src/heap/gc-tracer.h - fp2-dev/platform/external/v8 - Gitiles

 // Copyright 2014 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef V8_HEAP_GC_TRACER_H_
 #define V8_HEAP_GC_TRACER_H_

 #include "src/base/compiler-specific.h"
 #include "src/base/platform/platform.h"
 #include "src/counters.h"
 #include "src/globals.h"

 namespace v8 {
 namespace internal {

 template <typename T>
 class RingBuffer {
  public:
   RingBuffer() { Reset(); }
   static const int kSize = 10;
   void Push(const T& value) {
     if (count_ == kSize) {
       elements_[start_++] = value;
       if (start_ == kSize) start_ = 0;
     } else {
       DCHECK_EQ(start_, 0);
       elements_[count_++] = value;
     }
   }

   int Count() const { return count_; }

   template <typename Callback>
   T Sum(Callback callback, const T& initial) const {
     int j = start_ + count_ - 1;
     if (j >= kSize) j -= kSize;
     T result = initial;
     for (int i = 0; i < count_; i++) {
       result = callback(result, elements_[j]);
       if (--j == -1) j += kSize;
     }
     return result;
   }

   void Reset() { start_ = count_ = 0; }

  private:
   T elements_[kSize];
   int start_;
   int count_;
   DISALLOW_COPY_AND_ASSIGN(RingBuffer);
 };

 typedef std::pair<uint64_t, double> BytesAndDuration;

 inline BytesAndDuration MakeBytesAndDuration(uint64_t bytes, double duration) {
   return std::make_pair(bytes, duration);
 }

 enum ScavengeSpeedMode { kForAllObjects, kForSurvivedObjects };

 #define TRACER_SCOPES(F)                           \
   F(EXTERNAL_WEAK_GLOBAL_HANDLES)                  \
   F(MC_CLEAR)                                      \
   F(MC_CLEAR_CODE_FLUSH)                           \
   F(MC_CLEAR_DEPENDENT_CODE)                       \
   F(MC_CLEAR_GLOBAL_HANDLES)                       \
   F(MC_CLEAR_MAPS)                                 \
   F(MC_CLEAR_SLOTS_BUFFER)                         \
   F(MC_CLEAR_STORE_BUFFER)                         \
   F(MC_CLEAR_STRING_TABLE)                         \
   F(MC_CLEAR_WEAK_CELLS)                           \
   F(MC_CLEAR_WEAK_COLLECTIONS)                     \
   F(MC_CLEAR_WEAK_LISTS)                           \
   F(MC_EVACUATE)                                   \
   F(MC_EVACUATE_CANDIDATES)                        \
   F(MC_EVACUATE_CLEAN_UP)                          \
   F(MC_EVACUATE_COPY)                              \
   F(MC_EVACUATE_UPDATE_POINTERS)                   \
   F(MC_EVACUATE_UPDATE_POINTERS_TO_EVACUATED)      \
   F(MC_EVACUATE_UPDATE_POINTERS_TO_NEW)            \
   F(MC_EVACUATE_UPDATE_POINTERS_WEAK)              \
   F(MC_EXTERNAL_EPILOGUE)                          \
   F(MC_EXTERNAL_PROLOGUE)                          \
   F(MC_FINISH)                                     \
   F(MC_INCREMENTAL_FINALIZE)                       \
   F(MC_INCREMENTAL_EXTERNAL_EPILOGUE)              \
   F(MC_INCREMENTAL_EXTERNAL_PROLOGUE)              \
   F(MC_MARK)                                       \
   F(MC_MARK_FINISH_INCREMENTAL)                    \
   F(MC_MARK_PREPARE_CODE_FLUSH)                    \
   F(MC_MARK_ROOTS)                                 \
   F(MC_MARK_WEAK_CLOSURE)                          \
   F(MC_MARK_WEAK_CLOSURE_EPHEMERAL)                \
   F(MC_MARK_WEAK_CLOSURE_WEAK_HANDLES)             \
   F(MC_MARK_WEAK_CLOSURE_WEAK_ROOTS)               \
   F(MC_MARK_WEAK_CLOSURE_HARMONY)                  \
   F(MC_SWEEP)                                      \
   F(MC_SWEEP_CODE)                                 \
   F(MC_SWEEP_MAP)                                  \
   F(MC_SWEEP_OLD)                                  \
   F(SCAVENGER_CODE_FLUSH_CANDIDATES)               \
   F(SCAVENGER_EXTERNAL_EPILOGUE)                   \
   F(SCAVENGER_EXTERNAL_PROLOGUE)                   \
   F(SCAVENGER_OBJECT_GROUPS)                       \
   F(SCAVENGER_OLD_TO_NEW_POINTERS)                 \
   F(SCAVENGER_ROOTS)                               \
   F(SCAVENGER_SCAVENGE)                            \
   F(SCAVENGER_SEMISPACE)                           \
   F(SCAVENGER_WEAK)

 #define TRACE_GC(tracer, scope_id)                             \
   GCTracer::Scope::ScopeId gc_tracer_scope_id(scope_id);       \
   GCTracer::Scope gc_tracer_scope(tracer, gc_tracer_scope_id); \
   TRACE_EVENT0(TRACE_DISABLED_BY_DEFAULT("v8.gc"),             \
                GCTracer::Scope::Name(gc_tracer_scope_id))

 // GCTracer collects and prints ONE line after each garbage collector
 // invocation IFF --trace_gc is used.
 // TODO(ernstm): Unit tests.
 class GCTracer {
  public:
   class Scope {
    public:
     enum ScopeId {
 #define DEFINE_SCOPE(scope) scope,
       TRACER_SCOPES(DEFINE_SCOPE)
 #undef DEFINE_SCOPE
           NUMBER_OF_SCOPES
     };

     Scope(GCTracer* tracer, ScopeId scope);
     ~Scope();
     static const char* Name(ScopeId id);

    private:
     GCTracer* tracer_;
     ScopeId scope_;
     double start_time_;
     RuntimeCallTimer timer_;

     DISALLOW_COPY_AND_ASSIGN(Scope);
   };


   class Event {
    public:
     enum Type {
       SCAVENGER = 0,
       MARK_COMPACTOR = 1,
       INCREMENTAL_MARK_COMPACTOR = 2,
       START = 3
     };

     // Default constructor leaves the event uninitialized.
     Event() {}

     Event(Type type, const char* gc_reason, const char* collector_reason);

     // Returns a string describing the event type.
     const char* TypeName(bool short_name) const;

     // Type of event
     Type type;

     const char* gc_reason;
     const char* collector_reason;

     // Timestamp set in the constructor.
     double start_time;

     // Timestamp set in the destructor.
     double end_time;

     // Memory reduction flag set.
     bool reduce_memory;

     // Size of objects in heap set in constructor.
     intptr_t start_object_size;

     // Size of objects in heap set in destructor.
     intptr_t end_object_size;

     // Size of memory allocated from OS set in constructor.
     intptr_t start_memory_size;

     // Size of memory allocated from OS set in destructor.
     intptr_t end_memory_size;

     // Total amount of space either wasted or contained in one of free lists
     // before the current GC.
     intptr_t start_holes_size;

     // Total amount of space either wasted or contained in one of free lists
     // after the current GC.
     intptr_t end_holes_size;

     // Size of new space objects in constructor.
     intptr_t new_space_object_size;
     // Size of survived new space objects in desctructor.
     intptr_t survived_new_space_object_size;

     // Number of incremental marking steps since creation of tracer.
     // (value at start of event)
     int cumulative_incremental_marking_steps;

     // Incremental marking steps since
     // - last event for SCAVENGER events
     // - last INCREMENTAL_MARK_COMPACTOR event for INCREMENTAL_MARK_COMPACTOR
     // events
     int incremental_marking_steps;

     // Bytes marked since creation of tracer (value at start of event).
     intptr_t cumulative_incremental_marking_bytes;

     // Bytes marked since
     // - last event for SCAVENGER events
     // - last INCREMENTAL_MARK_COMPACTOR event for INCREMENTAL_MARK_COMPACTOR
     // events
     intptr_t incremental_marking_bytes;

     // Cumulative duration of incremental marking steps since creation of
     // tracer. (value at start of event)
     double cumulative_incremental_marking_duration;

     // Duration of incremental marking steps since
     // - last event for SCAVENGER events
     // - last INCREMENTAL_MARK_COMPACTOR event for INCREMENTAL_MARK_COMPACTOR
     // events
     double incremental_marking_duration;

     // Cumulative pure duration of incremental marking steps since creation of
     // tracer. (value at start of event)
     double cumulative_pure_incremental_marking_duration;

     // Duration of pure incremental marking steps since
     // - last event for SCAVENGER events
     // - last INCREMENTAL_MARK_COMPACTOR event for INCREMENTAL_MARK_COMPACTOR
     // events
     double pure_incremental_marking_duration;

     // Longest incremental marking step since start of marking.
     // (value at start of event)
     double longest_incremental_marking_step;

     // Amounts of time spent in different scopes during GC.
     double scopes[Scope::NUMBER_OF_SCOPES];
   };

   static const int kThroughputTimeFrameMs = 5000;

   explicit GCTracer(Heap* heap);

   // Start collecting data.
   void Start(GarbageCollector collector, const char* gc_reason,
              const char* collector_reason);

   // Stop collecting data and print results.
   void Stop(GarbageCollector collector);

   // Sample and accumulate bytes allocated since the last GC.
   void SampleAllocation(double current_ms, size_t new_space_counter_bytes,
                         size_t old_generation_counter_bytes);

   // Log the accumulated new space allocation bytes.
   void AddAllocation(double current_ms);

   void AddContextDisposalTime(double time);

   void AddCompactionEvent(double duration, intptr_t live_bytes_compacted);

   void AddSurvivalRatio(double survival_ratio);

   // Log an incremental marking step.
   void AddIncrementalMarkingStep(double duration, intptr_t bytes);

   void AddIncrementalMarkingFinalizationStep(double duration);

   // Log time spent in marking.
   void AddMarkingTime(double duration) {
     cumulative_marking_duration_ += duration;
   }

   // Time spent in marking.
   double cumulative_marking_duration() const {
     return cumulative_marking_duration_;
   }

   // Log time spent in sweeping on main thread.
   void AddSweepingTime(double duration) {
     cumulative_sweeping_duration_ += duration;
   }

   // Time spent in sweeping on main thread.
   double cumulative_sweeping_duration() const {
     return cumulative_sweeping_duration_;
   }

   // Compute the average incremental marking speed in bytes/millisecond.
   // Returns 0 if no events have been recorded.
   double IncrementalMarkingSpeedInBytesPerMillisecond() const;

   // Compute the average scavenge speed in bytes/millisecond.
   // Returns 0 if no events have been recorded.
   double ScavengeSpeedInBytesPerMillisecond(
       ScavengeSpeedMode mode = kForAllObjects) const;

   // Compute the average compaction speed in bytes/millisecond.
   // Returns 0 if not enough events have been recorded.
   double CompactionSpeedInBytesPerMillisecond() const;

   // Compute the average mark-sweep speed in bytes/millisecond.
   // Returns 0 if no events have been recorded.
   double MarkCompactSpeedInBytesPerMillisecond() const;

   // Compute the average incremental mark-sweep finalize speed in
   // bytes/millisecond.
   // Returns 0 if no events have been recorded.
   double FinalIncrementalMarkCompactSpeedInBytesPerMillisecond() const;

   // Compute the overall mark compact speed including incremental steps
   // and the final mark-compact step.
   double CombinedMarkCompactSpeedInBytesPerMillisecond();

   // Allocation throughput in the new space in bytes/millisecond.
   // Returns 0 if no allocation events have been recorded.
   double NewSpaceAllocationThroughputInBytesPerMillisecond(
       double time_ms = 0) const;

   // Allocation throughput in the old generation in bytes/millisecond in the
   // last time_ms milliseconds.
   // Returns 0 if no allocation events have been recorded.
   double OldGenerationAllocationThroughputInBytesPerMillisecond(
       double time_ms = 0) const;

   // Allocation throughput in heap in bytes/millisecond in the last time_ms
   // milliseconds.
   // Returns 0 if no allocation events have been recorded.
   double AllocationThroughputInBytesPerMillisecond(double time_ms) const;

   // Allocation throughput in heap in bytes/milliseconds in the last
   // kThroughputTimeFrameMs seconds.
   // Returns 0 if no allocation events have been recorded.
   double CurrentAllocationThroughputInBytesPerMillisecond() const;

   // Allocation throughput in old generation in bytes/milliseconds in the last
   // kThroughputTimeFrameMs seconds.
   // Returns 0 if no allocation events have been recorded.
   double CurrentOldGenerationAllocationThroughputInBytesPerMillisecond() const;

   // Computes the context disposal rate in milliseconds. It takes the time
   // frame of the first recorded context disposal to the current time and
   // divides it by the number of recorded events.
   // Returns 0 if no events have been recorded.
   double ContextDisposalRateInMilliseconds() const;

   // Computes the average survival ratio based on the last recorded survival
   // events.
   // Returns 0 if no events have been recorded.
   double AverageSurvivalRatio() const;

   // Returns true if at least one survival event was recorded.
   bool SurvivalEventsRecorded() const;

   // Discard all recorded survival events.
   void ResetSurvivalEvents();

   // Returns the average speed of the events in the buffer.
   // If the buffer is empty, the result is 0.
   // Otherwise, the result is between 1 byte/ms and 1 GB/ms.
   static double AverageSpeed(const RingBuffer<BytesAndDuration>& buffer);
   static double AverageSpeed(const RingBuffer<BytesAndDuration>& buffer,
                              const BytesAndDuration& initial, double time_ms);

   void ResetForTesting();

  private:
   // Print one detailed trace line in name=value format.
   // TODO(ernstm): Move to Heap.
   void PrintNVP() const;

   // Print one trace line.
   // TODO(ernstm): Move to Heap.
   void Print() const;

   // Prints a line and also adds it to the heap's ring buffer so that
   // it can be included in later crash dumps.
   void PRINTF_FORMAT(2, 3) Output(const char* format, ...) const;

   void ClearMarkCompactStatistics() {
     cumulative_incremental_marking_steps_ = 0;
     cumulative_incremental_marking_bytes_ = 0;
     cumulative_incremental_marking_duration_ = 0;
     cumulative_pure_incremental_marking_duration_ = 0;
     longest_incremental_marking_step_ = 0;
     cumulative_incremental_marking_finalization_steps_ = 0;
     cumulative_incremental_marking_finalization_duration_ = 0;
     longest_incremental_marking_finalization_step_ = 0;
     cumulative_marking_duration_ = 0;
     cumulative_sweeping_duration_ = 0;
   }

   double TotalExternalTime() const {
     return current_.scopes[Scope::EXTERNAL_WEAK_GLOBAL_HANDLES] +
            current_.scopes[Scope::MC_EXTERNAL_EPILOGUE] +
            current_.scopes[Scope::MC_EXTERNAL_PROLOGUE] +
            current_.scopes[Scope::MC_INCREMENTAL_EXTERNAL_EPILOGUE] +
            current_.scopes[Scope::MC_INCREMENTAL_EXTERNAL_PROLOGUE] +
            current_.scopes[Scope::SCAVENGER_EXTERNAL_EPILOGUE] +
            current_.scopes[Scope::SCAVENGER_EXTERNAL_PROLOGUE];
   }

   // Pointer to the heap that owns this tracer.
   Heap* heap_;

   // Current tracer event. Populated during Start/Stop cycle. Valid after Stop()
   // has returned.
   Event current_;

   // Previous tracer event.
   Event previous_;

   // Previous INCREMENTAL_MARK_COMPACTOR event.
   Event previous_incremental_mark_compactor_event_;

   // Cumulative number of incremental marking steps since creation of tracer.
   int cumulative_incremental_marking_steps_;

   // Cumulative size of incremental marking steps (in bytes) since creation of
   // tracer.
   intptr_t cumulative_incremental_marking_bytes_;

   // Cumulative duration of incremental marking steps since creation of tracer.
   double cumulative_incremental_marking_duration_;

   // Cumulative duration of pure incremental marking steps since creation of
   // tracer.
   double cumulative_pure_incremental_marking_duration_;

   // Longest incremental marking step since start of marking.
   double longest_incremental_marking_step_;

   // Cumulative number of incremental marking finalization steps since creation
   // of tracer.
   int cumulative_incremental_marking_finalization_steps_;

   // Cumulative duration of incremental marking finalization steps since
   // creation of tracer.
   double cumulative_incremental_marking_finalization_duration_;

   // Longest incremental marking finalization step since start of marking.
   double longest_incremental_marking_finalization_step_;

   // Total marking time.
   // This timer is precise when run with --print-cumulative-gc-stat
   double cumulative_marking_duration_;

   // Total sweeping time on the main thread.
   // This timer is precise when run with --print-cumulative-gc-stat
   // TODO(hpayer): Account for sweeping time on sweeper threads. Add a
   // different field for that.
   // TODO(hpayer): This timer right now just holds the sweeping time
   // of the initial atomic sweeping pause. Make sure that it accumulates
   // all sweeping operations performed on the main thread.
   double cumulative_sweeping_duration_;

   // Timestamp and allocation counter at the last sampled allocation event.
   double allocation_time_ms_;
   size_t new_space_allocation_counter_bytes_;
   size_t old_generation_allocation_counter_bytes_;

   // Accumulated duration and allocated bytes since the last GC.
   double allocation_duration_since_gc_;
   size_t new_space_allocation_in_bytes_since_gc_;
   size_t old_generation_allocation_in_bytes_since_gc_;

   double combined_mark_compact_speed_cache_;

   // Counts how many tracers were started without stopping.
   int start_counter_;

   // Separate timer used for --runtime_call_stats
   RuntimeCallTimer timer_;

   RingBuffer<BytesAndDuration> recorded_incremental_marking_steps_;
   RingBuffer<BytesAndDuration> recorded_scavenges_total_;
   RingBuffer<BytesAndDuration> recorded_scavenges_survived_;
   RingBuffer<BytesAndDuration> recorded_compactions_;
   RingBuffer<BytesAndDuration> recorded_mark_compacts_;
   RingBuffer<BytesAndDuration> recorded_incremental_mark_compacts_;
   RingBuffer<BytesAndDuration> recorded_new_generation_allocations_;
   RingBuffer<BytesAndDuration> recorded_old_generation_allocations_;
   RingBuffer<double> recorded_context_disposal_times_;
   RingBuffer<double> recorded_survival_ratios_;

   DISALLOW_COPY_AND_ASSIGN(GCTracer);
 };
 }  // namespace internal
 }  // namespace v8

 #endif  // V8_HEAP_GC_TRACER_H_
	// Copyright 2014 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef V8_HEAP_GC_TRACER_H_
	#define V8_HEAP_GC_TRACER_H_

	#include "src/base/compiler-specific.h"
	#include "src/base/platform/platform.h"
	#include "src/counters.h"
	#include "src/globals.h"

	namespace v8 {
	namespace internal {

	template <typename T>
	class RingBuffer {
	public:
	RingBuffer() { Reset(); }
	static const int kSize = 10;
	void Push(const T& value) {
	if (count_ == kSize) {
	elements_[start_++] = value;
	if (start_ == kSize) start_ = 0;
	} else {
	DCHECK_EQ(start_, 0);
	elements_[count_++] = value;
	}
	}

	int Count() const { return count_; }

	template <typename Callback>
	T Sum(Callback callback, const T& initial) const {
	int j = start_ + count_ - 1;
	if (j >= kSize) j -= kSize;
	T result = initial;
	for (int i = 0; i < count_; i++) {
	result = callback(result, elements_[j]);
	if (--j == -1) j += kSize;
	}
	return result;
	}

	void Reset() { start_ = count_ = 0; }

	private:
	T elements_[kSize];
	int start_;
	int count_;
	DISALLOW_COPY_AND_ASSIGN(RingBuffer);
	};

	typedef std::pair<uint64_t, double> BytesAndDuration;

	inline BytesAndDuration MakeBytesAndDuration(uint64_t bytes, double duration) {
	return std::make_pair(bytes, duration);
	}

	enum ScavengeSpeedMode { kForAllObjects, kForSurvivedObjects };

	#define TRACER_SCOPES(F) \
	F(EXTERNAL_WEAK_GLOBAL_HANDLES) \
	F(MC_CLEAR) \
	F(MC_CLEAR_CODE_FLUSH) \
	F(MC_CLEAR_DEPENDENT_CODE) \
	F(MC_CLEAR_GLOBAL_HANDLES) \
	F(MC_CLEAR_MAPS) \
	F(MC_CLEAR_SLOTS_BUFFER) \
	F(MC_CLEAR_STORE_BUFFER) \
	F(MC_CLEAR_STRING_TABLE) \
	F(MC_CLEAR_WEAK_CELLS) \
	F(MC_CLEAR_WEAK_COLLECTIONS) \
	F(MC_CLEAR_WEAK_LISTS) \
	F(MC_EVACUATE) \
	F(MC_EVACUATE_CANDIDATES) \
	F(MC_EVACUATE_CLEAN_UP) \
	F(MC_EVACUATE_COPY) \
	F(MC_EVACUATE_UPDATE_POINTERS) \
	F(MC_EVACUATE_UPDATE_POINTERS_TO_EVACUATED) \
	F(MC_EVACUATE_UPDATE_POINTERS_TO_NEW) \
	F(MC_EVACUATE_UPDATE_POINTERS_WEAK) \
	F(MC_EXTERNAL_EPILOGUE) \
	F(MC_EXTERNAL_PROLOGUE) \
	F(MC_FINISH) \
	F(MC_INCREMENTAL_FINALIZE) \
	F(MC_INCREMENTAL_EXTERNAL_EPILOGUE) \
	F(MC_INCREMENTAL_EXTERNAL_PROLOGUE) \
	F(MC_MARK) \
	F(MC_MARK_FINISH_INCREMENTAL) \
	F(MC_MARK_PREPARE_CODE_FLUSH) \
	F(MC_MARK_ROOTS) \
	F(MC_MARK_WEAK_CLOSURE) \
	F(MC_MARK_WEAK_CLOSURE_EPHEMERAL) \
	F(MC_MARK_WEAK_CLOSURE_WEAK_HANDLES) \
	F(MC_MARK_WEAK_CLOSURE_WEAK_ROOTS) \
	F(MC_MARK_WEAK_CLOSURE_HARMONY) \
	F(MC_SWEEP) \
	F(MC_SWEEP_CODE) \
	F(MC_SWEEP_MAP) \
	F(MC_SWEEP_OLD) \
	F(SCAVENGER_CODE_FLUSH_CANDIDATES) \
	F(SCAVENGER_EXTERNAL_EPILOGUE) \
	F(SCAVENGER_EXTERNAL_PROLOGUE) \
	F(SCAVENGER_OBJECT_GROUPS) \
	F(SCAVENGER_OLD_TO_NEW_POINTERS) \
	F(SCAVENGER_ROOTS) \
	F(SCAVENGER_SCAVENGE) \
	F(SCAVENGER_SEMISPACE) \
	F(SCAVENGER_WEAK)

	#define TRACE_GC(tracer, scope_id) \
	GCTracer::Scope::ScopeId gc_tracer_scope_id(scope_id); \
	GCTracer::Scope gc_tracer_scope(tracer, gc_tracer_scope_id); \
	TRACE_EVENT0(TRACE_DISABLED_BY_DEFAULT("v8.gc"), \
	GCTracer::Scope::Name(gc_tracer_scope_id))

	// GCTracer collects and prints ONE line after each garbage collector
	// invocation IFF --trace_gc is used.
	// TODO(ernstm): Unit tests.
	class GCTracer {
	public:
	class Scope {
	public:
	enum ScopeId {
	#define DEFINE_SCOPE(scope) scope,
	TRACER_SCOPES(DEFINE_SCOPE)
	#undef DEFINE_SCOPE
	NUMBER_OF_SCOPES
	};

	Scope(GCTracer* tracer, ScopeId scope);
	~Scope();
	static const char* Name(ScopeId id);

	private:
	GCTracer* tracer_;
	ScopeId scope_;
	double start_time_;
	RuntimeCallTimer timer_;

	DISALLOW_COPY_AND_ASSIGN(Scope);
	};


	class Event {
	public:
	enum Type {
	SCAVENGER = 0,
	MARK_COMPACTOR = 1,
	INCREMENTAL_MARK_COMPACTOR = 2,
	START = 3
	};

	// Default constructor leaves the event uninitialized.
	Event() {}

	Event(Type type, const char* gc_reason, const char* collector_reason);

	// Returns a string describing the event type.
	const char* TypeName(bool short_name) const;

	// Type of event
	Type type;

	const char* gc_reason;
	const char* collector_reason;

	// Timestamp set in the constructor.
	double start_time;

	// Timestamp set in the destructor.
	double end_time;

	// Memory reduction flag set.
	bool reduce_memory;

	// Size of objects in heap set in constructor.
	intptr_t start_object_size;

	// Size of objects in heap set in destructor.
	intptr_t end_object_size;

	// Size of memory allocated from OS set in constructor.
	intptr_t start_memory_size;

	// Size of memory allocated from OS set in destructor.
	intptr_t end_memory_size;

	// Total amount of space either wasted or contained in one of free lists
	// before the current GC.
	intptr_t start_holes_size;

	// Total amount of space either wasted or contained in one of free lists
	// after the current GC.
	intptr_t end_holes_size;

	// Size of new space objects in constructor.
	intptr_t new_space_object_size;
	// Size of survived new space objects in desctructor.
	intptr_t survived_new_space_object_size;

	// Number of incremental marking steps since creation of tracer.
	// (value at start of event)
	int cumulative_incremental_marking_steps;

	// Incremental marking steps since
	// - last event for SCAVENGER events
	// - last INCREMENTAL_MARK_COMPACTOR event for INCREMENTAL_MARK_COMPACTOR
	// events
	int incremental_marking_steps;

	// Bytes marked since creation of tracer (value at start of event).
	intptr_t cumulative_incremental_marking_bytes;

	// Bytes marked since
	// - last event for SCAVENGER events
	// - last INCREMENTAL_MARK_COMPACTOR event for INCREMENTAL_MARK_COMPACTOR
	// events
	intptr_t incremental_marking_bytes;

	// Cumulative duration of incremental marking steps since creation of
	// tracer. (value at start of event)
	double cumulative_incremental_marking_duration;

	// Duration of incremental marking steps since
	// - last event for SCAVENGER events
	// - last INCREMENTAL_MARK_COMPACTOR event for INCREMENTAL_MARK_COMPACTOR
	// events
	double incremental_marking_duration;

	// Cumulative pure duration of incremental marking steps since creation of
	// tracer. (value at start of event)
	double cumulative_pure_incremental_marking_duration;

	// Duration of pure incremental marking steps since
	// - last event for SCAVENGER events
	// - last INCREMENTAL_MARK_COMPACTOR event for INCREMENTAL_MARK_COMPACTOR
	// events
	double pure_incremental_marking_duration;

	// Longest incremental marking step since start of marking.
	// (value at start of event)
	double longest_incremental_marking_step;

	// Amounts of time spent in different scopes during GC.
	double scopes[Scope::NUMBER_OF_SCOPES];
	};

	static const int kThroughputTimeFrameMs = 5000;

	explicit GCTracer(Heap* heap);

	// Start collecting data.
	void Start(GarbageCollector collector, const char* gc_reason,
	const char* collector_reason);

	// Stop collecting data and print results.
	void Stop(GarbageCollector collector);

	// Sample and accumulate bytes allocated since the last GC.
	void SampleAllocation(double current_ms, size_t new_space_counter_bytes,
	size_t old_generation_counter_bytes);

	// Log the accumulated new space allocation bytes.
	void AddAllocation(double current_ms);

	void AddContextDisposalTime(double time);

	void AddCompactionEvent(double duration, intptr_t live_bytes_compacted);

	void AddSurvivalRatio(double survival_ratio);

	// Log an incremental marking step.
	void AddIncrementalMarkingStep(double duration, intptr_t bytes);

	void AddIncrementalMarkingFinalizationStep(double duration);

	// Log time spent in marking.
	void AddMarkingTime(double duration) {
	cumulative_marking_duration_ += duration;
	}

	// Time spent in marking.
	double cumulative_marking_duration() const {
	return cumulative_marking_duration_;
	}

	// Log time spent in sweeping on main thread.
	void AddSweepingTime(double duration) {
	cumulative_sweeping_duration_ += duration;
	}

	// Time spent in sweeping on main thread.
	double cumulative_sweeping_duration() const {
	return cumulative_sweeping_duration_;
	}

	// Compute the average incremental marking speed in bytes/millisecond.
	// Returns 0 if no events have been recorded.
	double IncrementalMarkingSpeedInBytesPerMillisecond() const;

	// Compute the average scavenge speed in bytes/millisecond.
	// Returns 0 if no events have been recorded.
	double ScavengeSpeedInBytesPerMillisecond(
	ScavengeSpeedMode mode = kForAllObjects) const;

	// Compute the average compaction speed in bytes/millisecond.
	// Returns 0 if not enough events have been recorded.
	double CompactionSpeedInBytesPerMillisecond() const;

	// Compute the average mark-sweep speed in bytes/millisecond.
	// Returns 0 if no events have been recorded.
	double MarkCompactSpeedInBytesPerMillisecond() const;

	// Compute the average incremental mark-sweep finalize speed in
	// bytes/millisecond.
	// Returns 0 if no events have been recorded.
	double FinalIncrementalMarkCompactSpeedInBytesPerMillisecond() const;

	// Compute the overall mark compact speed including incremental steps
	// and the final mark-compact step.
	double CombinedMarkCompactSpeedInBytesPerMillisecond();

	// Allocation throughput in the new space in bytes/millisecond.
	// Returns 0 if no allocation events have been recorded.
	double NewSpaceAllocationThroughputInBytesPerMillisecond(
	double time_ms = 0) const;

	// Allocation throughput in the old generation in bytes/millisecond in the
	// last time_ms milliseconds.
	// Returns 0 if no allocation events have been recorded.
	double OldGenerationAllocationThroughputInBytesPerMillisecond(
	double time_ms = 0) const;

	// Allocation throughput in heap in bytes/millisecond in the last time_ms
	// milliseconds.
	// Returns 0 if no allocation events have been recorded.
	double AllocationThroughputInBytesPerMillisecond(double time_ms) const;

	// Allocation throughput in heap in bytes/milliseconds in the last
	// kThroughputTimeFrameMs seconds.
	// Returns 0 if no allocation events have been recorded.
	double CurrentAllocationThroughputInBytesPerMillisecond() const;

	// Allocation throughput in old generation in bytes/milliseconds in the last
	// kThroughputTimeFrameMs seconds.
	// Returns 0 if no allocation events have been recorded.
	double CurrentOldGenerationAllocationThroughputInBytesPerMillisecond() const;

	// Computes the context disposal rate in milliseconds. It takes the time
	// frame of the first recorded context disposal to the current time and
	// divides it by the number of recorded events.
	// Returns 0 if no events have been recorded.
	double ContextDisposalRateInMilliseconds() const;

	// Computes the average survival ratio based on the last recorded survival
	// events.
	// Returns 0 if no events have been recorded.
	double AverageSurvivalRatio() const;

	// Returns true if at least one survival event was recorded.
	bool SurvivalEventsRecorded() const;

	// Discard all recorded survival events.
	void ResetSurvivalEvents();

	// Returns the average speed of the events in the buffer.
	// If the buffer is empty, the result is 0.
	// Otherwise, the result is between 1 byte/ms and 1 GB/ms.
	static double AverageSpeed(const RingBuffer<BytesAndDuration>& buffer);
	static double AverageSpeed(const RingBuffer<BytesAndDuration>& buffer,
	const BytesAndDuration& initial, double time_ms);

	void ResetForTesting();

	private:
	// Print one detailed trace line in name=value format.
	// TODO(ernstm): Move to Heap.
	void PrintNVP() const;

	// Print one trace line.
	// TODO(ernstm): Move to Heap.
	void Print() const;

	// Prints a line and also adds it to the heap's ring buffer so that
	// it can be included in later crash dumps.
	void PRINTF_FORMAT(2, 3) Output(const char* format, ...) const;

	void ClearMarkCompactStatistics() {
	cumulative_incremental_marking_steps_ = 0;
	cumulative_incremental_marking_bytes_ = 0;
	cumulative_incremental_marking_duration_ = 0;
	cumulative_pure_incremental_marking_duration_ = 0;
	longest_incremental_marking_step_ = 0;
	cumulative_incremental_marking_finalization_steps_ = 0;
	cumulative_incremental_marking_finalization_duration_ = 0;
	longest_incremental_marking_finalization_step_ = 0;
	cumulative_marking_duration_ = 0;
	cumulative_sweeping_duration_ = 0;
	}

	double TotalExternalTime() const {
	return current_.scopes[Scope::EXTERNAL_WEAK_GLOBAL_HANDLES] +
	current_.scopes[Scope::MC_EXTERNAL_EPILOGUE] +
	current_.scopes[Scope::MC_EXTERNAL_PROLOGUE] +
	current_.scopes[Scope::MC_INCREMENTAL_EXTERNAL_EPILOGUE] +
	current_.scopes[Scope::MC_INCREMENTAL_EXTERNAL_PROLOGUE] +
	current_.scopes[Scope::SCAVENGER_EXTERNAL_EPILOGUE] +
	current_.scopes[Scope::SCAVENGER_EXTERNAL_PROLOGUE];
	}

	// Pointer to the heap that owns this tracer.
	Heap* heap_;

	// Current tracer event. Populated during Start/Stop cycle. Valid after Stop()
	// has returned.
	Event current_;

	// Previous tracer event.
	Event previous_;

	// Previous INCREMENTAL_MARK_COMPACTOR event.
	Event previous_incremental_mark_compactor_event_;

	// Cumulative number of incremental marking steps since creation of tracer.
	int cumulative_incremental_marking_steps_;

	// Cumulative size of incremental marking steps (in bytes) since creation of
	// tracer.
	intptr_t cumulative_incremental_marking_bytes_;

	// Cumulative duration of incremental marking steps since creation of tracer.
	double cumulative_incremental_marking_duration_;

	// Cumulative duration of pure incremental marking steps since creation of
	// tracer.
	double cumulative_pure_incremental_marking_duration_;

	// Longest incremental marking step since start of marking.
	double longest_incremental_marking_step_;

	// Cumulative number of incremental marking finalization steps since creation
	// of tracer.
	int cumulative_incremental_marking_finalization_steps_;

	// Cumulative duration of incremental marking finalization steps since
	// creation of tracer.
	double cumulative_incremental_marking_finalization_duration_;

	// Longest incremental marking finalization step since start of marking.
	double longest_incremental_marking_finalization_step_;

	// Total marking time.
	// This timer is precise when run with --print-cumulative-gc-stat
	double cumulative_marking_duration_;

	// Total sweeping time on the main thread.
	// This timer is precise when run with --print-cumulative-gc-stat
	// TODO(hpayer): Account for sweeping time on sweeper threads. Add a
	// different field for that.
	// TODO(hpayer): This timer right now just holds the sweeping time
	// of the initial atomic sweeping pause. Make sure that it accumulates
	// all sweeping operations performed on the main thread.
	double cumulative_sweeping_duration_;

	// Timestamp and allocation counter at the last sampled allocation event.
	double allocation_time_ms_;
	size_t new_space_allocation_counter_bytes_;
	size_t old_generation_allocation_counter_bytes_;

	// Accumulated duration and allocated bytes since the last GC.
	double allocation_duration_since_gc_;
	size_t new_space_allocation_in_bytes_since_gc_;
	size_t old_generation_allocation_in_bytes_since_gc_;

	double combined_mark_compact_speed_cache_;

	// Counts how many tracers were started without stopping.
	int start_counter_;

	// Separate timer used for --runtime_call_stats
	RuntimeCallTimer timer_;

	RingBuffer<BytesAndDuration> recorded_incremental_marking_steps_;
	RingBuffer<BytesAndDuration> recorded_scavenges_total_;
	RingBuffer<BytesAndDuration> recorded_scavenges_survived_;
	RingBuffer<BytesAndDuration> recorded_compactions_;
	RingBuffer<BytesAndDuration> recorded_mark_compacts_;
	RingBuffer<BytesAndDuration> recorded_incremental_mark_compacts_;
	RingBuffer<BytesAndDuration> recorded_new_generation_allocations_;
	RingBuffer<BytesAndDuration> recorded_old_generation_allocations_;
	RingBuffer<double> recorded_context_disposal_times_;
	RingBuffer<double> recorded_survival_ratios_;

	DISALLOW_COPY_AND_ASSIGN(GCTracer);
	};
	} // namespace internal
	} // namespace v8

	#endif // V8_HEAP_GC_TRACER_H_