342
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1 /*
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2 * Copyright 2001-2007 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 # include "incls/_precompiled.incl"
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26 # include "incls/_collectionSetChooser.cpp.incl"
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27
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28 CSetChooserCache::CSetChooserCache() {
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29 for (int i = 0; i < CacheLength; ++i)
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30 _cache[i] = NULL;
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31 clear();
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32 }
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33
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34 void CSetChooserCache::clear() {
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35 _occupancy = 0;
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36 _first = 0;
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37 for (int i = 0; i < CacheLength; ++i) {
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38 HeapRegion *hr = _cache[i];
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39 if (hr != NULL)
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40 hr->set_sort_index(-1);
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41 _cache[i] = NULL;
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42 }
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43 }
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44
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45 #ifndef PRODUCT
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46 bool CSetChooserCache::verify() {
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47 int index = _first;
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48 HeapRegion *prev = NULL;
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49 for (int i = 0; i < _occupancy; ++i) {
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50 guarantee(_cache[index] != NULL, "cache entry should not be empty");
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51 HeapRegion *hr = _cache[index];
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52 guarantee(!hr->is_young(), "should not be young!");
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53 if (prev != NULL) {
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54 guarantee(prev->gc_efficiency() >= hr->gc_efficiency(),
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55 "cache should be correctly ordered");
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56 }
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57 guarantee(hr->sort_index() == get_sort_index(index),
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58 "sort index should be correct");
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59 index = trim_index(index + 1);
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60 prev = hr;
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61 }
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62
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63 for (int i = 0; i < (CacheLength - _occupancy); ++i) {
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64 guarantee(_cache[index] == NULL, "cache entry should be empty");
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65 index = trim_index(index + 1);
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66 }
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67
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68 guarantee(index == _first, "we should have reached where we started from");
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69 return true;
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70 }
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71 #endif // PRODUCT
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72
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73 void CSetChooserCache::insert(HeapRegion *hr) {
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74 assert(!is_full(), "cache should not be empty");
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75 hr->calc_gc_efficiency();
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76
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77 int empty_index;
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78 if (_occupancy == 0) {
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79 empty_index = _first;
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80 } else {
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81 empty_index = trim_index(_first + _occupancy);
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82 assert(_cache[empty_index] == NULL, "last slot should be empty");
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83 int last_index = trim_index(empty_index - 1);
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84 HeapRegion *last = _cache[last_index];
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85 assert(last != NULL,"as the cache is not empty, last should not be empty");
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86 while (empty_index != _first &&
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87 last->gc_efficiency() < hr->gc_efficiency()) {
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88 _cache[empty_index] = last;
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89 last->set_sort_index(get_sort_index(empty_index));
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90 empty_index = last_index;
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91 last_index = trim_index(last_index - 1);
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92 last = _cache[last_index];
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93 }
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94 }
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95 _cache[empty_index] = hr;
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96 hr->set_sort_index(get_sort_index(empty_index));
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97
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98 ++_occupancy;
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99 assert(verify(), "cache should be consistent");
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100 }
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101
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102 HeapRegion *CSetChooserCache::remove_first() {
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103 if (_occupancy > 0) {
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104 assert(_cache[_first] != NULL, "cache should have at least one region");
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105 HeapRegion *ret = _cache[_first];
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106 _cache[_first] = NULL;
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107 ret->set_sort_index(-1);
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108 --_occupancy;
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109 _first = trim_index(_first + 1);
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110 assert(verify(), "cache should be consistent");
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111 return ret;
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112 } else {
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113 return NULL;
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114 }
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115 }
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116
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117 // this is a bit expensive... but we expect that it should not be called
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118 // to often.
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119 void CSetChooserCache::remove(HeapRegion *hr) {
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120 assert(_occupancy > 0, "cache should not be empty");
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121 assert(hr->sort_index() < -1, "should already be in the cache");
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122 int index = get_index(hr->sort_index());
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123 assert(_cache[index] == hr, "index should be correct");
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124 int next_index = trim_index(index + 1);
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125 int last_index = trim_index(_first + _occupancy - 1);
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126 while (index != last_index) {
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127 assert(_cache[next_index] != NULL, "should not be null");
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128 _cache[index] = _cache[next_index];
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129 _cache[index]->set_sort_index(get_sort_index(index));
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130
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131 index = next_index;
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132 next_index = trim_index(next_index+1);
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133 }
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134 assert(index == last_index, "should have reached the last one");
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135 _cache[index] = NULL;
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136 hr->set_sort_index(-1);
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137 --_occupancy;
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138 assert(verify(), "cache should be consistent");
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139 }
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140
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141 static inline int orderRegions(HeapRegion* hr1, HeapRegion* hr2) {
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142 if (hr1 == NULL) {
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143 if (hr2 == NULL) return 0;
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144 else return 1;
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145 } else if (hr2 == NULL) {
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146 return -1;
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147 }
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148 if (hr2->gc_efficiency() < hr1->gc_efficiency()) return -1;
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149 else if (hr1->gc_efficiency() < hr2->gc_efficiency()) return 1;
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150 else return 0;
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151 }
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152
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153 static int orderRegions(HeapRegion** hr1p, HeapRegion** hr2p) {
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154 return orderRegions(*hr1p, *hr2p);
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155 }
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156
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157 CollectionSetChooser::CollectionSetChooser() :
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158 // The line below is the worst bit of C++ hackery I've ever written
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159 // (Detlefs, 11/23). You should think of it as equivalent to
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160 // "_regions(100, true)": initialize the growable array and inform it
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161 // that it should allocate its elem array(s) on the C heap. The first
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162 // argument, however, is actually a comma expression (new-expr, 100).
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163 // The purpose of the new_expr is to inform the growable array that it
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164 // is *already* allocated on the C heap: it uses the placement syntax to
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165 // keep it from actually doing any allocation.
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166 _markedRegions((ResourceObj::operator new (sizeof(GrowableArray<HeapRegion*>),
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167 (void*)&_markedRegions,
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168 ResourceObj::C_HEAP),
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169 100),
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170 true),
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171 _curMarkedIndex(0),
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172 _numMarkedRegions(0),
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173 _unmarked_age_1_returned_as_new(false),
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174 _first_par_unreserved_idx(0)
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175 {}
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176
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177
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178
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179 #ifndef PRODUCT
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180 bool CollectionSetChooser::verify() {
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181 int index = 0;
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182 guarantee(_curMarkedIndex <= _numMarkedRegions,
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183 "_curMarkedIndex should be within bounds");
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184 while (index < _curMarkedIndex) {
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185 guarantee(_markedRegions.at(index++) == NULL,
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186 "all entries before _curMarkedIndex should be NULL");
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187 }
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188 HeapRegion *prev = NULL;
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189 while (index < _numMarkedRegions) {
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190 HeapRegion *curr = _markedRegions.at(index++);
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191 if (curr != NULL) {
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192 int si = curr->sort_index();
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193 guarantee(!curr->is_young(), "should not be young!");
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194 guarantee(si > -1 && si == (index-1), "sort index invariant");
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195 if (prev != NULL) {
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196 guarantee(orderRegions(prev, curr) != 1, "regions should be sorted");
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197 }
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198 prev = curr;
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199 }
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200 }
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201 return _cache.verify();
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202 }
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203 #endif
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204
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205 bool
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206 CollectionSetChooser::addRegionToCache() {
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207 assert(!_cache.is_full(), "cache should not be full");
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208
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209 HeapRegion *hr = NULL;
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210 while (hr == NULL && _curMarkedIndex < _numMarkedRegions) {
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211 hr = _markedRegions.at(_curMarkedIndex++);
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212 }
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213 if (hr == NULL)
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214 return false;
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215 assert(!hr->is_young(), "should not be young!");
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216 assert(hr->sort_index() == _curMarkedIndex-1, "sort_index invariant");
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217 _markedRegions.at_put(hr->sort_index(), NULL);
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218 _cache.insert(hr);
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219 assert(!_cache.is_empty(), "cache should not be empty");
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220 assert(verify(), "cache should be consistent");
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221 return false;
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222 }
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223
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224 void
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225 CollectionSetChooser::fillCache() {
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226 while (!_cache.is_full() && addRegionToCache()) {
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227 }
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228 }
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229
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230 void
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231 CollectionSetChooser::sortMarkedHeapRegions() {
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232 guarantee(_cache.is_empty(), "cache should be empty");
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233 // First trim any unused portion of the top in the parallel case.
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234 if (_first_par_unreserved_idx > 0) {
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235 if (G1PrintParCleanupStats) {
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236 gclog_or_tty->print(" Truncating _markedRegions from %d to %d.\n",
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237 _markedRegions.length(), _first_par_unreserved_idx);
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238 }
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239 assert(_first_par_unreserved_idx <= _markedRegions.length(),
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240 "Or we didn't reserved enough length");
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241 _markedRegions.trunc_to(_first_par_unreserved_idx);
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242 }
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243 _markedRegions.sort(orderRegions);
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244 assert(_numMarkedRegions <= _markedRegions.length(), "Requirement");
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245 assert(_numMarkedRegions == 0
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246 || _markedRegions.at(_numMarkedRegions-1) != NULL,
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247 "Testing _numMarkedRegions");
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248 assert(_numMarkedRegions == _markedRegions.length()
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249 || _markedRegions.at(_numMarkedRegions) == NULL,
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250 "Testing _numMarkedRegions");
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251 if (G1PrintParCleanupStats) {
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252 gclog_or_tty->print_cr(" Sorted %d marked regions.", _numMarkedRegions);
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253 }
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254 for (int i = 0; i < _numMarkedRegions; i++) {
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255 assert(_markedRegions.at(i) != NULL, "Should be true by sorting!");
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256 _markedRegions.at(i)->set_sort_index(i);
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257 if (G1PrintRegionLivenessInfo > 0) {
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258 if (i == 0) gclog_or_tty->print_cr("Sorted marked regions:");
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259 if (i < G1PrintRegionLivenessInfo ||
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260 (_numMarkedRegions-i) < G1PrintRegionLivenessInfo) {
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261 HeapRegion* hr = _markedRegions.at(i);
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262 size_t u = hr->used();
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263 gclog_or_tty->print_cr(" Region %d: %d used, %d max live, %5.2f%%.",
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264 i, u, hr->max_live_bytes(),
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265 100.0*(float)hr->max_live_bytes()/(float)u);
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266 }
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267 }
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268 }
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269 if (G1PolicyVerbose > 1)
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270 printSortedHeapRegions();
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271 assert(verify(), "should now be sorted");
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272 }
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273
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274 void
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275 printHeapRegion(HeapRegion *hr) {
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276 if (hr->isHumongous())
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277 gclog_or_tty->print("H: ");
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278 if (hr->in_collection_set())
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279 gclog_or_tty->print("CS: ");
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280 if (hr->popular())
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281 gclog_or_tty->print("pop: ");
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282 gclog_or_tty->print_cr("Region " PTR_FORMAT " (%s%s) "
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283 "[" PTR_FORMAT ", " PTR_FORMAT"] "
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284 "Used: " SIZE_FORMAT "K, garbage: " SIZE_FORMAT "K.",
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285 hr, hr->is_young() ? "Y " : " ",
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286 hr->is_marked()? "M1" : "M0",
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287 hr->bottom(), hr->end(),
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288 hr->used()/K, hr->garbage_bytes()/K);
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289 }
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290
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291 void
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292 CollectionSetChooser::addMarkedHeapRegion(HeapRegion* hr) {
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293 assert(!hr->isHumongous(),
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294 "Humongous regions shouldn't be added to the collection set");
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295 assert(!hr->is_young(), "should not be young!");
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296 _markedRegions.append(hr);
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297 _numMarkedRegions++;
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298 hr->calc_gc_efficiency();
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299 }
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300
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301 void
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302 CollectionSetChooser::
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303 prepareForAddMarkedHeapRegionsPar(size_t n_regions, size_t chunkSize) {
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304 _first_par_unreserved_idx = 0;
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305 size_t max_waste = ParallelGCThreads * chunkSize;
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306 // it should be aligned with respect to chunkSize
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307 size_t aligned_n_regions =
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308 (n_regions + (chunkSize - 1)) / chunkSize * chunkSize;
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309 assert( aligned_n_regions % chunkSize == 0, "should be aligned" );
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310 _markedRegions.at_put_grow((int)(aligned_n_regions + max_waste - 1), NULL);
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311 }
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312
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313 jint
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314 CollectionSetChooser::getParMarkedHeapRegionChunk(jint n_regions) {
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315 jint res = Atomic::add(n_regions, &_first_par_unreserved_idx);
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316 assert(_markedRegions.length() > res + n_regions - 1,
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317 "Should already have been expanded");
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318 return res - n_regions;
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319 }
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320
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321 void
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322 CollectionSetChooser::setMarkedHeapRegion(jint index, HeapRegion* hr) {
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323 assert(_markedRegions.at(index) == NULL, "precondition");
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324 assert(!hr->is_young(), "should not be young!");
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325 _markedRegions.at_put(index, hr);
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326 hr->calc_gc_efficiency();
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327 }
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328
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329 void
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330 CollectionSetChooser::incNumMarkedHeapRegions(jint inc_by) {
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331 (void)Atomic::add(inc_by, &_numMarkedRegions);
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332 }
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333
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334 void
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335 CollectionSetChooser::clearMarkedHeapRegions(){
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336 for (int i = 0; i < _markedRegions.length(); i++) {
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337 HeapRegion* r = _markedRegions.at(i);
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338 if (r != NULL) r->set_sort_index(-1);
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339 }
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340 _markedRegions.clear();
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341 _curMarkedIndex = 0;
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342 _numMarkedRegions = 0;
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343 _cache.clear();
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344 };
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345
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346 void
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347 CollectionSetChooser::updateAfterFullCollection() {
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348 G1CollectedHeap* g1h = G1CollectedHeap::heap();
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349 clearMarkedHeapRegions();
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350 }
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351
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352 void
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353 CollectionSetChooser::printSortedHeapRegions() {
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354 gclog_or_tty->print_cr("Printing %d Heap Regions sorted by amount of known garbage",
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355 _numMarkedRegions);
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356 for (int i = 0; i < _markedRegions.length(); i++) {
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357 printHeapRegion(_markedRegions.at(i));
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358 }
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359 gclog_or_tty->print_cr("Done sorted heap region print");
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360 }
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361
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362 void CollectionSetChooser::removeRegion(HeapRegion *hr) {
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363 int si = hr->sort_index();
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364 assert(si == -1 || hr->is_marked(), "Sort index not valid.");
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365 if (si > -1) {
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366 assert(_markedRegions.at(si) == hr, "Sort index not valid." );
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367 _markedRegions.at_put(si, NULL);
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368 } else if (si < -1) {
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369 assert(_cache.region_in_cache(hr), "should be in the cache");
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370 _cache.remove(hr);
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371 assert(hr->sort_index() == -1, "sort index invariant");
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372 }
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373 hr->set_sort_index(-1);
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374 }
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375
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376 // if time_remaining < 0.0, then this method should try to return
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377 // a region, whether it fits within the remaining time or not
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378 HeapRegion*
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379 CollectionSetChooser::getNextMarkedRegion(double time_remaining,
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380 double avg_prediction) {
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381 G1CollectedHeap* g1h = G1CollectedHeap::heap();
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382 G1CollectorPolicy* g1p = g1h->g1_policy();
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383 fillCache();
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384 if (_cache.is_empty()) {
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385 assert(_curMarkedIndex == _numMarkedRegions,
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386 "if cache is empty, list should also be empty");
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387 return NULL;
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388 }
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389
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390 HeapRegion *hr = _cache.get_first();
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391 assert(hr != NULL, "if cache not empty, first entry should be non-null");
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392 double predicted_time = g1h->predict_region_elapsed_time_ms(hr, false);
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393
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394 if (g1p->adaptive_young_list_length()) {
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395 if (time_remaining - predicted_time < 0.0) {
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396 g1h->check_if_region_is_too_expensive(predicted_time);
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397 return NULL;
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398 }
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399 } else {
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400 if (predicted_time > 2.0 * avg_prediction) {
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401 return NULL;
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402 }
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403 }
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404
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405 HeapRegion *hr2 = _cache.remove_first();
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406 assert(hr == hr2, "cache contents should not have changed");
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407
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408 return hr;
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409 }
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