// 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 : TransformationGUI_MultiTranslationDlg.cxx // Author : Damien COQUERET // Module : GEOM // $Header$ #include "TransformationGUI_MultiTranslationDlg.h" #include #include #include #include #include #include #include #include #include "QAD_Config.h" #include "utilities.h" using namespace std; //================================================================================= // class : TransformationGUI_MultiTranslationDlg() // purpose : Constructs a TransformationGUI_MultiTranslationDlg 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. //================================================================================= TransformationGUI_MultiTranslationDlg::TransformationGUI_MultiTranslationDlg(QWidget* parent, const char* name, TransformationGUI* theTransformationGUI, SALOME_Selection* Sel, bool modal, WFlags fl) :GEOMBase_Skeleton(parent, name, Sel, modal, WStyle_Customize | WStyle_NormalBorder | WStyle_Title | WStyle_SysMenu) { QPixmap image0(QAD_Desktop::getResourceManager()->loadPixmap( "GEOM",tr("ICON_DLG_MULTITRANSLATION_SIMPLE"))); QPixmap image1(QAD_Desktop::getResourceManager()->loadPixmap( "GEOM",tr("ICON_DLG_MULTITRANSLATION_DOUBLE"))); QPixmap image2(QAD_Desktop::getResourceManager()->loadPixmap( "GEOM",tr("ICON_SELECT"))); setCaption(tr("GEOM_MULTITRANSLATION_TITLE")); /***************************************************************/ GroupConstructors->setTitle(tr("GEOM_MULTITRANSLATION")); RadioButton1->setPixmap(image0); RadioButton2->setPixmap(image1); RadioButton3->close(TRUE); GroupPoints = new DlgRef_2Sel2Spin1Check(this, "GroupPoints"); GroupPoints->GroupBox1->setTitle(tr("GEOM_MULTITRANSLATION_SIMPLE")); GroupPoints->TextLabel1->setText(tr("GEOM_MAIN_OBJECT")); GroupPoints->TextLabel2->setText(tr("GEOM_VECTOR_U")); GroupPoints->TextLabel3->setText(tr("GEOM_STEP_U")); GroupPoints->TextLabel4->setText(tr("GEOM_NB_TIMES_U")); GroupPoints->CheckButton1->setText(tr("GEOM_REVERSE_U")); GroupPoints->PushButton1->setPixmap(image2); GroupPoints->PushButton2->setPixmap(image2); GroupDimensions = new DlgRef_3Sel4Spin2Check(this, "GroupDimensions"); GroupDimensions->GroupBox1->setTitle(tr("GEOM_MULTITRANSLATION_DOUBLE")); GroupDimensions->TextLabel1->setText(tr("GEOM_MAIN_OBJECT")); GroupDimensions->TextLabel2->setText(tr("GEOM_VECTOR_U")); GroupDimensions->TextLabel3->setText(tr("GEOM_VECTOR_V")); GroupDimensions->TextLabel4->setText(tr("GEOM_STEP_U")); GroupDimensions->TextLabel5->setText(tr("GEOM_NB_TIMES_U")); GroupDimensions->TextLabel6->setText(tr("GEOM_STEP_V")); GroupDimensions->TextLabel7->setText(tr("GEOM_NB_TIMES_V")); GroupDimensions->CheckButton1->setText(tr("GEOM_REVERSE_U")); GroupDimensions->CheckButton2->setText(tr("GEOM_REVERSE_V")); GroupDimensions->PushButton1->setPixmap(image2); GroupDimensions->PushButton2->setPixmap(image2); GroupDimensions->PushButton3->setPixmap(image2); Layout1->addWidget(GroupPoints, 1, 0); Layout1->addWidget(GroupDimensions, 1, 0); /***************************************************************/ /* Initialisations */ myTransformationGUI = theTransformationGUI; Init(); } //================================================================================= // function : ~TransformationGUI_MultiTranslationDlg() // purpose : Destroys the object and frees any allocated resources //================================================================================= TransformationGUI_MultiTranslationDlg::~TransformationGUI_MultiTranslationDlg() { // no need to delete child widgets, Qt does it all for us } //================================================================================= // function : Init() // purpose : //================================================================================= void TransformationGUI_MultiTranslationDlg::Init() { /* init variables */ myConstructorId = 0; myEditCurrentArgument = GroupPoints->LineEdit1; myStep1 = 50.0; myStep2 = 50.0; myNbTimes1 = 2; myNbTimes2 = 2; myOkBase = myOkDir1 = myOkDir2 = false; myEdgeFilter = new GEOM_ShapeTypeFilter(TopAbs_EDGE, myGeom); /* Get setting of step value from file configuration */ QString St = QAD_CONFIG->getSetting("Geometry:SettingsGeomStep"); step = St.toDouble(); double SpecificStep = 1; /* min, max, step and decimals for spin boxes & initial values */ GroupPoints->SpinBox_DX->RangeStepAndValidator(-999.999, 999.999, step, 3); GroupPoints->SpinBox_DY->RangeStepAndValidator(1.0, 999.999, SpecificStep, 3); GroupPoints->SpinBox_DX->SetValue(myStep1); GroupPoints->SpinBox_DY->SetValue(myNbTimes1); GroupDimensions->SpinBox_DX1->RangeStepAndValidator(-999.999, 999.999, step, 3); GroupDimensions->SpinBox_DY1->RangeStepAndValidator(1.0, 999.999, SpecificStep, 3); GroupDimensions->SpinBox_DX2->RangeStepAndValidator(-999.999, 999.999, step, 3); GroupDimensions->SpinBox_DY2->RangeStepAndValidator(1.0, 999.999, SpecificStep, 3); GroupDimensions->SpinBox_DX1->SetValue(myStep1); GroupDimensions->SpinBox_DY1->SetValue(myNbTimes1); GroupDimensions->SpinBox_DX2->SetValue(myStep2); GroupDimensions->SpinBox_DY2->SetValue(myNbTimes2); /* signals and slots connections */ connect(buttonOk, SIGNAL(clicked()), this, SLOT(ClickOnOk())); connect(buttonApply, SIGNAL(clicked()), this, SLOT(ClickOnApply())); connect(GroupConstructors, SIGNAL(clicked(int)), this, SLOT(ConstructorsClicked(int))); connect(GroupPoints->PushButton1, SIGNAL(clicked()), this, SLOT(SetEditCurrentArgument())); connect(GroupPoints->PushButton2, SIGNAL(clicked()), this, SLOT(SetEditCurrentArgument())); connect(GroupDimensions->PushButton1, SIGNAL(clicked()), this, SLOT(SetEditCurrentArgument())); connect(GroupDimensions->PushButton2, SIGNAL(clicked()), this, SLOT(SetEditCurrentArgument())); connect(GroupDimensions->PushButton3, SIGNAL(clicked()), this, SLOT(SetEditCurrentArgument())); connect(GroupPoints->LineEdit1, SIGNAL(returnPressed()), this, SLOT(LineEditReturnPressed())); connect(GroupPoints->LineEdit2, SIGNAL(returnPressed()), this, SLOT(LineEditReturnPressed())); connect(GroupDimensions->LineEdit1, SIGNAL(returnPressed()), this, SLOT(LineEditReturnPressed())); connect(GroupDimensions->LineEdit2, SIGNAL(returnPressed()), this, SLOT(LineEditReturnPressed())); connect(GroupDimensions->LineEdit3, SIGNAL(returnPressed()), this, SLOT(LineEditReturnPressed())); connect(GroupPoints->SpinBox_DX, SIGNAL(valueChanged(double)), this, SLOT(ValueChangedInSpinBox(double))); connect(GroupPoints->SpinBox_DY, SIGNAL(valueChanged(double)), this, SLOT(ValueChangedInSpinBox(double))); connect(GroupDimensions->SpinBox_DX1, SIGNAL(valueChanged(double)), this, SLOT(ValueChangedInSpinBox(double))); connect(GroupDimensions->SpinBox_DY1, SIGNAL(valueChanged(double)), this, SLOT(ValueChangedInSpinBox(double))); connect(GroupDimensions->SpinBox_DX2, SIGNAL(valueChanged(double)), this, SLOT(ValueChangedInSpinBox(double))); connect(GroupDimensions->SpinBox_DY2, SIGNAL(valueChanged(double)), this, SLOT(ValueChangedInSpinBox(double))); connect(myGeomGUI, SIGNAL(SignalDefaultStepValueChanged(double)), GroupPoints->SpinBox_DX, SLOT(SetStep(double))); connect(myGeomGUI, SIGNAL(SignalDefaultStepValueChanged(double)), GroupPoints->SpinBox_DY, SLOT(SetStep(double))); connect(myGeomGUI, SIGNAL(SignalDefaultStepValueChanged(double)), GroupDimensions->SpinBox_DX1, SLOT(SetStep(double))); connect(myGeomGUI, SIGNAL(SignalDefaultStepValueChanged(double)), GroupDimensions->SpinBox_DY1, SLOT(SetStep(double))); connect(myGeomGUI, SIGNAL(SignalDefaultStepValueChanged(double)), GroupDimensions->SpinBox_DX2, SLOT(SetStep(double))); connect(myGeomGUI, SIGNAL(SignalDefaultStepValueChanged(double)), GroupDimensions->SpinBox_DY2, SLOT(SetStep(double))); connect(GroupPoints->CheckButton1, SIGNAL(stateChanged(int)), this, SLOT(ReverseAngle1(int))); connect(GroupDimensions->CheckButton1, SIGNAL(stateChanged(int)), this, SLOT(ReverseAngle1(int))); connect(GroupDimensions->CheckButton2, SIGNAL(stateChanged(int)), this, SLOT(ReverseAngle2(int))); connect(mySelection, SIGNAL(currentSelectionChanged()), this, SLOT(SelectionIntoArgument())); /* displays Dialog */ GroupDimensions->hide(); GroupPoints->show(); this->show(); return; } //================================================================================= // function : ConstructorsClicked() // purpose : Radio button management //================================================================================= void TransformationGUI_MultiTranslationDlg::ConstructorsClicked(int constructorId) { myConstructorId = constructorId; mySelection->ClearFilters(); myGeomBase->EraseSimulationShape(); mySimulationTopoDs.Nullify(); disconnect(mySelection, 0, this, 0); myStep1 = 50.0; myStep2 = 50.0; myNbTimes1 = 2; myNbTimes2 = 2; myOkBase = myOkDir1 = myOkDir2 = false; switch (constructorId) { case 0: /* Translate simple */ { GroupDimensions->hide(); resize(0, 0); GroupPoints->show(); myEditCurrentArgument = GroupPoints->LineEdit1; GroupPoints->LineEdit1->setText(""); GroupPoints->LineEdit2->setText(""); GroupPoints->SpinBox_DX->SetValue(myStep1); GroupPoints->SpinBox_DY->SetValue(myNbTimes1); /* filter for next selection */ connect(mySelection, SIGNAL(currentSelectionChanged()), this, SLOT(SelectionIntoArgument())); break; } case 1: /* Translate double */ { GroupPoints->hide(); resize(0, 0); GroupDimensions->show(); myEditCurrentArgument = GroupDimensions->LineEdit1; GroupDimensions->LineEdit1->setText(""); GroupDimensions->LineEdit2->setText(""); GroupDimensions->LineEdit3->setText(""); GroupDimensions->SpinBox_DX1->SetValue(myStep1); GroupDimensions->SpinBox_DY1->SetValue(myNbTimes1); GroupDimensions->SpinBox_DX2->SetValue(myStep2); GroupDimensions->SpinBox_DY2->SetValue(myNbTimes2); /* filter for next selection */ connect(mySelection, SIGNAL(currentSelectionChanged()), this, SLOT(SelectionIntoArgument())); break; } } return; } //================================================================================= // function : ClickOnOk() // purpose : //================================================================================= void TransformationGUI_MultiTranslationDlg::ClickOnOk() { this->ClickOnApply(); ClickOnCancel(); return; } //================================================================================= // function : ClickOnApply() // purpose : //================================================================================= void TransformationGUI_MultiTranslationDlg::ClickOnApply() { buttonApply->setFocus(); QAD_Application::getDesktop()->putInfo(tr("")); if (mySimulationTopoDs.IsNull()) return; myGeomBase->EraseSimulationShape(); mySimulationTopoDs.Nullify(); if(myConstructorId == 0) { if(myOkBase && myOkDir1) myTransformationGUI->MakeMultiTranslation1DAndDisplay(myGeomShape, myDir1, myStep1, myNbTimes1); } else if(myConstructorId == 1) { if(myOkBase && myOkDir1 && myOkDir2) myTransformationGUI->MakeMultiTranslation2DAndDisplay(myGeomShape, myDir1, myStep1, myNbTimes1, myDir2, myStep2, myNbTimes2); } return; } //================================================================================= // function : SelectionIntoArgument() // purpose : Called when selection as changed or other case //================================================================================= void TransformationGUI_MultiTranslationDlg::SelectionIntoArgument() { myGeomBase->EraseSimulationShape(); mySimulationTopoDs.Nullify(); myEditCurrentArgument->setText(""); QString aString = ""; /* name of selection */ int nbSel = myGeomBase->GetNameOfSelectedIObjects(mySelection, aString); if(nbSel != 1) { if(myEditCurrentArgument == GroupPoints->LineEdit1 || myEditCurrentArgument == GroupDimensions->LineEdit1) myOkBase = false; else if(myEditCurrentArgument == GroupPoints->LineEdit2 || myEditCurrentArgument == GroupDimensions->LineEdit2) myOkDir1 = false; else if(myEditCurrentArgument == GroupDimensions->LineEdit3) myOkDir2 = false; return; } // nbSel == 1 TopoDS_Shape S; Standard_Boolean testResult; Handle(SALOME_InteractiveObject) IO = mySelection->firstIObject(); if(!myGeomBase->GetTopoFromSelection(mySelection, S)) return; switch(myConstructorId) { case 0 : { if(myEditCurrentArgument == GroupPoints->LineEdit1) { myGeomShape = myGeomBase->ConvertIOinGEOMShape(IO, testResult); if(!testResult) return; myEditCurrentArgument->setText(aString); myBase = S; myOkBase = true; } else if(myEditCurrentArgument == GroupPoints->LineEdit2) { BRepAdaptor_Curve curv(TopoDS::Edge(S)); myDir1 = curv.Line().Direction(); myEditCurrentArgument->setText(aString); myOkDir1 = true; } if(myOkBase && myOkDir1) this->MakeMultiTranslationSimulationAndDisplay(); break; } case 1 : { if(myEditCurrentArgument == GroupDimensions->LineEdit1) { myGeomShape = myGeomBase->ConvertIOinGEOMShape(IO, testResult); if(!testResult) return; myEditCurrentArgument->setText(aString); myBase = S; myOkBase = true; } else if(myEditCurrentArgument == GroupDimensions->LineEdit2) { BRepAdaptor_Curve curv(TopoDS::Edge(S)); myDir1 = curv.Line().Direction(); myEditCurrentArgument->setText(aString); myOkDir1 = true; } else if(myEditCurrentArgument == GroupDimensions->LineEdit3) { BRepAdaptor_Curve curv(TopoDS::Edge(S)); myDir2 = curv.Line().Direction(); myEditCurrentArgument->setText(aString); myOkDir2 = true; } if(myOkBase && myOkDir1 && myOkDir2) this->MakeMultiTranslationSimulationAndDisplay(); break; } } return; } //================================================================================= // function : SetEditCurrentArgument() // purpose : //================================================================================= void TransformationGUI_MultiTranslationDlg::SetEditCurrentArgument() { QPushButton* send = (QPushButton*)sender(); mySelection->ClearFilters(); if(send == GroupPoints->PushButton1) { GroupPoints->LineEdit1->setFocus(); myEditCurrentArgument = GroupPoints->LineEdit1; } else if(send == GroupPoints->PushButton2) { GroupPoints->LineEdit2->setFocus(); myEditCurrentArgument = GroupPoints->LineEdit2; mySelection->AddFilter(myEdgeFilter); } else if(send == GroupDimensions->PushButton1) { GroupDimensions->LineEdit1->setFocus(); myEditCurrentArgument = GroupDimensions->LineEdit1; } else if(send == GroupDimensions->PushButton2) { GroupDimensions->LineEdit2->setFocus(); myEditCurrentArgument = GroupDimensions->LineEdit2; mySelection->AddFilter(myEdgeFilter); } else if(send == GroupDimensions->PushButton3) { GroupDimensions->LineEdit3->setFocus(); myEditCurrentArgument = GroupDimensions->LineEdit3; mySelection->AddFilter(myEdgeFilter); } this->SelectionIntoArgument(); return; } //================================================================================= // function : LineEditReturnPressed() // purpose : //================================================================================= void TransformationGUI_MultiTranslationDlg::LineEditReturnPressed() { QLineEdit* send = (QLineEdit*)sender(); if(send == GroupPoints->LineEdit1) myEditCurrentArgument = GroupPoints->LineEdit1; else if (send == GroupPoints->LineEdit2) myEditCurrentArgument = GroupPoints->LineEdit2; else if (send == GroupDimensions->LineEdit1) myEditCurrentArgument = GroupDimensions->LineEdit1; else if (send == GroupDimensions->LineEdit2) myEditCurrentArgument = GroupDimensions->LineEdit2; else if (send == GroupDimensions->LineEdit3) myEditCurrentArgument = GroupDimensions->LineEdit3; else return; GEOMBase_Skeleton::LineEditReturnPressed(); return; } //================================================================================= // function : ActivateThisDialog() // purpose : //================================================================================= void TransformationGUI_MultiTranslationDlg::ActivateThisDialog() { GEOMBase_Skeleton::ActivateThisDialog(); connect(mySelection, SIGNAL(currentSelectionChanged()), this, SLOT(SelectionIntoArgument())); if(myConstructorId == 0) { GroupPoints->LineEdit1->setFocus(); myEditCurrentArgument = GroupPoints->LineEdit1; } else if(myConstructorId == 1) { GroupDimensions->LineEdit1->setFocus(); myEditCurrentArgument = GroupDimensions->LineEdit1; } if(!mySimulationTopoDs.IsNull()) myGeomBase->DisplaySimulationShape(mySimulationTopoDs); return; } //================================================================================= // function : enterEvent() // purpose : //================================================================================= void TransformationGUI_MultiTranslationDlg::enterEvent(QEvent* e) { if (GroupConstructors->isEnabled()) return; this->ActivateThisDialog(); return; } //================================================================================= // function : ValueChangedInSpinBox() // purpose : //================================================================================= void TransformationGUI_MultiTranslationDlg::ValueChangedInSpinBox(double newValue) { myGeomBase->EraseSimulationShape(); mySimulationTopoDs.Nullify(); QObject* send = (QObject*)sender(); switch(myConstructorId) { case 0 : { if(send == GroupPoints->SpinBox_DX) myStep1 = newValue; else if(send == GroupPoints->SpinBox_DY) myNbTimes1 = (int)newValue; if(myOkBase && myOkDir1) this->MakeMultiTranslationSimulationAndDisplay(); break; } case 1 : { if(send == GroupDimensions->SpinBox_DX1) myStep1 = newValue; else if(send == GroupDimensions->SpinBox_DY1) myNbTimes1 = (int)newValue; else if(send == GroupDimensions->SpinBox_DX2) myStep2 = newValue; else if(send == GroupDimensions->SpinBox_DY2) myNbTimes2 = (int)newValue; if(myOkBase && myOkDir1 && myOkDir2) this->MakeMultiTranslationSimulationAndDisplay(); break; } } return; } //================================================================================= // function : ReverseAngle1() // purpose : 'state' not used here //================================================================================= void TransformationGUI_MultiTranslationDlg::ReverseAngle1(int state) { myStep1 = -myStep1; if(myConstructorId == 0) { GroupPoints->SpinBox_DX->SetValue(myStep1); if(myOkBase && myOkDir1) this->MakeMultiTranslationSimulationAndDisplay(); } else if(myConstructorId == 1) { GroupDimensions->SpinBox_DX1->SetValue(myStep1); if(myOkBase && myOkDir1 && myOkDir2) this->MakeMultiTranslationSimulationAndDisplay(); } return; } //================================================================================= // function : ReverseAngle2() // purpose : 'state' not used here //================================================================================= void TransformationGUI_MultiTranslationDlg::ReverseAngle2(int state) { myStep2 = -myStep2; GroupDimensions->SpinBox_DX2->SetValue(myStep2); if(myOkBase && myOkDir1 && myOkDir2) MakeMultiTranslationSimulationAndDisplay(); return; } //================================================================================= // function : MakeMultiTranslationSimulationAndDisplay() // purpose : //================================================================================= void TransformationGUI_MultiTranslationDlg::MakeMultiTranslationSimulationAndDisplay() { myGeomBase->EraseSimulationShape(); mySimulationTopoDs.Nullify(); int i, j; Standard_Real DX, DY, DZ; gp_Trsf theTransformation; GProp_GProps System; TopoDS_Compound compound; BRep_Builder B; B.MakeCompound(compound); try { BRepGProp::LinearProperties(myBase, System); gp_Pnt myPoint = System.CentreOfMass(); TopoDS_Shape S = BRepBuilderAPI_MakeVertex(myPoint).Shape(); switch (myConstructorId) { case 0 : { gp_Vec Vec(myDir1); Vec.Normalize(); for(i = 0; i < myNbTimes1; i++) { DX = i * myStep1 * Vec.X(); DY = i * myStep1 * Vec.Y(); DZ = i * myStep1 * Vec.Z(); myVec.SetCoord(DX, DY, DZ); theTransformation.SetTranslation(myVec); BRepBuilderAPI_Transform myBRepTransformation(S, theTransformation, Standard_False); B.Add(compound, myBRepTransformation.Shape()); } mySimulationTopoDs = compound; myGeomBase->DisplaySimulationShape(mySimulationTopoDs); break; } case 1 : { gp_Vec Vec1(myDir1); Vec1.Normalize(); gp_Vec Vec2(myDir2); Vec2.Normalize(); for(i = 0; i < myNbTimes1; i++) { for(j = 0; j < myNbTimes2; j++) { DX = i * myStep1 * Vec1.X() + j * myStep2 * Vec2.X(); DY = i * myStep1 * Vec1.Y() + j * myStep2 * Vec2.Y(); DZ = i * myStep1 * Vec1.Z() + j * myStep2 * Vec2.Z(); myVec.SetCoord(DX, DY, DZ); theTransformation.SetTranslation(myVec); BRepBuilderAPI_Transform myBRepTransformation(S, theTransformation, Standard_False); B.Add(compound, myBRepTransformation.Shape()); } } mySimulationTopoDs = compound; myGeomBase->DisplaySimulationShape(mySimulationTopoDs); break; } } } catch(Standard_Failure) { MESSAGE("Exception catched in MakeMultitranslationSimulationAndDisplay"); return; } return; }