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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#ifndef SHARE_VM_GC_G1_COLLECTIONSETCHOOSER_HPP
#define SHARE_VM_GC_G1_COLLECTIONSETCHOOSER_HPP
#include "gc/g1/heapRegion.hpp"
#include "utilities/growableArray.hpp"
class CollectionSetChooser: public CHeapObj<mtGC> {
GrowableArray<HeapRegion*> _regions;
// Unfortunately, GrowableArray uses ints for length and indexes. To
// avoid excessive casting in the rest of the class the following
// wrapper methods are provided that use uints.
uint regions_length() { return (uint) _regions.length(); }
HeapRegion* regions_at(uint i) { return _regions.at((int) i); }
void regions_at_put(uint i, HeapRegion* hr) {
_regions.at_put((int) i, hr);
}
void regions_at_put_grow(uint i, HeapRegion* hr) {
_regions.at_put_grow((int) i, hr);
}
void regions_trunc_to(uint i) { _regions.trunc_to((uint) i); }
// The index of the next candidate old region to be considered for
// addition to the CSet.
uint _front;
// The index of the last candidate old region
uint _end;
// Keeps track of the start of the next array chunk to be claimed by
// parallel GC workers.
uint _first_par_unreserved_idx;
// If a region has more live bytes than this threshold, it will not
// be added to the CSet chooser and will not be a candidate for
// collection.
size_t _region_live_threshold_bytes;
// The sum of reclaimable bytes over all the regions in the CSet chooser.
size_t _remaining_reclaimable_bytes;
// Calculate and return chunk size (in number of regions) for parallel
// addition of regions
uint calculate_parallel_work_chunk_size(uint n_workers, uint n_regions) const;
public:
// Return the current candidate region to be considered for
// collection without removing it from the CSet chooser.
HeapRegion* peek() {
HeapRegion* res = NULL;
if (_front < _end) {
res = regions_at(_front);
assert(res != NULL, "Unexpected NULL hr in _regions at index %u", _front);
}
return res;
}
// Remove the given region from the CSet chooser and move to the
// next one.
HeapRegion* pop() {
HeapRegion* hr = regions_at(_front);
assert(hr != NULL, "pre-condition");
assert(_front < _end, "pre-condition");
regions_at_put(_front, NULL);
assert(hr->reclaimable_bytes() <= _remaining_reclaimable_bytes,
"remaining reclaimable bytes inconsistent "
"from region: " SIZE_FORMAT " remaining: " SIZE_FORMAT,
hr->reclaimable_bytes(), _remaining_reclaimable_bytes);
_remaining_reclaimable_bytes -= hr->reclaimable_bytes();
_front += 1;
return hr;
}
void push(HeapRegion* hr);
CollectionSetChooser();
static size_t mixed_gc_live_threshold_bytes() {
return HeapRegion::GrainBytes * (size_t) G1MixedGCLiveThresholdPercent / 100;
}
static bool region_occupancy_low_enough_for_evac(size_t live_bytes);
void sort_regions();
// Determine whether to add the given region to the CSet chooser or
// not. Currently, we skip pinned regions and regions whose live
// bytes are over the threshold. Humongous regions may be reclaimed during cleanup.
// Regions also need a complete remembered set to be a candidate.
bool should_add(HeapRegion* hr) const;
// Returns the number candidate old regions added
uint length() { return _end; }
// Serial version.
void add_region(HeapRegion *hr);
// Must be called before calls to claim_array_chunk().
// n_regions is the number of regions, chunk_size the chunk size.
void prepare_for_par_region_addition(uint n_threads, uint n_regions, uint chunk_size);
// Returns the first index in a contiguous chunk of chunk_size indexes
// that the calling thread has reserved. These must be set by the
// calling thread using set_region() (to NULL if necessary).
uint claim_array_chunk(uint chunk_size);
// Set the marked array entry at index to hr. Careful to claim the index
// first if in parallel.
void set_region(uint index, HeapRegion* hr);
// Atomically increment the number of added regions by region_num
// and the amount of reclaimable bytes by reclaimable_bytes.
void update_totals(uint region_num, size_t reclaimable_bytes);
// Iterate over all collection set candidate regions.
void iterate(HeapRegionClosure* cl);
void clear();
void rebuild(WorkGang* workers, uint n_regions);
// Return the number of candidate regions that remain to be collected.
uint remaining_regions() { return _end - _front; }
// Determine whether the CSet chooser has more candidate regions or not.
bool is_empty() { return remaining_regions() == 0; }
// Return the reclaimable bytes that remain to be collected on
// all the candidate regions in the CSet chooser.
size_t remaining_reclaimable_bytes() { return _remaining_reclaimable_bytes; }
// Returns true if the used portion of "_regions" is properly
// sorted, otherwise asserts false.
void verify() PRODUCT_RETURN;
};
class CSetChooserParUpdater : public StackObj {
private:
CollectionSetChooser* _chooser;
bool _parallel;
uint _chunk_size;
uint _cur_chunk_idx;
uint _cur_chunk_end;
uint _regions_added;
size_t _reclaimable_bytes_added;
public:
CSetChooserParUpdater(CollectionSetChooser* chooser,
bool parallel, uint chunk_size) :
_chooser(chooser), _parallel(parallel), _chunk_size(chunk_size),
_cur_chunk_idx(0), _cur_chunk_end(0),
_regions_added(0), _reclaimable_bytes_added(0) { }
~CSetChooserParUpdater() {
if (_parallel && _regions_added > 0) {
_chooser->update_totals(_regions_added, _reclaimable_bytes_added);
}
}
void add_region(HeapRegion* hr) {
if (_parallel) {
if (_cur_chunk_idx == _cur_chunk_end) {
_cur_chunk_idx = _chooser->claim_array_chunk(_chunk_size);
_cur_chunk_end = _cur_chunk_idx + _chunk_size;
}
assert(_cur_chunk_idx < _cur_chunk_end, "invariant");
_chooser->set_region(_cur_chunk_idx, hr);
_cur_chunk_idx += 1;
} else {
_chooser->add_region(hr);
}
_regions_added += 1;
_reclaimable_bytes_added += hr->reclaimable_bytes();
}
bool should_add(HeapRegion* hr) { return _chooser->should_add(hr); }
};
#endif // SHARE_VM_GC_G1_COLLECTIONSETCHOOSER_HPP