mirror of
https://github.com/go-gitea/gitea
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654 lines
12 KiB
Go
654 lines
12 KiB
Go
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package brotli
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/* Copyright 2013 Google Inc. All Rights Reserved.
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Distributed under MIT license.
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See file LICENSE for detail or copy at https://opensource.org/licenses/MIT
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*/
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/* Utilities for building Huffman decoding tables. */
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const huffmanMaxCodeLength = 15
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/* Maximum possible Huffman table size for an alphabet size of (index * 32),
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max code length 15 and root table bits 8. */
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var kMaxHuffmanTableSize = []uint16{
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256,
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402,
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436,
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468,
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500,
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534,
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566,
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598,
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630,
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662,
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694,
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726,
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758,
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790,
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822,
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854,
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886,
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920,
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952,
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984,
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1016,
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1048,
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1080,
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1112,
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1144,
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1176,
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1208,
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1240,
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1272,
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1304,
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1336,
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1368,
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1400,
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1432,
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1464,
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1496,
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1528,
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}
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/* BROTLI_NUM_BLOCK_LEN_SYMBOLS == 26 */
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const huffmanMaxSize26 = 396
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/* BROTLI_MAX_BLOCK_TYPE_SYMBOLS == 258 */
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const huffmanMaxSize258 = 632
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/* BROTLI_MAX_CONTEXT_MAP_SYMBOLS == 272 */
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const huffmanMaxSize272 = 646
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const huffmanMaxCodeLengthCodeLength = 5
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/* Do not create this struct directly - use the ConstructHuffmanCode
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* constructor below! */
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type huffmanCode struct {
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bits byte
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value uint16
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}
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func constructHuffmanCode(bits byte, value uint16) huffmanCode {
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var h huffmanCode
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h.bits = bits
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h.value = value
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return h
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}
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/* Builds Huffman lookup table assuming code lengths are in symbol order. */
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/* Builds Huffman lookup table assuming code lengths are in symbol order.
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Returns size of resulting table. */
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/* Builds a simple Huffman table. The |num_symbols| parameter is to be
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interpreted as follows: 0 means 1 symbol, 1 means 2 symbols,
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2 means 3 symbols, 3 means 4 symbols with lengths [2, 2, 2, 2],
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4 means 4 symbols with lengths [1, 2, 3, 3]. */
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/* Contains a collection of Huffman trees with the same alphabet size. */
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/* max_symbol is needed due to simple codes since log2(alphabet_size) could be
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greater than log2(max_symbol). */
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type huffmanTreeGroup struct {
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htrees [][]huffmanCode
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codes []huffmanCode
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alphabet_size uint16
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max_symbol uint16
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num_htrees uint16
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}
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const reverseBitsMax = 8
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const reverseBitsBase = 0
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var kReverseBits = [1 << reverseBitsMax]byte{
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0x00,
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0x80,
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0x40,
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0xC0,
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0x20,
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0xA0,
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0x60,
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0xE0,
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0x10,
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0x90,
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0x50,
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0xD0,
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0x30,
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0xB0,
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0x70,
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0xF0,
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0x08,
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0x88,
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0x48,
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0xC8,
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0x28,
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0xA8,
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0x68,
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0xE8,
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0x18,
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0x98,
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0x58,
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0xD8,
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0x38,
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0xB8,
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0x78,
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0xF8,
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0x04,
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0x84,
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0x44,
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0xC4,
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0x24,
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0xA4,
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0x64,
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0xE4,
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0x14,
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0x94,
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0x54,
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0xD4,
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0x34,
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0xB4,
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0x74,
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0xF4,
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0x0C,
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0x8C,
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0x4C,
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0xCC,
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0x2C,
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0xAC,
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0x6C,
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0xEC,
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0x1C,
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0x9C,
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0x5C,
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0xDC,
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0x3C,
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0xBC,
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0x7C,
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0xFC,
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0x02,
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0x82,
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0x42,
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0xC2,
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0x22,
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0xA2,
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0x62,
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0xE2,
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0x12,
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0x92,
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0x52,
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0xD2,
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0x32,
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0xB2,
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0x72,
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0xF2,
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0x0A,
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0x8A,
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0x4A,
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0xCA,
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0x2A,
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0xAA,
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0x6A,
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0xEA,
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0x1A,
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0x9A,
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0x5A,
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0xDA,
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0x3A,
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0xBA,
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0x7A,
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0xFA,
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0x06,
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0x86,
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0x46,
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0xC6,
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0x26,
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0xA6,
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0x66,
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0xE6,
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0x16,
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0x96,
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0x56,
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0xD6,
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0x36,
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0xB6,
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0x76,
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0xF6,
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0x0E,
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0x8E,
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0x4E,
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0xCE,
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0x2E,
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0xAE,
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0x6E,
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0xEE,
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0x1E,
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0x9E,
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0x5E,
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0xDE,
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0x3E,
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0xBE,
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0x7E,
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0xFE,
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0x01,
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0x81,
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0x41,
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0xC1,
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0x21,
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0xA1,
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0x61,
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0xE1,
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0x11,
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0x91,
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0x51,
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0xD1,
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0x31,
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0xB1,
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0x71,
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0xF1,
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0x09,
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0x89,
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0x49,
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0xC9,
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0x29,
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0xA9,
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0x69,
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0xE9,
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0x19,
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0x99,
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0x59,
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0xD9,
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0x39,
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0xB9,
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0x79,
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0xF9,
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0x05,
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0x85,
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0x45,
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0xC5,
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0x25,
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0xA5,
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0x65,
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0xE5,
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0x15,
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0x95,
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0x55,
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0xD5,
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0x35,
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0xB5,
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0x75,
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0xF5,
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0x0D,
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0x8D,
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0x4D,
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0xCD,
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0x2D,
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0xAD,
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0x6D,
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0xED,
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0x1D,
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0x9D,
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0x5D,
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0xDD,
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0x3D,
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0xBD,
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0x7D,
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0xFD,
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0x03,
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0x83,
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0x43,
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0xC3,
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0x23,
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0xA3,
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0x63,
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0xE3,
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0x13,
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0x93,
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0x53,
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0xD3,
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0x33,
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0xB3,
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0x73,
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0xF3,
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0x0B,
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0x8B,
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0x4B,
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0xCB,
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0x2B,
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0xAB,
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0x6B,
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0xEB,
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0x1B,
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0x9B,
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0x5B,
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0xDB,
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0x3B,
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0xBB,
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0x7B,
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0xFB,
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0x07,
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0x87,
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0x47,
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0xC7,
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0x27,
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0xA7,
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0x67,
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0xE7,
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0x17,
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0x97,
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0x57,
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0xD7,
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0x37,
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0xB7,
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0x77,
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0xF7,
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0x0F,
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0x8F,
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0x4F,
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0xCF,
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0x2F,
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0xAF,
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0x6F,
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0xEF,
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0x1F,
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0x9F,
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0x5F,
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0xDF,
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0x3F,
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0xBF,
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0x7F,
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0xFF,
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}
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const reverseBitsLowest = (uint64(1) << (reverseBitsMax - 1 + reverseBitsBase))
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/* Returns reverse(num >> BROTLI_REVERSE_BITS_BASE, BROTLI_REVERSE_BITS_MAX),
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where reverse(value, len) is the bit-wise reversal of the len least
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significant bits of value. */
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func reverseBits8(num uint64) uint64 {
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return uint64(kReverseBits[num])
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}
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/* Stores code in table[0], table[step], table[2*step], ..., table[end] */
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/* Assumes that end is an integer multiple of step */
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func replicateValue(table []huffmanCode, step int, end int, code huffmanCode) {
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for {
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end -= step
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table[end] = code
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if end <= 0 {
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break
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}
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}
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}
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/* Returns the table width of the next 2nd level table. |count| is the histogram
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of bit lengths for the remaining symbols, |len| is the code length of the
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next processed symbol. */
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func nextTableBitSize(count []uint16, len int, root_bits int) int {
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var left int = 1 << uint(len-root_bits)
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for len < huffmanMaxCodeLength {
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left -= int(count[len])
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if left <= 0 {
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break
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}
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len++
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left <<= 1
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}
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return len - root_bits
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}
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func buildCodeLengthsHuffmanTable(table []huffmanCode, code_lengths []byte, count []uint16) {
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var code huffmanCode /* current table entry */ /* symbol index in original or sorted table */ /* prefix code */ /* prefix code addend */ /* step size to replicate values in current table */ /* size of current table */ /* symbols sorted by code length */
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var symbol int
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var key uint64
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var key_step uint64
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var step int
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var table_size int
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var sorted [codeLengthCodes]int
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var offset [huffmanMaxCodeLengthCodeLength + 1]int
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var bits int
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var bits_count int
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/* offsets in sorted table for each length */
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assert(huffmanMaxCodeLengthCodeLength <= reverseBitsMax)
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/* Generate offsets into sorted symbol table by code length. */
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symbol = -1
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bits = 1
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var i int
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for i = 0; i < huffmanMaxCodeLengthCodeLength; i++ {
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symbol += int(count[bits])
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offset[bits] = symbol
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bits++
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}
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/* Symbols with code length 0 are placed after all other symbols. */
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offset[0] = codeLengthCodes - 1
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/* Sort symbols by length, by symbol order within each length. */
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symbol = codeLengthCodes
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for {
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var i int
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for i = 0; i < 6; i++ {
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symbol--
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sorted[offset[code_lengths[symbol]]] = symbol
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offset[code_lengths[symbol]]--
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}
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if symbol == 0 {
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break
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}
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}
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table_size = 1 << huffmanMaxCodeLengthCodeLength
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/* Special case: all symbols but one have 0 code length. */
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if offset[0] == 0 {
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code = constructHuffmanCode(0, uint16(sorted[0]))
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for key = 0; key < uint64(table_size); key++ {
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table[key] = code
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}
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return
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}
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/* Fill in table. */
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key = 0
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key_step = reverseBitsLowest
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symbol = 0
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bits = 1
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step = 2
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for {
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for bits_count = int(count[bits]); bits_count != 0; bits_count-- {
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code = constructHuffmanCode(byte(bits), uint16(sorted[symbol]))
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symbol++
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replicateValue(table[reverseBits8(key):], step, table_size, code)
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key += key_step
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}
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step <<= 1
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key_step >>= 1
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bits++
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if bits > huffmanMaxCodeLengthCodeLength {
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break
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}
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}
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}
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func buildHuffmanTable(root_table []huffmanCode, root_bits int, symbol_lists symbolList, count []uint16) uint32 {
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var code huffmanCode /* current table entry */ /* next available space in table */ /* current code length */ /* symbol index in original or sorted table */ /* prefix code */ /* prefix code addend */ /* 2nd level table prefix code */ /* 2nd level table prefix code addend */ /* step size to replicate values in current table */ /* key length of current table */ /* size of current table */ /* sum of root table size and 2nd level table sizes */
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var table []huffmanCode
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var len int
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var symbol int
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var key uint64
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var key_step uint64
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var sub_key uint64
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var sub_key_step uint64
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var step int
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var table_bits int
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var table_size int
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var total_size int
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var max_length int = -1
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var bits int
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var bits_count int
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assert(root_bits <= reverseBitsMax)
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assert(huffmanMaxCodeLength-root_bits <= reverseBitsMax)
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||
|
|
||
|
for symbolListGet(symbol_lists, max_length) == 0xFFFF {
|
||
|
max_length--
|
||
|
}
|
||
|
max_length += huffmanMaxCodeLength + 1
|
||
|
|
||
|
table = root_table
|
||
|
table_bits = root_bits
|
||
|
table_size = 1 << uint(table_bits)
|
||
|
total_size = table_size
|
||
|
|
||
|
/* Fill in the root table. Reduce the table size to if possible,
|
||
|
and create the repetitions by memcpy. */
|
||
|
if table_bits > max_length {
|
||
|
table_bits = max_length
|
||
|
table_size = 1 << uint(table_bits)
|
||
|
}
|
||
|
|
||
|
key = 0
|
||
|
key_step = reverseBitsLowest
|
||
|
bits = 1
|
||
|
step = 2
|
||
|
for {
|
||
|
symbol = bits - (huffmanMaxCodeLength + 1)
|
||
|
for bits_count = int(count[bits]); bits_count != 0; bits_count-- {
|
||
|
symbol = int(symbolListGet(symbol_lists, symbol))
|
||
|
code = constructHuffmanCode(byte(bits), uint16(symbol))
|
||
|
replicateValue(table[reverseBits8(key):], step, table_size, code)
|
||
|
key += key_step
|
||
|
}
|
||
|
|
||
|
step <<= 1
|
||
|
key_step >>= 1
|
||
|
bits++
|
||
|
if bits > table_bits {
|
||
|
break
|
||
|
}
|
||
|
}
|
||
|
|
||
|
/* If root_bits != table_bits then replicate to fill the remaining slots. */
|
||
|
for total_size != table_size {
|
||
|
copy(table[table_size:], table[:uint(table_size)])
|
||
|
table_size <<= 1
|
||
|
}
|
||
|
|
||
|
/* Fill in 2nd level tables and add pointers to root table. */
|
||
|
key_step = reverseBitsLowest >> uint(root_bits-1)
|
||
|
|
||
|
sub_key = reverseBitsLowest << 1
|
||
|
sub_key_step = reverseBitsLowest
|
||
|
len = root_bits + 1
|
||
|
step = 2
|
||
|
for ; len <= max_length; len++ {
|
||
|
symbol = len - (huffmanMaxCodeLength + 1)
|
||
|
for ; count[len] != 0; count[len]-- {
|
||
|
if sub_key == reverseBitsLowest<<1 {
|
||
|
table = table[table_size:]
|
||
|
table_bits = nextTableBitSize(count, int(len), root_bits)
|
||
|
table_size = 1 << uint(table_bits)
|
||
|
total_size += table_size
|
||
|
sub_key = reverseBits8(key)
|
||
|
key += key_step
|
||
|
root_table[sub_key] = constructHuffmanCode(byte(table_bits+root_bits), uint16(uint64(uint(-cap(table)+cap(root_table)))-sub_key))
|
||
|
sub_key = 0
|
||
|
}
|
||
|
|
||
|
symbol = int(symbolListGet(symbol_lists, symbol))
|
||
|
code = constructHuffmanCode(byte(len-root_bits), uint16(symbol))
|
||
|
replicateValue(table[reverseBits8(sub_key):], step, table_size, code)
|
||
|
sub_key += sub_key_step
|
||
|
}
|
||
|
|
||
|
step <<= 1
|
||
|
sub_key_step >>= 1
|
||
|
}
|
||
|
|
||
|
return uint32(total_size)
|
||
|
}
|
||
|
|
||
|
func buildSimpleHuffmanTable(table []huffmanCode, root_bits int, val []uint16, num_symbols uint32) uint32 {
|
||
|
var table_size uint32 = 1
|
||
|
var goal_size uint32 = 1 << uint(root_bits)
|
||
|
switch num_symbols {
|
||
|
case 0:
|
||
|
table[0] = constructHuffmanCode(0, val[0])
|
||
|
|
||
|
case 1:
|
||
|
if val[1] > val[0] {
|
||
|
table[0] = constructHuffmanCode(1, val[0])
|
||
|
table[1] = constructHuffmanCode(1, val[1])
|
||
|
} else {
|
||
|
table[0] = constructHuffmanCode(1, val[1])
|
||
|
table[1] = constructHuffmanCode(1, val[0])
|
||
|
}
|
||
|
|
||
|
table_size = 2
|
||
|
|
||
|
case 2:
|
||
|
table[0] = constructHuffmanCode(1, val[0])
|
||
|
table[2] = constructHuffmanCode(1, val[0])
|
||
|
if val[2] > val[1] {
|
||
|
table[1] = constructHuffmanCode(2, val[1])
|
||
|
table[3] = constructHuffmanCode(2, val[2])
|
||
|
} else {
|
||
|
table[1] = constructHuffmanCode(2, val[2])
|
||
|
table[3] = constructHuffmanCode(2, val[1])
|
||
|
}
|
||
|
|
||
|
table_size = 4
|
||
|
|
||
|
case 3:
|
||
|
var i int
|
||
|
var k int
|
||
|
for i = 0; i < 3; i++ {
|
||
|
for k = i + 1; k < 4; k++ {
|
||
|
if val[k] < val[i] {
|
||
|
var t uint16 = val[k]
|
||
|
val[k] = val[i]
|
||
|
val[i] = t
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
|
||
|
table[0] = constructHuffmanCode(2, val[0])
|
||
|
table[2] = constructHuffmanCode(2, val[1])
|
||
|
table[1] = constructHuffmanCode(2, val[2])
|
||
|
table[3] = constructHuffmanCode(2, val[3])
|
||
|
table_size = 4
|
||
|
|
||
|
case 4:
|
||
|
if val[3] < val[2] {
|
||
|
var t uint16 = val[3]
|
||
|
val[3] = val[2]
|
||
|
val[2] = t
|
||
|
}
|
||
|
|
||
|
table[0] = constructHuffmanCode(1, val[0])
|
||
|
table[1] = constructHuffmanCode(2, val[1])
|
||
|
table[2] = constructHuffmanCode(1, val[0])
|
||
|
table[3] = constructHuffmanCode(3, val[2])
|
||
|
table[4] = constructHuffmanCode(1, val[0])
|
||
|
table[5] = constructHuffmanCode(2, val[1])
|
||
|
table[6] = constructHuffmanCode(1, val[0])
|
||
|
table[7] = constructHuffmanCode(3, val[3])
|
||
|
table_size = 8
|
||
|
}
|
||
|
|
||
|
for table_size != goal_size {
|
||
|
copy(table[table_size:], table[:uint(table_size)])
|
||
|
table_size <<= 1
|
||
|
}
|
||
|
|
||
|
return goal_size
|
||
|
}
|