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SWT is an open source widget toolkit for Java designed to provide efficient, portable access to the user-interface facilities of the operating systems on which it is implemented.
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/*******************************************************************************
* Copyright (c) 2000, 2005 IBM Corporation and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* IBM Corporation - initial API and implementation
*******************************************************************************/
package org.eclipse.swt.internal.image;
import org.eclipse.swt.*;
/*
* Decoder for
* - CCITT Group 3 1-Dimensional Modified Huffman run length encoding
* (TIFF compression type 2)
* - CCITT T.4 bi-level encoding 1D
* (TIFF compression type 3 option 1D)
*/
final class TIFFModifiedHuffmanCodec {
static final short[][][] BLACK_CODE = {
/* 2 bits */
{{2, 3}, {3, 2}},
/* 3 bits */
{{2, 1}, {3, 4}},
/* 4 bits */
{{2, 6}, {3, 5}},
/* 5 bits */
{{3, 7}},
/* 6 bits */
{{4, 9}, {5, 8}},
/* 7 bits */
{{4, 10}, {5, 11}, {7, 12}},
/* 8 bits */
{{4, 13}, {7, 14}},
/* 9 bits */
{{24, 15}},
/* 10 bits */
{{8, 18}, {15, 64}, {23, 16}, {24, 17}, {55, 0}},
/* 11 bits */
{/* EOL */{0, -1}, {8, 1792}, {23, 24}, {24, 25}, {40, 23}, {55, 22}, {103, 19},
{104, 20}, {108, 21}, {12, 1856}, {13, 1920}},
/* 12 bits */
{{18, 1984}, {19, 2048}, {20, 2112}, {21, 2176}, {22, 2240}, {23, 2304},
{28, 2368}, {29, 2432}, {30, 2496}, {31, 2560}, {36, 52}, {39, 55}, {40, 56},
{43, 59}, {44, 60}, {51, 320}, {52, 384}, {53, 448}, {55, 53}, {56, 54}, {82, 50},
{83, 51}, {84, 44}, {85, 45}, {86, 46}, {87, 47}, {88, 57}, {89, 58}, {90, 61},
{91, 256}, {100, 48}, {101, 49}, {102, 62}, {103, 63}, {104, 30}, {105, 31},
{106, 32}, {107, 33}, {108, 40}, {109, 41}, {200, 128}, {201, 192}, {202, 26},
{203, 27}, {204, 28}, {205, 29}, {210, 34}, {211, 35}, {212, 36}, {213, 37},
{214, 38}, {215, 39}, {218, 42}, {219, 43}},
/* 13 bits */
{{74, 640}, {75, 704}, {76, 768}, {77, 832}, {82, 1280}, {83, 1344}, {84, 1408},
{85, 1472}, {90, 1536}, {91, 1600}, {100, 1664}, {101, 1728}, {108, 512},
{109, 576}, {114, 896}, {115, 960}, {116, 1024}, {117, 1088}, {118, 1152},
{119, 1216}}
};
static final short[][][] WHITE_CODE = {
/* 4 bits */
{{7, 2}, {8, 3}, {11, 4}, {12, 5}, {14, 6}, {15, 7}},
/* 5 bits */
{{7, 10}, {8, 11}, {18, 128}, {19, 8}, {20, 9}, {27, 64}},
/* 6 bits */
{{3, 13}, {7, 1}, {8, 12}, {23, 192}, {24, 1664}, {42, 16}, {43, 17}, {52, 14},
{53, 15}},
/* 7 bits */
{{3, 22}, {4, 23}, {8, 20}, {12, 19}, {19, 26}, {23, 21}, {24, 28}, {36, 27},
{39, 18}, {40, 24}, {43, 25}, {55, 256}},
/* 8 bits */
{{2, 29}, {3, 30}, {4, 45}, {5, 46}, {10, 47}, {11, 48}, {18, 33}, {19, 34},
{20, 35}, {21, 36}, {22, 37}, {23, 38}, {26, 31}, {27, 32}, {36, 53}, {37, 54},
{40, 39}, {41, 40}, {42, 41}, {43, 42}, {44, 43}, {45, 44}, {50, 61}, {51, 62},
{52, 63}, {53, 0}, {54, 320}, {55, 384}, {74, 59}, {75, 60}, {82, 49}, {83, 50},
{84, 51}, {85, 52}, {88, 55}, {89, 56}, {90, 57}, {91, 58}, {100, 448},
{101, 512}, {103, 640}, {104, 576}},
/* 9 bits */
{{152, 1472}, {153, 1536}, {154, 1600}, {155, 1728}, {204, 704}, {205, 768},
{210, 832}, {211, 896}, {212, 960}, {213, 1024}, {214, 1088}, {215, 1152},
{216, 1216}, {217, 1280}, {218, 1344}, {219, 1408}},
/* 10 bits */
{},
/* 11 bits */
{{8, 1792}, {12, 1856}, {13, 1920}},
/* 12 bits */
{/* EOL */{1, -1}, {18, 1984}, {19, 2048}, {20, 2112}, {21, 2176}, {22, 2240}, {23, 2304},
{28, 2368}, {29, 2432}, {30, 2496}, {31, 2560}}
};
static final int BLACK_MIN_BITS = 2;
static final int WHITE_MIN_BITS = 4;
boolean isWhite;
int whiteValue = 0;
int blackValue = 1;
byte[] src;
byte[] dest;
int byteOffsetSrc = 0;
int bitOffsetSrc = 0;
int byteOffsetDest = 0;
int bitOffsetDest = 0;
int code = 0;
int nbrBits = 0;
/* nbr of bytes per row */
int rowSize;
public int decode(byte[] src, byte[] dest, int offsetDest, int rowSize, int nRows) {
this.src = src;
this.dest = dest;
this.rowSize = rowSize;
byteOffsetSrc = 0;
bitOffsetSrc = 0;
byteOffsetDest = offsetDest;
bitOffsetDest = 0;
int cnt = 0;
while (cnt < nRows && decodeRow()) {
cnt++;
/* byte aligned */
if (bitOffsetDest > 0) {
byteOffsetDest++;
bitOffsetDest = 0;
}
}
return byteOffsetDest - offsetDest;
}
boolean decodeRow() {
isWhite = true;
int n = 0;
while (n < rowSize) {
int runLength = decodeRunLength();
if (runLength < 0) return false;
n += runLength;
setNextBits(isWhite ? whiteValue : blackValue, runLength);
isWhite = !isWhite;
}
return true;
}
int decodeRunLength() {
int runLength = 0;
int partialRun = 0;
short[][][] huffmanCode = isWhite ? WHITE_CODE : BLACK_CODE;
while (true) {
boolean found = false;
nbrBits = isWhite ? WHITE_MIN_BITS : BLACK_MIN_BITS;
code = getNextBits(nbrBits);
for (int i = 0; i < huffmanCode.length; i++) {
for (int j = 0; j < huffmanCode[i].length; j++) {
if (huffmanCode[i][j][0] == code) {
found = true;
partialRun = huffmanCode[i][j][1];
if (partialRun == -1) {
/* Stop when reaching final EOL on last byte */
if (byteOffsetSrc == src.length - 1) return -1;
/* Group 3 starts each row with an EOL - ignore it */
} else {
runLength += partialRun;
if (partialRun < 64) return runLength;
}
break;
}
}
if (found) break;
code = code << 1 | getNextBit();
}
if (!found) SWT.error(SWT.ERROR_INVALID_IMAGE);
}
}
int getNextBit() {
int value = (src[byteOffsetSrc] >>> (7 - bitOffsetSrc)) & 0x1;
bitOffsetSrc++;
if (bitOffsetSrc > 7) {
byteOffsetSrc++;
bitOffsetSrc = 0;
}
return value;
}
int getNextBits(int cnt) {
int value = 0;
for (int i = 0; i < cnt; i++) {
value = value << 1 | getNextBit();
}
return value;
}
void setNextBits(int value, int cnt) {
int n = cnt;
while (bitOffsetDest > 0 && bitOffsetDest <= 7 && n > 0) {
dest[byteOffsetDest] = value == 1 ?
(byte)(dest[byteOffsetDest] | (1 << (7 - bitOffsetDest))) :
(byte)(dest[byteOffsetDest] & ~(1 << (7 - bitOffsetDest)));
n--;
bitOffsetDest++;
}
if (bitOffsetDest == 8) {
byteOffsetDest++;
bitOffsetDest = 0;
}
while (n >= 8) {
dest[byteOffsetDest++] = (byte) (value == 1 ? 0xFF : 0);
n -= 8;
}
while (n > 0) {
dest[byteOffsetDest] = value == 1 ?
(byte)(dest[byteOffsetDest] | (1 << (7 - bitOffsetDest))) :
(byte)(dest[byteOffsetDest] & ~(1 << (7 - bitOffsetDest)));
n--;
bitOffsetDest++;
}
}
}