Thu, 14 Jun 2018 09:15:08 -0700
8081202: Hotspot compile warning: "Invalid suffix on literal; C++11 requires a space between literal and identifier"
Summary: Need to add a space between macro identifier and string literal
Reviewed-by: bpittore, stefank, dholmes, kbarrett
1 /*
2 * Copyright (c) 2001, 2015, Oracle and/or its affiliates. All rights reserved.
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 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
25 #include "precompiled.hpp"
26 #include "gc_implementation/g1/heapRegion.hpp"
27 #include "gc_implementation/g1/heapRegionManager.inline.hpp"
28 #include "gc_implementation/g1/heapRegionSet.inline.hpp"
29 #include "gc_implementation/g1/g1CollectedHeap.inline.hpp"
30 #include "gc_implementation/g1/concurrentG1Refine.hpp"
31 #include "memory/allocation.hpp"
33 void HeapRegionManager::initialize(G1RegionToSpaceMapper* heap_storage,
34 G1RegionToSpaceMapper* prev_bitmap,
35 G1RegionToSpaceMapper* next_bitmap,
36 G1RegionToSpaceMapper* bot,
37 G1RegionToSpaceMapper* cardtable,
38 G1RegionToSpaceMapper* card_counts) {
39 _allocated_heapregions_length = 0;
41 _heap_mapper = heap_storage;
43 _prev_bitmap_mapper = prev_bitmap;
44 _next_bitmap_mapper = next_bitmap;
46 _bot_mapper = bot;
47 _cardtable_mapper = cardtable;
49 _card_counts_mapper = card_counts;
51 MemRegion reserved = heap_storage->reserved();
52 _regions.initialize(reserved.start(), reserved.end(), HeapRegion::GrainBytes);
54 _available_map.resize(_regions.length(), false);
55 _available_map.clear();
56 }
58 bool HeapRegionManager::is_available(uint region) const {
59 return _available_map.at(region);
60 }
62 #ifdef ASSERT
63 bool HeapRegionManager::is_free(HeapRegion* hr) const {
64 return _free_list.contains(hr);
65 }
66 #endif
68 HeapRegion* HeapRegionManager::new_heap_region(uint hrm_index) {
69 G1CollectedHeap* g1h = G1CollectedHeap::heap();
70 HeapWord* bottom = g1h->bottom_addr_for_region(hrm_index);
71 MemRegion mr(bottom, bottom + HeapRegion::GrainWords);
72 assert(reserved().contains(mr), "invariant");
73 return g1h->allocator()->new_heap_region(hrm_index, g1h->bot_shared(), mr);
74 }
76 void HeapRegionManager::commit_regions(uint index, size_t num_regions) {
77 guarantee(num_regions > 0, "Must commit more than zero regions");
78 guarantee(_num_committed + num_regions <= max_length(), "Cannot commit more than the maximum amount of regions");
80 _num_committed += (uint)num_regions;
82 _heap_mapper->commit_regions(index, num_regions);
84 // Also commit auxiliary data
85 _prev_bitmap_mapper->commit_regions(index, num_regions);
86 _next_bitmap_mapper->commit_regions(index, num_regions);
88 _bot_mapper->commit_regions(index, num_regions);
89 _cardtable_mapper->commit_regions(index, num_regions);
91 _card_counts_mapper->commit_regions(index, num_regions);
92 }
94 void HeapRegionManager::uncommit_regions(uint start, size_t num_regions) {
95 guarantee(num_regions >= 1, err_msg("Need to specify at least one region to uncommit, tried to uncommit zero regions at %u", start));
96 guarantee(_num_committed >= num_regions, "pre-condition");
98 // Print before uncommitting.
99 if (G1CollectedHeap::heap()->hr_printer()->is_active()) {
100 for (uint i = start; i < start + num_regions; i++) {
101 HeapRegion* hr = at(i);
102 G1CollectedHeap::heap()->hr_printer()->uncommit(hr->bottom(), hr->end());
103 }
104 }
106 _num_committed -= (uint)num_regions;
108 _available_map.par_clear_range(start, start + num_regions, BitMap::unknown_range);
109 _heap_mapper->uncommit_regions(start, num_regions);
111 // Also uncommit auxiliary data
112 _prev_bitmap_mapper->uncommit_regions(start, num_regions);
113 _next_bitmap_mapper->uncommit_regions(start, num_regions);
115 _bot_mapper->uncommit_regions(start, num_regions);
116 _cardtable_mapper->uncommit_regions(start, num_regions);
118 _card_counts_mapper->uncommit_regions(start, num_regions);
119 }
121 void HeapRegionManager::make_regions_available(uint start, uint num_regions) {
122 guarantee(num_regions > 0, "No point in calling this for zero regions");
123 commit_regions(start, num_regions);
124 for (uint i = start; i < start + num_regions; i++) {
125 if (_regions.get_by_index(i) == NULL) {
126 HeapRegion* new_hr = new_heap_region(i);
127 _regions.set_by_index(i, new_hr);
128 _allocated_heapregions_length = MAX2(_allocated_heapregions_length, i + 1);
129 }
130 }
132 _available_map.par_set_range(start, start + num_regions, BitMap::unknown_range);
134 for (uint i = start; i < start + num_regions; i++) {
135 assert(is_available(i), err_msg("Just made region %u available but is apparently not.", i));
136 HeapRegion* hr = at(i);
137 if (G1CollectedHeap::heap()->hr_printer()->is_active()) {
138 G1CollectedHeap::heap()->hr_printer()->commit(hr->bottom(), hr->end());
139 }
140 HeapWord* bottom = G1CollectedHeap::heap()->bottom_addr_for_region(i);
141 MemRegion mr(bottom, bottom + HeapRegion::GrainWords);
143 hr->initialize(mr);
144 insert_into_free_list(at(i));
145 }
146 }
148 MemoryUsage HeapRegionManager::get_auxiliary_data_memory_usage() const {
149 size_t used_sz =
150 _prev_bitmap_mapper->committed_size() +
151 _next_bitmap_mapper->committed_size() +
152 _bot_mapper->committed_size() +
153 _cardtable_mapper->committed_size() +
154 _card_counts_mapper->committed_size();
156 size_t committed_sz =
157 _prev_bitmap_mapper->reserved_size() +
158 _next_bitmap_mapper->reserved_size() +
159 _bot_mapper->reserved_size() +
160 _cardtable_mapper->reserved_size() +
161 _card_counts_mapper->reserved_size();
163 return MemoryUsage(0, used_sz, committed_sz, committed_sz);
164 }
166 uint HeapRegionManager::expand_by(uint num_regions) {
167 return expand_at(0, num_regions);
168 }
170 uint HeapRegionManager::expand_at(uint start, uint num_regions) {
171 if (num_regions == 0) {
172 return 0;
173 }
175 uint cur = start;
176 uint idx_last_found = 0;
177 uint num_last_found = 0;
179 uint expanded = 0;
181 while (expanded < num_regions &&
182 (num_last_found = find_unavailable_from_idx(cur, &idx_last_found)) > 0) {
183 uint to_expand = MIN2(num_regions - expanded, num_last_found);
184 make_regions_available(idx_last_found, to_expand);
185 expanded += to_expand;
186 cur = idx_last_found + num_last_found + 1;
187 }
189 verify_optional();
190 return expanded;
191 }
193 uint HeapRegionManager::find_contiguous(size_t num, bool empty_only) {
194 uint found = 0;
195 size_t length_found = 0;
196 uint cur = 0;
198 while (length_found < num && cur < max_length()) {
199 HeapRegion* hr = _regions.get_by_index(cur);
200 if ((!empty_only && !is_available(cur)) || (is_available(cur) && hr != NULL && hr->is_empty())) {
201 // This region is a potential candidate for allocation into.
202 length_found++;
203 } else {
204 // This region is not a candidate. The next region is the next possible one.
205 found = cur + 1;
206 length_found = 0;
207 }
208 cur++;
209 }
211 if (length_found == num) {
212 for (uint i = found; i < (found + num); i++) {
213 HeapRegion* hr = _regions.get_by_index(i);
214 // sanity check
215 guarantee((!empty_only && !is_available(i)) || (is_available(i) && hr != NULL && hr->is_empty()),
216 err_msg("Found region sequence starting at " UINT32_FORMAT ", length " SIZE_FORMAT
217 " that is not empty at " UINT32_FORMAT ". Hr is " PTR_FORMAT, found, num, i, p2i(hr)));
218 }
219 return found;
220 } else {
221 return G1_NO_HRM_INDEX;
222 }
223 }
225 HeapRegion* HeapRegionManager::next_region_in_heap(const HeapRegion* r) const {
226 guarantee(r != NULL, "Start region must be a valid region");
227 guarantee(is_available(r->hrm_index()), err_msg("Trying to iterate starting from region %u which is not in the heap", r->hrm_index()));
228 for (uint i = r->hrm_index() + 1; i < _allocated_heapregions_length; i++) {
229 HeapRegion* hr = _regions.get_by_index(i);
230 if (is_available(i)) {
231 return hr;
232 }
233 }
234 return NULL;
235 }
237 void HeapRegionManager::iterate(HeapRegionClosure* blk) const {
238 uint len = max_length();
240 for (uint i = 0; i < len; i++) {
241 if (!is_available(i)) {
242 continue;
243 }
244 guarantee(at(i) != NULL, err_msg("Tried to access region %u that has a NULL HeapRegion*", i));
245 bool res = blk->doHeapRegion(at(i));
246 if (res) {
247 blk->incomplete();
248 return;
249 }
250 }
251 }
253 uint HeapRegionManager::find_unavailable_from_idx(uint start_idx, uint* res_idx) const {
254 guarantee(res_idx != NULL, "checking");
255 guarantee(start_idx <= (max_length() + 1), "checking");
257 uint num_regions = 0;
259 uint cur = start_idx;
260 while (cur < max_length() && is_available(cur)) {
261 cur++;
262 }
263 if (cur == max_length()) {
264 return num_regions;
265 }
266 *res_idx = cur;
267 while (cur < max_length() && !is_available(cur)) {
268 cur++;
269 }
270 num_regions = cur - *res_idx;
271 #ifdef ASSERT
272 for (uint i = *res_idx; i < (*res_idx + num_regions); i++) {
273 assert(!is_available(i), "just checking");
274 }
275 assert(cur == max_length() || num_regions == 0 || is_available(cur),
276 err_msg("The region at the current position %u must be available or at the end of the heap.", cur));
277 #endif
278 return num_regions;
279 }
281 uint HeapRegionManager::start_region_for_worker(uint worker_i, uint num_workers, uint num_regions) const {
282 return num_regions * worker_i / num_workers;
283 }
285 void HeapRegionManager::par_iterate(HeapRegionClosure* blk, uint worker_id, uint num_workers, jint claim_value) const {
286 const uint start_index = start_region_for_worker(worker_id, num_workers, _allocated_heapregions_length);
288 // Every worker will actually look at all regions, skipping over regions that
289 // are currently not committed.
290 // This also (potentially) iterates over regions newly allocated during GC. This
291 // is no problem except for some extra work.
292 for (uint count = 0; count < _allocated_heapregions_length; count++) {
293 const uint index = (start_index + count) % _allocated_heapregions_length;
294 assert(0 <= index && index < _allocated_heapregions_length, "sanity");
295 // Skip over unavailable regions
296 if (!is_available(index)) {
297 continue;
298 }
299 HeapRegion* r = _regions.get_by_index(index);
300 // We'll ignore "continues humongous" regions (we'll process them
301 // when we come across their corresponding "start humongous"
302 // region) and regions already claimed.
303 if (r->claim_value() == claim_value || r->continuesHumongous()) {
304 continue;
305 }
306 // OK, try to claim it
307 if (!r->claimHeapRegion(claim_value)) {
308 continue;
309 }
310 // Success!
311 if (r->startsHumongous()) {
312 // If the region is "starts humongous" we'll iterate over its
313 // "continues humongous" first; in fact we'll do them
314 // first. The order is important. In one case, calling the
315 // closure on the "starts humongous" region might de-allocate
316 // and clear all its "continues humongous" regions and, as a
317 // result, we might end up processing them twice. So, we'll do
318 // them first (note: most closures will ignore them anyway) and
319 // then we'll do the "starts humongous" region.
320 for (uint ch_index = index + 1; ch_index < index + r->region_num(); ch_index++) {
321 HeapRegion* chr = _regions.get_by_index(ch_index);
323 assert(chr->continuesHumongous(), "Must be humongous region");
324 assert(chr->humongous_start_region() == r,
325 err_msg("Must work on humongous continuation of the original start region "
326 PTR_FORMAT ", but is " PTR_FORMAT, p2i(r), p2i(chr)));
327 assert(chr->claim_value() != claim_value,
328 "Must not have been claimed yet because claiming of humongous continuation first claims the start region");
330 bool claim_result = chr->claimHeapRegion(claim_value);
331 // We should always be able to claim it; no one else should
332 // be trying to claim this region.
333 guarantee(claim_result, "We should always be able to claim the continuesHumongous part of the humongous object");
335 bool res2 = blk->doHeapRegion(chr);
336 if (res2) {
337 return;
338 }
340 // Right now, this holds (i.e., no closure that actually
341 // does something with "continues humongous" regions
342 // clears them). We might have to weaken it in the future,
343 // but let's leave these two asserts here for extra safety.
344 assert(chr->continuesHumongous(), "should still be the case");
345 assert(chr->humongous_start_region() == r, "sanity");
346 }
347 }
349 bool res = blk->doHeapRegion(r);
350 if (res) {
351 return;
352 }
353 }
354 }
356 uint HeapRegionManager::shrink_by(uint num_regions_to_remove) {
357 assert(length() > 0, "the region sequence should not be empty");
358 assert(length() <= _allocated_heapregions_length, "invariant");
359 assert(_allocated_heapregions_length > 0, "we should have at least one region committed");
360 assert(num_regions_to_remove < length(), "We should never remove all regions");
362 if (num_regions_to_remove == 0) {
363 return 0;
364 }
366 uint removed = 0;
367 uint cur = _allocated_heapregions_length - 1;
368 uint idx_last_found = 0;
369 uint num_last_found = 0;
371 while ((removed < num_regions_to_remove) &&
372 (num_last_found = find_empty_from_idx_reverse(cur, &idx_last_found)) > 0) {
373 uint to_remove = MIN2(num_regions_to_remove - removed, num_last_found);
375 uncommit_regions(idx_last_found + num_last_found - to_remove, to_remove);
377 cur -= num_last_found;
378 removed += to_remove;
379 }
381 verify_optional();
383 return removed;
384 }
386 uint HeapRegionManager::find_empty_from_idx_reverse(uint start_idx, uint* res_idx) const {
387 guarantee(start_idx < _allocated_heapregions_length, "checking");
388 guarantee(res_idx != NULL, "checking");
390 uint num_regions_found = 0;
392 jlong cur = start_idx;
393 while (cur != -1 && !(is_available(cur) && at(cur)->is_empty())) {
394 cur--;
395 }
396 if (cur == -1) {
397 return num_regions_found;
398 }
399 jlong old_cur = cur;
400 // cur indexes the first empty region
401 while (cur != -1 && is_available(cur) && at(cur)->is_empty()) {
402 cur--;
403 }
404 *res_idx = cur + 1;
405 num_regions_found = old_cur - cur;
407 #ifdef ASSERT
408 for (uint i = *res_idx; i < (*res_idx + num_regions_found); i++) {
409 assert(at(i)->is_empty(), "just checking");
410 }
411 #endif
412 return num_regions_found;
413 }
415 void HeapRegionManager::verify() {
416 guarantee(length() <= _allocated_heapregions_length,
417 err_msg("invariant: _length: %u _allocated_length: %u",
418 length(), _allocated_heapregions_length));
419 guarantee(_allocated_heapregions_length <= max_length(),
420 err_msg("invariant: _allocated_length: %u _max_length: %u",
421 _allocated_heapregions_length, max_length()));
423 bool prev_committed = true;
424 uint num_committed = 0;
425 HeapWord* prev_end = heap_bottom();
426 for (uint i = 0; i < _allocated_heapregions_length; i++) {
427 if (!is_available(i)) {
428 prev_committed = false;
429 continue;
430 }
431 num_committed++;
432 HeapRegion* hr = _regions.get_by_index(i);
433 guarantee(hr != NULL, err_msg("invariant: i: %u", i));
434 guarantee(!prev_committed || hr->bottom() == prev_end,
435 err_msg("invariant i: %u " HR_FORMAT " prev_end: " PTR_FORMAT,
436 i, HR_FORMAT_PARAMS(hr), p2i(prev_end)));
437 guarantee(hr->hrm_index() == i,
438 err_msg("invariant: i: %u hrm_index(): %u", i, hr->hrm_index()));
439 // Asserts will fire if i is >= _length
440 HeapWord* addr = hr->bottom();
441 guarantee(addr_to_region(addr) == hr, "sanity");
442 // We cannot check whether the region is part of a particular set: at the time
443 // this method may be called, we have only completed allocation of the regions,
444 // but not put into a region set.
445 prev_committed = true;
446 if (hr->startsHumongous()) {
447 prev_end = hr->orig_end();
448 } else {
449 prev_end = hr->end();
450 }
451 }
452 for (uint i = _allocated_heapregions_length; i < max_length(); i++) {
453 guarantee(_regions.get_by_index(i) == NULL, err_msg("invariant i: %u", i));
454 }
456 guarantee(num_committed == _num_committed, err_msg("Found %u committed regions, but should be %u", num_committed, _num_committed));
457 _free_list.verify();
458 }
460 #ifndef PRODUCT
461 void HeapRegionManager::verify_optional() {
462 verify();
463 }
464 #endif // PRODUCT