jdk-sandbox: comparison hotspot/src/share/vm/gc_implementation/concurrentMarkSweep/cmsAdaptiveSizePolicy.hpp

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-/*
-* Copyright (c) 2004, 2013, Oracle and/or its affiliates. All rights reserved.
-* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
-*
-* This code is free software; you can redistribute it and/or modify it
-* under the terms of the GNU General Public License version 2 only, as
-* published by the Free Software Foundation.
-*
-* This code is distributed in the hope that it will be useful, but WITHOUT
-* 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).
-*
-* You should have received a copy of the GNU General Public License version
-* 2 along with this work; if not, write to the Free Software Foundation,
-* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
-*
-* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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-* questions.
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-*/
-#ifndef SHARE_VM_GC_IMPLEMENTATION_CONCURRENTMARKSWEEP_CMSADAPTIVESIZEPOLICY_HPP
-#define SHARE_VM_GC_IMPLEMENTATION_CONCURRENTMARKSWEEP_CMSADAPTIVESIZEPOLICY_HPP
-#include "gc_implementation/shared/adaptiveSizePolicy.hpp"
-#include "runtime/timer.hpp"
-// This class keeps statistical information and computes the
-// size of the heap for the concurrent mark sweep collector.
-//
-// Cost for garbage collector include cost for
-//   minor collection
-//   concurrent collection
-//      stop-the-world component
-//      concurrent component
-//   major compacting collection
-//      uses decaying cost
-// Forward decls
-class elapsedTimer;
-class CMSAdaptiveSizePolicy : public AdaptiveSizePolicy {
-friend class CMSGCAdaptivePolicyCounters;
-friend class CMSCollector;
-private:
-// Total number of processors available
-int _processor_count;
-// Number of processors used by the concurrent phases of GC
-// This number is assumed to be the same for all concurrent
-// phases.
-int _concurrent_processor_count;
-// Time that the mutators run exclusive of a particular
-// phase.  For example, the time the mutators run excluding
-// the time during which the cms collector runs concurrently
-// with the mutators.
-//   Between end of most recent cms reset and start of initial mark
-// This may be redundant
-double _latest_cms_reset_end_to_initial_mark_start_secs;
-//   Between end of the most recent initial mark and start of remark
-double _latest_cms_initial_mark_end_to_remark_start_secs;
-//   Between end of most recent collection and start of
-//   a concurrent collection
-double _latest_cms_collection_end_to_collection_start_secs;
-//   Times of the concurrent phases of the most recent
-//   concurrent collection
-double _latest_cms_concurrent_marking_time_secs;
-double _latest_cms_concurrent_precleaning_time_secs;
-double _latest_cms_concurrent_sweeping_time_secs;
-//   Between end of most recent STW MSC and start of next STW MSC
-double _latest_cms_msc_end_to_msc_start_time_secs;
-//   Between end of most recent MS and start of next MS
-//   This does not include any time spent during a concurrent
-// collection.
-double _latest_cms_ms_end_to_ms_start;
-//   Between start and end of the initial mark of the most recent
-// concurrent collection.
-double _latest_cms_initial_mark_start_to_end_time_secs;
-//   Between start and end of the remark phase of the most recent
-// concurrent collection
-double _latest_cms_remark_start_to_end_time_secs;
-//   Between start and end of the most recent MS STW marking phase
-double _latest_cms_ms_marking_start_to_end_time_secs;
-// Pause time timers
-static elapsedTimer _STW_timer;
-// Concurrent collection timer.  Used for total of all concurrent phases
-// during 1 collection cycle.
-static elapsedTimer _concurrent_timer;
-// When the size of the generation is changed, the size
-// of the change will rounded up or down (depending on the
-// type of change) by this value.
-size_t _generation_alignment;
-// If this variable is true, the size of the young generation
-// may be changed in order to reduce the pause(s) of the
-// collection of the tenured generation in order to meet the
-// pause time goal.  It is common to change the size of the
-// tenured generation in order to meet the pause time goal
-// for the tenured generation.  With the CMS collector for
-// the tenured generation, the size of the young generation
-// can have an significant affect on the pause times for collecting the
-// tenured generation.
-// This is a duplicate of a variable in PSAdaptiveSizePolicy.  It
-// is duplicated because it is not clear that it is general enough
-// to go into AdaptiveSizePolicy.
-int _change_young_gen_for_maj_pauses;
-// Variable that is set to true after a collection.
-bool _first_after_collection;
-// Fraction of collections that are of each type
-double concurrent_fraction() const;
-double STW_msc_fraction() const;
-double STW_ms_fraction() const;
-// This call cannot be put into the epilogue as long as some
-// of the counters can be set during concurrent phases.
-virtual void clear_generation_free_space_flags();
-void set_first_after_collection() { _first_after_collection = true; }
-protected:
-// Average of the sum of the concurrent times for
-// one collection in seconds.
-AdaptiveWeightedAverage* _avg_concurrent_time;
-// Average time between concurrent collections in seconds.
-AdaptiveWeightedAverage* _avg_concurrent_interval;
-// Average cost of the concurrent part of a collection
-// in seconds.
-AdaptiveWeightedAverage* _avg_concurrent_gc_cost;
-// Average of the initial pause of a concurrent collection in seconds.
-AdaptivePaddedAverage* _avg_initial_pause;
-// Average of the remark pause of a concurrent collection in seconds.
-AdaptivePaddedAverage* _avg_remark_pause;
-// Average of the stop-the-world (STW) (initial mark + remark)
-// times in seconds for concurrent collections.
-AdaptiveWeightedAverage* _avg_cms_STW_time;
-// Average of the STW collection cost for concurrent collections.
-AdaptiveWeightedAverage* _avg_cms_STW_gc_cost;
-// Average of the bytes free at the start of the sweep.
-AdaptiveWeightedAverage* _avg_cms_free_at_sweep;
-// Average of the bytes free at the end of the collection.
-AdaptiveWeightedAverage* _avg_cms_free;
-// Average of the bytes promoted between cms collections.
-AdaptiveWeightedAverage* _avg_cms_promo;
-// stop-the-world (STW) mark-sweep-compact
-// Average of the pause time in seconds for STW mark-sweep-compact
-// collections.
-AdaptiveWeightedAverage* _avg_msc_pause;
-// Average of the interval in seconds between STW mark-sweep-compact
-// collections.
-AdaptiveWeightedAverage* _avg_msc_interval;
-// Average of the collection costs for STW mark-sweep-compact
-// collections.
-AdaptiveWeightedAverage* _avg_msc_gc_cost;
-// Averages for mark-sweep collections.
-// The collection may have started as a background collection
-// that completes in a stop-the-world (STW) collection.
-// Average of the pause time in seconds for mark-sweep
-// collections.
-AdaptiveWeightedAverage* _avg_ms_pause;
-// Average of the interval in seconds between mark-sweep
-// collections.
-AdaptiveWeightedAverage* _avg_ms_interval;
-// Average of the collection costs for mark-sweep
-// collections.
-AdaptiveWeightedAverage* _avg_ms_gc_cost;
-// These variables contain a linear fit of
-// a generation size as the independent variable
-// and a pause time as the dependent variable.
-// For example _remark_pause_old_estimator
-// is a fit of the old generation size as the
-// independent variable and the remark pause
-// as the dependent variable.
-//   remark pause time vs. cms gen size
-LinearLeastSquareFit* _remark_pause_old_estimator;
-//   initial pause time vs. cms gen size
-LinearLeastSquareFit* _initial_pause_old_estimator;
-//   remark pause time vs. young gen size
-LinearLeastSquareFit* _remark_pause_young_estimator;
-//   initial pause time vs. young gen size
-LinearLeastSquareFit* _initial_pause_young_estimator;
-// Accessors
-int processor_count() const { return _processor_count; }
-int concurrent_processor_count() const { return _concurrent_processor_count; }
-AdaptiveWeightedAverage* avg_concurrent_time() const {
-return _avg_concurrent_time;
-}
-AdaptiveWeightedAverage* avg_concurrent_interval() const {
-return _avg_concurrent_interval;
-}
-AdaptiveWeightedAverage* avg_concurrent_gc_cost() const {
-return _avg_concurrent_gc_cost;
-}
-AdaptiveWeightedAverage* avg_cms_STW_time() const {
-return _avg_cms_STW_time;
-}
-AdaptiveWeightedAverage* avg_cms_STW_gc_cost() const {
-return _avg_cms_STW_gc_cost;
-}
-AdaptivePaddedAverage* avg_initial_pause() const {
-return _avg_initial_pause;
-}
-AdaptivePaddedAverage* avg_remark_pause() const {
-return _avg_remark_pause;
-}
-AdaptiveWeightedAverage* avg_cms_free() const {
-return _avg_cms_free;
-}
-AdaptiveWeightedAverage* avg_cms_free_at_sweep() const {
-return _avg_cms_free_at_sweep;
-}
-AdaptiveWeightedAverage* avg_msc_pause() const {
-return _avg_msc_pause;
-}
-AdaptiveWeightedAverage* avg_msc_interval() const {
-return _avg_msc_interval;
-}
-AdaptiveWeightedAverage* avg_msc_gc_cost() const {
-return _avg_msc_gc_cost;
-}
-AdaptiveWeightedAverage* avg_ms_pause() const {
-return _avg_ms_pause;
-}
-AdaptiveWeightedAverage* avg_ms_interval() const {
-return _avg_ms_interval;
-}
-AdaptiveWeightedAverage* avg_ms_gc_cost() const {
-return _avg_ms_gc_cost;
-}
-LinearLeastSquareFit* remark_pause_old_estimator() {
-return _remark_pause_old_estimator;
-}
-LinearLeastSquareFit* initial_pause_old_estimator() {
-return _initial_pause_old_estimator;
-}
-LinearLeastSquareFit* remark_pause_young_estimator() {
-return _remark_pause_young_estimator;
-}
-LinearLeastSquareFit* initial_pause_young_estimator() {
-return _initial_pause_young_estimator;
-}
-// These *slope() methods return the slope
-// m for the linear fit of an independent
-// variable vs. a dependent variable.  For
-// example
-//  remark_pause = m * old_generation_size + c
-// These may be used to determine if an
-// adjustment should be made to achieve a goal.
-// For example, if remark_pause_old_slope() is
-// positive, a reduction of the old generation
-// size has on average resulted in the reduction
-// of the remark pause.
-float remark_pause_old_slope() {
-return _remark_pause_old_estimator->slope();
-}
-float initial_pause_old_slope() {
-return _initial_pause_old_estimator->slope();
-}
-float remark_pause_young_slope() {
-return _remark_pause_young_estimator->slope();
-}
-float initial_pause_young_slope() {
-return _initial_pause_young_estimator->slope();
-}
-// Update estimators
-void update_minor_pause_old_estimator(double minor_pause_in_ms);
-// Fraction of processors used by the concurrent phases.
-double concurrent_processor_fraction();
-// Returns the total times for the concurrent part of the
-// latest collection in seconds.
-double concurrent_collection_time();
-// Return the total times for the concurrent part of the
-// latest collection in seconds where the times of the various
-// concurrent phases are scaled by the processor fraction used
-// during the phase.
-double scaled_concurrent_collection_time();
-// Dimensionless concurrent GC cost for all the concurrent phases.
-double concurrent_collection_cost(double interval_in_seconds);
-// Dimensionless GC cost
-double collection_cost(double pause_in_seconds, double interval_in_seconds);
-virtual GCPolicyKind kind() const { return _gc_cms_adaptive_size_policy; }
-virtual double time_since_major_gc() const;
-// This returns the maximum average for the concurrent, ms, and
-// msc collections.  This is meant to be used for the calculation
-// of the decayed major gc cost and is not in general the
-// average of all the different types of major collections.
-virtual double major_gc_interval_average_for_decay() const;
-public:
-CMSAdaptiveSizePolicy(size_t init_eden_size,
-size_t init_promo_size,
-size_t init_survivor_size,
-double max_gc_minor_pause_sec,
-double max_gc_pause_sec,
-uint gc_cost_ratio);
-// The timers for the stop-the-world phases measure a total
-// stop-the-world time.  The timer is started and stopped
-// for each phase but is only reset after the final checkpoint.
-void checkpoint_roots_initial_begin();
-void checkpoint_roots_initial_end(GCCause::Cause gc_cause);
-void checkpoint_roots_final_begin();
-void checkpoint_roots_final_end(GCCause::Cause gc_cause);
-// Methods for gathering information about the
-// concurrent marking phase of the collection.
-// Records the mutator times and
-// resets the concurrent timer.
-void concurrent_marking_begin();
-// Resets concurrent phase timer in the begin methods and
-// saves the time for a phase in the end methods.
-void concurrent_marking_end();
-void concurrent_sweeping_begin();
-void concurrent_sweeping_end();
-// Similar to the above (e.g., concurrent_marking_end()) and
-// is used for both the precleaning an abortable precleaning
-// phases.
-void concurrent_precleaning_begin();
-void concurrent_precleaning_end();
-// Stops the concurrent phases time.  Gathers
-// information and resets the timer.
-void concurrent_phases_end(GCCause::Cause gc_cause,
-size_t cur_eden,
-size_t cur_promo);
-// Methods for gather information about STW Mark-Sweep-Compact
-void msc_collection_begin();
-void msc_collection_end(GCCause::Cause gc_cause);
-// Methods for gather information about Mark-Sweep done
-// in the foreground.
-void ms_collection_begin();
-void ms_collection_end(GCCause::Cause gc_cause);
-// Cost for a mark-sweep tenured gen collection done in the foreground
-double ms_gc_cost() const {
-return MAX2(0.0F, _avg_ms_gc_cost->average());
-}
-// Cost of collecting the tenured generation.  Includes
-// concurrent collection and STW collection costs
-double cms_gc_cost() const;
-// Cost of STW mark-sweep-compact tenured gen collection.
-double msc_gc_cost() const {
-return MAX2(0.0F, _avg_msc_gc_cost->average());
-}
-//
-double compacting_gc_cost() const {
-double result = MIN2(1.0, minor_gc_cost() + msc_gc_cost());
-assert(result >= 0.0, "Both minor and major costs are non-negative");
-return result;
-}
-// Restarts the concurrent phases timer.
-void concurrent_phases_resume();
-// Time beginning and end of the marking phase for
-// a synchronous MS collection.  A MS collection
-// that finishes in the foreground can have started
-// in the background.  These methods capture the
-// completion of the marking (after the initial
-// marking) that is done in the foreground.
-void ms_collection_marking_begin();
-void ms_collection_marking_end(GCCause::Cause gc_cause);
-static elapsedTimer* concurrent_timer_ptr() {
-return &_concurrent_timer;
-}
-AdaptiveWeightedAverage* avg_cms_promo() const {
-return _avg_cms_promo;
-}
-int change_young_gen_for_maj_pauses() {
-return _change_young_gen_for_maj_pauses;
-}
-void set_change_young_gen_for_maj_pauses(int v) {
-_change_young_gen_for_maj_pauses = v;
-}
-void clear_internal_time_intervals();
-// Either calculated_promo_size_in_bytes() or promo_size()
-// should be deleted.
-size_t promo_size() { return _promo_size; }
-void set_promo_size(size_t v) { _promo_size = v; }
-// Cost of GC for all types of collections.
-virtual double gc_cost() const;
-size_t generation_alignment() { return _generation_alignment; }
-virtual void compute_eden_space_size(size_t cur_eden,
-size_t max_eden_size);
-// Calculates new survivor space size;  returns a new tenuring threshold
-// value. Stores new survivor size in _survivor_size.
-virtual uint compute_survivor_space_size_and_threshold(
-bool   is_survivor_overflow,
-uint   tenuring_threshold,
-size_t survivor_limit);
-virtual void compute_tenured_generation_free_space(size_t cur_tenured_free,
-size_t max_tenured_available,
-size_t cur_eden);
-size_t eden_decrement_aligned_down(size_t cur_eden);
-size_t eden_increment_aligned_up(size_t cur_eden);
-size_t adjust_eden_for_pause_time(size_t cur_eden);
-size_t adjust_eden_for_throughput(size_t cur_eden);
-size_t adjust_eden_for_footprint(size_t cur_eden);
-size_t promo_decrement_aligned_down(size_t cur_promo);
-size_t promo_increment_aligned_up(size_t cur_promo);
-size_t adjust_promo_for_pause_time(size_t cur_promo);
-size_t adjust_promo_for_throughput(size_t cur_promo);
-size_t adjust_promo_for_footprint(size_t cur_promo, size_t cur_eden);
-// Scale down the input size by the ratio of the cost to collect the
-// generation to the total GC cost.
-size_t scale_by_gen_gc_cost(size_t base_change, double gen_gc_cost);
-// Return the value and clear it.
-bool get_and_clear_first_after_collection();
-// Printing support
-virtual bool print_adaptive_size_policy_on(outputStream* st) const;
-};
-#endif // SHARE_VM_GC_IMPLEMENTATION_CONCURRENTMARKSWEEP_CMSADAPTIVESIZEPOLICY_HPP

changeset 26016	d2c378099a3d
parent 26015	627f46c41588
parent 25794	f8fcbb8737be
child 26017	4d9ac57cd697