Mercurial > hg > truffle
annotate src/share/vm/memory/defNewGeneration.cpp @ 7090:05ce1defa4f9
Common out some parts of UnsafeLoad/Store in UnsafeAccess
author | Gilles Duboscq <duboscq@ssw.jku.at> |
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date | Thu, 29 Nov 2012 13:24:08 +0100 |
parents | da91efe96a93 |
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rev | line source |
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0 | 1 /* |
4911 | 2 * Copyright (c) 2001, 2012, Oracle and/or its affiliates. All rights reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #include "precompiled.hpp" |
26 #include "gc_implementation/shared/collectorCounters.hpp" | |
27 #include "gc_implementation/shared/gcPolicyCounters.hpp" | |
28 #include "gc_implementation/shared/spaceDecorator.hpp" | |
29 #include "memory/defNewGeneration.inline.hpp" | |
30 #include "memory/gcLocker.inline.hpp" | |
31 #include "memory/genCollectedHeap.hpp" | |
32 #include "memory/genOopClosures.inline.hpp" | |
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33 #include "memory/genRemSet.hpp" |
1972 | 34 #include "memory/generationSpec.hpp" |
35 #include "memory/iterator.hpp" | |
36 #include "memory/referencePolicy.hpp" | |
37 #include "memory/space.inline.hpp" | |
38 #include "oops/instanceRefKlass.hpp" | |
39 #include "oops/oop.inline.hpp" | |
40 #include "runtime/java.hpp" | |
41 #include "utilities/copy.hpp" | |
42 #include "utilities/stack.inline.hpp" | |
43 #ifdef TARGET_OS_FAMILY_linux | |
44 # include "thread_linux.inline.hpp" | |
45 #endif | |
46 #ifdef TARGET_OS_FAMILY_solaris | |
47 # include "thread_solaris.inline.hpp" | |
48 #endif | |
49 #ifdef TARGET_OS_FAMILY_windows | |
50 # include "thread_windows.inline.hpp" | |
51 #endif | |
3960 | 52 #ifdef TARGET_OS_FAMILY_bsd |
53 # include "thread_bsd.inline.hpp" | |
54 #endif | |
0 | 55 |
56 // | |
57 // DefNewGeneration functions. | |
58 | |
59 // Methods of protected closure types. | |
60 | |
61 DefNewGeneration::IsAliveClosure::IsAliveClosure(Generation* g) : _g(g) { | |
62 assert(g->level() == 0, "Optimized for youngest gen."); | |
63 } | |
64 void DefNewGeneration::IsAliveClosure::do_object(oop p) { | |
65 assert(false, "Do not call."); | |
66 } | |
67 bool DefNewGeneration::IsAliveClosure::do_object_b(oop p) { | |
68 return (HeapWord*)p >= _g->reserved().end() || p->is_forwarded(); | |
69 } | |
70 | |
71 DefNewGeneration::KeepAliveClosure:: | |
72 KeepAliveClosure(ScanWeakRefClosure* cl) : _cl(cl) { | |
73 GenRemSet* rs = GenCollectedHeap::heap()->rem_set(); | |
74 assert(rs->rs_kind() == GenRemSet::CardTable, "Wrong rem set kind."); | |
75 _rs = (CardTableRS*)rs; | |
76 } | |
77 | |
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78 void DefNewGeneration::KeepAliveClosure::do_oop(oop* p) { DefNewGeneration::KeepAliveClosure::do_oop_work(p); } |
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79 void DefNewGeneration::KeepAliveClosure::do_oop(narrowOop* p) { DefNewGeneration::KeepAliveClosure::do_oop_work(p); } |
0 | 80 |
81 | |
82 DefNewGeneration::FastKeepAliveClosure:: | |
83 FastKeepAliveClosure(DefNewGeneration* g, ScanWeakRefClosure* cl) : | |
84 DefNewGeneration::KeepAliveClosure(cl) { | |
85 _boundary = g->reserved().end(); | |
86 } | |
87 | |
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88 void DefNewGeneration::FastKeepAliveClosure::do_oop(oop* p) { DefNewGeneration::FastKeepAliveClosure::do_oop_work(p); } |
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89 void DefNewGeneration::FastKeepAliveClosure::do_oop(narrowOop* p) { DefNewGeneration::FastKeepAliveClosure::do_oop_work(p); } |
0 | 90 |
91 DefNewGeneration::EvacuateFollowersClosure:: | |
92 EvacuateFollowersClosure(GenCollectedHeap* gch, int level, | |
93 ScanClosure* cur, ScanClosure* older) : | |
94 _gch(gch), _level(level), | |
95 _scan_cur_or_nonheap(cur), _scan_older(older) | |
96 {} | |
97 | |
98 void DefNewGeneration::EvacuateFollowersClosure::do_void() { | |
99 do { | |
100 _gch->oop_since_save_marks_iterate(_level, _scan_cur_or_nonheap, | |
101 _scan_older); | |
102 } while (!_gch->no_allocs_since_save_marks(_level)); | |
103 } | |
104 | |
105 DefNewGeneration::FastEvacuateFollowersClosure:: | |
106 FastEvacuateFollowersClosure(GenCollectedHeap* gch, int level, | |
107 DefNewGeneration* gen, | |
108 FastScanClosure* cur, FastScanClosure* older) : | |
109 _gch(gch), _level(level), _gen(gen), | |
110 _scan_cur_or_nonheap(cur), _scan_older(older) | |
111 {} | |
112 | |
113 void DefNewGeneration::FastEvacuateFollowersClosure::do_void() { | |
114 do { | |
115 _gch->oop_since_save_marks_iterate(_level, _scan_cur_or_nonheap, | |
116 _scan_older); | |
117 } while (!_gch->no_allocs_since_save_marks(_level)); | |
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118 guarantee(_gen->promo_failure_scan_is_complete(), "Failed to finish scan"); |
0 | 119 } |
120 | |
121 ScanClosure::ScanClosure(DefNewGeneration* g, bool gc_barrier) : | |
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122 OopsInKlassOrGenClosure(g), _g(g), _gc_barrier(gc_barrier) |
0 | 123 { |
124 assert(_g->level() == 0, "Optimized for youngest generation"); | |
125 _boundary = _g->reserved().end(); | |
126 } | |
127 | |
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128 void ScanClosure::do_oop(oop* p) { ScanClosure::do_oop_work(p); } |
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129 void ScanClosure::do_oop(narrowOop* p) { ScanClosure::do_oop_work(p); } |
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130 |
0 | 131 FastScanClosure::FastScanClosure(DefNewGeneration* g, bool gc_barrier) : |
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132 OopsInKlassOrGenClosure(g), _g(g), _gc_barrier(gc_barrier) |
0 | 133 { |
134 assert(_g->level() == 0, "Optimized for youngest generation"); | |
135 _boundary = _g->reserved().end(); | |
136 } | |
137 | |
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138 void FastScanClosure::do_oop(oop* p) { FastScanClosure::do_oop_work(p); } |
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139 void FastScanClosure::do_oop(narrowOop* p) { FastScanClosure::do_oop_work(p); } |
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140 |
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141 void KlassScanClosure::do_klass(Klass* klass) { |
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142 #ifndef PRODUCT |
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143 if (TraceScavenge) { |
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144 ResourceMark rm; |
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145 gclog_or_tty->print_cr("KlassScanClosure::do_klass %p, %s, dirty: %s", |
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146 klass, |
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147 klass->external_name(), |
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148 klass->has_modified_oops() ? "true" : "false"); |
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149 } |
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150 #endif |
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151 |
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152 // If the klass has not been dirtied we know that there's |
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153 // no references into the young gen and we can skip it. |
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154 if (klass->has_modified_oops()) { |
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155 if (_accumulate_modified_oops) { |
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156 klass->accumulate_modified_oops(); |
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157 } |
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158 |
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159 // Clear this state since we're going to scavenge all the metadata. |
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160 klass->clear_modified_oops(); |
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161 |
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162 // Tell the closure which Klass is being scanned so that it can be dirtied |
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163 // if oops are left pointing into the young gen. |
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164 _scavenge_closure->set_scanned_klass(klass); |
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165 |
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166 klass->oops_do(_scavenge_closure); |
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167 |
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168 _scavenge_closure->set_scanned_klass(NULL); |
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169 } |
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170 } |
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171 |
0 | 172 ScanWeakRefClosure::ScanWeakRefClosure(DefNewGeneration* g) : |
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173 _g(g) |
0 | 174 { |
175 assert(_g->level() == 0, "Optimized for youngest generation"); | |
176 _boundary = _g->reserved().end(); | |
177 } | |
178 | |
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179 void ScanWeakRefClosure::do_oop(oop* p) { ScanWeakRefClosure::do_oop_work(p); } |
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180 void ScanWeakRefClosure::do_oop(narrowOop* p) { ScanWeakRefClosure::do_oop_work(p); } |
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181 |
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182 void FilteringClosure::do_oop(oop* p) { FilteringClosure::do_oop_work(p); } |
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183 void FilteringClosure::do_oop(narrowOop* p) { FilteringClosure::do_oop_work(p); } |
0 | 184 |
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185 KlassScanClosure::KlassScanClosure(OopsInKlassOrGenClosure* scavenge_closure, |
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186 KlassRemSet* klass_rem_set) |
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187 : _scavenge_closure(scavenge_closure), |
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188 _accumulate_modified_oops(klass_rem_set->accumulate_modified_oops()) {} |
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189 |
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190 |
0 | 191 DefNewGeneration::DefNewGeneration(ReservedSpace rs, |
192 size_t initial_size, | |
193 int level, | |
194 const char* policy) | |
195 : Generation(rs, initial_size, level), | |
196 _promo_failure_drain_in_progress(false), | |
197 _should_allocate_from_space(false) | |
198 { | |
199 MemRegion cmr((HeapWord*)_virtual_space.low(), | |
200 (HeapWord*)_virtual_space.high()); | |
201 Universe::heap()->barrier_set()->resize_covered_region(cmr); | |
202 | |
203 if (GenCollectedHeap::heap()->collector_policy()->has_soft_ended_eden()) { | |
204 _eden_space = new ConcEdenSpace(this); | |
205 } else { | |
206 _eden_space = new EdenSpace(this); | |
207 } | |
208 _from_space = new ContiguousSpace(); | |
209 _to_space = new ContiguousSpace(); | |
210 | |
211 if (_eden_space == NULL || _from_space == NULL || _to_space == NULL) | |
212 vm_exit_during_initialization("Could not allocate a new gen space"); | |
213 | |
214 // Compute the maximum eden and survivor space sizes. These sizes | |
215 // are computed assuming the entire reserved space is committed. | |
216 // These values are exported as performance counters. | |
217 uintx alignment = GenCollectedHeap::heap()->collector_policy()->min_alignment(); | |
218 uintx size = _virtual_space.reserved_size(); | |
219 _max_survivor_size = compute_survivor_size(size, alignment); | |
220 _max_eden_size = size - (2*_max_survivor_size); | |
221 | |
222 // allocate the performance counters | |
223 | |
224 // Generation counters -- generation 0, 3 subspaces | |
225 _gen_counters = new GenerationCounters("new", 0, 3, &_virtual_space); | |
226 _gc_counters = new CollectorCounters(policy, 0); | |
227 | |
228 _eden_counters = new CSpaceCounters("eden", 0, _max_eden_size, _eden_space, | |
229 _gen_counters); | |
230 _from_counters = new CSpaceCounters("s0", 1, _max_survivor_size, _from_space, | |
231 _gen_counters); | |
232 _to_counters = new CSpaceCounters("s1", 2, _max_survivor_size, _to_space, | |
233 _gen_counters); | |
234 | |
263
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235 compute_space_boundaries(0, SpaceDecorator::Clear, SpaceDecorator::Mangle); |
0 | 236 update_counters(); |
237 _next_gen = NULL; | |
238 _tenuring_threshold = MaxTenuringThreshold; | |
239 _pretenure_size_threshold_words = PretenureSizeThreshold >> LogHeapWordSize; | |
240 } | |
241 | |
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242 void DefNewGeneration::compute_space_boundaries(uintx minimum_eden_size, |
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243 bool clear_space, |
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244 bool mangle_space) { |
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245 uintx alignment = |
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246 GenCollectedHeap::heap()->collector_policy()->min_alignment(); |
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247 |
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248 // If the spaces are being cleared (only done at heap initialization |
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249 // currently), the survivor spaces need not be empty. |
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250 // Otherwise, no care is taken for used areas in the survivor spaces |
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251 // so check. |
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252 assert(clear_space || (to()->is_empty() && from()->is_empty()), |
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253 "Initialization of the survivor spaces assumes these are empty"); |
0 | 254 |
255 // Compute sizes | |
256 uintx size = _virtual_space.committed_size(); | |
257 uintx survivor_size = compute_survivor_size(size, alignment); | |
258 uintx eden_size = size - (2*survivor_size); | |
259 assert(eden_size > 0 && survivor_size <= eden_size, "just checking"); | |
260 | |
261 if (eden_size < minimum_eden_size) { | |
262 // May happen due to 64Kb rounding, if so adjust eden size back up | |
263 minimum_eden_size = align_size_up(minimum_eden_size, alignment); | |
264 uintx maximum_survivor_size = (size - minimum_eden_size) / 2; | |
265 uintx unaligned_survivor_size = | |
266 align_size_down(maximum_survivor_size, alignment); | |
267 survivor_size = MAX2(unaligned_survivor_size, alignment); | |
268 eden_size = size - (2*survivor_size); | |
269 assert(eden_size > 0 && survivor_size <= eden_size, "just checking"); | |
270 assert(eden_size >= minimum_eden_size, "just checking"); | |
271 } | |
272 | |
273 char *eden_start = _virtual_space.low(); | |
274 char *from_start = eden_start + eden_size; | |
275 char *to_start = from_start + survivor_size; | |
276 char *to_end = to_start + survivor_size; | |
277 | |
278 assert(to_end == _virtual_space.high(), "just checking"); | |
279 assert(Space::is_aligned((HeapWord*)eden_start), "checking alignment"); | |
280 assert(Space::is_aligned((HeapWord*)from_start), "checking alignment"); | |
281 assert(Space::is_aligned((HeapWord*)to_start), "checking alignment"); | |
282 | |
283 MemRegion edenMR((HeapWord*)eden_start, (HeapWord*)from_start); | |
284 MemRegion fromMR((HeapWord*)from_start, (HeapWord*)to_start); | |
285 MemRegion toMR ((HeapWord*)to_start, (HeapWord*)to_end); | |
286 | |
263
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287 // A minimum eden size implies that there is a part of eden that |
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288 // is being used and that affects the initialization of any |
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289 // newly formed eden. |
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290 bool live_in_eden = minimum_eden_size > 0; |
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291 |
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292 // If not clearing the spaces, do some checking to verify that |
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293 // the space are already mangled. |
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294 if (!clear_space) { |
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295 // Must check mangling before the spaces are reshaped. Otherwise, |
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296 // the bottom or end of one space may have moved into another |
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297 // a failure of the check may not correctly indicate which space |
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298 // is not properly mangled. |
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299 if (ZapUnusedHeapArea) { |
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300 HeapWord* limit = (HeapWord*) _virtual_space.high(); |
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301 eden()->check_mangled_unused_area(limit); |
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302 from()->check_mangled_unused_area(limit); |
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303 to()->check_mangled_unused_area(limit); |
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304 } |
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305 } |
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306 |
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307 // Reset the spaces for their new regions. |
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308 eden()->initialize(edenMR, |
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309 clear_space && !live_in_eden, |
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310 SpaceDecorator::Mangle); |
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311 // If clear_space and live_in_eden, we will not have cleared any |
0 | 312 // portion of eden above its top. This can cause newly |
313 // expanded space not to be mangled if using ZapUnusedHeapArea. | |
314 // We explicitly do such mangling here. | |
263
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315 if (ZapUnusedHeapArea && clear_space && live_in_eden && mangle_space) { |
0 | 316 eden()->mangle_unused_area(); |
317 } | |
263
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318 from()->initialize(fromMR, clear_space, mangle_space); |
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319 to()->initialize(toMR, clear_space, mangle_space); |
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320 |
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321 // Set next compaction spaces. |
0 | 322 eden()->set_next_compaction_space(from()); |
323 // The to-space is normally empty before a compaction so need | |
324 // not be considered. The exception is during promotion | |
325 // failure handling when to-space can contain live objects. | |
326 from()->set_next_compaction_space(NULL); | |
327 } | |
328 | |
329 void DefNewGeneration::swap_spaces() { | |
330 ContiguousSpace* s = from(); | |
331 _from_space = to(); | |
332 _to_space = s; | |
333 eden()->set_next_compaction_space(from()); | |
334 // The to-space is normally empty before a compaction so need | |
335 // not be considered. The exception is during promotion | |
336 // failure handling when to-space can contain live objects. | |
337 from()->set_next_compaction_space(NULL); | |
338 | |
339 if (UsePerfData) { | |
340 CSpaceCounters* c = _from_counters; | |
341 _from_counters = _to_counters; | |
342 _to_counters = c; | |
343 } | |
344 } | |
345 | |
346 bool DefNewGeneration::expand(size_t bytes) { | |
347 MutexLocker x(ExpandHeap_lock); | |
263
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348 HeapWord* prev_high = (HeapWord*) _virtual_space.high(); |
0 | 349 bool success = _virtual_space.expand_by(bytes); |
263
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350 if (success && ZapUnusedHeapArea) { |
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351 // Mangle newly committed space immediately because it |
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352 // can be done here more simply that after the new |
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353 // spaces have been computed. |
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354 HeapWord* new_high = (HeapWord*) _virtual_space.high(); |
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355 MemRegion mangle_region(prev_high, new_high); |
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356 SpaceMangler::mangle_region(mangle_region); |
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357 } |
0 | 358 |
359 // Do not attempt an expand-to-the reserve size. The | |
360 // request should properly observe the maximum size of | |
361 // the generation so an expand-to-reserve should be | |
362 // unnecessary. Also a second call to expand-to-reserve | |
363 // value potentially can cause an undue expansion. | |
364 // For example if the first expand fail for unknown reasons, | |
365 // but the second succeeds and expands the heap to its maximum | |
366 // value. | |
367 if (GC_locker::is_active()) { | |
368 if (PrintGC && Verbose) { | |
263
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369 gclog_or_tty->print_cr("Garbage collection disabled, " |
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370 "expanded heap instead"); |
0 | 371 } |
372 } | |
373 | |
374 return success; | |
375 } | |
376 | |
377 | |
378 void DefNewGeneration::compute_new_size() { | |
379 // This is called after a gc that includes the following generation | |
380 // (which is required to exist.) So from-space will normally be empty. | |
381 // Note that we check both spaces, since if scavenge failed they revert roles. | |
382 // If not we bail out (otherwise we would have to relocate the objects) | |
383 if (!from()->is_empty() || !to()->is_empty()) { | |
384 return; | |
385 } | |
386 | |
387 int next_level = level() + 1; | |
388 GenCollectedHeap* gch = GenCollectedHeap::heap(); | |
389 assert(next_level < gch->_n_gens, | |
390 "DefNewGeneration cannot be an oldest gen"); | |
391 | |
392 Generation* next_gen = gch->_gens[next_level]; | |
393 size_t old_size = next_gen->capacity(); | |
394 size_t new_size_before = _virtual_space.committed_size(); | |
395 size_t min_new_size = spec()->init_size(); | |
396 size_t max_new_size = reserved().byte_size(); | |
397 assert(min_new_size <= new_size_before && | |
398 new_size_before <= max_new_size, | |
399 "just checking"); | |
400 // All space sizes must be multiples of Generation::GenGrain. | |
401 size_t alignment = Generation::GenGrain; | |
402 | |
403 // Compute desired new generation size based on NewRatio and | |
404 // NewSizeThreadIncrease | |
405 size_t desired_new_size = old_size/NewRatio; | |
406 int threads_count = Threads::number_of_non_daemon_threads(); | |
407 size_t thread_increase_size = threads_count * NewSizeThreadIncrease; | |
408 desired_new_size = align_size_up(desired_new_size + thread_increase_size, alignment); | |
409 | |
410 // Adjust new generation size | |
411 desired_new_size = MAX2(MIN2(desired_new_size, max_new_size), min_new_size); | |
412 assert(desired_new_size <= max_new_size, "just checking"); | |
413 | |
414 bool changed = false; | |
415 if (desired_new_size > new_size_before) { | |
416 size_t change = desired_new_size - new_size_before; | |
417 assert(change % alignment == 0, "just checking"); | |
418 if (expand(change)) { | |
419 changed = true; | |
420 } | |
421 // If the heap failed to expand to the desired size, | |
422 // "changed" will be false. If the expansion failed | |
423 // (and at this point it was expected to succeed), | |
424 // ignore the failure (leaving "changed" as false). | |
425 } | |
426 if (desired_new_size < new_size_before && eden()->is_empty()) { | |
427 // bail out of shrinking if objects in eden | |
428 size_t change = new_size_before - desired_new_size; | |
429 assert(change % alignment == 0, "just checking"); | |
430 _virtual_space.shrink_by(change); | |
431 changed = true; | |
432 } | |
433 if (changed) { | |
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434 // The spaces have already been mangled at this point but |
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435 // may not have been cleared (set top = bottom) and should be. |
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436 // Mangling was done when the heap was being expanded. |
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437 compute_space_boundaries(eden()->used(), |
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438 SpaceDecorator::Clear, |
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439 SpaceDecorator::DontMangle); |
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440 MemRegion cmr((HeapWord*)_virtual_space.low(), |
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441 (HeapWord*)_virtual_space.high()); |
0 | 442 Universe::heap()->barrier_set()->resize_covered_region(cmr); |
443 if (Verbose && PrintGC) { | |
444 size_t new_size_after = _virtual_space.committed_size(); | |
445 size_t eden_size_after = eden()->capacity(); | |
446 size_t survivor_size_after = from()->capacity(); | |
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447 gclog_or_tty->print("New generation size " SIZE_FORMAT "K->" |
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448 SIZE_FORMAT "K [eden=" |
0 | 449 SIZE_FORMAT "K,survivor=" SIZE_FORMAT "K]", |
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450 new_size_before/K, new_size_after/K, |
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451 eden_size_after/K, survivor_size_after/K); |
0 | 452 if (WizardMode) { |
453 gclog_or_tty->print("[allowed " SIZE_FORMAT "K extra for %d threads]", | |
454 thread_increase_size/K, threads_count); | |
455 } | |
456 gclog_or_tty->cr(); | |
457 } | |
458 } | |
459 } | |
460 | |
461 void DefNewGeneration::object_iterate_since_last_GC(ObjectClosure* cl) { | |
462 // $$$ This may be wrong in case of "scavenge failure"? | |
463 eden()->object_iterate(cl); | |
464 } | |
465 | |
466 void DefNewGeneration::younger_refs_iterate(OopsInGenClosure* cl) { | |
467 assert(false, "NYI -- are you sure you want to call this?"); | |
468 } | |
469 | |
470 | |
471 size_t DefNewGeneration::capacity() const { | |
472 return eden()->capacity() | |
473 + from()->capacity(); // to() is only used during scavenge | |
474 } | |
475 | |
476 | |
477 size_t DefNewGeneration::used() const { | |
478 return eden()->used() | |
479 + from()->used(); // to() is only used during scavenge | |
480 } | |
481 | |
482 | |
483 size_t DefNewGeneration::free() const { | |
484 return eden()->free() | |
485 + from()->free(); // to() is only used during scavenge | |
486 } | |
487 | |
488 size_t DefNewGeneration::max_capacity() const { | |
489 const size_t alignment = GenCollectedHeap::heap()->collector_policy()->min_alignment(); | |
490 const size_t reserved_bytes = reserved().byte_size(); | |
491 return reserved_bytes - compute_survivor_size(reserved_bytes, alignment); | |
492 } | |
493 | |
494 size_t DefNewGeneration::unsafe_max_alloc_nogc() const { | |
495 return eden()->free(); | |
496 } | |
497 | |
498 size_t DefNewGeneration::capacity_before_gc() const { | |
499 return eden()->capacity(); | |
500 } | |
501 | |
502 size_t DefNewGeneration::contiguous_available() const { | |
503 return eden()->free(); | |
504 } | |
505 | |
506 | |
507 HeapWord** DefNewGeneration::top_addr() const { return eden()->top_addr(); } | |
508 HeapWord** DefNewGeneration::end_addr() const { return eden()->end_addr(); } | |
509 | |
510 void DefNewGeneration::object_iterate(ObjectClosure* blk) { | |
511 eden()->object_iterate(blk); | |
512 from()->object_iterate(blk); | |
513 } | |
514 | |
515 | |
516 void DefNewGeneration::space_iterate(SpaceClosure* blk, | |
517 bool usedOnly) { | |
518 blk->do_space(eden()); | |
519 blk->do_space(from()); | |
520 blk->do_space(to()); | |
521 } | |
522 | |
523 // The last collection bailed out, we are running out of heap space, | |
524 // so we try to allocate the from-space, too. | |
525 HeapWord* DefNewGeneration::allocate_from_space(size_t size) { | |
526 HeapWord* result = NULL; | |
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527 if (Verbose && PrintGCDetails) { |
0 | 528 gclog_or_tty->print("DefNewGeneration::allocate_from_space(%u):" |
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529 " will_fail: %s" |
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530 " heap_lock: %s" |
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531 " free: " SIZE_FORMAT, |
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532 size, |
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533 GenCollectedHeap::heap()->incremental_collection_will_fail(false /* don't consult_young */) ? |
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534 "true" : "false", |
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535 Heap_lock->is_locked() ? "locked" : "unlocked", |
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536 from()->free()); |
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537 } |
0 | 538 if (should_allocate_from_space() || GC_locker::is_active_and_needs_gc()) { |
539 if (Heap_lock->owned_by_self() || | |
540 (SafepointSynchronize::is_at_safepoint() && | |
541 Thread::current()->is_VM_thread())) { | |
542 // If the Heap_lock is not locked by this thread, this will be called | |
543 // again later with the Heap_lock held. | |
544 result = from()->allocate(size); | |
545 } else if (PrintGC && Verbose) { | |
546 gclog_or_tty->print_cr(" Heap_lock is not owned by self"); | |
547 } | |
548 } else if (PrintGC && Verbose) { | |
549 gclog_or_tty->print_cr(" should_allocate_from_space: NOT"); | |
550 } | |
551 if (PrintGC && Verbose) { | |
552 gclog_or_tty->print_cr(" returns %s", result == NULL ? "NULL" : "object"); | |
553 } | |
554 return result; | |
555 } | |
556 | |
557 HeapWord* DefNewGeneration::expand_and_allocate(size_t size, | |
558 bool is_tlab, | |
559 bool parallel) { | |
560 // We don't attempt to expand the young generation (but perhaps we should.) | |
561 return allocate(size, is_tlab); | |
562 } | |
563 | |
564 | |
565 void DefNewGeneration::collect(bool full, | |
566 bool clear_all_soft_refs, | |
567 size_t size, | |
568 bool is_tlab) { | |
569 assert(full || size > 0, "otherwise we don't want to collect"); | |
570 GenCollectedHeap* gch = GenCollectedHeap::heap(); | |
571 _next_gen = gch->next_gen(this); | |
572 assert(_next_gen != NULL, | |
573 "This must be the youngest gen, and not the only gen"); | |
574 | |
575 // If the next generation is too full to accomodate promotion | |
576 // from this generation, pass on collection; let the next generation | |
577 // do it. | |
578 if (!collection_attempt_is_safe()) { | |
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579 if (Verbose && PrintGCDetails) { |
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580 gclog_or_tty->print(" :: Collection attempt not safe :: "); |
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581 } |
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582 gch->set_incremental_collection_failed(); // Slight lie: we did not even attempt one |
0 | 583 return; |
584 } | |
585 assert(to()->is_empty(), "Else not collection_attempt_is_safe"); | |
586 | |
587 init_assuming_no_promotion_failure(); | |
588 | |
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589 TraceTime t1(GCCauseString("GC", gch->gc_cause()), PrintGC && !PrintGCDetails, true, gclog_or_tty); |
0 | 590 // Capture heap used before collection (for printing). |
591 size_t gch_prev_used = gch->used(); | |
592 | |
593 SpecializationStats::clear(); | |
594 | |
595 // These can be shared for all code paths | |
596 IsAliveClosure is_alive(this); | |
597 ScanWeakRefClosure scan_weak_ref(this); | |
598 | |
599 age_table()->clear(); | |
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600 to()->clear(SpaceDecorator::Mangle); |
0 | 601 |
602 gch->rem_set()->prepare_for_younger_refs_iterate(false); | |
603 | |
604 assert(gch->no_allocs_since_save_marks(0), | |
605 "save marks have not been newly set."); | |
606 | |
607 // Not very pretty. | |
608 CollectorPolicy* cp = gch->collector_policy(); | |
609 | |
610 FastScanClosure fsc_with_no_gc_barrier(this, false); | |
611 FastScanClosure fsc_with_gc_barrier(this, true); | |
612 | |
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613 KlassScanClosure klass_scan_closure(&fsc_with_no_gc_barrier, |
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614 gch->rem_set()->klass_rem_set()); |
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615 |
0 | 616 set_promo_failure_scan_stack_closure(&fsc_with_no_gc_barrier); |
617 FastEvacuateFollowersClosure evacuate_followers(gch, _level, this, | |
618 &fsc_with_no_gc_barrier, | |
619 &fsc_with_gc_barrier); | |
620 | |
621 assert(gch->no_allocs_since_save_marks(0), | |
622 "save marks have not been newly set."); | |
623 | |
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624 int so = SharedHeap::SO_AllClasses | SharedHeap::SO_Strings | SharedHeap::SO_CodeCache; |
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625 |
0 | 626 gch->gen_process_strong_roots(_level, |
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627 true, // Process younger gens, if any, |
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628 // as strong roots. |
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629 true, // activate StrongRootsScope |
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630 true, // is scavenging |
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631 SharedHeap::ScanningOption(so), |
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632 &fsc_with_no_gc_barrier, |
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633 true, // walk *all* scavengable nmethods |
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634 &fsc_with_gc_barrier, |
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635 &klass_scan_closure); |
0 | 636 |
637 // "evacuate followers". | |
638 evacuate_followers.do_void(); | |
639 | |
640 FastKeepAliveClosure keep_alive(this, &scan_weak_ref); | |
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641 ReferenceProcessor* rp = ref_processor(); |
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642 rp->setup_policy(clear_all_soft_refs); |
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643 rp->process_discovered_references(&is_alive, &keep_alive, &evacuate_followers, |
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644 NULL); |
0 | 645 if (!promotion_failed()) { |
646 // Swap the survivor spaces. | |
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647 eden()->clear(SpaceDecorator::Mangle); |
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648 from()->clear(SpaceDecorator::Mangle); |
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649 if (ZapUnusedHeapArea) { |
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650 // This is now done here because of the piece-meal mangling which |
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651 // can check for valid mangling at intermediate points in the |
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652 // collection(s). When a minor collection fails to collect |
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653 // sufficient space resizing of the young generation can occur |
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654 // an redistribute the spaces in the young generation. Mangle |
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655 // here so that unzapped regions don't get distributed to |
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656 // other spaces. |
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657 to()->mangle_unused_area(); |
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658 } |
0 | 659 swap_spaces(); |
660 | |
661 assert(to()->is_empty(), "to space should be empty now"); | |
662 | |
663 // Set the desired survivor size to half the real survivor space | |
664 _tenuring_threshold = | |
665 age_table()->compute_tenuring_threshold(to()->capacity()/HeapWordSize); | |
666 | |
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667 // A successful scavenge should restart the GC time limit count which is |
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668 // for full GC's. |
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669 AdaptiveSizePolicy* size_policy = gch->gen_policy()->size_policy(); |
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670 size_policy->reset_gc_overhead_limit_count(); |
0 | 671 if (PrintGC && !PrintGCDetails) { |
672 gch->print_heap_change(gch_prev_used); | |
673 } | |
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674 assert(!gch->incremental_collection_failed(), "Should be clear"); |
0 | 675 } else { |
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676 assert(_promo_failure_scan_stack.is_empty(), "post condition"); |
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677 _promo_failure_scan_stack.clear(true); // Clear cached segments. |
0 | 678 |
679 remove_forwarding_pointers(); | |
680 if (PrintGCDetails) { | |
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681 gclog_or_tty->print(" (promotion failed) "); |
0 | 682 } |
683 // Add to-space to the list of space to compact | |
684 // when a promotion failure has occurred. In that | |
685 // case there can be live objects in to-space | |
686 // as a result of a partial evacuation of eden | |
687 // and from-space. | |
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688 swap_spaces(); // For uniformity wrt ParNewGeneration. |
0 | 689 from()->set_next_compaction_space(to()); |
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690 gch->set_incremental_collection_failed(); |
0 | 691 |
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692 // Inform the next generation that a promotion failure occurred. |
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693 _next_gen->promotion_failure_occurred(); |
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694 |
0 | 695 // Reset the PromotionFailureALot counters. |
696 NOT_PRODUCT(Universe::heap()->reset_promotion_should_fail();) | |
697 } | |
698 // set new iteration safe limit for the survivor spaces | |
699 from()->set_concurrent_iteration_safe_limit(from()->top()); | |
700 to()->set_concurrent_iteration_safe_limit(to()->top()); | |
701 SpecializationStats::print(); | |
4911 | 702 |
703 // We need to use a monotonically non-deccreasing time in ms | |
704 // or we will see time-warp warnings and os::javaTimeMillis() | |
705 // does not guarantee monotonicity. | |
706 jlong now = os::javaTimeNanos() / NANOSECS_PER_MILLISEC; | |
707 update_time_of_last_gc(now); | |
0 | 708 } |
709 | |
710 class RemoveForwardPointerClosure: public ObjectClosure { | |
711 public: | |
712 void do_object(oop obj) { | |
713 obj->init_mark(); | |
714 } | |
715 }; | |
716 | |
717 void DefNewGeneration::init_assuming_no_promotion_failure() { | |
718 _promotion_failed = false; | |
719 from()->set_next_compaction_space(NULL); | |
720 } | |
721 | |
722 void DefNewGeneration::remove_forwarding_pointers() { | |
723 RemoveForwardPointerClosure rspc; | |
724 eden()->object_iterate(&rspc); | |
725 from()->object_iterate(&rspc); | |
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726 |
0 | 727 // Now restore saved marks, if any. |
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728 assert(_objs_with_preserved_marks.size() == _preserved_marks_of_objs.size(), |
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729 "should be the same"); |
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730 while (!_objs_with_preserved_marks.is_empty()) { |
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731 oop obj = _objs_with_preserved_marks.pop(); |
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732 markOop m = _preserved_marks_of_objs.pop(); |
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733 obj->set_mark(m); |
0 | 734 } |
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735 _objs_with_preserved_marks.clear(true); |
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736 _preserved_marks_of_objs.clear(true); |
0 | 737 } |
738 | |
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739 void DefNewGeneration::preserve_mark(oop obj, markOop m) { |
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740 assert(promotion_failed() && m->must_be_preserved_for_promotion_failure(obj), |
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741 "Oversaving!"); |
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742 _objs_with_preserved_marks.push(obj); |
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743 _preserved_marks_of_objs.push(m); |
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744 } |
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745 |
0 | 746 void DefNewGeneration::preserve_mark_if_necessary(oop obj, markOop m) { |
747 if (m->must_be_preserved_for_promotion_failure(obj)) { | |
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748 preserve_mark(obj, m); |
0 | 749 } |
750 } | |
751 | |
752 void DefNewGeneration::handle_promotion_failure(oop old) { | |
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753 if (PrintPromotionFailure && !_promotion_failed) { |
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754 gclog_or_tty->print(" (promotion failure size = " SIZE_FORMAT ") ", |
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755 old->size()); |
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756 } |
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757 _promotion_failed = true; |
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758 preserve_mark_if_necessary(old, old->mark()); |
0 | 759 // forward to self |
760 old->forward_to(old); | |
761 | |
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762 _promo_failure_scan_stack.push(old); |
0 | 763 |
764 if (!_promo_failure_drain_in_progress) { | |
765 // prevent recursion in copy_to_survivor_space() | |
766 _promo_failure_drain_in_progress = true; | |
767 drain_promo_failure_scan_stack(); | |
768 _promo_failure_drain_in_progress = false; | |
769 } | |
770 } | |
771 | |
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772 oop DefNewGeneration::copy_to_survivor_space(oop old) { |
0 | 773 assert(is_in_reserved(old) && !old->is_forwarded(), |
774 "shouldn't be scavenging this oop"); | |
775 size_t s = old->size(); | |
776 oop obj = NULL; | |
777 | |
778 // Try allocating obj in to-space (unless too old) | |
779 if (old->age() < tenuring_threshold()) { | |
780 obj = (oop) to()->allocate(s); | |
781 } | |
782 | |
783 // Otherwise try allocating obj tenured | |
784 if (obj == NULL) { | |
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785 obj = _next_gen->promote(old, s); |
0 | 786 if (obj == NULL) { |
787 handle_promotion_failure(old); | |
788 return old; | |
789 } | |
790 } else { | |
791 // Prefetch beyond obj | |
792 const intx interval = PrefetchCopyIntervalInBytes; | |
793 Prefetch::write(obj, interval); | |
794 | |
795 // Copy obj | |
796 Copy::aligned_disjoint_words((HeapWord*)old, (HeapWord*)obj, s); | |
797 | |
798 // Increment age if obj still in new generation | |
799 obj->incr_age(); | |
800 age_table()->add(obj, s); | |
801 } | |
802 | |
803 // Done, insert forward pointer to obj in this header | |
804 old->forward_to(obj); | |
805 | |
806 return obj; | |
807 } | |
808 | |
809 void DefNewGeneration::drain_promo_failure_scan_stack() { | |
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810 while (!_promo_failure_scan_stack.is_empty()) { |
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811 oop obj = _promo_failure_scan_stack.pop(); |
0 | 812 obj->oop_iterate(_promo_failure_scan_stack_closure); |
813 } | |
814 } | |
815 | |
816 void DefNewGeneration::save_marks() { | |
817 eden()->set_saved_mark(); | |
818 to()->set_saved_mark(); | |
819 from()->set_saved_mark(); | |
820 } | |
821 | |
822 | |
823 void DefNewGeneration::reset_saved_marks() { | |
824 eden()->reset_saved_mark(); | |
825 to()->reset_saved_mark(); | |
826 from()->reset_saved_mark(); | |
827 } | |
828 | |
829 | |
830 bool DefNewGeneration::no_allocs_since_save_marks() { | |
831 assert(eden()->saved_mark_at_top(), "Violated spec - alloc in eden"); | |
832 assert(from()->saved_mark_at_top(), "Violated spec - alloc in from"); | |
833 return to()->saved_mark_at_top(); | |
834 } | |
835 | |
836 #define DefNew_SINCE_SAVE_MARKS_DEFN(OopClosureType, nv_suffix) \ | |
837 \ | |
838 void DefNewGeneration:: \ | |
839 oop_since_save_marks_iterate##nv_suffix(OopClosureType* cl) { \ | |
840 cl->set_generation(this); \ | |
841 eden()->oop_since_save_marks_iterate##nv_suffix(cl); \ | |
842 to()->oop_since_save_marks_iterate##nv_suffix(cl); \ | |
843 from()->oop_since_save_marks_iterate##nv_suffix(cl); \ | |
844 cl->reset_generation(); \ | |
845 save_marks(); \ | |
846 } | |
847 | |
848 ALL_SINCE_SAVE_MARKS_CLOSURES(DefNew_SINCE_SAVE_MARKS_DEFN) | |
849 | |
850 #undef DefNew_SINCE_SAVE_MARKS_DEFN | |
851 | |
852 void DefNewGeneration::contribute_scratch(ScratchBlock*& list, Generation* requestor, | |
853 size_t max_alloc_words) { | |
854 if (requestor == this || _promotion_failed) return; | |
855 assert(requestor->level() > level(), "DefNewGeneration must be youngest"); | |
856 | |
857 /* $$$ Assert this? "trace" is a "MarkSweep" function so that's not appropriate. | |
858 if (to_space->top() > to_space->bottom()) { | |
859 trace("to_space not empty when contribute_scratch called"); | |
860 } | |
861 */ | |
862 | |
863 ContiguousSpace* to_space = to(); | |
864 assert(to_space->end() >= to_space->top(), "pointers out of order"); | |
865 size_t free_words = pointer_delta(to_space->end(), to_space->top()); | |
866 if (free_words >= MinFreeScratchWords) { | |
867 ScratchBlock* sb = (ScratchBlock*)to_space->top(); | |
868 sb->num_words = free_words; | |
869 sb->next = list; | |
870 list = sb; | |
871 } | |
872 } | |
873 | |
263
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874 void DefNewGeneration::reset_scratch() { |
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875 // If contributing scratch in to_space, mangle all of |
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876 // to_space if ZapUnusedHeapArea. This is needed because |
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877 // top is not maintained while using to-space as scratch. |
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878 if (ZapUnusedHeapArea) { |
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879 to()->mangle_unused_area_complete(); |
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880 } |
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881 } |
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882 |
0 | 883 bool DefNewGeneration::collection_attempt_is_safe() { |
884 if (!to()->is_empty()) { | |
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885 if (Verbose && PrintGCDetails) { |
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886 gclog_or_tty->print(" :: to is not empty :: "); |
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887 } |
0 | 888 return false; |
889 } | |
890 if (_next_gen == NULL) { | |
891 GenCollectedHeap* gch = GenCollectedHeap::heap(); | |
892 _next_gen = gch->next_gen(this); | |
893 assert(_next_gen != NULL, | |
894 "This must be the youngest gen, and not the only gen"); | |
895 } | |
1888
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896 return _next_gen->promotion_attempt_is_safe(used()); |
0 | 897 } |
898 | |
899 void DefNewGeneration::gc_epilogue(bool full) { | |
1889
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900 DEBUG_ONLY(static bool seen_incremental_collection_failed = false;) |
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901 |
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902 assert(!GC_locker::is_active(), "We should not be executing here"); |
0 | 903 // Check if the heap is approaching full after a collection has |
904 // been done. Generally the young generation is empty at | |
905 // a minimum at the end of a collection. If it is not, then | |
906 // the heap is approaching full. | |
907 GenCollectedHeap* gch = GenCollectedHeap::heap(); | |
1888
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908 if (full) { |
1889
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909 DEBUG_ONLY(seen_incremental_collection_failed = false;) |
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910 if (!collection_attempt_is_safe() && !_eden_space->is_empty()) { |
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911 if (Verbose && PrintGCDetails) { |
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912 gclog_or_tty->print("DefNewEpilogue: cause(%s), full, not safe, set_failed, set_alloc_from, clear_seen", |
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913 GCCause::to_string(gch->gc_cause())); |
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914 } |
1888
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915 gch->set_incremental_collection_failed(); // Slight lie: a full gc left us in that state |
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916 set_should_allocate_from_space(); // we seem to be running out of space |
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917 } else { |
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918 if (Verbose && PrintGCDetails) { |
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919 gclog_or_tty->print("DefNewEpilogue: cause(%s), full, safe, clear_failed, clear_alloc_from, clear_seen", |
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920 GCCause::to_string(gch->gc_cause())); |
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921 } |
1888
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922 gch->clear_incremental_collection_failed(); // We just did a full collection |
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923 clear_should_allocate_from_space(); // if set |
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924 } |
0 | 925 } else { |
1889
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926 #ifdef ASSERT |
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927 // It is possible that incremental_collection_failed() == true |
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928 // here, because an attempted scavenge did not succeed. The policy |
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929 // is normally expected to cause a full collection which should |
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930 // clear that condition, so we should not be here twice in a row |
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931 // with incremental_collection_failed() == true without having done |
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932 // a full collection in between. |
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933 if (!seen_incremental_collection_failed && |
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934 gch->incremental_collection_failed()) { |
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935 if (Verbose && PrintGCDetails) { |
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936 gclog_or_tty->print("DefNewEpilogue: cause(%s), not full, not_seen_failed, failed, set_seen_failed", |
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937 GCCause::to_string(gch->gc_cause())); |
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938 } |
1889
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939 seen_incremental_collection_failed = true; |
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940 } else if (seen_incremental_collection_failed) { |
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941 if (Verbose && PrintGCDetails) { |
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942 gclog_or_tty->print("DefNewEpilogue: cause(%s), not full, seen_failed, will_clear_seen_failed", |
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943 GCCause::to_string(gch->gc_cause())); |
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944 } |
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945 assert(gch->gc_cause() == GCCause::_scavenge_alot || |
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946 (gch->gc_cause() == GCCause::_java_lang_system_gc && UseConcMarkSweepGC && ExplicitGCInvokesConcurrent) || |
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947 !gch->incremental_collection_failed(), |
1953
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948 "Twice in a row"); |
1889
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949 seen_incremental_collection_failed = false; |
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950 } |
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951 #endif // ASSERT |
0 | 952 } |
953 | |
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954 if (ZapUnusedHeapArea) { |
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955 eden()->check_mangled_unused_area_complete(); |
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956 from()->check_mangled_unused_area_complete(); |
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957 to()->check_mangled_unused_area_complete(); |
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958 } |
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959 |
3799
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960 if (!CleanChunkPoolAsync) { |
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961 Chunk::clean_chunk_pool(); |
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962 } |
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963 |
0 | 964 // update the generation and space performance counters |
965 update_counters(); | |
966 gch->collector_policy()->counters()->update_counters(); | |
967 } | |
968 | |
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969 void DefNewGeneration::record_spaces_top() { |
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970 assert(ZapUnusedHeapArea, "Not mangling unused space"); |
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971 eden()->set_top_for_allocations(); |
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972 to()->set_top_for_allocations(); |
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973 from()->set_top_for_allocations(); |
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974 } |
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975 |
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976 |
0 | 977 void DefNewGeneration::update_counters() { |
978 if (UsePerfData) { | |
979 _eden_counters->update_all(); | |
980 _from_counters->update_all(); | |
981 _to_counters->update_all(); | |
982 _gen_counters->update_all(); | |
983 } | |
984 } | |
985 | |
6008 | 986 void DefNewGeneration::verify() { |
987 eden()->verify(); | |
988 from()->verify(); | |
989 to()->verify(); | |
0 | 990 } |
991 | |
992 void DefNewGeneration::print_on(outputStream* st) const { | |
993 Generation::print_on(st); | |
994 st->print(" eden"); | |
995 eden()->print_on(st); | |
996 st->print(" from"); | |
997 from()->print_on(st); | |
998 st->print(" to "); | |
999 to()->print_on(st); | |
1000 } | |
1001 | |
1002 | |
1003 const char* DefNewGeneration::name() const { | |
1004 return "def new generation"; | |
1005 } | |
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1006 |
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1007 // Moved from inline file as they are not called inline |
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1008 CompactibleSpace* DefNewGeneration::first_compaction_space() const { |
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1009 return eden(); |
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1010 } |
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1011 |
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1012 HeapWord* DefNewGeneration::allocate(size_t word_size, |
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1013 bool is_tlab) { |
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1014 // This is the slow-path allocation for the DefNewGeneration. |
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1015 // Most allocations are fast-path in compiled code. |
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1016 // We try to allocate from the eden. If that works, we are happy. |
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1017 // Note that since DefNewGeneration supports lock-free allocation, we |
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1018 // have to use it here, as well. |
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1019 HeapWord* result = eden()->par_allocate(word_size); |
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1020 if (result != NULL) { |
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1021 return result; |
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1022 } |
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1023 do { |
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1024 HeapWord* old_limit = eden()->soft_end(); |
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1025 if (old_limit < eden()->end()) { |
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1026 // Tell the next generation we reached a limit. |
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1027 HeapWord* new_limit = |
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1028 next_gen()->allocation_limit_reached(eden(), eden()->top(), word_size); |
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1029 if (new_limit != NULL) { |
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1030 Atomic::cmpxchg_ptr(new_limit, eden()->soft_end_addr(), old_limit); |
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1031 } else { |
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1032 assert(eden()->soft_end() == eden()->end(), |
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1033 "invalid state after allocation_limit_reached returned null"); |
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1034 } |
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1035 } else { |
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1036 // The allocation failed and the soft limit is equal to the hard limit, |
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1037 // there are no reasons to do an attempt to allocate |
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1038 assert(old_limit == eden()->end(), "sanity check"); |
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1039 break; |
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1040 } |
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1041 // Try to allocate until succeeded or the soft limit can't be adjusted |
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1042 result = eden()->par_allocate(word_size); |
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1043 } while (result == NULL); |
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1044 |
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1045 // If the eden is full and the last collection bailed out, we are running |
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1046 // out of heap space, and we try to allocate the from-space, too. |
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1047 // allocate_from_space can't be inlined because that would introduce a |
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1048 // circular dependency at compile time. |
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1049 if (result == NULL) { |
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1050 result = allocate_from_space(word_size); |
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1051 } |
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1052 return result; |
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1053 } |
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1054 |
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1055 HeapWord* DefNewGeneration::par_allocate(size_t word_size, |
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1056 bool is_tlab) { |
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1057 return eden()->par_allocate(word_size); |
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1058 } |
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1059 |
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1060 void DefNewGeneration::gc_prologue(bool full) { |
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1061 // Ensure that _end and _soft_end are the same in eden space. |
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1062 eden()->set_soft_end(eden()->end()); |
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1063 } |
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1064 |
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1065 size_t DefNewGeneration::tlab_capacity() const { |
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1066 return eden()->capacity(); |
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1067 } |
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1068 |
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1069 size_t DefNewGeneration::unsafe_max_tlab_alloc() const { |
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1070 return unsafe_max_alloc_nogc(); |
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1071 } |