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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 # include "incls/_precompiled.incl"
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26 # include "incls/_klassKlass.cpp.incl"
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27
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28 int klassKlass::oop_size(oop obj) const {
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29 assert (obj->is_klass(), "must be a klassOop");
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30 return klassOop(obj)->klass_part()->klass_oop_size();
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31 }
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32
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33 klassOop klassKlass::create_klass(TRAPS) {
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34 KlassHandle h_this_klass;
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35 klassKlass o;
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36 // for bootstrapping, handles may not be available yet.
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37 klassOop k = base_create_klass_oop(h_this_klass, header_size(), o.vtbl_value(), CHECK_NULL);
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38 k->set_klass(k); // point to thyself
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39 // Do not try to allocate mirror, java.lang.Class not loaded at this point.
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40 // See Universe::fixup_mirrors()
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41 return k;
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42 }
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43
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44 void klassKlass::oop_follow_contents(oop obj) {
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45 Klass* k = Klass::cast(klassOop(obj));
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46 // If we are alive it is valid to keep our superclass and subtype caches alive
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47 MarkSweep::mark_and_push(k->adr_super());
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48 for (juint i = 0; i < Klass::primary_super_limit(); i++)
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49 MarkSweep::mark_and_push(k->adr_primary_supers()+i);
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50 MarkSweep::mark_and_push(k->adr_secondary_super_cache());
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51 MarkSweep::mark_and_push(k->adr_secondary_supers());
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52 MarkSweep::mark_and_push(k->adr_java_mirror());
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53 MarkSweep::mark_and_push(k->adr_name());
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54 // We follow the subklass and sibling links at the end of the
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55 // marking phase, since otherwise following them will prevent
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56 // class unloading (all classes are transitively linked from
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57 // java.lang.Object).
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58 MarkSweep::revisit_weak_klass_link(k);
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59 obj->follow_header();
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60 }
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61
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62 #ifndef SERIALGC
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63 void klassKlass::oop_follow_contents(ParCompactionManager* cm,
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64 oop obj) {
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65 Klass* k = Klass::cast(klassOop(obj));
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66 // If we are alive it is valid to keep our superclass and subtype caches alive
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67 PSParallelCompact::mark_and_push(cm, k->adr_super());
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68 for (juint i = 0; i < Klass::primary_super_limit(); i++)
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69 PSParallelCompact::mark_and_push(cm, k->adr_primary_supers()+i);
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70 PSParallelCompact::mark_and_push(cm, k->adr_secondary_super_cache());
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71 PSParallelCompact::mark_and_push(cm, k->adr_secondary_supers());
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72 PSParallelCompact::mark_and_push(cm, k->adr_java_mirror());
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73 PSParallelCompact::mark_and_push(cm, k->adr_name());
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74 // We follow the subklass and sibling links at the end of the
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75 // marking phase, since otherwise following them will prevent
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76 // class unloading (all classes are transitively linked from
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77 // java.lang.Object).
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78 PSParallelCompact::revisit_weak_klass_link(cm, k);
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79 obj->follow_header(cm);
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80 }
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81 #endif // SERIALGC
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82
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83 int klassKlass::oop_oop_iterate(oop obj, OopClosure* blk) {
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84 // Get size before changing pointers
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85 int size = oop_size(obj);
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86 Klass* k = Klass::cast(klassOop(obj));
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87 blk->do_oop(k->adr_super());
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88 for (juint i = 0; i < Klass::primary_super_limit(); i++)
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89 blk->do_oop(k->adr_primary_supers()+i);
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90 blk->do_oop(k->adr_secondary_super_cache());
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91 blk->do_oop(k->adr_secondary_supers());
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92 blk->do_oop(k->adr_java_mirror());
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93 blk->do_oop(k->adr_name());
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94 // The following are in the perm gen and are treated
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95 // specially in a later phase of a perm gen collection; ...
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96 assert(oop(k)->is_perm(), "should be in perm");
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97 assert(oop(k->subklass())->is_perm_or_null(), "should be in perm");
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98 assert(oop(k->next_sibling())->is_perm_or_null(), "should be in perm");
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99 // ... don't scan them normally, but remember this klassKlass
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100 // for later (see, for instance, oop_follow_contents above
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101 // for what MarkSweep does with it.
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102 if (blk->should_remember_klasses()) {
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103 blk->remember_klass(k);
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104 }
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105 obj->oop_iterate_header(blk);
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106 return size;
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107 }
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108
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109
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110 int klassKlass::oop_oop_iterate_m(oop obj, OopClosure* blk, MemRegion mr) {
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111 // Get size before changing pointers
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112 int size = oop_size(obj);
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113 Klass* k = Klass::cast(klassOop(obj));
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114 oop* adr;
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115 adr = k->adr_super();
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116 if (mr.contains(adr)) blk->do_oop(adr);
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117 for (juint i = 0; i < Klass::primary_super_limit(); i++) {
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118 adr = k->adr_primary_supers()+i;
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119 if (mr.contains(adr)) blk->do_oop(adr);
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120 }
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121 adr = k->adr_secondary_super_cache();
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122 if (mr.contains(adr)) blk->do_oop(adr);
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123 adr = k->adr_secondary_supers();
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124 if (mr.contains(adr)) blk->do_oop(adr);
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125 adr = k->adr_java_mirror();
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126 if (mr.contains(adr)) blk->do_oop(adr);
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127 adr = k->adr_name();
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128 if (mr.contains(adr)) blk->do_oop(adr);
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129 // The following are "weak links" in the perm gen and are
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130 // treated specially in a later phase of a perm gen collection.
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131 assert(oop(k)->is_perm(), "should be in perm");
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132 assert(oop(k->adr_subklass())->is_perm(), "should be in perm");
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133 assert(oop(k->adr_next_sibling())->is_perm(), "should be in perm");
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134 if (blk->should_remember_klasses()
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135 && (mr.contains(k->adr_subklass())
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136 || mr.contains(k->adr_next_sibling()))) {
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137 blk->remember_klass(k);
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138 }
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139 obj->oop_iterate_header(blk, mr);
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140 return size;
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141 }
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142
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143
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144 int klassKlass::oop_adjust_pointers(oop obj) {
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145 // Get size before changing pointers
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146 int size = oop_size(obj);
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147 obj->adjust_header();
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148
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149 Klass* k = Klass::cast(klassOop(obj));
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150
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151 MarkSweep::adjust_pointer(k->adr_super());
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152 for (juint i = 0; i < Klass::primary_super_limit(); i++)
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153 MarkSweep::adjust_pointer(k->adr_primary_supers()+i);
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154 MarkSweep::adjust_pointer(k->adr_secondary_super_cache());
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155 MarkSweep::adjust_pointer(k->adr_secondary_supers());
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156 MarkSweep::adjust_pointer(k->adr_java_mirror());
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157 MarkSweep::adjust_pointer(k->adr_name());
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158 MarkSweep::adjust_pointer(k->adr_subklass());
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159 MarkSweep::adjust_pointer(k->adr_next_sibling());
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160 return size;
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161 }
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162
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163 #ifndef SERIALGC
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164 void klassKlass::oop_copy_contents(PSPromotionManager* pm, oop obj) {
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165 }
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166
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167 void klassKlass::oop_push_contents(PSPromotionManager* pm, oop obj) {
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168 }
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169
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170 int klassKlass::oop_update_pointers(ParCompactionManager* cm, oop obj) {
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171 Klass* k = Klass::cast(klassOop(obj));
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172
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173 oop* const beg_oop = k->oop_block_beg();
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174 oop* const end_oop = k->oop_block_end();
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175 for (oop* cur_oop = beg_oop; cur_oop < end_oop; ++cur_oop) {
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176 PSParallelCompact::adjust_pointer(cur_oop);
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177 }
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178
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179 return oop_size(obj);
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180 }
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181
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182 int klassKlass::oop_update_pointers(ParCompactionManager* cm, oop obj,
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183 HeapWord* beg_addr, HeapWord* end_addr) {
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184 Klass* k = Klass::cast(klassOop(obj));
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185
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186 oop* const beg_oop = MAX2((oop*)beg_addr, k->oop_block_beg());
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187 oop* const end_oop = MIN2((oop*)end_addr, k->oop_block_end());
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188 for (oop* cur_oop = beg_oop; cur_oop < end_oop; ++cur_oop) {
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189 PSParallelCompact::adjust_pointer(cur_oop);
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190 }
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191
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192 return oop_size(obj);
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193 }
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194 #endif // SERIALGC
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195
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196
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197 #ifndef PRODUCT
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198
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199 // Printing
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200
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201 void klassKlass::oop_print_on(oop obj, outputStream* st) {
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202 Klass::oop_print_on(obj, st);
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203 }
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204
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205
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206 void klassKlass::oop_print_value_on(oop obj, outputStream* st) {
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207 Klass::oop_print_value_on(obj, st);
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208 }
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209
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210 #endif
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211
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212 const char* klassKlass::internal_name() const {
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213 return "{other class}";
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214 }
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215
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216
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217 // Verification
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218
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219 void klassKlass::oop_verify_on(oop obj, outputStream* st) {
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220 Klass::oop_verify_on(obj, st);
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221 guarantee(obj->is_perm(), "should be in permspace");
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222 guarantee(obj->is_klass(), "should be klass");
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223
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224 Klass* k = Klass::cast(klassOop(obj));
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225 if (k->super() != NULL) {
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226 guarantee(k->super()->is_perm(), "should be in permspace");
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227 guarantee(k->super()->is_klass(), "should be klass");
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228 }
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229 klassOop ko = k->secondary_super_cache();
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230 if( ko != NULL ) {
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231 guarantee(ko->is_perm(), "should be in permspace");
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232 guarantee(ko->is_klass(), "should be klass");
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233 }
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234 for( uint i = 0; i < primary_super_limit(); i++ ) {
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235 oop ko = k->adr_primary_supers()[i]; // Cannot use normal accessor because it asserts
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236 if( ko != NULL ) {
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237 guarantee(ko->is_perm(), "should be in permspace");
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238 guarantee(ko->is_klass(), "should be klass");
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239 }
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240 }
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241
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242 if (k->java_mirror() != NULL || (k->oop_is_instance() && instanceKlass::cast(klassOop(obj))->is_loaded())) {
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243 guarantee(k->java_mirror() != NULL, "should be allocated");
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244 guarantee(k->java_mirror()->is_perm(), "should be in permspace");
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245 guarantee(k->java_mirror()->is_instance(), "should be instance");
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246 }
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247 if (k->name() != NULL) {
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248 guarantee(Universe::heap()->is_in_permanent(k->name()),
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249 "should be in permspace");
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250 guarantee(k->name()->is_symbol(), "should be symbol");
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251 }
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252 }
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