X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=src%2FHYDROGUI%2FHYDROGUI_Module.cxx;h=f861ac792105ff447509003d9ee25772dd21dba8;hb=80b3ef265c1b8564a52097094156256956017ae1;hp=c8da5e4d08c7e7451192408b1e43091dee9d5b36;hpb=b7337e3ea5eeb15fdad4eac991480a20405f8cff;p=modules%2Fhydro.git diff --git a/src/HYDROGUI/HYDROGUI_Module.cxx b/src/HYDROGUI/HYDROGUI_Module.cxx index c8da5e4d..f861ac79 100644 --- a/src/HYDROGUI/HYDROGUI_Module.cxx +++ b/src/HYDROGUI/HYDROGUI_Module.cxx @@ -1,12 +1,8 @@ -// Copyright (C) 2007-2013 CEA/DEN, EDF R&D, OPEN CASCADE -// -// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, -// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS -// +// Copyright (C) 2014-2015 EDF-R&D // 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. +// version 2.1 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of @@ -42,15 +38,19 @@ #include "HYDROGUI_PolylineOp.h" #include "HYDROGUI_SetColorOp.h" #include "HYDROGUI_ImportGeomObjectOp.h" +#include "HYDROGUI_ShowHideOp.h" +#include #include +#include #include #include -#include +#include +#include #include -#include +#include #include #include @@ -76,19 +76,17 @@ #include #include -#include -#include +#include #include #include +#include +#include +#include #include #include #include #include -#include -#include -#include -#include #include @@ -103,8 +101,7 @@ #include #include #include - -const double LOCAL_SELECTION_TOLERANCE = 0.0001; +#include static int ViewManagerId = 0; @@ -190,7 +187,6 @@ bool HYDROGUI_Module::activateModule( SUIT_Study* theStudy ) foreach ( const int anId, anObsoleteIds ) { myViewManagerMap.remove( anId ); myObjectStateMap.remove( anId ); - myObjectDisplayOrderMap.remove( anId ); myShapesMap.remove( anId ); myVTKPrsMap.remove( anId ); } @@ -238,6 +234,10 @@ bool HYDROGUI_Module::activateModule( SUIT_Study* theStudy ) } } +// SUIT_DataBrowser* ob = getApp()->objectBrowser(); +// SUIT_AbstractModel* treeModel = dynamic_cast( ob->model() ); +// treeModel->setAppropriate( SUIT_DataObject::VisibilityId, Qtx::Toggled ); + return aRes; } @@ -264,6 +264,12 @@ bool HYDROGUI_Module::deactivateModule( SUIT_Study* theStudy ) myVTKPrsMap.clear(); */ + // clear the status bar + SUIT_Desktop* aDesktop = getApp()->desktop(); + if ( aDesktop && aDesktop->statusBar() ) { + aDesktop->statusBar()->clearMessage(); + } + // clear the data model's list of copying objects HYDROGUI_DataModel::changeCopyingObjects( HYDROData_SequenceOfObjects() ); @@ -274,6 +280,7 @@ bool HYDROGUI_Module::deactivateModule( SUIT_Study* theStudy ) HYDROGUI_Tool::setOCCActionShown( this, OCCViewer_ViewWindow::MaximizedId, true ); + myActiveOperationMap.clear(); return LightApp_Module::deactivateModule( theStudy ); } @@ -330,12 +337,27 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, bool anIsRegion = false; bool anIsZone = false; bool anIsObstacle = false; + bool anIsStricklerTable = false; + bool anIsLandCoverMap = false; bool anIsStream = false; bool anIsChannel = false; bool anIsDigue = false; bool anIsDummyObject3D = false; bool anIsGroup = false; bool anIsObjectCanBeColored = false; + bool isRoot = false; + bool isStreamHasBottom = false; + + SUIT_SelectionMgr* aSelectionMgr = getApp()->selectionMgr(); + SUIT_DataOwnerPtrList anOwners; + aSelectionMgr->selected( anOwners ); + if( anIsObjectBrowser && anOwners.size()==1 ) + { + QString anEntry = anOwners[0]->keyString(); + LightApp_Study* aStudy = dynamic_cast( getApp()->activeStudy() ); + if( aStudy ) + isRoot = aStudy->isComponent( anEntry ); + } // Check the selected GEOM objects (take into account the Object Browser only) if ( anIsObjectBrowser ) { @@ -377,7 +399,7 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, anIsVisibleInSelection |= aVisibility; anIsHiddenInSelection |= !aVisibility; - if ( anObject->CanBeUpdated() && anObject->IsMustBeUpdated() ) + if ( anObject->CanBeUpdated() && anObject->IsMustBeUpdated( HYDROData_Entity::Geom_All ) ) { anIsMustObjectBeUpdated = true; } @@ -435,8 +457,18 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, anIsBathymetry = true; else if( anObjectKind == KIND_OBSTACLE ) anIsObstacle = true; + else if( anObjectKind == KIND_STRICKLER_TABLE ) + anIsStricklerTable = true; + else if( anObjectKind == KIND_LAND_COVER_MAP ) + anIsLandCoverMap = true; else if( anObjectKind == KIND_STREAM ) + { anIsStream = true; + Handle(HYDROData_Stream) aStream = + Handle(HYDROData_Stream)::DownCast( anObject ); + if ( !aStream.IsNull() ) + isStreamHasBottom = !aStream->GetBottomPolyline().IsNull(); + } else if( anObjectKind == KIND_CHANNEL ) anIsChannel = true; else if( anObjectKind == KIND_DIGUE ) @@ -448,7 +480,7 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, } if ( !anIsObjectCanBeColored ) - anIsObjectCanBeColored = HYDROGUI_SetColorOp::CanObjectBeColored( anObject ); + anIsObjectCanBeColored = HYDROGUI_SetColorOp::CanObjectBeColored( anObject, this ); } // Check if all selected objects are profiles @@ -482,10 +514,18 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, theMenu->addAction( action( CreateBoxId ) ); theMenu->addAction( action( CreateCylinderId ) ); break; + case KIND_STRICKLER_TABLE: + theMenu->addAction( action( ImportStricklerTableFromFileId ) ); + break; + case KIND_LAND_COVER_MAP: + theMenu->addAction( action( CreateLandCoverMapId ) ); + theMenu->addAction( action( ImportLandCoverMapId ) ); + break; case KIND_CALCULATION: theMenu->addAction( action( CreateCalculationId ) ); break; case KIND_POLYLINEXY: + theMenu->addAction( action( ImportPolylineId ) ); theMenu->addAction( action( CreatePolylineId ) ); break; case KIND_POLYLINE: @@ -548,6 +588,8 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, theMenu->addAction( action( CutImagesId ) ); theMenu->addAction( action( SplitImageId ) ); theMenu->addSeparator(); + theMenu->addAction( action( RecognizeContoursId ) ); + theMenu->addSeparator(); } else if( anIsBathymetry ) { @@ -559,6 +601,9 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, { theMenu->addAction( action( EditPolylineId ) ); theMenu->addSeparator(); + theMenu->addAction( action( SplitPolylinesId ) ); + theMenu->addAction( action( MergePolylinesId ) ); + theMenu->addSeparator(); } else if( anIsPolyline3D ) { @@ -585,6 +630,12 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, else if( anIsStream ) { theMenu->addAction( action( EditStreamId ) ); + if ( action( RiverBottomContextId ) ) + { + theMenu->addAction( action( RiverBottomContextId ) ); + action( RiverBottomContextId )->setEnabled( !isStreamHasBottom ); + } + theMenu->addAction( action( ProfileInterpolateId ) ); theMenu->addSeparator(); } else if( anIsChannel ) @@ -597,6 +648,41 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, theMenu->addAction( action( EditDigueId ) ); theMenu->addSeparator(); } + else if( anIsObstacle ) + { + theMenu->addAction( action( TranslateObstacleId ) ); + theMenu->addSeparator(); + } + else if( anIsStricklerTable ) + { + theMenu->addAction( action( EditStricklerTableId ) ); + theMenu->addAction( action( ExportStricklerTableFromFileId ) ); + theMenu->addAction( action( DuplicateStricklerTableId ) ); + theMenu->addSeparator(); + + Handle(HYDROData_StricklerTable) aTable = + Handle(HYDROData_StricklerTable)::DownCast( aSeq.First() ); + QString aCurrentTable = + HYDROGUI_DataObject::dataObjectEntry( getLandCoverColoringTable( anActiveViewId ) ); + bool isUsed = aCurrentTable == HYDROGUI_DataObject::dataObjectEntry( aTable ); + + if ( !isUsed && !getObjectShapes( anActiveViewId, KIND_LAND_COVER_MAP ).isEmpty() ) { + theMenu->addAction( action( LandCoverScalarMapModeOnId ) ); + theMenu->addSeparator(); + } + } + else if( anIsLandCoverMap ) + { + theMenu->addAction( action( AddLandCoverId ) ); + theMenu->addAction( action( RemoveLandCoverId ) ); + theMenu->addSeparator(); + theMenu->addAction( action( SplitLandCoverId ) ); + theMenu->addAction( action( MergeLandCoverId ) ); + theMenu->addAction( action( ChangeLandCoverTypeId ) ); + theMenu->addSeparator(); + // + theMenu->addAction( action( ExportToShapeFileID ) ); + } else if( anIsVisualState && anIsObjectBrowser ) { theMenu->addAction( action( SaveVisualStateId ) ); @@ -604,16 +690,18 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, theMenu->addSeparator(); } - // Add set color action for geometrical objects - if ( anIsObjectCanBeColored ) + if ( anIsStream || anIsChannel || anIsDigue || anIsObstacle ) { - theMenu->addAction( action( SetColorId ) ); + theMenu->addAction( action( PolylineExtractionId ) ); theMenu->addSeparator(); } - // Add copy action - if( aModel->canCopy() ) { - theMenu->addAction( action( CopyId ) ); + // Add set color action for geometrical objects + if ( anIsObjectCanBeColored ) + { + theMenu->addAction( action( SetColorId ) ); + if ( anIsLandCoverMap ) + theMenu->addAction( action( SetTransparencyId ) ); theMenu->addSeparator(); } } else if ( anAllAreProfiles ) { @@ -621,15 +709,28 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, theMenu->addSeparator(); } + bool anIsPoly = anIsPolyline || anIsPolyline3D; + if (anIsPoly && !anIsLandCoverMap) + theMenu->addAction( action( ExportToShapeFileID ) ); + + // Add copy action + QAction* aCopyAction = action( CopyId ); + if( aCopyAction && aCopyAction->isEnabled() ) { + theMenu->addAction( action( CopyId ) ); + theMenu->addSeparator(); + } + + // Add delete action if( !anIsDummyObject3D ) theMenu->addAction( action( DeleteId ) ); + theMenu->addSeparator(); if( anIsImage || anIsPolyline || anIsPolyline3D || anIsImmersibleZone || anIsZone || anIsRegion || anIsBathymetry || anIsObstacle || anIsStream || anIsChannel || anIsDigue || anIsDummyObject3D || - anIsValidProfile || anIsGroup ) + anIsValidProfile || anIsGroup || anIsLandCoverMap ) { if( anIsHiddenInSelection ) theMenu->addAction( action( ShowId ) ); @@ -646,6 +747,15 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, HYDROGUI_PolylineOp* aPolylineOp = dynamic_cast( anOp ); if ( aPolylineOp && aPolylineOp->deleteEnabled() ) theMenu->addAction( action( DeleteId ) ); + + theMenu->addSeparator(); + theMenu->addAction( action( SetZLevelId ) ); + theMenu->addSeparator(); + + if ( isLandCoversScalarMapModeOn( anActiveViewId ) ) { + theMenu->addAction( action( LandCoverScalarMapModeOffId ) ); + theMenu->addSeparator(); + } } if( anIsObjectBrowser || anIsGraphicsView || anIsOCCView || anIsVTKView ) @@ -654,11 +764,93 @@ void HYDROGUI_Module::contextMenuPopup( const QString& theClient, theMenu->addAction( action( HideAllId ) ); theMenu->addSeparator(); } + + if ( anIsOCCView || anIsVTKView ) + { + theMenu->addSeparator(); + theMenu->addAction( action( CopyViewerPositionId ) ); + } + + if( isRoot ) + theMenu->addAction( action( EditLocalCSId ) ); + + if( anIsObjectBrowser && anOwners.size()==1 ) + { + if( aSeq.Size() > 0 ) + { + Handle( HYDROData_Object ) anObject = Handle( HYDROData_Object )::DownCast( aSeq.First() ); + if( !anObject.IsNull() ) + { + theMenu->addSeparator(); + theMenu->addAction( action( SubmersibleId ) ); + action( SubmersibleId )->setCheckable( true ); + action( SubmersibleId )->setChecked( anObject->IsSubmersible() ); + } + } + } +} + +void HYDROGUI_Module::createPreferences() +{ + int genTab = addPreference( tr( "PREF_TAB_GENERAL" ) ); + int CursorGroup = addPreference( tr( "PREF_GROUP_CURSOR" ), genTab ); + + int typeOfCursor = addPreference( tr( "PREF_TYPE_OF_CURSOR" ), CursorGroup, + LightApp_Preferences::Selector, "preferences", "type_of_cursor" ); + + // Set property cursor type + QList aCursorTypeIndicesList; + QList aCursorTypeIconsList; + + SUIT_ResourceMgr* resMgr = SUIT_Session::session()->resourceMgr(); + for ( int i = CT_ArrowCursor; i < CT_User; i++ ) { + QString icoFile = QString( "ICON_CURSOR_%1" ).arg( i+1 ); + QPixmap pixmap = resMgr->loadPixmap( "HYDRO", tr( qPrintable( icoFile ) ) ); + aCursorTypeIndicesList << i; + aCursorTypeIconsList << pixmap; + } + + setPreferenceProperty( typeOfCursor, "indexes", aCursorTypeIndicesList ); + setPreferenceProperty( typeOfCursor, "icons", aCursorTypeIconsList ); + + int viewerGroup = addPreference( tr( "PREF_GROUP_VIEWER" ), genTab ); + addPreference( tr( "PREF_VIEWER_AUTO_FITALL" ), viewerGroup, + LightApp_Preferences::Bool, "HYDRO", "auto_fit_all" ); + + int StricklerTableGroup = addPreference( tr( "PREF_GROUP_STRICKLER_TABLE" ), genTab ); + int defaultStricklerCoef = addPreference( tr( "PREF_DEFAULT_STRICKLER_COEFFICIENT" ), StricklerTableGroup, + LightApp_Preferences::DblSpin, "preferences", "default_strickler_coefficient" ); + setPreferenceProperty( defaultStricklerCoef, "precision", 2 ); + setPreferenceProperty( defaultStricklerCoef, "min", 0.00 ); + setPreferenceProperty( defaultStricklerCoef, "max", 1000000.00 ); + setPreferenceProperty( defaultStricklerCoef, "step", 0.01 ); +} + +void HYDROGUI_Module::preferencesChanged( const QString& theSection, const QString& thePref ) +{ + if ( theSection == "preferences" && thePref == "default_strickler_coefficient" ) + { + SUIT_ResourceMgr* resMgr = application()->resourceMgr(); + Handle(HYDROData_Document) aDoc = HYDROData_Document::Document( application()->activeStudy()->id() ); + if ( resMgr && !aDoc.IsNull() ) + aDoc->SetDefaultStricklerCoefficient( resMgr->doubleValue( theSection, thePref, 0 ) ); + } + else + LightApp_Module::preferencesChanged( theSection, thePref ); +} + +QCursor HYDROGUI_Module::getPrefEditCursor() const +{ + int aCursorType = SUIT_Session::session()->resourceMgr()->integerValue("preferences", "type_of_cursor", (int)CT_CrossCursor ); + if ( aCursorType >= Qt::BlankCursor) + aCursorType++; + QCursor aCursor = QCursor( Qt::CursorShape(aCursorType) ); + return aCursor; } void HYDROGUI_Module::update( const int flags ) { - if( !isUpdateEnabled() ) + if ( !isUpdateEnabled() ) return; QApplication::setOverrideCursor( Qt::WaitCursor ); @@ -671,6 +863,12 @@ void HYDROGUI_Module::update( const int flags ) QStringList aSelectedEntries = storeSelection(); bool aDoFitAll = flags & UF_FitAll; + if ( aDoFitAll ) + { + SUIT_ResourceMgr* aResMgr = getApp()->resourceMgr(); + aDoFitAll = aResMgr->booleanValue( "HYDRO", "auto_fit_all", false ); + } + if( ( flags & UF_Viewer ) ) updateViewer( getDisplayer(), flags & UF_GV_Init, flags & UF_GV_Forced, aDoFitAll ); @@ -841,6 +1039,17 @@ bool HYDROGUI_Module::isObjectVisible( const int theViewId, if( theObject.IsNull() ) return false; + if( theViewId < 0 ) + { + //search in all + foreach( int aViewId, myObjectStateMap.keys() ) + { + if( isObjectVisible( aViewId, theObject ) ) + return true; + } + return false; + } + ViewId2Entry2ObjectStateMap::const_iterator anIter1 = myObjectStateMap.find( theViewId ); if( anIter1 != myObjectStateMap.end() ) { @@ -869,11 +1078,20 @@ void HYDROGUI_Module::setObjectVisible( const int theViewId, ObjectState& anObjectState = aEntry2ObjectStateMap[ anEntry ]; anObjectState.Visibility = theState; - // Remember the display order ( needed for Z layers assignment only ) - QStringList& anObjectEntries = myObjectDisplayOrderMap[ theViewId ]; - anObjectEntries.removeAll( anEntry ); - if ( theState ) { - anObjectEntries.append( anEntry ); + HYDROGUI_DataObject* hydroObject = getDataModel()->getDataObject( theObject ); + if ( hydroObject ) + { + SUIT_AbstractModel* treeModel = dynamic_cast( getApp()->objectBrowser()->model() ); + QString id = hydroObject->text( hydroObject->customData( Qtx::IdType ).toInt() ); + Qtx::VisibilityState visState = treeModel->visibilityState( id ); + if ( visState != Qtx::UnpresentableState ) + treeModel->setVisibilityState( id, theState ? Qtx::ShownState : Qtx::HiddenState ); + } + + if ( theObject->GetKind() == KIND_BATHYMETRY && theState ) { + setLandCoversScalarMapModeOff( theViewId ); + } else if ( theObject->GetKind() == KIND_LAND_COVER_MAP && theState ) { + getOCCDisplayer()->SetToUpdateColorScale(); } } } @@ -915,6 +1133,23 @@ void HYDROGUI_Module::setIsToUpdate( const Handle(HYDROData_Entity)& theObject, } /////////////////// OCC SHAPES PROCESSING +QList HYDROGUI_Module::getObjectShapes( const int theViewId, + ObjectKind theKind ) const +{ + QList aResult; + + if ( myShapesMap.contains( theViewId ) ) + { + const ListOfShapes& aViewShapes = myShapesMap.value( theViewId ); + foreach ( HYDROGUI_Shape* aShape, aViewShapes ) + { + if( aShape && aShape->getObject()->GetKind()==theKind ) + aResult.append( aShape ); + } + } + return aResult; +} + HYDROGUI_Shape* HYDROGUI_Module::getObjectShape( const int theViewId, const Handle(HYDROData_Entity)& theObject ) const { @@ -1047,6 +1282,35 @@ void HYDROGUI_Module::setObjectVTKPrs( const int theViewId aViewShapes.append( theShape ); } +void HYDROGUI_Module::removeObjectVTKPrs( const int theViewId, + const QString& theEntry ) +{ + if ( !myVTKPrsMap.contains( theViewId ) ) + return; + + ListOfVTKPrs& aViewShapes = myVTKPrsMap[ theViewId ]; + Handle(HYDROData_Entity) anObject; + QString anEntryRef; + for ( int i = 0; i < aViewShapes.length(); ) + { + HYDROGUI_VTKPrs* aShape = aViewShapes.at( i ); + anObject = aShape->getObject(); + anEntryRef = HYDROGUI_DataObject::dataObjectEntry( anObject ); + if ( aShape && (!anObject.IsNull()) && ( anEntryRef == theEntry ) ) + { + delete aShape; + aViewShapes.removeAt( i ); + continue; + } + + ++i; + } + + // Invalidate global Z range + double anInvalidRange[2] = { HYDROGUI_VTKPrs::InvalidZValue(), HYDROGUI_VTKPrs::InvalidZValue() }; + getVTKDisplayer()->SetZRange( theViewId, anInvalidRange ); +} + void HYDROGUI_Module::removeObjectVTKPrs( const int theViewId, const Handle(HYDROData_Entity)& theObject ) { @@ -1111,6 +1375,11 @@ void HYDROGUI_Module::updateVTKZRange( const int theViewId, double theRange[] ) } /////////////////// END OF VTKPrs PROCESSING +void HYDROGUI_Module::clearCache() +{ + myObjectStateMap.clear(); +} + CAM_DataModel* HYDROGUI_Module::createDataModel() { return new HYDROGUI_DataModel( this ); @@ -1232,8 +1501,11 @@ void HYDROGUI_Module::onViewManagerRemoved( SUIT_ViewManager* theViewManager ) if ( anOCCViewManager ) { OCCViewer_Viewer* anOCCViewer = anOCCViewManager->getOCCViewer(); - if ( anOCCViewer ) - removeViewShapes( (size_t)anOCCViewer ); + if ( anOCCViewer ) { + int aViewerId = (size_t)anOCCViewer; + removeViewShapes( aViewerId ); + setLandCoversScalarMapModeOff( aViewerId ); + } } if ( getVTKDisplayer()->IsApplicable( theViewManager ) ) @@ -1448,96 +1720,145 @@ void HYDROGUI_Module::restoreSelection( const QStringList& theEntryList ) } } -void HYDROGUI_Module::onMouseMove( SUIT_ViewWindow* theViewWindow, QMouseEvent* theEvent ) +void HYDROGUI_Module::onMouseMove( SUIT_ViewWindow* theViewWindow, QMouseEvent* ) { - OCCViewer_ViewWindow* anOCCViewWindow = - dynamic_cast(theViewWindow); + double X, Y, Z; bool doShow = false; - gp_Pnt aPnt; - if ( anOCCViewWindow ) { - // Get the selected point coordinates - OCCViewer_ViewPort3d* aViewPort = anOCCViewWindow->getViewPort(); - if ( !aViewPort ) { - return; - } + HYDROGUI_Displayer* aDisplayer = getDisplayer(); + if ( aDisplayer ) + aDisplayer->SaveCursorViewPosition( theViewWindow ); + doShow = aDisplayer->GetCursorViewCoordinates( theViewWindow, X, Y, Z ); - aPnt = CurveCreator_Utils::ConvertClickToPoint( theEvent->x(), theEvent->y(), - aViewPort->getView() ); - doShow = true; - } - else - { - SVTK_ViewWindow* aViewWindow = - dynamic_cast(theViewWindow); - if ( aViewWindow ) { - vtkRenderer* aRen = aViewWindow->getRenderer(); - if ( aRen ) - { - vtkCamera* aCamera = aRen->GetActiveCamera(); - double* aNormal = aCamera->GetViewPlaneNormal(); - int event_x, event_y; - vtkRenderWindowInteractor* anInteractor = aViewWindow->getInteractor(); - if ( anInteractor ) - { - anInteractor->GetLastEventPosition(event_x, event_y); - // Use a WorldPicker to get current coords - myPicker->Pick( event_x, event_y, 0, aRen ); - double* aCoords = myPicker->GetPickPosition(); - /////////////////////// Use the same algorithm as for OCC - double X, Y, Z; - double aXp, aYp, aZp; - double Vx, Vy, Vz; - X = aCoords[0]; - Y = aCoords[1]; - Z = aCoords[2]; - Vx = aNormal[0]; - Vy = aNormal[1]; - Vz = aNormal[2]; - Standard_Real aPrec = LOCAL_SELECTION_TOLERANCE; - if ( fabs( Vz ) > aPrec ) { - double aT = -Z/Vz; - aXp = X + aT*Vx; - aYp = Y + aT*Vy; - aZp = Z + aT*Vz; - } - else { // Vz = 0 - the eyed plane is orthogonal to Z plane - XOZ, or YOZ - aXp = aYp = aZp = 0; - if ( fabs( Vy ) < aPrec ) // Vy = 0 - the YOZ plane - aYp = Y; - else if ( fabs( Vx ) < aPrec ) // Vx = 0 - the XOZ plane - aXp = X; - } - ///////////////////////// - doShow = true; - aPnt.SetX( aXp ); - aPnt.SetY( aYp ); - } - } - } - } if ( doShow ) { // Show the coordinates in the status bar SUIT_Desktop* aDesktop = getApp()->desktop(); - if ( aDesktop && aDesktop->statusBar() ) { - QString aX = HYDROGUI_Tool::GetCoordinateString( aPnt.X() ); - QString anY = HYDROGUI_Tool::GetCoordinateString( aPnt.Y() ); - aDesktop->statusBar()->showMessage( tr("COORDINATES_INFO").arg( aX ).arg( anY ) ); + if ( aDesktop && aDesktop->statusBar() ) + { + gp_Pnt aWPnt( X, Y, Z ); + int aStudyId = application()->activeStudy()->id(); + HYDROData_Document::Document( aStudyId )->Transform( aWPnt, false ); + double WX = aWPnt.X(), WY = aWPnt.Y(); + + QString aXStr = HYDROGUI_Tool::GetCoordinateString( X, true ); + QString anYStr = HYDROGUI_Tool::GetCoordinateString( Y, true ); + QString aWXStr = HYDROGUI_Tool::GetCoordinateString( WX, true ); + QString aWYStr = HYDROGUI_Tool::GetCoordinateString( WY, true ); + QString aMsg = tr( "COORDINATES_INFO" ); + aMsg = aMsg.arg( aXStr ).arg( anYStr ).arg( aWXStr ).arg( aWYStr ); + aDesktop->statusBar()->showMessage( aMsg ); } } } /** - * Get the object display order. Needed for Z layers assignment only. + * Returns stack of active operations; */ -int HYDROGUI_Module::getObjectDisplayOrder( - const int theViewId, const Handle(HYDROData_Entity)& theObject) const +QStack& HYDROGUI_Module::getActiveOperations() { - if( theObject.IsNull() ) - return -1; + return myActiveOperationMap; +} - QString anEntry = HYDROGUI_DataObject::dataObjectEntry( theObject ); - QStringList anObjectEntries = myObjectDisplayOrderMap.value( theViewId ); +/** + * Returns the module active operation. If the active operation is show/hide, + * the method returns the previous operation if it is. + */ +HYDROGUI_Operation* HYDROGUI_Module::activeOperation() +{ + HYDROGUI_Operation* anOp = !myActiveOperationMap.empty() ? myActiveOperationMap.top() : 0; + + if ( dynamic_cast( anOp ) ) + { + QVectorIterator aVIt( myActiveOperationMap ); + aVIt.toBack(); + aVIt.previous(); // skip the top show/hide operation + anOp = aVIt.hasPrevious() ? aVIt.previous() : 0; + } + + return anOp; +} + +/*! + * \brief Virtual public slot + * + * This method is called after the object inserted into data view to update their visibility state + * This is default implementation + */ +void HYDROGUI_Module::onObjectClicked( SUIT_DataObject* theObject, int theColumn ) +{ + if ( !isActiveModule() ) + return; + + HYDROGUI_DataObject* hydroObject = dynamic_cast( theObject ); + + // change visibility of object + if ( !hydroObject || theColumn != SUIT_DataObject::VisibilityId ) + return; + + SUIT_AbstractModel* treeModel = dynamic_cast( getApp()->objectBrowser()->model() ); + + QString id = theObject->text( theObject->customData( Qtx::IdType ).toInt() ); + Qtx::VisibilityState visState = treeModel->visibilityState( id ); + if ( visState == Qtx::UnpresentableState ) + return; + + visState = visState == Qtx::ShownState ? Qtx::HiddenState : Qtx::ShownState; + treeModel->setVisibilityState( id, visState ); + + bool vis = visState == Qtx::ShownState; + if ( vis == isObjectVisible( HYDROGUI_Tool::GetActiveViewId( this ), hydroObject->modelObject() ) ) + return; + + setObjectVisible( HYDROGUI_Tool::GetActiveViewId( this ), hydroObject->modelObject(), vis ); + + update( UF_OCCViewer | ( visState == Qtx::ShownState ? UF_FitAll : 0 ) ); +} - return anObjectEntries.indexOf( anEntry ); -} \ No newline at end of file +Handle(HYDROData_StricklerTable) HYDROGUI_Module::getLandCoverColoringTable( const int theViewId ) const +{ + Handle(HYDROData_StricklerTable) aTable; + + if ( myLandCoverColoringMap.contains( theViewId ) ) { + aTable = myLandCoverColoringMap.value( theViewId ); + } + + return aTable; +} + +void HYDROGUI_Module::setLandCoverColoringTable( const int theViewId, + const Handle(HYDROData_StricklerTable)& theTable ) +{ + if ( !theTable.IsNull() ) { + myLandCoverColoringMap.insert( theViewId, theTable ); + } +} + +void HYDROGUI_Module::setLandCoversScalarMapModeOff( const int theViewId ) +{ + myLandCoverColoringMap.remove( theViewId ); +} + +bool HYDROGUI_Module::isLandCoversScalarMapModeOn( const int theViewId ) const +{ + return myLandCoverColoringMap.contains( theViewId ); +} + +void HYDROGUI_Module::setObjectRemoved( const Handle(HYDROData_Entity)& theObject ) +{ + if ( theObject.IsNull() || !theObject->IsRemoved() ) { + return; + } + + if ( theObject->GetKind() == KIND_STRICKLER_TABLE ) { + Handle(HYDROData_StricklerTable) aTable = + Handle(HYDROData_StricklerTable)::DownCast( theObject ); + QList aViewIds; + QMutableMapIterator anIter( myLandCoverColoringMap ); + while ( anIter.hasNext() ) { + if ( HYDROGUI_DataObject::dataObjectEntry( anIter.next().value() ) == + HYDROGUI_DataObject::dataObjectEntry( aTable ) ) { + anIter.remove(); + } + } + } +}