private double getCalibratedZoomFactor() {
   if (scene instanceof CalibratedScene) {
     CalibratedScene calibratedScene = (CalibratedScene) scene;
     return calibratedScene.getCalibratedZoomFactor();
   } else {
     return scene.getZoomFactor();
   }
 }
Beispiel #2
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  /**
   * Takes the Scene and writes an image file according to the constraints defined by the caller.
   * This returns a BufferedImage of the Scene even if the file can not be written.
   *
   * @param visibleAreaOnly Eliminates all zoom features. If true, the exported image will be a
   *     created from the visible area of the scene.
   * @param selectedOnly Create an image including only the objects selected on the scene. Note that
   *     this feature requires that the scene is an instance of an ObjectScene since it is the
   *     implementation that allows for object selection.
   * @param quality And integer value between 0-100. This is for JPG images only. Parameter is not
   *     used if an image type other than jpg is selected.
   * @param width Directly sets the horizontal dimension of the exported image. This is only used
   *     when the zoomType is ZoomType.CUSTOM_SIZE
   * @param height Directly sets the vertical dimension of the exported image. This is only used
   *     when the zoomType is ZoomType.CUSTOM_SIZE.
   * @param createImageMap If true, the necessary steps are taken to setup the sequential call to
   *     getSceneImageMapCoordinates.
   * @return image The raw image that was written to the file.
   * @throws java.io.IOException If for some reason the file cannot be written, an IOExeption will
   *     be thrown.
   */
  public BufferedImage createImage(
      ImageType imageType,
      ZoomType zoomType,
      boolean visibleAreaOnly,
      boolean selectedOnly,
      int quality,
      int width,
      int height,
      boolean createImageMap)
      throws IOException {
    double _scale = scene.getZoomFactor();

    Rectangle sceneRec = scene.getPreferredBounds();
    Rectangle viewRect = scene.getView().getVisibleRect();

    BufferedImage bufferedImage;
    Graphics2D g;
    ArrayList<Widget> hiddenWidgets = new ArrayList<Widget>();

    int _imageWidth = sceneRec.width;
    int _imageHeight = sceneRec.height;

    Set<?> _selectedObjects = null;

    if (selectedOnly) {
      // in order to use getSelectedObject the scene must be an
      // ObjectScene
      if (scene instanceof ObjectScene) {

        ObjectScene gScene = (ObjectScene) scene;
        // hide unselected widget
        HashSet<Object> invisible = new HashSet<Object>();
        invisible.addAll(gScene.getObjects());
        _selectedObjects = gScene.getSelectedObjects();
        invisible.removeAll(_selectedObjects);

        for (Object o : invisible) {
          Widget widget = gScene.findWidget(o);
          if (widget != null && widget.isVisible()) {
            widget.setVisible(false);
            hiddenWidgets.add(widget);
          }
        }
      }
    }

    if (visibleAreaOnly) {
      _imageWidth = viewRect.width;
      _imageHeight = viewRect.height;
    } else {
      switch (zoomType) {
        case CUSTOM_SIZE:
          _imageWidth = width;
          _imageHeight = height;
          _scale =
              Math.min(
                  (double) width / (double) sceneRec.width,
                  (double) height / (double) sceneRec.height);
          break;
        case FIT_IN_WINDOW:
          _scale =
              Math.min(
                  (double) viewRect.width / (double) sceneRec.width,
                  (double) viewRect.height / (double) sceneRec.height);
          _imageWidth = (int) ((double) sceneRec.width * _scale);
          _imageHeight = (int) ((double) sceneRec.height * _scale);
          break;
        case CURRENT_ZOOM_LEVEL:
          _imageWidth = (int) (sceneRec.width * scene.getZoomFactor());
          _imageHeight = (int) (sceneRec.height * scene.getZoomFactor());
          break;
        case ACTUAL_SIZE:
          _imageWidth = sceneRec.width;
          _imageHeight = sceneRec.height;
          _scale = 1.0;
          break;
      }
    }

    // Note that the field variable are being set to method local variable.
    // This
    // is for the call to getSceneImageMapCoordinates that will come since
    // createImageMap is true.
    if (createImageMap) {
      this.selectedObjects = _selectedObjects;
      this.imageHeight = _imageHeight;
      this.imageWidth = _imageWidth;
      this.scale = _scale;
    }

    bufferedImage = new BufferedImage(width, height, BufferedImage.TYPE_INT_RGB);
    g = bufferedImage.createGraphics();
    g.translate(0, 0);
    g.scale(_scale, _scale);
    g.setColor(Color.WHITE);
    g.fillRect(0, 0, width, height);
    scene.paint(g);

    // restore widget visibility
    for (Widget w : hiddenWidgets) {
      w.setVisible(true);
    }

    if (file != null) {
      FileImageOutputStream fo = new FileImageOutputStream(file);

      if (imageType == ImageType.JPG) {
        Iterator<?> iter = ImageIO.getImageWritersByFormatName("jpg");
        ImageWriter writer = (ImageWriter) iter.next();

        ImageWriteParam iwp = writer.getDefaultWriteParam();
        iwp.setCompressionMode(ImageWriteParam.MODE_EXPLICIT);
        if (quality > 100) {
          quality = 100;
        }
        if (quality < 0) {
          quality = 0;
        }
        iwp.setCompressionQuality(quality / 100);
        writer.setOutput(fo);
        IIOImage image = new IIOImage(bufferedImage, null, null);
        writer.write(null, image, iwp);

        writer.dispose();
      } else {
        ImageIO.write(bufferedImage, "" + imageType, fo);
      }

      fo.flush();
      fo.close();
    }

    return bufferedImage;
  }
Beispiel #3
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  /**
   * Takes the Scene and writes an image file according to the constraints defined by the caller.
   * This returns a BufferedImage of the {@link Scene} even if the file can not be written. This
   * function creates the image for the entire {@link Scene}.
   *
   * @param visibleAreaOnly Eliminates all zoom features. If true, the exported image will be a
   *     created from the visible area of the scene.
   * @param selectedOnly Create an image including only the objects selected on the scene. Note that
   *     this feature requires that the scene is an instance of an ObjectScene since it is the
   *     implementation that allows for object selection.
   * @param quality And integer value between 0-100. This is for JPG images only. Parameter is not
   *     used if an image type other than jpg is selected.
   * @param canvas The {@link WorkareaCanvas} that is to exported.
   * @param createImageMap If true, the necessary steps are taken to setup the sequential call to
   *     getSceneImageMapCoordinates.
   * @return image The raw image that was written to the file.
   * @throws java.io.IOException If for some reason the file cannot be written, an IOExeption will
   *     be thrown.
   */
  public BufferedImage createImage(
      ImageType imageType,
      ZoomType zoomType,
      boolean visibleAreaOnly,
      boolean selectedOnly,
      int quality,
      WorkareaCanvas canvas,
      boolean createImageMap)
      throws IOException {
    // Creates a rectangle with the starting point and the dimensions of the
    // scene seleceted for export
    Rectangle rectangle = canvas.getScene().getClientArea();

    double _scale = scene.getZoomFactor();

    Rectangle sceneRec = scene.getPreferredBounds();
    Rectangle viewRect = scene.getView().getVisibleRect();

    BufferedImage bufferedImage;
    Graphics2D g;
    ArrayList<Widget> hiddenWidgets = new ArrayList<Widget>();

    int _imageWidth = sceneRec.width;
    int _imageHeight = sceneRec.height;

    Set<?> _selectedObjects = null;

    if (selectedOnly) {
      // in order to use getSelectedObject the scene must be an
      // ObjectScene
      if (scene instanceof ObjectScene) {

        ObjectScene gScene = (ObjectScene) scene;
        // hide unselected widget
        HashSet<Object> invisible = new HashSet<Object>();
        invisible.addAll(gScene.getObjects());
        _selectedObjects = gScene.getSelectedObjects();
        invisible.removeAll(_selectedObjects);

        for (Object o : invisible) {
          Widget widget = gScene.findWidget(o);
          if (widget != null && widget.isVisible()) {
            widget.setVisible(false);
            hiddenWidgets.add(widget);
          }
        }
      }
    }

    if (visibleAreaOnly) {
      _imageWidth = viewRect.width;
      _imageHeight = viewRect.height;
    } else {
      switch (zoomType) {
        case CUSTOM_SIZE:
          _imageWidth = rectangle.width;
          _imageHeight = rectangle.height;
          _scale =
              Math.min(
                  (double) rectangle.width / (double) sceneRec.width,
                  (double) rectangle.height / (double) sceneRec.height);
          break;
        case FIT_IN_WINDOW:
          _scale =
              Math.min(
                  (double) viewRect.width / (double) sceneRec.width,
                  (double) viewRect.height / (double) sceneRec.height);
          _imageWidth = (int) ((double) sceneRec.width * _scale);
          _imageHeight = (int) ((double) sceneRec.height * _scale);
          break;
        case CURRENT_ZOOM_LEVEL:
          _imageWidth = (int) (sceneRec.width * scene.getZoomFactor());
          _imageHeight = (int) (sceneRec.height * scene.getZoomFactor());
          break;
        case ACTUAL_SIZE:
          _imageWidth = sceneRec.width;
          _imageHeight = sceneRec.height;
          _scale = 1.0;
          break;
      }
    }

    // Note that the field variable are being set to method local variable.
    // This
    // is for the call to getSceneImageMapCoordinates that will come since
    // createImageMap is true.
    if (createImageMap) {
      this.selectedObjects = _selectedObjects;
      this.imageHeight = _imageHeight;
      this.imageWidth = _imageWidth;
      this.scale = _scale;
    }

    bufferedImage =
        new BufferedImage(rectangle.width, rectangle.height, BufferedImage.TYPE_INT_RGB);
    g = bufferedImage.createGraphics();
    g.setRenderingHint(
        RenderingHints.KEY_TEXT_ANTIALIASING, RenderingHints.VALUE_TEXT_ANTIALIAS_ON);
    g.scale(_scale, _scale);
    g.setColor(Color.WHITE);
    g.fillRect(rectangle.x, rectangle.y, rectangle.width, rectangle.height);
    scene.paint(g);

    // restore widget visibility
    for (Widget w : hiddenWidgets) {
      w.setVisible(true);
    }

    if (file != null) {
      boolean save = true;

      if (file.exists()) {
        int answer =
            JOptionPane.showConfirmDialog(
                null,
                "This file exists. Do you wish to overwrite the file?",
                "Confirm",
                JOptionPane.YES_NO_OPTION);

        // The user has not pressed YES
        if (answer != 0) {
          save = false;
        }
      }

      if (save) {
        FileImageOutputStream fo = new FileImageOutputStream(file);

        if (imageType == ImageType.JPG) {
          Iterator<?> iter = ImageIO.getImageWritersByFormatName("jpg");
          ImageWriter writer = (ImageWriter) iter.next();

          ImageWriteParam iwp = writer.getDefaultWriteParam();
          iwp.setCompressionMode(ImageWriteParam.MODE_EXPLICIT);
          if (quality > 100) {
            quality = 100;
          }
          if (quality < 0) {
            quality = 0;
          }
          iwp.setCompressionQuality(quality / 100);
          writer.setOutput(fo);
          IIOImage image = new IIOImage(bufferedImage, null, null);
          writer.write(null, image, iwp);

          writer.dispose();
        } else {
          ImageIO.write(bufferedImage, "" + imageType, fo);
        }

        fo.flush();
        fo.close();
      }
    }

    return bufferedImage;
  }