smesh/src/SMESH_I/SMESH_PythonDump.cxx

1385 lines
49 KiB
C++

// Copyright (C) 2007-2016 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
//
// 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, or (at your option) any later version.
//
// 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
//
// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
//
// File : SMESH_DumpPython.cxx
// Created : Thu Mar 24 17:17:59 2005
// Author : Julia DOROVSKIKH
// Module : SMESH
#include "SMESH_PythonDump.hxx"
#include "SMESH_2smeshpy.hxx"
#include "SMESH_Comment.hxx"
#include "SMESH_Filter_i.hxx"
#include "SMESH_Gen_i.hxx"
#include "SMESH_MeshEditor_i.hxx"
#include <SALOMEDS_wrap.hxx>
#include <LDOMParser.hxx>
#include <Resource_DataMapIteratorOfDataMapOfAsciiStringAsciiString.hxx>
#include <TColStd_HSequenceOfInteger.hxx>
#include <TCollection_AsciiString.hxx>
#ifdef _DEBUG_
static int MYDEBUG = 0;
#else
static int MYDEBUG = 0;
#endif
#include "SMESH_TryCatch.hxx"
namespace SMESH
{
size_t TPythonDump::myCounter = 0;
const char theNotPublishedObjectName[] = "__NOT__Published__Object__";
TVar::TVar(CORBA::Double value):myVals(1), myIsList(false) { myVals[0] = SMESH_Comment(value); }
TVar::TVar(CORBA::Long value):myVals(1), myIsList(false) { myVals[0] = SMESH_Comment(value); }
TVar::TVar(CORBA::Short value):myVals(1), myIsList(false) { myVals[0] = SMESH_Comment(value); }
TVar::TVar(const SMESH::double_array& value):myVals(value.length()), myIsList(true)
{
for ( size_t i = 0; i < value.length(); i++)
myVals[i] = SMESH_Comment(value[i]);
}
TPythonDump::
TPythonDump():myVarsCounter(0)
{
++myCounter;
}
TPythonDump::
~TPythonDump()
{
if(--myCounter == 0){
SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen();
std::string aString = myStream.str();
TCollection_AsciiString aCollection(Standard_CString(aString.c_str()));
if(!aCollection.IsEmpty())
{
const std::string & objEntry = SMESH_Gen_i::GetSMESHGen()->GetLastObjEntry();
if ( !objEntry.empty() )
aCollection += (TVar::ObjPrefix() + objEntry ).c_str();
aSMESHGen->AddToPythonScript(aCollection);
if(MYDEBUG) MESSAGE(aString);
// prevent misuse of already treated variables
aSMESHGen->UpdateParameters(CORBA::Object_var().in(),"");
}
}
}
TPythonDump& //!< store a variable value. Write either a value or '$varID$'
TPythonDump::
operator<<(const TVar& theVarValue)
{
const std::vector< int >& varIDs = SMESH_Gen_i::GetSMESHGen()->GetLastParamIndices();
if ( theVarValue.myIsList )
{
myStream << "[ ";
for ( size_t i = 1; i <= theVarValue.myVals.size(); ++i )
{
if ( myVarsCounter < (int)varIDs.size() && varIDs[ myVarsCounter ] >= 0 )
myStream << TVar::Quote() << varIDs[ myVarsCounter ] << TVar::Quote();
else
myStream << theVarValue.myVals[i-1];
if ( i < theVarValue.myVals.size() )
myStream << ", ";
++myVarsCounter;
}
myStream << " ]";
}
else
{
if ( myVarsCounter < (int)varIDs.size() && varIDs[ myVarsCounter ] >= 0 )
myStream << TVar::Quote() << varIDs[ myVarsCounter ] << TVar::Quote();
else
myStream << theVarValue.myVals[0];
++myVarsCounter;
}
return *this;
}
TPythonDump&
TPythonDump::
operator<<(long int theArg){
myStream<<theArg;
return *this;
}
TPythonDump&
TPythonDump::
operator<<(int theArg){
myStream<<theArg;
return *this;
}
TPythonDump&
TPythonDump::
operator<<(double theArg){
myStream<<theArg;
return *this;
}
TPythonDump&
TPythonDump::
operator<<(float theArg){
myStream<<theArg;
return *this;
}
TPythonDump&
TPythonDump::
operator<<(const void* theArg){
myStream<<theArg;
return *this;
}
TPythonDump&
TPythonDump::
operator<<(const char* theArg){
if ( theArg )
myStream<<theArg;
return *this;
}
TPythonDump&
TPythonDump::
operator<<(const std::string& theArg){
myStream<<theArg;
return *this;
}
TPythonDump&
TPythonDump::
operator<<(const SMESH::ElementType& theArg)
{
myStream<<"SMESH.";
switch(theArg){
case ALL: myStream<<"ALL"; break;
case NODE: myStream<<"NODE"; break;
case EDGE: myStream<<"EDGE"; break;
case FACE: myStream<<"FACE"; break;
case VOLUME: myStream<<"VOLUME"; break;
case ELEM0D: myStream<<"ELEM0D"; break;
case BALL: myStream<<"BALL"; break;
default: myStream<<"__UNKNOWN__ElementType: " << theArg;
}
return *this;
}
TPythonDump&
TPythonDump::
operator<<(const SMESH::GeometryType& theArg)
{
myStream<<"SMESH.";
switch(theArg){
case Geom_POINT: myStream<<"Geom_POINT"; break;
case Geom_EDGE: myStream<<"Geom_EDGE"; break;
case Geom_TRIANGLE: myStream<<"Geom_TRIANGLE"; break;
case Geom_QUADRANGLE: myStream<<"Geom_QUADRANGLE"; break;
case Geom_POLYGON: myStream<<"Geom_POLYGON"; break;
case Geom_TETRA: myStream<<"Geom_TETRA"; break;
case Geom_PYRAMID: myStream<<"Geom_PYRAMID"; break;
case Geom_HEXA: myStream<<"Geom_HEXA"; break;
case Geom_PENTA: myStream<<"Geom_PENTA"; break;
case Geom_POLYHEDRA: myStream<<"Geom_POLYHEDRA"; break;
case Geom_BALL: myStream<<"Geom_BALL"; break;
default: myStream<<"__UNKNOWN__GeometryType: " << theArg;
}
return *this;
}
TPythonDump&
TPythonDump::
operator<<(const SMESH::EntityType& theArg)
{
myStream<<"SMESH.";
switch(theArg){
case Entity_0D: myStream<<"Entity_0D"; break;
case Entity_Edge: myStream<<"Entity_Edge"; break;
case Entity_Quad_Edge: myStream<<"Entity_Quad_Edge"; break;
case Entity_Triangle: myStream<<"Entity_Triangle"; break;
case Entity_Quad_Triangle: myStream<<"Entity_Quad_Triangle"; break;
case Entity_BiQuad_Triangle: myStream<<"Entity_BiQuad_Triangle"; break;
case Entity_Quadrangle: myStream<<"Entity_Quadrangle"; break;
case Entity_Quad_Quadrangle: myStream<<"Entity_Quad_Quadrangle"; break;
case Entity_BiQuad_Quadrangle: myStream<<"Entity_BiQuad_Quadrangle"; break;
case Entity_Polygon: myStream<<"Entity_Polygon"; break;
case Entity_Quad_Polygon: myStream<<"Entity_Quad_Polygon"; break;
case Entity_Tetra: myStream<<"Entity_Tetra"; break;
case Entity_Quad_Tetra: myStream<<"Entity_Quad_Tetra"; break;
case Entity_Pyramid: myStream<<"Entity_Pyramid"; break;
case Entity_Quad_Pyramid: myStream<<"Entity_Quad_Pyramid"; break;
case Entity_Hexa: myStream<<"Entity_Hexa"; break;
case Entity_Quad_Hexa: myStream<<"Entity_Quad_Hexa"; break;
case Entity_TriQuad_Hexa: myStream<<"Entity_TriQuad_Hexa"; break;
case Entity_Penta: myStream<<"Entity_Penta"; break;
case Entity_Quad_Penta: myStream<<"Entity_Quad_Penta"; break;
case Entity_BiQuad_Penta: myStream<<"Entity_BiQuad_Penta"; break;
case Entity_Hexagonal_Prism: myStream<<"Entity_Hexagonal_Prism"; break;
case Entity_Polyhedra: myStream<<"Entity_Polyhedra"; break;
case Entity_Quad_Polyhedra: myStream<<"Entity_Quad_Polyhedra"; break;
case Entity_Ball: myStream<<"Entity_Ball"; break;
case Entity_Last: myStream<<"Entity_Last"; break;
default: myStream<<"__UNKNOWN__EntityType: " << theArg;
}
return *this;
}
template<class TArray>
void DumpArray(const TArray& theArray, TPythonDump & theStream)
{
if ( theArray.length() == 0 )
{
theStream << "[]";
}
else
{
theStream << "[ ";
for (CORBA::ULong i = 1; i <= theArray.length(); i++) {
theStream << theArray[i-1];
if ( i < theArray.length() )
theStream << ", ";
}
theStream << " ]";
}
}
TPythonDump&
TPythonDump::operator<<(const SMESH::long_array& theArg)
{
DumpArray( theArg, *this );
return *this;
}
TPythonDump&
TPythonDump::operator<<(const SMESH::double_array& theArg)
{
DumpArray( theArg, *this );
return *this;
}
TPythonDump&
TPythonDump::operator<<(const SMESH::nodes_array& theArg)
{
DumpArray( theArg, *this );
return *this;
}
TPythonDump&
TPythonDump::operator<<(const SMESH::string_array& theArray)
{
myStream << "[ ";
for ( CORBA::ULong i = 1; i <= theArray.length(); i++ ) {
myStream << "'" << theArray[i-1] << "'";
if ( i < theArray.length() )
myStream << ", ";
}
myStream << " ]";
return *this;
}
TPythonDump&
TPythonDump::
operator<<(SALOMEDS::SObject_ptr aSObject)
{
if ( !aSObject->_is_nil() ) {
CORBA::String_var entry = aSObject->GetID();
myStream << entry.in();
}
else {
myStream << theNotPublishedObjectName;
}
return *this;
}
TPythonDump&
TPythonDump::
operator<<(CORBA::Object_ptr theArg)
{
SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen();
SALOMEDS::SObject_wrap aSObject = SMESH_Gen_i::ObjectToSObject(theArg);
if(!aSObject->_is_nil()) {
CORBA::String_var id = aSObject->GetID();
myStream << id;
} else if ( !CORBA::is_nil(theArg)) {
if ( aSMESHGen->CanPublishInStudy( theArg )) // not published SMESH object
myStream << "smeshObj_" << size_t(theArg);
else
myStream << theNotPublishedObjectName;
}
else
myStream << "None";
return *this;
}
TPythonDump&
TPythonDump::
operator<<(SMESH::SMESH_Hypothesis_ptr theArg)
{
SALOMEDS::SObject_wrap aSObject = SMESH_Gen_i::ObjectToSObject(theArg);
if(aSObject->_is_nil() && !CORBA::is_nil(theArg))
myStream << "hyp_" << theArg->GetId();
else
*this << aSObject;
return *this;
}
TPythonDump&
TPythonDump::
operator<<(SMESH::SMESH_IDSource_ptr theArg)
{
if ( CORBA::is_nil( theArg ) )
return *this << "None";
SMESH_Gen_i* aSMESHGen = SMESH_Gen_i::GetSMESHGen();
SALOMEDS::SObject_wrap aSObject = SMESH_Gen_i::ObjectToSObject(theArg);
if(!aSObject->_is_nil())
{
return *this << aSObject;
}
if ( SMESH::Filter_i* filter = SMESH::DownCast<SMESH::Filter_i*>( theArg ))
{
return *this << filter;
}
if ( SMESH_MeshEditor_i::IsTemporaryIDSource( theArg ))
{
SMESH::SMESH_Mesh_var mesh = theArg->GetMesh();
SMESH::long_array_var anElementsId = theArg->GetIDs();
SMESH::array_of_ElementType_var types = theArg->GetTypes();
SMESH::ElementType type = types->length() ? types[0] : SMESH::ALL;
SALOMEDS::SObject_wrap meshSO = SMESH_Gen_i::ObjectToSObject(mesh);
if ( meshSO->_is_nil() ) // don't waste memory for dumping not published objects
return *this << mesh << ".GetIDSource([], " << type << ")";
else
return *this << mesh << ".GetIDSource(" << anElementsId << ", " << type << ")";
}
return *this << theNotPublishedObjectName;
}
TPythonDump&
TPythonDump::
operator<<(SMESH::FilterLibrary_i* theArg)
{
myStream<<"aFilterLibrary"<<theArg;
return *this;
}
TPythonDump&
TPythonDump::
operator<<(SMESH::FilterManager_i* theArg)
{
myStream<<"aFilterManager";
return *this;
}
TPythonDump&
TPythonDump::
operator<<(SMESH::Filter_i* theArg)
{
myStream<<"aFilter"<<theArg;
return *this;
}
TPythonDump&
TPythonDump::
operator<<(SMESH::Functor_i* theArg)
{
if ( theArg ) {
FunctorType aFunctorType = theArg->GetFunctorType();
switch(aFunctorType) {
case FT_AspectRatio: myStream<< "aAspectRatio"; break;
case FT_AspectRatio3D: myStream<< "aAspectRatio3D"; break;
case FT_Warping: myStream<< "aWarping"; break;
case FT_MinimumAngle: myStream<< "aMinimumAngle"; break;
case FT_Taper: myStream<< "aTaper"; break;
case FT_Skew: myStream<< "aSkew"; break;
case FT_Area: myStream<< "aArea"; break;
case FT_Volume3D: myStream<< "aVolume3D"; break;
case FT_MaxElementLength2D: myStream<< "aMaxElementLength2D"; break;
case FT_MaxElementLength3D: myStream<< "aMaxElementLength3D"; break;
case FT_FreeBorders: myStream<< "aFreeBorders"; break;
case FT_FreeEdges: myStream<< "aFreeEdges"; break;
case FT_FreeNodes: myStream<< "aFreeNodes"; break;
case FT_FreeFaces: myStream<< "aFreeFaces"; break;
case FT_EqualNodes: myStream<< "aEqualNodes"; break;
case FT_EqualEdges: myStream<< "aEqualEdges"; break;
case FT_EqualFaces: myStream<< "aEqualFaces"; break;
case FT_EqualVolumes: myStream<< "aEqualVolumes"; break;
case FT_MultiConnection: myStream<< "aMultiConnection"; break;
case FT_MultiConnection2D: myStream<< "aMultiConnection2D"; break;
case FT_Length: myStream<< "aLength"; break;
case FT_Length2D: myStream<< "aLength2D"; break;
case FT_Deflection2D: myStream<< "aDeflection2D"; break;
case FT_NodeConnectivityNumber:myStream<< "aNodeConnectivityNumber";break;
case FT_BelongToMeshGroup: myStream<< "aBelongToMeshGroup"; break;
case FT_BelongToGeom: myStream<< "aBelongToGeom"; break;
case FT_BelongToPlane: myStream<< "aBelongToPlane"; break;
case FT_BelongToCylinder: myStream<< "aBelongToCylinder"; break;
case FT_BelongToGenSurface: myStream<< "aBelongToGenSurface"; break;
case FT_LyingOnGeom: myStream<< "aLyingOnGeom"; break;
case FT_RangeOfIds: myStream<< "aRangeOfIds"; break;
case FT_BadOrientedVolume: myStream<< "aBadOrientedVolume"; break;
case FT_BareBorderVolume: myStream<< "aBareBorderVolume"; break;
case FT_BareBorderFace: myStream<< "aBareBorderFace"; break;
case FT_OverConstrainedVolume: myStream<< "aOverConstrainedVolume"; break;
case FT_OverConstrainedFace: myStream<< "aOverConstrainedFace"; break;
case FT_LinearOrQuadratic: myStream<< "aLinearOrQuadratic"; break;
case FT_GroupColor: myStream<< "aGroupColor"; break;
case FT_ElemGeomType: myStream<< "aElemGeomType"; break;
case FT_EntityType: myStream<< "aEntityType"; break;
case FT_CoplanarFaces: myStream<< "aCoplanarFaces"; break;
case FT_BallDiameter: myStream<< "aBallDiameter"; break;
case FT_ConnectedElements: myStream<< "aConnectedElements"; break;
case FT_LessThan: myStream<< "aLessThan"; break;
case FT_MoreThan: myStream<< "aMoreThan"; break;
case FT_EqualTo: myStream<< "aEqualTo"; break;
case FT_LogicalNOT: myStream<< "aLogicalNOT"; break;
case FT_LogicalAND: myStream<< "aLogicalAND"; break;
case FT_LogicalOR: myStream<< "aLogicalOR"; break;
case FT_Undefined: myStream<< "anUndefined"; break;
//default: -- commented to have a compilation warning
}
myStream<<theArg;
}
return *this;
}
TPythonDump&
TPythonDump::
operator<<(SMESH::Measurements_i* theArg)
{
myStream<<"aMeasurements";
return *this;
}
TPythonDump& TPythonDump:: operator<<(SMESH_Gen_i* theArg)
{
myStream << SMESHGenName(); return *this;
}
TPythonDump& TPythonDump::operator<<(SMESH_MeshEditor_i* theArg)
{
myStream << MeshEditorName() << "_" << ( theArg ? theArg->GetMeshId() : -1 ); return *this;
}
TPythonDump& TPythonDump::operator<<(const TCollection_AsciiString & theStr)
{
myStream << theStr; return *this;
}
TPythonDump& TPythonDump::operator<<(const SMESH::AxisStruct & theAxis)
{
*this << "SMESH.AxisStruct( "
<< TVar( theAxis.x ) << ", "
<< TVar( theAxis.y ) << ", "
<< TVar( theAxis.z ) << ", "
<< TVar( theAxis.vx ) << ", "
<< TVar( theAxis.vy ) << ", "
<< TVar( theAxis.vz ) << " )";
return *this;
}
TPythonDump& TPythonDump::operator<<(const SMESH::DirStruct & theDir)
{
const SMESH::PointStruct & P = theDir.PS;
*this << "SMESH.DirStruct( SMESH.PointStruct ( "
<< TVar( P.x ) << ", "
<< TVar( P.y ) << ", "
<< TVar( P.z ) << " ))";
return *this;
}
TPythonDump& TPythonDump::operator<<(const SMESH::PointStruct & P)
{
*this << "SMESH.PointStruct ( "
<< TVar( P.x ) << ", "
<< TVar( P.y ) << ", "
<< TVar( P.z ) << " )";
return *this;
}
TPythonDump& TPythonDump::operator<<(const SMESH::ListOfGroups& theList)
{
DumpArray( theList, *this );
return *this;
}
TPythonDump& TPythonDump::operator<<(const SMESH::ListOfGroups * theList)
{
DumpArray( *theList, *this );
return *this;
}
TPythonDump& TPythonDump::operator<<(const GEOM::ListOfGO& theList)
{
DumpArray( theList, *this );
return *this;
}
TPythonDump& TPythonDump::operator<<(const GEOM::ListOfGBO& theList)
{
DumpArray( theList, *this );
return *this;
}
TPythonDump& TPythonDump::operator<<(const SMESH::ListOfIDSources& theList)
{
DumpArray( theList, *this );
return *this;
}
TPythonDump& TPythonDump::operator<<(const SMESH::CoincidentFreeBorders& theCFB)
{
// dump CoincidentFreeBorders as a list of lists, each enclosed list
// contains node IDs of a group of coincident free borders where
// each consequent triple of IDs describe a free border: (n1, n2, nLast)
// For example [[1, 2, 10, 20, 21, 40], [11, 12, 15, 55, 54, 41]] describes
// two groups of coincident free borders, each group including two borders
myStream << "[";
for ( CORBA::ULong i = 0; i < theCFB.coincidentGroups.length(); ++i )
{
const SMESH::FreeBordersGroup& aGRP = theCFB.coincidentGroups[ i ];
if ( i ) myStream << ",";
myStream << "[";
for ( CORBA::ULong iP = 0; iP < aGRP.length(); ++iP )
{
const SMESH::FreeBorderPart& aPART = aGRP[ iP ];
if ( 0 <= aPART.border && aPART.border < (CORBA::Long)theCFB.borders.length() )
{
if ( iP ) myStream << ", ";
const SMESH::FreeBorder& aBRD = theCFB.borders[ aPART.border ];
myStream << aBRD.nodeIDs[ aPART.node1 ] << ",";
myStream << aBRD.nodeIDs[ aPART.node2 ] << ",";
myStream << aBRD.nodeIDs[ aPART.nodeLast ];
}
}
myStream << "]";
}
myStream << "]";
return *this;
}
const char* TPythonDump::NotPublishedObjectName()
{
return theNotPublishedObjectName;
}
TCollection_AsciiString myLongStringStart( "TPythonDump::LongStringStart" );
TCollection_AsciiString myLongStringEnd ( "TPythonDump::LongStringEnd" );
//================================================================================
/*!
* \brief Return marker of long string literal beginning
* \param type - a name of functionality producing the string literal
* \retval TCollection_AsciiString - the marker string to be written into
* a raw python script
*/
//================================================================================
TCollection_AsciiString TPythonDump::LongStringStart(const char* type)
{
return
myLongStringStart +
(Standard_Integer) strlen(type) +
" " +
(char*) type;
}
//================================================================================
/*!
* \brief Return marker of long string literal end
* \retval TCollection_AsciiString - the marker string to be written into
* a raw python script
*/
//================================================================================
TCollection_AsciiString TPythonDump::LongStringEnd()
{
return myLongStringEnd;
}
//================================================================================
/*!
* \brief Cut out a long string literal from a string
* \param theText - text possibly containing string literals
* \param theFrom - position in the text to search from
* \param theLongString - the retrieved literal
* \param theStringType - a name of functionality produced the literal
* \retval bool - true if a string literal found
*
* The literal is removed from theText; theFrom points position right after
* the removed literal
*/
//================================================================================
bool TPythonDump::CutoutLongString( TCollection_AsciiString & theText,
int & theFrom,
TCollection_AsciiString & theLongString,
TCollection_AsciiString & theStringType)
{
if ( theFrom < 1 || theFrom > theText.Length() )
return false;
// ...script \ beg marker \ \ type \ literal \ end marker \ script...
// "theText myLongStringStart7 Pattern!!! SALOME Mesh Pattern file myLongStringEndtextEnd"
// 012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789
// 0 1 2 3 4 5 6 7 8
theFrom = theText.Location( myLongStringStart, theFrom, theText.Length() ); // = 09
if ( !theFrom )
return false;
// find where literal begins
int literalBeg = theFrom + myLongStringStart.Length(); // = 26
char* typeLenStr = (char*) theText.ToCString() + literalBeg - 1; // = "7 Pattern!!! SALO...."
int typeLen = atoi ( typeLenStr ); // = 7
while ( *typeLenStr != ' ' ) { // look for ' ' after typeLen
literalBeg++; // 26 -> 27
typeLenStr++;
}
literalBeg += typeLen + 1; // = 35
if ( literalBeg > theText.Length() )
return false;
// where literal ends (i.e. end marker begins)
int literalEnd = theText.Location( myLongStringEnd, literalBeg, theText.Length() ); // = 64
if ( !literalEnd )
literalEnd = theText.Length();
// literal
theLongString = theText.SubString( literalBeg, literalEnd - 1); // "!!! SALOME Mesh Pattern file "
// type
theStringType = theText.SubString( literalBeg - typeLen, literalBeg - 1 ); // "Pattern"
// cut off literal
literalEnd += myLongStringEnd.Length(); // = 79
TCollection_AsciiString textEnd = theText.SubString( literalEnd, theText.Length() ); // "textE..."
theText = theText.SubString( 1, theFrom - 1 ) + textEnd;
return true;
}
void printException( const char* text )
{
#ifdef _DEBUG_
cout << "Exception in SMESH_Gen_i::DumpPython(): " << text << endl;
#endif
}
}
//=======================================================================
//function : RemoveTabulation
//purpose :
//=======================================================================
void RemoveTabulation( TCollection_AsciiString& theScript )
{
std::string aString( theScript.ToCString() );
std::string::size_type aPos = 0;
while( aPos < aString.length() )
{
aPos = aString.find( "\n\t", aPos );
if( aPos == std::string::npos )
break;
aString.replace( aPos, 2, "\n" );
aPos++;
}
theScript = aString.c_str();
}
//=======================================================================
//function : DumpPython
//purpose :
//=======================================================================
Engines::TMPFile* SMESH_Gen_i::DumpPython (CORBA::Boolean isPublished,
CORBA::Boolean isMultiFile,
CORBA::Boolean& isValidScript)
{
SALOMEDS::Study_var aStudy = getStudyServant();
if (CORBA::is_nil(aStudy))
return new Engines::TMPFile(0);
CORBA::String_var compDataType = ComponentDataType();
SALOMEDS::SObject_wrap aSO = aStudy->FindComponent( compDataType.in() );
if (CORBA::is_nil(aSO))
return new Engines::TMPFile(0);
// Map study entries to object names
Resource_DataMapOfAsciiStringAsciiString aMap;
Resource_DataMapOfAsciiStringAsciiString aMapNames;
SALOMEDS::ChildIterator_wrap Itr = aStudy->NewChildIterator(aSO);
for (Itr->InitEx(true); Itr->More(); Itr->Next()) {
SALOMEDS::SObject_wrap aValue = Itr->Value();
CORBA::String_var anID = aValue->GetID();
CORBA::String_var aName = aValue->GetName();
TCollection_AsciiString aGUIName ( (char*) aName.in() );
TCollection_AsciiString anEntry ( (char*) anID.in() );
if (aGUIName.Length() > 0) {
aMapNames.Bind( anEntry, aGUIName );
aMap.Bind( anEntry, aGUIName );
}
}
// Get trace of restored study
SALOMEDS::StudyBuilder_var aStudyBuilder = aStudy->NewBuilder();
SALOMEDS::GenericAttribute_wrap anAttr =
aStudyBuilder->FindOrCreateAttribute(aSO, "AttributePythonObject");
SALOMEDS::AttributePythonObject_var pyAttr =
SALOMEDS::AttributePythonObject::_narrow(anAttr);
CORBA::String_var oldValue = pyAttr->GetObject();
TCollection_AsciiString aSavedTrace (oldValue.in());
// Add trace of API methods calls and replace study entries by names
TCollection_AsciiString aScript;
aScript += DumpPython_impl(aMap, aMapNames, isPublished, isMultiFile,
myIsHistoricalPythonDump, isValidScript, aSavedTrace);
int aLen = aScript.Length();
unsigned char* aBuffer = new unsigned char[aLen+1];
strcpy((char*)aBuffer, aScript.ToCString());
CORBA::Octet* anOctetBuf = (CORBA::Octet*)aBuffer;
Engines::TMPFile_var aStreamFile = new Engines::TMPFile(aLen+1, aLen+1, anOctetBuf, 1);
bool hasNotPublishedObjects = aScript.Location( SMESH::theNotPublishedObjectName, 1, aLen);
isValidScript = isValidScript && !hasNotPublishedObjects;
return aStreamFile._retn();
}
//=============================================================================
/*!
* AddToPythonScript
*/
//=============================================================================
void SMESH_Gen_i::AddToPythonScript (const TCollection_AsciiString& theString)
{
if (myPythonScript.IsNull()) {
myPythonScript = new TColStd_HSequenceOfAsciiString;
}
myPythonScript->Append(theString);
}
//=============================================================================
/*!
* RemoveLastFromPythonScript
*/
//=============================================================================
void SMESH_Gen_i::RemoveLastFromPythonScript()
{
if (!myPythonScript.IsNull()) {
int aLen = myPythonScript->Length();
myPythonScript->Remove(aLen);
}
}
//=======================================================================
//function : SavePython
//purpose :
//=======================================================================
void SMESH_Gen_i::SavePython()
{
// Dump trace of API methods calls
TCollection_AsciiString aScript = GetNewPythonLines();
// Check contents of PythonObject attribute
CORBA::String_var compDataType = ComponentDataType();
SALOMEDS::SObject_wrap aSO = getStudyServant()->FindComponent( compDataType.in() );
SALOMEDS::StudyBuilder_var aStudyBuilder = getStudyServant()->NewBuilder();
SALOMEDS::GenericAttribute_wrap anAttr =
aStudyBuilder->FindOrCreateAttribute(aSO, "AttributePythonObject");
SALOMEDS::AttributePythonObject_var pyAttr =
SALOMEDS::AttributePythonObject::_narrow(anAttr);
CORBA::String_var oldValue = pyAttr->GetObject();
TCollection_AsciiString oldScript (oldValue.in());
if (oldScript.Length() > 0) {
oldScript += "\n";
oldScript += aScript;
} else {
oldScript = aScript;
}
// Store in PythonObject attribute
pyAttr->SetObject(oldScript.ToCString(), 1);
// Clean trace of API methods calls
CleanPythonTrace();
}
// impl
//=============================================================================
/*!
* FindEntries: Returns a sequence of start/end positions of entries in the string
*/
//=============================================================================
Handle(TColStd_HSequenceOfInteger) FindEntries (TCollection_AsciiString& theString)
{
Handle(TColStd_HSequenceOfInteger) aSeq = new TColStd_HSequenceOfInteger;
Standard_Integer aLen = theString.Length();
Standard_Boolean isFound = Standard_False;
char* arr = (char*) theString.ToCString();
Standard_Integer i = 0, j;
while(i < aLen) {
int c = (int)arr[i];
j = i+1;
if ( isdigit( c )) { //Is digit?
isFound = Standard_False;
while((j < aLen) && ( isdigit(c) || c == ':' )) { //Check if it is an entry
c = (int)arr[j++];
if(c == ':') isFound = Standard_True;
}
if (isFound) {
int prev = (i < 1) ? 0 : (int)arr[i - 1];
// to distinguish from a sketcher command:
// last char should be a digit, not ":",
// previous char should not be '"'.
if (arr[j-2] != ':' && prev != '"') {
aSeq->Append(i+1); // +1 because AsciiString starts from 1
aSeq->Append(j-1);
}
}
}
i = j;
}
return aSeq;
}
namespace {
//================================================================================
/*!
* \brief Make a string be a valid python name
* \param aName - a string to fix
* \retval bool - true if aName was not modified
*/
//================================================================================
bool fixPythonName(TCollection_AsciiString & aName)
{
bool isValidName = true;
int nbUnderscore = 0;
int p;
// replace not allowed chars by underscore
const char* name = aName.ToCString();
for ( p = 0; name[p]; ++p ) {
if ( !isalnum( name[p] ) && name[p] != '_' )
{
if ( p == 0 || p+1 == aName.Length() || name[p-1] == '_')
{
aName.Remove( p+1, 1 ); // remove __ and _ from the start and the end
--p;
name = aName.ToCString();
}
else
{
aName.SetValue( p+1, '_');
nbUnderscore++;
}
isValidName = false;
}
}
// aName must not start with a digit
if ( aName.IsIntegerValue() ) {
aName.Insert( 1, 'a' );
isValidName = false;
}
// shorten names like CartesianParameters3D_400_400_400_1000000_1
const int nbAllowedUnderscore = 3; /* changed from 2 to 3 by an user request
posted to SALOME Forum */
if ( aName.Length() > 20 && nbUnderscore > nbAllowedUnderscore )
{
p = aName.Location( "_", 20, aName.Length());
if ( p > 1 )
aName.Trunc( p-1 );
}
return isValidName;
}
//================================================================================
/*!
* \brief Return Python module names of available plug-ins.
*/
//================================================================================
std::vector<std::string> getPluginNames()
{
std::vector<std::string> pluginNames;
std::vector< std::string > xmlPaths = SMESH_Gen::GetPluginXMLPaths();
LDOMParser xmlParser;
for ( size_t i = 0; i < xmlPaths.size(); ++i )
{
bool error = xmlParser.parse( xmlPaths[i].c_str() );
if ( error )
{
TCollection_AsciiString data;
INFOS( xmlParser.GetError(data) );
continue;
}
// <meshers-group name="Standard Meshers"
// resources="StdMeshers"
// idl-module="StdMeshers"
// server-lib="StdMeshersEngine"
// gui-lib="StdMeshersGUI">
LDOM_Document xmlDoc = xmlParser.getDocument();
LDOM_NodeList nodeList = xmlDoc.getElementsByTagName( "meshers-group" );
for ( int i = 0; i < nodeList.getLength(); ++i )
{
LDOM_Node node = nodeList.item( i );
LDOM_Element& elem = (LDOM_Element&) node;
LDOMString idlModule = elem.getAttribute( "idl-module" );
if ( strlen( idlModule.GetString() ) > 0 )
pluginNames.push_back( idlModule.GetString() );
}
}
return pluginNames;
}
}
//================================================================================
/*!
* \brief Createa a Dump Python script
* \param [in,out] theObjectNames - map of an entry to a study and python name
* \param [in] theNames - - map of an entry to a study name
* \param [in] isPublished - \c true if dump of object publication in study is needed
* \param [in] isMultiFile - \c true if dump of each module goes to a separate file
* \param [in] isHistoricalDump - \c true if removed object should be dumped
* \param [out] aValidScript - returns \c true if the returned script seems valid
* \param [in,out] theSavedTrace - the dump stored in the study. It's cleared to
* decrease memory usage.
* \return TCollection_AsciiString - the result dump script.
*/
//================================================================================
TCollection_AsciiString SMESH_Gen_i::DumpPython_impl
(Resource_DataMapOfAsciiStringAsciiString& theObjectNames,
Resource_DataMapOfAsciiStringAsciiString& theNames,
bool isPublished,
bool isMultiFile,
bool isHistoricalDump,
bool& aValidScript,
TCollection_AsciiString& theSavedTrace)
{
SMESH_TRY;
const TCollection_AsciiString aSmeshpy ( SMESH_2smeshpy::SmeshpyName() );
const TCollection_AsciiString aSMESHGen( SMESH_2smeshpy::GenName() );
const TCollection_AsciiString anOldGen ( SMESH::TPythonDump::SMESHGenName() );
const TCollection_AsciiString helper; // to comfortably append C strings to TCollection_AsciiString
const TCollection_AsciiString tab( isMultiFile ? "\t" : "" ), nt = helper + "\n" + tab;
std::list< TCollection_AsciiString > lines; // lines of a script
std::list< TCollection_AsciiString >::iterator linesIt;
if ( isPublished )
lines.push_back( aSMESHGen + " = smeshBuilder.New()" );
else
lines.push_back( aSMESHGen + " = smeshBuilder.New(False)" );
lines.push_back( helper + "aFilterManager = " + aSMESHGen + ".CreateFilterManager()" );
lines.push_back( helper + "aMeasurements = " + aSMESHGen + ".CreateMeasurements()" );
// Treat dump trace of restored study
if (theSavedTrace.Length() > 0)
{
linesIt = --lines.end();
// Split theSavedTrace into lines
int from = 1, end = theSavedTrace.Length(), to;
while ( from < end && ( to = theSavedTrace.Location( "\n", from, end )))
{
if ( theSavedTrace.ToCString()[from-1] == '\t' )
++from;
if ( to != from )
lines.push_back( theSavedTrace.SubString( from, to - 1 ));
from = to + 1;
}
// For the conversion of IDL API calls -> smeshBuilder.py API, "smesh" standing for SMESH_Gen
// was replaces with "smeshgen" (==TPythonDump::SMESHGenName()).
// Change "smesh" -> "smeshgen" in the trace saved before passage to smeshBuilder.py API
bool isNewVersion =
theSavedTrace.Location( anOldGen + ".", 1, theSavedTrace.Length() );
theSavedTrace.Clear();
if ( !isNewVersion )
{
const TCollection_AsciiString aSmeshCall ( "smesh." ), gen( "gen" );
int beg, end, from;
for ( ++linesIt; linesIt != lines.end(); ++linesIt )
{
TCollection_AsciiString& aSavedLine = *linesIt;
end = aSavedLine.Length(), from = 1;
while ( from < end && ( beg = aSavedLine.Location( aSmeshCall, from, end )))
{
char charBefore = ( beg == 1 ) ? ' ' : aSavedLine.Value( beg - 1 );
if ( isspace( charBefore ) || charBefore == '=' ) { // "smesh." is not a part of a long word
aSavedLine.Insert( beg + aSmeshCall.Length() - 1, gen );// "smesh" -> "smeshgen"
end += gen.Length();
}
from = beg + aSmeshCall.Length();
}
}
}
}
// Add new dump trace of API methods calls to script lines
if (!myPythonScript.IsNull())
{
Handle(TColStd_HSequenceOfAsciiString) aPythonScript = myPythonScript;
Standard_Integer istr, aLen = aPythonScript->Length();
for (istr = 1; istr <= aLen; istr++)
lines.push_back( aPythonScript->Value( istr ));
}
// Convert IDL API calls into smeshBuilder.py API.
// Some objects are wrapped with python classes and
// Resource_DataMapOfAsciiStringAsciiString holds methods returning wrapped objects
Resource_DataMapOfAsciiStringAsciiString anEntry2AccessorMethod;
std::set< TCollection_AsciiString > aRemovedObjIDs;
if ( !getenv("NO_2smeshpy_conversion"))
SMESH_2smeshpy::ConvertScript( lines, anEntry2AccessorMethod,
theObjectNames, aRemovedObjIDs,
isHistoricalDump );
bool importGeom = false;
GEOM::GEOM_Gen_ptr geom = GetGeomEngine();
{
// Add names of GEOM objects to theObjectNames to exclude same names of SMESH objects
GEOM::string_array_var aGeomNames = geom->GetAllDumpNames();
int ign = 0, nbgn = aGeomNames->length();
for (; ign < nbgn; ign++) {
TCollection_AsciiString aName = aGeomNames[ign].in();
theObjectNames.Bind(aName, "1");
}
}
TCollection_AsciiString anUpdatedScript;
Resource_DataMapOfAsciiStringAsciiString mapRemoved;
Resource_DataMapOfAsciiStringAsciiString mapEntries; // names and entries present in anUpdatedScript
Standard_Integer objectCounter = 0;
TCollection_AsciiString anEntry, aName, aGUIName, aBaseName("smeshObj_");
// Treat every script line and add it to anUpdatedScript
for ( linesIt = lines.begin(); linesIt != lines.end(); ++linesIt )
{
TCollection_AsciiString& aLine = *linesIt;
anUpdatedScript += tab;
{
//Replace characters used instead of quote marks to quote notebook variables
int pos = 1;
while (( pos = aLine.Location( 1, SMESH::TVar::Quote(), pos, aLine.Length() )))
aLine.SetValue( pos, '"' );
}
// Find entries to be replaced by names
Handle(TColStd_HSequenceOfInteger) aSeq = FindEntries(aLine);
const Standard_Integer aSeqLen = aSeq->Length();
Standard_Integer aStart = 1;
for (Standard_Integer i = 1; i <= aSeqLen; i += 2)
{
if ( aStart < aSeq->Value(i) )
anUpdatedScript += aLine.SubString( aStart, aSeq->Value(i) - 1 ); // line part before i-th entry
anEntry = aLine.SubString( aSeq->Value(i), aSeq->Value(i + 1) );
// is a GEOM object?
CORBA::String_var geomName = geom->GetDumpName( anEntry.ToCString() );
if ( !geomName.in() || !geomName.in()[0] ) {
// is a SMESH object
if ( theObjectNames.IsBound( anEntry )) {
// The Object is in Study
aName = theObjectNames.Find( anEntry );
// check validity of aName
bool isValidName = fixPythonName( aName );
if (theObjectNames.IsBound(aName) && anEntry != theObjectNames(aName)) {
// diff objects have same name - make a new name by appending a digit
TCollection_AsciiString aName2;
Standard_Integer i = 0;
do {
aName2 = aName + "_" + ++i;
} while (theObjectNames.IsBound(aName2) && anEntry != theObjectNames(aName2));
aName = aName2;
isValidName = false;
}
if ( !isValidName )
theObjectNames(anEntry) = aName;
if ( aLine.Value(1) != '#' )
mapEntries.Bind(anEntry, aName);
}
else
{
// Removed Object
do {
aName = aBaseName + (++objectCounter);
} while (theObjectNames.IsBound(aName));
if ( !aRemovedObjIDs.count( anEntry ) && aLine.Value(1) != '#')
mapRemoved.Bind(anEntry, aName);
theObjectNames.Bind(anEntry, aName);
}
theObjectNames.Bind(aName, anEntry); // to detect same name of diff objects
}
else
{
aName = geomName.in();
importGeom = true;
}
anUpdatedScript += aName;
aStart = aSeq->Value(i + 1) + 1;
} // loop on entries within aLine
if ( aSeqLen == 0 )
anUpdatedScript += aLine;
else if ( aSeq->Value( aSeqLen ) < aLine.Length() )
anUpdatedScript += aLine.SubString( aSeq->Value(aSeqLen) + 1, aLine.Length() );
anUpdatedScript += '\n';
}
// Make an initial part of aSript
TCollection_AsciiString initPart = "import ";
if ( isMultiFile )
initPart += "salome, ";
initPart += " SMESH, SALOMEDS\n";
initPart += "from salome.smesh import smeshBuilder\n";
if ( importGeom && isMultiFile )
{
initPart += ("\n## import GEOM dump file ## \n"
"import string, os, sys, re, inspect\n"
"thisFile = inspect.getfile( inspect.currentframe() )\n"
"thisModule = os.path.splitext( os.path.basename( thisFile ))[0]\n"
"sys.path.insert( 0, os.path.dirname( thisFile ))\n"
"exec(\"from \"+re.sub(\"SMESH$\",\"GEOM\",thisModule)+\" import *\")\n\n");
}
// import python files corresponding to plugins if they are used in anUpdatedScript
{
TCollection_AsciiString importStr;
std::vector<std::string> pluginNames = getPluginNames();
for ( size_t i = 0; i < pluginNames.size(); ++i )
{
// Convert access to plugin members:
// e.g. StdMeshers.QUAD_REDUCED -> StdMeshersBuilder.QUAD_REDUCED
TCollection_AsciiString pluginAccess = (pluginNames[i] + ".").c_str() ;
int iFrom = 1, iPos;
while (( iPos = anUpdatedScript.Location( pluginAccess, iFrom, anUpdatedScript.Length() )))
{
anUpdatedScript.Insert( iPos + pluginNames[i].size(), "Builder" );
iFrom = iPos + pluginNames[i].size() + 8;
}
// if any plugin member is used, import the plugin
if ( iFrom > 1 )
importStr += ( helper + "\n" "from salome." + pluginNames[i].c_str() +
" import " + pluginNames[i].c_str() +"Builder" );
}
if ( !importStr.IsEmpty() )
initPart += importStr + "\n";
}
if ( isMultiFile )
initPart += "def RebuildData():";
initPart += "\n";
anUpdatedScript.Prepend( initPart );
// Make a final part of aScript
// Dump object removal
TCollection_AsciiString removeObjPart;
if ( !mapRemoved.IsEmpty() ) {
removeObjPart += nt + "## some objects were removed";
removeObjPart += nt + "aStudyBuilder = salome.myStudy.NewBuilder()";
Resource_DataMapIteratorOfDataMapOfAsciiStringAsciiString mapRemovedIt;
for ( mapRemovedIt.Initialize( mapRemoved ); mapRemovedIt.More(); mapRemovedIt.Next() ) {
aName = mapRemovedIt.Value(); // python name
anEntry = mapRemovedIt.Key();
removeObjPart += nt + "SO = salome.myStudy.FindObjectIOR(salome.myStudy.ConvertObjectToIOR(";
removeObjPart += aName;
// for object wrapped by class of smeshBuilder.py
if ( anEntry2AccessorMethod.IsBound( anEntry ) )
removeObjPart += helper + "." + anEntry2AccessorMethod( anEntry );
removeObjPart += helper + "))" + nt + "if SO: aStudyBuilder.RemoveObjectWithChildren(SO)";
}
}
// Set object names
TCollection_AsciiString setNamePart;
Resource_DataMapIteratorOfDataMapOfAsciiStringAsciiString mapEntriesIt;
for ( mapEntriesIt.Initialize( mapEntries ); mapEntriesIt.More(); mapEntriesIt.Next() )
{
anEntry = mapEntriesIt.Key();
aName = mapEntriesIt.Value(); // python name
if ( theNames.IsBound( anEntry ))
{
aGUIName = theNames.Find(anEntry);
aGUIName.RemoveAll('\''); // remove a quote from a name (issue 22360)
setNamePart += nt + aSMESHGen + ".SetName(" + aName;
if ( anEntry2AccessorMethod.IsBound( anEntry ) )
setNamePart += helper + "." + anEntry2AccessorMethod( anEntry );
setNamePart += helper + ", '" + aGUIName + "')";
}
}
if ( !setNamePart.IsEmpty() )
{
setNamePart.Insert( 1, nt + "## Set names of Mesh objects" );
}
// Store visual properties of displayed objects
TCollection_AsciiString visualPropertiesPart;
if (isPublished)
{
//Output the script that sets up the visual parameters.
CORBA::String_var compDataType = ComponentDataType();
CORBA::String_var script = getStudyServant()->GetDefaultScript( compDataType.in(), tab.ToCString() );
if ( script.in() && script.in()[0] ) {
visualPropertiesPart += nt + "### Store presentation parameters of displayed objects\n";
visualPropertiesPart += script.in();
}
}
anUpdatedScript += removeObjPart + '\n' + setNamePart + '\n' + visualPropertiesPart;
if ( isMultiFile )
{
anUpdatedScript +=
"\n\tpass"
"\n"
"\nif __name__ == '__main__':"
"\n\tSMESH_RebuildData = RebuildData"
"\n\texec('import '+re.sub('SMESH$','GEOM',thisModule)+' as GEOM_dump')"
"\n\tGEOM_dump.RebuildData()"
"\n\texec('from '+re.sub('SMESH$','GEOM',thisModule)+' import * ')"
"\n\tSMESH_RebuildData()";
}
anUpdatedScript += "\n";
// no need now as we use 'tab' and 'nt' variables depending on isMultiFile
// if( !isMultiFile ) // remove unnecessary tabulation
// RemoveTabulation( anUpdatedScript );
// -----------------------------------------------------------------
// put string literals describing patterns into separate functions
// -----------------------------------------------------------------
TCollection_AsciiString aLongString, aFunctionType;
int where = 1;
std::set< std::string > functionNameSet;
while ( SMESH::TPythonDump::CutoutLongString( anUpdatedScript, where, aLongString, aFunctionType ))
{
// make a python string literal
aLongString.Prepend(":\n\treturn '''\n");
aLongString += "\n\t'''\n\tpass\n";
TCollection_AsciiString functionName;
// check if the function returning this literal is already defined
int posAlready = anUpdatedScript.Location( aLongString, where, anUpdatedScript.Length() );
if ( posAlready ) // already defined
{
// find the function name
int functBeg = posAlready;
char* script = (char*) anUpdatedScript.ToCString() + posAlready - 1; // look at ":" after "def function()"
while ( *script != ' ' ) {
script--;
functBeg--;
}
functBeg++; // do not take ' '
posAlready--; // do not take ':'
functionName = anUpdatedScript.SubString( functBeg, posAlready );
}
else // not defined yet
{
// find a unique function name
fixPythonName( aFunctionType );
Standard_Integer nb = 0;
do functionName = aFunctionType + "_" + ( nb++ ) + "()";
while ( !functionNameSet.insert( functionName.ToCString() ).second );
// define function
TCollection_AsciiString funDef = helper + "def " + functionName + aLongString;
if ( isMultiFile )
{
anUpdatedScript += helper + "\n\n" + funDef;
}
else
{
funDef += "\n\n";
anUpdatedScript.Insert( 1, funDef);
where += funDef.Length();
}
}
anUpdatedScript.InsertBefore( where, functionName ); // call function
}
aValidScript = true;
return anUpdatedScript;
SMESH_CATCH( SMESH::printException );
aValidScript = false;
return "";
}
//=============================================================================
/*!
* GetNewPythonLines
*/
//=============================================================================
TCollection_AsciiString SMESH_Gen_i::GetNewPythonLines()
{
TCollection_AsciiString aScript;
// Dump trace of API methods calls
if (!myPythonScript.IsNull()) {
Handle(TColStd_HSequenceOfAsciiString) aPythonScript = myPythonScript;
Standard_Integer istr, aLen = aPythonScript->Length();
for (istr = 1; istr <= aLen; istr++) {
aScript += "\n";
aScript += aPythonScript->Value(istr);
}
aScript += "\n";
}
return aScript;
}
//=============================================================================
/*!
* CleanPythonTrace
*/
//=============================================================================
void SMESH_Gen_i::CleanPythonTrace()
{
TCollection_AsciiString aScript;
// Clean trace of API methods calls
if (!myPythonScript.IsNull()) {
myPythonScript->Clear();
}
}