// Copyright 2017 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_FIELD_TRIAL_PARAMS_H_ #define BASE_METRICS_FIELD_TRIAL_PARAMS_H_ #include #include #include "base/base_export.h" #include "base/logging.h" #include "base/notreached.h" #include "base/time/time.h" namespace base { struct Feature; // Key-value mapping type for field trial parameters. typedef std::map FieldTrialParams; // Param string decoding function for AssociateFieldTrialParamsFromString(). typedef std::string (*FieldTrialParamsDecodeStringFunc)(const std::string& str); // Unescapes special characters from the given string. Used in // AssociateFieldTrialParamsFromString() as one of the feature params decoding // functions. BASE_EXPORT std::string UnescapeValue(const std::string& value); // Associates the specified set of key-value |params| with the field trial // specified by |trial_name| and |group_name|. Fails and returns false if the // specified field trial already has params associated with it or the trial // is already active (group() has been called on it). Thread safe. BASE_EXPORT bool AssociateFieldTrialParams(const std::string& trial_name, const std::string& group_name, const FieldTrialParams& params); // Provides a mechanism to associate multiple set of params to multiple groups // with a formatted string as returned by FieldTrialList::AllParamsToString(). // |decode_data_func| allows specifying a custom decoding function. BASE_EXPORT bool AssociateFieldTrialParamsFromString( const std::string& params_string, FieldTrialParamsDecodeStringFunc decode_data_func); // Retrieves the set of key-value |params| for the specified field trial, based // on its selected group. If the field trial does not exist or its selected // group does not have any parameters associated with it, returns false and // does not modify |params|. Calling this function will result in the field // trial being marked as active if found (i.e. group() will be called on it), // if it wasn't already. Thread safe. BASE_EXPORT bool GetFieldTrialParams(const std::string& trial_name, FieldTrialParams* params); // Retrieves the set of key-value |params| for the field trial associated with // the specified |feature|. A feature is associated with at most one field // trial and selected group. See base/feature_list.h for more information on // features. If the feature is not enabled, or if there's no associated params, // returns false and does not modify |params|. Calling this function will // result in the associated field trial being marked as active if found (i.e. // group() will be called on it), if it wasn't already. Thread safe. BASE_EXPORT bool GetFieldTrialParamsByFeature(const base::Feature& feature, FieldTrialParams* params); // Retrieves a specific parameter value corresponding to |param_name| for the // specified field trial, based on its selected group. If the field trial does // not exist or the specified parameter does not exist, returns an empty // string. Calling this function will result in the field trial being marked as // active if found (i.e. group() will be called on it), if it wasn't already. // Thread safe. BASE_EXPORT std::string GetFieldTrialParamValue(const std::string& trial_name, const std::string& param_name); // Retrieves a specific parameter value corresponding to |param_name| for the // field trial associated with the specified |feature|. A feature is associated // with at most one field trial and selected group. See base/feature_list.h for // more information on features. If the feature is not enabled, or the // specified parameter does not exist, returns an empty string. Calling this // function will result in the associated field trial being marked as active if // found (i.e. group() will be called on it), if it wasn't already. Thread safe. BASE_EXPORT std::string GetFieldTrialParamValueByFeature( const base::Feature& feature, const std::string& param_name); // Same as GetFieldTrialParamValueByFeature(). On top of that, it converts the // string value into an int using base::StringToInt() and returns it, if // successful. Otherwise, it returns |default_value|. If the string value is not // empty and the conversion does not succeed, it produces a warning to LOG. BASE_EXPORT int GetFieldTrialParamByFeatureAsInt(const base::Feature& feature, const std::string& param_name, int default_value); // Same as GetFieldTrialParamValueByFeature(). On top of that, it converts the // string value into a double using base::StringToDouble() and returns it, if // successful. Otherwise, it returns |default_value|. If the string value is not // empty and the conversion does not succeed, it produces a warning to LOG. BASE_EXPORT double GetFieldTrialParamByFeatureAsDouble( const base::Feature& feature, const std::string& param_name, double default_value); // Same as GetFieldTrialParamValueByFeature(). On top of that, it converts the // string value into a boolean and returns it, if successful. Otherwise, it // returns |default_value|. The only string representations accepted here are // "true" and "false". If the string value is not empty and the conversion does // not succeed, it produces a warning to LOG. BASE_EXPORT bool GetFieldTrialParamByFeatureAsBool( const base::Feature& feature, const std::string& param_name, bool default_value); // Shared declaration for various FeatureParam types. // // This template is defined for the following types T: // bool // int // double // std::string // enum types // base::TimeDelta // // See the individual definitions below for the appropriate interfaces. // Attempting to use it with any other type is a compile error. template ::value> struct FeatureParam { // Prevent use of FeatureParam<> with unsupported types (e.g. void*). Uses T // in its definition so that evaluation is deferred until the template is // instantiated. static_assert(!std::is_same::value, "unsupported FeatureParam<> type"); }; // Declares a string-valued parameter. Example: // // constexpr FeatureParam kAssistantName{ // &kAssistantFeature, "assistant_name", "HAL"}; // // If the feature is not set, or set to the empty string, then Get() will return // the default value. template <> struct FeatureParam { constexpr FeatureParam(const Feature* feature, const char* name, const char* default_value) : feature(feature), name(name), default_value(default_value) {} BASE_EXPORT std::string Get() const; const Feature* const feature; const char* const name; const char* const default_value; }; // Declares a double-valued parameter. Example: // // constexpr FeatureParam kAssistantTriggerThreshold{ // &kAssistantFeature, "trigger_threshold", 0.10}; // // If the feature is not set, or set to an invalid double value, then Get() will // return the default value. template <> struct FeatureParam { constexpr FeatureParam(const Feature* feature, const char* name, double default_value) : feature(feature), name(name), default_value(default_value) {} BASE_EXPORT double Get() const; const Feature* const feature; const char* const name; const double default_value; }; // Declares an int-valued parameter. Example: // // constexpr FeatureParam kAssistantParallelism{ // &kAssistantFeature, "parallelism", 4}; // // If the feature is not set, or set to an invalid int value, then Get() will // return the default value. template <> struct FeatureParam { constexpr FeatureParam(const Feature* feature, const char* name, int default_value) : feature(feature), name(name), default_value(default_value) {} BASE_EXPORT int Get() const; const Feature* const feature; const char* const name; const int default_value; }; // Declares a bool-valued parameter. Example: // // constexpr FeatureParam kAssistantIsHelpful{ // &kAssistantFeature, "is_helpful", true}; // // If the feature is not set, or set to value other than "true" or "false", then // Get() will return the default value. template <> struct FeatureParam { constexpr FeatureParam(const Feature* feature, const char* name, bool default_value) : feature(feature), name(name), default_value(default_value) {} BASE_EXPORT bool Get() const; const Feature* const feature; const char* const name; const bool default_value; }; // Declares an TimeDelta-valued parameter. Example: // // constexpr base::FeatureParam kPerAgentDelayMs{ // &kPerAgentSchedulingExperiments, "delay_ms", base::TimeDelta()}; // // If the feature is not set, or set to an invalid value (as defined by // base::TimeDelta::FromString()), then Get() will return the default value. template <> struct FeatureParam { constexpr FeatureParam(const Feature* feature, const char* name, base::TimeDelta default_value) : feature(feature), name(name), default_value(default_value) {} BASE_EXPORT base::TimeDelta Get() const; const Feature* const feature; const char* const name; const base::TimeDelta default_value; }; BASE_EXPORT void LogInvalidEnumValue(const Feature& feature, const std::string& param_name, const std::string& value_as_string, int default_value_as_int); // Feature param declaration for an enum, with associated options. Example: // // constexpr FeatureParam::Option kShapeParamOptions[] = { // {SHAPE_CIRCLE, "circle"}, // {SHAPE_CYLINDER, "cylinder"}, // {SHAPE_PAPERCLIP, "paperclip"}}; // constexpr FeatureParam kAssistantShapeParam{ // &kAssistantFeature, "shape", SHAPE_CIRCLE, &kShapeParamOptions}; // // With this declaration, the parameter may be set to "circle", "cylinder", or // "paperclip", and that will be translated to one of the three enum values. By // default, or if the param is set to an unknown value, the parameter will be // assumed to be SHAPE_CIRCLE. template struct FeatureParam { struct Option { constexpr Option(Enum value, const char* name) : value(value), name(name) {} const Enum value; const char* const name; }; template constexpr FeatureParam(const Feature* feature, const char* name, const Enum default_value, const Option (*options)[option_count]) : feature(feature), name(name), default_value(default_value), options(*options), option_count(option_count) { static_assert(option_count >= 1, "FeatureParam has no options"); } Enum Get() const { std::string value = GetFieldTrialParamValueByFeature(*feature, name); if (value.empty()) return default_value; for (size_t i = 0; i < option_count; ++i) { if (value == options[i].name) return options[i].value; } LogInvalidEnumValue(*feature, name, value, static_cast(default_value)); return default_value; } // Returns the param-string for the given enum value. std::string GetName(Enum value) const { for (size_t i = 0; i < option_count; ++i) { if (value == options[i].value) return options[i].name; } NOTREACHED(); return ""; } const base::Feature* const feature; const char* const name; const Enum default_value; const Option* const options; const size_t option_count; }; } // namespace base #endif // BASE_METRICS_FIELD_TRIAL_PARAMS_H_