base/field_trial.h - platform/external/libchrome - Gitiles

 // Copyright (c) 2006-2009 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.

 // FieldTrial is a class for handling details of statistical experiments
 // performed by actual users in the field (i.e., in a shipped or beta product).
 // All code is called exclusively on the UI thread currently.
 //
 // The simplest example is an experiment to see whether one of two options
 // produces "better" results across our user population.  In that scenario, UMA
 // data is uploaded to aggregate the test results, and this FieldTrial class
 // manages the state of each such experiment (state == which option was
 // pseudo-randomly selected).
 //
 // States are typically generated randomly, either based on a one time
 // randomization (generated randomly once, and then persistently reused in the
 // client during each future run of the program), or by a startup randomization
 // (generated each time the application starts up, but held constant during the
 // duration of the process), or by continuous randomization across a run (where
 // the state can be recalculated again and again, many times during a process).
 // Only startup randomization is implemented thus far.

 //------------------------------------------------------------------------------
 // Example:  Suppose we have an experiment involving memory, such as determining
 // the impact of some pruning algorithm.
 // We assume that we already have a histogram of memory usage, such as:

 //   HISTOGRAM_COUNTS("Memory.RendererTotal", count);

 // Somewhere in main thread initialization code, we'd probably define an
 // instance of a FieldTrial, with code such as:

 // // Note, FieldTrials are reference counted, and persist automagically until
 // // process teardown, courtesy of their automatic registration in
 // // FieldTrialList.
 // scoped_refptr<FieldTrial> trial = new FieldTrial("MemoryExperiment", 1000);
 // int group1 = trial->AppendGroup("_high_mem", 20);  // 2% in _high_mem group.
 // int group2 = trial->AppendGroup("_low_mem", 20);   // 2% in _low_mem group.
 // // Take action depending of which group we randomly land in.
 // if (trial->group() == group1)
 //   SetPruningAlgorithm(kType1);  // Sample setting of browser state.
 // else if (trial->group() == group2)
 //   SetPruningAlgorithm(kType2);  // Sample alternate setting.

 // We then modify any histograms we wish to correlate with our experiment to
 // have slighly different names, depending on what group the trial instance
 // happened (randomly) to be assigned to:

 // HISTOGRAM_COUNTS(FieldTrial::MakeName("Memory.RendererTotal",
 //                                       "MemoryExperiment").data(), count);

 // The above code will create 3 distinct histograms, with each run of the
 // application being assigned to of of the three groups, and for each group, the
 // correspondingly named histogram will be populated:

 // Memory.RendererTotal            // 96% of users still fill this histogram.
 // Memory.RendererTotal_high_mem   // 2% of users will fill this histogram.
 // Memory.RendererTotal_low_mem    // 2% of users will fill this histogram.

 //------------------------------------------------------------------------------

 #ifndef BASE_FIELD_TRIAL_H_
 #define BASE_FIELD_TRIAL_H_

 #include <map>
 #include <string>

 #include "base/lock.h"
 #include "base/ref_counted.h"
 #include "base/time.h"


 class FieldTrial : public base::RefCounted<FieldTrial> {
  public:
   typedef int Probability;  // Probability type for being selected in a trial.

   // A return value to indicate that a given instance has not yet had a group
   // assignment (and hence is not yet participating in the trial).
   static const int kNotParticipating;

   // Provide an easy way to assign all remaining probability to a group.  Note
   // that this will force an instance to participate, and make it illegal to
   // attempt to probabalistically add any other groups to the trial.  When doing
   // A/B tests with timings, it is often best to define all groups, so that
   // histograms will get unique names via the MakeName() methods.
   static const Probability kAllRemainingProbability;

   // The name is used to register the instance with the FieldTrialList class,
   // and can be used to find the trial (only one trial can be present for each
   // name).
   // Group probabilities that are later supplied must sum to less than or equal
   // to the total_probability.
   FieldTrial(const std::string& name, Probability total_probability);

   // Establish the name and probability of the next group in this trial.
   // Sometimes, based on construction randomization, this call may causes the
   // provided group to be *THE* group selected for use in this instance.
   int AppendGroup(const std::string& name, Probability group_probability);

   // Return the name of the FieldTrial (excluding the group name).
   std::string name() const { return name_; }

   // Return the randomly selected group number that was assigned.
   // Return kNotParticipating if the instance is not participating in the
   // experiment.
   int group() const { return group_; }

   // If the field trial is not in an experiment, this returns the empty string.
   // if the group's name is empty, a name of "_" concatenated with the group
   // number is used as the group name.
   std::string group_name() const { return group_name_; }

   // Helper function for the most common use: as an argument to specifiy the
   // name of a HISTOGRAM.  Use the original histogram name as the name_prefix.
   static std::string MakeName(const std::string& name_prefix,
                               const std::string& trial_name);

  private:
   friend class base::RefCounted<FieldTrial>;

   ~FieldTrial() {}

   // The name of the field trial, as can be found via the FieldTrialList.
   // This is empty of the trial is not in the experiment.
   const std::string name_;

   // The maximu sum of all probabilities supplied, which corresponds to 100%.
   // This is the scaling factor used to adjust supplied probabilities.
   Probability divisor_;

   // The randomly selected probability that is used to select a group (or have
   // the instance not participate).  It is the product of divisor_ and a random
   // number between [0, 1).
   Probability random_;

   // Sum of the probabilities of all appended groups.
   Probability accumulated_group_probability_;

   int next_group_number_;

   // The pseudo-randomly assigned group number.
   // This is kNotParticipating if no group has been assigned.
   int group_;

   // A textual name for the randomly selected group, including the Trial name.
   // If this Trial is not a member of an group, this string is empty.
   std::string group_name_;

   DISALLOW_COPY_AND_ASSIGN(FieldTrial);
 };

 //------------------------------------------------------------------------------
 // Class with a list of all active field trials.  A trial is active if it has
 // been registered, which includes evaluating its state based on its probaility.
 // Only one instance of this class exists.
 class FieldTrialList {
  public:
   // Define a separator charactor to use when creating a persistent form of an
   // instance.  This is intended for use as a command line argument, passed to a
   // second process to mimic our state (i.e., provide the same group name).
   static const char kPersistentStringSeparator;  // Currently a slash.

   // This singleton holds the global list of registered FieldTrials.
   FieldTrialList();
   // Destructor Release()'s references to all registered FieldTrial instances.
   ~FieldTrialList();

   // Register() stores a pointer to the given trial in a global map.
   // This method also AddRef's the indicated trial.
   static void Register(FieldTrial* trial);

   // The Find() method can be used to test to see if a named Trial was already
   // registered, or to retrieve a pointer to it from the global map.
   static FieldTrial* Find(const std::string& name);

   static int FindValue(const std::string& name);

   static std::string FindFullName(const std::string& name);

   // Create a persistent representation of all FieldTrial instances for
   // resurrection in another process.  This allows randomization to be done in
   // one process, and secondary processes can by synchronized on the result.
   // The resulting string contains only the names, the trial name, and a "/"
   // separator.
   static void StatesToString(std::string* output);

   // Use a previously generated state string (re: StatesToString()) augment the
   // current list of field tests to include the supplied tests, and using a 100%
   // probability for each test, force them to have the same group string.  This
   // is commonly used in a sub-process, to carry randomly selected state in a
   // parent process into this sub-process.
   //  Currently only the group_name_ and name_ are restored.
   static bool StringAugmentsState(const std::string& prior_state);

   // The time of construction of the global map is recorded in a static variable
   // and is commonly used by experiments to identify the time since the start
   // of the application.  In some experiments it may be useful to discount
   // data that is gathered before the application has reached sufficient
   // stability (example: most DLL have loaded, etc.)
   static base::TimeTicks application_start_time() {
     if (global_)
       return global_->application_start_time_;
     // For testing purposes only, or when we don't yet have a start time.
     return base::TimeTicks::Now();
   }

  private:
   // Helper function should be called only while holding lock_.
   FieldTrial* PreLockedFind(const std::string& name);

   // A map from FieldTrial names to the actual instances.
   typedef std::map<std::string, FieldTrial*> RegistrationList;

   static FieldTrialList* global_;  // The singleton of this class.

   // This will tell us if there is an attempt to register a field trial without
   // creating the FieldTrialList. This is not an error, unless a FieldTrialList
   // is created after that.
   static bool register_without_global_;

   // A helper value made availabel to users, that shows when the FieldTrialList
   // was initialized.  Note that this is a singleton instance, and hence is a
   // good approximation to the start of the process.
   base::TimeTicks application_start_time_;

   // Lock for access to registered_.
   Lock lock_;
   RegistrationList registered_;

   DISALLOW_COPY_AND_ASSIGN(FieldTrialList);
 };

 #endif  // BASE_FIELD_TRIAL_H_
	// Copyright (c) 2006-2009 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.

	// FieldTrial is a class for handling details of statistical experiments
	// performed by actual users in the field (i.e., in a shipped or beta product).
	// All code is called exclusively on the UI thread currently.
	//
	// The simplest example is an experiment to see whether one of two options
	// produces "better" results across our user population. In that scenario, UMA
	// data is uploaded to aggregate the test results, and this FieldTrial class
	// manages the state of each such experiment (state == which option was
	// pseudo-randomly selected).
	//
	// States are typically generated randomly, either based on a one time
	// randomization (generated randomly once, and then persistently reused in the
	// client during each future run of the program), or by a startup randomization
	// (generated each time the application starts up, but held constant during the
	// duration of the process), or by continuous randomization across a run (where
	// the state can be recalculated again and again, many times during a process).
	// Only startup randomization is implemented thus far.

	//------------------------------------------------------------------------------
	// Example: Suppose we have an experiment involving memory, such as determining
	// the impact of some pruning algorithm.
	// We assume that we already have a histogram of memory usage, such as:

	// HISTOGRAM_COUNTS("Memory.RendererTotal", count);

	// Somewhere in main thread initialization code, we'd probably define an
	// instance of a FieldTrial, with code such as:

	// // Note, FieldTrials are reference counted, and persist automagically until
	// // process teardown, courtesy of their automatic registration in
	// // FieldTrialList.
	// scoped_refptr<FieldTrial> trial = new FieldTrial("MemoryExperiment", 1000);
	// int group1 = trial->AppendGroup("_high_mem", 20); // 2% in _high_mem group.
	// int group2 = trial->AppendGroup("_low_mem", 20); // 2% in _low_mem group.
	// // Take action depending of which group we randomly land in.
	// if (trial->group() == group1)
	// SetPruningAlgorithm(kType1); // Sample setting of browser state.
	// else if (trial->group() == group2)
	// SetPruningAlgorithm(kType2); // Sample alternate setting.

	// We then modify any histograms we wish to correlate with our experiment to
	// have slighly different names, depending on what group the trial instance
	// happened (randomly) to be assigned to:

	// HISTOGRAM_COUNTS(FieldTrial::MakeName("Memory.RendererTotal",
	// "MemoryExperiment").data(), count);

	// The above code will create 3 distinct histograms, with each run of the
	// application being assigned to of of the three groups, and for each group, the
	// correspondingly named histogram will be populated:

	// Memory.RendererTotal // 96% of users still fill this histogram.
	// Memory.RendererTotal_high_mem // 2% of users will fill this histogram.
	// Memory.RendererTotal_low_mem // 2% of users will fill this histogram.

	//------------------------------------------------------------------------------

	#ifndef BASE_FIELD_TRIAL_H_
	#define BASE_FIELD_TRIAL_H_

	#include <map>
	#include <string>

	#include "base/lock.h"
	#include "base/ref_counted.h"
	#include "base/time.h"


	class FieldTrial : public base::RefCounted<FieldTrial> {
	public:
	typedef int Probability; // Probability type for being selected in a trial.

	// A return value to indicate that a given instance has not yet had a group
	// assignment (and hence is not yet participating in the trial).
	static const int kNotParticipating;

	// Provide an easy way to assign all remaining probability to a group. Note
	// that this will force an instance to participate, and make it illegal to
	// attempt to probabalistically add any other groups to the trial. When doing
	// A/B tests with timings, it is often best to define all groups, so that
	// histograms will get unique names via the MakeName() methods.
	static const Probability kAllRemainingProbability;

	// The name is used to register the instance with the FieldTrialList class,
	// and can be used to find the trial (only one trial can be present for each
	// name).
	// Group probabilities that are later supplied must sum to less than or equal
	// to the total_probability.
	FieldTrial(const std::string& name, Probability total_probability);

	// Establish the name and probability of the next group in this trial.
	// Sometimes, based on construction randomization, this call may causes the
	// provided group to be THE group selected for use in this instance.
	int AppendGroup(const std::string& name, Probability group_probability);

	// Return the name of the FieldTrial (excluding the group name).
	std::string name() const { return name_; }

	// Return the randomly selected group number that was assigned.
	// Return kNotParticipating if the instance is not participating in the
	// experiment.
	int group() const { return group_; }

	// If the field trial is not in an experiment, this returns the empty string.
	// if the group's name is empty, a name of "_" concatenated with the group
	// number is used as the group name.
	std::string group_name() const { return group_name_; }

	// Helper function for the most common use: as an argument to specifiy the
	// name of a HISTOGRAM. Use the original histogram name as the name_prefix.
	static std::string MakeName(const std::string& name_prefix,
	const std::string& trial_name);

	private:
	friend class base::RefCounted<FieldTrial>;

	~FieldTrial() {}

	// The name of the field trial, as can be found via the FieldTrialList.
	// This is empty of the trial is not in the experiment.
	const std::string name_;

	// The maximu sum of all probabilities supplied, which corresponds to 100%.
	// This is the scaling factor used to adjust supplied probabilities.
	Probability divisor_;

	// The randomly selected probability that is used to select a group (or have
	// the instance not participate). It is the product of divisor_ and a random
	// number between [0, 1).
	Probability random_;

	// Sum of the probabilities of all appended groups.
	Probability accumulated_group_probability_;

	int next_group_number_;

	// The pseudo-randomly assigned group number.
	// This is kNotParticipating if no group has been assigned.
	int group_;

	// A textual name for the randomly selected group, including the Trial name.
	// If this Trial is not a member of an group, this string is empty.
	std::string group_name_;

	DISALLOW_COPY_AND_ASSIGN(FieldTrial);
	};

	//------------------------------------------------------------------------------
	// Class with a list of all active field trials. A trial is active if it has
	// been registered, which includes evaluating its state based on its probaility.
	// Only one instance of this class exists.
	class FieldTrialList {
	public:
	// Define a separator charactor to use when creating a persistent form of an
	// instance. This is intended for use as a command line argument, passed to a
	// second process to mimic our state (i.e., provide the same group name).
	static const char kPersistentStringSeparator; // Currently a slash.

	// This singleton holds the global list of registered FieldTrials.
	FieldTrialList();
	// Destructor Release()'s references to all registered FieldTrial instances.
	~FieldTrialList();

	// Register() stores a pointer to the given trial in a global map.
	// This method also AddRef's the indicated trial.
	static void Register(FieldTrial* trial);

	// The Find() method can be used to test to see if a named Trial was already
	// registered, or to retrieve a pointer to it from the global map.
	static FieldTrial* Find(const std::string& name);

	static int FindValue(const std::string& name);

	static std::string FindFullName(const std::string& name);

	// Create a persistent representation of all FieldTrial instances for
	// resurrection in another process. This allows randomization to be done in
	// one process, and secondary processes can by synchronized on the result.
	// The resulting string contains only the names, the trial name, and a "/"
	// separator.
	static void StatesToString(std::string* output);

	// Use a previously generated state string (re: StatesToString()) augment the
	// current list of field tests to include the supplied tests, and using a 100%
	// probability for each test, force them to have the same group string. This
	// is commonly used in a sub-process, to carry randomly selected state in a
	// parent process into this sub-process.
	// Currently only the group_name_ and name_ are restored.
	static bool StringAugmentsState(const std::string& prior_state);

	// The time of construction of the global map is recorded in a static variable
	// and is commonly used by experiments to identify the time since the start
	// of the application. In some experiments it may be useful to discount
	// data that is gathered before the application has reached sufficient
	// stability (example: most DLL have loaded, etc.)
	static base::TimeTicks application_start_time() {
	if (global_)
	return global_->application_start_time_;
	// For testing purposes only, or when we don't yet have a start time.
	return base::TimeTicks::Now();
	}

	private:
	// Helper function should be called only while holding lock_.
	FieldTrial* PreLockedFind(const std::string& name);

	// A map from FieldTrial names to the actual instances.
	typedef std::map<std::string, FieldTrial*> RegistrationList;

	static FieldTrialList* global_; // The singleton of this class.

	// This will tell us if there is an attempt to register a field trial without
	// creating the FieldTrialList. This is not an error, unless a FieldTrialList
	// is created after that.
	static bool register_without_global_;

	// A helper value made availabel to users, that shows when the FieldTrialList
	// was initialized. Note that this is a singleton instance, and hence is a
	// good approximation to the start of the process.
	base::TimeTicks application_start_time_;

	// Lock for access to registered_.
	Lock lock_;
	RegistrationList registered_;

	DISALLOW_COPY_AND_ASSIGN(FieldTrialList);
	};

	#endif // BASE_FIELD_TRIAL_H_