/** Initializes the ImageDisplay. */ private synchronized void initialize() { if (source == null) return; componentWidth = source.getWidth(); componentHeight = source.getHeight(); setPreferredSize(new Dimension(componentWidth, componentHeight)); this.sampleModel = source.getSampleModel(); // First check whether the opimage has already set a suitable ColorModel this.colorModel = source.getColorModel(); if (this.colorModel == null) { // If not, then create one. this.colorModel = PlanarImage.createColorModel(this.sampleModel); if (this.colorModel == null) { throw new IllegalArgumentException("no color model"); } } minTileX = source.getMinTileX(); maxTileX = source.getMinTileX() + source.getNumXTiles() - 1; minTileY = source.getMinTileY(); maxTileY = source.getMinTileY() + source.getNumYTiles() - 1; tileWidth = source.getTileWidth(); tileHeight = source.getTileHeight(); tileGridXOffset = source.getTileGridXOffset(); tileGridYOffset = source.getTileGridYOffset(); }
/** Records a new size. Called by the AWT. */ public void setBounds(int x, int y, int width, int height) { Insets insets = getInsets(); int w; int h; if (source == null) { w = width; h = height; } else { w = source.getWidth(); h = source.getHeight(); if (width < w) { w = width; } if (height < h) { h = height; } } componentWidth = w + insets.left + insets.right; componentHeight = h + insets.top + insets.bottom; super.setBounds(x + shift_x, y + shift_y, componentWidth, componentHeight); }
/** * Paint the image onto a Graphics object. The painting is performed tile-by-tile, and includes a * grey region covering the unused portion of image tiles as well as the general background. At * this point the image must be byte data. */ public synchronized void paintComponent(Graphics g) { Graphics2D g2D = null; if (g instanceof Graphics2D) { g2D = (Graphics2D) g; } else { return; } // if source is null, it's just a component if (source == null) { g2D.setColor(getBackground()); g2D.fillRect(0, 0, componentWidth, componentHeight); return; } int transX = -originX; int transY = -originY; // Get the clipping rectangle and translate it into image coordinates. Rectangle clipBounds = g.getClipBounds(); if (clipBounds == null) { clipBounds = new Rectangle(0, 0, componentWidth, componentHeight); } // clear the background (clip it) [minimal optimization here] if (transX > 0 || transY > 0 || transX < (componentWidth - source.getWidth()) || transY < (componentHeight - source.getHeight())) { g2D.setColor(getBackground()); g2D.fillRect(0, 0, componentWidth, componentHeight); } clipBounds.translate(-transX, -transY); // Determine the extent of the clipping region in tile coordinates. int txmin, txmax, tymin, tymax; int ti, tj; txmin = XtoTileX(clipBounds.x); txmin = Math.max(txmin, minTileX); txmin = Math.min(txmin, maxTileX); txmax = XtoTileX(clipBounds.x + clipBounds.width - 1); txmax = Math.max(txmax, minTileX); txmax = Math.min(txmax, maxTileX); tymin = YtoTileY(clipBounds.y); tymin = Math.max(tymin, minTileY); tymin = Math.min(tymin, maxTileY); tymax = YtoTileY(clipBounds.y + clipBounds.height - 1); tymax = Math.max(tymax, minTileY); tymax = Math.min(tymax, maxTileY); Insets insets = getInsets(); // Loop over tiles within the clipping region for (tj = tymin; tj <= tymax; tj++) { for (ti = txmin; ti <= txmax; ti++) { int tx = TileXtoX(ti); int ty = TileYtoY(tj); Raster tile = source.getTile(ti, tj); if (tile != null) { DataBuffer dataBuffer = tile.getDataBuffer(); WritableRaster wr = tile.createWritableRaster(sampleModel, dataBuffer, null); BufferedImage bi = new BufferedImage(colorModel, wr, colorModel.isAlphaPremultiplied(), null); // correctly handles band offsets if (brightnessEnabled == true) { SampleModel sm = sampleModel.createCompatibleSampleModel(tile.getWidth(), tile.getHeight()); WritableRaster raster = RasterFactory.createWritableRaster(sm, null); BufferedImage bimg = new BufferedImage(colorModel, raster, colorModel.isAlphaPremultiplied(), null); // don't move this code ByteLookupTable lutTable = new ByteLookupTable(0, lutData); LookupOp lookup = new LookupOp(lutTable, null); lookup.filter(bi, bimg); g2D.drawImage(bimg, biop, tx + transX + insets.left, ty + transY + insets.top); } else { AffineTransform transform; transform = AffineTransform.getTranslateInstance( tx + transX + insets.left, ty + transY + insets.top); g2D.drawRenderedImage(bi, transform); } } } } }