private byte[] getROIData(ROI roi, Rectangle rectIMG) { byte[] dataROI; PlanarImage roiIMG = roi.getAsImage(); Rectangle rectROI = roiIMG.getBounds(); // Forcing to component colormodel in order to avoid packed bits ImageWorker w = new ImageWorker(); w.setImage(roiIMG); w.forceComponentColorModel(); RenderedImage img = w.getRenderedImage(); // BufferedImage test = new BufferedImage(rectIMG.width, rectIMG.height, BufferedImage.TYPE_BYTE_GRAY); ImageLayout2 layout = new ImageLayout2(test); layout.setMinX(img.getMinX()); layout.setMinY(img.getMinY()); layout.setWidth(img.getWidth()); layout.setHeight(img.getHeight()); // Lookup byte[] lut = new byte[256]; lut[255] = 1; lut[1] = 1; LookupTableJAI table = new LookupTableJAI(lut); RenderingHints hints = new RenderingHints(JAI.KEY_IMAGE_LAYOUT, layout); RenderedOp transformed = LookupDescriptor.create(img, table, hints); Graphics2D gc2d = null; // Translation parameters in order to position the ROI data correctly in the Raster Space int trX = -rectIMG.x + rectROI.x - rectIMG.x; int trY = -rectIMG.y + rectROI.y - rectIMG.y; try { gc2d = test.createGraphics(); gc2d.drawRenderedImage(transformed, AffineTransform.getTranslateInstance(trX, trY)); } finally { gc2d.dispose(); } Rectangle testRect = new Rectangle(rectIMG.width, rectIMG.height); DataBufferByte dbRoi = (DataBufferByte) test.getData(testRect).getDataBuffer(); dataROI = dbRoi.getData(); // BufferedImage is stored in memory so the planarImage chain before can be disposed ImageUtilities.disposePlanarImageChain(transformed); // Flush of the BufferedImage test.flush(); return dataROI; }
/** * Returns the specified property. * * @param name Property name. * @param opNode Operation node. */ public Object getProperty(String name, Object opNode) { validate(name, opNode); if (opNode instanceof RenderedOp && name.equalsIgnoreCase("roi")) { RenderedOp op = (RenderedOp) opNode; ParameterBlock pb = op.getParameterBlock(); // Retrieve the rendered source image and its ROI. RenderedImage src = pb.getRenderedSource(0); Object property = src.getProperty("ROI"); if (property == null || property.equals(java.awt.Image.UndefinedProperty) || !(property instanceof ROI)) { return java.awt.Image.UndefinedProperty; } // Return undefined also if source ROI is empty. ROI srcROI = (ROI) property; if (srcROI.getBounds().isEmpty()) { return java.awt.Image.UndefinedProperty; } // Retrieve the Interpolation object. Interpolation interp = (Interpolation) pb.getObjectParameter(1); // Determine the effective source bounds. Rectangle srcBounds = null; PlanarImage dst = op.getRendering(); if (dst instanceof GeometricOpImage && ((GeometricOpImage) dst).getBorderExtender() == null) { srcBounds = new Rectangle( src.getMinX() + interp.getLeftPadding(), src.getMinY() + interp.getTopPadding(), src.getWidth() - interp.getWidth() + 1, src.getHeight() - interp.getHeight() + 1); } else { srcBounds = new Rectangle(src.getMinX(), src.getMinY(), src.getWidth(), src.getHeight()); } // If necessary, clip the ROI to the effective source bounds. if (!srcBounds.contains(srcROI.getBounds())) { srcROI = srcROI.intersect(new ROIShape(srcBounds)); } // Retrieve the Warp object. Warp warp = (Warp) pb.getObjectParameter(0); // Setting constant image to be warped as a ROI Rectangle dstBounds = op.getBounds(); // Setting layout of the constant image ImageLayout2 layout = new ImageLayout2(); int minx = (int) srcBounds.getMinX(); int miny = (int) srcBounds.getMinY(); int w = (int) srcBounds.getWidth(); int h = (int) srcBounds.getHeight(); layout.setMinX(minx); layout.setMinY(miny); layout.setWidth(w); layout.setHeight(h); RenderingHints hints = op.getRenderingHints(); hints.add(new RenderingHints(JAI.KEY_IMAGE_LAYOUT, layout)); final PlanarImage constantImage = ConstantDescriptor.create(new Float(w), new Float(h), new Byte[] {(byte) 255}, hints); PlanarImage roiImage = null; // Make sure to specify tileCache, tileScheduler, tileRecyclier, by cloning hints. RenderingHints warpingHints = op.getRenderingHints(); warpingHints.remove(JAI.KEY_IMAGE_LAYOUT); // Creating warped roi by the same way (Warp, Interpolation, source ROI) we warped the // input image. final ParameterBlock paramBlk = new ParameterBlock(); paramBlk.addSource(constantImage); paramBlk.add(warp); paramBlk.add(interp); paramBlk.add(null); paramBlk.add(srcROI); // force in the image layout, this way we get exactly the same // as the affine we're eliminating Hints localHints = new Hints(op.getRenderingHints()); localHints.remove(JAI.KEY_IMAGE_LAYOUT); ImageLayout il = new ImageLayout(); il.setMinX(dstBounds.x); il.setMinY(dstBounds.y); il.setWidth(dstBounds.width); il.setHeight(dstBounds.height); localHints.put(JAI.KEY_IMAGE_LAYOUT, il); roiImage = JAI.create("Warp", paramBlk, localHints); ROI dstROI = new ROI(roiImage, 1); // If necessary, clip the warped ROI to the destination bounds. if (!dstBounds.contains(dstROI.getBounds())) { dstROI = dstROI.intersect(new ROIShape(dstBounds)); } // Return the warped and possibly clipped ROI. return dstROI; } return java.awt.Image.UndefinedProperty; }