-// 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
#include "HYDROGUI_DataModel.h"
#include "HYDROGUI_Module.h"
-#include "HYDROGUI_Tool.h"
-#include "HYDROGUI_Shape.h"
+#include "HYDROGUI_Tool2.h"
+#include <HYDROGUI_ShapeImage.h>
+#include <HYDROGUI_ShapeBathymetry.h>
+#include <HYDROGUI_ShapeLandCoverMap.h>
#include "HYDROGUI_Operation.h"
#include "HYDROGUI_DataObject.h"
+#include "HYDROGUI_ZLayers.h"
+#include "HYDROGUI_Polyline.h"
+
+#include <HYDROData_Bathymetry.h>
+#include <HYDROData_Image.h>
+#include <HYDROData_LandCoverMap.h>
+#include <HYDROData_StricklerTable.h>
#include <AIS_InteractiveContext.hxx>
#include <AIS_ListIteratorOfListOfInteractive.hxx>
#include <AIS_ListOfInteractive.hxx>
+#include <AIS_ColorScale.hxx>
#include <TColStd_SequenceOfInteger.hxx>
#include <OCCViewer_ViewManager.h>
#include <OCCViewer_ViewModel.h>
#include <OCCViewer_ViewWindow.h>
+#include <OCCViewer_ViewPort3d.h>
HYDROGUI_OCCDisplayer::HYDROGUI_OCCDisplayer( HYDROGUI_Module* theModule )
: HYDROGUI_AbstractDisplayer( theModule )
{
+ myToUpdateColorScale = false;
}
HYDROGUI_OCCDisplayer::~HYDROGUI_OCCDisplayer()
}
}
-int HYDROGUI_OCCDisplayer::AddTopZLayer( OCCViewer_ViewManager* theMgr )
+int HYDROGUI_OCCDisplayer::AddPreviewZLayer( OCCViewer_ViewManager* theMgr )
{
int aLayer = -1;
OCCViewer_Viewer* aViewer = theMgr->getOCCViewer();
if ( !aViewer )
return aLayer;
- Standard_Integer aNewId = -1;
- if ( aViewer->getViewer3d()->AddZLayer( aNewId ) )
- aLayer = aNewId;
+ aLayer = CreateTopZLayer( aViewer->getViewer3d() );
+
+ // Hilight presentation should be on top
+ Handle(AIS_InteractiveContext) aCtx = aViewer->getAISContext();
+ if( !aCtx.IsNull() ) {
+ int aTopLayer = CreateTopZLayer( aViewer->getViewer3d() );
+ if ( aTopLayer > 0 ) {
+ UpdateZLayersOfHilightPresentationsOfDisplayedObjects( aCtx, aTopLayer );
+ }
+ }
return aLayer;
}
return;
module()->removeViewShapes( (size_t)aViewer );
+ UpdateColorScale( aViewer );
}
void HYDROGUI_OCCDisplayer::Erase( const HYDROData_SequenceOfObjects& theObjs,
module()->removeObjectShape( (size_t)aViewer, anObj );
}
aViewer->update();
+ if ( !module()->isLandCoversScalarMapModeOn( (size_t)aViewer ) ) {
+ UpdateColorScale( aViewer );
+ }
}
HYDROGUI_Shape* HYDROGUI_OCCDisplayer::createShape( const int theViewerId,
if ( !HYDROGUI_Tool::IsObjectHasPresentation( theObject, OCCViewer_Viewer::Type() ) )
return aResShape;
- aResShape = new HYDROGUI_Shape( theContext, theObject );
+ if( theObject->IsKind( STANDARD_TYPE( HYDROData_Image ) ) )
+ aResShape = new HYDROGUI_ShapeImage( theContext, Handle(HYDROData_Image)::DownCast( theObject ) );
+ else if( theObject->IsKind( STANDARD_TYPE( HYDROData_Bathymetry ) ) )
+ aResShape = new HYDROGUI_ShapeBathymetry( this, theContext, Handle(HYDROData_Bathymetry)::DownCast( theObject ) );
+ else if( theObject->IsKind( STANDARD_TYPE( HYDROData_LandCoverMap ) ) ) {
+ bool isScalarMode = module()->isLandCoversScalarMapModeOn( theViewerId );
+ aResShape = new HYDROGUI_ShapeLandCoverMap( this, theContext, Handle(HYDROData_LandCoverMap)::DownCast( theObject ), -1, isScalarMode );
+ }
+ else
+ aResShape = new HYDROGUI_Shape( theContext, theObject );
+
module()->setObjectShape( theViewerId, theObject, aResShape );
return aResShape;
// Get 3d viewer
Handle(V3d_Viewer) aViewer3d = aViewer->getViewer3d();
- // Get existing Z layers
- TColStd_SequenceOfInteger anExistingZLayers;
- aViewer3d->GetAllZLayers( anExistingZLayers );
- int aNbLayers = anExistingZLayers.Length();
-
- // Display objects
- int aNextZLayerIndex = 2; // don't use the first default Z layer ( which index = 1 )
+ // Display objects:
+ HYDROGUI_ZLayersIterator aZLayersIt( aViewer->getViewer3d() );
+ if ( !aZLayersIt.More() ) {
+ aZLayersIt.Next();
+ }
// 1. Display the ordered objects:
HYDROData_SequenceOfObjects::Iterator anOrderedIter( anOrderedToDisplay );
for ( ; anOrderedIter.More(); anOrderedIter.Next() ) {
Handle(HYDROData_Entity) anObj = anOrderedIter.Value();
- if ( Display( anObj, aViewer, theIsForced, aNextZLayerIndex, true ) ) {
- aNextZLayerIndex++;
+ if ( Display( anObj, aViewer, theIsForced ) ) {
+ // set Z layer ( one Z layer for each ordered object )
+ int aZLayerId = aZLayersIt.LayerId();
+ SetZLayer( aViewer, anObj, aZLayerId );
+ SetZLayerSettings( aViewer3d, aZLayerId, true );
+ aZLayersIt.Next();
}
}
// 2. Display the unordered objects:
bool isDisplayed = false;
+ int anUnorderedZLayerId = aZLayersIt.LayerId();
HYDROData_SequenceOfObjects::Iterator anUnorderedIter( anUnorderedToDisplay );
for ( ; anUnorderedIter.More(); anUnorderedIter.Next() ) {
Handle(HYDROData_Entity) anObj = anUnorderedIter.Value();
- if ( Display( anObj, aViewer, theIsForced, aNextZLayerIndex, false ) ) {
+ if ( Display( anObj, aViewer, theIsForced) ) {
+ // set Z layer ( one Z layer for all unordered objects )
+ SetZLayer( aViewer, anObj, anUnorderedZLayerId );
+ if ( !isDisplayed ) {
+ SetZLayerSettings( aViewer3d, anUnorderedZLayerId, false );
+ }
isDisplayed = true;
}
}
// 3. Update the top Z layer index
if ( isDisplayed ) {
- aNextZLayerIndex++;
+ aZLayersIt.Next();
}
// Update Z layer of the active operation
- aViewer3d->GetAllZLayers( anExistingZLayers );
+ int aPreviewZLayerId = aZLayersIt.LayerId();
HYDROGUI_Module* aModule = module();
SUIT_Operation* anOp = aModule->activeOperation();
HYDROGUI_Operation* aHOp = anOp ? dynamic_cast<HYDROGUI_Operation*>( anOp ) : 0;
if ( aHOp && aHOp->getPreviewZLayer() >= 0 ) {
- Standard_Integer aLayerId = -1;
- if ( aNextZLayerIndex <= aNbLayers )
- aLayerId = anExistingZLayers.Value( aNextZLayerIndex );
- else {
- Standard_Integer aNewId = -1;
- if ( aViewer->getViewer3d()->AddZLayer( aNewId ) ) {
- aLayerId = aNewId;
- }
- }
- aHOp->updatePreviewZLayer( aLayerId );
+ aHOp->updatePreviewZLayer( aPreviewZLayerId );
+ aZLayersIt.Next();
}
- if ( theDoFitAll )
- {
+ // Update Z layer of hilight presentations
+ int aHilightLayer = aZLayersIt.TopLayer();
+ UpdateZLayersOfHilightPresentationsOfDisplayedObjects( aCtx, aHilightLayer );
+
+ // Fit all / update selection
+ if ( theDoFitAll ) {
OCCViewer_ViewManager* aViewManager
= ::qobject_cast<OCCViewer_ViewManager*>( aViewer->getViewManager() );
- if ( aViewManager )
- {
+ if ( aViewManager ) {
OCCViewer_ViewWindow* aViewWindow =
::qobject_cast<OCCViewer_ViewWindow*>( aViewManager->getActiveView() );
- if ( aViewWindow )
- {
+ if ( aViewWindow ) {
aViewWindow->onFitAll();
}
}
+ }
+ else if ( !aCtx.IsNull() ) { // TODO: determine if this code is necessary (added as a fix for issue# 359)
+ aCtx->UpdateSelected(true);
}
- else if ( !aCtx.IsNull() ) // TODO: determine if this code is necessary (added as a fix for issue# 359)
- {
- aCtx->UpdateSelected();
- }
+
+ UpdateColorScale( aViewer );
}
void HYDROGUI_OCCDisplayer::purgeObjects( const int theViewerId )
if ( !anOwnerObj.IsNull() && anOwnerObj->IsRemoved() )
module()->removeObjectShape( (size_t)aViewer, anOwnerObj );
}
+ UpdateColorScale( aViewer );
}
QString HYDROGUI_OCCDisplayer::GetType() const
bool HYDROGUI_OCCDisplayer::Display( const Handle(HYDROData_Entity)& theObject,
const OCCViewer_Viewer* theViewer,
- const bool theIsForced,
- const int theZLayerIndex,
- const bool theIsOrdered )
+ const bool theIsForced )
{
bool aRes = false;
// create if needed
if ( !anObjShape ) {
anObjShape = createShape( aViewerId, aCtx, theObject );
- anObjShape->setIsToUpdate( true );
+ if ( anObjShape ) {
+ anObjShape->setIsToUpdate( true );
+ }
}
// Process the shape
if ( anObjShape ) {
// update if needed
if ( anObjShape->getIsToUpdate() || theIsForced ) {
- anObjShape->update( false );
+ anObjShape->update( false, false );
}
// Set visibility
bool anIsVisible = module()->isObjectVisible( aViewerId, theObject );
anObjShape->setVisible( anIsVisible, false );
- // Set Z layer
- Handle(V3d_Viewer) aViewer3d = theViewer->getViewer3d();
- if ( !aViewer3d.IsNull() ) {
- // Get existing layers
- TColStd_SequenceOfInteger anExistingZLayers;
- aViewer3d->GetAllZLayers( anExistingZLayers );
- int aNbLayers = anExistingZLayers.Length();
+ aRes = true;
+ }
+
+ return aRes;
+}
+
+void HYDROGUI_OCCDisplayer::SetZLayer( const OCCViewer_Viewer* theViewer,
+ const Handle(HYDROData_Entity)& theObject,
+ const int theZLayerId )
+{
+ if ( !theViewer /*|| ( theZLayerId < 0 )*/ ) {
+ return;
+ }
+
+ // Get interactive context
+ Handle(AIS_InteractiveContext) aCtx = theViewer->getAISContext();
+ if( aCtx.IsNull() ) {
+ return;
+ }
+
+ // Get viewer id
+ size_t aViewerId = (size_t)theViewer;
+
+ // Get object shape
+ HYDROGUI_Shape* anObjShape = module()->getObjectShape( aViewerId, theObject );
+
+ // Set Z layer
+ if ( anObjShape )
+ {
+ QList<Handle(AIS_InteractiveObject)> shapes = anObjShape->getAISObjects();
+ foreach( Handle(AIS_InteractiveObject) shape, shapes )
+ aCtx->SetZLayer( shape, theZLayerId );
+ }
+}
+
+void HYDROGUI_OCCDisplayer::SetToUpdateColorScale()
+{
+ myToUpdateColorScale = true;
+}
+
+void HYDROGUI_OCCDisplayer::UpdateColorScale( const OCCViewer_Viewer* theViewer )
+{
+ if( !myToUpdateColorScale || !theViewer )
+ return;
+
+ OCCViewer_ViewWindow* aWnd = dynamic_cast<OCCViewer_ViewWindow*>( theViewer->getViewManager()->getActiveView() );
+ Handle(V3d_View) aView = aWnd->getViewPort()->getView();
- // Get or create the appropriate layer
- Standard_Integer aLayerId = -1;
- if ( theZLayerIndex <= aNbLayers ) {
- aLayerId = anExistingZLayers.Value( theZLayerIndex );
- } else {
- Standard_Integer aNewId = -1;
- if ( aViewer3d->AddZLayer( aNewId ) ) {
- aLayerId = aNewId;
- }
+
+ HYDROGUI_Module* aModule = module();
+ int aViewerId = (size_t)theViewer;//TODO: check if viewer id is correct
+ bool isLandCoverColoringOn = aModule->isLandCoversScalarMapModeOn( aViewerId );
+
+ QList<HYDROGUI_Shape*> aLandCoverMapShapes = aModule->getObjectShapes( aViewerId, KIND_LAND_COVER_MAP );
+ QList<HYDROGUI_Shape*> aBathShapes = aModule->getObjectShapes( aViewerId, KIND_BATHYMETRY );
+
+ bool isDisplayColorScale = false;
+ foreach (HYDROGUI_Shape* shape, aLandCoverMapShapes)
+ {
+ if (aModule->isObjectVisible(aViewerId, shape->getObject()))
+ {
+ isDisplayColorScale = true;
+ break;
+ }
+ }
+ if (!isDisplayColorScale)
+ foreach (HYDROGUI_Shape* shape, aBathShapes)
+ {
+ if (aModule->isObjectVisible(aViewerId, shape->getObject()))
+ {
+ isDisplayColorScale = true;
+ break;
}
+ }
+
+ Standard_Real aColorScaleMin = 0, aColorScaleMax = 1;
+
+ // Get range
+ Handle(HYDROData_StricklerTable) aTable;
+ QStringList aTableTypes;
+ if ( isLandCoverColoringOn ) {
+ aTable = module()->getLandCoverColoringTable( aViewerId );
+ if ( !aTable.IsNull() ) {
+ // TODO: non-empty title leads to buggy behaviour
+ // aColorScaleTitle = TCollection_ExtendedString( aTable->GetName().toLatin1().constData() );
+ aTable->GetCoefficientRange( aColorScaleMin, aColorScaleMax );
+ aTableTypes = aTable->GetTypes();
+ }
+ } else {
+ Standard_Real aMin, aMax;
+ bool isFirst = true;
+ foreach( HYDROGUI_Shape* aShape, aBathShapes )
+ {
+ HYDROGUI_ShapeBathymetry* aBathShape = dynamic_cast<HYDROGUI_ShapeBathymetry*>( aShape );
+ if( !aBathShape || !aBathShape->isVisible() )
+ continue;
- if ( aLayerId >= 0 ) {
- // set Z layer
- aCtx->SetZLayer( anObjShape->getAISShape(), aLayerId );
-
- // set Z layer settings for the 3d viewer:
- // current settings
- Graphic3d_ZLayerSettings aSettings = aViewer3d->ZLayerSettings( aLayerId );
- // enable depth write
- aSettings.EnableSetting( Graphic3d_ZLayerDepthWrite );
- // disable depth clear
- aSettings.DisableSetting( Graphic3d_ZLayerDepthClear );
- if ( theIsOrdered ) {
- // disable depth test
- aSettings.DisableSetting( Graphic3d_ZLayerDepthTest );
- // disable depth offset
- aSettings.DisableSetting( Graphic3d_ZLayerDepthOffset );
- } else {
- // enable depth test
- aSettings.EnableSetting( Graphic3d_ZLayerDepthTest );
- // set depth offset
- aSettings.SetDepthOffsetPositive();
- }
+ aBathShape->GetRange( aMin, aMax );
+
+ if( isFirst || aMin < aColorScaleMin )
+ aColorScaleMin = aMin;
+ if( isFirst || aMax > aColorScaleMax )
+ aColorScaleMax = aMax;
- // set new settings
- aViewer3d->SetZLayerSettings( aLayerId, aSettings );
+ isFirst = false;
+ }
+ }
+
+ Handle(AIS_ColorScale) aColorScale = GetColorScale( aViewerId );
+ Handle(AIS_InteractiveContext) aCtx = theViewer->getAISContext();
+ if( isDisplayColorScale )
+ {
+ if( !aColorScale.IsNull() )
+ {
+ // Set color scale title
+ TCollection_ExtendedString aColorScaleTitle = ""; //TODO
+ aColorScale->SetTitle( aColorScaleTitle );
+
+ // Set color scale range
+ aColorScale->SetRange( aColorScaleMin, aColorScaleMax );
+
+ aColorScale->SetToUpdate();
- aRes = true;
+ if ( !isLandCoverColoringOn ) {
+ foreach( HYDROGUI_Shape* aShape, aBathShapes ) {
+ HYDROGUI_ShapeBathymetry* aBathShape = dynamic_cast<HYDROGUI_ShapeBathymetry*>( aShape );
+ if( !aBathShape || !aBathShape->isVisible() )
+ continue;
+
+ aBathShape->UpdateWithColorScale( aColorScale );
+ }
+ }
+
+ if ( !aCtx.IsNull()/* && !aCtx->IsDisplayed( aColorScale ) */) {
+ if ( !aCtx->IsDisplayed( aColorScale ) ) {
+ aCtx->Display( aColorScale, Standard_False );
+ }
+
+ aCtx->Update( aColorScale, true );
}
}
}
+ else
+ {
+ if ( !aCtx.IsNull() && aCtx->IsDisplayed( aColorScale ) ) {
+ aCtx->Erase( aColorScale, true );
+ }
+ }
- return aRes;
-}
\ No newline at end of file
+ foreach( HYDROGUI_Shape* aShape, aLandCoverMapShapes ) {
+ HYDROGUI_ShapeLandCoverMap* aLandCoverMapShape =
+ dynamic_cast<HYDROGUI_ShapeLandCoverMap*>( aShape );
+
+ if ( !aLandCoverMapShape || !aLandCoverMapShape->isVisible() ) {
+ continue;
+ }
+
+ Handle(HYDROData_LandCoverMap) aLandCoverMap =
+ Handle(HYDROData_LandCoverMap)::DownCast( aLandCoverMapShape->getObject() );
+
+ if ( aLandCoverMap.IsNull() ) {
+ continue;
+ }
+
+ bool isScalarMode = aLandCoverMapShape->isScalarMapModeEnabled();
+ if( isScalarMode != isLandCoverColoringOn )
+ {
+ aLandCoverMapShape->setScalarMapModeEnabled( isLandCoverColoringOn );
+ theViewer->getAISContext()->Redisplay( aLandCoverMapShape->getAISObjects()[0], Standard_False );
+ }
+ }
+
+ myToUpdateColorScale = false;
+}
+
+Handle(AIS_ColorScale) HYDROGUI_OCCDisplayer::GetColorScale( const int theViewerId )
+{
+ Handle(AIS_ColorScale) aColorScale;
+
+ aColorScale = myColorScales.value( theViewerId, aColorScale );
+ if ( aColorScale.IsNull() ) {
+ // Create color scale
+ aColorScale = new AIS_ColorScale();
+
+ // Set properties
+ Standard_Integer anXPos = 50; //TODO
+ Standard_Integer anYPos = 100; //TODO
+ Standard_Integer aWidth = 100; //TODO
+ Standard_Integer aHeight = 350; //TODO
+
+ Standard_Integer aTextHeight = 14; //TODO
+ Standard_Integer aNbIntervals = 20; //TODO
+
+ aColorScale->SetTransformPersistence( Graphic3d_TMF_2d, gp_Pnt( -1, -1, 0 ) );
+
+ aColorScale->SetXPosition( anXPos );
+ aColorScale->SetYPosition( anYPos );
+ aColorScale->SetSize( aWidth, aHeight );
+
+ aColorScale->SetTextHeight( aTextHeight );
+ aColorScale->SetNumberOfIntervals( aNbIntervals );
+
+ // Put into the map
+ myColorScales.insert( theViewerId, aColorScale );
+ }
+
+ return aColorScale;
+}
+
+void HYDROGUI_OCCDisplayer::UpdatePolylines( int theViewerId, int theType, int theSize )
+{
+ OCCViewer_Viewer* aViewer = module()->getOCCViewer( theViewerId );
+ if( !aViewer )
+ return;
+
+ // Get interactive context
+ Handle(AIS_InteractiveContext) aCtx = aViewer->getAISContext();
+ if( aCtx.IsNull() )
+ return;
+
+ AIS_ListOfInteractive objs;
+ aCtx->DisplayedObjects( objs );
+ AIS_ListOfInteractive::const_iterator it = objs.begin(), last = objs.end();
+ for( ; it!=last; it++ )
+ {
+ Handle(HYDROGUI_Arrow) arr = Handle(HYDROGUI_Arrow)::DownCast( *it );
+ if( !arr.IsNull() )
+ {
+ if( theType>=0 )
+ arr->SetType( (HYDROGUI_Arrow::Type)theType );
+ if( theSize>=0 )
+ arr->SetSize( theSize );
+ aCtx->Redisplay( arr, Standard_False );
+ }
+ }
+ aCtx->UpdateCurrentViewer();
+}