Coverage Report

Created: 2026-06-30 07:12

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/libjxl/lib/jxl/huffman_table.cc
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// Copyright (c) the JPEG XL Project Authors. All rights reserved.
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//
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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#include "lib/jxl/huffman_table.h"
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#include <cstdint>
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#include <cstring> /* for memcpy */
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#include <vector>
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#include "lib/jxl/ans_params.h"
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namespace jxl {
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/* Returns reverse(reverse(key, len) + 1, len), where reverse(key, len) is the
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   bit-wise reversal of the len least significant bits of key. */
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2.78M
static inline int GetNextKey(int key, int len) {
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2.78M
  int step = 1u << (len - 1);
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5.56M
  while (key & step) {
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2.78M
    step >>= 1;
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2.78M
  }
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2.78M
  return (key & (step - 1)) + step;
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2.78M
}
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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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static inline void ReplicateValue(HuffmanCode* table, int step, int end,
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2.78M
                                  HuffmanCode code) {
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2.86M
  do {
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2.86M
    end -= step;
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2.86M
    table[end] = code;
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2.86M
  } while (end > 0);
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2.78M
}
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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 next
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   processed symbol */
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static inline size_t NextTableBitSize(const uint16_t* const count, size_t len,
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97.6k
                                      int root_bits) {
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97.6k
  size_t left = 1u << (len - root_bits);
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98.0k
  while (len < PREFIX_MAX_BITS) {
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87.9k
    if (left <= count[len]) break;
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466
    left -= count[len];
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466
    ++len;
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    left <<= 1;
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466
  }
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97.6k
  return len - root_bits;
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97.6k
}
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uint32_t BuildHuffmanTable(HuffmanCode* root_table, int root_bits,
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                           const uint8_t* const code_lengths,
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5.69k
                           size_t code_lengths_size, uint16_t* count) {
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5.69k
  HuffmanCode code;   /* current table entry */
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5.69k
  HuffmanCode* table; /* next available space in table */
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5.69k
  size_t len;         /* current code length */
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5.69k
  size_t symbol;      /* symbol index in original or sorted table */
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5.69k
  int key;            /* reversed prefix code */
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5.69k
  int step;           /* step size to replicate values in current table */
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5.69k
  int low;            /* low bits for current root entry */
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5.69k
  int mask;           /* mask for low bits */
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5.69k
  size_t table_bits;  /* key length of current table */
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5.69k
  int table_size;     /* size of current table */
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5.69k
  int total_size;     /* sum of root table size and 2nd level table sizes */
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  /* offsets in sorted table for each length */
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5.69k
  uint16_t offset[PREFIX_MAX_BITS + 1];
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5.69k
  size_t max_length = 1;
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5.69k
  if (code_lengths_size > 1u << PREFIX_MAX_BITS) return 0;
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  /* symbols sorted by code length */
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5.69k
  std::vector<uint16_t> sorted_storage(code_lengths_size);
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5.69k
  uint16_t* sorted = sorted_storage.data();
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  /* generate offsets into sorted symbol table by code length */
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5.69k
  {
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5.69k
    uint16_t sum = 0;
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91.1k
    for (len = 1; len <= PREFIX_MAX_BITS; len++) {
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85.4k
      offset[len] = sum;
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85.4k
      if (count[len]) {
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13.0k
        sum = static_cast<uint16_t>(sum + count[len]);
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13.0k
        max_length = len;
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13.0k
      }
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85.4k
    }
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5.69k
  }
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  /* sort symbols by length, by symbol order within each length */
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10.1M
  for (symbol = 0; symbol < code_lengths_size; symbol++) {
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10.1M
    if (code_lengths[symbol] != 0) {
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2.78M
      sorted[offset[code_lengths[symbol]]++] = symbol;
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2.78M
    }
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10.1M
  }
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5.69k
  table = root_table;
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5.69k
  table_bits = root_bits;
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5.69k
  table_size = 1u << table_bits;
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5.69k
  total_size = table_size;
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  /* special case code with only one value */
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5.69k
  if (offset[PREFIX_MAX_BITS] == 1) {
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365
    code.bits = 0;
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365
    code.value = static_cast<uint16_t>(sorted[0]);
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12.0k
    for (key = 0; key < total_size; ++key) {
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11.6k
      table[key] = code;
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11.6k
    }
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365
    return total_size;
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365
  }
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  /* fill in root table */
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  /* let's reduce the table size to a smaller size if possible, and */
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  /* create the repetitions by memcpy if possible in the coming loop */
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5.33k
  if (table_bits > max_length) {
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4.50k
    table_bits = max_length;
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4.50k
    table_size = 1u << table_bits;
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4.50k
  }
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5.33k
  key = 0;
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5.33k
  symbol = 0;
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5.33k
  code.bits = 1;
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5.33k
  step = 2;
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19.0k
  do {
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71.4k
    for (; count[code.bits] != 0; --count[code.bits]) {
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52.3k
      code.value = static_cast<uint16_t>(sorted[symbol++]);
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52.3k
      ReplicateValue(&table[key], step, table_size, code);
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52.3k
      key = GetNextKey(key, code.bits);
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52.3k
    }
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19.0k
    step <<= 1;
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19.0k
  } while (++code.bits <= table_bits);
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  /* if root_bits != table_bits we only created one fraction of the */
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  /* table, and we need to replicate it now. */
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20.9k
  while (total_size != table_size) {
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15.6k
    memcpy(&table[table_size], &table[0], table_size * sizeof(table[0]));
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15.6k
    table_size <<= 1;
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15.6k
  }
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  /* fill in 2nd level tables and add pointers to root table */
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5.33k
  mask = total_size - 1;
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5.33k
  low = -1;
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7.25k
  for (len = root_bits + 1, step = 2; len <= max_length; ++len, step <<= 1) {
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2.73M
    for (; count[len] != 0; --count[len]) {
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2.73M
      if ((key & mask) != low) {
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97.6k
        table += table_size;
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97.6k
        table_bits = NextTableBitSize(count, len, root_bits);
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97.6k
        table_size = 1u << table_bits;
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97.6k
        total_size += table_size;
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97.6k
        low = key & mask;
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97.6k
        root_table[low].bits = static_cast<uint8_t>(table_bits + root_bits);
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97.6k
        root_table[low].value =
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97.6k
            static_cast<uint16_t>((table - root_table) - low);
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97.6k
      }
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2.73M
      code.bits = static_cast<uint8_t>(len - root_bits);
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2.73M
      code.value = static_cast<uint16_t>(sorted[symbol++]);
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2.73M
      ReplicateValue(&table[key >> root_bits], step, table_size, code);
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2.73M
      key = GetNextKey(key, len);
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2.73M
    }
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1.92k
  }
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5.33k
  return total_size;
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5.69k
}
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}  // namespace jxl