public static Image createImage(final JTable table, int column) {
      final int height =
          Math.max(20, Math.min(100, table.getSelectedRowCount() * table.getRowHeight()));
      final int width = table.getColumnModel().getColumn(column).getWidth();

      final BufferedImage image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
      Graphics2D g2 = (Graphics2D) image.getGraphics();

      g2.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, 0.7f));

      drawSelection(table, column, g2, width);
      return image;
    }
    public static Image createImage(final JTree tree) {
      final TreeSelectionModel model = tree.getSelectionModel();
      final TreePath[] paths = model.getSelectionPaths();

      int count = 0;
      final List<ChangesBrowserNode> nodes = new ArrayList<ChangesBrowserNode>();
      for (final TreePath path : paths) {
        final ChangesBrowserNode node = (ChangesBrowserNode) path.getLastPathComponent();
        if (!node.isLeaf()) {
          nodes.add(node);
          count += node.getCount();
        }
      }

      for (TreePath path : paths) {
        final ChangesBrowserNode element = (ChangesBrowserNode) path.getLastPathComponent();
        boolean child = false;
        for (final ChangesBrowserNode node : nodes) {
          if (node.isNodeChild(element)) {
            child = true;
            break;
          }
        }

        if (!child) {
          if (element.isLeaf()) count++;
        } else if (!element.isLeaf()) {
          count -= element.getCount();
        }
      }

      final JLabel label = new JLabel(VcsBundle.message("changes.view.dnd.label", count));
      label.setOpaque(true);
      label.setForeground(tree.getForeground());
      label.setBackground(tree.getBackground());
      label.setFont(tree.getFont());
      label.setSize(label.getPreferredSize());
      final BufferedImage image =
          new BufferedImage(label.getWidth(), label.getHeight(), BufferedImage.TYPE_INT_ARGB);

      Graphics2D g2 = (Graphics2D) image.getGraphics();
      g2.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, 0.7f));
      label.paint(g2);
      g2.dispose();

      return image;
    }
예제 #3
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 @Override
 public void paintIcon(Component c, Graphics g, int x, int y) {
   Graphics2D g2 = (Graphics2D) g.create();
   g2.setPaint(Objects.nonNull(c) ? c.getBackground() : Color.WHITE);
   g2.fillRect(x, y, getIconWidth(), getIconHeight());
   g2.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
   g2.setColor(ELLIPSE_COLOR);
   g2.translate(x, y);
   int size = list.size();
   for (int i = 0; i < size; i++) {
     float alpha = isRunning ? (i + 1) / (float) size : .5f;
     g2.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, alpha));
     g2.fill(list.get(i));
   }
   // g2.translate(-x, -y);
   g2.dispose();
 }
예제 #4
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  @Override
  public void draw(Graphics2D g) {
    double opacity = get(OPACITY);
    opacity = Math.min(Math.max(0d, opacity), 1d);
    if (opacity != 0d) {
      if (opacity != 1d) {
        Rectangle2D.Double drawingArea = getDrawingArea();

        Rectangle2D clipBounds = g.getClipBounds();
        if (clipBounds != null) {
          Rectangle2D.intersect(drawingArea, clipBounds, drawingArea);
        }

        if (!drawingArea.isEmpty()) {

          BufferedImage buf =
              new BufferedImage(
                  (int) ((2 + drawingArea.width) * g.getTransform().getScaleX()),
                  (int) ((2 + drawingArea.height) * g.getTransform().getScaleY()),
                  BufferedImage.TYPE_INT_ARGB);
          Graphics2D gr = buf.createGraphics();
          gr.scale(g.getTransform().getScaleX(), g.getTransform().getScaleY());
          gr.translate((int) -drawingArea.x, (int) -drawingArea.y);
          gr.setRenderingHints(g.getRenderingHints());
          drawFigure(gr);
          gr.dispose();
          Composite savedComposite = g.getComposite();
          g.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, (float) opacity));
          g.drawImage(
              buf,
              (int) drawingArea.x,
              (int) drawingArea.y,
              2 + (int) drawingArea.width,
              2 + (int) drawingArea.height,
              null);
          g.setComposite(savedComposite);
        }
      } else {
        drawFigure(g);
      }
    }
  }
  /**
   * Draw the icon at the specified location. Paints this component as an icon.
   *
   * @param c the component which can be used as observer
   * @param g the <tt>Graphics</tt> object used for painting
   * @param x the position on the X coordinate
   * @param y the position on the Y coordinate
   */
  public void paintIcon(Component c, Graphics g, int x, int y) {
    g = g.create();
    try {
      Graphics2D g2 = (Graphics2D) g;
      AntialiasingManager.activateAntialiasing(g2);

      g2.setColor(Color.WHITE);
      g2.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, 0.8f));
      g2.fillRoundRect(x, y, getIconWidth() - 1, getIconHeight() - 1, 10, 10);
      g2.setColor(Color.DARK_GRAY);
      g2.drawRoundRect(x, y, getIconWidth() - 1, getIconHeight() - 1, 10, 10);

      // Indent component content from the border.
      g2.translate(x + 5, y + 5);

      super.paint(g2);

      g2.translate(x, y);
    } finally {
      g.dispose();
    }
  }
예제 #6
0
class GMap implements Serializable {

  /**
   * This class contains the modifications to the map, and is capable of generating an image at any
   * zoom level. One Gmap is shared by all the viewing panes in the GUI class.
   */

  // defaultImage
  private transient BufferedImage defaultImage;

  // transparency
  private transient AlphaComposite opacity70 =
      AlphaComposite.getInstance(AlphaComposite.SRC_OVER, 0.70f);
  private transient AlphaComposite opacity40 =
      AlphaComposite.getInstance(AlphaComposite.SRC_OVER, 0.4f);

  // google icon
  Image googleImage;

  // keep track of the data object
  private transient GDataSource gDataSourceMap;
  private transient GDataSource gDataSourceSatellite;
  private transient GDataSource gDataSourceHybrid;
  private transient GDataSource gDataSourceOverlay;

  // GDraw handles the work of painting data NOT in the database
  private GDraw gDraw;

  /** Messages */
  public static final int MESSAGE_DOWNLOADING = 0;

  public static final int MESSAGE_PAINTING = 1;

  /** Modes */
  public static final int SATELLITE_MODE = 2;

  public static final int MAP_MODE = 3;
  public static final int HYBRID_MODE = 4;
  private int mode;

  /**
   * Creates a new GMap object based on a base directory specified in the constructure.
   *
   * @param cache - Base directory to search for cached image folders.
   */
  public GMap(String cache) {
    // data source
    this.gDataSourceMap = new GDataSourceMap(cache + "/map_cache");
    this.gDataSourceSatellite = new GDataSourceSatellite(cache + "/sat_cache");
    // this.gDataSourceOverlay = new GDataSourceOverlay(cache+"/overlay_cache");
    this.gDataSourceHybrid = new GDataSourceHybrid(cache + "/hybrid_cache", gDataSourceSatellite);

    // build default image
    defaultImage = getDefaultImage(GDataSource.sourceSize.width, GDataSource.sourceSize.height);

    // init gdraw draw object
    this.gDraw = new GDraw();

    // mode
    this.mode = MAP_MODE;

    // icon
    ImageIcon loadImage = new ImageIcon("images/google.png");
    googleImage = loadImage.getImage();
  }
  /** Builds a GMap based on a 'cache' sub-directory. */
  public GMap() {
    this("cache");
  }

  // getters
  /**
   * Returns a GDataSource object used by the GMap object
   *
   * @return Returns the GDataSource used to grab the images.
   */
  public GDataSource getGDataSource() {
    return getGDataSource(mode);
  }
  /**
   * Returns a GDataSource based on a specific mode using constants: MAP_MODE, SATELLITE_MODE,
   * HYBRID_MODE
   *
   * @return A GDataSource of the specified mode.
   */
  public GDataSource getGDataSource(int mode) {
    if (mode == MAP_MODE) return gDataSourceMap;
    else if (mode == SATELLITE_MODE) return gDataSourceSatellite;
    else if (mode == HYBRID_MODE) return gDataSourceHybrid;
    return null;
  }
  /** */
  public GDraw getGDraw() {
    return gDraw;
  }
  /**
   * Gets the current used by the GMap object
   *
   * @return Current mode: MAP_MODE, SATELLITE_MODE, HYBRID_MODE
   */
  public int getMode() {
    return mode;
  }

  /**
   * Sets the current mode of the GMap object
   *
   * @param Mode to set: MAP_MODE, SATELLITE_MODE, HYBRID_MODE
   */
  public void setMode(int mode) {
    this.mode = mode;
  }

  /**
   * Sets the registered GDraw to gDraw. This method is intended primarily for serialization
   * purposes, and should not be used to modify the state of the GMap. Instead, use the GDraw's
   * public methods.
   *
   * @param gDraw
   */
  public void setGDraw(GDraw gDraw) {
    this.gDraw = gDraw;
  }

  /**
   * Method used to build image asynchronously
   *
   * @param image - Image to paint
   * @param x - x Pixel value
   * @param y - y Pixel value
   * @param w - width in pixels
   * @param h - height in pixels
   * @param cachedZoom - zoom level used
   * @param listener - GMapListener object
   */
  public void paintAsynchronousImage(
      BufferedImage image,
      int x,
      int y,
      int w,
      int h,
      int zoom,
      int cachedZoom,
      GMapListener listener) {
    buildImage(image, x, y, w, h, zoom, cachedZoom, listener);
  }
  /**
   * Returns image at x and y
   *
   * @param x - x Pixel value
   * @param y - y Pixel value
   * @param w - width in pixels
   * @param h - height in pixels
   * @param cachedZoom - zoom level used
   */
  public BufferedImage getImage(int x, int y, int w, int h, int zoom, int cachedZoom) {
    // create buffered image for return
    return getImage(x, y, w, h, zoom, cachedZoom, null);
  }
  /**
   * Returns image at x and y
   *
   * @param x - x Pixel value
   * @param y - y Pixel value
   * @param w - width in pixels
   * @param h - height in pixels
   * @param cachedZoom - zoom level used
   * @param listener - GMapListener to use in getImage
   */
  public BufferedImage getImage(
      int x, int y, int w, int h, int zoom, int cachedZoom, GMapListener listener) {
    BufferedImage toReturn = new BufferedImage(w, h, BufferedImage.TYPE_INT_ARGB);
    buildImage(toReturn, x, y, w, h, zoom, cachedZoom, listener);
    return toReturn;
  }
  /**
   * Method used to cacheImage
   *
   * @param image - Image to paint
   * @param x - x Pixel value
   * @param y - y Pixel value
   * @param w - width in pixels
   * @param h - height in pixels
   * @param zoom - zoom level used
   */
  public void cacheImage(int x, int y, int w, int h, int zoom) {
    cacheImage(x, y, w, h, zoom, null);
  }
  /**
   * Method used to cache image
   *
   * @param image - Image to paint
   * @param x - x Pixel value
   * @param y - y Pixel value
   * @param w - width in pixels
   * @param h - height in pixels
   * @param zoom - zoom level used
   */
  public void cacheImage(int x, int y, int w, int h, int zoom, GMapListener listener) {
    paintAsynchronousImage(null, x, y, w, h, zoom, (GPhysicalPoint.MIN_ZOOM - 1), listener);
  }

  /** Main method used to build the image based on a large number of tiles. */
  public void buildImage(
      BufferedImage toReturn,
      int x,
      int y,
      int w,
      int h,
      int zoom,
      int cachedZoom,
      GMapListener listener) {
    // validate
    // if(x < 0 || y < 0 || w <= 0 || h <= 0) return getDefaultImage(w,h);

    // if(toReturn != null) Graphics2D g = toReturn.createGraphics();

    // find index of point
    int xIndex = x / GDataSource.sourceSize.width;
    int yIndex = y / GDataSource.sourceSize.height;

    // find coord of our starting point
    int xCoord = x % GDataSource.sourceSize.width;
    int yCoord = y % GDataSource.sourceSize.height;

    // Checks for invalid xCoord and yCoord
    if (xCoord < 0) {
      xCoord = 0;
    }
    if (yCoord < 0) {
      yCoord = 0;
    }

    // load this index
    BufferedImage image = getIndexedImage(xIndex, yIndex, zoom, cachedZoom, listener);

    // get info about the image
    // Dimension imageSize = new Dimension(image.getWidth(),image.getHeight());

    // Holds number of row and column images needed
    int rowImages;
    int colImages;

    // find the width of what we CAN paint
    int paintWidth = GDataSource.sourceSize.width - xCoord;
    int paintHeight = GDataSource.sourceSize.height - yCoord;

    // Calculate number of row images
    if ((h - paintHeight) % 256 == 0) {
      rowImages = 1 + (h - paintHeight) / 256;
    } else {
      rowImages = 2 + (h - paintHeight) / 256;
    }

    // Calculate number of column images
    if ((w - paintWidth) % 256 == 0) {
      colImages = 1 + (w - paintWidth) / 256;
    } else {
      colImages = 2 + (w - paintWidth) / 256;
    }

    // Overal Image coordinates
    int xImage = 0;
    int yImage = 0;

    // DEBUG
    // System.out.println(x + " " + y + " " + w + " " + h + " " + rowImages + " " + colImages);
    // System.out.println();

    // set listener
    if (listener != null) listener.updateGMapTaskSize(rowImages * colImages);

    // a counter for the listener
    int completed = 0;

    // Iteratively loops through all CACHED images and paints them
    for (int row = 0; row < rowImages; row++) {
      for (int col = 0; col < colImages; col++) {
        int thisXIndex = x / GDataSource.sourceSize.width + col;
        int thisYIndex = y / GDataSource.sourceSize.height + row;

        getSpecificImage(x, y, w, h, col, row, toReturn, zoom, cachedZoom, listener, true);
        if (getGDataSource().isCached(thisXIndex, thisYIndex, zoom)) {
          if (listener != null) {
            listener.updateGMapCompleted(completed);
            completed++;
          }
        }
        if (listener.asynchronousGMapStopFlag()) return;
      }
    }

    // do the UNCACHED IMAGES NEXT
    for (int row = 0; row < rowImages; row++) {
      for (int col = 0; col < colImages; col++) {
        int thisXIndex = x / GDataSource.sourceSize.width + col;
        int thisYIndex = y / GDataSource.sourceSize.height + row;

        if (!getGDataSource().isCached(thisXIndex, thisYIndex, zoom)) {
          getSpecificImage(x, y, w, h, col, row, toReturn, zoom, cachedZoom, listener, false);
          if (listener != null) {
            listener.updateGMapCompleted(completed);
            completed++;
            if (listener.asynchronousGMapStopFlag()) return;
          }
        }
      }
    }

    // the dispatch to GDraw object
    gDraw.draw(toReturn, new GPhysicalPoint(x, y, zoom), zoom);
  }

  private BufferedImage getSpecificImage(
      int x,
      int y,
      int w,
      int h,
      int imgIndexX,
      int imgIndexY,
      BufferedImage buffImg,
      int zoom,
      int cachedZoom,
      GMapListener listener,
      boolean localFilesOnly) {

    int xIndex = x / GDataSource.sourceSize.width;
    int yIndex = y / GDataSource.sourceSize.height;

    xIndex += imgIndexX;
    yIndex += imgIndexY;

    BufferedImage image = null;
    if (!localFilesOnly || getGDataSource().isCached(xIndex, yIndex, zoom))
      image = getIndexedImage(xIndex, yIndex, zoom, cachedZoom, listener);

    int xCoord = x % GDataSource.sourceSize.width;
    int yCoord = y % GDataSource.sourceSize.height;

    // Checks for invalid xCoord and yCoord
    if (xCoord < 0) {
      xCoord = 0;
    }
    if (yCoord < 0) {
      yCoord = 0;
    }

    // get info about the image
    Dimension imageSize =
        new Dimension(getGDataSource().sourceSize.width, getGDataSource().sourceSize.height);

    // find the width of what we CAN paint
    int initPaintWidth = imageSize.width - xCoord;
    int initPaintHeight = imageSize.height - yCoord;

    int paintWidth = initPaintWidth;
    int paintHeight = initPaintHeight;

    int rowImages = numOfRows(x, y, h, zoom, cachedZoom);
    int colImages = numOfCols(x, y, w, zoom, cachedZoom);

    if (imgIndexX >= colImages || imgIndexY >= rowImages) {
      return null;
    }

    int xImage = 0;
    int yImage = 0;

    int xInitCoord = xCoord;
    int yInitCoord = yCoord;

    if (imgIndexX > 0) {
      xImage = initPaintWidth + (imgIndexX - 1) * imageSize.width;
      xCoord = 0;
      if (imgIndexX < (colImages - 1)) {
        paintWidth = imageSize.width;
      } else {
        paintWidth = w - ((colImages - 2) * imageSize.width) - (imageSize.width - xInitCoord);
      }
    }
    if (imgIndexY > 0) {
      yImage = initPaintHeight + (imgIndexY - 1) * imageSize.height;
      yCoord = 0;
      if (imgIndexY < (rowImages - 1)) {
        paintHeight = imageSize.height;
      } else {
        paintHeight = h - ((rowImages - 2) * imageSize.height) - (imageSize.height - yInitCoord);
      }
    }

    if (buffImg != null) {
      Graphics2D g = (Graphics2D) buffImg.getGraphics();
      if (image != null) {
        // System.out.println(xCoord + ":" + yCoord + ":" + paintWidth + ":" + paintHeight);
        g.drawImage(
            image.getSubimage(xCoord, yCoord, paintWidth, paintHeight),
            xImage,
            yImage,
            paintWidth,
            paintHeight,
            null);
      } else {
        Composite originalComposite = g.getComposite();
        g.setComposite(opacity40);
        g.setColor(Color.BLACK);
        g.fillRect(xImage, yImage, paintWidth, paintHeight);
        g.setComposite(originalComposite);
      }
    }

    return buffImg;
  }

  /** Calculates the number of rows of tiles needed to build current image. */
  public int numOfRows(int x, int y, int h, int zoom, int cachedZoom) {
    int xIndex = x / GDataSource.sourceSize.width;
    int yIndex = y / GDataSource.sourceSize.height;

    // BufferedImage image = getIndexedImage(xIndex,yIndex,zoom,cachedZoom);

    int yCoord = y % GDataSource.sourceSize.height;

    // find the width of what we CAN paint
    int paintHeight = GDataSource.sourceSize.height - yCoord;

    int rowImages;

    // Calculate number of row images
    if ((h - paintHeight) % 256 == 0) {
      rowImages = 1 + (h - paintHeight) / 256;
    } else {
      rowImages = 2 + (h - paintHeight) / 256;
    }

    return rowImages;
  }
  /** Calculates the number of columns of tiles needed to build current image. */
  public int numOfCols(int x, int y, int w, int zoom, int cachedZoom) {
    int xIndex = x / GDataSource.sourceSize.width;
    int yIndex = y / GDataSource.sourceSize.height;

    // BufferedImage image = getIndexedImage(xIndex,yIndex,zoom,cachedZoom);

    int xCoord = x % GDataSource.sourceSize.height;

    // find the width of what we CAN paint
    int paintWidth = GDataSource.sourceSize.width - xCoord;

    int colImages;

    // Calculate number of row images
    if ((w - paintWidth) % 256 == 0) {
      colImages = 1 + (w - paintWidth) / 256;
    } else {
      colImages = 2 + (w - paintWidth) / 256;
    }

    return colImages;
  }

  public BufferedImage getIndexedImage(int x, int y, int zoom, int cacheZoom) {
    return getIndexedImage(x, y, zoom, cacheZoom, null);
  }
  /** Get an image based on index numbers */
  public BufferedImage getIndexedImage(
      int x, int y, int zoom, int cacheZoom, GMapListener listener) {

    if (listener != null) {
      if (!getGDataSource().isCached(x, y, zoom)) {
        listener.updateGMapPainting();
        listener.updateGMapMessage(GMap.MESSAGE_DOWNLOADING);
      } else {
        listener.updateGMapMessage(GMap.MESSAGE_PAINTING);
      }
    }

    BufferedImage thumbImage = getGDataSource().getImage(x, y, zoom, true);

    if (thumbImage == null) return defaultImage;

    // if we dont have to paint cache, return here
    if (cacheZoom == (GPhysicalPoint.MIN_ZOOM - 1) || cacheZoom >= zoom) return thumbImage;

    BufferedImage paintedImage =
        new BufferedImage(
            GDataSource.sourceSize.width,
            GDataSource.sourceSize.height,
            BufferedImage.TYPE_INT_ARGB);
    Graphics2D graphics2D = paintedImage.createGraphics();
    graphics2D.drawImage(
        thumbImage, 0, 0, GDataSource.sourceSize.width, GDataSource.sourceSize.height, null);

    // now lets move to painting the cache
    double imageNum = Math.pow(2, zoom - cacheZoom);

    // draw cache lines
    int startX = (int) (imageNum * x);
    int startY = (int) (imageNum * y);

    // get composite to restore later, set new transparent composite
    Composite originalComposite = graphics2D.getComposite();
    graphics2D.setComposite(opacity40);

    // draw grid
    for (int i = 0; i < imageNum; i++) {
      for (int j = 0; j < imageNum; j++) {
        // points
        Point upperLeft =
            new Point(
                (int) (GDataSource.sourceSize.width / imageNum) * i,
                (int) (GDataSource.sourceSize.height / imageNum) * j);
        Dimension size =
            new Dimension(
                (int) (GDataSource.sourceSize.width / imageNum),
                (int) (GDataSource.sourceSize.height / imageNum));

        // draw lines
        graphics2D.setColor(new Color(100, 100, 100));
        graphics2D.drawLine(upperLeft.x, upperLeft.y, upperLeft.x + size.width, upperLeft.y);
        graphics2D.drawLine(upperLeft.x, upperLeft.y, upperLeft.x, upperLeft.y + size.height);

        // check if file exists
        if (getGDataSource().isCached(startX + i, startY + j, cacheZoom))
          graphics2D.setColor(Color.RED);
        else graphics2D.setColor(new Color(155, 155, 155));

        // shade rectangle
        graphics2D.fillRect(upperLeft.x, upperLeft.y, size.width, size.height);
      }
    }

    // restore composite
    graphics2D.setComposite(originalComposite);

    return paintedImage;
  }

  // initialize default image
  private BufferedImage getDefaultImage(int w, int h) {
    BufferedImage defaultImage = new BufferedImage(w, h, BufferedImage.TYPE_INT_ARGB);
    Graphics2D graphics2D = defaultImage.createGraphics();
    graphics2D.setColor(new Color(200, 200, 200));
    graphics2D.fillRect(0, 0, w, h);
    graphics2D.setColor(new Color(130, 130, 130));
    graphics2D.drawRect(0, 0, w - 1, h - 1);
    return defaultImage;
  }

  /** Method to set the <tt>cacheDirectory</tt> property. */
  public void setCacheDirectory() {}
}
    public void paintComponent(Graphics g) {
      super.paintComponent(g);

      Graphics2D g2 = (Graphics2D) g;

      AlphaComposite ac, ac2 = null;
      ac2 = AlphaComposite.getInstance(AlphaComposite.SRC_OVER, 1.0f);
      for (int i = 0; i < imagenum_now.length; i++) {
        for (int j = 0; j < imagenum_now[i].length; j++) {
          // System.out.println("x: " + i + ", y: " + j);

          g2.setComposite(ac2);

          if (imagenum_now[i][j] != -1) {
            g2.drawImage(
                // images.get(imagenum_now[i][j])
                // getImage(images.get(imagenum_now[i][j])),
                imagenum_now2[i][j], i * size_x, j * size_y, size_x, size_y, this);
          } else {
            // No picture found, ignoring
            // System.out.println("imagenum_now["+i+"]["+j+"] = -1");
          }

          try {
            ac = AlphaComposite.getInstance(AlphaComposite.SRC_OVER, fade[i][j]);
          } catch (IllegalArgumentException e) {
            ac = AlphaComposite.getInstance(AlphaComposite.SRC_OVER, 1.0f);
          }
          g2.setComposite(ac);
          if (imagenum_next[i][j] != -1) {
            g2.drawImage(
                // images.get(imagenum_next[i][j]),
                // getImage(images.get(imagenum_next[i][j])),
                imagenum_next2[i][j], i * size_x, j * size_y, size_x, size_y, this);
          } else {
            // No picture found, ignoring
            // System.out.println("imagenum_now["+i+"]["+j+"] = -1");
          }

          /*
          if(i == 0 && j == 0)
          	System.out.println("" + imagenum_now[i][j] +
          			" => " +
          			imagenum_next[i][j] + ", fade: "+fade[i][j]);;
          */

          // Red border if the image is new
          if (number_of_frames_redborder != -1
              && (images_nevershown.contains((Integer) imagenum_next[i][j])
                  || images_nevershown.contains((Integer) imagenum_now[i][j]))) {
            g2.setComposite(ac2);
            g2.setColor(color_redborder);
            int bordertime = redborder[i][j];
            if (bordertime > 0) {
              // Draw border
              g2.drawRect(i * size_x, j * size_y, size_x - 1, size_y - 1);

              if (bordertime > number_of_frames_redborder) {
                // No more border
                redborder[i][j] = -number_of_frames_redborder;
              }
            }
            redborder[i][j]++;
          }
        }
      }
    }
예제 #8
0
  public synchronized void paint(Graphics graphics) {

    Graphics2D g = (Graphics2D) graphics;

    Image water = Toolkit.getDefaultToolkit().getImage("catanui/water.jpg");
    g.drawImage(water, 0, 0, this);

    for (Hex o : _hexes) {
      o.paint(g, _display_offset[0], _display_offset[1]);
    }

    g.translate(_display_offset[0] + 2, _display_offset[1] - 1);
    synchronized (portContents) {
      for (Pair c : portContents.keySet()) {

        int lowx =
            hexleft
                + (((CoordPair) c.getA()).getX() - (((CoordPair) c.getA()).getX() % 2))
                    / 2
                    * intervalSide[0]
                + (((CoordPair) c.getA()).getX() - (((CoordPair) c.getA()).getX() % 2))
                    / 2
                    * intervalSide[1]
                + (((CoordPair) c.getA()).getX() % 2) * intervalSide[0];
        int lowy = hextop + ((CoordPair) c.getA()).getY() * intervalUp;
        int highx =
            hexleft
                + (((CoordPair) c.getB()).getX() - (((CoordPair) c.getB()).getX() % 2))
                    / 2
                    * intervalSide[0]
                + (((CoordPair) c.getB()).getX() - (((CoordPair) c.getB()).getX() % 2))
                    / 2
                    * intervalSide[1]
                + (((CoordPair) c.getB()).getX() % 2) * intervalSide[0];
        int highy = hextop + ((CoordPair) c.getB()).getY() * intervalUp;

        int dx = highx - lowx;
        int dy = highy - lowy;
        double rad = Math.atan((1.0) * dy / dx);

        if (dx < 0) rad += Math.PI;

        g.translate(lowx, lowy);
        g.rotate(rad);
        g.drawImage(
            BoardObject.images.get(BoardObject.type2port.get(portContents.get(c))), 0, -75, null);
        g.rotate(-rad);
        g.translate((-1) * lowx, (-1) * lowy);
      }
    }
    g.translate((-1) * _display_offset[0], (-1) * _display_offset[1]);

    synchronized (roadContents) {
      for (Pair c : roadContents.keySet()) {

        Road r =
            new Road(
                hexleft
                    + (((CoordPair) c.getA()).getX() - (((CoordPair) c.getA()).getX() % 2))
                        / 2
                        * intervalSide[0]
                    + (((CoordPair) c.getA()).getX() - (((CoordPair) c.getA()).getX() % 2))
                        / 2
                        * intervalSide[1]
                    + (((CoordPair) c.getA()).getX() % 2) * intervalSide[0],
                hextop + ((CoordPair) c.getA()).getY() * intervalUp);

        r.setX2(
            hexleft
                + (((CoordPair) c.getB()).getX() - (((CoordPair) c.getB()).getX() % 2))
                    / 2
                    * intervalSide[0]
                + (((CoordPair) c.getB()).getX() - (((CoordPair) c.getB()).getX() % 2))
                    / 2
                    * intervalSide[1]
                + (((CoordPair) c.getB()).getX() % 2) * intervalSide[0]);
        r.setY2(hextop + ((CoordPair) c.getB()).getY() * intervalUp);

        r.setColor(roadContents.get(c));
        r.paint(g, _display_offset[0], _display_offset[1]);
      }
    }

    synchronized (vertexContents) {
      for (CoordPair c : vertexContents.keySet()) {
        int newx =
            hexleft
                + ((c._x - (c._x % 2)) / 2 * intervalSide[0]
                    + (c._x - (c._x % 2)) / 2 * intervalSide[1]
                    + (c._x % 2) * intervalSide[0])
                - 20;
        int newy = hextop + c._y * intervalUp - 20;

        if ((BoardObject.type) (vertexContents.get(c).getA()) == BoardObject.type.SETTLEMENT) {
          Settlement s = new Settlement(newx, newy, (Integer) (vertexContents.get(c).getB()));
          s.paint(g, _display_offset[0], _display_offset[1]);
        } else if ((BoardObject.type) (vertexContents.get(c).getA()) == BoardObject.type.CITY) {
          City s = new City(newx, newy, (Integer) (vertexContents.get(c).getB()));
          s.paint(g, _display_offset[0], _display_offset[1]);
        } else System.out.println("neither -_-");
      }
    }

    g.setColor(Color.GRAY);
    g.fill(new Rectangle(0, 0, 110, 60));
    g.setColor(Color.LIGHT_GRAY);
    g.fill(new Rectangle(3, 3, 104, 56));
    if (_dieRoll > 0) {
      BufferedImage r1img =
          diceImage.getSubimage((int) (Math.floor((twoDice[0] - 1) * 94.7)), 0, 94, 93);
      g.drawImage(r1img, 5, 7, 48, 47, null);
      BufferedImage r2img =
          diceImage.getSubimage((int) (Math.floor((twoDice[1] - 1) * 94.7)), 0, 94, 93);
      g.drawImage(r2img, 55, 7, 48, 47, null);
    }

    if (_up != null) _up.paint(g);

    if (!_gameOver.equals("") && !_dismiss) {
      _currAlpha += 0.007;
    }
    g.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, _currAlpha));
    g.setColor(Color.GRAY);
    g.fill(new Rectangle(-20, 0, 1020, 650));
    g.setColor(Color.BLACK);
    g.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, (float) 1.0));
    if (!_gameOver.equals("")) {

      if (_currAlpha >= 0.8) {
        if (_gameOver.equals(gameLogic._name)) {
          g.drawString("Congratulations, you won!", 350, 200);
        } else {
          g.drawString(_gameOver + " has won!", 350, 200);
        }
        _dismiss = true;
      } else repaint();
    }
  }
예제 #9
0
 public Composite getComposite() {
   return (AlphaComposite.getInstance(AlphaComposite.SRC));
 }