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com.luciad.imageio.webp.WebPWriter Maven / Gradle / Ivy
/*
* Copyright 2013 Luciad (http://www.luciad.com)
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.luciad.imageio.webp;
import javax.imageio.IIOImage;
import javax.imageio.ImageTypeSpecifier;
import javax.imageio.ImageWriteParam;
import javax.imageio.ImageWriter;
import javax.imageio.metadata.IIOMetadata;
import javax.imageio.spi.ImageWriterSpi;
import javax.imageio.stream.ImageOutputStream;
import java.awt.*;
import java.awt.geom.AffineTransform;
import java.awt.image.*;
import java.io.IOException;
class WebPWriter extends ImageWriter {
WebPWriter(ImageWriterSpi originatingProvider) {
super(originatingProvider);
}
@Override
public ImageWriteParam getDefaultWriteParam() {
return new WebPWriteParam(getLocale());
}
@Override
public IIOMetadata convertImageMetadata(IIOMetadata inData, ImageTypeSpecifier imageType, ImageWriteParam param) {
return null;
}
@Override
public IIOMetadata convertStreamMetadata(IIOMetadata inData, ImageWriteParam param) {
return null;
}
@Override
public IIOMetadata getDefaultImageMetadata(ImageTypeSpecifier imageType, ImageWriteParam param) {
return null;
}
@Override
public IIOMetadata getDefaultStreamMetadata(ImageWriteParam param) {
return null;
}
@Override
public void write(IIOMetadata streamMetadata, IIOImage image, ImageWriteParam param) throws IOException {
if (param == null) {
param = getDefaultWriteParam();
}
WebPWriteParam writeParam = (WebPWriteParam) param;
ImageOutputStream output = (ImageOutputStream) getOutput();
RenderedImage ri = image.getRenderedImage();
byte[] encodedData = encode(writeParam.getEncoderOptions(), ri);
output.write(encodedData);
}
private static byte[] encode(WebPEncoderOptions aOptions, RenderedImage aImage) throws IOException
{
if (aOptions == null) {
throw new NullPointerException("Encoder options may not be null");
}
if (aImage == null) {
throw new NullPointerException("Image may not be null");
}
boolean encodeAlpha = hasTranslucency(aImage);
if (encodeAlpha) {
byte[] rgbaData = getRGBA(aImage);
return WebP.encodeRGBA(aOptions, rgbaData, aImage.getWidth(), aImage.getHeight(), aImage.getWidth() * 4);
} else {
byte[] rgbData = getRGB(aImage);
return WebP.encodeRGB(aOptions, rgbData, aImage.getWidth(), aImage.getHeight(), aImage.getWidth() * 3);
}
}
private static boolean hasTranslucency(RenderedImage aRi) {
return aRi.getColorModel().hasAlpha();
}
private static int getShift(int aMask) {
int shift = 0;
while (((aMask >> shift) & 0x1) == 0) {
shift++;
}
return shift;
}
private static byte[] getRGB(RenderedImage aRi) throws IOException {
int width = aRi.getWidth();
int height = aRi.getHeight();
ColorModel colorModel = aRi.getColorModel();
if (colorModel instanceof ComponentColorModel) {
ComponentSampleModel sampleModel = (ComponentSampleModel) aRi.getSampleModel();
int type = sampleModel.getTransferType();
if (type == DataBuffer.TYPE_BYTE) {
return extractComponentRGBByte(width, height, sampleModel, ((DataBufferByte) aRi.getData().getDataBuffer()));
} else if (type == DataBuffer.TYPE_INT) {
return extractComponentRGBInt(width, height, sampleModel, ((DataBufferInt) aRi.getData().getDataBuffer()));
} else {
throw new IOException("Incompatible image: " + aRi);
}
} else if (colorModel instanceof DirectColorModel) {
SinglePixelPackedSampleModel sampleModel = (SinglePixelPackedSampleModel) aRi.getSampleModel();
int type = sampleModel.getTransferType();
if (type == DataBuffer.TYPE_INT) {
return extractDirectRGBInt(width, height, (DirectColorModel) colorModel, sampleModel, ((DataBufferInt) aRi.getData().getDataBuffer()));
} else {
throw new IOException("Incompatible image: " + aRi);
}
} else {
BufferedImage i = new BufferedImage(aRi.getWidth(), aRi.getHeight(), BufferedImage.TYPE_INT_RGB);
Graphics2D g = i.createGraphics();
g.drawRenderedImage(aRi, new AffineTransform());
g.dispose();
return getRGB(i);
}
}
private static byte[] extractDirectRGBInt(int aWidth, int aHeight, DirectColorModel aColorModel, SinglePixelPackedSampleModel aSampleModel, DataBufferInt aDataBuffer) {
byte[] out = new byte[aWidth * aHeight * 3];
int rMask = aColorModel.getRedMask();
int gMask = aColorModel.getGreenMask();
int bMask = aColorModel.getBlueMask();
int rShift = getShift(rMask);
int gShift = getShift(gMask);
int bShift = getShift(bMask);
int[] bank = aDataBuffer.getBankData()[0];
int scanlineStride = aSampleModel.getScanlineStride();
int scanIx = 0;
for (int b = 0, y = 0; y < aHeight; y++) {
int pixIx = scanIx;
for (int x = 0; x < aWidth; x++, b += 3) {
int pixel = bank[pixIx++];
out[b] = (byte) ((pixel & rMask) >>> rShift);
out[b + 1] = (byte) ((pixel & gMask) >>> gShift);
out[b + 2] = (byte) ((pixel & bMask) >>> bShift);
}
scanIx += scanlineStride;
}
return out;
}
private static byte[] extractComponentRGBInt(int aWidth, int aHeight, ComponentSampleModel aSampleModel, DataBufferInt aDataBuffer) {
byte[] out = new byte[aWidth * aHeight * 3];
int[] bankIndices = aSampleModel.getBankIndices();
int[] rBank = aDataBuffer.getBankData()[bankIndices[0]];
int[] gBank = aDataBuffer.getBankData()[bankIndices[1]];
int[] bBank = aDataBuffer.getBankData()[bankIndices[2]];
int[] bankOffsets = aSampleModel.getBandOffsets();
int rScanIx = bankOffsets[0];
int gScanIx = bankOffsets[1];
int bScanIx = bankOffsets[2];
int pixelStride = aSampleModel.getPixelStride();
int scanlineStride = aSampleModel.getScanlineStride();
for (int b = 0, y = 0; y < aHeight; y++) {
int rPixIx = rScanIx;
int gPixIx = gScanIx;
int bPixIx = bScanIx;
for (int x = 0; x < aWidth; x++, b += 3) {
out[b] = (byte) rBank[rPixIx];
rPixIx += pixelStride;
out[b + 1] = (byte) gBank[gPixIx];
gPixIx += pixelStride;
out[b + 2] = (byte) bBank[bPixIx];
bPixIx += pixelStride;
}
rScanIx += scanlineStride;
gScanIx += scanlineStride;
bScanIx += scanlineStride;
}
return out;
}
private static byte[] extractComponentRGBByte(int aWidth, int aHeight, ComponentSampleModel aSampleModel, DataBufferByte aDataBuffer) {
byte[] out = new byte[aWidth * aHeight * 3];
int[] bankIndices = aSampleModel.getBankIndices();
byte[] rBank = aDataBuffer.getBankData()[bankIndices[0]];
byte[] gBank = aDataBuffer.getBankData()[bankIndices[1]];
byte[] bBank = aDataBuffer.getBankData()[bankIndices[2]];
int[] bankOffsets = aSampleModel.getBandOffsets();
int rScanIx = bankOffsets[0];
int gScanIx = bankOffsets[1];
int bScanIx = bankOffsets[2];
int pixelStride = aSampleModel.getPixelStride();
int scanlineStride = aSampleModel.getScanlineStride();
for (int b = 0, y = 0; y < aHeight; y++) {
int rPixIx = rScanIx;
int gPixIx = gScanIx;
int bPixIx = bScanIx;
for (int x = 0; x < aWidth; x++, b += 3) {
out[b] = rBank[rPixIx];
rPixIx += pixelStride;
out[b + 1] = gBank[gPixIx];
gPixIx += pixelStride;
out[b + 2] = bBank[bPixIx];
bPixIx += pixelStride;
}
rScanIx += scanlineStride;
gScanIx += scanlineStride;
bScanIx += scanlineStride;
}
return out;
}
private static byte[] getRGBA(RenderedImage aRi) throws IOException {
int width = aRi.getWidth();
int height = aRi.getHeight();
ColorModel colorModel = aRi.getColorModel();
if (colorModel instanceof ComponentColorModel) {
ComponentSampleModel sampleModel = (ComponentSampleModel) aRi.getSampleModel();
int type = sampleModel.getTransferType();
if (type == DataBuffer.TYPE_BYTE) {
return extractComponentRGBAByte(width, height, sampleModel, ((DataBufferByte) aRi.getData().getDataBuffer()));
} else if (type == DataBuffer.TYPE_INT) {
return extractComponentRGBAInt(width, height, sampleModel, ((DataBufferInt) aRi.getData().getDataBuffer()));
} else {
throw new IOException("Incompatible image: " + aRi);
}
} else if (colorModel instanceof DirectColorModel) {
SinglePixelPackedSampleModel sampleModel = (SinglePixelPackedSampleModel) aRi.getSampleModel();
int type = sampleModel.getTransferType();
if (type == DataBuffer.TYPE_INT) {
return extractDirectRGBAInt(width, height, (DirectColorModel) colorModel, sampleModel, ((DataBufferInt) aRi.getData().getDataBuffer()));
} else {
throw new IOException("Incompatible image: " + aRi);
}
} else {
BufferedImage i = new BufferedImage(aRi.getWidth(), aRi.getHeight(), BufferedImage.TYPE_INT_ARGB);
Graphics2D g = i.createGraphics();
g.drawRenderedImage(aRi, new AffineTransform());
g.dispose();
return getRGBA(i);
}
}
private static byte[] extractDirectRGBAInt(int aWidth, int aHeight, DirectColorModel aColorModel, SinglePixelPackedSampleModel aSampleModel, DataBufferInt aDataBuffer) {
byte[] out = new byte[aWidth * aHeight * 4];
int rMask = aColorModel.getRedMask();
int gMask = aColorModel.getGreenMask();
int bMask = aColorModel.getBlueMask();
int aMask = aColorModel.getAlphaMask();
int rShift = getShift(rMask);
int gShift = getShift(gMask);
int bShift = getShift(bMask);
int aShift = getShift(aMask);
int[] bank = aDataBuffer.getBankData()[0];
int scanlineStride = aSampleModel.getScanlineStride();
int scanIx = 0;
for (int b = 0, y = 0; y < aHeight; y++) {
int pixIx = scanIx;
for (int x = 0; x < aWidth; x++, b += 4) {
int pixel = bank[pixIx++];
out[b] = (byte) ((pixel & rMask) >>> rShift);
out[b + 1] = (byte) ((pixel & gMask) >>> gShift);
out[b + 2] = (byte) ((pixel & bMask) >>> bShift);
out[b + 3] = (byte) ((pixel & aMask) >>> aShift);
}
scanIx += scanlineStride;
}
return out;
}
private static byte[] extractComponentRGBAInt(int aWidth, int aHeight, ComponentSampleModel aSampleModel, DataBufferInt aDataBuffer) {
byte[] out = new byte[aWidth * aHeight * 4];
int[] bankIndices = aSampleModel.getBankIndices();
int[] rBank = aDataBuffer.getBankData()[bankIndices[0]];
int[] gBank = aDataBuffer.getBankData()[bankIndices[1]];
int[] bBank = aDataBuffer.getBankData()[bankIndices[2]];
int[] aBank = aDataBuffer.getBankData()[bankIndices[3]];
int[] bankOffsets = aSampleModel.getBandOffsets();
int rScanIx = bankOffsets[0];
int gScanIx = bankOffsets[1];
int bScanIx = bankOffsets[2];
int aScanIx = bankOffsets[3];
int pixelStride = aSampleModel.getPixelStride();
int scanlineStride = aSampleModel.getScanlineStride();
for (int b = 0, y = 0; y < aHeight; y++) {
int rPixIx = rScanIx;
int gPixIx = gScanIx;
int bPixIx = bScanIx;
int aPixIx = aScanIx;
for (int x = 0; x < aWidth; x++, b += 4) {
out[b] = (byte) rBank[rPixIx];
rPixIx += pixelStride;
out[b + 1] = (byte) gBank[gPixIx];
gPixIx += pixelStride;
out[b + 2] = (byte) bBank[bPixIx];
bPixIx += pixelStride;
out[b + 3] = (byte) aBank[aPixIx];
aPixIx += pixelStride;
}
rScanIx += scanlineStride;
gScanIx += scanlineStride;
bScanIx += scanlineStride;
aScanIx += scanlineStride;
}
return out;
}
private static byte[] extractComponentRGBAByte(int aWidth, int aHeight, ComponentSampleModel aSampleModel, DataBufferByte aDataBuffer) {
byte[] out = new byte[aWidth * aHeight * 4];
int[] bankIndices = aSampleModel.getBankIndices();
byte[] rBank = aDataBuffer.getBankData()[bankIndices[0]];
byte[] gBank = aDataBuffer.getBankData()[bankIndices[1]];
byte[] bBank = aDataBuffer.getBankData()[bankIndices[2]];
byte[] aBank = aDataBuffer.getBankData()[bankIndices[3]];
int[] bankOffsets = aSampleModel.getBandOffsets();
int rScanIx = bankOffsets[0];
int gScanIx = bankOffsets[1];
int bScanIx = bankOffsets[2];
int aScanIx = bankOffsets[3];
int pixelStride = aSampleModel.getPixelStride();
int scanlineStride = aSampleModel.getScanlineStride();
for (int b = 0, y = 0; y < aHeight; y++) {
int rPixIx = rScanIx;
int gPixIx = gScanIx;
int bPixIx = bScanIx;
int aPixIx = aScanIx;
for (int x = 0; x < aWidth; x++, b += 4) {
out[b] = rBank[rPixIx];
rPixIx += pixelStride;
out[b + 1] = gBank[gPixIx];
gPixIx += pixelStride;
out[b + 2] = bBank[bPixIx];
bPixIx += pixelStride;
out[b + 3] = aBank[aPixIx];
aPixIx += pixelStride;
}
rScanIx += scanlineStride;
gScanIx += scanlineStride;
bScanIx += scanlineStride;
aScanIx += scanlineStride;
}
return out;
}
}