1 // Copyright (C) 2007-2016 CEA/DEN, EDF R&D, OPEN CASCADE
3 // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
4 // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
6 // This library is free software; you can redistribute it and/or
7 // modify it under the terms of the GNU Lesser General Public
8 // License as published by the Free Software Foundation; either
9 // version 2.1 of the License, or (at your option) any later version.
11 // This library is distributed in the hope that it will be useful,
12 // but WITHOUT ANY WARRANTY; without even the implied warranty of
13 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 // Lesser General Public License for more details.
16 // You should have received a copy of the GNU Lesser General Public
17 // License along with this library; if not, write to the Free Software
18 // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
20 // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
22 // File : SMESH_Gen_i.cxx
23 // Author : Paul RASCLE, EDF
26 #include <BRepPrimAPI_MakeBox.hxx>
27 #include <BRepPrimAPI_MakeCylinder.hxx>
28 #include <BRepPrimAPI_MakeSphere.hxx>
29 #include <BRep_Tool.hxx>
31 #include <TColStd_MapOfAsciiString.hxx>
32 #include <TCollection_AsciiString.hxx>
34 #include <TopExp_Explorer.hxx>
35 #include <TopTools_IndexedMapOfShape.hxx>
36 #include <TopTools_ListIteratorOfListOfShape.hxx>
37 #include <TopTools_ListOfShape.hxx>
38 #include <TopTools_MapOfShape.hxx>
40 #include <TopoDS_CompSolid.hxx>
41 #include <TopoDS_Compound.hxx>
42 #include <TopoDS_Edge.hxx>
43 #include <TopoDS_Face.hxx>
44 #include <TopoDS_Iterator.hxx>
45 #include <TopoDS_Shape.hxx>
46 #include <TopoDS_Shell.hxx>
47 #include <TopoDS_Solid.hxx>
48 #include <TopoDS_Vertex.hxx>
49 #include <TopoDS_Wire.hxx>
58 #include <libgen.h> // for basename function
62 #define LibHandle HMODULE
63 #define LoadLib( name ) LoadLibrary( name )
64 #define GetProc GetProcAddress
65 #define UnLoadLib( handle ) FreeLibrary( handle );
67 #define LibHandle void*
69 #define LoadLib( name ) dlopen( name, RTLD_LAZY | RTLD_LOCAL )
70 #else // DYNLOAD_LOCAL
71 #define LoadLib( name ) dlopen( name, RTLD_LAZY | RTLD_GLOBAL )
72 #endif // DYNLOAD_LOCAL
74 #define UnLoadLib( handle ) dlclose( handle );
77 #include "SMESH_Gen_i.hxx"
78 #include "SMESH_version.h"
80 #include "DriverMED_W_SMESHDS_Mesh.h"
81 #include "DriverMED_R_SMESHDS_Mesh.h"
83 #include "DriverCGNS_Read.hxx"
85 #include "MED_Factory.hxx"
86 #include "SMDS_EdgePosition.hxx"
87 #include "SMDS_FacePosition.hxx"
88 #include "SMDS_SetIterator.hxx"
89 #include "SMDS_SpacePosition.hxx"
90 #include "SMDS_VertexPosition.hxx"
91 #include "SMESHDS_Document.hxx"
92 #include "SMESHDS_Group.hxx"
93 #include "SMESHDS_GroupOnGeom.hxx"
94 #include "SMESH_Algo_i.hxx"
95 #include "SMESH_File.hxx"
96 #include "SMESH_Group.hxx"
97 #include "SMESH_Group_i.hxx"
98 #include "SMESH_Hypothesis.hxx"
99 #include "SMESH_Hypothesis_i.hxx"
100 #include "SMESH_Mesh.hxx"
101 #include "SMESH_MeshEditor.hxx"
102 #include "SMESH_Mesh_i.hxx"
103 #include "SMESH_PreMeshInfo.hxx"
104 #include "SMESH_PythonDump.hxx"
105 #include "SMESH_ControlsDef.hxx"
106 #include "SMESH_TryCatch.hxx" // to include after OCC headers!
108 #include CORBA_SERVER_HEADER(SMESH_Group)
109 #include CORBA_SERVER_HEADER(SMESH_Filter)
110 #include CORBA_SERVER_HEADER(SMESH_MeshEditor)
113 #include <GEOM_Client.hxx>
115 #include <Basics_Utils.hxx>
116 #include <Basics_DirUtils.hxx>
118 #include <OpUtil.hxx>
119 #include <SALOMEDS_Tool.hxx>
120 #include <SALOME_Container_i.hxx>
121 #include <SALOME_LifeCycleCORBA.hxx>
122 #include <SALOME_NamingService.hxx>
123 #include <Utils_CorbaException.hxx>
124 #include <Utils_ExceptHandlers.hxx>
125 #include <Utils_SINGLETON.hxx>
126 #include <utilities.h>
128 #include CORBA_CLIENT_HEADER(SALOME_ModuleCatalog)
129 #include CORBA_CLIENT_HEADER(SALOME_Session)
131 // helpers about SALOME::GenericObj
132 #include <SALOMEDS_wrap.hxx>
133 #include <SALOMEDS_Attributes_wrap.hxx>
134 #include <GEOM_wrap.hxx>
143 using SMESH::TPythonDump;
146 #define NUM_TMP_FILES 2
149 static int MYDEBUG = 0;
151 static int MYDEBUG = 0;
154 // Static variables definition
155 GEOM::GEOM_Gen_var SMESH_Gen_i::myGeomGen = GEOM::GEOM_Gen::_nil();
156 CORBA::ORB_var SMESH_Gen_i::myOrb;
157 PortableServer::POA_var SMESH_Gen_i::myPoa;
158 SALOME_NamingService* SMESH_Gen_i::myNS = NULL;
159 SALOME_LifeCycleCORBA* SMESH_Gen_i::myLCC = NULL;
160 SMESH_Gen_i* SMESH_Gen_i::mySMESHGen = NULL;
163 const int nbElemPerDiagonal = 10;
165 //=============================================================================
167 * GetServant [ static ]
169 * Get servant of the CORBA object
171 //=============================================================================
173 PortableServer::ServantBase_var SMESH_Gen_i::GetServant( CORBA::Object_ptr theObject )
175 if( CORBA::is_nil( theObject ) || CORBA::is_nil( GetPOA() ) )
178 PortableServer::Servant aServant = GetPOA()->reference_to_servant( theObject );
181 catch (PortableServer::POA::ObjectNotActive &ex)
183 INFOS("GetServant: ObjectNotActive");
186 catch (PortableServer::POA::WrongAdapter &ex)
188 INFOS("GetServant: WrongAdapter: OK when several servants used to build several mesh in parallel...");
191 catch (PortableServer::POA::WrongPolicy &ex)
193 INFOS("GetServant: WrongPolicy");
198 INFOS( "GetServant - Unknown exception was caught!!!" );
203 //=============================================================================
205 * SObjectToObject [ static ]
207 * Get CORBA object corresponding to the SALOMEDS::SObject
209 //=============================================================================
211 CORBA::Object_var SMESH_Gen_i::SObjectToObject( SALOMEDS::SObject_ptr theSObject )
213 SALOMEDS::GenericAttribute_wrap anAttr;
214 CORBA::Object_var anObj;
215 if ( !theSObject->_is_nil() ) {
217 if( theSObject->FindAttribute( anAttr.inout(), "AttributeIOR" ) ) {
218 SALOMEDS::AttributeIOR_wrap anIOR = anAttr;
219 CORBA::String_var aValue = anIOR->Value();
220 if( strcmp( aValue, "" ) != 0 )
221 anObj = GetORB()->string_to_object( aValue );
225 INFOS( "SObjectToObject - Unknown exception was caught!!!" );
231 //=============================================================================
235 * Get SALOME_NamingService object
237 //=============================================================================
239 SALOME_NamingService* SMESH_Gen_i::GetNS()
241 if ( myNS == NULL ) {
242 myNS = SINGLETON_<SALOME_NamingService>::Instance();
243 ASSERT(SINGLETON_<SALOME_NamingService>::IsAlreadyExisting());
244 myNS->init_orb( GetORB() );
249 //=============================================================================
253 * Get SALOME_LifeCycleCORBA object
255 //=============================================================================
256 SALOME_LifeCycleCORBA* SMESH_Gen_i::GetLCC() {
257 if ( myLCC == NULL ) {
258 myLCC = new SALOME_LifeCycleCORBA( GetNS() );
264 //=============================================================================
266 * GetGeomEngine [ static ]
268 * Get GEOM::GEOM_Gen reference
270 //=============================================================================
271 GEOM::GEOM_Gen_var SMESH_Gen_i::GetGeomEngine() {
272 //CCRT GEOM::GEOM_Gen_var aGeomEngine =
273 //CCRT GEOM::GEOM_Gen::_narrow( GetLCC()->FindOrLoad_Component("FactoryServer","GEOM") );
274 //CCRT return aGeomEngine._retn();
275 if(CORBA::is_nil(myGeomGen))
277 Engines::EngineComponent_ptr temp=GetLCC()->FindOrLoad_Component("FactoryServer","GEOM");
278 myGeomGen=GEOM::GEOM_Gen::_narrow(temp);
283 //=============================================================================
285 * SMESH_Gen_i::SMESH_Gen_i
287 * Default constructor: not for use
289 //=============================================================================
291 SMESH_Gen_i::SMESH_Gen_i()
295 //=============================================================================
297 * SMESH_Gen_i::SMESH_Gen_i
299 * Standard constructor, used with Container
301 //=============================================================================
303 SMESH_Gen_i::SMESH_Gen_i( CORBA::ORB_ptr orb,
304 PortableServer::POA_ptr poa,
305 PortableServer::ObjectId* contId,
306 const char* instanceName,
307 const char* interfaceName )
308 : Engines_Component_i( orb, poa, contId, instanceName, interfaceName )
311 myOrb = CORBA::ORB::_duplicate(orb);
312 myPoa = PortableServer::POA::_duplicate(poa);
315 _id = myPoa->activate_object( _thisObj );
317 myStudyContext = new StudyContext;
319 myIsEmbeddedMode = false;
320 myIsEnablePublish = true;
321 myShapeReader = NULL; // shape reader
323 myIsHistoricalPythonDump = true;
324 myToForgetMeshDataOnHypModif = false;
326 // set it in standalone mode only
327 //OSD::SetSignal( true );
329 // 0020605: EDF 1190 SMESH: Display performance. 80 seconds for 52000 cells.
330 // find out mode (embedded or standalone) here else
331 // meshes created before calling SMESH_Client::GetSMESHGen(), which calls
332 // SMESH_Gen_i::SetEmbeddedMode(), have wrong IsEmbeddedMode flag
333 if ( SALOME_NamingService* ns = GetNS() )
335 CORBA::Object_var obj = ns->Resolve( "/Kernel/Session" );
336 SALOME::Session_var session = SALOME::Session::_narrow( obj ) ;
337 if ( !session->_is_nil() )
339 CORBA::String_var str_host = session->getHostname();
340 CORBA::Long s_pid = session->getPID();
341 string my_host = Kernel_Utils::GetHostname();
343 long my_pid = (long)_getpid();
345 long my_pid = (long) getpid();
347 SetEmbeddedMode( s_pid == my_pid && my_host == str_host.in() );
352 //=============================================================================
354 * SMESH_Gen_i::~SMESH_Gen_i
358 //=============================================================================
360 SMESH_Gen_i::~SMESH_Gen_i()
362 // delete hypothesis creators
363 map<string, GenericHypothesisCreator_i*>::iterator itHyp, itHyp2;
364 for (itHyp = myHypCreatorMap.begin(); itHyp != myHypCreatorMap.end(); itHyp++)
366 // same creator can be mapped under different names
367 GenericHypothesisCreator_i* creator = (*itHyp).second;
371 for (itHyp2 = itHyp; itHyp2 != myHypCreatorMap.end(); itHyp2++)
372 if ( creator == (*itHyp2).second )
373 (*itHyp2).second = 0;
375 myHypCreatorMap.clear();
377 // Clear study contexts data
378 delete myStudyContext;
380 // delete shape reader
382 delete myShapeReader;
384 //=============================================================================
386 * SMESH_Gen_i::getHypothesisCreator
388 * Get hypothesis creator
390 //=============================================================================
391 GenericHypothesisCreator_i* SMESH_Gen_i::getHypothesisCreator(const char* theHypName,
392 const char* theLibName,
393 std::string& thePlatformLibName)
394 throw (SALOME::SALOME_Exception)
396 std::string aPlatformLibName;
397 /* It's Need to translate lib name for WIN32 or X platform */
398 if ( theLibName && theLibName[0] != '\0' )
400 int libNameLen = strlen(theLibName);
401 //check for old format "libXXXXXXX.so"
402 if (libNameLen > 7 &&
403 !strncmp( theLibName, "lib", 3 ) &&
404 !strcmp( theLibName+libNameLen-3, ".so" ))
408 aPlatformLibName = std::string( theLibName+3, libNameLen-6 ) + ".dll";
409 #elif defined(__APPLE__)
410 aPlatformLibName = std::string( theLibName, libNameLen-3 ) + ".dylib";
412 aPlatformLibName = theLibName;
417 //try to use new format
419 aPlatformLibName = theLibName;
420 aPlatformLibName += ".dll";
421 #elif defined(__APPLE__)
422 aPlatformLibName = std::string( "lib" ) + std::string( theLibName ) + ".dylib";
424 aPlatformLibName = std::string( "lib" ) + std::string( theLibName ) + ".so";
428 thePlatformLibName = aPlatformLibName;
430 Unexpect aCatch(SALOME_SalomeException);
431 if(MYDEBUG) MESSAGE( "Create Hypothesis <" << theHypName << "> from " << aPlatformLibName);
433 typedef GenericHypothesisCreator_i* (*GetHypothesisCreator)(const char* );
434 GenericHypothesisCreator_i* aCreator;
437 // check, if creator for this hypothesis type already exists
438 if (myHypCreatorMap.find(string(theHypName)) == myHypCreatorMap.end())
440 // load plugin library
441 if(MYDEBUG) MESSAGE("Loading server meshers plugin library ...");
442 LibHandle libHandle = LoadLib( aPlatformLibName.c_str() );
445 // report any error, if occurred
447 const char* anError = dlerror();
448 throw(SALOME_Exception(anError));
450 throw(SALOME_Exception(LOCALIZED( "Can't load server meshers plugin library" )));
454 // get method, returning hypothesis creator
455 if(MYDEBUG) MESSAGE("Find GetHypothesisCreator() method ...");
456 GetHypothesisCreator procHandle =
457 (GetHypothesisCreator)GetProc( libHandle, "GetHypothesisCreator" );
460 throw(SALOME_Exception(LOCALIZED("bad hypothesis plugin library")));
461 UnLoadLib(libHandle);
464 // get hypothesis creator
465 if(MYDEBUG) MESSAGE("Get Hypothesis Creator for " << theHypName);
466 aCreator = procHandle(theHypName);
469 throw(SALOME_Exception(LOCALIZED("no such a hypothesis in this plugin")));
471 // map hypothesis creator to a hypothesis name
472 myHypCreatorMap[string(theHypName)] = aCreator;
477 return myHypCreatorMap[string(theHypName)];
480 catch (SALOME_Exception& S_ex)
482 THROW_SALOME_CORBA_EXCEPTION(S_ex.what(), SALOME::BAD_PARAM);
487 //=============================================================================
489 * SMESH_Gen_i::createHypothesis
491 * Create hypothesis of given type
493 //=============================================================================
494 SMESH::SMESH_Hypothesis_ptr SMESH_Gen_i::createHypothesis(const char* theHypName,
495 const char* theLibName)
497 SMESH_Hypothesis_i* myHypothesis_i = 0;
498 SMESH::SMESH_Hypothesis_var hypothesis_i;
499 std::string aPlatformLibName;
500 GenericHypothesisCreator_i* aCreator =
501 getHypothesisCreator(theHypName, theLibName, aPlatformLibName);
503 // create a new hypothesis object, store its ref. in studyContext
504 myHypothesis_i = aCreator->Create(myPoa, &myGen);
507 myHypothesis_i->SetLibName( aPlatformLibName.c_str() ); // for persistency assurance
508 CORBA::String_var hypName = myHypothesis_i->GetName();
509 myHypCreatorMap[ hypName.in() ] = aCreator;
511 // activate the CORBA servant of hypothesis
512 hypothesis_i = myHypothesis_i->_this();
513 int nextId = RegisterObject( hypothesis_i );
514 if(MYDEBUG) { MESSAGE( "Add hypo to map with id = "<< nextId ); }
515 else { nextId = 0; } // avoid "unused variable" warning in release mode
517 return hypothesis_i._retn();
520 //=============================================================================
522 * SMESH_Gen_i::createMesh
524 * Create empty mesh on shape
526 //=============================================================================
527 SMESH::SMESH_Mesh_ptr SMESH_Gen_i::createMesh()
528 throw ( SALOME::SALOME_Exception )
530 Unexpect aCatch(SALOME_SalomeException);
531 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::createMesh" );
533 // Get or create the GEOM_Client instance
535 // create a new mesh object servant, store it in a map in study context
536 SMESH_Mesh_i* meshServant = new SMESH_Mesh_i( GetPOA(), this );
537 // create a new mesh object
538 if(MYDEBUG) MESSAGE("myIsEmbeddedMode " << myIsEmbeddedMode);
539 meshServant->SetImpl( myGen.CreateMesh( myIsEmbeddedMode ));
541 // activate the CORBA servant of Mesh
542 SMESH::SMESH_Mesh_var mesh = SMESH::SMESH_Mesh::_narrow( meshServant->_this() );
543 int nextId = RegisterObject( mesh );
544 if(MYDEBUG) { MESSAGE( "Add mesh to map with id = "<< nextId); }
545 else { nextId = 0; } // avoid "unused variable" warning in release mode
548 catch (SALOME_Exception& S_ex) {
549 THROW_SALOME_CORBA_EXCEPTION( S_ex.what(), SALOME::BAD_PARAM );
551 return SMESH::SMESH_Mesh::_nil();
554 //=============================================================================
556 * SMESH_Gen_i::GetShapeReader
560 //=============================================================================
561 GEOM_Client* SMESH_Gen_i::GetShapeReader()
563 // create shape reader if necessary
564 if ( !myShapeReader )
565 myShapeReader = new GEOM_Client(GetContainerRef());
566 ASSERT( myShapeReader );
567 return myShapeReader;
570 //=============================================================================
572 * SMESH_Gen_i::SetGeomEngine
574 * Set GEOM::GEOM_Gen reference
576 //=============================================================================
577 //GEOM::GEOM_Gen_ptr SMESH_Gen_i::SetGeomEngine( const char* containerLoc )
578 void SMESH_Gen_i::SetGeomEngine( GEOM::GEOM_Gen_ptr geomcompo )
580 //Engines::Component_ptr temp=GetLCC()->FindOrLoad_Component(containerLoc,"GEOM");
581 //myGeomGen=GEOM::GEOM_Gen::_narrow(temp);
582 myGeomGen=GEOM::GEOM_Gen::_duplicate(geomcompo);
586 //=============================================================================
588 * SMESH_Gen_i::SetEmbeddedMode
592 //=============================================================================
594 void SMESH_Gen_i::SetEmbeddedMode( CORBA::Boolean theMode )
596 myIsEmbeddedMode = theMode;
598 if ( !myIsEmbeddedMode ) {
599 //PAL10867: disable signals catching with "noexcepthandler" option
600 char* envNoCatchSignals = getenv("NOT_INTERCEPT_SIGNALS");
601 if (!envNoCatchSignals || !atoi(envNoCatchSignals))
606 char* envDisableFPE = getenv("DISABLE_FPE");
607 if (envDisableFPE && atoi(envDisableFPE))
612 OSD::SetSignal( raiseFPE );
614 // else OSD::SetSignal() is called in GUI
618 //=============================================================================
620 * SMESH_Gen_i::IsEmbeddedMode
624 //=============================================================================
626 CORBA::Boolean SMESH_Gen_i::IsEmbeddedMode()
628 return myIsEmbeddedMode;
631 //=============================================================================
633 * SMESH_Gen_i::SetEnablePublish
635 * Set enable publishing in the study
637 //=============================================================================
638 void SMESH_Gen_i::SetEnablePublish( CORBA::Boolean theIsEnablePublish )
640 myIsEnablePublish = theIsEnablePublish;
643 //=============================================================================
645 * SMESH_Gen_i::IsEnablePublish
647 * Check enable publishing
649 //=============================================================================
651 CORBA::Boolean SMESH_Gen_i::IsEnablePublish()
653 return myIsEnablePublish;
656 //=============================================================================
658 * SMESH_Gen_i::UpdateStudy
660 * Update study (needed at switching GEOM->SMESH)
662 //=============================================================================
664 void SMESH_Gen_i::UpdateStudy()
666 if ( !myStudyContext )
667 myStudyContext = new StudyContext;
669 SALOMEDS::Study_var aStudy = getStudyServant();
670 if ( !CORBA::is_nil( aStudy ) ) {
671 SALOMEDS::StudyBuilder_var aStudyBuilder = aStudy->NewBuilder();
672 SALOMEDS::SComponent_wrap GEOM_var = aStudy->FindComponent( "GEOM" );
673 if( !GEOM_var->_is_nil() )
674 aStudyBuilder->LoadWith( GEOM_var, GetGeomEngine() );
675 // NPAL16168, issue 0020210
676 // Let meshes update their data depending on GEOM groups that could change
677 CORBA::String_var compDataType = ComponentDataType();
678 SALOMEDS::SComponent_wrap me = aStudy->FindComponent( compDataType.in() );
679 if ( !me->_is_nil() ) {
680 SALOMEDS::ChildIterator_wrap anIter = aStudy->NewChildIterator( me );
681 for ( ; anIter->More(); anIter->Next() ) {
682 SALOMEDS::SObject_wrap so = anIter->Value();
683 CORBA::Object_var ior = SObjectToObject( so );
684 if ( SMESH_Mesh_i* mesh = SMESH::DownCast<SMESH_Mesh_i*>( ior ))
685 mesh->CheckGeomModif();
691 //=============================================================================
693 * SMESH_Gen_i::GetStudyContext
697 //=============================================================================
698 StudyContext* SMESH_Gen_i::GetStudyContext()
700 return myStudyContext;
703 //=============================================================================
705 * SMESH_Gen_i::CreateHypothesis
707 * Create hypothesis/algorothm of given type and publish it in the study
709 //=============================================================================
711 SMESH::SMESH_Hypothesis_ptr SMESH_Gen_i::CreateHypothesis( const char* theHypName,
712 const char* theLibName )
713 throw ( SALOME::SALOME_Exception )
715 Unexpect aCatch(SALOME_SalomeException);
716 // Create hypothesis/algorithm
717 SMESH::SMESH_Hypothesis_var hyp = this->createHypothesis( theHypName, theLibName );
719 // Publish hypothesis/algorithm in the study
720 if ( CanPublishInStudy( hyp ) ) {
721 SALOMEDS::SObject_wrap aSO = PublishHypothesis( hyp );
722 if ( !aSO->_is_nil() ) {
723 // Update Python script
724 TPythonDump() << aSO << " = " << this << ".CreateHypothesis('"
725 << theHypName << "', '" << theLibName << "')";
732 //================================================================================
734 * \brief Return a hypothesis holding parameter values corresponding either to the mesh
735 * existing on the given geometry or to size of the geometry.
736 * \param theHypType - hypothesis type name
737 * \param theLibName - plugin library name
738 * \param theMesh - The mesh of interest
739 * \param theGeom - The shape to get parameter values from
740 * \retval SMESH::SMESH_Hypothesis_ptr - The returned hypothesis may be the one existing
741 * in a study and used to compute the mesh, or a temporary one created just to pass
744 //================================================================================
746 SMESH::SMESH_Hypothesis_ptr
747 SMESH_Gen_i::GetHypothesisParameterValues (const char* theHypType,
748 const char* theLibName,
749 SMESH::SMESH_Mesh_ptr theMesh,
750 GEOM::GEOM_Object_ptr theGeom,
751 CORBA::Boolean byMesh)
752 throw ( SALOME::SALOME_Exception )
754 Unexpect aCatch(SALOME_SalomeException);
755 if ( byMesh && CORBA::is_nil( theMesh ) )
756 return SMESH::SMESH_Hypothesis::_nil();
757 if ( byMesh && CORBA::is_nil( theGeom ) )
758 return SMESH::SMESH_Hypothesis::_nil();
760 // -----------------------------------------------
761 // find hypothesis used to mesh theGeom
762 // -----------------------------------------------
764 // get mesh and shape
765 SMESH_Mesh_i* meshServant = SMESH::DownCast<SMESH_Mesh_i*>( theMesh );
766 TopoDS_Shape shape = GeomObjectToShape( theGeom );
767 if ( byMesh && ( !meshServant || meshServant->NbNodes()==0 || shape.IsNull() ))
768 return SMESH::SMESH_Hypothesis::_nil();
769 ::SMESH_Mesh* mesh = meshServant ? &meshServant->GetImpl() : (::SMESH_Mesh*)0;
771 // create a temporary hypothesis to know its dimension
772 SMESH::SMESH_Hypothesis_var tmpHyp = this->createHypothesis( theHypType, theLibName );
773 SMESH_Hypothesis_i* hypServant = SMESH::DownCast<SMESH_Hypothesis_i*>( tmpHyp );
775 return SMESH::SMESH_Hypothesis::_nil();
776 ::SMESH_Hypothesis* hyp = hypServant->GetImpl();
779 // look for a hypothesis of theHypType used to mesh the shape
780 if ( myGen.GetShapeDim( shape ) == hyp->GetDim() )
783 SMESH::ListOfHypothesis_var aHypList = theMesh->GetHypothesisList( theGeom );
784 int nbLocalHyps = aHypList->length();
785 for ( int i = 0; i < nbLocalHyps; i++ ) {
786 CORBA::String_var hypName = aHypList[i]->GetName();
787 if ( strcmp( theHypType, hypName.in() ) == 0 ) // FOUND local!
788 return SMESH::SMESH_Hypothesis::_duplicate( aHypList[i] );
790 // check super shapes
791 TopTools_ListIteratorOfListOfShape itShape( mesh->GetAncestors( shape ));
792 while ( nbLocalHyps == 0 && itShape.More() ) {
793 GEOM::GEOM_Object_ptr geomObj = ShapeToGeomObject( itShape.Value() );
794 if ( ! CORBA::is_nil( geomObj )) {
795 SMESH::ListOfHypothesis_var aHypList = theMesh->GetHypothesisList( geomObj );
796 nbLocalHyps = aHypList->length();
797 for ( int i = 0; i < nbLocalHyps; i++ )
798 if ( strcmp( theHypType, aHypList[i]->GetName() ) == 0 ) // FOUND global!
799 return SMESH::SMESH_Hypothesis::_duplicate( aHypList[i] );
805 // let the temporary hypothesis find out somehow parameter values by mesh
806 if ( hyp->SetParametersByMesh( mesh, shape ))
807 return SMESH::SMESH_Hypothesis::_duplicate( tmpHyp );
812 diagonal = mesh->GetShapeDiagonalSize();
814 diagonal = ::SMESH_Mesh::GetShapeDiagonalSize( shape );
815 ::SMESH_Hypothesis::TDefaults dflts;
816 dflts._elemLength = diagonal / myGen.GetBoundaryBoxSegmentation();
817 dflts._nbSegments = myGen.GetDefaultNbSegments();
818 dflts._shape = &shape;
819 // let the temporary hypothesis initialize it's values
820 if ( hyp->SetParametersByDefaults( dflts, mesh ))
821 return SMESH::SMESH_Hypothesis::_duplicate( tmpHyp );
824 return SMESH::SMESH_Hypothesis::_nil();
827 //=============================================================================
829 * Returns \c True if a hypothesis is assigned to a sole sub-mesh in a current Study
830 * \param [in] theHyp - the hypothesis of interest
831 * \param [out] theMesh - the sole mesh using \a theHyp
832 * \param [out] theShape - the sole geometry \a theHyp is assigned to
833 * \return boolean - \c True if \a theMesh and \a theShape are sole using \a theHyp
835 * If two meshes on same shape have theHyp assigned to the same sub-shape, they are
836 * considered as SAME sub-mesh => result is \c true.
837 * This method ids used to initialize SMESHGUI_GenericHypothesisCreator with
838 * a shape to which an hyp being edited is assigned.
840 //=============================================================================
842 CORBA::Boolean SMESH_Gen_i::GetSoleSubMeshUsingHyp( SMESH::SMESH_Hypothesis_ptr theHyp,
843 SMESH::SMESH_Mesh_out theMesh,
844 GEOM::GEOM_Object_out theShape)
846 if ( CORBA::is_nil( theHyp ))
849 // get Mesh component SO
850 CORBA::String_var compDataType = ComponentDataType();
851 SALOMEDS::SComponent_wrap comp = getStudyServant()->FindComponent( compDataType.in() );
852 if ( CORBA::is_nil( comp ))
855 // look for child SO of meshes
856 SMESH::SMESH_Mesh_var foundMesh;
857 TopoDS_Shape foundShape;
859 SALOMEDS::ChildIterator_wrap meshIter = getStudyServant()->NewChildIterator( comp );
860 for ( ; meshIter->More() && isSole; meshIter->Next() )
862 SALOMEDS::SObject_wrap curSO = meshIter->Value();
863 CORBA::Object_var obj = SObjectToObject( curSO );
864 SMESH_Mesh_i* mesh_i = SMESH::DownCast< SMESH_Mesh_i* >( obj );
868 // look for a sole shape where theHyp is assigned
869 bool isHypFound = false;
870 const ShapeToHypothesis & s2hyps = mesh_i->GetImpl().GetMeshDS()->GetHypotheses();
871 ShapeToHypothesis::Iterator s2hypsIt( s2hyps );
872 for ( ; s2hypsIt.More() && isSole; s2hypsIt.Next() )
874 const THypList& hyps = s2hypsIt.Value();
875 THypList::const_iterator h = hyps.begin();
876 for ( ; h != hyps.end(); ++h )
877 if ( (*h)->GetID() == theHyp->GetId() )
879 if ( h != hyps.end()) // theHyp found
882 if ( ! foundShape.IsNull() &&
883 ! foundShape.IsSame( s2hypsIt.Key() )) // not a sole sub-shape
885 foundShape.Nullify();
889 foundShape = s2hypsIt.Key();
891 } // loop on assigned hyps
893 if ( isHypFound && !foundShape.IsNull() ) // a mesh using theHyp is found
895 if ( !foundMesh->_is_nil() ) // not a sole mesh
897 if ( !foundMesh->HasShapeToMesh() ||
898 !mesh_i ->HasShapeToMesh() )
900 isSole = ( foundMesh->HasShapeToMesh() == mesh_i->HasShapeToMesh() );
904 GEOM::GEOM_Object_var s1 = mesh_i ->GetShapeToMesh();
905 GEOM::GEOM_Object_var s2 = foundMesh->GetShapeToMesh();
906 isSole = s1->IsSame( s2 );
909 foundMesh = SMESH::SMESH_Mesh::_narrow( obj );
915 ! foundMesh->_is_nil() &&
916 ! foundShape.IsNull() )
918 theMesh = foundMesh._retn();
919 theShape = ShapeToGeomObject( foundShape );
920 return ( !theMesh->_is_nil() && !theShape->_is_nil() );
925 //=============================================================================
927 * Sets number of segments per diagonal of boundary box of geometry by which
928 * default segment length of appropriate 1D hypotheses is defined
930 //=============================================================================
932 void SMESH_Gen_i::SetBoundaryBoxSegmentation( CORBA::Long theNbSegments )
933 throw ( SALOME::SALOME_Exception )
935 if ( theNbSegments > 0 )
936 myGen.SetBoundaryBoxSegmentation( int( theNbSegments ));
938 THROW_SALOME_CORBA_EXCEPTION( "non-positive number of segments", SALOME::BAD_PARAM );
940 //=============================================================================
942 * \brief Sets default number of segments per edge
944 //=============================================================================
945 void SMESH_Gen_i::SetDefaultNbSegments(CORBA::Long theNbSegments)
946 throw ( SALOME::SALOME_Exception )
948 if ( theNbSegments > 0 )
949 myGen.SetDefaultNbSegments( int(theNbSegments) );
951 THROW_SALOME_CORBA_EXCEPTION( "non-positive number of segments", SALOME::BAD_PARAM );
954 //=============================================================================
958 //=============================================================================
960 void SMESH_Gen_i::SetOption(const char* name, const char* value)
962 if ( name && value && strlen( value ) > 0 )
965 if ( strcmp(name, "historical_python_dump") == 0 )
967 myIsHistoricalPythonDump = ( value[0] == '1' || toupper(value[0]) == 'T' ); // 1 || true
968 msgToGUI = "preferences/SMESH/historical_python_dump/";
969 msgToGUI += myIsHistoricalPythonDump ? "true" : "false";
971 else if ( strcmp(name, "forget_mesh_on_hyp_modif") == 0 )
973 myToForgetMeshDataOnHypModif = ( value[0] == '1' || toupper(value[0]) == 'T' ); // 1 || true
974 msgToGUI = "preferences/SMESH/forget_mesh_on_hyp_modif/";
975 msgToGUI += myToForgetMeshDataOnHypModif ? "true" : "false";
977 else if ( strcmp(name, "default_grp_color") == 0 )
981 // color must be presented as a string of following form:
982 if ( str.at(0) == '#' && str.length() == 7 ) { // hexadecimal color ("#ffaa00", for example)
984 for ( size_t i = 0; i < str.length()/2; i++ )
985 if ( str.at(i*2) >= '0' && str.at(i*2) <= 'f' && str.at(i*2+1) >= '0' && str.at(i*2+1) <= 'f' )
986 color.push_back( strtol( str.substr( i*2, 2 ).c_str(), NULL, 16 ) );
988 else if ( value ) { // rgb color ("255,170,0", for example)
989 string tempValue( value );
990 char* colorValue = strtok( &tempValue[0], "," );
991 while ( colorValue != NULL ) {
992 int c_value = atoi( colorValue );
993 if ( c_value >= 0 && c_value <= 255 )
994 color.push_back( c_value );
995 colorValue = strtok( NULL, "," );
998 if ( color.size() == 3 ) { // color must have three valid component
999 SMESHDS_GroupBase::SetDefaultColor( Quantity_Color( color[0]/255., color[1]/255., color[2]/255., Quantity_TOC_RGB ) );
1000 myDefaultGroupColor = value;
1001 msgToGUI = "preferences/SMESH/default_grp_color/";
1006 // update preferences in case if SetOption() is invoked from python console
1007 if ( !msgToGUI.empty() )
1009 CORBA::Object_var obj = SMESH_Gen_i::GetNS()->Resolve( "/Kernel/Session" );
1010 SALOME::Session_var session = SALOME::Session::_narrow( obj );
1011 if ( !CORBA::is_nil( session ) )
1012 session->emitMessageOneWay(msgToGUI.c_str());
1017 //=============================================================================
1019 Return an option value
1021 //=============================================================================
1023 char* SMESH_Gen_i::GetOption(const char* name)
1027 if ( strcmp(name, "historical_python_dump") == 0 )
1029 return CORBA::string_dup( myIsHistoricalPythonDump ? "true" : "false" );
1031 if ( strcmp(name, "forget_mesh_on_hyp_modif") == 0 )
1033 return CORBA::string_dup( myToForgetMeshDataOnHypModif ? "true" : "false" );
1035 if ( strcmp(name, "default_grp_color") == 0 )
1037 return CORBA::string_dup( myDefaultGroupColor.c_str() );
1040 return CORBA::string_dup( "" );
1043 //=============================================================================
1045 * SMESH_Gen_i::CreateMesh
1047 * Create empty mesh on a shape and publish it in the study
1049 //=============================================================================
1051 SMESH::SMESH_Mesh_ptr SMESH_Gen_i::CreateMesh( GEOM::GEOM_Object_ptr theShapeObject )
1052 throw ( SALOME::SALOME_Exception )
1054 Unexpect aCatch(SALOME_SalomeException);
1055 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::CreateMesh" );
1057 SMESH::SMESH_Mesh_var mesh = this->createMesh();
1059 SMESH_Mesh_i* meshServant = SMESH::DownCast<SMESH_Mesh_i*>( mesh );
1060 ASSERT( meshServant );
1061 meshServant->SetShape( theShapeObject );
1063 // publish mesh in the study
1064 if ( CanPublishInStudy( mesh ) ) {
1065 SALOMEDS::StudyBuilder_var aStudyBuilder = getStudyServant()->NewBuilder();
1066 aStudyBuilder->NewCommand(); // There is a transaction
1067 SALOMEDS::SObject_wrap aSO = PublishMesh( mesh.in() );
1068 aStudyBuilder->CommitCommand();
1069 if ( !aSO->_is_nil() ) {
1070 // Update Python script
1071 TPythonDump() << aSO << " = " << this << ".CreateMesh(" << theShapeObject << ")";
1075 return mesh._retn();
1078 //=============================================================================
1080 * SMESH_Gen_i::CreateEmptyMesh
1084 //=============================================================================
1086 SMESH::SMESH_Mesh_ptr SMESH_Gen_i::CreateEmptyMesh()
1087 throw ( SALOME::SALOME_Exception )
1089 Unexpect aCatch(SALOME_SalomeException);
1090 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::CreateMesh" );
1092 SMESH::SMESH_Mesh_var mesh = this->createMesh();
1094 // publish mesh in the study
1095 if ( CanPublishInStudy( mesh ) ) {
1096 SALOMEDS::StudyBuilder_var aStudyBuilder = getStudyServant()->NewBuilder();
1097 aStudyBuilder->NewCommand(); // There is a transaction
1098 SALOMEDS::SObject_wrap aSO = PublishMesh( mesh.in() );
1099 aStudyBuilder->CommitCommand();
1100 if ( !aSO->_is_nil() ) {
1101 // Update Python script
1102 TPythonDump() << aSO << " = " << this << ".CreateEmptyMesh()";
1106 return mesh._retn();
1111 //================================================================================
1113 * \brief Throws an exception in case if the file can't be read
1115 //================================================================================
1117 void checkFileReadable( const char* theFileName ) throw ( SALOME::SALOME_Exception )
1119 SMESH_File f ( theFileName );
1122 if ( !f.error().empty() )
1123 THROW_SALOME_CORBA_EXCEPTION( f.error().c_str(), SALOME::BAD_PARAM);
1125 THROW_SALOME_CORBA_EXCEPTION
1126 (( SMESH_Comment("Can't open for reading the file ") << theFileName ).c_str(),
1127 SALOME::BAD_PARAM );
1132 //=============================================================================
1134 * SMESH_Gen_i::CreateMeshFromUNV
1136 * Create mesh and import data from UNV file
1138 //=============================================================================
1140 SMESH::SMESH_Mesh_ptr SMESH_Gen_i::CreateMeshesFromUNV( const char* theFileName )
1141 throw ( SALOME::SALOME_Exception )
1143 Unexpect aCatch(SALOME_SalomeException);
1145 checkFileReadable( theFileName );
1147 SMESH::SMESH_Mesh_var aMesh = createMesh();
1149 // publish mesh in the study
1150 if ( CanPublishInStudy( aMesh ) ) {
1151 SALOMEDS::StudyBuilder_var aStudyBuilder = getStudyServant()->NewBuilder();
1152 aStudyBuilder->NewCommand(); // There is a transaction
1153 SALOMEDS::SObject_wrap aSO = PublishMesh( aMesh.in(), aFileName.c_str() );
1154 aStudyBuilder->CommitCommand();
1155 if ( !aSO->_is_nil() ) {
1156 // Update Python script
1157 TPythonDump() << aSO << " = " << this << ".CreateMeshesFromUNV(r'" << theFileName << "')";
1161 SMESH_Mesh_i* aServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( aMesh ).in() );
1163 aServant->ImportUNVFile( theFileName );
1165 // Dump creation of groups
1166 SMESH::ListOfGroups_var groups = aServant->GetGroups();
1168 aServant->GetImpl().GetMeshDS()->Modified();
1169 return aMesh._retn();
1172 //=============================================================================
1174 * SMESH_Gen_i::CreateMeshFromMED
1176 * Create mesh and import data from MED file
1178 //=============================================================================
1180 SMESH::mesh_array* SMESH_Gen_i::CreateMeshesFromMEDorSAUV( const char* theFileName,
1181 SMESH::DriverMED_ReadStatus& theStatus,
1182 const char* theCommandNameForPython,
1183 const char* theFileNameForPython)
1186 char bname[ _MAX_FNAME ];
1187 _splitpath( theFileNameForPython, NULL, NULL, bname, NULL );
1188 string aFileName = bname;
1190 string aFileName = basename( const_cast<char *>(theFileNameForPython) );
1192 // Retrieve mesh names from the file
1193 DriverMED_R_SMESHDS_Mesh myReader;
1194 myReader.SetFile( theFileName );
1195 myReader.SetMeshId( -1 );
1196 Driver_Mesh::Status aStatus;
1197 list<string> aNames = myReader.GetMeshNames(aStatus);
1198 SMESH::mesh_array_var aResult = new SMESH::mesh_array();
1199 theStatus = (SMESH::DriverMED_ReadStatus)aStatus;
1201 { // open a new scope to make aPythonDump die before PythonDump in SMESH_Mesh::GetGroups()
1204 TPythonDump aPythonDump;
1205 aPythonDump << "([";
1207 if (theStatus == SMESH::DRS_OK) {
1208 SALOMEDS::StudyBuilder_var aStudyBuilder;
1209 aStudyBuilder = getStudyServant()->NewBuilder();
1210 aStudyBuilder->NewCommand(); // There is a transaction
1212 aResult->length( aNames.size() );
1215 // Iterate through all meshes and create mesh objects
1216 for ( list<string>::iterator it = aNames.begin(); it != aNames.end(); it++ )
1219 if (i > 0) aPythonDump << ", ";
1222 SMESH::SMESH_Mesh_var mesh = createMesh();
1224 // publish mesh in the study
1225 SALOMEDS::SObject_wrap aSO;
1226 if ( CanPublishInStudy( mesh ) )
1227 // little trick: for MED file theFileName and theFileNameForPython are the same, but they are different for SAUV
1228 // - as names of meshes are stored in MED file, we use them for data publishing
1229 // - as mesh name is not stored in UNV file, we use file name as name of mesh when publishing data
1230 aSO = PublishMesh( mesh.in(), ( theFileName == theFileNameForPython ) ? (*it).c_str() : aFileName.c_str() );
1233 if ( !aSO->_is_nil() ) {
1236 aPythonDump << "mesh_" << i;
1239 // Read mesh data (groups are published automatically by ImportMEDFile())
1240 SMESH_Mesh_i* meshServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( mesh ).in() );
1241 ASSERT( meshServant );
1242 SMESH::DriverMED_ReadStatus status1 =
1243 meshServant->ImportMEDFile( theFileName, (*it).c_str() );
1244 if (status1 > theStatus)
1245 theStatus = status1;
1247 aResult[i++] = SMESH::SMESH_Mesh::_duplicate( mesh );
1248 meshServant->GetImpl().GetMeshDS()->Modified();
1250 if ( !aStudyBuilder->_is_nil() )
1251 aStudyBuilder->CommitCommand();
1254 // Update Python script
1255 aPythonDump << "], status) = " << this << "." << theCommandNameForPython << "(r'" << theFileNameForPython << "')";
1257 // Dump creation of groups
1258 for ( CORBA::ULong i = 0; i < aResult->length(); ++i )
1259 SMESH::ListOfGroups_var groups = aResult[ i ]->GetGroups();
1261 return aResult._retn();
1264 SMESH::mesh_array* SMESH_Gen_i::CreateMeshesFromMED( const char* theFileName,
1265 SMESH::DriverMED_ReadStatus& theStatus)
1266 throw ( SALOME::SALOME_Exception )
1268 Unexpect aCatch(SALOME_SalomeException);
1269 checkFileReadable( theFileName );
1271 SMESH::mesh_array* result = CreateMeshesFromMEDorSAUV(theFileName, theStatus, "CreateMeshesFromMED", theFileName);
1275 //=============================================================================
1277 * SMESH_Gen_i::CreateMeshFromSAUV
1279 * Create mesh and import data from SAUV file
1281 //=============================================================================
1283 SMESH::mesh_array* SMESH_Gen_i::CreateMeshesFromSAUV( const char* theFileName,
1284 SMESH::DriverMED_ReadStatus& theStatus)
1285 throw ( SALOME::SALOME_Exception )
1287 Unexpect aCatch(SALOME_SalomeException);
1288 checkFileReadable( theFileName );
1290 std::string sauvfilename(theFileName);
1291 std::string medfilename(theFileName);
1292 medfilename += ".med";
1295 cmd = "%PYTHONBIN% ";
1300 cmd += "from medutilities import convert ; convert(r'" + sauvfilename + "', 'GIBI', 'MED', 1, r'" + medfilename + "')";
1302 system(cmd.c_str());
1303 SMESH::mesh_array* result = CreateMeshesFromMEDorSAUV(medfilename.c_str(), theStatus, "CreateMeshesFromSAUV", sauvfilename.c_str());
1305 cmd = "%PYTHONBIN% ";
1310 cmd += "from medutilities import my_remove ; my_remove(r'" + medfilename + "')";
1312 system(cmd.c_str());
1316 //=============================================================================
1318 * SMESH_Gen_i::CreateMeshFromSTL
1320 * Create mesh and import data from STL file
1322 //=============================================================================
1324 SMESH::SMESH_Mesh_ptr SMESH_Gen_i::CreateMeshesFromSTL( const char* theFileName )
1325 throw ( SALOME::SALOME_Exception )
1327 Unexpect aCatch(SALOME_SalomeException);
1328 checkFileReadable( theFileName );
1330 SMESH::SMESH_Mesh_var aMesh = createMesh();
1333 char bname[ _MAX_FNAME ];
1334 _splitpath( theFileName, NULL, NULL, bname, NULL );
1335 string aFileName = bname;
1337 string aFileName = basename( const_cast<char *>(theFileName) );
1339 // publish mesh in the study
1340 if ( CanPublishInStudy( aMesh ) ) {
1341 SALOMEDS::StudyBuilder_var aStudyBuilder = getStudyServant()->NewBuilder();
1342 aStudyBuilder->NewCommand(); // There is a transaction
1343 SALOMEDS::SObject_wrap aSO = PublishInStudy( SALOMEDS::SObject::_nil(), aMesh.in(), aFileName.c_str() );
1344 aStudyBuilder->CommitCommand();
1345 if ( !aSO->_is_nil() ) {
1346 // Update Python script
1347 TPythonDump() << aSO << " = " << this << ".CreateMeshesFromSTL(r'" << theFileName << "')";
1351 SMESH_Mesh_i* aServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( aMesh ).in() );
1353 aServant->ImportSTLFile( theFileName );
1354 aServant->GetImpl().GetMeshDS()->Modified();
1355 return aMesh._retn();
1358 //================================================================================
1360 * \brief Create meshes and import data from the CGSN file
1362 //================================================================================
1364 SMESH::mesh_array* SMESH_Gen_i::CreateMeshesFromCGNS( const char* theFileName,
1365 SMESH::DriverMED_ReadStatus& theStatus)
1366 throw ( SALOME::SALOME_Exception )
1368 Unexpect aCatch(SALOME_SalomeException);
1369 checkFileReadable( theFileName );
1371 SMESH::mesh_array_var aResult = new SMESH::mesh_array();
1374 // Retrieve nb meshes from the file
1375 DriverCGNS_Read myReader;
1376 myReader.SetFile( theFileName );
1377 Driver_Mesh::Status aStatus;
1378 int nbMeshes = myReader.GetNbMeshes(aStatus);
1379 theStatus = (SMESH::DriverMED_ReadStatus)aStatus;
1381 aResult->length( nbMeshes );
1383 { // open a new scope to make aPythonDump die before PythonDump in SMESH_Mesh::GetGroups()
1386 TPythonDump aPythonDump;
1387 aPythonDump << "([";
1389 if (theStatus == SMESH::DRS_OK)
1391 SALOMEDS::StudyBuilder_var aStudyBuilder = getStudyServant()->NewBuilder();
1392 aStudyBuilder->NewCommand(); // There is a transaction
1396 // Iterate through all meshes and create mesh objects
1397 for ( ; i < nbMeshes; ++i )
1400 if (i > 0) aPythonDump << ", ";
1403 SMESH::SMESH_Mesh_var mesh = createMesh();
1404 aResult[i] = SMESH::SMESH_Mesh::_duplicate( mesh );
1406 // Read mesh data (groups are published automatically by ImportMEDFile())
1407 SMESH_Mesh_i* meshServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( mesh ).in() );
1408 ASSERT( meshServant );
1410 SMESH::DriverMED_ReadStatus status1 =
1411 meshServant->ImportCGNSFile( theFileName, i, meshName );
1412 if (status1 > theStatus)
1413 theStatus = status1;
1415 meshServant->GetImpl().GetMeshDS()->Modified();
1416 // publish mesh in the study
1417 SALOMEDS::SObject_wrap aSO;
1418 if ( CanPublishInStudy( mesh ) )
1419 aSO = PublishMesh( mesh.in(), meshName.c_str() );
1422 if ( !aSO->_is_nil() ) {
1426 aPythonDump << "mesh_" << i;
1429 aStudyBuilder->CommitCommand();
1432 aPythonDump << "], status) = " << this << ".CreateMeshesFromCGNS(r'" << theFileName << "')";
1434 // Dump creation of groups
1435 for ( CORBA::ULong i = 0; i < aResult->length(); ++i )
1436 SMESH::ListOfGroups_var groups = aResult[ i ]->GetGroups();
1438 THROW_SALOME_CORBA_EXCEPTION("CGNS library is unavailable", SALOME::INTERNAL_ERROR);
1441 return aResult._retn();
1444 //================================================================================
1446 * \brief Create a mesh and import data from a GMF file
1448 //================================================================================
1450 SMESH::SMESH_Mesh_ptr
1451 SMESH_Gen_i::CreateMeshesFromGMF( const char* theFileName,
1452 CORBA::Boolean theMakeRequiredGroups,
1453 SMESH::ComputeError_out theError)
1454 throw ( SALOME::SALOME_Exception )
1456 Unexpect aCatch(SALOME_SalomeException);
1457 checkFileReadable( theFileName );
1459 SMESH::SMESH_Mesh_var aMesh = createMesh();
1461 char bname[ _MAX_FNAME ];
1462 _splitpath( theFileName, NULL, NULL, bname, NULL );
1463 string aFileName = bname;
1465 string aFileName = basename( const_cast<char *>(theFileName) );
1467 // publish mesh in the study
1468 if ( CanPublishInStudy( aMesh ) ) {
1469 SALOMEDS::StudyBuilder_var aStudyBuilder = getStudyServant()->NewBuilder();
1470 aStudyBuilder->NewCommand(); // There is a transaction
1471 SALOMEDS::SObject_wrap aSO = PublishInStudy( SALOMEDS::SObject::_nil(), aMesh.in(), aFileName.c_str() );
1472 aStudyBuilder->CommitCommand();
1473 if ( !aSO->_is_nil() ) {
1474 // Update Python script
1475 TPythonDump() << "("<< aSO << ", error) = " << this << ".CreateMeshesFromGMF(r'"
1476 << theFileName << "', "
1477 << theMakeRequiredGroups << " )";
1480 SMESH_Mesh_i* aServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( aMesh ).in() );
1482 theError = aServant->ImportGMFFile( theFileName, theMakeRequiredGroups );
1483 aServant->GetImpl().GetMeshDS()->Modified();
1484 return aMesh._retn();
1488 //=============================================================================
1490 * SMESH_Gen_i::IsReadyToCompute
1492 * Returns true if mesh contains enough data to be computed
1494 //=============================================================================
1496 CORBA::Boolean SMESH_Gen_i::IsReadyToCompute( SMESH::SMESH_Mesh_ptr theMesh,
1497 GEOM::GEOM_Object_ptr theShapeObject )
1498 throw ( SALOME::SALOME_Exception )
1500 Unexpect aCatch(SALOME_SalomeException);
1501 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::IsReadyToCompute" );
1503 if ( CORBA::is_nil( theShapeObject ) )
1504 THROW_SALOME_CORBA_EXCEPTION( "bad shape object reference",
1505 SALOME::BAD_PARAM );
1507 if ( CORBA::is_nil( theMesh ) )
1508 THROW_SALOME_CORBA_EXCEPTION( "bad Mesh reference",
1509 SALOME::BAD_PARAM );
1513 SMESH_Mesh_i* meshServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( theMesh ).in() );
1514 ASSERT( meshServant );
1515 if ( meshServant ) {
1516 // get local TopoDS_Shape
1517 TopoDS_Shape myLocShape = GeomObjectToShape( theShapeObject );
1518 // call implementation
1519 ::SMESH_Mesh& myLocMesh = meshServant->GetImpl();
1520 return myGen.CheckAlgoState( myLocMesh, myLocShape );
1523 catch ( SALOME_Exception& S_ex ) {
1524 INFOS( "catch exception "<< S_ex.what() );
1529 //================================================================================
1531 * \brief Find SObject for an algo
1533 //================================================================================
1535 SALOMEDS::SObject_ptr SMESH_Gen_i::GetAlgoSO(const ::SMESH_Algo* algo)
1538 SALOMEDS::Study_var aStudy = getStudyServant();
1539 if ( !aStudy->_is_nil() ) {
1540 // find algo in the study
1541 CORBA::String_var compDataType = ComponentDataType();
1542 SALOMEDS::SComponent_wrap father = aStudy->FindComponent( compDataType.in() );
1543 if ( !father->_is_nil() ) {
1544 SALOMEDS::ChildIterator_wrap itBig = aStudy->NewChildIterator( father );
1545 for ( ; itBig->More(); itBig->Next() ) {
1546 SALOMEDS::SObject_wrap gotBranch = itBig->Value();
1547 if ( gotBranch->Tag() == GetAlgorithmsRootTag() ) {
1548 SALOMEDS::ChildIterator_wrap algoIt = aStudy->NewChildIterator( gotBranch );
1549 for ( ; algoIt->More(); algoIt->Next() ) {
1550 SALOMEDS::SObject_wrap algoSO = algoIt->Value();
1551 CORBA::Object_var algoIOR = SObjectToObject( algoSO );
1552 if ( !CORBA::is_nil( algoIOR )) {
1553 SMESH_Hypothesis_i* impl = SMESH::DownCast<SMESH_Hypothesis_i*>( algoIOR );
1554 if ( impl && impl->GetImpl() == algo )
1555 return algoSO._retn();
1557 } // loop on algo SO's
1560 } // SMESH component iterator
1564 return SALOMEDS::SObject::_nil();
1567 //================================================================================
1569 * \brief Return errors of mesh computation
1571 //================================================================================
1573 SMESH::compute_error_array* SMESH_Gen_i::GetComputeErrors( SMESH::SMESH_Mesh_ptr theMesh,
1574 GEOM::GEOM_Object_ptr theSubObject )
1575 throw ( SALOME::SALOME_Exception )
1577 Unexpect aCatch(SALOME_SalomeException);
1578 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::GetComputeErrors()" );
1580 if ( CORBA::is_nil( theSubObject ) && theMesh->HasShapeToMesh())
1581 THROW_SALOME_CORBA_EXCEPTION( "bad shape object reference", SALOME::BAD_PARAM );
1583 if ( CORBA::is_nil( theMesh ) )
1584 THROW_SALOME_CORBA_EXCEPTION( "bad Mesh reference",SALOME::BAD_PARAM );
1586 SMESH::compute_error_array_var error_array = new SMESH::compute_error_array;
1588 if ( SMESH_Mesh_i* meshServant = SMESH::DownCast<SMESH_Mesh_i*>( theMesh ))
1591 if(theMesh->HasShapeToMesh())
1592 shape = GeomObjectToShape( theSubObject );
1594 shape = SMESH_Mesh::PseudoShape();
1596 ::SMESH_Mesh& mesh = meshServant->GetImpl();
1598 error_array->length( mesh.GetMeshDS()->MaxShapeIndex() );
1601 SMESH_subMesh *sm = mesh.GetSubMesh(shape);
1602 const bool includeSelf = true, complexShapeFirst = true;
1603 SMESH_subMeshIteratorPtr smIt = sm->getDependsOnIterator(includeSelf,
1605 while ( smIt->more() )
1608 // if ( sm->GetSubShape().ShapeType() == TopAbs_VERTEX )
1610 SMESH_ComputeErrorPtr error = sm->GetComputeError();
1611 if ( error && !error->IsOK() )
1613 if ( !( error->myAlgo ) &&
1614 !( error->myAlgo = sm->GetAlgo() ))
1616 SMESH::ComputeError & errStruct = error_array[ nbErr++ ];
1617 errStruct.code = -( error->myName < 0 ? error->myName + 1: error->myName ); // -1 -> 0
1618 errStruct.comment = error->myComment.c_str();
1619 errStruct.subShapeID = sm->GetId();
1620 SALOMEDS::SObject_wrap algoSO = GetAlgoSO( error->myAlgo );
1621 if ( !algoSO->_is_nil() ) {
1622 CORBA::String_var algoName = algoSO->GetName();
1623 errStruct.algoName = algoName;
1626 errStruct.algoName = error->myAlgo->GetName();
1628 errStruct.hasBadMesh = error->HasBadElems();
1631 error_array->length( nbErr );
1634 catch ( SALOME_Exception& S_ex ) {
1635 INFOS( "catch exception "<< S_ex.what() );
1638 return error_array._retn();
1641 //================================================================================
1643 * \brief Return mesh elements preventing computation of a subshape
1645 //================================================================================
1647 SMESH::MeshPreviewStruct*
1648 SMESH_Gen_i::GetBadInputElements( SMESH::SMESH_Mesh_ptr theMesh,
1649 CORBA::Short theSubShapeID )
1650 throw ( SALOME::SALOME_Exception )
1652 Unexpect aCatch(SALOME_SalomeException);
1653 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::GetBadInputElements()" );
1655 if ( CORBA::is_nil( theMesh ) )
1656 THROW_SALOME_CORBA_EXCEPTION( "bad Mesh reference",SALOME::BAD_PARAM );
1658 SMESH::MeshPreviewStruct_var result = new SMESH::MeshPreviewStruct;
1661 if ( SMESH_Mesh_i* meshServant = SMESH::DownCast<SMESH_Mesh_i*>( theMesh ))
1663 // mesh implementation
1664 ::SMESH_Mesh& mesh = meshServant->GetImpl();
1665 // submesh by subshape id
1666 if ( SMESH_subMesh * sm = mesh.GetSubMeshContaining( theSubShapeID ))
1669 SMESH_ComputeErrorPtr error = sm->GetComputeError();
1670 if ( error && error->HasBadElems() )
1672 typedef map<const SMDS_MeshElement*, int > TNode2LocalIDMap;
1673 typedef TNode2LocalIDMap::iterator TNodeLocalID;
1675 // get nodes of elements and count elements
1676 TNode2LocalIDMap mapNode2LocalID;
1677 list< TNodeLocalID > connectivity;
1678 int i, nbElements = 0, nbConnNodes = 0;
1680 const list<const SMDS_MeshElement*>& badElems =
1681 static_cast<SMESH_BadInputElements*>( error.get() )->myBadElements;
1682 list<const SMDS_MeshElement*>::const_iterator elemIt = badElems.begin();
1683 list<const SMDS_MeshElement*>::const_iterator elemEnd = badElems.end();
1684 for ( ; elemIt != elemEnd; ++elemIt, ++nbElements )
1686 SMDS_ElemIteratorPtr nIt = (*elemIt)->nodesIterator();
1687 while ( nIt->more() )
1688 connectivity.push_back
1689 ( mapNode2LocalID.insert( make_pair( nIt->next(), ++nbConnNodes)).first );
1691 // fill node coords and assign local ids to the nodes
1692 int nbNodes = mapNode2LocalID.size();
1693 result->nodesXYZ.length( nbNodes );
1694 TNodeLocalID node2ID = mapNode2LocalID.begin();
1695 for ( i = 0; i < nbNodes; ++i, ++node2ID ) {
1696 node2ID->second = i;
1697 const SMDS_MeshNode* node = (const SMDS_MeshNode*) node2ID->first;
1698 result->nodesXYZ[i].x = node->X();
1699 result->nodesXYZ[i].y = node->Y();
1700 result->nodesXYZ[i].z = node->Z();
1702 // fill connectivity
1703 result->elementConnectivities.length( nbConnNodes );
1704 list< TNodeLocalID >::iterator connIt = connectivity.begin();
1705 for ( i = 0; i < nbConnNodes; ++i, ++connIt ) {
1706 result->elementConnectivities[i] = (*connIt)->second;
1708 // fill element types
1709 result->elementTypes.length( nbElements );
1710 for ( i = 0, elemIt = badElems.begin(); i <nbElements; ++i, ++elemIt )
1712 const SMDS_MeshElement* elem = *elemIt;
1713 result->elementTypes[i].SMDS_ElementType = (SMESH::ElementType) elem->GetType();
1714 result->elementTypes[i].isPoly = elem->IsPoly();
1715 result->elementTypes[i].nbNodesInElement = elem->NbNodes();
1721 catch ( SALOME_Exception& S_ex ) {
1722 INFOS( "catch exception "<< S_ex.what() );
1725 return result._retn();
1728 //================================================================================
1730 * \brief Create a group of elements preventing computation of a sub-shape
1732 //================================================================================
1734 SMESH::ListOfGroups*
1735 SMESH_Gen_i::MakeGroupsOfBadInputElements( SMESH::SMESH_Mesh_ptr theMesh,
1736 CORBA::Short theSubShapeID,
1737 const char* theGroupName )
1738 throw ( SALOME::SALOME_Exception )
1740 Unexpect aCatch(SALOME_SalomeException);
1742 SMESH::ListOfGroups_var groups;
1744 if ( CORBA::is_nil( theMesh ) )
1745 THROW_SALOME_CORBA_EXCEPTION( "bad Mesh reference",SALOME::BAD_PARAM );
1748 if ( SMESH_Mesh_i* meshServant = SMESH::DownCast<SMESH_Mesh_i*>( theMesh ))
1750 groups = meshServant->MakeGroupsOfBadInputElements( theSubShapeID, theGroupName );
1751 TPythonDump() << groups << " = " << this
1752 << ".MakeGroupsOfBadInputElements( "
1753 << theMesh << ", " << theSubShapeID << ", '" << theGroupName << "' )";
1756 catch ( SALOME_Exception& S_ex ) {
1757 INFOS( "catch exception "<< S_ex.what() );
1759 return groups._retn();
1762 //================================================================================
1764 * \brief Returns errors of hypotheses definition
1765 * \param theMesh - the mesh
1766 * \param theSubObject - the main or sub- shape
1767 * \retval SMESH::algo_error_array* - sequence of errors
1769 //================================================================================
1771 SMESH::algo_error_array* SMESH_Gen_i::GetAlgoState( SMESH::SMESH_Mesh_ptr theMesh,
1772 GEOM::GEOM_Object_ptr theSubObject )
1773 throw ( SALOME::SALOME_Exception )
1775 Unexpect aCatch(SALOME_SalomeException);
1776 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::GetAlgoState()" );
1778 if ( CORBA::is_nil( theSubObject ) && theMesh->HasShapeToMesh())
1779 THROW_SALOME_CORBA_EXCEPTION( "bad shape object reference", SALOME::BAD_PARAM );
1781 if ( CORBA::is_nil( theMesh ) )
1782 THROW_SALOME_CORBA_EXCEPTION( "bad Mesh reference",SALOME::BAD_PARAM );
1784 SMESH::algo_error_array_var error_array = new SMESH::algo_error_array;
1786 SMESH_Mesh_i* meshServant = SMESH::DownCast<SMESH_Mesh_i*>( theMesh );
1787 ASSERT( meshServant );
1788 if ( meshServant ) {
1789 TopoDS_Shape myLocShape;
1790 if(theMesh->HasShapeToMesh())
1791 myLocShape = GeomObjectToShape( theSubObject );
1793 myLocShape = SMESH_Mesh::PseudoShape();
1795 ::SMESH_Mesh& myLocMesh = meshServant->GetImpl();
1796 list< ::SMESH_Gen::TAlgoStateError > error_list;
1797 list< ::SMESH_Gen::TAlgoStateError >::iterator error;
1798 // call ::SMESH_Gen::GetAlgoState()
1799 myGen.GetAlgoState( myLocMesh, myLocShape, error_list );
1800 error_array->length( error_list.size() );
1802 for ( error = error_list.begin(); error != error_list.end(); ++error )
1804 // fill AlgoStateError structure
1805 SMESH::AlgoStateError & errStruct = error_array[ i++ ];
1806 errStruct.state = SMESH_Mesh_i::ConvertHypothesisStatus( error->_name );
1807 errStruct.algoDim = error->_algoDim;
1808 errStruct.isGlobalAlgo = error->_isGlobalAlgo;
1809 errStruct.algoName = "";
1810 SALOMEDS::SObject_wrap algoSO = GetAlgoSO( error->_algo );
1811 if ( !algoSO->_is_nil() ) {
1812 CORBA::String_var algoName = algoSO->GetName();
1813 errStruct.algoName = algoName.in();
1818 catch ( SALOME_Exception& S_ex ) {
1819 INFOS( "catch exception "<< S_ex.what() );
1821 return error_array._retn();
1824 //=============================================================================
1826 * SMESH_Gen_i::GetSubShapesId
1828 * Get sub-shapes unique ID's list
1830 //=============================================================================
1833 SMESH_Gen_i::GetSubShapesId( GEOM::GEOM_Object_ptr theMainShapeObject,
1834 const SMESH::object_array& theListOfSubShapeObject )
1835 throw ( SALOME::SALOME_Exception )
1837 Unexpect aCatch(SALOME_SalomeException);
1838 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::GetSubShapesId" );
1840 SMESH::long_array_var shapesId = new SMESH::long_array;
1843 if ( CORBA::is_nil( theMainShapeObject ) )
1844 THROW_SALOME_CORBA_EXCEPTION( "bad shape object reference", SALOME::BAD_PARAM );
1848 TopoDS_Shape myMainShape = GeomObjectToShape(theMainShapeObject);
1849 TopTools_IndexedMapOfShape myIndexToShape;
1850 TopExp::MapShapes(myMainShape,myIndexToShape);
1852 for ( CORBA::ULong i = 0; i < theListOfSubShapeObject.length(); i++ )
1854 GEOM::GEOM_Object_var aShapeObject
1855 = GEOM::GEOM_Object::_narrow(theListOfSubShapeObject[i]);
1856 if ( CORBA::is_nil( aShapeObject ) )
1857 THROW_SALOME_CORBA_EXCEPTION ("bad shape object reference", \
1858 SALOME::BAD_PARAM );
1860 TopoDS_Shape locShape = GeomObjectToShape(aShapeObject);
1861 for (TopExp_Explorer exp(locShape,TopAbs_FACE); exp.More(); exp.Next())
1863 const TopoDS_Face& F = TopoDS::Face(exp.Current());
1864 setId.insert(myIndexToShape.FindIndex(F));
1865 if(MYDEBUG) SCRUTE(myIndexToShape.FindIndex(F));
1867 for (TopExp_Explorer exp(locShape,TopAbs_EDGE); exp.More(); exp.Next())
1869 const TopoDS_Edge& E = TopoDS::Edge(exp.Current());
1870 setId.insert(myIndexToShape.FindIndex(E));
1871 if(MYDEBUG) SCRUTE(myIndexToShape.FindIndex(E));
1873 for (TopExp_Explorer exp(locShape,TopAbs_VERTEX); exp.More(); exp.Next())
1875 const TopoDS_Vertex& V = TopoDS::Vertex(exp.Current());
1876 setId.insert(myIndexToShape.FindIndex(V));
1877 if(MYDEBUG) SCRUTE(myIndexToShape.FindIndex(V));
1880 shapesId->length(setId.size());
1881 set<int>::iterator iind;
1883 for (iind = setId.begin(); iind != setId.end(); iind++)
1885 if(MYDEBUG) SCRUTE((*iind));
1886 shapesId[i] = (*iind);
1887 if(MYDEBUG) SCRUTE(shapesId[i]);
1891 catch (SALOME_Exception& S_ex)
1893 THROW_SALOME_CORBA_EXCEPTION(S_ex.what(), SALOME::BAD_PARAM);
1896 return shapesId._retn();
1899 //=============================================================================
1901 * SMESH_Gen_i::Compute
1903 * Compute mesh on a shape
1905 //=============================================================================
1907 CORBA::Boolean SMESH_Gen_i::Compute( SMESH::SMESH_Mesh_ptr theMesh,
1908 GEOM::GEOM_Object_ptr theShapeObject )
1909 throw ( SALOME::SALOME_Exception )
1912 Unexpect aCatch(SALOME_SalomeException);
1913 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::Compute" );
1915 if ( CORBA::is_nil( theShapeObject ) && theMesh->HasShapeToMesh())
1916 THROW_SALOME_CORBA_EXCEPTION( "bad shape object reference",
1917 SALOME::BAD_PARAM );
1919 if ( CORBA::is_nil( theMesh ) )
1920 THROW_SALOME_CORBA_EXCEPTION( "bad Mesh reference",
1921 SALOME::BAD_PARAM );
1923 // Update Python script
1924 TPythonDump() << "isDone = " << this << ".Compute( "
1925 << theMesh << ", " << theShapeObject << ")";
1929 SMESH_Mesh_i* meshServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( theMesh ).in() );
1930 ASSERT( meshServant );
1931 if ( meshServant ) {
1932 meshServant->Load();
1933 // NPAL16168: "geometrical group edition from a submesh don't modify mesh computation"
1934 meshServant->CheckGeomModif();
1935 // get local TopoDS_Shape
1936 TopoDS_Shape myLocShape;
1937 if(theMesh->HasShapeToMesh())
1938 myLocShape = GeomObjectToShape( theShapeObject );
1940 myLocShape = SMESH_Mesh::PseudoShape();
1941 // call implementation compute
1942 ::SMESH_Mesh& myLocMesh = meshServant->GetImpl();
1943 myGen.PrepareCompute( myLocMesh, myLocShape );
1944 int how = ::SMESH_Gen::COMPACT_MESH;
1945 if ( myLocShape != myLocMesh.GetShapeToMesh() ) // compute a sub-mesh
1946 how |= ::SMESH_Gen::SHAPE_ONLY;
1947 bool ok = myGen.Compute( myLocMesh, myLocShape, how );
1948 meshServant->CreateGroupServants(); // algos can create groups (issue 0020918)
1949 myLocMesh.GetMeshDS()->Modified();
1950 UpdateIcons( theMesh );
1954 catch ( std::bad_alloc ) {
1955 INFOS( "Compute(): lack of memory" );
1957 catch ( SALOME_Exception& S_ex ) {
1958 INFOS( "Compute(): catch exception "<< S_ex.what() );
1961 INFOS( "Compute(): unknown exception " );
1966 //=============================================================================
1968 * SMESH_Gen_i::CancelCompute
1970 * Cancel Compute mesh on a shape
1972 //=============================================================================
1974 void SMESH_Gen_i::CancelCompute( SMESH::SMESH_Mesh_ptr theMesh,
1975 GEOM::GEOM_Object_ptr theShapeObject )
1977 SMESH_Mesh_i* meshServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( theMesh ).in() );
1978 ::SMESH_Mesh& myLocMesh = meshServant->GetImpl();
1979 TopoDS_Shape myLocShape;
1980 if(theMesh->HasShapeToMesh())
1981 myLocShape = GeomObjectToShape( theShapeObject );
1983 myLocShape = SMESH_Mesh::PseudoShape();
1984 myGen.CancelCompute( myLocMesh, myLocShape);
1987 //=============================================================================
1989 * SMESH_Gen_i::Precompute
1991 * Compute mesh as preview till indicated dimension on shape
1993 //=============================================================================
1995 SMESH::MeshPreviewStruct* SMESH_Gen_i::Precompute( SMESH::SMESH_Mesh_ptr theMesh,
1996 GEOM::GEOM_Object_ptr theShapeObject,
1997 SMESH::Dimension theDimension,
1998 SMESH::long_array& theShapesId)
1999 throw ( SALOME::SALOME_Exception )
2001 Unexpect aCatch(SALOME_SalomeException);
2002 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::Precompute" );
2004 if ( CORBA::is_nil( theShapeObject ) && theMesh->HasShapeToMesh())
2005 THROW_SALOME_CORBA_EXCEPTION( "bad shape object reference",
2006 SALOME::BAD_PARAM );
2008 if ( CORBA::is_nil( theMesh ) )
2009 THROW_SALOME_CORBA_EXCEPTION( "bad Mesh reference",
2010 SALOME::BAD_PARAM );
2012 SMESH::MeshPreviewStruct_var result = new SMESH::MeshPreviewStruct;
2015 SMESH_Mesh_i* meshServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( theMesh ).in() );
2016 meshServant->Load();
2017 ASSERT( meshServant );
2018 if ( meshServant ) {
2019 // NPAL16168: "geometrical group edition from a submesh don't modify mesh computation"
2020 meshServant->CheckGeomModif();
2021 // get local TopoDS_Shape
2022 TopoDS_Shape myLocShape;
2023 if(theMesh->HasShapeToMesh())
2024 myLocShape = GeomObjectToShape( theShapeObject );
2026 return result._retn();;
2028 // call implementation compute
2029 ::SMESH_Mesh& myLocMesh = meshServant->GetImpl();
2031 ::MeshDimension aDim = (MeshDimension)theDimension;
2032 if ( myGen.Compute( myLocMesh, myLocShape, ::SMESH_Gen::COMPACT_MESH, aDim, &shapeIds ) )
2034 int nbShapeId = shapeIds.size();
2035 theShapesId.length( nbShapeId );
2036 // iterates on shapes and collect mesh entities into mesh preview
2037 TSetOfInt::const_iterator idIt = shapeIds.begin();
2038 TSetOfInt::const_iterator idEnd = shapeIds.end();
2039 std::map< int, int > mapOfShIdNb;
2040 std::set< SMESH_TLink > setOfEdge;
2041 std::list< SMDSAbs_ElementType > listOfElemType;
2042 typedef map<const SMDS_MeshElement*, int > TNode2LocalIDMap;
2043 typedef TNode2LocalIDMap::iterator TNodeLocalID;
2044 TNode2LocalIDMap mapNode2LocalID;
2045 list< TNodeLocalID > connectivity;
2046 int i, nbConnNodes = 0;
2047 std::set< const SMESH_subMesh* > setOfVSubMesh;
2048 // iterates on shapes
2049 for ( ; idIt != idEnd; idIt++ )
2051 if ( mapOfShIdNb.find( *idIt ) != mapOfShIdNb.end() )
2053 SMESH_subMesh* sm = myLocMesh.GetSubMeshContaining(*idIt);
2054 if ( !sm || !sm->IsMeshComputed() )
2057 const TopoDS_Shape& aSh = sm->GetSubShape();
2058 const int shDim = myGen.GetShapeDim( aSh );
2059 if ( shDim < 1 || shDim > theDimension )
2062 mapOfShIdNb[ *idIt ] = 0;
2063 theShapesId[ mapOfShIdNb.size() - 1 ] = *idIt;
2065 SMESHDS_SubMesh* smDS = sm->GetSubMeshDS();
2066 if ( !smDS ) continue;
2068 if ( theDimension == SMESH::DIM_2D )
2070 SMDS_ElemIteratorPtr faceIt = smDS->GetElements();
2071 while ( faceIt->more() )
2073 const SMDS_MeshElement* face = faceIt->next();
2074 int aNbNode = face->NbNodes();
2076 aNbNode /= 2; // do not take into account additional middle nodes
2078 SMDS_MeshNode* node1 = (SMDS_MeshNode*)face->GetNode( 0 );
2079 for ( int nIndx = 0; nIndx < aNbNode; nIndx++ )
2081 SMDS_MeshNode* node2 = (SMDS_MeshNode*)face->GetNode( nIndx+1 < aNbNode ? nIndx+1 : 0 );
2082 if ( setOfEdge.insert( SMESH_TLink ( node1, node2 ) ).second )
2084 listOfElemType.push_back( SMDSAbs_Edge );
2085 connectivity.push_back
2086 ( mapNode2LocalID.insert( make_pair( node1, ++nbConnNodes)).first );
2087 connectivity.push_back
2088 ( mapNode2LocalID.insert( make_pair( node2, ++nbConnNodes)).first );
2094 else if ( theDimension == SMESH::DIM_1D )
2096 SMDS_NodeIteratorPtr nodeIt = smDS->GetNodes();
2097 while ( nodeIt->more() )
2099 listOfElemType.push_back( SMDSAbs_Node );
2100 connectivity.push_back
2101 ( mapNode2LocalID.insert( make_pair( nodeIt->next(), ++nbConnNodes)).first );
2103 // add corner nodes by first vertex from edge
2104 SMESH_subMeshIteratorPtr edgeSmIt =
2105 sm->getDependsOnIterator(/*includeSelf*/false,
2106 /*complexShapeFirst*/false);
2107 while ( edgeSmIt->more() )
2109 SMESH_subMesh* vertexSM = edgeSmIt->next();
2110 // check that vertex is not already treated
2111 if ( !setOfVSubMesh.insert( vertexSM ).second )
2113 if ( vertexSM->GetSubShape().ShapeType() != TopAbs_VERTEX )
2116 const SMESHDS_SubMesh* vertexSmDS = vertexSM->GetSubMeshDS();
2117 SMDS_NodeIteratorPtr nodeIt = vertexSmDS->GetNodes();
2118 while ( nodeIt->more() )
2120 listOfElemType.push_back( SMDSAbs_Node );
2121 connectivity.push_back
2122 ( mapNode2LocalID.insert( make_pair( nodeIt->next(), ++nbConnNodes)).first );
2128 // fill node coords and assign local ids to the nodes
2129 int nbNodes = mapNode2LocalID.size();
2130 result->nodesXYZ.length( nbNodes );
2131 TNodeLocalID node2ID = mapNode2LocalID.begin();
2132 for ( i = 0; i < nbNodes; ++i, ++node2ID ) {
2133 node2ID->second = i;
2134 const SMDS_MeshNode* node = (const SMDS_MeshNode*) node2ID->first;
2135 result->nodesXYZ[i].x = node->X();
2136 result->nodesXYZ[i].y = node->Y();
2137 result->nodesXYZ[i].z = node->Z();
2139 // fill connectivity
2140 result->elementConnectivities.length( nbConnNodes );
2141 list< TNodeLocalID >::iterator connIt = connectivity.begin();
2142 for ( i = 0; i < nbConnNodes; ++i, ++connIt ) {
2143 result->elementConnectivities[i] = (*connIt)->second;
2146 // fill element types
2147 result->elementTypes.length( listOfElemType.size() );
2148 std::list< SMDSAbs_ElementType >::const_iterator typeIt = listOfElemType.begin();
2149 std::list< SMDSAbs_ElementType >::const_iterator typeEnd = listOfElemType.end();
2150 for ( i = 0; typeIt != typeEnd; ++i, ++typeIt )
2152 SMDSAbs_ElementType elemType = *typeIt;
2153 result->elementTypes[i].SMDS_ElementType = (SMESH::ElementType)elemType;
2154 result->elementTypes[i].isPoly = false;
2155 result->elementTypes[i].nbNodesInElement = elemType == SMDSAbs_Edge ? 2 : 1;
2158 // correct number of shapes
2159 theShapesId.length( mapOfShIdNb.size() );
2163 catch ( std::bad_alloc ) {
2164 INFOS( "Precompute(): lack of memory" );
2166 catch ( SALOME_Exception& S_ex ) {
2167 INFOS( "Precompute(): catch exception "<< S_ex.what() );
2170 INFOS( "Precompute(): unknown exception " );
2172 return result._retn();
2176 //=============================================================================
2178 * SMESH_Gen_i::Evaluate
2180 * Evaluate mesh on a shape
2182 //=============================================================================
2184 SMESH::long_array* SMESH_Gen_i::Evaluate(SMESH::SMESH_Mesh_ptr theMesh,
2185 GEOM::GEOM_Object_ptr theShapeObject)
2186 // SMESH::long_array& theNbElems)
2187 throw ( SALOME::SALOME_Exception )
2189 Unexpect aCatch(SALOME_SalomeException);
2190 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::Evaluate" );
2192 if ( CORBA::is_nil( theShapeObject ) && theMesh->HasShapeToMesh())
2193 THROW_SALOME_CORBA_EXCEPTION( "bad shape object reference",
2194 SALOME::BAD_PARAM );
2196 if ( CORBA::is_nil( theMesh ) )
2197 THROW_SALOME_CORBA_EXCEPTION( "bad Mesh reference",
2198 SALOME::BAD_PARAM );
2200 SMESH::long_array_var nbels = new SMESH::long_array;
2201 nbels->length(SMESH::Entity_Last);
2202 int i = SMESH::Entity_Node;
2203 for (; i < SMESH::Entity_Last; i++)
2206 // Update Python script
2207 TPythonDump() << "theNbElems = " << this << ".Evaluate( "
2208 << theMesh << ", " << theShapeObject << ")";
2212 SMESH_Mesh_i* meshServant = dynamic_cast<SMESH_Mesh_i*>( GetServant( theMesh ).in() );
2213 ASSERT( meshServant );
2214 if ( meshServant ) {
2215 meshServant->Load();
2216 // NPAL16168: "geometrical group edition from a submesh don't modify mesh computation"
2217 meshServant->CheckGeomModif();
2218 // get local TopoDS_Shape
2219 TopoDS_Shape myLocShape;
2220 if(theMesh->HasShapeToMesh())
2221 myLocShape = GeomObjectToShape( theShapeObject );
2223 myLocShape = SMESH_Mesh::PseudoShape();
2224 // call implementation compute
2225 ::SMESH_Mesh& myLocMesh = meshServant->GetImpl();
2226 MapShapeNbElems aResMap;
2227 /*CORBA::Boolean ret =*/ myGen.Evaluate( myLocMesh, myLocShape, aResMap);
2228 MapShapeNbElemsItr anIt = aResMap.begin();
2229 for(; anIt!=aResMap.end(); anIt++) {
2230 const vector<int>& aVec = (*anIt).second;
2231 for ( i = SMESH::Entity_Node; i < (int)aVec.size(); i++ ) {
2232 int nbElem = aVec[i];
2233 if ( nbElem < 0 ) // algo failed, check that it has reported a message
2235 SMESH_subMesh* sm = anIt->first;
2236 SMESH_ComputeErrorPtr& error = sm->GetComputeError();
2237 const SMESH_Algo* algo = sm->GetAlgo();
2238 if ( (algo && !error.get()) || error->IsOK() )
2239 error.reset( new SMESH_ComputeError( COMPERR_ALGO_FAILED,"Failed to evaluate",algo));
2243 nbels[i] += aVec[i];
2247 return nbels._retn();
2250 catch ( std::bad_alloc ) {
2251 INFOS( "Evaluate(): lack of memory" );
2253 catch ( SALOME_Exception& S_ex ) {
2254 INFOS( "Evaluate(): catch exception "<< S_ex.what() );
2257 INFOS( "Evaluate(): unknown exception " );
2260 return nbels._retn();
2263 //================================================================================
2265 * \brief Return geometrical object the given element is built on
2266 * \param theMesh - the mesh the element is in
2267 * \param theElementID - the element ID
2268 * \param theGeomName - the name of the result geom object if it is not yet published
2269 * \retval GEOM::GEOM_Object_ptr - the found or just published geom object (no need to UnRegister())
2271 //================================================================================
2273 GEOM::GEOM_Object_ptr
2274 SMESH_Gen_i::GetGeometryByMeshElement( SMESH::SMESH_Mesh_ptr theMesh,
2275 CORBA::Long theElementID,
2276 const char* theGeomName)
2277 throw ( SALOME::SALOME_Exception )
2279 Unexpect aCatch(SALOME_SalomeException);
2281 GEOM::GEOM_Object_wrap geom = FindGeometryByMeshElement(theMesh, theElementID);
2282 if ( !geom->_is_nil() ) {
2283 GEOM::GEOM_Object_var mainShape = theMesh->GetShapeToMesh();
2284 GEOM::GEOM_Gen_ptr geomGen = GetGeomEngine();
2286 // try to find the corresponding SObject
2287 SALOMEDS::SObject_wrap SObj = ObjectToSObject( geom.in() );
2288 if ( SObj->_is_nil() ) // submesh can be not found even if published
2290 // try to find published submesh
2291 GEOM::ListOfLong_var list = geom->GetSubShapeIndices();
2292 if ( !geom->IsMainShape() && list->length() == 1 ) {
2293 SALOMEDS::SObject_wrap mainSO = ObjectToSObject( mainShape );
2294 SALOMEDS::ChildIterator_wrap it;
2295 if ( !mainSO->_is_nil() ) {
2296 it = getStudyServant()->NewChildIterator( mainSO );
2298 if ( !it->_is_nil() ) {
2299 for ( it->InitEx(true); it->More(); it->Next() ) {
2300 SALOMEDS::SObject_wrap so = it->Value();
2301 CORBA::Object_var obj = SObjectToObject( so );
2302 GEOM::GEOM_Object_var subGeom = GEOM::GEOM_Object::_narrow( obj );
2303 if ( !subGeom->_is_nil() ) {
2304 GEOM::ListOfLong_var subList = subGeom->GetSubShapeIndices();
2305 if ( subList->length() == 1 && list[0] == subList[0] ) {
2315 if ( SObj->_is_nil() ) // publish a new subshape
2316 SObj = geomGen->AddInStudy( geom, theGeomName, mainShape );
2318 // return only published geometry
2319 if ( !SObj->_is_nil() ) {
2320 //return geom._retn(); -- servant of geom must be UnRegister()ed;
2321 CORBA::Object_var obj = SObjectToObject( SObj );
2322 GEOM::GEOM_Object_var go = GEOM::GEOM_Object::_narrow( obj );
2326 return GEOM::GEOM_Object::_nil();
2329 //================================================================================
2331 * \brief Return geometrical object the given element is built on.
2332 * \param theMesh - the mesh the element is in
2333 * \param theElementID - the element ID
2334 * \retval GEOM::GEOM_Object_ptr - the found or created (UnRegister()!) geom object
2336 //================================================================================
2338 GEOM::GEOM_Object_ptr
2339 SMESH_Gen_i::FindGeometryByMeshElement( SMESH::SMESH_Mesh_ptr theMesh,
2340 CORBA::Long theElementID)
2341 throw ( SALOME::SALOME_Exception )
2343 Unexpect aCatch(SALOME_SalomeException);
2344 if ( CORBA::is_nil( theMesh ) )
2345 THROW_SALOME_CORBA_EXCEPTION( "bad Mesh reference", SALOME::BAD_PARAM );
2347 GEOM::GEOM_Object_var mainShape = theMesh->GetShapeToMesh();
2348 GEOM::GEOM_Gen_ptr geomGen = GetGeomEngine();
2350 // get a core mesh DS
2351 SMESH_Mesh_i* meshServant = SMESH::DownCast<SMESH_Mesh_i*>( theMesh );
2352 if ( meshServant && !geomGen->_is_nil() && !mainShape->_is_nil() )
2354 ::SMESH_Mesh & mesh = meshServant->GetImpl();
2355 SMESHDS_Mesh* meshDS = mesh.GetMeshDS();
2356 // find the element in mesh
2357 if ( const SMDS_MeshElement * elem = meshDS->FindElement( theElementID ) ) {
2358 // find a shape id by the element
2359 if ( int shapeID = ::SMESH_MeshEditor( &mesh ).FindShape( elem )) {
2360 // get a geom object by the shape id
2361 GEOM::GEOM_Object_var geom = ShapeToGeomObject( meshDS->IndexToShape( shapeID ));
2362 if ( geom->_is_nil() ) {
2363 // try to find a published sub-shape
2364 SALOMEDS::SObject_wrap mainSO = ObjectToSObject( mainShape );
2365 SALOMEDS::ChildIterator_wrap it;
2366 if ( !mainSO->_is_nil() ) {
2367 it = getStudyServant()->NewChildIterator( mainSO );
2369 if ( !it->_is_nil() ) {
2370 for ( it->InitEx(true); it->More(); it->Next() ) {
2371 SALOMEDS::SObject_wrap so = it->Value();
2372 CORBA::Object_var obj = SObjectToObject( so );
2373 GEOM::GEOM_Object_var subGeom = GEOM::GEOM_Object::_narrow( obj );
2374 if ( !subGeom->_is_nil() ) {
2375 GEOM::ListOfLong_var subList = subGeom->GetSubShapeIndices();
2376 if ( subList->length() == 1 && shapeID == subList[0] ) {
2384 if ( geom->_is_nil() ) {
2386 GEOM::GEOM_IShapesOperations_wrap op = geomGen->GetIShapesOperations();
2387 if ( !op->_is_nil() )
2388 geom = op->GetSubShape( mainShape, shapeID );
2393 if ( !geom->_is_nil() ) {
2394 GeomObjectToShape( geom ); // let geom client remember the found shape
2395 return geom._retn();
2400 return GEOM::GEOM_Object::_nil();
2403 //================================================================================
2405 * SMESH_Gen_i::Concatenate
2407 * Concatenate the given meshes into one mesh
2409 //================================================================================
2411 SMESH::SMESH_Mesh_ptr
2412 SMESH_Gen_i::Concatenate(const SMESH::ListOfIDSources& theMeshesArray,
2413 CORBA::Boolean theUniteIdenticalGroups,
2414 CORBA::Boolean theMergeNodesAndElements,
2415 CORBA::Double theMergeTolerance)
2416 throw ( SALOME::SALOME_Exception )
2418 return ConcatenateCommon(theMeshesArray,
2419 theUniteIdenticalGroups,
2420 theMergeNodesAndElements,
2425 //================================================================================
2427 * SMESH_Gen_i::ConcatenateWithGroups
2429 * Concatenate the given meshes into one mesh
2430 * Create the groups of all elements from initial meshes
2432 //================================================================================
2434 SMESH::SMESH_Mesh_ptr
2435 SMESH_Gen_i::ConcatenateWithGroups(const SMESH::ListOfIDSources& theMeshesArray,
2436 CORBA::Boolean theUniteIdenticalGroups,
2437 CORBA::Boolean theMergeNodesAndElements,
2438 CORBA::Double theMergeTolerance)
2439 throw ( SALOME::SALOME_Exception )
2441 return ConcatenateCommon(theMeshesArray,
2442 theUniteIdenticalGroups,
2443 theMergeNodesAndElements,
2448 //================================================================================
2450 * SMESH_Gen_i::ConcatenateCommon
2452 * Concatenate the given meshes into one mesh
2454 //================================================================================
2456 SMESH::SMESH_Mesh_ptr
2457 SMESH_Gen_i::ConcatenateCommon(const SMESH::ListOfIDSources& theMeshesArray,
2458 CORBA::Boolean theUniteIdenticalGroups,
2459 CORBA::Boolean theMergeNodesAndElements,
2460 CORBA::Double theMergeTolerance,
2461 CORBA::Boolean theCommonGroups)
2462 throw ( SALOME::SALOME_Exception )
2464 std::unique_ptr< TPythonDump > pPythonDump( new TPythonDump );
2465 TPythonDump& pythonDump = *pPythonDump; // prevent dump of called methods
2468 SMESH::SMESH_Mesh_var newMesh = CreateEmptyMesh();
2469 SMESH_Mesh_i* newImpl = SMESH::DownCast<SMESH_Mesh_i*>( newMesh );
2470 if ( !newImpl ) return newMesh._retn();
2472 ::SMESH_Mesh& locMesh = newImpl->GetImpl();
2473 SMESHDS_Mesh* newMeshDS = locMesh.GetMeshDS();
2475 typedef std::list<SMESH::SMESH_Group_var> TListOfNewGroups;
2476 typedef std::pair<string, SMESH::ElementType > TNameAndType;
2477 typedef std::map< TNameAndType, TListOfNewGroups > TGroupsMap;
2478 TGroupsMap groupsMap;
2479 TListOfNewGroups listOfNewGroups;
2481 ::SMESH_MeshEditor newEditor( &locMesh );
2482 ::SMESH_MeshEditor::ElemFeatures elemType;
2484 // loop on sub-meshes
2485 for ( CORBA::ULong i = 0; i < theMeshesArray.length(); i++ )
2487 if ( CORBA::is_nil( theMeshesArray[i] )) continue;
2488 SMESH::SMESH_Mesh_var initMesh = theMeshesArray[i]->GetMesh();
2489 SMESH_Mesh_i* initImpl = SMESH::DownCast<SMESH_Mesh_i*>( initMesh );
2490 if ( !initImpl ) continue;
2493 // assure that IDs increments by one during iteration
2494 ::SMESH_Mesh& initLocMesh = initImpl->GetImpl();
2495 SMESHDS_Mesh* initMeshDS = initLocMesh.GetMeshDS();
2496 if ( initMeshDS->MaxNodeID() > initMeshDS->NbNodes() ||
2497 initMeshDS->MaxElementID() > initMeshDS->NbElements() )
2499 initMeshDS->Modified();
2500 initMeshDS->CompactMesh();
2503 // remember nb of elements before filling in
2504 SMESH::long_array_var prevState = newMesh->GetNbElementsByType();
2508 std::vector< const SMDS_MeshElement* > newNodes( initMeshDS->NbNodes() + 1, 0 );
2509 SMDS_ElemIteratorPtr elemIt = initImpl->GetElements( theMeshesArray[i], SMESH::NODE );
2510 while ( elemIt->more() )
2512 SMESH_NodeXYZ node = elemIt->next();
2513 newNodes[ node->GetID() ] = newMeshDS->AddNode( node.X(), node.Y(), node.Z() );
2518 std::vector< const SMDS_MeshElement* > newElems( initMeshDS->NbElements() + 1, 0 );
2519 elemIt = initImpl->GetElements( theMeshesArray[i], SMESH::ALL );
2520 while ( elemIt->more() )
2522 const SMDS_MeshElement* elem = elemIt->next();
2523 elemType.myNodes.resize( elem->NbNodes() );
2525 SMDS_NodeIteratorPtr itNodes = elem->nodeIterator();
2526 for ( int k = 0; itNodes->more(); k++)
2528 const SMDS_MeshNode* node = itNodes->next();
2529 elemType.myNodes[ k ] = static_cast< const SMDS_MeshNode*> ( newNodes[ node->GetID() ]);
2532 // creates a corresponding element on existent nodes in new mesh
2533 newElems[ elem->GetID() ] =
2534 newEditor.AddElement( elemType.myNodes, elemType.Init( elem, /*basicOnly=*/false ));
2536 newEditor.ClearLastCreated(); // forget the history
2539 // create groups of just added elements
2540 SMESH::SMESH_Group_var newGroup;
2541 SMESH::ElementType groupType;
2542 if ( theCommonGroups )
2545 const char* typeNames[] = { "All","Nodes","Edges","Faces","Volumes","0DElems","Balls" };
2546 { // check of typeNames: compilation failure mains that NB_ELEMENT_TYPES changed:
2547 const int nbNames = sizeof(typeNames) / sizeof(const char*);
2548 int _assert[( nbNames == SMESH::NB_ELEMENT_TYPES ) ? 2 : -1 ]; _assert[0]=_assert[1]=0;
2551 SMESH::long_array_var curState = newMesh->GetNbElementsByType();
2553 for( groupType = SMESH::NODE;
2554 groupType < SMESH::NB_ELEMENT_TYPES;
2555 groupType = (SMESH::ElementType)( groupType + 1 ))
2557 if ( curState[ groupType ] <= prevState[ groupType ])
2558 continue; // no elements of groupType added from the i-th mesh
2560 // make a group name
2561 std::string groupName = "Gr";
2562 SALOMEDS::SObject_wrap meshSO = ObjectToSObject( theMeshesArray[i] );
2564 CORBA::String_var name = meshSO->GetName();
2568 groupName += typeNames[ groupType ];
2570 // make and fill a group
2571 newGroup = newImpl->CreateGroup( groupType, groupName.c_str() );
2572 std::vector< const SMDS_MeshElement* > & elemVec =
2573 ( groupType == SMESH::NODE ) ? newNodes : newElems;
2574 if ( SMESH_Group_i* grp_i = SMESH::DownCast<SMESH_Group_i*>( newGroup ))
2576 if ( SMESHDS_Group* grpDS = dynamic_cast<SMESHDS_Group*>( grp_i->GetGroupDS() ))
2578 for ( size_t j = 0; j < elemVec.size(); ++j )
2580 if ( elemVec[j] && elemVec[j]->GetType() == grpDS->GetType() )
2581 grpDS->Add( elemVec[j] );
2585 listOfNewGroups.clear();
2586 listOfNewGroups.push_back( newGroup );
2587 groupsMap.insert( std::make_pair( TNameAndType( groupName, groupType ),
2592 if ( SMESH_Mesh_i* initImpl = SMESH::DownCast<SMESH_Mesh_i*>( theMeshesArray[i] ))
2596 SMESH::SMESH_GroupBase_ptr group;
2597 CORBA::String_var groupName;
2598 SMESH::long_array_var newIDs = new SMESH::long_array();
2600 // loop on groups of a source mesh
2601 SMESH::ListOfGroups_var listOfGroups = initImpl->GetGroups();
2602 for ( CORBA::ULong iG = 0; iG < listOfGroups->length(); iG++ )
2604 group = listOfGroups[iG];
2605 groupType = group->GetType();
2606 groupName = group->GetName();
2607 std::string name = groupName.in();
2609 // convert a list of IDs
2610 newIDs->length( group->Size() );
2611 std::vector< const SMDS_MeshElement* > & elemVec =
2612 ( groupType == SMESH::NODE ) ? newNodes : newElems;
2613 SMDS_ElemIteratorPtr itGrElems = initImpl->GetElements( group, SMESH::ALL );
2615 while ( itGrElems->more() )
2617 const SMDS_MeshElement* elem = itGrElems->next();
2618 const SMDS_MeshElement* newElem = elemVec[ elem->GetID() ];
2620 newIDs[ nbElems++ ] = newElem->GetID();
2622 newIDs->length( nbElems );
2624 // check that a current group name and type don't have identical ones in final mesh
2625 listOfNewGroups.clear();
2626 TNameAndType nameAndType( name, groupType );
2627 TGroupsMap::iterator anIter = groupsMap.find( nameAndType );
2628 if ( anIter == groupsMap.end() )
2630 // add a new group in the mesh
2631 newGroup = newImpl->CreateGroup( groupType, groupName.in() );
2632 newGroup->Add( newIDs );
2634 listOfNewGroups.push_back( newGroup );
2635 groupsMap.insert( std::make_pair( nameAndType, listOfNewGroups ));
2637 else if ( theUniteIdenticalGroups )
2639 // unite identical groups
2640 TListOfNewGroups& aNewGroups = anIter->second;
2641 aNewGroups.front()->Add( newIDs );
2645 // rename identical groups
2646 newGroup = newImpl->CreateGroup( groupType, groupName );
2647 newGroup->Add( newIDs );
2649 TListOfNewGroups& newGroups = anIter->second;
2650 std::string newGroupName;
2651 if ( newGroups.size() == 1 )
2653 newGroupName = name + "_1";
2654 newGroups.front()->SetName( newGroupName.c_str() );
2656 newGroupName = name + "_" + SMESH_Comment( newGroups.size() + 1 );
2657 newGroup->SetName( newGroupName.c_str() );
2658 newGroups.push_back( newGroup );
2661 } // if an IDSource is a mesh
2664 if ( theMergeNodesAndElements ) // merge nodes
2666 TIDSortedNodeSet meshNodes; // no input nodes == treat all
2667 SMESH_MeshEditor::TListOfListOfNodes groupsOfNodes;
2668 newEditor.FindCoincidentNodes( meshNodes, theMergeTolerance, groupsOfNodes,
2669 /*SeparateCornersAndMedium=*/ false );
2670 newEditor.MergeNodes( groupsOfNodes );
2672 newEditor.MergeEqualElements();
2675 // Update Python script
2676 pythonDump << newMesh << " = " << this
2677 << "." << ( theCommonGroups ? "ConcatenateWithGroups" : "Concatenate" ) << "("
2678 << theMeshesArray << ", "
2679 << theUniteIdenticalGroups << ", "
2680 << theMergeNodesAndElements << ", "
2681 << TVar( theMergeTolerance ) << ")";
2683 pPythonDump.reset(); // enable python dump from GetGroups()
2685 // 0020577: EDF 1164 SMESH: Bad dump of concatenate with create common groups
2686 if ( !newMesh->_is_nil() )
2688 SMESH::ListOfGroups_var groups = newMesh->GetGroups();
2691 // IPAL21468 Change icon of compound because it need not be computed.
2692 SALOMEDS::SObject_wrap meshSO = ObjectToSObject( newMesh );
2693 SetPixMap( meshSO, "ICON_SMESH_TREE_MESH" );
2695 newMeshDS->Modified();
2697 return newMesh._retn();
2700 //================================================================================
2702 * \brief Create a mesh by copying a part of another mesh
2703 * \param meshPart - a part of mesh to copy
2704 * \param toCopyGroups - to create in the new mesh groups
2705 * the copied elements belongs to
2706 * \param toKeepIDs - to preserve IDs of the copied elements or not
2707 * \retval SMESH::SMESH_Mesh_ptr - the new mesh
2709 //================================================================================
2711 SMESH::SMESH_Mesh_ptr SMESH_Gen_i::CopyMesh(SMESH::SMESH_IDSource_ptr meshPart,
2712 const char* meshName,
2713 CORBA::Boolean toCopyGroups,
2714 CORBA::Boolean toKeepIDs)
2716 Unexpect aCatch(SALOME_SalomeException);
2718 TPythonDump* pyDump = new TPythonDump; // prevent dump from CreateMesh()
2720 // 1. Get source mesh
2722 if ( CORBA::is_nil( meshPart ))
2723 THROW_SALOME_CORBA_EXCEPTION( "bad IDSource", SALOME::BAD_PARAM );
2725 SMESH::SMESH_Mesh_var srcMesh = meshPart->GetMesh();
2726 SMESH_Mesh_i* srcMesh_i = SMESH::DownCast<SMESH_Mesh_i*>( srcMesh );
2728 THROW_SALOME_CORBA_EXCEPTION( "bad mesh of IDSource", SALOME::BAD_PARAM );
2730 SMESHDS_Mesh* srcMeshDS = srcMesh_i->GetImpl().GetMeshDS();
2732 // 2. Make a new mesh
2734 SMESH::SMESH_Mesh_var newMesh = CreateMesh(GEOM::GEOM_Object::_nil());
2735 SMESH_Mesh_i* newMesh_i = SMESH::DownCast<SMESH_Mesh_i*>( newMesh );
2737 THROW_SALOME_CORBA_EXCEPTION( "can't create a mesh", SALOME::INTERNAL_ERROR );
2738 SALOMEDS::SObject_wrap meshSO = ObjectToSObject( newMesh );
2739 if ( !meshSO->_is_nil() )
2741 SetName( meshSO, meshName, "Mesh" );
2742 SetPixMap( meshSO, "ICON_SMESH_TREE_MESH_IMPORTED");
2744 SMESHDS_Mesh* newMeshDS = newMesh_i->GetImpl().GetMeshDS();
2745 ::SMESH_MeshEditor editor( &newMesh_i->GetImpl() );
2746 ::SMESH_MeshEditor::ElemFeatures elemType;
2748 // 3. Get elements to copy
2750 SMDS_ElemIteratorPtr srcElemIt; SMDS_NodeIteratorPtr srcNodeIt;
2751 TIDSortedElemSet srcElems;
2752 SMESH::array_of_ElementType_var srcElemTypes = meshPart->GetTypes();
2753 if ( SMESH::DownCast<SMESH_Mesh_i*>( meshPart ))
2756 srcElemIt = srcMeshDS->elementsIterator();
2757 srcNodeIt = srcMeshDS->nodesIterator();
2761 SMESH::long_array_var ids = meshPart->GetIDs();
2762 if ( srcElemTypes->length() == 1 && srcElemTypes[0] == SMESH::NODE ) // group of nodes
2764 for ( CORBA::ULong i=0; i < ids->length(); i++ )
2765 if ( const SMDS_MeshElement * elem = srcMeshDS->FindNode( ids[i] ))
2766 srcElems.insert( elem );
2770 for ( CORBA::ULong i = 0; i < ids->length(); i++ )
2771 if ( const SMDS_MeshElement * elem = srcMeshDS->FindElement( ids[i] ))
2772 srcElems.insert( elem );
2774 if ( srcElems.empty() )
2775 return newMesh._retn();
2777 typedef SMDS_SetIterator< SMDS_pElement, TIDSortedElemSet::const_iterator > ElIter;
2778 srcElemIt = SMDS_ElemIteratorPtr( new ElIter( srcElems.begin(), srcElems.end() ));
2783 typedef map<SMDS_pElement, SMDS_pElement, TIDCompare> TE2EMap;
2784 TE2EMap e2eMapByType[ SMDSAbs_NbElementTypes ];
2785 TE2EMap& n2nMap = e2eMapByType[ SMDSAbs_Node ];
2787 const SMDS_MeshNode *nSrc, *nTgt;
2788 vector< const SMDS_MeshNode* > nodes;
2789 while ( srcElemIt->more() )
2791 const SMDS_MeshElement * elem = srcElemIt->next();
2793 nodes.resize( elem->NbNodes());
2794 SMDS_ElemIteratorPtr nIt = elem->nodesIterator();
2796 for ( iN = 0; nIt->more(); ++iN )
2798 nSrc = static_cast<const SMDS_MeshNode*>( nIt->next() );
2799 nTgt = newMeshDS->FindNode( nSrc->GetID());
2801 nTgt = newMeshDS->AddNodeWithID( nSrc->X(), nSrc->Y(), nSrc->Z(), nSrc->GetID());
2806 for ( iN = 0; nIt->more(); ++iN )
2808 nSrc = static_cast<const SMDS_MeshNode*>( nIt->next() );
2809 TE2EMap::iterator n2n = n2nMap.insert( make_pair( nSrc, SMDS_pNode(0) )).first;
2811 n2n->second = newMeshDS->AddNode( nSrc->X(), nSrc->Y(), nSrc->Z() );
2812 nodes[ iN ] = (const SMDS_MeshNode*) n2n->second;
2816 if ( elem->GetType() != SMDSAbs_Node )
2818 elemType.Init( elem, /*basicOnly=*/false );
2819 if ( toKeepIDs ) elemType.SetID( elem->GetID() );
2821 const SMDS_MeshElement * newElem = editor.AddElement( nodes, elemType );
2822 if ( toCopyGroups && !toKeepIDs )
2823 e2eMapByType[ elem->GetType() ].insert( make_pair( elem, newElem ));
2825 } // while ( srcElemIt->more() )
2827 // 4(b). Copy free nodes
2829 if ( srcNodeIt && srcMeshDS->NbNodes() != newMeshDS->NbNodes() )
2831 while ( srcNodeIt->more() )
2833 nSrc = srcNodeIt->next();
2834 if ( nSrc->NbInverseElements() == 0 )
2837 nTgt = newMeshDS->AddNodeWithID( nSrc->X(), nSrc->Y(), nSrc->Z(), nSrc->GetID());
2839 n2nMap[ nSrc ] = newMeshDS->AddNode( nSrc->X(), nSrc->Y(), nSrc->Z() );
2846 int nbNewGroups = 0;
2849 SMESH_Mesh::GroupIteratorPtr gIt = srcMesh_i->GetImpl().GetGroups();
2850 while ( gIt->more() )
2852 SMESH_Group* group = gIt->next();
2853 const SMESHDS_GroupBase* groupDS = group->GetGroupDS();
2855 // Check group type. We copy nodal groups containing nodes of copied element
2856 SMDSAbs_ElementType groupType = groupDS->GetType();
2857 if ( groupType != SMDSAbs_Node &&
2858 newMeshDS->GetMeshInfo().NbElements( groupType ) == 0 )
2859 continue; // group type differs from types of meshPart
2861 // Find copied elements in the group
2862 vector< const SMDS_MeshElement* > groupElems;
2863 SMDS_ElemIteratorPtr eIt = groupDS->GetElements();
2866 const SMDS_MeshElement* foundElem;
2867 if ( groupType == SMDSAbs_Node )
2869 while ( eIt->more() )
2870 if (( foundElem = newMeshDS->FindNode( eIt->next()->GetID() )))
2871 groupElems.push_back( foundElem );
2875 while ( eIt->more() )
2876 if (( foundElem = newMeshDS->FindElement( eIt->next()->GetID() )))
2877 groupElems.push_back( foundElem );
2882 TE2EMap & e2eMap = e2eMapByType[ groupDS->GetType() ];
2883 if ( e2eMap.empty() ) continue;
2884 int minID = e2eMap.begin()->first->GetID();
2885 int maxID = e2eMap.rbegin()->first->GetID();
2886 TE2EMap::iterator e2e;
2887 while ( eIt->more() && groupElems.size() < e2eMap.size())
2889 const SMDS_MeshElement* e = eIt->next();
2890 if ( e->GetID() < minID || e->GetID() > maxID ) continue;
2891 if ((e2e = e2eMap.find( e )) != e2eMap.end())
2892 groupElems.push_back( e2e->second );
2896 if ( !groupElems.empty() )
2898 SMESH::SMESH_Group_var newGroupObj =
2899 newMesh->CreateGroup( SMESH::ElementType(groupType), group->GetName() );
2900 if ( SMESH_GroupBase_i* newGroup_i = SMESH::DownCast<SMESH_GroupBase_i*>( newGroupObj))
2902 SMESHDS_GroupBase * newGroupDS = newGroup_i->GetGroupDS();
2903 SMDS_MeshGroup& smdsGroup = ((SMESHDS_Group*)newGroupDS)->SMDSGroup();
2904 for ( unsigned i = 0; i < groupElems.size(); ++i )
2905 smdsGroup.Add( groupElems[i] );
2913 newMeshDS->Modified();
2915 *pyDump << newMesh << " = " << this
2916 << ".CopyMesh( " << meshPart << ", "
2917 << "'" << meshName << "', "
2918 << toCopyGroups << ", "
2919 << toKeepIDs << ")";
2921 delete pyDump; pyDump = 0; // allow dump in GetGroups()
2923 if ( nbNewGroups > 0 ) // dump created groups
2924 SMESH::ListOfGroups_var groups = newMesh->GetGroups();
2926 return newMesh._retn();
2929 //================================================================================
2931 * \brief Get version of MED format being used.
2933 //================================================================================
2935 char* SMESH_Gen_i::GetMEDFileVersion()
2937 MED::TInt majeur, mineur, release;
2938 majeur = mineur = release = 0;
2939 MED::GetVersionRelease(majeur, mineur, release);
2940 std::ostringstream version;
2941 version << majeur << "." << mineur << "." << release;
2942 return CORBA::string_dup( version.str().c_str() );
2945 //================================================================================
2947 * SMESH_Gen_i::GetMEDVersion
2949 * Get MED version of the file by its name
2951 //================================================================================
2952 char* SMESH_Gen_i::GetMEDVersion(const char* theFileName)
2954 std::string version = MED::GetMEDVersion( theFileName );
2955 return CORBA::string_dup( version.c_str() );
2958 //================================================================================
2960 * SMESH_Gen_i::CheckCompatibility
2962 * Check compatibility of file with MED format being used, read only.
2964 //================================================================================
2965 CORBA::Boolean SMESH_Gen_i::CheckCompatibility(const char* theFileName)
2967 return MED::CheckCompatibility( theFileName );
2970 //================================================================================
2972 * SMESH_Gen_i::CheckWriteCompatibility
2974 * Check compatibility of file with MED format being used, for append on write.
2976 //================================================================================
2977 CORBA::Boolean SMESH_Gen_i::CheckWriteCompatibility(const char* theFileName)
2979 return MED::CheckCompatibility( theFileName, true );
2982 //================================================================================
2984 * SMESH_Gen_i::GetMeshNames
2986 * Get names of meshes defined in file with the specified name
2988 //================================================================================
2989 SMESH::string_array* SMESH_Gen_i::GetMeshNames(const char* theFileName)
2991 //MESSAGE("GetMeshNames " << theFileName);
2992 SMESH::string_array_var aResult = new SMESH::string_array();
2993 MED::PWrapper aMed = MED::CrWrapperR( theFileName );
2995 MED::TInt aNbMeshes = aMed->GetNbMeshes( &anErr );
2996 //MESSAGE("---" << aNbMeshes);
2998 aResult->length( aNbMeshes );
2999 for( MED::TInt i = 0; i < aNbMeshes; i++ ) {
3000 MED::PMeshInfo aMeshInfo = aMed->GetPMeshInfo( i+1 );
3001 aResult[i] = CORBA::string_dup( aMeshInfo->GetName().c_str() );
3004 return aResult._retn();
3007 //=============================================================================
3011 * Save SMESH module's data
3013 //=============================================================================
3014 SALOMEDS::TMPFile* SMESH_Gen_i::Save( SALOMEDS::SComponent_ptr theComponent,
3018 if (!myStudyContext)
3021 // Store study contents as a set of python commands
3024 SALOMEDS::Study_var aStudy = getStudyServant();
3026 // Declare a byte stream
3027 SALOMEDS::TMPFile_var aStreamFile;
3029 // Obtain a temporary dir
3030 TCollection_AsciiString tmpDir =
3031 ( isMultiFile ) ? TCollection_AsciiString( ( char* )theURL ) : ( char* )SALOMEDS_Tool::GetTmpDir().c_str();
3033 // Create a sequence of files processed
3034 SALOMEDS_Tool::ListOfFiles aFileSeq;
3035 aFileSeq.reserve( NUM_TMP_FILES );
3037 TCollection_AsciiString aStudyName( "" );
3039 aStudyName = ( (char*)SALOMEDS_Tool::GetNameFromPath( Kernel_Utils::encode(aStudy->URL()) ).c_str() );
3041 // Set names of temporary files
3042 TCollection_AsciiString filename =
3043 aStudyName + TCollection_AsciiString( "_SMESH.hdf" ); // for SMESH data itself
3044 TCollection_AsciiString meshfile =
3045 aStudyName + TCollection_AsciiString( "_SMESH_Mesh.med" ); // for mesh data to be stored in MED file
3046 aFileSeq.push_back(CORBA::string_dup( filename.ToCString() ));
3047 aFileSeq.push_back(CORBA::string_dup( meshfile.ToCString() ));
3048 filename = tmpDir + filename;
3049 meshfile = tmpDir + meshfile;
3052 HDFdataset* aDataset;
3053 HDFgroup* aTopGroup;
3055 HDFgroup* aSubGroup;
3056 HDFgroup* aSubSubGroup;
3057 hdf_size aSize[ 1 ];
3060 //Remove the files if they exist: BugID: 11225
3061 #ifndef WIN32 /* unix functionality */
3062 TCollection_AsciiString cmd("rm -f \"");
3064 TCollection_AsciiString cmd("del /F \"");
3071 system(cmd.ToCString());
3073 // MED writer to be used by storage process
3074 DriverMED_W_SMESHDS_Mesh myWriter;
3075 myWriter.SetFile( meshfile.ToCString() );
3078 // SetStoreName() to groups before storing hypotheses to let them refer to
3079 // groups using "store name", which is "Group <group_persistent_id>"
3081 SALOMEDS::ChildIterator_wrap itBig = aStudy->NewChildIterator( theComponent );
3082 for ( ; itBig->More(); itBig->Next() ) {
3083 SALOMEDS::SObject_wrap gotBranch = itBig->Value();
3084 if ( gotBranch->Tag() > GetAlgorithmsRootTag() ) {
3085 CORBA::Object_var anObject = SObjectToObject( gotBranch );
3086 if ( !CORBA::is_nil( anObject ) ) {
3087 SMESH::SMESH_Mesh_var myMesh = SMESH::SMESH_Mesh::_narrow( anObject ) ;
3088 if ( !myMesh->_is_nil() ) {
3089 myMesh->Load(); // load from study file if not yet done
3090 TPythonDump pd; // not to dump GetGroups()
3091 SMESH::ListOfGroups_var groups = myMesh->GetGroups();
3092 for ( CORBA::ULong i = 0; i < groups->length(); ++i )
3094 SMESH_GroupBase_i* grImpl = SMESH::DownCast<SMESH_GroupBase_i*>( groups[i]);
3097 CORBA::String_var objStr = GetORB()->object_to_string( grImpl->_this() );
3098 int anId = myStudyContext->findId( string( objStr.in() ) );
3100 sprintf( grpName, "Group %d", anId );
3101 SMESHDS_GroupBase* aGrpBaseDS = grImpl->GetGroupDS();
3102 aGrpBaseDS->SetStoreName( grpName );
3112 // ---> create HDF file
3113 aFile = new HDFfile( (char*) filename.ToCString() );
3114 aFile->CreateOnDisk();
3116 // --> iterator for top-level objects
3117 SALOMEDS::ChildIterator_wrap itBig = aStudy->NewChildIterator( theComponent );
3118 for ( ; itBig->More(); itBig->Next() ) {
3119 SALOMEDS::SObject_wrap gotBranch = itBig->Value();
3121 // --> hypotheses root branch (only one for the study)
3122 if ( gotBranch->Tag() == GetHypothesisRootTag() ) {
3123 // create hypotheses root HDF group
3124 aTopGroup = new HDFgroup( "Hypotheses", aFile );
3125 aTopGroup->CreateOnDisk();
3127 // iterator for all hypotheses
3128 SALOMEDS::ChildIterator_wrap it = aStudy->NewChildIterator( gotBranch );
3129 for ( ; it->More(); it->Next() ) {
3130 SALOMEDS::SObject_wrap mySObject = it->Value();
3131 CORBA::Object_var anObject = SObjectToObject( mySObject );
3132 if ( !CORBA::is_nil( anObject ) ) {
3133 SMESH::SMESH_Hypothesis_var myHyp = SMESH::SMESH_Hypothesis::_narrow( anObject );
3134 if ( !myHyp->_is_nil() ) {
3135 SMESH_Hypothesis_i* myImpl = dynamic_cast<SMESH_Hypothesis_i*>( GetServant( myHyp ).in() );
3137 CORBA::String_var hn = myHyp->GetName(), ln = myHyp->GetLibName();
3138 std::string hypname = hn.in();
3139 std::string libname = ln.in();
3141 // Needs for save crossplatform libname, i.e. parth of name ( ".dll" for
3142 // WIN32 and ".so" for X-system) must be deleted
3143 int libname_len = libname.length();
3145 if( libname_len > 4 )
3146 libname.resize( libname_len - 4 );
3148 // PAL17753 (Regression: missing hypothesis in restored study)
3149 // "lib" also should be removed from the beginning
3150 //if( libname_len > 3 )
3151 //libname.resize( libname_len - 3 );
3152 if( libname_len > 6 )
3153 libname = libname.substr( 3, libname_len - 3 - 3 );
3155 CORBA::String_var objStr = GetORB()->object_to_string( anObject );
3156 CORBA::String_var hypdata = myImpl->SaveTo();
3157 int id = myStudyContext->findId( string( objStr.in() ));
3159 // for each hypothesis create HDF group basing on its id
3160 char hypGrpName[30];
3161 sprintf( hypGrpName, "Hypothesis %d", id );
3162 aGroup = new HDFgroup( hypGrpName, aTopGroup );
3163 aGroup->CreateOnDisk();
3164 // --> type name of hypothesis
3165 aSize[ 0 ] = hypname.length() + 1;
3166 aDataset = new HDFdataset( "Name", aGroup, HDF_STRING, aSize, 1 );
3167 aDataset->CreateOnDisk();
3168 aDataset->WriteOnDisk( ( char* )( hypname.c_str() ) );
3169 aDataset->CloseOnDisk();
3170 // --> server plugin library name of hypothesis
3171 aSize[ 0 ] = libname.length() + 1;
3172 aDataset = new HDFdataset( "LibName", aGroup, HDF_STRING, aSize, 1 );
3173 aDataset->CreateOnDisk();
3174 aDataset->WriteOnDisk( ( char* )( libname.c_str() ) );
3175 aDataset->CloseOnDisk();
3176 // --> persistent data of hypothesis
3177 aSize[ 0 ] = strlen( hypdata.in() ) + 1;
3178 aDataset = new HDFdataset( "Data", aGroup, HDF_STRING, aSize, 1 );
3179 aDataset->CreateOnDisk();
3180 aDataset->WriteOnDisk( ( char* )( hypdata.in() ) );
3181 aDataset->CloseOnDisk();
3182 // close hypothesis HDF group
3183 aGroup->CloseOnDisk();
3188 // close hypotheses root HDF group
3189 aTopGroup->CloseOnDisk();
3191 // --> algorithms root branch (only one for the study)
3192 else if ( gotBranch->Tag() == GetAlgorithmsRootTag() ) {
3193 // create algorithms root HDF group
3194 aTopGroup = new HDFgroup( "Algorithms", aFile );
3195 aTopGroup->CreateOnDisk();
3197 // iterator for all algorithms
3198 SALOMEDS::ChildIterator_wrap it = aStudy->NewChildIterator( gotBranch );
3199 for ( ; it->More(); it->Next() ) {
3200 SALOMEDS::SObject_wrap mySObject = it->Value();
3201 CORBA::Object_var anObject = SObjectToObject( mySObject );
3202 if ( !CORBA::is_nil( anObject ) ) {
3203 SMESH::SMESH_Hypothesis_var myHyp = SMESH::SMESH_Hypothesis::_narrow( anObject );
3204 if ( !myHyp->_is_nil() ) {
3205 SMESH_Hypothesis_i* myImpl = dynamic_cast<SMESH_Hypothesis_i*>( GetServant( myHyp ).in() );
3207 CORBA::String_var hn = myHyp->GetName(), ln = myHyp->GetLibName();
3208 std::string hypname = hn.in();
3209 std::string libname = ln.in();
3211 // Needs for save crossplatform libname, i.e. parth of name ( ".dll" for
3212 // WIN32 and ".so" for X-system) must be deleted
3213 int libname_len = libname.length();
3215 if( libname_len > 4 )
3216 libname.resize( libname_len - 4 );
3218 // PAL17753 (Regression: missing hypothesis in restored study)
3219 // "lib" also should be removed from the beginning
3220 //if( libname_len > 3 )
3221 //libname.resize( libname_len - 3 );
3222 if( libname_len > 6 )
3223 libname = libname.substr( 3, libname_len - 3 - 3 );
3225 CORBA::String_var objStr = GetORB()->object_to_string( anObject );
3226 CORBA::String_var hypdata = myImpl->SaveTo();
3227 int id = myStudyContext->findId( string( objStr.in() ) );
3229 // for each algorithm create HDF group basing on its id
3230 char hypGrpName[30];
3231 sprintf( hypGrpName, "Algorithm %d", id );
3232 aGroup = new HDFgroup( hypGrpName, aTopGroup );
3233 aGroup->CreateOnDisk();
3234 // --> type name of algorithm
3235 aSize[0] = hypname.length() + 1;
3236 aDataset = new HDFdataset( "Name", aGroup, HDF_STRING, aSize, 1 );
3237 aDataset->CreateOnDisk();
3238 aDataset->WriteOnDisk( ( char* )( hypname.c_str() ) );
3239 aDataset->CloseOnDisk();
3240 // --> server plugin library name of hypothesis
3241 aSize[0] = libname.length() + 1;
3242 aDataset = new HDFdataset( "LibName", aGroup, HDF_STRING, aSize, 1 );
3243 aDataset->CreateOnDisk();
3244 aDataset->WriteOnDisk( ( char* )( libname.c_str() ) );
3245 aDataset->CloseOnDisk();
3246 // --> persistent data of algorithm
3247 aSize[0] = strlen( hypdata.in() ) + 1;
3248 aDataset = new HDFdataset( "Data", aGroup, HDF_STRING, aSize, 1 );
3249 aDataset->CreateOnDisk();
3250 aDataset->WriteOnDisk( ( char* )( hypdata.in() ));
3251 aDataset->CloseOnDisk();
3252 // close algorithm HDF group
3253 aGroup->CloseOnDisk();
3258 // close algorithms root HDF group
3259 aTopGroup->CloseOnDisk();
3261 // --> mesh objects roots branches
3262 else if ( gotBranch->Tag() > GetAlgorithmsRootTag() ) {
3263 CORBA::Object_var anObject = SObjectToObject( gotBranch );
3264 if ( !CORBA::is_nil( anObject ) ) {
3265 SMESH::SMESH_Mesh_var myMesh = SMESH::SMESH_Mesh::_narrow( anObject ) ;
3266 if ( !myMesh->_is_nil() ) {
3267 SMESH_Mesh_i* myImpl = dynamic_cast<SMESH_Mesh_i*>( GetServant( myMesh ).in() );
3269 CORBA::String_var objStr = GetORB()->object_to_string( anObject );
3270 int id = myStudyContext->findId( string( objStr.in() ) );
3271 ::SMESH_Mesh& myLocMesh = myImpl->GetImpl();
3272 SMESHDS_Mesh* mySMESHDSMesh = myLocMesh.GetMeshDS();
3273 bool hasShape = myLocMesh.HasShapeToMesh();
3275 // for each mesh open the HDF group basing on its id
3276 char meshGrpName[ 30 ];
3277 sprintf( meshGrpName, "Mesh %d", id );
3278 aTopGroup = new HDFgroup( meshGrpName, aFile );
3279 aTopGroup->CreateOnDisk();
3281 // --> put dataset to hdf file which is a flag that mesh has data
3282 string strHasData = "0";
3283 // check if the mesh is not empty
3284 if ( mySMESHDSMesh->NbNodes() > 0 ) {
3285 // write mesh data to med file
3286 myWriter.SetMesh( mySMESHDSMesh );
3287 myWriter.SetMeshId( id );
3290 aSize[ 0 ] = strHasData.length() + 1;
3291 aDataset = new HDFdataset( "Has data", aTopGroup, HDF_STRING, aSize, 1 );
3292 aDataset->CreateOnDisk();
3293 aDataset->WriteOnDisk( ( char* )( strHasData.c_str() ) );
3294 aDataset->CloseOnDisk();
3297 // for each mesh open the HDF group basing on its auto color parameter
3298 char meshAutoColorName[ 30 ];
3299 sprintf( meshAutoColorName, "AutoColorMesh %d", id );
3301 anAutoColor[0] = myImpl->GetAutoColor();
3303 aDataset = new HDFdataset( meshAutoColorName, aTopGroup, HDF_INT32, aSize, 1 );
3304 aDataset->CreateOnDisk();
3305 aDataset->WriteOnDisk( anAutoColor );
3306 aDataset->CloseOnDisk();
3308 // issue 0020693. Store _isModified flag
3309 int isModified = myLocMesh.GetIsModified();
3311 aDataset = new HDFdataset( "_isModified", aTopGroup, HDF_INT32, aSize, 1 );
3312 aDataset->CreateOnDisk();
3313 aDataset->WriteOnDisk( &isModified );
3314 aDataset->CloseOnDisk();
3316 // issue 20918. Store Persistent Id of SMESHDS_Mesh
3317 int meshPersistentId = mySMESHDSMesh->GetPersistentId();
3319 aDataset = new HDFdataset( "meshPersistentId", aTopGroup, HDF_INT32, aSize, 1 );
3320 aDataset->CreateOnDisk();
3321 aDataset->WriteOnDisk( &meshPersistentId );
3322 aDataset->CloseOnDisk();
3324 // write reference on a shape if exists
3325 SALOMEDS::SObject_wrap myRef;
3326 bool shapeRefFound = false;
3327 bool found = gotBranch->FindSubObject( GetRefOnShapeTag(), myRef.inout() );
3329 SALOMEDS::SObject_wrap myShape;
3330 bool ok = myRef->ReferencedObject( myShape.inout() );
3332 CORBA::Object_var shapeObj = myShape->GetObject();
3333 shapeRefFound = (! CORBA::is_nil( shapeObj ));
3334 CORBA::String_var myRefOnObject = myShape->GetID();
3335 if ( shapeRefFound && myRefOnObject.in()[0] ) {
3336 aSize[ 0 ] = strlen( myRefOnObject.in() ) + 1;
3337 aDataset = new HDFdataset( "Ref on shape", aTopGroup, HDF_STRING, aSize, 1 );
3338 aDataset->CreateOnDisk();
3339 aDataset->WriteOnDisk( ( char* )( myRefOnObject.in() ) );
3340 aDataset->CloseOnDisk();
3346 std::string info = myImpl->FileInfoToString();
3347 if ( !info.empty() )
3349 aSize[ 0 ] = info.size();
3350 aDataset = new HDFdataset( "file info", aTopGroup, HDF_STRING, aSize, 1 );
3351 aDataset->CreateOnDisk();
3352 aDataset->WriteOnDisk( (char*) info.data() );
3353 aDataset->CloseOnDisk();
3356 // write applied hypotheses if exist
3357 SALOMEDS::SObject_wrap myHypBranch;
3358 found = gotBranch->FindSubObject( GetRefOnAppliedHypothesisTag(), myHypBranch.inout() );
3359 if ( found && !shapeRefFound && hasShape ) { // remove applied hyps
3360 aStudy->NewBuilder()->RemoveObjectWithChildren( myHypBranch );
3362 if ( found && (shapeRefFound || !hasShape) ) {
3363 aGroup = new HDFgroup( "Applied Hypotheses", aTopGroup );
3364 aGroup->CreateOnDisk();
3366 SALOMEDS::ChildIterator_wrap it = aStudy->NewChildIterator( myHypBranch );
3368 for ( ; it->More(); it->Next() ) {
3369 SALOMEDS::SObject_wrap mySObject = it->Value();
3370 SALOMEDS::SObject_wrap myRefOnHyp;
3371 bool ok = mySObject->ReferencedObject( myRefOnHyp.inout() );
3373 // san - it is impossible to recover applied hypotheses
3374 // using their entries within Load() method,
3375 // for there are no AttributeIORs in the study when Load() is working.
3376 // Hence, it is better to store persistent IDs of hypotheses as references to them
3378 //string myRefOnObject = myRefOnHyp->GetID();
3379 CORBA::Object_var anObject = SObjectToObject( myRefOnHyp );
3380 CORBA::String_var objStr = GetORB()->object_to_string( anObject );
3381 int id = myStudyContext->findId( string( objStr.in() ) );
3382 //if ( myRefOnObject.length() > 0 ) {
3383 //aSize[ 0 ] = myRefOnObject.length() + 1;
3384 char hypName[ 30 ], hypId[ 30 ];
3385 sprintf( hypName, "Hyp %d", ++hypNb );
3386 sprintf( hypId, "%d", id );
3387 aSize[ 0 ] = strlen( hypId ) + 1;
3388 aDataset = new HDFdataset( hypName, aGroup, HDF_STRING, aSize, 1 );
3389 aDataset->CreateOnDisk();
3390 //aDataset->WriteOnDisk( ( char* )( myRefOnObject.c_str() ) );
3391 aDataset->WriteOnDisk( hypId );
3392 aDataset->CloseOnDisk();
3396 aGroup->CloseOnDisk();
3399 // write applied algorithms if exist
3400 SALOMEDS::SObject_wrap myAlgoBranch;
3401 found = gotBranch->FindSubObject( GetRefOnAppliedAlgorithmsTag(),
3402 myAlgoBranch.inout() );
3403 if ( found && !shapeRefFound && hasShape) { // remove applied algos
3404 aStudy->NewBuilder()->RemoveObjectWithChildren( myAlgoBranch );
3406 if ( found && (shapeRefFound || !hasShape)) {
3407 aGroup = new HDFgroup( "Applied Algorithms", aTopGroup );
3408 aGroup->CreateOnDisk();
3410 SALOMEDS::ChildIterator_wrap it = aStudy->NewChildIterator( myAlgoBranch );
3412 for ( ; it->More(); it->Next() ) {
3413 SALOMEDS::SObject_wrap mySObject = it->Value();
3414 SALOMEDS::SObject_wrap myRefOnAlgo;
3415 bool ok = mySObject->ReferencedObject( myRefOnAlgo.inout() );
3417 // san - it is impossible to recover applied algorithms
3418 // using their entries within Load() method,
3419 // for there are no AttributeIORs in the study when Load() is working.
3420 // Hence, it is better to store persistent IDs of algorithms as references to them
3422 //string myRefOnObject = myRefOnAlgo->GetID();
3423 CORBA::Object_var anObject = SObjectToObject( myRefOnAlgo );
3424 CORBA::String_var objStr = GetORB()->object_to_string( anObject );
3425 int id = myStudyContext->findId( string( objStr.in() ) );
3426 //if ( myRefOnObject.length() > 0 ) {
3427 //aSize[ 0 ] = myRefOnObject.length() + 1;
3428 char algoName[ 30 ], algoId[ 30 ];
3429 sprintf( algoName, "Algo %d", ++algoNb );
3430 sprintf( algoId, "%d", id );
3431 aSize[ 0 ] = strlen( algoId ) + 1;
3432 aDataset = new HDFdataset( algoName, aGroup, HDF_STRING, aSize, 1 );
3433 aDataset->CreateOnDisk();
3434 //aDataset->WriteOnDisk( ( char* )( myRefOnObject.c_str() ) );
3435 aDataset->WriteOnDisk( algoId );
3436 aDataset->CloseOnDisk();
3440 aGroup->CloseOnDisk();
3443 // --> submesh objects sub-branches
3445 for ( int i = GetSubMeshOnVertexTag(); i <= GetSubMeshOnCompoundTag(); i++ ) {
3446 SALOMEDS::SObject_wrap mySubmeshBranch;
3447 found = gotBranch->FindSubObject( i, mySubmeshBranch.inout() );
3449 if ( found ) // check if there is shape reference in submeshes
3451 bool hasShapeRef = false;
3452 SALOMEDS::ChildIterator_wrap itSM =
3453 aStudy->NewChildIterator( mySubmeshBranch );
3454 for ( ; itSM->More(); itSM->Next() ) {
3455 SALOMEDS::SObject_wrap mySubRef, myShape, mySObject = itSM->Value();
3456 if ( mySObject->FindSubObject( GetRefOnShapeTag(), mySubRef.inout() ))
3457 mySubRef->ReferencedObject( myShape.inout() );
3458 if ( !CORBA::is_nil( myShape ) && !CORBA::is_nil( myShape->GetObject() ))
3461 { // remove one submesh
3462 if ( shapeRefFound )
3463 { // unassign hypothesis
3464 SMESH::SMESH_subMesh_var mySubMesh =
3465 SMESH::SMESH_subMesh::_narrow( SObjectToObject( mySObject ));
3466 if ( !mySubMesh->_is_nil() ) {
3467 int shapeID = mySubMesh->GetId();
3468 TopoDS_Shape S = mySMESHDSMesh->IndexToShape( shapeID );
3469 const list<const SMESHDS_Hypothesis*>& hypList =
3470 mySMESHDSMesh->GetHypothesis( S );
3471 list<const SMESHDS_Hypothesis*>::const_iterator hyp = hypList.begin();
3472 while ( hyp != hypList.end() ) {
3473 int hypID = (*hyp++)->GetID(); // goto next hyp here because
3474 myLocMesh.RemoveHypothesis( S, hypID ); // hypList changes here
3478 aStudy->NewBuilder()->RemoveObjectWithChildren( mySObject );
3480 } // loop on submeshes of a type
3481 if ( !shapeRefFound || !hasShapeRef ) { // remove the whole submeshes branch
3482 aStudy->NewBuilder()->RemoveObjectWithChildren( mySubmeshBranch );
3485 } // end check if there is shape reference in submeshes
3487 char name_meshgroup[ 30 ];
3488 if ( i == GetSubMeshOnVertexTag() )
3489 strcpy( name_meshgroup, "SubMeshes On Vertex" );
3490 else if ( i == GetSubMeshOnEdgeTag() )
3491 strcpy( name_meshgroup, "SubMeshes On Edge" );
3492 else if ( i == GetSubMeshOnWireTag() )
3493 strcpy( name_meshgroup, "SubMeshes On Wire" );
3494 else if ( i == GetSubMeshOnFaceTag() )
3495 strcpy( name_meshgroup, "SubMeshes On Face" );
3496 else if ( i == GetSubMeshOnShellTag() )
3497 strcpy( name_meshgroup, "SubMeshes On Shell" );
3498 else if ( i == GetSubMeshOnSolidTag() )
3499 strcpy( name_meshgroup, "SubMeshes On Solid" );
3500 else if ( i == GetSubMeshOnCompoundTag() )
3501 strcpy( name_meshgroup, "SubMeshes On Compound" );
3503 // for each type of submeshes create container HDF group
3504 aGroup = new HDFgroup( name_meshgroup, aTopGroup );
3505 aGroup->CreateOnDisk();
3507 // iterator for all submeshes of given type
3508 SALOMEDS::ChildIterator_wrap itSM = aStudy->NewChildIterator( mySubmeshBranch );
3509 for ( ; itSM->More(); itSM->Next() ) {
3510 SALOMEDS::SObject_wrap mySObject = itSM->Value();
3511 CORBA::Object_var anSubObject = SObjectToObject( mySObject );
3512 if ( !CORBA::is_nil( anSubObject ))
3514 SMESH::SMESH_subMesh_var mySubMesh = SMESH::SMESH_subMesh::_narrow( anSubObject ) ;
3515 CORBA::String_var objStr = GetORB()->object_to_string( anSubObject );
3516 int subid = myStudyContext->findId( string( objStr.in() ) );
3518 // for each mesh open the HDF group basing on its id
3519 char submeshGrpName[ 30 ];
3520 sprintf( submeshGrpName, "SubMesh %d", subid );
3521 aSubGroup = new HDFgroup( submeshGrpName, aGroup );
3522 aSubGroup->CreateOnDisk();
3524 // write reference on a shape, already checked if it exists
3525 SALOMEDS::SObject_wrap mySubRef, myShape;
3526 if ( mySObject->FindSubObject( GetRefOnShapeTag(), mySubRef.inout() ))
3527 mySubRef->ReferencedObject( myShape.inout() );
3528 string myRefOnObject = myShape->GetID();
3529 if ( myRefOnObject.length() > 0 ) {
3530 aSize[ 0 ] = myRefOnObject.length() + 1;
3531 aDataset = new HDFdataset( "Ref on shape", aSubGroup, HDF_STRING, aSize, 1 );
3532 aDataset->CreateOnDisk();
3533 aDataset->WriteOnDisk( ( char* )( myRefOnObject.c_str() ) );
3534 aDataset->CloseOnDisk();
3537 // write applied hypotheses if exist
3538 SALOMEDS::SObject_wrap mySubHypBranch;
3539 found = mySObject->FindSubObject( GetRefOnAppliedHypothesisTag(),
3540 mySubHypBranch.inout() );
3542 aSubSubGroup = new HDFgroup( "Applied Hypotheses", aSubGroup );
3543 aSubSubGroup->CreateOnDisk();
3545 SALOMEDS::ChildIterator_wrap it = aStudy->NewChildIterator( mySubHypBranch );
3547 for ( ; it->More(); it->Next() ) {
3548 SALOMEDS::SObject_wrap mySubSObject = it->Value();
3549 SALOMEDS::SObject_wrap myRefOnHyp;
3550 bool ok = mySubSObject->ReferencedObject( myRefOnHyp.inout() );
3552 //string myRefOnObject = myRefOnHyp->GetID();
3553 CORBA::Object_var anObject = SObjectToObject( myRefOnHyp );
3554 CORBA::String_var objStr = GetORB()->object_to_string( anObject );
3555 int id = myStudyContext->findId( string( objStr.in() ) );
3556 //if ( myRefOnObject.length() > 0 ) {
3557 //aSize[ 0 ] = myRefOnObject.length() + 1;
3558 char hypName[ 30 ], hypId[ 30 ];
3559 sprintf( hypName, "Hyp %d", ++hypNb );
3560 sprintf( hypId, "%d", id );
3561 aSize[ 0 ] = strlen( hypId ) + 1;
3562 aDataset = new HDFdataset( hypName, aSubSubGroup, HDF_STRING, aSize, 1 );
3563 aDataset->CreateOnDisk();
3564 //aDataset->WriteOnDisk( ( char* )( myRefOnObject.c_str() ) );
3565 aDataset->WriteOnDisk( hypId );
3566 aDataset->CloseOnDisk();
3570 aSubSubGroup->CloseOnDisk();
3573 // write applied algorithms if exist
3574 SALOMEDS::SObject_wrap mySubAlgoBranch;
3575 found = mySObject->FindSubObject( GetRefOnAppliedAlgorithmsTag(),
3576 mySubAlgoBranch.inout() );
3578 aSubSubGroup = new HDFgroup( "Applied Algorithms", aSubGroup );
3579 aSubSubGroup->CreateOnDisk();
3581 SALOMEDS::ChildIterator_wrap it =
3582 aStudy->NewChildIterator( mySubAlgoBranch );
3584 for ( ; it->More(); it->Next() ) {
3585 SALOMEDS::SObject_wrap mySubSObject = it->Value();
3586 SALOMEDS::SObject_wrap myRefOnAlgo;
3587 bool ok = mySubSObject->ReferencedObject( myRefOnAlgo.inout() );
3589 //string myRefOnObject = myRefOnAlgo->GetID();
3590 CORBA::Object_var anObject = SObjectToObject( myRefOnAlgo );
3591 CORBA::String_var objStr = GetORB()->object_to_string( anObject );
3592 int id = myStudyContext->findId( string( objStr.in() ) );
3593 //if ( myRefOnObject.length() > 0 ) {
3594 //aSize[ 0 ] = myRefOnObject.length() + 1;
3595 char algoName[ 30 ], algoId[ 30 ];
3596 sprintf( algoName, "Algo %d", ++algoNb );
3597 sprintf( algoId, "%d", id );
3598 aSize[ 0 ] = strlen( algoId ) + 1;
3599 aDataset = new HDFdataset( algoName, aSubSubGroup, HDF_STRING, aSize, 1 );
3600 aDataset->CreateOnDisk();
3601 //aDataset->WriteOnDisk( ( char* )( myRefOnObject.c_str() ) );
3602 aDataset->WriteOnDisk( algoId );
3603 aDataset->CloseOnDisk();
3607 aSubSubGroup->CloseOnDisk();
3609 // close submesh HDF group
3610 aSubGroup->CloseOnDisk();
3613 // close container of submeshes by type HDF group
3614 aGroup->CloseOnDisk();
3617 // All sub-meshes will be stored in MED file
3618 // .. will NOT (PAL 12992)
3619 //if ( shapeRefFound )
3620 //myWriter.AddAllSubMeshes();
3622 // store submesh order if any
3623 const TListOfListOfInt& theOrderIds = myLocMesh.GetMeshOrder();
3624 if ( theOrderIds.size() ) {
3625 char order_list[ 30 ];
3626 strcpy( order_list, "Mesh Order" );
3627 // count number of submesh ids
3629 TListOfListOfInt::const_iterator idIt = theOrderIds.begin();
3630 for ( ; idIt != theOrderIds.end(); idIt++ )
3631 nbIDs += (*idIt).size();
3632 // number of values = number of IDs +
3633 // number of lists (for separators) - 1
3634 int* smIDs = new int [ nbIDs + theOrderIds.size() - 1 ];
3635 idIt = theOrderIds.begin();
3636 for ( int i = 0; idIt != theOrderIds.end(); idIt++ ) {
3637 const TListOfInt& idList = *idIt;
3638 if (idIt != theOrderIds.begin()) // not first list
3639 smIDs[ i++ ] = -1/* *idList.size()*/; // separator between lists
3640 // dump submesh ids from current list
3641 TListOfInt::const_iterator id_smId = idList.begin();
3642 for( ; id_smId != idList.end(); id_smId++ )
3643 smIDs[ i++ ] = *id_smId;
3646 aSize[ 0 ] = nbIDs + theOrderIds.size() - 1;
3648 aDataset = new HDFdataset( order_list, aTopGroup, HDF_INT32, aSize, 1 );
3649 aDataset->CreateOnDisk();
3650 aDataset->WriteOnDisk( smIDs );
3651 aDataset->CloseOnDisk();
3656 // groups root sub-branch
3657 SALOMEDS::SObject_wrap myGroupsBranch;
3658 for ( int i = GetNodeGroupsTag(); i <= GetBallElementsGroupsTag(); i++ ) {
3659 found = gotBranch->FindSubObject( i, myGroupsBranch.inout() );
3661 char name_group[ 30 ];
3662 if ( i == GetNodeGroupsTag() )
3663 strcpy( name_group, "Groups of Nodes" );
3664 else if ( i == GetEdgeGroupsTag() )
3665 strcpy( name_group, "Groups of Edges" );
3666 else if ( i == GetFaceGroupsTag() )
3667 strcpy( name_group, "Groups of Faces" );
3668 else if ( i == GetVolumeGroupsTag() )
3669 strcpy( name_group, "Groups of Volumes" );
3670 else if ( i == Get0DElementsGroupsTag() )
3671 strcpy( name_group, "Groups of 0D Elements" );
3672 else if ( i == GetBallElementsGroupsTag() )
3673 strcpy( name_group, "Groups of Balls" );
3675 aGroup = new HDFgroup( name_group, aTopGroup );
3676 aGroup->CreateOnDisk();
3678 SALOMEDS::ChildIterator_wrap it = aStudy->NewChildIterator( myGroupsBranch );
3679 for ( ; it->More(); it->Next() ) {
3680 SALOMEDS::SObject_wrap mySObject = it->Value();
3681 CORBA::Object_var aSubObject = SObjectToObject( mySObject );
3682 if ( !CORBA::is_nil( aSubObject ) ) {
3683 SMESH_GroupBase_i* myGroupImpl =
3684 dynamic_cast<SMESH_GroupBase_i*>( GetServant( aSubObject ).in() );
3687 SMESHDS_GroupBase* aGrpBaseDS = myGroupImpl->GetGroupDS();
3691 CORBA::String_var objStr = GetORB()->object_to_string( aSubObject );
3692 int anId = myStudyContext->findId( string( objStr.in() ) );
3694 // For each group, create a dataset named "Group <group_persistent_id>"
3695 // and store the group's user name into it
3696 const char* grpName = aGrpBaseDS->GetStoreName();
3697 CORBA::String_var aUserName = myGroupImpl->GetName();
3698 aSize[ 0 ] = strlen( aUserName ) + 1;
3700 aDataset = new HDFdataset( grpName, aGroup, HDF_STRING, aSize, 1 );
3701 aDataset->CreateOnDisk();
3702 aDataset->WriteOnDisk( aUserName );
3703 aDataset->CloseOnDisk();
3706 // For each group, create a dataset named "Group <group_persistent_id> Color"
3707 // and store the group's color into it
3708 char grpColorName[ 30 ];
3709 sprintf( grpColorName, "ColorGroup %d", anId );
3710 SALOMEDS::Color aColor = myGroupImpl->GetColor();
3712 anRGB[ 0 ] = aColor.R;
3713 anRGB[ 1 ] = aColor.G;
3714 anRGB[ 2 ] = aColor.B;
3716 aDataset = new HDFdataset( grpColorName, aGroup, HDF_FLOAT64, aSize, 1 );
3717 aDataset->CreateOnDisk();
3718 aDataset->WriteOnDisk( anRGB );
3719 aDataset->CloseOnDisk();
3721 // Pass SMESHDS_Group to MED writer
3722 SMESHDS_Group* aGrpDS = dynamic_cast<SMESHDS_Group*>( aGrpBaseDS );
3724 myWriter.AddGroup( aGrpDS );
3726 // write reference on a shape if exists
3727 SMESHDS_GroupOnGeom* aGeomGrp =
3728 dynamic_cast<SMESHDS_GroupOnGeom*>( aGrpBaseDS );
3730 SALOMEDS::SObject_wrap mySubRef, myShape;
3731 if (mySObject->FindSubObject( GetRefOnShapeTag(), mySubRef.inout() ) &&
3732 mySubRef->ReferencedObject( myShape.inout() ) &&
3733 !CORBA::is_nil( myShape->GetObject() ))
3735 CORBA::String_var myRefOnObject = myShape->GetID();
3736 if ( myRefOnObject.in()[0] ) {
3737 char aRefName[ 30 ];
3738 sprintf( aRefName, "Ref on shape %d", anId);
3739 aSize[ 0 ] = strlen( myRefOnObject.in() ) + 1;
3740 aDataset = new HDFdataset(aRefName, aGroup, HDF_STRING, aSize, 1);
3741 aDataset->CreateOnDisk();
3742 aDataset->WriteOnDisk( ( char* )( myRefOnObject.in() ));
3743 aDataset->CloseOnDisk();
3746 else // shape ref is invalid:
3748 // save a group on geometry as ordinary group
3749 myWriter.AddGroup( aGeomGrp );
3752 else if ( SMESH_GroupOnFilter_i* aFilterGrp_i =
3753 dynamic_cast<SMESH_GroupOnFilter_i*>( myGroupImpl ))
3755 std::string str = aFilterGrp_i->FilterToString();
3756 std::string hdfGrpName = "Filter " + SMESH_Comment(anId);
3757 aSize[ 0 ] = str.length() + 1;
3758 aDataset = new HDFdataset( hdfGrpName.c_str(), aGroup, HDF_STRING, aSize, 1);
3759 aDataset->CreateOnDisk();
3760 aDataset->WriteOnDisk( ( char* )( str.c_str() ) );
3761 aDataset->CloseOnDisk();
3765 aGroup->CloseOnDisk();
3769 if ( strcmp( strHasData.c_str(), "1" ) == 0 )
3771 // Flush current mesh information into MED file
3774 // save info on nb of elements
3775 SMESH_PreMeshInfo::SaveToFile( myImpl, id, aFile );
3777 // maybe a shape was deleted in the study
3778 if ( !shapeRefFound && !mySMESHDSMesh->ShapeToMesh().IsNull() && hasShape) {
3779 TopoDS_Shape nullShape;
3780 myLocMesh.ShapeToMesh( nullShape ); // remove shape referring data
3783 SMESHDS_SubMeshIteratorPtr smIt = mySMESHDSMesh->SubMeshes();
3788 aGroup = new HDFgroup( "Submeshes", aTopGroup );
3789 aGroup->CreateOnDisk();
3791 // each element belongs to one or none submesh,
3792 // so for each node/element, we store a submesh ID
3794 // Store submesh IDs
3795 for ( int isNode = 0; isNode < 2; ++isNode )
3797 SMDS_ElemIteratorPtr eIt =
3798 mySMESHDSMesh->elementsIterator( isNode ? SMDSAbs_Node : SMDSAbs_All );
3799 int nbElems = isNode ? mySMESHDSMesh->NbNodes() : mySMESHDSMesh->GetMeshInfo().NbElements();
3802 std::vector<int> smIDs; smIDs.reserve( nbElems );
3803 while ( eIt->more() )
3804 if ( const SMDS_MeshElement* e = eIt->next())
3805 smIDs.push_back( e->getshapeId() );
3807 aSize[ 0 ] = nbElems;
3808 string aDSName( isNode ? "Node Submeshes" : "Element Submeshes");
3809 aDataset = new HDFdataset( (char*)aDSName.c_str(), aGroup, HDF_INT32, aSize, 1 );
3810 aDataset->CreateOnDisk();
3811 aDataset->WriteOnDisk( & smIDs[0] );
3812 aDataset->CloseOnDisk();
3815 aGroup->CloseOnDisk();
3817 // Store node positions on sub-shapes (SMDS_Position):
3818 // ----------------------------------------------------
3820 aGroup = new HDFgroup( "Node Positions", aTopGroup );
3821 aGroup->CreateOnDisk();
3823 // in aGroup, create 5 datasets to contain:
3824 // "Nodes on Edges" - ID of node on edge
3825 // "Edge positions" - U parameter on node on edge
3826 // "Nodes on Faces" - ID of node on face
3827 // "Face U positions" - U parameter of node on face
3828 // "Face V positions" - V parameter of node on face
3830 // Find out nb of nodes on edges and faces
3831 // Collect corresponding sub-meshes
3832 int nbEdgeNodes = 0, nbFaceNodes = 0;
3833 list<SMESHDS_SubMesh*> aEdgeSM, aFaceSM;
3834 // loop on SMESHDS_SubMesh'es
3835 while ( smIt->more() )
3837 SMESHDS_SubMesh* aSubMesh = const_cast< SMESHDS_SubMesh* >( smIt->next() );
3838 if ( aSubMesh->IsComplexSubmesh() )
3839 continue; // submesh containing other submeshs
3840 int nbNodes = aSubMesh->NbNodes();
3841 if ( nbNodes == 0 ) continue;
3843 int aShapeID = aSubMesh->GetID();
3844 if ( aShapeID < 1 || aShapeID > mySMESHDSMesh->MaxShapeIndex() )
3846 int aShapeType = mySMESHDSMesh->IndexToShape( aShapeID ).ShapeType();
3847 // write only SMDS_FacePosition and SMDS_EdgePosition
3848 switch ( aShapeType ) {
3850 nbFaceNodes += nbNodes;
3851 aFaceSM.push_back( aSubMesh );
3854 nbEdgeNodes += nbNodes;
3855 aEdgeSM.push_back( aSubMesh );
3861 // Treat positions on edges or faces
3862 for ( int onFace = 0; onFace < 2; onFace++ )
3864 // Create arrays to store in datasets
3865 int iNode = 0, nbNodes = ( onFace ? nbFaceNodes : nbEdgeNodes );
3866 if (!nbNodes) continue;
3867 int* aNodeIDs = new int [ nbNodes ];
3868 double* aUPos = new double [ nbNodes ];
3869 double* aVPos = ( onFace ? new double[ nbNodes ] : 0 );
3872 // loop on sub-meshes
3873 list<SMESHDS_SubMesh*> * pListSM = ( onFace ? &aFaceSM : &aEdgeSM );
3874 list<SMESHDS_SubMesh*>::iterator itSM = pListSM->begin();
3875 for ( ; itSM != pListSM->end(); itSM++ )
3877 SMESHDS_SubMesh* aSubMesh = (*itSM);
3879 SMDS_NodeIteratorPtr itNode = aSubMesh->GetNodes();
3880 // loop on nodes in aSubMesh
3881 while ( itNode->more() )
3884 const SMDS_MeshNode* node = itNode->next();
3885 aNodeIDs [ iNode ] = node->GetID();
3888 const SMDS_PositionPtr pos = node->GetPosition();
3889 if ( onFace ) { // on FACE
3890 SMDS_FacePositionPtr fPos = pos;
3892 aUPos[ iNode ] = fPos->GetUParameter();
3893 aVPos[ iNode ] = fPos->GetVParameter();
3900 SMDS_EdgePositionPtr ePos = pos;
3902 aUPos[ iNode ] = ePos->GetUParameter();
3908 } // loop on nodes in aSubMesh
3909 } // loop on sub-meshes
3914 aSize[ 0 ] = nbNodes;
3916 string aDSName( onFace ? "Nodes on Faces" : "Nodes on Edges");
3917 aDataset = new HDFdataset( (char*)aDSName.c_str(), aGroup, HDF_INT32, aSize, 1 );
3918 aDataset->CreateOnDisk();
3919 aDataset->WriteOnDisk( aNodeIDs );
3920 aDataset->CloseOnDisk();
3923 aDSName = ( onFace ? "Face U positions" : "Edge positions");
3924 aDataset = new HDFdataset( (char*)aDSName.c_str(), aGroup, HDF_FLOAT64, aSize, 1);
3925 aDataset->CreateOnDisk();
3926 aDataset->WriteOnDisk( aUPos );
3927 aDataset->CloseOnDisk();
3930 aDataset = new HDFdataset( "Face V positions", aGroup, HDF_FLOAT64, aSize, 1);
3931 aDataset->CreateOnDisk();
3932 aDataset->WriteOnDisk( aVPos );
3933 aDataset->CloseOnDisk();
3938 if ( aVPos ) delete [] aVPos;
3940 } // treat positions on edges or faces
3942 // close "Node Positions" group
3943 aGroup->CloseOnDisk();
3945 } // if ( there are submeshes in SMESHDS_Mesh )
3948 // close mesh HDF group
3949 aTopGroup->CloseOnDisk();
3957 aFile->CloseOnDisk();
3960 // Convert temporary files to stream
3961 aStreamFile = SALOMEDS_Tool::PutFilesToStream( tmpDir.ToCString(), aFileSeq, isMultiFile );
3963 // Remove temporary files and directory
3965 SALOMEDS_Tool::RemoveTemporaryFiles( tmpDir.ToCString(), aFileSeq, true );
3967 return aStreamFile._retn();
3970 //=============================================================================
3972 * SMESH_Gen_i::SaveASCII
3974 * Save SMESH module's data in ASCII format
3976 //=============================================================================
3978 SALOMEDS::TMPFile* SMESH_Gen_i::SaveASCII( SALOMEDS::SComponent_ptr theComponent,
3980 bool isMultiFile ) {
3981 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::SaveASCII" );
3982 SALOMEDS::TMPFile_var aStreamFile = Save( theComponent, theURL, isMultiFile );
3983 return aStreamFile._retn();
3985 //after usual saving needs to encipher binary to text string
3986 //Any binary symbol will be represent as "|xx" () hexadecimal format number
3987 int size = aStreamFile.in().length();
3988 _CORBA_Octet* buffer = new _CORBA_Octet[size*3+1];
3989 for ( int i = 0; i < size; i++ )
3990 sprintf( (char*)&(buffer[i*3]), "|%02x", aStreamFile[i] );
3992 buffer[size * 3] = '\0';
3994 SALOMEDS::TMPFile_var anAsciiStreamFile = new SALOMEDS::TMPFile(size*3, size*3, buffer, 1);
3996 return anAsciiStreamFile._retn();
3999 //=============================================================================
4001 * SMESH_Gen_i::loadGeomData
4003 * Load GEOM module data
4005 //=============================================================================
4007 void SMESH_Gen_i::loadGeomData( SALOMEDS::SComponent_ptr theCompRoot )
4009 if ( theCompRoot->_is_nil() )
4012 SALOMEDS::StudyBuilder_var aStudyBuilder = getStudyServant()->NewBuilder();
4013 aStudyBuilder->LoadWith( theCompRoot, GetGeomEngine() );
4016 //=============================================================================
4020 * Load SMESH module's data
4022 //=============================================================================
4024 bool SMESH_Gen_i::Load( SALOMEDS::SComponent_ptr theComponent,
4025 const SALOMEDS::TMPFile& theStream,
4029 //if (!myStudyContext)
4031 SALOMEDS::Study_var aStudy = getStudyServant();
4032 /* if( !theComponent->_is_nil() )
4034 if( !aStudy->FindComponent( "GEOM" )->_is_nil() )
4035 loadGeomData( aStudy->FindComponent( "GEOM" ) );
4038 // Get temporary files location
4039 TCollection_AsciiString tmpDir =
4040 ( char* )( isMultiFile ? theURL : SALOMEDS_Tool::GetTmpDir().c_str() );
4042 // Convert the stream into sequence of files to process
4043 SALOMEDS_Tool::ListOfFiles aFileSeq = SALOMEDS_Tool::PutStreamToFiles( theStream,
4046 TCollection_AsciiString aStudyName( "" );
4047 if ( isMultiFile ) {
4048 CORBA::WString_var url = aStudy->URL();
4049 aStudyName = (char*)SALOMEDS_Tool::GetNameFromPath( Kernel_Utils::encode(url.in()) ).c_str();
4051 // Set names of temporary files
4052 TCollection_AsciiString filename = tmpDir + aStudyName + "_SMESH.hdf";
4053 TCollection_AsciiString meshfile = tmpDir + aStudyName + "_SMESH_Mesh.med";
4057 HDFdataset* aDataset;
4058 HDFgroup* aTopGroup;
4060 HDFgroup* aSubGroup;
4061 HDFgroup* aSubSubGroup;
4064 // ---> open HDF file
4065 aFile = new HDFfile( (char*) filename.ToCString() );
4067 aFile->OpenOnDisk( HDF_RDONLY );
4069 catch ( HDFexception ) {
4070 INFOS( "Load(): " << filename << " not found!" );
4074 TPythonDump pd; // prevent dump during loading
4076 // DriverMED_R_SMESHDS_Mesh myReader;
4077 // myReader.SetFile( meshfile.ToCString() );
4079 // For PAL13473 ("Repetitive mesh") implementation.
4080 // New dependencies between SMESH objects are established:
4081 // now hypotheses can refer to meshes, shapes and other hypotheses.
4082 // To keep data consistent, the following order of data restoration
4084 // 1. Create hypotheses
4085 // 2. Create all meshes
4086 // 3. Load hypotheses' data
4089 list< pair< SMESH_Hypothesis_i*, string > > hypDataList;
4090 list< pair< SMESH_Mesh_i*, HDFgroup* > > meshGroupList;
4091 list< SMESH::Filter_var > filters;
4093 // get total number of top-level groups
4094 int aNbGroups = aFile->nInternalObjects();
4095 if ( aNbGroups > 0 ) {
4096 // --> in first turn we should read&create hypotheses
4097 if ( aFile->ExistInternalObject( "Hypotheses" ) ) {
4098 // open hypotheses root HDF group
4099 aTopGroup = new HDFgroup( "Hypotheses", aFile );
4100 aTopGroup->OpenOnDisk();
4102 // get number of hypotheses
4103 int aNbObjects = aTopGroup->nInternalObjects();
4104 for ( int j = 0; j < aNbObjects; j++ ) {
4105 // try to identify hypothesis
4106 char hypGrpName[ HDF_NAME_MAX_LEN+1 ];
4107 aTopGroup->InternalObjectIndentify( j, hypGrpName );
4109 if ( string( hypGrpName ).substr( 0, 10 ) == string( "Hypothesis" ) ) {
4110 // open hypothesis group
4111 aGroup = new HDFgroup( hypGrpName, aTopGroup );
4112 aGroup->OpenOnDisk();
4114 // --> get hypothesis id
4115 int id = atoi( string( hypGrpName ).substr( 10 ).c_str() );
4120 // get number of datasets
4121 int aNbSubObjects = aGroup->nInternalObjects();
4122 for ( int k = 0; k < aNbSubObjects; k++ ) {
4124 char name_of_subgroup[ HDF_NAME_MAX_LEN+1 ];
4125 aGroup->InternalObjectIndentify( k, name_of_subgroup );
4126 // --> get hypothesis name
4127 if ( strcmp( name_of_subgroup, "Name" ) == 0 ) {
4128 aDataset = new HDFdataset( name_of_subgroup, aGroup );
4129 aDataset->OpenOnDisk();
4130 size = aDataset->GetSize();
4131 char* hypname_str = new char[ size ];
4132 aDataset->ReadFromDisk( hypname_str );
4133 hypname = string( hypname_str );
4134 delete [] hypname_str;
4135 aDataset->CloseOnDisk();
4137 // --> get hypothesis plugin library name
4138 if ( strcmp( name_of_subgroup, "LibName" ) == 0 ) {
4139 aDataset = new HDFdataset( name_of_subgroup, aGroup );
4140 aDataset->OpenOnDisk();
4141 size = aDataset->GetSize();
4142 char* libname_str = new char[ size ];
4143 aDataset->ReadFromDisk( libname_str );
4144 if(MYDEBUG) SCRUTE( libname_str );
4145 libname = string( libname_str );
4146 delete [] libname_str;
4147 aDataset->CloseOnDisk();
4149 // --> get hypothesis data
4150 if ( strcmp( name_of_subgroup, "Data" ) == 0 ) {
4151 aDataset = new HDFdataset( name_of_subgroup, aGroup );
4152 aDataset->OpenOnDisk();
4153 size = aDataset->GetSize();
4154 char* hypdata_str = new char[ size ];
4155 aDataset->ReadFromDisk( hypdata_str );
4156 hypdata = string( hypdata_str );
4157 delete [] hypdata_str;
4158 aDataset->CloseOnDisk();
4161 // close hypothesis HDF group
4162 aGroup->CloseOnDisk();
4164 // --> restore hypothesis from data
4165 if ( id > 0 && !hypname.empty()/* && !hypdata.empty()*/ ) { // VSR : persistent data can be empty
4166 if(MYDEBUG) MESSAGE("VSR - load hypothesis : id = " << id <<
4167 ", name = " << hypname.c_str() << ", persistent string = " << hypdata.c_str());
4168 SMESH::SMESH_Hypothesis_var myHyp;
4170 try { // protect persistence mechanism against exceptions
4171 myHyp = this->createHypothesis( hypname.c_str(), libname.c_str() );
4174 INFOS( "Exception during hypothesis creation" );
4177 SMESH_Hypothesis_i* myImpl = dynamic_cast<SMESH_Hypothesis_i*>( GetServant( myHyp ).in() );
4179 // myImpl->LoadFrom( hypdata.c_str() );
4180 hypDataList.push_back( make_pair( myImpl, hypdata ));
4181 CORBA::String_var iorString = GetORB()->object_to_string( myHyp );
4182 int newId = myStudyContext->findId( iorString.in() );
4183 myStudyContext->mapOldToNew( id, newId );
4186 if(MYDEBUG) MESSAGE( "VSR - SMESH_Gen::Load - can't get servant" );
4190 // close hypotheses root HDF group
4191 aTopGroup->CloseOnDisk();
4195 // --> then we should read&create algorithms
4196 if ( aFile->ExistInternalObject( "Algorithms" ) ) {
4197 // open algorithms root HDF group
4198 aTopGroup = new HDFgroup( "Algorithms", aFile );
4199 aTopGroup->OpenOnDisk();
4201 // get number of algorithms
4202 int aNbObjects = aTopGroup->nInternalObjects();
4203 for ( int j = 0; j < aNbObjects; j++ ) {
4204 // try to identify algorithm
4205 char hypGrpName[ HDF_NAME_MAX_LEN+1 ];
4206 aTopGroup->InternalObjectIndentify( j, hypGrpName );
4208 if ( string( hypGrpName ).substr( 0, 9 ) == string( "Algorithm" ) ) {
4209 // open algorithm group
4210 aGroup = new HDFgroup( hypGrpName, aTopGroup );
4211 aGroup->OpenOnDisk();
4213 // --> get algorithm id
4214 int id = atoi( string( hypGrpName ).substr( 9 ).c_str() );
4219 // get number of datasets
4220 int aNbSubObjects = aGroup->nInternalObjects();
4221 for ( int k = 0; k < aNbSubObjects; k++ ) {
4223 char name_of_subgroup[ HDF_NAME_MAX_LEN+1 ];
4224 aGroup->InternalObjectIndentify( k, name_of_subgroup );
4225 // --> get algorithm name
4226 if ( strcmp( name_of_subgroup, "Name" ) == 0 ) {
4227 aDataset = new HDFdataset( name_of_subgroup, aGroup );
4228 aDataset->OpenOnDisk();
4229 size = aDataset->GetSize();
4230 char* hypname_str = new char[ size ];
4231 aDataset->ReadFromDisk( hypname_str );
4232 hypname = string( hypname_str );
4233 delete [] hypname_str;
4234 aDataset->CloseOnDisk();
4236 // --> get algorithm plugin library name
4237 if ( strcmp( name_of_subgroup, "LibName" ) == 0 ) {
4238 aDataset = new HDFdataset( name_of_subgroup, aGroup );
4239 aDataset->OpenOnDisk();
4240 size = aDataset->GetSize();
4241 char* libname_str = new char[ size ];
4242 aDataset->ReadFromDisk( libname_str );
4243 if(MYDEBUG) SCRUTE( libname_str );
4244 libname = string( libname_str );
4245 delete [] libname_str;
4246 aDataset->CloseOnDisk();
4248 // --> get algorithm data
4249 if ( strcmp( name_of_subgroup, "Data" ) == 0 ) {
4250 aDataset = new HDFdataset( name_of_subgroup, aGroup );
4251 aDataset->OpenOnDisk();
4252 size = aDataset->GetSize();
4253 char* hypdata_str = new char[ size ];
4254 aDataset->ReadFromDisk( hypdata_str );
4255 if(MYDEBUG) SCRUTE( hypdata_str );
4256 hypdata = string( hypdata_str );
4257 delete [] hypdata_str;
4258 aDataset->CloseOnDisk();
4261 // close algorithm HDF group
4262 aGroup->CloseOnDisk();
4264 // --> restore algorithm from data
4265 if ( id > 0 && !hypname.empty()/* && !hypdata.empty()*/ ) { // VSR : persistent data can be empty
4266 if(MYDEBUG) MESSAGE("VSR - load algo : id = " << id <<
4267 ", name = " << hypname.c_str() << ", persistent string = " << hypdata.c_str());
4268 SMESH::SMESH_Hypothesis_var myHyp;
4270 try { // protect persistence mechanism against exceptions
4271 myHyp = this->createHypothesis( hypname.c_str(), libname.c_str() );
4274 INFOS( "Exception during hypothesis creation" );
4277 SMESH_Hypothesis_i* myImpl = dynamic_cast<SMESH_Hypothesis_i*>( GetServant( myHyp ).in() );
4279 //myImpl->LoadFrom( hypdata.c_str() );
4280 hypDataList.push_back( make_pair( myImpl, hypdata ));
4281 CORBA::String_var iorString = GetORB()->object_to_string( myHyp );
4282 int newId = myStudyContext->findId( iorString.in() );
4283 myStudyContext->mapOldToNew( id, newId );
4286 if(MYDEBUG) MESSAGE( "VSR - SMESH_Gen::Load - can't get servant" );
4290 // close algorithms root HDF group
4291 aTopGroup->CloseOnDisk();
4295 // --> the rest groups should be meshes
4296 for ( int i = 0; i < aNbGroups; i++ ) {
4297 // identify next group
4298 char meshName[ HDF_NAME_MAX_LEN+1 ];
4299 aFile->InternalObjectIndentify( i, meshName );
4301 if ( string( meshName ).substr( 0, 4 ) == string( "Mesh" ) ) {
4303 int id = atoi( string( meshName ).substr( 4 ).c_str() );
4307 // open mesh HDF group
4308 aTopGroup = new HDFgroup( meshName, aFile );
4309 aTopGroup->OpenOnDisk();
4311 // get number of child HDF objects
4312 int aNbObjects = aTopGroup->nInternalObjects();
4313 if ( aNbObjects > 0 ) {
4315 if(MYDEBUG) MESSAGE( "VSR - load mesh : id = " << id );
4316 SMESH::SMESH_Mesh_var myNewMesh = this->createMesh();
4317 SMESH_Mesh_i* myNewMeshImpl = dynamic_cast<SMESH_Mesh_i*>( GetServant( myNewMesh ).in() );
4318 if ( !myNewMeshImpl )
4320 meshGroupList.push_back( make_pair( myNewMeshImpl, aTopGroup ));
4322 CORBA::String_var iorString = GetORB()->object_to_string( myNewMesh );
4323 int newId = myStudyContext->findId( iorString.in() );
4324 myStudyContext->mapOldToNew( id, newId );
4327 // try to read and set auto color flag
4328 char aMeshAutoColorName[ 30 ];
4329 sprintf( aMeshAutoColorName, "AutoColorMesh %d", id);
4330 if( aTopGroup->ExistInternalObject( aMeshAutoColorName ) )
4332 aDataset = new HDFdataset( aMeshAutoColorName, aTopGroup );
4333 aDataset->OpenOnDisk();
4334 size = aDataset->GetSize();
4335 int* anAutoColor = new int[ size ];
4336 aDataset->ReadFromDisk( anAutoColor );
4337 aDataset->CloseOnDisk();
4338 myNewMeshImpl->GetImpl().SetAutoColor( (bool)anAutoColor[0] );
4339 delete [] anAutoColor;
4342 // try to read and set reference to shape
4343 GEOM::GEOM_Object_var aShapeObject;
4344 if ( aTopGroup->ExistInternalObject( "Ref on shape" ) ) {
4345 // load mesh "Ref on shape" - it's an entry to SObject
4346 aDataset = new HDFdataset( "Ref on shape", aTopGroup );
4347 aDataset->OpenOnDisk();
4348 size = aDataset->GetSize();
4349 char* refFromFile = new char[ size ];
4350 aDataset->ReadFromDisk( refFromFile );
4351 aDataset->CloseOnDisk();
4352 if ( strlen( refFromFile ) > 0 ) {
4353 SALOMEDS::SObject_wrap shapeSO = aStudy->FindObjectID( refFromFile );
4355 // Make sure GEOM data are loaded first
4356 //loadGeomData( shapeSO->GetFatherComponent() );
4358 CORBA::Object_var shapeObject = SObjectToObject( shapeSO );
4359 if ( !CORBA::is_nil( shapeObject ) ) {
4360 aShapeObject = GEOM::GEOM_Object::_narrow( shapeObject );
4361 if ( !aShapeObject->_is_nil() )
4362 myNewMeshImpl->SetShape( aShapeObject );
4365 delete [] refFromFile;
4368 // issue 20918. Restore Persistent Id of SMESHDS_Mesh
4369 if( aTopGroup->ExistInternalObject( "meshPersistentId" ) )
4371 aDataset = new HDFdataset( "meshPersistentId", aTopGroup );
4372 aDataset->OpenOnDisk();
4373 size = aDataset->GetSize();
4374 int* meshPersistentId = new int[ size ];
4375 aDataset->ReadFromDisk( meshPersistentId );
4376 aDataset->CloseOnDisk();
4377 myNewMeshImpl->GetImpl().GetMeshDS()->SetPersistentId( *meshPersistentId );
4378 delete [] meshPersistentId;
4381 // Restore file info
4382 if ( aTopGroup->ExistInternalObject( "file info" ))
4384 aDataset = new HDFdataset( "file info", aTopGroup );
4385 aDataset->OpenOnDisk();
4386 size = aDataset->GetSize();
4387 std::string info( size, ' ');
4388 aDataset->ReadFromDisk( (char*) info.data() );
4389 aDataset->CloseOnDisk();
4390 myNewMeshImpl->FileInfoFromString( info );
4396 // As all object that can be referred by hypothesis are created,
4397 // we can restore hypothesis data
4399 list< pair< SMESH_Hypothesis_i*, string > >::iterator hyp_data;
4400 for ( hyp_data = hypDataList.begin(); hyp_data != hypDataList.end(); ++hyp_data )
4402 SMESH_Hypothesis_i* hyp = hyp_data->first;
4403 string & data = hyp_data->second;
4404 hyp->LoadFrom( data.c_str() );
4407 // Restore the rest mesh data
4409 list< pair< SMESH_Mesh_i*, HDFgroup* > >::iterator meshi_group;
4410 for ( meshi_group = meshGroupList.begin(); meshi_group != meshGroupList.end(); ++meshi_group )
4412 aTopGroup = meshi_group->second;
4413 SMESH_Mesh_i* myNewMeshImpl = meshi_group->first;
4414 //::SMESH_Mesh& myLocMesh = myNewMeshImpl->GetImpl();
4415 //SMESHDS_Mesh* mySMESHDSMesh = myLocMesh.GetMeshDS();
4417 GEOM::GEOM_Object_var aShapeObject = myNewMeshImpl->GetShapeToMesh();
4418 bool hasData = false;
4421 CORBA::String_var iorString = GetORB()->object_to_string( myNewMeshImpl->_this() );
4422 int newId = myStudyContext->findId( iorString.in() );
4423 int id = myStudyContext->getOldId( newId );
4425 // try to find mesh data dataset
4426 if ( aTopGroup->ExistInternalObject( "Has data" ) ) {
4427 // load mesh "has data" flag
4428 aDataset = new HDFdataset( "Has data", aTopGroup );
4429 aDataset->OpenOnDisk();
4430 size = aDataset->GetSize();
4431 char* strHasData = new char[ size ];
4432 aDataset->ReadFromDisk( strHasData );
4433 aDataset->CloseOnDisk();
4434 if ( strcmp( strHasData, "1") == 0 ) {
4435 // read mesh data from MED file
4436 // myReader.SetMesh( mySMESHDSMesh );
4437 // myReader.SetMeshId( id );
4438 // myReader.Perform();
4441 delete [] strHasData;
4444 // Try to get applied ALGORITHMS (mesh is not cleared by algo addition because
4445 // nodes and elements are not yet put into sub-meshes)
4446 if ( aTopGroup->ExistInternalObject( "Applied Algorithms" ) ) {
4447 aGroup = new HDFgroup( "Applied Algorithms", aTopGroup );
4448 aGroup->OpenOnDisk();
4449 // get number of applied algorithms
4450 int aNbSubObjects = aGroup->nInternalObjects();
4451 if(MYDEBUG) MESSAGE( "VSR - number of applied algos " << aNbSubObjects );
4452 for ( int j = 0; j < aNbSubObjects; j++ ) {
4453 char name_dataset[ HDF_NAME_MAX_LEN+1 ];
4454 aGroup->InternalObjectIndentify( j, name_dataset );
4455 // check if it is an algorithm
4456 if ( string( name_dataset ).substr( 0, 4 ) == string( "Algo" ) ) {
4457 aDataset = new HDFdataset( name_dataset, aGroup );
4458 aDataset->OpenOnDisk();
4459 size = aDataset->GetSize();
4460 char* refFromFile = new char[ size ];
4461 aDataset->ReadFromDisk( refFromFile );
4462 aDataset->CloseOnDisk();
4463 // san - it is impossible to recover applied algorithms using their entries within Load() method
4464 //SALOMEDS::SObject_wrap hypSO = aStudy->FindObjectID( refFromFile );
4465 //CORBA::Object_var hypObject = SObjectToObject( hypSO );
4466 int id = atoi( refFromFile );
4467 delete [] refFromFile;
4468 string anIOR = myStudyContext->getIORbyOldId( id );
4469 if ( !anIOR.empty() ) {
4470 CORBA::Object_var hypObject = GetORB()->string_to_object( anIOR.c_str() );
4471 if ( !CORBA::is_nil( hypObject ) ) {
4472 SMESH::SMESH_Hypothesis_var anHyp = SMESH::SMESH_Hypothesis::_narrow( hypObject );
4473 if ( !anHyp->_is_nil() && (!aShapeObject->_is_nil()
4474 || !myNewMeshImpl->HasShapeToMesh()) )
4475 myNewMeshImpl->addHypothesis( aShapeObject, anHyp );
4480 aGroup->CloseOnDisk();
4483 // try to get applied hypotheses
4484 if ( aTopGroup->ExistInternalObject( "Applied Hypotheses" ) ) {
4485 aGroup = new HDFgroup( "Applied Hypotheses", aTopGroup );
4486 aGroup->OpenOnDisk();
4487 // get number of applied hypotheses
4488 int aNbSubObjects = aGroup->nInternalObjects();
4489 for ( int j = 0; j < aNbSubObjects; j++ ) {
4490 char name_dataset[ HDF_NAME_MAX_LEN+1 ];
4491 aGroup->InternalObjectIndentify( j, name_dataset );
4492 // check if it is a hypothesis
4493 if ( string( name_dataset ).substr( 0, 3 ) == string( "Hyp" ) ) {
4494 aDataset = new HDFdataset( name_dataset, aGroup );
4495 aDataset->OpenOnDisk();
4496 size = aDataset->GetSize();
4497 char* refFromFile = new char[ size ];
4498 aDataset->ReadFromDisk( refFromFile );
4499 aDataset->CloseOnDisk();
4500 // san - it is impossible to recover applied hypotheses using their entries within Load() method
4501 //SALOMEDS::SObject_wrap hypSO = myStudy->FindObjectID( refFromFile );
4502 //CORBA::Object_var hypObject = SObjectToObject( hypSO );
4503 int id = atoi( refFromFile );
4504 delete [] refFromFile;
4505 string anIOR = myStudyContext->getIORbyOldId( id );
4506 if ( !anIOR.empty() ) {
4507 CORBA::Object_var hypObject = GetORB()->string_to_object( anIOR.c_str() );
4508 if ( !CORBA::is_nil( hypObject ) ) {
4509 SMESH::SMESH_Hypothesis_var anHyp = SMESH::SMESH_Hypothesis::_narrow( hypObject );
4510 if ( !anHyp->_is_nil() && (!aShapeObject->_is_nil()
4511 || !myNewMeshImpl->HasShapeToMesh()) )
4512 myNewMeshImpl->addHypothesis( aShapeObject, anHyp );
4517 aGroup->CloseOnDisk();
4520 // --> try to find SUB-MESHES containers for each type of submesh
4521 for ( int j = GetSubMeshOnVertexTag(); j <= GetSubMeshOnCompoundTag(); j++ ) {
4522 const char* name_meshgroup = 0;
4523 if ( j == GetSubMeshOnVertexTag() )
4524 name_meshgroup = "SubMeshes On Vertex";
4525 else if ( j == GetSubMeshOnEdgeTag() )
4526 name_meshgroup = "SubMeshes On Edge";
4527 else if ( j == GetSubMeshOnWireTag() )
4528 name_meshgroup = "SubMeshes On Wire";
4529 else if ( j == GetSubMeshOnFaceTag() )
4530 name_meshgroup = "SubMeshes On Face";
4531 else if ( j == GetSubMeshOnShellTag() )
4532 name_meshgroup = "SubMeshes On Shell";
4533 else if ( j == GetSubMeshOnSolidTag() )
4534 name_meshgroup = "SubMeshes On Solid";
4535 else if ( j == GetSubMeshOnCompoundTag() )
4536 name_meshgroup = "SubMeshes On Compound";
4538 // try to get submeshes container HDF group
4539 if ( aTopGroup->ExistInternalObject( name_meshgroup ) ) {
4540 // open submeshes containers HDF group
4541 aGroup = new HDFgroup( name_meshgroup, aTopGroup );
4542 aGroup->OpenOnDisk();
4544 // get number of submeshes
4545 int aNbSubMeshes = aGroup->nInternalObjects();
4546 for ( int k = 0; k < aNbSubMeshes; k++ ) {
4548 char name_submeshgroup[ HDF_NAME_MAX_LEN+1 ];
4549 aGroup->InternalObjectIndentify( k, name_submeshgroup );
4550 if ( strncmp( name_submeshgroup, "SubMesh", 7 ) == 0 ) {
4551 // --> get submesh id
4552 int subid = atoi( name_submeshgroup + 7 );
4555 // open submesh HDF group
4556 aSubGroup = new HDFgroup( name_submeshgroup, aGroup );
4557 aSubGroup->OpenOnDisk();
4559 // try to read and set reference to subshape
4560 GEOM::GEOM_Object_var aSubShapeObject;
4561 SMESH::SMESH_subMesh_var aSubMesh;
4563 if ( aSubGroup->ExistInternalObject( "Ref on shape" ) ) {
4564 // load submesh "Ref on shape" - it's an entry to SObject
4565 aDataset = new HDFdataset( "Ref on shape", aSubGroup );
4566 aDataset->OpenOnDisk();
4567 size = aDataset->GetSize();
4568 char* refFromFile = new char[ size ];
4569 aDataset->ReadFromDisk( refFromFile );
4570 aDataset->CloseOnDisk();
4571 if ( strlen( refFromFile ) > 0 ) {
4572 SALOMEDS::SObject_wrap subShapeSO = aStudy->FindObjectID( refFromFile );
4573 CORBA::Object_var subShapeObject = SObjectToObject( subShapeSO );
4574 if ( !CORBA::is_nil( subShapeObject ) ) {
4575 aSubShapeObject = GEOM::GEOM_Object::_narrow( subShapeObject );
4576 if ( !aSubShapeObject->_is_nil() )
4577 aSubMesh = SMESH::SMESH_subMesh::_duplicate
4578 ( myNewMeshImpl->createSubMesh( aSubShapeObject ) );
4579 if ( aSubMesh->_is_nil() )
4581 string iorSubString = GetORB()->object_to_string( aSubMesh );
4582 int newSubId = myStudyContext->findId( iorSubString );
4583 myStudyContext->mapOldToNew( subid, newSubId );
4586 delete [] refFromFile;
4589 if ( aSubMesh->_is_nil() )
4592 // try to get applied algorithms
4593 if ( aSubGroup->ExistInternalObject( "Applied Algorithms" ) ) {
4594 // open "applied algorithms" HDF group
4595 aSubSubGroup = new HDFgroup( "Applied Algorithms", aSubGroup );
4596 aSubSubGroup->OpenOnDisk();
4597 // get number of applied algorithms
4598 int aNbSubObjects = aSubSubGroup->nInternalObjects();
4599 for ( int l = 0; l < aNbSubObjects; l++ ) {
4600 char name_dataset[ HDF_NAME_MAX_LEN+1 ];
4601 aSubSubGroup->InternalObjectIndentify( l, name_dataset );
4602 // check if it is an algorithm
4603 if ( strncmp( name_dataset, "Algo", 4 ) == 0 ) {
4604 aDataset = new HDFdataset( name_dataset, aSubSubGroup );
4605 aDataset->OpenOnDisk();
4606 size = aDataset->GetSize();
4607 char* refFromFile = new char[ size ];
4608 aDataset->ReadFromDisk( refFromFile );
4609 aDataset->CloseOnDisk();
4611 int id = atoi( refFromFile );
4612 string anIOR = myStudyContext->getIORbyOldId( id );
4613 if ( !anIOR.empty() ) {
4614 CORBA::Object_var hypObject = GetORB()->string_to_object( anIOR.c_str() );
4615 if ( !CORBA::is_nil( hypObject ) ) {
4616 SMESH::SMESH_Hypothesis_var anHyp = SMESH::SMESH_Hypothesis::_narrow( hypObject );
4617 if ( !anHyp->_is_nil() && !aShapeObject->_is_nil() )
4618 myNewMeshImpl->addHypothesis( aSubShapeObject, anHyp );
4621 delete [] refFromFile;
4624 // close "applied algorithms" HDF group
4625 aSubSubGroup->CloseOnDisk();
4628 // try to get applied hypotheses
4629 if ( aSubGroup->ExistInternalObject( "Applied Hypotheses" ) ) {
4630 // open "applied hypotheses" HDF group
4631 aSubSubGroup = new HDFgroup( "Applied Hypotheses", aSubGroup );
4632 aSubSubGroup->OpenOnDisk();
4633 // get number of applied hypotheses
4634 int aNbSubObjects = aSubSubGroup->nInternalObjects();
4635 for ( int l = 0; l < aNbSubObjects; l++ ) {
4636 char name_dataset[ HDF_NAME_MAX_LEN+1 ];
4637 aSubSubGroup->InternalObjectIndentify( l, name_dataset );
4638 // check if it is a hypothesis
4639 if ( string( name_dataset ).substr( 0, 3 ) == string( "Hyp" ) ) {
4640 aDataset = new HDFdataset( name_dataset, aSubSubGroup );
4641 aDataset->OpenOnDisk();
4642 size = aDataset->GetSize();
4643 char* refFromFile = new char[ size ];
4644 aDataset->ReadFromDisk( refFromFile );
4645 aDataset->CloseOnDisk();
4647 int id = atoi( refFromFile );
4648 string anIOR = myStudyContext->getIORbyOldId( id );
4649 if ( !anIOR.empty() ) {
4650 CORBA::Object_var hypObject = GetORB()->string_to_object( anIOR.c_str() );
4651 if ( !CORBA::is_nil( hypObject ) ) {
4652 SMESH::SMESH_Hypothesis_var anHyp = SMESH::SMESH_Hypothesis::_narrow( hypObject );
4653 if ( !anHyp->_is_nil() && !aShapeObject->_is_nil() )
4654 myNewMeshImpl->addHypothesis( aSubShapeObject, anHyp );
4657 delete [] refFromFile;
4660 // close "APPLIED HYPOTHESES" hdf group
4661 aSubSubGroup->CloseOnDisk();
4664 // close SUB-MESH hdf group
4665 aSubGroup->CloseOnDisk();
4668 // close SUB-MESHES containers hdf group
4669 aGroup->CloseOnDisk();
4673 // try to get GROUPS
4674 for ( int ii = GetNodeGroupsTag(); ii <= GetBallElementsGroupsTag(); ii++ ) {
4675 char name_group[ 30 ];
4676 if ( ii == GetNodeGroupsTag() )
4677 strcpy( name_group, "Groups of Nodes" );
4678 else if ( ii == GetEdgeGroupsTag() )
4679 strcpy( name_group, "Groups of Edges" );
4680 else if ( ii == GetFaceGroupsTag() )
4681 strcpy( name_group, "Groups of Faces" );
4682 else if ( ii == GetVolumeGroupsTag() )
4683 strcpy( name_group, "Groups of Volumes" );
4684 else if ( ii == Get0DElementsGroupsTag() )
4685 strcpy( name_group, "Groups of 0D Elements" );
4686 else if ( ii == GetBallElementsGroupsTag() )
4687 strcpy( name_group, "Groups of Balls" );
4689 if ( aTopGroup->ExistInternalObject( name_group ) ) {
4690 aGroup = new HDFgroup( name_group, aTopGroup );
4691 aGroup->OpenOnDisk();
4692 // PAL23514: get all names from the HDFgroup to avoid iteration on its contents
4693 // within aGroup->ExistInternalObject( name )
4694 std::vector< std::string > subNames;
4695 TColStd_MapOfAsciiString mapOfNames;
4696 aGroup->GetAllObjects( subNames );
4697 for ( size_t iN = 0; iN < subNames.size(); ++iN )
4698 mapOfNames.Add( subNames[ iN ].c_str() );
4700 for ( size_t j = 0; j < subNames.size(); j++ ) {
4701 const std::string& name_dataset = subNames[ j ];
4702 // check if it is a group
4703 if ( name_dataset.substr( 0, 5 ) == "Group" ) {
4705 int subid = atoi( name_dataset.substr( 5 ).c_str() );
4708 aDataset = new HDFdataset( name_dataset.c_str(), aGroup );
4709 aDataset->OpenOnDisk();
4711 // Retrieve actual group name
4712 size = aDataset->GetSize();
4713 char* nameFromFile = new char[ size ];
4714 aDataset->ReadFromDisk( nameFromFile );
4715 aDataset->CloseOnDisk();
4717 // Try to find a shape reference
4718 TopoDS_Shape aShape;
4719 char aRefName[ 30 ];
4720 sprintf( aRefName, "Ref on shape %d", subid);
4721 if ( mapOfNames.Contains( aRefName ))
4723 // load mesh "Ref on shape" - it's an entry to SObject
4724 aDataset = new HDFdataset( aRefName, aGroup );
4725 aDataset->OpenOnDisk();
4726 size = aDataset->GetSize();
4727 char* refFromFile = new char[ size ];
4728 aDataset->ReadFromDisk( refFromFile );
4729 aDataset->CloseOnDisk();
4730 if ( strlen( refFromFile ) > 0 ) {
4731 SALOMEDS::SObject_wrap shapeSO = aStudy->FindObjectID( refFromFile );
4732 CORBA::Object_var shapeObject = SObjectToObject( shapeSO );
4733 if ( !CORBA::is_nil( shapeObject ) ) {
4734 aShapeObject = GEOM::GEOM_Object::_narrow( shapeObject );
4735 if ( !aShapeObject->_is_nil() )
4736 aShape = GeomObjectToShape( aShapeObject );
4739 delete [] refFromFile;
4741 // Try to read a filter of SMESH_GroupOnFilter
4742 SMESH::Filter_var filter;
4743 SMESH_PredicatePtr predicate;
4744 std::string hdfGrpName = ( SMESH_Comment( "Filter ") << subid );
4745 if ( mapOfNames.Contains( hdfGrpName.c_str() ))
4747 aDataset = new HDFdataset( hdfGrpName.c_str(), aGroup );
4748 aDataset->OpenOnDisk();
4749 size = aDataset->GetSize();
4750 char* persistStr = new char[ size ];
4751 aDataset->ReadFromDisk( persistStr );
4752 aDataset->CloseOnDisk();
4753 if ( strlen( persistStr ) > 0 ) {
4754 filter = SMESH_GroupOnFilter_i::StringToFilter( persistStr );
4755 predicate = SMESH_GroupOnFilter_i::GetPredicate( filter );
4756 filters.push_back( filter );
4758 delete [] persistStr;
4761 // Create group servant
4762 SMESH::ElementType type = (SMESH::ElementType)(ii - GetNodeGroupsTag() + 1);
4763 SMESH::SMESH_GroupBase_var aNewGroup = SMESH::SMESH_GroupBase::_duplicate
4764 ( myNewMeshImpl->createGroup( type, nameFromFile, aShape, predicate ) );
4765 delete [] nameFromFile;
4766 // Obtain a SMESHDS_Group object
4767 if ( aNewGroup->_is_nil() )
4770 string iorSubString = GetORB()->object_to_string( aNewGroup );
4771 int newSubId = myStudyContext->findId( iorSubString );
4772 myStudyContext->mapOldToNew( subid, newSubId );
4774 SMESH_GroupBase_i* aGroupImpl = SMESH::DownCast< SMESH_GroupBase_i*>( aNewGroup );
4778 if ( SMESH_GroupOnFilter_i* aFilterGroup =
4779 dynamic_cast< SMESH_GroupOnFilter_i*>( aGroupImpl ))
4781 aFilterGroup->SetFilter( filter );
4782 filter->UnRegister();
4784 SMESHDS_GroupBase* aGroupBaseDS = aGroupImpl->GetGroupDS();
4785 if ( !aGroupBaseDS )
4788 aGroupBaseDS->SetStoreName( name_dataset.c_str() );
4791 // Read color of the group
4792 char aGroupColorName[ 30 ];
4793 sprintf( aGroupColorName, "ColorGroup %d", subid);
4794 if ( mapOfNames.Contains( aGroupColorName ))
4796 aDataset = new HDFdataset( aGroupColorName, aGroup );
4797 aDataset->OpenOnDisk();
4798 size = aDataset->GetSize();
4799 double* anRGB = new double[ size ];
4800 aDataset->ReadFromDisk( anRGB );
4801 aDataset->CloseOnDisk();
4802 Quantity_Color aColor( anRGB[0], anRGB[1], anRGB[2], Quantity_TOC_RGB );
4803 aGroupBaseDS->SetColor( aColor );
4808 aGroup->CloseOnDisk();
4812 // instead of reading mesh data, we read only brief information of all
4813 // objects: mesh, groups, sub-meshes (issue 0021208 )
4816 SMESH_PreMeshInfo::LoadFromFile( myNewMeshImpl, id,
4817 meshfile.ToCString(), filename.ToCString(),
4821 // read Sub-Mesh ORDER if any
4822 if ( aTopGroup->ExistInternalObject( "Mesh Order" )) {
4823 aDataset = new HDFdataset( "Mesh Order", aTopGroup );
4824 aDataset->OpenOnDisk();
4825 size = aDataset->GetSize();
4826 int* smIDs = new int[ size ];
4827 aDataset->ReadFromDisk( smIDs );
4828 aDataset->CloseOnDisk();
4829 TListOfListOfInt anOrderIds;
4830 anOrderIds.push_back( TListOfInt() );
4831 for ( int i = 0; i < size; i++ )
4832 if ( smIDs[ i ] < 0 ) // is separator
4833 anOrderIds.push_back( TListOfInt() );
4835 anOrderIds.back().push_back(smIDs[ i ]);
4837 myNewMeshImpl->GetImpl().SetMeshOrder( anOrderIds );
4842 // update hyps needing full mesh data restored (issue 20918)
4843 for ( hyp_data = hypDataList.begin(); hyp_data != hypDataList.end(); ++hyp_data )
4845 SMESH_Hypothesis_i* hyp = hyp_data->first;
4846 hyp->UpdateAsMeshesRestored();
4849 // notify algos on completed restoration to set sub-mesh event listeners
4850 for ( meshi_group = meshGroupList.begin(); meshi_group != meshGroupList.end(); ++meshi_group )
4852 SMESH_Mesh_i* myNewMeshImpl = meshi_group->first;
4853 ::SMESH_Mesh& myLocMesh = myNewMeshImpl->GetImpl();
4855 TopoDS_Shape myLocShape;
4856 if(myLocMesh.HasShapeToMesh())
4857 myLocShape = myLocMesh.GetShapeToMesh();
4859 myLocShape = SMESH_Mesh::PseudoShape();
4861 myLocMesh.GetSubMesh(myLocShape)->
4862 ComputeStateEngine (SMESH_subMesh::SUBMESH_RESTORED);
4865 // let filters detect dependency on mesh groups via FT_BelongToMeshGroup predicate (22877)
4866 list< SMESH::Filter_var >::iterator f = filters.begin();
4867 for ( ; f != filters.end(); ++f )
4868 if ( SMESH::Filter_i * fi = SMESH::DownCast< SMESH::Filter_i*>( *f ))
4869 fi->FindBaseObjects();
4874 aTopGroup->CloseOnDisk();
4877 aFile->CloseOnDisk();
4880 // Remove temporary files created from the stream
4883 SMESH_File meshFile( meshfile.ToCString() );
4884 if ( !meshFile ) // no meshfile exists
4886 SALOMEDS_Tool::RemoveTemporaryFiles( tmpDir.ToCString(), aFileSeq, true );
4890 Engines::Container_var container = GetContainerRef();
4891 if ( Engines_Container_i* container_i = SMESH::DownCast<Engines_Container_i*>( container ))
4893 container_i->registerTemporaryFile( filename.ToCString() );
4894 container_i->registerTemporaryFile( meshfile.ToCString() );
4895 container_i->registerTemporaryFile( tmpDir.ToCString() );
4899 pd << ""; // prevent optimizing pd out
4901 // creation of tree nodes for all data objects in the study
4902 // to support tree representation customization and drag-n-drop:
4903 SALOMEDS::UseCaseBuilder_wrap useCaseBuilder = aStudy->GetUseCaseBuilder();
4904 if ( !useCaseBuilder->IsUseCaseNode( theComponent ) ) {
4905 useCaseBuilder->SetRootCurrent();
4906 useCaseBuilder->Append( theComponent ); // component object is added as the top level item
4907 SALOMEDS::ChildIterator_wrap it = aStudy->NewChildIterator( theComponent );
4908 for (it->InitEx(true); it->More(); it->Next()) {
4909 useCaseBuilder->AppendTo( it->Value()->GetFather(), it->Value() );
4916 //=============================================================================
4918 * SMESH_Gen_i::LoadASCII
4920 * Load SMESH module's data in ASCII format
4922 //=============================================================================
4924 bool SMESH_Gen_i::LoadASCII( SALOMEDS::SComponent_ptr theComponent,
4925 const SALOMEDS::TMPFile& theStream,
4927 bool isMultiFile ) {
4928 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::LoadASCII" );
4929 return Load( theComponent, theStream, theURL, isMultiFile );
4931 //before call main ::Load method it's need for decipher text format to
4932 //binary ( "|xx" => x' )
4933 int size = theStream.length();
4934 if ( int((size / 3 )*3) != size ) //error size of buffer
4937 int real_size = int(size / 3);
4939 _CORBA_Octet* buffer = new _CORBA_Octet[real_size];
4942 unsigned int c = -1;
4943 for ( int i = 0; i < real_size; i++ )
4945 memcpy( &(tmp[0]), &(theStream[i*3+1]), 2 );
4946 sscanf( tmp, "%x", &c );
4947 sprintf( (char*)&(buffer[i]), "%c", (char)c );
4950 SALOMEDS::TMPFile_var aRealStreamFile = new SALOMEDS::TMPFile(real_size, real_size, buffer, 1);
4952 return Load( theComponent, *(aRealStreamFile._retn()), theURL, isMultiFile );
4955 //=============================================================================
4957 * SMESH_Gen_i::Close
4959 * Clears study-connected data when it is closed
4961 //=============================================================================
4963 void SMESH_Gen_i::Close( SALOMEDS::SComponent_ptr theComponent )
4965 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::Close" );
4967 // Clear study contexts data
4968 myStudyContext->Clear();
4970 // remove the tmp files meshes are loaded from
4971 SMESH_PreMeshInfo::RemoveStudyFiles_TMP_METHOD( theComponent );
4973 // Clean trace of API methods calls
4979 //=============================================================================
4981 * SMESH_Gen_i::ComponentDataType
4983 * Get component data type
4985 //=============================================================================
4987 char* SMESH_Gen_i::ComponentDataType()
4989 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::ComponentDataType" );
4990 return CORBA::string_dup( "SMESH" );
4994 //=============================================================================
4996 * SMESH_Gen_i::IORToLocalPersistentID
4998 * Transform data from transient form to persistent
5000 //=============================================================================
5002 char* SMESH_Gen_i::IORToLocalPersistentID( SALOMEDS::SObject_ptr /*theSObject*/,
5003 const char* IORString,
5004 CORBA::Boolean /*isMultiFile*/,
5005 CORBA::Boolean /*isASCII*/ )
5007 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::IORToLocalPersistentID" );
5009 if ( myStudyContext && strcmp( IORString, "" ) != 0 ) {
5010 int anId = myStudyContext->findId( IORString );
5012 if(MYDEBUG) MESSAGE( "VSR " << anId )
5014 sprintf( strId, "%d", anId );
5015 return CORBA::string_dup( strId );
5018 return CORBA::string_dup( "" );
5021 //=============================================================================
5023 * SMESH_Gen_i::LocalPersistentIDToIOR
5025 * Transform data from persistent form to transient
5027 //=============================================================================
5029 char* SMESH_Gen_i::LocalPersistentIDToIOR( SALOMEDS::SObject_ptr /*theSObject*/,
5030 const char* aLocalPersistentID,
5031 CORBA::Boolean /*isMultiFile*/,
5032 CORBA::Boolean /*isASCII*/ )
5034 if(MYDEBUG) MESSAGE( "SMESH_Gen_i::LocalPersistentIDToIOR(): id = " << aLocalPersistentID );
5036 if ( myStudyContext && strcmp( aLocalPersistentID, "" ) != 0 ) {
5037 int anId = atoi( aLocalPersistentID );
5038 return CORBA::string_dup( myStudyContext->getIORbyOldId( anId ).c_str() );
5040 return CORBA::string_dup( "" );
5043 //=======================================================================
5044 //function : RegisterObject
5046 //=======================================================================
5048 int SMESH_Gen_i::RegisterObject(CORBA::Object_ptr theObject)
5050 if ( myStudyContext && !CORBA::is_nil( theObject )) {
5051 CORBA::String_var iorString = GetORB()->object_to_string( theObject );
5052 return myStudyContext->addObject( string( iorString.in() ) );
5057 //================================================================================
5059 * \brief Return id of registered object
5060 * \param theObject - the Object
5061 * \retval int - Object id
5063 //================================================================================
5065 CORBA::Long SMESH_Gen_i::GetObjectId(CORBA::Object_ptr theObject)
5067 if ( myStudyContext && !CORBA::is_nil( theObject )) {
5068 string iorString = GetORB()->object_to_string( theObject );
5069 return myStudyContext->findId( iorString );
5074 //=============================================================================
5076 * SMESH_Gen_i::SetName
5078 * Set a new object name
5080 //=============================================================================
5081 void SMESH_Gen_i::SetName(const char* theIOR,
5082 const char* theName)
5084 if ( theIOR && strcmp( theIOR, "" ) ) {
5085 CORBA::Object_var anObject = GetORB()->string_to_object( theIOR );
5086 SALOMEDS::SObject_wrap aSO = ObjectToSObject( anObject );
5087 if ( !aSO->_is_nil() ) {
5088 SetName( aSO, theName );
5093 // Version information
5094 char* SMESH_Gen_i::getVersion()
5096 #if SMESH_DEVELOPMENT
5097 return CORBA::string_dup(SMESH_VERSION_STR"dev");
5099 return CORBA::string_dup(SMESH_VERSION_STR);
5103 //=================================================================================
5104 // function : Move()
5105 // purpose : Moves objects to the specified position.
5106 // Is used in the drag-n-drop functionality.
5107 //=================================================================================
5108 void SMESH_Gen_i::Move( const SMESH::sobject_list& what,
5109 SALOMEDS::SObject_ptr where,
5112 if ( CORBA::is_nil( where ) ) return;
5114 SALOMEDS::StudyBuilder_var studyBuilder = getStudyServant()->NewBuilder();
5115 SALOMEDS::UseCaseBuilder_var useCaseBuilder = getStudyServant()->GetUseCaseBuilder();
5116 SALOMEDS::SComponent_var father = where->GetFatherComponent();
5117 std::string dataType = father->ComponentDataType();
5118 if ( dataType != "SMESH" ) return; // not a SMESH component
5120 SALOMEDS::SObject_var objAfter;
5121 if ( row >= 0 && useCaseBuilder->HasChildren( where ) ) {
5122 // insert at given row -> find insertion position
5123 SALOMEDS::UseCaseIterator_var useCaseIt = useCaseBuilder->GetUseCaseIterator( where );
5125 for ( i = 0; i < row && useCaseIt->More(); i++, useCaseIt->Next() );
5126 if ( i == row && useCaseIt->More() ) {
5127 objAfter = useCaseIt->Value();
5131 for ( CORBA::ULong i = 0; i < what.length(); i++ ) {
5132 SALOMEDS::SObject_var sobj = what[i];
5133 if ( CORBA::is_nil( sobj ) ) continue; // skip bad object
5134 // insert the object to the use case tree
5135 if ( !CORBA::is_nil( objAfter ) )
5136 useCaseBuilder->InsertBefore( sobj, objAfter ); // insert at given row
5138 useCaseBuilder->AppendTo( where, sobj ); // append to the end of list
5141 //================================================================================
5143 * \brief Returns true if algorithm can be used to mesh a given geometry
5144 * \param [in] theAlgoType - the algorithm type
5145 * \param [in] theLibName - a name of the Plug-in library implementing the algorithm
5146 * \param [in] theGeomObject - the geometry to mesh
5147 * \param [in] toCheckAll - if \c True, returns \c True if all shapes are meshable,
5148 * else, returns \c True if at least one shape is meshable
5149 * \return CORBA::Boolean - can or can't
5151 //================================================================================
5153 CORBA::Boolean SMESH_Gen_i::IsApplicable ( const char* theAlgoType,
5154 const char* theLibName,
5155 GEOM::GEOM_Object_ptr theGeomObject,
5156 CORBA::Boolean toCheckAll)
5160 std::string aPlatformLibName;
5161 typedef GenericHypothesisCreator_i* (*GetHypothesisCreator)(const char*);
5162 GenericHypothesisCreator_i* aCreator =
5163 getHypothesisCreator(theAlgoType, theLibName, aPlatformLibName);
5166 TopoDS_Shape shape = GeomObjectToShape( theGeomObject );
5167 return shape.IsNull() || aCreator->IsApplicable( shape, toCheckAll );
5174 SMESH_CATCH( SMESH::doNothing );
5177 cout << "SMESH_Gen_i::IsApplicable(): exception in " << ( theAlgoType ? theAlgoType : "") << endl;
5182 //=================================================================================
5183 // function : GetInsideSphere
5184 // purpose : Collect indices of elements, which are located inside the sphere
5185 //=================================================================================
5186 SMESH::long_array* SMESH_Gen_i::GetInsideSphere( SMESH::SMESH_IDSource_ptr meshPart,
5187 SMESH::ElementType theElemType,
5193 SMESH::long_array_var aResult = new SMESH::long_array();
5194 if ( meshPart->_is_nil() )
5195 return aResult._retn();
5197 // 1. Create geometrical object
5198 gp_Pnt aP( theX, theY, theZ );
5199 TopoDS_Shape aShape = BRepPrimAPI_MakeSphere( aP, theR ).Shape();
5201 std::vector<long> lst =_GetInside(meshPart, theElemType, aShape);
5203 if ( lst.size() > 0 ) {
5204 aResult->length( lst.size() );
5205 for ( size_t i = 0; i < lst.size(); i++ ) {
5206 aResult[i] = lst[i];
5209 return aResult._retn();
5212 SMESH::long_array* SMESH_Gen_i::GetInsideBox( SMESH::SMESH_IDSource_ptr meshPart,
5213 SMESH::ElementType theElemType,
5214 CORBA::Double theX1,
5215 CORBA::Double theY1,
5216 CORBA::Double theZ1,
5217 CORBA::Double theX2,
5218 CORBA::Double theY2,
5219 CORBA::Double theZ2) {
5220 SMESH::long_array_var aResult = new SMESH::long_array();
5221 if( meshPart->_is_nil() )
5222 return aResult._retn();
5224 TopoDS_Shape aShape = BRepPrimAPI_MakeBox( gp_Pnt( theX1, theY1, theZ1 ), gp_Pnt( theX2, theY2, theZ2 ) ).Shape();
5226 std::vector<long> lst =_GetInside(meshPart, theElemType, aShape);
5228 if( lst.size() > 0 ) {
5229 aResult->length( lst.size() );
5230 for ( size_t i = 0; i < lst.size(); i++ ) {
5231 aResult[i] = lst[i];
5234 return aResult._retn();
5237 SMESH::long_array* SMESH_Gen_i::GetInsideCylinder( SMESH::SMESH_IDSource_ptr meshPart,
5238 SMESH::ElementType theElemType,
5242 CORBA::Double theDX,
5243 CORBA::Double theDY,
5244 CORBA::Double theDZ,
5246 CORBA::Double theR ){
5247 SMESH::long_array_var aResult = new SMESH::long_array();
5248 if( meshPart->_is_nil() )
5249 return aResult._retn();
5251 gp_Pnt aP( theX, theY, theZ );
5252 gp_Vec aV( theDX, theDY, theDZ );
5253 gp_Ax2 anAxes (aP, aV);
5255 TopoDS_Shape aShape = BRepPrimAPI_MakeCylinder(anAxes, theR, Abs(theH)).Shape();
5257 std::vector<long> lst =_GetInside(meshPart, theElemType, aShape);
5259 if( lst.size() > 0 ) {
5260 aResult->length( lst.size() );
5261 for ( size_t i = 0; i < lst.size(); i++ ) {
5262 aResult[i] = lst[i];
5265 return aResult._retn();
5268 SMESH::long_array* SMESH_Gen_i::GetInside( SMESH::SMESH_IDSource_ptr meshPart,
5269 SMESH::ElementType theElemType,
5270 GEOM::GEOM_Object_ptr theGeom,
5271 CORBA::Double theTolerance ) {
5272 SMESH::long_array_var aResult = new SMESH::long_array();
5273 if( meshPart->_is_nil() || theGeom->_is_nil() )
5274 return aResult._retn();
5276 TopoDS_Shape aShape = GeomObjectToShape( theGeom );
5278 std::vector<long> lst =_GetInside(meshPart, theElemType, aShape, &theTolerance);
5280 if( lst.size() > 0 ) {
5281 aResult->length( lst.size() );
5282 for ( size_t i = 0; i < lst.size(); i++ ) {
5283 aResult[i] = lst[i];
5286 return aResult._retn();
5291 std::vector<long> SMESH_Gen_i::_GetInside( SMESH::SMESH_IDSource_ptr meshPart,
5292 SMESH::ElementType theElemType,
5293 TopoDS_Shape& aShape,
5294 double* theTolerance) {
5296 std::vector<long> res;
5297 SMESH::SMESH_Mesh_var mesh = meshPart->GetMesh();
5299 if ( mesh->_is_nil() )
5302 SMESH_Mesh_i* anImpl = dynamic_cast<SMESH_Mesh_i*>( GetServant( mesh ).in() );
5306 const SMDS_Mesh* meshDS = anImpl->GetImpl().GetMeshDS();
5311 SMDSAbs_ElementType aType = SMDSAbs_ElementType(theElemType);
5312 SMESH::Controls::ElementsOnShape* anElementsOnShape = new SMESH::Controls::ElementsOnShape();
5313 anElementsOnShape->SetAllNodes( true );
5314 anElementsOnShape->SetMesh( meshDS );
5315 anElementsOnShape->SetShape( aShape, aType );
5318 anElementsOnShape->SetTolerance(*theTolerance);
5320 SMESH::SMESH_Mesh_var msource = SMESH::SMESH_Mesh::_narrow(meshPart);
5321 if ( !msource->_is_nil() ) { // Mesh case
5322 SMDS_ElemIteratorPtr elemIt = meshDS->elementsIterator( aType );
5324 while ( elemIt->more() ) {
5325 const SMDS_MeshElement* anElem = elemIt->next();
5326 long anId = anElem->GetID();
5327 if ( anElementsOnShape->IsSatisfy( anId ) )
5328 res.push_back( anId );
5332 SMESH::SMESH_Group_var gsource = SMESH::SMESH_Group::_narrow(meshPart);
5333 if ( !gsource->_is_nil() ) {
5334 if(theElemType == SMESH::NODE) {
5335 SMESH::long_array_var nodes = gsource->GetNodeIDs();
5336 for ( CORBA::ULong i = 0; i < nodes->length(); ++i ) {
5337 if ( const SMDS_MeshNode* node = meshDS->FindNode( nodes[i] )) {
5338 long anId = node->GetID();
5339 if ( anElementsOnShape->IsSatisfy( anId ) )
5340 res.push_back( anId );
5343 } else if (gsource->GetType() == theElemType || theElemType == SMESH::ALL ) {
5344 SMESH::long_array_var elems = gsource->GetListOfID();
5345 for ( CORBA::ULong i = 0; i < elems->length(); ++i ) {
5346 if ( const SMDS_MeshElement* elem = meshDS->FindElement( elems[i] )) {
5347 long anId = elem->GetID();
5348 if ( anElementsOnShape->IsSatisfy( anId ) )
5349 res.push_back( anId );
5354 SMESH::SMESH_subMesh_var smsource = SMESH::SMESH_subMesh::_narrow(meshPart);
5355 if ( !smsource->_is_nil() ) {
5356 SMESH::long_array_var elems = smsource->GetElementsByType( theElemType );
5357 for ( CORBA::ULong i = 0; i < elems->length(); ++i ) {
5358 const SMDS_MeshElement* elem = ( theElemType == SMESH::NODE ) ? meshDS->FindNode( elems[i] ) : meshDS->FindElement( elems[i] );
5360 long anId = elem->GetID();
5361 if ( anElementsOnShape->IsSatisfy( anId ) )
5362 res.push_back( anId );
5370 //=============================================================================
5372 * SMESHEngine_factory
5374 * C factory, accessible with dlsym, after dlopen
5376 //=============================================================================
5380 PortableServer::ObjectId* SMESHEngine_factory( CORBA::ORB_ptr orb,
5381 PortableServer::POA_ptr poa,
5382 PortableServer::ObjectId* contId,
5383 const char* instanceName,
5384 const char* interfaceName )
5386 if(MYDEBUG) MESSAGE( "PortableServer::ObjectId* SMESHEngine_factory()" );
5387 if(MYDEBUG) SCRUTE(interfaceName);
5388 SMESH_Gen_i* aSMESHGen = new SMESH_Gen_i(orb, poa, contId, instanceName, interfaceName);
5389 return aSMESHGen->getId() ;