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annotate src/share/vm/gc_interface/collectedHeap.hpp @ 6566:ef48be91f5fd
fixed detection of architecture on Snow Leopard and earlier versions of MacOSX
author | Doug Simon <doug.simon@oracle.com> |
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date | Sat, 20 Oct 2012 12:21:23 +0200 |
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0 | 1 /* |
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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 #ifndef SHARE_VM_GC_INTERFACE_COLLECTEDHEAP_HPP |
26 #define SHARE_VM_GC_INTERFACE_COLLECTEDHEAP_HPP | |
27 | |
28 #include "gc_interface/gcCause.hpp" | |
29 #include "memory/allocation.hpp" | |
30 #include "memory/barrierSet.hpp" | |
31 #include "runtime/handles.hpp" | |
32 #include "runtime/perfData.hpp" | |
33 #include "runtime/safepoint.hpp" | |
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34 #include "utilities/events.hpp" |
1972 | 35 |
0 | 36 // A "CollectedHeap" is an implementation of a java heap for HotSpot. This |
37 // is an abstract class: there may be many different kinds of heaps. This | |
38 // class defines the functions that a heap must implement, and contains | |
39 // infrastructure common to all heaps. | |
40 | |
41 class BarrierSet; | |
42 class ThreadClosure; | |
43 class AdaptiveSizePolicy; | |
44 class Thread; | |
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45 class CollectorPolicy; |
0 | 46 |
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47 class GCMessage : public FormatBuffer<1024> { |
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48 public: |
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49 bool is_before; |
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50 |
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51 public: |
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52 GCMessage() {} |
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53 }; |
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54 |
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55 class GCHeapLog : public EventLogBase<GCMessage> { |
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56 private: |
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57 void log_heap(bool before); |
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58 |
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59 public: |
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60 GCHeapLog() : EventLogBase<GCMessage>("GC Heap History") {} |
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61 |
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62 void log_heap_before() { |
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63 log_heap(true); |
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64 } |
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65 void log_heap_after() { |
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66 log_heap(false); |
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67 } |
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68 }; |
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69 |
0 | 70 // |
71 // CollectedHeap | |
72 // SharedHeap | |
73 // GenCollectedHeap | |
74 // G1CollectedHeap | |
75 // ParallelScavengeHeap | |
76 // | |
6197 | 77 class CollectedHeap : public CHeapObj<mtInternal> { |
0 | 78 friend class VMStructs; |
79 friend class IsGCActiveMark; // Block structured external access to _is_gc_active | |
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80 friend class constantPoolCacheKlass; // allocate() method inserts is_conc_safe |
0 | 81 |
82 #ifdef ASSERT | |
83 static int _fire_out_of_memory_count; | |
84 #endif | |
85 | |
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86 // Used for filler objects (static, but initialized in ctor). |
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87 static size_t _filler_array_max_size; |
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88 |
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89 GCHeapLog* _gc_heap_log; |
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90 |
1166 | 91 // Used in support of ReduceInitialCardMarks; only consulted if COMPILER2 is being used |
92 bool _defer_initial_card_mark; | |
93 | |
0 | 94 protected: |
95 MemRegion _reserved; | |
96 BarrierSet* _barrier_set; | |
97 bool _is_gc_active; | |
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98 uint _n_par_threads; |
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99 |
0 | 100 unsigned int _total_collections; // ... started |
101 unsigned int _total_full_collections; // ... started | |
102 NOT_PRODUCT(volatile size_t _promotion_failure_alot_count;) | |
103 NOT_PRODUCT(volatile size_t _promotion_failure_alot_gc_number;) | |
104 | |
105 // Reason for current garbage collection. Should be set to | |
106 // a value reflecting no collection between collections. | |
107 GCCause::Cause _gc_cause; | |
108 GCCause::Cause _gc_lastcause; | |
109 PerfStringVariable* _perf_gc_cause; | |
110 PerfStringVariable* _perf_gc_lastcause; | |
111 | |
112 // Constructor | |
113 CollectedHeap(); | |
114 | |
1166 | 115 // Do common initializations that must follow instance construction, |
116 // for example, those needing virtual calls. | |
117 // This code could perhaps be moved into initialize() but would | |
118 // be slightly more awkward because we want the latter to be a | |
119 // pure virtual. | |
120 void pre_initialize(); | |
121 | |
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122 // Create a new tlab. All TLAB allocations must go through this. |
0 | 123 virtual HeapWord* allocate_new_tlab(size_t size); |
124 | |
125 // Accumulate statistics on all tlabs. | |
126 virtual void accumulate_statistics_all_tlabs(); | |
127 | |
128 // Reinitialize tlabs before resuming mutators. | |
129 virtual void resize_all_tlabs(); | |
130 | |
131 // Allocate from the current thread's TLAB, with broken-out slow path. | |
132 inline static HeapWord* allocate_from_tlab(Thread* thread, size_t size); | |
133 static HeapWord* allocate_from_tlab_slow(Thread* thread, size_t size); | |
134 | |
135 // Allocate an uninitialized block of the given size, or returns NULL if | |
136 // this is impossible. | |
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137 inline static HeapWord* common_mem_allocate_noinit(size_t size, TRAPS); |
0 | 138 |
139 // Like allocate_init, but the block returned by a successful allocation | |
140 // is guaranteed initialized to zeros. | |
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141 inline static HeapWord* common_mem_allocate_init(size_t size, TRAPS); |
0 | 142 |
143 // Same as common_mem version, except memory is allocated in the permanent area | |
144 // If there is no permanent area, revert to common_mem_allocate_noinit | |
145 inline static HeapWord* common_permanent_mem_allocate_noinit(size_t size, TRAPS); | |
146 | |
147 // Same as common_mem version, except memory is allocated in the permanent area | |
148 // If there is no permanent area, revert to common_mem_allocate_init | |
149 inline static HeapWord* common_permanent_mem_allocate_init(size_t size, TRAPS); | |
150 | |
151 // Helper functions for (VM) allocation. | |
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152 inline static void post_allocation_setup_common(KlassHandle klass, HeapWord* obj); |
0 | 153 inline static void post_allocation_setup_no_klass_install(KlassHandle klass, |
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154 HeapWord* objPtr); |
0 | 155 |
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156 inline static void post_allocation_setup_obj(KlassHandle klass, HeapWord* obj); |
0 | 157 |
158 inline static void post_allocation_setup_array(KlassHandle klass, | |
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159 HeapWord* obj, int length); |
0 | 160 |
161 // Clears an allocated object. | |
162 inline static void init_obj(HeapWord* obj, size_t size); | |
163 | |
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164 // Filler object utilities. |
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165 static inline size_t filler_array_hdr_size(); |
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166 static inline size_t filler_array_min_size(); |
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167 |
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168 DEBUG_ONLY(static void fill_args_check(HeapWord* start, size_t words);) |
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169 DEBUG_ONLY(static void zap_filler_array(HeapWord* start, size_t words, bool zap = true);) |
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170 |
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171 // Fill with a single array; caller must ensure filler_array_min_size() <= |
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172 // words <= filler_array_max_size(). |
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173 static inline void fill_with_array(HeapWord* start, size_t words, bool zap = true); |
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174 |
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175 // Fill with a single object (either an int array or a java.lang.Object). |
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176 static inline void fill_with_object_impl(HeapWord* start, size_t words, bool zap = true); |
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177 |
0 | 178 // Verification functions |
179 virtual void check_for_bad_heap_word_value(HeapWord* addr, size_t size) | |
180 PRODUCT_RETURN; | |
181 virtual void check_for_non_bad_heap_word_value(HeapWord* addr, size_t size) | |
182 PRODUCT_RETURN; | |
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183 debug_only(static void check_for_valid_allocation_state();) |
0 | 184 |
185 public: | |
186 enum Name { | |
187 Abstract, | |
188 SharedHeap, | |
189 GenCollectedHeap, | |
190 ParallelScavengeHeap, | |
191 G1CollectedHeap | |
192 }; | |
193 | |
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194 static inline size_t filler_array_max_size() { |
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195 return _filler_array_max_size; |
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196 } |
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197 |
0 | 198 virtual CollectedHeap::Name kind() const { return CollectedHeap::Abstract; } |
199 | |
200 /** | |
201 * Returns JNI error code JNI_ENOMEM if memory could not be allocated, | |
202 * and JNI_OK on success. | |
203 */ | |
204 virtual jint initialize() = 0; | |
205 | |
206 // In many heaps, there will be a need to perform some initialization activities | |
207 // after the Universe is fully formed, but before general heap allocation is allowed. | |
208 // This is the correct place to place such initialization methods. | |
209 virtual void post_initialize() = 0; | |
210 | |
211 MemRegion reserved_region() const { return _reserved; } | |
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212 address base() const { return (address)reserved_region().start(); } |
0 | 213 |
214 // Future cleanup here. The following functions should specify bytes or | |
215 // heapwords as part of their signature. | |
216 virtual size_t capacity() const = 0; | |
217 virtual size_t used() const = 0; | |
218 | |
219 // Return "true" if the part of the heap that allocates Java | |
220 // objects has reached the maximal committed limit that it can | |
221 // reach, without a garbage collection. | |
222 virtual bool is_maximal_no_gc() const = 0; | |
223 | |
224 virtual size_t permanent_capacity() const = 0; | |
225 virtual size_t permanent_used() const = 0; | |
226 | |
227 // Support for java.lang.Runtime.maxMemory(): return the maximum amount of | |
228 // memory that the vm could make available for storing 'normal' java objects. | |
229 // This is based on the reserved address space, but should not include space | |
230 // that the vm uses internally for bookkeeping or temporary storage (e.g., | |
231 // perm gen space or, in the case of the young gen, one of the survivor | |
232 // spaces). | |
233 virtual size_t max_capacity() const = 0; | |
234 | |
235 // Returns "TRUE" if "p" points into the reserved area of the heap. | |
236 bool is_in_reserved(const void* p) const { | |
237 return _reserved.contains(p); | |
238 } | |
239 | |
240 bool is_in_reserved_or_null(const void* p) const { | |
241 return p == NULL || is_in_reserved(p); | |
242 } | |
243 | |
4708 | 244 // Returns "TRUE" iff "p" points into the committed areas of the heap. |
245 // Since this method can be expensive in general, we restrict its | |
0 | 246 // use to assertion checking only. |
247 virtual bool is_in(const void* p) const = 0; | |
248 | |
249 bool is_in_or_null(const void* p) const { | |
250 return p == NULL || is_in(p); | |
251 } | |
252 | |
253 // Let's define some terms: a "closed" subset of a heap is one that | |
254 // | |
255 // 1) contains all currently-allocated objects, and | |
256 // | |
257 // 2) is closed under reference: no object in the closed subset | |
258 // references one outside the closed subset. | |
259 // | |
260 // Membership in a heap's closed subset is useful for assertions. | |
261 // Clearly, the entire heap is a closed subset, so the default | |
262 // implementation is to use "is_in_reserved". But this may not be too | |
263 // liberal to perform useful checking. Also, the "is_in" predicate | |
264 // defines a closed subset, but may be too expensive, since "is_in" | |
265 // verifies that its argument points to an object head. The | |
266 // "closed_subset" method allows a heap to define an intermediate | |
267 // predicate, allowing more precise checking than "is_in_reserved" at | |
268 // lower cost than "is_in." | |
269 | |
270 // One important case is a heap composed of disjoint contiguous spaces, | |
271 // such as the Garbage-First collector. Such heaps have a convenient | |
272 // closed subset consisting of the allocated portions of those | |
273 // contiguous spaces. | |
274 | |
275 // Return "TRUE" iff the given pointer points into the heap's defined | |
276 // closed subset (which defaults to the entire heap). | |
277 virtual bool is_in_closed_subset(const void* p) const { | |
278 return is_in_reserved(p); | |
279 } | |
280 | |
281 bool is_in_closed_subset_or_null(const void* p) const { | |
282 return p == NULL || is_in_closed_subset(p); | |
283 } | |
284 | |
941 | 285 // XXX is_permanent() and is_in_permanent() should be better named |
286 // to distinguish one from the other. | |
287 | |
0 | 288 // Returns "TRUE" if "p" is allocated as "permanent" data. |
289 // If the heap does not use "permanent" data, returns the same | |
290 // value is_in_reserved() would return. | |
291 // NOTE: this actually returns true if "p" is in reserved space | |
292 // for the space not that it is actually allocated (i.e. in committed | |
293 // space). If you need the more conservative answer use is_permanent(). | |
294 virtual bool is_in_permanent(const void *p) const = 0; | |
295 | |
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296 |
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297 #ifdef ASSERT |
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298 // Returns true if "p" is in the part of the |
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299 // heap being collected. |
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300 virtual bool is_in_partial_collection(const void *p) = 0; |
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301 #endif |
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302 |
941 | 303 bool is_in_permanent_or_null(const void *p) const { |
304 return p == NULL || is_in_permanent(p); | |
305 } | |
306 | |
0 | 307 // Returns "TRUE" if "p" is in the committed area of "permanent" data. |
308 // If the heap does not use "permanent" data, returns the same | |
309 // value is_in() would return. | |
310 virtual bool is_permanent(const void *p) const = 0; | |
311 | |
941 | 312 bool is_permanent_or_null(const void *p) const { |
313 return p == NULL || is_permanent(p); | |
0 | 314 } |
315 | |
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316 // An object is scavengable if its location may move during a scavenge. |
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317 // (A scavenge is a GC which is not a full GC.) |
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318 virtual bool is_scavengable(const void *p) = 0; |
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319 |
0 | 320 // Returns "TRUE" if "p" is a method oop in the |
321 // current heap, with high probability. This predicate | |
322 // is not stable, in general. | |
323 bool is_valid_method(oop p) const; | |
324 | |
325 void set_gc_cause(GCCause::Cause v) { | |
326 if (UsePerfData) { | |
327 _gc_lastcause = _gc_cause; | |
328 _perf_gc_lastcause->set_value(GCCause::to_string(_gc_lastcause)); | |
329 _perf_gc_cause->set_value(GCCause::to_string(v)); | |
330 } | |
331 _gc_cause = v; | |
332 } | |
333 GCCause::Cause gc_cause() { return _gc_cause; } | |
334 | |
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335 // Number of threads currently working on GC tasks. |
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336 uint n_par_threads() { return _n_par_threads; } |
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337 |
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338 // May be overridden to set additional parallelism. |
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339 virtual void set_par_threads(uint t) { _n_par_threads = t; }; |
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340 |
0 | 341 // Preload classes into the shared portion of the heap, and then dump |
342 // that data to a file so that it can be loaded directly by another | |
343 // VM (then terminate). | |
344 virtual void preload_and_dump(TRAPS) { ShouldNotReachHere(); } | |
345 | |
4009 | 346 // Allocate and initialize instances of Class |
347 static oop Class_obj_allocate(KlassHandle klass, int size, KlassHandle real_klass, TRAPS); | |
348 | |
0 | 349 // General obj/array allocation facilities. |
350 inline static oop obj_allocate(KlassHandle klass, int size, TRAPS); | |
351 inline static oop array_allocate(KlassHandle klass, int size, int length, TRAPS); | |
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352 inline static oop array_allocate_nozero(KlassHandle klass, int size, int length, TRAPS); |
0 | 353 |
354 // Special obj/array allocation facilities. | |
355 // Some heaps may want to manage "permanent" data uniquely. These default | |
356 // to the general routines if the heap does not support such handling. | |
357 inline static oop permanent_obj_allocate(KlassHandle klass, int size, TRAPS); | |
358 // permanent_obj_allocate_no_klass_install() does not do the installation of | |
359 // the klass pointer in the newly created object (as permanent_obj_allocate() | |
360 // above does). This allows for a delay in the installation of the klass | |
361 // pointer that is needed during the create of klassKlass's. The | |
362 // method post_allocation_install_obj_klass() is used to install the | |
363 // klass pointer. | |
364 inline static oop permanent_obj_allocate_no_klass_install(KlassHandle klass, | |
365 int size, | |
366 TRAPS); | |
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367 inline static void post_allocation_install_obj_klass(KlassHandle klass, oop obj); |
0 | 368 inline static oop permanent_array_allocate(KlassHandle klass, int size, int length, TRAPS); |
369 | |
370 // Raw memory allocation facilities | |
371 // The obj and array allocate methods are covers for these methods. | |
372 // The permanent allocation method should default to mem_allocate if | |
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373 // permanent memory isn't supported. mem_allocate() should never be |
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374 // called to allocate TLABs, only individual objects. |
0 | 375 virtual HeapWord* mem_allocate(size_t size, |
376 bool* gc_overhead_limit_was_exceeded) = 0; | |
377 virtual HeapWord* permanent_mem_allocate(size_t size) = 0; | |
378 | |
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379 // Utilities for turning raw memory into filler objects. |
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380 // |
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381 // min_fill_size() is the smallest region that can be filled. |
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382 // fill_with_objects() can fill arbitrary-sized regions of the heap using |
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383 // multiple objects. fill_with_object() is for regions known to be smaller |
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384 // than the largest array of integers; it uses a single object to fill the |
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385 // region and has slightly less overhead. |
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386 static size_t min_fill_size() { |
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387 return size_t(align_object_size(oopDesc::header_size())); |
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388 } |
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389 |
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390 static void fill_with_objects(HeapWord* start, size_t words, bool zap = true); |
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391 |
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392 static void fill_with_object(HeapWord* start, size_t words, bool zap = true); |
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393 static void fill_with_object(MemRegion region, bool zap = true) { |
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394 fill_with_object(region.start(), region.word_size(), zap); |
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395 } |
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396 static void fill_with_object(HeapWord* start, HeapWord* end, bool zap = true) { |
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397 fill_with_object(start, pointer_delta(end, start), zap); |
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398 } |
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399 |
0 | 400 // Some heaps may offer a contiguous region for shared non-blocking |
401 // allocation, via inlined code (by exporting the address of the top and | |
402 // end fields defining the extent of the contiguous allocation region.) | |
403 | |
404 // This function returns "true" iff the heap supports this kind of | |
405 // allocation. (Default is "no".) | |
406 virtual bool supports_inline_contig_alloc() const { | |
407 return false; | |
408 } | |
409 // These functions return the addresses of the fields that define the | |
410 // boundaries of the contiguous allocation area. (These fields should be | |
411 // physically near to one another.) | |
412 virtual HeapWord** top_addr() const { | |
413 guarantee(false, "inline contiguous allocation not supported"); | |
414 return NULL; | |
415 } | |
416 virtual HeapWord** end_addr() const { | |
417 guarantee(false, "inline contiguous allocation not supported"); | |
418 return NULL; | |
419 } | |
420 | |
421 // Some heaps may be in an unparseable state at certain times between | |
422 // collections. This may be necessary for efficient implementation of | |
423 // certain allocation-related activities. Calling this function before | |
424 // attempting to parse a heap ensures that the heap is in a parsable | |
425 // state (provided other concurrent activity does not introduce | |
426 // unparsability). It is normally expected, therefore, that this | |
427 // method is invoked with the world stopped. | |
428 // NOTE: if you override this method, make sure you call | |
429 // super::ensure_parsability so that the non-generational | |
430 // part of the work gets done. See implementation of | |
431 // CollectedHeap::ensure_parsability and, for instance, | |
432 // that of GenCollectedHeap::ensure_parsability(). | |
433 // The argument "retire_tlabs" controls whether existing TLABs | |
434 // are merely filled or also retired, thus preventing further | |
435 // allocation from them and necessitating allocation of new TLABs. | |
436 virtual void ensure_parsability(bool retire_tlabs); | |
437 | |
438 // Return an estimate of the maximum allocation that could be performed | |
439 // without triggering any collection or expansion activity. In a | |
440 // generational collector, for example, this is probably the largest | |
441 // allocation that could be supported (without expansion) in the youngest | |
442 // generation. It is "unsafe" because no locks are taken; the result | |
443 // should be treated as an approximation, not a guarantee, for use in | |
444 // heuristic resizing decisions. | |
445 virtual size_t unsafe_max_alloc() = 0; | |
446 | |
447 // Section on thread-local allocation buffers (TLABs) | |
448 // If the heap supports thread-local allocation buffers, it should override | |
449 // the following methods: | |
450 // Returns "true" iff the heap supports thread-local allocation buffers. | |
451 // The default is "no". | |
452 virtual bool supports_tlab_allocation() const { | |
453 return false; | |
454 } | |
455 // The amount of space available for thread-local allocation buffers. | |
456 virtual size_t tlab_capacity(Thread *thr) const { | |
457 guarantee(false, "thread-local allocation buffers not supported"); | |
458 return 0; | |
459 } | |
460 // An estimate of the maximum allocation that could be performed | |
461 // for thread-local allocation buffers without triggering any | |
462 // collection or expansion activity. | |
463 virtual size_t unsafe_max_tlab_alloc(Thread *thr) const { | |
464 guarantee(false, "thread-local allocation buffers not supported"); | |
465 return 0; | |
466 } | |
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467 |
0 | 468 // Can a compiler initialize a new object without store barriers? |
469 // This permission only extends from the creation of a new object | |
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470 // via a TLAB up to the first subsequent safepoint. If such permission |
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471 // is granted for this heap type, the compiler promises to call |
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472 // defer_store_barrier() below on any slow path allocation of |
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473 // a new object for which such initializing store barriers will |
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474 // have been elided. |
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475 virtual bool can_elide_tlab_store_barriers() const = 0; |
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476 |
0 | 477 // If a compiler is eliding store barriers for TLAB-allocated objects, |
478 // there is probably a corresponding slow path which can produce | |
479 // an object allocated anywhere. The compiler's runtime support | |
480 // promises to call this function on such a slow-path-allocated | |
481 // object before performing initializations that have elided | |
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482 // store barriers. Returns new_obj, or maybe a safer copy thereof. |
1166 | 483 virtual oop new_store_pre_barrier(JavaThread* thread, oop new_obj); |
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484 |
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485 // Answers whether an initializing store to a new object currently |
1166 | 486 // allocated at the given address doesn't need a store |
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487 // barrier. Returns "true" if it doesn't need an initializing |
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488 // store barrier; answers "false" if it does. |
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489 virtual bool can_elide_initializing_store_barrier(oop new_obj) = 0; |
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490 |
1166 | 491 // If a compiler is eliding store barriers for TLAB-allocated objects, |
492 // we will be informed of a slow-path allocation by a call | |
493 // to new_store_pre_barrier() above. Such a call precedes the | |
494 // initialization of the object itself, and no post-store-barriers will | |
495 // be issued. Some heap types require that the barrier strictly follows | |
496 // the initializing stores. (This is currently implemented by deferring the | |
497 // barrier until the next slow-path allocation or gc-related safepoint.) | |
498 // This interface answers whether a particular heap type needs the card | |
499 // mark to be thus strictly sequenced after the stores. | |
500 virtual bool card_mark_must_follow_store() const = 0; | |
501 | |
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502 // If the CollectedHeap was asked to defer a store barrier above, |
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503 // this informs it to flush such a deferred store barrier to the |
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504 // remembered set. |
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505 virtual void flush_deferred_store_barrier(JavaThread* thread); |
0 | 506 |
507 // Can a compiler elide a store barrier when it writes | |
508 // a permanent oop into the heap? Applies when the compiler | |
509 // is storing x to the heap, where x->is_perm() is true. | |
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510 virtual bool can_elide_permanent_oop_store_barriers() const = 0; |
0 | 511 |
512 // Does this heap support heap inspection (+PrintClassHistogram?) | |
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513 virtual bool supports_heap_inspection() const = 0; |
0 | 514 |
515 // Perform a collection of the heap; intended for use in implementing | |
516 // "System.gc". This probably implies as full a collection as the | |
517 // "CollectedHeap" supports. | |
518 virtual void collect(GCCause::Cause cause) = 0; | |
519 | |
520 // This interface assumes that it's being called by the | |
521 // vm thread. It collects the heap assuming that the | |
522 // heap lock is already held and that we are executing in | |
523 // the context of the vm thread. | |
524 virtual void collect_as_vm_thread(GCCause::Cause cause) = 0; | |
525 | |
526 // Returns the barrier set for this heap | |
527 BarrierSet* barrier_set() { return _barrier_set; } | |
528 | |
529 // Returns "true" iff there is a stop-world GC in progress. (I assume | |
530 // that it should answer "false" for the concurrent part of a concurrent | |
531 // collector -- dld). | |
532 bool is_gc_active() const { return _is_gc_active; } | |
533 | |
534 // Total number of GC collections (started) | |
535 unsigned int total_collections() const { return _total_collections; } | |
536 unsigned int total_full_collections() const { return _total_full_collections;} | |
537 | |
538 // Increment total number of GC collections (started) | |
539 // Should be protected but used by PSMarkSweep - cleanup for 1.4.2 | |
540 void increment_total_collections(bool full = false) { | |
541 _total_collections++; | |
542 if (full) { | |
543 increment_total_full_collections(); | |
544 } | |
545 } | |
546 | |
547 void increment_total_full_collections() { _total_full_collections++; } | |
548 | |
549 // Return the AdaptiveSizePolicy for the heap. | |
550 virtual AdaptiveSizePolicy* size_policy() = 0; | |
551 | |
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552 // Return the CollectorPolicy for the heap |
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553 virtual CollectorPolicy* collector_policy() const = 0; |
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554 |
0 | 555 // Iterate over all the ref-containing fields of all objects, calling |
556 // "cl.do_oop" on each. This includes objects in permanent memory. | |
557 virtual void oop_iterate(OopClosure* cl) = 0; | |
558 | |
559 // Iterate over all objects, calling "cl.do_object" on each. | |
560 // This includes objects in permanent memory. | |
561 virtual void object_iterate(ObjectClosure* cl) = 0; | |
562 | |
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563 // Similar to object_iterate() except iterates only |
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564 // over live objects. |
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565 virtual void safe_object_iterate(ObjectClosure* cl) = 0; |
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566 |
0 | 567 // Behaves the same as oop_iterate, except only traverses |
568 // interior pointers contained in permanent memory. If there | |
569 // is no permanent memory, does nothing. | |
570 virtual void permanent_oop_iterate(OopClosure* cl) = 0; | |
571 | |
572 // Behaves the same as object_iterate, except only traverses | |
573 // object contained in permanent memory. If there is no | |
574 // permanent memory, does nothing. | |
575 virtual void permanent_object_iterate(ObjectClosure* cl) = 0; | |
576 | |
577 // NOTE! There is no requirement that a collector implement these | |
578 // functions. | |
579 // | |
580 // A CollectedHeap is divided into a dense sequence of "blocks"; that is, | |
581 // each address in the (reserved) heap is a member of exactly | |
582 // one block. The defining characteristic of a block is that it is | |
583 // possible to find its size, and thus to progress forward to the next | |
584 // block. (Blocks may be of different sizes.) Thus, blocks may | |
585 // represent Java objects, or they might be free blocks in a | |
586 // free-list-based heap (or subheap), as long as the two kinds are | |
587 // distinguishable and the size of each is determinable. | |
588 | |
589 // Returns the address of the start of the "block" that contains the | |
590 // address "addr". We say "blocks" instead of "object" since some heaps | |
591 // may not pack objects densely; a chunk may either be an object or a | |
592 // non-object. | |
593 virtual HeapWord* block_start(const void* addr) const = 0; | |
594 | |
595 // Requires "addr" to be the start of a chunk, and returns its size. | |
596 // "addr + size" is required to be the start of a new chunk, or the end | |
597 // of the active area of the heap. | |
598 virtual size_t block_size(const HeapWord* addr) const = 0; | |
599 | |
600 // Requires "addr" to be the start of a block, and returns "TRUE" iff | |
601 // the block is an object. | |
602 virtual bool block_is_obj(const HeapWord* addr) const = 0; | |
603 | |
604 // Returns the longest time (in ms) that has elapsed since the last | |
605 // time that any part of the heap was examined by a garbage collection. | |
606 virtual jlong millis_since_last_gc() = 0; | |
607 | |
608 // Perform any cleanup actions necessary before allowing a verification. | |
609 virtual void prepare_for_verify() = 0; | |
610 | |
615
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611 // Generate any dumps preceding or following a full gc |
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612 void pre_full_gc_dump(); |
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613 void post_full_gc_dump(); |
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614 |
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615 // Print heap information on the given outputStream. |
0 | 616 virtual void print_on(outputStream* st) const = 0; |
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617 // The default behavior is to call print_on() on tty. |
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618 virtual void print() const { |
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619 print_on(tty); |
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620 } |
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621 // Print more detailed heap information on the given |
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622 // outputStream. The default behaviour is to call print_on(). It is |
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623 // up to each subclass to override it and add any additional output |
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624 // it needs. |
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625 virtual void print_extended_on(outputStream* st) const { |
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626 print_on(st); |
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627 } |
0 | 628 |
629 // Print all GC threads (other than the VM thread) | |
630 // used by this heap. | |
631 virtual void print_gc_threads_on(outputStream* st) const = 0; | |
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632 // The default behavior is to call print_gc_threads_on() on tty. |
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633 void print_gc_threads() { |
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634 print_gc_threads_on(tty); |
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635 } |
0 | 636 // Iterator for all GC threads (other than VM thread) |
637 virtual void gc_threads_do(ThreadClosure* tc) const = 0; | |
638 | |
639 // Print any relevant tracing info that flags imply. | |
640 // Default implementation does nothing. | |
641 virtual void print_tracing_info() const = 0; | |
642 | |
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643 // If PrintHeapAtGC is set call the appropriate routi |
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644 void print_heap_before_gc() { |
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645 if (PrintHeapAtGC) { |
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646 Universe::print_heap_before_gc(); |
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647 } |
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648 if (_gc_heap_log != NULL) { |
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649 _gc_heap_log->log_heap_before(); |
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650 } |
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651 } |
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652 void print_heap_after_gc() { |
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653 if (PrintHeapAtGC) { |
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654 Universe::print_heap_after_gc(); |
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655 } |
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656 if (_gc_heap_log != NULL) { |
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657 _gc_heap_log->log_heap_after(); |
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658 } |
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659 } |
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660 |
0 | 661 // Heap verification |
6008 | 662 virtual void verify(bool silent, VerifyOption option) = 0; |
0 | 663 |
664 // Non product verification and debugging. | |
665 #ifndef PRODUCT | |
666 // Support for PromotionFailureALot. Return true if it's time to cause a | |
667 // promotion failure. The no-argument version uses | |
668 // this->_promotion_failure_alot_count as the counter. | |
669 inline bool promotion_should_fail(volatile size_t* count); | |
670 inline bool promotion_should_fail(); | |
671 | |
672 // Reset the PromotionFailureALot counters. Should be called at the end of a | |
673 // GC in which promotion failure ocurred. | |
674 inline void reset_promotion_should_fail(volatile size_t* count); | |
675 inline void reset_promotion_should_fail(); | |
676 #endif // #ifndef PRODUCT | |
677 | |
678 #ifdef ASSERT | |
679 static int fired_fake_oom() { | |
680 return (CIFireOOMAt > 1 && _fire_out_of_memory_count >= CIFireOOMAt); | |
681 } | |
682 #endif | |
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683 |
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684 public: |
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685 // This is a convenience method that is used in cases where |
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686 // the actual number of GC worker threads is not pertinent but |
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687 // only whether there more than 0. Use of this method helps |
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688 // reduce the occurrence of ParallelGCThreads to uses where the |
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689 // actual number may be germane. |
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690 static bool use_parallel_gc_threads() { return ParallelGCThreads > 0; } |
4708 | 691 |
692 /////////////// Unit tests /////////////// | |
693 | |
694 NOT_PRODUCT(static void test_is_in();) | |
0 | 695 }; |
696 | |
697 // Class to set and reset the GC cause for a CollectedHeap. | |
698 | |
699 class GCCauseSetter : StackObj { | |
700 CollectedHeap* _heap; | |
701 GCCause::Cause _previous_cause; | |
702 public: | |
703 GCCauseSetter(CollectedHeap* heap, GCCause::Cause cause) { | |
704 assert(SafepointSynchronize::is_at_safepoint(), | |
705 "This method manipulates heap state without locking"); | |
706 _heap = heap; | |
707 _previous_cause = _heap->gc_cause(); | |
708 _heap->set_gc_cause(cause); | |
709 } | |
710 | |
711 ~GCCauseSetter() { | |
712 assert(SafepointSynchronize::is_at_safepoint(), | |
713 "This method manipulates heap state without locking"); | |
714 _heap->set_gc_cause(_previous_cause); | |
715 } | |
716 }; | |
1972 | 717 |
718 #endif // SHARE_VM_GC_INTERFACE_COLLECTEDHEAP_HPP |