8025852: Remove unnecessary setters in collector policy classes
Summary: Use instance variables directly within the collector policy classes and remove unused setters.
Reviewed-by: tschatzl, jcoomes
/*
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* 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_IMPLEMENTATION_PARALLELSCAVENGE_PSCOMPACTIONMANAGER_HPP
#define SHARE_VM_GC_IMPLEMENTATION_PARALLELSCAVENGE_PSCOMPACTIONMANAGER_HPP
#include "memory/allocation.hpp"
#include "utilities/stack.hpp"
#include "utilities/taskqueue.hpp"
// Move to some global location
#define HAS_BEEN_MOVED 0x1501d01d
// End move to some global location
class MutableSpace;
class PSOldGen;
class ParCompactionManager;
class ObjectStartArray;
class ParallelCompactData;
class ParMarkBitMap;
class ParCompactionManager : public CHeapObj<mtGC> {
friend class ParallelTaskTerminator;
friend class ParMarkBitMap;
friend class PSParallelCompact;
friend class StealRegionCompactionTask;
friend class UpdateAndFillClosure;
friend class RefProcTaskExecutor;
friend class IdleGCTask;
public:
// ------------------------ Don't putback if not needed
// Actions that the compaction manager should take.
enum Action {
Update,
Copy,
UpdateAndCopy,
CopyAndUpdate,
NotValid
};
// ------------------------ End don't putback if not needed
private:
// 32-bit: 4K * 8 = 32KiB; 64-bit: 8K * 16 = 128KiB
#define QUEUE_SIZE (1 << NOT_LP64(12) LP64_ONLY(13))
typedef OverflowTaskQueue<ObjArrayTask, mtGC, QUEUE_SIZE> ObjArrayTaskQueue;
typedef GenericTaskQueueSet<ObjArrayTaskQueue, mtGC> ObjArrayTaskQueueSet;
#undef QUEUE_SIZE
static ParCompactionManager** _manager_array;
static OopTaskQueueSet* _stack_array;
static ObjArrayTaskQueueSet* _objarray_queues;
static ObjectStartArray* _start_array;
static RegionTaskQueueSet* _region_array;
static PSOldGen* _old_gen;
private:
OverflowTaskQueue<oop, mtGC> _marking_stack;
ObjArrayTaskQueue _objarray_stack;
// Is there a way to reuse the _marking_stack for the
// saving empty regions? For now just create a different
// type of TaskQueue.
RegionTaskQueue* _region_stack;
static RegionTaskQueue** _region_list;
// Index in _region_list for current _region_stack.
uint _region_stack_index;
// Indexes of recycled region stacks/overflow stacks
// Stacks of regions to be compacted are embedded in the tasks doing
// the compaction. A thread that executes the task extracts the
// region stack and drains it. These threads keep these region
// stacks for use during compaction task stealing. If a thread
// gets a second draining task, it pushed its current region stack
// index into the array _recycled_stack_index and gets a new
// region stack from the task. A thread that is executing a
// compaction stealing task without ever having executing a
// draining task, will get a region stack from _recycled_stack_index.
//
// Array of indexes into the array of region stacks.
static uint* _recycled_stack_index;
// The index into _recycled_stack_index of the last region stack index
// pushed. If -1, there are no entries into _recycled_stack_index.
static int _recycled_top;
// The index into _recycled_stack_index of the last region stack index
// popped. If -1, there has not been any entry popped.
static int _recycled_bottom;
static ParMarkBitMap* _mark_bitmap;
Action _action;
static PSOldGen* old_gen() { return _old_gen; }
static ObjectStartArray* start_array() { return _start_array; }
static OopTaskQueueSet* stack_array() { return _stack_array; }
static void initialize(ParMarkBitMap* mbm);
protected:
// Array of tasks. Needed by the ParallelTaskTerminator.
static RegionTaskQueueSet* region_array() { return _region_array; }
OverflowTaskQueue<oop, mtGC>* marking_stack() { return &_marking_stack; }
// Pushes onto the marking stack. If the marking stack is full,
// pushes onto the overflow stack.
void stack_push(oop obj);
// Do not implement an equivalent stack_pop. Deal with the
// marking stack and overflow stack directly.
public:
Action action() { return _action; }
void set_action(Action v) { _action = v; }
RegionTaskQueue* region_stack() { return _region_stack; }
void set_region_stack(RegionTaskQueue* v) { _region_stack = v; }
inline static ParCompactionManager* manager_array(int index);
inline static RegionTaskQueue* region_list(int index) {
return _region_list[index];
}
uint region_stack_index() { return _region_stack_index; }
void set_region_stack_index(uint v) { _region_stack_index = v; }
// Pop and push unique reusable stack index
static int pop_recycled_stack_index();
static void push_recycled_stack_index(uint v);
static void reset_recycled_stack_index() {
_recycled_bottom = _recycled_top = -1;
}
ParCompactionManager();
~ParCompactionManager();
// Pushes onto the region stack at the given index. If the
// region stack is full,
// pushes onto the region overflow stack.
static void region_list_push(uint stack_index, size_t region_index);
static void verify_region_list_empty(uint stack_index);
ParMarkBitMap* mark_bitmap() { return _mark_bitmap; }
// void drain_stacks();
bool should_update();
bool should_copy();
// Save for later processing. Must not fail.
inline void push(oop obj) { _marking_stack.push(obj); }
inline void push_objarray(oop objarray, size_t index);
inline void push_region(size_t index);
// Access function for compaction managers
static ParCompactionManager* gc_thread_compaction_manager(int index);
static bool steal(int queue_num, int* seed, oop& t) {
return stack_array()->steal(queue_num, seed, t);
}
static bool steal_objarray(int queue_num, int* seed, ObjArrayTask& t) {
return _objarray_queues->steal(queue_num, seed, t);
}
static bool steal(int queue_num, int* seed, size_t& region) {
return region_array()->steal(queue_num, seed, region);
}
// Process tasks remaining on any marking stack
void follow_marking_stacks();
inline bool marking_stacks_empty() const;
// Process tasks remaining on any stack
void drain_region_stacks();
};
inline ParCompactionManager* ParCompactionManager::manager_array(int index) {
assert(_manager_array != NULL, "access of NULL manager_array");
assert(index >= 0 && index <= (int)ParallelGCThreads,
"out of range manager_array access");
return _manager_array[index];
}
bool ParCompactionManager::marking_stacks_empty() const {
return _marking_stack.is_empty() && _objarray_stack.is_empty();
}
#endif // SHARE_VM_GC_IMPLEMENTATION_PARALLELSCAVENGE_PSCOMPACTIONMANAGER_HPP