counters.h 52.2 KB
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// Copyright 2012 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
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#ifndef V8_COUNTERS_H_
#define V8_COUNTERS_H_

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#include "include/v8.h"
#include "src/allocation.h"
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#include "src/base/platform/elapsed-timer.h"
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#include "src/base/platform/time.h"
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#include "src/builtins.h"
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#include "src/globals.h"
#include "src/objects.h"
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#include "src/runtime/runtime.h"
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namespace v8 {
namespace internal {
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// StatsCounters is an interface for plugging into external
// counters for monitoring.  Counters can be looked up and
// manipulated by name.

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class StatsTable {
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 public:
  // Register an application-defined function where
  // counters can be looked up.
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  void SetCounterFunction(CounterLookupCallback f) {
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    lookup_function_ = f;
  }

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  // Register an application-defined function to create
  // a histogram for passing to the AddHistogramSample function
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  void SetCreateHistogramFunction(CreateHistogramCallback f) {
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    create_histogram_function_ = f;
  }

  // Register an application-defined function to add a sample
  // to a histogram created with CreateHistogram function
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  void SetAddHistogramSampleFunction(AddHistogramSampleCallback f) {
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    add_histogram_sample_function_ = f;
  }

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  bool HasCounterFunction() const {
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    return lookup_function_ != NULL;
  }

  // Lookup the location of a counter by name.  If the lookup
  // is successful, returns a non-NULL pointer for writing the
  // value of the counter.  Each thread calling this function
  // may receive a different location to store it's counter.
  // The return value must not be cached and re-used across
  // threads, although a single thread is free to cache it.
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  int* FindLocation(const char* name) {
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    if (!lookup_function_) return NULL;
    return lookup_function_(name);
  }

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  // Create a histogram by name. If the create is successful,
  // returns a non-NULL pointer for use with AddHistogramSample
  // function. min and max define the expected minimum and maximum
  // sample values. buckets is the maximum number of buckets
  // that the samples will be grouped into.
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  void* CreateHistogram(const char* name,
                        int min,
                        int max,
                        size_t buckets) {
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    if (!create_histogram_function_) return NULL;
    return create_histogram_function_(name, min, max, buckets);
  }

  // Add a sample to a histogram created with the CreateHistogram
  // function.
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  void AddHistogramSample(void* histogram, int sample) {
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    if (!add_histogram_sample_function_) return;
    return add_histogram_sample_function_(histogram, sample);
  }

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 private:
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  StatsTable();

  CounterLookupCallback lookup_function_;
  CreateHistogramCallback create_histogram_function_;
  AddHistogramSampleCallback add_histogram_sample_function_;

  friend class Isolate;

  DISALLOW_COPY_AND_ASSIGN(StatsTable);
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};

// StatsCounters are dynamically created values which can be tracked in
// the StatsTable.  They are designed to be lightweight to create and
// easy to use.
//
// Internally, a counter represents a value in a row of a StatsTable.
// The row has a 32bit value for each process/thread in the table and also
// a name (stored in the table metadata).  Since the storage location can be
// thread-specific, this class cannot be shared across threads.
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class StatsCounter {
 public:
  StatsCounter() { }
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  explicit StatsCounter(Isolate* isolate, const char* name)
      : isolate_(isolate), name_(name), ptr_(NULL), lookup_done_(false) { }
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  // Sets the counter to a specific value.
  void Set(int value) {
    int* loc = GetPtr();
    if (loc) *loc = value;
  }

  // Increments the counter.
  void Increment() {
    int* loc = GetPtr();
    if (loc) (*loc)++;
  }

  void Increment(int value) {
    int* loc = GetPtr();
    if (loc)
      (*loc) += value;
  }

  // Decrements the counter.
  void Decrement() {
    int* loc = GetPtr();
    if (loc) (*loc)--;
  }

  void Decrement(int value) {
    int* loc = GetPtr();
    if (loc) (*loc) -= value;
  }

  // Is this counter enabled?
  // Returns false if table is full.
  bool Enabled() {
    return GetPtr() != NULL;
  }

  // Get the internal pointer to the counter. This is used
  // by the code generator to emit code that manipulates a
  // given counter without calling the runtime system.
  int* GetInternalPointer() {
    int* loc = GetPtr();
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    DCHECK(loc != NULL);
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    return loc;
  }

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  // Reset the cached internal pointer.
  void Reset() { lookup_done_ = false; }

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 protected:
  // Returns the cached address of this counter location.
  int* GetPtr() {
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    if (lookup_done_) return ptr_;
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    lookup_done_ = true;
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    ptr_ = FindLocationInStatsTable();
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    return ptr_;
  }
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 private:
  int* FindLocationInStatsTable() const;
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  Isolate* isolate_;
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  const char* name_;
  int* ptr_;
  bool lookup_done_;
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};

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// A Histogram represents a dynamically created histogram in the StatsTable.
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// It will be registered with the histogram system on first use.
class Histogram {
 public:
  Histogram() { }
  Histogram(const char* name,
            int min,
            int max,
            int num_buckets,
            Isolate* isolate)
      : name_(name),
        min_(min),
        max_(max),
        num_buckets_(num_buckets),
        histogram_(NULL),
        lookup_done_(false),
        isolate_(isolate) { }
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  // Add a single sample to this histogram.
  void AddSample(int sample);
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  // Returns true if this histogram is enabled.
  bool Enabled() {
    return GetHistogram() != NULL;
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  }

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  // Reset the cached internal pointer.
  void Reset() {
    lookup_done_ = false;
  }

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  const char* name() { return name_; }

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 protected:
  // Returns the handle to the histogram.
  void* GetHistogram() {
    if (!lookup_done_) {
      lookup_done_ = true;
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      histogram_ = CreateHistogram();
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    }
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    return histogram_;
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  }
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  Isolate* isolate() const { return isolate_; }

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 private:
  void* CreateHistogram() const;
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  const char* name_;
  int min_;
  int max_;
  int num_buckets_;
  void* histogram_;
  bool lookup_done_;
  Isolate* isolate_;
};
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// A HistogramTimer allows distributions of results to be created.
class HistogramTimer : public Histogram {
 public:
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  enum Resolution {
    MILLISECOND,
    MICROSECOND
  };

  HistogramTimer() {}
  HistogramTimer(const char* name, int min, int max, Resolution resolution,
                 int num_buckets, Isolate* isolate)
      : Histogram(name, min, max, num_buckets, isolate),
        resolution_(resolution) {}
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  // Start the timer.
  void Start();

  // Stop the timer and record the results.
  void Stop();

  // Returns true if the timer is running.
  bool Running() {
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    return Enabled() && timer_.IsStarted();
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  }
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  // TODO(bmeurer): Remove this when HistogramTimerScope is fixed.
#ifdef DEBUG
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  base::ElapsedTimer* timer() { return &timer_; }
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#endif

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 private:
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  base::ElapsedTimer timer_;
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  Resolution resolution_;
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};

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// Helper class for scoping a HistogramTimer.
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// TODO(bmeurer): The ifdeffery is an ugly hack around the fact that the
// Parser is currently reentrant (when it throws an error, we call back
// into JavaScript and all bets are off), but ElapsedTimer is not
// reentry-safe. Fix this properly and remove |allow_nesting|.
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class HistogramTimerScope BASE_EMBEDDED {
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 public:
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  explicit HistogramTimerScope(HistogramTimer* timer,
                               bool allow_nesting = false)
#ifdef DEBUG
      : timer_(timer),
        skipped_timer_start_(false) {
    if (timer_->timer()->IsStarted() && allow_nesting) {
      skipped_timer_start_ = true;
    } else {
      timer_->Start();
    }
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  }
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#else
      : timer_(timer) {
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    timer_->Start();
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  }
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#endif
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  ~HistogramTimerScope() {
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#ifdef DEBUG
    if (!skipped_timer_start_) {
      timer_->Stop();
    }
#else
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    timer_->Stop();
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#endif
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  }
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 private:
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  HistogramTimer* timer_;
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#ifdef DEBUG
  bool skipped_timer_start_;
#endif
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};

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// A histogram timer that can aggregate events within a larger scope.
//
// Intended use of this timer is to have an outer (aggregating) and an inner
// (to be aggregated) scope, where the inner scope measure the time of events,
// and all those inner scope measurements will be summed up by the outer scope.
// An example use might be to aggregate the time spent in lazy compilation
// while running a script.
//
// Helpers:
// - AggregatingHistogramTimerScope, the "outer" scope within which
//     times will be summed up.
// - AggregatedHistogramTimerScope, the "inner" scope which defines the
//     events to be timed.
class AggregatableHistogramTimer : public Histogram {
 public:
  AggregatableHistogramTimer() {}
  AggregatableHistogramTimer(const char* name, int min, int max,
                             int num_buckets, Isolate* isolate)
      : Histogram(name, min, max, num_buckets, isolate) {}

  // Start/stop the "outer" scope.
  void Start() { time_ = base::TimeDelta(); }
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  void Stop() { AddSample(static_cast<int>(time_.InMicroseconds())); }
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  // Add a time value ("inner" scope).
  void Add(base::TimeDelta other) { time_ += other; }

 private:
  base::TimeDelta time_;
};

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// A helper class for use with AggregatableHistogramTimer. This is the
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// // outer-most timer scope used with an AggregatableHistogramTimer. It will
// // aggregate the information from the inner AggregatedHistogramTimerScope.
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class AggregatingHistogramTimerScope {
 public:
  explicit AggregatingHistogramTimerScope(AggregatableHistogramTimer* histogram)
      : histogram_(histogram) {
    histogram_->Start();
  }
  ~AggregatingHistogramTimerScope() { histogram_->Stop(); }

 private:
  AggregatableHistogramTimer* histogram_;
};

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// A helper class for use with AggregatableHistogramTimer, the "inner" scope
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// // which defines the events to be timed.
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class AggregatedHistogramTimerScope {
 public:
  explicit AggregatedHistogramTimerScope(AggregatableHistogramTimer* histogram)
      : histogram_(histogram) {
    timer_.Start();
  }
  ~AggregatedHistogramTimerScope() { histogram_->Add(timer_.Elapsed()); }

 private:
  base::ElapsedTimer timer_;
  AggregatableHistogramTimer* histogram_;
};


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// AggretatedMemoryHistogram collects (time, value) sample pairs and turns
// them into time-uniform samples for the backing historgram, such that the
// backing histogram receives one sample every T ms, where the T is controlled
// by the FLAG_histogram_interval.
//
// More formally: let F be a real-valued function that maps time to sample
// values. We define F as a linear interpolation between adjacent samples. For
// each time interval [x; x + T) the backing histogram gets one sample value
// that is the average of F(t) in the interval.
template <typename Histogram>
class AggregatedMemoryHistogram {
 public:
  AggregatedMemoryHistogram()
      : is_initialized_(false),
        start_ms_(0.0),
        last_ms_(0.0),
        aggregate_value_(0.0),
        last_value_(0.0),
        backing_histogram_(NULL) {}

  explicit AggregatedMemoryHistogram(Histogram* backing_histogram)
      : AggregatedMemoryHistogram() {
    backing_histogram_ = backing_histogram;
  }

  // Invariants that hold before and after AddSample if
  // is_initialized_ is true:
  //
  // 1) For we processed samples that came in before start_ms_ and sent the
  // corresponding aggregated samples to backing histogram.
  // 2) (last_ms_, last_value_) is the last received sample.
  // 3) last_ms_ < start_ms_ + FLAG_histogram_interval.
  // 4) aggregate_value_ is the average of the function that is constructed by
  // linearly interpolating samples received between start_ms_ and last_ms_.
  void AddSample(double current_ms, double current_value);

 private:
  double Aggregate(double current_ms, double current_value);
  bool is_initialized_;
  double start_ms_;
  double last_ms_;
  double aggregate_value_;
  double last_value_;
  Histogram* backing_histogram_;
};


template <typename Histogram>
void AggregatedMemoryHistogram<Histogram>::AddSample(double current_ms,
                                                     double current_value) {
  if (!is_initialized_) {
    aggregate_value_ = current_value;
    start_ms_ = current_ms;
    last_value_ = current_value;
    last_ms_ = current_ms;
    is_initialized_ = true;
  } else {
    const double kEpsilon = 1e-6;
    const int kMaxSamples = 1000;
    if (current_ms < last_ms_ + kEpsilon) {
      // Two samples have the same time, remember the last one.
      last_value_ = current_value;
    } else {
      double sample_interval_ms = FLAG_histogram_interval;
      double end_ms = start_ms_ + sample_interval_ms;
      if (end_ms <= current_ms + kEpsilon) {
        // Linearly interpolate between the last_ms_ and the current_ms.
        double slope = (current_value - last_value_) / (current_ms - last_ms_);
        int i;
        // Send aggregated samples to the backing histogram from the start_ms
        // to the current_ms.
        for (i = 0; i < kMaxSamples && end_ms <= current_ms + kEpsilon; i++) {
          double end_value = last_value_ + (end_ms - last_ms_) * slope;
          double sample_value;
          if (i == 0) {
            // Take aggregate_value_ into account.
            sample_value = Aggregate(end_ms, end_value);
          } else {
            // There is no aggregate_value_ for i > 0.
            sample_value = (last_value_ + end_value) / 2;
          }
          backing_histogram_->AddSample(static_cast<int>(sample_value + 0.5));
          last_value_ = end_value;
          last_ms_ = end_ms;
          end_ms += sample_interval_ms;
        }
        if (i == kMaxSamples) {
          // We hit the sample limit, ignore the remaining samples.
          aggregate_value_ = current_value;
          start_ms_ = current_ms;
        } else {
          aggregate_value_ = last_value_;
          start_ms_ = last_ms_;
        }
      }
      aggregate_value_ = current_ms > start_ms_ + kEpsilon
                             ? Aggregate(current_ms, current_value)
                             : aggregate_value_;
      last_value_ = current_value;
      last_ms_ = current_ms;
    }
  }
}


template <typename Histogram>
double AggregatedMemoryHistogram<Histogram>::Aggregate(double current_ms,
                                                       double current_value) {
  double interval_ms = current_ms - start_ms_;
  double value = (current_value + last_value_) / 2;
  // The aggregate_value_ is the average for [start_ms_; last_ms_].
  // The value is the average for [last_ms_; current_ms].
  // Return the weighted average of the aggregate_value_ and the value.
  return aggregate_value_ * ((last_ms_ - start_ms_) / interval_ms) +
         value * ((current_ms - last_ms_) / interval_ms);
}

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struct RuntimeCallCounter {
  explicit RuntimeCallCounter(const char* name) : name(name) {}
  void Reset();

  const char* name;
  int64_t count = 0;
  base::TimeDelta time;
};

// RuntimeCallTimer is used to keep track of the stack of currently active
// timers used for properly measuring the own time of a RuntimeCallCounter.
class RuntimeCallTimer {
 public:
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  RuntimeCallTimer() {}
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  RuntimeCallCounter* counter() { return counter_; }
  base::ElapsedTimer timer() { return timer_; }
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 private:
  friend class RuntimeCallStats;

  inline void Start(RuntimeCallCounter* counter, RuntimeCallTimer* parent) {
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    counter_ = counter;
    parent_ = parent;
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    timer_.Start();
  }

  inline RuntimeCallTimer* Stop() {
    base::TimeDelta delta = timer_.Elapsed();
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    timer_.Stop();
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    counter_->count++;
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    counter_->time += delta;
    if (parent_ != NULL) {
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      // Adjust parent timer so that it does not include sub timer's time.
      parent_->counter_->time -= delta;
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    }
    return parent_;
  }

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  RuntimeCallCounter* counter_ = nullptr;
  RuntimeCallTimer* parent_ = nullptr;
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  base::ElapsedTimer timer_;
};

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#define FOR_EACH_API_COUNTER(V)                            \
  V(ArrayBuffer_Cast)                                      \
  V(ArrayBuffer_Neuter)                                    \
  V(ArrayBuffer_New)                                       \
  V(Array_CloneElementAt)                                  \
  V(Array_New)                                             \
  V(BooleanObject_BooleanValue)                            \
  V(BooleanObject_New)                                     \
  V(Context_New)                                           \
  V(DataView_New)                                          \
  V(Date_DateTimeConfigurationChangeNotification)          \
  V(Date_New)                                              \
  V(Date_NumberValue)                                      \
  V(Debug_Call)                                            \
  V(Debug_GetMirror)                                       \
  V(Error_New)                                             \
  V(External_New)                                          \
  V(Float32Array_New)                                      \
  V(Float64Array_New)                                      \
  V(Function_Call)                                         \
  V(Function_New)                                          \
  V(Function_NewInstance)                                  \
  V(FunctionTemplate_GetFunction)                          \
  V(FunctionTemplate_New)                                  \
  V(FunctionTemplate_NewWithFastHandler)                   \
  V(Int16Array_New)                                        \
  V(Int32Array_New)                                        \
  V(Int8Array_New)                                         \
  V(JSON_Parse)                                            \
  V(JSON_Stringify)                                        \
  V(Map_AsArray)                                           \
  V(Map_Clear)                                             \
  V(Map_Delete)                                            \
  V(Map_Get)                                               \
  V(Map_Has)                                               \
  V(Map_New)                                               \
  V(Map_Set)                                               \
  V(Message_GetEndColumn)                                  \
  V(Message_GetLineNumber)                                 \
  V(Message_GetSourceLine)                                 \
  V(Message_GetStartColumn)                                \
  V(NumberObject_New)                                      \
  V(NumberObject_NumberValue)                              \
  V(Object_CallAsConstructor)                              \
  V(Object_CallAsFunction)                                 \
  V(Object_CreateDataProperty)                             \
  V(Object_DefineOwnProperty)                              \
  V(Object_Delete)                                         \
  V(Object_DeleteProperty)                                 \
  V(Object_ForceSet)                                       \
  V(Object_Get)                                            \
  V(Object_GetOwnPropertyDescriptor)                       \
  V(Object_GetOwnPropertyNames)                            \
  V(Object_GetPropertyAttributes)                          \
  V(Object_GetPropertyNames)                               \
  V(Object_GetRealNamedProperty)                           \
  V(Object_GetRealNamedPropertyAttributes)                 \
  V(Object_GetRealNamedPropertyAttributesInPrototypeChain) \
  V(Object_GetRealNamedPropertyInPrototypeChain)           \
  V(Object_HasOwnProperty)                                 \
  V(Object_HasRealIndexedProperty)                         \
  V(Object_HasRealNamedCallbackProperty)                   \
  V(Object_HasRealNamedProperty)                           \
  V(Object_Int32Value)                                     \
  V(Object_IntegerValue)                                   \
  V(Object_New)                                            \
  V(Object_NumberValue)                                    \
  V(Object_ObjectProtoToString)                            \
  V(Object_Set)                                            \
  V(Object_SetAccessor)                                    \
  V(Object_SetIntegrityLevel)                              \
  V(Object_SetPrivate)                                     \
  V(Object_SetPrototype)                                   \
  V(ObjectTemplate_New)                                    \
  V(ObjectTemplate_NewInstance)                            \
  V(Object_ToArrayIndex)                                   \
  V(Object_ToDetailString)                                 \
  V(Object_ToInt32)                                        \
  V(Object_ToInteger)                                      \
  V(Object_ToNumber)                                       \
  V(Object_ToObject)                                       \
  V(Object_ToString)                                       \
  V(Object_ToUint32)                                       \
  V(Object_Uint32Value)                                    \
  V(Persistent_New)                                        \
  V(Private_New)                                           \
  V(Promise_Catch)                                         \
  V(Promise_Chain)                                         \
  V(Promise_HasRejectHandler)                              \
  V(Promise_Resolver_New)                                  \
  V(Promise_Resolver_Resolve)                              \
  V(Promise_Then)                                          \
  V(Proxy_New)                                             \
  V(RangeError_New)                                        \
  V(ReferenceError_New)                                    \
  V(RegExp_New)                                            \
  V(ScriptCompiler_Compile)                                \
  V(ScriptCompiler_CompileFunctionInContext)               \
  V(ScriptCompiler_CompileUnbound)                         \
  V(Script_Run)                                            \
  V(Set_Add)                                               \
  V(Set_AsArray)                                           \
  V(Set_Clear)                                             \
  V(Set_Delete)                                            \
  V(Set_Has)                                               \
  V(Set_New)                                               \
  V(SharedArrayBuffer_New)                                 \
  V(String_Concat)                                         \
  V(String_NewExternalOneByte)                             \
  V(String_NewExternalTwoByte)                             \
  V(String_NewFromOneByte)                                 \
  V(String_NewFromTwoByte)                                 \
  V(String_NewFromUtf8)                                    \
  V(StringObject_New)                                      \
  V(StringObject_StringValue)                              \
  V(String_Write)                                          \
  V(String_WriteUtf8)                                      \
  V(Symbol_New)                                            \
  V(SymbolObject_New)                                      \
  V(SymbolObject_SymbolValue)                              \
  V(SyntaxError_New)                                       \
  V(TryCatch_StackTrace)                                   \
  V(TypeError_New)                                         \
  V(Uint16Array_New)                                       \
  V(Uint32Array_New)                                       \
  V(Uint8Array_New)                                        \
  V(Uint8ClampedArray_New)                                 \
  V(UnboundScript_GetId)                                   \
  V(UnboundScript_GetLineNumber)                           \
  V(UnboundScript_GetName)                                 \
  V(UnboundScript_GetSourceMappingURL)                     \
  V(UnboundScript_GetSourceURL)                            \
  V(Value_TypeOf)

#define FOR_EACH_MANUAL_COUNTER(V)                  \
  V(AccessorGetterCallback)                         \
  V(AccessorNameGetterCallback)                     \
  V(AccessorNameSetterCallback)                     \
  V(Compile)                                        \
  V(CompileCode)                                    \
  V(CompileDeserialize)                             \
  V(CompileEval)                                    \
  V(CompileFullCode)                                \
  V(CompileIgnition)                                \
  V(CompileSerialize)                               \
  V(DeoptimizeCode)                                 \
  V(FunctionCallback)                               \
  V(GC)                                             \
  V(GenericNamedPropertyDeleterCallback)            \
  V(GenericNamedPropertyQueryCallback)              \
  V(GenericNamedPropertySetterCallback)             \
  V(IndexedPropertyDeleterCallback)                 \
  V(IndexedPropertyGetterCallback)                  \
  V(IndexedPropertyQueryCallback)                   \
  V(IndexedPropertySetterCallback)                  \
  V(InvokeFunctionCallback)                         \
  V(JS_Execution)                                   \
  V(Map_SetPrototype)                               \
  V(Map_TransitionToAccessorProperty)               \
  V(Map_TransitionToDataProperty)                   \
  V(Object_DeleteProperty)                          \
  V(OptimizeCode)                                   \
  V(Parse)                                          \
  V(ParseLazy)                                      \
  V(PropertyCallback)                               \
  V(PrototypeMap_TransitionToAccessorProperty)      \
  V(PrototypeMap_TransitionToDataProperty)          \
  V(PrototypeObject_DeleteProperty)                 \
  V(RecompileConcurrent)                            \
  V(RecompileSynchronous)                           \
  /* Dummy counter for the unexpected stub miss. */ \
  V(UnexpectedStubMiss)
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#define FOR_EACH_HANDLER_COUNTER(V)             \
  V(IC_HandlerCacheHit)                         \
  V(KeyedLoadIC_LoadIndexedStringStub)          \
  V(KeyedLoadIC_LoadIndexedInterceptorStub)     \
  V(KeyedLoadIC_KeyedLoadSloppyArgumentsStub)   \
  V(KeyedLoadIC_LoadFastElementStub)            \
  V(KeyedLoadIC_LoadDictionaryElementStub)      \
  V(KeyedLoadIC_PolymorphicElement)             \
  V(KeyedStoreIC_KeyedStoreSloppyArgumentsStub) \
  V(KeyedStoreIC_StoreFastElementStub)          \
  V(KeyedStoreIC_StoreElementStub)              \
  V(KeyedStoreIC_Polymorphic)                   \
  V(LoadIC_FunctionPrototypeStub)               \
  V(LoadIC_LoadApiGetterStub)                   \
  V(LoadIC_LoadCallback)                        \
  V(LoadIC_LoadConstant)                        \
  V(LoadIC_LoadConstantStub)                    \
  V(LoadIC_LoadField)                           \
  V(LoadIC_LoadFieldStub)                       \
  V(LoadIC_LoadGlobal)                          \
  V(LoadIC_LoadInterceptor)                     \
  V(LoadIC_LoadNonexistent)                     \
  V(LoadIC_LoadNormal)                          \
  V(LoadIC_LoadScriptContextFieldStub)          \
  V(LoadIC_LoadViaGetter)                       \
  V(LoadIC_SlowStub)                            \
  V(LoadIC_StringLengthStub)                    \
  V(StoreIC_SlowStub)                           \
  V(StoreIC_StoreCallback)                      \
  V(StoreIC_StoreField)                         \
  V(StoreIC_StoreFieldStub)                     \
  V(StoreIC_StoreGlobal)                        \
  V(StoreIC_StoreGlobalTransition)              \
  V(StoreIC_StoreInterceptorStub)               \
  V(StoreIC_StoreNormal)                        \
  V(StoreIC_StoreScriptContextFieldStub)        \
  V(StoreIC_StoreTransition)                    \
  V(StoreIC_StoreViaSetter)

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class RuntimeCallStats {
 public:
  typedef RuntimeCallCounter RuntimeCallStats::*CounterId;

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#define CALL_RUNTIME_COUNTER(name) \
  RuntimeCallCounter name = RuntimeCallCounter(#name);
  FOR_EACH_MANUAL_COUNTER(CALL_RUNTIME_COUNTER)
#undef CALL_RUNTIME_COUNTER
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#define CALL_RUNTIME_COUNTER(name, nargs, ressize) \
  RuntimeCallCounter Runtime_##name = RuntimeCallCounter(#name);
  FOR_EACH_INTRINSIC(CALL_RUNTIME_COUNTER)
#undef CALL_RUNTIME_COUNTER
#define CALL_BUILTIN_COUNTER(name, type) \
  RuntimeCallCounter Builtin_##name = RuntimeCallCounter(#name);
  BUILTIN_LIST_C(CALL_BUILTIN_COUNTER)
#undef CALL_BUILTIN_COUNTER
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#define CALL_BUILTIN_COUNTER(name) \
  RuntimeCallCounter API_##name = RuntimeCallCounter("API_" #name);
  FOR_EACH_API_COUNTER(CALL_BUILTIN_COUNTER)
#undef CALL_BUILTIN_COUNTER
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#define CALL_BUILTIN_COUNTER(name) \
  RuntimeCallCounter Handler_##name = RuntimeCallCounter(#name);
  FOR_EACH_HANDLER_COUNTER(CALL_BUILTIN_COUNTER)
#undef CALL_BUILTIN_COUNTER
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  // Starting measuring the time for a function. This will establish the
  // connection to the parent counter for properly calculating the own times.
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  static void Enter(Isolate* isolate, RuntimeCallTimer* timer,
                    CounterId counter_id);

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  // Leave a scope for a measured runtime function. This will properly add
  // the time delta to the current_counter and subtract the delta from its
  // parent.
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  static void Leave(Isolate* isolate, RuntimeCallTimer* timer);
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  // Set counter id for the innermost measurement. It can be used to refine
  // event kind when a runtime entry counter is too generic.
  static void CorrectCurrentCounterId(Isolate* isolate, CounterId counter_id);

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  void Reset();
  void Print(std::ostream& os);

  RuntimeCallStats() { Reset(); }
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  RuntimeCallTimer* current_timer() { return current_timer_; }
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 private:
  // Counter to track recursive time events.
  RuntimeCallTimer* current_timer_ = NULL;
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};

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#define TRACE_RUNTIME_CALL_STATS(isolate, counter_name) \
  do {                                                  \
    if (FLAG_runtime_call_stats) {                      \
      RuntimeCallStats::CorrectCurrentCounterId(        \
          isolate, &RuntimeCallStats::counter_name);    \
    }                                                   \
  } while (false)

#define TRACE_HANDLER_STATS(isolate, counter_name) \
  TRACE_RUNTIME_CALL_STATS(isolate, Handler_##counter_name)

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// A RuntimeCallTimerScopes wraps around a RuntimeCallTimer to measure the
// the time of C++ scope.
class RuntimeCallTimerScope {
 public:
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  inline RuntimeCallTimerScope(Isolate* isolate,
                               RuntimeCallStats::CounterId counter_id) {
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    if (V8_UNLIKELY(FLAG_runtime_call_stats)) {
      isolate_ = isolate;
      RuntimeCallStats::Enter(isolate_, &timer_, counter_id);
    }
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  }
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  // This constructor is here just to avoid calling GetIsolate() when the
  // stats are disabled and the isolate is not directly available.
  inline RuntimeCallTimerScope(HeapObject* heap_object,
                               RuntimeCallStats::CounterId counter_id);

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  inline ~RuntimeCallTimerScope() {
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    if (V8_UNLIKELY(FLAG_runtime_call_stats)) {
      RuntimeCallStats::Leave(isolate_, &timer_);
    }
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  }

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 private:
  Isolate* isolate_;
  RuntimeCallTimer timer_;
};
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#define HISTOGRAM_RANGE_LIST(HR)                                              \
  /* Generic range histograms */                                              \
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  HR(detached_context_age_in_gc, V8.DetachedContextAgeInGC, 0, 20, 21)        \
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  HR(gc_idle_time_allotted_in_ms, V8.GCIdleTimeAllottedInMS, 0, 10000, 101)   \
  HR(gc_idle_time_limit_overshot, V8.GCIdleTimeLimit.Overshot, 0, 10000, 101) \
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  HR(gc_idle_time_limit_undershot, V8.GCIdleTimeLimit.Undershot, 0, 10000,    \
     101)                                                                     \
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  HR(code_cache_reject_reason, V8.CodeCacheRejectReason, 1, 6, 6)             \
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  HR(errors_thrown_per_context, V8.ErrorsThrownPerContext, 0, 200, 20)        \
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  HR(debug_feature_usage, V8.DebugFeatureUsage, 1, 7, 7)                      \
  /* Asm/Wasm. */                                                             \
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  HR(wasm_functions_per_module, V8.WasmFunctionsPerModule, 1, 10000, 51)
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#define HISTOGRAM_TIMER_LIST(HT)                                               \
  /* Garbage collection timers. */                                             \
  HT(gc_compactor, V8.GCCompactor, 10000, MILLISECOND)                         \
  HT(gc_finalize, V8.GCFinalizeMC, 10000, MILLISECOND)                         \
  HT(gc_finalize_reduce_memory, V8.GCFinalizeMCReduceMemory, 10000,            \
     MILLISECOND)                                                              \
  HT(gc_scavenger, V8.GCScavenger, 10000, MILLISECOND)                         \
  HT(gc_context, V8.GCContext, 10000,                                          \
     MILLISECOND) /* GC context cleanup time */                                \
  HT(gc_idle_notification, V8.GCIdleNotification, 10000, MILLISECOND)          \
  HT(gc_incremental_marking, V8.GCIncrementalMarking, 10000, MILLISECOND)      \
  HT(gc_incremental_marking_start, V8.GCIncrementalMarkingStart, 10000,        \
     MILLISECOND)                                                              \
  HT(gc_incremental_marking_finalize, V8.GCIncrementalMarkingFinalize, 10000,  \
     MILLISECOND)                                                              \
  HT(gc_low_memory_notification, V8.GCLowMemoryNotification, 10000,            \
     MILLISECOND)                                                              \
  /* Parsing timers. */                                                        \
  HT(parse, V8.ParseMicroSeconds, 1000000, MICROSECOND)                        \
  HT(parse_lazy, V8.ParseLazyMicroSeconds, 1000000, MICROSECOND)               \
  HT(pre_parse, V8.PreParseMicroSeconds, 1000000, MICROSECOND)                 \
  /* Compilation times. */                                                     \
  HT(compile, V8.CompileMicroSeconds, 1000000, MICROSECOND)                    \
  HT(compile_eval, V8.CompileEvalMicroSeconds, 1000000, MICROSECOND)           \
  /* Serialization as part of compilation (code caching) */                    \
  HT(compile_serialize, V8.CompileSerializeMicroSeconds, 100000, MICROSECOND)  \
  HT(compile_deserialize, V8.CompileDeserializeMicroSeconds, 1000000,          \
     MICROSECOND)                                                              \
  /* Total compilation time incl. caching/parsing */                           \
  HT(compile_script, V8.CompileScriptMicroSeconds, 1000000, MICROSECOND)       \
  /* Total JavaScript execution time (including callbacks and runtime calls */ \
  HT(execute, V8.Execute, 1000000, MICROSECOND)                                \
  /* Asm/Wasm */                                                               \
  HT(wasm_instantiate_module_time, V8.WasmInstantiateModuleMicroSeconds,       \
     1000000, MICROSECOND)                                                     \
  HT(wasm_decode_module_time, V8.WasmDecodeModuleMicroSeconds, 1000000,        \
     MICROSECOND)                                                              \
  HT(wasm_decode_function_time, V8.WasmDecodeFunctionMicroSeconds, 1000000,    \
     MICROSECOND)                                                              \
  HT(wasm_compile_module_time, V8.WasmCompileModuleMicroSeconds, 1000000,      \
     MICROSECOND)                                                              \
  HT(wasm_compile_function_time, V8.WasmCompileFunctionMicroSeconds, 1000000,  \
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     MICROSECOND)
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#define AGGREGATABLE_HISTOGRAM_TIMER_LIST(AHT) \
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  AHT(compile_lazy, V8.CompileLazyMicroSeconds)
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#define HISTOGRAM_PERCENTAGE_LIST(HP)                                          \
  /* Heap fragmentation. */                                                    \
  HP(external_fragmentation_total, V8.MemoryExternalFragmentationTotal)        \
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  HP(external_fragmentation_old_space, V8.MemoryExternalFragmentationOldSpace) \
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  HP(external_fragmentation_code_space,                                        \
     V8.MemoryExternalFragmentationCodeSpace)                                  \
  HP(external_fragmentation_map_space, V8.MemoryExternalFragmentationMapSpace) \
  HP(external_fragmentation_lo_space, V8.MemoryExternalFragmentationLoSpace)   \
  /* Percentages of heap committed to each space. */                           \
  HP(heap_fraction_new_space, V8.MemoryHeapFractionNewSpace)                   \
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  HP(heap_fraction_old_space, V8.MemoryHeapFractionOldSpace)                   \
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  HP(heap_fraction_code_space, V8.MemoryHeapFractionCodeSpace)                 \
  HP(heap_fraction_map_space, V8.MemoryHeapFractionMapSpace)                   \
  HP(heap_fraction_lo_space, V8.MemoryHeapFractionLoSpace)                     \
  /* Percentage of crankshafted codegen. */                                    \
  HP(codegen_fraction_crankshaft, V8.CodegenFractionCrankshaft)
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#define HISTOGRAM_LEGACY_MEMORY_LIST(HM)                                      \
  HM(heap_sample_total_committed, V8.MemoryHeapSampleTotalCommitted)          \
  HM(heap_sample_total_used, V8.MemoryHeapSampleTotalUsed)                    \
  HM(heap_sample_map_space_committed, V8.MemoryHeapSampleMapSpaceCommitted)   \
  HM(heap_sample_code_space_committed, V8.MemoryHeapSampleCodeSpaceCommitted) \
  HM(heap_sample_maximum_committed, V8.MemoryHeapSampleMaximumCommitted)

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#define HISTOGRAM_MEMORY_LIST(HM)                                              \
  HM(memory_heap_committed, V8.MemoryHeapCommitted)                            \
  HM(memory_heap_used, V8.MemoryHeapUsed)                                      \
  /* Asm/Wasm */                                                               \
  HM(wasm_decode_module_peak_memory_bytes, V8.WasmDecodeModulePeakMemoryBytes) \
  HM(wasm_compile_function_peak_memory_bytes,                                  \
     V8.WasmCompileFunctionPeakMemoryBytes)                                    \
  HM(wasm_min_mem_pages_count, V8.WasmMinMemPagesCount)                        \
  HM(wasm_max_mem_pages_count, V8.WasmMaxMemPagesCount)                        \
  HM(wasm_function_size_bytes, V8.WasmFunctionSizeBytes)                       \
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  HM(wasm_module_size_bytes, V8.WasmModuleSizeBytes)
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// WARNING: STATS_COUNTER_LIST_* is a very large macro that is causing MSVC
// Intellisense to crash.  It was broken into two macros (each of length 40
// lines) rather than one macro (of length about 80 lines) to work around
// this problem.  Please avoid using recursive macros of this length when
// possible.
#define STATS_COUNTER_LIST_1(SC)                                      \
  /* Global Handle Count*/                                            \
  SC(global_handles, V8.GlobalHandles)                                \
  /* OS Memory allocated */                                           \
  SC(memory_allocated, V8.OsMemoryAllocated)                          \
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  SC(maps_normalized, V8.MapsNormalized)                            \
  SC(maps_created, V8.MapsCreated)                                  \
  SC(elements_transitions, V8.ObjectElementsTransitions)            \
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  SC(props_to_dictionary, V8.ObjectPropertiesToDictionary)            \
  SC(elements_to_dictionary, V8.ObjectElementsToDictionary)           \
  SC(alive_after_last_gc, V8.AliveAfterLastGC)                        \
  SC(objs_since_last_young, V8.ObjsSinceLastYoung)                    \
  SC(objs_since_last_full, V8.ObjsSinceLastFull)                      \
  SC(string_table_capacity, V8.StringTableCapacity)                   \
  SC(number_of_symbols, V8.NumberOfSymbols)                           \
  SC(script_wrappers, V8.ScriptWrappers)                              \
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  SC(inlined_copied_elements, V8.InlinedCopiedElements)               \
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  SC(arguments_adaptors, V8.ArgumentsAdaptors)                        \
  SC(compilation_cache_hits, V8.CompilationCacheHits)                 \
  SC(compilation_cache_misses, V8.CompilationCacheMisses)             \
  /* Amount of evaled source code. */                                 \
  SC(total_eval_size, V8.TotalEvalSize)                               \
  /* Amount of loaded source code. */                                 \
  SC(total_load_size, V8.TotalLoadSize)                               \
  /* Amount of parsed source code. */                                 \
  SC(total_parse_size, V8.TotalParseSize)                             \
  /* Amount of source code skipped over using preparsing. */          \
  SC(total_preparse_skipped, V8.TotalPreparseSkipped)                 \
  /* Amount of compiled source code. */                               \
  SC(total_compile_size, V8.TotalCompileSize)                         \
  /* Amount of source code compiled with the full codegen. */         \
  SC(total_full_codegen_source_size, V8.TotalFullCodegenSourceSize)   \
  /* Number of contexts created from scratch. */                      \
  SC(contexts_created_from_scratch, V8.ContextsCreatedFromScratch)    \
  /* Number of contexts created by partial snapshot. */               \
  SC(contexts_created_by_snapshot, V8.ContextsCreatedBySnapshot)      \
  /* Number of code objects found from pc. */                         \
  SC(pc_to_code, V8.PcToCode)                                         \
  SC(pc_to_code_cached, V8.PcToCodeCached)                            \
  /* The store-buffer implementation of the write barrier. */         \
  SC(store_buffer_overflows, V8.StoreBufferOverflows)

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#define STATS_COUNTER_LIST_2(SC)                                               \
  /* Number of code stubs. */                                                  \
  SC(code_stubs, V8.CodeStubs)                                                 \
  /* Amount of stub code. */                                                   \
  SC(total_stubs_code_size, V8.TotalStubsCodeSize)                             \
  /* Amount of (JS) compiled code. */                                          \
  SC(total_compiled_code_size, V8.TotalCompiledCodeSize)                       \
  SC(gc_compactor_caused_by_request, V8.GCCompactorCausedByRequest)            \
  SC(gc_compactor_caused_by_promoted_data, V8.GCCompactorCausedByPromotedData) \
  SC(gc_compactor_caused_by_oldspace_exhaustion,                               \
     V8.GCCompactorCausedByOldspaceExhaustion)                                 \
  SC(gc_last_resort_from_js, V8.GCLastResortFromJS)                            \
  SC(gc_last_resort_from_handles, V8.GCLastResortFromHandles)                  \
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  SC(ic_keyed_load_generic_smi, V8.ICKeyedLoadGenericSmi)                      \
  SC(ic_keyed_load_generic_symbol, V8.ICKeyedLoadGenericSymbol)                \
  SC(ic_keyed_load_generic_slow, V8.ICKeyedLoadGenericSlow)                    \
  SC(ic_named_load_global_stub, V8.ICNamedLoadGlobalStub)                      \
  SC(ic_store_normal_miss, V8.ICStoreNormalMiss)                               \
  SC(ic_store_normal_hit, V8.ICStoreNormalHit)                                 \
  SC(ic_binary_op_miss, V8.ICBinaryOpMiss)                                     \
  SC(ic_compare_miss, V8.ICCompareMiss)                                        \
  SC(ic_call_miss, V8.ICCallMiss)                                              \
  SC(ic_keyed_call_miss, V8.ICKeyedCallMiss)                                   \
  SC(ic_load_miss, V8.ICLoadMiss)                                              \
  SC(ic_keyed_load_miss, V8.ICKeyedLoadMiss)                                   \
  SC(ic_store_miss, V8.ICStoreMiss)                                            \
  SC(ic_keyed_store_miss, V8.ICKeyedStoreMiss)                                 \
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  SC(cow_arrays_created_runtime, V8.COWArraysCreatedRuntime)                   \
  SC(cow_arrays_converted, V8.COWArraysConverted)                              \
  SC(constructed_objects, V8.ConstructedObjects)                               \
  SC(constructed_objects_runtime, V8.ConstructedObjectsRuntime)                \
  SC(negative_lookups, V8.NegativeLookups)                                     \
  SC(negative_lookups_miss, V8.NegativeLookupsMiss)                            \
  SC(megamorphic_stub_cache_probes, V8.MegamorphicStubCacheProbes)             \
  SC(megamorphic_stub_cache_misses, V8.MegamorphicStubCacheMisses)             \
  SC(megamorphic_stub_cache_updates, V8.MegamorphicStubCacheUpdates)           \
  SC(enum_cache_hits, V8.EnumCacheHits)                                        \
  SC(enum_cache_misses, V8.EnumCacheMisses)                                    \
  SC(fast_new_closure_total, V8.FastNewClosureTotal)                           \
  SC(string_add_runtime, V8.StringAddRuntime)                                  \
  SC(string_add_native, V8.StringAddNative)                                    \
  SC(string_add_runtime_ext_to_one_byte, V8.StringAddRuntimeExtToOneByte)      \
  SC(sub_string_runtime, V8.SubStringRuntime)                                  \
  SC(sub_string_native, V8.SubStringNative)                                    \
  SC(string_compare_native, V8.StringCompareNative)                            \
  SC(string_compare_runtime, V8.StringCompareRuntime)                          \
  SC(regexp_entry_runtime, V8.RegExpEntryRuntime)                              \
  SC(regexp_entry_native, V8.RegExpEntryNative)                                \
  SC(number_to_string_native, V8.NumberToStringNative)                         \
  SC(number_to_string_runtime, V8.NumberToStringRuntime)                       \
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  SC(math_exp_runtime, V8.MathExpRuntime)                                      \
  SC(math_log_runtime, V8.MathLogRuntime)                                      \
  SC(math_pow_runtime, V8.MathPowRuntime)                                      \
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  SC(stack_interrupts, V8.StackInterrupts)                                     \
  SC(runtime_profiler_ticks, V8.RuntimeProfilerTicks)                          \
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  SC(runtime_calls, V8.RuntimeCalls)                                           \
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  SC(bounds_checks_eliminated, V8.BoundsChecksEliminated)                      \
  SC(bounds_checks_hoisted, V8.BoundsChecksHoisted)                            \
  SC(soft_deopts_requested, V8.SoftDeoptsRequested)                            \
  SC(soft_deopts_inserted, V8.SoftDeoptsInserted)                              \
  SC(soft_deopts_executed, V8.SoftDeoptsExecuted)                              \
  /* Number of write barriers in generated code. */                            \
  SC(write_barriers_dynamic, V8.WriteBarriersDynamic)                          \
  SC(write_barriers_static, V8.WriteBarriersStatic)                            \
  SC(new_space_bytes_available, V8.MemoryNewSpaceBytesAvailable)               \
  SC(new_space_bytes_committed, V8.MemoryNewSpaceBytesCommitted)               \
  SC(new_space_bytes_used, V8.MemoryNewSpaceBytesUsed)                         \
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  SC(old_space_bytes_available, V8.MemoryOldSpaceBytesAvailable)               \
  SC(old_space_bytes_committed, V8.MemoryOldSpaceBytesCommitted)               \
  SC(old_space_bytes_used, V8.MemoryOldSpaceBytesUsed)                         \
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  SC(code_space_bytes_available, V8.MemoryCodeSpaceBytesAvailable)             \
  SC(code_space_bytes_committed, V8.MemoryCodeSpaceBytesCommitted)             \
  SC(code_space_bytes_used, V8.MemoryCodeSpaceBytesUsed)                       \
  SC(map_space_bytes_available, V8.MemoryMapSpaceBytesAvailable)               \
  SC(map_space_bytes_committed, V8.MemoryMapSpaceBytesCommitted)               \
  SC(map_space_bytes_used, V8.MemoryMapSpaceBytesUsed)                         \
  SC(lo_space_bytes_available, V8.MemoryLoSpaceBytesAvailable)                 \
  SC(lo_space_bytes_committed, V8.MemoryLoSpaceBytesCommitted)                 \
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  SC(lo_space_bytes_used, V8.MemoryLoSpaceBytesUsed)                           \
  SC(turbo_escape_allocs_replaced, V8.TurboEscapeAllocsReplaced)               \
  SC(crankshaft_escape_allocs_replaced, V8.CrankshaftEscapeAllocsReplaced)     \
  SC(turbo_escape_loads_replaced, V8.TurboEscapeLoadsReplaced)                 \
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  SC(crankshaft_escape_loads_replaced, V8.CrankshaftEscapeLoadsReplaced)       \
  /* Total code size (including metadata) of baseline code or bytecode. */     \
  SC(total_baseline_code_size, V8.TotalBaselineCodeSize)                       \
  /* Total count of functions compiled using the baseline compiler. */         \
  SC(total_baseline_compile_count, V8.TotalBaselineCompileCount)
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// This file contains all the v8 counters that are in use.
class Counters {
 public:
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#define HR(name, caption, min, max, num_buckets) \
  Histogram* name() { return &name##_; }
  HISTOGRAM_RANGE_LIST(HR)
#undef HR

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#define HT(name, caption, max, res) \
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  HistogramTimer* name() { return &name##_; }
  HISTOGRAM_TIMER_LIST(HT)
#undef HT

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#define AHT(name, caption) \
  AggregatableHistogramTimer* name() { return &name##_; }
  AGGREGATABLE_HISTOGRAM_TIMER_LIST(AHT)
#undef AHT

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#define HP(name, caption) \
  Histogram* name() { return &name##_; }
  HISTOGRAM_PERCENTAGE_LIST(HP)
#undef HP

#define HM(name, caption) \
  Histogram* name() { return &name##_; }
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  HISTOGRAM_LEGACY_MEMORY_LIST(HM)
  HISTOGRAM_MEMORY_LIST(HM)
#undef HM

#define HM(name, caption)                                     \
  AggregatedMemoryHistogram<Histogram>* aggregated_##name() { \
    return &aggregated_##name##_;                             \
  }
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  HISTOGRAM_MEMORY_LIST(HM)
#undef HM

#define SC(name, caption) \
  StatsCounter* name() { return &name##_; }
  STATS_COUNTER_LIST_1(SC)
  STATS_COUNTER_LIST_2(SC)
#undef SC

#define SC(name) \
  StatsCounter* count_of_##name() { return &count_of_##name##_; } \
  StatsCounter* size_of_##name() { return &size_of_##name##_; }
  INSTANCE_TYPE_LIST(SC)
#undef SC

#define SC(name) \
  StatsCounter* count_of_CODE_TYPE_##name() \
    { return &count_of_CODE_TYPE_##name##_; } \
  StatsCounter* size_of_CODE_TYPE_##name() \
    { return &size_of_CODE_TYPE_##name##_; }
  CODE_KIND_LIST(SC)
#undef SC

#define SC(name) \
  StatsCounter* count_of_FIXED_ARRAY_##name() \
    { return &count_of_FIXED_ARRAY_##name##_; } \
  StatsCounter* size_of_FIXED_ARRAY_##name() \
    { return &size_of_FIXED_ARRAY_##name##_; }
  FIXED_ARRAY_SUB_INSTANCE_TYPE_LIST(SC)
#undef SC

#define SC(name) \
  StatsCounter* count_of_CODE_AGE_##name() \
    { return &count_of_CODE_AGE_##name##_; } \
  StatsCounter* size_of_CODE_AGE_##name() \
    { return &size_of_CODE_AGE_##name##_; }
  CODE_AGE_LIST_COMPLETE(SC)
#undef SC

  enum Id {
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#define RATE_ID(name, caption, max, res) k_##name,
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    HISTOGRAM_TIMER_LIST(RATE_ID)
#undef RATE_ID
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#define AGGREGATABLE_ID(name, caption) k_##name,
    AGGREGATABLE_HISTOGRAM_TIMER_LIST(AGGREGATABLE_ID)
#undef AGGREGATABLE_ID
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#define PERCENTAGE_ID(name, caption) k_##name,
    HISTOGRAM_PERCENTAGE_LIST(PERCENTAGE_ID)
#undef PERCENTAGE_ID
#define MEMORY_ID(name, caption) k_##name,
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    HISTOGRAM_LEGACY_MEMORY_LIST(MEMORY_ID)
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    HISTOGRAM_MEMORY_LIST(MEMORY_ID)
#undef MEMORY_ID
#define COUNTER_ID(name, caption) k_##name,
    STATS_COUNTER_LIST_1(COUNTER_ID)
    STATS_COUNTER_LIST_2(COUNTER_ID)
#undef COUNTER_ID
#define COUNTER_ID(name) kCountOf##name, kSizeOf##name,
    INSTANCE_TYPE_LIST(COUNTER_ID)
#undef COUNTER_ID
#define COUNTER_ID(name) kCountOfCODE_TYPE_##name, \
    kSizeOfCODE_TYPE_##name,
    CODE_KIND_LIST(COUNTER_ID)
#undef COUNTER_ID
#define COUNTER_ID(name) kCountOfFIXED_ARRAY__##name, \
    kSizeOfFIXED_ARRAY__##name,
    FIXED_ARRAY_SUB_INSTANCE_TYPE_LIST(COUNTER_ID)
#undef COUNTER_ID
#define COUNTER_ID(name) kCountOfCODE_AGE__##name, \
    kSizeOfCODE_AGE__##name,
    CODE_AGE_LIST_COMPLETE(COUNTER_ID)
#undef COUNTER_ID
    stats_counter_count
  };

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  void ResetCounters();
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  void ResetHistograms();
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  RuntimeCallStats* runtime_call_stats() { return &runtime_call_stats_; }
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 private:
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#define HR(name, caption, min, max, num_buckets) Histogram name##_;
  HISTOGRAM_RANGE_LIST(HR)
#undef HR

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#define HT(name, caption, max, res) HistogramTimer name##_;
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  HISTOGRAM_TIMER_LIST(HT)
#undef HT

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#define AHT(name, caption) \
  AggregatableHistogramTimer name##_;
  AGGREGATABLE_HISTOGRAM_TIMER_LIST(AHT)
#undef AHT

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#define HP(name, caption) \
  Histogram name##_;
  HISTOGRAM_PERCENTAGE_LIST(HP)
#undef HP

#define HM(name, caption) \
  Histogram name##_;
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  HISTOGRAM_LEGACY_MEMORY_LIST(HM)
  HISTOGRAM_MEMORY_LIST(HM)
#undef HM

#define HM(name, caption) \
  AggregatedMemoryHistogram<Histogram> aggregated_##name##_;
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  HISTOGRAM_MEMORY_LIST(HM)
#undef HM

#define SC(name, caption) \
  StatsCounter name##_;
  STATS_COUNTER_LIST_1(SC)
  STATS_COUNTER_LIST_2(SC)
#undef SC

#define SC(name) \
  StatsCounter size_of_##name##_; \
  StatsCounter count_of_##name##_;
  INSTANCE_TYPE_LIST(SC)
#undef SC

#define SC(name) \
  StatsCounter size_of_CODE_TYPE_##name##_; \
  StatsCounter count_of_CODE_TYPE_##name##_;
  CODE_KIND_LIST(SC)
#undef SC

#define SC(name) \
  StatsCounter size_of_FIXED_ARRAY_##name##_; \
  StatsCounter count_of_FIXED_ARRAY_##name##_;
  FIXED_ARRAY_SUB_INSTANCE_TYPE_LIST(SC)
#undef SC

#define SC(name) \
  StatsCounter size_of_CODE_AGE_##name##_; \
  StatsCounter count_of_CODE_AGE_##name##_;
  CODE_AGE_LIST_COMPLETE(SC)
#undef SC

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  RuntimeCallStats runtime_call_stats_;

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  friend class Isolate;

  explicit Counters(Isolate* isolate);

  DISALLOW_IMPLICIT_CONSTRUCTORS(Counters);
};

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}  // namespace internal
}  // namespace v8
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#endif  // V8_COUNTERS_H_