base/metrics/sample_map.cc - cobalt - Git at Google

 // Copyright 2012 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/metrics/sample_map.h"

 #include "base/check.h"
 #include "base/numerics/safe_conversions.h"

 namespace base {

 typedef HistogramBase::Count Count;
 typedef HistogramBase::Sample Sample;

 namespace {

 // An iterator for going through a SampleMap. The logic here is identical
 // to that of the iterator for PersistentSampleMap but with different data
 // structures. Changes here likely need to be duplicated there.
 template <typename T, typename I>
 class IteratorTemplate : public SampleCountIterator {
  public:
   explicit IteratorTemplate(T& sample_counts)
       : iter_(sample_counts.begin()), end_(sample_counts.end()) {
     SkipEmptyBuckets();
   }

   ~IteratorTemplate() override;

   // SampleCountIterator:
   bool Done() const override { return iter_ == end_; }
   void Next() override {
     DCHECK(!Done());
     ++iter_;
     SkipEmptyBuckets();
   }
   void Get(HistogramBase::Sample* min,
            int64_t* max,
            HistogramBase::Count* count) override;

  private:
   void SkipEmptyBuckets() {
     while (!Done() && iter_->second == 0) {
       ++iter_;
     }
   }

   I iter_;
   const I end_;
 };

 typedef std::map<HistogramBase::Sample, HistogramBase::Count> SampleToCountMap;
 typedef IteratorTemplate<const SampleToCountMap,
                          SampleToCountMap::const_iterator>
     SampleMapIterator;

 template <>
 SampleMapIterator::~IteratorTemplate() = default;

 // Get() for an iterator of a SampleMap.
 template <>
 void SampleMapIterator::Get(Sample* min, int64_t* max, Count* count) {
   DCHECK(!Done());
   *min = iter_->first;
   *max = strict_cast<int64_t>(iter_->first) + 1;
   // We do not have to do the following atomically -- if the caller needs thread
   // safety, they should use a lock. And since this is in local memory, if a
   // lock is used, we know the value would not be concurrently modified by a
   // different process (in contrast to PersistentSampleMap, where the value in
   // shared memory may be modified concurrently by a subprocess).
   *count = iter_->second;
 }

 typedef IteratorTemplate<SampleToCountMap, SampleToCountMap::iterator>
     ExtractingSampleMapIterator;

 template <>
 ExtractingSampleMapIterator::~IteratorTemplate() {
   // Ensure that the user has consumed all the samples in order to ensure no
   // samples are lost.
   DCHECK(Done());
 }

 // Get() for an extracting iterator of a SampleMap.
 template <>
 void ExtractingSampleMapIterator::Get(Sample* min, int64_t* max, Count* count) {
   DCHECK(!Done());
   *min = iter_->first;
   *max = strict_cast<int64_t>(iter_->first) + 1;
   // We do not have to do the following atomically -- if the caller needs thread
   // safety, they should use a lock. And since this is in local memory, if a
   // lock is used, we know the value would not be concurrently modified by a
   // different process (in contrast to PersistentSampleMap, where the value in
   // shared memory may be modified concurrently by a subprocess).
   *count = iter_->second;
   iter_->second = 0;
 }

 }  // namespace

 SampleMap::SampleMap() : SampleMap(0) {}

 SampleMap::SampleMap(uint64_t id)
     : HistogramSamples(id, std::make_unique<LocalMetadata>()) {}

 SampleMap::~SampleMap() = default;

 void SampleMap::Accumulate(Sample value, Count count) {
   // We do not have to do the following atomically -- if the caller needs
   // thread safety, they should use a lock. And since this is in local memory,
   // if a lock is used, we know the value would not be concurrently modified
   // by a different process (in contrast to PersistentSampleMap, where the
   // value in shared memory may be modified concurrently by a subprocess).
   sample_counts_[value] += count;
   IncreaseSumAndCount(strict_cast<int64_t>(count) * value, count);
 }

 Count SampleMap::GetCount(Sample value) const {
   auto it = sample_counts_.find(value);
   if (it == sample_counts_.end())
     return 0;
   return it->second;
 }

 Count SampleMap::TotalCount() const {
   Count count = 0;
   for (const auto& entry : sample_counts_) {
     count += entry.second;
   }
   return count;
 }

 std::unique_ptr<SampleCountIterator> SampleMap::Iterator() const {
   return std::make_unique<SampleMapIterator>(sample_counts_);
 }

 std::unique_ptr<SampleCountIterator> SampleMap::ExtractingIterator() {
   return std::make_unique<ExtractingSampleMapIterator>(sample_counts_);
 }

 bool SampleMap::AddSubtractImpl(SampleCountIterator* iter, Operator op) {
   Sample min;
   int64_t max;
   Count count;
   for (; !iter->Done(); iter->Next()) {
     iter->Get(&min, &max, &count);
     if (strict_cast<int64_t>(min) + 1 != max)
       return false;  // SparseHistogram only supports bucket with size 1.

     // We do not have to do the following atomically -- if the caller needs
     // thread safety, they should use a lock. And since this is in local memory,
     // if a lock is used, we know the value would not be concurrently modified
     // by a different process (in contrast to PersistentSampleMap, where the
     // value in shared memory may be modified concurrently by a subprocess).
     sample_counts_[min] += (op == HistogramSamples::ADD) ? count : -count;
   }
   return true;
 }

 }  // namespace base
	// Copyright 2012 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/metrics/sample_map.h"

	#include "base/check.h"
	#include "base/numerics/safe_conversions.h"

	namespace base {

	typedef HistogramBase::Count Count;
	typedef HistogramBase::Sample Sample;

	namespace {

	// An iterator for going through a SampleMap. The logic here is identical
	// to that of the iterator for PersistentSampleMap but with different data
	// structures. Changes here likely need to be duplicated there.
	template <typename T, typename I>
	class IteratorTemplate : public SampleCountIterator {
	public:
	explicit IteratorTemplate(T& sample_counts)
	: iter_(sample_counts.begin()), end_(sample_counts.end()) {
	SkipEmptyBuckets();
	}

	~IteratorTemplate() override;

	// SampleCountIterator:
	bool Done() const override { return iter_ == end_; }
	void Next() override {
	DCHECK(!Done());
	++iter_;
	SkipEmptyBuckets();
	}
	void Get(HistogramBase::Sample* min,
	int64_t* max,
	HistogramBase::Count* count) override;

	private:
	void SkipEmptyBuckets() {
	while (!Done() && iter_->second == 0) {
	++iter_;
	}
	}

	I iter_;
	const I end_;
	};

	typedef std::map<HistogramBase::Sample, HistogramBase::Count> SampleToCountMap;
	typedef IteratorTemplate<const SampleToCountMap,
	SampleToCountMap::const_iterator>
	SampleMapIterator;

	template <>
	SampleMapIterator::~IteratorTemplate() = default;

	// Get() for an iterator of a SampleMap.
	template <>
	void SampleMapIterator::Get(Sample* min, int64_t* max, Count* count) {
	DCHECK(!Done());
	*min = iter_->first;
	*max = strict_cast<int64_t>(iter_->first) + 1;
	// We do not have to do the following atomically -- if the caller needs thread
	// safety, they should use a lock. And since this is in local memory, if a
	// lock is used, we know the value would not be concurrently modified by a
	// different process (in contrast to PersistentSampleMap, where the value in
	// shared memory may be modified concurrently by a subprocess).
	*count = iter_->second;
	}

	typedef IteratorTemplate<SampleToCountMap, SampleToCountMap::iterator>
	ExtractingSampleMapIterator;

	template <>
	ExtractingSampleMapIterator::~IteratorTemplate() {
	// Ensure that the user has consumed all the samples in order to ensure no
	// samples are lost.
	DCHECK(Done());
	}

	// Get() for an extracting iterator of a SampleMap.
	template <>
	void ExtractingSampleMapIterator::Get(Sample* min, int64_t* max, Count* count) {
	DCHECK(!Done());
	*min = iter_->first;
	*max = strict_cast<int64_t>(iter_->first) + 1;
	// We do not have to do the following atomically -- if the caller needs thread
	// safety, they should use a lock. And since this is in local memory, if a
	// lock is used, we know the value would not be concurrently modified by a
	// different process (in contrast to PersistentSampleMap, where the value in
	// shared memory may be modified concurrently by a subprocess).
	*count = iter_->second;
	iter_->second = 0;
	}

	} // namespace

	SampleMap::SampleMap() : SampleMap(0) {}

	SampleMap::SampleMap(uint64_t id)
	: HistogramSamples(id, std::make_unique<LocalMetadata>()) {}

	SampleMap::~SampleMap() = default;

	void SampleMap::Accumulate(Sample value, Count count) {
	// We do not have to do the following atomically -- if the caller needs
	// thread safety, they should use a lock. And since this is in local memory,
	// if a lock is used, we know the value would not be concurrently modified
	// by a different process (in contrast to PersistentSampleMap, where the
	// value in shared memory may be modified concurrently by a subprocess).
	sample_counts_[value] += count;
	IncreaseSumAndCount(strict_cast<int64_t>(count) * value, count);
	}

	Count SampleMap::GetCount(Sample value) const {
	auto it = sample_counts_.find(value);
	if (it == sample_counts_.end())
	return 0;
	return it->second;
	}

	Count SampleMap::TotalCount() const {
	Count count = 0;
	for (const auto& entry : sample_counts_) {
	count += entry.second;
	}
	return count;
	}

	std::unique_ptr<SampleCountIterator> SampleMap::Iterator() const {
	return std::make_unique<SampleMapIterator>(sample_counts_);
	}

	std::unique_ptr<SampleCountIterator> SampleMap::ExtractingIterator() {
	return std::make_unique<ExtractingSampleMapIterator>(sample_counts_);
	}

	bool SampleMap::AddSubtractImpl(SampleCountIterator* iter, Operator op) {
	Sample min;
	int64_t max;
	Count count;
	for (; !iter->Done(); iter->Next()) {
	iter->Get(&min, &max, &count);
	if (strict_cast<int64_t>(min) + 1 != max)
	return false; // SparseHistogram only supports bucket with size 1.

	// We do not have to do the following atomically -- if the caller needs
	// thread safety, they should use a lock. And since this is in local memory,
	// if a lock is used, we know the value would not be concurrently modified
	// by a different process (in contrast to PersistentSampleMap, where the
	// value in shared memory may be modified concurrently by a subprocess).
	sample_counts_[min] += (op == HistogramSamples::ADD) ? count : -count;
	}
	return true;
	}

	} // namespace base