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view src/share/vm/gc_implementation/parallelScavenge/psGCAdaptivePolicyCounters.hpp @ 1091:6aa7255741f3

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6906727: UseCompressedOops: some card-marking fixes related to object arrays Summary: Introduced a new write_ref_array(HeapWords* start, size_t count) method that does the requisite MemRegion range calculation so (some of the) clients of the erstwhile write_ref_array(MemRegion mr) do not need to worry. This removed all external uses of array_size(), which was also simplified and made private. Asserts were added to catch other possible issues. Further, less essential, fixes stemming from this investigation are deferred to CR 6904516 (to follow shortly in hs17). Reviewed-by: kvn, coleenp, jmasa
author ysr
date Thu, 03 Dec 2009 15:01:57 -0800
parents a61af66fc99e
children 0bfd3fb24150
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line source

/*
 * Copyright 2003-2005 Sun Microsystems, Inc.  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 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
 * CA 95054 USA or visit www.sun.com if you need additional information or
 * have any questions.
 *
 */

// PSGCAdaptivePolicyCounters is a holder class for performance counters
// that track the data and decisions for the ergonomics policy for the
// parallel scavenge collector.

class PSGCAdaptivePolicyCounters : public GCAdaptivePolicyCounters {
  friend class VMStructs;

 private:
  // survivor space vs. tenuring threshold
  PerfVariable* _old_promo_size;
  PerfVariable* _old_eden_size;
  PerfVariable* _avg_promoted_avg_counter;
  PerfVariable* _avg_promoted_dev_counter;
  PerfVariable* _avg_promoted_padded_avg_counter;
  PerfVariable* _avg_pretenured_padded_avg;

  // young gen vs. old gen sizing
  PerfVariable* _avg_major_pause;
  PerfVariable* _avg_major_interval;
  PerfVariable* _live_space;
  PerfVariable* _free_space;
  PerfVariable* _avg_base_footprint;
  PerfVariable* _gc_time_limit_exceeded;
  PerfVariable* _live_at_last_full_gc;
  PerfVariable* _old_capacity;
  PerfVariable* _boundary_moved;

  PerfVariable* _change_old_gen_for_min_pauses;
  PerfVariable* _change_young_gen_for_maj_pauses_counter;

  PerfVariable* _major_pause_old_slope;
  PerfVariable* _minor_pause_old_slope;
  PerfVariable* _major_pause_young_slope;

  PerfVariable* _scavenge_skipped;
  PerfVariable* _full_follows_scavenge;

  // Use this time stamp if the gc time stamp is not available.
  TimeStamp     _counter_time_stamp;

 protected:
  PSAdaptiveSizePolicy* ps_size_policy() {
    return (PSAdaptiveSizePolicy*)_size_policy;
  }

 public:
  PSGCAdaptivePolicyCounters(const char* name, int collectors, int generations,
                             PSAdaptiveSizePolicy* size_policy);
  inline void update_old_capacity(size_t size_in_bytes) {
    _old_capacity->set_value(size_in_bytes);
  }
  inline void update_old_eden_size(size_t old_size) {
    _old_eden_size->set_value(old_size);
  }
  inline void update_old_promo_size(size_t old_size) {
    _old_promo_size->set_value(old_size);
  }
  inline void update_boundary_moved(int size_in_bytes) {
    _boundary_moved->set_value(size_in_bytes);
  }
  inline void update_avg_promoted_avg() {
    _avg_promoted_avg_counter->set_value(
      (jlong)(ps_size_policy()->avg_promoted()->average())
    );
  }
  inline void update_avg_promoted_dev() {
    _avg_promoted_dev_counter->set_value(
      (jlong)(ps_size_policy()->avg_promoted()->deviation())
    );
  }
  inline void update_avg_promoted_padded_avg() {
    _avg_promoted_padded_avg_counter->set_value(
      (jlong)(ps_size_policy()->avg_promoted()->padded_average())
    );
  }

  inline void update_avg_pretenured_padded_avg() {
    _avg_pretenured_padded_avg->set_value(
      (jlong)(ps_size_policy()->_avg_pretenured->padded_average())
    );
  }
  inline void update_change_young_gen_for_maj_pauses() {
    _change_young_gen_for_maj_pauses_counter->set_value(
      ps_size_policy()->change_young_gen_for_maj_pauses());
  }
  inline void update_change_old_gen_for_min_pauses() {
    _change_old_gen_for_min_pauses->set_value(
      ps_size_policy()->change_old_gen_for_min_pauses());
  }

  // compute_generation_free_space() statistics

  inline void update_avg_major_pause() {
    _avg_major_pause->set_value(
      (jlong)(ps_size_policy()->_avg_major_pause->average() * 1000.0)
    );
  }
  inline void update_avg_major_interval() {
    _avg_major_interval->set_value(
      (jlong)(ps_size_policy()->_avg_major_interval->average() * 1000.0)
    );
  }

  inline void update_major_gc_cost_counter() {
    _major_gc_cost_counter->set_value(
      (jlong)(ps_size_policy()->major_gc_cost() * 100.0)
    );
  }
  inline void update_mutator_cost_counter() {
    _mutator_cost_counter->set_value(
      (jlong)(ps_size_policy()->mutator_cost() * 100.0)
    );
  }

  inline void update_live_space() {
    _live_space->set_value(ps_size_policy()->live_space());
  }
  inline void update_free_space() {
    _free_space->set_value(ps_size_policy()->free_space());
  }

  inline void update_avg_base_footprint() {
    _avg_base_footprint->set_value(
      (jlong)(ps_size_policy()->avg_base_footprint()->average())
    );
  }
  inline void update_avg_old_live() {
    _avg_old_live_counter->set_value(
      (jlong)(ps_size_policy()->avg_old_live()->average())
    );
  }
  // Scale up all the slopes
  inline void update_major_pause_old_slope() {
    _major_pause_old_slope->set_value(
      (jlong)(ps_size_policy()->major_pause_old_slope() * 1000)
    );
  }
  inline void update_minor_pause_old_slope() {
    _minor_pause_old_slope->set_value(
      (jlong)(ps_size_policy()->minor_pause_old_slope() * 1000)
    );
  }
  inline void update_major_pause_young_slope() {
    _major_pause_young_slope->set_value(
      (jlong)(ps_size_policy()->major_pause_young_slope() * 1000)
    );
  }

  inline void update_scavenge_skipped(int cause) {
    _scavenge_skipped->set_value(cause);
  }

  inline void update_full_follows_scavenge(int event) {
    _full_follows_scavenge->set_value(event);
  }

  // Update all the counters that can be updated from the size policy.
  // This should be called after all policy changes have been made
  // and reflected internall in the size policy.
  void update_counters_from_policy();

  // Update counters that can be updated from fields internal to the
  // counter or from globals.  This is distinguished from counters
  // that are updated via input parameters.
  void update_counters();

  virtual GCPolicyCounters::Name kind() const {
    return GCPolicyCounters::PSGCAdaptivePolicyCountersKind;
  }
};