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1 /*
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2 * Copyright 1999-2007 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 class GlobalTLABStats;
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26
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27 // ThreadLocalAllocBuffer: a descriptor for thread-local storage used by
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28 // the threads for allocation.
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29 // It is thread-private at any time, but maybe multiplexed over
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30 // time across multiple threads. The park()/unpark() pair is
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31 // used to make it avaiable for such multiplexing.
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32 class ThreadLocalAllocBuffer: public CHeapObj {
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33 friend class VMStructs;
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34 private:
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35 HeapWord* _start; // address of TLAB
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36 HeapWord* _top; // address after last allocation
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37 HeapWord* _pf_top; // allocation prefetch watermark
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38 HeapWord* _end; // allocation end (excluding alignment_reserve)
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39 size_t _desired_size; // desired size (including alignment_reserve)
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40 size_t _refill_waste_limit; // hold onto tlab if free() is larger than this
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41
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42 static unsigned _target_refills; // expected number of refills between GCs
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43
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44 unsigned _number_of_refills;
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45 unsigned _fast_refill_waste;
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46 unsigned _slow_refill_waste;
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47 unsigned _gc_waste;
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48 unsigned _slow_allocations;
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49
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50 AdaptiveWeightedAverage _allocation_fraction; // fraction of eden allocated in tlabs
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51
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52 void accumulate_statistics();
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53 void initialize_statistics();
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54
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55 void set_start(HeapWord* start) { _start = start; }
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56 void set_end(HeapWord* end) { _end = end; }
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57 void set_top(HeapWord* top) { _top = top; }
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58 void set_pf_top(HeapWord* pf_top) { _pf_top = pf_top; }
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59 void set_desired_size(size_t desired_size) { _desired_size = desired_size; }
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60 void set_refill_waste_limit(size_t waste) { _refill_waste_limit = waste; }
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61
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62 size_t initial_refill_waste_limit() { return desired_size() / TLABRefillWasteFraction; }
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63
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64 static int target_refills() { return _target_refills; }
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65 size_t initial_desired_size();
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66
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67 size_t remaining() const { return end() == NULL ? 0 : pointer_delta(hard_end(), top()); }
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68
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69 // Make parsable and release it.
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70 void reset();
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71
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72 // Resize based on amount of allocation, etc.
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73 void resize();
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74
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75 void invariants() const { assert(top() >= start() && top() <= end(), "invalid tlab"); }
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76
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77 void initialize(HeapWord* start, HeapWord* top, HeapWord* end);
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78
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79 void print_stats(const char* tag);
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80
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81 Thread* myThread();
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82
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83 // statistics
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84
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85 int number_of_refills() const { return _number_of_refills; }
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86 int fast_refill_waste() const { return _fast_refill_waste; }
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87 int slow_refill_waste() const { return _slow_refill_waste; }
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88 int gc_waste() const { return _gc_waste; }
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89 int slow_allocations() const { return _slow_allocations; }
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90
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91 static GlobalTLABStats* _global_stats;
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92 static GlobalTLABStats* global_stats() { return _global_stats; }
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93
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94 public:
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95 ThreadLocalAllocBuffer() : _allocation_fraction(TLABAllocationWeight) {
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96 // do nothing. tlabs must be inited by initialize() calls
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97 }
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98
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99 static const size_t min_size() { return align_object_size(MinTLABSize / HeapWordSize); }
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100 static const size_t max_size();
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101
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102 HeapWord* start() const { return _start; }
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103 HeapWord* end() const { return _end; }
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104 HeapWord* hard_end() const { return _end + alignment_reserve(); }
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105 HeapWord* top() const { return _top; }
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106 HeapWord* pf_top() const { return _pf_top; }
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107 size_t desired_size() const { return _desired_size; }
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108 size_t free() const { return pointer_delta(end(), top()); }
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109 // Don't discard tlab if remaining space is larger than this.
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110 size_t refill_waste_limit() const { return _refill_waste_limit; }
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111
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112 // Allocate size HeapWords. The memory is NOT initialized to zero.
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113 inline HeapWord* allocate(size_t size);
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114 static size_t alignment_reserve() { return align_object_size(typeArrayOopDesc::header_size(T_INT)); }
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115 static size_t alignment_reserve_in_bytes() { return alignment_reserve() * HeapWordSize; }
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116
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117 // Return tlab size or remaining space in eden such that the
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118 // space is large enough to hold obj_size and necessary fill space.
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119 // Otherwise return 0;
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120 inline size_t compute_size(size_t obj_size);
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121
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122 // Record slow allocation
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123 inline void record_slow_allocation(size_t obj_size);
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124
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125 // Initialization at startup
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126 static void startup_initialization();
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127
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128 // Make an in-use tlab parsable, optionally also retiring it.
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129 void make_parsable(bool retire);
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130
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131 // Retire in-use tlab before allocation of a new tlab
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132 void clear_before_allocation();
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133
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134 // Accumulate statistics across all tlabs before gc
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135 static void accumulate_statistics_before_gc();
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136
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137 // Resize tlabs for all threads
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138 static void resize_all_tlabs();
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139
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140 void fill(HeapWord* start, HeapWord* top, size_t new_size);
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141 void initialize();
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142
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143 static size_t refill_waste_limit_increment() { return TLABWasteIncrement; }
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144
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145 // Code generation support
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146 static ByteSize start_offset() { return byte_offset_of(ThreadLocalAllocBuffer, _start); }
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147 static ByteSize end_offset() { return byte_offset_of(ThreadLocalAllocBuffer, _end ); }
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148 static ByteSize top_offset() { return byte_offset_of(ThreadLocalAllocBuffer, _top ); }
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149 static ByteSize pf_top_offset() { return byte_offset_of(ThreadLocalAllocBuffer, _pf_top ); }
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150 static ByteSize size_offset() { return byte_offset_of(ThreadLocalAllocBuffer, _desired_size ); }
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151 static ByteSize refill_waste_limit_offset() { return byte_offset_of(ThreadLocalAllocBuffer, _refill_waste_limit ); }
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152
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153 static ByteSize number_of_refills_offset() { return byte_offset_of(ThreadLocalAllocBuffer, _number_of_refills ); }
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154 static ByteSize fast_refill_waste_offset() { return byte_offset_of(ThreadLocalAllocBuffer, _fast_refill_waste ); }
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155 static ByteSize slow_allocations_offset() { return byte_offset_of(ThreadLocalAllocBuffer, _slow_allocations ); }
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156
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157 void verify();
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158 };
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159
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160 class GlobalTLABStats: public CHeapObj {
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161 private:
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162
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163 // Accumulate perfdata in private variables because
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164 // PerfData should be write-only for security reasons
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165 // (see perfData.hpp)
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166 unsigned _allocating_threads;
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167 unsigned _total_refills;
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168 unsigned _max_refills;
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169 size_t _total_allocation;
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170 size_t _total_gc_waste;
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171 size_t _max_gc_waste;
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172 size_t _total_slow_refill_waste;
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173 size_t _max_slow_refill_waste;
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174 size_t _total_fast_refill_waste;
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175 size_t _max_fast_refill_waste;
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176 unsigned _total_slow_allocations;
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177 unsigned _max_slow_allocations;
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178
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179 PerfVariable* _perf_allocating_threads;
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180 PerfVariable* _perf_total_refills;
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181 PerfVariable* _perf_max_refills;
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182 PerfVariable* _perf_allocation;
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183 PerfVariable* _perf_gc_waste;
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184 PerfVariable* _perf_max_gc_waste;
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185 PerfVariable* _perf_slow_refill_waste;
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186 PerfVariable* _perf_max_slow_refill_waste;
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187 PerfVariable* _perf_fast_refill_waste;
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188 PerfVariable* _perf_max_fast_refill_waste;
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189 PerfVariable* _perf_slow_allocations;
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190 PerfVariable* _perf_max_slow_allocations;
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191
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192 AdaptiveWeightedAverage _allocating_threads_avg;
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193
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194 public:
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195 GlobalTLABStats();
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196
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197 // Initialize all counters
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198 void initialize();
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199
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200 // Write all perf counters to the perf_counters
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201 void publish();
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202
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203 void print();
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204
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205 // Accessors
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206 unsigned allocating_threads_avg() {
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207 return MAX2((unsigned)(_allocating_threads_avg.average() + 0.5), 1U);
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208 }
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209
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210 size_t allocation() {
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211 return _total_allocation;
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212 }
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213
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214 // Update methods
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215
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216 void update_allocating_threads() {
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217 _allocating_threads++;
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218 }
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219 void update_number_of_refills(unsigned value) {
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220 _total_refills += value;
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221 _max_refills = MAX2(_max_refills, value);
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222 }
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223 void update_allocation(size_t value) {
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224 _total_allocation += value;
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225 }
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226 void update_gc_waste(size_t value) {
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227 _total_gc_waste += value;
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228 _max_gc_waste = MAX2(_max_gc_waste, value);
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229 }
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230 void update_fast_refill_waste(size_t value) {
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231 _total_fast_refill_waste += value;
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232 _max_fast_refill_waste = MAX2(_max_fast_refill_waste, value);
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233 }
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234 void update_slow_refill_waste(size_t value) {
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235 _total_slow_refill_waste += value;
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236 _max_slow_refill_waste = MAX2(_max_slow_refill_waste, value);
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237 }
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238 void update_slow_allocations(unsigned value) {
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239 _total_slow_allocations += value;
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240 _max_slow_allocations = MAX2(_max_slow_allocations, value);
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241 }
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242 };
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