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src/share/vm/gc/shenandoah/shenandoahHeap.cpp
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rev 14451 : imported patch bitmap_uncommit.patch
rev 14452 : imported patch onebitmap.patch
*** 80,103 ****
class ShenandoahPretouchTask : public AbstractGangTask {
private:
ShenandoahHeapRegionSet* _regions;
const size_t _bitmap_size;
const size_t _page_size;
! char* _bitmap0_base;
! char* _bitmap1_base;
public:
ShenandoahPretouchTask(ShenandoahHeapRegionSet* regions,
! char* bitmap0_base, char* bitmap1_base, size_t bitmap_size,
size_t page_size) :
AbstractGangTask("Shenandoah PreTouch",
Universe::is_fully_initialized() ? GCId::current_raw() :
// During VM initialization there is
// no GC cycle that this task can be
// associated with.
GCId::undefined()),
! _bitmap0_base(bitmap0_base),
! _bitmap1_base(bitmap1_base),
_regions(regions),
_bitmap_size(bitmap_size),
_page_size(page_size) {
_regions->clear_current_index();
};
--- 80,101 ----
class ShenandoahPretouchTask : public AbstractGangTask {
private:
ShenandoahHeapRegionSet* _regions;
const size_t _bitmap_size;
const size_t _page_size;
! char* _bitmap_base;
public:
ShenandoahPretouchTask(ShenandoahHeapRegionSet* regions,
! char* bitmap_base, size_t bitmap_size,
size_t page_size) :
AbstractGangTask("Shenandoah PreTouch",
Universe::is_fully_initialized() ? GCId::current_raw() :
// During VM initialization there is
// no GC cycle that this task can be
// associated with.
GCId::undefined()),
! _bitmap_base(bitmap_base),
_regions(regions),
_bitmap_size(bitmap_size),
_page_size(page_size) {
_regions->clear_current_index();
};
*** 112,127 ****
size_t start = r->region_number() * ShenandoahHeapRegion::region_size_bytes() / MarkBitMap::heap_map_factor();
size_t end = (r->region_number() + 1) * ShenandoahHeapRegion::region_size_bytes() / MarkBitMap::heap_map_factor();
assert (end <= _bitmap_size, "end is sane: " SIZE_FORMAT " < " SIZE_FORMAT, end, _bitmap_size);
log_trace(gc, heap)("Pretouch bitmap under region " SIZE_FORMAT ": " PTR_FORMAT " -> " PTR_FORMAT,
! r->region_number(), p2i(_bitmap0_base + start), p2i(_bitmap0_base + end));
! os::pretouch_memory(_bitmap0_base + start, _bitmap0_base + end, _page_size);
!
! log_trace(gc, heap)("Pretouch bitmap under region " SIZE_FORMAT ": " PTR_FORMAT " -> " PTR_FORMAT,
! r->region_number(), p2i(_bitmap1_base + start), p2i(_bitmap1_base + end));
! os::pretouch_memory(_bitmap1_base + start, _bitmap1_base + end, _page_size);
r = _regions->claim_next();
}
}
};
--- 110,121 ----
size_t start = r->region_number() * ShenandoahHeapRegion::region_size_bytes() / MarkBitMap::heap_map_factor();
size_t end = (r->region_number() + 1) * ShenandoahHeapRegion::region_size_bytes() / MarkBitMap::heap_map_factor();
assert (end <= _bitmap_size, "end is sane: " SIZE_FORMAT " < " SIZE_FORMAT, end, _bitmap_size);
log_trace(gc, heap)("Pretouch bitmap under region " SIZE_FORMAT ": " PTR_FORMAT " -> " PTR_FORMAT,
! r->region_number(), p2i(_bitmap_base + start), p2i(_bitmap_base + end));
! os::pretouch_memory(_bitmap_base + start, _bitmap_base + end, _page_size);
r = _regions->claim_next();
}
}
};
*** 169,197 ****
_ordered_regions = new ShenandoahHeapRegionSet(_num_regions);
_free_regions = new ShenandoahFreeSet(_ordered_regions, _num_regions);
_collection_set = new ShenandoahCollectionSet(this, (HeapWord*)pgc_rs.base());
! _next_top_at_mark_starts_base = NEW_C_HEAP_ARRAY(HeapWord*, _num_regions, mtGC);
! _next_top_at_mark_starts = _next_top_at_mark_starts_base -
((uintx) pgc_rs.base() >> ShenandoahHeapRegion::region_size_bytes_shift());
- _complete_top_at_mark_starts_base = NEW_C_HEAP_ARRAY(HeapWord*, _num_regions, mtGC);
- _complete_top_at_mark_starts = _complete_top_at_mark_starts_base -
- ((uintx) pgc_rs.base() >> ShenandoahHeapRegion::region_size_bytes_shift());
{
ShenandoahHeapLocker locker(lock());
for (size_t i = 0; i < _num_regions; i++) {
ShenandoahHeapRegion* r = new ShenandoahHeapRegion(this,
(HeapWord*) pgc_rs.base() + reg_size_words * i,
reg_size_words,
i,
i < num_committed_regions);
! _complete_top_at_mark_starts_base[i] = r->bottom();
! _next_top_at_mark_starts_base[i] = r->bottom();
// Add to ordered regions first.
// We use the active size of ordered regions as the number of active regions in heap,
// free set and collection set use the number to assert the correctness of incoming regions.
_ordered_regions->add_region(r);
--- 163,187 ----
_ordered_regions = new ShenandoahHeapRegionSet(_num_regions);
_free_regions = new ShenandoahFreeSet(_ordered_regions, _num_regions);
_collection_set = new ShenandoahCollectionSet(this, (HeapWord*)pgc_rs.base());
! _top_at_mark_starts_base = NEW_C_HEAP_ARRAY(HeapWord*, _num_regions, mtGC);
! _top_at_mark_starts = _top_at_mark_starts_base -
((uintx) pgc_rs.base() >> ShenandoahHeapRegion::region_size_bytes_shift());
{
ShenandoahHeapLocker locker(lock());
for (size_t i = 0; i < _num_regions; i++) {
ShenandoahHeapRegion* r = new ShenandoahHeapRegion(this,
(HeapWord*) pgc_rs.base() + reg_size_words * i,
reg_size_words,
i,
i < num_committed_regions);
! _top_at_mark_starts_base[i] = r->bottom();
// Add to ordered regions first.
// We use the active size of ordered regions as the number of active regions in heap,
// free set and collection set use the number to assert the correctness of incoming regions.
_ordered_regions->add_region(r);
*** 242,258 ****
bitmap_bytes_per_region, os::vm_page_size());
size_t bitmap_page_size = UseLargePages && (bitmap_bytes_per_region >= (size_t)os::large_page_size()) ?
(size_t)os::large_page_size() : (size_t)os::vm_page_size();
! ReservedSpace bitmap0(_bitmap_size, bitmap_page_size);
! MemTracker::record_virtual_memory_type(bitmap0.base(), mtGC);
! _bitmap0_region = MemRegion((HeapWord*) bitmap0.base(), bitmap0.size() / HeapWordSize);
!
! ReservedSpace bitmap1(_bitmap_size, bitmap_page_size);
! MemTracker::record_virtual_memory_type(bitmap1.base(), mtGC);
! _bitmap1_region = MemRegion((HeapWord*) bitmap1.base(), bitmap1.size() / HeapWordSize);
{
ShenandoahHeapLocker locker(lock());
for (size_t i = 0; i < _num_regions; i++) {
ShenandoahHeapRegion* r = _ordered_regions->get(i);
--- 232,244 ----
bitmap_bytes_per_region, os::vm_page_size());
size_t bitmap_page_size = UseLargePages && (bitmap_bytes_per_region >= (size_t)os::large_page_size()) ?
(size_t)os::large_page_size() : (size_t)os::vm_page_size();
! ReservedSpace bitmap(_bitmap_size, bitmap_page_size);
! MemTracker::record_virtual_memory_type(bitmap.base(), mtGC);
! _bitmap_region = MemRegion((HeapWord*) bitmap.base(), bitmap.size() / HeapWordSize);
{
ShenandoahHeapLocker locker(lock());
for (size_t i = 0; i < _num_regions; i++) {
ShenandoahHeapRegion* r = _ordered_regions->get(i);
*** 281,299 ****
// before initialize() below zeroes it with initializing thread. For any given region,
// we touch the region and the corresponding bitmaps from the same thread.
log_info(gc, heap)("Parallel pretouch " SIZE_FORMAT " regions with " SIZE_FORMAT " byte pages",
_ordered_regions->count(), page_size);
! ShenandoahPretouchTask cl(_ordered_regions, bitmap0.base(), bitmap1.base(), _bitmap_size, page_size);
_workers->run_task(&cl);
}
! _mark_bit_map0.initialize(_heap_region, _bitmap0_region);
! _complete_mark_bit_map = &_mark_bit_map0;
!
! _mark_bit_map1.initialize(_heap_region, _bitmap1_region);
! _next_mark_bit_map = &_mark_bit_map1;
if (UseShenandoahMatrix) {
_connection_matrix = new ShenandoahConnectionMatrix(_num_regions);
} else {
_connection_matrix = NULL;
--- 267,282 ----
// before initialize() below zeroes it with initializing thread. For any given region,
// we touch the region and the corresponding bitmaps from the same thread.
log_info(gc, heap)("Parallel pretouch " SIZE_FORMAT " regions with " SIZE_FORMAT " byte pages",
_ordered_regions->count(), page_size);
! ShenandoahPretouchTask cl(_ordered_regions, bitmap.base(), _bitmap_size, page_size);
_workers->run_task(&cl);
}
! __mark_bit_map.initialize(_heap_region, _bitmap_region);
! _mark_bit_map = & __mark_bit_map;
if (UseShenandoahMatrix) {
_connection_matrix = new ShenandoahConnectionMatrix(_num_regions);
} else {
_connection_matrix = NULL;
*** 335,354 ****
_bytes_allocated_during_cm(0),
_allocated_last_gc(0),
_used_start_gc(0),
_max_workers(MAX2(ConcGCThreads, ParallelGCThreads)),
_ref_processor(NULL),
! _next_top_at_mark_starts(NULL),
! _next_top_at_mark_starts_base(NULL),
! _complete_top_at_mark_starts(NULL),
! _complete_top_at_mark_starts_base(NULL),
! _mark_bit_map0(),
! _mark_bit_map1(),
_connection_matrix(NULL),
_cancelled_concgc(0),
_need_update_refs(false),
! _need_reset_bitmaps(false),
_verifier(NULL),
_heap_lock(0),
_used_at_last_gc(0),
_alloc_seq_at_last_gc_start(0),
_alloc_seq_at_last_gc_end(0),
--- 318,336 ----
_bytes_allocated_during_cm(0),
_allocated_last_gc(0),
_used_start_gc(0),
_max_workers(MAX2(ConcGCThreads, ParallelGCThreads)),
_ref_processor(NULL),
! _top_at_mark_starts(NULL),
! _top_at_mark_starts_base(NULL),
! __mark_bit_map(),
! _mark_bit_map(NULL),
_connection_matrix(NULL),
_cancelled_concgc(0),
_need_update_refs(false),
! _need_reset_bitmap(false),
! _bitmap_valid(true),
_verifier(NULL),
_heap_lock(0),
_used_at_last_gc(0),
_alloc_seq_at_last_gc_start(0),
_alloc_seq_at_last_gc_end(0),
*** 384,399 ****
false, false);
_safepoint_workers->initialize_workers();
}
}
! class ShenandoahResetNextBitmapTask : public AbstractGangTask {
private:
ShenandoahHeapRegionSet* _regions;
public:
! ShenandoahResetNextBitmapTask(ShenandoahHeapRegionSet* regions) :
AbstractGangTask("Parallel Reset Bitmap Task"),
_regions(regions) {
_regions->clear_current_index();
}
--- 366,381 ----
false, false);
_safepoint_workers->initialize_workers();
}
}
! class ShenandoahResetBitmapTask : public AbstractGangTask {
private:
ShenandoahHeapRegionSet* _regions;
public:
! ShenandoahResetBitmapTask(ShenandoahHeapRegionSet* regions) :
AbstractGangTask("Parallel Reset Bitmap Task"),
_regions(regions) {
_regions->clear_current_index();
}
*** 401,479 ****
ShenandoahHeapRegion* region = _regions->claim_next();
ShenandoahHeap* heap = ShenandoahHeap::heap();
while (region != NULL) {
if (region->is_committed()) {
HeapWord* bottom = region->bottom();
! HeapWord* top = heap->next_top_at_mark_start(region->bottom());
if (top > bottom) {
! heap->next_mark_bit_map()->clear_range_large(MemRegion(bottom, top));
}
! assert(heap->is_next_bitmap_clear_range(bottom, region->end()), "must be clear");
}
region = _regions->claim_next();
}
}
};
! void ShenandoahHeap::reset_next_mark_bitmap(WorkGang* workers) {
assert_gc_workers(workers->active_workers());
! ShenandoahResetNextBitmapTask task = ShenandoahResetNextBitmapTask(_ordered_regions);
workers->run_task(&task);
}
! class ShenandoahResetCompleteBitmapTask : public AbstractGangTask {
! private:
! ShenandoahHeapRegionSet* _regions;
!
! public:
! ShenandoahResetCompleteBitmapTask(ShenandoahHeapRegionSet* regions) :
! AbstractGangTask("Parallel Reset Bitmap Task"),
! _regions(regions) {
! _regions->clear_current_index();
! }
!
! void work(uint worker_id) {
! ShenandoahHeapRegion* region = _regions->claim_next();
! ShenandoahHeap* heap = ShenandoahHeap::heap();
! while (region != NULL) {
! if (region->is_committed()) {
! HeapWord* bottom = region->bottom();
! HeapWord* top = heap->complete_top_at_mark_start(region->bottom());
! if (top > bottom) {
! heap->complete_mark_bit_map()->clear_range_large(MemRegion(bottom, top));
! }
! assert(heap->is_complete_bitmap_clear_range(bottom, region->end()), "must be clear");
! }
! region = _regions->claim_next();
! }
! }
! };
!
! void ShenandoahHeap::reset_complete_mark_bitmap(WorkGang* workers) {
! assert_gc_workers(workers->active_workers());
!
! ShenandoahResetCompleteBitmapTask task = ShenandoahResetCompleteBitmapTask(_ordered_regions);
! workers->run_task(&task);
! }
!
! bool ShenandoahHeap::is_next_bitmap_clear() {
for (size_t idx = 0; idx < _num_regions; idx++) {
ShenandoahHeapRegion* r = _ordered_regions->get(idx);
! if (r->is_committed() && !is_next_bitmap_clear_range(r->bottom(), r->end())) {
return false;
}
}
return true;
}
! bool ShenandoahHeap::is_next_bitmap_clear_range(HeapWord* start, HeapWord* end) {
! return _next_mark_bit_map->getNextMarkedWordAddress(start, end) == end;
! }
!
! bool ShenandoahHeap::is_complete_bitmap_clear_range(HeapWord* start, HeapWord* end) {
! return _complete_mark_bit_map->getNextMarkedWordAddress(start, end) == end;
}
void ShenandoahHeap::print_on(outputStream* st) const {
st->print_cr("Shenandoah Heap");
st->print_cr(" " SIZE_FORMAT "K total, " SIZE_FORMAT "K committed, " SIZE_FORMAT "K used",
--- 383,422 ----
ShenandoahHeapRegion* region = _regions->claim_next();
ShenandoahHeap* heap = ShenandoahHeap::heap();
while (region != NULL) {
if (region->is_committed()) {
HeapWord* bottom = region->bottom();
! HeapWord* top = heap->top_at_mark_start(region->bottom());
if (top > bottom) {
! heap->mark_bit_map()->clear_range_large(MemRegion(bottom, top));
}
! assert(heap->is_bitmap_clear_range(bottom, region->end()), "must be clear");
}
region = _regions->claim_next();
}
}
};
! void ShenandoahHeap::reset_mark_bitmap(WorkGang* workers) {
assert_gc_workers(workers->active_workers());
! ShenandoahResetBitmapTask task = ShenandoahResetBitmapTask(_ordered_regions);
workers->run_task(&task);
}
! bool ShenandoahHeap::is_bitmap_clear() {
for (size_t idx = 0; idx < _num_regions; idx++) {
ShenandoahHeapRegion* r = _ordered_regions->get(idx);
! if (r->is_committed() && !is_bitmap_clear_range(r->bottom(), r->end())) {
return false;
}
}
return true;
}
! bool ShenandoahHeap::is_bitmap_clear_range(HeapWord* start, HeapWord* end) {
! return _mark_bit_map->getNextMarkedWordAddress(start, end) == end;
}
void ShenandoahHeap::print_on(outputStream* st) const {
st->print_cr("Shenandoah Heap");
st->print_cr(" " SIZE_FORMAT "K total, " SIZE_FORMAT "K committed, " SIZE_FORMAT "K used",
*** 785,796 ****
T o = oopDesc::load_heap_oop(p);
if (! oopDesc::is_null(o)) {
oop obj = oopDesc::decode_heap_oop_not_null(o);
if (_heap->in_collection_set(obj)) {
! assert(_heap->is_marked_complete(obj), "only evacuate marked objects %d %d",
! _heap->is_marked_complete(obj), _heap->is_marked_complete(ShenandoahBarrierSet::resolve_oop_static_not_null(obj)));
oop resolved = ShenandoahBarrierSet::resolve_oop_static_not_null(obj);
if (oopDesc::unsafe_equals(resolved, obj)) {
bool evac;
resolved = _heap->evacuate_object(obj, _thread, evac);
}
--- 728,739 ----
T o = oopDesc::load_heap_oop(p);
if (! oopDesc::is_null(o)) {
oop obj = oopDesc::decode_heap_oop_not_null(o);
if (_heap->in_collection_set(obj)) {
! assert(_heap->is_marked(obj), "only evacuate marked objects %d %d",
! _heap->is_marked(obj), _heap->is_marked(ShenandoahBarrierSet::resolve_oop_static_not_null(obj)));
oop resolved = ShenandoahBarrierSet::resolve_oop_static_not_null(obj);
if (oopDesc::unsafe_equals(resolved, obj)) {
bool evac;
resolved = _heap->evacuate_object(obj, _thread, evac);
}
*** 849,859 ****
public:
ShenandoahParallelEvacuateRegionObjectClosure(ShenandoahHeap* heap) :
_heap(heap), _thread(Thread::current()) {}
void do_object(oop p) {
! assert(_heap->is_marked_complete(p), "expect only marked objects");
if (oopDesc::unsafe_equals(p, ShenandoahBarrierSet::resolve_oop_static_not_null(p))) {
bool evac;
_heap->evacuate_object(p, _thread, evac);
}
}
--- 792,802 ----
public:
ShenandoahParallelEvacuateRegionObjectClosure(ShenandoahHeap* heap) :
_heap(heap), _thread(Thread::current()) {}
void do_object(oop p) {
! assert(_heap->is_marked(p), "expect only marked objects");
if (oopDesc::unsafe_equals(p, ShenandoahBarrierSet::resolve_oop_static_not_null(p))) {
bool evac;
_heap->evacuate_object(p, _thread, evac);
}
}
*** 1452,1462 ****
public:
ShenandoahClearLivenessClosure(ShenandoahHeap* heap) : sh(heap) {}
bool heap_region_do(ShenandoahHeapRegion* r) {
r->clear_live_data();
! sh->set_next_top_at_mark_start(r->bottom(), r->top());
return false;
}
};
void ShenandoahHeap::start_concurrent_marking() {
--- 1395,1405 ----
public:
ShenandoahClearLivenessClosure(ShenandoahHeap* heap) : sh(heap) {}
bool heap_region_do(ShenandoahHeapRegion* r) {
r->clear_live_data();
! sh->set_top_at_mark_start(r->bottom(), r->top());
return false;
}
};
void ShenandoahHeap::start_concurrent_marking() {
*** 1494,1527 ****
ShenandoahGCPhase phase(ShenandoahPhaseTimings::resize_tlabs);
resize_all_tlabs();
}
}
- void ShenandoahHeap::swap_mark_bitmaps() {
- // Swap bitmaps.
- MarkBitMap* tmp1 = _complete_mark_bit_map;
- _complete_mark_bit_map = _next_mark_bit_map;
- _next_mark_bit_map = tmp1;
-
- // Swap top-at-mark-start pointers
- HeapWord** tmp2 = _complete_top_at_mark_starts;
- _complete_top_at_mark_starts = _next_top_at_mark_starts;
- _next_top_at_mark_starts = tmp2;
-
- HeapWord** tmp3 = _complete_top_at_mark_starts_base;
- _complete_top_at_mark_starts_base = _next_top_at_mark_starts_base;
- _next_top_at_mark_starts_base = tmp3;
- }
-
-
void ShenandoahHeap::stop_concurrent_marking() {
assert(concurrent_mark_in_progress(), "How else could we get here?");
if (! cancelled_concgc()) {
// If we needed to update refs, and concurrent marking has been cancelled,
// we need to finish updating references.
set_need_update_refs(false);
- swap_mark_bitmaps();
}
set_concurrent_mark_in_progress(false);
LogTarget(Trace, gc, region) lt;
if (lt.is_enabled()) {
--- 1437,1452 ----
*** 1599,1620 ****
if (_heap->concurrent_mark_in_progress()) {
assert(oopDesc::unsafe_equals(obj, ShenandoahBarrierSet::resolve_oop_static_not_null(obj)), "only query to-space");
}
#endif
assert(!oopDesc::is_null(obj), "null");
! return _heap->is_marked_next(obj);
}
ShenandoahIsAliveClosure::ShenandoahIsAliveClosure() :
_heap(ShenandoahHeap::heap_no_check()) {
}
bool ShenandoahIsAliveClosure::do_object_b(oop obj) {
assert(_heap != NULL, "sanity");
assert(!oopDesc::is_null(obj), "null");
assert(oopDesc::unsafe_equals(obj, ShenandoahBarrierSet::resolve_oop_static_not_null(obj)), "only query to-space");
! return _heap->is_marked_next(obj);
}
BoolObjectClosure* ShenandoahHeap::is_alive_closure() {
return need_update_refs() ?
(BoolObjectClosure*) &_forwarded_is_alive :
--- 1524,1545 ----
if (_heap->concurrent_mark_in_progress()) {
assert(oopDesc::unsafe_equals(obj, ShenandoahBarrierSet::resolve_oop_static_not_null(obj)), "only query to-space");
}
#endif
assert(!oopDesc::is_null(obj), "null");
! return _heap->is_marked(obj);
}
ShenandoahIsAliveClosure::ShenandoahIsAliveClosure() :
_heap(ShenandoahHeap::heap_no_check()) {
}
bool ShenandoahIsAliveClosure::do_object_b(oop obj) {
assert(_heap != NULL, "sanity");
assert(!oopDesc::is_null(obj), "null");
assert(oopDesc::unsafe_equals(obj, ShenandoahBarrierSet::resolve_oop_static_not_null(obj)), "only query to-space");
! return _heap->is_marked(obj);
}
BoolObjectClosure* ShenandoahHeap::is_alive_closure() {
return need_update_refs() ?
(BoolObjectClosure*) &_forwarded_is_alive :
*** 1797,1812 ****
ShenandoahMonitoringSupport* ShenandoahHeap::monitoring_support() {
return _monitoring_support;
}
! MarkBitMap* ShenandoahHeap::complete_mark_bit_map() {
! return _complete_mark_bit_map;
! }
!
! MarkBitMap* ShenandoahHeap::next_mark_bit_map() {
! return _next_mark_bit_map;
}
void ShenandoahHeap::add_free_region(ShenandoahHeapRegion* r) {
_free_regions->add_region(r);
}
--- 1722,1733 ----
ShenandoahMonitoringSupport* ShenandoahHeap::monitoring_support() {
return _monitoring_support;
}
! MarkBitMap* ShenandoahHeap::mark_bit_map() {
! return _mark_bit_map;
}
void ShenandoahHeap::add_free_region(ShenandoahHeapRegion* r) {
_free_regions->add_region(r);
}
*** 1836,1863 ****
void ShenandoahHeap::set_bytes_allocated_since_cm(size_t bytes) {
_bytes_allocated_since_cm = bytes;
}
! void ShenandoahHeap::set_next_top_at_mark_start(HeapWord* region_base, HeapWord* addr) {
! uintx index = ((uintx) region_base) >> ShenandoahHeapRegion::region_size_bytes_shift();
! _next_top_at_mark_starts[index] = addr;
! }
!
! HeapWord* ShenandoahHeap::next_top_at_mark_start(HeapWord* region_base) {
! uintx index = ((uintx) region_base) >> ShenandoahHeapRegion::region_size_bytes_shift();
! return _next_top_at_mark_starts[index];
! }
!
! void ShenandoahHeap::set_complete_top_at_mark_start(HeapWord* region_base, HeapWord* addr) {
uintx index = ((uintx) region_base) >> ShenandoahHeapRegion::region_size_bytes_shift();
! _complete_top_at_mark_starts[index] = addr;
}
! HeapWord* ShenandoahHeap::complete_top_at_mark_start(HeapWord* region_base) {
uintx index = ((uintx) region_base) >> ShenandoahHeapRegion::region_size_bytes_shift();
! return _complete_top_at_mark_starts[index];
}
void ShenandoahHeap::set_full_gc_in_progress(bool in_progress) {
_full_gc_in_progress = in_progress;
}
--- 1757,1774 ----
void ShenandoahHeap::set_bytes_allocated_since_cm(size_t bytes) {
_bytes_allocated_since_cm = bytes;
}
! void ShenandoahHeap::set_top_at_mark_start(HeapWord* region_base, HeapWord* addr) {
uintx index = ((uintx) region_base) >> ShenandoahHeapRegion::region_size_bytes_shift();
! _top_at_mark_starts[index] = addr;
}
! HeapWord* ShenandoahHeap::top_at_mark_start(HeapWord* region_base) {
uintx index = ((uintx) region_base) >> ShenandoahHeapRegion::region_size_bytes_shift();
! return _top_at_mark_starts[index];
}
void ShenandoahHeap::set_full_gc_in_progress(bool in_progress) {
_full_gc_in_progress = in_progress;
}
*** 1983,1995 ****
SuspendibleThreadSetJoiner stsj(_concurrent && ShenandoahSuspendibleWorkers);
ShenandoahHeapRegion* r = _regions->claim_next();
while (r != NULL) {
if (_heap->in_collection_set(r)) {
HeapWord* bottom = r->bottom();
! HeapWord* top = _heap->complete_top_at_mark_start(r->bottom());
if (top > bottom) {
! _heap->complete_mark_bit_map()->clear_range_large(MemRegion(bottom, top));
}
} else {
if (r->is_active()) {
_heap->marked_object_oop_safe_iterate(r, &cl);
}
--- 1894,1906 ----
SuspendibleThreadSetJoiner stsj(_concurrent && ShenandoahSuspendibleWorkers);
ShenandoahHeapRegion* r = _regions->claim_next();
while (r != NULL) {
if (_heap->in_collection_set(r)) {
HeapWord* bottom = r->bottom();
! HeapWord* top = _heap->top_at_mark_start(r->bottom());
if (top > bottom) {
! _heap->mark_bit_map()->clear_range_large(MemRegion(bottom, top));
}
} else {
if (r->is_active()) {
_heap->marked_object_oop_safe_iterate(r, &cl);
}
*** 2187,2211 ****
}
bool ShenandoahHeap::commit_bitmaps(ShenandoahHeapRegion* r) {
size_t len = _bitmap_words_per_region * HeapWordSize;
size_t off = r->region_number() * _bitmap_words_per_region;
! if (!os::commit_memory((char*)(_bitmap0_region.start() + off), len, false)) {
! return false;
! }
! if (!os::commit_memory((char*)(_bitmap1_region.start() + off), len, false)) {
return false;
}
return true;
}
bool ShenandoahHeap::uncommit_bitmaps(ShenandoahHeapRegion* r) {
size_t len = _bitmap_words_per_region * HeapWordSize;
size_t off = r->region_number() * _bitmap_words_per_region;
! if (!os::uncommit_memory((char*)(_bitmap0_region.start() + off), len)) {
! return false;
! }
! if (!os::uncommit_memory((char*)(_bitmap1_region.start() + off), len)) {
return false;
}
return true;
}
--- 2098,2116 ----
}
bool ShenandoahHeap::commit_bitmaps(ShenandoahHeapRegion* r) {
size_t len = _bitmap_words_per_region * HeapWordSize;
size_t off = r->region_number() * _bitmap_words_per_region;
! if (!os::commit_memory((char*)(_bitmap_region.start() + off), len, false)) {
return false;
}
return true;
}
bool ShenandoahHeap::uncommit_bitmaps(ShenandoahHeapRegion* r) {
size_t len = _bitmap_words_per_region * HeapWordSize;
size_t off = r->region_number() * _bitmap_words_per_region;
! if (!os::uncommit_memory((char*)(_bitmap_region.start() + off), len)) {
return false;
}
return true;
}
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