protected void drawImageMosaic(Graphics2D g2) { // Break the image up into tiles. Draw each // tile with its own transparency, allowing // the background to show through to varying // degrees. int side = 36; int width = mImage.getWidth(); int height = mImage.getHeight(); for (int y = 0; y < height; y += side) { for (int x = 0; x < width; x += side) { // Calculate an appropriate transparency value. float xBias = (float) x / (float) width; float yBias = (float) y / (float) height; float alpha = 1.0f - Math.abs(xBias - yBias); g2.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER, alpha)); // Draw the subimage. int w = Math.min(side, width - x); int h = Math.min(side, height - y); BufferedImage tile = mImage.getSubimage(x, y, w, h); g2.drawImage(tile, x, y, null); } } // Reset the composite. g2.setComposite(AlphaComposite.getInstance(AlphaComposite.SRC_OVER)); }
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]++; } } } }
public Composite getComposite() { return (AlphaComposite.getInstance(AlphaComposite.SRC)); }