base/metrics/histogram_base.h - platform/external/chromium_org - Git at Google

 // Copyright (c) 2012 The Chromium 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 BASE_METRICS_HISTOGRAM_BASE_H_
 #define BASE_METRICS_HISTOGRAM_BASE_H_

 #include <string>
 #include <vector>

 #include "base/atomicops.h"
 #include "base/base_export.h"
 #include "base/basictypes.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/strings/string_piece.h"
 #include "base/time/time.h"

 class Pickle;
 class PickleIterator;

 namespace base {

 class DictionaryValue;
 class HistogramBase;
 class HistogramSamples;
 class ListValue;

 ////////////////////////////////////////////////////////////////////////////////
 // These enums are used to facilitate deserialization of histograms from other
 // processes into the browser. If you create another class that inherits from
 // HistogramBase, add new histogram types and names below.

 enum BASE_EXPORT HistogramType {
   HISTOGRAM,
   LINEAR_HISTOGRAM,
   BOOLEAN_HISTOGRAM,
   CUSTOM_HISTOGRAM,
   SPARSE_HISTOGRAM,
 };

 std::string HistogramTypeToString(HistogramType type);

 // Create or find existing histogram that matches the pickled info.
 // Returns NULL if the pickled data has problems.
 BASE_EXPORT_PRIVATE HistogramBase* DeserializeHistogramInfo(
     PickleIterator* iter);

 ////////////////////////////////////////////////////////////////////////////////

 class BASE_EXPORT HistogramBase {
  public:
   typedef int Sample;                    // Used for samples.
   typedef subtle::Atomic32 AtomicCount;  // Used to count samples.
   typedef int32 Count;  // Used to manipulate counts in temporaries.

   static const Sample kSampleType_MAX;  // INT_MAX

   enum Flags {
     kNoFlags = 0,

     // Histogram should be UMA uploaded.
     kUmaTargetedHistogramFlag = 0x1,

     // Indicates that this is a stability histogram. This flag exists to specify
     // which histograms should be included in the initial stability log. Please
     // refer to |MetricsService::PrepareInitialStabilityLog|.
     kUmaStabilityHistogramFlag = kUmaTargetedHistogramFlag | 0x2,

     // Indicates that the histogram was pickled to be sent across an IPC
     // Channel. If we observe this flag on a histogram being aggregated into
     // after IPC, then we are running in a single process mode, and the
     // aggregation should not take place (as we would be aggregating back into
     // the source histogram!).
     kIPCSerializationSourceFlag = 0x10,

     // Only for Histogram and its sub classes: fancy bucket-naming support.
     kHexRangePrintingFlag = 0x8000,
   };

   // Histogram data inconsistency types.
   enum Inconsistency {
     NO_INCONSISTENCIES = 0x0,
     RANGE_CHECKSUM_ERROR = 0x1,
     BUCKET_ORDER_ERROR = 0x2,
     COUNT_HIGH_ERROR = 0x4,
     COUNT_LOW_ERROR = 0x8,

     NEVER_EXCEEDED_VALUE = 0x10
   };

   explicit HistogramBase(const std::string& name);
   virtual ~HistogramBase();

   std::string histogram_name() const { return histogram_name_; }

   // Comapres |name| to the histogram name and triggers a DCHECK if they do not
   // match. This is a helper function used by histogram macros, which results in
   // in more compact machine code being generated by the macros.
   void CheckName(const StringPiece& name) const;

   // Operations with Flags enum.
   int32 flags() const { return flags_; }
   void SetFlags(int32 flags);
   void ClearFlags(int32 flags);

   virtual HistogramType GetHistogramType() const = 0;

   // Whether the histogram has construction arguments as parameters specified.
   // For histograms that don't have the concept of minimum, maximum or
   // bucket_count, this function always returns false.
   virtual bool HasConstructionArguments(Sample expected_minimum,
                                         Sample expected_maximum,
                                         size_t expected_bucket_count) const = 0;

   virtual void Add(Sample value) = 0;

   // 2 convenient functions that call Add(Sample).
   void AddTime(const TimeDelta& time);
   void AddBoolean(bool value);

   virtual void AddSamples(const HistogramSamples& samples) = 0;
   virtual bool AddSamplesFromPickle(PickleIterator* iter) = 0;

   // Serialize the histogram info into |pickle|.
   // Note: This only serializes the construction arguments of the histogram, but
   // does not serialize the samples.
   bool SerializeInfo(Pickle* pickle) const;

   // Try to find out data corruption from histogram and the samples.
   // The returned value is a combination of Inconsistency enum.
   virtual int FindCorruption(const HistogramSamples& samples) const;

   // Snapshot the current complete set of sample data.
   // Override with atomic/locked snapshot if needed.
   virtual scoped_ptr<HistogramSamples> SnapshotSamples() const = 0;

   // The following methods provide graphical histogram displays.
   virtual void WriteHTMLGraph(std::string* output) const = 0;
   virtual void WriteAscii(std::string* output) const = 0;

   // Produce a JSON representation of the histogram. This is implemented with
   // the help of GetParameters and GetCountAndBucketData; overwrite them to
   // customize the output.
   void WriteJSON(std::string* output) const;

  protected:
   // Subclasses should implement this function to make SerializeInfo work.
   virtual bool SerializeInfoImpl(Pickle* pickle) const = 0;

   // Writes information about the construction parameters in |params|.
   virtual void GetParameters(DictionaryValue* params) const = 0;

   // Writes information about the current (non-empty) buckets and their sample
   // counts to |buckets|, the total sample count to |count| and the total sum
   // to |sum|.
   virtual void GetCountAndBucketData(Count* count,
                                      int64* sum,
                                      ListValue* buckets) const = 0;

   //// Produce actual graph (set of blank vs non blank char's) for a bucket.
   void WriteAsciiBucketGraph(double current_size,
                              double max_size,
                              std::string* output) const;

   // Return a string description of what goes in a given bucket.
   const std::string GetSimpleAsciiBucketRange(Sample sample) const;

   // Write textual description of the bucket contents (relative to histogram).
   // Output is the count in the buckets, as well as the percentage.
   void WriteAsciiBucketValue(Count current,
                              double scaled_sum,
                              std::string* output) const;

  private:
   const std::string histogram_name_;
   int32 flags_;

   DISALLOW_COPY_AND_ASSIGN(HistogramBase);
 };

 }  // namespace base

 #endif  // BASE_METRICS_HISTOGRAM_BASE_H_
	// Copyright (c) 2012 The Chromium 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 BASE_METRICS_HISTOGRAM_BASE_H_
	#define BASE_METRICS_HISTOGRAM_BASE_H_

	#include <string>
	#include <vector>

	#include "base/atomicops.h"
	#include "base/base_export.h"
	#include "base/basictypes.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/strings/string_piece.h"
	#include "base/time/time.h"

	class Pickle;
	class PickleIterator;

	namespace base {

	class DictionaryValue;
	class HistogramBase;
	class HistogramSamples;
	class ListValue;

	////////////////////////////////////////////////////////////////////////////////
	// These enums are used to facilitate deserialization of histograms from other
	// processes into the browser. If you create another class that inherits from
	// HistogramBase, add new histogram types and names below.

	enum BASE_EXPORT HistogramType {
	HISTOGRAM,
	LINEAR_HISTOGRAM,
	BOOLEAN_HISTOGRAM,
	CUSTOM_HISTOGRAM,
	SPARSE_HISTOGRAM,
	};

	std::string HistogramTypeToString(HistogramType type);

	// Create or find existing histogram that matches the pickled info.
	// Returns NULL if the pickled data has problems.
	BASE_EXPORT_PRIVATE HistogramBase* DeserializeHistogramInfo(
	PickleIterator* iter);

	////////////////////////////////////////////////////////////////////////////////

	class BASE_EXPORT HistogramBase {
	public:
	typedef int Sample; // Used for samples.
	typedef subtle::Atomic32 AtomicCount; // Used to count samples.
	typedef int32 Count; // Used to manipulate counts in temporaries.

	static const Sample kSampleType_MAX; // INT_MAX

	enum Flags {
	kNoFlags = 0,

	// Histogram should be UMA uploaded.
	kUmaTargetedHistogramFlag = 0x1,

	// Indicates that this is a stability histogram. This flag exists to specify
	// which histograms should be included in the initial stability log. Please
	// refer to \|MetricsService::PrepareInitialStabilityLog\|.
	kUmaStabilityHistogramFlag = kUmaTargetedHistogramFlag \| 0x2,

	// Indicates that the histogram was pickled to be sent across an IPC
	// Channel. If we observe this flag on a histogram being aggregated into
	// after IPC, then we are running in a single process mode, and the
	// aggregation should not take place (as we would be aggregating back into
	// the source histogram!).
	kIPCSerializationSourceFlag = 0x10,

	// Only for Histogram and its sub classes: fancy bucket-naming support.
	kHexRangePrintingFlag = 0x8000,
	};

	// Histogram data inconsistency types.
	enum Inconsistency {
	NO_INCONSISTENCIES = 0x0,
	RANGE_CHECKSUM_ERROR = 0x1,
	BUCKET_ORDER_ERROR = 0x2,
	COUNT_HIGH_ERROR = 0x4,
	COUNT_LOW_ERROR = 0x8,

	NEVER_EXCEEDED_VALUE = 0x10
	};

	explicit HistogramBase(const std::string& name);
	virtual ~HistogramBase();

	std::string histogram_name() const { return histogram_name_; }

	// Comapres \|name\| to the histogram name and triggers a DCHECK if they do not
	// match. This is a helper function used by histogram macros, which results in
	// in more compact machine code being generated by the macros.
	void CheckName(const StringPiece& name) const;

	// Operations with Flags enum.
	int32 flags() const { return flags_; }
	void SetFlags(int32 flags);
	void ClearFlags(int32 flags);

	virtual HistogramType GetHistogramType() const = 0;

	// Whether the histogram has construction arguments as parameters specified.
	// For histograms that don't have the concept of minimum, maximum or
	// bucket_count, this function always returns false.
	virtual bool HasConstructionArguments(Sample expected_minimum,
	Sample expected_maximum,
	size_t expected_bucket_count) const = 0;

	virtual void Add(Sample value) = 0;

	// 2 convenient functions that call Add(Sample).
	void AddTime(const TimeDelta& time);
	void AddBoolean(bool value);

	virtual void AddSamples(const HistogramSamples& samples) = 0;
	virtual bool AddSamplesFromPickle(PickleIterator* iter) = 0;

	// Serialize the histogram info into \|pickle\|.
	// Note: This only serializes the construction arguments of the histogram, but
	// does not serialize the samples.
	bool SerializeInfo(Pickle* pickle) const;

	// Try to find out data corruption from histogram and the samples.
	// The returned value is a combination of Inconsistency enum.
	virtual int FindCorruption(const HistogramSamples& samples) const;

	// Snapshot the current complete set of sample data.
	// Override with atomic/locked snapshot if needed.
	virtual scoped_ptr<HistogramSamples> SnapshotSamples() const = 0;

	// The following methods provide graphical histogram displays.
	virtual void WriteHTMLGraph(std::string* output) const = 0;
	virtual void WriteAscii(std::string* output) const = 0;

	// Produce a JSON representation of the histogram. This is implemented with
	// the help of GetParameters and GetCountAndBucketData; overwrite them to
	// customize the output.
	void WriteJSON(std::string* output) const;

	protected:
	// Subclasses should implement this function to make SerializeInfo work.
	virtual bool SerializeInfoImpl(Pickle* pickle) const = 0;

	// Writes information about the construction parameters in \|params\|.
	virtual void GetParameters(DictionaryValue* params) const = 0;

	// Writes information about the current (non-empty) buckets and their sample
	// counts to \|buckets\|, the total sample count to \|count\| and the total sum
	// to \|sum\|.
	virtual void GetCountAndBucketData(Count* count,
	int64* sum,
	ListValue* buckets) const = 0;

	//// Produce actual graph (set of blank vs non blank char's) for a bucket.
	void WriteAsciiBucketGraph(double current_size,
	double max_size,
	std::string* output) const;

	// Return a string description of what goes in a given bucket.
	const std::string GetSimpleAsciiBucketRange(Sample sample) const;

	// Write textual description of the bucket contents (relative to histogram).
	// Output is the count in the buckets, as well as the percentage.
	void WriteAsciiBucketValue(Count current,
	double scaled_sum,
	std::string* output) const;

	private:
	const std::string histogram_name_;
	int32 flags_;

	DISALLOW_COPY_AND_ASSIGN(HistogramBase);
	};

	} // namespace base

	#endif // BASE_METRICS_HISTOGRAM_BASE_H_