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https://github.com/google/brotli.git
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prepare java decoder for transpilation to Kotlin
PiperOrigin-RevId: 601023149
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@ -351,7 +351,7 @@ final class Decode {
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if (sizeBytes == 0) {
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return;
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}
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for (int i = 0; i < sizeBytes; i++) {
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for (int i = 0; i < sizeBytes; ++i) {
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BitReader.fillBitWindow(s);
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final int bits = BitReader.readFewBits(s, 8);
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if (bits == 0 && i + 1 == sizeBytes && sizeBytes > 1) {
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@ -360,7 +360,7 @@ final class Decode {
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s.metaBlockLength |= bits << (i * 8);
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}
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} else {
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for (int i = 0; i < sizeNibbles; i++) {
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for (int i = 0; i < sizeNibbles; ++i) {
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BitReader.fillBitWindow(s);
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final int bits = BitReader.readFewBits(s, 4);
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if (bits == 0 && i + 1 == sizeNibbles && sizeNibbles > 4) {
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@ -405,18 +405,19 @@ final class Decode {
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private static void moveToFront(int[] v, int index) {
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final int value = v[index];
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for (; index > 0; index--) {
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while (index > 0) {
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v[index] = v[index - 1];
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index--;
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}
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v[0] = value;
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}
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private static void inverseMoveToFrontTransform(byte[] v, int vLen) {
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final int[] mtf = new int[256];
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for (int i = 0; i < 256; i++) {
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for (int i = 0; i < 256; ++i) {
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mtf[i] = i;
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}
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for (int i = 0; i < vLen; i++) {
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for (int i = 0; i < vLen; ++i) {
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final int index = v[i] & 0xFF;
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v[i] = (byte) mtf[index];
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if (index != 0) {
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@ -470,7 +471,7 @@ final class Decode {
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if (symbol + repeatDelta > numSymbols) {
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throw new BrotliRuntimeException("symbol + repeatDelta > numSymbols"); // COV_NF_LINE
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}
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for (int i = 0; i < repeatDelta; i++) {
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for (int i = 0; i < repeatDelta; ++i) {
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codeLengths[symbol++] = repeatCodeLen;
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}
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if (repeatCodeLen != 0) {
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@ -507,7 +508,7 @@ final class Decode {
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final int maxBits = 1 + log2floor(alphabetSizeMax - 1);
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final int numSymbols = BitReader.readFewBits(s, 2) + 1;
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for (int i = 0; i < numSymbols; i++) {
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for (int i = 0; i < numSymbols; ++i) {
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BitReader.fillBitWindow(s);
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final int symbol = BitReader.readFewBits(s, maxBits);
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if (symbol >= alphabetSizeLimit) {
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@ -569,7 +570,7 @@ final class Decode {
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final int[] codeLengthCodeLengths = new int[CODE_LENGTH_CODES];
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int space = 32;
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int numCodes = 0;
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for (int i = skip; i < CODE_LENGTH_CODES && space > 0; i++) {
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for (int i = skip; i < CODE_LENGTH_CODES; ++i) {
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final int codeLenIdx = CODE_LENGTH_CODE_ORDER[i];
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BitReader.fillBitWindow(s);
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final int p = BitReader.peekBits(s) & 15;
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@ -580,6 +581,7 @@ final class Decode {
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if (v != 0) {
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space -= (32 >> v);
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numCodes++;
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if (space <= 0) break;
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}
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}
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if (space != 0 && numCodes != 1) {
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@ -630,7 +632,8 @@ final class Decode {
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final int[] table = new int[tableSize + 1];
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final int tableIdx = table.length - 1;
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readHuffmanCode(alphabetSize, alphabetSize, table, tableIdx, s);
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for (int i = 0; i < contextMapSize; ) {
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int i = 0;
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while (i < contextMapSize) {
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BitReader.readMoreInput(s);
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BitReader.fillBitWindow(s);
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final int code = readSymbol(table, tableIdx, s);
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@ -829,22 +832,24 @@ final class Decode {
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s.numDirectDistanceCodes = BitReader.readFewBits(s, 4) << s.distancePostfixBits;
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// TODO(eustas): Reuse?
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s.contextModes = new byte[s.numLiteralBlockTypes];
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for (int i = 0; i < s.numLiteralBlockTypes;) {
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int i = 0;
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while (i < s.numLiteralBlockTypes) {
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/* Ensure that less than 256 bits read between readMoreInput. */
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final int limit = Math.min(i + 96, s.numLiteralBlockTypes);
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for (; i < limit; ++i) {
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while (i < limit) {
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BitReader.fillBitWindow(s);
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s.contextModes[i] = (byte) BitReader.readFewBits(s, 2);
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i++;
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}
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BitReader.readMoreInput(s);
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}
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// TODO(eustas): Reuse?
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s.contextMap = new byte[s.numLiteralBlockTypes << LITERAL_CONTEXT_BITS];
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final int numLiteralTrees = decodeContextMap(s.numLiteralBlockTypes << LITERAL_CONTEXT_BITS,
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s.contextMap, s);
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final int contextMapLength = s.numLiteralBlockTypes << LITERAL_CONTEXT_BITS;
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s.contextMap = new byte[contextMapLength];
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final int numLiteralTrees = decodeContextMap(contextMapLength, s.contextMap, s);
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s.trivialLiteralContext = 1;
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for (int j = 0; j < s.numLiteralBlockTypes << LITERAL_CONTEXT_BITS; j++) {
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for (int j = 0; j < contextMapLength; ++j) {
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if (s.contextMap[j] != j >> LITERAL_CONTEXT_BITS) {
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s.trivialLiteralContext = 0;
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break;
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@ -1253,7 +1258,8 @@ final class Decode {
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final int dstEnd = dst + copyLength;
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if ((srcEnd < ringBufferMask) && (dstEnd < ringBufferMask)) {
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if (copyLength < 12 || (srcEnd > dst && dstEnd > src)) {
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for (int k = 0; k < copyLength; k += 4) {
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final int numQuads = (copyLength + 3) >> 2;
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for (int k = 0; k < numQuads; ++k) {
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ringBuffer[dst++] = ringBuffer[src++];
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ringBuffer[dst++] = ringBuffer[src++];
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ringBuffer[dst++] = ringBuffer[src++];
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@ -1266,7 +1272,7 @@ final class Decode {
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s.metaBlockLength -= copyLength;
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s.pos += copyLength;
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} else {
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for (; s.j < s.copyLength;) {
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while (s.j < s.copyLength) {
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ringBuffer[s.pos] =
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ringBuffer[(s.pos - s.distance) & ringBufferMask];
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s.metaBlockLength--;
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@ -43,10 +43,10 @@ final class DictionaryData {
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// Toggle high bit using run-length delta encoded "skipFlip".
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int offset = 0;
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final int n = skipFlip.length();
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for (int i = 0; i < n; i += 2) {
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final int skip = skipFlip.charAt(i) - 36;
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final int flip = skipFlip.charAt(i + 1) - 36;
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final int n = skipFlip.length() >> 1;
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for (int i = 0; i < n; ++i) {
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final int skip = skipFlip.charAt(2 * i) - 36;
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final int flip = skipFlip.charAt(2 * i + 1) - 36;
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for (int j = 0; j < skip; ++j) {
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dict[offset] ^= 3;
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offset++;
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@ -64,28 +64,26 @@ final class Huffman {
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static int buildHuffmanTable(int[] tableGroup, int tableIdx, int rootBits, int[] codeLengths,
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int codeLengthsSize) {
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final int tableOffset = tableGroup[tableIdx];
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int key; // Reversed prefix code.
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final int[] sorted = new int[codeLengthsSize]; // Symbols sorted by code length.
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// TODO(eustas): fill with zeroes?
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final int[] count = new int[MAX_LENGTH + 1]; // Number of codes of each length.
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final int[] offset = new int[MAX_LENGTH + 1]; // Offsets in sorted table for each length.
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int symbol;
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// Build histogram of code lengths.
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for (symbol = 0; symbol < codeLengthsSize; symbol++) {
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count[codeLengths[symbol]]++;
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for (int sym = 0; sym < codeLengthsSize; ++sym) {
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count[codeLengths[sym]]++;
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}
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// Generate offsets into sorted symbol table by code length.
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offset[1] = 0;
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for (int len = 1; len < MAX_LENGTH; len++) {
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for (int len = 1; len < MAX_LENGTH; ++len) {
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offset[len + 1] = offset[len] + count[len];
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}
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// Sort symbols by length, by symbol order within each length.
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for (symbol = 0; symbol < codeLengthsSize; symbol++) {
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if (codeLengths[symbol] != 0) {
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sorted[offset[codeLengths[symbol]]++] = symbol;
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for (int sym = 0; sym < codeLengthsSize; ++sym) {
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if (codeLengths[sym] != 0) {
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sorted[offset[codeLengths[sym]]++] = sym;
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}
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}
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@ -95,20 +93,23 @@ final class Huffman {
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// Special case code with only one value.
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if (offset[MAX_LENGTH] == 1) {
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for (key = 0; key < totalSize; key++) {
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tableGroup[tableOffset + key] = sorted[0];
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for (int k = 0; k < totalSize; ++k) {
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tableGroup[tableOffset + k] = sorted[0];
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}
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return totalSize;
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}
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// Fill in root table.
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key = 0;
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symbol = 0;
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for (int len = 1, step = 2; len <= rootBits; len++, step <<= 1) {
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for (; count[len] > 0; count[len]--) {
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int key = 0; // Reversed prefix code.
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int symbol = 0;
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int step = 1;
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for (int len = 1; len <= rootBits; ++len) {
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step <<= 1;
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while (count[len] > 0) {
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replicateValue(tableGroup, tableOffset + key, step, tableSize,
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len << 16 | sorted[symbol++]);
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key = getNextKey(key, len);
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count[len]--;
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}
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}
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@ -116,8 +117,10 @@ final class Huffman {
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final int mask = totalSize - 1;
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int low = -1;
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int currentOffset = tableOffset;
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for (int len = rootBits + 1, step = 2; len <= MAX_LENGTH; len++, step <<= 1) {
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for (; count[len] > 0; count[len]--) {
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step = 1;
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for (int len = rootBits + 1; len <= MAX_LENGTH; ++len) {
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step <<= 1;
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while (count[len] > 0) {
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if ((key & mask) != low) {
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currentOffset += tableSize;
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tableBits = nextTableBitSize(count, len, rootBits);
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@ -130,6 +133,7 @@ final class Huffman {
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replicateValue(tableGroup, currentOffset + (key >> rootBits), step, tableSize,
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(len - rootBits) << 16 | sorted[symbol++]);
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key = getNextKey(key, len);
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count[len]--;
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}
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}
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return totalSize;
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