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1 /*
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2 * Copyright 1997-2006 Sun Microsystems, Inc. All Rights Reserved.
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3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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4 *
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5 * This code is free software; you can redistribute it and/or modify it
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6 * under the terms of the GNU General Public License version 2 only, as
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7 * published by the Free Software Foundation.
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8 *
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9 * This code is distributed in the hope that it will be useful, but WITHOUT
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10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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12 * version 2 for more details (a copy is included in the LICENSE file that
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13 * accompanied this code).
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14 *
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15 * You should have received a copy of the GNU General Public License version
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16 * 2 along with this work; if not, write to the Free Software Foundation,
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17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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18 *
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19 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
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20 * CA 95054 USA or visit www.sun.com if you need additional information or
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21 * have any questions.
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22 *
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23 */
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24
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25 // Closure for iterating over BitMaps
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26
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27 class BitMapClosure VALUE_OBJ_CLASS_SPEC {
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28 public:
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29 // Callback when bit in map is set
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30 virtual void do_bit(size_t offset) = 0;
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31 };
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32
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33
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34 // Operations for bitmaps represented as arrays of unsigned 32- or 64-bit
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35 // integers (uintptr_t).
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36 //
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37 // Bit offsets are numbered from 0 to size-1
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38
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39 class BitMap VALUE_OBJ_CLASS_SPEC {
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40 friend class BitMap2D;
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41
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42 public:
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43 typedef size_t idx_t; // Type used for bit and word indices.
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44
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45 // Hints for range sizes.
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46 typedef enum {
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47 unknown_range, small_range, large_range
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48 } RangeSizeHint;
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49
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50 private:
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51 idx_t* _map; // First word in bitmap
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52 idx_t _size; // Size of bitmap (in bits)
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53
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54 // Puts the given value at the given offset, using resize() to size
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55 // the bitmap appropriately if needed using factor-of-two expansion.
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56 void at_put_grow(idx_t index, bool value);
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57
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58 protected:
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59 // Return the position of bit within the word that contains it (e.g., if
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60 // bitmap words are 32 bits, return a number 0 <= n <= 31).
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61 static idx_t bit_in_word(idx_t bit) { return bit & (BitsPerWord - 1); }
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62
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63 // Return a mask that will select the specified bit, when applied to the word
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64 // containing the bit.
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65 static idx_t bit_mask(idx_t bit) { return (idx_t)1 << bit_in_word(bit); }
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66
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67 // Return the index of the word containing the specified bit.
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68 static idx_t word_index(idx_t bit) { return bit >> LogBitsPerWord; }
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69
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70 // Return the bit number of the first bit in the specified word.
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71 static idx_t bit_index(idx_t word) { return word << LogBitsPerWord; }
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72
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73 // Return the array of bitmap words, or a specific word from it.
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74 idx_t* map() const { return _map; }
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75 idx_t map(idx_t word) const { return _map[word]; }
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76
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77 // Return a pointer to the word containing the specified bit.
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78 idx_t* word_addr(idx_t bit) const { return map() + word_index(bit); }
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79
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80 // Set a word to a specified value or to all ones; clear a word.
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81 void set_word (idx_t word, idx_t val) { _map[word] = val; }
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82 void set_word (idx_t word) { set_word(word, ~(uintptr_t)0); }
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83 void clear_word(idx_t word) { _map[word] = 0; }
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84
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85 // Utilities for ranges of bits. Ranges are half-open [beg, end).
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86
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87 // Ranges within a single word.
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88 inline idx_t inverted_bit_mask_for_range(idx_t beg, idx_t end) const;
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89 inline void set_range_within_word (idx_t beg, idx_t end);
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90 inline void clear_range_within_word (idx_t beg, idx_t end);
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91 inline void par_put_range_within_word (idx_t beg, idx_t end, bool value);
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92
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93 // Ranges spanning entire words.
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94 inline void set_range_of_words (idx_t beg, idx_t end);
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95 inline void clear_range_of_words (idx_t beg, idx_t end);
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96 inline void set_large_range_of_words (idx_t beg, idx_t end);
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97 inline void clear_large_range_of_words (idx_t beg, idx_t end);
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98
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99 // The index of the first full word in a range.
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100 inline idx_t word_index_round_up(idx_t bit) const;
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101
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102 // Verification, statistics.
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103 void verify_index(idx_t index) const {
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104 assert(index < _size, "BitMap index out of bounds");
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105 }
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106
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107 void verify_range(idx_t beg_index, idx_t end_index) const {
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108 #ifdef ASSERT
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109 assert(beg_index <= end_index, "BitMap range error");
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110 // Note that [0,0) and [size,size) are both valid ranges.
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111 if (end_index != _size) verify_index(end_index);
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112 #endif
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113 }
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114
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115 public:
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116
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117 // Constructs a bitmap with no map, and size 0.
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118 BitMap() : _map(NULL), _size(0) {}
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119
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120 // Construction
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121 BitMap(idx_t* map, idx_t size_in_bits);
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122
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123 // Allocates necessary data structure in resource area
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124 BitMap(idx_t size_in_bits);
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125
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126 void set_map(idx_t* map) { _map = map; }
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127 void set_size(idx_t size_in_bits) { _size = size_in_bits; }
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128
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129 // Allocates necessary data structure in resource area.
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130 // Preserves state currently in bit map by copying data.
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131 // Zeros any newly-addressable bits.
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132 // Does not perform any frees (i.e., of current _map).
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133 void resize(idx_t size_in_bits);
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134
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135 // Accessing
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136 idx_t size() const { return _size; }
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137 idx_t size_in_words() const {
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138 return word_index(size() + BitsPerWord - 1);
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139 }
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140
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141 bool at(idx_t index) const {
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142 verify_index(index);
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143 return (*word_addr(index) & bit_mask(index)) != 0;
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144 }
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145
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146 // Align bit index up or down to the next bitmap word boundary, or check
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147 // alignment.
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148 static idx_t word_align_up(idx_t bit) {
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149 return align_size_up(bit, BitsPerWord);
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150 }
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151 static idx_t word_align_down(idx_t bit) {
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152 return align_size_down(bit, BitsPerWord);
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153 }
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154 static bool is_word_aligned(idx_t bit) {
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155 return word_align_up(bit) == bit;
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156 }
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157
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158 // Set or clear the specified bit.
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159 inline void set_bit(idx_t bit);
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160 inline void clear_bit(idx_t bit);
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161
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162 // Atomically set or clear the specified bit.
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163 inline bool par_set_bit(idx_t bit);
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164 inline bool par_clear_bit(idx_t bit);
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165
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166 // Put the given value at the given offset. The parallel version
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167 // will CAS the value into the bitmap and is quite a bit slower.
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168 // The parallel version also returns a value indicating if the
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169 // calling thread was the one that changed the value of the bit.
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170 void at_put(idx_t index, bool value);
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171 bool par_at_put(idx_t index, bool value);
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172
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173 // Update a range of bits. Ranges are half-open [beg, end).
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174 void set_range (idx_t beg, idx_t end);
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175 void clear_range (idx_t beg, idx_t end);
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176 void set_large_range (idx_t beg, idx_t end);
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177 void clear_large_range (idx_t beg, idx_t end);
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178 void at_put_range(idx_t beg, idx_t end, bool value);
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179 void par_at_put_range(idx_t beg, idx_t end, bool value);
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180 void at_put_large_range(idx_t beg, idx_t end, bool value);
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181 void par_at_put_large_range(idx_t beg, idx_t end, bool value);
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182
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183 // Update a range of bits, using a hint about the size. Currently only
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184 // inlines the predominant case of a 1-bit range. Works best when hint is a
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185 // compile-time constant.
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186 inline void set_range(idx_t beg, idx_t end, RangeSizeHint hint);
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187 inline void clear_range(idx_t beg, idx_t end, RangeSizeHint hint);
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188 inline void par_set_range(idx_t beg, idx_t end, RangeSizeHint hint);
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189 inline void par_clear_range (idx_t beg, idx_t end, RangeSizeHint hint);
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190
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191 // Clearing
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192 void clear();
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193 void clear_large();
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194
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195 // Iteration support
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196 void iterate(BitMapClosure* blk, idx_t leftIndex, idx_t rightIndex);
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197 inline void iterate(BitMapClosure* blk) {
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198 // call the version that takes an interval
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199 iterate(blk, 0, size());
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200 }
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201
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202 // Looking for 1's and 0's to the "right"
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203 idx_t get_next_one_offset (idx_t l_index, idx_t r_index) const;
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204 idx_t get_next_zero_offset(idx_t l_index, idx_t r_index) const;
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205
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206 idx_t get_next_one_offset(idx_t offset) const {
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207 return get_next_one_offset(offset, size());
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208 }
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209 idx_t get_next_zero_offset(idx_t offset) const {
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210 return get_next_zero_offset(offset, size());
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211 }
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212
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213
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214
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215 // Find the next one bit in the range [beg_bit, end_bit), or return end_bit if
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216 // no one bit is found. Equivalent to get_next_one_offset(), but inline for
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217 // use in performance-critical code.
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218 inline idx_t find_next_one_bit(idx_t beg_bit, idx_t end_bit) const;
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219
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220 // Set operations.
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221 void set_union(BitMap bits);
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222 void set_difference(BitMap bits);
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223 void set_intersection(BitMap bits);
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224 // Returns true iff "this" is a superset of "bits".
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225 bool contains(const BitMap bits) const;
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226 // Returns true iff "this and "bits" have a non-empty intersection.
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227 bool intersects(const BitMap bits) const;
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228
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229 // Returns result of whether this map changed
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230 // during the operation
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231 bool set_union_with_result(BitMap bits);
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232 bool set_difference_with_result(BitMap bits);
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233 bool set_intersection_with_result(BitMap bits);
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234
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235 void set_from(BitMap bits);
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236
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237 bool is_same(BitMap bits);
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238
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239 // Test if all bits are set or cleared
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240 bool is_full() const;
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241 bool is_empty() const;
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242
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243
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244 #ifndef PRODUCT
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245 public:
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246 // Printing
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247 void print_on(outputStream* st) const;
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248 #endif
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249 };
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250
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251 inline void BitMap::set_bit(idx_t bit) {
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252 verify_index(bit);
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253 *word_addr(bit) |= bit_mask(bit);
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254 }
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255
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256 inline void BitMap::clear_bit(idx_t bit) {
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257 verify_index(bit);
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258 *word_addr(bit) &= ~bit_mask(bit);
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259 }
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260
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261 inline void BitMap::set_range(idx_t beg, idx_t end, RangeSizeHint hint) {
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262 if (hint == small_range && end - beg == 1) {
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263 set_bit(beg);
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264 } else {
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265 if (hint == large_range) {
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266 set_large_range(beg, end);
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267 } else {
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268 set_range(beg, end);
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269 }
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270 }
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271 }
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272
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273 inline void BitMap::clear_range(idx_t beg, idx_t end, RangeSizeHint hint) {
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274 if (hint == small_range && end - beg == 1) {
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275 clear_bit(beg);
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276 } else {
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277 if (hint == large_range) {
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278 clear_large_range(beg, end);
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279 } else {
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280 clear_range(beg, end);
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281 }
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282 }
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283 }
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284
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285 inline void BitMap::par_set_range(idx_t beg, idx_t end, RangeSizeHint hint) {
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286 if (hint == small_range && end - beg == 1) {
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287 par_at_put(beg, true);
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288 } else {
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289 if (hint == large_range) {
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290 par_at_put_large_range(beg, end, true);
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291 } else {
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292 par_at_put_range(beg, end, true);
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293 }
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294 }
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295 }
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296
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297
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298 // Convenience class wrapping BitMap which provides multiple bits per slot.
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299 class BitMap2D VALUE_OBJ_CLASS_SPEC {
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300 public:
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301 typedef size_t idx_t; // Type used for bit and word indices.
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302
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303 private:
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304 BitMap _map;
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305 idx_t _bits_per_slot;
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306
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307 idx_t bit_index(idx_t slot_index, idx_t bit_within_slot_index) const {
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308 return slot_index * _bits_per_slot + bit_within_slot_index;
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309 }
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310
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311 void verify_bit_within_slot_index(idx_t index) const {
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312 assert(index < _bits_per_slot, "bit_within_slot index out of bounds");
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313 }
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314
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315 public:
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316 // Construction. bits_per_slot must be greater than 0.
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317 BitMap2D(uintptr_t* map, idx_t size_in_slots, idx_t bits_per_slot);
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318
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319 // Allocates necessary data structure in resource area. bits_per_slot must be greater than 0.
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320 BitMap2D(idx_t size_in_slots, idx_t bits_per_slot);
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321
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322 idx_t size_in_bits() {
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323 return _map.size();
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324 }
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325
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326 // Returns number of full slots that have been allocated
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327 idx_t size_in_slots() {
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328 // Round down
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329 return _map.size() / _bits_per_slot;
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330 }
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331
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332 bool is_valid_index(idx_t slot_index, idx_t bit_within_slot_index) {
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333 verify_bit_within_slot_index(bit_within_slot_index);
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334 return (bit_index(slot_index, bit_within_slot_index) < size_in_bits());
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335 }
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336
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337 bool at(idx_t slot_index, idx_t bit_within_slot_index) const {
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338 verify_bit_within_slot_index(bit_within_slot_index);
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339 return _map.at(bit_index(slot_index, bit_within_slot_index));
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340 }
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341
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342 void set_bit(idx_t slot_index, idx_t bit_within_slot_index) {
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343 verify_bit_within_slot_index(bit_within_slot_index);
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344 _map.set_bit(bit_index(slot_index, bit_within_slot_index));
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345 }
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346
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347 void clear_bit(idx_t slot_index, idx_t bit_within_slot_index) {
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348 verify_bit_within_slot_index(bit_within_slot_index);
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349 _map.clear_bit(bit_index(slot_index, bit_within_slot_index));
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350 }
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351
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352 void at_put(idx_t slot_index, idx_t bit_within_slot_index, bool value) {
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353 verify_bit_within_slot_index(bit_within_slot_index);
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354 _map.at_put(bit_index(slot_index, bit_within_slot_index), value);
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355 }
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356
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357 void at_put_grow(idx_t slot_index, idx_t bit_within_slot_index, bool value) {
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358 verify_bit_within_slot_index(bit_within_slot_index);
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359 _map.at_put_grow(bit_index(slot_index, bit_within_slot_index), value);
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360 }
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361
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362 void clear() {
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363 _map.clear();
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364 }
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365 };
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366
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367
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368
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369 inline void BitMap::set_range_of_words(idx_t beg, idx_t end) {
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370 uintptr_t* map = _map;
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371 for (idx_t i = beg; i < end; ++i) map[i] = ~(uintptr_t)0;
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372 }
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373
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374
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375 inline void BitMap::clear_range_of_words(idx_t beg, idx_t end) {
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376 uintptr_t* map = _map;
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377 for (idx_t i = beg; i < end; ++i) map[i] = 0;
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378 }
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379
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380
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381 inline void BitMap::clear() {
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382 clear_range_of_words(0, size_in_words());
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383 }
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384
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385
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386 inline void BitMap::par_clear_range(idx_t beg, idx_t end, RangeSizeHint hint) {
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387 if (hint == small_range && end - beg == 1) {
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388 par_at_put(beg, false);
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389 } else {
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390 if (hint == large_range) {
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391 par_at_put_large_range(beg, end, false);
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392 } else {
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393 par_at_put_range(beg, end, false);
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394 }
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395 }
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396 }
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