/**
* Extract the ImageLayout from the provided reader for the first available image.
*
* @param reader an istance of {@link ImageReader}
* @throws IOException in case an error occurs
*/
protected void setLayout(ImageReader reader) throws IOException {
Utilities.ensureNonNull("reader", reader);
// save ImageLayout
ImageLayout2 layout = new ImageLayout2();
ImageTypeSpecifier its = reader.getImageTypes(0).next();
layout.setColorModel(its.getColorModel()).setSampleModel(its.getSampleModel());
layout.setMinX(0).setMinY(0).setWidth(reader.getWidth(0)).setHeight(reader.getHeight(0));
layout
.setTileGridXOffset(0)
.setTileGridYOffset(0)
.setTileWidth(reader.getTileWidth(0))
.setTileHeight(reader.getTileHeight(0));
setlayout(layout);
}
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;
}