Examples of java.awt.image.BandCombineOp

• java.awt.image.BandCombineOp
  This class performs an arbitrary linear combination of the bands in a Raster, using a specified matrix.

  The width of the matrix must be equal to the number of bands in the source Raster, optionally plus one. If there is one more column in the matrix than the number of bands, there is an implied 1 at the end of the vector of band samples representing a pixel. The height of the matrix must be equal to the number of bands in the destination.

  For example, a 3-banded Raster might have the following transformation applied to each pixel in order to invert the second band of the Raster.

   [ 1.0   0.0   0.0    0.0  ]     [ b1 ]     [ 0.0  -1.0   0.0  255.0  ]  x  [ b2 ] [ 0.0   0.0   1.0    0.0  ]     [ b3 ] [ 1 ] 

  Note that the source and destination can be the same object. @version 10 Feb 1997

                matrix[3][3] = 1; // Alpha
                break;
            }

            Raster srcRas = src.getData(wr.getBounds());
            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
        } else {
            ColorModel dstCM = getColorModel();
            BufferedImage dstBI;

            if (!dstCM.hasAlpha()) {
                // No alpha ao we don't have to work around the bug
                // in the color convert op.
                dstBI = new BufferedImage
                    (dstCM, wr.createWritableTranslatedChild(0,0),
                     dstCM.isAlphaPremultiplied(), null);
            } else {
                // All this nonsense is to work around the fact that
                // the Color convert op doesn't properly copy the
                // Alpha from src to dst.
                SinglePixelPackedSampleModel dstSM;
                dstSM = (SinglePixelPackedSampleModel)wr.getSampleModel();
                int [] masks = dstSM.getBitMasks();
                SampleModel dstSMNoA = new SinglePixelPackedSampleModel
                    (dstSM.getDataType(), dstSM.getWidth(), dstSM.getHeight(),
                     dstSM.getScanlineStride(),
                     new int[] {masks[0], masks[1], masks[2]});
                ColorModel dstCMNoA = GraphicsUtil.Linear_sRGB;

                WritableRaster dstWr;
                dstWr = Raster.createWritableRaster(dstSMNoA,
                                                    wr.getDataBuffer(),
                                                    new Point(0,0));
                dstWr = dstWr.createWritableChild
                    (wr.getMinX()-wr.getSampleModelTranslateX(),
                     wr.getMinY()-wr.getSampleModelTranslateY(),
                     wr.getWidth(), wr.getHeight(),
                     0, 0, null);

                dstBI = new BufferedImage(dstCMNoA, dstWr, false, null);
            }

            // Divide out alpha if we have it.  We need to do this since
            // the color convert may not be a linear operation which may
            // lead to out of range values.
            ColorModel srcBICM = srcCM;
            WritableRaster srcWr;
            if ((srcCM.hasAlpha() == true) &&
                (srcCM.isAlphaPremultiplied() != false)) {
                Rectangle wrR = wr.getBounds();
                SampleModel sm = srcCM.createCompatibleSampleModel
                    (wrR.width, wrR.height);

                srcWr = Raster.createWritableRaster
                    (sm, new Point(wrR.x, wrR.y));
                src.copyData(srcWr);
                srcBICM = GraphicsUtil.coerceData(srcWr, srcCM, false);
            } else {
                Raster srcRas = src.getData(wr.getBounds());
                srcWr = GraphicsUtil.makeRasterWritable(srcRas);
            }

            BufferedImage srcBI;
            srcBI = new BufferedImage(srcBICM,
                                      srcWr.createWritableTranslatedChild(0,0),
                                      false,
                                      null);

            /*
             * System.out.println("src: " + srcBI.getWidth() + "x" +
             *                    srcBI.getHeight());
             * System.out.println("dst: " + dstBI.getWidth() + "x" +
             *                    dstBI.getHeight());
             */

            ColorConvertOp op = new ColorConvertOp(null);
            op.filter(srcBI, dstBI);

            if (dstCM.hasAlpha())
                copyBand(srcWr, srcSM.getNumBands()-1,
                         wr,    getSampleModel().getNumBands()-1);
        }

                matrix[3][3] = 1; // Alpha
                break;
            }

            Raster srcRas = src.getData(wr.getBounds());
            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
        } else {
            ColorModel dstCM = getColorModel();
            BufferedImage dstBI;

            if (!dstCM.hasAlpha()) {
                // No alpha ao we don't have to work around the bug
                // in the color convert op.
                dstBI = new BufferedImage
                    (dstCM, wr.createWritableTranslatedChild(0,0),
                     dstCM.isAlphaPremultiplied(), null);
            } else {
                // All this nonsense is to work around the fact that
                // the Color convert op doesn't properly copy the
                // Alpha from src to dst.
                SinglePixelPackedSampleModel dstSM;
                dstSM = (SinglePixelPackedSampleModel)wr.getSampleModel();
                int [] masks = dstSM.getBitMasks();
                SampleModel dstSMNoA = new SinglePixelPackedSampleModel
                    (dstSM.getDataType(), dstSM.getWidth(), dstSM.getHeight(),
                     dstSM.getScanlineStride(),
                     new int[] {masks[0], masks[1], masks[2]});
                ColorModel dstCMNoA = GraphicsUtil.Linear_sRGB;

                WritableRaster dstWr;
                dstWr = Raster.createWritableRaster(dstSMNoA,
                                                    wr.getDataBuffer(),
                                                    new Point(0,0));
                dstWr = dstWr.createWritableChild
                    (wr.getMinX()-wr.getSampleModelTranslateX(),
                     wr.getMinY()-wr.getSampleModelTranslateY(),
                     wr.getWidth(), wr.getHeight(),
                     0, 0, null);

                dstBI = new BufferedImage(dstCMNoA, dstWr, false, null);
            }

            // Divide out alpha if we have it.  We need to do this since
            // the color convert may not be a linear operation which may
            // lead to out of range values.
            ColorModel srcBICM = srcCM;
            WritableRaster srcWr;
            if ( srcCM.hasAlpha() && srcCM.isAlphaPremultiplied() ) {
                Rectangle wrR = wr.getBounds();
                SampleModel sm = srcCM.createCompatibleSampleModel
                    (wrR.width, wrR.height);

                srcWr = Raster.createWritableRaster
                    (sm, new Point(wrR.x, wrR.y));
                src.copyData(srcWr);
                srcBICM = GraphicsUtil.coerceData(srcWr, srcCM, false);
            } else {
                Raster srcRas = src.getData(wr.getBounds());
                srcWr = GraphicsUtil.makeRasterWritable(srcRas);
            }

            BufferedImage srcBI;
            srcBI = new BufferedImage(srcBICM,
                                      srcWr.createWritableTranslatedChild(0,0),
                                      false,
                                      null);

            /*
             * System.out.println("src: " + srcBI.getWidth() + "x" +
             *                    srcBI.getHeight());
             * System.out.println("dst: " + dstBI.getWidth() + "x" +
             *                    dstBI.getHeight());
             */

            ColorConvertOp op = new ColorConvertOp(null);
            op.filter(srcBI, dstBI);

            if (dstCM.hasAlpha())
                copyBand(srcWr, srcSM.getNumBands()-1,
                         wr,    getSampleModel().getNumBands()-1);
        }

                matrix[2][2] = 1; // Blu
                matrix[3][3] = 1; // Alpha
                break;
            }
            Raster srcRas = src.getData(wr.getBounds());
            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
            return wr;
        }

        if (srcCM.getColorSpace() ==
            ColorSpace.getInstance(ColorSpace.CS_GRAY)) {

            // This is a little bit of a hack.  There is only
            // a linear grayscale ICC profile in the JDK so
            // many things use this when the data _really_
            // has sRGB gamma applied.
            try {
            float [][] matrix = null;
            switch (srcSM.getNumBands()) {
            case 1:
                matrix = new float[3][1];
                matrix[0][0] = 1; // Red
                matrix[1][0] = 1; // Grn
                matrix[2][0] = 1; // Blu
                break;
            case 2:
            default:
                matrix = new float[4][2];
                matrix[0][0] = 1; // Red
                matrix[1][0] = 1; // Grn
                matrix[3][0] = 1; // Blu
                matrix[4][1] = 1; // Alpha
                break;
            }
            Raster srcRas = src.getData(wr.getBounds());
            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
            } catch (Throwable t) {
                t.printStackTrace();
            }
            return wr;
        }

        ColorModel dstCM = getColorModel();
        if (srcCM.getColorSpace() == dstCM.getColorSpace()) {
            // No transform needed, just reformat data...
            // System.out.println("Bypassing");

            if (is_INT_PACK_COMP(srcSM))
                src.copyData(wr);
            else
                GraphicsUtil.copyData(src.getData(wr.getBounds()), wr);

            return wr;
        }

        Raster srcRas = src.getData(wr.getBounds());
        WritableRaster srcWr  = (WritableRaster)srcRas;

        // Divide out alpha if we have it.  We need to do this since
        // the color convert may not be a linear operation which may
        // lead to out of range values.
        ColorModel srcBICM = srcCM;
        if (srcCM.hasAlpha())
            srcBICM = GraphicsUtil.coerceData(srcWr, srcCM, false);

        BufferedImage srcBI, dstBI;
        srcBI = new BufferedImage(srcBICM,
                                  srcWr.createWritableTranslatedChild(0,0),
                                  false,
                                  null);

        // System.out.println("src: " + srcBI.getWidth() + "x" +
        //                    srcBI.getHeight());

        ColorConvertOp op = new ColorConvertOp(dstCM.getColorSpace(),
                                               null);
        dstBI = op.filter(srcBI, null);

        // System.out.println("After filter:");

        WritableRaster wr00 = wr.createWritableTranslatedChild(0,0);
        for (int i=0; i<dstCM.getColorSpace().getNumComponents(); i++)

            } else {
                matrix = new float[sm.getNumBands()][1];
                matrix[0][0] = 1;
            }

            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
        } else {
            WritableRaster srcWr  = (WritableRaster)srcRas;

            // Divide out alpha if we have it.  We need to do this since
            // the color convert may not be a linear operation which may
            // lead to out of range values.
            if (srcCM.hasAlpha())
                GraphicsUtil.coerceData(srcWr, srcCM, false);

            BufferedImage srcBI, dstBI;
            srcBI = new BufferedImage(srcCM,
                                      srcWr.createWritableTranslatedChild(0,0),
                                      false,
                                      null);
            ColorModel dstCM = getColorModel();
            if (!dstCM.hasAlpha()) {
                // No alpha ao we don't have to work around the bug
                // in the color convert op.
                dstBI = new BufferedImage
                    (dstCM, wr.createWritableTranslatedChild(0,0),
                     dstCM.isAlphaPremultiplied(), null);
            } else {
                // All this nonsense is to work around the fact that the
                // Color convert op doesn't properly copy the Alpha from
                // src to dst.
                PixelInterleavedSampleModel dstSM;
                dstSM = (PixelInterleavedSampleModel)wr.getSampleModel();
                SampleModel smna = new PixelInterleavedSampleModel
                    (dstSM.getDataType(),
                     dstSM.getWidth(),       dstSM.getHeight(),
                     dstSM.getPixelStride(), dstSM.getScanlineStride(),
                     new int [] { 0 });

                WritableRaster dstWr;
                dstWr = Raster.createWritableRaster(smna,
                                                    wr.getDataBuffer(),
                                                    new Point(0,0));
                dstWr = dstWr.createWritableChild
                    (wr.getMinX()-wr.getSampleModelTranslateX(),
                     wr.getMinY()-wr.getSampleModelTranslateY(),
                     wr.getWidth(), wr.getHeight(),
                     0, 0, null);

                ColorModel cmna = new ComponentColorModel
                    (ColorSpace.getInstance(ColorSpace.CS_GRAY),
                     new int [] {8}, false, false,
                     Transparency.OPAQUE,
                     DataBuffer.TYPE_BYTE);

                dstBI = new BufferedImage(cmna, dstWr, false, null);
            }

            ColorConvertOp op = new ColorConvertOp(null);
            op.filter(srcBI, dstBI);

            // Have to 'fix' alpha premult
            if (dstCM.hasAlpha()) {
                copyBand(srcWr, sm.getNumBands()-1,
                         wr,    getSampleModel().getNumBands()-1);

                matrix[3][3] = 1; // Alpha
                break;
            }

            Raster srcRas = src.getData(wr.getBounds());
            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
        } else {
            ColorModel dstCM = getColorModel();
            BufferedImage dstBI;

            if (!dstCM.hasAlpha()) {
                // No alpha ao we don't have to work around the bug
                // in the color convert op.
                dstBI = new BufferedImage
                    (dstCM, wr.createWritableTranslatedChild(0,0),
                     dstCM.isAlphaPremultiplied(), null);
            } else {
                // All this nonsense is to work around the fact that
                // the Color convert op doesn't properly copy the
                // Alpha from src to dst.
                SinglePixelPackedSampleModel dstSM;
                dstSM = (SinglePixelPackedSampleModel)wr.getSampleModel();
                int [] masks = dstSM.getBitMasks();
                SampleModel dstSMNoA = new SinglePixelPackedSampleModel
                    (dstSM.getDataType(), dstSM.getWidth(), dstSM.getHeight(),
                     dstSM.getScanlineStride(),
                     new int[] {masks[0], masks[1], masks[2]});
                ColorModel dstCMNoA = GraphicsUtil.Linear_sRGB;

                WritableRaster dstWr;
                dstWr = Raster.createWritableRaster(dstSMNoA,
                                                    wr.getDataBuffer(),
                                                    new Point(0,0));
                dstWr = dstWr.createWritableChild
                    (wr.getMinX()-wr.getSampleModelTranslateX(),
                     wr.getMinY()-wr.getSampleModelTranslateY(),
                     wr.getWidth(), wr.getHeight(),
                     0, 0, null);

                dstBI = new BufferedImage(dstCMNoA, dstWr, false, null);
            }

            // Divide out alpha if we have it.  We need to do this since
            // the color convert may not be a linear operation which may
            // lead to out of range values.
            ColorModel srcBICM = srcCM;
            WritableRaster srcWr;
            if ( srcCM.hasAlpha() && srcCM.isAlphaPremultiplied() ) {
                Rectangle wrR = wr.getBounds();
                SampleModel sm = srcCM.createCompatibleSampleModel
                    (wrR.width, wrR.height);

                srcWr = Raster.createWritableRaster
                    (sm, new Point(wrR.x, wrR.y));
                src.copyData(srcWr);
                srcBICM = GraphicsUtil.coerceData(srcWr, srcCM, false);
            } else {
                Raster srcRas = src.getData(wr.getBounds());
                srcWr = GraphicsUtil.makeRasterWritable(srcRas);
            }

            BufferedImage srcBI;
            srcBI = new BufferedImage(srcBICM,
                                      srcWr.createWritableTranslatedChild(0,0),
                                      false,
                                      null);

            /*
             * System.out.println("src: " + srcBI.getWidth() + "x" +
             *                    srcBI.getHeight());
             * System.out.println("dst: " + dstBI.getWidth() + "x" +
             *                    dstBI.getHeight());
             */

            ColorConvertOp op = new ColorConvertOp(null);
            op.filter(srcBI, dstBI);

            if (dstCM.hasAlpha())
                copyBand(srcWr, srcSM.getNumBands()-1,
                         wr,    getSampleModel().getNumBands()-1);
        }

                matrix[2][2] = 1; // Blu
                matrix[3][3] = 1; // Alpha
                break;
            }
            Raster srcRas = src.getData(wr.getBounds());
            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
            return wr;
        }

        if (srcCM.getColorSpace() ==
            ColorSpace.getInstance(ColorSpace.CS_GRAY)) {

            // This is a little bit of a hack.  There is only
            // a linear grayscale ICC profile in the JDK so
            // many things use this when the data _really_
            // has sRGB gamma applied.
            try {
            float [][] matrix = null;
            switch (srcSM.getNumBands()) {
            case 1:
                matrix = new float[3][1];
                matrix[0][0] = 1; // Red
                matrix[1][0] = 1; // Grn
                matrix[2][0] = 1; // Blu
                break;
            case 2:
            default:
                matrix = new float[4][2];
                matrix[0][0] = 1; // Red
                matrix[1][0] = 1; // Grn
                matrix[3][0] = 1; // Blu
                matrix[4][1] = 1; // Alpha
                break;
            }
            Raster srcRas = src.getData(wr.getBounds());
            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
            } catch (Throwable t) {
                t.printStackTrace();
            }
            return wr;
        }

        ColorModel dstCM = getColorModel();
        if (srcCM.getColorSpace() == dstCM.getColorSpace()) {
            // No transform needed, just reformat data...
            // System.out.println("Bypassing");

            if (is_INT_PACK_COMP(srcSM))
                src.copyData(wr);
            else
                GraphicsUtil.copyData(src.getData(wr.getBounds()), wr);

            return wr;
        }

        Raster srcRas = src.getData(wr.getBounds());
        WritableRaster srcWr  = (WritableRaster)srcRas;

        // Divide out alpha if we have it.  We need to do this since
        // the color convert may not be a linear operation which may
        // lead to out of range values.
        ColorModel srcBICM = srcCM;
        if (srcCM.hasAlpha())
            srcBICM = GraphicsUtil.coerceData(srcWr, srcCM, false);

        BufferedImage srcBI, dstBI;
        srcBI = new BufferedImage(srcBICM,
                                  srcWr.createWritableTranslatedChild(0,0),
                                  false,
                                  null);

        // System.out.println("src: " + srcBI.getWidth() + "x" +
        //                    srcBI.getHeight());

        ColorConvertOp op = new ColorConvertOp(dstCM.getColorSpace(),
                                               null);
        dstBI = op.filter(srcBI, null);

        // System.out.println("After filter:");

        WritableRaster wr00 = wr.createWritableTranslatedChild(0,0);
        for (int i=0; i<dstCM.getColorSpace().getNumComponents(); i++)

                matrix[2][2] = 1; // Blu
                matrix[3][3] = 1; // Alpha
                break;
            }
            Raster srcRas = src.getData(wr.getBounds());
            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
        } else {
            ColorModel dstCM = getColorModel();
            if (srcCM.getColorSpace() == dstCM.getColorSpace()) {
                // No transform needed, just reformat data...
                // System.out.println("Bypassing");

                if (is_INT_PACK_COMP(srcSM))
                    src.copyData(wr);
                else
                    GraphicsUtil.copyData(src.getData(wr.getBounds()), wr);

                return wr;
            }

            Raster srcRas = src.getData(wr.getBounds());
            WritableRaster srcWr  = (WritableRaster)srcRas;

            // Divide out alpha if we have it.  We need to do this since
            // the color convert may not be a linear operation which may
            // lead to out of range values.
            ColorModel srcBICM = srcCM;
            if (srcCM.hasAlpha())
                srcBICM = GraphicsUtil.coerceData(srcWr, srcCM, false);

            BufferedImage srcBI, dstBI;
            srcBI = new BufferedImage(srcBICM,
                                      srcWr.createWritableTranslatedChild(0,0),
                                      false,
                                      null);

            // System.out.println("src: " + srcBI.getWidth() + "x" +
            //                    srcBI.getHeight());

            ColorConvertOp op = new ColorConvertOp(dstCM.getColorSpace(),
                                                   null);
            dstBI = op.filter(srcBI, null);

            // System.out.println("After filter:");

            WritableRaster wr00 = wr.createWritableTranslatedChild(0,0);
            for (int i=0; i<dstCM.getColorSpace().getNumComponents(); i++)

            } else {
                matrix = new float[sm.getNumBands()][1];
                matrix[0][0] = 1;
            }

            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
        } else {
            WritableRaster srcWr  = (WritableRaster)srcRas;

            // Divide out alpha if we have it.  We need to do this since
            // the color convert may not be a linear operation which may
            // lead to out of range values.
            if (srcCM.hasAlpha())
                GraphicsUtil.coerceData(srcWr, srcCM, false);

            BufferedImage srcBI, dstBI;
            srcBI = new BufferedImage(srcCM,
                                      srcWr.createWritableTranslatedChild(0,0),
                                      false,
                                      null);
            ColorModel dstCM = getColorModel();
            if (!dstCM.hasAlpha()) {
                // No alpha ao we don't have to work around the bug
                // in the color convert op.
                dstBI = new BufferedImage
                    (dstCM, wr.createWritableTranslatedChild(0,0),
                     dstCM.isAlphaPremultiplied(), null);
            } else {
                // All this nonsense is to work around the fact that the
                // Color convert op doesn't properly copy the Alpha from
                // src to dst.
                PixelInterleavedSampleModel dstSM;
                dstSM = (PixelInterleavedSampleModel)wr.getSampleModel();
                SampleModel smna = new PixelInterleavedSampleModel
                    (dstSM.getDataType(),
                     dstSM.getWidth(),       dstSM.getHeight(),
                     dstSM.getPixelStride(), dstSM.getScanlineStride(),
                     new int [] { 0 });

                WritableRaster dstWr;
                dstWr = Raster.createWritableRaster(smna,
                                                    wr.getDataBuffer(),
                                                    new Point(0,0));
                dstWr = dstWr.createWritableChild
                    (wr.getMinX()-wr.getSampleModelTranslateX(),
                     wr.getMinY()-wr.getSampleModelTranslateY(),
                     wr.getWidth(), wr.getHeight(),
                     0, 0, null);

                ColorModel cmna = new ComponentColorModel
                    (ColorSpace.getInstance(ColorSpace.CS_GRAY),
                     new int [] {8}, false, false,
                     Transparency.OPAQUE,
                     DataBuffer.TYPE_BYTE);

                dstBI = new BufferedImage(cmna, dstWr, false, null);
            }

            ColorConvertOp op = new ColorConvertOp(null);
            op.filter(srcBI, dstBI);

            // Have to 'fix' alpha premult
            if (dstCM.hasAlpha()) {
                copyBand(srcWr, sm.getNumBands()-1,
                         wr,    getSampleModel().getNumBands()-1);

                matrix[3][3] = 1; // Alpha
                break;
            }

            Raster srcRas = src.getData(wr.getBounds());
            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
        } else {
            ColorModel dstCM = getColorModel();
            BufferedImage dstBI;

            if (!dstCM.hasAlpha()) {
                // No alpha ao we don't have to work around the bug
                // in the color convert op.
                dstBI = new BufferedImage
                    (dstCM, wr.createWritableTranslatedChild(0,0),
                     dstCM.isAlphaPremultiplied(), null);
            } else {
                // All this nonsense is to work around the fact that
                // the Color convert op doesn't properly copy the
                // Alpha from src to dst.
                SinglePixelPackedSampleModel dstSM;
                dstSM = (SinglePixelPackedSampleModel)wr.getSampleModel();
                int [] masks = dstSM.getBitMasks();
                SampleModel dstSMNoA = new SinglePixelPackedSampleModel
                    (dstSM.getDataType(), dstSM.getWidth(), dstSM.getHeight(),
                     dstSM.getScanlineStride(),
                     new int[] {masks[0], masks[1], masks[2]});
                ColorModel dstCMNoA = GraphicsUtil.Linear_sRGB;

                WritableRaster dstWr;
                dstWr = Raster.createWritableRaster(dstSMNoA,
                                                    wr.getDataBuffer(),
                                                    new Point(0,0));
                dstWr = dstWr.createWritableChild
                    (wr.getMinX()-wr.getSampleModelTranslateX(),
                     wr.getMinY()-wr.getSampleModelTranslateY(),
                     wr.getWidth(), wr.getHeight(),
                     0, 0, null);

                dstBI = new BufferedImage(dstCMNoA, dstWr, false, null);
            }

            // Divide out alpha if we have it.  We need to do this since
            // the color convert may not be a linear operation which may
            // lead to out of range values.
            ColorModel srcBICM = srcCM;
            WritableRaster srcWr;
            if ((srcCM.hasAlpha() == true) &&
                (srcCM.isAlphaPremultiplied() != false)) {
                Rectangle wrR = wr.getBounds();
                SampleModel sm = srcCM.createCompatibleSampleModel
                    (wrR.width, wrR.height);

                srcWr = Raster.createWritableRaster
                    (sm, new Point(wrR.x, wrR.y));
                src.copyData(srcWr);
                srcBICM = GraphicsUtil.coerceData(srcWr, srcCM, false);
            } else {
                Raster srcRas = src.getData(wr.getBounds());
                srcWr = GraphicsUtil.makeRasterWritable(srcRas);
            }

            BufferedImage srcBI;
            srcBI = new BufferedImage(srcBICM,
                                      srcWr.createWritableTranslatedChild(0,0),
                                      false,
                                      null);

            /*
             * System.out.println("src: " + srcBI.getWidth() + "x" +
             *                    srcBI.getHeight());
             * System.out.println("dst: " + dstBI.getWidth() + "x" +
             *                    dstBI.getHeight());
             */

            ColorConvertOp op = new ColorConvertOp(null);
            op.filter(srcBI, dstBI);

            if (dstCM.hasAlpha())
                copyBand(srcWr, srcSM.getNumBands()-1,
                         wr,    getSampleModel().getNumBands()-1);
        }

                matrix[3][3] = 1; // Alpha
                break;
            }

            Raster srcRas = src.getData(wr.getBounds());
            BandCombineOp op = new BandCombineOp(matrix, null);
            op.filter(srcRas, wr);
        } else {
            ColorModel dstCM = getColorModel();
            BufferedImage dstBI;

            if (!dstCM.hasAlpha()) {
                // No alpha ao we don't have to work around the bug
                // in the color convert op.
                dstBI = new BufferedImage
                    (dstCM, wr.createWritableTranslatedChild(0,0),
                     dstCM.isAlphaPremultiplied(), null);
            } else {
                // All this nonsense is to work around the fact that
                // the Color convert op doesn't properly copy the
                // Alpha from src to dst.
                SinglePixelPackedSampleModel dstSM;
                dstSM = (SinglePixelPackedSampleModel)wr.getSampleModel();
                int [] masks = dstSM.getBitMasks();
                SampleModel dstSMNoA = new SinglePixelPackedSampleModel
                    (dstSM.getDataType(), dstSM.getWidth(), dstSM.getHeight(),
                     dstSM.getScanlineStride(),
                     new int[] {masks[0], masks[1], masks[2]});
                ColorModel dstCMNoA = GraphicsUtil.Linear_sRGB;

                WritableRaster dstWr;
                dstWr = Raster.createWritableRaster(dstSMNoA,
                                                    wr.getDataBuffer(),
                                                    new Point(0,0));
                dstWr = dstWr.createWritableChild
                    (wr.getMinX()-wr.getSampleModelTranslateX(),
                     wr.getMinY()-wr.getSampleModelTranslateY(),
                     wr.getWidth(), wr.getHeight(),
                     0, 0, null);

                dstBI = new BufferedImage(dstCMNoA, dstWr, false, null);
            }

            // Divide out alpha if we have it.  We need to do this since
            // the color convert may not be a linear operation which may
            // lead to out of range values.
            ColorModel srcBICM = srcCM;
            WritableRaster srcWr;
            if ( srcCM.hasAlpha() && srcCM.isAlphaPremultiplied() ) {
                Rectangle wrR = wr.getBounds();
                SampleModel sm = srcCM.createCompatibleSampleModel
                    (wrR.width, wrR.height);

                srcWr = Raster.createWritableRaster
                    (sm, new Point(wrR.x, wrR.y));
                src.copyData(srcWr);
                srcBICM = GraphicsUtil.coerceData(srcWr, srcCM, false);
            } else {
                Raster srcRas = src.getData(wr.getBounds());
                srcWr = GraphicsUtil.makeRasterWritable(srcRas);
            }

            BufferedImage srcBI;
            srcBI = new BufferedImage(srcBICM,
                                      srcWr.createWritableTranslatedChild(0,0),
                                      false,
                                      null);

            /*
             * System.out.println("src: " + srcBI.getWidth() + "x" +
             *                    srcBI.getHeight());
             * System.out.println("dst: " + dstBI.getWidth() + "x" +
             *                    dstBI.getHeight());
             */

            ColorConvertOp op = new ColorConvertOp(null);
            op.filter(srcBI, dstBI);

            if (dstCM.hasAlpha())
                copyBand(srcWr, srcSM.getNumBands()-1,
                         wr,    getSampleModel().getNumBands()-1);
        }