Exemplo n.º 1
0
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; i < argc; ++i)
  {
    // For testing
    if (strcmp(argv[i], "-testing") == 0)
      continue;

    // Create a DataNodeFactory to read a data format supported
    // by the DataNodeFactory (many image formats, surface formats, etc.)
    mitk::DataNodeFactory::Pointer nodeReader = mitk::DataNodeFactory::New();
    const char * filename = argv[i];
    try
    {
      nodeReader->SetFileName(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<mitk::Image*>(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
  // legacy because window manager relies still on existence if global interaction
  mitk::GlobalInteraction::GetInstance()->Initialize("global");

  //mitk::GlobalInteraction::GetInstance()->AddListener(m_DisplayInteractor);

  // 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());

  // instantiate display interactor
  if (m_DisplayInteractor.IsNull())
  {
    m_DisplayInteractor = mitk::DisplayInteractor::New();
    m_DisplayInteractor->LoadStateMachine("DisplayInteraction.xml");
    m_DisplayInteractor->SetEventConfig("DisplayConfigMITK.xml");
    // Register as listener via micro services

    us::ModuleContext* context = us::GetModuleContext();
    context->RegisterService<mitk::InteractionEventObserver>(
        m_DisplayInteractor.GetPointer());
  }
  // 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->SetSize(400, 400);

  mitkWidget2->GetVtkRenderWindow()->SetPosition(mitkWidget1->GetVtkRenderWindow()->GetPosition()[0] + 420,
      mitkWidget1->GetVtkRenderWindow()->GetPosition()[1]);
  mitkWidget2->SetSize(400, 400);

  mitkWidget3->GetVtkRenderWindow()->SetPosition(mitkWidget1->GetVtkRenderWindow()->GetPosition()[0],
      mitkWidget1->GetVtkRenderWindow()->GetPosition()[1] + 450);
  mitkWidget3->SetSize(400, 400);

  mitkWidget4->GetVtkRenderWindow()->SetPosition(mitkWidget1->GetVtkRenderWindow()->GetPosition()[0] + 420,
      mitkWidget1->GetVtkRenderWindow()->GetPosition()[1] + 450);
  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();

  // 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();
  mitkWidget4->GetVtkRenderWindowInteractor()->Start();

  return 0;
}
Exemplo n.º 2
0
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; i < argc; ++i)
  {
    // For testing
    if (strcmp(argv[i], "-testing") == 0)
      continue;

    std::string filename = argv[i];
    try
    {
      // Read the file and add it as a data node to the data storage
      mitk::DataStorage::SetOfObjects::Pointer nodes = mitk::IOUtil::Load(filename, *m_DataStorage);

      for (mitk::DataStorage::SetOfObjects::Iterator nodeIter = nodes->Begin(),
           nodeIterEnd = nodes->End(); nodeIter != nodeIterEnd; ++nodeIter)
      {
        mitk::DataNode::Pointer node = nodeIter->Value();
        mitk::Image::Pointer image = dynamic_cast<mitk::Image*>(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 (...)
    {
      std::cerr << "Could not open file " << filename << std::endl;
      exit(2);
    }
  }

  //*************************************************************************
  // Part V: Create window and pass the tree to it
  //*************************************************************************

  // Create renderwindows
  mitkWidget1 = mitk::RenderWindow::New();
  mitkWidget2 = mitk::RenderWindow::New();
  mitkWidget3 = mitk::RenderWindow::New();
  mitkWidget4 = mitk::RenderWindow::New();

  mitkWidget1->GetRenderer()->PrepareRender();
  mitkWidget2->GetRenderer()->PrepareRender();
  mitkWidget3->GetRenderer()->PrepareRender();

  // 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);


  // instantiate display interactor
  if (m_DisplayInteractor.IsNull())
  {
    m_DisplayInteractor = mitk::DisplayInteractor::New();
    m_DisplayInteractor->LoadStateMachine("DisplayInteraction.xml");
    m_DisplayInteractor->SetEventConfig("DisplayConfigMITK.xml");
    // Register as listener via micro services

    us::ModuleContext* context = us::GetModuleContext();
    context->RegisterService<mitk::InteractionEventObserver>(
        m_DisplayInteractor.GetPointer());
  }
  // 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->SetSize(400, 400);

  mitkWidget2->GetVtkRenderWindow()->SetPosition(mitkWidget1->GetVtkRenderWindow()->GetPosition()[0] + 420,
      mitkWidget1->GetVtkRenderWindow()->GetPosition()[1]);
  mitkWidget2->SetSize(400, 400);

  mitkWidget3->GetVtkRenderWindow()->SetPosition(mitkWidget1->GetVtkRenderWindow()->GetPosition()[0],
      mitkWidget1->GetVtkRenderWindow()->GetPosition()[1] + 450);
  mitkWidget3->SetSize(400, 400);

  mitkWidget4->GetVtkRenderWindow()->SetPosition(mitkWidget1->GetVtkRenderWindow()->GetPosition()[0] + 420,
      mitkWidget1->GetVtkRenderWindow()->GetPosition()[1] + 450);
  mitkWidget4->SetSize(400, 400);

  InitializeWindows();

  AddDisplayPlaneSubTree();

  Fit();

  // Initialize the RenderWindows
  mitk::TimeGeometry::Pointer geo = m_DataStorage->ComputeBoundingGeometry3D(m_DataStorage->GetAll());
  mitk::RenderingManager::GetInstance()->InitializeViews(geo);

  m_DataStorage->Print(std::cout);
  mitk::RenderingManager::GetInstance()->RequestUpdateAll();

  // 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();
  mitkWidget4->GetVtkRenderWindowInteractor()->Start();

  return 0;
}