@Override public ImageTypeSpecifier getRawImageType(final int imageIndex) throws IOException { checkBounds(imageIndex); readHeader(); int channels = header.getChannels(); int paletteInfo = header.getPaletteInfo(); ColorSpace cs = paletteInfo == PCX.PALETTEINFO_GRAY ? ColorSpace.getInstance(ColorSpace.CS_GRAY) : ColorSpace.getInstance(ColorSpace.CS_sRGB); switch (header.getBitsPerPixel()) { case 1: case 2: case 4: return ImageTypeSpecifiers.createFromIndexColorModel(header.getEGAPalette()); case 8: // We may have IndexColorModel here for 1 channel images if (channels == 1 && paletteInfo != PCX.PALETTEINFO_GRAY) { IndexColorModel palette = getVGAPalette(); if (palette == null) { throw new IIOException("Expected VGA palette not found"); } return ImageTypeSpecifiers.createFromIndexColorModel(palette); } // PCX has 1 or 3 channels for 8 bit gray or 24 bit RGB, will be validated by // ImageTypeSpecifier return ImageTypeSpecifiers.createBanded( cs, createIndices(channels, 1), createIndices(channels, 0), DataBuffer.TYPE_BYTE, false, false); case 24: // Some sources says this is possible... return ImageTypeSpecifiers.createFromBufferedImageType(BufferedImage.TYPE_3BYTE_BGR); case 32: // Some sources says this is possible... return ImageTypeSpecifiers.createFromBufferedImageType(BufferedImage.TYPE_4BYTE_ABGR); default: throw new IIOException("Unknown number of bytes per pixel: " + header.getBitsPerPixel()); } }
public final class PCXImageReader extends ImageReaderBase { /** 8 bit ImageTypeSpecifer used for reading bitplane images. */ private static final ImageTypeSpecifier GRAYSCALE = ImageTypeSpecifiers.createGrayscale(8, DataBuffer.TYPE_BYTE); private PCXHeader header; private boolean readPalette; private IndexColorModel vgaPalette; public PCXImageReader(final ImageReaderSpi provider) { super(provider); } @Override protected void resetMembers() { header = null; readPalette = false; vgaPalette = null; } @Override public int getWidth(final int imageIndex) throws IOException { checkBounds(imageIndex); readHeader(); return header.getWidth(); } @Override public int getHeight(final int imageIndex) throws IOException { checkBounds(imageIndex); readHeader(); return header.getHeight(); } @Override public Iterator<ImageTypeSpecifier> getImageTypes(final int imageIndex) throws IOException { ImageTypeSpecifier rawType = getRawImageType(imageIndex); List<ImageTypeSpecifier> specifiers = new ArrayList<ImageTypeSpecifier>(); // TODO: Implement specifiers.add(rawType); return specifiers.iterator(); } @Override public ImageTypeSpecifier getRawImageType(final int imageIndex) throws IOException { checkBounds(imageIndex); readHeader(); int channels = header.getChannels(); int paletteInfo = header.getPaletteInfo(); ColorSpace cs = paletteInfo == PCX.PALETTEINFO_GRAY ? ColorSpace.getInstance(ColorSpace.CS_GRAY) : ColorSpace.getInstance(ColorSpace.CS_sRGB); switch (header.getBitsPerPixel()) { case 1: case 2: case 4: return ImageTypeSpecifiers.createFromIndexColorModel(header.getEGAPalette()); case 8: // We may have IndexColorModel here for 1 channel images if (channels == 1 && paletteInfo != PCX.PALETTEINFO_GRAY) { IndexColorModel palette = getVGAPalette(); if (palette == null) { throw new IIOException("Expected VGA palette not found"); } return ImageTypeSpecifiers.createFromIndexColorModel(palette); } // PCX has 1 or 3 channels for 8 bit gray or 24 bit RGB, will be validated by // ImageTypeSpecifier return ImageTypeSpecifiers.createBanded( cs, createIndices(channels, 1), createIndices(channels, 0), DataBuffer.TYPE_BYTE, false, false); case 24: // Some sources says this is possible... return ImageTypeSpecifiers.createFromBufferedImageType(BufferedImage.TYPE_3BYTE_BGR); case 32: // Some sources says this is possible... return ImageTypeSpecifiers.createFromBufferedImageType(BufferedImage.TYPE_4BYTE_ABGR); default: throw new IIOException("Unknown number of bytes per pixel: " + header.getBitsPerPixel()); } } private int[] createIndices(final int bands, int increment) { int[] indices = new int[bands]; for (int i = 0; i < bands; i++) { indices[i] = i * increment; } return indices; } @Override public BufferedImage read(final int imageIndex, final ImageReadParam param) throws IOException { Iterator<ImageTypeSpecifier> imageTypes = getImageTypes(imageIndex); ImageTypeSpecifier rawType = getRawImageType(imageIndex); if (header.getPaletteInfo() != PCX.PALETTEINFO_COLOR && header.getPaletteInfo() != PCX.PALETTEINFO_GRAY) { processWarningOccurred( String.format( "Unsupported color mode: %d, colors may look incorrect", header.getPaletteInfo())); } int width = getWidth(imageIndex); int height = getHeight(imageIndex); BufferedImage destination = getDestination(param, imageTypes, width, height); Rectangle srcRegion = new Rectangle(); Rectangle destRegion = new Rectangle(); computeRegions(param, width, height, destination, srcRegion, destRegion); WritableRaster destRaster = clipToRect( destination.getRaster(), destRegion, param != null ? param.getDestinationBands() : null); checkReadParamBandSettings(param, rawType.getNumBands(), destRaster.getNumBands()); int compression = header.getCompression(); // Wrap input (COMPRESSION_RLE is really the only value allowed) DataInput input = compression == PCX.COMPRESSION_RLE ? new DataInputStream( new DecoderStream(IIOUtil.createStreamAdapter(imageInput), new RLEDecoder())) : imageInput; int xSub = param != null ? param.getSourceXSubsampling() : 1; int ySub = param != null ? param.getSourceYSubsampling() : 1; processImageStarted(imageIndex); if (rawType.getColorModel() instanceof IndexColorModel && header.getChannels() > 1) { // Bit planes! // Create raster from a default 8 bit layout WritableRaster rowRaster = GRAYSCALE.createBufferedImage(header.getWidth(), 1).getRaster(); // Clip to source region Raster clippedRow = clipRowToRect( rowRaster, srcRegion, param != null ? param.getSourceBands() : null, param != null ? param.getSourceXSubsampling() : 1); int planeWidth = header.getBytesPerLine(); byte[] planeData = new byte[planeWidth * 8]; byte[] rowDataByte = ((DataBufferByte) rowRaster.getDataBuffer()).getData(); for (int y = 0; y < height; y++) { switch (header.getBitsPerPixel()) { case 1: readRowByte( input, srcRegion, xSub, ySub, planeData, 0, planeWidth * header.getChannels(), destRaster, clippedRow, y); break; default: throw new AssertionError(); } int pixelPos = 0; for (int planePos = 0; planePos < planeWidth; planePos++) { BitRotator.bitRotateCW(planeData, planePos, planeWidth, rowDataByte, pixelPos, 1); pixelPos += 8; } processImageProgress(100f * y / height); if (y >= srcRegion.y + srcRegion.height) { break; } if (abortRequested()) { processReadAborted(); break; } } } else if (header.getBitsPerPixel() == 24 || header.getBitsPerPixel() == 32) { // Can't use width here, as we need to take bytesPerLine into account, and re-create a width // based on this int rowWidth = (header.getBytesPerLine() * 8) / header.getBitsPerPixel(); WritableRaster rowRaster = rawType.createBufferedImage(rowWidth, 1).getRaster(); // Clip to source region Raster clippedRow = clipRowToRect( rowRaster, srcRegion, param != null ? param.getSourceBands() : null, param != null ? param.getSourceXSubsampling() : 1); for (int y = 0; y < height; y++) { byte[] rowDataByte = ((DataBufferByte) rowRaster.getDataBuffer()).getData(); readRowByte( input, srcRegion, xSub, ySub, rowDataByte, 0, rowDataByte.length, destRaster, clippedRow, y); processImageProgress(100f * y / height); if (y >= srcRegion.y + srcRegion.height) { break; } if (abortRequested()) { processReadAborted(); break; } } } else { // Can't use width here, as we need to take bytesPerLine into account, and re-create a width // based on this int rowWidth = (header.getBytesPerLine() * 8) / header.getBitsPerPixel(); WritableRaster rowRaster = rawType.createBufferedImage(rowWidth, 1).getRaster(); // Clip to source region Raster clippedRow = clipRowToRect( rowRaster, srcRegion, param != null ? param.getSourceBands() : null, param != null ? param.getSourceXSubsampling() : 1); for (int y = 0; y < height; y++) { for (int c = 0; c < header.getChannels(); c++) { WritableRaster destChannel = destRaster.createWritableChild( destRaster.getMinX(), destRaster.getMinY(), destRaster.getWidth(), destRaster.getHeight(), 0, 0, new int[] {c}); Raster srcChannel = clippedRow.createChild( clippedRow.getMinX(), 0, clippedRow.getWidth(), 1, 0, 0, new int[] {c}); switch (header.getBitsPerPixel()) { case 1: case 2: case 4: case 8: byte[] rowDataByte = ((DataBufferByte) rowRaster.getDataBuffer()).getData(c); readRowByte( input, srcRegion, xSub, ySub, rowDataByte, 0, rowDataByte.length, destChannel, srcChannel, y); break; default: throw new AssertionError(); } if (abortRequested()) { break; } } processImageProgress(100f * y / height); if (y >= srcRegion.y + srcRegion.height) { break; } if (abortRequested()) { processReadAborted(); break; } } } processImageComplete(); return destination; } private void readRowByte( final DataInput input, Rectangle srcRegion, int xSub, int ySub, byte[] rowDataByte, final int off, final int length, WritableRaster destChannel, Raster srcChannel, int y) throws IOException { // If subsampled or outside source region, skip entire row if (y % ySub != 0 || y < srcRegion.y || y >= srcRegion.y + srcRegion.height) { input.skipBytes(length); return; } input.readFully(rowDataByte, off, length); // Subsample horizontal if (xSub != 1) { for (int x = 0; x < srcRegion.width / xSub; x++) { rowDataByte[srcRegion.x + x] = rowDataByte[srcRegion.x + x * xSub]; } } int dstY = (y - srcRegion.y) / ySub; destChannel.setDataElements(0, dstY, srcChannel); } private Raster clipRowToRect( final Raster raster, final Rectangle rect, final int[] bands, final int xSub) { if (rect.contains(raster.getMinX(), 0, raster.getWidth(), 1) && xSub == 1 && bands == null /* TODO: Compare bands with that of raster */) { return raster; } return raster.createChild(rect.x / xSub, 0, rect.width / xSub, 1, 0, 0, bands); } private WritableRaster clipToRect( final WritableRaster raster, final Rectangle rect, final int[] bands) { if (rect.contains(raster.getMinX(), raster.getMinY(), raster.getWidth(), raster.getHeight()) && bands == null /* TODO: Compare bands with that of raster */) { return raster; } return raster.createWritableChild(rect.x, rect.y, rect.width, rect.height, 0, 0, bands); } private void readHeader() throws IOException { if (header == null) { imageInput.setByteOrder(ByteOrder.LITTLE_ENDIAN); header = PCXHeader.read(imageInput); imageInput.flushBefore(imageInput.getStreamPosition()); } imageInput.seek(imageInput.getFlushedPosition()); } @Override public IIOMetadata getImageMetadata(final int imageIndex) throws IOException { checkBounds(imageIndex); readHeader(); return new PCXMetadata(header, getVGAPalette()); } private IndexColorModel getVGAPalette() throws IOException { if (!readPalette) { readHeader(); // Mark palette as read, to avoid further attempts readPalette = true; // Wee can't simply skip to an offset, as the RLE compression makes the file size // unpredictable skipToEOF(imageInput); // Seek backwards from EOF long paletteStart = imageInput.getStreamPosition() - 769; if (paletteStart <= imageInput.getFlushedPosition()) { return null; } imageInput.seek(paletteStart); byte val = imageInput.readByte(); if (val == PCX.VGA_PALETTE_MAGIC) { byte[] palette = new byte[768]; // 256 * 3 for RGB imageInput.readFully(palette); vgaPalette = new IndexColorModel(8, 256, palette, 0, false); return vgaPalette; } return null; } return vgaPalette; } // TODO: Candidate util method private static long skipToEOF(final ImageInputStream stream) throws IOException { long length = stream.length(); if (length > 0) { // Known length, skip there and we're done. stream.seek(length); } else { // Otherwise, seek to EOF the hard way. // First, store stream position... long pos = stream.getStreamPosition(); // ...skip 1k blocks until we're passed EOF... while (stream.skipBytes(1024l) > 0) { if (stream.read() == -1) { break; } pos = stream.getStreamPosition(); } // ...go back to last known pos... stream.seek(pos); // ...finally seek until EOF one byte at a time. Done. while (stream.read() != -1) {} } return stream.getStreamPosition(); } public static void main(String[] args) throws IOException { PCXImageReader reader = new PCXImageReader(null); for (String arg : args) { File in = new File(arg); reader.setInput(ImageIO.createImageInputStream(in)); ImageReadParam param = reader.getDefaultReadParam(); param.setDestinationType(reader.getImageTypes(0).next()); // param.setSourceSubsampling(2, 3, 0, 0); // param.setSourceSubsampling(2, 1, 0, 0); // // int width = reader.getWidth(0); // int height = reader.getHeight(0); // // param.setSourceRegion(new Rectangle(width / 4, height / 4, width / 2, height / // 2)); // param.setSourceRegion(new Rectangle(width / 2, height / 2)); // param.setSourceRegion(new Rectangle(width / 2, height / 2, width / 2, height / // 2)); System.err.println("header: " + reader.header); BufferedImage image = reader.read(0, param); System.err.println("image: " + image); showIt(image, in.getName()); new XMLSerializer(System.out, System.getProperty("file.encoding")) .serialize( reader .getImageMetadata(0) .getAsTree(IIOMetadataFormatImpl.standardMetadataFormatName), false); // File reference = new File(in.getParent() + "/../reference", // in.getName().replaceAll("\\.p(a|b|g|p)m", ".png")); // if (reference.exists()) { // System.err.println("reference.getAbsolutePath(): " + // reference.getAbsolutePath()); // showIt(ImageIO.read(reference), reference.getName()); // } // break; } } }