ForkMaster/smesh
1
0
Fork 0
mirror of https://git.salome-platform.org/gitpub/modules/smesh.git synced 2024-12-27 09:50:34 +05:00
Code Issues Packages Projects Releases Wiki Activity
e6d5ea2c9a
smesh/src/SMESHGUI/SMESHGUI_MeshOp.cxx
vsr 6d32f944a0 Update copyrights
2019-02-14 15:33:05 +03:00

2900 lines
104 KiB
C++
Raw Blame History

// Copyright (C) 2007-2019 CEA/DEN, EDF R&D, OPEN CASCADE
//
// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
//
// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
//
// File : SMESHGUI_MeshOp.cxx
// Author : Sergey LITONIN, Open CASCADE S.A.S.
// SMESH includes
#include "SMESHGUI_MeshOp.h"
#include "SMESHGUI.h"
#include "SMESHGUI_GEOMGenUtils.h"
#include "SMESHGUI_Hypotheses.h"
#include "SMESHGUI_HypothesesUtils.h"
#include "SMESHGUI_MeshDlg.h"
#include "SMESHGUI_Operations.h"
#include "SMESHGUI_ShapeByMeshDlg.h"
#include "SMESHGUI_Utils.h"
#include "SMESH_NumberFilter.hxx"
#include "SMESH_TypeFilter.hxx"
// SALOME GEOM includes
#include <GEOM_SelectionFilter.h>
#include <GEOMBase.h>
#include <GeometryGUI.h>
#include <GEOM_wrap.hxx>
#include <GEOMImpl_Types.hxx>
// SALOME GUI includes
#include <SalomeApp_Tools.h>
#include <SalomeApp_Application.h>
#include <LightApp_Application.h>
#include <LightApp_SelectionMgr.h>
#include <LightApp_UpdateFlags.h>
#include <SUIT_MessageBox.h>
#include <SUIT_OverrideCursor.h>
#include <SUIT_Session.h>
#include <SALOME_InteractiveObject.hxx>
#include <SALOME_ListIO.hxx>
// SALOME KERNEL includes
#include <SALOMEDS_SComponent.hxx>
#include <SALOMEDS_SObject.hxx>
#include <SALOMEDS_Study.hxx>
#include <SALOMEDS_wrap.hxx>
// Qt includes
#include <QStringList>
#include <QLineEdit>
#include <QApplication>
// OCCT includes
#include <TopoDS.hxx>
#include <TopoDS_Shape.hxx>
#include <TopoDS_Shell.hxx>
#include <TopExp_Explorer.hxx>
#include <BRep_Tool.hxx>
// IDL includes
#include <SALOMEconfig.h>
#include CORBA_CLIENT_HEADER(SMESH_Gen)
//================================================================================
/*!
* \brief Constructor
* \param theToCreate - if this parameter is true then operation is used for creation,
* for editing otherwise
*
* Initialize operation
*/
//================================================================================
SMESHGUI_MeshOp::SMESHGUI_MeshOp( const bool theToCreate, const bool theIsMesh )
: SMESHGUI_SelectionOp(),
myDlg( 0 ),
myShapeByMeshOp( 0 ),
myToCreate( theToCreate ),
myIsMesh( theIsMesh ),
myIsInvalidSubMesh( false ),
myHypoSet( 0 )
{
if ( GeometryGUI::GetGeomGen()->_is_nil() )// check that GEOM_Gen exists
GeometryGUI::InitGeomGen();
myIsOnGeometry = true;
myMaxShapeDim = -1;
}
//================================================================================
/*!
* \brief Destructor
*/
//================================================================================
SMESHGUI_MeshOp::~SMESHGUI_MeshOp()
{
if ( myDlg )
delete myDlg;
}
//================================================================================
/*!
* \brief Gets dialog of this operation
* \retval LightApp_Dialog* - pointer to dialog of this operation
*/
//================================================================================
LightApp_Dialog* SMESHGUI_MeshOp::dlg() const
{
return myDlg;
}
//================================================================================
/*!
* \brief Creates or edits mesh
* \retval bool - TRUE if operation is performed successfully, FALSE otherwise
*
* Virtual slot redefined from the base class called when "Apply" button is clicked
* creates or edits mesh
*/
//================================================================================
bool SMESHGUI_MeshOp::onApply()
{
if (SMESHGUI::isStudyLocked())
return false;
QString aMess;
if ( !isValid( aMess ) )
{
dlg()->show();
if ( aMess != "" )
SUIT_MessageBox::warning( myDlg, tr( "SMESH_WRN_WARNING" ), aMess );
return false;
}
bool aResult = false;
aMess = "";
try
{
QStringList anEntryList;
if ( myToCreate && myIsMesh )
aResult = createMesh( aMess, anEntryList );
if (( myToCreate && !myIsMesh ) || myIsInvalidSubMesh )
aResult = createSubMesh( aMess, anEntryList );
else if ( !myToCreate )
aResult = editMeshOrSubMesh( aMess );
if ( aResult )
{
SMESHGUI::Modified();
update( UF_ObjBrowser | UF_Model );
if( LightApp_Application* anApp =
dynamic_cast<LightApp_Application*>( SUIT_Session::session()->activeApplication() ) )
myObjectToSelect = anApp->browseObjects( anEntryList, isApplyAndClose() );
}
}
catch ( const SALOME::SALOME_Exception& S_ex )
{
SalomeApp_Tools::QtCatchCorbaException( S_ex );
aResult = false;
}
catch ( ... )
{
aResult = false;
}
if ( aResult )
{
if ( myToCreate )
setDefaultName();
}
else
{
if ( aMess == "" )
aMess = tr( "SMESH_OPERATION_FAILED" );
SUIT_MessageBox::warning( myDlg, tr( "SMESH_ERROR" ), aMess );
}
return aResult;
}
//================================================================================
/*!
* \brief Creates dialog if necessary and shows it
*
* Virtual method redefined from base class called when operation is started creates
* dialog if necessary and shows it, activates selection
*/
//================================================================================
void SMESHGUI_MeshOp::startOperation()
{
myIgnoreAlgoSelection = false;
if (!myDlg)
{
myDlg = new SMESHGUI_MeshDlg( myToCreate, myIsMesh );
for ( int i = SMESH::DIM_0D; i <= SMESH::DIM_3D; i++ )
{
connect( myDlg->tab( i ), SIGNAL( createHyp( const int, const int ) ),
this, SLOT( onCreateHyp( const int, const int ) ) );
connect( myDlg->tab( i ), SIGNAL( editHyp( const int, const int ) ),
this, SLOT( onEditHyp( const int, const int ) ) );
connect( myDlg->tab( i ), SIGNAL( selectAlgo( const int ) ),
this, SLOT( onAlgoSelected( const int ) ) );
}
connect( myDlg, SIGNAL( hypoSet( const QString& )), SLOT( onHypoSet( const QString& )));
connect( myDlg, SIGNAL( geomSelectionByMesh( bool )), SLOT( onGeomSelectionByMesh( bool )));
connect( myDlg, SIGNAL( selectMeshType( const int, const int ) ), SLOT( onAlgoSetByMeshType( const int, const int)));
if ( myToCreate ) {
if ( myIsMesh ) myHelpFileName = "constructing_meshes.html";
else myHelpFileName = "constructing_submeshes.html";
}
else {
myHelpFileName = "editing_meshes.html";
}
}
SMESHGUI_SelectionOp::startOperation();
// iterate through dimensions and get available algorithms, set them to the dialog
_PTR(SComponent) aFather = SMESH::getStudy()->FindComponent( "SMESH" );
for ( int i = SMESH::DIM_0D; i <= SMESH::DIM_3D; i++ )
{
SMESHGUI_MeshTab* aTab = myDlg->tab( i );
QStringList hypList;
// clear available hypotheses
aTab->setAvailableHyps( MainHyp, hypList );
aTab->setAvailableHyps( AddHyp, hypList );
aTab->setExistingHyps( MainHyp, hypList );
aTab->setExistingHyps( AddHyp, hypList );
myExistingHyps[ i ][ MainHyp ].clear();
myExistingHyps[ i ][ AddHyp ].clear();
// set algos
availableHyps( i, Algo, hypList, myAvailableHypData[i][Algo] );
aTab->setAvailableHyps( Algo, hypList );
}
if ( myToCreate )
{
setDefaultName();
myDlg->activateObject( myIsMesh ? SMESHGUI_MeshDlg::Geom : SMESHGUI_MeshDlg::Mesh );
}
else
{
myDlg->activateObject( SMESHGUI_MeshDlg::Obj );
}
myDlg->setCurrentTab( SMESH::DIM_3D );
QStringList TypeMeshList;
createMeshTypeList( TypeMeshList );
setAvailableMeshType( TypeMeshList );
myDlg->show();
myDlg->setGeomPopupEnabled(false);
selectionDone();
myHasConcurrentSubBefore = false;
myObjectToSelect.clear();
}
//=================================================================================
/*!
* \brief Selects a recently created mesh or sub-mesh if necessary
*
* Virtual method redefined from base class called when operation is committed
* selects a recently created mesh or sub-mesh if necessary. Allows to perform
* selection when the custom selection filters are removed.
*/
//=================================================================================
void SMESHGUI_MeshOp::commitOperation()
{
SMESHGUI_SelectionOp::commitOperation();
if ( !myObjectToSelect.isEmpty() ) {
if ( LightApp_SelectionMgr* aSelectionMgr = selectionMgr() ) {
SUIT_DataOwnerPtrList aList;
aList.append( new LightApp_DataOwner( myObjectToSelect ) );
aSelectionMgr->setSelected( aList );
}
}
}
//================================================================================
/*!
* \brief Creates selection filter
* \param theId - identifier of current selection widget
* \retval SUIT_SelectionFilter* - pointer to the created filter or null
*
* Creates selection filter in accordance with identifier of current selection widget
*/
//================================================================================
SUIT_SelectionFilter* SMESHGUI_MeshOp::createFilter( const int theId ) const
{
if ( theId == SMESHGUI_MeshDlg::Geom )
{
// TColStd_MapOfInteger allTypesMap;
// for ( int i = 0; i < 10; i++ )
// allTypesMap.Add( i );
// return new SMESH_NumberFilter( "GEOM", TopAbs_SHAPE, 0, allTypesMap );
return new GEOM_SelectionFilter( (SalomeApp_Study*)study(), true );
}
else if ( theId == SMESHGUI_MeshDlg::Obj && !myToCreate )
return new SMESH_TypeFilter( SMESH::MESHorSUBMESH );
else if ( theId == SMESHGUI_MeshDlg::Mesh )
return new SMESH_TypeFilter( SMESH::MESH );
else
return 0;
}
//================================================================================
/*!
* \brief check if selected shape is a sub-shape of the shape to mesh
* \retval bool - check result
*/
//================================================================================
bool SMESHGUI_MeshOp::isSubshapeOk() const
{
if ( !myToCreate || myIsMesh ) // not submesh creation
return false;
// mesh
QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh );
_PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() );
if (!pMesh) return false;
SMESH::SMESH_Mesh_var mesh = SMESH::SObjectToInterface<SMESH::SMESH_Mesh>( pMesh );
if (mesh->_is_nil()) return false;
// main shape of the mesh
GEOM::GEOM_Object_var mainGeom = mesh->GetShapeToMesh();
if (mainGeom->_is_nil()) return false;
// geometry
QStringList aGEOMs;
myDlg->selectedObject(SMESHGUI_MeshDlg::Geom, aGEOMs);
if (aGEOMs.count() > 0) {
GEOM::GEOM_Gen_var geomGen = SMESH::GetGEOMGen();
if (geomGen->_is_nil()) return false;
GEOM::GEOM_IGroupOperations_wrap op = geomGen->GetIGroupOperations();
if (op->_is_nil()) return false;
// check all selected shapes
QStringList::const_iterator aSubShapesIter = aGEOMs.begin();
for ( ; aSubShapesIter != aGEOMs.end(); aSubShapesIter++) {
QString aSubGeomEntry = (*aSubShapesIter);
_PTR(SObject) pSubGeom = SMESH::getStudy()->FindObjectID(aSubGeomEntry.toUtf8().data());
if (!pSubGeom) return false;
GEOM::GEOM_Object_var aSubGeomVar =
GEOM::GEOM_Object::_narrow(_CAST(SObject,pSubGeom)->GetObject());
if (aSubGeomVar->_is_nil()) return false;
// skl for NPAL14695 - implementation of searching of mainObj
GEOM::GEOM_Object_var mainObj = op->GetMainShape(aSubGeomVar); /* _var not _wrap as
mainObj already exists! */
while( !mainObj->_is_nil()) {
CORBA::String_var entry1 = mainObj->GetEntry();
CORBA::String_var entry2 = mainGeom->GetEntry();
if (std::string( entry1.in() ) == entry2.in() )
return true;
mainObj = op->GetMainShape(mainObj);
}
if ( aSubGeomVar->GetShapeType() == GEOM::COMPOUND )
{
// is aSubGeomVar a compound of sub-shapes?
GEOM::GEOM_IShapesOperations_wrap sop = geomGen->GetIShapesOperations();
if (sop->_is_nil()) return false;
GEOM::ListOfLong_var ids = sop->GetAllSubShapesIDs( aSubGeomVar,
GEOM::SHAPE,/*sorted=*/false);
if ( ids->length() > 0 )
{
ids->length( 1 );
GEOM::GEOM_Object_var compSub = geomGen->AddSubShape( aSubGeomVar, ids );
if ( !compSub->_is_nil() )
{
GEOM::ListOfGO_var shared = sop->GetSharedShapes( mainGeom,
compSub,
compSub->GetShapeType() );
geomGen->RemoveObject( compSub );
compSub->UnRegister();
if ( shared->length() > 0 ) {
geomGen->RemoveObject( shared[0] );
shared[0]->UnRegister();
}
return ( shared->length() > 0 );
}
}
}
}
}
return false;
}
//================================================================================
/*!
* \brief Return name of the algorithm that does not support sub-meshes and makes
* sub-mesh creation useless
* \retval char* - string is to be deleted!!!
*/
//================================================================================
char* SMESHGUI_MeshOp::isSubmeshIgnored() const
{
if ( myToCreate && !myIsMesh ) {
QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh );
QString aGeomEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom );
_PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() );
if ( pMesh ) {
QStringList algoNames;
THypList algoList;
existingHyps(3, Algo, pMesh, algoNames, algoList);
if (!algoList.empty()) {
HypothesisData* algo =
SMESH::GetHypothesisData( SMESH::toQStr( algoList[0].first->GetName() ));
if ( algo &&
algo->InputTypes.empty() && // builds all dimensions it-self
!algo->IsSupportSubmeshes )
return CORBA::string_dup( algoNames[0].toUtf8().data() );
}
// GEOM::GEOM_Object_var geom;
// if (_PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( aGeomEntry.toUtf8().data() ))
// geom = SMESH::SObjectToInterface<GEOM::GEOM_Object>( pGeom );
// if ( !geom->_is_nil() && geom->GetShapeType() >= GEOM::FACE ) { // WIRE, EDGE as well
existingHyps(2, Algo, pMesh, algoNames, algoList);
if (!algoList.empty()) {
HypothesisData* algo =
SMESH::GetHypothesisData( SMESH::toQStr( algoList[0].first->GetName() ));
if ( algo &&
algo->InputTypes.empty() && // builds all dimensions it-self
!algo->IsSupportSubmeshes )
return CORBA::string_dup( algoNames[0].toUtf8().data() );
}
// }
}
}
return 0;
}
//================================================================================
/*!
* \brief find an existing submesh by the selected shape
* \retval _PTR(SObject) - the found submesh SObject
*/
//================================================================================
_PTR(SObject) SMESHGUI_MeshOp::getSubmeshByGeom() const
{
QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh );
QString aGeomEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom );
_PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() );
_PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( aGeomEntry.toUtf8().data() );
if ( pMesh && pGeom ) {
GEOM::GEOM_Object_var geom = SMESH::SObjectToInterface<GEOM::GEOM_Object>( pGeom );
if ( !geom->_is_nil() ) {
int tag = -1;
switch ( geom->GetShapeType() ) {
case GEOM::VERTEX: tag = SMESH::Tag_SubMeshOnVertex; break;
case GEOM::EDGE: tag = SMESH::Tag_SubMeshOnEdge; break;
case GEOM::WIRE: tag = SMESH::Tag_SubMeshOnWire; break;
case GEOM::FACE: tag = SMESH::Tag_SubMeshOnFace; break;
case GEOM::SHELL: tag = SMESH::Tag_SubMeshOnShell; break;
case GEOM::SOLID: tag = SMESH::Tag_SubMeshOnSolid; break;
case GEOM::COMPOUND: tag = SMESH::Tag_SubMeshOnCompound; break;
default:;
}
_PTR(GenericAttribute) anAttr;
_PTR(SObject) aSubmeshRoot;
_PTR(Study) aStudy = SMESH::getStudy();
if ( pMesh->FindSubObject( tag, aSubmeshRoot ) )
{
_PTR(ChildIterator) smIter = aStudy->NewChildIterator( aSubmeshRoot );
for ( ; smIter->More(); smIter->Next() )
{
_PTR(SObject) aSmObj = smIter->Value();
if ( ! aSmObj->FindAttribute( anAttr, "AttributeIOR" ))
continue;
_PTR(ChildIterator) anIter1 = aStudy->NewChildIterator(aSmObj);
for ( ; anIter1->More(); anIter1->Next()) {
_PTR(SObject) pGeom2 = anIter1->Value();
if ( pGeom2->ReferencedObject( pGeom2 ) &&
pGeom2->GetID() == pGeom->GetID() )
return aSmObj;
}
}
}
}
}
return _PTR(SObject)();
}
//================================================================================
/*!
* \brief Updates dialog's look and feel
*
* Virtual method redefined from the base class updates dialog's look and feel
*/
//================================================================================
void SMESHGUI_MeshOp::selectionDone()
{
if (!dlg()->isVisible() || !myDlg->isEnabled())
return;
SMESHGUI_SelectionOp::selectionDone();
try
{
myIsOnGeometry = true;
myIsInvalidSubMesh = false;
//Check geometry for mesh
QString anObjEntry = myDlg->selectedObject(SMESHGUI_MeshDlg::Obj);
_PTR(SObject) pObj = SMESH::getStudy()->FindObjectID(anObjEntry.toUtf8().data());
if (pObj)
{
SMESH::SMESH_Mesh_var aMeshVar =
SMESH::SMESH_Mesh::_narrow(_CAST(SObject,pObj)->GetObject());
if (!aMeshVar->_is_nil()) {
if (!myToCreate && !aMeshVar->HasShapeToMesh())
myIsOnGeometry = false;
}
}
if (myIsOnGeometry)
{
// Enable tabs according to shape dimension
int shapeDim = 3;
QStringList aGEOMs;
myDlg->selectedObject(SMESHGUI_MeshDlg::Geom, aGEOMs);
GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;
if (aGEOMs.count() > 0) {
// one or more GEOM shape selected
aSeq->length(aGEOMs.count());
QStringList::const_iterator aSubShapesIter = aGEOMs.begin();
int iSubSh = 0;
for ( ; aSubShapesIter != aGEOMs.end(); aSubShapesIter++, iSubSh++) {
QString aSubGeomEntry = (*aSubShapesIter);
_PTR(SObject) pSubGeom = SMESH::getStudy()->FindObjectID(aSubGeomEntry.toUtf8().data());
if( pSubGeom ) {
SALOMEDS_SObject* sobj = _CAST(SObject,pSubGeom);
if( sobj ) {
GEOM::GEOM_Object_var aSubGeomVar =
GEOM::GEOM_Object::_narrow(sobj->GetObject());
if( !aSubGeomVar->_is_nil() ){
aSeq[iSubSh] = aSubGeomVar;
}
}
}
}
} else {
// get geometry by selected sub-mesh
QString anObjEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Obj );
_PTR(SObject) pObj = SMESH::getStudy()->FindObjectID( anObjEntry.toUtf8().data() );
GEOM::GEOM_Object_var aGeomVar = SMESH::GetShapeOnMeshOrSubMesh( pObj );
if (!aGeomVar->_is_nil()) {
aSeq->length(1);
aSeq[0] = aGeomVar;
}
}
if (aSeq->length() > 0) {
shapeDim = -1;
for ( CORBA::ULong iss = 0; iss < aSeq->length() && shapeDim < 3; iss++) {
GEOM::GEOM_Object_var aGeomVar = aSeq[iss];
switch ( aGeomVar->GetShapeType() ) {
case GEOM::SOLID: shapeDim = 3; break;
case GEOM::SHELL:
// Bug 0016155: EDF PAL 447: If the shape is a Shell, disable 3D tab
// {
// TopoDS_Shape aShape;
// bool isClosed = GEOMBase::GetShape(aGeomVar, aShape) && /*aShape.Closed()*/BRep_Tool::IsClosed(aShape);
// shapeDim = qMax(isClosed ? 3 : 2, shapeDim);
// }
// break;
case GEOM::FACE: shapeDim = qMax(2, shapeDim); break;
case GEOM::WIRE:
case GEOM::EDGE: shapeDim = qMax(1, shapeDim); break;
case GEOM::VERTEX: shapeDim = qMax(0, shapeDim); break;
default:
{
TopoDS_Shape aShape;
if (GEOMBase::GetShape(aGeomVar, aShape))
{
TopExp_Explorer exp (aShape, TopAbs_SOLID);
if (exp.More()) {
shapeDim = 3;
}
// Bug 0016155: EDF PAL 447: If the shape is a Shell, disable 3D tab
// else if ( exp.Init( aShape, TopAbs_SHELL ), exp.More() )
// {
// shapeDim = 2;
// for (; exp.More() && shapeDim == 2; exp.Next()) {
// if (/*exp.Current().Closed()*/BRep_Tool::IsClosed(exp.Current()))
// shapeDim = 3;
// }
// }
else if ( exp.Init( aShape, TopAbs_FACE ), exp.More() )
shapeDim = qMax(2, shapeDim);
else if ( exp.Init( aShape, TopAbs_EDGE ), exp.More() )
shapeDim = qMax(1, shapeDim);
else if ( exp.Init( aShape, TopAbs_VERTEX ), exp.More() )
shapeDim = qMax(0, shapeDim);
}
}
}
if ( shapeDim == 3 )
break;
}
}
for (int i = SMESH::DIM_3D; i > shapeDim; i--) {
// reset algos before disabling tabs (0020138)
onAlgoSelected(-1, i);
}
myDlg->setMaxHypoDim( shapeDim );
myMaxShapeDim = shapeDim;
myDlg->setHypoSets( SMESH::GetHypothesesSets( shapeDim ));
if (!myToCreate) // edition: read hypotheses
{
if (pObj != 0)
{
SMESH::SMESH_subMesh_var submeshVar =
SMESH::SMESH_subMesh::_narrow( _CAST( SObject,pObj )->GetObject() );
myIsMesh = submeshVar->_is_nil();
myIsInvalidSubMesh = ( !myIsMesh && submeshVar->GetId() < 1 );
myDlg->setTitile( myToCreate, myIsMesh );
myDlg->setObjectShown( SMESHGUI_MeshDlg::Mesh, !submeshVar->_is_nil() );
myDlg->setObjectShown( SMESHGUI_MeshDlg::Geom, true );
myDlg->objectWg( SMESHGUI_MeshDlg::Mesh, SMESHGUI_MeshDlg::Btn )->hide();
if ( myIsInvalidSubMesh )
{
// it is necessary to select a new geometry
myDlg->objectWg( SMESHGUI_MeshDlg::Geom, SMESHGUI_MeshDlg::Btn )->show();
myDlg->activateObject( SMESHGUI_MeshDlg::Geom );
}
else
{
myDlg->objectWg( SMESHGUI_MeshDlg::Geom, SMESHGUI_MeshDlg::Btn )->hide();
}
myDlg->updateGeometry();
myDlg->adjustSize();
readMesh();
}
else
myDlg->reset();
}
else if ( !myIsMesh ) // submesh creation
{
// if a submesh on the selected shape already exist, pass to submesh edition mode
if ( _PTR(SObject) pSubmesh = getSubmeshByGeom() ) {
SMESH::SMESH_subMesh_var sm =
SMESH::SObjectToInterface<SMESH::SMESH_subMesh>( pSubmesh );
bool editSubmesh = ( !sm->_is_nil() &&
SUIT_MessageBox::question( myDlg, tr( "SMESH_WARNING" ),
tr( "EDIT_SUBMESH_QUESTION"),
SUIT_MessageBox::Yes |
SUIT_MessageBox::No,
SUIT_MessageBox::No )
== SUIT_MessageBox::Yes );
if ( editSubmesh )
{
selectionMgr()->clearFilters();
selectObject( pSubmesh );
SMESHGUI::GetSMESHGUI()->switchToOperation( SMESHOp::OpEditMeshOrSubMesh );
return;
}
else
{
myDlg->selectObject( "", SMESHGUI_MeshDlg::Geom, "" );
selectObject( _PTR(SObject)() );
selectionDone();
return;
}
}
// discard selected mesh if submesh creation not allowed because of
// a global algorithm that does not support submeshes
if ( char* algoName = isSubmeshIgnored() ) {
SUIT_MessageBox::warning( myDlg, tr( "SMESH_ERROR" ),
tr("SUBMESH_NOT_ALLOWED").arg(algoName));
CORBA::string_free( algoName );
myDlg->selectObject( "", SMESHGUI_MeshDlg::Mesh, "" );
selectObject( _PTR(SObject)() );
selectionDone();
return;
}
// enable/disable popup for choice of geom selection way
bool enable = false;
QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh );
if ( _PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() )) {
SMESH::SMESH_Mesh_var mesh = SMESH::SObjectToInterface<SMESH::SMESH_Mesh>( pMesh );
if ( !mesh->_is_nil() ) {
//rnv: issue 21056: EDF 1608 SMESH: Dialog Box "Create Sub Mesh": focus should automatically switch to geometry
QString aGeomEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom );
_PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( aGeomEntry.toUtf8().data() );
if ( !pGeom || GEOM::GEOM_Object::_narrow( _CAST( SObject,pGeom )->GetObject() )->_is_nil() )
myDlg->activateObject(SMESHGUI_MeshDlg::Geom);
enable = ( shapeDim > 1 ) && ( mesh->NbEdges() > 0 );
}
}
myDlg->setGeomPopupEnabled( enable );
}
}
else { // no geometry defined
QStringList hypList;
for ( int dim = SMESH::DIM_0D; dim <= SMESH::DIM_3D; dim++ )
{
availableHyps( dim, Algo, hypList, myAvailableHypData[dim][Algo]);
myDlg->tab( dim )->setAvailableHyps( Algo, hypList );
if ( hypList.empty() ) myDlg->disableTab( dim );
else myDlg->enableTab( dim );
}
myMaxShapeDim = -1;
//Hide labels and fields (Mesh and Geometry)
myDlg->setObjectShown( SMESHGUI_MeshDlg::Mesh, false );
myDlg->setObjectShown( SMESHGUI_MeshDlg::Geom, false );
myDlg->adjustSize();
readMesh();
}
int curIndex = myDlg->currentMeshType( );
QStringList TypeMeshList;
createMeshTypeList( TypeMeshList );
setAvailableMeshType( TypeMeshList );
curIndex =( curIndex >= TypeMeshList.count() ) ? 0 : curIndex;
myDlg->setCurrentMeshType( curIndex );
setFilteredAlgoData( myMaxShapeDim, curIndex);
}
catch ( const SALOME::SALOME_Exception& S_ex )
{
SalomeApp_Tools::QtCatchCorbaException( S_ex );
}
catch ( ... )
{
}
}
//================================================================================
/*!
* \brief Verifies validity of input data
* \param theMess - Output parameter intended for returning error message
* \retval bool - TRUE if input data is valid, false otherwise
*
* Verifies validity of input data. This method is called when "Apply" or "OK" button
* is pressed before mesh creation or editing.
*/
//================================================================================
bool SMESHGUI_MeshOp::isValid( QString& theMess ) const
{
// Selected object to be edited
if ( !myToCreate && myDlg->selectedObject( SMESHGUI_MeshDlg::Obj ) == "" )
{
theMess = tr( "THERE_IS_NO_OBJECT_FOR_EDITING" );
return false;
}
// Name
QString aMeshName = myDlg->objectText( SMESHGUI_MeshDlg::Obj ).trimmed();
if ( aMeshName.isEmpty() )
{
theMess = myIsMesh ? tr( "NAME_OF_MESH_IS_EMPTY" ) : tr( "NAME_OF_SUBMESH_IS_EMPTY" );
return false;
}
/* // Imported mesh, if create sub-mesh or edit mesh
if ( !myToCreate || ( myToCreate && !myIsMesh ))
{
QString aMeshEntry = myDlg->selectedObject
( myToCreate ? SMESHGUI_MeshDlg::Mesh : SMESHGUI_MeshDlg::Obj );
if ( _PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() )) {
SMESH::SMESH_Mesh_var mesh = SMESH::SObjectToInterface<SMESH::SMESH_Mesh>( pMesh );
if ( !mesh->_is_nil() && CORBA::is_nil( mesh->GetShapeToMesh() )) {
theMess = tr( "IMPORTED_MESH" );
return false;
}
}
}*/
// Geom
if ( myToCreate )
{
QString aGeomEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom );
if ( aGeomEntry.isEmpty() )
{
theMess = tr( myIsMesh ?
"GEOMETRY_OBJECT_IS_NOT_DEFINED_MESH" :
"GEOMETRY_OBJECT_IS_NOT_DEFINED_SUBMESH");
if ( !myIsMesh )
return false;
dlg()->show();
if ( SUIT_MessageBox::warning( myDlg, tr( "SMESH_WRN_WARNING" ), theMess,
SUIT_MessageBox::Yes, SUIT_MessageBox::No ) == SUIT_MessageBox::No )
{
theMess = "";
return false;
}
return true;
}
_PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( aGeomEntry.toUtf8().data() );
if ( !pGeom || GEOM::GEOM_Object::_narrow( _CAST( SObject,pGeom )->GetObject() )->_is_nil() )
{
theMess = tr( "GEOMETRY_OBJECT_IS_NULL" );
return false;
}
// Mesh
if ( !myIsMesh ) // i.e sub-mesh creation,
{
QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh );
if ( aMeshEntry == "" )
{
theMess = tr( "MESH_IS_NOT_DEFINED" );
return false;
}
_PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() );
if ( !pMesh || SMESH::SMESH_Mesh::_narrow( _CAST( SObject,pMesh )->GetObject() )->_is_nil() )
{
theMess = tr( "MESH_IS_NULL" );
return false;
}
if ( !isSubshapeOk() )
{
theMess = tr( "INVALID_SUBSHAPE" );
return false;
}
}
}
return true;
}
//================================================================================
/*!
* \brief check compatibility of the algorithm and another algorithm or hypothesis
* \param theAlgoData - algorithm data
* \param theHypData - hypothesis data
* \param theHypType - hypothesis type
* \param theHypTypeName - hypothesis type name, must be provided if 2-nd arg is not algo
* \retval bool - check result
*/
//================================================================================
static bool isCompatible(const HypothesisData* theAlgoData,
const HypothesisData* theHypData,
const int theHypType)
{
if ( !theAlgoData )
return true;
if ( theHypType == SMESHGUI_MeshOp::Algo )
return SMESH::IsCompatibleAlgorithm( theAlgoData, theHypData );
bool isOptional;
return ( SMESH::IsAvailableHypothesis( theAlgoData, theHypData->TypeName, isOptional ));
}
//================================================================================
/*!
* \brief check compatibility of the geometry
* \param theAlgoData - to select hypos able to be used by this algo
* \param theCurrentGeomToSelect - the current name of the selected geometry
* \param theGeomVar - currently selected geometry
* \retval bool - check result
*/
//================================================================================
bool SMESHGUI_MeshOp::isCompatibleToGeometry(HypothesisData* theAlgoData,
QString theCurrentGeomToSelect,
GEOM::GEOM_Object_var theGeomVar)
{
if ( theGeomVar->_is_nil() )
return true;
bool isApplicable = false;
if ( theCurrentGeomToSelect == myLastGeomToSelect && !theCurrentGeomToSelect.isEmpty() ) {
THypLabelIsAppMap::const_iterator iter = myHypMapIsApplicable.find( theAlgoData->Label );
if ( iter != myHypMapIsApplicable.end() && iter.key() == theAlgoData->Label ) {
isApplicable = iter.value();
return isApplicable;
}
}
bool toCheckIsApplicableToAll = !myIsMesh;
if ( toCheckIsApplicableToAll )
toCheckIsApplicableToAll = ( theGeomVar->GetType() == GEOM_GROUP );
isApplicable = SMESH::IsApplicable( theAlgoData->TypeName, theGeomVar, toCheckIsApplicableToAll );
myHypMapIsApplicable.insert( theAlgoData->Label, isApplicable );
return isApplicable;
}
//================================================================================
/*!
* \brief check compatibility of the mesh type
* \param theAlgoData - to select hypos able to be used by this algo
* \param theMeshType - type of mesh for filtering algorithms
* \retval bool - check result
*/
//================================================================================
bool SMESHGUI_MeshOp::isCompatibleToMeshType(HypothesisData* theAlgoData,
QString theMeshType)
{
bool isAvailableAlgo = ( theAlgoData->OutputTypes.count() == 0 );
QStringList::const_iterator inElemType = theAlgoData->OutputTypes.begin();
for ( ; inElemType != theAlgoData->OutputTypes.end(); inElemType++ ) {
if ( *inElemType == theMeshType ) {
isAvailableAlgo = true;
break;
}
}
return isAvailableAlgo;
}
//================================================================================
/*!
* \brief Gets available hypotheses or algorithms
* \param theDim - specifies dimension of returned hypotheses/algorifms
* \param theHypType - specifies whether algorims or hypotheses or additional ones
* are retrieved (possible values are in HypType enumeration)
* \param theHyps - Output list of hypotheses' names
* \param thePrevAlgoData - to select hypos able to be used by previously algo (optional)
* \param theNextAlgoData - to select hypos able to be used by next algo (optional)
* \param theMeshType - type of mesh for filtering algorithms (optional)
*
* Gets available hypotheses or algorithm in accordance with input parameters
*/
//================================================================================
void SMESHGUI_MeshOp::availableHyps( const int theDim,
const int theHypType,
QStringList& theHyps,
THypDataList& theDataList,
HypothesisData* thePrevAlgoData,
HypothesisData* theNextAlgoData,
const QString& theMeshType)
{
theDataList.clear();
theHyps.clear();
bool isAlgo = ( theHypType == Algo );
bool isAux = ( theHypType >= AddHyp );
QStringList aHypTypeNameList = SMESH::GetAvailableHypotheses( isAlgo, theDim, isAux, myIsOnGeometry, !myIsMesh );
GEOM::GEOM_Object_var aGeomVar;
QString aCurrentGeomToSelect;
if ( !theMeshType.isEmpty() ) {
aCurrentGeomToSelect = myDlg->selectedObject( myToCreate ? SMESHGUI_MeshDlg::Geom : SMESHGUI_MeshDlg::Obj );
if ( _PTR(SObject) so = SMESH::getStudy()->FindObjectID( aCurrentGeomToSelect.toUtf8().data() )) {
aGeomVar = SMESH::GetGeom( so );
}
if ( aCurrentGeomToSelect != myLastGeomToSelect )
myHypMapIsApplicable.clear();
}
std::multimap< double, HypothesisData* > sortedHyps;
QStringList::const_iterator anIter;
for ( anIter = aHypTypeNameList.begin(); anIter != aHypTypeNameList.end(); ++anIter )
{
HypothesisData* aData = SMESH::GetHypothesisData( *anIter );
if ( ( isCompatible ( thePrevAlgoData, aData, theHypType ) &&
isCompatible ( theNextAlgoData, aData, theHypType ) ) ||
( theMeshType == "ANY" && aData->InputTypes.isEmpty()))
{
if ( ( !theMeshType.isEmpty() ) &&
( theDim >= SMESH::DIM_2D ) &&
( ( theMeshType != "ANY" && !isCompatibleToMeshType( aData, theMeshType )) ||
!isCompatibleToGeometry( aData, aCurrentGeomToSelect, aGeomVar )))
continue;
int groupID = aData->GroupID;
int priority = aData->Priority;
if ( groupID < 0 || groupID > 9 ) groupID = 9;
if ( priority < 0 || priority > 999 ) priority = 999;
sortedHyps.insert( std::make_pair( groupID + priority * 1e-3, aData ));
}
}
if ( !sortedHyps.empty() )
{
HypothesisData* aPrevGroup = SMESH::GetGroupTitle( sortedHyps.rbegin()->second, isAlgo );
std::multimap< double, HypothesisData* >::iterator key_hyp = sortedHyps.begin();
for ( ; key_hyp != sortedHyps.end(); ++key_hyp )
{
HypothesisData* aData = key_hyp->second;
HypothesisData* aGroup = SMESH::GetGroupTitle( aData, isAlgo );
if ( aPrevGroup != aGroup )
{
theDataList.append( aGroup );
theHyps.append( aGroup->Label );
aPrevGroup = aGroup;
}
theDataList.append( aData );
theHyps.append( aData->Label );
}
}
if ( !theMeshType.isEmpty() && !aCurrentGeomToSelect.isEmpty() )
myLastGeomToSelect = aCurrentGeomToSelect;
}
//================================================================================
/*!
* \brief Gets existing hypotheses or algorithms
* \param theDim - specifies dimension of returned hypotheses/algorifms
* \param theHypType - specifies whether algorims or hypotheses or additional ones
* are retrieved (possible values are in HypType enumeration)
* \param theFather - start object for finding ( may be component, mesh, or sub-mesh )
* \param theHyps - output list of names.
* \param theHypVars - output list of variables.
* \param theAlgoData - to select hypos able to be used by this algo (optional)
*
* Gets existing (i.e. already created) hypotheses or algorithm in accordance with
* input parameters.
*
* WARNING: when using this method to get hyps existing in Mesh component,
* call availableHyps() before in order to get only hyps of available types
* that was filtered by availableHyps()
*/
//================================================================================
void SMESHGUI_MeshOp::existingHyps( const int theDim,
const int theHypType,
_PTR(SObject) theFather,
QStringList& theHyps,
THypList& theHypList,
HypothesisData* theAlgoData) const
{
// Clear hypoheses list
theHyps.clear();
theHypList.clear();
if ( !theFather )
return;
_PTR(SObject) aHypRoot;
_PTR(GenericAttribute) anAttr;
_PTR(AttributeName) aName;
_PTR(AttributeIOR) anIOR;
const bool isMesh = !_CAST( SComponent, theFather );
int aPart = -1;
if ( isMesh )
aPart = theHypType == Algo ? SMESH::Tag_RefOnAppliedAlgorithms : SMESH::Tag_RefOnAppliedHypothesis;
else
aPart = theHypType == Algo ? SMESH::Tag_AlgorithmsRoot : SMESH::Tag_HypothesisRoot;
const bool isAux = ( theHypType >= AddHyp );
const bool allHyps = ( !isMesh && theHypType != Algo && theDim > -1);
if ( theFather->FindSubObject( aPart, aHypRoot ) )
{
_PTR(ChildIterator) anIter = SMESH::getStudy()->NewChildIterator( aHypRoot );
for ( ; anIter->More(); anIter->Next() )
{
_PTR(SObject) anObj = anIter->Value();
if ( isMesh ) // i.e. mesh or submesh
{
_PTR(SObject) aRefObj;
if ( anObj->ReferencedObject( aRefObj ) )
anObj = aRefObj;
else
continue;
}
if ( anObj->FindAttribute( anAttr, "AttributeName" ) )
{
aName = anAttr;
CORBA::Object_var aVar = _CAST(SObject,anObj)->GetObject();
if ( !CORBA::is_nil( aVar ) )
{
SMESH::SMESH_Hypothesis_var aHypVar = SMESH::SMESH_Hypothesis::_narrow( aVar );
if ( !aHypVar->_is_nil() )
{
CORBA::String_var hypType = aHypVar->GetName();
HypothesisData* aData = SMESH::GetHypothesisData( hypType.in() );
if ( !aData) continue;
if (( theDim == -1 || aData->Dim.contains( theDim ) ) &&
( isCompatible ( theAlgoData, aData, theHypType )) &&
( theHypType == Algo || isAux == aData->IsAuxOrNeedHyp ) &&
( !allHyps || myAvailableHypData[theDim][theHypType].count(aData) ))
{
std::string aHypName = aName->Value();
theHyps.append( aHypName.c_str() );
theHypList.append( THypItem( aHypVar, aHypName.c_str() ) );
}
}
}
}
}
}
}
//================================================================================
/*!
* \brief If create or edit a submesh, return a hypothesis holding parameters used
* to mesh a sub-shape
* \param aHypType - The hypothesis type name
* \param aServerLib - Server library name
* \param hypData - The structure holding the hypothesis type etc.
* \retval SMESH::SMESH_Hypothesis_var - the hypothesis holding parameter values
*/
//================================================================================
SMESH::SMESH_Hypothesis_var
SMESHGUI_MeshOp::getInitParamsHypothesis( const QString& aHypType,
const QString& aServerLib ) const
{
if ( aHypType.isEmpty() || aServerLib.isEmpty() )
return SMESH::SMESH_Hypothesis::_nil();
const int nbColonsInMeshEntry = 3;
bool isSubMesh = myToCreate ?
!myIsMesh :
myDlg->selectedObject( SMESHGUI_MeshDlg::Obj ).count(':') > nbColonsInMeshEntry;
// get mesh and geom object
SMESH::SMESH_Mesh_var aMeshVar = SMESH::SMESH_Mesh::_nil();
GEOM::GEOM_Object_var aGeomVar = GEOM::GEOM_Object::_nil();
QString anEntry;
if ( isSubMesh )
{
anEntry = myDlg->selectedObject
( myToCreate ? SMESHGUI_MeshDlg::Mesh : SMESHGUI_MeshDlg::Obj );
if ( _PTR(SObject) pObj = SMESH::getStudy()->FindObjectID( anEntry.toUtf8().data() ))
{
CORBA::Object_ptr Obj = _CAST( SObject,pObj )->GetObject();
if ( myToCreate ) // mesh and geom may be selected
{
aMeshVar = SMESH::SMESH_Mesh::_narrow( Obj );
anEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom );
if ( _PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( anEntry.toUtf8().data() ))
aGeomVar= GEOM::GEOM_Object::_narrow( _CAST( SObject,pGeom )->GetObject() );
}
else // edition: sub-mesh may be selected
{
SMESH::SMESH_subMesh_var sm = SMESH::SMESH_subMesh::_narrow( Obj );
if ( !sm->_is_nil() ) {
aMeshVar = sm->GetFather();
aGeomVar = sm->GetSubShape();
}
}
}
}
else // mesh
{
if ( !myToCreate ) // mesh to edit can be selected
{
anEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Obj );
if ( _PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( anEntry.toUtf8().data() ))
{
aMeshVar = SMESH::SMESH_Mesh::_narrow( _CAST( SObject,pMesh )->GetObject() );
if ( !aMeshVar->_is_nil() )
aGeomVar = SMESH::GetShapeOnMeshOrSubMesh( pMesh );
}
}
if ( aGeomVar->_is_nil() ) {
anEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom );
if ( _PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( anEntry.toUtf8().data() ))
{
aGeomVar= GEOM::GEOM_Object::_narrow( _CAST( SObject,pGeom )->GetObject() );
}
}
}
SMESH::SMESH_Hypothesis_var hyp =
SMESHGUI::GetSMESHGen()->GetHypothesisParameterValues( aHypType.toUtf8().data(),
aServerLib.toUtf8().data(),
aMeshVar,
aGeomVar,
/*byMesh = */isSubMesh);
if ( hyp->_is_nil() && isSubMesh )
hyp = SMESHGUI::GetSMESHGen()->GetHypothesisParameterValues( aHypType.toLatin1().data(),
aServerLib.toUtf8().data(),
aMeshVar,
aGeomVar,
/*byMesh = */false);
return hyp;
}
//================================================================================
/*!
* \brief initialize a hypothesis creator
*/
//================================================================================
void SMESHGUI_MeshOp::initHypCreator( SMESHGUI_GenericHypothesisCreator* theCreator )
{
if ( !theCreator ) return;
// Set shapes, of mesh and sub-mesh if any
// get Entry of the Geom object
QString aGeomEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom );
QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh );
QString anObjEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Obj );
if ( myToCreate && myIsMesh )
aMeshEntry = aGeomEntry;
if ( aMeshEntry != aGeomEntry ) { // Get Geom object from Mesh of a sub-mesh being edited
_PTR(SObject) pObj = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() );
GEOM::GEOM_Object_var aGeomVar = SMESH::GetShapeOnMeshOrSubMesh( pObj );
aMeshEntry = ( aGeomVar->_is_nil() ) ? QString() : SMESH::toQStr( aGeomVar->GetStudyEntry() );
}
if ( aMeshEntry == "" && aGeomEntry == "" ) { // get geom of an object being edited
_PTR(SObject) pObj = SMESH::getStudy()->FindObjectID( anObjEntry.toUtf8().data() );
bool isMesh;
GEOM::GEOM_Object_var aGeomVar = SMESH::GetShapeOnMeshOrSubMesh( pObj, &isMesh );
if ( !aGeomVar->_is_nil() )
{
aGeomEntry = SMESH::toQStr( aGeomVar->GetStudyEntry() );
if ( isMesh )
aMeshEntry = aGeomEntry;
}
}
if ( anObjEntry != "" && aGeomEntry != "" && aMeshEntry == "" ) {
// take geometry from submesh being created
_PTR(SObject) pObj = SMESH::getStudy()->FindObjectID( anObjEntry.toUtf8().data() );
if ( pObj ) {
// if current object is sub-mesh
SMESH::SMESH_subMesh_var aSubMeshVar =
SMESH::SMESH_subMesh::_narrow( _CAST( SObject,pObj )->GetObject() );
if ( !aSubMeshVar->_is_nil() ) {
SMESH::SMESH_Mesh_var aMeshVar = aSubMeshVar->GetFather();
if ( !aMeshVar->_is_nil() ) {
_PTR(SObject) aMeshSO = SMESH::FindSObject( aMeshVar );
GEOM::GEOM_Object_var aGeomVar = SMESH::GetShapeOnMeshOrSubMesh( aMeshSO );
if ( !aGeomVar->_is_nil() )
aMeshEntry = SMESH::toQStr( aGeomVar->GetStudyEntry() );
}
}
}
}
theCreator->setShapeEntry( aGeomEntry );
if ( aMeshEntry != "" )
theCreator->setMainShapeEntry( aMeshEntry );
theCreator->setNoGeomMesh( !myIsOnGeometry && myIsMesh && !myToCreate );
}
//================================================================================
/*!
* \Brief Returns tab dimension
* \param tab - the tab in the dlg
* \param dlg - my dialogue
* \retval int - dimension
*/
//================================================================================
static int getTabDim (const QObject* tab, SMESHGUI_MeshDlg* dlg )
{
int aDim = -1;
for (int i = SMESH::DIM_0D; i <= SMESH::DIM_3D; i++)
if (tab == dlg->tab(i))
aDim = i;
return aDim;
}
//================================================================================
/*!
* \brief Create hypothesis
* \param theHypType - hypothesis category (main or additional)
* \param theIndex - index of type of hypothesis to be created
*
* Specifies dimension of hypothesis to be created (using sender() method),
* specifies its type and calls method for hypothesis creation
*/
//================================================================================
void SMESHGUI_MeshOp::onCreateHyp( const int theHypType, const int theIndex )
{
// Specifies dimension of hypothesis to be created
int aDim = getTabDim( sender(), myDlg );
if (aDim == -1)
return;
// Specifies type of hypothesis to be created
THypDataList& dataList = myAvailableHypData[ aDim ][ theHypType ];
if (theIndex < 0 || theIndex >= dataList.count())
return;
QString aHypTypeName = dataList[ theIndex ]->TypeName;
// Create hypothesis
createHypothesis(aDim, theHypType, aHypTypeName);
}
namespace
{
QString GetUniqueName (const QStringList& theHypNames,
const QString& theName,
size_t theIteration = 1)
{
QString aName = theName + "_" + QString::number( theIteration );
if ( theHypNames.contains( aName ) )
return GetUniqueName( theHypNames, theName, ++theIteration );
return aName;
}
}
//================================================================================
/*!
* Create hypothesis and update dialog.
* \param theDim - dimension of hypothesis to be created
* \param theType - hypothesis category (algorithm, hypothesis, additional hypothesis)
* \param theTypeName - specifies hypothesis to be created
*/
//================================================================================
void SMESHGUI_MeshOp::createHypothesis(const int theDim,
const int theType,
const QString& theTypeName)
{
HypothesisData* aData = SMESH::GetHypothesisData(theTypeName);
if (!aData)
return;
myDim = theDim;
myType = theType;
// get a unique hyp name
QStringList aHypNames;
TDim2Type2HypList::const_iterator aDimIter = myExistingHyps.begin();
for ( ; aDimIter != myExistingHyps.end(); aDimIter++) {
const TType2HypList& aType2HypList = aDimIter.value();
TType2HypList::const_iterator aTypeIter = aType2HypList.begin();
for ( ; aTypeIter != aType2HypList.end(); aTypeIter++) {
const THypList& aHypList = aTypeIter.value();
THypList::const_iterator anIter = aHypList.begin();
for ( ; anIter != aHypList.end(); anIter++) {
const THypItem& aHypItem = *anIter;
const QString& aHypName = aHypItem.second;
aHypNames.append(aHypName);
}
}
}
QString aHypName = GetUniqueName( aHypNames, aData->Label);
// existing hypos
bool dialog = false;
QString aClientLibName = aData->ClientLibName;
if (aClientLibName == "") {
// Call hypothesis creation server method (without GUI)
SMESH::SMESH_Hypothesis_var aHyp =
SMESH::CreateHypothesis(theTypeName, aHypName, false);
aHyp.out();
}
else {
// Get hypotheses creator client (GUI)
SMESHGUI_GenericHypothesisCreator* aCreator = SMESH::GetHypothesisCreator(theTypeName);
// Create hypothesis
if (aCreator)
{
// Get parameters appropriate to initialize a new hypothesis
SMESH::SMESH_Hypothesis_var initParamHyp =
getInitParamsHypothesis(theTypeName, aData->ServerLibName);
removeCustomFilters(); // Issue 0020170
// set shapes, of mesh and sub-mesh if any
initHypCreator( aCreator );
myDlg->setEnabled( false );
aCreator->create(initParamHyp, aHypName, myDlg, this, SLOT( onHypoCreated( int ) ) );
dialog = true;
}
else
{
SMESH::SMESH_Hypothesis_var aHyp =
SMESH::CreateHypothesis(theTypeName, aHypName, false);
aHyp.out();
}
}
if( !dialog )
onHypoCreated(2);
}
//================================================================================
/*!
* Necessary steps after hypothesis creation
* \param result - creation result:
* 0 = rejected
* 1 = accepted
* 2 = additional value meaning that slot is called not from dialog box
*/
//================================================================================
void SMESHGUI_MeshOp::onHypoCreated( int result )
{
if( result != 2 )
{
int obj = myDlg->getActiveObject();
onActivateObject( obj ); // Issue 0020170. Restore filters
myDlg->setEnabled( true );
}
_PTR(SComponent) aFather = SMESH::getStudy()->FindComponent("SMESH");
int nbHyp = myExistingHyps[myDim][myType].count();
HypothesisData* algoData = hypData( myDim, Algo, currentHyp( myDim, Algo ));
QStringList aNewHyps;
existingHyps(myDim, myType, aFather, aNewHyps, myExistingHyps[myDim][myType], algoData);
if (aNewHyps.count() > nbHyp)
{
for (int i = nbHyp; i < aNewHyps.count(); i++)
myDlg->tab(myDim)->addHyp(myType, aNewHyps[i]);
}
if( result!=2 && myHypoSet )
processSet();
}
//================================================================================
/*!
* \brief Calls plugin methods for hypothesis editing
* \param theHypType - specifies whether main hypothesis or additional one
* is edited
* \param theIndex - index of existing hypothesis
*
* Calls plugin methods for hypothesis editing
*/
//================================================================================
void SMESHGUI_MeshOp::onEditHyp( const int theHypType, const int theIndex )
{
// Speicfies dimension of hypothesis to be created
int aDim = getTabDim( sender(), myDlg );
if (aDim == -1)
return;
const THypList& aList = myExistingHyps[ aDim ][ theHypType ];
if ( theIndex < 0 || theIndex >= aList.count() )
return;
const THypItem& aHypItem = aList[ theIndex ];
SMESH::SMESH_Hypothesis_var aHyp = aHypItem.first;
if ( aHyp->_is_nil() )
return;
SMESHGUI_GenericHypothesisCreator* aCreator =
SMESH::GetHypothesisCreator( SMESH::toQStr( aHyp->GetName() ));
if ( aCreator )
{
// set initial parameters
SMESH::SMESH_Hypothesis_var initParamHyp =
getInitParamsHypothesis( SMESH::toQStr( aHyp->GetName() ),
SMESH::toQStr( aHyp->GetLibName() ));
aCreator->setInitParamsHypothesis( initParamHyp );
// set shapes, of mesh and sub-mesh if any
initHypCreator( aCreator );
removeCustomFilters(); // Issue 0020170
myDlg->setEnabled( false );
aCreator->edit( aHyp.in(), aHypItem.second, dlg(), this, SLOT( onHypoEdited( int ) ) );
}
}
//================================================================================
/*!
* Necessary steps after hypothesis edition
* \param result - creation result:
* 0 = rejected
* 1 = accepted
*/
//================================================================================
void SMESHGUI_MeshOp::onHypoEdited( int result )
{
int obj = myDlg->getActiveObject();
onActivateObject( obj ); // Issue 0020170. Restore filters
myDlg->setEnabled( true );
}
//================================================================================
/*!
* \brief access to hypothesis data
* \param theDim - hyp dimension
* \param theHypType - hyp type (Algo,MainHyp or AddHyp)
* \param theIndex - index in the list
* \retval HypothesisData* - result data, may be 0
*/
//================================================================================
HypothesisData* SMESHGUI_MeshOp::hypData( const int theDim,
const int theHypType,
const int theIndex)
{
if ( theDim > -1 && theDim <= SMESH::DIM_3D &&
theHypType > -1 && theHypType < NbHypTypes &&
theIndex > -1 && theIndex < myAvailableHypData[ theDim ][ theHypType ].count() )
return myAvailableHypData[ theDim ][ theHypType ][ theIndex ];
return 0;
}
//================================================================================
/*!
* \brief Set available algos and hypos according to the selected algorithm
* \param theIndex - algorithm index
*/
//================================================================================
void SMESHGUI_MeshOp::onAlgoSelected( const int theIndex,
const int theDim )
{
if ( myIgnoreAlgoSelection )
return;
int curDim = getTabDim( sender(), myDlg );
int aDim = theDim < 0 ? curDim : theDim;
if (aDim == -1)
return;
const bool isSubmesh = ( myToCreate ? !myIsMesh : myDlg->isObjectShown( SMESHGUI_MeshDlg::Mesh ));
HypothesisData* algoData = hypData( aDim, Algo, theIndex );
HypothesisData* algoByDim[4];
algoByDim[ aDim ] = algoData;
QStringList anAvailable;
// enable / disable tabs
if ( myIsOnGeometry ) {
for (int i = SMESH::DIM_3D; i >= SMESH::DIM_0D; i--) {
if ( i > aDim ) {
if ( i > myMaxShapeDim ) myDlg->disableTab( i );
else myDlg->enableTab( i );
}
else if ( i == aDim ) {
continue;
}
else {//( i < aDim )
if ( algoData && algoData->InputTypes.isEmpty() ) {
myDlg->disableTab( i );
for ( int type = Algo, nbTypes = nbDlgHypTypes(i); type < nbTypes; type++ )
setCurrentHyp(i, type, -1);
}
else {
myDlg->enableTab( i );
}
}
}
}
int algoDim = aDim;
HypothesisData* a3DAlgo = 0;
// 2 loops: backward and forward from algo dimension
for ( int forward = 0; forward <= 1; ++forward )
{
int dim = algoDim + 1, lastDim = SMESH::DIM_3D, dir = 1;
if ( !forward ) {
dim = algoDim - 1; lastDim = SMESH::DIM_0D; dir = -1;
}
HypothesisData* prevAlgo = algoData;
bool noCompatible = false;
for ( ; dim * dir <= lastDim * dir; dim += dir)
{
if ( !isAccessibleDim( dim ))
continue;
if ( noCompatible ) { // the selected algo has no compatible ones
anAvailable.clear();
myDlg->tab( dim )->setAvailableHyps( Algo, anAvailable );
myAvailableHypData[dim][Algo].clear();
algoByDim[ dim ] = 0;
continue;
}
HypothesisData* nextAlgo = 0;
if ( myMaxShapeDim == SMESH::DIM_3D && a3DAlgo && dim == SMESH::DIM_2D ) {
nextAlgo = a3DAlgo;
}
// get currently selected algo
int algoIndex = currentHyp( dim, Algo );
HypothesisData* curAlgo = hypData( dim, Algo, algoIndex );
QString anCompareType = currentMeshTypeName(myDlg->currentMeshType());
QString anCurrentCompareType = "";
if ( dim == SMESH::DIM_3D || anCompareType == "ANY" )
anCurrentCompareType = anCompareType;
else if ( dim == SMESH::DIM_2D ) {
anCurrentCompareType = (anCompareType == "HEXA" || anCompareType == "QUAD") ? "QUAD" : "TRIA";
nextAlgo = 0;
}
// set new available algorithms
availableHyps( dim, Algo, anAvailable, myAvailableHypData[dim][Algo], prevAlgo, nextAlgo, anCurrentCompareType);
HypothesisData* soleCompatible = 0;
if ( anAvailable.count() == 1 )
soleCompatible = myAvailableHypData[dim][Algo][0];
myDlg->tab( dim )->setAvailableHyps( Algo, anAvailable );
noCompatible = anAvailable.isEmpty();
algoIndex = myAvailableHypData[dim][Algo].indexOf( curAlgo );
if ( !isSubmesh && algoIndex < 0 && soleCompatible && !forward && dim == curDim ) {
// select the sole compatible algo
algoIndex = 0;
}
setCurrentHyp( dim, Algo, algoIndex );
// remember current algo
prevAlgo = algoByDim[ dim ] = hypData( dim, Algo, algoIndex );
} // loop on dims
if ( myMaxShapeDim == SMESH::DIM_3D && forward && algoDim == SMESH::DIM_1D )
{
algoDim = SMESH::DIM_3D;
forward = -1;
a3DAlgo = prevAlgo;
continue;
}
} // loops backward and forward
// set hypotheses corresponding to the found algorithms
_PTR(SObject) pObj = SMESH::getStudy()->FindComponent("SMESH");
for ( int dim = SMESH::DIM_0D; dim <= SMESH::DIM_3D; dim++ )
{
if ( !isAccessibleDim( dim ))
continue;
// get indices of selected hyps
const int nbTypes = nbDlgHypTypes(dim);
std::vector<int> hypIndexByType( nbTypes, -1 );
for ( int dlgType = MainHyp; dlgType < nbTypes; dlgType++ )
{
hypIndexByType[ dlgType ] = currentHyp( dim, dlgType );
}
// update hyps
for ( int dlgType = MainHyp; dlgType < nbTypes; dlgType++ )
{
const int type = Min( dlgType, AddHyp );
myAvailableHypData[ dim ][ type ].clear();
QStringList anAvailable, anExisting;
HypothesisData* curAlgo = algoByDim[ dim ];
int hypIndex = hypIndexByType[ dlgType ];
SMESH::SMESH_Hypothesis_var curHyp;
if ( hypIndex >= 0 && hypIndex < myExistingHyps[ dim ][ type ].count() )
curHyp = myExistingHyps[ dim ][ type ][ hypIndex ].first;
if ( !myToCreate && !curAlgo && !curHyp->_is_nil() ) { // edition, algo not selected
// try to find algo by selected hypothesis in order to keep it selected
bool algoDeselectedByUser = ( theDim < 0 && aDim == dim );
QString curHypType = SMESH::toQStr( curHyp->GetName() );
if ( !algoDeselectedByUser &&
myObjHyps[ dim ][ type ].count() > 0 &&
curHypType == SMESH::toQStr( myObjHyps[ dim ][ type ].first().first->GetName()) )
{
HypothesisData* hypData = SMESH::GetHypothesisData( SMESH::toQStr( curHyp->GetName() ));
for (int i = 0; i < myAvailableHypData[ dim ][ Algo ].count(); ++i) {
curAlgo = myAvailableHypData[ dim ][ Algo ][ i ];
if (curAlgo && hypData && isCompatible(curAlgo, hypData, type))
break;
else
curAlgo = 0;
}
}
}
// get hyps compatible with curAlgo
bool defaulHypAvlbl = false;
if ( curAlgo )
{
// check if a selected hyp is compatible with the curAlgo
if ( !curHyp->_is_nil() ) {
HypothesisData* hypData = SMESH::GetHypothesisData( SMESH::toQStr( curHyp->GetName() ));
if ( !isCompatible( curAlgo, hypData, type ))
curHyp = SMESH::SMESH_Hypothesis::_nil();
}
availableHyps( dim, type, anAvailable, myAvailableHypData[ dim ][ type ], curAlgo);
existingHyps( dim, type, pObj, anExisting, myExistingHyps[ dim ][ type ], curAlgo);
defaulHypAvlbl = (type == MainHyp && !curAlgo->IsAuxOrNeedHyp );
}
// set list of hypotheses
if ( dlgType <= AddHyp )
{
myDlg->tab( dim )->setAvailableHyps( type, anAvailable );
myDlg->tab( dim )->setExistingHyps( type, anExisting, defaulHypAvlbl );
}
// set current existing hypothesis
if ( !curHyp->_is_nil() && !anExisting.isEmpty() )
hypIndex = this->find( curHyp, myExistingHyps[ dim ][ type ]);
else
hypIndex = -1;
if ( !isSubmesh && myToCreate && hypIndex < 0 && anExisting.count() == 1 && dim == curDim )
{
// none is yet selected => select the sole existing if it is not optional
CORBA::String_var hypTypeName = myExistingHyps[ dim ][ type ].first().first->GetName();
bool isOptional = true;
if ( algoByDim[ dim ] &&
SMESH::IsAvailableHypothesis( algoByDim[ dim ], hypTypeName.in(), isOptional ) &&
!isOptional )
hypIndex = 0;
}
setCurrentHyp( dim, dlgType, hypIndex );
}
}
}
//================================================================================
/*!
* \brief Creates and selects hypothesis of hypotheses set
* \param theSetName - The name of hypotheses set
*/
//================================================================================
void SMESHGUI_MeshOp::onHypoSet( const QString& theSetName )
{
myHypoSet = SMESH::GetHypothesesSet(theSetName);
if (!myHypoSet)
return;
// clear all hyps
for (int dim = SMESH::DIM_0D; dim <= SMESH::DIM_3D; dim++) {
setCurrentHyp(dim, Algo, -1);
setCurrentHyp(dim, AddHyp, -1);
setCurrentHyp(dim, MainHyp, -1);
}
myHypoSet->init(true); //algorithms
processSet();
myHypoSet->init(false); //hypotheses
processSet();
myHypoSet = 0;
}
//================================================================================
/*!
* \brief One step of hypothesis/algorithm list creation
*
* Creates a hypothesis or an algorithm for current item of internal list of names myHypoSet
*/
//================================================================================
void SMESHGUI_MeshOp::processSet()
{
myHypoSet->next();
if( !myHypoSet->more() )
return;
bool isAlgo = myHypoSet->isAlgo();
QString aHypoTypeName = myHypoSet->current();
HypothesisData* aHypData = SMESH::GetHypothesisData(aHypoTypeName);
if (!aHypData)
{
processSet();
return;
}
int aDim = aHypData->Dim[0];
// create or/and set
if (isAlgo)
{
int index = myAvailableHypData[aDim][Algo].indexOf( aHypData );
if ( index < 0 )
{
QStringList anAvailable;
availableHyps( aDim, Algo, anAvailable, myAvailableHypData[aDim][Algo] );
myDlg->tab( aDim )->setAvailableHyps( Algo, anAvailable );
index = myAvailableHypData[aDim][Algo].indexOf( aHypData );
}
setCurrentHyp( aDim, Algo, index );
onAlgoSelected( index, aDim );
processSet();
}
else
{
bool mainHyp = true;
QStringList anAvailable;
availableHyps( aDim, MainHyp, anAvailable, myAvailableHypData[aDim][MainHyp] );
myDlg->tab( aDim )->setAvailableHyps( MainHyp, anAvailable );
int index = myAvailableHypData[aDim][MainHyp].indexOf( aHypData );
if ( index < 0 )
{
mainHyp = false;
index = myAvailableHypData[aDim][AddHyp].indexOf( aHypData );
}
if (index >= 0)
createHypothesis(aDim, mainHyp ? MainHyp : AddHyp, aHypoTypeName);
else
processSet();
}
}
//================================================================================
/*!
* \brief Creates mesh
* \param theMess - Output parameter intended for returning error message
* \param theEntryList - List of entries of published objects
* \retval bool - TRUE if mesh is created, FALSE otherwise
*
* Creates mesh
*/
//================================================================================
bool SMESHGUI_MeshOp::createMesh( QString& theMess, QStringList& theEntryList )
{
theMess = "";
QStringList aList;
myDlg->selectedObject( SMESHGUI_MeshDlg::Geom, aList );
if ( aList.isEmpty() )
{
SMESH::SMESH_Gen_var aSMESHGen = SMESHGUI::GetSMESHGen();
if ( aSMESHGen->_is_nil() )
return false;
SMESH::SMESH_Mesh_var aMeshVar= aSMESHGen->CreateEmptyMesh();
if ( aMeshVar->_is_nil() )
return false;
_PTR(SObject) aMeshSO = SMESH::FindSObject( aMeshVar.in() );
if ( aMeshSO ) {
SMESH::SetName( aMeshSO, myDlg->objectText( SMESHGUI_MeshDlg::Obj ) );
theEntryList.append( aMeshSO->GetID().c_str() );
}
return true;
}
QString namePrefix;
if ( aList.count() > 1 )
{
namePrefix = myDlg->objectText( SMESHGUI_MeshDlg::Obj );
int i = namePrefix.length() - 1;
while ( i > 0 && namePrefix[i].isDigit() )
--i;
if ( i < namePrefix.length() - 1 )
namePrefix.chop( namePrefix.length() - 1 - i );
else
namePrefix += "_";
}
QStringList::Iterator it = aList.begin();
for ( int i = 0; it!=aList.end(); it++, ++i )
{
QString aGeomEntry = *it;
_PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( aGeomEntry.toUtf8().data() );
GEOM::GEOM_Object_var aGeomVar =
GEOM::GEOM_Object::_narrow( _CAST( SObject,pGeom )->GetObject() );
SMESH::SMESH_Gen_var aSMESHGen = SMESHGUI::GetSMESHGen();
if ( aSMESHGen->_is_nil() )
return false;
SUIT_OverrideCursor aWaitCursor;
// create mesh
SMESH::SMESH_Mesh_var aMeshVar = aSMESHGen->CreateMesh( aGeomVar );
if ( aMeshVar->_is_nil() )
return false;
_PTR(SObject) aMeshSO = SMESH::FindSObject( aMeshVar.in() );
if ( aMeshSO ) {
theEntryList.append( aMeshSO->GetID().c_str() );
if ( i > 0 ) setDefaultName( namePrefix );
SMESH::SetName( aMeshSO, myDlg->objectText( SMESHGUI_MeshDlg::Obj ) );
}
for ( int aDim = SMESH::DIM_0D; aDim <= SMESH::DIM_3D; aDim++ )
{
if ( !isAccessibleDim( aDim )) continue;
// assign hypotheses
for ( int dlgType = MainHyp; dlgType < nbDlgHypTypes(aDim); dlgType++ )
{
const int aHypIndex = currentHyp( aDim, dlgType );
const int aHypType = Min( dlgType, AddHyp );
if ( aHypIndex >= 0 && aHypIndex < myExistingHyps[ aDim ][ aHypType ].count() )
{
SMESH::SMESH_Hypothesis_var aHypVar =
myExistingHyps[ aDim ][ aHypType ][ aHypIndex ].first;
if ( !aHypVar->_is_nil() )
SMESH::AddHypothesisOnMesh( aMeshVar, aHypVar );
}
}
// find or create algorithm
SMESH::SMESH_Hypothesis_var anAlgoVar = getAlgo( aDim );
if ( !anAlgoVar->_is_nil() )
SMESH::AddHypothesisOnMesh( aMeshVar, anAlgoVar );
}
}
return true;
}
//================================================================================
/*!
* \brief Creates sub-mesh
* \param theMess - Output parameter intended for returning error message
* \param theEntryList - List of entries of published objects
* \retval bool - TRUE if sub-mesh is created, FALSE otherwise
*
* Creates sub-mesh
*/
//================================================================================
bool SMESHGUI_MeshOp::createSubMesh( QString& theMess, QStringList& theEntryList )
{
theMess = "";
SMESH::SMESH_Gen_var aSMESHGen = SMESHGUI::GetSMESHGen();
if ( aSMESHGen->_is_nil() )
return false;
// get mesh object
SMESH::SMESH_Mesh_var aMeshVar =
SMESH::EntryToInterface<SMESH::SMESH_Mesh>( myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh ));
if ( aMeshVar->_is_nil() && myIsInvalidSubMesh )
{
SMESH::SMESH_subMesh_var aSMVar =
SMESH::EntryToInterface<SMESH::SMESH_subMesh>( myDlg->selectedObject( SMESHGUI_MeshDlg::Obj ));
if ( !aSMVar->_is_nil() )
aMeshVar = aSMVar->GetMesh();
}
if ( aMeshVar->_is_nil() )
return false;
// GEOM shape of the main mesh
GEOM::GEOM_Object_var mainGeom = aMeshVar->GetShapeToMesh();
// Name for the new sub-mesh
QString aName = myDlg->objectText(SMESHGUI_MeshDlg::Obj);
// get geom object
GEOM::GEOM_Object_var aGeomVar;
QStringList aGEOMs;
myDlg->selectedObject(SMESHGUI_MeshDlg::Geom, aGEOMs);
if (aGEOMs.count() == 1)
{
//QString aGeomEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Geom );
QString aGeomEntry = aGEOMs.first();
_PTR(SObject) pGeom = SMESH::getStudy()->FindObjectID( aGeomEntry.toUtf8().data() );
aGeomVar = GEOM::GEOM_Object::_narrow( _CAST( SObject,pGeom )->GetObject() );
}
else if (aGEOMs.count() > 1)
{
// create a GEOM group
GEOM::GEOM_Gen_var geomGen = SMESH::GetGEOMGen();
if (!geomGen->_is_nil()) {
GEOM::GEOM_IGroupOperations_wrap op =
geomGen->GetIGroupOperations();
if (!op->_is_nil()) {
// check and add all selected GEOM objects: they must be
// a sub-shapes of the main GEOM and must be of one type
int iSubSh = 0;
TopAbs_ShapeEnum aGroupType = TopAbs_SHAPE;
GEOM::ListOfGO_var aSeq = new GEOM::ListOfGO;
aSeq->length(aGEOMs.count());
QStringList::const_iterator aSubShapesIter = aGEOMs.begin();
for ( ; aSubShapesIter != aGEOMs.end(); aSubShapesIter++, iSubSh++) {
QString aSubGeomEntry = (*aSubShapesIter);
_PTR(SObject) pSubGeom = SMESH::getStudy()->FindObjectID(aSubGeomEntry.toUtf8().data());
GEOM::GEOM_Object_var aSubGeomVar =
GEOM::GEOM_Object::_narrow(_CAST(SObject,pSubGeom)->GetObject());
TopAbs_ShapeEnum aSubShapeType = (TopAbs_ShapeEnum)aSubGeomVar->GetShapeType();
if (iSubSh == 0) {
aGroupType = aSubShapeType;
} else {
if (aSubShapeType != aGroupType)
aGroupType = TopAbs_SHAPE;
}
aSeq[iSubSh] = aSubGeomVar;
}
// create a group
GEOM::GEOM_Object_wrap aGroupVar = op->CreateGroup(mainGeom, aGroupType);
op->UnionList(aGroupVar, aSeq);
if (op->IsDone())
{
aGeomVar = GEOM::GEOM_Object::_duplicate( aGroupVar.in() );
// publish the GEOM group in study
QString aNewGeomGroupName ("Auto_group_for_");
aNewGeomGroupName += aName;
SALOMEDS::SObject_wrap aNewGroupSO =
geomGen->AddInStudy( aGeomVar,
aNewGeomGroupName.toUtf8().data(), mainGeom);
}
}
}
}
else {
}
if (aGeomVar->_is_nil())
return false;
SUIT_OverrideCursor aWaitCursor;
QString aNameOrID = aName;
if ( myIsInvalidSubMesh )
// pass a sub-mesh entry to mesh->GetSubMesh() to replace the invalid sub-mesh
// by a valid one in an existing SO
aNameOrID = myDlg->selectedObject(SMESHGUI_MeshDlg::Obj);
// create sub-mesh
SMESH::SMESH_subMesh_var aSubMeshVar = aMeshVar->GetSubMesh( aGeomVar, aNameOrID.toUtf8().data() );
_PTR(SObject) aSubMeshSO = SMESH::FindSObject( aSubMeshVar.in() );
if ( aSubMeshSO ) {
SMESH::SetName( aSubMeshSO, aName.toUtf8().data() );
theEntryList.append( aSubMeshSO->GetID().c_str() );
}
for ( int aDim = SMESH::DIM_0D; aDim <= SMESH::DIM_3D; aDim++ )
{
if ( !isAccessibleDim( aDim )) continue;
// find or create algorithm
SMESH::SMESH_Hypothesis_var anAlgoVar = getAlgo( aDim );
if ( !anAlgoVar->_is_nil() )
SMESH::AddHypothesisOnSubMesh( aSubMeshVar, anAlgoVar );
// assign hypotheses
for ( int dlgType = MainHyp; dlgType < nbDlgHypTypes(aDim); dlgType++ )
{
const int aHypIndex = currentHyp( aDim, dlgType );
const int aHypType = Min( dlgType, AddHyp );
if ( aHypIndex >= 0 && aHypIndex < myExistingHyps[ aDim ][ aHypType ].count() )
{
SMESH::SMESH_Hypothesis_var aHypVar =
myExistingHyps[ aDim ][ aHypType ][ aHypIndex ].first;
if ( !aHypVar->_is_nil() )
SMESH::AddHypothesisOnSubMesh( aSubMeshVar, aHypVar );
}
}
}
// deselect geometry: next submesh should be created on other sub-shape
myDlg->clearSelection( SMESHGUI_MeshDlg::Geom );
selectObject( _PTR(SObject)() );
selectionDone();
checkSubMeshConcurrency( aMeshVar, aSubMeshVar, /*askUser=*/true );
return true;
}
//================================================================================
/*!
* \brief Gets current hypothesis or algorithms
* \param theDim - dimension of hypothesis or algorithm
* \param theHypType - Type of hypothesis (Algo, MainHyp, AddHyp)
* \retval int - current hypothesis or algorithms
*
* Gets current hypothesis or algorithms
*/
//================================================================================
int SMESHGUI_MeshOp::currentHyp( const int theDim, const int theHypType ) const
{
return myDlg->tab( theDim )->currentHyp( theHypType ) - 1;
}
//================================================================================
/*!
* \brief Checks if a hypothesis is selected
*/
//================================================================================
bool SMESHGUI_MeshOp::isSelectedHyp( int theDim, int theHypType, int theIndex) const
{
if ( theIndex < 0 )
return false;
if ( theHypType < AddHyp ) // only one hyp can be selected
return currentHyp( theDim, theHypType ) == theIndex;
for ( int dlgHypType = AddHyp; dlgHypType < nbDlgHypTypes( theDim ); ++dlgHypType )
if ( currentHyp( theDim, dlgHypType ) == theIndex )
return true;
return false;
}
//================================================================================
/*!
* \brief Returns nb of HypType's taking into account possible several
* selected additional hypotheses which are coded as additional HypType's.
*/
//================================================================================
int SMESHGUI_MeshOp::nbDlgHypTypes( const int dim ) const
{
return NbHypTypes + myDlg->tab( dim )->nbAddHypTypes();
}
//================================================================================
/*!
* \brief Returns true if hypotheses of given dim can be assigned
* \param theDim - hypotheses dimension
* \retval bool - result
*/
//================================================================================
bool SMESHGUI_MeshOp::isAccessibleDim( const int theDim ) const
{
return myDlg->isTabEnabled( theDim );
}
//================================================================================
/*!
* \brief Sets current hypothesis or algorithms
* \param theDim - dimension of hypothesis or algorithm
* \param theHypType - Type of hypothesis (Algo, MainHyp, AddHyp)
* \param theIndex - Index of hypothesis
* \param updateHypsOnAlgoDeselection - to clear and disable hyps if algo deselected
*
* Gets current hypothesis or algorithms
*/
//================================================================================
void SMESHGUI_MeshOp::setCurrentHyp( const int theDim,
const int theHypType,
const int theIndex,
const bool updateHypsOnAlgoDeselection)
{
myIgnoreAlgoSelection = true;
myDlg->tab( theDim )->setCurrentHyp( theHypType, theIndex + 1 );
myIgnoreAlgoSelection = false;
if ( updateHypsOnAlgoDeselection && theHypType == Algo && theIndex < 0 )
{
const QStringList noHyps;
myDlg->tab( theDim )->setAvailableHyps( MainHyp, noHyps );
myDlg->tab( theDim )->setExistingHyps ( MainHyp, noHyps );
myDlg->tab( theDim )->setAvailableHyps( AddHyp, noHyps );
myDlg->tab( theDim )->setExistingHyps ( AddHyp, noHyps );
}
}
//================================================================================
/*!
* \brief Generates default and sets mesh/submesh name
*
* Generates and sets default mesh/submesh name(Mesh_1, Mesh_2, etc.)
*/
//================================================================================
void SMESHGUI_MeshOp::setDefaultName( const QString& thePrefix ) const
{
QString aResName;
_PTR(Study) aStudy = SMESH::getStudy();
int i = 1;
QString aPrefix = thePrefix;
if ( aPrefix.isEmpty() )
aPrefix = tr( myIsMesh ? "SMESH_OBJECT_MESH" : "SMESH_SUBMESH" ) + "_";
_PTR(SObject) anObj;
do
{
aResName = aPrefix + QString::number( i++ );
anObj = aStudy->FindObject( aResName.toUtf8().data() );
}
while ( anObj );
QLineEdit* aControl = ( QLineEdit* )myDlg->objectWg(
SMESHGUI_MeshDlg::Obj, SMESHGUI_MeshDlg::Control );
aControl->setText( aResName );
}
//================================================================================
/*!
* \brief Gets algorithm or creates it if necessary
* \param theDim - specifies dimension of returned hypotheses/algorifms
* \retval SMESH::SMESH_Hypothesis_var - algorithm
*
* Gets algorithm or creates it if necessary
*/
//================================================================================
SMESH::SMESH_Hypothesis_var SMESHGUI_MeshOp::getAlgo( const int theDim )
{
SMESH::SMESH_Hypothesis_var anAlgoVar;
// get type of the selected algo
int aHypIndex = currentHyp( theDim, Algo );
THypDataList& dataList = myAvailableHypData[ theDim ][ Algo ];
if ( aHypIndex < 0 || aHypIndex >= dataList.count())
return anAlgoVar;
QString aHypName = dataList[ aHypIndex ]->TypeName;
// get existing algorithms
_PTR(SObject) pObj = SMESH::getStudy()->FindComponent("SMESH");
QStringList tmp;
existingHyps( theDim, Algo, pObj, tmp, myExistingHyps[ theDim ][ Algo ]);
// look for an existing algo of such a type
THypList& aHypVarList = myExistingHyps[ theDim ][ Algo ];
THypList::iterator anIter = aHypVarList.begin();
for ( ; anIter != aHypVarList.end(); anIter++)
{
SMESH::SMESH_Hypothesis_var aHypVar = (*anIter).first;
if ( !aHypVar->_is_nil() && aHypName == SMESH::toQStr( aHypVar->GetName() ))
{
anAlgoVar = aHypVar;
break;
}
}
if (anAlgoVar->_is_nil())
{
HypothesisData* aHypData = SMESH::GetHypothesisData( aHypName );
if (aHypData)
{
QString aClientLibName = aHypData->ClientLibName;
if ( aClientLibName.isEmpty() )
{
// Call hypothesis creation server method (without GUI)
SMESH::SMESH_Hypothesis_var aHyp =
SMESH::CreateHypothesis(aHypName, aHypData->Label, true);
aHyp.out();
}
else
{
// Get hypotheses creator client (GUI)
SMESHGUI_GenericHypothesisCreator* aCreator = SMESH::GetHypothesisCreator(aHypName);
// Create algorithm
if (aCreator)
aCreator->create( true, aHypName, myDlg, 0, QString::null );
else {
SMESH::SMESH_Hypothesis_var aHyp =
SMESH::CreateHypothesis(aHypName, aHypData->Label, true);
aHyp.out();
}
delete aCreator;
}
QStringList tmpList;
_PTR(SComponent) aFather = SMESH::getStudy()->FindComponent( "SMESH" );
existingHyps( theDim, Algo, aFather, tmpList, myExistingHyps[ theDim ][ Algo ] );
}
THypList& aNewHypVarList = myExistingHyps[ theDim ][ Algo ];
for ( anIter = aNewHypVarList.begin(); anIter != aNewHypVarList.end(); ++anIter )
{
SMESH::SMESH_Hypothesis_var aHypVar = (*anIter).first;
if ( !aHypVar->_is_nil() && aHypName == SMESH::toQStr( aHypVar->GetName() ))
{
anAlgoVar = aHypVar;
break;
}
}
}
return anAlgoVar._retn();
}
//================================================================================
/*!
* \brief Reads parameters of an edited mesh/sub-mesh and assigns them to the dialog
*
* Called when mesh is edited only.
*/
//================================================================================
void SMESHGUI_MeshOp::readMesh()
{
QString anObjEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Obj );
_PTR(SObject) pObj = SMESH::getStudy()->FindObjectID( anObjEntry.toUtf8().data() );
if ( !pObj )
return;
if (myIsOnGeometry) {
// Get name of mesh if current object is sub-mesh
SMESH::SMESH_subMesh_var aSubMeshVar =
SMESH::SMESH_subMesh::_narrow( _CAST( SObject,pObj )->GetObject() );
if ( !aSubMeshVar->_is_nil() )
{
SMESH::SMESH_Mesh_var aMeshVar = aSubMeshVar->GetFather();
if ( !aMeshVar->_is_nil() )
{
_PTR(SObject) aMeshSO = SMESH::FindSObject( aMeshVar );
QString aMeshName = name( aMeshSO );
myDlg->setObjectText( SMESHGUI_MeshDlg::Mesh, aMeshName );
}
myHasConcurrentSubBefore = checkSubMeshConcurrency( aMeshVar, aSubMeshVar );
}
if ( !myIsInvalidSubMesh )
{
// Get name of geometry object
CORBA::String_var name = SMESH::GetGeomName( pObj );
if ( name.in() )
myDlg->setObjectText( SMESHGUI_MeshDlg::Geom, name.in() );
}
}
// Get hypotheses and algorithms assigned to the mesh/sub-mesh
QStringList anExisting;
const int lastDim = ( myIsOnGeometry ) ? SMESH::DIM_0D : SMESH::DIM_2D;
bool algoFound = false;
for ( int dim = SMESH::DIM_3D; dim >= lastDim; --dim )
{
// get algorithm
existingHyps( dim, Algo, pObj, anExisting, myObjHyps[ dim ][ Algo ] );
// find algo index among available ones
int aHypIndex = -1;
if ( myObjHyps[ dim ][ Algo ].count() > 0 )
{
SMESH::SMESH_Hypothesis_var aVar = myObjHyps[ dim ][ Algo ].first().first;
HypothesisData* algoData = SMESH::GetHypothesisData( SMESH::toQStr( aVar->GetName() ));
aHypIndex = myAvailableHypData[ dim ][ Algo ].indexOf ( algoData );
// if ( aHypIndex < 0 && algoData ) {
// // assigned algo is incompatible with other algorithms
// myAvailableHypData[ dim ][ Algo ].push_back( algoData );
// aHypIndex = myAvailableHypData[ dim ][ hypType ].count() - 1;
// }
algoFound = ( aHypIndex > -1 );
}
setCurrentHyp( dim, Algo, aHypIndex );
// set existing and available hypothesis according to the selected algo
if ( aHypIndex > -1 || !algoFound )
onAlgoSelected( aHypIndex, dim );
}
// get hypotheses
bool hypWithoutAlgo = false;
for ( int dim = SMESH::DIM_3D; dim >= lastDim; --dim )
{
for ( int hypType = MainHyp; hypType <= AddHyp; hypType++ )
{
// get hypotheses
existingHyps( dim, hypType, pObj, anExisting, myObjHyps[ dim ][ hypType ] );
if ( myObjHyps[ dim ][ hypType ].count() == 0 ) {
setCurrentHyp( dim, hypType, -1 );
}
for ( int i = 0, nb = myObjHyps[ dim ][ hypType ].count(); i < nb; ++i )
{
// find index of required hypothesis among existing ones for this dimension and type
int aHypIndex = find( myObjHyps[ dim ][ hypType ][ i ].first,
myExistingHyps[ dim ][ hypType ] );
if ( aHypIndex < 0 ) {
// assigned hypothesis is incompatible with the algorithm
if ( currentHyp( dim, Algo ) < 0 )
{ // none algo selected; it is edition for sure, of submesh maybe
hypWithoutAlgo = true;
myExistingHyps[ dim ][ hypType ].push_back( myObjHyps[ dim ][ hypType ][ i ] );
anExisting.push_back( myObjHyps[ dim ][ hypType ][ i ].second );
aHypIndex = myExistingHyps[ dim ][ hypType ].count() - 1;
myDlg->tab( dim )->setExistingHyps( hypType, anExisting );
}
}
setCurrentHyp( dim, hypType + i, aHypIndex );
if ( hypType == MainHyp ) break; // only one main hyp allowed
}
}
}
// make available other hyps of same type as one without algo
if ( hypWithoutAlgo )
onAlgoSelected( currentHyp( 0, Algo ), 0 );
}
//================================================================================
/*!
* \brief Gets name of object
* \param theSO - SObject
* \retval QString - name of object
*
* Gets name of object
*/
//================================================================================
QString SMESHGUI_MeshOp::name( _PTR(SObject) theSO ) const
{
QString aResName;
if ( theSO )
{
_PTR(GenericAttribute) anAttr;
_PTR(AttributeName) aNameAttr;
if ( theSO->FindAttribute( anAttr, "AttributeName" ) )
{
aNameAttr = anAttr;
aResName = aNameAttr->Value().c_str();
}
}
return aResName;
}
//================================================================================
/*!
* \brief Finds hypothesis in input list
* \param theHyp - hypothesis to be found
* \param theHypList - input list of hypotheses
* \retval int - index of hypothesis or -1 if it is not found
*
* Finds position of hypothesis in input list
*/
//================================================================================
int SMESHGUI_MeshOp::find( const SMESH::SMESH_Hypothesis_var& theHyp,
const THypList& theHypList ) const
{
int aRes = -1;
if ( !theHyp->_is_nil() )
{
int i = 0;
THypList::const_iterator anIter = theHypList.begin();
for ( ; anIter != theHypList.end(); ++ anIter)
{
if ( theHyp->_is_equivalent( (*anIter).first ) )
{
aRes = i;
break;
}
i++;
}
}
return aRes;
}
//================================================================================
/*!
* \brief Edits mesh or sub-mesh
* \param theMess - Output parameter intended for returning error message
* \retval bool - TRUE if mesh is edited successfully, FALSE otherwise
*
* Assigns new name hypotheses and algoriths to the mesh or sub-mesh
*/
//================================================================================
bool SMESHGUI_MeshOp::editMeshOrSubMesh( QString& theMess )
{
theMess = "";
SMESH::SMESH_Gen_var aSMESHGen = SMESHGUI::GetSMESHGen();
if ( aSMESHGen->_is_nil() )
return false;
QString anObjEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Obj );
_PTR(SObject) pObj = SMESH::getStudy()->FindObjectID( anObjEntry.toUtf8().data() );
if ( !pObj )
return false;
SUIT_OverrideCursor aWaitCursor;
// Set new name
QString aName = myDlg->objectText( SMESHGUI_MeshDlg::Obj );
SMESH::SetName( pObj, aName );
int aDim = ( myIsOnGeometry ) ? SMESH::DIM_0D : SMESH::DIM_2D;
// First, remove old algos in order to avoid messages on algorithm hiding
for ( int dim = aDim; dim <= SMESH::DIM_3D; dim++ )
{
if ( /*isAccessibleDim( dim ) &&*/ myObjHyps[ dim ][ Algo ].count() > 0 )
{
SMESH::SMESH_Hypothesis_var anOldAlgo = myObjHyps[ dim ][ Algo ].first().first;
SMESH::SMESH_Hypothesis_var anAlgoVar = getAlgo( dim );
if ( anAlgoVar->_is_nil() || // no new algo selected or
SMESH::toQStr(anOldAlgo->GetName()) != SMESH::toQStr(anAlgoVar->GetName())) // algo change
{
// remove old algorithm
SMESH::RemoveHypothesisOrAlgorithmOnMesh ( pObj, myObjHyps[ dim ][ Algo ].first().first );
myObjHyps[ dim ][ Algo ].clear();
}
}
}
SALOMEDS_SObject* aSObject = _CAST(SObject, pObj);
CORBA::Object_var anObject = aSObject->GetObject();
SMESH::SMESH_Mesh_var aMeshVar = SMESH::SMESH_Mesh::_narrow( anObject );
SMESH::SMESH_subMesh_var aSubMeshVar = SMESH::SMESH_subMesh::_narrow( anObject );
bool isMesh = !aMeshVar->_is_nil();
if ( !isMesh && !aSubMeshVar->_is_nil() )
aMeshVar = aSubMeshVar->GetFather();
// Assign new algorithms and hypotheses
for ( int dim = aDim; dim <= SMESH::DIM_3D; dim++ )
{
//if ( !isAccessibleDim( dim )) continue;
// find or create algorithm
SMESH::SMESH_Hypothesis_var anAlgoVar = getAlgo( dim );
// assign new algorithm
if ( !anAlgoVar->_is_nil() && // some algo selected and
myObjHyps[ dim ][ Algo ].count() == 0 ) // no algo assigned
{
if ( isMesh )
SMESH::AddHypothesisOnMesh( aMeshVar, anAlgoVar );
else if ( !aSubMeshVar->_is_nil() )
SMESH::AddHypothesisOnSubMesh( aSubMeshVar, anAlgoVar );
myObjHyps[ dim ][ Algo ].append( THypItem( anAlgoVar, aName) );
}
// remove deselected hypotheses
for ( int hypType = MainHyp; hypType <= AddHyp; hypType++ )
{
for ( int i = 0, nb = myObjHyps[ dim ][ hypType ].count(); i < nb; ++i )
{
SMESH::SMESH_Hypothesis_var hyp = myObjHyps[ dim ][ hypType ][ i ].first;
int hypIndex = this->find( hyp, myExistingHyps[ dim ][ hypType ]);
if ( !isSelectedHyp( dim, hypType, hypIndex ) && !hyp->_is_nil() )
{
SMESH::RemoveHypothesisOrAlgorithmOnMesh( pObj, hyp );
}
}
}
// assign newly selected hypotheses
for ( int dlgType = MainHyp; dlgType < nbDlgHypTypes(dim); dlgType++ )
{
const int curIndex = currentHyp( dim, dlgType );
const int hypType = Min( dlgType, AddHyp );
if ( curIndex >= 0 && curIndex < myExistingHyps[ dim ][ hypType ].count() )
{
SMESH::SMESH_Hypothesis_var hyp = myExistingHyps[ dim ][ hypType ][ curIndex ].first;
bool isAssigned = ( this->find( hyp, myObjHyps[ dim ][ hypType ]) >= 0 );
if ( !isAssigned )
{
if ( isMesh )
SMESH::AddHypothesisOnMesh (aMeshVar, hyp );
else if ( !aSubMeshVar->_is_nil() )
SMESH::AddHypothesisOnSubMesh ( aSubMeshVar, hyp );
}
}
// reread all hypotheses of mesh
QStringList anExisting;
existingHyps( dim, hypType, pObj, anExisting, myObjHyps[ dim ][ hypType ] );
}
}
myHasConcurrentSubBefore =
checkSubMeshConcurrency( aMeshVar, aSubMeshVar, /*askUser=*/!myHasConcurrentSubBefore );
return true;
}
//================================================================================
/*!
* \brief Checks if a concurrent sub-meshes appear as result of sub-mesh
* creation/edition and, if (askUser) , proposes the uses to set up a desired
* order of sub-mesh computation.
* Returns \c true if a sub-mesh concurrency detected.
*/
//================================================================================
bool SMESHGUI_MeshOp::checkSubMeshConcurrency(SMESH::SMESH_Mesh_ptr mesh,
SMESH::SMESH_subMesh_ptr submesh,
bool askUser)
{
if ( CORBA::is_nil( mesh ) || CORBA::is_nil( submesh ))
return false;
bool isNewConcurrent = mesh->IsUnorderedSubMesh( submesh->GetId() );
if ( isNewConcurrent && askUser )
{
int butID = SUIT_MessageBox::warning( myDlg->parentWidget(), tr( "SMESH_WARNING" ),
tr("CONCURRENT_SUBMESH_APPEARS"),
tr("SMESH_BUT_YES"), tr("SMESH_BUT_NO"));
if ( butID == 0 )
{
_PTR(SObject) meshSO = SMESH::FindSObject( mesh );
LightApp_SelectionMgr* aSelectionMgr = selectionMgr();
if ( meshSO && aSelectionMgr )
{
myDlg->setEnabled( false ); // disactivate selection
selectionMgr()->clearFilters();
selectObject( meshSO );
SMESHGUI::GetSMESHGUI()->OnGUIEvent( SMESHOp::OpMeshOrder ); // MESH_ORDER
qApp->processEvents();
myDlg->setEnabled( true );
int obj = myDlg->getActiveObject();
onActivateObject( obj ); // restore filter
if ( !myToCreate )
{
selectObject( SMESH::FindSObject( submesh ));
selectionDone();
}
}
}
}
return isNewConcurrent;
}
//================================================================================
/*!
* \brief Verifies whether given operator is valid for this one
* \param theOtherOp - other operation
* \return Returns TRUE if the given operator is valid for this one, FALSE otherwise
*
* method redefined from base class verifies whether given operator is valid for
* this one (i.e. can be started "above" this operator). In current implementation method
* returns false if theOtherOp operation is not intended for deleting objects or mesh
* elements.
*/
//================================================================================
bool SMESHGUI_MeshOp::isValid( SUIT_Operation* theOp ) const
{
return SMESHGUI_Operation::isValid( theOp ) && !theOp->inherits( "SMESHGUI_MeshOp" );
}
//================================================================================
/*!
* \brief SLOT. Is called when the user selects a way of geometry selection
* \param theByMesh - true if the user wants to find geometry by mesh element
*/
//================================================================================
void SMESHGUI_MeshOp::onGeomSelectionByMesh( bool theByMesh )
{
if ( theByMesh ) {
if ( !myShapeByMeshOp ) {
myShapeByMeshOp = new SMESHGUI_ShapeByMeshOp();
connect(myShapeByMeshOp, SIGNAL(committed(SUIT_Operation*)),
SLOT(onPublishShapeByMeshDlg(SUIT_Operation*)));
connect(myShapeByMeshOp, SIGNAL(aborted(SUIT_Operation*)),
SLOT(onCloseShapeByMeshDlg(SUIT_Operation*)));
}
// set mesh object to SMESHGUI_ShapeByMeshOp and start it
QString aMeshEntry = myDlg->selectedObject( SMESHGUI_MeshDlg::Mesh );
if ( _PTR(SObject) pMesh = SMESH::getStudy()->FindObjectID( aMeshEntry.toUtf8().data() )) {
SMESH::SMESH_Mesh_var aMeshVar =
SMESH::SMESH_Mesh::_narrow( _CAST( SObject,pMesh )->GetObject() );
if ( !aMeshVar->_is_nil() ) {
myDlg->hide(); // stop processing selection
myShapeByMeshOp->setModule( getSMESHGUI() );
myShapeByMeshOp->setStudy( 0 ); // it's really necessary
myShapeByMeshOp->SetMesh( aMeshVar );
myShapeByMeshOp->start();
}
}
}
}
//================================================================================
/*!
* \brief SLOT. Is called when Ok is pressed in SMESHGUI_ShapeByMeshDlg
*/
//================================================================================
void SMESHGUI_MeshOp::onPublishShapeByMeshDlg(SUIT_Operation* op)
{
if ( myShapeByMeshOp == op ) {
SMESHGUI::GetSMESHGUI()->getApp()->updateObjectBrowser(); //MZN: 24.11.2006 IPAL13980 - Object Browser update added
myDlg->show();
// Select a found geometry object
GEOM::GEOM_Object_var aGeomVar = myShapeByMeshOp->GetShape();
if ( !aGeomVar->_is_nil() )
{
QString ID = SMESH::toQStr( aGeomVar->GetStudyEntry() );
if ( _PTR(SObject) aGeomSO = SMESH::getStudy()->FindObjectID( ID.toUtf8().data() )) {
selectObject( aGeomSO );
selectionDone();
}
}
}
}
//================================================================================
/*!
* \brief SLOT. Is called when Close is pressed in SMESHGUI_ShapeByMeshDlg
*/
//================================================================================
void SMESHGUI_MeshOp::onCloseShapeByMeshDlg(SUIT_Operation* op)
{
if ( myShapeByMeshOp == op && myDlg ) {
myDlg->show();
}
}
//================================================================================
/*!
* \brief Selects a SObject
* \param theSObj - the SObject to select
*/
//================================================================================
void SMESHGUI_MeshOp::selectObject( _PTR(SObject) theSObj ) const
{
if ( LightApp_SelectionMgr* sm = selectionMgr() ) {
SALOME_ListIO anIOList;
if ( theSObj ) {
Handle(SALOME_InteractiveObject) anIO = new SALOME_InteractiveObject
( theSObj->GetID().c_str(), "SMESH", theSObj->GetName().c_str() );
anIOList.Append( anIO );
}
sm->setSelectedObjects( anIOList, false );
}
}
//================================================================================
/*!
* \brief Create available list types of mesh
* \param theTypeMesh - Output list of available types of mesh
*/
//================================================================================
void SMESHGUI_MeshOp::createMeshTypeList( QStringList& theTypeMesh)
{
theTypeMesh.clear();
theTypeMesh.append( tr( "MT_ANY" ) );
if ( myMaxShapeDim >= 2 || myMaxShapeDim == -1 )
{
theTypeMesh.append( tr( "MT_TRIANGULAR" ) );
theTypeMesh.append( tr( "MT_QUADRILATERAL" ) );
}
if ( myMaxShapeDim == 3 || myMaxShapeDim == -1 )
{
theTypeMesh.append( tr( "MT_TETRAHEDRAL" ) );
theTypeMesh.append( tr( "MT_HEXAHEDRAL" ) );
}
}
//================================================================================
/*!
* \brief Set available types of mesh
* \param theTypeMesh - List of available types of mesh
*/
//================================================================================
void SMESHGUI_MeshOp::setAvailableMeshType( const QStringList& theTypeMesh )
{
myDlg->setAvailableMeshType( theTypeMesh );
}
//================================================================================
/*!
* \brief SLOT. Is called when the user select type of mesh
* \param theTabIndex - Index of current active tab
* \param theIndex - Index of current type of mesh
*/
//================================================================================
void SMESHGUI_MeshOp::onAlgoSetByMeshType( const int theTabIndex, const int theIndex )
{
setFilteredAlgoData( theTabIndex, theIndex);
}
//================================================================================
/*!
* \brief Set a filtered list of available algorithms by mesh type
* \param theTabIndex - Index of current active tab
* \param theIndex - Index of current type of mesh
*/
//================================================================================
void SMESHGUI_MeshOp::setFilteredAlgoData( const int theTabIndex, const int theIndex )
{
QStringList anAvailableAlgs;
QString anCompareType = currentMeshTypeName( theIndex );
int anCurrentAvailableAlgo = -1;
bool isNone = true;
int aDim = SMESH::DIM_3D;
if ( theIndex == MT_TRIANGULAR || theIndex == MT_QUADRILATERAL)
aDim = SMESH::DIM_2D;
if ( anCompareType == "ANY" )
{
bool isReqDisBound = false;
int aReqDim = SMESH::DIM_3D;
for ( int dim = SMESH::DIM_3D; dim >= SMESH::DIM_2D; dim-- )
{
anCurrentAvailableAlgo = -1;
isNone = currentHyp( dim, Algo ) < 0;
//return current algo in current tab and set new algorithm list
HypothesisData* algoCur = 0;
if ( !isNone && !myAvailableHypData[dim][Algo].empty() ) {
algoCur = myAvailableHypData[dim][Algo].at( currentHyp( dim, Algo ) );
}
HypothesisData* prevAlgo = 0;
HypothesisData* nextAlgo = 0;
if ( dim == SMESH::DIM_2D ) {
prevAlgo = hypData( SMESH::DIM_1D, Algo, currentHyp( SMESH::DIM_1D, Algo ) );
if ( aDim == SMESH::DIM_3D )
nextAlgo = hypData( SMESH::DIM_3D, Algo, currentHyp( SMESH::DIM_3D, Algo ) );
}
// retrieves a list of available algorithms from resources
availableHyps( dim, Algo, anAvailableAlgs, myAvailableHypData[dim][Algo], prevAlgo, nextAlgo, anCompareType);
anCurrentAvailableAlgo = myAvailableHypData[dim][Algo].indexOf( algoCur );
myDlg->tab( dim )->setAvailableHyps( Algo, anAvailableAlgs );
setCurrentHyp( dim, Algo, anCurrentAvailableAlgo );
if ( anCurrentAvailableAlgo > -1 )
isReqDisBound = algoCur->InputTypes.isEmpty();
if ( isReqDisBound ) {
aReqDim = dim;
break;
}
}
if ( !myIsOnGeometry )
for ( int i = SMESH::DIM_0D; i <= SMESH::DIM_3D; i++ ) {
bool disable = myAvailableHypData[i][Algo].isEmpty();
if ( disable ) myDlg->disableTab( i );
else myDlg->enableTab( i );
}
else
for ( int i = SMESH::DIM_0D; i <= SMESH::DIM_3D; i++ ) {
if ( i > myMaxShapeDim || ( isReqDisBound && i < aReqDim ) ) myDlg->disableTab( i );
else myDlg->enableTab( i );
}
myDlg->setCurrentTab( theTabIndex );
}
else
{
HypothesisData* anCurrentAlgo = 0;
bool isReqDisBound = true;
QString anCurrentCompareType = anCompareType;
isNone = currentHyp( aDim, Algo ) < 0;
if ( !isNone && !myAvailableHypData[aDim][Algo].empty() )
isReqDisBound = myAvailableHypData[aDim][Algo].at( currentHyp( aDim, Algo ) )->InputTypes.isEmpty();
for ( int dim = aDim; dim >= SMESH::DIM_2D; dim-- )
{
bool isNoneAlg = currentHyp( dim, Algo ) < 0;
anCurrentAvailableAlgo = -1;
HypothesisData* prevAlgo = 0;
HypothesisData* nextAlgo = 0;
if ( dim == SMESH::DIM_2D ) {
prevAlgo = hypData( SMESH::DIM_1D, Algo, currentHyp( SMESH::DIM_1D, Algo ) );
if ( aDim == SMESH::DIM_3D )
nextAlgo = hypData( SMESH::DIM_3D, Algo, currentHyp( SMESH::DIM_3D, Algo ) );
}
// finding algorithm which is selected
if ( !isNoneAlg ) {
anCurrentAlgo = myAvailableHypData[dim][Algo].at( currentHyp( dim, Algo ) );
}
// retrieves a list of available algorithms from resources
availableHyps( dim, Algo, anAvailableAlgs, myAvailableHypData[dim][Algo], prevAlgo, nextAlgo, anCurrentCompareType );
// finding and adding algorithm depending on the type mesh
anCurrentAvailableAlgo = myAvailableHypData[dim][Algo].indexOf( anCurrentAlgo );
//set new algorithm list and select the current algorithm
myDlg->tab( dim )->setAvailableHyps( Algo, anAvailableAlgs );
anCurrentCompareType = ( anCompareType == "HEXA" || anCompareType == "QUAD" ) ? "QUAD" : "TRIA";
setCurrentHyp( dim, Algo, anCurrentAvailableAlgo, /*updateHyps=*/true );
}
for ( int i = myMaxShapeDim; i >= SMESH::DIM_0D; i-- ) {
bool isNoneAlg = currentHyp( i, Algo ) < 0;
if ( !isNoneAlg )
isReqDisBound = myAvailableHypData[i][Algo].at( currentHyp( i, Algo ) )->InputTypes.isEmpty();
else
isReqDisBound = true;
if ( isReqDisBound && !isNoneAlg && i <= aDim) {
for (int j = myMaxShapeDim; j >= SMESH::DIM_0D; j--) {
if ( currentHyp( j, Algo ) < 0 ) {
myDlg->disableTab( j );
setCurrentHyp( j , Algo, -1, /*updateHyps=*/true );
}
}
break;
}
else {
myDlg->enableTab( i );
}
}
if ( aDim == SMESH::DIM_2D) {
setCurrentHyp( SMESH::DIM_3D, Algo, -1, /*updateHyps=*/true );
myDlg->disableTab( SMESH::DIM_3D );
}
int currentTab = ( theTabIndex <= aDim ) ? theTabIndex : aDim;
myDlg->setCurrentTab( currentTab );
}
THypDataList anAvailableAlgsData;
QStringList aHypothesesSetsList = SMESH::GetHypothesesSets( aDim );
QStringList aFilteredHypothesesSetsList;
aFilteredHypothesesSetsList.clear();
QStringList::const_iterator inHypoSetName = aHypothesesSetsList.begin();
for ( ; inHypoSetName != aHypothesesSetsList.end(); ++inHypoSetName ) {
HypothesesSet* currentHypoSet = SMESH::GetHypothesesSet( *inHypoSetName );
bool isAvailable = false;
currentHypoSet->init( true );
while ( currentHypoSet->next(), currentHypoSet->more() ) {
isAvailable = false;
if ( HypothesisData* algoDataIn = SMESH::GetHypothesisData( currentHypoSet->current() )) {
for (int i = SMESH::DIM_0D; i <= myMaxShapeDim; i++) {
int anCurrentAvailableAlgo = myAvailableHypData[i][Algo].indexOf( algoDataIn );
if ( anCurrentAvailableAlgo > -1 ) {
isAvailable = true;
break;
}
}
if ( !isAvailable )
break;
}
}
if ( isAvailable )
aFilteredHypothesesSetsList.append( *inHypoSetName );
}
myDlg->setHypoSets( aFilteredHypothesesSetsList );
}
//================================================================================
/*!
* \brief Get current name types of mesh
* \param theIndex - current index types of mesh
* \retval QString - result
*/
//================================================================================
QString SMESHGUI_MeshOp::currentMeshTypeName( const int theIndex ) const
{
QString aMeshType = "";
switch ( theIndex ) {
case MT_ANY:
aMeshType = "ANY";
break;
case MT_TRIANGULAR:
aMeshType = "TRIA";
break;
case MT_QUADRILATERAL:
aMeshType = "QUAD";
break;
case MT_TETRAHEDRAL:
aMeshType = "TETRA";
break;
case MT_HEXAHEDRAL:
aMeshType = "HEXA";
break;
default:;
}
return aMeshType;
}
Reference in New Issue View Git Blame Copy Permalink