diff --git a/Applications/Tests/QtFreeRender/QtFreeRender.cpp b/Applications/Tests/QtFreeRender/QtFreeRender.cpp index 97c5b5c432..c57e196637 100644 --- a/Applications/Tests/QtFreeRender/QtFreeRender.cpp +++ b/Applications/Tests/QtFreeRender/QtFreeRender.cpp @@ -1,390 +1,396 @@ /*========================================================================= Program: Medical Imaging & Interaction Toolkit Language: C++ Date: $Date$ Version: $Revision: 21985 $ Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. See MITKCopyright.txt or http://www.mitk.org/copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #include "mitkRenderWindow.h" #include #include #include #include #include #include #include #include "mitkProperties.h" #include "mitkGeometry2DDataMapper2D.h" #include "mitkGlobalInteraction.h" #include "mitkDisplayInteractor.h" #include "mitkPositionEvent.h" #include "mitkStateEvent.h" #include "mitkLine.h" #include "mitkInteractionConst.h" #include "mitkVtkLayerController.h" #include "mitkPositionTracker.h" #include "mitkDisplayVectorInteractor.h" #include "mitkSlicesRotator.h" #include "mitkSlicesSwiveller.h" #include "mitkRenderWindowFrame.h" #include "mitkGradientBackground.h" #include "mitkCoordinateSupplier.h" #include "mitkDataStorage.h" #include "vtkTextProperty.h" #include "vtkCornerAnnotation.h" #include "vtkRenderWindow.h" #include "vtkRenderWindowInteractor.h" #include "vtkAnnotatedCubeActor.h" #include "vtkOrientationMarkerWidget.h" #include "vtkProperty.h" //##Documentation //## @brief Example of a NON QT DEPENDENT MITK RENDERING APPLICATION. mitk::DisplayVectorInteractor::Pointer m_MoveAndZoomInteractor; mitk::CoordinateSupplier::Pointer m_LastLeftClickPositionSupplier; mitk::GradientBackground::Pointer m_GradientBackground4; mitk::RenderWindowFrame::Pointer m_RectangleRendering1; mitk::RenderWindowFrame::Pointer m_RectangleRendering2; mitk::RenderWindowFrame::Pointer m_RectangleRendering3; mitk::RenderWindowFrame::Pointer m_RectangleRendering4; mitk::SliceNavigationController::Pointer m_TimeNavigationController; mitk::DataStorage::Pointer m_DataStorage; mitk::DataNode::Pointer m_PlaneNode1; mitk::DataNode::Pointer m_PlaneNode2; mitk::DataNode::Pointer m_PlaneNode3; mitk::DataNode::Pointer m_Node; mitk::RenderWindow::Pointer mitkWidget1; mitk::RenderWindow::Pointer mitkWidget2; mitk::RenderWindow::Pointer mitkWidget3; mitk::RenderWindow::Pointer mitkWidget4; void InitializeWindows() { // Set default view directions for SNCs mitkWidget1->GetSliceNavigationController()->SetDefaultViewDirection( mitk::SliceNavigationController::Transversal ); mitkWidget2->GetSliceNavigationController()->SetDefaultViewDirection( mitk::SliceNavigationController::Sagittal ); mitkWidget3->GetSliceNavigationController()->SetDefaultViewDirection( mitk::SliceNavigationController::Frontal ); mitkWidget4->GetSliceNavigationController()->SetDefaultViewDirection( mitk::SliceNavigationController::Original ); //initialize m_TimeNavigationController: send time via sliceNavigationControllers m_TimeNavigationController = mitk::SliceNavigationController::New("dummy"); m_TimeNavigationController->ConnectGeometryTimeEvent( mitkWidget1->GetSliceNavigationController() , false); m_TimeNavigationController->ConnectGeometryTimeEvent( mitkWidget2->GetSliceNavigationController() , false); m_TimeNavigationController->ConnectGeometryTimeEvent( mitkWidget3->GetSliceNavigationController() , false); m_TimeNavigationController->ConnectGeometryTimeEvent( mitkWidget4->GetSliceNavigationController() , false); mitkWidget1->GetSliceNavigationController() ->ConnectGeometrySendEvent(mitk::BaseRenderer::GetInstance(mitkWidget4->GetVtkRenderWindow())); // Set TimeNavigationController to RenderingManager // (which uses it internally for views initialization!) mitk::RenderingManager::GetInstance()->SetTimeNavigationController( m_TimeNavigationController ); //reverse connection between sliceNavigationControllers and m_TimeNavigationController mitkWidget1->GetSliceNavigationController() ->ConnectGeometryTimeEvent(m_TimeNavigationController.GetPointer(), false); mitkWidget2->GetSliceNavigationController() ->ConnectGeometryTimeEvent(m_TimeNavigationController.GetPointer(), false); mitkWidget3->GetSliceNavigationController() ->ConnectGeometryTimeEvent(m_TimeNavigationController.GetPointer(), false); mitkWidget4->GetSliceNavigationController() ->ConnectGeometryTimeEvent(m_TimeNavigationController.GetPointer(), false); // Let NavigationControllers listen to GlobalInteraction mitk::GlobalInteraction *gi = mitk::GlobalInteraction::GetInstance(); gi->AddListener( m_TimeNavigationController ); m_LastLeftClickPositionSupplier = mitk::CoordinateSupplier::New("navigation", NULL); mitk::GlobalInteraction::GetInstance()->AddListener( m_LastLeftClickPositionSupplier ); m_GradientBackground4 = mitk::GradientBackground::New(); m_GradientBackground4->SetRenderWindow( mitkWidget4->GetVtkRenderWindow() ); m_GradientBackground4->SetGradientColors(0.1,0.1,0.1,0.5,0.5,0.5); m_GradientBackground4->Enable(); m_RectangleRendering1 = mitk::RenderWindowFrame::New(); m_RectangleRendering1->SetRenderWindow( mitkWidget1->GetVtkRenderWindow() ); m_RectangleRendering1->Enable(1.0,0.0,0.0); m_RectangleRendering2 = mitk::RenderWindowFrame::New(); m_RectangleRendering2->SetRenderWindow( mitkWidget2->GetVtkRenderWindow() ); m_RectangleRendering2->Enable(0.0,1.0,0.0); m_RectangleRendering3 = mitk::RenderWindowFrame::New(); m_RectangleRendering3->SetRenderWindow( mitkWidget3->GetVtkRenderWindow() ); m_RectangleRendering3->Enable(0.0,0.0,1.0); m_RectangleRendering4 = mitk::RenderWindowFrame::New(); m_RectangleRendering4->SetRenderWindow( mitkWidget4->GetVtkRenderWindow() ); m_RectangleRendering4->Enable(1.0,1.0,0.0); } void AddDisplayPlaneSubTree() { // add the displayed planes of the multiwidget to a node to which the subtree // @a planesSubTree points ... float white[3] = {1.0f,1.0f,1.0f}; mitk::Geometry2DDataMapper2D::Pointer mapper; mitk::IntProperty::Pointer layer = mitk::IntProperty::New(1000); // ... of widget 1 m_PlaneNode1 = (mitk::BaseRenderer::GetInstance(mitkWidget1->GetVtkRenderWindow()))->GetCurrentWorldGeometry2DNode(); m_PlaneNode1->SetColor(white, mitk::BaseRenderer::GetInstance(mitkWidget4->GetVtkRenderWindow())); m_PlaneNode1->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode1->SetProperty("name", mitk::StringProperty::New("widget1Plane")); m_PlaneNode1->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode1->SetProperty("helper object", mitk::BoolProperty::New(true)); m_PlaneNode1->SetProperty("layer",layer); m_PlaneNode1->SetColor(1.0,0.0,0.0); mapper = mitk::Geometry2DDataMapper2D::New(); m_PlaneNode1->SetMapper(mitk::BaseRenderer::Standard2D, mapper); // ... of widget 2 m_PlaneNode2 =( mitk::BaseRenderer::GetInstance(mitkWidget2->GetVtkRenderWindow()))->GetCurrentWorldGeometry2DNode(); m_PlaneNode2->SetColor(white, mitk::BaseRenderer::GetInstance(mitkWidget4->GetVtkRenderWindow())); m_PlaneNode2->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode2->SetProperty("name", mitk::StringProperty::New("widget2Plane")); m_PlaneNode2->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode2->SetProperty("helper object", mitk::BoolProperty::New(true)); m_PlaneNode2->SetProperty("layer",layer); m_PlaneNode2->SetColor(0.0,1.0,0.0); mapper = mitk::Geometry2DDataMapper2D::New(); m_PlaneNode2->SetMapper(mitk::BaseRenderer::Standard2D, mapper); // ... of widget 3 m_PlaneNode3 = (mitk::BaseRenderer::GetInstance(mitkWidget3->GetVtkRenderWindow()))->GetCurrentWorldGeometry2DNode(); m_PlaneNode3->SetColor(white, mitk::BaseRenderer::GetInstance(mitkWidget4->GetVtkRenderWindow())); m_PlaneNode3->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode3->SetProperty("name", mitk::StringProperty::New("widget3Plane")); m_PlaneNode3->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode3->SetProperty("helper object", mitk::BoolProperty::New(true)); m_PlaneNode3->SetProperty("layer",layer); m_PlaneNode3->SetColor(0.0,0.0,1.0); mapper = mitk::Geometry2DDataMapper2D::New(); m_PlaneNode3->SetMapper(mitk::BaseRenderer::Standard2D, mapper); m_Node = mitk::DataNode::New(); m_Node->SetProperty("name", mitk::StringProperty::New("Widgets")); m_Node->SetProperty("helper object", mitk::BoolProperty::New(true)); //AddPlanesToDataStorage if (m_PlaneNode1.IsNotNull() && m_PlaneNode2.IsNotNull() && m_PlaneNode3.IsNotNull() && m_Node.IsNotNull()) { if (m_DataStorage.IsNotNull()) { m_DataStorage->Add(m_Node); m_DataStorage->Add(m_PlaneNode1, m_Node); m_DataStorage->Add(m_PlaneNode2, m_Node); m_DataStorage->Add(m_PlaneNode3, m_Node); static_cast(m_PlaneNode1->GetMapper(mitk::BaseRenderer::Standard2D))->SetDatastorageAndGeometryBaseNode(m_DataStorage, m_Node); static_cast(m_PlaneNode2->GetMapper(mitk::BaseRenderer::Standard2D))->SetDatastorageAndGeometryBaseNode(m_DataStorage, m_Node); static_cast(m_PlaneNode3->GetMapper(mitk::BaseRenderer::Standard2D))->SetDatastorageAndGeometryBaseNode(m_DataStorage, m_Node); } } } void Fit() { vtkRenderer * vtkrenderer; mitk::BaseRenderer::GetInstance(mitkWidget1->GetVtkRenderWindow())->GetDisplayGeometry()->Fit(); mitk::BaseRenderer::GetInstance(mitkWidget2->GetVtkRenderWindow())->GetDisplayGeometry()->Fit(); mitk::BaseRenderer::GetInstance(mitkWidget3->GetVtkRenderWindow())->GetDisplayGeometry()->Fit(); mitk::BaseRenderer::GetInstance(mitkWidget4->GetVtkRenderWindow())->GetDisplayGeometry()->Fit(); int w = vtkObject::GetGlobalWarningDisplay(); vtkObject::GlobalWarningDisplayOff(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget1->GetVtkRenderWindow())->GetVtkRenderer(); if ( vtkrenderer!= NULL ) vtkrenderer->ResetCamera(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget2->GetVtkRenderWindow())->GetVtkRenderer(); if ( vtkrenderer!= NULL ) vtkrenderer->ResetCamera(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget3->GetVtkRenderWindow())->GetVtkRenderer(); if ( vtkrenderer!= NULL ) vtkrenderer->ResetCamera(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget4->GetVtkRenderWindow())->GetVtkRenderer(); if ( vtkrenderer!= NULL ) vtkrenderer->ResetCamera(); vtkObject::SetGlobalWarningDisplay(w); } int main(int argc, char* argv[]) { if(argc<2) { fprintf( stderr, "Usage: %s [filename1] [filename2] ...\n\n", "" ); return 1; } // Create a DataStorage m_DataStorage = mitk::StandaloneDataStorage::New(); //************************************************************************* // Part II: Create some data by reading files //************************************************************************* int i; for(i=1; iSetFileName(filename); nodeReader->Update(); // Since the DataNodeFactory directly creates a node, // use the datastorage to add the read node mitk::DataNode::Pointer node = nodeReader->GetOutput(); m_DataStorage->Add(node); mitk::Image::Pointer image = dynamic_cast(node->GetData()); if(image.IsNotNull()) { // Set the property "volumerendering" to the Boolean value "true" node->SetProperty("volumerendering", mitk::BoolProperty::New(false)); node->SetProperty("name", mitk::StringProperty::New("testimage")); node->SetProperty("layer",mitk::IntProperty::New(1)); } } catch(...) { fprintf( stderr, "Could not open file %s \n\n", filename ); exit(2); } } //************************************************************************* // Part V: Create window and pass the tree to it //************************************************************************* // Global Interaction initialize mitk::GlobalInteraction::GetInstance()->Initialize("global"); // instantiate display interactor m_MoveAndZoomInteractor = mitk::DisplayVectorInteractor::New( "moveNzoom", new mitk::DisplayInteractor() ); mitk::GlobalInteraction::GetInstance()->AddListener(m_MoveAndZoomInteractor); // Create renderwindows mitkWidget1 = mitk::RenderWindow::New(); mitkWidget2 = mitk::RenderWindow::New(); mitkWidget3 = mitk::RenderWindow::New(); mitkWidget4 = mitk::RenderWindow::New(); // Tell the renderwindow which (part of) the datastorage to render mitkWidget1->GetRenderer()->SetDataStorage(m_DataStorage); mitkWidget2->GetRenderer()->SetDataStorage(m_DataStorage); mitkWidget3->GetRenderer()->SetDataStorage(m_DataStorage); mitkWidget4->GetRenderer()->SetDataStorage(m_DataStorage); // Let NavigationControllers listen to GlobalInteraction mitk::GlobalInteraction *gi = mitk::GlobalInteraction::GetInstance(); gi->AddListener( mitkWidget1->GetSliceNavigationController() ); gi->AddListener( mitkWidget2->GetSliceNavigationController() ); gi->AddListener( mitkWidget3->GetSliceNavigationController() ); gi->AddListener( mitkWidget4->GetSliceNavigationController() ); // Use it as a 2D View mitkWidget1->GetRenderer()->SetMapperID(mitk::BaseRenderer::Standard2D); mitkWidget2->GetRenderer()->SetMapperID(mitk::BaseRenderer::Standard2D); mitkWidget3->GetRenderer()->SetMapperID(mitk::BaseRenderer::Standard2D); mitkWidget4->GetRenderer()->SetMapperID(mitk::BaseRenderer::Standard3D); + - - - mitkWidget1->GetVtkRenderWindow()->SetSize(400, 400); + mitkWidget1->SetSize(400, 400); mitkWidget2->GetVtkRenderWindow()->SetPosition(mitkWidget1->GetVtkRenderWindow()->GetPosition()[0]+420, mitkWidget1->GetVtkRenderWindow()->GetPosition()[1]); - mitkWidget2->GetVtkRenderWindow()->SetSize(400, 400); + mitkWidget2->SetSize(400, 400); mitkWidget3->GetVtkRenderWindow()->SetPosition(mitkWidget1->GetVtkRenderWindow()->GetPosition()[0], mitkWidget1->GetVtkRenderWindow()->GetPosition()[1]+450); - mitkWidget3->GetVtkRenderWindow()->SetSize(400, 400); + mitkWidget3->SetSize(400, 400); mitkWidget4->GetVtkRenderWindow()->SetPosition(mitkWidget1->GetVtkRenderWindow()->GetPosition()[0]+420, mitkWidget1->GetVtkRenderWindow()->GetPosition()[1]+450); - mitkWidget4->GetVtkRenderWindow()->SetSize(400, 400); + mitkWidget4->SetSize(400, 400); InitializeWindows(); AddDisplayPlaneSubTree(); Fit(); // Initialize the RenderWindows mitk::TimeSlicedGeometry::Pointer geo = m_DataStorage->ComputeBoundingGeometry3D(m_DataStorage->GetAll()); mitk::RenderingManager::GetInstance()->InitializeViews( geo ); m_DataStorage->Print( std::cout ); - mitk::RenderingManager::GetInstance()->RequestUpdateAll(); + mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); + + // reinit the mitkVTKEventProvider; + // this is only necessary once after calling + // ForceImmediateUpdateAll() for the first time + mitkWidget1->ReinitEventProvider(); + mitkWidget2->ReinitEventProvider(); + mitkWidget3->ReinitEventProvider(); mitkWidget1->GetVtkRenderWindow()->Render(); mitkWidget2->GetVtkRenderWindow()->Render(); mitkWidget3->GetVtkRenderWindow()->Render(); mitkWidget4->GetVtkRenderWindow()->Render(); - mitkWidget1->GetVtkRenderWindowInteractor()->Start(); + mitkWidget4->GetVtkRenderWindowInteractor()->Start(); return 0; } diff --git a/Core/Code/Interactions/mitkVtkInteractorStyle.cxx b/Core/Code/Interactions/mitkVtkInteractorStyle.cxx new file mode 100644 index 0000000000..54d0fc34b6 --- /dev/null +++ b/Core/Code/Interactions/mitkVtkInteractorStyle.cxx @@ -0,0 +1,51 @@ +/*========================================================================= + +Program: Medical Imaging & Interaction Toolkit +Language: C++ +Date: $Date: 2010-07-22 16:41:18 +0200 (Fr, 17 Aug 2007) $ +Version: $Revision: 11618 $ + +Copyright (c) German Cancer Research Center, Division of Medical and +Biological Informatics. All rights reserved. +See MITKCopyright.txt or http://www.mitk.org/copyright.html for details. + +This software is distributed WITHOUT ANY WARRANTY; without even +the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR +PURPOSE. See the above copyright notices for more information. + +=========================================================================*/ + +#include "mitkVtkInteractorStyle.h" + +#include +#include + + +vtkCxxRevisionMacro(mitkVtkInteractorStyle, "$Revision: 1.35 $"); +vtkStandardNewMacro(mitkVtkInteractorStyle); + +mitkVtkInteractorStyle::mitkVtkInteractorStyle() +: vtkInteractorStyleUser() +{ +} + +mitkVtkInteractorStyle::~mitkVtkInteractorStyle() +{ +} + +void mitkVtkInteractorStyle::OnMouseWheelForward() +{ + if (this->HasObserver(vtkCommand::MouseWheelForwardEvent)) + { + this->InvokeEvent(vtkCommand::MouseWheelForwardEvent, NULL); + } +} + +void mitkVtkInteractorStyle::OnMouseWheelBackward() +{ + if (this->HasObserver(vtkCommand::MouseWheelBackwardEvent)) + { + this->InvokeEvent(vtkCommand::MouseWheelBackwardEvent, NULL); + } +} + diff --git a/Core/Code/Interactions/mitkVtkInteractorStyle.h b/Core/Code/Interactions/mitkVtkInteractorStyle.h new file mode 100644 index 0000000000..9cba9d82ee --- /dev/null +++ b/Core/Code/Interactions/mitkVtkInteractorStyle.h @@ -0,0 +1,65 @@ +/*========================================================================= + +Program: Medical Imaging & Interaction Toolkit +Language: C++ +Date: $Date: 2010-07-22 16:41:18 +0200 (Fr, 17 Aug 2007) $ +Version: $Revision: 11618 $ + +Copyright (c) German Cancer Research Center, Division of Medical and +Biological Informatics. All rights reserved. +See MITKCopyright.txt or http://www.mitk.org/copyright.html for details. + +This software is distributed WITHOUT ANY WARRANTY; without even +the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR +PURPOSE. See the above copyright notices for more information. + +=========================================================================*/ + +/** +* \brief Implements the handling of events that are missing for MITK interaction. +* +* This class inherits from vtkInteractorStyleUser, a class that handles +* VTK-Events and invokes callbacks by means of an observer pattern. +* +* Most event-types needed for typical MITK interaction have already +* been implemented in vtkInteractorStyleUser (Mouse-Buttons + Keyboard). +* However, wheel-events and widgetModifed-events (whatever these are) +* have not been handled so far. This is the purpose of this class. +*/ + +#ifndef __mitkVtkInteractorStyle_h +#define __mitkVtkInteractorStyle_h + +#include "MitkExports.h" +#include + +class MITK_CORE_EXPORT mitkVtkInteractorStyle : public vtkInteractorStyleUser +{ +public: + + // default VTK c'tor + static mitkVtkInteractorStyle *New(); + vtkTypeRevisionMacro(mitkVtkInteractorStyle,vtkInteractorStyleUser); + + /** + * \brief Called when scrolling forwards with the mouse-wheel. + */ + virtual void OnMouseWheelForward(); + + /** + * \brief Called when scrolling backwards with the mouse-wheel. + */ + virtual void OnMouseWheelBackward(); + +protected: + + mitkVtkInteractorStyle(); + ~mitkVtkInteractorStyle(); + + +private: + mitkVtkInteractorStyle(const mitkVtkInteractorStyle&); // Not implemented. + void operator=(const mitkVtkInteractorStyle&); // Not implemented. +}; + +#endif diff --git a/Core/Code/Rendering/mitkRenderWindow.cpp b/Core/Code/Rendering/mitkRenderWindow.cpp index 459aaedde9..7a414fa52d 100644 --- a/Core/Code/Rendering/mitkRenderWindow.cpp +++ b/Core/Code/Rendering/mitkRenderWindow.cpp @@ -1,67 +1,89 @@ /*========================================================================= Program: Medical Imaging & Interaction Toolkit Language: C++ Date: $Date: 2010-07-05 09:49:37 +0200 (Mo, 05 Jul 2010) $ Version: $Revision: 24298 $ Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. See MITKCopyright.txt or http://www.mitk.org/copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #include "mitkRenderWindow.h" #include "mitkDisplayPositionEvent.h" #include "mitkVtkLayerController.h" #include "mitkRenderingManager.h" #include "vtkRenderer.h" #include "vtkRenderWindowInteractor.h" #include "mitkVtkEventProvider.h" mitk::RenderWindow::RenderWindow(vtkRenderWindow* renWin, const char* name, mitk::RenderingManager* rm ) : m_vtkRenderWindow(renWin) { if(m_vtkRenderWindow == NULL) m_vtkRenderWindow = vtkRenderWindow::New(); + + if ( m_vtkRenderWindow->GetSize()[0] > 10 + || m_vtkRenderWindow->GetSize()[0] > 10 ) + { + m_vtkRenderWindow->SetSize( 100, 100 ); + } m_vtkRenderWindowInteractor = vtkRenderWindowInteractor::New(); - + m_vtkRenderWindowInteractor->SetRenderWindow(m_vtkRenderWindow); + m_vtkRenderWindowInteractor->Initialize(); + // initialize from RenderWindowBase Initialize(rm,name); m_vtkMitkEventProvider = vtkEventProvider::New(); m_vtkMitkEventProvider->SetInteractor(this->GetVtkRenderWindowInteractor()); m_vtkMitkEventProvider->SetMitkRenderWindow(this); m_vtkMitkEventProvider->SetEnabled(1); - m_vtkRenderWindowInteractor->SetRenderWindow(m_vtkRenderWindow); - m_vtkRenderWindowInteractor->Initialize(); } mitk::RenderWindow::~RenderWindow() { Destroy(); m_vtkRenderWindow->Delete(); m_vtkRenderWindowInteractor->Delete(); m_vtkMitkEventProvider->Delete(); } vtkRenderWindow* mitk::RenderWindow::GetVtkRenderWindow() { return m_vtkRenderWindow; } vtkRenderWindowInteractor* mitk::RenderWindow::GetVtkRenderWindowInteractor() { return m_vtkRenderWindowInteractor; } + +void mitk::RenderWindow::SetSize( int width, int height ) +{ + this->GetVtkRenderWindow()->SetSize( width, height ); + + this->resizeMitkEvent( width, height ); +} + +void mitk::RenderWindow::ReinitEventProvider() +{ + m_vtkMitkEventProvider->SetEnabled(0); + m_vtkMitkEventProvider->SetInteractor(this->GetVtkRenderWindowInteractor()); + m_vtkMitkEventProvider->SetMitkRenderWindow(this); + m_vtkMitkEventProvider->SetEnabled(1); +} + diff --git a/Core/Code/Rendering/mitkRenderWindow.h b/Core/Code/Rendering/mitkRenderWindow.h index ec5dfac5a2..565050075b 100644 --- a/Core/Code/Rendering/mitkRenderWindow.h +++ b/Core/Code/Rendering/mitkRenderWindow.h @@ -1,85 +1,108 @@ /*========================================================================= Program: Medical Imaging & Interaction Toolkit Language: C++ Date: $Date: 2010-06-30 15:12:34 +0200 (Mi, 30. Jun 2010) $ Version: $Revision: 24176 $ Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. See MITKCopyright.txt or http://www.mitk.org/copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #ifndef MITKRENDERWINDOW_H_HEADER_INCLUDED_C1C40D66ASDF #define MITKRENDERWINDOW_H_HEADER_INCLUDED_C1C40D66ASDF #include #include "mitkRenderWindowBase.h" namespace mitk { class vtkEventProvider; /** * \brief mitkRenderWindow integrates the MITK rendering mechanism into VTK and * is NOT QT dependent * * * \ingroup Renderer */ class MITK_CORE_EXPORT RenderWindow: public mitk::RenderWindowBase, public itk::Object { public: mitkClassMacro(RenderWindow, itk::Object); itkNewMacro(Self); mitkNewMacro1Param(Self, vtkRenderWindow*); mitkNewMacro2Param(Self, vtkRenderWindow*, const char*); mitkNewMacro3Param(Self, vtkRenderWindow*, const char*, mitk::RenderingManager*); virtual ~RenderWindow(); virtual vtkRenderWindow* GetVtkRenderWindow(); virtual vtkRenderWindowInteractor* GetVtkRenderWindowInteractor(); // Set Layout Index to define the Layout Type void SetLayoutIndex( unsigned int layoutIndex ); // Get Layout Index to define the Layout Type unsigned int GetLayoutIndex(); //MenuWidget need to update the Layout Design List when Layout had changed void LayoutDesignListChanged( int layoutDesignIndex ); void FullScreenMode( bool state ); + /** + * \brief Convenience method to set the size of an mitkRenderWindow. + * + * This method sets the size of the vtkRenderWindow and tells the + * rendering that the size has changed -> adapts displayGeometry, etc. + */ + void SetSize( int width, int height ); + + /** + * \brief Initializes the mitkVtkEventProvider to listen to the + * currently used vtkInteractorStyle. + * + * This method makes sure that the internal mitkVtkEventProvider + * listens to the correct vtkInteractorStyle. + * This makes sure that VTK-Events are correctly translated into + * MITK-Events. + * + * \warn This method needs to be called MANUALLY as soon as the MapperID + * for this RenderWindow is changed or the vtkInteractorStyle is modified + * somehow else! + */ + void ReinitEventProvider(); + + protected: RenderWindow(vtkRenderWindow * existingRenderWindow = NULL , const char* name = "unnamed renderer", mitk::RenderingManager* rm = NULL ); void ResetView(); - vtkRenderWindow * m_vtkRenderWindow; vtkRenderWindowInteractor * m_vtkRenderWindowInteractor; vtkEventProvider * m_vtkMitkEventProvider; private: }; } //namespace #endif /* MITKRENDERWINDOW_H_HEADER_INCLUDED_C1C40D66ASDF */ diff --git a/Core/Code/Rendering/mitkVtkEventProvider.cpp b/Core/Code/Rendering/mitkVtkEventProvider.cpp index e687c15e78..0df42be5c6 100644 --- a/Core/Code/Rendering/mitkVtkEventProvider.cpp +++ b/Core/Code/Rendering/mitkVtkEventProvider.cpp @@ -1,257 +1,249 @@ /*========================================================================= Program: Medical Imaging & Interaction Toolkit Language: C++ Date: $Date: 2010-07-22 16:41:18 +0200 (Fr, 17 Aug 2007) $ Version: $Revision: 11618 $ Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. See MITKCopyright.txt or http://www.mitk.org/copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #include "mitkVtkEventProvider.h" -#include "vtkCallbackCommand.h" -#include "vtkObjectFactory.h" -#include "vtkRenderWindowInteractor.h" #include "mitkVtkEventAdapter.h" - #include +#include +#include +#include +#include + #define VTKEVENTPROVIDER_INFO MBI_INFO("mitk.core.vtkeventprovider") #define VTKEVENTPROVIDER_WARN MBI_WARN("mitk.core.vtkeventprovider") #define VTKEVENTPROVIDER_ERROR MBI_ERROR("mitk.core.vtkeventprovider") #define VTKEVENTPROVIDER_DEBUG MBI_DEBUG("mitk.core.vtkeventprovider") namespace mitk { vtkCxxRevisionMacro(vtkEventProvider, "$Revision: 1.18 $"); vtkStandardNewMacro(vtkEventProvider); } //---------------------------------------------------------------------------- mitk::vtkEventProvider::vtkEventProvider() { // priority of the observer/command; we want MITK events processed in the very beginning this->Priority = 99999.99; //take over the processing of delete and keypress events from the superclass this->EventCallbackCommand->SetCallback( vtkEventProvider::ProcessEvents); // Set/Get the passive observer flag. If this is set to true, this // indicates that this command does not change the state of the // system in any way. Passive observers are processed first, and // are not called even when another command has focus. this->EventCallbackCommand->SetPassiveObserver(1); // get events first // mouse move AddInteractionEvent(vtkCommand::MouseMoveEvent); // mouse press AddInteractionEvent(vtkCommand::LeftButtonPressEvent); AddInteractionEvent(vtkCommand::MiddleButtonPressEvent); AddInteractionEvent(vtkCommand::RightButtonPressEvent); // mouse release AddInteractionEvent(vtkCommand::LeftButtonReleaseEvent); AddInteractionEvent(vtkCommand::MiddleButtonReleaseEvent); AddInteractionEvent(vtkCommand::RightButtonReleaseEvent); // wheel event AddInteractionEvent(vtkCommand::MouseWheelBackwardEvent); AddInteractionEvent(vtkCommand::MouseWheelForwardEvent); // key press event AddInteractionEvent(vtkCommand::KeyPressEvent); - // window resize event - AddInteractionEvent(vtkCommand::WidgetModifiedEvent); } mitk::vtkEventProvider::~vtkEventProvider() { this->SetInteractor(0); } void mitk::vtkEventProvider::SetMitkRenderWindow(mitk::RenderWindow* renWin) { m_RenderWindow = renWin; } mitk::RenderWindow* mitk::vtkEventProvider::GetRenderWindow() { return m_RenderWindow; } void mitk::vtkEventProvider::SetEnabled(int enabling) { if ( ! this->Interactor ) { VTKEVENTPROVIDER_ERROR <<"The interactor must be set prior to enabling/disabling widget"; return; } if ( enabling ) //---------------------------------------------------------- { VTKEVENTPROVIDER_DEBUG << "Enabling widget"; if ( this->Enabled ) //already enabled, just return { return; } this->Enabled = 1; // listen to all event types specified in m_InteractionEventsVector vtkRenderWindowInteractor *i = this->Interactor; InteractionEventsVectorType::iterator it; for(it = m_InteractionEventsVector.begin(); it != m_InteractionEventsVector.end(); it++) { - i->AddObserver((vtkCommand::EventIds) (*it), this->EventCallbackCommand, - this->Priority); + // add observer to interactorStyle + i->GetInteractorStyle()->AddObserver((vtkCommand::EventIds) (*it), this->EventCallbackCommand, + this->Priority); } this->InvokeEvent(vtkCommand::EnableEvent,NULL); } else //disabling----------------------------------------------------------- { VTKEVENTPROVIDER_DEBUG <<"Disabling widget"; if ( ! this->Enabled ) //already disabled, just return { return; } this->Enabled = 0; // don't listen for events any more this->Interactor->RemoveObserver(this->EventCallbackCommand); //this->Interactor->HandleEventLoop = 0; this->InvokeEvent(vtkCommand::DisableEvent,NULL); } } //---------------------------------------------------------------------------- // This adds the keypress event observer and the delete event observer void mitk::vtkEventProvider::SetInteractor(vtkRenderWindowInteractor* i) { if (i == this->Interactor) { return; } // if we already have an Interactor then stop observing it if (this->Interactor) this->SetEnabled(0); //disable the old interactor this->Interactor = i; this->Modified(); } //---------------------------------------------------------------------------- void mitk::vtkEventProvider::ProcessEvents(vtkObject* object, unsigned long event, void* clientData, void* vtkNotUsed(callData)) { vtkEventProvider* self = reinterpret_cast( clientData ); vtkRenderWindowInteractor* rwi = - static_cast( object ); + static_cast( object )->GetInteractor(); // base renderer mitk::BaseRenderer* baseRenderer = mitk::BaseRenderer::GetInstance(self->GetRenderWindow()->GetVtkRenderWindow()); switch(event) { // key press case vtkCommand::KeyPressEvent: { VTKEVENTPROVIDER_DEBUG << "key press event"; mitk::KeyEvent mke(mitk::VtkEventAdapter::AdaptKeyEvent(baseRenderer,event,rwi)); self->GetRenderWindow()->keyPressMitkEvent(&mke); break; } // mouse events case vtkCommand::MouseMoveEvent: { VTKEVENTPROVIDER_DEBUG << "mouse move event"; mitk::MouseEvent me(mitk::VtkEventAdapter::AdaptMouseEvent(baseRenderer,event,rwi)); self->GetRenderWindow()->mouseMoveMitkEvent(&me); break; } case vtkCommand::LeftButtonPressEvent: case vtkCommand::MiddleButtonPressEvent: case vtkCommand::RightButtonPressEvent: { VTKEVENTPROVIDER_DEBUG << "mouse press event"; mitk::MouseEvent me(mitk::VtkEventAdapter::AdaptMouseEvent(baseRenderer,event,rwi)); self->GetRenderWindow()->mousePressMitkEvent(&me); break; } case vtkCommand::LeftButtonReleaseEvent: case vtkCommand::MiddleButtonReleaseEvent: case vtkCommand::RightButtonReleaseEvent: { VTKEVENTPROVIDER_DEBUG << "mouse release event"; mitk::MouseEvent me(mitk::VtkEventAdapter::AdaptMouseEvent(baseRenderer,event,rwi)); self->GetRenderWindow()->mouseReleaseMitkEvent(&me); break; } // mouse WHEEL case vtkCommand::MouseWheelForwardEvent: case vtkCommand::MouseWheelBackwardEvent: { VTKEVENTPROVIDER_DEBUG << "mouse wheel event"; mitk::WheelEvent we(mitk::VtkEventAdapter::AdaptWheelEvent(baseRenderer,event,rwi)); self->GetRenderWindow()->wheelMitkEvent(&we); break; } - // widget resize - case vtkCommand::WidgetModifiedEvent: - { - VTKEVENTPROVIDER_DEBUG << "widget resize event"; - self->GetRenderWindow()->resizeMitkEvent(rwi->GetRenderWindow()->GetSize()[0],rwi->GetRenderWindow()->GetSize()[1]); - break; - } - default: VTKEVENTPROVIDER_INFO << "VTK event not mapped properly."; break; } } void mitk::vtkEventProvider::RemoveInteractionEvent(unsigned long ievent) { InteractionEventsVectorType::iterator it; if(m_InteractionEventsVector.size() > 0) { it = std::find(m_InteractionEventsVector.begin(),m_InteractionEventsVector.end(),ievent); if(it != m_InteractionEventsVector.end()) { m_InteractionEventsVector.erase(it); return; } } } void mitk::vtkEventProvider::AddInteractionEvent(unsigned long ievent) { // Remove event if it already exists RemoveInteractionEvent(ievent); m_InteractionEventsVector.push_back(ievent); } \ No newline at end of file diff --git a/Core/Code/Rendering/mitkVtkPropRenderer.cpp b/Core/Code/Rendering/mitkVtkPropRenderer.cpp index 73378abd11..df99b85b00 100644 --- a/Core/Code/Rendering/mitkVtkPropRenderer.cpp +++ b/Core/Code/Rendering/mitkVtkPropRenderer.cpp @@ -1,918 +1,932 @@ /*========================================================================= Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. See MITKCopyright.txt or http://www.mitk.org/copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #include "mitkVtkPropRenderer.h" // MAPPERS #include "mitkMapper.h" #include "mitkImageVtkMapper2D.h" #include "mitkVtkMapper2D.h" #include "mitkVtkMapper3D.h" #include "mitkGeometry2DDataVtkMapper3D.h" #include "mitkPointSetGLMapper2D.h" #include "mitkImageSliceSelector.h" #include "mitkRenderingManager.h" #include "mitkGL.h" #include "mitkGeometry3D.h" #include "mitkDisplayGeometry.h" #include "mitkLevelWindow.h" #include "mitkCameraController.h" #include "mitkVtkInteractorCameraController.h" #include "mitkPlaneGeometry.h" #include "mitkProperties.h" #include "mitkSurface.h" #include "mitkNodePredicateDataType.h" +#include "mitkVtkInteractorStyle.h" // VTK #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include +#include + mitk::VtkPropRenderer::VtkPropRenderer( const char* name, vtkRenderWindow * renWin, mitk::RenderingManager* rm ) : BaseRenderer(name,renWin, rm), m_VtkMapperPresent(false), m_NewRenderer(true), - m_2DCameraInitialized(false) + m_CameraInitializedForMapperID(0) { didCount=false; m_WorldPointPicker = vtkWorldPointPicker::New(); m_PointPicker = vtkPointPicker::New(); m_PointPicker->SetTolerance( 0.0025 ); m_CellPicker = vtkCellPicker::New(); m_CellPicker->SetTolerance( 0.0025 ); mitk::Geometry2DDataVtkMapper3D::Pointer geometryMapper = mitk::Geometry2DDataVtkMapper3D::New(); m_CurrentWorldGeometry2DMapper = geometryMapper; m_CurrentWorldGeometry2DNode->SetMapper(2, geometryMapper); m_LightKit = vtkLightKit::New(); m_LightKit->AddLightsToRenderer(m_VtkRenderer); m_PickingMode = WorldPointPicking; m_TextRenderer = vtkRenderer::New(); m_TextRenderer->SetRenderWindow(renWin); m_TextRenderer->SetInteractive(0); m_TextRenderer->SetErase(0); } /*! \brief Destructs the VtkPropRenderer. */ mitk::VtkPropRenderer::~VtkPropRenderer() { // Workaround for GLDisplayList Bug { m_MapperID=0; checkState(); } if (m_LightKit != NULL) m_LightKit->Delete(); if (m_VtkRenderer!=NULL) { m_CameraController = NULL; m_VtkRenderer->Delete(); m_VtkRenderer = NULL; } else m_CameraController = NULL; if (m_WorldPointPicker != NULL) m_WorldPointPicker->Delete(); if (m_PointPicker != NULL) m_PointPicker->Delete(); if (m_CellPicker != NULL) m_CellPicker->Delete(); if (m_TextRenderer != NULL) m_TextRenderer->Delete(); } void mitk::VtkPropRenderer::SetDataStorage( mitk::DataStorage* storage ) { if ( storage == NULL ) return; BaseRenderer::SetDataStorage(storage); static_cast(m_CurrentWorldGeometry2DMapper.GetPointer())->SetDataStorageForTexture( m_DataStorage.GetPointer() ); // Compute the geometry from the current data tree bounds and set it as world geometry this->SetWorldGeometryToDataStorageBounds(); } bool mitk::VtkPropRenderer::SetWorldGeometryToDataStorageBounds() { if ( m_DataStorage.IsNull() ) return false; //initialize world geometry mitk::TimeSlicedGeometry::Pointer geometry = m_DataStorage->ComputeVisibleBoundingGeometry3D( NULL, "includeInBoundingBox" ); if ( geometry.IsNull() ) return false; this->SetWorldGeometry(geometry); //this->GetDisplayGeometry()->SetSizeInDisplayUnits( this->m_TextRenderer->GetRenderWindow()->GetSize()[0], this->m_TextRenderer->GetRenderWindow()->GetSize()[1] ); this->GetDisplayGeometry()->Fit(); this->GetVtkRenderer()->ResetCamera(); this->Modified(); return true; } /*! \brief Called by the vtkMitkRenderProp in order to start MITK rendering process. */ int mitk::VtkPropRenderer::Render(mitk::VtkPropRenderer::RenderType type) { // Do we have objects to render? if ( this->GetEmptyWorldGeometry()) return 0; if ( m_DataStorage.IsNull()) return 0; // Update mappers and prepare mapper queue if (type == VtkPropRenderer::Opaque) this->PrepareMapperQueue(); //go through the generated list and let the sorted mappers paint bool lastVtkBased = true; bool sthVtkBased = false; for(MappersMapType::iterator it = m_MappersMap.begin(); it != m_MappersMap.end(); it++) { Mapper * mapper = (*it).second; if((mapper->IsVtkBased() == true) ) { sthVtkBased = true; mitk::VtkMapper3D::Pointer vtkMapper = dynamic_cast(mapper); if(vtkMapper) { vtkMapper->GetVtkProp(this)->SetAllocatedRenderTime(5000,GetVtkRenderer()); //B/ ToDo: rendering time calculation //vtkMapper->GetVtkProp(this)->PokeMatrix(NULL); //B/ ToDo ??: VtkUserTransform } if(lastVtkBased == false) { Disable2DOpenGL(); lastVtkBased = true; } } else if((mapper->IsVtkBased() == false) && (lastVtkBased == true)) { Enable2DOpenGL(); lastVtkBased = false; } //Workarround for bug GL_TEXTURE_2D (bug #8188) GLboolean mode; GLenum bit = GL_TEXTURE_2D; GLfloat lineWidth; glGetFloatv(GL_LINE_WIDTH, &lineWidth); glGetBooleanv(bit, &mode); switch(type) { case mitk::VtkPropRenderer::Opaque: mapper->MitkRenderOpaqueGeometry(this); break; case mitk::VtkPropRenderer::Translucent: mapper->MitkRenderTranslucentGeometry(this); break; case mitk::VtkPropRenderer::Overlay: mapper->MitkRenderOverlay(this); break; case mitk::VtkPropRenderer::Volumetric: mapper->MitkRenderVolumetricGeometry(this); break; } if(mode) glEnable(bit); else glDisable(bit); glLineWidth(lineWidth); //end Workarround for bug GL_TEXTURE_2D (bug #8188) } if (lastVtkBased == false) Disable2DOpenGL(); // Render text if (type == VtkPropRenderer::Overlay) { if (m_TextCollection.size() > 0) { for (TextMapType::iterator it = m_TextCollection.begin(); it != m_TextCollection.end() ; it++) m_TextRenderer->AddViewProp((*it).second); m_TextRenderer->Render(); } } return 1; } /*! \brief PrepareMapperQueue iterates the datatree PrepareMapperQueue iterates the datatree in order to find mappers which shall be rendered. Also, it sortes the mappers wrt to their layer. */ void mitk::VtkPropRenderer::PrepareMapperQueue() { // variable for counting LOD-enabled mappers m_NumberOfVisibleLODEnabledMappers = 0; // Do we have to update the mappers ? if ( m_LastUpdateTime < GetMTime() || m_LastUpdateTime < GetDisplayGeometry()->GetMTime() ) { Update(); } else if (m_MapperID>=1 && m_MapperID < 6) Update(); // remove all text properties before mappers will add new ones m_TextRenderer->RemoveAllViewProps(); for ( unsigned int i=0; iDelete(); } m_TextCollection.clear(); // clear priority_queue m_MappersMap.clear(); int mapperNo = 0; //DataStorage if( m_DataStorage.IsNull() ) return; DataStorage::SetOfObjects::ConstPointer allObjects = m_DataStorage->GetAll(); for (DataStorage::SetOfObjects::ConstIterator it = allObjects->Begin(); it != allObjects->End(); ++it) { DataNode::Pointer node = it->Value(); if ( node.IsNull() ) continue; mitk::Mapper::Pointer mapper = node->GetMapper(m_MapperID); if ( mapper.IsNull() ) continue; // The information about LOD-enabled mappers is required by RenderingManager if ( mapper->IsLODEnabled( this ) && mapper->IsVisible( this ) ) { ++m_NumberOfVisibleLODEnabledMappers; } // mapper without a layer property get layer number 1 int layer = 1; node->GetIntProperty("layer", layer, this); int nr = (layer<<16) + mapperNo; m_MappersMap.insert( std::pair< int, Mapper * >( nr, mapper ) ); mapperNo++; } } /*! \brief Enable2DOpenGL() and Disable2DOpenGL() are used to switch between 2D rendering (orthographic projection) and 3D rendering (perspective projection) */ void mitk::VtkPropRenderer::Enable2DOpenGL() { GLint iViewport[4]; // Get a copy of the viewport glGetIntegerv( GL_VIEWPORT, iViewport ); // Save a copy of the projection matrix so that we can restore it // when it's time to do 3D rendering again. glMatrixMode( GL_PROJECTION ); glPushMatrix(); glLoadIdentity(); // Set up the orthographic projection glOrtho( iViewport[0], iViewport[0]+iViewport[2], iViewport[1], iViewport[1]+iViewport[3], -1.0, 1.0 ); glMatrixMode( GL_MODELVIEW ); glPushMatrix(); glLoadIdentity(); // Make sure depth testing and lighting are disabled for 2D rendering until // we are finished rendering in 2D glPushAttrib( GL_DEPTH_BUFFER_BIT | GL_LIGHTING_BIT ); glDisable( GL_DEPTH_TEST ); glDisable( GL_LIGHTING ); } /*! \brief Initialize the VtkPropRenderer Enable2DOpenGL() and Disable2DOpenGL() are used to switch between 2D rendering (orthographic projection) and 3D rendering (perspective projection) */ void mitk::VtkPropRenderer::Disable2DOpenGL() { glPopAttrib(); glMatrixMode( GL_PROJECTION ); glPopMatrix(); glMatrixMode( GL_MODELVIEW ); glPopMatrix(); } void mitk::VtkPropRenderer::Update(mitk::DataNode* datatreenode) { if(datatreenode!=NULL) { mitk::Mapper::Pointer mapper = datatreenode->GetMapper(m_MapperID); if(mapper.IsNotNull()) { Mapper2D* mapper2d=dynamic_cast(mapper.GetPointer()); if(mapper2d != NULL) { if(GetDisplayGeometry()->IsValid()) { VtkMapper2D* vtkmapper2d=dynamic_cast(mapper.GetPointer()); if(vtkmapper2d != NULL) { vtkmapper2d->Update(this); m_VtkMapperPresent=true; } else mapper2d->Update(this); } } else { VtkMapper3D* vtkmapper3d=dynamic_cast(mapper.GetPointer()); if(vtkmapper3d != NULL) { vtkmapper3d->Update(this); vtkmapper3d->UpdateVtkTransform(this); m_VtkMapperPresent=true; } } } } } void mitk::VtkPropRenderer::Update() { if( m_DataStorage.IsNull() ) return; m_VtkMapperPresent = false; mitk::DataStorage::SetOfObjects::ConstPointer all = m_DataStorage->GetAll(); for (mitk::DataStorage::SetOfObjects::ConstIterator it = all->Begin(); it != all->End(); ++it) Update(it->Value()); Modified(); m_LastUpdateTime = GetMTime(); } /*! \brief This method is called from the two Constructors */ void mitk::VtkPropRenderer::InitRenderer(vtkRenderWindow* renderWindow) { BaseRenderer::InitRenderer(renderWindow); if(renderWindow == NULL) { m_InitNeeded = false; m_ResizeNeeded = false; return; } m_InitNeeded = true; m_ResizeNeeded = true; m_LastUpdateTime = 0; } /*! \brief Resize the OpenGL Window */ void mitk::VtkPropRenderer::Resize(int w, int h) { BaseRenderer::Resize(w, h); m_RenderingManager->RequestUpdate(this->GetRenderWindow()); } void mitk::VtkPropRenderer::InitSize(int w, int h) { m_RenderWindow->SetSize(w,h); Superclass::InitSize(w, h); Modified(); Update(); if(m_VtkRenderer!=NULL) { int w=vtkObject::GetGlobalWarningDisplay(); vtkObject::GlobalWarningDisplayOff(); m_VtkRenderer->ResetCamera(); vtkObject::SetGlobalWarningDisplay(w); } } void mitk::VtkPropRenderer::SetMapperID(const MapperSlotId mapperId) { if(m_MapperID != mapperId) Superclass::SetMapperID(mapperId); // Workaround for GL Displaylist Bug checkState(); } /*! \brief Activates the current renderwindow. */ void mitk::VtkPropRenderer::MakeCurrent() { if(m_RenderWindow!=NULL) m_RenderWindow->MakeCurrent(); } void mitk::VtkPropRenderer::PickWorldPoint(const mitk::Point2D& displayPoint, mitk::Point3D& worldPoint) const { if(m_VtkMapperPresent) { //m_WorldPointPicker->SetTolerance (0.0001); switch ( m_PickingMode ) { case (WorldPointPicking) : { m_WorldPointPicker->Pick(displayPoint[0], displayPoint[1], 0, m_VtkRenderer); vtk2itk(m_WorldPointPicker->GetPickPosition(), worldPoint); break; } case (PointPicking) : { // create a new vtkRenderer // give it all necessary information (camera position, etc.) // get all surfaces from datastorage, get actors from them // add all those actors to the new renderer // give this new renderer to pointpicker /* vtkRenderer* pickingRenderer = vtkRenderer::New(); pickingRenderer->SetActiveCamera( ); DataStorage* dataStorage = m_DataStorage; TNodePredicateDataType isSurface; DataStorage::SetOfObjects::ConstPointer allSurfaces = dataStorage->GetSubset( isSurface ); MITK_INFO << "in picking: got " << allSurfaces->size() << " surfaces." << std::endl; for (DataStorage::SetOfObjects::const_iterator iter = allSurfaces->begin(); iter != allSurfaces->end(); ++iter) { const DataNode* currentNode = *iter; VtkMapper3D* baseVtkMapper3D = dynamic_cast( currentNode->GetMapper( BaseRenderer::Standard3D ) ); if ( baseVtkMapper3D ) { vtkActor* actor = dynamic_cast( baseVtkMapper3D->GetViewProp() ); if (actor) { MITK_INFO << "a" << std::flush; pickingRenderer->AddActor( actor ); } } } MITK_INFO << ";" << std::endl; */ m_PointPicker->Pick(displayPoint[0], displayPoint[1], 0, m_VtkRenderer); vtk2itk(m_PointPicker->GetPickPosition(), worldPoint); break; } } } else { Superclass::PickWorldPoint(displayPoint, worldPoint); } } mitk::DataNode * mitk::VtkPropRenderer::PickObject( const Point2D &displayPosition, Point3D &worldPosition ) const { if ( m_VtkMapperPresent ) { m_CellPicker->InitializePickList(); // Iterate over all DataStorage objects to determine all vtkProps intended // for picking DataStorage::SetOfObjects::ConstPointer allObjects = m_DataStorage->GetAll(); for ( DataStorage::SetOfObjects::ConstIterator it = allObjects->Begin(); it != allObjects->End(); ++it ) { DataNode *node = it->Value(); if ( node == NULL ) continue; bool pickable = false; node->GetBoolProperty( "pickable", pickable ); if ( !pickable ) continue; VtkMapper3D *mapper = dynamic_cast< VtkMapper3D * > ( node->GetMapper( m_MapperID ) ); if ( mapper == NULL ) continue; vtkProp *prop = mapper->GetVtkProp( (mitk::BaseRenderer *)this ); if ( prop == NULL ) continue; m_CellPicker->AddPickList( prop ); } // Do the picking and retrieve the picked vtkProp (if any) m_CellPicker->PickFromListOn(); m_CellPicker->Pick( displayPosition[0], displayPosition[1], 0.0, m_VtkRenderer ); m_CellPicker->PickFromListOff(); vtk2itk( m_CellPicker->GetPickPosition(), worldPosition ); vtkProp *prop = m_CellPicker->GetViewProp(); if ( prop == NULL ) { return NULL; } // Iterate over all DataStorage objects to determine if the retrieved // vtkProp is owned by any associated mapper. for ( DataStorage::SetOfObjects::ConstIterator it = allObjects->Begin(); it != allObjects->End(); ++it) { DataNode::Pointer node = it->Value(); if ( node.IsNull() ) continue; mitk::Mapper::Pointer mapper = node->GetMapper( m_MapperID ); if ( mapper.IsNull() ) continue; if ( mapper->HasVtkProp( prop, const_cast< mitk::VtkPropRenderer * >( this ) ) ) { return node; } } return NULL; } else { return Superclass::PickObject( displayPosition, worldPosition ); } }; /*! \brief Writes some 2D text as overlay. Function returns an unique int Text_ID for each call, which can be used via the GetTextLabelProperty(int text_id) function in order to get a vtkTextProperty. This property enables the setup of font, font size, etc. */ int mitk::VtkPropRenderer::WriteSimpleText(std::string text, double posX, double posY, double color1, double color2, double color3) { if(text.size() > 0) { vtkTextActor* textActor = vtkTextActor::New(); textActor->SetPosition(posX,posY); textActor->SetInput(text.c_str()); textActor->GetTextProperty()->SetColor(color1, color2, color3); //TODO: Read color from node property int text_id = m_TextCollection.size(); m_TextCollection.insert(TextMapType::value_type(text_id,textActor)); return text_id; } return -1; } /*! \brief Can be used in order to get a vtkTextProperty for a specific text_id. This property enables the setup of font, font size, etc. */ vtkTextProperty* mitk::VtkPropRenderer::GetTextLabelProperty(int text_id) { return this->m_TextCollection[text_id]->GetTextProperty(); } void mitk::VtkPropRenderer::InitPathTraversal() { if (m_DataStorage.IsNotNull()) { m_PickingObjects = m_DataStorage->GetAll(); m_PickingObjectsIterator = m_PickingObjects->begin(); } } vtkAssemblyPath* mitk::VtkPropRenderer::GetNextPath() { if (m_DataStorage.IsNull() ) { return NULL; } if ( m_PickingObjectsIterator == m_PickingObjects->end() ) { return NULL; } vtkAssemblyPath* returnPath = vtkAssemblyPath::New(); //returnPath->Register(NULL); bool success = false; while (!success) { // loop until AddNode can be called successfully const DataNode* node = *m_PickingObjectsIterator; if (node) { Mapper* mapper = node->GetMapper( BaseRenderer::Standard3D ); if (mapper) { VtkMapper3D* vtkmapper = dynamic_cast( mapper ); if (vtkmapper) { vtkProp* prop = vtkmapper->GetVtkProp(this); if ( prop && prop->GetVisibility() ) { // add to assembly path returnPath->AddNode( prop, prop->GetMatrix() ); success = true; } } } } ++m_PickingObjectsIterator; if ( m_PickingObjectsIterator == m_PickingObjects->end() ) break; } if ( success ) { return returnPath; } else { return NULL; } } void mitk::VtkPropRenderer::ReleaseGraphicsResources(vtkWindow *renWin) { if( m_DataStorage.IsNull() ) return; DataStorage::SetOfObjects::ConstPointer allObjects = m_DataStorage->GetAll(); for (DataStorage::SetOfObjects::const_iterator iter = allObjects->begin(); iter != allObjects->end(); ++iter) { DataNode::Pointer node = *iter; if ( node.IsNull() ) continue; Mapper::Pointer mapper = node->GetMapper(m_MapperID); if(mapper.IsNotNull()) mapper->ReleaseGraphicsResources(renWin); } } const vtkWorldPointPicker *mitk::VtkPropRenderer::GetWorldPointPicker() const { return m_WorldPointPicker; } const vtkPointPicker *mitk::VtkPropRenderer::GetPointPicker() const { return m_PointPicker; } const vtkCellPicker *mitk::VtkPropRenderer::GetCellPicker() const { return m_CellPicker; } mitk::VtkPropRenderer::MappersMapType mitk::VtkPropRenderer::GetMappersMap() const { return m_MappersMap; } // Workaround for GL Displaylist bug static int glWorkAroundGlobalCount = 0; bool mitk::VtkPropRenderer::useImmediateModeRendering() { return glWorkAroundGlobalCount>1; } void mitk::VtkPropRenderer::checkState() { if (m_MapperID == Standard3D) { if (!didCount) { didCount = true; glWorkAroundGlobalCount++; if (glWorkAroundGlobalCount == 2) { MITK_INFO << "Multiple 3D Renderwindows active...: turning Immediate Rendering ON for legacy mappers"; // vtkMapper::GlobalImmediateModeRenderingOn(); } //MITK_INFO << "GLOBAL 3D INCREASE " << glWorkAroundGlobalCount << "\n"; } } else { if(didCount) { didCount=false; glWorkAroundGlobalCount--; if(glWorkAroundGlobalCount==1) { MITK_INFO << "Single 3D Renderwindow active...: turning Immediate Rendering OFF for legacy mappers"; // vtkMapper::GlobalImmediateModeRenderingOff(); } //MITK_INFO << "GLOBAL 3D DECREASE " << glWorkAroundGlobalCount << "\n"; } } } //### Contains all methods which are neceassry before each VTK Render() call void mitk::VtkPropRenderer::PrepareRender() { - // if(!m_2DCameraInitialized) - // { - m_2DCameraInitialized = Initialize2DvtkCamera(); //Set parallel projection etc. TODO: call only once per RW - // } + if ( this->GetMapperID() != m_CameraInitializedForMapperID ) + { + Initialize2DvtkCamera(); //Set parallel projection etc. + } + AdjustCameraToScene(); //Prepare camera for 2D render windows } -bool mitk::VtkPropRenderer::Initialize2DvtkCamera(){ - if(this->GetMapperID() == Standard2D) +bool mitk::VtkPropRenderer::Initialize2DvtkCamera() +{ + if ( this->GetMapperID() == Standard3D ) + { + //activate parallel projection for 2D + this->GetVtkRenderer()->GetActiveCamera()->SetParallelProjection(false); + this->GetRenderWindow()->GetInteractor()->SetInteractorStyle( vtkInteractorStyleJoystickCamera::New() ); + m_CameraInitializedForMapperID = Standard3D; + } + else if( this->GetMapperID() == Standard2D) { //activate parallel projection for 2D this->GetVtkRenderer()->GetActiveCamera()->SetParallelProjection(true); //turn the light out in the scene in order to render correct grey values. //TODO Implement a property for light in the 2D render windows (in another method) this->GetVtkRenderer()->RemoveAllLights(); - //remove the VTK interaction - this->GetVtkRenderer()->GetRenderWindow()->GetInteractor()->Disable(); + + this->GetRenderWindow()->GetInteractor()->SetInteractorStyle( mitkVtkInteractorStyle::New() ); + + m_CameraInitializedForMapperID = Standard2D; } return true; } void mitk::VtkPropRenderer::AdjustCameraToScene(){ if(this->GetMapperID() == Standard2D) { const mitk::DisplayGeometry* displayGeometry = this->GetDisplayGeometry(); double objectHeightInMM = this->GetCurrentWorldGeometry2D()->GetExtentInMM(1);//the height of the current object slice in mm double displayHeightInMM = displayGeometry->GetSizeInMM()[1]; //the display height in mm (gets smaller when you zoom in) double zoomFactor = objectHeightInMM/displayHeightInMM; //displayGeometry->GetScaleFactorMMPerDisplayUnit() //determine how much of the object can be displayed Vector2D displayGeometryOriginInMM = displayGeometry->GetOriginInMM(); //top left of the render window (Origin) Vector2D displayGeometryCenterInMM = displayGeometryOriginInMM + displayGeometry->GetSizeInMM()*0.5; //center of the render window: (Origin + Size/2) //Scale the rendered object: //The image is scaled by a single factor, because in an orthographic projection sizes //are preserved (so you cannot scale X and Y axis with different parameters). The //parameter sets the size of the total display-volume. If you set this to the image //height, the image plus a border with the size of the image will be rendered. //Therefore, the size is imageHeightInMM / 2. this->GetVtkRenderer()->GetActiveCamera()->SetParallelScale(objectHeightInMM*0.5 ); //zooming with the factor calculated by dividing displayHeight through imegeHeight. The factor is inverse, because the VTK zoom method is working inversely. this->GetVtkRenderer()->GetActiveCamera()->Zoom(zoomFactor); //the center of the view-plane double viewPlaneCenter[3]; viewPlaneCenter[0] = displayGeometryCenterInMM[0]; viewPlaneCenter[1] = displayGeometryCenterInMM[1]; viewPlaneCenter[2] = 0.0; //the view-plane is located in the XY-plane with Z=0.0 //define which direction is "up" for the ciamera (like default for vtk (0.0, 1.0, 0.0) double cameraUp[3]; cameraUp[0] = 0.0; cameraUp[1] = 1.0; cameraUp[2] = 0.0; //the position of the camera (center[0], center[1], 900000) double cameraPosition[3]; cameraPosition[0] = viewPlaneCenter[0]; cameraPosition[1] = viewPlaneCenter[1]; cameraPosition[2] = 900000.0; //Reason for 900000: VTK seems to calculate the clipping planes wrong for small values. See VTK bug (id #7823) in VTK bugtracker. //set the camera corresponding to the textured plane vtkSmartPointer camera = this->GetVtkRenderer()->GetActiveCamera(); if (camera) { camera->SetPosition( cameraPosition ); //set the camera position on the textured plane normal (in our case this is the view plane normal) camera->SetFocalPoint( viewPlaneCenter ); //set the focal point to the center of the textured plane camera->SetViewUp( cameraUp ); //set the view-up for the camera // double distance = sqrt((cameraPosition[2]-viewPlaneCenter[2])*(cameraPosition[2]-viewPlaneCenter[2])); // camera->SetClippingRange(distance-50, distance+50); //Reason for huge range: VTK seems to calculate the clipping planes wrong for small values. See VTK bug (id #7823) in VTK bugtracker. camera->SetClippingRange(0.1, 1000000); //Reason for huge range: VTK seems to calculate the clipping planes wrong for small values. See VTK bug (id #7823) in VTK bugtracker. } const PlaneGeometry *planeGeometry = dynamic_cast< const PlaneGeometry * >( this->GetCurrentWorldGeometry2D() ); if ( planeGeometry != NULL ) { //Transform the camera to the current position (transveral, coronal and saggital plane). //This is necessary, because the SetUserTransform() method does not manipulate the vtkCamera. //(Without not all three planes would be visible). vtkSmartPointer trans = vtkSmartPointer::New(); vtkSmartPointer matrix = vtkSmartPointer::New(); Point3D origin; Vector3D right, bottom, normal; origin = planeGeometry->GetOrigin(); right = planeGeometry->GetAxisVector( 0 ); // right = Extent of Image in mm (worldspace) bottom = planeGeometry->GetAxisVector( 1 ); normal = planeGeometry->GetNormal(); right.Normalize(); bottom.Normalize(); normal.Normalize(); matrix->SetElement(0, 0, right[0]); matrix->SetElement(1, 0, right[1]); matrix->SetElement(2, 0, right[2]); matrix->SetElement(0, 1, bottom[0]); matrix->SetElement(1, 1, bottom[1]); matrix->SetElement(2, 1, bottom[2]); matrix->SetElement(0, 2, normal[0]); matrix->SetElement(1, 2, normal[1]); matrix->SetElement(2, 2, normal[2]); matrix->SetElement(0, 3, origin[0]); matrix->SetElement(1, 3, origin[1]); matrix->SetElement(2, 3, origin[2]); matrix->SetElement(3, 0, 0.0); matrix->SetElement(3, 1, 0.0); matrix->SetElement(3, 2, 0.0); matrix->SetElement(3, 3, 1.0); trans->SetMatrix(matrix); //Transform the camera to the current position (transveral, coronal and saggital plane). this->GetVtkRenderer()->GetActiveCamera()->ApplyTransform(trans); } } } diff --git a/Core/Code/Rendering/mitkVtkPropRenderer.h b/Core/Code/Rendering/mitkVtkPropRenderer.h index 588018d05a..79fae29200 100644 --- a/Core/Code/Rendering/mitkVtkPropRenderer.h +++ b/Core/Code/Rendering/mitkVtkPropRenderer.h @@ -1,241 +1,241 @@ /*========================================================================= Program: Medical Imaging & Interaction Toolkit Language: C++ Date: $Date: 2007-09-22 12:01:41 +0200 (Sa, 22 Sep 2007) $ Version: $Revision: 12241 $ Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. See MITKCopyright.txt or http://www.mitk.org/copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #ifndef MITKVtkPropRenderer_H_HEADER_INCLUDED_C1C29F6D #define MITKVtkPropRenderer_H_HEADER_INCLUDED_C1C29F6D #include #include "mitkBaseRenderer.h" #include "mitkDataStorage.h" #include "mitkRenderingManager.h" #include #include #include class vtkRenderWindow; class vtkLight; class vtkLightKit; class vtkWorldPointPicker; class vtkPointPicker; class vtkCellPicker; class vtkTextActor; class vtkTextProperty; class vtkAssemblyPath; namespace mitk { class Mapper; /*! \brief VtkPropRenderer VtkPropRenderer organizes the MITK rendering process. The MITK rendering process is completely integrated into the VTK rendering pipeline. The vtkMitkRenderProp is a custom vtkProp derived class, which implements the rendering interface between MITK and VTK. It redirects render() calls to the VtkPropRenderer, which is responsible for rendering of the datatreenodes. VtkPropRenderer replaces the old OpenGLRenderer. \sa rendering \ingroup rendering */ class MITK_CORE_EXPORT VtkPropRenderer : public BaseRenderer { // Workaround for Displaylistbug private: bool didCount; void checkState(); // Workaround END public: mitkClassMacro(VtkPropRenderer,BaseRenderer); mitkNewMacro3Param(VtkPropRenderer, const char*, vtkRenderWindow *, mitk::RenderingManager* ); typedef std::map MappersMapType; // Render - called by vtkMitkRenderProp, returns the number of props rendered enum RenderType{Opaque,Translucent,Overlay,Volumetric}; int Render(RenderType type); /** \brief This methods contains all method neceassary before a VTK Render() call */ virtual void PrepareRender(); // Active current renderwindow virtual void MakeCurrent(); virtual void SetDataStorage( mitk::DataStorage* storage ); ///< set the datastorage that will be used for rendering virtual void InitRenderer(vtkRenderWindow* renderwindow); virtual void Update(mitk::DataNode* datatreenode); virtual void SetMapperID(const MapperSlotId mapperId); // Size virtual void InitSize(int w, int h); virtual void Resize(int w, int h); // Picking enum PickingMode{ WorldPointPicking, PointPicking }; itkSetEnumMacro( PickingMode, PickingMode ); itkGetEnumMacro( PickingMode, PickingMode ); virtual void PickWorldPoint(const Point2D& displayPoint, Point3D& worldPoint) const; virtual mitk::DataNode *PickObject( const Point2D &displayPosition, Point3D &worldPosition ) const; // Simple text rendering method int WriteSimpleText(std::string text, double posX, double posY, double color1 = 0.0, double color2 = 1.0, double color3 = 0.0); vtkTextProperty * GetTextLabelProperty(int text_id); // Initialization / geometry handling /** This method calculates the bounds of the DataStorage (if it contains any * valid data), creates a geometry from these bounds and sets it as world * geometry of the renderer. * * Call this method to re-initialize the renderer to the current DataStorage * (e.g. after loading an additional dataset), to ensure that the view is * aligned correctly. */ virtual bool SetWorldGeometryToDataStorageBounds(); /** * \brief Used by vtkPointPicker/vtkPicker. * This will query a list of all objects in MITK and provide every vtk based mapper to the picker. */ void InitPathTraversal(); /** * \brief Used by vtkPointPicker/vtkPicker. * This will query a list of all objects in MITK and provide every vtk based mapper to the picker. */ vtkAssemblyPath* GetNextPath(); const vtkWorldPointPicker *GetWorldPointPicker() const; const vtkPointPicker *GetPointPicker() const; const vtkCellPicker *GetCellPicker() const; /** * \brief Release vtk-based graphics resources. Called by * vtkMitkRenderProp::ReleaseGraphicsResources. */ virtual void ReleaseGraphicsResources(vtkWindow *renWin); MappersMapType GetMappersMap() const; static bool useImmediateModeRendering(); protected: VtkPropRenderer( const char* name = "VtkPropRenderer", vtkRenderWindow * renWin = NULL, mitk::RenderingManager* rm = NULL ); virtual ~VtkPropRenderer(); virtual void Update(); private: /** \brief This method sets up the camera on the actor (e.g. an image) of all * 2D vtkRenderWindows. The view is centered; zooming and panning of VTK are called inside. * * \image html ImageMapperdisplayGeometry.png * * Similar to the textured plane of an image * (cf. void mitkImageVtkMapper2D::GeneratePlane(mitk::BaseRenderer* renderer, * vtkFloatingPointType planeBounds[6])), the mitkDisplayGeometry defines a view plane (or * projection plane). This plane is used to set the camera parameters. The view plane * center (VC) is important for camera positioning (cf. the image above). * * The following figure shows the combination of the textured plane and the view plane. * * \image html cameraPositioning.png * * The view plane center (VC) is the center of the textured plane (C) and the focal point * (FP) at the same time. The FP defines the direction the camera faces. Since * the textured plane is always in the XY-plane and orthographic projection is applied, the * distance between camera and plane is theoretically irrelevant (because in the orthographic * projection the center of projection is at infinity and the size of objects depends only on * a scaling parameter). As a consequence, the direction of projection (DOP) is (0; 0; -1). * The camera up vector is always defined as (0; 1; 0). * * \warning Due to a VTK clipping bug the distance between textured plane and camera is really huge. * Otherwise, VTK would clip off some slices. Same applies for the clipping range size. * * \note The camera position is defined through the mitkDisplayGeometry. * This facilitates zooming and panning, because the display * geometry changes and the textured plane does not. * * \image html scaling.png * * The textured plane is scaled to fill the render window via * camera->SetParallelScale( imageHeightInMM / 2). In the orthographic projection all extends, * angles and sizes are preserved. Therefore, the image is scaled by one parameter which defines * the size of the rendered image. A higher value will result in smaller images. In order to render * just the whole image, the scale is set to half of the image height in worldcoordinates * (cf. the picture above). * * For zooming purposes, a factor is computed as follows: * factor = image height / display height (in worldcoordinates). * When the display geometry gets smaller (zoom in), the factor becomes bigger. When the display * geometry gets bigger (zoom out), the factor becomes smaller. The used VTK method * camera->Zoom( factor ) also works with an inverse scale. */ void AdjustCameraToScene(); // switch between orthogonal opengl projection (2D rendering via mitk::GLMapper2D) and perspective projection (3D rendering) void Enable2DOpenGL(); void Disable2DOpenGL(); // prepare all mitk::mappers for rendering void PrepareMapperQueue(); /** \brief Set parallel projection, remove the interactor and the lights of VTK. */ bool Initialize2DvtkCamera(); bool m_InitNeeded; bool m_ResizeNeeded; bool m_VtkMapperPresent; bool m_NewRenderer; - bool m_2DCameraInitialized; + MapperSlotId m_CameraInitializedForMapperID; // Picking vtkWorldPointPicker * m_WorldPointPicker; vtkPointPicker * m_PointPicker; vtkCellPicker * m_CellPicker; PickingMode m_PickingMode; // Explicit use of SmartPointer to avoid circular #includes itk::SmartPointer< mitk::Mapper > m_CurrentWorldGeometry2DMapper; vtkLightKit* m_LightKit; // sorted list of mappers MappersMapType m_MappersMap; // rendering of text vtkRenderer * m_TextRenderer; typedef std::map TextMapType; TextMapType m_TextCollection; DataStorage::SetOfObjects::ConstPointer m_PickingObjects; DataStorage::SetOfObjects::const_iterator m_PickingObjectsIterator; }; } // namespace mitk #endif /* MITKVtkPropRenderer_H_HEADER_INCLUDED_C1C29F6D */ diff --git a/Core/Code/files.cmake b/Core/Code/files.cmake index d2b5776d37..55bac0e9e4 100644 --- a/Core/Code/files.cmake +++ b/Core/Code/files.cmake @@ -1,335 +1,336 @@ SET(H_FILES Algorithms/itkImportMitkImageContainer.h Algorithms/itkImportMitkImageContainer.txx Algorithms/itkLocalVariationImageFilter.h Algorithms/itkLocalVariationImageFilter.txx Algorithms/itkMITKScalarImageToHistogramGenerator.h Algorithms/itkMITKScalarImageToHistogramGenerator.txx Algorithms/itkTotalVariationDenoisingImageFilter.h Algorithms/itkTotalVariationDenoisingImageFilter.txx Algorithms/itkTotalVariationSingleIterationImageFilter.h Algorithms/itkTotalVariationSingleIterationImageFilter.txx Algorithms/mitkBilateralFilter.h Algorithms/mitkBilateralFilter.cpp Algorithms/mitkImageAccessByItk.h Algorithms/mitkImageCast.h Algorithms/mitkImageToItk.h Algorithms/mitkImageToItk.txx Algorithms/mitkInstantiateAccessFunctions.h Algorithms/mitkITKImageImport.h Algorithms/mitkITKImageImport.txx Algorithms/mitkPixelTypeList.h # Preprocessor macros taken from Boost Algorithms/mitkPPArithmeticDec.h Algorithms/mitkPPArgCount.h Algorithms/mitkPPCat.h Algorithms/mitkPPConfig.h Algorithms/mitkPPControlExprIIf.h Algorithms/mitkPPControlIf.h Algorithms/mitkPPControlIIf.h Algorithms/mitkPPDebugError.h Algorithms/mitkPPDetailAutoRec.h Algorithms/mitkPPDetailDMCAutoRec.h Algorithms/mitkPPExpand.h Algorithms/mitkPPFacilitiesEmpty.h Algorithms/mitkPPFacilitiesExpand.h Algorithms/mitkPPLogicalBool.h Algorithms/mitkPPRepetitionDetailDMCFor.h Algorithms/mitkPPRepetitionDetailEDGFor.h Algorithms/mitkPPRepetitionDetailFor.h Algorithms/mitkPPRepetitionDetailMSVCFor.h Algorithms/mitkPPRepetitionFor.h Algorithms/mitkPPSeqElem.h Algorithms/mitkPPSeqForEach.h Algorithms/mitkPPSeqForEachProduct.h Algorithms/mitkPPSeq.h Algorithms/mitkPPSeqEnum.h Algorithms/mitkPPSeqSize.h Algorithms/mitkPPSeqToTuple.h Algorithms/mitkPPStringize.h Algorithms/mitkPPTupleEat.h Algorithms/mitkPPTupleElem.h Algorithms/mitkPPTupleRem.h Algorithms/mitkClippedSurfaceBoundsCalculator.h IO/mitkPixelTypeTraits.h DataManagement/mitkCommon.h Interactions/mitkEventMapperAddOn.h Service/mitkAny.h Service/mitkGetModuleContext.h Service/mitkItkHashMap.h Service/mitkItkHashSet.h Service/mitkItkHashTable.h Service/mitkModuleAbstractTracked.h Service/mitkModuleAbstractTracked.tpp Service/mitkModuleActivator.h Service/mitkServiceFactory.h Service/mitkServiceTracker.h Service/mitkServiceTracker.tpp Service/mitkServiceTrackerCustomizer.h Service/mitkServiceTrackerPrivate.h Service/mitkServiceTrackerPrivate.tpp Service/mitkServiceUtils.h Service/mitkSharedData.h Service/mitkStaticInit.h Service/mitkTrackedService.h Service/mitkTrackedService.tpp Service/mitkTrackedServiceListener.h ) SET(CPP_FILES Algorithms/mitkBaseDataSource.cpp Algorithms/mitkBaseProcess.cpp Algorithms/mitkCoreObjectFactoryBase.cpp Algorithms/mitkCoreObjectFactory.cpp Algorithms/mitkDataNodeFactory.cpp Algorithms/mitkDataNodeSource.cpp Algorithms/mitkGeometry2DDataToSurfaceFilter.cpp Algorithms/mitkHistogramGenerator.cpp Algorithms/mitkImageCaster.cpp Algorithms/mitkImageCastPart1.cpp Algorithms/mitkImageCastPart2.cpp Algorithms/mitkImageCastPart3.cpp Algorithms/mitkImageCastPart4.cpp Algorithms/mitkImageChannelSelector.cpp Algorithms/mitkImageSliceSelector.cpp Algorithms/mitkImageSource.cpp Algorithms/mitkImageTimeSelector.cpp Algorithms/mitkImageToImageFilter.cpp Algorithms/mitkPointSetSource.cpp Algorithms/mitkPointSetToPointSetFilter.cpp Algorithms/mitkRGBToRGBACastImageFilter.cpp Algorithms/mitkSubImageSelector.cpp Algorithms/mitkSurfaceSource.cpp Algorithms/mitkSurfaceToSurfaceFilter.cpp Algorithms/mitkUIDGenerator.cpp Algorithms/mitkVolumeCalculator.cpp Algorithms/mitkClippedSurfaceBoundsCalculator.cpp Controllers/mitkBaseController.cpp Controllers/mitkCallbackFromGUIThread.cpp Controllers/mitkCameraController.cpp Controllers/mitkCameraRotationController.cpp Controllers/mitkFocusManager.cpp Controllers/mitkLimitedLinearUndo.cpp Controllers/mitkOperationEvent.cpp Controllers/mitkPlanePositionManager.cpp Controllers/mitkProgressBar.cpp Controllers/mitkRenderingManager.cpp Controllers/mitkSliceNavigationController.cpp Controllers/mitkSlicesCoordinator.cpp Controllers/mitkSlicesRotator.cpp Controllers/mitkSlicesSwiveller.cpp Controllers/mitkStatusBar.cpp Controllers/mitkStepper.cpp Controllers/mitkTestManager.cpp Controllers/mitkUndoController.cpp Controllers/mitkVerboseLimitedLinearUndo.cpp Controllers/mitkVtkInteractorCameraController.cpp Controllers/mitkVtkLayerController.cpp DataManagement/mitkAbstractTransformGeometry.cpp DataManagement/mitkAnnotationProperty.cpp DataManagement/mitkApplicationCursor.cpp DataManagement/mitkBaseData.cpp DataManagement/mitkBaseProperty.cpp DataManagement/mitkClippingProperty.cpp DataManagement/mitkChannelDescriptor.cpp DataManagement/mitkColorProperty.cpp DataManagement/mitkDataStorage.cpp #DataManagement/mitkDataTree.cpp DataManagement/mitkDataNode.cpp #DataManagement/mitkDataTreeStorage.cpp DataManagement/mitkDisplayGeometry.cpp DataManagement/mitkEnumerationProperty.cpp DataManagement/mitkGeometry2D.cpp DataManagement/mitkGeometry2DData.cpp DataManagement/mitkGeometry3D.cpp DataManagement/mitkGeometryData.cpp DataManagement/mitkGroupTagProperty.cpp DataManagement/mitkImage.cpp DataManagement/mitkImageDataItem.cpp DataManagement/mitkImageDescriptor.cpp DataManagement/mitkImageStatisticsHolder.cpp DataManagement/mitkLandmarkBasedCurvedGeometry.cpp DataManagement/mitkLandmarkProjectorBasedCurvedGeometry.cpp DataManagement/mitkLandmarkProjector.cpp DataManagement/mitkLevelWindow.cpp DataManagement/mitkLevelWindowManager.cpp DataManagement/mitkLevelWindowPreset.cpp DataManagement/mitkLevelWindowProperty.cpp DataManagement/mitkLookupTable.cpp DataManagement/mitkLookupTables.cpp # specializations of GenericLookupTable DataManagement/mitkMemoryUtilities.cpp DataManagement/mitkModalityProperty.cpp DataManagement/mitkModeOperation.cpp DataManagement/mitkNodePredicateAnd.cpp DataManagement/mitkNodePredicateBase.cpp DataManagement/mitkNodePredicateCompositeBase.cpp DataManagement/mitkNodePredicateData.cpp DataManagement/mitkNodePredicateDataType.cpp DataManagement/mitkNodePredicateDimension.cpp DataManagement/mitkNodePredicateFirstLevel.cpp DataManagement/mitkNodePredicateNot.cpp DataManagement/mitkNodePredicateOr.cpp DataManagement/mitkNodePredicateProperty.cpp DataManagement/mitkNodePredicateSource.cpp DataManagement/mitkPlaneOrientationProperty.cpp DataManagement/mitkPlaneGeometry.cpp DataManagement/mitkPlaneOperation.cpp DataManagement/mitkPointOperation.cpp DataManagement/mitkPointSet.cpp DataManagement/mitkProperties.cpp DataManagement/mitkPropertyList.cpp DataManagement/mitkRestorePlanePositionOperation.cpp DataManagement/mitkRotationOperation.cpp DataManagement/mitkSlicedData.cpp DataManagement/mitkSlicedGeometry3D.cpp DataManagement/mitkSmartPointerProperty.cpp DataManagement/mitkStandaloneDataStorage.cpp DataManagement/mitkStateTransitionOperation.cpp DataManagement/mitkStringProperty.cpp DataManagement/mitkSurface.cpp DataManagement/mitkSurfaceOperation.cpp DataManagement/mitkThinPlateSplineCurvedGeometry.cpp DataManagement/mitkTimeSlicedGeometry.cpp DataManagement/mitkTransferFunction.cpp DataManagement/mitkTransferFunctionProperty.cpp DataManagement/mitkTransferFunctionInitializer.cpp DataManagement/mitkVector.cpp DataManagement/mitkVtkInterpolationProperty.cpp DataManagement/mitkVtkRepresentationProperty.cpp DataManagement/mitkVtkResliceInterpolationProperty.cpp DataManagement/mitkVtkScalarModeProperty.cpp DataManagement/mitkVtkVolumeRenderingProperty.cpp DataManagement/mitkWeakPointerProperty.cpp DataManagement/mitkShaderProperty.cpp DataManagement/mitkResliceMethodProperty.cpp DataManagement/mitkMaterial.cpp Interactions/mitkAction.cpp Interactions/mitkAffineInteractor.cpp Interactions/mitkCoordinateSupplier.cpp Interactions/mitkDisplayCoordinateOperation.cpp Interactions/mitkDisplayInteractor.cpp Interactions/mitkDisplayPositionEvent.cpp Interactions/mitkDisplayVectorInteractor.cpp Interactions/mitkDisplayVectorInteractorLevelWindow.cpp Interactions/mitkDisplayVectorInteractorScroll.cpp Interactions/mitkEvent.cpp Interactions/mitkEventDescription.cpp Interactions/mitkEventMapper.cpp Interactions/mitkGlobalInteraction.cpp Interactions/mitkInteractor.cpp Interactions/mitkMouseModeSwitcher.cpp Interactions/mitkMouseMovePointSetInteractor.cpp Interactions/mitkMoveSurfaceInteractor.cpp Interactions/mitkNodeDepententPointSetInteractor.cpp Interactions/mitkPointSetInteractor.cpp Interactions/mitkPositionEvent.cpp Interactions/mitkPositionTracker.cpp Interactions/mitkState.cpp Interactions/mitkStateEvent.cpp Interactions/mitkStateMachine.cpp Interactions/mitkStateMachineFactory.cpp Interactions/mitkTransition.cpp Interactions/mitkWheelEvent.cpp Interactions/mitkKeyEvent.cpp Interactions/mitkVtkEventAdapter.cpp + Interactions/mitkVtkInteractorStyle.cxx Interactions/mitkCrosshairPositionEvent.cpp IO/mitkBaseDataIOFactory.cpp IO/mitkDicomSeriesReader.cpp IO/mitkFileReader.cpp IO/mitkFileSeriesReader.cpp IO/mitkFileWriter.cpp #IO/mitkIpPicGet.c IO/mitkImageGenerator.cpp IO/mitkImageWriter.cpp IO/mitkImageWriterFactory.cpp IO/mitkItkImageFileIOFactory.cpp IO/mitkItkImageFileReader.cpp IO/mitkItkPictureWrite.cpp IO/mitkLookupTableProperty.cpp IO/mitkOperation.cpp #IO/mitkPicFileIOFactory.cpp #IO/mitkPicFileReader.cpp #IO/mitkPicFileWriter.cpp #IO/mitkPicHelper.cpp #IO/mitkPicVolumeTimeSeriesIOFactory.cpp #IO/mitkPicVolumeTimeSeriesReader.cpp IO/mitkPixelType.cpp IO/mitkPointSetIOFactory.cpp IO/mitkPointSetReader.cpp IO/mitkPointSetWriter.cpp IO/mitkPointSetWriterFactory.cpp IO/mitkRawImageFileReader.cpp IO/mitkStandardFileLocations.cpp IO/mitkSTLFileIOFactory.cpp IO/mitkSTLFileReader.cpp IO/mitkSurfaceVtkWriter.cpp IO/mitkSurfaceVtkWriterFactory.cpp IO/mitkVtiFileIOFactory.cpp IO/mitkVtiFileReader.cpp IO/mitkVtkImageIOFactory.cpp IO/mitkVtkImageReader.cpp IO/mitkVtkSurfaceIOFactory.cpp IO/mitkVtkSurfaceReader.cpp IO/vtkPointSetXMLParser.cpp IO/mitkLog.cpp Rendering/mitkBaseRenderer.cpp Rendering/mitkVtkMapper2D.cpp Rendering/mitkVtkMapper3D.cpp Rendering/mitkRenderWindowFrame.cpp Rendering/mitkGeometry2DDataMapper2D.cpp Rendering/mitkGeometry2DDataVtkMapper3D.cpp Rendering/mitkGLMapper2D.cpp Rendering/mitkGradientBackground.cpp Rendering/mitkManufacturerLogo.cpp Rendering/mitkMapper2D.cpp Rendering/mitkMapper3D.cpp Rendering/mitkMapper.cpp Rendering/mitkPointSetGLMapper2D.cpp Rendering/mitkPointSetVtkMapper3D.cpp Rendering/mitkPolyDataGLMapper2D.cpp Rendering/mitkSurfaceGLMapper2D.cpp Rendering/mitkSurfaceVtkMapper3D.cpp Rendering/mitkVolumeDataVtkMapper3D.cpp Rendering/mitkVtkPropRenderer.cpp Rendering/mitkVtkWidgetRendering.cpp Rendering/vtkMitkRectangleProp.cpp Rendering/vtkMitkRenderProp.cpp Rendering/mitkVtkEventProvider.cpp Rendering/mitkRenderWindow.cpp Rendering/mitkRenderWindowBase.cpp Rendering/mitkShaderRepository.cpp Rendering/mitkImageVtkMapper2D.cpp Rendering/vtkMitkThickSlicesFilter.cpp Rendering/vtkMitkApplyLevelWindowToRGBFilter.cpp Service/mitkAny.cpp Service/mitkAtomicInt.cpp Service/mitkCoreActivator.cpp Service/mitkCoreModuleContext.cpp Service/mitkModule.cpp Service/mitkModuleContext.cpp Service/mitkModuleEvent.cpp Service/mitkModuleInfo.cpp Service/mitkModulePrivate.cpp Service/mitkModuleRegistry.cpp Service/mitkModuleUtils.cpp Service/mitkModuleVersion.cpp Service/mitkLDAPExpr.cpp Service/mitkLDAPFilter.cpp Service/mitkServiceEvent.cpp Service/mitkServiceException.cpp Service/mitkServiceListenerEntry.cpp Service/mitkServiceListeners.cpp Service/mitkServiceProperties.cpp Service/mitkServiceReference.cpp Service/mitkServiceReferencePrivate.cpp Service/mitkServiceRegistration.cpp Service/mitkServiceRegistrationPrivate.cpp Service/mitkServiceRegistry.cpp )