Examples of java.awt.image.BufferedImageOp

• java.awt.image.BufferedImageOp
  This interface describes single-input/single-output operations performed on BufferedImage objects. It is implemented by AffineTransformOp, ConvolveOp, ColorConvertOp, RescaleOp, and LookupOp. These objects can be passed into a BufferedImageFilter to operate on a BufferedImage in the ImageProducer-ImageFilter-ImageConsumer paradigm.

  Classes that implement this interface must specify whether or not they allow in-place filtering-- filter operations where the source object is equal to the destination object.

  This interface cannot be used to describe more sophisticated operations such as those that take multiple sources. Note that this restriction also means that the values of the destination pixels prior to the operation are not used as input to the filter operation. @see BufferedImage @see BufferedImageFilter @see AffineTransformOp @see BandCombineOp @see ColorConvertOp @see ConvolveOp @see LookupOp @see RescaleOp @version 10 Feb 1997

        if (bias != 0.0)
            throw new IllegalArgumentException
                ("Only bias equal to zero is supported in ConvolveMatrix.");

        BufferedImageOp op = new ConvolveOp(kernel,
                                            ConvolveOp.EDGE_NO_OP,
                                            rh);

        ColorModel cm = cr.getColorModel();

        // OK this is a bit of a cheat. We Pull the DataBuffer out of
        // The read-only raster that getData gives us. And use it to
        // build a WritableRaster.  This avoids a copy of the data.
        Raster rr = cr.getData();
        WritableRaster wr = GraphicsUtil.makeRasterWritable(rr, 0, 0);

        // Here we update the translate to account for the phase shift
        // (if any) introduced by setting targetX, targetY in SVG.
        int phaseShiftX = target.x - kernel.getXOrigin();
        int phaseShiftY = target.y - kernel.getYOrigin();
        int destX = (int)(r.getX() + phaseShiftX);
        int destY = (int)(r.getY() + phaseShiftY);

        BufferedImage destBI;
        if (!preserveAlpha) {
            // Force the data to be premultiplied since often the JDK
            // code doesn't properly premultiply the values...
            cm = GraphicsUtil.coerceData(wr, cm, true);

            BufferedImage srcBI;
            srcBI = new BufferedImage(cm, wr, cm.isAlphaPremultiplied(), null);

            // Easy case just apply the op...
            destBI = op.filter(srcBI, null);

        } else {
            BufferedImage srcBI;
            srcBI = new BufferedImage(cm, wr, cm.isAlphaPremultiplied(), null);

            // Construct a linear sRGB cm without alpha...
            cm = new DirectColorModel(ColorSpace.getInstance
                                      (ColorSpace.CS_LINEAR_RGB), 24,
                                      0x00FF0000, 0x0000FF00,
                                      0x000000FF, 0x0, false,
                                      DataBuffer.TYPE_INT);



            // Create an image with that color model
            BufferedImage tmpSrcBI = new BufferedImage
                (cm, cm.createCompatibleWritableRaster(wr.getWidth(),
                                                       wr.getHeight()),
                 cm.isAlphaPremultiplied(), null);

            // Copy the color data (no alpha) to that image
            // (dividing out alpha if needed).
            GraphicsUtil.copyData(srcBI, tmpSrcBI);

            // org.apache.batik.test.gvt.ImageDisplay.showImage
            //   ("tmpSrcBI: ", tmpSrcBI);

            // Get a linear sRGB Premult ColorModel
            ColorModel dstCM = GraphicsUtil.Linear_sRGB_Unpre;
            // Construct out output image around that ColorModel
            destBI = new BufferedImage
                (dstCM, dstCM.createCompatibleWritableRaster(wr.getWidth(),
                                                             wr.getHeight()),
                 dstCM.isAlphaPremultiplied(), null);

            // Construct another image on the same data buffer but without
            // an alpha channel.

            // Create the Raster (note we are using 'cm' again).
            WritableRaster dstWR =
                Raster.createWritableRaster
                (cm.createCompatibleSampleModel(wr.getWidth(), wr.getHeight()),
                 destBI.getRaster().getDataBuffer(),
                 new Point(0,0));

            // Create the BufferedImage.
            BufferedImage tmpDstBI = new BufferedImage
                (cm, dstWR, cm.isAlphaPremultiplied(), null);

            // Filter between the two image without alpha.
            tmpDstBI = op.filter(tmpSrcBI, tmpDstBI);

            // org.apache.batik.test.gvt.ImageDisplay.showImage
            //   ("tmpDstBI: ", tmpDstBI);

            // Copy the alpha channel into the result (note the color

              0.111f, 0.111f, 0.111f,
              0.111f, 0.111f, 0.111f,
              0.111f, 0.111f, 0.111f,
          };

        BufferedImageOp op = new ConvolveOp( new Kernel(3, 3, matrix) );
        img = op.filter(img, new BufferedImage(320, 240, BufferedImage.TYPE_INT_ARGB));
        return img;
  }

                      0.111f, 0.111f, 0.111f,
                      0.111f, 0.111f, 0.111f,
                      0.111f, 0.111f, 0.111f,
                  };

                BufferedImageOp op = new ConvolveOp( new Kernel(3, 3, matrix) );
                img = op.filter(img, new BufferedImage(320, 240, BufferedImage.TYPE_INT_ARGB));

                int[] argb = img.getRGB(0, 0, 320, 240, null, 0, 320);
                if (mode.equals("calibrate")) {
                  String[] results = oculusImage.findBlobStart(x,y,img.getWidth(), img.getHeight(), argb);
                  autoDock("dockgrabbed calibrate "+results[0]+" "+results[1]+" "+results[2]+" "+results[3]+" "+results[4]+" "+

        if (sharpenLevel == 1) {
            kernel = new Kernel(3, 3, new float[] { -0.25f, -0.5f, -0.25f, -0.5f, 4, -0.5f, -0.25f, -0.5f, -0.25f});
        } else {
            kernel = new Kernel(3, 3, new float[] { -0.5f, -1, -0.5f, -1, 7, -1, -0.5f, -1, -0.5f});
        }
        BufferedImageOp op = new ConvolveOp(kernel, ConvolveOp.EDGE_NO_OP, null);
        return op.filter(tmp, null);
    }

   * @param source image to change
   * @param colorSpace target colorspace
   * @return image with changed colorspace
   */
  public static BufferedImage changeColorSpace(BufferedImage source, ColorSpace colorSpace) {
    BufferedImageOp operation = new ColorConvertOp(colorSpace, null);
    return operation.filter(source, null);
  }