8217330: Split G1CollectionSetChooser into collection set candidate container and the chooser algorithm
Reviewed-by: lkorinth, kbarrett
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#ifndef SHARE_GC_G1_G1COLLECTIONSET_HPP
#define SHARE_GC_G1_G1COLLECTIONSET_HPP
#include "utilities/debug.hpp"
#include "utilities/globalDefinitions.hpp"
class G1CollectedHeap;
class G1CollectionSetCandidates;
class G1CollectorState;
class G1GCPhaseTimes;
class G1ParScanThreadStateSet;
class G1Policy;
class G1SurvivorRegions;
class HeapRegion;
class HeapRegionClosure;
class G1CollectionSet {
G1CollectedHeap* _g1h;
G1Policy* _policy;
// All old gen collection set candidate regions for the current mixed gc phase.
G1CollectionSetCandidates* _candidates;
uint _eden_region_length;
uint _survivor_region_length;
uint _old_region_length;
// The actual collection set as a set of region indices.
// All entries in _collection_set_regions below _collection_set_cur_length are
// assumed to be valid entries.
// We assume that at any time there is at most only one writer and (one or more)
// concurrent readers. This means we are good with using storestore and loadload
// barriers on the writer and reader respectively only.
uint* _collection_set_regions;
volatile size_t _collection_set_cur_length;
size_t _collection_set_max_length;
// When doing mixed collections we can add old regions to the collection, which
// can be collected if there is enough time. We call these optional regions and
// the pointer to these regions are stored in the array below.
HeapRegion** _optional_regions;
uint _optional_region_length;
uint _optional_region_max_length;
// The number of bytes in the collection set before the pause. Set from
// the incrementally built collection set at the start of an evacuation
// pause, and incremented in finalize_old_part() when adding old regions
// (if any) to the collection set.
size_t _bytes_used_before;
size_t _recorded_rs_lengths;
// The associated information that is maintained while the incremental
// collection set is being built with young regions. Used to populate
// the recorded info for the evacuation pause.
enum CSetBuildType {
Active, // We are actively building the collection set
Inactive // We are not actively building the collection set
};
CSetBuildType _inc_build_state;
// The number of bytes in the incrementally built collection set.
// Used to set _collection_set_bytes_used_before at the start of
// an evacuation pause.
size_t _inc_bytes_used_before;
// The RSet lengths recorded for regions in the CSet. It is updated
// by the thread that adds a new region to the CSet. We assume that
// only one thread can be allocating a new CSet region (currently,
// it does so after taking the Heap_lock) hence no need to
// synchronize updates to this field.
size_t _inc_recorded_rs_lengths;
// A concurrent refinement thread periodically samples the young
// region RSets and needs to update _inc_recorded_rs_lengths as
// the RSets grow. Instead of having to synchronize updates to that
// field we accumulate them in this field and add it to
// _inc_recorded_rs_lengths_diffs at the start of a GC.
ssize_t _inc_recorded_rs_lengths_diffs;
// The predicted elapsed time it will take to collect the regions in
// the CSet. This is updated by the thread that adds a new region to
// the CSet. See the comment for _inc_recorded_rs_lengths about
// MT-safety assumptions.
double _inc_predicted_elapsed_time_ms;
// See the comment for _inc_recorded_rs_lengths_diffs.
double _inc_predicted_elapsed_time_ms_diffs;
G1CollectorState* collector_state();
G1GCPhaseTimes* phase_times();
void verify_young_cset_indices() const NOT_DEBUG_RETURN;
void add_as_optional(HeapRegion* hr);
void add_as_old(HeapRegion* hr);
bool optional_is_full();
public:
G1CollectionSet(G1CollectedHeap* g1h, G1Policy* policy);
~G1CollectionSet();
// Initializes the collection set giving the maximum possible length of the collection set.
void initialize(uint max_region_length);
void initialize_optional(uint max_length);
void free_optional_regions();
void clear_candidates();
void set_candidates(G1CollectionSetCandidates* candidates) {
assert(_candidates == NULL, "Trying to replace collection set candidates.");
_candidates = candidates;
}
G1CollectionSetCandidates* candidates() { return _candidates; }
void init_region_lengths(uint eden_cset_region_length,
uint survivor_cset_region_length);
void set_recorded_rs_lengths(size_t rs_lengths);
uint region_length() const { return young_region_length() +
old_region_length(); }
uint young_region_length() const { return eden_region_length() +
survivor_region_length(); }
uint eden_region_length() const { return _eden_region_length; }
uint survivor_region_length() const { return _survivor_region_length; }
uint old_region_length() const { return _old_region_length; }
uint optional_region_length() const { return _optional_region_length; }
// Incremental collection set support
// Initialize incremental collection set info.
void start_incremental_building();
// Perform any final calculations on the incremental collection set fields
// before we can use them.
void finalize_incremental_building();
// Reset the contents of the collection set.
void clear();
// Iterate over the collection set, applying the given HeapRegionClosure on all of them.
// If may_be_aborted is true, iteration may be aborted using the return value of the
// called closure method.
void iterate(HeapRegionClosure* cl) const;
// Iterate over the collection set, applying the given HeapRegionClosure on all of them,
// trying to optimally spread out starting position of total_workers workers given the
// caller's worker_id.
void iterate_from(HeapRegionClosure* cl, uint worker_id, uint total_workers) const;
// Stop adding regions to the incremental collection set.
void stop_incremental_building() { _inc_build_state = Inactive; }
size_t recorded_rs_lengths() { return _recorded_rs_lengths; }
size_t bytes_used_before() const {
return _bytes_used_before;
}
void reset_bytes_used_before() {
_bytes_used_before = 0;
}
// Choose a new collection set. Marks the chosen regions as being
// "in_collection_set".
double finalize_young_part(double target_pause_time_ms, G1SurvivorRegions* survivors);
void finalize_old_part(double time_remaining_ms);
// Add old region "hr" to the collection set.
void add_old_region(HeapRegion* hr);
// Add old region "hr" to optional collection set.
void add_optional_region(HeapRegion* hr);
// Update information about hr in the aggregated information for
// the incrementally built collection set.
void update_young_region_prediction(HeapRegion* hr, size_t new_rs_length);
// Add eden region to the collection set.
void add_eden_region(HeapRegion* hr);
// Add survivor region to the collection set.
void add_survivor_regions(HeapRegion* hr);
#ifndef PRODUCT
bool verify_young_ages();
void print(outputStream* st);
#endif // !PRODUCT
double predict_region_elapsed_time_ms(HeapRegion* hr);
void clear_optional_region(const HeapRegion* hr);
HeapRegion* optional_region_at(uint i) const {
assert(_optional_regions != NULL, "Not yet initialized");
assert(i < _optional_region_length, "index %u out of bounds (%u)", i, _optional_region_length);
return _optional_regions[i];
}
HeapRegion* remove_last_optional_region() {
assert(_optional_regions != NULL, "Not yet initialized");
assert(_optional_region_length != 0, "No region to remove");
_optional_region_length--;
HeapRegion* removed = _optional_regions[_optional_region_length];
_optional_regions[_optional_region_length] = NULL;
return removed;
}
private:
// Update the incremental collection set information when adding a region.
void add_young_region_common(HeapRegion* hr);
};
// Helper class to manage the optional regions in a Mixed collection.
class G1OptionalCSet : public StackObj {
private:
G1CollectionSet* _cset;
G1ParScanThreadStateSet* _pset;
uint _current_index;
uint _current_limit;
bool _prepare_failed;
bool _evacuation_failed;
void prepare_to_evacuate_optional_region(HeapRegion* hr);
public:
static const uint InvalidCSetIndex = UINT_MAX;
G1OptionalCSet(G1CollectionSet* cset, G1ParScanThreadStateSet* pset) :
_cset(cset),
_pset(pset),
_current_index(0),
_current_limit(0),
_prepare_failed(false),
_evacuation_failed(false) { }
// The destructor returns regions to the collection set candidates set and
// frees the optional structure in the collection set.
~G1OptionalCSet();
uint current_index() { return _current_index; }
uint current_limit() { return _current_limit; }
uint size();
bool is_empty();
HeapRegion* region_at(uint index);
// Prepare a set of regions for optional evacuation.
void prepare_evacuation(double time_left_ms);
bool prepare_failed();
// Complete the evacuation of the previously prepared
// regions by updating their state and check for failures.
void complete_evacuation();
bool evacuation_failed();
};
#endif // SHARE_GC_G1_G1COLLECTIONSET_HPP