space_bitmap.cc revision 7ec38dcb84d61f6172bbb5a303bd5ab7139f7409 
1b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier/*
2b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier * Copyright (C) 2008 The Android Open Source Project
3b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier *
4b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier * Licensed under the Apache License, Version 2.0 (the "License");
5b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier * you may not use this file except in compliance with the License.
6b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier * You may obtain a copy of the License at
7b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier *
8b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier *      http://www.apache.org/licenses/LICENSE-2.0
9b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier *
10b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier * Unless required by applicable law or agreed to in writing, software
11b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier * distributed under the License is distributed on an "AS IS" BASIS,
12b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier * See the License for the specific language governing permissions and
14b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier * limitations under the License.
15b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier */
16b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier
172dd0e2cea360bc9206eb88ecc40d259e796c239dIan Rogers#include "space_bitmap-inl.h"
18b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier
19c785344b87221f5e4e6473e5b762e4e61fe65dcfMathieu Chartier#include "art_field-inl.h"
2022d5e735f403c57525fe868304c7123f0ce66399Ian Rogers#include "base/stringprintf.h"
21956af0f0cb05422e38c1d22cbef309d16b8a1a12Elliott Hughes#include "dex_file-inl.h"
2222d5e735f403c57525fe868304c7123f0ce66399Ian Rogers#include "mem_map.h"
2322d5e735f403c57525fe868304c7123f0ce66399Ian Rogers#include "mirror/object-inl.h"
24e401d146407d61eeb99f8d6176b2ac13c4df1e33Mathieu Chartier#include "mirror/class-inl.h"
2522d5e735f403c57525fe868304c7123f0ce66399Ian Rogers#include "mirror/object_array.h"
2622d5e735f403c57525fe868304c7123f0ce66399Ian Rogers
27b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartiernamespace art {
281d54e73444e017d3a65234e0f193846f3e27472bIan Rogersnamespace gc {
291d54e73444e017d3a65234e0f193846f3e27472bIan Rogersnamespace accounting {
30b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier
31a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiertemplate<size_t kAlignment>
3273d1e17b3afc7d5e56184f90bf819dc64956448aMathieu Chartiersize_t SpaceBitmap<kAlignment>::ComputeBitmapSize(uint64_t capacity) {
3313735955f39b3b304c37d2b2840663c131262c18Ian Rogers  const uint64_t kBytesCoveredPerWord = kAlignment * kBitsPerIntPtrT;
3413735955f39b3b304c37d2b2840663c131262c18Ian Rogers  return (RoundUp(capacity, kBytesCoveredPerWord) / kBytesCoveredPerWord) * sizeof(intptr_t);
3573d1e17b3afc7d5e56184f90bf819dc64956448aMathieu Chartier}
3673d1e17b3afc7d5e56184f90bf819dc64956448aMathieu Chartier
3773d1e17b3afc7d5e56184f90bf819dc64956448aMathieu Chartiertemplate<size_t kAlignment>
38d39645e22b8db1767cf64dc1200a9e4b2f939ed2Mathieu Chartiersize_t SpaceBitmap<kAlignment>::ComputeHeapSize(uint64_t bitmap_bytes) {
39d39645e22b8db1767cf64dc1200a9e4b2f939ed2Mathieu Chartier  return bitmap_bytes * kBitsPerByte * kAlignment;
40d39645e22b8db1767cf64dc1200a9e4b2f939ed2Mathieu Chartier}
41d39645e22b8db1767cf64dc1200a9e4b2f939ed2Mathieu Chartier
42d39645e22b8db1767cf64dc1200a9e4b2f939ed2Mathieu Chartiertemplate<size_t kAlignment>
43a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu ChartierSpaceBitmap<kAlignment>* SpaceBitmap<kAlignment>::CreateFromMemMap(
4413735955f39b3b304c37d2b2840663c131262c18Ian Rogers    const std::string& name, MemMap* mem_map, uint8_t* heap_begin, size_t heap_capacity) {
4531e8925781c2302f1d1a9b39e216ba415bfe0d7eMathieu Chartier  CHECK(mem_map != nullptr);
4613735955f39b3b304c37d2b2840663c131262c18Ian Rogers  uintptr_t* bitmap_begin = reinterpret_cast<uintptr_t*>(mem_map->Begin());
4773d1e17b3afc7d5e56184f90bf819dc64956448aMathieu Chartier  const size_t bitmap_size = ComputeBitmapSize(heap_capacity);
4831e8925781c2302f1d1a9b39e216ba415bfe0d7eMathieu Chartier  return new SpaceBitmap(name, mem_map, bitmap_begin, bitmap_size, heap_begin);
4931e8925781c2302f1d1a9b39e216ba415bfe0d7eMathieu Chartier}
5031e8925781c2302f1d1a9b39e216ba415bfe0d7eMathieu Chartier
51a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiertemplate<size_t kAlignment>
5213735955f39b3b304c37d2b2840663c131262c18Ian RogersSpaceBitmap<kAlignment>::SpaceBitmap(const std::string& name, MemMap* mem_map, uintptr_t* bitmap_begin,
53bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier                                     size_t bitmap_size, const void* heap_begin)
54c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier    : mem_map_(mem_map),
55c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier      bitmap_begin_(reinterpret_cast<Atomic<uintptr_t>*>(bitmap_begin)),
56c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier      bitmap_size_(bitmap_size),
57bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier      heap_begin_(reinterpret_cast<uintptr_t>(heap_begin)),
58bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier      name_(name) {
59bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier  CHECK(bitmap_begin_ != nullptr);
60bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier  CHECK_NE(bitmap_size, 0U);
61bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier}
62bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier
63bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartiertemplate<size_t kAlignment>
6422d5e735f403c57525fe868304c7123f0ce66399Ian RogersSpaceBitmap<kAlignment>::~SpaceBitmap() {}
6522d5e735f403c57525fe868304c7123f0ce66399Ian Rogers
6622d5e735f403c57525fe868304c7123f0ce66399Ian Rogerstemplate<size_t kAlignment>
67a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu ChartierSpaceBitmap<kAlignment>* SpaceBitmap<kAlignment>::Create(
6813735955f39b3b304c37d2b2840663c131262c18Ian Rogers    const std::string& name, uint8_t* heap_begin, size_t heap_capacity) {
69b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  // Round up since heap_capacity is not necessarily a multiple of kAlignment * kBitsPerWord.
7073d1e17b3afc7d5e56184f90bf819dc64956448aMathieu Chartier  const size_t bitmap_size = ComputeBitmapSize(heap_capacity);
718d31bbd3d6536de12bc20e3d29cfe03fe848f9daIan Rogers  std::string error_msg;
72700a402244a1a423da4f3ba8032459f4b65fa18fIan Rogers  std::unique_ptr<MemMap> mem_map(MemMap::MapAnonymous(name.c_str(), nullptr, bitmap_size,
735c42c29b89286e5efa4a4613132b09051ce5945bVladimir Marko                                                       PROT_READ | PROT_WRITE, false, false,
745c42c29b89286e5efa4a4613132b09051ce5945bVladimir Marko                                                       &error_msg));
758d31bbd3d6536de12bc20e3d29cfe03fe848f9daIan Rogers  if (UNLIKELY(mem_map.get() == nullptr)) {
768d31bbd3d6536de12bc20e3d29cfe03fe848f9daIan Rogers    LOG(ERROR) << "Failed to allocate bitmap " << name << ": " << error_msg;
77bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier    return nullptr;
78b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  }
7931e8925781c2302f1d1a9b39e216ba415bfe0d7eMathieu Chartier  return CreateFromMemMap(name, mem_map.release(), heap_begin, heap_capacity);
80b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier}
81b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier
82a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiertemplate<size_t kAlignment>
83a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiervoid SpaceBitmap<kAlignment>::SetHeapLimit(uintptr_t new_end) {
8414d90579f013b374638b599361970557ed4b3f09Roland Levillain  DCHECK_ALIGNED(new_end, kBitsPerIntPtrT * kAlignment);
8513735955f39b3b304c37d2b2840663c131262c18Ian Rogers  size_t new_size = OffsetToIndex(new_end - heap_begin_) * sizeof(intptr_t);
86cc236d74772dda5a4161d9bc5f497fd3d956eb87Mathieu Chartier  if (new_size < bitmap_size_) {
87cc236d74772dda5a4161d9bc5f497fd3d956eb87Mathieu Chartier    bitmap_size_ = new_size;
88cc236d74772dda5a4161d9bc5f497fd3d956eb87Mathieu Chartier  }
89cc236d74772dda5a4161d9bc5f497fd3d956eb87Mathieu Chartier  // Not sure if doing this trim is necessary, since nothing past the end of the heap capacity
90cc236d74772dda5a4161d9bc5f497fd3d956eb87Mathieu Chartier  // should be marked.
91cc236d74772dda5a4161d9bc5f497fd3d956eb87Mathieu Chartier}
92cc236d74772dda5a4161d9bc5f497fd3d956eb87Mathieu Chartier
93a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiertemplate<size_t kAlignment>
94576ca0cd692c0b6ae70e776de91015b8ff000a08Ian Rogersstd::string SpaceBitmap<kAlignment>::Dump() const {
95576ca0cd692c0b6ae70e776de91015b8ff000a08Ian Rogers  return StringPrintf("%s: %p-%p", name_.c_str(), reinterpret_cast<void*>(HeapBegin()),
96576ca0cd692c0b6ae70e776de91015b8ff000a08Ian Rogers                      reinterpret_cast<void*>(HeapLimit()));
97576ca0cd692c0b6ae70e776de91015b8ff000a08Ian Rogers}
98576ca0cd692c0b6ae70e776de91015b8ff000a08Ian Rogers
99576ca0cd692c0b6ae70e776de91015b8ff000a08Ian Rogerstemplate<size_t kAlignment>
100a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiervoid SpaceBitmap<kAlignment>::Clear() {
101c5f17732d8144491c642776b6b48c85dfadf4b52Ian Rogers  if (bitmap_begin_ != nullptr) {
102c5f17732d8144491c642776b6b48c85dfadf4b52Ian Rogers    mem_map_->MadviseDontNeedAndZero();
103b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  }
104b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier}
105b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier
106a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiertemplate<size_t kAlignment>
1077ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartiervoid SpaceBitmap<kAlignment>::ClearRange(const mirror::Object* begin, const mirror::Object* end) {
1087ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  uintptr_t begin_offset = reinterpret_cast<uintptr_t>(begin) - heap_begin_;
1097ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  uintptr_t end_offset = reinterpret_cast<uintptr_t>(end) - heap_begin_;
1107ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  // Align begin and end to word boundaries.
1117ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  while (begin_offset < end_offset && OffsetBitIndex(begin_offset) != 0) {
1127ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    Clear(reinterpret_cast<mirror::Object*>(heap_begin_ + begin_offset));
1137ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    begin_offset += kAlignment;
1147ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  }
1157ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  while (begin_offset < end_offset && OffsetBitIndex(end_offset) != 0) {
1167ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    end_offset -= kAlignment;
1177ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    Clear(reinterpret_cast<mirror::Object*>(heap_begin_ + end_offset));
1187ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  }
1197ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  const uintptr_t start_index = OffsetToIndex(begin_offset);
1207ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  const uintptr_t end_index = OffsetToIndex(end_offset);
1217ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  Atomic<uintptr_t>* const mem_begin = &bitmap_begin_[start_index];
1227ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  Atomic<uintptr_t>* const mem_end = &bitmap_begin_[end_index];
1237ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  Atomic<uintptr_t>* const page_begin = AlignUp(mem_begin, kPageSize);
1247ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  Atomic<uintptr_t>* const page_end = AlignDown(mem_end, kPageSize);
1257ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  if (!kMadviseZeroes || page_begin >= page_end) {
1267ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    // No possible area to madvise.
1277ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    std::fill(reinterpret_cast<uint8_t*>(mem_begin),
1287ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier              reinterpret_cast<uint8_t*>(mem_end),
1297ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier              0);
1307ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  } else {
1317ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    // Spans one or more pages.
1327ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    DCHECK_LE(mem_begin, page_begin);
1337ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    DCHECK_LE(page_begin, page_end);
1347ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    DCHECK_LE(page_end, mem_end);
1357ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    std::fill(reinterpret_cast<uint8_t*>(mem_begin),
1367ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier              reinterpret_cast<uint8_t*>(page_begin),
1377ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier              0);
1387ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    CHECK_NE(madvise(page_begin,
1397ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier                     reinterpret_cast<uint8_t*>(page_end) - reinterpret_cast<uint8_t*>(page_begin),
1407ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier                     MADV_DONTNEED),
1417ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier             -1) << "madvise failed";
1427ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier    std::fill(reinterpret_cast<uint8_t*>(page_end),
1437ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier             reinterpret_cast<uint8_t*>(mem_end),
1447ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier             0);
1457ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier  }
1467ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier}
1477ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartier
1487ec38dcb84d61f6172bbb5a303bd5ab7139f7409Mathieu Chartiertemplate<size_t kAlignment>
149bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartiervoid SpaceBitmap<kAlignment>::CopyFrom(SpaceBitmap* source_bitmap) {
150357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier  DCHECK_EQ(Size(), source_bitmap->Size());
151c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier  const size_t count = source_bitmap->Size() / sizeof(intptr_t);
152c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier  Atomic<uintptr_t>* const src = source_bitmap->Begin();
153c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier  Atomic<uintptr_t>* const dest = Begin();
154c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier  for (size_t i = 0; i < count; ++i) {
155c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier    dest[i].StoreRelaxed(src[i].LoadRelaxed());
156c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier  }
157357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier}
158357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier
159a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiertemplate<size_t kAlignment>
160bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartiervoid SpaceBitmap<kAlignment>::Walk(ObjectCallback* callback, void* arg) {
1612cebb24bfc3247d3e9be138a3350106737455918Mathieu Chartier  CHECK(bitmap_begin_ != nullptr);
1622cebb24bfc3247d3e9be138a3350106737455918Mathieu Chartier  CHECK(callback != nullptr);
163357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier
164357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier  uintptr_t end = OffsetToIndex(HeapLimit() - heap_begin_ - 1);
165c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier  Atomic<uintptr_t>* bitmap_begin = bitmap_begin_;
166b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  for (uintptr_t i = 0; i <= end; ++i) {
167c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier    uintptr_t w = bitmap_begin[i].LoadRelaxed();
168357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier    if (w != 0) {
169b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier      uintptr_t ptr_base = IndexToOffset(i) + heap_begin_;
170357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier      do {
171cb8aea4bd5e77857c713edeb62bffcb1f7f06a39Andreas Gampe        const size_t shift = CTZ(w);
1722dd0e2cea360bc9206eb88ecc40d259e796c239dIan Rogers        mirror::Object* obj = reinterpret_cast<mirror::Object*>(ptr_base + shift * kAlignment);
173b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier        (*callback)(obj, arg);
17413735955f39b3b304c37d2b2840663c131262c18Ian Rogers        w ^= (static_cast<uintptr_t>(1)) << shift;
175357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier      } while (w != 0);
176b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier    }
177b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  }
178b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier}
179b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier
180a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiertemplate<size_t kAlignment>
181a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiervoid SpaceBitmap<kAlignment>::SweepWalk(const SpaceBitmap<kAlignment>& live_bitmap,
182bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier                                        const SpaceBitmap<kAlignment>& mark_bitmap,
183bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier                                        uintptr_t sweep_begin, uintptr_t sweep_end,
184bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier                                        SpaceBitmap::SweepCallback* callback, void* arg) {
185bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier  CHECK(live_bitmap.bitmap_begin_ != nullptr);
186bbd695c71e0bf518f582e84524e1cdeb3de3896cMathieu Chartier  CHECK(mark_bitmap.bitmap_begin_ != nullptr);
187b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  CHECK_EQ(live_bitmap.heap_begin_, mark_bitmap.heap_begin_);
188b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  CHECK_EQ(live_bitmap.bitmap_size_, mark_bitmap.bitmap_size_);
1892cebb24bfc3247d3e9be138a3350106737455918Mathieu Chartier  CHECK(callback != nullptr);
190b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  CHECK_LE(sweep_begin, sweep_end);
191b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  CHECK_GE(sweep_begin, live_bitmap.heap_begin_);
192357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier
193357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier  if (sweep_end <= sweep_begin) {
194b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier    return;
195b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  }
196357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier
1972dd0e2cea360bc9206eb88ecc40d259e796c239dIan Rogers  // TODO: rewrite the callbacks to accept a std::vector<mirror::Object*> rather than a mirror::Object**?
19813735955f39b3b304c37d2b2840663c131262c18Ian Rogers  constexpr size_t buffer_size = sizeof(intptr_t) * kBitsPerIntPtrT;
199262a0a36ee5f553880365fecf0be1a188526ca69Andreas Gampe#ifdef __LP64__
200262a0a36ee5f553880365fecf0be1a188526ca69Andreas Gampe  // Heap-allocate for smaller stack frame.
201262a0a36ee5f553880365fecf0be1a188526ca69Andreas Gampe  std::unique_ptr<mirror::Object*[]> pointer_buf_ptr(new mirror::Object*[buffer_size]);
202262a0a36ee5f553880365fecf0be1a188526ca69Andreas Gampe  mirror::Object** pointer_buf = pointer_buf_ptr.get();
203262a0a36ee5f553880365fecf0be1a188526ca69Andreas Gampe#else
204262a0a36ee5f553880365fecf0be1a188526ca69Andreas Gampe  // Stack-allocate buffer as it's small enough.
2052dd0e2cea360bc9206eb88ecc40d259e796c239dIan Rogers  mirror::Object* pointer_buf[buffer_size];
206262a0a36ee5f553880365fecf0be1a188526ca69Andreas Gampe#endif
2072dd0e2cea360bc9206eb88ecc40d259e796c239dIan Rogers  mirror::Object** pb = &pointer_buf[0];
208262a0a36ee5f553880365fecf0be1a188526ca69Andreas Gampe
209b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  size_t start = OffsetToIndex(sweep_begin - live_bitmap.heap_begin_);
210357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier  size_t end = OffsetToIndex(sweep_end - live_bitmap.heap_begin_ - 1);
21113735955f39b3b304c37d2b2840663c131262c18Ian Rogers  CHECK_LT(end, live_bitmap.Size() / sizeof(intptr_t));
212c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier  Atomic<uintptr_t>* live = live_bitmap.bitmap_begin_;
213c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier  Atomic<uintptr_t>* mark = mark_bitmap.bitmap_begin_;
214b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  for (size_t i = start; i <= end; i++) {
215c381c36aacf977f7e314e6a91e47b31b04639f62Mathieu Chartier    uintptr_t garbage = live[i].LoadRelaxed() & ~mark[i].LoadRelaxed();
216b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier    if (UNLIKELY(garbage != 0)) {
217b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier      uintptr_t ptr_base = IndexToOffset(i) + live_bitmap.heap_begin_;
218357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier      do {
219cb8aea4bd5e77857c713edeb62bffcb1f7f06a39Andreas Gampe        const size_t shift = CTZ(garbage);
22013735955f39b3b304c37d2b2840663c131262c18Ian Rogers        garbage ^= (static_cast<uintptr_t>(1)) << shift;
2212dd0e2cea360bc9206eb88ecc40d259e796c239dIan Rogers        *pb++ = reinterpret_cast<mirror::Object*>(ptr_base + shift * kAlignment);
222357e9be24c17a6bc2ae9fb53f25c73503116101dMathieu Chartier      } while (garbage != 0);
223b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier      // Make sure that there are always enough slots available for an
224b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier      // entire word of one bits.
22513735955f39b3b304c37d2b2840663c131262c18Ian Rogers      if (pb >= &pointer_buf[buffer_size - kBitsPerIntPtrT]) {
226b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier        (*callback)(pb - &pointer_buf[0], &pointer_buf[0], arg);
227b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier        pb = &pointer_buf[0];
228b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier      }
229b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier    }
230b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  }
231b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  if (pb > &pointer_buf[0]) {
232b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier    (*callback)(pb - &pointer_buf[0], &pointer_buf[0], arg);
233b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier  }
234b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier}
235b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier
236a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiertemplate class SpaceBitmap<kObjectAlignment>;
237a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartiertemplate class SpaceBitmap<kPageSize>;
238a8e8f9c0a8e259a807d7b99a148d14104c24209dMathieu Chartier
2391d54e73444e017d3a65234e0f193846f3e27472bIan Rogers}  // namespace accounting
2401d54e73444e017d3a65234e0f193846f3e27472bIan Rogers}  // namespace gc
241b062fdd4cb097fbae69b4bcb479c34d83ecab8caMathieu Chartier}  // namespace art
242