Esempio n. 1
0
/*!
\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 < this->GetCurrentWorldPlaneGeometry()->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; i < m_TextCollection.size(); i++)
  {
    m_TextCollection[i]->Delete();
  }
  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)
  {
    const DataNode::Pointer node = it->Value();
    if (node.IsNull())
      continue;
    const mitk::Mapper::Pointer mapper = node->GetMapper(m_MapperID);

    if (mapper.IsNull())
      continue;

    bool visible = true;
    node->GetVisibility(visible, this, "visible");

    // The information about LOD-enabled mappers is required by RenderingManager
    if (mapper->IsLODEnabled(this) && visible)
    {
      ++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++;
  }
}
Esempio n. 2
0
mitk::DataNode::Pointer mitk::SceneReaderV1::LoadBaseDataFromDataTag( TiXmlElement* dataElement, const std::string& workingDirectory, bool& error )
{
  DataNode::Pointer node;

  if (dataElement)
  {
    const char* filename = dataElement->Attribute("file");
    if ( filename )
    {
      try
      {
        std::vector<BaseData::Pointer> baseData = IOUtil::Load( workingDirectory + Poco::Path::separator() + filename );
        if (baseData.size() > 1)
        {
          MITK_WARN << "Discarding multiple base data results from " << filename << " except the first one.";
        }
        node = DataNode::New();
        node->SetData(baseData.front());
      }
      catch (std::exception& e)
      {
        MITK_ERROR << "Error during attempt to read '" << filename << "'. Exception says: " << e.what();
        error = true;
      }

      if (node.IsNull())
      {
        MITK_ERROR << "Error during attempt to read '" << filename << "'. Factory returned NULL object.";
        error = true;
      }
    }
  }

  // in case there was no <data> element we create a new empty node (for appending a propertylist later)
  if (node.IsNull())
  {
    node = DataNode::New();
  }

  return node;
}
Esempio n. 3
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mitk::DataNode::Pointer mitk::SceneReaderV1::LoadBaseDataFromDataTag( TiXmlElement* dataElement, const std::string& workingDirectory, bool& error )
{
  DataNode::Pointer node;

  if (dataElement) 
  {
    const char* filename( dataElement->Attribute("file") );
    if ( filename )
    {
      DataNodeFactory::Pointer factory = DataNodeFactory::New();
      factory->SetFileName( workingDirectory + Poco::Path::separator() + filename );
      
      try
      {
        factory->Update();
        node = factory->GetOutput();
      }
      catch (std::exception& e)
      {
        MITK_ERROR << "Error during attempt to read '" << filename << "'. Exception says: " << e.what();
        error = true;
      }

      if (node.IsNull())
      {
        MITK_ERROR << "Error during attempt to read '" << filename << "'. Factory returned NULL object.";
        error = true;
      }
    }
  }

  // in case there was no <data> element we create a new empty node (for appending a propertylist later)
  if (node.IsNull())
  {
    node = DataNode::New();
  }

  return node;
}
void mitk::ClippingPlaneInteractor3D::DeselectObject(StateMachineAction*, InteractionEvent* interactionEvent)
{
    DataNode::Pointer node = this->GetDataNode();

    if (node.IsNull())
        return;

    node->SetColor( 1.0, 1.0, 1.0 );

    // Colorize surface / wireframe as inactive
    this->ColorizeSurface(interactionEvent->GetSender(), -1.0);

    interactionEvent->GetSender()->GetRenderingManager()->RequestUpdateAll();
}
void mitk::ClippingPlaneInteractor3D::SelectObject(StateMachineAction*, InteractionEvent* interactionEvent)
{
    DataNode::Pointer node = this->GetDataNode();

    if (node.IsNull())
        return;

    node->SetColor(1.0, 0.0, 0.0);

    // Colorize surface / wireframe dependend on distance from picked point
    this->ColorizeSurface(interactionEvent->GetSender(), 0.0);

    interactionEvent->GetSender()->GetRenderingManager()->RequestUpdateAll();
}
Esempio n. 6
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void mitk::AffineBaseDataInteractor3D::SelectObject(StateMachineAction*, InteractionEvent* interactionEvent)
{
  DataNode::Pointer node = this->GetDataNode();

  if (node.IsNull())
    return;

  mitk::ColorProperty::Pointer selectedColor = dynamic_cast<mitk::ColorProperty*>(node->GetProperty(selectedColorPropertyName));
  if ( selectedColor.IsNotNull() )
  {
    node->GetPropertyList()->SetProperty("color", selectedColor);
  }
  interactionEvent->GetSender()->GetRenderingManager()->RequestUpdateAll();

  return;
}
mitk::StdFunctionCommand::ActionFunction mitk::DisplayActionEventFunctions::SetLevelWindowAction()
{
  auto actionFunction = [](const itk::EventObject& displayInteractorEvent)
  {
    if (DisplaySetLevelWindowEvent().CheckEvent(&displayInteractorEvent))
    {
      const DisplaySetLevelWindowEvent* displayActionEvent = dynamic_cast<const DisplaySetLevelWindowEvent*>(&displayInteractorEvent);
      const BaseRenderer::Pointer sendingRenderer = displayActionEvent->GetSender();
      if (nullptr == sendingRenderer)
      {
        return;
      }

      // get the the topmost visible image of the sending renderer
      DataStorage::Pointer storage = sendingRenderer->GetDataStorage();
      DataStorage::SetOfObjects::ConstPointer allImageNodes = storage->GetSubset(NodePredicateDataType::New("Image"));
      Point3D worldposition;
      const auto* positionEvent = dynamic_cast<const InteractionPositionEvent*>(displayActionEvent->GetInteractionEvent());
      sendingRenderer->DisplayToWorld(positionEvent->GetPointerPositionOnScreen(), worldposition);
      auto globalCurrentTimePoint = sendingRenderer->GetTime();
      DataNode::Pointer node = FindTopmostVisibleNode(allImageNodes, worldposition, globalCurrentTimePoint, sendingRenderer);
      if (node.IsNull())
      {
        return;
      }

      LevelWindow levelWindow = LevelWindow();
      node->GetLevelWindow(levelWindow);
      ScalarType level = levelWindow.GetLevel();
      ScalarType window = levelWindow.GetWindow();

      level += displayActionEvent->GetLevel();
      window += displayActionEvent->GetWindow();

      levelWindow.SetLevelWindow(level, window);
      auto* levelWindowProperty = dynamic_cast<LevelWindowProperty*>(node->GetProperty("levelwindow"));
      if (nullptr != levelWindowProperty)
      {
        levelWindowProperty->SetLevelWindow(levelWindow);
        sendingRenderer->GetRenderingManager()->RequestUpdateAll();
      }
    }
  };

  return actionFunction;
}
Esempio n. 8
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/*
 * Checks if DataNodes associated with DataInteractors point back to them.
 * If not remove the DataInteractors. (This can happen when s.o. tries to set DataNodes to multiple DataInteractors)
 */
void mitk::Dispatcher::RemoveOrphanedInteractors()
{
  for (ListInteractorType::iterator it = m_Interactors.begin(); it != m_Interactors.end();)
  {
    DataNode::Pointer dn = (*it)->GetDataNode();
    if (dn.IsNull())
    {
      it = m_Interactors.erase(it);
    }
    else
    {
      DataInteractor::Pointer interactor = dn->GetDataInteractor();
      if (interactor != it->GetPointer())
      {
        it = m_Interactors.erase(it);
      }
      else
      {
        ++it;
      }
    }
  }
}
Esempio n. 9
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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 * mapper = node->GetMapper(m_MapperID);

      if (mapper)
      {
        VtkMapper* vtkmapper = dynamic_cast<VtkMapper*>( mapper );

       if(vtkmapper)
         vtkmapper->ReleaseGraphicsResources(this);
      }
   }
}
void ShowSegmentationAsSmoothedSurface::ThreadedUpdateSuccessful()
{
  DataNode::Pointer node = LookForPointerTargetBelowGroupNode("Surface representation");
  bool addToTree = node.IsNull();

  if (addToTree)
  {
    node = DataNode::New();

    bool wireframe = false;
    GetParameter("Wireframe", wireframe);

    if (wireframe)
    {
      VtkRepresentationProperty *representation = dynamic_cast<VtkRepresentationProperty *>(
        node->GetProperty("material.representation"));

      if (representation != NULL)
        representation->SetRepresentationToWireframe();
    }

    node->SetProperty("opacity", FloatProperty::New(1.0));
    node->SetProperty("line width", IntProperty::New(1));
    node->SetProperty("scalar visibility", BoolProperty::New(false));

    UIDGenerator uidGenerator("Surface_");
    node->SetProperty("FILENAME", StringProperty::New(uidGenerator.GetUID() + ".vtk"));

    std::string groupNodeName = "surface";
    DataNode *groupNode = GetGroupNode();

    if (groupNode != NULL)
      groupNode->GetName(groupNodeName);

    node->SetProperty("name", StringProperty::New(groupNodeName));
  }

  node->SetData(m_Surface);

  if (addToTree)
  {
    DataNode* groupNode = GetGroupNode();

    if (groupNode != NULL)
    {
      groupNode->SetProperty("Surface representation", SmartPointerProperty::New(node));

      BaseProperty *colorProperty = groupNode->GetProperty("color");

      if (colorProperty != NULL)
        node->ReplaceProperty("color", colorProperty);
      else
        node->SetProperty("color", ColorProperty::New(1.0f, 0.0f, 0.0f));

      bool showResult = true;
      GetParameter("Show result", showResult);

      bool syncVisibility = false;
      GetParameter("Sync visibility", syncVisibility);

      Image::Pointer image;
      GetPointerParameter("Input", image);

      BaseProperty *organTypeProperty = image->GetProperty("organ type");

      if (organTypeProperty != NULL)
        m_Surface->SetProperty("organ type", organTypeProperty);

      BaseProperty *visibleProperty = groupNode->GetProperty("visible");

      if (visibleProperty != NULL && syncVisibility)
        node->ReplaceProperty("visible", visibleProperty);
      else
        node->SetProperty("visible", BoolProperty::New(showResult));
    }

    InsertBelowGroupNode(node);
  }

  Superclass::ThreadedUpdateSuccessful();
}
Esempio n. 11
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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;

      VtkMapper *mapper = dynamic_cast < VtkMapper * >  ( 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 * mapper = node->GetMapper( m_MapperID );
      if ( mapper == NULL)
        continue;

      mitk::VtkMapper * vtkmapper = dynamic_cast< VtkMapper * >(mapper);

      if(vtkmapper){
        //if vtk-based, then ...
       if ( vtkmapper->HasVtkProp( prop, const_cast< mitk::VtkPropRenderer * >( this ) ) )
       {
          return node;
       }
      }
    }

    return NULL;
  }
  else
  {
    return Superclass::PickObject( displayPosition, worldPosition );
  }
};