src/share/vm/gc_implementation/g1/g1GCPhaseTimes.cpp - toolchain/jdk/jdk9_hotspot - Git at Google

 /*
  * Copyright (c) 2013, 2014 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
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  *
  */


 #include "precompiled.hpp"
 #include "gc_implementation/g1/g1CollectedHeap.inline.hpp"
 #include "gc_implementation/g1/g1GCPhaseTimes.hpp"
 #include "gc_implementation/g1/g1Log.hpp"
 #include "gc_implementation/g1/g1StringDedup.hpp"
 #include "runtime/atomic.inline.hpp"

 // Helper class for avoiding interleaved logging
 class LineBuffer: public StackObj {

 private:
   static const int BUFFER_LEN = 1024;
   static const int INDENT_CHARS = 3;
   char _buffer[BUFFER_LEN];
   int _indent_level;
   int _cur;

   void vappend(const char* format, va_list ap)  ATTRIBUTE_PRINTF(2, 0) {
     int res = vsnprintf(&_buffer[_cur], BUFFER_LEN - _cur, format, ap);
     if (res != -1) {
       _cur += res;
     } else {
       DEBUG_ONLY(warning("buffer too small in LineBuffer");)
       _buffer[BUFFER_LEN -1] = 0;
       _cur = BUFFER_LEN; // vsnprintf above should not add to _buffer if we are called again
     }
   }

 public:
   explicit LineBuffer(int indent_level): _indent_level(indent_level), _cur(0) {
     for (; (_cur < BUFFER_LEN && _cur < (_indent_level * INDENT_CHARS)); _cur++) {
       _buffer[_cur] = ' ';
     }
   }

 #ifndef PRODUCT
   ~LineBuffer() {
     assert(_cur == _indent_level * INDENT_CHARS, "pending data in buffer - append_and_print_cr() not called?");
   }
 #endif

   void append(const char* format, ...)  ATTRIBUTE_PRINTF(2, 3) {
     va_list ap;
     va_start(ap, format);
     vappend(format, ap);
     va_end(ap);
   }

   void append_and_print_cr(const char* format, ...)  ATTRIBUTE_PRINTF(2, 3) {
     va_list ap;
     va_start(ap, format);
     vappend(format, ap);
     va_end(ap);
     gclog_or_tty->print_cr("%s", _buffer);
     _cur = _indent_level * INDENT_CHARS;
   }
 };

 PRAGMA_DIAG_PUSH
 PRAGMA_FORMAT_NONLITERAL_IGNORED
 template <class T>
 void WorkerDataArray<T>::print(int level, const char* title) {
   if (_length == 1) {
     // No need for min, max, average and sum for only one worker
     LineBuffer buf(level);
     buf.append("[%s:  ", title);
     buf.append(_print_format, _data[0]);
     buf.append_and_print_cr("]");
     return;
   }

   T min = _data[0];
   T max = _data[0];
   T sum = 0;

   LineBuffer buf(level);
   buf.append("[%s:", title);
   for (uint i = 0; i < _length; ++i) {
     T val = _data[i];
     min = MIN2(val, min);
     max = MAX2(val, max);
     sum += val;
     if (G1Log::finest()) {
       buf.append("  ");
       buf.append(_print_format, val);
     }
   }

   if (G1Log::finest()) {
     buf.append_and_print_cr("%s", "");
   }

   double avg = (double)sum / (double)_length;
   buf.append(" Min: ");
   buf.append(_print_format, min);
   buf.append(", Avg: ");
   buf.append("%.1lf", avg); // Always print average as a double
   buf.append(", Max: ");
   buf.append(_print_format, max);
   buf.append(", Diff: ");
   buf.append(_print_format, max - min);
   if (_print_sum) {
     // for things like the start and end times the sum is not
     // that relevant
     buf.append(", Sum: ");
     buf.append(_print_format, sum);
   }
   buf.append_and_print_cr("]");
 }
 PRAGMA_DIAG_POP

 #ifndef PRODUCT

 template <> const int WorkerDataArray<int>::_uninitialized = -1;
 template <> const double WorkerDataArray<double>::_uninitialized = -1.0;
 template <> const size_t WorkerDataArray<size_t>::_uninitialized = (size_t)-1;

 template <class T>
 void WorkerDataArray<T>::reset() {
   for (uint i = 0; i < _length; i++) {
     _data[i] = (T)_uninitialized;
   }
 }

 template <class T>
 void WorkerDataArray<T>::verify() {
   for (uint i = 0; i < _length; i++) {
     assert(_data[i] != _uninitialized,
         err_msg("Invalid data for worker %u, data: %lf, uninitialized: %lf",
             i, (double)_data[i], (double)_uninitialized));
   }
 }

 #endif

 G1GCPhaseTimes::G1GCPhaseTimes(uint max_gc_threads) :
   _max_gc_threads(max_gc_threads),
   _last_gc_worker_start_times_ms(_max_gc_threads, "%.1lf", false),
   _last_ext_root_scan_times_ms(_max_gc_threads, "%.1lf"),
   _last_satb_filtering_times_ms(_max_gc_threads, "%.1lf"),
   _last_update_rs_times_ms(_max_gc_threads, "%.1lf"),
   _last_update_rs_processed_buffers(_max_gc_threads, "%d"),
   _last_scan_rs_times_ms(_max_gc_threads, "%.1lf"),
   _last_strong_code_root_scan_times_ms(_max_gc_threads, "%.1lf"),
   _last_obj_copy_times_ms(_max_gc_threads, "%.1lf"),
   _last_termination_times_ms(_max_gc_threads, "%.1lf"),
   _last_termination_attempts(_max_gc_threads, SIZE_FORMAT),
   _last_gc_worker_end_times_ms(_max_gc_threads, "%.1lf", false),
   _last_gc_worker_times_ms(_max_gc_threads, "%.1lf"),
   _last_gc_worker_other_times_ms(_max_gc_threads, "%.1lf"),
   _last_redirty_logged_cards_time_ms(_max_gc_threads, "%.1lf"),
   _last_redirty_logged_cards_processed_cards(_max_gc_threads, SIZE_FORMAT),
   _cur_string_dedup_queue_fixup_worker_times_ms(_max_gc_threads, "%.1lf"),
   _cur_string_dedup_table_fixup_worker_times_ms(_max_gc_threads, "%.1lf")
 {
   assert(max_gc_threads > 0, "Must have some GC threads");
 }

 void G1GCPhaseTimes::note_gc_start(uint active_gc_threads) {
   assert(active_gc_threads > 0, "The number of threads must be > 0");
   assert(active_gc_threads <= _max_gc_threads, "The number of active threads must be <= the max nubmer of threads");
   _active_gc_threads = active_gc_threads;

   _last_gc_worker_start_times_ms.reset();
   _last_ext_root_scan_times_ms.reset();
   _last_satb_filtering_times_ms.reset();
   _last_update_rs_times_ms.reset();
   _last_update_rs_processed_buffers.reset();
   _last_scan_rs_times_ms.reset();
   _last_strong_code_root_scan_times_ms.reset();
   _last_obj_copy_times_ms.reset();
   _last_termination_times_ms.reset();
   _last_termination_attempts.reset();
   _last_gc_worker_end_times_ms.reset();
   _last_gc_worker_times_ms.reset();
   _last_gc_worker_other_times_ms.reset();

   _last_redirty_logged_cards_time_ms.reset();
   _last_redirty_logged_cards_processed_cards.reset();

 }

 void G1GCPhaseTimes::note_gc_end() {
   _last_gc_worker_start_times_ms.verify();
   _last_ext_root_scan_times_ms.verify();
   _last_satb_filtering_times_ms.verify();
   _last_update_rs_times_ms.verify();
   _last_update_rs_processed_buffers.verify();
   _last_scan_rs_times_ms.verify();
   _last_strong_code_root_scan_times_ms.verify();
   _last_obj_copy_times_ms.verify();
   _last_termination_times_ms.verify();
   _last_termination_attempts.verify();
   _last_gc_worker_end_times_ms.verify();

   for (uint i = 0; i < _active_gc_threads; i++) {
     double worker_time = _last_gc_worker_end_times_ms.get(i) - _last_gc_worker_start_times_ms.get(i);
     _last_gc_worker_times_ms.set(i, worker_time);

     double worker_known_time = _last_ext_root_scan_times_ms.get(i) +
                                _last_satb_filtering_times_ms.get(i) +
                                _last_update_rs_times_ms.get(i) +
                                _last_scan_rs_times_ms.get(i) +
                                _last_strong_code_root_scan_times_ms.get(i) +
                                _last_obj_copy_times_ms.get(i) +
                                _last_termination_times_ms.get(i);

     double worker_other_time = worker_time - worker_known_time;
     _last_gc_worker_other_times_ms.set(i, worker_other_time);
   }

   _last_gc_worker_times_ms.verify();
   _last_gc_worker_other_times_ms.verify();

   _last_redirty_logged_cards_time_ms.verify();
   _last_redirty_logged_cards_processed_cards.verify();
 }

 void G1GCPhaseTimes::note_string_dedup_fixup_start() {
   _cur_string_dedup_queue_fixup_worker_times_ms.reset();
   _cur_string_dedup_table_fixup_worker_times_ms.reset();
 }

 void G1GCPhaseTimes::note_string_dedup_fixup_end() {
   _cur_string_dedup_queue_fixup_worker_times_ms.verify();
   _cur_string_dedup_table_fixup_worker_times_ms.verify();
 }

 void G1GCPhaseTimes::print_stats(int level, const char* str, double value) {
   LineBuffer(level).append_and_print_cr("[%s: %.1lf ms]", str, value);
 }

 void G1GCPhaseTimes::print_stats(int level, const char* str, size_t value) {
   LineBuffer(level).append_and_print_cr("[%s: "SIZE_FORMAT"]", str, value);
 }

 void G1GCPhaseTimes::print_stats(int level, const char* str, double value, uint workers) {
   LineBuffer(level).append_and_print_cr("[%s: %.1lf ms, GC Workers: %u]", str, value, workers);
 }

 double G1GCPhaseTimes::accounted_time_ms() {
     // Subtract the root region scanning wait time. It's initialized to
     // zero at the start of the pause.
     double misc_time_ms = _root_region_scan_wait_time_ms;

     misc_time_ms += _cur_collection_par_time_ms;

     // Now subtract the time taken to fix up roots in generated code
     misc_time_ms += _cur_collection_code_root_fixup_time_ms;

     // Strong code root purge time
     misc_time_ms += _cur_strong_code_root_purge_time_ms;

     if (G1StringDedup::is_enabled()) {
       // String dedup fixup time
       misc_time_ms += _cur_string_dedup_fixup_time_ms;
     }

     // Subtract the time taken to clean the card table from the
     // current value of "other time"
     misc_time_ms += _cur_clear_ct_time_ms;

     return misc_time_ms;
 }

 void G1GCPhaseTimes::print(double pause_time_sec) {
   if (_root_region_scan_wait_time_ms > 0.0) {
     print_stats(1, "Root Region Scan Waiting", _root_region_scan_wait_time_ms);
   }
   print_stats(1, "Parallel Time", _cur_collection_par_time_ms, _active_gc_threads);
   _last_gc_worker_start_times_ms.print(2, "GC Worker Start (ms)");
   _last_ext_root_scan_times_ms.print(2, "Ext Root Scanning (ms)");
   if (_last_satb_filtering_times_ms.sum() > 0.0) {
     _last_satb_filtering_times_ms.print(2, "SATB Filtering (ms)");
   }
   _last_update_rs_times_ms.print(2, "Update RS (ms)");
     _last_update_rs_processed_buffers.print(3, "Processed Buffers");
   _last_scan_rs_times_ms.print(2, "Scan RS (ms)");
   _last_strong_code_root_scan_times_ms.print(2, "Code Root Scanning (ms)");
   _last_obj_copy_times_ms.print(2, "Object Copy (ms)");
   _last_termination_times_ms.print(2, "Termination (ms)");
   if (G1Log::finest()) {
     _last_termination_attempts.print(3, "Termination Attempts");
   }
   _last_gc_worker_other_times_ms.print(2, "GC Worker Other (ms)");
   _last_gc_worker_times_ms.print(2, "GC Worker Total (ms)");
   _last_gc_worker_end_times_ms.print(2, "GC Worker End (ms)");

   print_stats(1, "Code Root Fixup", _cur_collection_code_root_fixup_time_ms);
   print_stats(1, "Code Root Purge", _cur_strong_code_root_purge_time_ms);
   if (G1StringDedup::is_enabled()) {
     print_stats(1, "String Dedup Fixup", _cur_string_dedup_fixup_time_ms, _active_gc_threads);
     _cur_string_dedup_queue_fixup_worker_times_ms.print(2, "Queue Fixup (ms)");
     _cur_string_dedup_table_fixup_worker_times_ms.print(2, "Table Fixup (ms)");
   }
   print_stats(1, "Clear CT", _cur_clear_ct_time_ms);
   double misc_time_ms = pause_time_sec * MILLIUNITS - accounted_time_ms();
   print_stats(1, "Other", misc_time_ms);
   if (_cur_verify_before_time_ms > 0.0) {
     print_stats(2, "Verify Before", _cur_verify_before_time_ms);
   }
   if (G1CollectedHeap::heap()->evacuation_failed()) {
     double evac_fail_handling = _cur_evac_fail_recalc_used + _cur_evac_fail_remove_self_forwards +
       _cur_evac_fail_restore_remsets;
     print_stats(2, "Evacuation Failure", evac_fail_handling);
     if (G1Log::finest()) {
       print_stats(3, "Recalculate Used", _cur_evac_fail_recalc_used);
       print_stats(3, "Remove Self Forwards", _cur_evac_fail_remove_self_forwards);
       print_stats(3, "Restore RemSet", _cur_evac_fail_restore_remsets);
     }
   }
   print_stats(2, "Choose CSet",
     (_recorded_young_cset_choice_time_ms +
     _recorded_non_young_cset_choice_time_ms));
   print_stats(2, "Ref Proc", _cur_ref_proc_time_ms);
   print_stats(2, "Ref Enq", _cur_ref_enq_time_ms);
   print_stats(2, "Redirty Cards", _recorded_redirty_logged_cards_time_ms);
   if (G1Log::finest()) {
     _last_redirty_logged_cards_time_ms.print(3, "Parallel Redirty");
     _last_redirty_logged_cards_processed_cards.print(3, "Redirtied Cards");
   }
   if (G1ReclaimDeadHumongousObjectsAtYoungGC) {
     print_stats(2, "Humongous Reclaim", _cur_fast_reclaim_humongous_time_ms);
     if (G1Log::finest()) {
       print_stats(3, "Humongous Total", _cur_fast_reclaim_humongous_total);
       print_stats(3, "Humongous Candidate", _cur_fast_reclaim_humongous_candidates);
       print_stats(3, "Humongous Reclaimed", _cur_fast_reclaim_humongous_reclaimed);
     }
   }
   print_stats(2, "Free CSet",
     (_recorded_young_free_cset_time_ms +
     _recorded_non_young_free_cset_time_ms));
   if (G1Log::finest()) {
     print_stats(3, "Young Free CSet", _recorded_young_free_cset_time_ms);
     print_stats(3, "Non-Young Free CSet", _recorded_non_young_free_cset_time_ms);
   }
   if (_cur_verify_after_time_ms > 0.0) {
     print_stats(2, "Verify After", _cur_verify_after_time_ms);
   }
 }
	/*
	* Copyright (c) 2013, 2014 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
	* or visit www.oracle.com if you need additional information or have any
	* questions.
	*
	*/


	#include "precompiled.hpp"
	#include "gc_implementation/g1/g1CollectedHeap.inline.hpp"
	#include "gc_implementation/g1/g1GCPhaseTimes.hpp"
	#include "gc_implementation/g1/g1Log.hpp"
	#include "gc_implementation/g1/g1StringDedup.hpp"
	#include "runtime/atomic.inline.hpp"

	// Helper class for avoiding interleaved logging
	class LineBuffer: public StackObj {

	private:
	static const int BUFFER_LEN = 1024;
	static const int INDENT_CHARS = 3;
	char _buffer[BUFFER_LEN];
	int _indent_level;
	int _cur;

	void vappend(const char* format, va_list ap) ATTRIBUTE_PRINTF(2, 0) {
	int res = vsnprintf(&_buffer[_cur], BUFFER_LEN - _cur, format, ap);
	if (res != -1) {
	_cur += res;
	} else {
	DEBUG_ONLY(warning("buffer too small in LineBuffer");)
	_buffer[BUFFER_LEN -1] = 0;
	_cur = BUFFER_LEN; // vsnprintf above should not add to _buffer if we are called again
	}
	}

	public:
	explicit LineBuffer(int indent_level): _indent_level(indent_level), _cur(0) {
	for (; (_cur < BUFFER_LEN && _cur < (_indent_level * INDENT_CHARS)); _cur++) {
	_buffer[_cur] = ' ';
	}
	}

	#ifndef PRODUCT
	~LineBuffer() {
	assert(_cur == _indent_level * INDENT_CHARS, "pending data in buffer - append_and_print_cr() not called?");
	}
	#endif

	void append(const char* format, ...) ATTRIBUTE_PRINTF(2, 3) {
	va_list ap;
	va_start(ap, format);
	vappend(format, ap);
	va_end(ap);
	}

	void append_and_print_cr(const char* format, ...) ATTRIBUTE_PRINTF(2, 3) {
	va_list ap;
	va_start(ap, format);
	vappend(format, ap);
	va_end(ap);
	gclog_or_tty->print_cr("%s", _buffer);
	_cur = _indent_level * INDENT_CHARS;
	}
	};

	PRAGMA_DIAG_PUSH
	PRAGMA_FORMAT_NONLITERAL_IGNORED
	template <class T>
	void WorkerDataArray<T>::print(int level, const char* title) {
	if (_length == 1) {
	// No need for min, max, average and sum for only one worker
	LineBuffer buf(level);
	buf.append("[%s: ", title);
	buf.append(_print_format, _data[0]);
	buf.append_and_print_cr("]");
	return;
	}

	T min = _data[0];
	T max = _data[0];
	T sum = 0;

	LineBuffer buf(level);
	buf.append("[%s:", title);
	for (uint i = 0; i < _length; ++i) {
	T val = _data[i];
	min = MIN2(val, min);
	max = MAX2(val, max);
	sum += val;
	if (G1Log::finest()) {
	buf.append(" ");
	buf.append(_print_format, val);
	}
	}

	if (G1Log::finest()) {
	buf.append_and_print_cr("%s", "");
	}

	double avg = (double)sum / (double)_length;
	buf.append(" Min: ");
	buf.append(_print_format, min);
	buf.append(", Avg: ");
	buf.append("%.1lf", avg); // Always print average as a double
	buf.append(", Max: ");
	buf.append(_print_format, max);
	buf.append(", Diff: ");
	buf.append(_print_format, max - min);
	if (_print_sum) {
	// for things like the start and end times the sum is not
	// that relevant
	buf.append(", Sum: ");
	buf.append(_print_format, sum);
	}
	buf.append_and_print_cr("]");
	}
	PRAGMA_DIAG_POP

	#ifndef PRODUCT

	template <> const int WorkerDataArray<int>::_uninitialized = -1;
	template <> const double WorkerDataArray<double>::_uninitialized = -1.0;
	template <> const size_t WorkerDataArray<size_t>::_uninitialized = (size_t)-1;

	template <class T>
	void WorkerDataArray<T>::reset() {
	for (uint i = 0; i < _length; i++) {
	_data[i] = (T)_uninitialized;
	}
	}

	template <class T>
	void WorkerDataArray<T>::verify() {
	for (uint i = 0; i < _length; i++) {
	assert(_data[i] != _uninitialized,
	err_msg("Invalid data for worker %u, data: %lf, uninitialized: %lf",
	i, (double)_data[i], (double)_uninitialized));
	}
	}

	#endif

	G1GCPhaseTimes::G1GCPhaseTimes(uint max_gc_threads) :
	_max_gc_threads(max_gc_threads),
	_last_gc_worker_start_times_ms(_max_gc_threads, "%.1lf", false),
	_last_ext_root_scan_times_ms(_max_gc_threads, "%.1lf"),
	_last_satb_filtering_times_ms(_max_gc_threads, "%.1lf"),
	_last_update_rs_times_ms(_max_gc_threads, "%.1lf"),
	_last_update_rs_processed_buffers(_max_gc_threads, "%d"),
	_last_scan_rs_times_ms(_max_gc_threads, "%.1lf"),
	_last_strong_code_root_scan_times_ms(_max_gc_threads, "%.1lf"),
	_last_obj_copy_times_ms(_max_gc_threads, "%.1lf"),
	_last_termination_times_ms(_max_gc_threads, "%.1lf"),
	_last_termination_attempts(_max_gc_threads, SIZE_FORMAT),
	_last_gc_worker_end_times_ms(_max_gc_threads, "%.1lf", false),
	_last_gc_worker_times_ms(_max_gc_threads, "%.1lf"),
	_last_gc_worker_other_times_ms(_max_gc_threads, "%.1lf"),
	_last_redirty_logged_cards_time_ms(_max_gc_threads, "%.1lf"),
	_last_redirty_logged_cards_processed_cards(_max_gc_threads, SIZE_FORMAT),
	_cur_string_dedup_queue_fixup_worker_times_ms(_max_gc_threads, "%.1lf"),
	_cur_string_dedup_table_fixup_worker_times_ms(_max_gc_threads, "%.1lf")
	{
	assert(max_gc_threads > 0, "Must have some GC threads");
	}

	void G1GCPhaseTimes::note_gc_start(uint active_gc_threads) {
	assert(active_gc_threads > 0, "The number of threads must be > 0");
	assert(active_gc_threads <= _max_gc_threads, "The number of active threads must be <= the max nubmer of threads");
	_active_gc_threads = active_gc_threads;

	_last_gc_worker_start_times_ms.reset();
	_last_ext_root_scan_times_ms.reset();
	_last_satb_filtering_times_ms.reset();
	_last_update_rs_times_ms.reset();
	_last_update_rs_processed_buffers.reset();
	_last_scan_rs_times_ms.reset();
	_last_strong_code_root_scan_times_ms.reset();
	_last_obj_copy_times_ms.reset();
	_last_termination_times_ms.reset();
	_last_termination_attempts.reset();
	_last_gc_worker_end_times_ms.reset();
	_last_gc_worker_times_ms.reset();
	_last_gc_worker_other_times_ms.reset();

	_last_redirty_logged_cards_time_ms.reset();
	_last_redirty_logged_cards_processed_cards.reset();

	}

	void G1GCPhaseTimes::note_gc_end() {
	_last_gc_worker_start_times_ms.verify();
	_last_ext_root_scan_times_ms.verify();
	_last_satb_filtering_times_ms.verify();
	_last_update_rs_times_ms.verify();
	_last_update_rs_processed_buffers.verify();
	_last_scan_rs_times_ms.verify();
	_last_strong_code_root_scan_times_ms.verify();
	_last_obj_copy_times_ms.verify();
	_last_termination_times_ms.verify();
	_last_termination_attempts.verify();
	_last_gc_worker_end_times_ms.verify();

	for (uint i = 0; i < _active_gc_threads; i++) {
	double worker_time = _last_gc_worker_end_times_ms.get(i) - _last_gc_worker_start_times_ms.get(i);
	_last_gc_worker_times_ms.set(i, worker_time);

	double worker_known_time = _last_ext_root_scan_times_ms.get(i) +
	_last_satb_filtering_times_ms.get(i) +
	_last_update_rs_times_ms.get(i) +
	_last_scan_rs_times_ms.get(i) +
	_last_strong_code_root_scan_times_ms.get(i) +
	_last_obj_copy_times_ms.get(i) +
	_last_termination_times_ms.get(i);

	double worker_other_time = worker_time - worker_known_time;
	_last_gc_worker_other_times_ms.set(i, worker_other_time);
	}

	_last_gc_worker_times_ms.verify();
	_last_gc_worker_other_times_ms.verify();

	_last_redirty_logged_cards_time_ms.verify();
	_last_redirty_logged_cards_processed_cards.verify();
	}

	void G1GCPhaseTimes::note_string_dedup_fixup_start() {
	_cur_string_dedup_queue_fixup_worker_times_ms.reset();
	_cur_string_dedup_table_fixup_worker_times_ms.reset();
	}

	void G1GCPhaseTimes::note_string_dedup_fixup_end() {
	_cur_string_dedup_queue_fixup_worker_times_ms.verify();
	_cur_string_dedup_table_fixup_worker_times_ms.verify();
	}

	void G1GCPhaseTimes::print_stats(int level, const char* str, double value) {
	LineBuffer(level).append_and_print_cr("[%s: %.1lf ms]", str, value);
	}

	void G1GCPhaseTimes::print_stats(int level, const char* str, size_t value) {
	LineBuffer(level).append_and_print_cr("[%s: "SIZE_FORMAT"]", str, value);
	}

	void G1GCPhaseTimes::print_stats(int level, const char* str, double value, uint workers) {
	LineBuffer(level).append_and_print_cr("[%s: %.1lf ms, GC Workers: %u]", str, value, workers);
	}

	double G1GCPhaseTimes::accounted_time_ms() {
	// Subtract the root region scanning wait time. It's initialized to
	// zero at the start of the pause.
	double misc_time_ms = _root_region_scan_wait_time_ms;

	misc_time_ms += _cur_collection_par_time_ms;

	// Now subtract the time taken to fix up roots in generated code
	misc_time_ms += _cur_collection_code_root_fixup_time_ms;

	// Strong code root purge time
	misc_time_ms += _cur_strong_code_root_purge_time_ms;

	if (G1StringDedup::is_enabled()) {
	// String dedup fixup time
	misc_time_ms += _cur_string_dedup_fixup_time_ms;
	}

	// Subtract the time taken to clean the card table from the
	// current value of "other time"
	misc_time_ms += _cur_clear_ct_time_ms;

	return misc_time_ms;
	}

	void G1GCPhaseTimes::print(double pause_time_sec) {
	if (_root_region_scan_wait_time_ms > 0.0) {
	print_stats(1, "Root Region Scan Waiting", _root_region_scan_wait_time_ms);
	}
	print_stats(1, "Parallel Time", _cur_collection_par_time_ms, _active_gc_threads);
	_last_gc_worker_start_times_ms.print(2, "GC Worker Start (ms)");
	_last_ext_root_scan_times_ms.print(2, "Ext Root Scanning (ms)");
	if (_last_satb_filtering_times_ms.sum() > 0.0) {
	_last_satb_filtering_times_ms.print(2, "SATB Filtering (ms)");
	}
	_last_update_rs_times_ms.print(2, "Update RS (ms)");
	_last_update_rs_processed_buffers.print(3, "Processed Buffers");
	_last_scan_rs_times_ms.print(2, "Scan RS (ms)");
	_last_strong_code_root_scan_times_ms.print(2, "Code Root Scanning (ms)");
	_last_obj_copy_times_ms.print(2, "Object Copy (ms)");
	_last_termination_times_ms.print(2, "Termination (ms)");
	if (G1Log::finest()) {
	_last_termination_attempts.print(3, "Termination Attempts");
	}
	_last_gc_worker_other_times_ms.print(2, "GC Worker Other (ms)");
	_last_gc_worker_times_ms.print(2, "GC Worker Total (ms)");
	_last_gc_worker_end_times_ms.print(2, "GC Worker End (ms)");

	print_stats(1, "Code Root Fixup", _cur_collection_code_root_fixup_time_ms);
	print_stats(1, "Code Root Purge", _cur_strong_code_root_purge_time_ms);
	if (G1StringDedup::is_enabled()) {
	print_stats(1, "String Dedup Fixup", _cur_string_dedup_fixup_time_ms, _active_gc_threads);
	_cur_string_dedup_queue_fixup_worker_times_ms.print(2, "Queue Fixup (ms)");
	_cur_string_dedup_table_fixup_worker_times_ms.print(2, "Table Fixup (ms)");
	}
	print_stats(1, "Clear CT", _cur_clear_ct_time_ms);
	double misc_time_ms = pause_time_sec * MILLIUNITS - accounted_time_ms();
	print_stats(1, "Other", misc_time_ms);
	if (_cur_verify_before_time_ms > 0.0) {
	print_stats(2, "Verify Before", _cur_verify_before_time_ms);
	}
	if (G1CollectedHeap::heap()->evacuation_failed()) {
	double evac_fail_handling = _cur_evac_fail_recalc_used + _cur_evac_fail_remove_self_forwards +
	_cur_evac_fail_restore_remsets;
	print_stats(2, "Evacuation Failure", evac_fail_handling);
	if (G1Log::finest()) {
	print_stats(3, "Recalculate Used", _cur_evac_fail_recalc_used);
	print_stats(3, "Remove Self Forwards", _cur_evac_fail_remove_self_forwards);
	print_stats(3, "Restore RemSet", _cur_evac_fail_restore_remsets);
	}
	}
	print_stats(2, "Choose CSet",
	(_recorded_young_cset_choice_time_ms +
	_recorded_non_young_cset_choice_time_ms));
	print_stats(2, "Ref Proc", _cur_ref_proc_time_ms);
	print_stats(2, "Ref Enq", _cur_ref_enq_time_ms);
	print_stats(2, "Redirty Cards", _recorded_redirty_logged_cards_time_ms);
	if (G1Log::finest()) {
	_last_redirty_logged_cards_time_ms.print(3, "Parallel Redirty");
	_last_redirty_logged_cards_processed_cards.print(3, "Redirtied Cards");
	}
	if (G1ReclaimDeadHumongousObjectsAtYoungGC) {
	print_stats(2, "Humongous Reclaim", _cur_fast_reclaim_humongous_time_ms);
	if (G1Log::finest()) {
	print_stats(3, "Humongous Total", _cur_fast_reclaim_humongous_total);
	print_stats(3, "Humongous Candidate", _cur_fast_reclaim_humongous_candidates);
	print_stats(3, "Humongous Reclaimed", _cur_fast_reclaim_humongous_reclaimed);
	}
	}
	print_stats(2, "Free CSet",
	(_recorded_young_free_cset_time_ms +
	_recorded_non_young_free_cset_time_ms));
	if (G1Log::finest()) {
	print_stats(3, "Young Free CSet", _recorded_young_free_cset_time_ms);
	print_stats(3, "Non-Young Free CSet", _recorded_non_young_free_cset_time_ms);
	}
	if (_cur_verify_after_time_ms > 0.0) {
	print_stats(2, "Verify After", _cur_verify_after_time_ms);
	}
	}