8200426: Make G1 code use _g1h members
Summary: Consistently use _g1h member names for cached G1CollectedHeap* variables.
Reviewed-by: sangheki, sjohanss
/*
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* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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#ifndef SHARE_VM_GC_G1_G1ALLOCATOR_INLINE_HPP
#define SHARE_VM_GC_G1_G1ALLOCATOR_INLINE_HPP
#include "gc/g1/g1Allocator.hpp"
#include "gc/g1/g1AllocRegion.inline.hpp"
#include "gc/shared/plab.inline.hpp"
inline MutatorAllocRegion* G1Allocator::mutator_alloc_region() {
return &_mutator_alloc_region;
}
inline SurvivorGCAllocRegion* G1Allocator::survivor_gc_alloc_region() {
return &_survivor_gc_alloc_region;
}
inline OldGCAllocRegion* G1Allocator::old_gc_alloc_region() {
return &_old_gc_alloc_region;
}
inline HeapWord* G1Allocator::attempt_allocation(size_t word_size) {
return mutator_alloc_region()->attempt_allocation(word_size);
}
inline HeapWord* G1Allocator::attempt_allocation_locked(size_t word_size) {
HeapWord* result = mutator_alloc_region()->attempt_allocation_locked(word_size);
assert(result != NULL || mutator_alloc_region()->get() == NULL,
"Must not have a mutator alloc region if there is no memory, but is " PTR_FORMAT, p2i(mutator_alloc_region()->get()));
return result;
}
inline HeapWord* G1Allocator::attempt_allocation_force(size_t word_size) {
return mutator_alloc_region()->attempt_allocation_force(word_size);
}
inline PLAB* G1PLABAllocator::alloc_buffer(InCSetState dest) {
assert(dest.is_valid(),
"Allocation buffer index out-of-bounds: " CSETSTATE_FORMAT, dest.value());
assert(_alloc_buffers[dest.value()] != NULL,
"Allocation buffer is NULL: " CSETSTATE_FORMAT, dest.value());
return _alloc_buffers[dest.value()];
}
inline HeapWord* G1PLABAllocator::plab_allocate(InCSetState dest,
size_t word_sz) {
PLAB* buffer = alloc_buffer(dest);
if (_survivor_alignment_bytes == 0 || !dest.is_young()) {
return buffer->allocate(word_sz);
} else {
return buffer->allocate_aligned(word_sz, _survivor_alignment_bytes);
}
}
inline HeapWord* G1PLABAllocator::allocate(InCSetState dest,
size_t word_sz,
bool* refill_failed) {
HeapWord* const obj = plab_allocate(dest, word_sz);
if (obj != NULL) {
return obj;
}
return allocate_direct_or_new_plab(dest, word_sz, refill_failed);
}
// Create the maps which is used to identify archive objects.
inline void G1ArchiveAllocator::enable_archive_object_check() {
if (_archive_check_enabled) {
return;
}
_archive_check_enabled = true;
size_t length = Universe::heap()->max_capacity();
_closed_archive_region_map.initialize((HeapWord*)Universe::heap()->base(),
(HeapWord*)Universe::heap()->base() + length,
HeapRegion::GrainBytes);
_open_archive_region_map.initialize((HeapWord*)Universe::heap()->base(),
(HeapWord*)Universe::heap()->base() + length,
HeapRegion::GrainBytes);
}
// Set the regions containing the specified address range as archive.
inline void G1ArchiveAllocator::set_range_archive(MemRegion range, bool open) {
assert(_archive_check_enabled, "archive range check not enabled");
if (open) {
_open_archive_region_map.set_by_address(range, true);
} else {
_closed_archive_region_map.set_by_address(range, true);
}
}
// Check if an object is in a closed archive region using the _archive_region_map.
inline bool G1ArchiveAllocator::in_closed_archive_range(oop object) {
// This is the out-of-line part of is_closed_archive_object test, done separately
// to avoid additional performance impact when the check is not enabled.
return _closed_archive_region_map.get_by_address((HeapWord*)object);
}
inline bool G1ArchiveAllocator::in_open_archive_range(oop object) {
return _open_archive_region_map.get_by_address((HeapWord*)object);
}
// Check if archive object checking is enabled, to avoid calling in_open/closed_archive_range
// unnecessarily.
inline bool G1ArchiveAllocator::archive_check_enabled() {
return _archive_check_enabled;
}
inline bool G1ArchiveAllocator::is_closed_archive_object(oop object) {
return (archive_check_enabled() && in_closed_archive_range(object));
}
inline bool G1ArchiveAllocator::is_open_archive_object(oop object) {
return (archive_check_enabled() && in_open_archive_range(object));
}
inline bool G1ArchiveAllocator::is_archive_object(oop object) {
return (archive_check_enabled() && (in_closed_archive_range(object) ||
in_open_archive_range(object)));
}
#endif // SHARE_VM_GC_G1_G1ALLOCATOR_HPP