Coverage Report

Created: 2026-06-30 11:14

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/work/workdir/UnpackedTarball/harfbuzz/src/hb-cache.hh
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1
/*
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 * Copyright © 2012  Google, Inc.
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 *
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 *  This is part of HarfBuzz, a text shaping library.
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 *
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 * Permission is hereby granted, without written agreement and without
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 * license or royalty fees, to use, copy, modify, and distribute this
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 * software and its documentation for any purpose, provided that the
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 * above copyright notice and the following two paragraphs appear in
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 * all copies of this software.
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 *
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 * IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE TO ANY PARTY FOR
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 * DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
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 * ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN
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 * IF THE COPYRIGHT HOLDER HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH
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 * DAMAGE.
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 *
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 * THE COPYRIGHT HOLDER SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING,
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 * BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
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 * FITNESS FOR A PARTICULAR PURPOSE.  THE SOFTWARE PROVIDED HEREUNDER IS
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 * ON AN "AS IS" BASIS, AND THE COPYRIGHT HOLDER HAS NO OBLIGATION TO
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 * PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
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 *
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 * Google Author(s): Behdad Esfahbod
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 */
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#ifndef HB_CACHE_HH
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#define HB_CACHE_HH
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#include "hb.hh"
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/* Implements a lockfree and thread-safe cache for int->int functions,
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 * using (optionally) _relaxed_ atomic integer operations.
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 *
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 * The cache is a fixed-size array of 16-bit or 32-bit integers,
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 * typically 256 elements.
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 *
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 * The key is split into two parts: the cache index (high bits)
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 * and the rest (low bits).
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 *
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 * The cache index is used to index into the array.  The array
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 * member is a 16-bit or 32-bit integer that is used *both*
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 * to store the low bits of the key, and the value.
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 *
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 * The value is stored in the least significant bits of the integer.
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 * The low bits of the key are stored in the most significant bits
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 * of the integer.
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 *
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 * A cache hit is detected by comparing the low bits of the key
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 * with the high bits of the integer at the array position indexed
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 * by the high bits of the key. If they match, the value is extracted
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 * from the least significant bits of the integer and returned.
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 * Otherwise, a cache miss is reported.
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 *
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 * Cache operations (storage and retrieval) involve just a few
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 * arithmetic operations and a single memory access.
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 */
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template <unsigned int key_bits=16,
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   unsigned int value_bits=8 + 32 - key_bits,
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   unsigned int cache_bits=8,
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   bool thread_safe=true>
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struct hb_cache_t
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{
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  using item_t = typename std::conditional<thread_safe,
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             typename std::conditional<key_bits + value_bits - cache_bits <= 8,
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                     hb_atomic_t<unsigned char>,
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                     typename std::conditional<key_bits + value_bits - cache_bits <= 16,
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                             hb_atomic_t<unsigned short>,
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                             hb_atomic_t<unsigned int>>::type>::type,
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             typename std::conditional<key_bits + value_bits - cache_bits <= 8,
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                     unsigned char,
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                     typename std::conditional<key_bits + value_bits - cache_bits <= 16,
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                             unsigned short,
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                             unsigned int>::type>::type
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            >::type;
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  static_assert ((key_bits >= cache_bits), "");
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  static_assert ((key_bits + value_bits <= cache_bits + 8 * sizeof (item_t)), "");
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  static constexpr unsigned MAX_VALUE = (1u << value_bits) - 1;
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13.5k
  hb_cache_t () { clear (); }
hb_cache_t<21u, 3u, 8u, true>::hb_cache_t()
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84
66
  hb_cache_t () { clear (); }
hb_cache_t<16u, 8u, 8u, true>::hb_cache_t()
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84
66
  hb_cache_t () { clear (); }
hb_cache_t<21u, 19u, 8u, true>::hb_cache_t()
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84
12.9k
  hb_cache_t () { clear (); }
Unexecuted instantiation: hb_cache_t<24u, 16u, 8u, true>::hb_cache_t()
hb_cache_t<20u, 20u, 8u, true>::hb_cache_t()
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84
464
  hb_cache_t () { clear (); }
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  void clear ()
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13.7k
  {
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13.7k
    for (auto &v : values)
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3.50M
      v = -1;
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13.7k
  }
hb_cache_t<21u, 3u, 8u, true>::clear()
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87
66
  {
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66
    for (auto &v : values)
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16.8k
      v = -1;
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66
  }
hb_cache_t<16u, 8u, 8u, true>::clear()
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87
260
  {
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260
    for (auto &v : values)
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66.5k
      v = -1;
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260
  }
Unexecuted instantiation: hb_cache_t<14u, 1u, 8u, true>::clear()
hb_cache_t<21u, 19u, 8u, true>::clear()
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87
12.9k
  {
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12.9k
    for (auto &v : values)
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3.30M
      v = -1;
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12.9k
  }
Unexecuted instantiation: hb_cache_t<24u, 16u, 8u, true>::clear()
hb_cache_t<20u, 20u, 8u, true>::clear()
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87
464
  {
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464
    for (auto &v : values)
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118k
      v = -1;
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464
  }
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  HB_HOT
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  bool get (unsigned int key, unsigned int *value) const
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613M
  {
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613M
    unsigned int k = key & ((1u<<cache_bits)-1);
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613M
    unsigned int v = values[k];
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613M
    if ((key_bits + value_bits - cache_bits == 8 * sizeof (item_t) && (item_t) v == (item_t) -1) ||
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607M
  (v >> value_bits) != (key >> cache_bits))
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48.9M
      return false;
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565M
    *value = v & ((1u<<value_bits)-1);
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565M
    return true;
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613M
  }
hb_cache_t<16u, 8u, 8u, true>::get(unsigned int, unsigned int*) const
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94
131M
  {
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131M
    unsigned int k = key & ((1u<<cache_bits)-1);
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131M
    unsigned int v = values[k];
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131M
    if ((key_bits + value_bits - cache_bits == 8 * sizeof (item_t) && (item_t) v == (item_t) -1) ||
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131M
  (v >> value_bits) != (key >> cache_bits))
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26.6k
      return false;
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131M
    *value = v & ((1u<<value_bits)-1);
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131M
    return true;
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131M
  }
hb_cache_t<21u, 3u, 8u, true>::get(unsigned int, unsigned int*) const
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94
230M
  {
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230M
    unsigned int k = key & ((1u<<cache_bits)-1);
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230M
    unsigned int v = values[k];
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230M
    if ((key_bits + value_bits - cache_bits == 8 * sizeof (item_t) && (item_t) v == (item_t) -1) ||
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230M
  (v >> value_bits) != (key >> cache_bits))
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1.22M
      return false;
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229M
    *value = v & ((1u<<value_bits)-1);
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229M
    return true;
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230M
  }
Unexecuted instantiation: hb_cache_t<14u, 1u, 8u, true>::get(unsigned int, unsigned int*) const
hb_cache_t<21u, 19u, 8u, true>::get(unsigned int, unsigned int*) const
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94
248M
  {
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248M
    unsigned int k = key & ((1u<<cache_bits)-1);
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248M
    unsigned int v = values[k];
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248M
    if ((key_bits + value_bits - cache_bits == 8 * sizeof (item_t) && (item_t) v == (item_t) -1) ||
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241M
  (v >> value_bits) != (key >> cache_bits))
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47.6M
      return false;
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200M
    *value = v & ((1u<<value_bits)-1);
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200M
    return true;
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248M
  }
Unexecuted instantiation: hb_cache_t<24u, 16u, 8u, true>::get(unsigned int, unsigned int*) const
hb_cache_t<20u, 20u, 8u, true>::get(unsigned int, unsigned int*) const
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94
4.10M
  {
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4.10M
    unsigned int k = key & ((1u<<cache_bits)-1);
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4.10M
    unsigned int v = values[k];
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4.10M
    if ((key_bits + value_bits - cache_bits == 8 * sizeof (item_t) && (item_t) v == (item_t) -1) ||
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4.10M
  (v >> value_bits) != (key >> cache_bits))
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1.07k
      return false;
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4.10M
    *value = v & ((1u<<value_bits)-1);
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4.10M
    return true;
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4.10M
  }
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  HB_HOT
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  void set (unsigned int key, unsigned int value)
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2.34M
  {
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2.34M
    if (unlikely ((key >> key_bits) || (value >> value_bits)))
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276k
      return; /* Overflows */
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2.06M
    set_unchecked (key, value);
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2.06M
  }
Unexecuted instantiation: hb_cache_t<16u, 8u, 8u, true>::set(unsigned int, unsigned int)
hb_cache_t<21u, 3u, 8u, true>::set(unsigned int, unsigned int)
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106
1.22M
  {
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1.22M
    if (unlikely ((key >> key_bits) || (value >> value_bits)))
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276k
      return; /* Overflows */
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944k
    set_unchecked (key, value);
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944k
  }
hb_cache_t<21u, 19u, 8u, true>::set(unsigned int, unsigned int)
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106
1.12M
  {
107
1.12M
    if (unlikely ((key >> key_bits) || (value >> value_bits)))
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0
      return; /* Overflows */
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1.12M
    set_unchecked (key, value);
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1.12M
  }
Unexecuted instantiation: hb_cache_t<24u, 16u, 8u, true>::set(unsigned int, unsigned int)
hb_cache_t<20u, 20u, 8u, true>::set(unsigned int, unsigned int)
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106
1.07k
  {
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1.07k
    if (unlikely ((key >> key_bits) || (value >> value_bits)))
108
0
      return; /* Overflows */
109
1.07k
    set_unchecked (key, value);
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1.07k
  }
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112
  HB_HOT
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  void set_unchecked (unsigned int key, unsigned int value)
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2.09M
  {
115
2.09M
    unsigned int k = key & ((1u<<cache_bits)-1);
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2.09M
    unsigned int v = ((key>>cache_bits)<<value_bits) | value;
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2.09M
    values[k] = v;
118
2.09M
  }
hb_cache_t<16u, 8u, 8u, true>::set_unchecked(unsigned int, unsigned int)
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114
26.6k
  {
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26.6k
    unsigned int k = key & ((1u<<cache_bits)-1);
116
26.6k
    unsigned int v = ((key>>cache_bits)<<value_bits) | value;
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26.6k
    values[k] = v;
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26.6k
  }
hb_cache_t<21u, 3u, 8u, true>::set_unchecked(unsigned int, unsigned int)
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114
944k
  {
115
944k
    unsigned int k = key & ((1u<<cache_bits)-1);
116
944k
    unsigned int v = ((key>>cache_bits)<<value_bits) | value;
117
944k
    values[k] = v;
118
944k
  }
Unexecuted instantiation: hb_cache_t<14u, 1u, 8u, true>::set_unchecked(unsigned int, unsigned int)
hb_cache_t<21u, 19u, 8u, true>::set_unchecked(unsigned int, unsigned int)
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Source
114
1.12M
  {
115
1.12M
    unsigned int k = key & ((1u<<cache_bits)-1);
116
1.12M
    unsigned int v = ((key>>cache_bits)<<value_bits) | value;
117
1.12M
    values[k] = v;
118
1.12M
  }
Unexecuted instantiation: hb_cache_t<24u, 16u, 8u, true>::set_unchecked(unsigned int, unsigned int)
hb_cache_t<20u, 20u, 8u, true>::set_unchecked(unsigned int, unsigned int)
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114
1.07k
  {
115
1.07k
    unsigned int k = key & ((1u<<cache_bits)-1);
116
1.07k
    unsigned int v = ((key>>cache_bits)<<value_bits) | value;
117
1.07k
    values[k] = v;
118
1.07k
  }
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  private:
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  item_t values[1u<<cache_bits];
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};
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#endif /* HB_CACHE_HH */