-// Copyright (C) 2007-2019 CEA/DEN, EDF R&D
+// Copyright (C) 2007-2024 CEA, EDF
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
STD_TAB = 0,
ADV_TAB,
SMP_TAB,
- ENF_TAB,
+ ENF_V_TAB,
+ ENF_M_TAB,
PERIODICITY_TAB,
HYPERPATCH_TAB,
SMP_NAME_COLUMN =0,
ENF_VER_ENTRY_COLUMN,
ENF_VER_GROUP_COLUMN,
ENF_VER_NB_COLUMNS,
-// Periodicity
+
+ // Enforced 1D meshes
+ ENF_MESH_NB_COLUMNS = 2,
+
+ // Periodicity
PERIODICITY_OBJ_SOURCE_COLUMN = 0,
PERIODICITY_OBJ_TARGET_COLUMN,
PERIODICITY_P1_SOURCE_COLUMN,
static PyMethodDef PyStdOut_methods[] = {
{"write", (PyCFunction)PyStdOut_write, METH_VARARGS,
PyDoc_STR("write(string) -> None")},
- {NULL, NULL} /* sentinel */
+ {0, 0, 0, 0} /* sentinel */
};
static PyMemberDef PyStdOut_memberlist[] = {
{(char*)"softspace", T_INT, offsetof(PyStdOut, softspace), 0,
(char*)"flag indicating that a space needs to be printed; used by print"},
- {NULL} /* Sentinel */
+ {0, 0, 0, 0, 0} /* Sentinel */
};
static PyTypeObject PyStdOut_Type = {
0, /*tp_new*/
0, /*tp_free*/
0, /*tp_is_gc*/
+ 0, /*tp_bases*/
+ 0, /*tp_mro*/
+ 0, /*tp_cache*/
+ 0, /*tp_subclasses*/
+ 0, /*tp_weaklist*/
+ 0, /*tp_del*/
+ 0, /*tp_version_tag*/
+ 0, /*tp_finalize*/
};
PyObject * newPyStdOut( std::string& out )
}
QWidget *EnforcedTreeWidgetDelegate::createEditor(QWidget *parent,
- const QStyleOptionViewItem & option ,
+ const QStyleOptionViewItem & /*option*/ ,
const QModelIndex & index ) const
{
QModelIndex father = index.parent();
}
}
}
- if ( !ok )
- {
- h->SetOptionValues( myOptions ); // restore values
- h->SetPreCADOptionValues( myPreCADOptions ); // restore values
- return ok;
- }
// SizeMap and attractors
if ( ok )
try {
e = entry.toStdString();
s = that->mySMPMap[entry].toStdString();
- h->SetSizeMapEntry( e.c_str(), s.c_str() );
+ //h->SetSizeMapEntry( e.c_str(), s.c_str() );
}
catch ( const SALOME::SALOME_Exception& ex )
{
msg = tr("ZERO_VALUE_OF").arg( tr("BLSURF_CHORDAL_ERROR"));
}
+ // #16954 EDF 19466 - localsize
+ // Warn the user if local size is less than Min Size
+ if ( ok &&
+ !myStdWidget->myMinSizeRel->isChecked() &&
+ !myStdWidget->myMinSize->text().isEmpty() )
+ {
+ const double minSize = myStdWidget->myMinSize->GetValue();
+ bool isValue;
+ for ( QMapIterator<QString,QString> i( mySMPMap ); i.hasNext() && ok ; )
+ {
+ i.next();
+ double size = i.value().toDouble( &isValue );
+ ok = ( !isValue || size >= minSize );
+ }
+ for ( QMapIterator<QString, TAttractorVec > i( myATTMap ); i.hasNext() && ok ; )
+ {
+ i.next();
+ const TAttractorVec& attVec = i.value();
+ for ( size_t i = 0; i < attVec.size(); ++i )
+ ok = ( attVec[i].IsToDelete() || attVec[i].startSize >= minSize );
+ }
+ if ( !ok )
+ msg = tr( "TOO_SMALL_LOCAL_SIZE" );
+ }
+ // Warn the user if local size is more than User Size
+ if ( ok &&
+ !myStdWidget->myPhySizeRel->isChecked() &&
+ !myStdWidget->myPhySize->text().isEmpty() )
+ {
+ const double userSize = myStdWidget->myPhySize->GetValue();
+ bool isValue;
+ for ( QMapIterator<QString,QString> i( mySMPMap ); i.hasNext() && ok ; )
+ {
+ i.next();
+ double size = i.value().toDouble( &isValue );
+ ok = ( !isValue || size <= userSize );
+ }
+ for ( QMapIterator<QString, TAttractorVec > i( myATTMap ); i.hasNext() && ok ; )
+ {
+ i.next();
+ const TAttractorVec& attVec = i.value();
+ for ( size_t i = 0; i < attVec.size(); ++i )
+ ok = ( attVec[i].IsToDelete() || attVec[i].startSize <= userSize );
+ }
+ if ( !ok )
+ msg = tr( "TOO_LARGE_LOCAL_SIZE" );
+ }
+
// Enforced vertices
// TODO
+ if ( !ok )
+ {
+ h->SetOptionValues( myOptions ); // restore values
+ h->SetPreCADOptionValues( myPreCADOptions ); // restore values
+ }
+
return ok;
}
lay->addWidget( myTabWidget );
myName = 0;
-
+
// basic parameters
myStdGroup = new QWidget();
QGridLayout* aStdLayout = new QGridLayout( myStdGroup );
aStdLayout->setSpacing( 6 );
aStdLayout->setMargin( 11 );
-
+
if( isCreation() )
myName = new QLineEdit( myStdGroup );
myStdWidget = new BLSURFPluginGUI_StdWidget(myStdGroup);
if ( !hasGeom() ) {
myStdWidget->myPhysicalMesh->removeItem( PhysicalLocalSize );
}
-
+
int row = 0;
if( isCreation() ) {
aStdLayout->addWidget( new QLabel( tr( "SMESH_NAME" ), myStdGroup ), 0, 0, 1, 1 );
aStdLayout->addWidget( myName, row++, 1, 1, 3 );
}
aStdLayout->addWidget( myStdWidget, row++, 0, 1, 4 );
-
+
row = 0;
if( isCreation() )
row = 1;
aStdLayout->setRowStretch(row,1);
aStdLayout->setColumnStretch(1,1);
-
+
// advanced parameters
myAdvGroup = new QWidget();
QGridLayout* anAdvLayout = new QGridLayout( myAdvGroup );
anAdvLayout->setSpacing( 6 );
- anAdvLayout->setMargin( 11 );
+ anAdvLayout->setMargin( 11 );
myAdvWidget = new BLSURFPluginGUI_AdvWidget(myAdvGroup);
anAdvLayout->addWidget( myAdvWidget );
//Layout
QGridLayout* anSmpLayout = new QGridLayout(mySmpGroup);
-
+
// Table
mySizeMapTable = new QTreeWidget( mySmpGroup );
mySizeMapTable ->setMinimumWidth(200);
myEnforcedTreeWidget->setSelectionMode(QAbstractItemView::ExtendedSelection);
myEnforcedTreeWidget->setSelectionBehavior(QAbstractItemView::SelectItems);
for (int column = 0; column < ENF_VER_NB_COLUMNS; ++column) {
-#if QT_VERSION < QT_VERSION_CHECK(5, 0, 0)
- myEnforcedTreeWidget->header()->setResizeMode(column,QHeaderView::Interactive);
-#else
myEnforcedTreeWidget->header()->setSectionResizeMode(column,QHeaderView::Interactive);
-#endif
myEnforcedTreeWidget->resizeColumnToContents(column);
}
myEnforcedTreeWidget->hideColumn(ENF_VER_FACE_ENTRY_COLUMN);
anEnfLayout->addWidget(myEnforcedTreeWidget, 0, 0, ENF_VER_NB_LINES, 1);
QGridLayout* anEnfLayout2 = new QGridLayout(myEnfGroup);
-// FACE AND VERTEX SELECTION
+ // FACE AND VERTEX SELECTION
//anEnfLayout2->addWidget(myEnfFaceWdg, ENF_VER_FACE, 0, 1, 2);
anEnfLayout2->addWidget(myEnfVertexWdg, ENF_VER_VERTEX, 0, 1, 2);
anEnfLayout2->addWidget(myXCoordLabel, ENF_VER_X_COORD, 0, 1, 1);
anEnfLayout2->setRowStretch(ENF_VER_NB_LINES+1, 1);
anEnfLayout->addLayout(anEnfLayout2, 0,1,ENF_VER_NB_LINES+1,2);
+ // ---------------------------
+ // Enforced meshes parameters
+ // ---------------------------
+
+ myEnfMeshGroup = new QWidget();
+ QGridLayout* anEnfMeshLayout = new QGridLayout(myEnfMeshGroup);
+
+ myEnfMeshTableWdg = new QTableWidget(myEnfGroup);
+ //myEnfMeshTableWdg->setRowCount( 0 );
+ myEnfMeshTableWdg->setColumnCount( ENF_MESH_NB_COLUMNS );
+ myEnfMeshTableWdg->setSortingEnabled(true);
+ myEnfMeshTableWdg->verticalHeader()->hide();
+ myEnfMeshTableWdg->setHorizontalHeaderLabels( QStringList()
+ << tr( "ENF_NAME_COLUMN" )
+ << tr( "ENF_GROUP_COLUMN" ));
+ myEnfMeshTableWdg->horizontalHeader()->setStretchLastSection(true);
+ myEnfMeshTableWdg->horizontalHeader()->setSectionResizeMode(QHeaderView::Interactive);
+ myEnfMeshTableWdg->setAlternatingRowColors(true);
+ myEnfMeshTableWdg->setSelectionMode(QAbstractItemView::ExtendedSelection);
+ myEnfMeshTableWdg->setSelectionBehavior(QAbstractItemView::SelectItems);
+ myEnfMeshTableWdg->resizeColumnsToContents();
+ //myEnfMeshTableWdg->setItemDelegate(new EnforcedMeshTableWidgetDelegate());
+
+ myEnfMeshWdg = new StdMeshersGUI_ObjectReferenceParamWdg( SMESH::IDSOURCE_EDGE, myEnfMeshGroup, /*multiSel=*/false);
+ myEnfMeshWdg->SetDefaultText(tr("ENF_SELECT_MESH"), "QLineEdit { color: grey }");
+
+ myEnfMeshWdg->AvoidSimultaneousSelection(myEnfVertexWdg);
+ myEnfMeshWdg->AvoidSimultaneousSelection(myGeomSelWdg1);
+ myEnfMeshWdg->AvoidSimultaneousSelection(myGeomSelWdg2);
+ myEnfMeshWdg->AvoidSimultaneousSelection(myAttSelWdg);
+
+ QLabel* enforcedGroupNameLabel = new QLabel( tr( "ENF_GROUP_LABEL" ), myEnfMeshGroup );
+ myEnforcedGroupName = new QLineEdit(myEnfMeshGroup);
+
+ myAddEnfMeshButton = new QPushButton(tr("ENF_ADD"),myEnfMeshGroup);
+ myRemoveEnfMeshButton = new QPushButton(tr("ENF_REMOVE"),myEnfMeshGroup);
+
+ QGridLayout* anEnfMeshLayout2 = new QGridLayout(myEnfMeshGroup);
+ anEnfMeshLayout2->addWidget(myEnfMeshWdg, 0, 0, 1, 2);
+ anEnfMeshLayout2->addWidget(enforcedGroupNameLabel, 1, 0, 1, 1);
+ anEnfMeshLayout2->addWidget(myEnforcedGroupName, 1, 1, 1, 1);
+ anEnfMeshLayout2->addWidget(myAddEnfMeshButton, 2, 0, 1, 2);
+ anEnfMeshLayout2->addWidget(myRemoveEnfMeshButton, 3, 0, 1, 2);
+ anEnfMeshLayout2->setRowStretch( 4, 1 );
+
+ anEnfMeshLayout->addWidget(myEnfMeshTableWdg, 0, 0, 5, 1);
+ anEnfMeshLayout->addLayout(anEnfMeshLayout2, 0, 1, 1, 1);
+ anEnfMeshLayout->setRowStretch( 2, 1 );
+
+
// ---
// Periodicity parameters
myPeriodicityGroup = new QWidget( dlg() );
myPeriodicityTreeWidget->setSelectionMode(QAbstractItemView::ExtendedSelection);
myPeriodicityTreeWidget->setSelectionBehavior(QAbstractItemView::SelectRows);
- size_t periodicityVisibleColumns = 2;
- for (size_t column = 0; column < periodicityVisibleColumns; ++column) {
-#if QT_VERSION < QT_VERSION_CHECK(5, 0, 0)
- myPeriodicityTreeWidget->header()->setResizeMode(column,QHeaderView::Interactive);
-#else
+ int periodicityVisibleColumns = 2;
+ for (int column = 0; column < periodicityVisibleColumns; ++column) {
myPeriodicityTreeWidget->header()->setSectionResizeMode(column,QHeaderView::Interactive);
-#endif
myPeriodicityTreeWidget->resizeColumnToContents(column);
}
myPeriodicityTreeWidget->header()->setStretchLastSection(true);
myTabWidget->insertTab( ADV_TAB, myAdvGroup, tr( "BLSURF_ADV_ARGS" ) );
if ( hasGeom() ) {
myTabWidget->insertTab( SMP_TAB, mySmpGroup, tr( "LOCAL_SIZE" ) );
- myTabWidget->insertTab( ENF_TAB, myEnfGroup, tr( "BLSURF_ENF_VER" ) );
+ myTabWidget->insertTab( ENF_V_TAB, myEnfGroup, tr( "BLSURF_ENF_VER" ) );
+ myTabWidget->insertTab( ENF_M_TAB, myEnfMeshGroup, tr( "ENF_MESH" ) );
myTabWidget->insertTab( PERIODICITY_TAB, myPeriodicityGroup, tr( "BLSURF_PERIODICITY" ) );
myTabWidget->insertTab( HYPERPATCH_TAB, hpGroup, tr( "BLSURF_HYPERPATCH_TAB" ));
}
{
mySmpGroup->hide();
myEnfGroup->hide();
+ myEnfMeshGroup->hide();
myPeriodicityGroup->hide();
hpGroup->hide();
}
myTabWidget->setCurrentIndex( STD_TAB );
- connect( myAdvWidget->addBtn, SIGNAL( clicked() ), this, SLOT( onAddOption() ) );
+ connect( myAdvWidget->addBtn, SIGNAL( clicked() ), SLOT( onAddOption() ) );
// Size Maps
- connect( addMapButton, SIGNAL( clicked()), this, SLOT( onAddMap() ) );
- connect( removeMapButton, SIGNAL( clicked()), this, SLOT( onRemoveMap() ) );
- connect( modifyMapButton, SIGNAL( clicked()), this, SLOT( onModifyMap() ) );
- connect( mySizeMapTable, SIGNAL( itemClicked (QTreeWidgetItem *, int)),this, SLOT( onSmpItemClicked(QTreeWidgetItem *, int) ) );
- connect( myGeomSelWdg2, SIGNAL( contentModified() ), this, SLOT( onMapGeomContentModified() ) );
- connect( myGeomSelWdg1, SIGNAL( contentModified() ), this, SLOT( onMapGeomContentModified() ) );
- connect( myAttSelWdg, SIGNAL( contentModified() ), this, SLOT( onMapGeomContentModified() ) );
- connect( mySizeMapTable, SIGNAL( itemChanged (QTreeWidgetItem *, int)),this, SLOT( onSetSizeMap(QTreeWidgetItem *, int) ) );
- connect( myAttractorCheck, SIGNAL( stateChanged ( int )), this, SLOT( onAttractorClicked( int ) ) );
- connect( myConstSizeCheck, SIGNAL( stateChanged ( int )), this, SLOT( onConstSizeClicked( int ) ) );
- connect( smpTab, SIGNAL( currentChanged ( int )), this, SLOT( onTabChanged( int ) ) );
- connect( myTabWidget, SIGNAL( currentChanged ( int )), this, SLOT( onTabChanged( int ) ) );
+ connect( addMapButton, SIGNAL( clicked()), SLOT( onAddMap() ) );
+ connect( removeMapButton, SIGNAL( clicked()), SLOT( onRemoveMap() ) );
+ connect( modifyMapButton, SIGNAL( clicked()), SLOT( onModifyMap() ) );
+ connect( mySizeMapTable, SIGNAL( itemClicked (QTreeWidgetItem *, int)), SLOT( onSmpItemClicked(QTreeWidgetItem *, int) ) );
+ connect( myGeomSelWdg2, SIGNAL( contentModified() ), SLOT( onMapGeomContentModified() ) );
+ connect( myGeomSelWdg1, SIGNAL( contentModified() ), SLOT( onMapGeomContentModified() ) );
+ connect( myAttSelWdg, SIGNAL( contentModified() ), SLOT( onMapGeomContentModified() ) );
+ connect( mySizeMapTable, SIGNAL( itemChanged (QTreeWidgetItem *, int)), SLOT( onSetSizeMap(QTreeWidgetItem *, int) ) );
+ connect( myAttractorCheck, SIGNAL( stateChanged ( int )), SLOT( onAttractorClicked( int ) ) );
+ connect( myConstSizeCheck, SIGNAL( stateChanged ( int )), SLOT( onConstSizeClicked( int ) ) );
+ connect( smpTab, SIGNAL( currentChanged ( int )), SLOT( onTabChanged( int ) ) );
+ connect( myTabWidget, SIGNAL( currentChanged ( int )), SLOT( onTabChanged( int ) ) );
// Enforced vertices
- connect( myEnforcedTreeWidget,SIGNAL( itemClicked(QTreeWidgetItem *, int)), this, SLOT( synchronizeCoords() ) );
- connect( myEnforcedTreeWidget,SIGNAL( itemChanged(QTreeWidgetItem *, int)), this, SLOT( updateEnforcedVertexValues(QTreeWidgetItem *, int) ) );
- connect( myEnforcedTreeWidget,SIGNAL( itemSelectionChanged() ), this, SLOT( synchronizeCoords() ) );
- connect( addVertexButton, SIGNAL( clicked()), this, SLOT( onAddEnforcedVertices() ) );
- connect( removeVertexButton, SIGNAL( clicked()), this, SLOT( onRemoveEnforcedVertex() ) );
- connect( myEnfVertexWdg, SIGNAL( contentModified()), this, SLOT( onSelectEnforcedVertex() ) );
- connect( myInternalEnforcedVerticesAllFaces, SIGNAL( stateChanged ( int )), this, SLOT( onInternalVerticesClicked( int ) ) );
+ connect( myEnforcedTreeWidget,SIGNAL( itemClicked(QTreeWidgetItem *, int)), SLOT( synchronizeCoords() ) );
+ connect( myEnforcedTreeWidget,SIGNAL( itemChanged(QTreeWidgetItem *, int)), SLOT( updateEnforcedVertexValues(QTreeWidgetItem *, int) ) );
+ connect( myEnforcedTreeWidget,SIGNAL( itemSelectionChanged() ), SLOT( synchronizeCoords() ) );
+ connect( addVertexButton, SIGNAL( clicked()), SLOT( onAddEnforcedVertices() ) );
+ connect( removeVertexButton, SIGNAL( clicked()), SLOT( onRemoveEnforcedVertex() ) );
+ connect( myEnfVertexWdg, SIGNAL( contentModified()), SLOT( onSelectEnforcedVertex() ) );
+ connect( myInternalEnforcedVerticesAllFaces, SIGNAL( stateChanged ( int )), SLOT( onInternalVerticesClicked( int ) ) );
+
+ // Enforced mesh
+ connect( myAddEnfMeshButton, SIGNAL( clicked()), SLOT( onAddEnforcedMesh()));
+ connect( myRemoveEnfMeshButton, SIGNAL( clicked()), SLOT( onRemoveEnforcedMesh()));
+ connect( myEnfMeshWdg, SIGNAL( contentModified()), SLOT( onEnforcedMeshSelected()));
+ connect( myEnfMeshTableWdg, SIGNAL( itemSelectionChanged()), SLOT( onEnfMeshTableSelected()));
+
// Periodicity
- connect( myPeriodicityAddButton, SIGNAL( clicked()), this, SLOT( onAddPeriodicity() ) );
- connect( myPeriodicityRemoveButton, SIGNAL( clicked()), this, SLOT( onRemovePeriodicity() ) );
- connect( myPeriodicityTreeWidget, SIGNAL( itemClicked(QTreeWidgetItem*, int)), this, SLOT( onPeriodicityTreeClicked(QTreeWidgetItem *, int) ) );
- connect( myPeriodicityGroupBox2, SIGNAL(toggled(bool)), this, SLOT(onPeriodicityByVerticesChecked(bool)));
+ connect( myPeriodicityAddButton, SIGNAL( clicked()), SLOT( onAddPeriodicity() ) );
+ connect( myPeriodicityRemoveButton, SIGNAL( clicked()), SLOT( onRemovePeriodicity() ) );
+ connect( myPeriodicityTreeWidget, SIGNAL( itemClicked(QTreeWidgetItem*, int)), SLOT( onPeriodicityTreeClicked(QTreeWidgetItem *, int) ) );
+ connect( myPeriodicityGroupBox2, SIGNAL(toggled(bool)), SLOT(onPeriodicityByVerticesChecked(bool)));
ListOfWidgets::const_iterator anIt = myPeriodicitySelectionWidgets.begin();
for (; anIt != myPeriodicitySelectionWidgets.end(); anIt++)
{
StdMeshersGUI_ObjectReferenceParamWdg * w1 = ( StdMeshersGUI_ObjectReferenceParamWdg* ) ( *anIt );
- connect( w1, SIGNAL(contentModified ()), this, SLOT(onPeriodicityContentModified()));
+ connect( w1, SIGNAL( contentModified ()), SLOT( onPeriodicityContentModified() ));
}
This method updates the tooltip of a modified item. The QLineEdit widgets content
is synchronized with the coordinates of the enforced vertex clicked in the tree widget.
*/
-void BLSURFPluginGUI_HypothesisCreator::updateEnforcedVertexValues(QTreeWidgetItem* item, int column) {
+void BLSURFPluginGUI_HypothesisCreator::updateEnforcedVertexValues(QTreeWidgetItem* item, int /*column*/)
+{
QVariant vertexName = item->data(ENF_VER_NAME_COLUMN, Qt::EditRole);
QVariant x = item->data(ENF_VER_X_COLUMN, Qt::EditRole);
QVariant y = item->data(ENF_VER_Y_COLUMN, Qt::EditRole);
}
}
-void BLSURFPluginGUI_HypothesisCreator::onSelectEnforcedVertex() {
- int nbSelEnfVertex = myEnfVertexWdg->NbObjects();
+void BLSURFPluginGUI_HypothesisCreator::onSelectEnforcedVertex()
+{
+ size_t nbSelEnfVertex = myEnfVertexWdg->NbObjects();
clearEnforcedVertexWidgets();
if (nbSelEnfVertex == 1)
{
This method synchronizes the QLineEdit/SMESHGUI_SpinBox widgets content with the coordinates
of the enforced vertex clicked in the tree widget.
*/
-void BLSURFPluginGUI_HypothesisCreator::synchronizeCoords() {
+void BLSURFPluginGUI_HypothesisCreator::synchronizeCoords()
+{
clearEnforcedVertexWidgets();
QList<QTreeWidgetItem *> items = myEnforcedTreeWidget->selectedItems();
if (! items.isEmpty() && items.size() == 1) {
/** BLSURFPluginGUI_HypothesisCreator::addEnforcedFace(entry, shapeName, useInternalVertices)
This method adds a face containing enforced vertices in the tree widget.
*/
-QTreeWidgetItem* BLSURFPluginGUI_HypothesisCreator::addEnforcedFace(std::string theFaceEntry, std::string theFaceName) {
+QTreeWidgetItem* BLSURFPluginGUI_HypothesisCreator::addEnforcedFace(std::string theFaceEntry, std::string theFaceName)
+{
// Find theFaceEntry item
QList<QTreeWidgetItem* > theItemList = myEnforcedTreeWidget->findItems(QString(theFaceEntry.c_str()),Qt::MatchExactly,ENF_VER_FACE_ENTRY_COLUMN);
QTreeWidgetItem* theItem;
myEnforcedTreeWidget->resizeColumnToContents(column);
// Vertex selection
- int selEnfVertex = myEnfVertexWdg->NbObjects();
+ size_t selEnfVertex = myEnfVertexWdg->NbObjects();
bool coordsEmpty = (myXCoord->text().isEmpty()) || (myYCoord->text().isEmpty()) || (myZCoord->text().isEmpty());
if ((selEnfVertex == 0) && coordsEmpty)
CORBA::Double x,y,z;
x = y = z = 0.;
- for (int j = 0 ; j < selEnfVertex ; j++)
+ for (size_t j = 0 ; j < selEnfVertex ; j++)
{
myEnfVertex = myEnfVertexWdg->GetObject< GEOM::GEOM_Object >(j);
if (myEnfVertex->GetShapeType() == GEOM::VERTEX) {
/** BLSURFPluginGUI_HypothesisCreator::onRemoveEnforcedVertex()
This method is called when a item is removed from the enforced vertices tree widget
*/
-void BLSURFPluginGUI_HypothesisCreator::onRemoveEnforcedVertex() {
+void BLSURFPluginGUI_HypothesisCreator::onRemoveEnforcedVertex()
+{
QList<QTreeWidgetItem *> selectedItems = myEnforcedTreeWidget->selectedItems();
QList<QTreeWidgetItem *> selectedVertices;
QSet<QTreeWidgetItem *> selectedEntries;
/** BLSURFPluginGUI_HypothesisCreator::onAddPeriodicity()
This method is called when a item is added into the periodicity table widget
*/
-void BLSURFPluginGUI_HypothesisCreator::onAddPeriodicity() {
-
+void BLSURFPluginGUI_HypothesisCreator::onAddPeriodicity()
+{
BLSURFPluginGUI_HypothesisCreator* that = (BLSURFPluginGUI_HypothesisCreator*)this;
that->getGeomSelectionTool()->selectionMgr()->clearFilters();
// Source-Target selection
- int selSource = myPeriodicitySourceFaceWdg->NbObjects();
- int selTarget = myPeriodicityTargetFaceWdg->NbObjects();
+ size_t selSource = myPeriodicitySourceFaceWdg->NbObjects();
+ size_t selTarget = myPeriodicityTargetFaceWdg->NbObjects();
if (selSource == 0 || selTarget == 0)
return;
// Vertices selection
if (myPeriodicityGroupBox2->isChecked())
{
- int P1Ssel = myPeriodicityP1SourceWdg->NbObjects();
- int P2Ssel = myPeriodicityP2SourceWdg->NbObjects();
- int P3Ssel = myPeriodicityP3SourceWdg->NbObjects();
- int P1Tsel = myPeriodicityP1TargetWdg->NbObjects();
- //int P2Tsel = myPeriodicityP2TargetWdg->NbObjects();
- int P3Tsel = myPeriodicityP3TargetWdg->NbObjects();
+ size_t P1Ssel = myPeriodicityP1SourceWdg->NbObjects();
+ size_t P2Ssel = myPeriodicityP2SourceWdg->NbObjects();
+ size_t P3Ssel = myPeriodicityP3SourceWdg->NbObjects();
+ size_t P1Tsel = myPeriodicityP1TargetWdg->NbObjects();
+ //size_t P2Tsel = myPeriodicityP2TargetWdg->NbObjects();
+ size_t P3Tsel = myPeriodicityP3TargetWdg->NbObjects();
if (P1Ssel!=1 || P2Ssel!=1 || P3Ssel!=1 || P1Tsel!=1 || P3Tsel!=1 || P3Tsel!=1)
{
item->setFlags( Qt::ItemIsSelectable |Qt::ItemIsEnabled );
- size_t k=0;
+ int k=0;
for (anIt = myPeriodicitySelectionWidgets.begin(); anIt != myPeriodicitySelectionWidgets.end(); anIt++, k++)
{
StdMeshersGUI_ObjectReferenceParamWdg * w1 = ( StdMeshersGUI_ObjectReferenceParamWdg* ) ( *anIt );
/** BLSURFPluginGUI_HypothesisCreator::onRemovePeriodicity()
This method is called when a item is removed from the periodicity tree widget
*/
-void BLSURFPluginGUI_HypothesisCreator::onRemovePeriodicity() {
+void BLSURFPluginGUI_HypothesisCreator::onRemovePeriodicity()
+{
QList<QTreeWidgetItem *> selectedItems = myPeriodicityTreeWidget->selectedItems();
QTreeWidgetItem* item;
// }
//}
-void BLSURFPluginGUI_HypothesisCreator::onPeriodicityTreeClicked(QTreeWidgetItem* item, int row)
+void BLSURFPluginGUI_HypothesisCreator::onPeriodicityTreeClicked(QTreeWidgetItem* item, int /*row*/)
{
QString shapeName, shapeEntry;
CORBA::Object_var shape;
- size_t k=0;
+ int k=0;
ListOfWidgets::const_iterator anIt = myPeriodicitySelectionWidgets.begin();
for (; anIt != myPeriodicitySelectionWidgets.end(); anIt++, k++)
{
/** BLSURFPluginGUI_HypothesisCreator::retrieveParams()
-This method updates the GUI widgets with the hypothesis data
+ This method updates the GUI widgets with the hypothesis data
*/
void BLSURFPluginGUI_HypothesisCreator::retrieveParams() const
{
myStdWidget->myVolumeGradation->setText("");
else
myStdWidget->myVolumeGradation->SetValue( data.myVolumeGradation );
-
+
foreach (QAbstractButton* button, myStdWidget->myButtonGroupElementType->buttons()) {
if (myStdWidget->myButtonGroupElementType->id(button) == data.myElementType) {
button->setChecked(true);
}
}
+ myStdWidget->myUseSurfaceProximity->setChecked( data.myUseSurfaceProximity );
+ myStdWidget->myNbSurfaceProximityLayers->setValue( data.myNbSurfaceProximityLayers );
+ myStdWidget->mySurfaceProximityRatio->SetValue( data.mySurfaceProximityRatio );
+ myStdWidget->myUseVolumeProximity->setChecked( data.myUseVolumeProximity );
+ myStdWidget->myNbVolumeProximityLayers->setValue( data.myNbVolumeProximityLayers );
+ myStdWidget->myVolumeProximityRatio->SetValue( data.myVolumeProximityRatio );
+ if ( !data.myUseSurfaceProximity )
+ {
+ //myStdWidget->myNbSurfaceProximityLayers->setText("");
+ myStdWidget->mySurfaceProximityRatio->setText("");
+ }
+ if ( !data.myUseVolumeProximity )
+ {
+ //myStdWidget->myNbVolumeProximityLayers->setText("");
+ myStdWidget->myVolumeProximityRatio->setText("");
+ }
+
if (data.myAngleMesh < 0)
myStdWidget->myAngleMesh->setText("");
else
{
string shapeEntry = periodicity_i[k];
string shapeName = myGeomToolSelected->getNameFromEntry(shapeEntry);
- item->setData(k, Qt::EditRole, shapeName.c_str() );
- item->setData(k, Qt::UserRole, shapeEntry.c_str() );
+ item->setData((int) k, Qt::EditRole, shapeName.c_str() );
+ item->setData((int) k, Qt::UserRole, shapeEntry.c_str() );
}
}
// Hyper patches
- for ( int i = 0; i < data.hyperpatches.size(); ++i )
- that->addHyPatchToTable( data.hyperpatches[i] );
+ QString patchEntries;
+ for ( int i = 0; i < data.hyperpatches.size(); ++i )
+ {
+ if ( i < data.hyperEntries.size() )
+ patchEntries = data.hyperEntries[i];
+ that->addHyPatchToTable( data.hyperpatches[i], patchEntries );
+ }
// update widgets
that->myStdWidget->onPhysicalMeshChanged();
that->myStdWidget->onGeometricMeshChanged();
that->onStateChange();
+
+ // Enforced mesh
+
+ BLSURFPlugin::BLSURFPlugin_Hypothesis_var h =
+ BLSURFPlugin::BLSURFPlugin_Hypothesis::_narrow( initParamsHypothesis() );
+
+ BLSURFPlugin::EnforcedMeshesList_var enfMeshes = h->GetEnforcedMeshes();
+ for ( CORBA::ULong i = 0; i < enfMeshes->length(); ++i )
+ {
+ BLSURFPlugin::MG_EnforcedMesh1D & enfMesh = enfMeshes[i];
+ that->addEnforcedMesh( enfMesh.mesh.in(), enfMesh.groupName.in() );
+ }
}
/** BLSURFPluginGUI_HypothesisCreator::storeParams()
h_data.myTinyEdgeOptimisLength = myTinyEdgeOptimisLength > 0 ? myTinyEdgeOptimisLength : -1.0;
h_data.myCorrectSurfaceIntersection = h->GetCorrectSurfaceIntersection();
double corrSurfaceIntersMaxCost = h->GetCorrectSurfaceIntersectionMaxCost();
- h_data.myCorrectSurfaceIntersectionMaxCost = corrSurfaceIntersMaxCost > 0 ? corrSurfaceIntersMaxCost : -1.0;
+ h_data.myCorrectSurfaceIntersectionMaxCost = corrSurfaceIntersMaxCost > 0 ? corrSurfaceIntersMaxCost : -1.0;
h_data.myForceBadElementRemoval = h->GetBadElementRemoval();
double myBadElementAspectRatio = h->GetBadElementAspectRatio();
h_data.myBadElementAspectRatio = myBadElementAspectRatio > 0 ? myBadElementAspectRatio : -1.0;
//h_data.myPreCADMergeEdges = h->GetPreCADMergeEdges();
// h_data.myPreCADProcess3DTopology = h->GetPreCADProcess3DTopology();
// h_data.myPreCADDiscardInput = h->GetPreCADDiscardInput();
-
+ h_data.myUseSurfaceProximity = h->GetSurfaceProximity ();
+ h_data.myNbSurfaceProximityLayers = h->GetNbSurfaceProximityLayers();
+ h_data.mySurfaceProximityRatio = h->GetSurfaceProximityRatio ();
+ h_data.myUseVolumeProximity = h->GetVolumeProximity ();
+ h_data.myNbVolumeProximityLayers = h->GetNbVolumeProximityLayers ();
+ h_data.myVolumeProximityRatio = h->GetVolumeProximityRatio ();
BLSURFPluginGUI_HypothesisCreator* that = (BLSURFPluginGUI_HypothesisCreator*)this;
that->myOptions = h->GetOptionValues();
fullSizeMapList = fullSizeMaps.split( "|", QString::KeepEmptyParts );
if ( fullSizeMapList.count() > 1 ) {
string fullSizeMap = fullSizeMapList[1].toStdString();
- int pos = fullSizeMap.find("return")+7;
+ size_t pos = fullSizeMap.find("return")+7;
QString sizeMap;
try {
sizeMap = QString::fromStdString(fullSizeMap.substr(pos, fullSizeMap.size()-pos));
// Hyper Patches
+ GEOM::GEOM_Object_var geom = myHyPatchFaceSelector->GetGeomObjectByEntry( getMainShapeEntry() );
+ if ( geom->_is_nil() )
+ geom = myHyPatchFaceSelector->GetGeomObjectByEntry( getShapeEntry() );
+
h_data.hyperpatches.clear();
- BLSURFPlugin::THyperPatchList_var patchList = h->GetHyperPatches();
+ h_data.hyperEntries.clear();
+ BLSURFPlugin::THyperPatchList_var patchList = h->GetHyperPatches( geom );
+ BLSURFPlugin::THyperPatchEntriesList_var patchEntriesList = h->GetHyperPatchShapes();
for ( CORBA::ULong i = 0; i < patchList->length(); ++i )
{
QString tags;
tags += QString::number( patch[j] ) + " ";
if ( !tags.isEmpty() )
h_data.hyperpatches.append( tags );
+
+ if ( patchEntriesList->length() == patchList->length() )
+ {
+ QString entries;
+ BLSURFPlugin::THyperPatchEntries& patchEntries = patchEntriesList[i];
+ for ( CORBA::ULong j = 0; j < patchEntries.length(); ++j )
+ entries += patchEntries[j].in() + QString(" ");
+ if ( !entries.isEmpty() )
+ h_data.hyperEntries.append( entries );
+ }
}
+ if ( h_data.hyperpatches.size() != h_data.hyperEntries.size() )
+ h_data.hyperEntries.clear();
return true;
}
BLSURFPlugin::TPeriodicityList_var preCadFacePeriodicityVector, bool onFace) const
{
- for (size_t i=0; i<preCadFacePeriodicityVector->length(); i++ )
+ for (CORBA::ULong i=0; i<preCadFacePeriodicityVector->length(); i++ )
{
TPreCadPeriodicity periodicity_i(PERIODICITY_NB_COLUMN);
periodicity_i[PERIODICITY_OBJ_SOURCE_COLUMN] = preCadFacePeriodicityVector[i].shape1Entry.in();
if ( h->GetVolumeGradation() != h_data.myVolumeGradation )
h->SetVolumeGradation( h_data.myVolumeGradation <= 0 ? -1 : h_data.myVolumeGradation );
+ h->SetSurfaceProximity ((CORBA::Short) h_data.myUseSurfaceProximity );
+ h->SetNbSurfaceProximityLayers((CORBA::Short) h_data.myNbSurfaceProximityLayers );
+ h->SetSurfaceProximityRatio ( h_data.mySurfaceProximityRatio );
+ h->SetVolumeProximity ((CORBA::Short) h_data.myUseVolumeProximity );
+ h->SetNbVolumeProximityLayers ((CORBA::Short) h_data.myNbVolumeProximityLayers );
+ h->SetVolumeProximityRatio ( h_data.myVolumeProximityRatio );
+
if ( h->GetElementType() != h_data.myElementType )
h->SetElementType( h_data.myElementType );
-
+
if ( (int) h_data.myGeometricMesh != DefaultGeom ) {
if ( h->GetAngleMesh() != h_data.myAngleMesh )
h->SetAngleMesh( h_data.myAngleMesh <= 0 ? -1 :h_data.myAngleMesh );
if ( h->GetChordalError() != h_data.myChordalError )
h->SetChordalError( h_data.myChordalError <= 0 ? -1 :h_data.myChordalError );
}
-
+
if ( h->GetAnisotropic() != h_data.myAnisotropic )
h->SetAnisotropic( h_data.myAnisotropic );
if ( h_data.myAnisotropic && ( h->GetAnisotropicRatio() != h_data.myAnisotropicRatio ) )
h->SetAnisotropicRatio( h_data.myAnisotropicRatio <= 0 ? -1 :h_data.myAnisotropicRatio );
-
+
if ( h->GetRemoveTinyEdges() != h_data.myRemoveTinyEdges )
h->SetRemoveTinyEdges( h_data.myRemoveTinyEdges );
if ( h_data.myRemoveTinyEdges && ( h->GetTinyEdgeLength() != h_data.myTinyEdgeLength ) )
h->SetTinyEdgeLength( h_data.myTinyEdgeLength <= 0 ? -1 :h_data.myTinyEdgeLength );
-
+
if ( h->GetOptimiseTinyEdges() != h_data.myOptimiseTinyEdges )
h->SetOptimiseTinyEdges( h_data.myOptimiseTinyEdges );
if ( h_data.myOptimiseTinyEdges && ( h->GetTinyEdgeOptimisationLength() != h_data.myTinyEdgeOptimisLength ) )
h->SetQuadraticMesh( h_data.myQuadraticMesh );
if ( h->GetVerbosity() != h_data.myVerbosity )
- h->SetVerbosity( h_data.myVerbosity );
+ h->SetVerbosity((CORBA::Short) h_data.myVerbosity );
// if ( h->GetTopology() != h_data.myTopology )
// h->SetTopology( (int) h_data.myTopology );
// if ( h->GetPreCADMergeEdges() != h_data.myPreCADMergeEdges )
}
// Hyper-patches
- BLSURFPlugin::THyperPatchList_var hpl = new BLSURFPlugin::THyperPatchList();
- hpl->length( h_data.hyperpatches.size() );
+ BLSURFPlugin::THyperPatchList_var hpl = new BLSURFPlugin::THyperPatchList();
+ BLSURFPlugin::THyperPatchEntriesList_var hpel = new BLSURFPlugin::THyperPatchEntriesList();
+ hpl ->length( h_data.hyperpatches.size() );
+ hpel->length( h_data.hyperEntries.size() );
for ( int i = 0; i < h_data.hyperpatches.size(); ++i )
{
patch.length( tags.size() );
for ( int j = 0; j < tags.size(); ++j )
- patch[ j ] = tags[ j ].toDouble();
+ patch[ j ] = tags[ j ].toInt();
+
+ if ( i < h_data.hyperEntries.size() )
+ {
+ QStringList entries = h_data.hyperEntries[i].split(" ", QString::SkipEmptyParts);
+ BLSURFPlugin::THyperPatchEntries& pe = hpel[ i ];
+ pe.length( entries.size() );
+
+ for ( int j = 0; j < entries.size(); ++j )
+ pe[ j ] = CORBA::string_dup( entries[ j ].toStdString().c_str() );
+ }
}
- h->SetHyperPatches( hpl );
+ if ( h_data.hyperEntries.size() == h_data.hyperpatches.size() )
+ h->SetHyperPatchEntries( hpel );
+ else
+ h->SetHyperPatches( hpl );
+
+
+ // Enforced meshes
+ BLSURFPlugin::EnforcedMeshesList_var enfMeshesList = new BLSURFPlugin::EnforcedMeshesList();
+ enfMeshesList->length( myEnfMeshTableWdg->rowCount() );
+
+ int nbMeshes = 0;
+ for ( int row = 0, nbRow = myEnfMeshTableWdg->rowCount(); row < nbRow; ++row )
+ {
+ QTableWidgetItem * meshCell = myEnfMeshTableWdg->item( row, 0 );
+ QString entry = meshCell->data( Qt::UserRole ).toString();
+ QTableWidgetItem * groupCell = myEnfMeshTableWdg->item( row, 1 );
+ QString groupName = groupCell->text();
+
+ SMESH::SMESH_IDSource_var mesh = SMESH::EntryToInterface< SMESH::SMESH_IDSource >( entry );
+ if ( !mesh->_is_nil() )
+ {
+ enfMeshesList[ nbMeshes ].mesh = SMESH::SMESH_IDSource::_duplicate( mesh );
+ enfMeshesList[ nbMeshes ].groupName = CORBA::string_dup( groupName.toStdString().c_str() );
+ ++nbMeshes;
+ }
+ }
+ enfMeshesList->length( nbMeshes );
+
+ h->SetEnforcedMeshes( enfMeshesList );
} // try
//h_data.myPreCADMergeEdges = myAdvWidget->myPreCADMergeEdges->isChecked();
//h_data.myPreCADProcess3DTopology = myAdvWidget->myPreCADProcess3DTopology->isChecked();
//h_data.myPreCADDiscardInput = myAdvWidget->myPreCADDiscardInput->isChecked();
+ h_data.myUseSurfaceProximity = myStdWidget->myUseSurfaceProximity ->isChecked();
+ h_data.myNbSurfaceProximityLayers = myStdWidget->myNbSurfaceProximityLayers->value();
+ h_data.mySurfaceProximityRatio = myStdWidget->mySurfaceProximityRatio ->value();
+ h_data.myUseVolumeProximity = myStdWidget->myUseVolumeProximity ->isChecked();
+ h_data.myNbVolumeProximityLayers = myStdWidget->myNbVolumeProximityLayers ->value();
+ h_data.myVolumeProximityRatio = myStdWidget->myVolumeProximityRatio ->value();
QString guiHyp;
guiHyp += tr("BLSURF_PHY_MESH") + " = " + QString::number( h_data.myPhysicalMesh ) + "; ";
// Hyper-patches
h_data.hyperpatches.clear();
+ h_data.hyperEntries.clear();
for ( int row = 0; row < myHyPatchTable->rowCount(); ++row )
- h_data.hyperpatches.append( myHyPatchTable->item( row, 0 )->text() );
+ {
+ QTableWidgetItem* cell = myHyPatchTable->item( row, 0 );
+ h_data.hyperpatches.append( cell->text() );
+ if ( cell->data( Qt::UserRole ).isValid() )
+ h_data.hyperEntries.append( cell->data( Qt::UserRole ).toString() );
+ }
+ if ( h_data.hyperpatches.size() != h_data.hyperEntries.size() )
+ h_data.hyperEntries.clear();
return guiHyp;
}
myAdvWidget->AddOption( TBL_CUSTOM, NULL );
}
-void BLSURFPluginGUI_HypothesisCreator::onChangeOptionName( int row, int column )
+void BLSURFPluginGUI_HypothesisCreator::onChangeOptionName( int /*row*/, int /*column*/ )
{
// if ( column != OPTION_NAME_COLUMN )
// return;
}
void BLSURFPluginGUI_HypothesisCreator::onSmpItemClicked(QTreeWidgetItem * item, int col)
-{
+{
BLSURFPluginGUI_HypothesisCreator* that = (BLSURFPluginGUI_HypothesisCreator*)this;
if (col == SMP_SIZEMAP_COLUMN) {
QString entry = item->data( SMP_ENTRY_COLUMN, Qt::EditRole ).toString();
const TAttractorVec& attVec = myATTMap[entry];
if ( !attVec.empty() )
{
- int iAtt = 0;
+ size_t iAtt = 0;
if ( !childEntry.isEmpty() )
for ( size_t i = 0; i < attVec.size(); ++i )
if ( childEntry == attVec[i].attEntry.c_str() )
myPeriodicityP1TargetWdg ->deactivateSelection();
myPeriodicityP2TargetWdg ->deactivateSelection();
myPeriodicityP3TargetWdg ->deactivateSelection();
+ myEnfMeshWdg ->deactivateSelection();
if ( myHyPatchFaceSelBtn->isChecked() )
myHyPatchFaceSelBtn->toggle();
if ( myHyPatchGroupSelBtn->isChecked() )
myHyPatchGroupSelBtn->toggle();
- return;
}
else if ( sender() == smpTab )
{
myAttractorCheck->setChecked(false);
myConstSizeCheck->setChecked(false);
}
+
+ if ( tab == SMP_TAB ) // [#16954] limit local size by Min and User Size
+ {
+ double minSize = 0, maxSize = COORD_MAX;
+
+ if ( !myStdWidget->myMinSizeRel->isChecked() &&
+ !myStdWidget->myMinSize->text().isEmpty() )
+ minSize = myStdWidget->myMinSize->GetValue();
+
+ if ( !myStdWidget->myPhySizeRel->isChecked() &&
+ !myStdWidget->myPhySize->text().isEmpty() )
+ maxSize = myStdWidget->myPhySize->GetValue();
+
+ mySmpSizeSpin->RangeStepAndValidator(minSize, maxSize, 1.0, "length_precision");
+ myAttSizeSpin->RangeStepAndValidator(minSize, maxSize, 1.0, "length_precision");
+ }
+
+ if ( tab == ENF_M_TAB )
+ {
+ myEnfMeshWdg->activateSelection();
+ onEnforcedMeshSelected(); // update buttons
+ onEnfMeshTableSelected();
+ if ( myEnforcedGroupName->text().isEmpty() )
+ myEnforcedGroupName->setText("Group 1D");
+ }
}
void BLSURFPluginGUI_HypothesisCreator::onAttractorClicked(int state)
QStringList tagList = myHyPatchTagsLE->text().split(" ", QString::SkipEmptyParts);
if ( tagList.size() > 1 )
{
- addHyPatchToTable( myHyPatchTagsLE->text() );
+ LightApp_SelectionMgr* selMrg = SMESHGUI::GetSMESHGUI()->selectionMgr();
+ SALOME_ListIO aList;
+ selMrg->selectedObjects( aList );
+ QString entries;
+ for ( SALOME_ListIteratorOfListIO anIt( aList ); anIt.More(); anIt.Next() )
+ {
+ Handle(SALOME_InteractiveObject) io = anIt.Value();
+ GEOM::GEOM_Object_var go = myHyPatchFaceSelector->GetGeomObjectByEntry( io->getEntry() );
+ if ( !CORBA::is_nil( go ))
+ entries += io->getEntry() + QString(" ");
+ else
+ {
+ entries.clear();
+ break;
+ }
+ }
+ addHyPatchToTable( myHyPatchTagsLE->text(), entries );
myHyPatchTagsLE->setText("");
}
}
*/
//================================================================================
-void BLSURFPluginGUI_HypothesisCreator::addHyPatchToTable(const QString& tags)
+void BLSURFPluginGUI_HypothesisCreator::addHyPatchToTable(const QString& tags,
+ const QString& entries)
{
if ( tags.isEmpty() ) return;
QTableWidgetItem* cell = new QTableWidgetItem( tags );
cell->setFlags( Qt::ItemIsSelectable | Qt::ItemIsEnabled );
+ if ( entries.isEmpty() )
+ cell->setData( Qt::UserRole, QVariant() );
+ else
+ cell->setData( Qt::UserRole, entries );
int row = myHyPatchTable->rowCount();
myHyPatchTable->insertRow( row );
}
}
+//================================================================================
+/*!
+ * \brief Add a new row in Enforced mesh table
+ */
+//================================================================================
+
+void BLSURFPluginGUI_HypothesisCreator::addEnforcedMesh( SMESH::SMESH_IDSource_ptr mesh,
+ const QString& groupName )
+{
+ _PTR(SObject) sobj = SMESH::FindSObject( mesh );
+ if ( !sobj )
+ return;
+
+ QString meshEntry = sobj->GetID().c_str();
+ QString meshName = sobj->GetName().c_str();
+
+ QTableWidgetItem* meshCell = new QTableWidgetItem( meshName );
+ meshCell->setData( Qt::UserRole, meshEntry );
+ meshCell->setFlags( Qt::ItemIsSelectable | Qt::ItemIsEnabled );
+
+ QTableWidgetItem* groupCell = new QTableWidgetItem( groupName );
+ groupCell->setFlags( Qt::ItemIsSelectable | Qt::ItemIsEnabled | Qt::ItemIsEditable );
+
+ int row = myEnfMeshTableWdg->rowCount();
+ myEnfMeshTableWdg->insertRow( row );
+ myEnfMeshTableWdg->setItem( row, 0, meshCell );
+ myEnfMeshTableWdg->setItem( row, 1, groupCell );
+
+ myEnfMeshTableWdg->resizeColumnToContents( 0 );
+ myEnfMeshTableWdg->resizeColumnToContents( 1 );
+}
+
+//================================================================================
+/*!
+ * \brief SLOT called when [Add] is clicked in Enforced mesh tab.
+ * Add an item to the enforced meshes table
+ */
+//================================================================================
+
+void BLSURFPluginGUI_HypothesisCreator::onAddEnforcedMesh()
+{
+ if ( myEnfMeshWdg->NbObjects() != 1 )
+ return;
+
+ SMESH::SMESH_IDSource_var mesh = myEnfMeshWdg->GetObject< SMESH::SMESH_IDSource >();
+ QString groupName = myEnforcedGroupName->text().simplified();
+
+ addEnforcedMesh( mesh, groupName );
+
+ selectionMgr()->clearSelected();
+ myEnfMeshWdg->SetObject( SMESH::SMESH_IDSource::_nil() );
+}
+
+//================================================================================
+/*!
+ * \brief SLOT called when [Remove] is clicked in Enforced mesh tab.
+ * Remove a selected mesh from the enforced meshes table
+ */
+//================================================================================
+
+void BLSURFPluginGUI_HypothesisCreator::onRemoveEnforcedMesh()
+{
+ QList<int> selectedRows;
+ QList<QTableWidgetItem *> selectedItems = myEnfMeshTableWdg->selectedItems();
+ QTableWidgetItem* item;
+ int row;
+ foreach( item, selectedItems )
+ {
+ row = item->row();
+ if (!selectedRows.contains( row ) )
+ selectedRows.append(row);
+ }
+
+ qSort( selectedRows );
+ QListIterator<int> it( selectedRows );
+ it.toBack();
+ while ( it.hasPrevious() ) {
+ row = it.previous();
+ myEnfMeshTableWdg->removeRow(row );
+ }
+
+ myEnfMeshTableWdg->selectionModel()->clearSelection();
+
+ onEnforcedMeshSelected(); // to activate [Add] if possible
+}
+
+//================================================================================
+/*!
+ * \brief SLOT called when mesh selection changes. Enable/disable [Add] button
+ */
+//================================================================================
+
+void BLSURFPluginGUI_HypothesisCreator::onEnforcedMeshSelected()
+{
+ bool enable = ( myEnfMeshWdg->NbObjects() == 1 );
+ if ( enable )
+ {
+ // check if a selected mesh contains segments
+ SMESH::SMESH_IDSource_var mesh = myEnfMeshWdg->GetObject< SMESH::SMESH_IDSource >();
+ if (( enable = !mesh->_is_nil() ))
+ {
+ SMESH::array_of_ElementType_var types = mesh->GetTypes();
+ if (( enable = ( types->length() > 0 )))
+ {
+ enable = false;
+ for ( CORBA::ULong i = 0; i < types->length() && !enable; ++i )
+ enable = ( types[ i ] = SMESH::EDGE );
+ }
+ }
+
+ // check if this mesh is already in the table
+ if ( enable )
+ {
+ _PTR(SObject) sobj = SMESH::FindSObject( mesh );
+ if (( enable = bool( sobj )))
+ {
+ QString meshEntry = sobj->GetID().c_str();
+ for ( int row = 0, nbRow = myEnfMeshTableWdg->rowCount(); row < nbRow && enable; ++row )
+ {
+ QTableWidgetItem * cell = myEnfMeshTableWdg->item( row, 0 );
+ enable = ( meshEntry != cell->data( Qt::UserRole ).toString() );
+ }
+ }
+ }
+ }
+ myAddEnfMeshButton->setEnabled( enable );
+}
+
+//================================================================================
+/*!
+ * \brief SLOT called when selection changes in the table. Enable/disable [Remove] button
+ */
+//================================================================================
+
+void BLSURFPluginGUI_HypothesisCreator::onEnfMeshTableSelected()
+{
+ bool enable = !myEnfMeshTableWdg->selectedItems().empty();
+
+ myRemoveEnfMeshButton->setEnabled( enable );
+}
+
+//================================================================================
+/*!
+ * \brief Return false if algorithm is a re-mesher
+ */
+//================================================================================
+
bool BLSURFPluginGUI_HypothesisCreator::hasGeom() const
{
return hypType() == BLSURFPlugin_Hypothesis::GetHypType(true);
CORBA::Object_var BLSURFPluginGUI_HypothesisCreator::entryToObject(QString entry)
{
CORBA::Object_var obj;
- SALOMEDS::SObject_var aSObj = SMESH_Gen_i::getStudyServant()->FindObjectID( entry.toStdString().c_str() );
+ SALOMEDS::SObject_var aSObj = SMESH_Gen_i::GetSMESHGen()->getStudyServant()->FindObjectID( entry.toStdString().c_str() );
if (!aSObj->_is_nil()) {
obj = aSObj->GetObject();
aSObj->UnRegister();