int numBands = getNumBands(); byteLookupTable = new byte[numBands][256]; for (int b = 0; b < numBands; b++) {
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
null, warp, interp, srcROI,null, null); } else { roiImage = new WarpNearestOpImage(constantImage, warpingHints, null, warp, interp, srcROI,null, null);
null, warp, interp, srcROI,null, null); } else { roiImage = new WarpNearestOpImage(constantImage, warpingHints, null, warp, interp, srcROI,null, null);
ROI roi = new ROI(roiSource); RenderedImage warpImage = new WarpNearestOpImage(source, null, null, new WarpAffine(new AffineTransform()), Interpolation.getInstance(Interpolation.INTERP_NEAREST), roi, null, new double[] { backgroundValue });
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
int numBands = getNumBands(); byteLookupTable = new byte[numBands][256]; for (int b = 0; b < numBands; b++) {
noData = RangeFactory.convert(noData, source.getSampleModel().getDataType()); if (interp instanceof InterpolationNearest || interp instanceof javax.media.jai.InterpolationNearest) { return new WarpNearestOpImage(source, renderHints, layout, warp, interp, roi, noData, backgroundValues); } else if (interp instanceof InterpolationBilinear || interp instanceof javax.media.jai.InterpolationBilinear) { return new WarpBilinearOpImage(source, extender, renderHints, layout, warp, interp, roi, noData, backgroundValues);
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
noData = RangeFactory.convert(noData, source.getSampleModel().getDataType()); if (interp instanceof InterpolationNearest || interp instanceof javax.media.jai.InterpolationNearest) { return new WarpNearestOpImage(source, renderHints, layout, warp, interp, roi, noData, backgroundValues); } else if (interp instanceof InterpolationBilinear || interp instanceof javax.media.jai.InterpolationBilinear) { return new WarpBilinearOpImage(source, extender, renderHints, layout, warp, interp, roi, noData, backgroundValues);
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);
final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]); final int sx = round(warpData[count++]); final int sy = round(warpData[count++]);