Mercurial > hg > truffle
annotate src/share/vm/memory/space.cpp @ 20266:6c523f5d5440
8038412: Move object_iterate_careful down from Space to ContigousSpace and CFLSpace
Summary: Only declare the functions where they are actually needed.
Reviewed-by: tschatzl, stefank
author | mgerdin |
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date | Wed, 12 Mar 2014 17:13:48 +0100 |
parents | 5255b195f828 |
children | ff1e37e7eb83 |
rev | line source |
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0 | 1 /* |
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2 * Copyright (c) 1997, 2014, 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 "classfile/systemDictionary.hpp" | |
27 #include "classfile/vmSymbols.hpp" | |
28 #include "gc_implementation/shared/liveRange.hpp" | |
29 #include "gc_implementation/shared/markSweep.hpp" | |
30 #include "gc_implementation/shared/spaceDecorator.hpp" | |
31 #include "memory/blockOffsetTable.inline.hpp" | |
32 #include "memory/defNewGeneration.hpp" | |
33 #include "memory/genCollectedHeap.hpp" | |
34 #include "memory/space.hpp" | |
35 #include "memory/space.inline.hpp" | |
36 #include "memory/universe.inline.hpp" | |
37 #include "oops/oop.inline.hpp" | |
38 #include "oops/oop.inline2.hpp" | |
39 #include "runtime/java.hpp" | |
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40 #include "runtime/prefetch.inline.hpp" |
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41 #include "runtime/orderAccess.inline.hpp" |
1972 | 42 #include "runtime/safepoint.hpp" |
43 #include "utilities/copy.hpp" | |
44 #include "utilities/globalDefinitions.hpp" | |
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45 #include "utilities/macros.hpp" |
0 | 46 |
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47 PRAGMA_FORMAT_MUTE_WARNINGS_FOR_GCC |
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48 |
0 | 49 HeapWord* DirtyCardToOopClosure::get_actual_top(HeapWord* top, |
50 HeapWord* top_obj) { | |
51 if (top_obj != NULL) { | |
52 if (_sp->block_is_obj(top_obj)) { | |
53 if (_precision == CardTableModRefBS::ObjHeadPreciseArray) { | |
54 if (oop(top_obj)->is_objArray() || oop(top_obj)->is_typeArray()) { | |
55 // An arrayOop is starting on the dirty card - since we do exact | |
56 // store checks for objArrays we are done. | |
57 } else { | |
58 // Otherwise, it is possible that the object starting on the dirty | |
59 // card spans the entire card, and that the store happened on a | |
60 // later card. Figure out where the object ends. | |
61 // Use the block_size() method of the space over which | |
62 // the iteration is being done. That space (e.g. CMS) may have | |
63 // specific requirements on object sizes which will | |
64 // be reflected in the block_size() method. | |
65 top = top_obj + oop(top_obj)->size(); | |
66 } | |
67 } | |
68 } else { | |
69 top = top_obj; | |
70 } | |
71 } else { | |
72 assert(top == _sp->end(), "only case where top_obj == NULL"); | |
73 } | |
74 return top; | |
75 } | |
76 | |
77 void DirtyCardToOopClosure::walk_mem_region(MemRegion mr, | |
78 HeapWord* bottom, | |
79 HeapWord* top) { | |
80 // 1. Blocks may or may not be objects. | |
81 // 2. Even when a block_is_obj(), it may not entirely | |
82 // occupy the block if the block quantum is larger than | |
83 // the object size. | |
84 // We can and should try to optimize by calling the non-MemRegion | |
85 // version of oop_iterate() for all but the extremal objects | |
86 // (for which we need to call the MemRegion version of | |
87 // oop_iterate()) To be done post-beta XXX | |
88 for (; bottom < top; bottom += _sp->block_size(bottom)) { | |
89 // As in the case of contiguous space above, we'd like to | |
90 // just use the value returned by oop_iterate to increment the | |
91 // current pointer; unfortunately, that won't work in CMS because | |
92 // we'd need an interface change (it seems) to have the space | |
93 // "adjust the object size" (for instance pad it up to its | |
94 // block alignment or minimum block size restrictions. XXX | |
95 if (_sp->block_is_obj(bottom) && | |
96 !_sp->obj_allocated_since_save_marks(oop(bottom))) { | |
97 oop(bottom)->oop_iterate(_cl, mr); | |
98 } | |
99 } | |
100 } | |
101 | |
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102 // We get called with "mr" representing the dirty region |
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103 // that we want to process. Because of imprecise marking, |
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104 // we may need to extend the incoming "mr" to the right, |
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105 // and scan more. However, because we may already have |
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106 // scanned some of that extended region, we may need to |
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107 // trim its right-end back some so we do not scan what |
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108 // we (or another worker thread) may already have scanned |
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109 // or planning to scan. |
0 | 110 void DirtyCardToOopClosure::do_MemRegion(MemRegion mr) { |
111 | |
112 // Some collectors need to do special things whenever their dirty | |
113 // cards are processed. For instance, CMS must remember mutator updates | |
114 // (i.e. dirty cards) so as to re-scan mutated objects. | |
115 // Such work can be piggy-backed here on dirty card scanning, so as to make | |
116 // it slightly more efficient than doing a complete non-detructive pre-scan | |
117 // of the card table. | |
118 MemRegionClosure* pCl = _sp->preconsumptionDirtyCardClosure(); | |
119 if (pCl != NULL) { | |
120 pCl->do_MemRegion(mr); | |
121 } | |
122 | |
123 HeapWord* bottom = mr.start(); | |
124 HeapWord* last = mr.last(); | |
125 HeapWord* top = mr.end(); | |
126 HeapWord* bottom_obj; | |
127 HeapWord* top_obj; | |
128 | |
129 assert(_precision == CardTableModRefBS::ObjHeadPreciseArray || | |
130 _precision == CardTableModRefBS::Precise, | |
131 "Only ones we deal with for now."); | |
132 | |
133 assert(_precision != CardTableModRefBS::ObjHeadPreciseArray || | |
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134 _cl->idempotent() || _last_bottom == NULL || |
0 | 135 top <= _last_bottom, |
136 "Not decreasing"); | |
137 NOT_PRODUCT(_last_bottom = mr.start()); | |
138 | |
139 bottom_obj = _sp->block_start(bottom); | |
140 top_obj = _sp->block_start(last); | |
141 | |
142 assert(bottom_obj <= bottom, "just checking"); | |
143 assert(top_obj <= top, "just checking"); | |
144 | |
145 // Given what we think is the top of the memory region and | |
146 // the start of the object at the top, get the actual | |
147 // value of the top. | |
148 top = get_actual_top(top, top_obj); | |
149 | |
150 // If the previous call did some part of this region, don't redo. | |
151 if (_precision == CardTableModRefBS::ObjHeadPreciseArray && | |
152 _min_done != NULL && | |
153 _min_done < top) { | |
154 top = _min_done; | |
155 } | |
156 | |
157 // Top may have been reset, and in fact may be below bottom, | |
158 // e.g. the dirty card region is entirely in a now free object | |
159 // -- something that could happen with a concurrent sweeper. | |
160 bottom = MIN2(bottom, top); | |
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161 MemRegion extended_mr = MemRegion(bottom, top); |
0 | 162 assert(bottom <= top && |
163 (_precision != CardTableModRefBS::ObjHeadPreciseArray || | |
164 _min_done == NULL || | |
165 top <= _min_done), | |
166 "overlap!"); | |
167 | |
168 // Walk the region if it is not empty; otherwise there is nothing to do. | |
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169 if (!extended_mr.is_empty()) { |
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170 walk_mem_region(extended_mr, bottom_obj, top); |
0 | 171 } |
172 | |
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173 // An idempotent closure might be applied in any order, so we don't |
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174 // record a _min_done for it. |
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175 if (!_cl->idempotent()) { |
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176 _min_done = bottom; |
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177 } else { |
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178 assert(_min_done == _last_explicit_min_done, |
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179 "Don't update _min_done for idempotent cl"); |
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180 } |
0 | 181 } |
182 | |
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183 DirtyCardToOopClosure* Space::new_dcto_cl(ExtendedOopClosure* cl, |
0 | 184 CardTableModRefBS::PrecisionStyle precision, |
185 HeapWord* boundary) { | |
186 return new DirtyCardToOopClosure(this, cl, precision, boundary); | |
187 } | |
188 | |
189 HeapWord* ContiguousSpaceDCTOC::get_actual_top(HeapWord* top, | |
190 HeapWord* top_obj) { | |
191 if (top_obj != NULL && top_obj < (_sp->toContiguousSpace())->top()) { | |
192 if (_precision == CardTableModRefBS::ObjHeadPreciseArray) { | |
193 if (oop(top_obj)->is_objArray() || oop(top_obj)->is_typeArray()) { | |
194 // An arrayOop is starting on the dirty card - since we do exact | |
195 // store checks for objArrays we are done. | |
196 } else { | |
197 // Otherwise, it is possible that the object starting on the dirty | |
198 // card spans the entire card, and that the store happened on a | |
199 // later card. Figure out where the object ends. | |
200 assert(_sp->block_size(top_obj) == (size_t) oop(top_obj)->size(), | |
201 "Block size and object size mismatch"); | |
202 top = top_obj + oop(top_obj)->size(); | |
203 } | |
204 } | |
205 } else { | |
206 top = (_sp->toContiguousSpace())->top(); | |
207 } | |
208 return top; | |
209 } | |
210 | |
211 void Filtering_DCTOC::walk_mem_region(MemRegion mr, | |
212 HeapWord* bottom, | |
213 HeapWord* top) { | |
214 // Note that this assumption won't hold if we have a concurrent | |
215 // collector in this space, which may have freed up objects after | |
216 // they were dirtied and before the stop-the-world GC that is | |
217 // examining cards here. | |
218 assert(bottom < top, "ought to be at least one obj on a dirty card."); | |
219 | |
220 if (_boundary != NULL) { | |
221 // We have a boundary outside of which we don't want to look | |
222 // at objects, so create a filtering closure around the | |
223 // oop closure before walking the region. | |
224 FilteringClosure filter(_boundary, _cl); | |
225 walk_mem_region_with_cl(mr, bottom, top, &filter); | |
226 } else { | |
227 // No boundary, simply walk the heap with the oop closure. | |
228 walk_mem_region_with_cl(mr, bottom, top, _cl); | |
229 } | |
230 | |
231 } | |
232 | |
233 // We must replicate this so that the static type of "FilteringClosure" | |
234 // (see above) is apparent at the oop_iterate calls. | |
235 #define ContiguousSpaceDCTOC__walk_mem_region_with_cl_DEFN(ClosureType) \ | |
236 void ContiguousSpaceDCTOC::walk_mem_region_with_cl(MemRegion mr, \ | |
237 HeapWord* bottom, \ | |
238 HeapWord* top, \ | |
239 ClosureType* cl) { \ | |
240 bottom += oop(bottom)->oop_iterate(cl, mr); \ | |
241 if (bottom < top) { \ | |
242 HeapWord* next_obj = bottom + oop(bottom)->size(); \ | |
243 while (next_obj < top) { \ | |
244 /* Bottom lies entirely below top, so we can call the */ \ | |
245 /* non-memRegion version of oop_iterate below. */ \ | |
246 oop(bottom)->oop_iterate(cl); \ | |
247 bottom = next_obj; \ | |
248 next_obj = bottom + oop(bottom)->size(); \ | |
249 } \ | |
250 /* Last object. */ \ | |
251 oop(bottom)->oop_iterate(cl, mr); \ | |
252 } \ | |
253 } | |
254 | |
255 // (There are only two of these, rather than N, because the split is due | |
256 // only to the introduction of the FilteringClosure, a local part of the | |
257 // impl of this abstraction.) | |
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258 ContiguousSpaceDCTOC__walk_mem_region_with_cl_DEFN(ExtendedOopClosure) |
0 | 259 ContiguousSpaceDCTOC__walk_mem_region_with_cl_DEFN(FilteringClosure) |
260 | |
261 DirtyCardToOopClosure* | |
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262 ContiguousSpace::new_dcto_cl(ExtendedOopClosure* cl, |
0 | 263 CardTableModRefBS::PrecisionStyle precision, |
264 HeapWord* boundary) { | |
265 return new ContiguousSpaceDCTOC(this, cl, precision, boundary); | |
266 } | |
267 | |
263
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268 void Space::initialize(MemRegion mr, |
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269 bool clear_space, |
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270 bool mangle_space) { |
0 | 271 HeapWord* bottom = mr.start(); |
272 HeapWord* end = mr.end(); | |
273 assert(Universe::on_page_boundary(bottom) && Universe::on_page_boundary(end), | |
274 "invalid space boundaries"); | |
275 set_bottom(bottom); | |
276 set_end(end); | |
263
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277 if (clear_space) clear(mangle_space); |
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278 } |
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279 |
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280 void Space::clear(bool mangle_space) { |
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281 if (ZapUnusedHeapArea && mangle_space) { |
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282 mangle_unused_area(); |
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283 } |
0 | 284 } |
285 | |
356 | 286 ContiguousSpace::ContiguousSpace(): CompactibleSpace(), _top(NULL), |
287 _concurrent_iteration_safe_limit(NULL) { | |
263
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288 _mangler = new GenSpaceMangler(this); |
0 | 289 } |
290 | |
263
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291 ContiguousSpace::~ContiguousSpace() { |
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292 delete _mangler; |
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293 } |
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294 |
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295 void ContiguousSpace::initialize(MemRegion mr, |
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296 bool clear_space, |
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297 bool mangle_space) |
0 | 298 { |
263
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299 CompactibleSpace::initialize(mr, clear_space, mangle_space); |
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300 set_concurrent_iteration_safe_limit(top()); |
0 | 301 } |
302 | |
263
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303 void ContiguousSpace::clear(bool mangle_space) { |
0 | 304 set_top(bottom()); |
305 set_saved_mark(); | |
356 | 306 CompactibleSpace::clear(mangle_space); |
0 | 307 } |
308 | |
309 bool ContiguousSpace::is_in(const void* p) const { | |
310 return _bottom <= p && p < _top; | |
311 } | |
312 | |
313 bool ContiguousSpace::is_free_block(const HeapWord* p) const { | |
314 return p >= _top; | |
315 } | |
316 | |
263
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317 void OffsetTableContigSpace::clear(bool mangle_space) { |
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318 ContiguousSpace::clear(mangle_space); |
0 | 319 _offsets.initialize_threshold(); |
320 } | |
321 | |
322 void OffsetTableContigSpace::set_bottom(HeapWord* new_bottom) { | |
323 Space::set_bottom(new_bottom); | |
324 _offsets.set_bottom(new_bottom); | |
325 } | |
326 | |
327 void OffsetTableContigSpace::set_end(HeapWord* new_end) { | |
328 // Space should not advertize an increase in size | |
329 // until after the underlying offest table has been enlarged. | |
330 _offsets.resize(pointer_delta(new_end, bottom())); | |
331 Space::set_end(new_end); | |
332 } | |
333 | |
263
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334 #ifndef PRODUCT |
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335 |
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336 void ContiguousSpace::set_top_for_allocations(HeapWord* v) { |
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337 mangler()->set_top_for_allocations(v); |
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338 } |
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339 void ContiguousSpace::set_top_for_allocations() { |
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340 mangler()->set_top_for_allocations(top()); |
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341 } |
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342 void ContiguousSpace::check_mangled_unused_area(HeapWord* limit) { |
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343 mangler()->check_mangled_unused_area(limit); |
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344 } |
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345 |
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346 void ContiguousSpace::check_mangled_unused_area_complete() { |
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347 mangler()->check_mangled_unused_area_complete(); |
0 | 348 } |
349 | |
263
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350 // Mangled only the unused space that has not previously |
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351 // been mangled and that has not been allocated since being |
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352 // mangled. |
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353 void ContiguousSpace::mangle_unused_area() { |
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354 mangler()->mangle_unused_area(); |
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355 } |
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356 void ContiguousSpace::mangle_unused_area_complete() { |
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357 mangler()->mangle_unused_area_complete(); |
0 | 358 } |
263
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359 void ContiguousSpace::mangle_region(MemRegion mr) { |
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360 // Although this method uses SpaceMangler::mangle_region() which |
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361 // is not specific to a space, the when the ContiguousSpace version |
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362 // is called, it is always with regard to a space and this |
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363 // bounds checking is appropriate. |
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364 MemRegion space_mr(bottom(), end()); |
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365 assert(space_mr.contains(mr), "Mangling outside space"); |
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366 SpaceMangler::mangle_region(mr); |
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367 } |
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368 #endif // NOT_PRODUCT |
0 | 369 |
263
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370 void CompactibleSpace::initialize(MemRegion mr, |
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371 bool clear_space, |
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372 bool mangle_space) { |
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373 Space::initialize(mr, clear_space, mangle_space); |
356 | 374 set_compaction_top(bottom()); |
375 _next_compaction_space = NULL; | |
376 } | |
377 | |
378 void CompactibleSpace::clear(bool mangle_space) { | |
379 Space::clear(mangle_space); | |
0 | 380 _compaction_top = bottom(); |
381 } | |
382 | |
383 HeapWord* CompactibleSpace::forward(oop q, size_t size, | |
384 CompactPoint* cp, HeapWord* compact_top) { | |
385 // q is alive | |
386 // First check if we should switch compaction space | |
387 assert(this == cp->space, "'this' should be current compaction space."); | |
388 size_t compaction_max_size = pointer_delta(end(), compact_top); | |
389 while (size > compaction_max_size) { | |
390 // switch to next compaction space | |
391 cp->space->set_compaction_top(compact_top); | |
392 cp->space = cp->space->next_compaction_space(); | |
393 if (cp->space == NULL) { | |
394 cp->gen = GenCollectedHeap::heap()->prev_gen(cp->gen); | |
395 assert(cp->gen != NULL, "compaction must succeed"); | |
396 cp->space = cp->gen->first_compaction_space(); | |
397 assert(cp->space != NULL, "generation must have a first compaction space"); | |
398 } | |
399 compact_top = cp->space->bottom(); | |
400 cp->space->set_compaction_top(compact_top); | |
401 cp->threshold = cp->space->initialize_threshold(); | |
402 compaction_max_size = pointer_delta(cp->space->end(), compact_top); | |
403 } | |
404 | |
405 // store the forwarding pointer into the mark word | |
406 if ((HeapWord*)q != compact_top) { | |
407 q->forward_to(oop(compact_top)); | |
408 assert(q->is_gc_marked(), "encoding the pointer should preserve the mark"); | |
409 } else { | |
410 // if the object isn't moving we can just set the mark to the default | |
411 // mark and handle it specially later on. | |
412 q->init_mark(); | |
413 assert(q->forwardee() == NULL, "should be forwarded to NULL"); | |
414 } | |
415 | |
416 compact_top += size; | |
417 | |
418 // we need to update the offset table so that the beginnings of objects can be | |
419 // found during scavenge. Note that we are updating the offset table based on | |
420 // where the object will be once the compaction phase finishes. | |
421 if (compact_top > cp->threshold) | |
422 cp->threshold = | |
423 cp->space->cross_threshold(compact_top - size, compact_top); | |
424 return compact_top; | |
425 } | |
426 | |
427 | |
428 bool CompactibleSpace::insert_deadspace(size_t& allowed_deadspace_words, | |
429 HeapWord* q, size_t deadlength) { | |
430 if (allowed_deadspace_words >= deadlength) { | |
431 allowed_deadspace_words -= deadlength; | |
481
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432 CollectedHeap::fill_with_object(q, deadlength); |
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433 oop(q)->set_mark(oop(q)->mark()->set_marked()); |
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434 assert((int) deadlength == oop(q)->size(), "bad filler object size"); |
0 | 435 // Recall that we required "q == compaction_top". |
436 return true; | |
437 } else { | |
438 allowed_deadspace_words = 0; | |
439 return false; | |
440 } | |
441 } | |
442 | |
443 #define block_is_always_obj(q) true | |
444 #define obj_size(q) oop(q)->size() | |
445 #define adjust_obj_size(s) s | |
446 | |
447 void CompactibleSpace::prepare_for_compaction(CompactPoint* cp) { | |
448 SCAN_AND_FORWARD(cp, end, block_is_obj, block_size); | |
449 } | |
450 | |
451 // Faster object search. | |
452 void ContiguousSpace::prepare_for_compaction(CompactPoint* cp) { | |
453 SCAN_AND_FORWARD(cp, top, block_is_always_obj, obj_size); | |
454 } | |
455 | |
456 void Space::adjust_pointers() { | |
457 // adjust all the interior pointers to point at the new locations of objects | |
458 // Used by MarkSweep::mark_sweep_phase3() | |
459 | |
460 // First check to see if there is any work to be done. | |
461 if (used() == 0) { | |
462 return; // Nothing to do. | |
463 } | |
464 | |
465 // Otherwise... | |
466 HeapWord* q = bottom(); | |
467 HeapWord* t = end(); | |
468 | |
469 debug_only(HeapWord* prev_q = NULL); | |
470 while (q < t) { | |
471 if (oop(q)->is_gc_marked()) { | |
472 // q is alive | |
473 | |
474 // point all the oops to the new location | |
475 size_t size = oop(q)->adjust_pointers(); | |
476 | |
477 debug_only(prev_q = q); | |
478 | |
479 q += size; | |
480 } else { | |
481 // q is not a live object. But we're not in a compactible space, | |
482 // So we don't have live ranges. | |
483 debug_only(prev_q = q); | |
484 q += block_size(q); | |
485 assert(q > prev_q, "we should be moving forward through memory"); | |
486 } | |
487 } | |
488 assert(q == t, "just checking"); | |
489 } | |
490 | |
491 void CompactibleSpace::adjust_pointers() { | |
492 // Check first is there is any work to do. | |
493 if (used() == 0) { | |
494 return; // Nothing to do. | |
495 } | |
496 | |
497 SCAN_AND_ADJUST_POINTERS(adjust_obj_size); | |
498 } | |
499 | |
500 void CompactibleSpace::compact() { | |
501 SCAN_AND_COMPACT(obj_size); | |
502 } | |
503 | |
504 void Space::print_short() const { print_short_on(tty); } | |
505 | |
506 void Space::print_short_on(outputStream* st) const { | |
507 st->print(" space " SIZE_FORMAT "K, %3d%% used", capacity() / K, | |
508 (int) ((double) used() * 100 / capacity())); | |
509 } | |
510 | |
511 void Space::print() const { print_on(tty); } | |
512 | |
513 void Space::print_on(outputStream* st) const { | |
514 print_short_on(st); | |
515 st->print_cr(" [" INTPTR_FORMAT ", " INTPTR_FORMAT ")", | |
516 bottom(), end()); | |
517 } | |
518 | |
519 void ContiguousSpace::print_on(outputStream* st) const { | |
520 print_short_on(st); | |
521 st->print_cr(" [" INTPTR_FORMAT ", " INTPTR_FORMAT ", " INTPTR_FORMAT ")", | |
522 bottom(), top(), end()); | |
523 } | |
524 | |
525 void OffsetTableContigSpace::print_on(outputStream* st) const { | |
526 print_short_on(st); | |
527 st->print_cr(" [" INTPTR_FORMAT ", " INTPTR_FORMAT ", " | |
528 INTPTR_FORMAT ", " INTPTR_FORMAT ")", | |
529 bottom(), top(), _offsets.threshold(), end()); | |
530 } | |
531 | |
6008 | 532 void ContiguousSpace::verify() const { |
0 | 533 HeapWord* p = bottom(); |
534 HeapWord* t = top(); | |
535 HeapWord* prev_p = NULL; | |
536 while (p < t) { | |
537 oop(p)->verify(); | |
538 prev_p = p; | |
539 p += oop(p)->size(); | |
540 } | |
541 guarantee(p == top(), "end of last object must match end of space"); | |
542 if (top() != end()) { | |
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543 guarantee(top() == block_start_const(end()-1) && |
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544 top() == block_start_const(top()), |
0 | 545 "top should be start of unallocated block, if it exists"); |
546 } | |
547 } | |
548 | |
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549 void Space::oop_iterate(ExtendedOopClosure* blk) { |
0 | 550 ObjectToOopClosure blk2(blk); |
551 object_iterate(&blk2); | |
552 } | |
553 | |
554 bool Space::obj_is_alive(const HeapWord* p) const { | |
555 assert (block_is_obj(p), "The address should point to an object"); | |
556 return true; | |
557 } | |
558 | |
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559 #if INCLUDE_ALL_GCS |
0 | 560 #define ContigSpace_PAR_OOP_ITERATE_DEFN(OopClosureType, nv_suffix) \ |
561 \ | |
562 void ContiguousSpace::par_oop_iterate(MemRegion mr, OopClosureType* blk) {\ | |
563 HeapWord* obj_addr = mr.start(); \ | |
564 HeapWord* t = mr.end(); \ | |
565 while (obj_addr < t) { \ | |
566 assert(oop(obj_addr)->is_oop(), "Should be an oop"); \ | |
567 obj_addr += oop(obj_addr)->oop_iterate(blk); \ | |
568 } \ | |
569 } | |
570 | |
571 ALL_PAR_OOP_ITERATE_CLOSURES(ContigSpace_PAR_OOP_ITERATE_DEFN) | |
572 | |
573 #undef ContigSpace_PAR_OOP_ITERATE_DEFN | |
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574 #endif // INCLUDE_ALL_GCS |
0 | 575 |
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576 void ContiguousSpace::oop_iterate(ExtendedOopClosure* blk) { |
0 | 577 if (is_empty()) return; |
578 HeapWord* obj_addr = bottom(); | |
579 HeapWord* t = top(); | |
580 // Could call objects iterate, but this is easier. | |
581 while (obj_addr < t) { | |
582 obj_addr += oop(obj_addr)->oop_iterate(blk); | |
583 } | |
584 } | |
585 | |
586 void ContiguousSpace::object_iterate(ObjectClosure* blk) { | |
587 if (is_empty()) return; | |
588 WaterMark bm = bottom_mark(); | |
589 object_iterate_from(bm, blk); | |
590 } | |
591 | |
517
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592 // For a continguous space object_iterate() and safe_object_iterate() |
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593 // are the same. |
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594 void ContiguousSpace::safe_object_iterate(ObjectClosure* blk) { |
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595 object_iterate(blk); |
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596 } |
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597 |
0 | 598 void ContiguousSpace::object_iterate_from(WaterMark mark, ObjectClosure* blk) { |
599 assert(mark.space() == this, "Mark does not match space"); | |
600 HeapWord* p = mark.point(); | |
601 while (p < top()) { | |
602 blk->do_object(oop(p)); | |
603 p += oop(p)->size(); | |
604 } | |
605 } | |
606 | |
607 HeapWord* | |
608 ContiguousSpace::object_iterate_careful(ObjectClosureCareful* blk) { | |
609 HeapWord * limit = concurrent_iteration_safe_limit(); | |
610 assert(limit <= top(), "sanity check"); | |
611 for (HeapWord* p = bottom(); p < limit;) { | |
612 size_t size = blk->do_object_careful(oop(p)); | |
613 if (size == 0) { | |
614 return p; // failed at p | |
615 } else { | |
616 p += size; | |
617 } | |
618 } | |
619 return NULL; // all done | |
620 } | |
621 | |
622 #define ContigSpace_OOP_SINCE_SAVE_MARKS_DEFN(OopClosureType, nv_suffix) \ | |
623 \ | |
624 void ContiguousSpace:: \ | |
625 oop_since_save_marks_iterate##nv_suffix(OopClosureType* blk) { \ | |
626 HeapWord* t; \ | |
627 HeapWord* p = saved_mark_word(); \ | |
628 assert(p != NULL, "expected saved mark"); \ | |
629 \ | |
630 const intx interval = PrefetchScanIntervalInBytes; \ | |
631 do { \ | |
632 t = top(); \ | |
633 while (p < t) { \ | |
634 Prefetch::write(p, interval); \ | |
635 debug_only(HeapWord* prev = p); \ | |
636 oop m = oop(p); \ | |
637 p += m->oop_iterate(blk); \ | |
638 } \ | |
639 } while (t < top()); \ | |
640 \ | |
641 set_saved_mark_word(p); \ | |
642 } | |
643 | |
644 ALL_SINCE_SAVE_MARKS_CLOSURES(ContigSpace_OOP_SINCE_SAVE_MARKS_DEFN) | |
645 | |
646 #undef ContigSpace_OOP_SINCE_SAVE_MARKS_DEFN | |
647 | |
648 // Very general, slow implementation. | |
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649 HeapWord* ContiguousSpace::block_start_const(const void* p) const { |
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650 assert(MemRegion(bottom(), end()).contains(p), |
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651 err_msg("p (" PTR_FORMAT ") not in space [" PTR_FORMAT ", " PTR_FORMAT ")", |
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652 p, bottom(), end())); |
0 | 653 if (p >= top()) { |
654 return top(); | |
655 } else { | |
656 HeapWord* last = bottom(); | |
657 HeapWord* cur = last; | |
658 while (cur <= p) { | |
659 last = cur; | |
660 cur += oop(cur)->size(); | |
661 } | |
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662 assert(oop(last)->is_oop(), |
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663 err_msg(PTR_FORMAT " should be an object start", last)); |
0 | 664 return last; |
665 } | |
666 } | |
667 | |
668 size_t ContiguousSpace::block_size(const HeapWord* p) const { | |
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669 assert(MemRegion(bottom(), end()).contains(p), |
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670 err_msg("p (" PTR_FORMAT ") not in space [" PTR_FORMAT ", " PTR_FORMAT ")", |
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671 p, bottom(), end())); |
0 | 672 HeapWord* current_top = top(); |
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673 assert(p <= current_top, |
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674 err_msg("p > current top - p: " PTR_FORMAT ", current top: " PTR_FORMAT, |
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675 p, current_top)); |
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676 assert(p == current_top || oop(p)->is_oop(), |
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677 err_msg("p (" PTR_FORMAT ") is not a block start - " |
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678 "current_top: " PTR_FORMAT ", is_oop: %s", |
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679 p, current_top, BOOL_TO_STR(oop(p)->is_oop()))); |
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680 if (p < current_top) { |
0 | 681 return oop(p)->size(); |
7181
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682 } else { |
0 | 683 assert(p == current_top, "just checking"); |
684 return pointer_delta(end(), (HeapWord*) p); | |
685 } | |
686 } | |
687 | |
688 // This version requires locking. | |
689 inline HeapWord* ContiguousSpace::allocate_impl(size_t size, | |
690 HeapWord* const end_value) { | |
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691 // In G1 there are places where a GC worker can allocates into a |
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692 // region using this serial allocation code without being prone to a |
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693 // race with other GC workers (we ensure that no other GC worker can |
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694 // access the same region at the same time). So the assert below is |
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695 // too strong in the case of G1. |
0 | 696 assert(Heap_lock->owned_by_self() || |
697 (SafepointSynchronize::is_at_safepoint() && | |
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698 (Thread::current()->is_VM_thread() || UseG1GC)), |
0 | 699 "not locked"); |
700 HeapWord* obj = top(); | |
701 if (pointer_delta(end_value, obj) >= size) { | |
702 HeapWord* new_top = obj + size; | |
703 set_top(new_top); | |
704 assert(is_aligned(obj) && is_aligned(new_top), "checking alignment"); | |
705 return obj; | |
706 } else { | |
707 return NULL; | |
708 } | |
709 } | |
710 | |
711 // This version is lock-free. | |
712 inline HeapWord* ContiguousSpace::par_allocate_impl(size_t size, | |
713 HeapWord* const end_value) { | |
714 do { | |
715 HeapWord* obj = top(); | |
716 if (pointer_delta(end_value, obj) >= size) { | |
717 HeapWord* new_top = obj + size; | |
718 HeapWord* result = (HeapWord*)Atomic::cmpxchg_ptr(new_top, top_addr(), obj); | |
719 // result can be one of two: | |
720 // the old top value: the exchange succeeded | |
721 // otherwise: the new value of the top is returned. | |
722 if (result == obj) { | |
723 assert(is_aligned(obj) && is_aligned(new_top), "checking alignment"); | |
724 return obj; | |
725 } | |
726 } else { | |
727 return NULL; | |
728 } | |
729 } while (true); | |
730 } | |
731 | |
732 // Requires locking. | |
733 HeapWord* ContiguousSpace::allocate(size_t size) { | |
734 return allocate_impl(size, end()); | |
735 } | |
736 | |
737 // Lock-free. | |
738 HeapWord* ContiguousSpace::par_allocate(size_t size) { | |
739 return par_allocate_impl(size, end()); | |
740 } | |
741 | |
742 void ContiguousSpace::allocate_temporary_filler(int factor) { | |
743 // allocate temporary type array decreasing free size with factor 'factor' | |
744 assert(factor >= 0, "just checking"); | |
745 size_t size = pointer_delta(end(), top()); | |
746 | |
747 // if space is full, return | |
748 if (size == 0) return; | |
749 | |
750 if (factor > 0) { | |
751 size -= size/factor; | |
752 } | |
753 size = align_object_size(size); | |
754 | |
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755 const size_t array_header_size = typeArrayOopDesc::header_size(T_INT); |
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756 if (size >= (size_t)align_object_size(array_header_size)) { |
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757 size_t length = (size - array_header_size) * (HeapWordSize / sizeof(jint)); |
0 | 758 // allocate uninitialized int array |
759 typeArrayOop t = (typeArrayOop) allocate(size); | |
760 assert(t != NULL, "allocation should succeed"); | |
761 t->set_mark(markOopDesc::prototype()); | |
762 t->set_klass(Universe::intArrayKlassObj()); | |
763 t->set_length((int)length); | |
764 } else { | |
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765 assert(size == CollectedHeap::min_fill_size(), |
0 | 766 "size for smallest fake object doesn't match"); |
767 instanceOop obj = (instanceOop) allocate(size); | |
768 obj->set_mark(markOopDesc::prototype()); | |
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769 obj->set_klass_gap(0); |
1142 | 770 obj->set_klass(SystemDictionary::Object_klass()); |
0 | 771 } |
772 } | |
773 | |
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774 void EdenSpace::clear(bool mangle_space) { |
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775 ContiguousSpace::clear(mangle_space); |
0 | 776 set_soft_end(end()); |
777 } | |
778 | |
779 // Requires locking. | |
780 HeapWord* EdenSpace::allocate(size_t size) { | |
781 return allocate_impl(size, soft_end()); | |
782 } | |
783 | |
784 // Lock-free. | |
785 HeapWord* EdenSpace::par_allocate(size_t size) { | |
786 return par_allocate_impl(size, soft_end()); | |
787 } | |
788 | |
789 HeapWord* ConcEdenSpace::par_allocate(size_t size) | |
790 { | |
791 do { | |
792 // The invariant is top() should be read before end() because | |
793 // top() can't be greater than end(), so if an update of _soft_end | |
794 // occurs between 'end_val = end();' and 'top_val = top();' top() | |
795 // also can grow up to the new end() and the condition | |
796 // 'top_val > end_val' is true. To ensure the loading order | |
797 // OrderAccess::loadload() is required after top() read. | |
798 HeapWord* obj = top(); | |
799 OrderAccess::loadload(); | |
800 if (pointer_delta(*soft_end_addr(), obj) >= size) { | |
801 HeapWord* new_top = obj + size; | |
802 HeapWord* result = (HeapWord*)Atomic::cmpxchg_ptr(new_top, top_addr(), obj); | |
803 // result can be one of two: | |
804 // the old top value: the exchange succeeded | |
805 // otherwise: the new value of the top is returned. | |
806 if (result == obj) { | |
807 assert(is_aligned(obj) && is_aligned(new_top), "checking alignment"); | |
808 return obj; | |
809 } | |
810 } else { | |
811 return NULL; | |
812 } | |
813 } while (true); | |
814 } | |
815 | |
816 | |
817 HeapWord* OffsetTableContigSpace::initialize_threshold() { | |
818 return _offsets.initialize_threshold(); | |
819 } | |
820 | |
821 HeapWord* OffsetTableContigSpace::cross_threshold(HeapWord* start, HeapWord* end) { | |
822 _offsets.alloc_block(start, end); | |
823 return _offsets.threshold(); | |
824 } | |
825 | |
826 OffsetTableContigSpace::OffsetTableContigSpace(BlockOffsetSharedArray* sharedOffsetArray, | |
827 MemRegion mr) : | |
828 _offsets(sharedOffsetArray, mr), | |
829 _par_alloc_lock(Mutex::leaf, "OffsetTableContigSpace par alloc lock", true) | |
830 { | |
831 _offsets.set_contig_space(this); | |
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832 initialize(mr, SpaceDecorator::Clear, SpaceDecorator::Mangle); |
0 | 833 } |
834 | |
835 #define OBJ_SAMPLE_INTERVAL 0 | |
836 #define BLOCK_SAMPLE_INTERVAL 100 | |
837 | |
6008 | 838 void OffsetTableContigSpace::verify() const { |
0 | 839 HeapWord* p = bottom(); |
840 HeapWord* prev_p = NULL; | |
841 int objs = 0; | |
842 int blocks = 0; | |
843 | |
844 if (VerifyObjectStartArray) { | |
845 _offsets.verify(); | |
846 } | |
847 | |
848 while (p < top()) { | |
849 size_t size = oop(p)->size(); | |
850 // For a sampling of objects in the space, find it using the | |
851 // block offset table. | |
852 if (blocks == BLOCK_SAMPLE_INTERVAL) { | |
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853 guarantee(p == block_start_const(p + (size/2)), |
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854 "check offset computation"); |
0 | 855 blocks = 0; |
856 } else { | |
857 blocks++; | |
858 } | |
859 | |
860 if (objs == OBJ_SAMPLE_INTERVAL) { | |
861 oop(p)->verify(); | |
862 objs = 0; | |
863 } else { | |
864 objs++; | |
865 } | |
866 prev_p = p; | |
867 p += size; | |
868 } | |
869 guarantee(p == top(), "end of last object must match end of space"); | |
870 } | |
871 | |
872 | |
438 | 873 size_t TenuredSpace::allowed_dead_ratio() const { |
0 | 874 return MarkSweepDeadRatio; |
875 } |