use of nitf.ImageSource in project imageio-ext by geosolutions-it.
the class NITFImageWriter method writeNITF.
/**
* Do the real write operation (writing images, texts, ...)
*
* @param record
* @param images
* @param shp
* @param fis
* @param text
* @return
* @throws NITFException
* @throws IOException
*/
private boolean writeNITF(final Record record, final List<ImageWrapper> images, final ShapeFileWrapper shp, final FileImageInputStreamExt fis, final List<TextWrapper> texts) throws NITFException, IOException {
final int numImages = images.size();
ImageWrapper image = images.get(0);
RenderedImage ri = image.getImage();
WriteCompression compression = image.getCompression();
int nBands = ri.getSampleModel().getNumBands();
boolean written = false;
Writer writer = new Writer();
IOHandle handle = new IOHandle(outputFile.getCanonicalPath(), IOHandle.NITF_ACCESS_WRITEONLY, IOHandle.NITF_CREATE);
byte[] shapeFileData = null;
final boolean isJP2 = !(compression == WriteCompression.UNCOMPRESSED);
if (shp != null) {
shapeFileData = getShapeData(record, shp);
}
boolean prepared = false;
if (isJP2) {
// //
//
// get the JP2 Codestream previously written with Kakadu and transfer its content within
// the NITF imageSegment
//
// //
WriteHandler codeStream = null;
IOInterface io;
final int size = (int) fis.length();
io = new IOFileInputStream(fis);
writer.prepare(record, handle);
if (shapeFileData != null) {
writeData(shapeFileData, writer);
}
codeStream = new StreamIOWriteHandler(io, 0, size);
writer.setImageWriteHandler(0, codeStream);
prepared = true;
}
if (!isJP2 || numImages > 1) {
if (!prepared) {
writer.prepare(record, handle);
}
if (numImages == 1) {
// setup a Writer
if (shapeFileData != null) {
writeData(shapeFileData, writer);
}
ImageSource imageSource = new ImageSource();
nitf.ImageWriter imageWriter = writer.getNewImageWriter(0);
boolean[] successes = new boolean[nBands];
final boolean isMono = images.get(0).getImage().getSampleModel().getNumBands() == 1;
if (isMono) {
DataBufferByte dbb = (DataBufferByte) ri.getData().getDataBuffer();
BandSource bs = new MemorySource(dbb.getData(), dbb.getSize(), 0, 0, 0);
successes[0] = imageSource.addBand(bs);
} else {
for (int i = 0; i < nBands; i++) {
RenderedImage band = BandSelectDescriptor.create(ri, new int[] { i }, null);
DataBufferByte dbb = (DataBufferByte) band.getData().getDataBuffer();
BandSource bs = new MemorySource(dbb.getData(), dbb.getSize(), 0, 0, 0);
successes[i] = imageSource.addBand(bs);
}
}
imageWriter.attachSource(imageSource);
} else {
ImageWrapper img = images.get(1);
ri = img.getImage();
nBands = ri.getSampleModel().getNumBands();
ImageSource imageSource = new ImageSource();
nitf.ImageWriter imageWriter2 = writer.getNewImageWriter(1);
boolean[] successes = new boolean[nBands];
DataBufferByte dbb = (DataBufferByte) ri.getData().getDataBuffer();
BandSource bs = new MemorySource(dbb.getData(), dbb.getSize(), 0, 0, 0);
successes[0] = imageSource.addBand(bs);
imageWriter2.attachSource(imageSource);
}
}
// Adding text
if (texts != null && !texts.isEmpty()) {
int i = 0;
for (TextWrapper text : texts) {
byte[] textContent = text.getTextContent();
if (textContent != null) {
SegmentWriter textWriter = writer.getNewTextWriter(i++);
SegmentSource source = SegmentSource.makeSegmentMemorySource(textContent, textContent.length, 0, 0);
textWriter.attachSource(source);
}
}
}
written = writer.write();
if (handle != null) {
handle.close();
}
return written;
}
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