void QtWorkbenchAdvisor::Initialize(IWorkbenchConfigurer::Pointer configurer)
{
  WorkbenchAdvisor::Initialize(configurer);

  IPreferencesService* prefService = WorkbenchPlugin::GetDefault()->GetPreferencesService();
  IPreferences::Pointer prefs = prefService->GetSystemPreferences()->Node(QtPreferences::QT_STYLES_NODE);
  QString styleName = prefs->Get(QtPreferences::QT_STYLE_NAME, "");

  ctkServiceReference serviceRef = WorkbenchPlugin::GetDefault()->GetPluginContext()->getServiceReference<IQtStyleManager>();
  if (serviceRef)
  {
    IQtStyleManager* styleManager = WorkbenchPlugin::GetDefault()->GetPluginContext()->getService<IQtStyleManager>(serviceRef);
    styleManager->SetStyle(styleName);
  }

  QObject* eventFilter = new QtGlobalEventFilter(qApp);
  qApp->installEventFilter(eventFilter);
}
Example #2
0
void QtStyleManager::ReadPreferences()
{
  IPreferencesService* prefService = WorkbenchPlugin::GetDefault()->GetPreferencesService();
  IPreferences::Pointer stylePref = prefService->GetSystemPreferences()->Node(QtPreferences::QT_STYLES_NODE);

  QString paths = stylePref->Get(QtPreferences::QT_STYLE_SEARCHPATHS, "");
  QStringList pathList = paths.split(";", QString::SkipEmptyParts);
  QStringListIterator it(pathList);
  while (it.hasNext())
  {
    AddStyles(it.next());
  }

  QString styleName = stylePref->Get(QtPreferences::QT_STYLE_NAME, "");
  // if a style is contributed via the Qt resource mechanism, it may not be
  // registered yet.
  if (Contains(styleName))
    // do not update the style in the QApplication instance,
    // since it might not be created yet
    SetStyle(styleName, false);
  else
    SetDefaultStyle(false);
}
Example #3
0
  void PreferencesTest::TestAll()
  {
    IPreferencesService::Pointer prefService = Platform::GetServiceRegistry().GetServiceById<IPreferencesService>(IPreferencesService::ID);
    assert(prefService.IsNotNull());

    /// Test for: IPreferences::GetSystemPreferences()
    IPreferences::Pointer root = prefService->GetSystemPreferences();
    assert(root.IsNotNull());

    {
      BERRY_INFO << "testing Preferences::Node(), Preferences::NodeExists(), Preferences::Parent(), "
        "Preferences::ChildrenNames(), Preferences::RemoveNode()";

      berry::IPreferences::Pointer editorsNode(0);
      editorsNode = root->Node("/editors");
      assert(editorsNode.IsNotNull());

      assert(editorsNode->NodeExists("/editors"));

      assert(editorsNode->Parent() == root);

      berry::IPreferences::Pointer editorsGeneralNode = root->Node("/editors/general");
      assert(editorsNode->NodeExists("/editors/general"));

      berry::IPreferences::Pointer editorsSyntaxNode = root->Node("/editors/syntax");
      assert(editorsGeneralNode->NodeExists("/editors/syntax"));

      berry::IPreferences::Pointer editorsFontNode = root->Node("/editors/font");
      assert(editorsSyntaxNode->NodeExists("/editors/font"));

      vector<string> childrenNames;
      childrenNames.push_back("general");
      childrenNames.push_back("syntax");
      childrenNames.push_back("font");
      assert(editorsNode->ChildrenNames() == childrenNames);

      editorsFontNode->RemoveNode();
      try {
        editorsFontNode->Parent();
        failmsg("this should throw a Poco::IllegalStateException");
      }
      catch (Poco::IllegalStateException)
      {
        // expected
      }
    }

    // testing methods
    // Preferences::put*()
    // Preferences::get*()
    {
      BERRY_INFO << "testing Preferences::put*(), Preferences::get*(), OnChanged";

      assert(root->NodeExists("/editors/general"));
      berry::IPreferences::Pointer editorsGeneralNode = root->Node("/editors/general");

      IBerryPreferences::Pointer berryEditorsGeneralNode = editorsGeneralNode.Cast< IBerryPreferences >();
      assert(berryEditorsGeneralNode.IsNotNull());

      TestPreferencesChangedListener listener(berryEditorsGeneralNode.GetPointer());

      std::string strKey = "Bad words";std::string strValue = "badword1 badword2";
      editorsGeneralNode->Put(strKey, strValue);

      assert(listener.numCalled == 1);
      assert(editorsGeneralNode->Get(strKey, "") == strValue);
      assert(editorsGeneralNode->Get("wrong key", "default value") == "default value");

      strKey = "Show Line Numbers";bool bValue = true;
      editorsGeneralNode->PutBool(strKey, bValue);
      assert(listener.numCalled == 2);
      assert(editorsGeneralNode->GetBool(strKey, !bValue) == bValue);

      strKey = "backgroundcolor"; strValue = "#00FF00";
      editorsGeneralNode->PutByteArray(strKey, strValue);
      assert(listener.numCalled == 3);
      assert(editorsGeneralNode->GetByteArray(strKey, "") == strValue);

      strKey = "update time"; double dValue = 1.23;
      editorsGeneralNode->PutDouble(strKey, dValue);
      assert(editorsGeneralNode->GetDouble(strKey, 0.0) == dValue);

      strKey = "update time float"; float fValue = 1.23f;
      editorsGeneralNode->PutFloat(strKey, fValue);
      assert(editorsGeneralNode->GetFloat(strKey, 0.0f) == fValue);

      strKey = "Break on column"; int iValue = 80;
      editorsGeneralNode->PutInt(strKey, iValue);
      assert(editorsGeneralNode->GetInt(strKey, 0) == iValue);

      strKey = "Maximum number of words"; long lValue = 11000000;
      editorsGeneralNode->PutLong(strKey, lValue);
      assert(editorsGeneralNode->GetLong(strKey, 0) == lValue);
    }

  }
void QmitkCreatePolygonModelAction::Run(const QList<DataNode::Pointer> &selectedNodes)
{
  DataNode::Pointer selectedNode = selectedNodes[0];
  Image::Pointer image = dynamic_cast<mitk::Image *>(selectedNode->GetData());

  if (image.IsNull())
  {
    return;
  }

  try
  {
    // Get preference properties for smoothing and decimation
    IPreferencesService::Pointer prefService = Platform::GetServiceRegistry().GetServiceById<IPreferencesService>(IPreferencesService::ID);
    IPreferences::Pointer segPref = prefService->GetSystemPreferences()->Node("/org.mitk.views.segmentation");

    bool smoothingHint = segPref->GetBool("smoothing hint", true);
    ScalarType smoothing = segPref->GetDouble("smoothing value", 1.0);
    ScalarType decimation = segPref->GetDouble("decimation rate", 0.5);

    if (smoothingHint)
    {
      smoothing = 0.0;
      Vector3D spacing = image->GetGeometry()->GetSpacing();

      for (Vector3D::Iterator iter = spacing.Begin(); iter != spacing.End(); ++iter)
        smoothing = max(smoothing, *iter);
    }

    ShowSegmentationAsSurface::Pointer surfaceFilter = ShowSegmentationAsSurface::New();

    // Activate callback functions
    itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::Pointer successCommand = itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::New();
    successCommand->SetCallbackFunction(this, &QmitkCreatePolygonModelAction::OnSurfaceCalculationDone);
    surfaceFilter->AddObserver(ResultAvailable(), successCommand);

    itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::Pointer errorCommand = itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::New();
    errorCommand->SetCallbackFunction(this, &QmitkCreatePolygonModelAction::OnSurfaceCalculationDone);
    surfaceFilter->AddObserver(ProcessingError(), errorCommand);

    // set filter parameter
    surfaceFilter->SetDataStorage(*m_DataStorage);
    surfaceFilter->SetPointerParameter("Input", image);
    surfaceFilter->SetPointerParameter("Group node", selectedNode);
    surfaceFilter->SetParameter("Show result", true);
    surfaceFilter->SetParameter("Sync visibility", false);
    surfaceFilter->SetParameter("Median kernel size", 3u);
    surfaceFilter->SetParameter("Decimate mesh", m_IsDecimated);
    surfaceFilter->SetParameter("Decimation rate", (float) decimation);

    if (m_IsSmoothed)
    {
      surfaceFilter->SetParameter("Apply median", true);
      surfaceFilter->SetParameter("Smooth", true);
      surfaceFilter->SetParameter("Gaussian SD", sqrtf(smoothing)); // use sqrt to account for setting of variance in preferences
      StatusBar::GetInstance()->DisplayText("Smoothed surface creation started in background...");
    }
    else
    {
      surfaceFilter->SetParameter("Apply median", false);
      surfaceFilter->SetParameter("Smooth", false);
      StatusBar::GetInstance()->DisplayText("Surface creation started in background...");
    }

    surfaceFilter->StartAlgorithm();
  }
  catch(...)
  {
    MITK_ERROR << "Surface creation failed!";
  }
}
  void PreferencesServiceTest::TestAll()
  {
    try
    {
      IPreferencesService::Pointer prefService = Platform::GetServiceRegistry().GetServiceById<IPreferencesService>(IPreferencesService::ID);
      assert(prefService.IsNotNull());

      /// Test for: IPreferences::GetSystemPreferences()
      IPreferences::Pointer sysPrefs = prefService->GetSystemPreferences();
      assert(sysPrefs.IsNotNull());

      /// Test for: IPreferences::GetUserPreferences(std::string name)
      IPreferences::Pointer testUserPrefs = prefService->GetUserPreferences("testUser");
      assert(testUserPrefs.IsNotNull());

      /// Test for: IPreferences::GetUsers()
      std::vector<std::string> userList = prefService->GetUsers();
      // userList should now contain "testUser"
      bool userListContainsTestUser = false;
      for (std::vector<std::string>::iterator it = userList.begin()
        ; it != userList.end(); it++)
      {
        if(*it == "testUser")
        {
          userListContainsTestUser = true;
          break;
        }
      }
      assert(userListContainsTestUser);

      IBerryPreferencesService::Pointer berryPrefService = prefService.Cast<IBerryPreferencesService>();
      // optional test for IBerryPreferencesService
      if(berryPrefService.IsNotNull())
      {
        /// Test for: IBerryPreferencesService::ExportPreferences(Poco::File f, std::string name="")

        // write general prefs
        std::string sysPrefsExportFilePath = Poco::Path::temp() + Poco::Path::separator() + "systemBerryPreferences";
        Poco::File sysPrefsExportFile(sysPrefsExportFilePath);
        sysPrefs->PutInt("testNumber", 1);
        berryPrefService->ExportPreferences(sysPrefsExportFile);
        // assert somethings was written
        assert(sysPrefsExportFile.getSize() > 0);

        // write testUser prefs
        std::string testUserPrefsExportFilePath = Poco::Path::temp() + Poco::Path::separator() + "testUserBerryPreferences";
        Poco::File testUserPrefsExportFile(testUserPrefsExportFilePath);
        testUserPrefs->PutInt("testNumber", 2);
        berryPrefService->ExportPreferences(testUserPrefsExportFile, "testUser");
        assert(testUserPrefsExportFile.getSize() > 0);

        /// Test for: IBerryPreferencesService::ImportPreferences(Poco::File f, std::string name="")

        // import general prefs
        // change testNumber value
        sysPrefs->PutInt("testNumber", 3);
        berryPrefService->ImportPreferences(sysPrefsExportFile);
        // "testNumber" preference should now again be overwritten with its old value 1
        assert(sysPrefs->GetInt("testNumber", 3) == 1);

        // import testUser prefs
        // change testNumber value
        testUserPrefs->PutInt("testNumber", 4);
        berryPrefService->ImportPreferences(testUserPrefsExportFile, "testUser");
        // "testNumber" preference should now again be overwritten with its old value 2
        assert(testUserPrefs->GetInt("testNumber", 4) == 2);

        // delete files again
        sysPrefsExportFile.remove();
        testUserPrefsExportFile.remove();
      }
    }
    catch (Poco::CreateFileException& e)
    {
      std::string msg = "Failed to create preferences file: ";
      msg.append(e.what());
      this->fail( msg );
    }
    catch (std::exception& e)
    {
      this->fail( e.what() );
    }
    catch (...)
    {
      this->fail( "unknown exception occured" );
    }
  }
void QmitkCreatePolygonModelAction::Run(const QList<DataNode::Pointer> &selectedNodes)
{
  DataNode::Pointer selectedNode = selectedNodes[0];
  Image::Pointer image = dynamic_cast<mitk::Image *>(selectedNode->GetData());
  
  if (image.IsNull())
    return;

  try
  {
    if (!m_IsSmoothed)
    {
      ShowSegmentationAsSurface::Pointer surfaceFilter = ShowSegmentationAsSurface::New();

      itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::Pointer successCommand = itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::New();
      successCommand->SetCallbackFunction(this, &QmitkCreatePolygonModelAction::OnSurfaceCalculationDone);
      surfaceFilter->AddObserver(ResultAvailable(), successCommand);

      itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::Pointer errorCommand = itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::New();
      errorCommand->SetCallbackFunction(this, &QmitkCreatePolygonModelAction::OnSurfaceCalculationDone);
      surfaceFilter->AddObserver(ProcessingError(), errorCommand);

      surfaceFilter->SetDataStorage(*m_DataStorage);
      surfaceFilter->SetPointerParameter("Input", image);
      surfaceFilter->SetPointerParameter("Group node", selectedNode);
      surfaceFilter->SetParameter("Show result", true);
      surfaceFilter->SetParameter("Sync visibility", false);
      surfaceFilter->SetParameter("Smooth", false);
      surfaceFilter->SetParameter("Apply median", false);
      surfaceFilter->SetParameter("Median kernel size", 3u);
      surfaceFilter->SetParameter("Gaussian SD", 1.5f);
      surfaceFilter->SetParameter("Decimate mesh", m_IsDecimated);
      surfaceFilter->SetParameter("Decimation rate", 0.8f);

      StatusBar::GetInstance()->DisplayText("Surface creation started in background...");

      surfaceFilter->StartAlgorithm();
    }
    else
    {
      ShowSegmentationAsSmoothedSurface::Pointer surfaceFilter = ShowSegmentationAsSmoothedSurface::New();

      itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::Pointer successCommand = itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::New();
      successCommand->SetCallbackFunction(this, &QmitkCreatePolygonModelAction::OnSurfaceCalculationDone);
      surfaceFilter->AddObserver(mitk::ResultAvailable(), successCommand);

      itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::Pointer errorCommand = itk::SimpleMemberCommand<QmitkCreatePolygonModelAction>::New();
      errorCommand->SetCallbackFunction(this, &QmitkCreatePolygonModelAction::OnSurfaceCalculationDone);
      surfaceFilter->AddObserver(mitk::ProcessingError(), errorCommand);

      surfaceFilter->SetDataStorage(*m_DataStorage);
      surfaceFilter->SetPointerParameter("Input", image);
      surfaceFilter->SetPointerParameter("Group node", selectedNode);

      berry::IWorkbenchPart::Pointer activePart =
          berry::PlatformUI::GetWorkbench()->GetActiveWorkbenchWindow()->GetActivePage()->GetActivePart();
      mitk::IRenderWindowPart* renderPart = dynamic_cast<mitk::IRenderWindowPart*>(activePart.GetPointer());
      mitk::SliceNavigationController* timeNavController = 0;
      if (renderPart != 0)
      {
        timeNavController = renderPart->GetRenderingManager()->GetTimeNavigationController();
      }

      int timeNr = timeNavController != 0 ? timeNavController->GetTime()->GetPos() : 0;
      surfaceFilter->SetParameter("TimeNr", timeNr);

      IPreferencesService::Pointer prefService = Platform::GetServiceRegistry().GetServiceById<IPreferencesService>(IPreferencesService::ID);
      IPreferences::Pointer segPref = prefService->GetSystemPreferences()->Node("/org.mitk.views.segmentation");

      bool smoothingHint = segPref->GetBool("smoothing hint", true);
      float smoothing = (float)segPref->GetDouble("smoothing value", 1.0);
      float decimation = (float)segPref->GetDouble("decimation rate", 0.5);
      float closing = (float)segPref->GetDouble("closing ratio", 0.0);
      
      if (smoothingHint)
      {
        smoothing = 0.0;
        Vector3D spacing = image->GetGeometry()->GetSpacing();
        
        for (Vector3D::Iterator iter = spacing.Begin(); iter != spacing.End(); ++iter)
          smoothing = max(smoothing, *iter);
      }

      surfaceFilter->SetParameter("Smoothing", smoothing);
      surfaceFilter->SetParameter("Decimation", decimation);
      surfaceFilter->SetParameter("Closing", closing);

      ProgressBar::GetInstance()->AddStepsToDo(8);
      StatusBar::GetInstance()->DisplayText("Smoothed surface creation started in background...");

      try {
        surfaceFilter->StartAlgorithm();
      } catch (...)
      {
        MITK_ERROR<<"Error creating smoothed polygon model: Not enough memory!";
      }
    }
  }
  catch(...)
  {
    MITK_ERROR << "Surface creation failed!";
  }
}