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Pure Java implementation of video/audio codecs and formats
package org.jcodec.codecs.prores;
import java.nio.ByteBuffer;
import org.jcodec.codecs.prores.ProresConsts.FrameHeader;
import org.jcodec.common.dct.IDCT4x4;
import org.jcodec.common.io.BitReader;
import org.jcodec.common.model.ColorSpace;
import org.jcodec.common.model.Picture;
/**
*
* This class is part of JCodec ( www.jcodec.org ) This software is distributed
* under FreeBSD License
*
* Decodes a ProRes file in low res. Decodes each 8x8 block as downscaled 4x4 block.
*
* @author The JCodec project
*
*/
public class ProresToThumb4x4 extends ProresDecoder {
public ProresToThumb4x4() {
}
protected int[] decodeOnePlane(BitReader bits, int blocksPerSlice, int[] qMat, int[] scan, int mbX, int mbY,
int plane) {
int[] out = new int[blocksPerSlice << 4];
readDCCoeffs(bits, qMat, out, blocksPerSlice, 16);
readACCoeffs(bits, qMat, out, blocksPerSlice, scan, 16, 4);
for (int i = 0; i < blocksPerSlice; i++) {
IDCT4x4.idct(out, i << 4);
}
return out;
}
public static int progressive_scan_4x4[] = new int[] { 0, 1, 4, 5, 2, 3, 6, 7, 8, 9, 12, 13, 11, 12, 14, 15 };
public static int interlaced_scan_4x4[] = new int[] { 0, 4, 1, 5, 8, 12, 9, 13, 2, 6, 3, 7, 10, 14, 11, 15 };
public Picture decodeFrame(ByteBuffer data, int[][] target) {
FrameHeader fh = readFrameHeader(data);
int codedWidth = ((fh.width + 15) & ~0xf) >> 1;
int codedHeight = ((fh.height + 15) & ~0xf) >> 1;
int lumaSize = codedWidth * codedHeight;
int chromaSize = lumaSize >> 1;
if (target == null || target[0].length < lumaSize || target[1].length < chromaSize
|| target[2].length < chromaSize) {
throw new RuntimeException("Provided output picture won't fit into provided buffer");
}
if (fh.frameType == 0) {
decodePicture(data, target, codedWidth, codedHeight, codedWidth >> 3, fh.qMatLuma, fh.qMatChroma,
progressive_scan_4x4, 0);
} else {
decodePicture(data, target, codedWidth, codedHeight >> 1, codedWidth >> 3, fh.qMatLuma, fh.qMatChroma,
interlaced_scan_4x4, fh.topFieldFirst ? 1 : 2);
decodePicture(data, target, codedWidth, codedHeight >> 1, codedWidth >> 3, fh.qMatLuma, fh.qMatChroma,
interlaced_scan_4x4, fh.topFieldFirst ? 2 : 1);
}
return new Picture(codedWidth, codedHeight, target, ColorSpace.YUV422_10);
}
protected void putSlice(int[][] result, int lumaStride, int mbX, int mbY, int[] y, int[] u, int[] v, int dist,
int shift) {
int mbPerSlice = y.length >> 6;
int chromaStride = lumaStride >> 1;
putLuma(result[0], shift * lumaStride, lumaStride << dist, mbX, mbY, y, mbPerSlice, dist, shift);
putChroma(result[1], shift * chromaStride, chromaStride << dist, mbX, mbY, u, mbPerSlice, dist, shift);
putChroma(result[2], shift * chromaStride, chromaStride << dist, mbX, mbY, v, mbPerSlice, dist, shift);
}
private static final int srcIncLuma[] = { 4, 4, 4, 20, 4, 4, 4, 20 };
private void putLuma(int[] y, int off, int stride, int mbX, int mbY, int[] luma, int mbPerSlice, int dist, int shift) {
off += (mbX << 3) + (mbY << 3) * stride;
for (int mb = 0, sOff = 0; mb < mbPerSlice; mb++, off += 8) {
int _off = off;
for (int line = 0; line < 8; line++) {
y[_off] = clip(luma[sOff], 4, 1019);
y[_off + 1] = clip(luma[sOff + 1], 4, 1019);
y[_off + 2] = clip(luma[sOff + 2], 4, 1019);
y[_off + 3] = clip(luma[sOff + 3], 4, 1019);
y[_off + 4] = clip(luma[sOff + 16], 4, 1019);
y[_off + 5] = clip(luma[sOff + 17], 4, 1019);
y[_off + 6] = clip(luma[sOff + 18], 4, 1019);
y[_off + 7] = clip(luma[sOff + 19], 4, 1019);
sOff += srcIncLuma[line];
_off += stride;
}
}
}
private void putChroma(int[] y, int off, int stride, int mbX, int mbY, int[] chroma, int mbPerSlice, int dist,
int shift) {
off += (mbX << 2) + (mbY << 3) * stride;
for (int k = 0, sOff = 0; k < mbPerSlice; k++, off += 4) {
int _off = off;
for (int line = 0; line < 8; line++) {
y[_off] = clip(chroma[sOff], 4, 1019);
y[_off + 1] = clip(chroma[sOff + 1], 4, 1019);
y[_off + 2] = clip(chroma[sOff + 2], 4, 1019);
y[_off + 3] = clip(chroma[sOff + 3], 4, 1019);
sOff += 4;
_off += stride;
}
}
}
}