
- if ( type < 0 ) {
- MESSAGE("Type of the group " << grpID << " not found");
- return false;
+ {
+ map< _pyID, Handle(_pyMesh) >::const_iterator id_obj = myMeshes.find( theObjID );
+ if ( id_obj != myMeshes.end() )
+ return id_obj->second;
}
- if ( theType.IsIntegerValue() )
- return type == theType.IntegerValue();
+ // {
+ // map< _pyID, Handle(_pyMeshEditor) >::const_iterator id_obj = myMeshEditors.find( theObjID );
+ // if ( id_obj != myMeshEditors.end() )
+ // return id_obj->second;
+ // }
+ return Handle(_pyObject)();
+}
+
+//================================================================================
+/*!
+ * \brief Check if a study entry is under GEOM component
+ */
+//================================================================================
- switch ( type ) {
- case SMESH::NODE: return theType.Location( "NODE", 1, theType.Length() );
- case SMESH::EDGE: return theType.Location( "EDGE", 1, theType.Length() );
- case SMESH::FACE: return theType.Location( "FACE", 1, theType.Length() );
- case SMESH::VOLUME: return theType.Location( "VOLUME", 1, theType.Length() );
- default:;
+bool _pyGen::IsGeomObject(const _pyID& theObjID) const
+{
+ if ( myGeomIDNb )
+ {
+ return ( myGeomIDIndex <= theObjID.Length() &&
+ int( theObjID.Value( myGeomIDIndex )) == myGeomIDNb);
}
return false;
}
//================================================================================
/*!
- * \brief
- * \param theCreationCmd -
+ * \brief Returns true if an object is not present in a study
+ */
+//================================================================================
+
+bool _pyGen::IsNotPublished(const _pyID& theObjID) const
+{
+ if ( theObjID.IsEmpty() ) return false;
+
+ if ( myObjectNames.IsBound( theObjID ))
+ return false; // SMESH object is in study
+
+ // either the SMESH object is not in study or it is a GEOM object
+ if ( IsGeomObject( theObjID ))
+ {
+ SALOMEDS::SObject_var so = myStudy->FindObjectID( theObjID.ToCString() );
+ if ( so->_is_nil() ) return true;
+ CORBA::Object_var obj = so->GetObject();
+ return CORBA::is_nil( obj );
+ }
+ return true; // SMESH object not in study
+}
+
+//================================================================================
+/*!
+ * \brief Mesh created by SMESH_Gen
*/
//================================================================================
_pyMesh::_pyMesh(const Handle(_pyCommand) theCreationCmd)
- : _pyObject(theCreationCmd), myHasEditor(false)
+ : _pyObject( theCreationCmd ), myGeomNotInStudy( false )
{
- // convert my creation command
+ if ( theCreationCmd->GetMethod() == "CreateMesh" && theGen->IsNotPublished( GetGeom() ))
+ myGeomNotInStudy = true;
+
+ // convert my creation command --> smeshpy.Mesh(...)
Handle(_pyCommand) creationCmd = GetCreationCmd();
- //TCollection_AsciiString str = creationCmd->GetMethod();
-// if(str != "CreateMeshesFromUNV" &&
-// str != "CreateMeshesFromMED" &&
-// str != "CreateMeshesFromSTL")
- creationCmd->SetObject( SMESH_2smeshpy::SmeshpyName() );
+ creationCmd->SetObject( SMESH_2smeshpy::SmeshpyName() );
creationCmd->SetMethod( "Mesh" );
-
- theGen->SetAccessorMethod( GetID(), "GetMesh()" );
+ theGen->SetAccessorMethod( GetID(), _pyMesh::AccessorMethod() );
}
//================================================================================
/*!
- * \brief
- * \param theCreationCmd -
+ * \brief Mesh created by SMESH_MeshEditor
*/
//================================================================================
-_pyMesh::_pyMesh(const Handle(_pyCommand) theCreationCmd, const TCollection_AsciiString& id):
- _pyObject(theCreationCmd), myHasEditor(false)
+
+_pyMesh::_pyMesh(const Handle(_pyCommand) theCreationCmd, const _pyID& meshId):
+ _pyObject(theCreationCmd,meshId), myGeomNotInStudy(false )
{
+ if ( theCreationCmd->MethodStartsFrom( "CreateMeshesFrom" ))
+ {
+ // this mesh depends on the exported mesh
+ const TCollection_AsciiString& file = theCreationCmd->GetArg( 1 );
+ if ( !file.IsEmpty() )
+ {
+ ExportedMeshData& exportData = theGen->FindExportedMesh( file );
+ addFatherMesh( exportData.myMesh );
+ if ( !exportData.myLastComputeCmd.IsNull() )
+ {
+ // restore cleared Compute() by which the exported mesh was generated
+ exportData.myLastComputeCmd->GetString() = exportData.myLastComputeCmdString;
+ // protect that Compute() cmd from clearing
+ if ( exportData.myMesh->myLastComputeCmd == exportData.myLastComputeCmd )
+ exportData.myMesh->myLastComputeCmd.Nullify();
+ }
+ }
+ }
+ else if ( theCreationCmd->MethodStartsFrom( "Concatenate" ))
+ {
+ // this mesh depends on concatenated meshes
+ const TCollection_AsciiString& meshIDs = theCreationCmd->GetArg( 1 );
+ list< _pyID > idList = theCreationCmd->GetStudyEntries( meshIDs );
+ list< _pyID >::iterator meshID = idList.begin();
+ for ( ; meshID != idList.end(); ++meshID )
+ addFatherMesh( *meshID );
+ }
+ else if ( theCreationCmd->GetMethod() == "CopyMesh" )
+ {
+ // this mesh depends on a copied IdSource
+ const _pyID& objID = theCreationCmd->GetArg( 1 );
+ addFatherMesh( objID );
+ }
+ else if ( theCreationCmd->GetMethod().Search("MakeMesh") != -1 ||
+ theCreationCmd->GetMethod() == "MakeBoundaryMesh" ||
+ theCreationCmd->GetMethod() == "MakeBoundaryElements" )
+ {
+ // this mesh depends on a source mesh
+ // (theCreationCmd is already Process()ed by _pyMeshEditor)
+ const _pyID& meshID = theCreationCmd->GetObject();
+ addFatherMesh( meshID );
+ }
+
// convert my creation command
Handle(_pyCommand) creationCmd = GetCreationCmd();
- creationCmd->SetObject( SMESH_2smeshpy::SmeshpyName() );
- theGen->SetAccessorMethod( id, "GetMesh()" );
+ creationCmd->SetObject( SMESH_2smeshpy::SmeshpyName() );
+ theGen->SetAccessorMethod( meshId, _pyMesh::AccessorMethod() );
}
//================================================================================
/*!
- * \brief Convert a IDL API command of SMESH::Mesh to a method call of python Mesh
+ * \brief Convert an IDL API command of SMESH::SMESH_Mesh to a method call of python Mesh
* \param theCommand - Engine method called for this mesh
*/
//================================================================================
// --> in Mesh.ExportMED( f, auto_groups, version )
// 5. etc
- const TCollection_AsciiString method = theCommand->GetMethod();
+ const TCollection_AsciiString& method = theCommand->GetMethod();
+ // ----------------------------------------------------------------------
+ if ( method == "Compute" ) // in snapshot mode, clear the previous Compute()
+ {
+ if ( !theGen->IsToKeepAllCommands() ) // !historical
+ {
+ list< Handle(_pyHypothesis) >::iterator hyp;
+ if ( !myLastComputeCmd.IsNull() )
+ {
+ for ( hyp = myHypos.begin(); hyp != myHypos.end(); ++hyp )
+ (*hyp)->ComputeDiscarded( myLastComputeCmd );
+
+ myLastComputeCmd->Clear();
+ }
+ myLastComputeCmd = theCommand;
+
+ for ( hyp = myHypos.begin(); hyp != myHypos.end(); ++hyp )
+ (*hyp)->MeshComputed( myLastComputeCmd );
+ }
+ Flush();
+ }
+ // ----------------------------------------------------------------------
+ else if ( method == "Clear" ) // in snapshot mode, clear all previous commands
+ {
+ if ( !theGen->IsToKeepAllCommands() ) // !historical
+ {
+ int untilCmdNb =
+ myChildMeshes.empty() ? 0 : myChildMeshes.back()->GetCreationCmd()->GetOrderNb();
+ // list< Handle(_pyCommand) >::reverse_iterator cmd = myProcessedCmds.rbegin();
+ // for ( ; cmd != myProcessedCmds.rend() && (*cmd)->GetOrderNb() > untilCmdNb; ++cmd )
+ // (*cmd)->Clear();
+ if ( !myLastComputeCmd.IsNull() )
+ {
+ list< Handle(_pyHypothesis) >::iterator hyp;
+ for ( hyp = myHypos.begin(); hyp != myHypos.end(); ++hyp )
+ (*hyp)->ComputeDiscarded( myLastComputeCmd );
+
+ myLastComputeCmd->Clear();
+ }
+
+ list< Handle(_pyMeshEditor)>::iterator e = myEditors.begin();
+ for ( ; e != myEditors.end(); ++e )
+ {
+ list< Handle(_pyCommand)>& cmds = (*e)->GetProcessedCmds();
+ list< Handle(_pyCommand) >::reverse_iterator cmd = cmds.rbegin();
+ for ( ; cmd != cmds.rend() && (*cmd)->GetOrderNb() > untilCmdNb; ++cmd )
+ if ( !(*cmd)->IsEmpty() )
+ {
+ if ( (*cmd)->GetStudyEntries( (*cmd)->GetResultValue() ).empty() ) // no object created
+ (*cmd)->Clear();
+ }
+ }
+ myLastComputeCmd = theCommand; // to clear Clear() the same way as Compute()
+ }
+ }
// ----------------------------------------------------------------------
- if ( method == "GetSubMesh" ) {
+ else if ( method == "GetSubMesh" ) { // collect submeshes of the mesh
Handle(_pySubMesh) subMesh = theGen->FindSubMesh( theCommand->GetResultValue() );
if ( !subMesh.IsNull() ) {
subMesh->SetCreator( this );
mySubmeshes.push_back( subMesh );
}
}
+ else if ( method == "RemoveSubMesh" ) { // move submesh creation before its removal
+ Handle(_pySubMesh) subMesh = theGen->FindSubMesh( theCommand->GetArg(1) );
+ if ( !subMesh.IsNull() )
+ subMesh->Process( theCommand );
+ AddMeshAccess( theCommand );
+ }
// ----------------------------------------------------------------------
else if ( method == "AddHypothesis" ) { // mesh.AddHypothesis(geom, HYPO )
myAddHypCmds.push_back( theCommand );
}
}
// ----------------------------------------------------------------------
+ else if ( method == "CreateGroup" ) // CreateGroup() --> CreateEmptyGroup()
+ {
+ theCommand->SetMethod( "CreateEmptyGroup" );
+ Handle(_pyGroup) group = new _pyGroup( theCommand );
+ myGroups.push_back( group );
+ theGen->AddObject( group );
+ }
+ // ----------------------------------------------------------------------
else if ( method == "CreateGroupFromGEOM" ) {// (type, name, grp)
_pyID grp = theCommand->GetArg( 3 );
- if ( sameGroupType( grp, theCommand->GetArg( 1 )) ) { // --> Group(grp)
- theCommand->SetMethod( "Group" );
- theCommand->RemoveArgs();
- theCommand->SetArg( 1, grp );
- }
- else {
+ // VSR 24/12/2010. PAL21106: always use GroupOnGeom() function on dump
+ // next if(){...} section is commented
+ //if ( sameGroupType( grp, theCommand->GetArg( 1 )) ) { // --> Group(grp)
+ // theCommand->SetMethod( "Group" );
+ // theCommand->RemoveArgs();
+ // theCommand->SetArg( 1, grp );
+ //}
+ //else {
+ // ------------------------->>>>> GroupOnGeom( grp, name, typ )
_pyID type = theCommand->GetArg( 1 );
_pyID name = theCommand->GetArg( 2 );
theCommand->SetMethod( "GroupOnGeom" );
theCommand->SetArg( 1, grp );
theCommand->SetArg( 2, name );
theCommand->SetArg( 3, type );
- }
+ //}
+ Handle(_pyGroup) group = new _pyGroup( theCommand );
+ myGroups.push_back( group );
+ theGen->AddObject( group );
}
// ----------------------------------------------------------------------
- else if ( method == "ExportToMED" ) { // ExportToMED() --> ExportMED()
- theCommand->SetMethod( "ExportMED" );
+ else if ( method == "CreateGroupFromFilter" ) // --> GroupOnFilter()
+ {
+ theCommand->SetMethod( "GroupOnFilter" );
+ Handle(_pyGroup) group = new _pyGroup( theCommand );
+ myGroups.push_back( group );
+ theGen->AddObject( group );
+
+ // GroupOnFilter(typ, name, aFilter0x4743dc0 -> aFilter_1)
+ _pyID filterID = theCommand->GetArg(3);
+ Handle(_pyFilter) filter = Handle(_pyFilter)::DownCast( theGen->FindObject( filterID ));
+ if ( !filter.IsNull())
+ {
+ filter->Process( theCommand );
+ filter->AddUser( group );
+ }
}
// ----------------------------------------------------------------------
- else if ( method == "CreateGroup" ) { // CreateGroup() --> CreateEmptyGroup()
- theCommand->SetMethod( "CreateEmptyGroup" );
+ else if ( theCommand->MethodStartsFrom( "Export" ))
+ {
+ if ( method == "ExportToMED" || // ExportToMED() --> ExportMED()
+ method == "ExportToMEDX" ) { // ExportToMEDX() --> ExportMED()
+ theCommand->SetMethod( "ExportMED" );
+ }
+ else if ( method == "ExportCGNS" )
+ { // ExportCGNS(part, ...) -> ExportCGNS(..., part)
+ _pyID partID = theCommand->GetArg( 1 );
+ int nbArgs = theCommand->GetNbArgs();
+ for ( int i = 2; i <= nbArgs; ++i )
+ theCommand->SetArg( i-1, theCommand->GetArg( i ));
+ theCommand->SetArg( nbArgs, partID );
+ }
+ else if ( theCommand->MethodStartsFrom( "ExportPartTo" ))
+ { // ExportPartTo*(part, ...) -> Export*(..., part)
+ //
+ // remove "PartTo" from the method
+ TCollection_AsciiString newMethod = method;
+ newMethod.Remove( 7, 6 );
+ theCommand->SetMethod( newMethod );
+ // make the 1st arg be the last one
+ _pyID partID = theCommand->GetArg( 1 );
+ int nbArgs = theCommand->GetNbArgs();
+ for ( int i = 2; i <= nbArgs; ++i )
+ theCommand->SetArg( i-1, theCommand->GetArg( i ));
+ theCommand->SetArg( nbArgs, partID );
+ }
+ // remember file name
+ theGen->AddExportedMesh( theCommand->GetArg( 1 ),
+ ExportedMeshData( this, myLastComputeCmd ));
}
// ----------------------------------------------------------------------
else if ( method == "RemoveHypothesis" ) // (geom, hyp)
// remove hyp from myHypos
myHypos.remove( hyp );
}
+ // check for SubMesh order commands
+ else if ( method == "GetMeshOrder" || method == "SetMeshOrder" )
+ {
+ // make commands GetSubMesh() returning sub-meshes be before using sub-meshes
+ // by GetMeshOrder() and SetMeshOrder(), since by defalut GetSubMesh()
+ // commands are moved at the end of the script
+ TCollection_AsciiString subIDs =
+ ( method == "SetMeshOrder" ) ? theCommand->GetArg(1) : theCommand->GetResultValue();
+ list< _pyID > idList = theCommand->GetStudyEntries( subIDs );
+ list< _pyID >::iterator subID = idList.begin();
+ for ( ; subID != idList.end(); ++subID )
+ {
+ Handle(_pySubMesh) subMesh = theGen->FindSubMesh( *subID );
+ if ( !subMesh.IsNull() )
+ subMesh->Process( theCommand ); // it moves GetSubMesh() before theCommand
+ }
+ }
+ // update list of groups
+ else if ( method == "GetGroups" )
+ {
+ TCollection_AsciiString grIDs = theCommand->GetResultValue();
+ list< _pyID > idList = theCommand->GetStudyEntries( grIDs );
+ list< _pyID >::iterator grID = idList.begin();
+ for ( ; grID != idList.end(); ++grID )
+ {
+ Handle(_pyObject) obj = theGen->FindObject( *grID );
+ if ( obj.IsNull() )
+ {
+ Handle(_pyGroup) group = new _pyGroup( theCommand, *grID );
+ theGen->AddObject( group );
+ myGroups.push_back( group );
+ }
+ }
+ }
// add accessor method if necessary
else
{
bool _pyMesh::NeedMeshAccess( const Handle(_pyCommand)& theCommand )
{
- // names of SMESH_Mesh methods fully equal to methods of class Mesh, so
- // no conversion is needed for them at all:
+ // names of SMESH_Mesh methods fully equal to methods of python class Mesh,
+ // so no conversion is needed for them at all:
static TStringSet sameMethods;
if ( sameMethods.empty() ) {
const char * names[] =
- { "ExportDAT","ExportUNV","ExportSTL", "RemoveGroup","RemoveGroupWithContents",
+ { "ExportDAT","ExportUNV","ExportSTL","ExportSAUV", "RemoveGroup","RemoveGroupWithContents",
"GetGroups","UnionGroups","IntersectGroups","CutGroups","GetLog","GetId","ClearLog",
"GetStudyId","HasDuplicatedGroupNamesMED","GetMEDMesh","NbNodes","NbElements",
"NbEdges","NbEdgesOfOrder","NbFaces","NbFacesOfOrder","NbTriangles",
"GetNodeInverseElements","GetShapeID","GetShapeIDForElem","GetElemNbNodes",
"GetElemNode","IsMediumNode","IsMediumNodeOfAnyElem","ElemNbEdges","ElemNbFaces",
"IsPoly","IsQuadratic","BaryCenter","GetHypothesisList", "SetAutoColor", "GetAutoColor",
- "Clear", "ConvertToStandalone"
+ "Clear", "ConvertToStandalone", "GetMeshOrder", "SetMeshOrder"
,"" }; // <- mark of end
sameMethods.Insert( names );
}
void _pyMesh::Flush()
{
+ {
+ // get the meshes this mesh depends on via hypotheses
+ list< Handle(_pyMesh) > fatherMeshes;
+ list< Handle(_pyHypothesis) >::iterator hyp = myHypos.begin();
+ for ( ; hyp != myHypos.end(); ++hyp )
+ if ( ! (*hyp)->GetReferredMeshesAndGeom( fatherMeshes ))
+ myGeomNotInStudy = true;
+
+ list< Handle(_pyMesh) >::iterator m = fatherMeshes.begin();
+ for ( ; m != fatherMeshes.end(); ++m )
+ addFatherMesh( *m );
+ // if ( removedGeom )
+ // SetRemovedFromStudy(); // as reffered geometry not in study
+ }
+ if ( myGeomNotInStudy )
+ return;
+
list < Handle(_pyCommand) >::iterator cmd;
// try to convert algo addition like this:
// check and create new algorithm instance if it is already wrapped
if ( algo->IsWrapped() ) {
_pyID localAlgoID = theGen->GenerateNewID( algoID );
- TCollection_AsciiString aNewCmdStr = localAlgoID +
- TCollection_AsciiString( " = " ) + theGen->GetID() +
- TCollection_AsciiString( ".CreateHypothesis( \"" ) + algo->GetAlgoType() +
- TCollection_AsciiString( "\" )" );
-
+ TCollection_AsciiString aNewCmdStr = addCmd->GetIndentation() + localAlgoID +
+ TCollection_AsciiString( " = " ) + theGen->GetID() +
+ TCollection_AsciiString( ".CreateHypothesis( \"" ) + algo->GetAlgoType() +
+ TCollection_AsciiString( "\" )" );
+
Handle(_pyCommand) newCmd = theGen->AddCommand( aNewCmdStr );
Handle(_pyAlgorithm) newAlgo = Handle(_pyAlgorithm)::DownCast(theGen->FindHyp( localAlgoID ));
if ( !newAlgo.IsNull() ) {
- newAlgo->Assign( algo, this->GetID() );
- newAlgo->SetCreationCmd( newCmd );
- algo = newAlgo;
- // set algorithm creation
- theGen->SetCommandBefore( newCmd, addCmd );
+ newAlgo->Assign( algo, this->GetID() );
+ newAlgo->SetCreationCmd( newCmd );
+ algo = newAlgo;
+ // set algorithm creation
+ theGen->SetCommandBefore( newCmd, addCmd );
+ myHypos.push_back( newAlgo );
+ if ( !myLastComputeCmd.IsNull() &&
+ newCmd->GetOrderNb() == myLastComputeCmd->GetOrderNb() + 1)
+ newAlgo->MeshComputed( myLastComputeCmd );
}
else
- newCmd->Clear();
+ newCmd->Clear();
}
_pyID geom = addCmd->GetArg( 1 );
bool isLocalAlgo = ( geom != GetGeom() );
-
+
// try to convert
if ( algo->Addition2Creation( addCmd, this->GetID() )) // OK
{
- // wrapped algo is created atfer mesh creation
+ // wrapped algo is created after mesh creation
GetCreationCmd()->AddDependantCmd( addCmd );
if ( isLocalAlgo ) {
addCmd->SetArg( addCmd->GetNbArgs() + 1,
TCollection_AsciiString( "geom=" ) + geom );
// sm = mesh.GetSubMesh(geom, name) --> sm = ALGO.GetSubMesh()
- list < Handle(_pySubMesh) >::iterator smIt;
+ list < Handle(_pySubMesh) >::iterator smIt;
for ( smIt = mySubmeshes.begin(); smIt != mySubmeshes.end(); ++smIt ) {
- Handle(_pySubMesh) subMesh = *smIt;
+ Handle(_pySubMesh) subMesh = *smIt;
Handle(_pyCommand) subCmd = subMesh->GetCreationCmd();
if ( geom == subCmd->GetArg( 1 )) {
subCmd->SetObject( algo->GetID() );
subCmd->RemoveArgs();
- subMesh->SetCreator( algo );
+ subMesh->SetCreator( algo );
}
}
}
}
}
- // sm = mesh.GetSubMesh(geom, name) --> sm = mesh.GetMesh().GetSubMesh(geom, name)
-// for ( cmd = mySubmeshes.begin(); cmd != mySubmeshes.end(); ++cmd ) {
-// Handle(_pyCommand) subCmd = *cmd;
-// if ( subCmd->GetNbArgs() > 0 )
-// AddMeshAccess( subCmd );
-// }
myAddHypCmds.clear();
mySubmeshes.clear();
// flush hypotheses
list< Handle(_pyHypothesis) >::iterator hyp = myHypos.begin();
- for ( ; hyp != myHypos.end(); ++hyp )
+ for ( hyp = myHypos.begin(); hyp != myHypos.end(); ++hyp )
(*hyp)->Flush();
}
//================================================================================
/*!
- * \brief MeshEditor convert its commands to ones of mesh
+ * \brief Sets myIsPublished of me and of all objects depending on me.
*/
//================================================================================
-_pyMeshEditor::_pyMeshEditor(const Handle(_pyCommand)& theCreationCmd):
- _pyObject( theCreationCmd )
+void _pyMesh::SetRemovedFromStudy(const bool isRemoved)
{
- myMesh = theCreationCmd->GetObject();
- myCreationCmdStr = theCreationCmd->GetString();
- theCreationCmd->Clear();
+ _pyObject::SetRemovedFromStudy(isRemoved);
+
+ list< Handle(_pySubMesh) >::iterator sm = mySubmeshes.begin();
+ for ( ; sm != mySubmeshes.end(); ++sm )
+ (*sm)->SetRemovedFromStudy(isRemoved);
+
+ list< Handle(_pyGroup) >::iterator gr = myGroups.begin();
+ for ( ; gr != myGroups.end(); ++gr )
+ (*gr)->SetRemovedFromStudy(isRemoved);
+
+ list< Handle(_pyMesh) >::iterator m = myChildMeshes.begin();
+ for ( ; m != myChildMeshes.end(); ++m )
+ (*m)->SetRemovedFromStudy(isRemoved);
+
+ list< Handle(_pyMeshEditor)>::iterator e = myEditors.begin();
+ for ( ; e != myEditors.end(); ++e )
+ (*e)->SetRemovedFromStudy(isRemoved);
}
//================================================================================
/*!
- * \brief convert its commands to ones of mesh
+ * \brief Return true if none of myChildMeshes is in study
*/
//================================================================================
-void _pyMeshEditor::Process( const Handle(_pyCommand)& theCommand)
+bool _pyMesh::CanClear()
{
- // names of SMESH_MeshEditor methods fully equal to methods of class Mesh, so
- // commands calling this methods are converted to calls of methods of Mesh
- static TStringSet sameMethods;
- if ( sameMethods.empty() ) {
- const char * names[] = {
- "RemoveElements","RemoveNodes","AddNode","AddEdge","AddFace","AddPolygonalFace",
- "AddVolume","AddPolyhedralVolume","AddPolyhedralVolumeByFaces","MoveNode", "MoveClosestNodeToPoint",
- "InverseDiag","DeleteDiag","Reorient","ReorientObject","TriToQuad","SplitQuad","SplitQuadObject",
- "BestSplit","Smooth","SmoothObject","SmoothParametric","SmoothParametricObject",
- "ConvertToQuadratic","ConvertFromQuadratic","RenumberNodes","RenumberElements",
- "RotationSweep","RotationSweepObject","RotationSweepObject1D","RotationSweepObject2D",
- "ExtrusionSweep","AdvancedExtrusion","ExtrusionSweepObject","ExtrusionSweepObject1D","ExtrusionSweepObject2D",
- "ExtrusionAlongPath","ExtrusionAlongPathObject","ExtrusionAlongPathObject1D","ExtrusionAlongPathObject2D",
+ if ( IsInStudy() )
+ return false;
+
+ list< Handle(_pyMesh) >::iterator m = myChildMeshes.begin();
+ for ( ; m != myChildMeshes.end(); ++m )
+ if ( !(*m)->CanClear() )
+ return false;
+
+ return true;
+}
+
+//================================================================================
+/*!
+ * \brief Clear my commands and commands of mesh editor
+ */
+//================================================================================
+
+void _pyMesh::ClearCommands()
+{
+ if ( !CanClear() )
+ {
+ if ( !IsInStudy() )
+ {
+ // mark all sub-objects as not removed, except child meshes
+ list< Handle(_pyMesh) > children;
+ children.swap( myChildMeshes );
+ SetRemovedFromStudy( false );
+ children.swap( myChildMeshes );
+ }
+ return;
+ }
+ _pyObject::ClearCommands();
+
+ list< Handle(_pySubMesh) >::iterator sm = mySubmeshes.begin();
+ for ( ; sm != mySubmeshes.end(); ++sm )
+ (*sm)->ClearCommands();
+
+ list< Handle(_pyGroup) >::iterator gr = myGroups.begin();
+ for ( ; gr != myGroups.end(); ++gr )
+ (*gr)->ClearCommands();
+
+ list< Handle(_pyMeshEditor)>::iterator e = myEditors.begin();
+ for ( ; e != myEditors.end(); ++e )
+ (*e)->ClearCommands();
+}
+
+//================================================================================
+/*!
+ * \brief Add a father mesh by ID
+ */
+//================================================================================
+
+void _pyMesh::addFatherMesh( const _pyID& meshID )
+{
+ if ( !meshID.IsEmpty() )
+ addFatherMesh( Handle(_pyMesh)::DownCast( theGen->FindObject( meshID )));
+}
+
+//================================================================================
+/*!
+ * \brief Add a father mesh
+ */
+//================================================================================
+
+void _pyMesh::addFatherMesh( const Handle(_pyMesh)& mesh )
+{
+ if ( !mesh.IsNull() )
+ {
+ //myFatherMeshes.push_back( mesh );
+ mesh->myChildMeshes.push_back( this );
+
+ // protect last Compute() from clearing by the next Compute()
+ mesh->myLastComputeCmd.Nullify();
+ }
+}
+
+//================================================================================
+/*!
+ * \brief MeshEditor convert its commands to ones of mesh
+ */
+//================================================================================
+
+_pyMeshEditor::_pyMeshEditor(const Handle(_pyCommand)& theCreationCmd):
+ _pyObject( theCreationCmd )
+{
+ myMesh = theCreationCmd->GetObject();
+ myCreationCmdStr = theCreationCmd->GetString();
+ theCreationCmd->Clear();
+
+ Handle(_pyMesh) mesh = ObjectToMesh( theGen->FindObject( myMesh ));
+ if ( !mesh.IsNull() )
+ mesh->AddEditor( this );
+}
+
+//================================================================================
+/*!
+ * \brief convert its commands to ones of mesh
+ */
+//================================================================================
+
+void _pyMeshEditor::Process( const Handle(_pyCommand)& theCommand)
+{
+ // names of SMESH_MeshEditor methods fully equal to methods of python class Mesh, so
+ // commands calling this methods are converted to calls of methods of Mesh
+ static TStringSet sameMethods;
+ if ( sameMethods.empty() ) {
+ const char * names[] = {
+ "RemoveElements","RemoveNodes","RemoveOrphanNodes","AddNode","Add0DElement","AddEdge","AddFace","AddPolygonalFace",
+ "AddVolume","AddPolyhedralVolume","AddPolyhedralVolumeByFaces","MoveNode", "MoveClosestNodeToPoint",
+ "InverseDiag","DeleteDiag","Reorient","ReorientObject","TriToQuad","SplitQuad","SplitQuadObject",
+ "BestSplit","Smooth","SmoothObject","SmoothParametric","SmoothParametricObject",
+ "ConvertToQuadratic","ConvertFromQuadratic","RenumberNodes","RenumberElements",
+ "RotationSweep","RotationSweepObject","RotationSweepObject1D","RotationSweepObject2D",
+ "ExtrusionSweep","AdvancedExtrusion","ExtrusionSweepObject","ExtrusionSweepObject1D","ExtrusionSweepObject2D",
+ "ExtrusionAlongPath","ExtrusionAlongPathObject","ExtrusionAlongPathX",
+ "ExtrusionAlongPathObject1D","ExtrusionAlongPathObject2D",
"Mirror","MirrorObject","Translate","TranslateObject","Rotate","RotateObject",
- "FindCoincidentNodes","FindCoincidentNodesOnPart","MergeNodes","FindEqualElements",
+ "FindCoincidentNodes",/*"FindCoincidentNodesOnPart",*/"MergeNodes","FindEqualElements",
"MergeElements","MergeEqualElements","SewFreeBorders","SewConformFreeBorders",
"SewBorderToSide","SewSideElements","ChangeElemNodes","GetLastCreatedNodes",
"GetLastCreatedElems",
"MirrorMakeMesh","MirrorObjectMakeMesh","TranslateMakeMesh",
- "TranslateObjectMakeMesh","RotateMakeMesh","RotateObjectMakeMesh"
+ "TranslateObjectMakeMesh","RotateMakeMesh","RotateObjectMakeMesh","MakeBoundaryMesh",
+ "MakeBoundaryElements"
,"" }; // <- mark of the end
sameMethods.Insert( names );
}
// names of SMESH_MeshEditor methods which differ from methods of class Mesh
- // only last two arguments
+ // only by last two arguments
static TStringSet diffLastTwoArgsMethods;
- if (diffLastTwoArgsMethods.empty() ){
+ if (diffLastTwoArgsMethods.empty() ) {
const char * names[] = {
"MirrorMakeGroups","MirrorObjectMakeGroups",
"TranslateMakeGroups","TranslateObjectMakeGroups",
diffLastTwoArgsMethods.Insert( names );
}
- if ( sameMethods.Contains( theCommand->GetMethod() )) {
- theCommand->SetObject( myMesh );
-
- // meshes made by *MakeMesh() methods are not wrapped by _pyMesh,
- // so let _pyMesh care of it (TMP?)
-// if ( theCommand->GetMethod().Search("MakeMesh") != -1 )
-// _pyMesh( new _pyCommand( theCommand->GetString(), 0 )); // for theGen->SetAccessorMethod()
- }
- else {
-
- //Replace SMESH_MeshEditor "MakeGroups" functions on the Mesh
+ const TCollection_AsciiString & method = theCommand->GetMethod();
+ bool isPyMeshMethod = sameMethods.Contains( method );
+ if ( !isPyMeshMethod )
+ {
+ //Replace SMESH_MeshEditor "MakeGroups" functions by the Mesh
//functions with the flag "theMakeGroups = True" like:
//SMESH_MeshEditor.CmdMakeGroups => Mesh.Cmd(...,True)
- int pos = theCommand->GetMethod().Search("MakeGroups");
- if( pos != -1) {
+ int pos = method.Search("MakeGroups");
+ if( pos != -1)
+ {
+ isPyMeshMethod = true;
+
// 1. Remove "MakeGroups" from the Command
TCollection_AsciiString aMethod = theCommand->GetMethod();
int nbArgsToAdd = diffLastTwoArgsMethods.Contains(aMethod) ? 2 : 1;
aMethod.Trunc(pos-1);
theCommand->SetMethod(aMethod);
- // 2. Set Mesh object instead of SMESH_MeshEditor
- theCommand->SetObject( myMesh );
-
- // 3. And add last "True" argument
+ // 2. And add last "True" argument(s)
while(nbArgsToAdd--)
- theCommand->SetArg(theCommand->GetNbArgs()+1,"True ");
+ theCommand->SetArg(theCommand->GetNbArgs()+1,"True");
}
- else {
- // editor creation command is needed only if any editor function is called
- theGen->AddMeshAccessorMethod( theCommand ); // for *Object()
- if ( !myCreationCmdStr.IsEmpty() ) {
- GetCreationCmd()->GetString() = myCreationCmdStr;
- myCreationCmdStr.Clear();
- }
+ }
+
+ // set "ExtrusionAlongPathX()" instead of "ExtrusionAlongPathObjX()"
+ if ( !isPyMeshMethod && method == "ExtrusionAlongPathObjX")
+ {
+ isPyMeshMethod=true;
+ theCommand->SetMethod("ExtrusionAlongPathX");
+ }
+
+ // set "FindCoincidentNodesOnPart()" instead of "FindCoincidentNodesOnPartBut()"
+ if ( !isPyMeshMethod && method == "FindCoincidentNodesOnPartBut")
+ {
+ isPyMeshMethod=true;
+ theCommand->SetMethod("FindCoincidentNodesOnPart");
+ }
+ // DoubleNodeElemGroupNew() -> DoubleNodeElemGroup()
+ // DoubleNodeGroupNew() -> DoubleNodeGroup()
+ // DoubleNodeGroupsNew() -> DoubleNodeGroups()
+ // DoubleNodeElemGroupsNew() -> DoubleNodeElemGroups()
+ if ( !isPyMeshMethod && ( method == "DoubleNodeElemGroupNew" ||
+ method == "DoubleNodeElemGroupsNew" ||
+ method == "DoubleNodeGroupNew" ||
+ method == "DoubleNodeGroupsNew"))
+ {
+ isPyMeshMethod=true;
+ theCommand->SetMethod( method.SubString( 1, method.Length()-3));
+ theCommand->SetArg(theCommand->GetNbArgs()+1,"True");
+ }
+ // ConvertToQuadraticObject(bool,obj) -> ConvertToQuadratic(bool,obj)
+ // ConvertFromQuadraticObject(obj) -> ConvertFromQuadratic(obj)
+ if ( !isPyMeshMethod && ( method == "ConvertToQuadraticObject" ||
+ method == "ConvertFromQuadraticObject" ))
+ {
+ isPyMeshMethod=true;
+ theCommand->SetMethod( method.SubString( 1, method.Length()-6));
+ // prevent moving creation of the converted sub-mesh to the end of the script
+ bool isFromQua = ( method.Value( 8 ) == 'F' );
+ Handle(_pySubMesh) sm = theGen->FindSubMesh( theCommand->GetArg( isFromQua ? 1 : 2 ));
+ if ( !sm.IsNull() )
+ sm->Process( theCommand );
+ }
+ // FindAmongElementsByPoint(meshPart, x, y, z, elementType) ->
+ // FindElementsByPoint(x, y, z, elementType, meshPart)
+ if ( !isPyMeshMethod && method == "FindAmongElementsByPoint" )
+ {
+ isPyMeshMethod=true;
+ theCommand->SetMethod( "FindElementsByPoint" );
+ // make the 1st arg be the last one
+ _pyID partID = theCommand->GetArg( 1 );
+ int nbArgs = theCommand->GetNbArgs();
+ for ( int i = 2; i <= nbArgs; ++i )
+ theCommand->SetArg( i-1, theCommand->GetArg( i ));
+ theCommand->SetArg( nbArgs, partID );
+ }
+
+ // meshes made by *MakeMesh() methods are not wrapped by _pyMesh,
+ // so let _pyMesh care of it (TMP?)
+ // if ( theCommand->GetMethod().Search("MakeMesh") != -1 )
+ // _pyMesh( new _pyCommand( theCommand->GetString(), 0 )); // for theGen->SetAccessorMethod()
+ if ( isPyMeshMethod )
+ {
+ theCommand->SetObject( myMesh );
+ }
+ else
+ {
+ // editor creation command is needed only if any editor function is called
+ theGen->AddMeshAccessorMethod( theCommand ); // for *Object()
+ if ( !myCreationCmdStr.IsEmpty() ) {
+ GetCreationCmd()->GetString() = myCreationCmdStr;
+ myCreationCmdStr.Clear();
}
}
}
+//================================================================================
+/*!
+ * \brief Return true if my mesh can be removed
+ */
+//================================================================================
+
+bool _pyMeshEditor::CanClear()
+{
+ Handle(_pyMesh) mesh = ObjectToMesh( theGen->FindObject( myMesh ));
+ return mesh.IsNull() ? true : mesh->CanClear();
+}
+
//================================================================================
/*!
* \brief _pyHypothesis constructor
- * \param theCreationCmd -
+ * \param theCreationCmd -
*/
//================================================================================
hyp->AddArgMethod( "SetNumberOfSegments" );
// arg of SetScaleFactor() will become the 2-nd arg of hyp creation command
hyp->AddArgMethod( "SetScaleFactor" );
+ hyp->AddArgMethod( "SetReversedEdges" );
}
else if ( hypType == "Arithmetic1D" ) {
hyp = new _pyComplexParamHypo( theCreationCmd );
hyp->SetConvMethodAndType( "Arithmetic1D", "Regular_1D");
+ hyp->AddArgMethod( "SetStartLength" );
+ hyp->AddArgMethod( "SetEndLength" );
+ hyp->AddArgMethod( "SetReversedEdges" );
}
else if ( hypType == "StartEndLength" ) {
hyp = new _pyComplexParamHypo( theCreationCmd );
hyp->SetConvMethodAndType( "StartEndLength", "Regular_1D");
+ hyp->AddArgMethod( "SetStartLength" );
+ hyp->AddArgMethod( "SetEndLength" );
+ hyp->AddArgMethod( "SetReversedEdges" );
}
else if ( hypType == "Deflection1D" ) {
hyp->SetConvMethodAndType( "Deflection1D", "Regular_1D");
}
else if ( hypType == "QuadranglePreference" ) {
hyp->SetConvMethodAndType( "QuadranglePreference", "Quadrangle_2D");
- hyp->SetConvMethodAndType( "QuadranglePreference", "NETGEN_2D_ONLY");
+ hyp->SetConvMethodAndType( "SetQuadAllowed", "NETGEN_2D_ONLY");
}
else if ( hypType == "TrianglePreference" ) {
hyp->SetConvMethodAndType( "TrianglePreference", "Quadrangle_2D");
- }
+ }
+ // RadialQuadrangle_1D2D ----------
+ else if ( hypType == "RadialQuadrangle_1D2D" ) {
+ algo->SetConvMethodAndType( "Quadrangle" , hypType.ToCString());
+ algo->myArgs.Append( "algo=smesh.RADIAL_QUAD" );
+ }
+ else if ( hypType == "NumberOfLayers2D" ) {
+ hyp->SetConvMethodAndType( "NumberOfLayers", "RadialQuadrangle_1D2D");
+ hyp->AddArgMethod( "SetNumberOfLayers" );
+ }
+ else if ( hypType == "LayerDistribution2D" ) {
+ hyp = new _pyLayerDistributionHypo( theCreationCmd, "Get2DHypothesis" );
+ hyp->SetConvMethodAndType( "LayerDistribution", "RadialQuadrangle_1D2D");
+ }
+ // BLSURF ----------
+ else if ( hypType == "BLSURF" ) {
+ algo->SetConvMethodAndType( "Triangle", hypType.ToCString());
+ algo->myArgs.Append( "algo=smesh.BLSURF" );
+ }
+ else if ( hypType == "BLSURF_Parameters") {
+ hyp->SetConvMethodAndType( "Parameters", "BLSURF");
+ }
// NETGEN ----------
-// else if ( hypType == "NETGEN_2D") { // 1D-2D
-// algo->SetConvMethodAndType( "Triangle" , hypType.ToCString());
-// algo->myArgs.Append( "algo=smesh.NETGEN" );
-// }
+ else if ( hypType == "NETGEN_2D") { // 1D-2D
+ algo->SetConvMethodAndType( "Triangle" , hypType.ToCString());
+ algo->myArgs.Append( "algo=smesh.NETGEN" );
+ }
+ else if ( hypType == "NETGEN_Parameters_2D") {
+ hyp->SetConvMethodAndType( "Parameters", "NETGEN_2D");
+ }
+ else if ( hypType == "NETGEN_SimpleParameters_2D") {
+ hyp->SetConvMethodAndType( "Parameters", "NETGEN_2D");
+ hyp->myArgs.Append( "which=smesh.SIMPLE" );
+ }
+ else if ( hypType == "NETGEN_2D3D") { // 1D-2D-3D
+ algo->SetConvMethodAndType( "Tetrahedron" , hypType.ToCString());
+ algo->myArgs.Append( "algo=smesh.FULL_NETGEN" );
+ }
+ else if ( hypType == "NETGEN_Parameters") {
+ hyp->SetConvMethodAndType( "Parameters", "NETGEN_2D3D");
+ }
+ else if ( hypType == "NETGEN_SimpleParameters_3D") {
+ hyp->SetConvMethodAndType( "Parameters", "NETGEN_2D3D");
+ hyp->myArgs.Append( "which=smesh.SIMPLE" );
+ }
else if ( hypType == "NETGEN_2D_ONLY") { // 2D
algo->SetConvMethodAndType( "Triangle" , hypType.ToCString());
algo->myArgs.Append( "algo=smesh.NETGEN_2D" );
algo->SetConvMethodAndType( "Tetrahedron", hypType.ToCString());
algo->myArgs.Append( "algo=smesh.GHS3D" );
}
+ else if ( hypType == "GHS3D_Parameters") {
+ hyp->SetConvMethodAndType( "Parameters", "GHS3D_3D");
+ }
// Hexa_3D ---------
else if ( hypType == "Hexa_3D" ) {
algo->SetConvMethodAndType( "Hexahedron", hypType.ToCString());
else if ( hypType == "Projection_2D" ) {
algo->SetConvMethodAndType( "Projection2D", hypType.ToCString());
}
+ else if ( hypType == "Projection_1D2D" ) {
+ algo->SetConvMethodAndType( "Projection1D2D", hypType.ToCString());
+ }
else if ( hypType == "ProjectionSource2D" ) {
hyp->SetConvMethodAndType( "SourceFace", "Projection_2D");
+ hyp->SetConvMethodAndType( "SourceFace", "Projection_1D2D");
hyp->AddArgMethod( "SetSourceFace");
hyp->AddArgMethod( "SetSourceMesh");
hyp->AddArgMethod( "SetVertexAssociation", 4 );
hyp->AddArgMethod( "SetNumberOfLayers" );
}
else if ( hypType == "LayerDistribution" ) {
- hyp = new _pyLayerDistributionHypo( theCreationCmd );
+ hyp = new _pyLayerDistributionHypo( theCreationCmd, "Get3DHypothesis" );
hyp->SetConvMethodAndType( "LayerDistribution", "RadialPrism_3D");
}
+ // Cartesian 3D ---------
+ else if ( hypType == "Cartesian_3D" ) {
+ algo->SetConvMethodAndType( "BodyFitted", hypType.ToCString());
+ }
+ else if ( hypType == "CartesianParameters3D" ) {
+ hyp = new _pyComplexParamHypo( theCreationCmd );
+ hyp->SetConvMethodAndType( "SetGrid", "Cartesian_3D");
+ for ( int iArg = 0; iArg < 4; ++iArg )
+ hyp->myArgs.Append("[]");
+ }
+
+ return algo->IsValid() ? algo : hyp;
+}
+
+//================================================================================
+/*!
+ * \brief Returns true if addition of this hypothesis to a given mesh can be
+ * wrapped into hypothesis creation
+ */
+//================================================================================
- if ( algo->IsValid() ) {
- return algo;
+bool _pyHypothesis::IsWrappable(const _pyID& theMesh) const
+{
+ if ( !myIsWrapped && myMesh == theMesh && IsInStudy() )
+ {
+ Handle(_pyObject) pyMesh = theGen->FindObject( myMesh );
+ if ( !pyMesh.IsNull() && pyMesh->IsInStudy() )
+ return true;
}
- return hyp;
+ return false;
}
//================================================================================
// replace creation command by wrapped instance
// please note, that hypothesis attaches to algo creation command (see upper)
SetCreationCmd( theCmd );
-
+
// clear commands setting arg values
list < Handle(_pyCommand) >::iterator argCmd = myArgCommands.begin();
void _pyHypothesis::Process( const Handle(_pyCommand)& theCommand)
{
ASSERT( !myIsAlgo );
+ rememberCmdOfParameter( theCommand );
// set args
int nbArgs = 0;
for ( int i = 1; i <= myArgMethods.Length(); ++i ) {
//================================================================================
void _pyHypothesis::Assign( const Handle(_pyHypothesis)& theOther,
- const _pyID& theMesh )
+ const _pyID& theMesh )
{
myIsWrapped = false;
myMesh = theMesh;
myUnknownCommands = theOther->myUnknownCommands;
}
+//================================================================================
+/*!
+ * \brief Analyze my erasability depending on myReferredObjs
+ */
+//================================================================================
+
+bool _pyHypothesis::CanClear()
+{
+ if ( IsInStudy() )
+ {
+ list< Handle(_pyObject) >::iterator obj = myReferredObjs.begin();
+ for ( ; obj != myReferredObjs.end(); ++obj )
+ if ( (*obj)->CanClear() )
+ return true;
+ return false;
+ }
+ return true;
+}
+
+//================================================================================
+/*!
+ * \brief Clear my commands depending on usage by meshes
+ */
+//================================================================================
+
+void _pyHypothesis::ClearCommands()
+{
+ if ( !theGen->IsToKeepAllCommands() )
+ {
+ bool isUsed = false;
+ int lastComputeOrder = 0;
+ list<Handle(_pyCommand) >::iterator cmd = myComputeCmds.begin();
+ for ( ; cmd != myComputeCmds.end(); ++cmd )
+ if ( ! (*cmd)->IsEmpty() )
+ {
+ isUsed = true;
+ if ( (*cmd)->GetOrderNb() > lastComputeOrder )
+ lastComputeOrder = (*cmd)->GetOrderNb();
+ }
+ if ( !isUsed )
+ {
+ SetRemovedFromStudy( true );
+ }
+ else
+ {
+ // clear my commands invoked after lastComputeOrder
+ map<TCollection_AsciiString, list< Handle(_pyCommand) > >::iterator m2c;
+ for ( m2c = myMeth2Commands.begin(); m2c != myMeth2Commands.end(); ++m2c )
+ {
+ list< Handle(_pyCommand)> & cmds = m2c->second;
+ if ( !cmds.empty() && cmds.back()->GetOrderNb() > lastComputeOrder )
+ cmds.back()->Clear();
+ }
+ }
+ }
+ _pyObject::ClearCommands();
+}
+
+//================================================================================
+/*!
+ * \brief Find arguments that are objects like mesh, group, geometry
+ * \param meshes - referred meshes (directly or indirrectly)
+ * \retval bool - false if a referred geometry is not in the study
+ */
+//================================================================================
+
+bool _pyHypothesis::GetReferredMeshesAndGeom( list< Handle(_pyMesh) >& meshes )
+{
+ if ( IsAlgo() ) return true;
+
+ bool geomPublished = true;
+ TColStd_SequenceOfAsciiString args; args = myArgs;
+
+ list<Handle(_pyCommand)>::iterator cmd = myUnknownCommands.begin();
+ for ( ; cmd != myUnknownCommands.end(); ++cmd ) {
+ for ( int nb = (*cmd)->GetNbArgs(); nb; --nb )
+ args.Append( (*cmd)->GetArg( nb ));
+ }
+
+ for ( int i = 1; i <= args.Length(); ++i )
+ {
+ list< _pyID > idList = _pyCommand::GetStudyEntries( args( i ));
+ list< _pyID >::iterator id = idList.begin();
+ for ( ; id != idList.end(); ++id )
+ {
+ Handle(_pyObject) obj = theGen->FindObject( *id );
+ if ( obj.IsNull() )
+ {
+ if ( theGen->IsGeomObject( *id ) && theGen->IsNotPublished( *id ))
+ geomPublished = false;
+ }
+ else
+ {
+ myReferredObjs.push_back( obj );
+ Handle(_pyMesh) mesh = ObjectToMesh( obj );
+ if ( !mesh.IsNull() )
+ meshes.push_back( mesh );
+ }
+ }
+ }
+ return geomPublished;
+}
+
+//================================================================================
+/*!
+ * \brief Remember theCommand setting a parameter
+ */
+//================================================================================
+
+void _pyHypothesis::rememberCmdOfParameter( const Handle(_pyCommand) & theCommand )
+{
+ // not to clear commands setting different parameters via one method
+ // by passing parameter names like e.g. SetOption("size", "0.2")
+ int quotePos = theCommand->GetString().FirstLocationInSet( "'\"", 1, theCommand->Length() );
+ if ( !quotePos )
+ {
+ // parameters are discriminated by method name
+ list< Handle(_pyCommand)>& cmds = myMeth2Commands[ theCommand->GetMethod() ];
+ if ( !cmds.empty() && !isCmdUsedForCompute( cmds.back() ))
+ {
+ cmds.back()->Clear(); // previous parameter value has not been used
+ cmds.back() = theCommand;
+ }
+ else
+ {
+ cmds.push_back( theCommand );
+ }
+ }
+}
+
+//================================================================================
+/*!
+ * \brief Return true if a setting parameter command ha been used to compute mesh
+ */
+//================================================================================
+
+bool _pyHypothesis::isCmdUsedForCompute( const Handle(_pyCommand) & cmd,
+ _pyCommand::TAddr avoidComputeAddr ) const
+{
+ bool isUsed = false;
+ map< _pyCommand::TAddr, list<Handle(_pyCommand) > >::const_iterator addr2cmds =
+ myComputeAddr2Cmds.begin();
+ for ( ; addr2cmds != myComputeAddr2Cmds.end() && !isUsed; ++addr2cmds )
+ {
+ if ( addr2cmds->first == avoidComputeAddr ) continue;
+ const list<Handle(_pyCommand)> & cmds = addr2cmds->second;
+ isUsed = ( std::find( cmds.begin(), cmds.end(), cmd ) != cmds.end() );
+ }
+ return isUsed;
+}
+
+//================================================================================
+/*!
+ * \brief Save commands setting parameters as they are used for a mesh computation
+ */
+//================================================================================
+
+void _pyHypothesis::MeshComputed( const Handle(_pyCommand)& theComputeCmd )
+{
+ myComputeCmds.push_back( theComputeCmd );
+ list<Handle(_pyCommand)>& savedCmds = myComputeAddr2Cmds[ theComputeCmd->GetAddress() ];
+
+ map<TCollection_AsciiString, list< Handle(_pyCommand) > >::iterator m2c;
+ for ( m2c = myMeth2Commands.begin(); m2c != myMeth2Commands.end(); ++m2c )
+ savedCmds.push_back( m2c->second.back() );
+}
+
+//================================================================================
+/*!
+ * \brief Clear commands setting parameters as a mesh computed using them is cleared
+ */
+//================================================================================
+
+void _pyHypothesis::ComputeDiscarded( const Handle(_pyCommand)& theComputeCmd )
+{
+ list<Handle(_pyCommand)>& savedCmds = myComputeAddr2Cmds[ theComputeCmd->GetAddress() ];
+
+ list<Handle(_pyCommand)>::iterator cmd = savedCmds.begin();
+ for ( ; cmd != savedCmds.end(); ++cmd )
+ {
+ // check if a cmd has been used to compute another mesh
+ if ( isCmdUsedForCompute( *cmd, theComputeCmd->GetAddress() ))
+ continue;
+ // check if a cmd is a sole command setting its parameter;
+ // don't use method name for search as it can change
+ map<TCollection_AsciiString, list<Handle(_pyCommand)> >::iterator
+ m2cmds = myMeth2Commands.begin();
+ for ( ; m2cmds != myMeth2Commands.end(); ++m2cmds )
+ {
+ list< Handle(_pyCommand)>& cmds = m2cmds->second;
+ list< Handle(_pyCommand)>::iterator cmdIt = std::find( cmds.begin(), cmds.end(), *cmd );
+ if ( cmdIt != cmds.end() )
+ {
+ if ( cmds.back() != *cmd )
+ {
+ cmds.erase( cmdIt );
+ (*cmd)->Clear();
+ }
+ break;
+ }
+ }
+ }
+ myComputeAddr2Cmds.erase( theComputeCmd->GetAddress() );
+}
+// void _pyHypothesis::ComputeSaved( const Handle(_pyCommand)& theComputeCommand )
+// {
+// }
+
+
//================================================================================
/*!
* \brief Remember hypothesis parameter values
- * \param theCommand - The called hypothesis method
+ * \param theCommand - The called hypothesis method
*/
//================================================================================
void _pyComplexParamHypo::Process( const Handle(_pyCommand)& theCommand)
{
- // ex: hyp.SetLength(start, 1)
- // hyp.SetLength(end, 0)
- ASSERT(( theCommand->GetMethod() == "SetLength" ));
- ASSERT(( theCommand->GetArg( 2 ).IsIntegerValue() ));
- int i = 2 - theCommand->GetArg( 2 ).IntegerValue();
- while ( myArgs.Length() < i )
- myArgs.Append( "[]" );
- myArgs( i ) = theCommand->GetArg( 1 ); // arg value
- myArgCommands.push_back( theCommand );
+ if ( GetAlgoType() == "Cartesian_3D" )
+ {
+ // CartesianParameters3D hyp
+
+ if ( theCommand->GetMethod() == "SetSizeThreshold" )
+ {
+ myArgs( 4 ) = theCommand->GetArg( 1 );
+ myArgCommands.push_back( theCommand );
+ return;
+ }
+ if ( theCommand->GetMethod() == "SetGrid" ||
+ theCommand->GetMethod() == "SetGridSpacing" )
+ {
+ TCollection_AsciiString axis = theCommand->GetArg( theCommand->GetNbArgs() );
+ int iArg = 1 + ( axis.Value(1) - '0' );
+ if ( theCommand->GetMethod() == "SetGrid" )
+ {
+ myArgs( iArg ) = theCommand->GetArg( 1 );
+ }
+ else
+ {
+ myArgs( iArg ) = "[ ";
+ myArgs( iArg ) += theCommand->GetArg( 1 );
+ myArgs( iArg ) += ", ";
+ myArgs( iArg ) += theCommand->GetArg( 2 );
+ myArgs( iArg ) += "]";
+ }
+ myArgCommands.push_back( theCommand );
+ rememberCmdOfParameter( theCommand );
+ return;
+ }
+ }
+
+ if( theCommand->GetMethod() == "SetLength" )
+ {
+ // NOW it is OBSOLETE
+ // ex: hyp.SetLength(start, 1)
+ // hyp.SetLength(end, 0)
+ ASSERT(( theCommand->GetArg( 2 ).IsIntegerValue() ));
+ int i = 2 - theCommand->GetArg( 2 ).IntegerValue();
+ while ( myArgs.Length() < i )
+ myArgs.Append( "[]" );
+ myArgs( i ) = theCommand->GetArg( 1 ); // arg value
+ myArgCommands.push_back( theCommand );
+ }
+ else
+ {
+ _pyHypothesis::Process( theCommand );
+ }
+}
+//================================================================================
+/*!
+ * \brief Clear SetObjectEntry() as it is called by methods of Mesh_Segment
+ */
+//================================================================================
+
+void _pyComplexParamHypo::Flush()
+{
+ if ( IsWrapped() )
+ {
+ list < Handle(_pyCommand) >::iterator cmd = myUnknownCommands.begin();
+ for ( ; cmd != myUnknownCommands.end(); ++cmd )
+ if ((*cmd)->GetMethod() == "SetObjectEntry" )
+ (*cmd)->Clear();
+ }
}
//================================================================================
my1dHyp->ClearAllCommands();
}
my1dHyp = hyp1d;
- if ( my1dHyp.IsNull() )
- return; // something wrong :(
-
- // make a new name for 1D hyp = "HypType" + "_Distribution"
- if ( my1dHyp->GetCreationCmd()->GetMethod() == "CreateHypothesis" ) {
- // not yet converted creation cmd
- TCollection_AsciiString hypTypeQuoted = my1dHyp->GetCreationCmd()->GetArg(1);
- TCollection_AsciiString hypType = hypTypeQuoted.SubString( 2, hypTypeQuoted.Length() - 1 );
- newName = hypType + "_Distribution";
- my1dHyp->GetCreationCmd()->SetResultValue( newName );
- }
- else {
- // already converted creation cmd
- newName = my1dHyp->GetCreationCmd()->GetResultValue();
- }
- // as creation of 1D hyp was written later then it's edition,
- // we need to find all it's edition calls and process them
- list< Handle(_pyCommand) >& cmds = theGen->GetCommands();
- list< Handle(_pyCommand) >::iterator cmdIt = cmds.begin();
- for ( ; cmdIt != cmds.end(); ++cmdIt ) {
- const _pyID& objID = (*cmdIt)->GetObject();
- if ( objID == hyp1dID ) {
- my1dHyp->Process( *cmdIt );
- my1dHyp->GetCreationCmd()->AddDependantCmd( *cmdIt );
- ( *cmdIt )->SetObject( newName );
- }
- }
if ( !myArgCommands.empty() )
myArgCommands.front()->Clear();
- theCommand->SetArg( 1, newName );
myArgCommands.push_back( theCommand );
- // copy hyp1d's creation method and args
-// myCreationMethod = hyp1d->GetCreationMethod();
-// myArgs = hyp1d->GetArgs();
-// // make them cleared at conversion
-// myArgCommands = hyp1d->GetArgCommands();
-
-// // to be cleared at convertion only
-// myArgCommands.push_back( theCommand );
}
//================================================================================
/*!
- * \brief
+ * \brief
* \param theAdditionCmd - command to be converted
* \param theMesh - mesh instance
* \retval bool - status
_pyID geom = theAdditionCmd->GetArg( 1 );
- my1dHyp->SetMesh( theMesh );
- if ( !my1dHyp->Addition2Creation( theAdditionCmd, theMesh ))
- return false;
+ Handle(_pyHypothesis) algo = theGen->FindAlgo( geom, theMesh, this );
+ if ( !algo.IsNull() )
+ {
+ my1dHyp->SetMesh( theMesh );
+ my1dHyp->SetConvMethodAndType(my1dHyp->GetAlgoCreationMethod().ToCString(),
+ algo->GetAlgoType().ToCString());
+ if ( !my1dHyp->Addition2Creation( theAdditionCmd, theMesh ))
+ return false;
- // clear "SetLayerDistribution()" cmd
- myArgCommands.front()->Clear();
+ // clear "SetLayerDistribution()" cmd
+ myArgCommands.back()->Clear();
- // Convert my creation => me = RadialPrismAlgo.Get3DHypothesis()
+ // Convert my creation => me = RadialPrismAlgo.Get3DHypothesis()
- // find RadialPrism algo created on <geom> for theMesh
- Handle(_pyHypothesis) algo = theGen->FindAlgo( geom, theMesh, this );
- if ( !algo.IsNull() ) {
+ // find RadialPrism algo created on <geom> for theMesh
GetCreationCmd()->SetObject( algo->GetID() );
- GetCreationCmd()->SetMethod( "Get3DHypothesis" );
+ GetCreationCmd()->SetMethod( myAlgoMethod );
GetCreationCmd()->RemoveArgs();
theAdditionCmd->AddDependantCmd( GetCreationCmd() );
myIsWrapped = true;
//================================================================================
/*!
- * \brief
+ * \brief
*/
//================================================================================
void _pyLayerDistributionHypo::Flush()
{
- //my1dHyp.Nullify();
- //_pyHypothesis::Flush();
+ // as creation of 1D hyp was written later then it's edition,
+ // we need to find all it's edition calls and process them
+ if ( !my1dHyp.IsNull() )
+ {
+ _pyID hyp1dID = my1dHyp->GetCreationCmd()->GetResultValue();
+
+ // make a new name for 1D hyp = "HypType" + "_Distribution"
+ _pyID newName;
+ if ( my1dHyp->IsWrapped() ) {
+ newName = my1dHyp->GetCreationCmd()->GetMethod();
+ }
+ else {
+ TCollection_AsciiString hypTypeQuoted = my1dHyp->GetCreationCmd()->GetArg(1);
+ newName = hypTypeQuoted.SubString( 2, hypTypeQuoted.Length() - 1 );
+ }
+ newName += "_Distribution";
+ my1dHyp->GetCreationCmd()->SetResultValue( newName );
+
+ list< Handle(_pyCommand) >& cmds = theGen->GetCommands();
+ list< Handle(_pyCommand) >::iterator cmdIt = cmds.begin();
+ for ( ; cmdIt != cmds.end(); ++cmdIt ) {
+ const _pyID& objID = (*cmdIt)->GetObject();
+ if ( objID == hyp1dID ) {
+ my1dHyp->Process( *cmdIt );
+ my1dHyp->GetCreationCmd()->AddDependantCmd( *cmdIt );
+ ( *cmdIt )->SetObject( newName );
+ }
+ }
+ // Set new hyp name to SetLayerDistribution() cmd
+ if ( !myArgCommands.empty() && !myArgCommands.back()->IsEmpty() )
+ myArgCommands.back()->SetArg( 1, newName );
+ }
}
//================================================================================
for ( ; !distrTypeNb && cmd != myUnknownCommands.rend(); ++cmd )
if ( (*cmd)->GetMethod() == "SetDistrType" )
distrTypeNb = (*cmd)->GetOrderNb();
+ else if (IsWrapped() && (*cmd)->GetMethod() == "SetObjectEntry" )
+ (*cmd)->Clear();
// clear commands before the last SetDistrType()
list<Handle(_pyCommand)> * cmds[2] = { &myArgCommands, &myUnknownCommands };
* \retval bool - false if the command cant be converted
*/
//================================================================================
-
+
bool _pySegmentLengthAroundVertexHyp::Addition2Creation( const Handle(_pyCommand)& theCmd,
const _pyID& theMeshID)
{
/*!
* \brief Convert the command adding an algorithm to mesh
* \param theCmd - The command like mesh.AddHypothesis( geom, algo )
- * \param theMesh - The mesh needing this algo
+ * \param theMesh - The mesh needing this algo
* \retval bool - false if the command cant be converted
*/
//================================================================================
-
+
bool _pyAlgorithm::Addition2Creation( const Handle(_pyCommand)& theCmd,
const _pyID& theMeshID)
{
{
if ( GetBegPos( RESULT_IND ) == UNKNOWN )
{
- int begPos = myString.Location( "=", 1, Length() );
- if ( begPos )
- myRes = GetWord( myString, begPos, false );
- else
- begPos = EMPTY;
- SetBegPos( RESULT_IND, begPos );
+ SetBegPos( RESULT_IND, EMPTY );
+ int begPos, endPos = myString.Location( "=", 1, Length() );
+ if ( endPos )
+ {
+ begPos = 1;
+ while ( begPos < endPos && isblank( myString.Value( begPos ))) ++begPos;
+ if ( begPos < endPos )
+ {
+ SetBegPos( RESULT_IND, begPos );
+ --endPos;
+ while ( begPos < endPos && isblank( myString.Value( endPos ))) --endPos;
+ myRes = myString.SubString( begPos, endPos );
+ }
+ }
}
return myRes;
}
int nb1 = 0; // number of ' character at the left of =
int nb2 = 0; // number of " character at the left of =
for ( int i = 1; i < begPos-1; i++ ) {
- if ( IsEqual(myString.Value( i ), "'" ) )
- nb1 += 1;
- else if ( IsEqual( myString.Value( i ), '"' ) )
- nb2 += 1;
+ if ( myString.Value( i )=='\'' )
+ nb1 += 1;
+ else if ( myString.Value( i )=='"' )
+ nb2 += 1;
}
// if number of ' or " is not divisible by 2,
// then get an object at the start of the command
if ( nb1 % 2 != 0 || nb2 % 2 != 0 )
- begPos = 1;
+ begPos = 1;
}
- // store
myObj = GetWord( myString, begPos, true );
+ // check if object is complex,
+ // so far consider case like "smesh.smesh.Method()"
+ if ( int bracketPos = myString.Location( "(", begPos, Length() )) {
+ //if ( bracketPos==0 ) bracketPos = Length();
+ int dotPos = begPos+myObj.Length();
+ while ( dotPos+1 < bracketPos ) {
+ if ( int pos = myString.Location( ".", dotPos+1, bracketPos ))
+ dotPos = pos;
+ else
+ break;
+ }
+ if ( dotPos > begPos+myObj.Length() )
+ myObj = myString.SubString( begPos, dotPos-1 );
+ }
+ // store
SetBegPos( OBJECT_IND, begPos );
}
//SCRUTE(myObj);
{
if ( GetBegPos( ARG1_IND ) == UNKNOWN )
{
- // find all args
- int begPos = GetBegPos( METHOD_IND ) + myMeth.Length();
- if ( begPos < 1 )
- begPos = myString.Location( "(", 1, Length() ) + 1;
-
- int i = 0, prevLen = 0, nbNestings = 0;
- while ( begPos != EMPTY ) {
- begPos += prevLen;
- if( myString.Value( begPos ) == '(' )
- nbNestings++;
- // check if we are looking at the closing parenthesis
- while ( begPos <= Length() && isspace( myString.Value( begPos )))
- ++begPos;
- if ( begPos > Length() )
- break;
- if ( myString.Value( begPos ) == ')' ) {
- nbNestings--;
- if( nbNestings == 0 )
- break;
+ // Find all args
+
+ int pos = GetBegPos( METHOD_IND ) + myMeth.Length();
+ if ( pos < 1 )
+ pos = myString.Location( "(", 1, Length() );
+ else
+ --pos;
+
+ // we are at or before '(', skip it if present
+ if ( pos > 0 ) {
+ while ( pos <= Length() && myString.Value( pos ) != '(' ) ++pos;
+ if ( pos > Length() )
+ pos = 0;
+ }
+ if ( pos < 1 ) {
+ SetBegPos( ARG1_IND, 0 ); // even no '('
+ return theEmptyString;
+ }
+ ++pos;
+
+ list< TCollection_AsciiString > separatorStack( 1, ",)");
+ bool ignoreNesting = false;
+ int prevPos = pos;
+ while ( pos <= Length() )
+ {
+ const char chr = myString.Value( pos );
+
+ if ( separatorStack.back().Location( chr, 1, separatorStack.back().Length()))
+ {
+ if ( separatorStack.size() == 1 ) // ',' dividing args or a terminal ')' found
+ {
+ while ( pos-1 >= prevPos && isspace( myString.Value( prevPos )))
+ ++prevPos;
+ if ( pos-1 >= prevPos ) {
+ TCollection_AsciiString arg = myString.SubString( prevPos, pos-1 );
+ arg.RightAdjust(); // remove spaces
+ arg.LeftAdjust();
+ SetBegPos( ARG1_IND + myArgs.Length(), prevPos );
+ myArgs.Append( arg );
+ }
+ if ( chr == ')' )
+ break;
+ prevPos = pos+1;
+ }
+ else // end of nesting args found
+ {
+ separatorStack.pop_back();
+ ignoreNesting = false;
+ }
}
- myArgs.Append( GetWord( myString, begPos, true, true ));
- SetBegPos( ARG1_IND + i, begPos );
- prevLen = myArgs.Last().Length();
- if ( prevLen == 0 )
- myArgs.Remove( myArgs.Length() ); // no more args
- i++;
+ else if ( !ignoreNesting )
+ {
+ switch ( chr ) {
+ case '(' : separatorStack.push_back(")"); break;
+ case '[' : separatorStack.push_back("]"); break;
+ case '\'': separatorStack.push_back("'"); ignoreNesting=true; break;
+ case '"' : separatorStack.push_back("\""); ignoreNesting=true; break;
+ default:;
+ }
+ }
+ ++pos;
}
}
if ( myArgs.Length() < index )
return theEmptyString; // no word found
// end
end = beg + 1;
- while ( end <= theString.Length() && isWord( theString.Value( end ), dotIsWord))
- ++end;
- --end;
+ char begChar = theString.Value( beg );
+ if ( begChar == '"' || begChar == '\'' || begChar == '[') {
+ char endChar = ( begChar == '[' ) ? ']' : begChar;
+ // end is at the corresponding quoting mark or bracket
+ while ( end < theString.Length() &&
+ ( theString.Value( end ) != endChar || theString.Value( end-1 ) == '\\'))
+ ++end;
+ }
+ else {
+ while ( end <= theString.Length() && isWord( theString.Value( end ), dotIsWord))
+ ++end;
+ --end;
+ }
}
else { // search backward
// end
if ( end == 0 )
return theEmptyString; // no word found
beg = end - 1;
- while ( beg > 0 && isWord( theString.Value( beg ), dotIsWord))
- --beg;
- ++beg;
+ char endChar = theString.Value( end );
+ if ( endChar == '"' || endChar == '\'' || endChar == ']') {
+ char begChar = ( endChar == ']' ) ? '[' : endChar;
+ // beg is at the corresponding quoting mark
+ while ( beg > 1 &&
+ ( theString.Value( beg ) != begChar || theString.Value( beg-1 ) == '\\'))
+ --beg;
+ }
+ else {
+ while ( beg > 0 && isWord( theString.Value( beg ), dotIsWord))
+ --beg;
+ ++beg;
+ }
}
theStartPos = beg;
//cout << theString << " ---- " << beg << " - " << end << endl;
return theString.SubString( beg, end );
}
+//================================================================================
+/*!
+ * \brief Returns true if the string looks like a study entry
+ */
+//================================================================================
+
+bool _pyCommand::IsStudyEntry( const TCollection_AsciiString& str )
+{
+ if ( str.Length() < 5 ) return false;
+
+ int nbColons = 0, isColon;
+ for ( int i = 1; i <= str.Length(); ++i )
+ {
+ char c = str.Value(i);
+ if (!( isColon = (c == ':')) && ( c < '0' || c > '9' ))
+ return false;
+ nbColons += isColon;
+ }
+ return nbColons > 2 && str.Length()-nbColons > 2;
+}
+
+//================================================================================
+/*!
+ * \brief Finds entries in a sting
+ */
+//================================================================================
+
+std::list< _pyID > _pyCommand::GetStudyEntries( const TCollection_AsciiString& str )
+{
+ std::list< _pyID > resList;
+ int pos = 0;
+ while ( ++pos <= str.Length() )
+ {
+ if ( !isdigit( str.Value( pos ))) continue;
+ if ( pos != 1 && ( isalpha( str.Value( pos-1 ) || str.Value( pos-1 ) == ':'))) continue;
+
+ int end = pos;
+ while ( ++end <= str.Length() && ( isdigit( str.Value( end )) || str.Value( end ) == ':' ));
+ _pyID entry = str.SubString( pos, end-1 );
+ pos = end;
+ if ( IsStudyEntry( entry ))
+ resList.push_back( entry );
+ }
+ return resList;
+}
+
//================================================================================
/*!
* \brief Look for position where not space char is
- * \param theString - The string
+ * \param theString - The string
* \param thePos - The position to search from and which returns result
* \retval bool - false if there are only space after thePos in theString
- *
- *
+ *
+ *
*/
//================================================================================
case METHOD_IND: seperator = "()"; break;
default:;
}
- }
+ }
myString.Remove( pos, theOldPart.Length() );
if ( !seperator.IsEmpty() )
myString.Insert( pos , seperator );
myBegPos.Remove( ARG1_IND, myBegPos.Length() );
}
+//================================================================================
+/*!
+ * \brief Comment a python command
+ */
+//================================================================================
+
+void _pyCommand::Comment()
+{
+ if ( IsEmpty() ) return;
+
+ int i = 1;
+ while ( i <= Length() && isblank( myString.Value(i) )) ++i;
+ if ( i <= Length() )
+ {
+ myString.Insert( i, "#" );
+ for ( int iPart = 0; iPart < myBegPos.Length(); ++iPart )
+ {
+ int begPos = GetBegPos( iPart );
+ if ( begPos != UNKNOWN )
+ SetBegPos( iPart, begPos + 1 );
+ }
+ }
+}
+
//================================================================================
/*!
* \brief Set dependent commands after this one
return added;
}
+//================================================================================
+/*!
+ * \brief Creates pyObject
+ */
+//================================================================================
+
+_pyObject::_pyObject(const Handle(_pyCommand)& theCreationCmd, const _pyID& theID)
+ : myID(theID), myCreationCmd(theCreationCmd), myIsPublished(false)
+{
+ setID( theID );
+}
+
+//================================================================================
+/*!
+ * \brief Set up myID and myIsPublished
+ */
+//================================================================================
+
+void _pyObject::setID(const _pyID& theID)
+{
+ myID = theID;
+ myIsPublished = !theGen->IsNotPublished( GetID() );
+}
+
+//================================================================================
+/*!
+ * \brief Clear myCreationCmd and myProcessedCmds
+ */
+//================================================================================
+
+void _pyObject::ClearCommands()
+{
+ if ( !CanClear() )
+ return;
+
+ if ( !myCreationCmd.IsNull() )
+ myCreationCmd->Clear();
+
+ list< Handle(_pyCommand) >::iterator cmd = myProcessedCmds.begin();
+ for ( ; cmd != myProcessedCmds.end(); ++cmd )
+ (*cmd)->Clear();
+}
+
//================================================================================
/*!
* \brief Return method name giving access to an interaface object wrapped by python class
//================================================================================
/*!
- * \brief FilterManager creates only if at least one command invoked
+ * \brief SelfEraser erases creation command if no more it's commands invoked
+ */
+//================================================================================
+
+void _pySelfEraser::Flush()
+{
+ if ( GetNbCalls() == 0 )
+ GetCreationCmd()->Clear();
+}
+
+//================================================================================
+/*!
+ * \brief _pySubMesh constructor
*/
//================================================================================
-_pyFilterManager::_pyFilterManager(const Handle(_pyCommand)& theCreationCmd):
- _pyObject( theCreationCmd ),
- myCmdCount( 0 )
+_pySubMesh::_pySubMesh(const Handle(_pyCommand)& theCreationCmd):
+ _pyObject(theCreationCmd)
{
+ myMesh = ObjectToMesh( theGen->FindObject( theCreationCmd->GetObject() ));
}
//================================================================================
*/
//================================================================================
-void _pyFilterManager::Process( const Handle(_pyCommand)& /*theCommand*/)
+void _pySubMesh::Process( const Handle(_pyCommand)& theCommand )
{
- myCmdCount++;
+ _pyObject::Process(theCommand); // count calls of Process()
+ GetCreationCmd()->AddDependantCmd( theCommand );
}
//================================================================================
/*!
- * \brief Clear creatin command if no commands invoked
+ * \brief Move creation command depending on invoked commands
*/
//================================================================================
-void _pyFilterManager::Flush()
+void _pySubMesh::Flush()
{
- if ( !myCmdCount )
- GetCreationCmd()->Clear();
+ if ( GetNbCalls() == 0 ) // move to the end of all commands
+ theGen->GetLastCommand()->AddDependantCmd( GetCreationCmd() );
+ else if ( !myCreator.IsNull() )
+ // move to be just after creator
+ myCreator->GetCreationCmd()->AddDependantCmd( GetCreationCmd() );
}
+//================================================================================
+/*!
+ * \brief To convert creation of a group by filter
+ */
+//================================================================================
+
+void _pyGroup::Process( const Handle(_pyCommand)& theCommand)
+{
+ // Convert the following set of commands into mesh.MakeGroupByFilter(groupName, theFilter)
+ // group = mesh.CreateEmptyGroup( elemType, groupName )
+ // aFilter.SetMesh(mesh)
+ // nbAdd = group.AddFrom( aFilter )
+ Handle(_pyFilter) filter;
+ if ( theCommand->GetMethod() == "AddFrom" )
+ {
+ _pyID idSource = theCommand->GetArg(1);
+ // check if idSource is a filter
+ filter = Handle(_pyFilter)::DownCast( theGen->FindObject( idSource ));
+ if ( filter.IsNull() )
+ return;
+ // find aFilter.SetMesh(mesh) to clear it, it should be just before theCommand
+ list< Handle(_pyCommand) >::reverse_iterator cmdIt = theGen->GetCommands().rbegin();
+ while ( *cmdIt != theCommand ) ++cmdIt;
+ while ( (*cmdIt)->GetOrderNb() != 1 )
+ {
+ const Handle(_pyCommand)& setMeshCmd = *(++cmdIt);
+ if ((setMeshCmd->GetObject() == idSource ||
+ setMeshCmd->GetObject() == filter->GetNewID() )
+ &&
+ setMeshCmd->GetMethod() == "SetMesh")
+ {
+ setMeshCmd->Clear();
+ break;
+ }
+ }
+ // replace 3 commands by one
+ theCommand->Clear();
+ const Handle(_pyCommand)& makeGroupCmd = GetCreationCmd();
+ TCollection_AsciiString name = makeGroupCmd->GetArg( 2 );
+ makeGroupCmd->SetMethod( "MakeGroupByFilter" );
+ makeGroupCmd->SetArg( 1, name );
+ makeGroupCmd->SetArg( 2, idSource );
+ // set new name of a filter
+ filter->Process( makeGroupCmd );
+ }
+ else if ( theCommand->GetMethod() == "SetFilter" )
+ {
+ // set new name of a filter
+ _pyID filterID = theCommand->GetArg(1);
+ filter = Handle(_pyFilter)::DownCast( theGen->FindObject( filterID ));
+ if ( !filter.IsNull() )
+ filter->Process( theCommand );
+ }
+
+ if ( !filter.IsNull() )
+ filter->AddUser( this );
+}
//================================================================================
/*!
- * \brief SubMesh creation can be moved to the end of engine commands
+ * \brief Constructor of _pyFilter
*/
//================================================================================
-_pySubMesh::_pySubMesh(const Handle(_pyCommand)& theCreationCmd):
- _pyObject( theCreationCmd ),
- myCmdCount( 0 )
+_pyFilter::_pyFilter(const Handle(_pyCommand)& theCreationCmd, const _pyID& newID/*=""*/)
+ :_pyObject(theCreationCmd), myNewID( newID )
{
}
//================================================================================
/*!
- * \brief count invoked commands
+ * \brief To convert creation of a filter by criteria and
+ * to replace an old name by a new one
*/
//================================================================================
-void _pySubMesh::Process( const Handle(_pyCommand)& theCommand )
+void _pyFilter::Process( const Handle(_pyCommand)& theCommand)
{
- myCmdCount++;
- GetCreationCmd()->AddDependantCmd( theCommand );
+ if ( theCommand->GetObject() == GetID() )
+ _pyObject::Process(theCommand); // count commands
+
+ if ( !myNewID.IsEmpty() )
+ {
+ if ( theCommand->GetObject() == GetID() )
+ theCommand->SetObject( myNewID );
+ else if ( theCommand->GetResultValue() == GetID() )
+ theCommand->SetResultValue( myNewID );
+ else
+ for ( int i = 1, nb = theCommand->GetNbArgs(); i <= nb; ++i )
+ if ( theCommand->GetArg( i ) == GetID() )
+ {
+ theCommand->SetArg( i, myNewID );
+ break;
+ }
+ }
+
+ // Convert the following set of commands into smesh.GetFilterFromCriteria(criteria)
+ // aFilter0x2aaab0487080 = aFilterManager.CreateFilter()
+ // aFilter0x2aaab0487080.SetCriteria(aCriteria)
+ if ( GetNbCalls() == 1 && // none method was called before this SetCriteria() call
+ theCommand->GetMethod() == "SetCriteria")
+ {
+ // aFilter.SetCriteria(aCriteria) ->
+ // aFilter = smesh.GetFilterFromCriteria(criteria)
+ if ( myNewID.IsEmpty() )
+ theCommand->SetResultValue( GetID() );
+ else
+ theCommand->SetResultValue( myNewID );
+ theCommand->SetObject( SMESH_2smeshpy::GenName() );
+ theCommand->SetMethod( "GetFilterFromCriteria" );
+
+ // Clear aFilterManager.CreateFilter()
+ GetCreationCmd()->Clear();
+ }
+ else if ( theCommand->GetMethod() == "SetMesh")
+ {
+ theGen->AddMeshAccessorMethod( theCommand );
+ }
}
//================================================================================
/*!
- * \brief Clear creatin command if no commands invoked
+ * \brief Set new filter name to the creation command
*/
//================================================================================
-void _pySubMesh::Flush()
+void _pyFilter::Flush()
{
- if ( !myCmdCount ) // move to the end of all commands
- theGen->GetLastCommand()->AddDependantCmd( GetCreationCmd() );
- else if ( !myCreator.IsNull() )
- // move to be just after creator
- myCreator->GetCreationCmd()->AddDependantCmd( GetCreationCmd() );
+ if ( !myNewID.IsEmpty() && !GetCreationCmd()->IsEmpty() )
+ GetCreationCmd()->SetResultValue( myNewID );
+}
+
+//================================================================================
+/*!
+ * \brief Return true if all my users can be cleared
+ */
+//================================================================================
+
+bool _pyFilter::CanClear()
+{
+ list< Handle(_pyObject) >::iterator obj = myUsers.begin();
+ for ( ; obj != myUsers.end(); ++obj )
+ if ( !(*obj)->CanClear() )
+ return false;
+
+ return true;
}