kc3-lang/brotli/enc/prefix.cc
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Hash : c66e4e3e
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Date : 2013-10-23T13:06:13
Add brotli compressor This commit is for the encoder for brotli compression format. Brotli is a generic byte-level compression algorithm.
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enc/prefix.cc
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// Copyright 2013 Google Inc. All Rights Reserved. // // 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. // // Functions for encoding of integers into prefix codes the amount of extra // bits, and the actual values of the extra bits. #include "./prefix.h" #include "./fast_log.h" namespace brotli { // Represents the range of values belonging to a prefix code: // [offset, offset + 2^nbits) struct PrefixCodeRange { int offset; int nbits; }; static const PrefixCodeRange kBlockLengthPrefixCode[kNumBlockLenPrefixes] = { { 1, 2}, { 5, 2}, { 9, 2}, { 13, 2}, { 17, 3}, { 25, 3}, { 33, 3}, { 41, 3}, { 49, 4}, { 65, 4}, { 81, 4}, { 97, 4}, { 113, 5}, { 145, 5}, { 177, 5}, { 209, 5}, { 241, 6}, { 305, 6}, { 369, 7}, { 497, 8}, { 753, 9}, { 1265, 10}, {2289, 11}, {4337, 12}, {8433, 13}, {16625, 24} }; static const PrefixCodeRange kInsertLengthPrefixCode[kNumInsertLenPrefixes] = { { 0, 0}, { 1, 0}, { 2, 0}, { 3, 0}, { 4, 0}, { 5, 0}, { 6, 1}, { 8, 1}, { 10, 2}, { 14, 2}, { 18, 3}, { 26, 3}, { 34, 4}, { 50, 4}, { 66, 5}, { 98, 5}, { 130, 6}, { 194, 7}, { 322, 8}, { 578, 9}, {1090, 10}, {2114, 12}, {6210, 14}, {22594, 24}, }; static const PrefixCodeRange kCopyLengthPrefixCode[kNumCopyLenPrefixes] = { { 2, 0}, { 3, 0}, { 4, 0}, { 5, 0}, { 6, 0}, { 7, 0}, { 8, 0}, { 9, 0}, { 10, 1}, { 12, 1}, { 14, 2}, { 18, 2}, { 22, 3}, { 30, 3}, { 38, 4}, { 54, 4}, { 70, 5}, { 102, 5}, { 134, 6}, { 198, 7}, {326, 8}, { 582, 9}, {1094, 10}, {2118, 24}, }; static const int kInsertAndCopyRangeLut[9] = { 0, 1, 4, 2, 3, 6, 5, 7, 8, }; static const int kInsertRangeLut[9] = { 0, 0, 1, 1, 0, 2, 1, 2, 2, }; static const int kCopyRangeLut[9] = { 0, 1, 0, 1, 2, 0, 2, 1, 2, }; int InsertLengthPrefix(int length) { for (int i = 0; i < kNumInsertLenPrefixes; ++i) { const PrefixCodeRange& range = kInsertLengthPrefixCode[i]; if (length >= range.offset && length < range.offset + (1 << range.nbits)) { return i; } } return -1; } int CopyLengthPrefix(int length) { for (int i = 0; i < kNumCopyLenPrefixes; ++i) { const PrefixCodeRange& range = kCopyLengthPrefixCode[i]; if (length >= range.offset && length < range.offset + (1 << range.nbits)) { return i; } } return -1; } int CommandPrefix(int insert_length, int copy_length) { if (copy_length == 0) { copy_length = 3; } int insert_prefix = InsertLengthPrefix(insert_length); int copy_prefix = CopyLengthPrefix(copy_length); int range_idx = 3 * (insert_prefix >> 3) + (copy_prefix >> 3); return ((kInsertAndCopyRangeLut[range_idx] << 6) + ((insert_prefix & 7) << 3) + (copy_prefix & 7)); } int InsertLengthExtraBits(int code) { int insert_code = (kInsertRangeLut[code >> 6] << 3) + ((code >> 3) & 7); return kInsertLengthPrefixCode[insert_code].nbits; } int InsertLengthOffset(int code) { int insert_code = (kInsertRangeLut[code >> 6] << 3) + ((code >> 3) & 7); return kInsertLengthPrefixCode[insert_code].offset; } int CopyLengthExtraBits(int code) { int copy_code = (kCopyRangeLut[code >> 6] << 3) + (code & 7); return kCopyLengthPrefixCode[copy_code].nbits; } int CopyLengthOffset(int code) { int copy_code = (kCopyRangeLut[code >> 6] << 3) + (code & 7); return kCopyLengthPrefixCode[copy_code].offset; } void PrefixEncodeCopyDistance(int distance_code, int num_direct_codes, int postfix_bits, uint16_t* code, int* nbits, uint32_t* extra_bits) { distance_code -= 1; if (distance_code < kNumDistanceShortCodes + num_direct_codes) { *code = distance_code; *nbits = 0; *extra_bits = 0; return; } distance_code -= kNumDistanceShortCodes + num_direct_codes; distance_code += (1 << (postfix_bits + 2)); int bucket = Log2Floor(distance_code) - 1; int postfix_mask = (1 << postfix_bits) - 1; int postfix = distance_code & postfix_mask; int prefix = (distance_code >> bucket) & 1; int offset = (2 + prefix) << bucket; *nbits = bucket - postfix_bits; *code = kNumDistanceShortCodes + num_direct_codes + ((2 * (*nbits - 1) + prefix) << postfix_bits) + postfix; *extra_bits = (distance_code - offset) >> postfix_bits; } int BlockLengthPrefix(int length) { for (int i = 0; i < kNumBlockLenPrefixes; ++i) { const PrefixCodeRange& range = kBlockLengthPrefixCode[i]; if (length >= range.offset && length < range.offset + (1 << range.nbits)) { return i; } } return -1; } int BlockLengthExtraBits(int length_code) { return kBlockLengthPrefixCode[length_code].nbits; } int BlockLengthOffset(int length_code) { return kBlockLengthPrefixCode[length_code].offset; } } // namespace brotli