38 assert(result != NULL || mutator_alloc_region(context)->get() == NULL, 39 "Must not have a mutator alloc region if there is no memory, but is " PTR_FORMAT, p2i(mutator_alloc_region(context)->get())); 40 return result; 41 } 42 43 HeapWord* G1Allocator::attempt_allocation_force(size_t word_size, AllocationContext_t context) { 44 return mutator_alloc_region(context)->attempt_allocation_force(word_size, false /* bot_updates */); 45 } 46 47 inline HeapWord* G1PLABAllocator::plab_allocate(InCSetState dest, 48 size_t word_sz, 49 AllocationContext_t context) { 50 G1PLAB* buffer = alloc_buffer(dest, context); 51 if (_survivor_alignment_bytes == 0 || !dest.is_young()) { 52 return buffer->allocate(word_sz); 53 } else { 54 return buffer->allocate_aligned(word_sz, _survivor_alignment_bytes); 55 } 56 } 57 58 // Create the _archive_region_map which is used to identify archive objects. 59 inline void G1ArchiveAllocator::enable_archive_object_check() { 60 assert(!_archive_check_enabled, "archive range check already enabled"); 61 _archive_check_enabled = true; 62 size_t length = Universe::heap()->max_capacity(); 63 _archive_region_map.initialize((HeapWord*)Universe::heap()->base(), 64 (HeapWord*)Universe::heap()->base() + length, 65 HeapRegion::GrainBytes); 66 } 67 68 // Set the regions containing the specified address range as archive/non-archive. 69 inline void G1ArchiveAllocator::set_range_archive(MemRegion range, bool is_archive) { 70 assert(_archive_check_enabled, "archive range check not enabled"); 71 _archive_region_map.set_by_address(range, is_archive); 72 } 73 74 // Check if an object is in an archive region using the _archive_region_map. 75 inline bool G1ArchiveAllocator::in_archive_range(oop object) { 76 // This is the out-of-line part of is_archive_object test, done separately 77 // to avoid additional performance impact when the check is not enabled. 78 return _archive_region_map.get_by_address((HeapWord*)object); 79 } 80 81 // Check if archive object checking is enabled, to avoid calling in_archive_range 82 // unnecessarily. 83 inline bool G1ArchiveAllocator::archive_check_enabled() { 84 return _archive_check_enabled; 85 } 86 87 inline bool G1ArchiveAllocator::is_archive_object(oop object) { 88 return (archive_check_enabled() && in_archive_range(object)); 89 } 90 91 #endif // SHARE_VM_GC_G1_G1ALLOCATOR_HPP | 38 assert(result != NULL || mutator_alloc_region(context)->get() == NULL, 39 "Must not have a mutator alloc region if there is no memory, but is " PTR_FORMAT, p2i(mutator_alloc_region(context)->get())); 40 return result; 41 } 42 43 HeapWord* G1Allocator::attempt_allocation_force(size_t word_size, AllocationContext_t context) { 44 return mutator_alloc_region(context)->attempt_allocation_force(word_size, false /* bot_updates */); 45 } 46 47 inline HeapWord* G1PLABAllocator::plab_allocate(InCSetState dest, 48 size_t word_sz, 49 AllocationContext_t context) { 50 G1PLAB* buffer = alloc_buffer(dest, context); 51 if (_survivor_alignment_bytes == 0 || !dest.is_young()) { 52 return buffer->allocate(word_sz); 53 } else { 54 return buffer->allocate_aligned(word_sz, _survivor_alignment_bytes); 55 } 56 } 57 58 // Create the maps which is used to identify archive objects. 59 inline void G1ArchiveAllocator::enable_archive_object_check() { 60 if (_archive_check_enabled) { 61 return; 62 } 63 64 _archive_check_enabled = true; 65 size_t length = Universe::heap()->max_capacity(); 66 _closed_archive_region_map.initialize((HeapWord*)Universe::heap()->base(), 67 (HeapWord*)Universe::heap()->base() + length, 68 HeapRegion::GrainBytes); 69 _open_archive_region_map.initialize((HeapWord*)Universe::heap()->base(), 70 (HeapWord*)Universe::heap()->base() + length, 71 HeapRegion::GrainBytes); 72 } 73 74 // Set the regions containing the specified address range as archive. 75 inline void G1ArchiveAllocator::set_range_archive(MemRegion range, bool open) { 76 assert(_archive_check_enabled, "archive range check not enabled"); 77 if (open) { 78 _open_archive_region_map.set_by_address(range, true); 79 } else { 80 _closed_archive_region_map.set_by_address(range, true); 81 } 82 } 83 84 // Check if an object is in a closed archive region using the _archive_region_map. 85 inline bool G1ArchiveAllocator::in_closed_archive_range(oop object) { 86 // This is the out-of-line part of is_closed_archive_object test, done separately 87 // to avoid additional performance impact when the check is not enabled. 88 return _closed_archive_region_map.get_by_address((HeapWord*)object); 89 } 90 91 inline bool G1ArchiveAllocator::in_open_archive_range(oop object) { 92 return _open_archive_region_map.get_by_address((HeapWord*)object); 93 } 94 95 // Check if archive object checking is enabled, to avoid calling in_open/closed_archive_range 96 // unnecessarily. 97 inline bool G1ArchiveAllocator::archive_check_enabled() { 98 return _archive_check_enabled; 99 } 100 101 inline bool G1ArchiveAllocator::is_closed_archive_object(oop object) { 102 return (archive_check_enabled() && in_closed_archive_range(object)); 103 } 104 105 inline bool G1ArchiveAllocator::is_open_archive_object(oop object) { 106 return (archive_check_enabled() && in_open_archive_range(object)); 107 } 108 109 inline bool G1ArchiveAllocator::is_archive_object(oop object) { 110 return (archive_check_enabled() && (in_closed_archive_range(object) || 111 in_open_archive_range(object))); 112 } 113 114 #endif // SHARE_VM_GC_G1_G1ALLOCATOR_HPP |