// GEOM GEOMGUI : GUI for Geometry component // // Copyright (C) 2003 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License. // // This library is 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.opencascade.org/SALOME/ or email : webmaster.salome@opencascade.org // // // // File : RepairGUI_ShapeProcessDlg.cxx // Author : Lucien PIGNOLONI // Module : GEOM // $Header$ #include "RepairGUI_ShapeProcessDlg.h" #include "GEOMImpl_Types.hxx" #include "SalomeApp_Application.h" #include "SalomeApp_SelectionMgr.h" #include "SUIT_Session.h" #include "SALOME_ListIteratorOfListIO.hxx" #include "SALOME_ListIO.hxx" #include #include #include #include #include using namespace std; //================================================================================= // class : RepairGUI_ShapeProcessDlg() // purpose : Constructs a RepairGUI_ShapeProcessDlg which is a child of 'parent', with the // name 'name' and widget flags set to 'f'. // The dialog will by default be modeless, unless you set 'modal' to // TRUE to construct a modal dialog. //================================================================================= RepairGUI_ShapeProcessDlg::RepairGUI_ShapeProcessDlg(QWidget* parent, const char* name, bool modal, WFlags fl) :GEOMBase_Skeleton(parent, name, modal, WStyle_Customize | WStyle_NormalBorder | WStyle_Title | WStyle_SysMenu) { init(); } //================================================================================= // function : ~RepairGUI_ShapeProcessDlg() // purpose : Destroys the object and frees any allocated resources //================================================================================= RepairGUI_ShapeProcessDlg::~RepairGUI_ShapeProcessDlg() { } //================================================================================= // function : Init() // purpose : //================================================================================= void RepairGUI_ShapeProcessDlg::init() { //myGeomGUI->SetState( 0 ); initParamsValues(); initSelection(); setCaption(tr("GEOM_SHAPEPROCESS_TITLE")); GroupConstructors->hide(); // select widget on the top mySelectWdgt = new DlgRef_1Sel_QTD( this, "SelectedObjects" ); mySelectWdgt->GroupBox1->setTitle( tr("GEOM_SHAPE") ); mySelectWdgt->TextLabel1->setText( tr("GEOM_SELECTED_OBJECTS") ); mySelectWdgt->PushButton1->setPixmap( SUIT_Session::session()->resourceMgr()->loadPixmap("GEOM",tr("ICON_SELECT")) ); mySelectWdgt->LineEdit1->setReadOnly( true ); Layout1->addWidget( mySelectWdgt, 0, 0 ); // layout the two group boxes in the middle, add a list of operations QFrame* aMidFrame = new QFrame( this ); QGridLayout* aMidLay = new QGridLayout( aMidFrame, 1, 3, 0, 5 ); QGroupBox* anOperGr = new QGroupBox( tr("GEOM_OPERATIONS"), aMidFrame ); QVBoxLayout* aOperLay = new QVBoxLayout( anOperGr, 0, 0 ); myOpList = new QListView( anOperGr ); myOpList->setSorting( -1 ); myOpList->addColumn( "Operations" ); myOpList->header()->hide(); aOperLay->addWidget( myOpList ); QStringList::ConstIterator it = myOpLst.end(); do // iterating from end to begin so to keep the order of items in the listview. new QCheckListItem ( myOpList, *(--it), QCheckListItem::CheckBox ); while ( it != myOpLst.begin() ); QGroupBox* aParamsGr = new QGroupBox( tr("GEOM_PARAMETERS"), aMidFrame ); aMidLay->addWidget( anOperGr, 0, 0 ); aMidLay->addMultiCellWidget( aParamsGr, 0, 0, 1, 3 ); aMidLay->setColStretch( 0, 1 ); aMidLay->setColStretch( 1, 2 ); Layout1->addWidget( aMidFrame, 2, 0 ); Layout1->setRowStretch( 0, 0 ); Layout1->setRowStretch( 1, 1 ); // add a widget stack to the parameters group box myStack = new QWidgetStack( aParamsGr ); QVBoxLayout* aVParamsLay = new QVBoxLayout( aParamsGr ); aVParamsLay->addWidget( myStack ); // continueties values.. QStringList aContinueties = QStringList::split( ",", "C0,G1,C1,G2,C2,C3,CN" ); // FixShape QFrame* aFrame = new QFrame( myStack ); QGridLayout* aLay = new QGridLayout( aFrame, 10, 2, 0, 5 ); myFixShapeTol3D = new QtxDblSpinBox( 0, 100, 1e-7, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 100, 1e-7, 10, 1e-10 ); myFixShapeTol3D->setPrecision( 10 ); myFixShapeMaxTol3D = new QtxDblSpinBox( 0, 100, 1e-7, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 100, 1e-7, 10, 1e-10 ); myFixShapeMaxTol3D->setPrecision( 10 ); aLay->addWidget( new QLabel( tr("GEOM_3D_TOLERANCE"), aFrame ), 0, 0 ); aLay->addWidget( myFixShapeTol3D, 0, 1 ); aLay->addWidget( new QLabel( tr("GEOM_MAX_3D_TOLERANCE"), aFrame ), 1, 0 ); aLay->addWidget( myFixShapeMaxTol3D, 1, 1 ); aLay->setRowStretch( 9, 2 ); myStack->addWidget( aFrame, myOpLst.findIndex( "FixShape" ) ); // FixFaceSize aFrame = new QFrame( myStack ); aLay = new QGridLayout( aFrame, 10, 2, 0, 5 ); myFixFaceSizeTol = new QtxDblSpinBox( 0, 100, 1e-7, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 100, 1e-7, 10, 1e-10 ); myFixFaceSizeTol->setPrecision( 10 ); aLay->addWidget( new QLabel( tr("GEOM_TOLERANCE"), aFrame ), 0, 0 ); aLay->addWidget( myFixFaceSizeTol, 0, 1 ); aLay->setRowStretch( 9, 2 ); myStack->addWidget( aFrame, myOpLst.findIndex( "FixFaceSize" ) ); // DropSmallEdges aFrame = new QFrame( myStack ); aLay = new QGridLayout( aFrame, 10, 2, 0, 5 ); myDropSmallEdgesTol3D = new QtxDblSpinBox( 0, 100, 1e-7, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 100, 1e-7, 10, 1e-10 ); myDropSmallEdgesTol3D->setPrecision( 10 ); aLay->addWidget( new QLabel( tr("GEOM_3D_TOLERANCE"), aFrame ), 0, 0 ); aLay->addWidget( myDropSmallEdgesTol3D, 0, 1 ); aLay->setRowStretch( 9, 2 ); myStack->addWidget( aFrame, myOpLst.findIndex( "DropSmallEdges" ) ); // SplitAngle aFrame = new QFrame( myStack ); aLay = new QGridLayout( aFrame, 10, 2, 0, 5 ); mySplitAngleAngle = new QtxDblSpinBox( 0, 360, 1, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 360, 1 ); mySplitAngleMaxTol = new QtxDblSpinBox( 0, 100, 1e-7, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 100, 1e-7, 10, 1e-10 ); mySplitAngleMaxTol->setPrecision( 10 ); aLay->addWidget( new QLabel( tr("GEOM_ANGLE_1"), aFrame ), 0, 0 ); aLay->addWidget( mySplitAngleAngle, 0, 1 ); aLay->addWidget( new QLabel( tr("GEOM_MAX_TOLERANCE"), aFrame ), 1, 0 ); aLay->addWidget( mySplitAngleMaxTol, 1, 1 ); aLay->setRowStretch( 9, 2 ); myStack->addWidget( aFrame, myOpLst.findIndex( "SplitAngle" ) ); // SplitClosedFaces aFrame = new QFrame( myStack ); aLay = new QGridLayout( aFrame, 10, 2, 0, 5 ); mySplitClosedFacesNum = new QSpinBox( aFrame ); aLay->addWidget( new QLabel( tr("GEOM_NUM_SPLIT_POINTS"), aFrame ), 0, 0 ); aLay->addWidget( mySplitClosedFacesNum, 0, 1 ); aLay->setRowStretch( 9, 2 ); myStack->addWidget( aFrame, myOpLst.findIndex( "SplitClosedFaces" ) ); // SplitContinuity aFrame = new QFrame( myStack ); aLay = new QGridLayout( aFrame, 10, 2, 0, 5 ); mySplitContTol3D = new QtxDblSpinBox( 0, 100, 1e-7, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 100, 1e-7, 10, 1e-10 ); mySplitContTol3D->setPrecision( 10 ); mySplitContSurfCont = new QComboBox( aFrame ); mySplitContSurfCont->insertStringList( aContinueties ); mySplitContCurvCont = new QComboBox( aFrame ); mySplitContCurvCont->insertStringList( aContinueties ); aLay->addWidget( new QLabel( tr("GEOM_3D_TOLERANCE"), aFrame ), 0, 0 ); aLay->addWidget( mySplitContTol3D, 0, 1 ); aLay->addWidget( new QLabel( tr("GEOM_SURFACE_CONTINUTY"), aFrame ), 1, 0 ); aLay->addWidget( mySplitContSurfCont, 1, 1 ); aLay->addWidget( new QLabel( tr("GEOM_CURVE_CONTINUTY"), aFrame ), 2, 0 ); aLay->addWidget( mySplitContCurvCont, 2, 1 ); aLay->setRowStretch( 9, 2 ); myStack->addWidget( aFrame, myOpLst.findIndex( "SplitContinuity" ) ); // BSplineRestriction aFrame = new QFrame( myStack ); aLay = new QGridLayout( aFrame, 10, 2, 0, 5 ); myBSplineSurfModeChk = new QCheckBox( tr("GEOM_SURFACE_MODE"), aFrame ); myBSpline3DCurveChk = new QCheckBox( tr("GEOM_3D_CURVE_MODE"), aFrame ); myBSpline2DCurveChk = new QCheckBox( tr("GEOM_2D_CURVE_MODE"), aFrame ); myBSplineTol3D = new QtxDblSpinBox( 0, 100, 1e-7, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 100, 1e-7, 10, 1e-10 ); myBSplineTol3D->setPrecision( 10 ); myBSplineTol2D = new QtxDblSpinBox( 0, 100, 1e-7, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 100, 1e-7, 10, 1e-10 ); myBSplineTol2D->setPrecision( 10 ); myBSplineDegree = new QSpinBox( aFrame ); myBSplineSegments = new QSpinBox( aFrame ); myBSpline2DCont = new QComboBox( aFrame ); myBSpline2DCont->insertStringList( aContinueties ); myBSpline3DCont = new QComboBox( aFrame ); myBSpline3DCont->insertStringList( aContinueties ); myBSplineSurfModeChk->setChecked( true ); myBSpline3DCurveChk->setChecked( true ); myBSpline2DCurveChk->setChecked( true ); aLay->addWidget( myBSplineSurfModeChk, 0, 0 ); aLay->addWidget( myBSpline3DCurveChk, 1, 0 ); aLay->addWidget( myBSpline2DCurveChk, 2, 0 ); aLay->addWidget( new QLabel( tr("GEOM_3D_TOLERANCE"), aFrame), 3, 0 ); aLay->addWidget( myBSplineTol3D, 3, 1 ); aLay->addWidget( new QLabel( tr("GEOM_2D_TOLERANCE"), aFrame), 4, 0 ); aLay->addWidget( myBSplineTol2D, 4, 1 ); aLay->addWidget( new QLabel( tr("GEOM_REQUIRED_DEGREE"), aFrame), 5, 0 ); aLay->addWidget( myBSplineDegree, 5, 1 ); aLay->addWidget( new QLabel( tr("GEOM_REQUIRED_NUM_SEGMENTS"), aFrame), 6, 0 ); aLay->addWidget( myBSplineSegments, 6, 1 ); aLay->addWidget( new QLabel( tr("GEOM_3D_CONTINUTY"), aFrame), 7, 0 ); aLay->addWidget( myBSpline3DCont, 7, 1 ); aLay->addWidget( new QLabel( tr("GEOM_2D_CONTINUTY"), aFrame), 8, 0 ); aLay->addWidget( myBSpline2DCont, 8, 1 ); aLay->setRowStretch( 9, 2 ); myStack->addWidget( aFrame, myOpLst.findIndex( "BSplineRestriction" ) ); // ToBezier aFrame = new QFrame( myStack ); aLay = new QGridLayout( aFrame, 10, 2, 0, 5 ); myToBezierSurfModeChk = new QCheckBox( tr("GEOM_SURFACE_MODE"), aFrame ); myToBezier3DCurveChk = new QCheckBox( tr("GEOM_3D_CURVE_MODE"), aFrame ); myToBezier2DCurveChk = new QCheckBox( tr("GEOM_2D_CURVE_MODE"), aFrame ); myToBezierMaxTol = new QtxDblSpinBox( 0, 100, 1e-7, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 100, 1e-7, 10, 1e-10 ); myToBezierMaxTol->setPrecision( 10 ); aLay->addWidget( myToBezierSurfModeChk, 0, 0 ); aLay->addWidget( myToBezier3DCurveChk, 1, 0 ); aLay->addWidget( myToBezier2DCurveChk, 2, 0 ); aLay->addWidget( new QLabel( tr("GEOM_MAX_TOLERANCE"), aFrame), 3, 0 ); aLay->addWidget( myToBezierMaxTol, 3, 1 ); aLay->setRowStretch( 9, 2 ); myStack->addWidget( aFrame, myOpLst.findIndex( "ToBezier" ) ); // SameParameter aFrame = new QFrame( myStack ); aLay = new QGridLayout( aFrame, 10, 2, 0, 5 ); mySameParameterTol3D = new QtxDblSpinBox( 0, 100, 1e-7, aFrame );//QAD_SpinBoxDbl( aFrame, 0, 100, 1e-7, 10, 1e-10 ); mySameParameterTol3D->setPrecision( 10 ); aLay->addWidget( new QLabel( tr("GEOM_3D_TOLERANCE"), aFrame ), 0, 0 ); aLay->addWidget( mySameParameterTol3D, 0, 1 ); aLay->setRowStretch( 9, 2 ); myStack->addWidget( aFrame, myOpLst.findIndex( "SameParameter" ) ); // signals and slots connections connect( myGeomGUI, SIGNAL(SignalDeactivateActiveDialog()), this, SLOT(deactivate()) ); connect( myGeomGUI, SIGNAL(SignalCloseAllDialogs()), this, SLOT(onCancel()) ); connect( buttonCancel, SIGNAL(clicked()), this, SLOT(onCancel()) ); connect( buttonOk, SIGNAL(clicked()), this, SLOT(onOk()) ); connect( buttonApply, SIGNAL(clicked()), this, SLOT(onApply()) ); connect( ((SalomeApp_Application*)(SUIT_Session::session()->activeApplication()))->selectionMgr(), SIGNAL(currentSelectionChanged()), this, SLOT(selectionChanged()) ); connect( myOpList, SIGNAL(selectionChanged()), this, SLOT(operationChanged()) ); connect( mySelectWdgt->PushButton1, SIGNAL(clicked()), this, SLOT(selectClicked()) ); connect( mySelectWdgt->LineEdit1, SIGNAL(returnPressed()), this, SLOT(lineEditReturnPressed()) ); connect( myToBezierSurfModeChk, SIGNAL(toggled(bool)), SLOT(advOptionToggled(bool)) ); adjustSize(); loadDefaults(); // init dialog fields with values from resource file myOpList->setSelected( myOpList->findItem( "FixShape", 0 ), true ); reset(); initName( tr( "PROCESS_SHAPE_NEW_OBJ_NAME" ) ); } //================================================================================= // function : operationChanged() // purpose : //================================================================================= void RepairGUI_ShapeProcessDlg::operationChanged() { QListViewItem* anItem = myOpList->selectedItem(); if ( anItem ) { int id = myOpLst.findIndex( anItem->text(0) ); if ( id > -1 ) myStack->raiseWidget( id ); } } //================================================================================= // function : onOk() // purpose : Same than click on apply but close this dialog. //================================================================================= void RepairGUI_ShapeProcessDlg::onOk() { if ( onApply() ) onCancel(); } //================================================================================= // function : onApply() // purpose : //================================================================================= bool RepairGUI_ShapeProcessDlg::onApply() { if ( !onAccept() ) return false; initName(); reset(); initSelection(); return true; } //================================================================================= // function : onCancel() // purpose : //================================================================================= void RepairGUI_ShapeProcessDlg::onCancel() { GEOMBase_Skeleton::ClickOnCancel(); } //================================================================================= // function : selectionChanged() // purpose : Called when selection as changed or other case // : used only by SelectButtonC1A1 (LineEditC1A1) //================================================================================= void RepairGUI_ShapeProcessDlg::selectionChanged() { reset(); Standard_Boolean aRes = Standard_False; int i = 0; myObjects->length( IObjectCount() ); for ( SALOME_ListIteratorOfListIO anIt( selectedIO() ); anIt.More(); anIt.Next() ) { GEOM::GEOM_Object_var aSelectedObject = GEOMBase::ConvertIOinGEOMObject( anIt.Value(), aRes ); if ( !CORBA::is_nil( aSelectedObject ) && aRes ) myObjects[i++] = aSelectedObject; } myObjects->length( i ); if ( i == 1 ) mySelectWdgt->LineEdit1->setText( GEOMBase::GetName( myObjects[0] ) ); else if ( i > 0 ) mySelectWdgt->LineEdit1->setText( QString::number( i ) + "_" + tr( "GEOM_OBJECTS" ) ); } //================================================================================= // function : selectClicked() // purpose : //================================================================================= void RepairGUI_ShapeProcessDlg::selectClicked() { myEditCurrentArgument = mySelectWdgt->LineEdit1; mySelectWdgt->LineEdit1->setFocus(); selectionChanged(); } //================================================================================= // function : lineEditReturnPressed() // purpose : //================================================================================= void RepairGUI_ShapeProcessDlg::lineEditReturnPressed() { GEOMBase_Skeleton::LineEditReturnPressed(); } //================================================================================= // function : deactivate() // purpose : //================================================================================= void RepairGUI_ShapeProcessDlg::deactivate() { //myGeomGUI->SetState( -1 ); GEOMBase_Skeleton::DeactivateActiveDialog(); } //================================================================================= // function : activate() // purpose : //================================================================================= void RepairGUI_ShapeProcessDlg::activate() { GEOMBase_Skeleton::ActivateThisDialog(); connect(((SalomeApp_Application*)(SUIT_Session::session()->activeApplication()))->selectionMgr(), SIGNAL(currentSelectionChanged()), this, SLOT(selectionChanged())); reset(); //myGeomGUI->SetState( 0 ); initSelection(); } //================================================================================= // function : enterEvent() // purpose : Mouse enter onto the dialog to activate it //================================================================================= void RepairGUI_ShapeProcessDlg::enterEvent(QEvent* e) { if ( !GroupConstructors->isEnabled() ) activate(); } //================================================================================= // function : closeEvent() // purpose : same than click on cancel button //================================================================================= void RepairGUI_ShapeProcessDlg::closeEvent(QCloseEvent* e) { //myGeomGUI->SetState( -1 ); GEOMBase_Skeleton::closeEvent( e ); } //================================================================================= // function : reset() // purpose : Completely reset the state of method including local context //================================================================================= void RepairGUI_ShapeProcessDlg::reset() { myObjects = new GEOM::ListOfGO(); myObjects->length( 0 ); mySelectWdgt->LineEdit1->setText(""); } //================================================================================= // function : get_convert // purpose : conversion of angle values to radians (non-angle values are not converted) //================================================================================= const char* get_convert( const char* theParam, const char* theValue ) { if ( !strcmp( theParam, "SplitAngle.Angle" ) ) { double doubleValue = atof( theValue ) * PI / 180; TCollection_AsciiString str( doubleValue ); return CORBA::string_dup( str.ToCString() ); } return CORBA::string_dup( theValue ); } //================================================================================= // function : set_convert // purpose : conversion of angle values to degrees (non-angle values are not converted) //================================================================================= const char* set_convert( const char* theParam, const char* theValue ) { if ( !strcmp( theParam, "SplitAngle.Angle" ) ) { double doubleValue = atof( theValue ) * 180 / PI; TCollection_AsciiString str( doubleValue ); return CORBA::string_dup( str.ToCString() ); } return CORBA::string_dup( theValue ); } //================================================================================= // function : loadDefaults() // purpose : initialize "values"-fields with default values retrieved from IHealingOperations //================================================================================= void RepairGUI_ShapeProcessDlg::loadDefaults() { GEOM::GEOM_IHealingOperations_var anOp = myGeomGUI->GetGeomGen()->GetIHealingOperations( getStudyId() ); GEOM::string_array_var anOperators, aParams, aValues; anOp->GetShapeProcessParameters( anOperators, aParams, aValues ); // check the default items-operators int i; for ( i = 0; i < anOperators->length(); i++ ) { //MESSAGE("-->"<<(const char*)anOperators[i]); QListViewItem* anItem = myOpList->findItem( (const char*)anOperators[i], 0 ); if ( anItem /*&& anItem->inherits( "QCheckListItem" )*/ ) ((QCheckListItem*) anItem)->setOn( true ); } // Retrieve default parameters for ALL operators for ( QListViewItemIterator it(myOpList); it.current(); ++it ) { CORBA::String_var anOperator = CORBA::string_dup( it.current()->text( 0 ).latin1() ); anOp->GetOperatorParameters( anOperator.in(), aParams, aValues ); // set default values of parameters if ( aParams->length() != aValues->length() ) continue; for ( i = 0; i < aParams->length(); i++ ) { QWidget* aCtrl = getControl( (const char*)aParams[i] ); const char* aValue = set_convert( (const char*)aParams[i], aValues[i] ); setValue( aCtrl, aValue ); } } } //================================================================================= // function : setValue() // purpose : set value in the proper way //================================================================================= void RepairGUI_ShapeProcessDlg::setValue( QWidget* theControl, const char* theValue ) { if ( theControl == NULL || theValue == NULL ) return; if ( theControl->isA( "QtxDblSpinBox" ) ) ((QtxDblSpinBox*)theControl)->setValue( QString( theValue ).toDouble() ); else if ( theControl->isA( "QSpinBox" ) ) ((QSpinBox*)theControl)->setValue( QString( theValue ).toInt() ); else if ( theControl->isA( "QComboBox" ) ) ((QComboBox*)theControl)->setCurrentText( QString( theValue ) ); else if ( theControl->isA( "QCheckBox" ) ) ((QCheckBox*)theControl)->setChecked( QString( theValue ).toInt() != 0 ); } //================================================================================= // function : getValue() // purpose : get value in the proper way //================================================================================= const char* RepairGUI_ShapeProcessDlg::getValue( QWidget* theControl ) const { if ( theControl == NULL ) return ""; if ( theControl->isA( "QtxDblSpinBox" ) ) return ((QtxDblSpinBox*)theControl)->text().latin1(); else if ( theControl->isA( "QSpinBox" ) ) return ((QSpinBox*)theControl)->text().latin1(); else if ( theControl->isA( "QComboBox" ) ) return ((QComboBox*)theControl)->currentText().latin1(); else if ( theControl->isA( "QCheckBox" ) ) return ((QCheckBox*)theControl)->isChecked() ? "1" : "0"; return ""; } //================================================================================= // function : createOperation // purpose : //================================================================================= GEOM::GEOM_IOperations_ptr RepairGUI_ShapeProcessDlg::createOperation() { return getGeomEngine()->GetIHealingOperations( getStudyId() ); } //================================================================================= // function : isValid // purpose : //================================================================================= bool RepairGUI_ShapeProcessDlg::isValid( QString& msg ) { bool error = false; GEOM::string_array_var anOperators = getActiveOperators(); if ( !myObjects->length() ) { msg += tr( "ERROR_NO_OBJECTS" ); error = true; } if ( !anOperators->length() ) { if ( error ) msg += "\n"; msg += tr( "ERROR_NO_OPERATORS" ); error = true; } return !error; } //================================================================================= // function : execute // purpose : //================================================================================= bool RepairGUI_ShapeProcessDlg::execute( ObjectList& objects ) { GEOM::string_array_var anOperators = getActiveOperators(); GEOM::string_array_var aParams = getParameters( anOperators ); GEOM::string_array_var aValues = getValues( aParams ); /*//-- check -- int z; MESSAGE("Objects : "); for ( z = 0; z < myObjects->length(); z++ ) MESSAGE(myObjects[z]->GetName() << " "); MESSAGE("\nOperators : "); for ( z = 0; z < anOperators->length(); z++ ) MESSAGE(anOperators[z] << " "); MESSAGE("\nParameters : "); for ( z = 0; z < aParams->length(); z++ ) MESSAGE(aParams[z] << " "); MESSAGE("\nValues : "); for ( z = 0; z < aValues->length(); z ++ ) MESSAGE(aValues[z] << " "); MESSAGE("\n"); */// ----------- QStringList anErrorObjNames; for ( int i = 0; i < myObjects->length(); i++ ) { GEOM::GEOM_Object_var obj = myObjects[i]; GEOM::GEOM_Object_var anObj = GEOM::GEOM_IHealingOperations::_narrow( getOperation() )->ProcessShape( obj, anOperators, aParams, aValues ); if ( anObj->_is_nil() ) anErrorObjNames << GEOMBase::GetName( obj ); else objects.push_back( anObj._retn() ); } if ( !anErrorObjNames.empty() ) MESSAGE("ERRORS occured while processing the following objects: " << anErrorObjNames.join( " " )); return anErrorObjNames.size() < myObjects->length(); // true if at least one object was OK, false if ALL objects were nil after Healing. } //================================================================================= // function : getActiveOperators // purpose : //================================================================================= GEOM::string_array* RepairGUI_ShapeProcessDlg::getActiveOperators() { GEOM::string_array_var anOperators = new GEOM::string_array(); QStringList aCheckedList; QStringList::Iterator it; for ( it = myOpLst.begin(); it != myOpLst.end(); ++it ) if ( ((QCheckListItem*)myOpList->findItem( *it, 0 ))->isOn() ) aCheckedList << *it; anOperators->length( aCheckedList.size() ); int i = 0; for ( it = aCheckedList.begin(); it != aCheckedList.end(); ++it ) anOperators[i++] = CORBA::string_dup( (*it).latin1() ); return anOperators._retn(); } //================================================================================= // function : getcontrol // purpose : //================================================================================= QWidget* RepairGUI_ShapeProcessDlg::getControl( const char* theParam ) { string aParam = theParam; if ( aParam == "SplitAngle.Angle" ) return mySplitAngleAngle; else if ( aParam == "SplitAngle.MaxTolerance" ) return mySplitAngleMaxTol; else if ( aParam == "SplitClosedFaces.NbSplitPoints" ) return mySplitClosedFacesNum; else if ( aParam == "FixFaceSize.Tolerance" ) return myFixFaceSizeTol; else if ( aParam == "DropSmallEdges.Tolerance3d" ) return myDropSmallEdgesTol3D; else if ( aParam == "BSplineRestriction.SurfaceMode" ) return myBSplineSurfModeChk; else if ( aParam == "BSplineRestriction.Curve3dMode" ) return myBSpline3DCurveChk; else if ( aParam == "BSplineRestriction.Curve2dMode" ) return myBSpline2DCurveChk; else if ( aParam == "BSplineRestriction.Tolerance3d" ) return myBSplineTol3D; else if ( aParam == "BSplineRestriction.Tolerance2d" ) return myBSplineTol2D; else if ( aParam == "BSplineRestriction.RequiredDegree" ) return myBSplineDegree; else if ( aParam == "BSplineRestriction.RequiredNbSegments" ) return myBSplineSegments; else if ( aParam == "BSplineRestriction.Continuity3d" ) return myBSpline3DCont; else if ( aParam == "BSplineRestriction.Continuity2d" ) return myBSpline2DCont; else if ( aParam == "SplitContinuity.Tolerance3d" ) return mySplitContTol3D; else if ( aParam == "SplitContinuity.SurfaceContinuity" ) return mySplitContSurfCont; else if ( aParam == "SplitContinuity.CurveContinuity" ) return mySplitContCurvCont; else if ( aParam == "ToBezier.SurfaceMode" ) return myToBezierSurfModeChk; else if ( aParam == "ToBezier.Curve3dMode" ) return myToBezier3DCurveChk; else if ( aParam == "ToBezier.Curve2dMode" ) return myToBezier2DCurveChk; else if ( aParam == "ToBezier.MaxTolerance" ) return myToBezierMaxTol; else if ( aParam == "SameParameter.Tolerance3d" ) return mySameParameterTol3D; else if ( aParam == "FixShape.Tolerance3d" ) return myFixShapeTol3D; else if ( aParam == "FixShape.MaxTolerance3d" ) return myFixShapeMaxTol3D; return NULL; } //================================================================================= // function : getParameters // purpose : //================================================================================= void RepairGUI_ShapeProcessDlg::initParamsValues() { myOpLst << "FixShape"; myValMap["FixShape"] << "FixShape.Tolerance3d"; myValMap["FixShape"] << "FixShape.MaxTolerance3d"; myOpLst << "FixFaceSize"; myValMap["FixFaceSize"] << "FixFaceSize.Tolerance"; myOpLst << "DropSmallEdges"; myValMap["DropSmallEdges"] << "DropSmallEdges.Tolerance3d"; myOpLst << "SplitAngle"; myValMap["SplitAngle"] << "SplitAngle.Angle"; myValMap["SplitAngle"] << "SplitAngle.MaxTolerance"; myOpLst << "SplitClosedFaces"; myValMap["SplitClosedFaces"] << "SplitClosedFaces.NbSplitPoints"; myOpLst << "SplitContinuity"; myValMap["SplitContinuity"] << "SplitContinuity.Tolerance3d"; myValMap["SplitContinuity"] << "SplitContinuity.SurfaceContinuity"; myValMap["SplitContinuity"] << "SplitContinuity.CurveContinuity"; myOpLst << "BSplineRestriction"; myValMap["BSplineRestriction"] << "BSplineRestriction.SurfaceMode"; myValMap["BSplineRestriction"] << "BSplineRestriction.Curve3dMode"; myValMap["BSplineRestriction"] << "BSplineRestriction.Curve2dMode"; myValMap["BSplineRestriction"] << "BSplineRestriction.Tolerance3d"; myValMap["BSplineRestriction"] << "BSplineRestriction.Tolerance2d"; myValMap["BSplineRestriction"] << "BSplineRestriction.RequiredDegree"; myValMap["BSplineRestriction"] << "BSplineRestriction.RequiredNbSegments"; myValMap["BSplineRestriction"] << "BSplineRestriction.Continuity3d"; myValMap["BSplineRestriction"] << "BSplineRestriction.Continuity2d"; myOpLst << "ToBezier"; myValMap["ToBezier"] << "ToBezier.SurfaceMode"; myValMap["ToBezier"] << "ToBezier.Curve3dMode"; myValMap["ToBezier"] << "ToBezier.Curve2dMode"; myValMap["ToBezier"] << "ToBezier.MaxTolerance"; myOpLst << "SameParameter"; myValMap["SameParameter"] << "SameParameter.Tolerance3d"; } //================================================================================= // function : getParameters // purpose : //================================================================================= GEOM::string_array* RepairGUI_ShapeProcessDlg::getParameters( const GEOM::string_array& theOperators ) { GEOM::string_array_var aParams = new GEOM::string_array(); int i( 0 ), j( 0 ); // calculate the length of parameters for ( i = 0, j = 0; i < theOperators.length(); i++ ) j+= myValMap[QString((const char*)theOperators[i])].size(); // set the new length of paremeters aParams->length( j ); // fill the parameters for ( i = 0, j = 0; i < theOperators.length(); i++ ) { QStringList aValLst = myValMap[QString( (const char*)theOperators[i] )]; for ( QStringList::Iterator it = aValLst.begin(); it != aValLst.end(); ++it ) aParams[j++] = CORBA::string_dup( (*it).latin1() ); } return aParams._retn(); } //================================================================================= // function : getValues // purpose : //================================================================================= GEOM::string_array* RepairGUI_ShapeProcessDlg::getValues( const GEOM::string_array& theParams ) { GEOM::string_array_var aValues = new GEOM::string_array(); aValues->length( theParams.length() ); for ( int i = 0; i < theParams.length(); i++ ) { QWidget* aCtrl = getControl( (const char*)theParams[i] ); if ( aCtrl ) aValues[i] = get_convert( (const char*)theParams[i], getValue( aCtrl ) ); } return aValues._retn(); } //================================================================================= // function : initSelection // purpose : set selection of ALL shape types except vertexes //================================================================================= void RepairGUI_ShapeProcessDlg::initSelection() { TColStd_MapOfInteger aTypes; aTypes.Add( GEOM_COMPOUND ); aTypes.Add( GEOM_SOLID ); aTypes.Add( GEOM_SHELL ); aTypes.Add( GEOM_FACE ); aTypes.Add( GEOM_WIRE ); aTypes.Add( GEOM_EDGE ); globalSelection( aTypes ); } //================================================================================= // function : advOptionToggled // purpose : this slot is used to warn the user about possible consequences // of enabling some advanced options //================================================================================= void RepairGUI_ShapeProcessDlg::advOptionToggled( bool on ) { QButton* btn = (QButton*)sender(); if ( on && btn->isToggleButton() && QMessageBox::warning( SUIT_Session::session()->activeApplication()->desktop(), tr( "GEOM_WRN_WARNING" ), tr( "TIME_CONSUMING" ), QMessageBox::Yes, QMessageBox::No ) == QMessageBox::No ) btn->toggle(); }