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fine-third/fine-jai/src/main/java/com/fr/third/JAI/PNMImageEncoder.java

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package com.fr.third.JAI;
/*
* Copyright (c) 2001 Sun Microsystems, Inc. All Rights Reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* -Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* -Redistribution in binary form must reproduct the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* Neither the name of Sun Microsystems, Inc. or the names of contributors may
* be used to endorse or promote products derived from this software without
* specific prior written permission.
*
* This software is provided "AS IS," without a warranty of any kind. ALL
* EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, INCLUDING ANY
* IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR
* NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN AND ITS LICENSORS SHALL NOT BE
* LIABLE FOR ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING
* OR DISTRIBUTING THE SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL SUN OR ITS
* LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, OR FOR DIRECT,
* INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR PUNITIVE DAMAGES, HOWEVER
* CAUSED AND REGARDLESS OF THE THEORY OF LIABILITY, ARISING OUT OF THE USE OF
* OR INABILITY TO USE SOFTWARE, EVEN IF SUN HAS BEEN ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGES.
*
* You acknowledge that Software is not designed,licensed or intended for use in
* the design, construction, operation or maintenance of any nuclear facility.
*/
import java.awt.Rectangle;
import java.awt.image.ColorModel;
import java.awt.image.ComponentSampleModel;
import java.awt.image.DataBuffer;
import java.awt.image.DataBufferByte;
import java.awt.image.IndexColorModel;
import java.awt.image.MultiPixelPackedSampleModel;
import java.awt.image.Raster;
import java.awt.image.RenderedImage;
import java.awt.image.SampleModel;
import java.io.IOException;
import java.io.OutputStream;
/**
* An ImageEncoder for the PNM family of file formats.
*
* <p> The PNM file format includes PBM for monochrome images, PGM for
* grey scale images, and PPM for color images. When writing the
* source data out, the encoder chooses the appropriate file variant
* based on the actual SampleModel of the source image. In case the
* source image data is unsuitable for the PNM file format, for
* example when source has 4 bands or float data type, the encoder
* throws an Error.
*
* <p> The raw file format is used wherever possible, unless the
* PNMEncodeParam object supplied to the constructor returns
* <code>true</code> from its <code>getRaw()</code> method.
*
*
*/
public class PNMImageEncoder extends ImageEncoderImpl {
private static final int PBM_ASCII = '1';
private static final int PGM_ASCII = '2';
private static final int PPM_ASCII = '3';
private static final int PBM_RAW = '4';
private static final int PGM_RAW = '5';
private static final int PPM_RAW = '6';
private static final int SPACE = ' ';
private static final String COMMENT =
"# written by com.sun.media.jai.codecimpl.PNMImageEncoder";
private byte[] lineSeparator;
private int variant;
private int maxValue;
public PNMImageEncoder(OutputStream output,
ImageEncodeParam param) {
super(output, param);
if (this.param == null) {
this.param = new PNMEncodeParam();
}
}
/**
* Encodes a RenderedImage and writes the output to the
* OutputStream associated with this ImageEncoder.
*/
public void encode(RenderedImage im) throws IOException {
int minX = im.getMinX();
int minY = im.getMinY();
int width = im.getWidth();
int height = im.getHeight();
int tileHeight = im.getTileHeight();
SampleModel sampleModel = im.getSampleModel();
ColorModel colorModel = im.getColorModel();
String ls = (String)java.security.AccessController.doPrivileged(
new sun.security.action.GetPropertyAction("line.separator"));
lineSeparator = ls.getBytes();
int dataType = sampleModel.getTransferType();
if ((dataType == DataBuffer.TYPE_FLOAT) ||
(dataType == DataBuffer.TYPE_DOUBLE)) {
throw new RuntimeException(JaiI18N.getString("PNMImageEncoder0"));
}
// Raw data can only handle bytes, everything greater must be ASCII.
int[] sampleSize = sampleModel.getSampleSize();
int numBands = sampleModel.getNumBands();
// Colormap populated for non-bilevel IndexColorModel only.
byte[] reds = null;
byte[] greens = null;
byte[] blues = null;
// Flag indicating that PB data should be inverted before writing.
boolean isPBMInverted = false;
if (numBands == 1) {
if (colorModel instanceof IndexColorModel) {
IndexColorModel icm = (IndexColorModel)colorModel;
int mapSize = icm.getMapSize();
if (mapSize < (1 << sampleSize[0])) {
throw new RuntimeException(
JaiI18N.getString("PNMImageEncoder1"));
}
if(sampleSize[0] == 1) {
variant = PBM_RAW;
// Set PBM inversion flag if 1 maps to a higher color
// value than 0: PBM expects white-is-zero so if this
// does not obtain then inversion needs to occur.
isPBMInverted =
(icm.getRed(1) + icm.getGreen(1) + icm.getBlue(1)) >
(icm.getRed(0) + icm.getGreen(0) + icm.getBlue(0));
} else {
variant = PPM_RAW;
reds = new byte[mapSize];
greens = new byte[mapSize];
blues = new byte[mapSize];
icm.getReds(reds);
icm.getGreens(greens);
icm.getBlues(blues);
}
} else if (sampleSize[0] == 1) {
variant = PBM_RAW;
} else if (sampleSize[0] <= 8) {
variant = PGM_RAW;
} else {
variant = PGM_ASCII;
}
} else if (numBands == 3) {
if (sampleSize[0] <= 8 && sampleSize[1] <= 8 &&
sampleSize[2] <= 8) { // all 3 bands must be <= 8
variant = PPM_RAW;
} else {
variant = PPM_ASCII;
}
} else {
throw new RuntimeException(JaiI18N.getString("PNMImageEncoder2"));
}
// Read parameters
if (((PNMEncodeParam)param).getRaw()) {
if (!isRaw(variant)) {
boolean canUseRaw = true;
// Make sure sampleSize for all bands no greater than 8.
for (int i = 0; i < sampleSize.length; i++) {
if (sampleSize[i] > 8) {
canUseRaw = false;
break;
}
}
if (canUseRaw) {
variant += 0x3;
}
}
} else {
if (isRaw(variant)) {
variant -= 0x3;
}
}
maxValue = (1 << sampleSize[0]) - 1;
// Write PNM file.
output.write('P'); // magic value
output.write(variant);
output.write(lineSeparator);
output.write(COMMENT.getBytes()); // comment line
output.write(lineSeparator);
writeInteger(output, width); // width
output.write(SPACE);
writeInteger(output, height); // height
// Writ esample max value for non-binary images
if ((variant != PBM_RAW) && (variant != PBM_ASCII)) {
output.write(lineSeparator);
writeInteger(output, maxValue);
}
// The spec allows a single character between the
// last header value and the start of the raw data.
if (variant == PBM_RAW ||
variant == PGM_RAW ||
variant == PPM_RAW) {
output.write('\n');
}
// Set flag for optimal image writing case: row-packed data with
// correct band order if applicable.
boolean writeOptimal = false;
if (variant == PBM_RAW &&
sampleModel.getTransferType() == DataBuffer.TYPE_BYTE &&
sampleModel instanceof MultiPixelPackedSampleModel) {
MultiPixelPackedSampleModel mppsm =
(MultiPixelPackedSampleModel)sampleModel;
// Must have left-aligned bytes with unity bit stride.
if(mppsm.getDataBitOffset() == 0 &&
mppsm.getPixelBitStride() == 1) {
writeOptimal = true;
}
} else if ((variant == PGM_RAW || variant == PPM_RAW) &&
sampleModel instanceof ComponentSampleModel &&
!(colorModel instanceof IndexColorModel)) {
ComponentSampleModel csm =
(ComponentSampleModel)sampleModel;
// Pixel stride must equal band count.
if(csm.getPixelStride() == numBands) {
writeOptimal = true;
// Band offsets must equal band indices.
if(variant == PPM_RAW) {
int[] bandOffsets = csm.getBandOffsets();
for(int b = 0; b < numBands; b++) {
if(bandOffsets[b] != b) {
writeOptimal = false;
break;
}
}
}
}
}
// Write using an optimal approach if possible.
if(writeOptimal) {
int bytesPerRow = variant == PBM_RAW ?
(width + 7)/8 : width*sampleModel.getNumBands();
int numYTiles = im.getNumYTiles();
Rectangle stripRect =
new Rectangle(im.getMinX(), im.getMinY(),
im.getWidth(), im.getTileHeight());
byte[] invertedData = null;
if(isPBMInverted) {
invertedData = new byte[bytesPerRow];
}
// Loop over tiles to minimize cobbling.
for(int j = 0; j < numYTiles; j++) {
// Clamp the strip to the image bounds.
if(j == numYTiles - 1) {
stripRect.height = im.getHeight() - stripRect.y;
}
// Get a strip of data.
Raster strip = im.getData(stripRect);
// Get the data array.
byte[] bdata =
((DataBufferByte)strip.getDataBuffer()).getData();
// Get the scanline stride.
int rowStride = variant == PBM_RAW ?
((MultiPixelPackedSampleModel)sampleModel).getScanlineStride() :
((ComponentSampleModel)sampleModel).getScanlineStride();
if(rowStride == bytesPerRow && !isPBMInverted) {
// Write the entire strip at once.
output.write(bdata, 0, bdata.length);
} else {
// Write the strip row-by-row.
int offset = 0;
for(int i = 0; i < tileHeight; i++) {
if(isPBMInverted) {
for(int k = 0; k < bytesPerRow; k++) {
invertedData[k] =
(byte)(~(bdata[offset+k]&0xff));
}
output.write(invertedData, 0, bytesPerRow);
} else {
output.write(bdata, offset, bytesPerRow);
}
offset += rowStride;
}
}
// Increment the strip origin.
stripRect.y += tileHeight;
}
// Write all buffered bytes and return.
output.flush();
return;
}
// Buffer for up to 8 rows of pixels
int[] pixels = new int[8*width*numBands];
// Also allocate a buffer to hold the data to be written to the file,
// so we can use array writes.
byte[] bpixels = reds == null ?
new byte[8*width*numBands] : new byte[8*width*3];
// The index of the sample being written, used to
// place a line separator after every 16th sample in
// ASCII mode. Not used in raw mode.
int count = 0;
// Process 8 rows at a time so all but the last will have
// a multiple of 8 pixels. This simplifies PBM_RAW encoding.
int lastRow = minY + height;
for (int row = minY; row < lastRow; row += 8) {
int rows = Math.min(8, lastRow - row);
int size = rows*width*numBands;
// Grab the pixels
Raster src = im.getData(new Rectangle(minX, row, width, rows));
src.getPixels(minX, row, width, rows, pixels);
// Invert bits if necessary.
if(isPBMInverted) {
for(int k = 0; k < size; k++) {
pixels[k] ^= 0x00000001;
}
}
switch (variant) {
case PBM_ASCII:
case PGM_ASCII:
for (int i = 0; i < size; i++) {
if ((count++ % 16) == 0) {
output.write(lineSeparator);
} else {
output.write(SPACE);
}
writeInteger(output, pixels[i]);
}
output.write(lineSeparator);
break;
case PPM_ASCII:
if (reds == null) { // no need to expand
for (int i = 0; i < size; i++) {
if ((count++ % 16) == 0) {
output.write(lineSeparator);
} else {
output.write(SPACE);
}
writeInteger(output, pixels[i]);
}
} else {
for (int i = 0; i < size; i++) {
if ((count++ % 16) == 0) {
output.write(lineSeparator);
} else {
output.write(SPACE);
}
writeInteger(output, (reds[pixels[i]] & 0xFF));
output.write(SPACE);
writeInteger(output, (greens[pixels[i]] & 0xFF));
output.write(SPACE);
writeInteger(output, (blues[pixels[i]] & 0xFF));
}
}
output.write(lineSeparator);
break;
case PBM_RAW:
// 8 pixels packed into 1 byte, the leftovers are padded.
int kdst = 0;
int ksrc = 0;
for (int i = 0; i < size/8; i++) {
int b = (pixels[ksrc++] << 7) |
(pixels[ksrc++] << 6) |
(pixels[ksrc++] << 5) |
(pixels[ksrc++] << 4) |
(pixels[ksrc++] << 3) |
(pixels[ksrc++] << 2) |
(pixels[ksrc++] << 1) |
pixels[ksrc++];
bpixels[kdst++] = (byte)b;
}
// Leftover pixels, only possible at the end of the file.
if (size%8 > 0) {
int b = 0;
for (int i=0; i<size%8; i++) {
b |= pixels[size + i] << (7 - i);
}
bpixels[kdst++] = (byte)b;
}
output.write(bpixels, 0, (size+7)/8);
break;
case PGM_RAW:
for(int i=0; i<size; i++) {
bpixels[i] = (byte)(pixels[i]);
}
output.write(bpixels, 0, size);
break;
case PPM_RAW:
if (reds == null) { // no need to expand
for (int i=0; i<size; i++) {
bpixels[i] = (byte)(pixels[i] & 0xFF);
}
} else {
for (int i=0, j=0; i<size; i++) {
bpixels[j++] = reds[pixels[i]];
bpixels[j++] = greens[pixels[i]];
bpixels[j++] = blues[pixels[i]];
}
}
output.write(bpixels, 0, bpixels.length);
break;
}
}
// Force all buffered bytes to be written out.
output.flush();
}
/** Writes an integer to the output in ASCII format. */
private void writeInteger(OutputStream output, int i) throws IOException {
output.write(Integer.toString(i).getBytes());
}
/** Writes a byte to the output in ASCII format. */
private void writeByte(OutputStream output, byte b) throws IOException {
output.write(Byte.toString(b).getBytes());
}
/** Returns true if file variant is raw format, false if ASCII. */
private boolean isRaw(int v) {
return (v >= PBM_RAW);
}
}