JDK 11 java.desktop.jmod - Desktop Module
JDK 11 java.desktop.jmod is the JMOD file for JDK 11 Desktop module.
JDK 11 Desktop module compiled class files are stored in \fyicenter\jdk-11.0.1\jmods\java.desktop.jmod.
JDK 11 Desktop module compiled class files are also linked and stored in the \fyicenter\jdk-11.0.1\lib\modules JImage file.
JDK 11 Desktop module source code files are stored in \fyicenter\jdk-11.0.1\lib\src.zip\java.desktop.
You can click and view the content of each source code file in the list below.
✍: FYIcenter
⏎ com/sun/imageio/plugins/tiff/TIFFYCbCrDecompressor.java
/*
* Copyright (c) 2005, 2015, Oracle and/or its affiliates. All rights reserved.
* ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
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package com.sun.imageio.plugins.tiff;
import java.awt.image.BufferedImage;
import java.awt.image.ColorModel;
import java.io.ByteArrayInputStream;
import java.io.EOFException;
import java.io.IOException;
import javax.imageio.ImageReader;
import javax.imageio.metadata.IIOMetadata;
import javax.imageio.stream.MemoryCacheImageInputStream;
import javax.imageio.stream.ImageInputStream;
import javax.imageio.plugins.tiff.BaselineTIFFTagSet;
import javax.imageio.plugins.tiff.TIFFField;
public class TIFFYCbCrDecompressor extends TIFFDecompressor {
// Store constants in S15.16 format
private static final int FRAC_BITS = 16;
private static final float FRAC_SCALE = (float)(1 << FRAC_BITS);
private float lumaRed = 0.299f;
private float lumaGreen = 0.587f;
private float lumaBlue = 0.114f;
private float referenceBlackY = 0.0f;
private float referenceWhiteY = 255.0f;
private float referenceBlackCb = 128.0f;
private float referenceWhiteCb = 255.0f;
private float referenceBlackCr = 128.0f;
private float referenceWhiteCr = 255.0f;
private float codingRangeY = 255.0f;
private int[] iYTab = new int[256];
private int[] iCbTab = new int[256];
private int[] iCrTab = new int[256];
private int[] iGYTab = new int[256];
private int[] iGCbTab = new int[256];
private int[] iGCrTab = new int[256];
private int chromaSubsampleH = 2;
private int chromaSubsampleV = 2;
private boolean colorConvert;
private TIFFDecompressor decompressor;
private BufferedImage tmpImage;
//
// If 'decompressor' is not null then it reads the data from the
// actual stream first and passes the result on to YCrCr decompression
// and possibly color conversion.
//
public TIFFYCbCrDecompressor(TIFFDecompressor decompressor,
boolean colorConvert) {
this.decompressor = decompressor;
this.colorConvert = colorConvert;
}
private void warning(String message) {
if(this.reader instanceof TIFFImageReader) {
((TIFFImageReader)reader).forwardWarningMessage(message);
}
}
//
// "Chained" decompressor methods.
//
public void setReader(ImageReader reader) {
if(decompressor != null) {
decompressor.setReader(reader);
}
super.setReader(reader);
}
public void setMetadata(IIOMetadata metadata) {
if(decompressor != null) {
decompressor.setMetadata(metadata);
}
super.setMetadata(metadata);
}
public void setPhotometricInterpretation(int photometricInterpretation) {
if(decompressor != null) {
decompressor.setPhotometricInterpretation(photometricInterpretation);
}
super.setPhotometricInterpretation(photometricInterpretation);
}
public void setCompression(int compression) {
if(decompressor != null) {
decompressor.setCompression(compression);
}
super.setCompression(compression);
}
public void setPlanar(boolean planar) {
if(decompressor != null) {
decompressor.setPlanar(planar);
}
super.setPlanar(planar);
}
public void setSamplesPerPixel(int samplesPerPixel) {
if(decompressor != null) {
decompressor.setSamplesPerPixel(samplesPerPixel);
}
super.setSamplesPerPixel(samplesPerPixel);
}
public void setBitsPerSample(int[] bitsPerSample) {
if(decompressor != null) {
decompressor.setBitsPerSample(bitsPerSample);
}
super.setBitsPerSample(bitsPerSample);
}
public void setSampleFormat(int[] sampleFormat) {
if(decompressor != null) {
decompressor.setSampleFormat(sampleFormat);
}
super.setSampleFormat(sampleFormat);
}
public void setExtraSamples(int[] extraSamples) {
if(decompressor != null) {
decompressor.setExtraSamples(extraSamples);
}
super.setExtraSamples(extraSamples);
}
public void setColorMap(char[] colorMap) {
if(decompressor != null) {
decompressor.setColorMap(colorMap);
}
super.setColorMap(colorMap);
}
public void setStream(ImageInputStream stream) {
if(decompressor != null) {
decompressor.setStream(stream);
} else {
super.setStream(stream);
}
}
public void setOffset(long offset) {
if(decompressor != null) {
decompressor.setOffset(offset);
}
super.setOffset(offset);
}
public void setByteCount(int byteCount) {
if(decompressor != null) {
decompressor.setByteCount(byteCount);
}
super.setByteCount(byteCount);
}
public void setSrcMinX(int srcMinX) {
if(decompressor != null) {
decompressor.setSrcMinX(srcMinX);
}
super.setSrcMinX(srcMinX);
}
public void setSrcMinY(int srcMinY) {
if(decompressor != null) {
decompressor.setSrcMinY(srcMinY);
}
super.setSrcMinY(srcMinY);
}
public void setSrcWidth(int srcWidth) {
if(decompressor != null) {
decompressor.setSrcWidth(srcWidth);
}
super.setSrcWidth(srcWidth);
}
public void setSrcHeight(int srcHeight) {
if(decompressor != null) {
decompressor.setSrcHeight(srcHeight);
}
super.setSrcHeight(srcHeight);
}
public void setSourceXOffset(int sourceXOffset) {
if(decompressor != null) {
decompressor.setSourceXOffset(sourceXOffset);
}
super.setSourceXOffset(sourceXOffset);
}
public void setDstXOffset(int dstXOffset) {
if(decompressor != null) {
decompressor.setDstXOffset(dstXOffset);
}
super.setDstXOffset(dstXOffset);
}
public void setSourceYOffset(int sourceYOffset) {
if(decompressor != null) {
decompressor.setSourceYOffset(sourceYOffset);
}
super.setSourceYOffset(sourceYOffset);
}
public void setDstYOffset(int dstYOffset) {
if(decompressor != null) {
decompressor.setDstYOffset(dstYOffset);
}
super.setDstYOffset(dstYOffset);
}
/* Should not need to override these mutators as subsampling
should not be done by the wrapped decompressor.
public void setSubsampleX(int subsampleX) {
if(decompressor != null) {
decompressor.setSubsampleX(subsampleX);
}
super.setSubsampleX(subsampleX);
}
public void setSubsampleY(int subsampleY) {
if(decompressor != null) {
decompressor.setSubsampleY(subsampleY);
}
super.setSubsampleY(subsampleY);
}
*/
public void setSourceBands(int[] sourceBands) {
if(decompressor != null) {
decompressor.setSourceBands(sourceBands);
}
super.setSourceBands(sourceBands);
}
public void setDestinationBands(int[] destinationBands) {
if(decompressor != null) {
decompressor.setDestinationBands(destinationBands);
}
super.setDestinationBands(destinationBands);
}
public void setImage(BufferedImage image) {
if(decompressor != null) {
ColorModel cm = image.getColorModel();
tmpImage =
new BufferedImage(cm,
image.getRaster().createCompatibleWritableRaster(1, 1),
cm.isAlphaPremultiplied(),
null);
decompressor.setImage(tmpImage);
}
super.setImage(image);
}
public void setDstMinX(int dstMinX) {
if(decompressor != null) {
decompressor.setDstMinX(dstMinX);
}
super.setDstMinX(dstMinX);
}
public void setDstMinY(int dstMinY) {
if(decompressor != null) {
decompressor.setDstMinY(dstMinY);
}
super.setDstMinY(dstMinY);
}
public void setDstWidth(int dstWidth) {
if(decompressor != null) {
decompressor.setDstWidth(dstWidth);
}
super.setDstWidth(dstWidth);
}
public void setDstHeight(int dstHeight) {
if(decompressor != null) {
decompressor.setDstHeight(dstHeight);
}
super.setDstHeight(dstHeight);
}
public void setActiveSrcMinX(int activeSrcMinX) {
if(decompressor != null) {
decompressor.setActiveSrcMinX(activeSrcMinX);
}
super.setActiveSrcMinX(activeSrcMinX);
}
public void setActiveSrcMinY(int activeSrcMinY) {
if(decompressor != null) {
decompressor.setActiveSrcMinY(activeSrcMinY);
}
super.setActiveSrcMinY(activeSrcMinY);
}
public void setActiveSrcWidth(int activeSrcWidth) {
if(decompressor != null) {
decompressor.setActiveSrcWidth(activeSrcWidth);
}
super.setActiveSrcWidth(activeSrcWidth);
}
public void setActiveSrcHeight(int activeSrcHeight) {
if(decompressor != null) {
decompressor.setActiveSrcHeight(activeSrcHeight);
}
super.setActiveSrcHeight(activeSrcHeight);
}
private byte clamp(int f) {
if (f < 0) {
return (byte)0;
} else if (f > 255*65536) {
return (byte)255;
} else {
return (byte)(f >> 16);
}
}
public void beginDecoding() {
if(decompressor != null) {
decompressor.beginDecoding();
}
TIFFImageMetadata tmetadata = (TIFFImageMetadata)metadata;
TIFFField f;
f = tmetadata.getTIFFField(BaselineTIFFTagSet.TAG_Y_CB_CR_SUBSAMPLING);
if (f != null) {
if (f.getCount() == 2) {
this.chromaSubsampleH = f.getAsInt(0);
this.chromaSubsampleV = f.getAsInt(1);
if (chromaSubsampleH != 1 && chromaSubsampleH != 2 &&
chromaSubsampleH != 4) {
warning("Y_CB_CR_SUBSAMPLING[0] has illegal value " +
chromaSubsampleH +
" (should be 1, 2, or 4), setting to 1");
chromaSubsampleH = 1;
}
if (chromaSubsampleV != 1 && chromaSubsampleV != 2 &&
chromaSubsampleV != 4) {
warning("Y_CB_CR_SUBSAMPLING[1] has illegal value " +
chromaSubsampleV +
" (should be 1, 2, or 4), setting to 1");
chromaSubsampleV = 1;
}
} else {
warning("Y_CB_CR_SUBSAMPLING count != 2, " +
"assuming no subsampling");
}
}
f =
tmetadata.getTIFFField(BaselineTIFFTagSet.TAG_Y_CB_CR_COEFFICIENTS);
if (f != null) {
if (f.getCount() == 3) {
this.lumaRed = f.getAsFloat(0);
this.lumaGreen = f.getAsFloat(1);
this.lumaBlue = f.getAsFloat(2);
} else {
warning("Y_CB_CR_COEFFICIENTS count != 3, " +
"assuming default values for CCIR 601-1");
}
}
f =
tmetadata.getTIFFField(BaselineTIFFTagSet.TAG_REFERENCE_BLACK_WHITE);
if (f != null) {
if (f.getCount() == 6) {
this.referenceBlackY = f.getAsFloat(0);
this.referenceWhiteY = f.getAsFloat(1);
this.referenceBlackCb = f.getAsFloat(2);
this.referenceWhiteCb = f.getAsFloat(3);
this.referenceBlackCr = f.getAsFloat(4);
this.referenceWhiteCr = f.getAsFloat(5);
} else {
warning("REFERENCE_BLACK_WHITE count != 6, ignoring it");
}
} else {
warning("REFERENCE_BLACK_WHITE not found, assuming 0-255/128-255/128-255");
}
this.colorConvert = true;
float BCb = (2.0f - 2.0f*lumaBlue);
float RCr = (2.0f - 2.0f*lumaRed);
float GY = (1.0f - lumaBlue - lumaRed)/lumaGreen;
float GCb = 2.0f*lumaBlue*(lumaBlue - 1.0f)/lumaGreen;
float GCr = 2.0f*lumaRed*(lumaRed - 1.0f)/lumaGreen;
for (int i = 0; i < 256; i++) {
float fY = (i - referenceBlackY)*codingRangeY/
(referenceWhiteY - referenceBlackY);
float fCb = (i - referenceBlackCb)*127.0f/
(referenceWhiteCb - referenceBlackCb);
float fCr = (i - referenceBlackCr)*127.0f/
(referenceWhiteCr - referenceBlackCr);
iYTab[i] = (int)(fY*FRAC_SCALE);
iCbTab[i] = (int)(fCb*BCb*FRAC_SCALE);
iCrTab[i] = (int)(fCr*RCr*FRAC_SCALE);
iGYTab[i] = (int)(fY*GY*FRAC_SCALE);
iGCbTab[i] = (int)(fCb*GCb*FRAC_SCALE);
iGCrTab[i] = (int)(fCr*GCr*FRAC_SCALE);
}
}
public void decodeRaw(byte[] buf,
int dstOffset,
int bitsPerPixel,
int scanlineStride) throws IOException {
int elementsPerPacket = chromaSubsampleH*chromaSubsampleV + 2;
byte[] packet = new byte[elementsPerPacket];
if(decompressor != null) {
int bytesPerRow = 3*srcWidth;
byte[] tmpBuf = new byte[bytesPerRow*srcHeight];
decompressor.decodeRaw(tmpBuf, dstOffset, bitsPerPixel,
bytesPerRow);
ByteArrayInputStream byteStream =
new ByteArrayInputStream(tmpBuf);
stream = new MemoryCacheImageInputStream(byteStream);
} else {
stream.seek(offset);
}
for (int y = srcMinY; y < srcMinY + srcHeight; y += chromaSubsampleV) {
// Decode chromaSubsampleV rows
for (int x = srcMinX; x < srcMinX + srcWidth;
x += chromaSubsampleH) {
try {
stream.readFully(packet);
} catch (EOFException e) {
return;
}
byte Cb = packet[elementsPerPacket - 2];
byte Cr = packet[elementsPerPacket - 1];
int iCb = 0, iCr = 0, iGCb = 0, iGCr = 0;
if (colorConvert) {
int Cbp = Cb & 0xff;
int Crp = Cr & 0xff;
iCb = iCbTab[Cbp];
iCr = iCrTab[Crp];
iGCb = iGCbTab[Cbp];
iGCr = iGCrTab[Crp];
}
int yIndex = 0;
for (int v = 0; v < chromaSubsampleV; v++) {
int idx = dstOffset + 3*(x - srcMinX) +
scanlineStride*(y - srcMinY + v);
// Check if we reached the last scanline
if (y + v >= srcMinY + srcHeight) {
break;
}
for (int h = 0; h < chromaSubsampleH; h++) {
if (x + h >= srcMinX + srcWidth) {
break;
}
byte Y = packet[yIndex++];
if (colorConvert) {
int Yp = Y & 0xff;
int iY = iYTab[Yp];
int iGY = iGYTab[Yp];
int iR = iY + iCr;
int iG = iGY + iGCb + iGCr;
int iB = iY + iCb;
byte r = clamp(iR);
byte g = clamp(iG);
byte b = clamp(iB);
buf[idx] = r;
buf[idx + 1] = g;
buf[idx + 2] = b;
} else {
buf[idx] = Y;
buf[idx + 1] = Cb;
buf[idx + 2] = Cr;
}
idx += 3;
}
}
}
}
}
}
⏎ com/sun/imageio/plugins/tiff/TIFFYCbCrDecompressor.java
Or download all of them as a single archive file:
File name: java.desktop-11.0.1-src.zip File size: 7974380 bytes Release date: 2018-11-04 Download
⇒ JDK 11 java.instrument.jmod - Instrument Module
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