public static ArthurImage add(ArthurImage one, ArthurColor two) { BufferedImage image = JavaImageMath.clone(one.bf); double r = two.r.val; double g = two.g.val; double b = two.g.val; WritableRaster raster = image.getRaster(); int[] pixelArray = new int[3]; for (int y = 0; y < raster.getHeight(); y++) { for (int x = 0; x < raster.getWidth(); x++) { pixelArray = raster.getPixel(x, y, pixelArray); pixelArray[0] = (int) (3 * pixelArray[0] + r) / 4; pixelArray[1] = (int) (3 * pixelArray[1] + g) / 4; pixelArray[2] = (int) (3 * pixelArray[2] + b) / 4; raster.setPixel(x, y, pixelArray); } } // save image String outputFn = one.filename.substring(0, one.filename.indexOf(".jpg")) + "+" + // filename can't contain the / or *characters; decide later r + g + b + counter + ".jpg"; counter++; return new ArthurImage(image, outputFn); }
public static ArthurImage add(ArthurImage one, ArthurNumber two) { BufferedImage image = JavaImageMath.clone(one.bf); int num = two.val.intValue(); WritableRaster raster = image.getRaster(); int[] pixelArray = new int[3]; for (int y = 0; y < raster.getHeight(); y++) { for (int x = 0; x < raster.getWidth(); x++) { pixelArray = raster.getPixel(x, y, pixelArray); pixelArray[0] = pixelArray[0] + num; pixelArray[1] = pixelArray[1] + num; pixelArray[2] = pixelArray[2] + num; for (int i = 0; i < 3; i++) { if (pixelArray[i] > 255) { pixelArray[i] = 255; } } raster.setPixel(x, y, pixelArray); } } // save image String outputFn = one.filename.substring(0, one.filename.indexOf(".jpg")) + "+" + // filename can't contain the / or *characters; decide later num + counter + ".jpg"; counter++; return new ArthurImage(image, outputFn); }
public static ArthurImage multiply(ArthurImage one, ArthurImage two) { BufferedImage image = JavaImageMath.clone(one.bf); BufferedImage image2 = JavaImageMath.clone(two.bf); WritableRaster r1 = image.getRaster(); WritableRaster r2 = image2.getRaster(); int newWidth = Math.max(r1.getWidth(), r2.getWidth()); int newHeight = Math.max(r1.getHeight(), r2.getHeight()); BufferedImage collage = new BufferedImage(newWidth, newHeight, BufferedImage.TYPE_INT_RGB); WritableRaster raster = collage.getRaster(); int[] p1 = new int[3]; int[] p2 = new int[3]; int[] pixelArray = new int[3]; for (int y = 0; y < newHeight; y++) { for (int x = 0; x < newWidth; x++) { p1 = null; p2 = null; if (x < r1.getWidth() && y < r1.getHeight()) { p1 = r1.getPixel(x, y, p1); } if (x < r2.getWidth() && y < r2.getHeight()) { p2 = r2.getPixel(x, y, p2); } for (int i = 0; i < 3; i++) { if (p1 == null && p2 == null) { pixelArray[i] = 0; } else if (p1 == null && p2 != null) { pixelArray[i] = p2[i]; } else if (p1 != null && p2 == null) { pixelArray[i] = p1[i]; } else { pixelArray[i] = (int) ((p1[i] + p2[i]) / 2); } } raster.setPixel(x, y, pixelArray); } } // save image String outputFn = one.filename.substring(0, one.filename.indexOf(".jpg")) + "X" + // filename can't contain the / or *characters; decide later two.filename.substring(0, two.filename.indexOf(".jpg")) + counter + ".jpg"; counter++; return new ArthurImage(collage, outputFn); }
private void makeNoDataTransparent( BufferedImage image, short missingDataSignal, short missingDataReplacement) { WritableRaster raster = null; if (null != image && (image.getType() == BufferedImage.TYPE_4BYTE_ABGR || image.getType() == BufferedImage.TYPE_INT_ARGB) && null != (raster = image.getRaster())) { int nodata_r = missingDataSignal & 0xff; int nodata_g = missingDataSignal & 0xff; int nodata_b = missingDataSignal & 0xff; int[] pixel = new int[4]; int[] transparentPixel = new int[] { 0xFF & missingDataReplacement /* red */, 0xFF & missingDataReplacement /* green */, 0xFF & missingDataReplacement, 0x00 /* alpha */ }; int width = image.getWidth(); int height = image.getHeight(); for (int j = 0; j < height; j++) { for (int i = 0; i < width; i++) { // We know, by the nature of this source, that we are dealing with RGBA rasters... raster.getPixel(i, j, pixel); if (pixel[0] == nodata_r && pixel[1] == nodata_g && pixel[2] == nodata_b) { // pixel[0] = pixel[1] = pixel[2] = 0xFF & // missingDataReplacement; // pixel[3] = 0; // transparent raster.setPixel(i, j, transparentPixel); } else { pixel[3] = 0xff; // non-transparent raster.setPixel(i, j, pixel); } } } } }
public static ArthurImage divide(ArthurImage one, ArthurImage two) { BufferedImage image = JavaImageMath.clone(one.bf); BufferedImage image2 = JavaImageMath.clone(two.bf); WritableRaster r1 = image.getRaster(); int width = r1.getWidth(); int height = r1.getHeight(); BufferedImage r2resize = new BufferedImage(width, height, BufferedImage.TYPE_INT_RGB); Graphics2D g2d = r2resize.createGraphics(); g2d.drawImage(image2, 0, 0, width, height, null); g2d.dispose(); WritableRaster r2 = r2resize.getRaster(); BufferedImage collage = new BufferedImage(width, height, BufferedImage.TYPE_INT_RGB); WritableRaster raster = collage.getRaster(); int[] p1 = new int[3]; int[] p2 = new int[3]; int[] pixelArray = new int[3]; for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { p1 = r1.getPixel(x, y, p1); p2 = r2.getPixel(x, y, p2); for (int i = 0; i < 3; i++) { pixelArray[i] = (int) ((p1[i] + p2[i]) / 2); } raster.setPixel(x, y, pixelArray); } } // save image String outputFn = one.filename.substring(0, one.filename.indexOf(".jpg")) + "D" + // filename can't contain the / or *characters; decide later two.filename.substring(0, two.filename.indexOf(".jpg")) + counter + ".jpg"; counter++; return new ArthurImage(collage, outputFn); }