components/omnibox/omnibox_field_trial.cc - chromium/src.git - Git at Google

 // Copyright 2014 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.

 #include "components/omnibox/omnibox_field_trial.h"

 #include <cmath>
 #include <string>

 #include "base/command_line.h"
 #include "base/metrics/field_trial.h"
 #include "base/strings/string_number_conversions.h"
 #include "base/strings/string_split.h"
 #include "base/strings/string_util.h"
 #include "base/strings/stringprintf.h"
 #include "base/time/time.h"
 #include "components/metrics/proto/omnibox_event.pb.h"
 #include "components/omnibox/omnibox_switches.h"
 #include "components/search/search.h"
 #include "components/variations/active_field_trials.h"
 #include "components/variations/metrics_util.h"
 #include "components/variations/variations_associated_data.h"

 using metrics::OmniboxEventProto;

 namespace {

 typedef std::map<std::string, std::string> VariationParams;
 typedef HUPScoringParams::ScoreBuckets ScoreBuckets;

 // Field trial names.
 const char kStopTimerFieldTrialName[] = "OmniboxStopTimer";

 // The autocomplete dynamic field trial name prefix.  Each field trial is
 // configured dynamically and is retrieved automatically by Chrome during
 // the startup.
 const char kAutocompleteDynamicFieldTrialPrefix[] = "AutocompleteDynamicTrial_";
 // The maximum number of the autocomplete dynamic field trials (aka layers).
 const int kMaxAutocompleteDynamicFieldTrials = 5;


 // Concatenates the autocomplete dynamic field trial prefix with a field trial
 // ID to form a complete autocomplete field trial name.
 std::string DynamicFieldTrialName(int id) {
   return base::StringPrintf("%s%d", kAutocompleteDynamicFieldTrialPrefix, id);
 }

 void InitializeScoreBuckets(const VariationParams& params,
                             const char* relevance_cap_param,
                             const char* half_life_param,
                             const char* score_buckets_param,
                             ScoreBuckets* score_buckets) {
   VariationParams::const_iterator it = params.find(relevance_cap_param);
   if (it != params.end()) {
     int relevance_cap;
     if (base::StringToInt(it->second, &relevance_cap))
       score_buckets->set_relevance_cap(relevance_cap);
   }

   it = params.find(half_life_param);
   if (it != params.end()) {
     int half_life_days;
     if (base::StringToInt(it->second, &half_life_days))
       score_buckets->set_half_life_days(half_life_days);
   }

   it = params.find(score_buckets_param);
   if (it != params.end()) {
     // The value of the score bucket is a comma-separated list of
     // {DecayedCount + ":" + MaxRelevance}.
     base::StringPairs kv_pairs;
     if (base::SplitStringIntoKeyValuePairs(it->second, ':', ',', &kv_pairs)) {
       for (base::StringPairs::const_iterator it = kv_pairs.begin();
            it != kv_pairs.end(); ++it) {
         ScoreBuckets::CountMaxRelevance bucket;
         base::StringToDouble(it->first, &bucket.first);
         base::StringToInt(it->second, &bucket.second);
         score_buckets->buckets().push_back(bucket);
       }
       std::sort(score_buckets->buckets().begin(),
                 score_buckets->buckets().end(),
                 std::greater<ScoreBuckets::CountMaxRelevance>());
     }
   }
 }

 }  // namespace

 HUPScoringParams::ScoreBuckets::ScoreBuckets()
     : relevance_cap_(-1),
       half_life_days_(-1) {
 }

 HUPScoringParams::ScoreBuckets::~ScoreBuckets() {
 }

 double HUPScoringParams::ScoreBuckets::HalfLifeTimeDecay(
     const base::TimeDelta& elapsed_time) const {
   double time_ms;
   if ((half_life_days_ <= 0) ||
       ((time_ms = elapsed_time.InMillisecondsF()) <= 0))
     return 1.0;

   const double half_life_intervals =
       time_ms / base::TimeDelta::FromDays(half_life_days_).InMillisecondsF();
   return pow(2.0, -half_life_intervals);
 }

 void OmniboxFieldTrial::ActivateDynamicTrials() {
   // Initialize all autocomplete dynamic field trials.  This method may be
   // called multiple times.
   for (int i = 0; i < kMaxAutocompleteDynamicFieldTrials; ++i)
     base::FieldTrialList::FindValue(DynamicFieldTrialName(i));
 }

 int OmniboxFieldTrial::GetDisabledProviderTypes() {
   // Make sure that Autocomplete dynamic field trials are activated.  It's OK to
   // call this method multiple times.
   ActivateDynamicTrials();

   // Look for group names in form of "DisabledProviders_<mask>" where "mask"
   // is a bitmap of disabled provider types (AutocompleteProvider::Type).
   int provider_types = 0;
   for (int i = 0; i < kMaxAutocompleteDynamicFieldTrials; ++i) {
     std::string group_name = base::FieldTrialList::FindFullName(
         DynamicFieldTrialName(i));
     const char kDisabledProviders[] = "DisabledProviders_";
     if (!StartsWithASCII(group_name, kDisabledProviders, true))
       continue;
     int types = 0;
     if (!base::StringToInt(base::StringPiece(
             group_name.substr(strlen(kDisabledProviders))), &types))
       continue;
     provider_types |= types;
   }
   return provider_types;
 }

 void OmniboxFieldTrial::GetActiveSuggestFieldTrialHashes(
     std::vector<uint32>* field_trial_hashes) {
   field_trial_hashes->clear();
   for (int i = 0; i < kMaxAutocompleteDynamicFieldTrials; ++i) {
     const std::string& trial_name = DynamicFieldTrialName(i);
     if (base::FieldTrialList::TrialExists(trial_name))
       field_trial_hashes->push_back(metrics::HashName(trial_name));
   }
   if (base::FieldTrialList::TrialExists(kBundledExperimentFieldTrialName)) {
     field_trial_hashes->push_back(
         metrics::HashName(kBundledExperimentFieldTrialName));
   }
 }

 base::TimeDelta OmniboxFieldTrial::StopTimerFieldTrialDuration() {
   int stop_timer_ms;
   if (base::StringToInt(
       base::FieldTrialList::FindFullName(kStopTimerFieldTrialName),
           &stop_timer_ms))
     return base::TimeDelta::FromMilliseconds(stop_timer_ms);
   return base::TimeDelta::FromMilliseconds(1500);
 }

 bool OmniboxFieldTrial::InZeroSuggestFieldTrial() {
   if (variations::GetVariationParamValue(
           kBundledExperimentFieldTrialName, kZeroSuggestRule) == "true")
     return true;
   if (variations::GetVariationParamValue(
           kBundledExperimentFieldTrialName, kZeroSuggestRule) == "false")
     return false;
 #if defined(OS_WIN) || defined(OS_CHROMEOS) || defined(OS_LINUX) || \
     (defined(OS_MACOSX) && !defined(OS_IOS))
   return true;
 #else
   return false;
 #endif
 }

 bool OmniboxFieldTrial::InZeroSuggestMostVisitedFieldTrial() {
   return variations::GetVariationParamValue(
       kBundledExperimentFieldTrialName,
       kZeroSuggestVariantRule) == "MostVisited";
 }

 bool OmniboxFieldTrial::InZeroSuggestAfterTypingFieldTrial() {
   return variations::GetVariationParamValue(
       kBundledExperimentFieldTrialName,
       kZeroSuggestVariantRule) == "AfterTyping";
 }

 bool OmniboxFieldTrial::InZeroSuggestPersonalizedFieldTrial() {
   return variations::GetVariationParamValue(
       kBundledExperimentFieldTrialName,
       kZeroSuggestVariantRule) == "Personalized";
 }

 bool OmniboxFieldTrial::ShortcutsScoringMaxRelevance(
     OmniboxEventProto::PageClassification current_page_classification,
     int* max_relevance) {
   // The value of the rule is a string that encodes an integer containing
   // the max relevance.
   const std::string& max_relevance_str =
       OmniboxFieldTrial::GetValueForRuleInContext(
           kShortcutsScoringMaxRelevanceRule, current_page_classification);
   if (max_relevance_str.empty())
     return false;
   if (!base::StringToInt(max_relevance_str, max_relevance))
     return false;
   return true;
 }

 bool OmniboxFieldTrial::SearchHistoryPreventInlining(
     OmniboxEventProto::PageClassification current_page_classification) {
   return OmniboxFieldTrial::GetValueForRuleInContext(
       kSearchHistoryRule, current_page_classification) == "PreventInlining";
 }

 bool OmniboxFieldTrial::SearchHistoryDisable(
     OmniboxEventProto::PageClassification current_page_classification) {
   return OmniboxFieldTrial::GetValueForRuleInContext(
       kSearchHistoryRule, current_page_classification) == "Disable";
 }

 void OmniboxFieldTrial::GetDemotionsByType(
     OmniboxEventProto::PageClassification current_page_classification,
     DemotionMultipliers* demotions_by_type) {
   demotions_by_type->clear();
   std::string demotion_rule = OmniboxFieldTrial::GetValueForRuleInContext(
       kDemoteByTypeRule, current_page_classification);
   // If there is no demotion rule for this context, then use the default
   // value for that context.  At the moment the default value is non-empty
   // only for the fakebox-focus context.
   if (demotion_rule.empty() &&
       (current_page_classification ==
        OmniboxEventProto::INSTANT_NTP_WITH_FAKEBOX_AS_STARTING_FOCUS))
     demotion_rule = "1:61,2:61,3:61,4:61,16:61";

   // The value of the DemoteByType rule is a comma-separated list of
   // {ResultType + ":" + Number} where ResultType is an AutocompleteMatchType::
   // Type enum represented as an integer and Number is an integer number
   // between 0 and 100 inclusive.   Relevance scores of matches of that result
   // type are multiplied by Number / 100.  100 means no change.
   base::StringPairs kv_pairs;
   if (base::SplitStringIntoKeyValuePairs(demotion_rule, ':', ',', &kv_pairs)) {
     for (base::StringPairs::const_iterator it = kv_pairs.begin();
          it != kv_pairs.end(); ++it) {
       // This is a best-effort conversion; we trust the hand-crafted parameters
       // downloaded from the server to be perfect.  There's no need to handle
       // errors smartly.
       int k, v;
       base::StringToInt(it->first, &k);
       base::StringToInt(it->second, &v);
       (*demotions_by_type)[static_cast<AutocompleteMatchType::Type>(k)] =
           static_cast<float>(v) / 100.0f;
     }
   }
 }

 void OmniboxFieldTrial::GetExperimentalHUPScoringParams(
     HUPScoringParams* scoring_params) {
   scoring_params->experimental_scoring_enabled = false;

   VariationParams params;
   if (!variations::GetVariationParams(kBundledExperimentFieldTrialName,
                                       &params))
     return;

   VariationParams::const_iterator it = params.find(kHUPNewScoringEnabledParam);
   if (it != params.end()) {
     int enabled = 0;
     if (base::StringToInt(it->second, &enabled))
       scoring_params->experimental_scoring_enabled = (enabled != 0);
   }

   InitializeScoreBuckets(params, kHUPNewScoringTypedCountRelevanceCapParam,
       kHUPNewScoringTypedCountHalfLifeTimeParam,
       kHUPNewScoringTypedCountScoreBucketsParam,
       &scoring_params->typed_count_buckets);
   InitializeScoreBuckets(params, kHUPNewScoringVisitedCountRelevanceCapParam,
       kHUPNewScoringVisitedCountHalfLifeTimeParam,
       kHUPNewScoringVisitedCountScoreBucketsParam,
       &scoring_params->visited_count_buckets);
 }

 int OmniboxFieldTrial::HQPBookmarkValue() {
   std::string bookmark_value_str =
       variations::GetVariationParamValue(kBundledExperimentFieldTrialName,
                                          kHQPBookmarkValueRule);
   if (bookmark_value_str.empty())
     return 10;
   // This is a best-effort conversion; we trust the hand-crafted parameters
   // downloaded from the server to be perfect.  There's no need for handle
   // errors smartly.
   int bookmark_value;
   base::StringToInt(bookmark_value_str, &bookmark_value);
   return bookmark_value;
 }

 bool OmniboxFieldTrial::HQPAllowMatchInTLDValue() {
   return variations::GetVariationParamValue(
       kBundledExperimentFieldTrialName,
       kHQPAllowMatchInTLDRule) == "true";
 }

 bool OmniboxFieldTrial::HQPAllowMatchInSchemeValue() {
   return variations::GetVariationParamValue(
       kBundledExperimentFieldTrialName,
       kHQPAllowMatchInSchemeRule) == "true";
 }

 bool OmniboxFieldTrial::DisableInlining() {
   return variations::GetVariationParamValue(
       kBundledExperimentFieldTrialName,
       kDisableInliningRule) == "true";
 }

 bool OmniboxFieldTrial::EnableAnswersInSuggest() {
   const CommandLine* cl = CommandLine::ForCurrentProcess();
   if (cl->HasSwitch(switches::kDisableAnswersInSuggest))
     return false;
   if (cl->HasSwitch(switches::kEnableAnswersInSuggest))
     return true;

   return variations::GetVariationParamValue(
       kBundledExperimentFieldTrialName,
       kAnswersInSuggestRule) == "true";
 }

 bool OmniboxFieldTrial::AddUWYTMatchEvenIfPromotedURLs() {
   return variations::GetVariationParamValue(
       kBundledExperimentFieldTrialName,
       kAddUWYTMatchEvenIfPromotedURLsRule) == "true";
 }

 bool OmniboxFieldTrial::DisplayHintTextWhenPossible() {
   return variations::GetVariationParamValue(
       kBundledExperimentFieldTrialName,
       kDisplayHintTextWhenPossibleRule) == "true";
 }

 const char OmniboxFieldTrial::kBundledExperimentFieldTrialName[] =
     "OmniboxBundledExperimentV1";
 const char OmniboxFieldTrial::kShortcutsScoringMaxRelevanceRule[] =
     "ShortcutsScoringMaxRelevance";
 const char OmniboxFieldTrial::kSearchHistoryRule[] = "SearchHistory";
 const char OmniboxFieldTrial::kDemoteByTypeRule[] = "DemoteByType";
 const char OmniboxFieldTrial::kHQPBookmarkValueRule[] =
     "HQPBookmarkValue";
 const char OmniboxFieldTrial::kHQPAllowMatchInTLDRule[] = "HQPAllowMatchInTLD";
 const char OmniboxFieldTrial::kHQPAllowMatchInSchemeRule[] =
     "HQPAllowMatchInScheme";
 const char OmniboxFieldTrial::kZeroSuggestRule[] = "ZeroSuggest";
 const char OmniboxFieldTrial::kZeroSuggestVariantRule[] = "ZeroSuggestVariant";
 const char OmniboxFieldTrial::kDisableInliningRule[] = "DisableInlining";
 const char OmniboxFieldTrial::kAnswersInSuggestRule[] = "AnswersInSuggest";
 const char OmniboxFieldTrial::kAddUWYTMatchEvenIfPromotedURLsRule[] =
     "AddUWYTMatchEvenIfPromotedURLs";
 const char OmniboxFieldTrial::kDisplayHintTextWhenPossibleRule[] =
     "DisplayHintTextWhenPossible";

 const char OmniboxFieldTrial::kHUPNewScoringEnabledParam[] =
     "HUPExperimentalScoringEnabled";
 const char OmniboxFieldTrial::kHUPNewScoringTypedCountRelevanceCapParam[] =
     "TypedCountRelevanceCap";
 const char OmniboxFieldTrial::kHUPNewScoringTypedCountHalfLifeTimeParam[] =
     "TypedCountHalfLifeTime";
 const char OmniboxFieldTrial::kHUPNewScoringTypedCountScoreBucketsParam[] =
     "TypedCountScoreBuckets";
 const char OmniboxFieldTrial::kHUPNewScoringVisitedCountRelevanceCapParam[] =
     "VisitedCountRelevanceCap";
 const char OmniboxFieldTrial::kHUPNewScoringVisitedCountHalfLifeTimeParam[] =
     "VisitedCountHalfLifeTime";
 const char OmniboxFieldTrial::kHUPNewScoringVisitedCountScoreBucketsParam[] =
     "VisitedCountScoreBuckets";

 // Background and implementation details:
 //
 // Each experiment group in any field trial can come with an optional set of
 // parameters (key-value pairs).  In the bundled omnibox experiment
 // (kBundledExperimentFieldTrialName), each experiment group comes with a
 // list of parameters in the form:
 //   key=<Rule>:
 //       <OmniboxEventProto::PageClassification (as an int)>:
 //       <whether Instant Extended is enabled (as a 1 or 0)>
 //     (note that there are no linebreaks in keys; this format is for
 //      presentation only>
 //   value=<arbitrary string>
 // Both the OmniboxEventProto::PageClassification and the Instant Extended
 // entries can be "*", which means this rule applies for all values of the
 // matching portion of the context.
 // One example parameter is
 //   key=SearchHistory:6:1
 //   value=PreventInlining
 // This means in page classification context 6 (a search result page doing
 // search term replacement) with Instant Extended enabled, the SearchHistory
 // experiment should PreventInlining.
 //
 // When an exact match to the rule in the current context is missing, we
 // give preference to a wildcard rule that matches the instant extended
 // context over a wildcard rule that matches the page classification
 // context.  Hopefully, though, users will write their field trial configs
 // so as not to rely on this fall back order.
 //
 // In short, this function tries to find the value associated with key
 // |rule|:|page_classification|:|instant_extended|, failing that it looks up
 // |rule|:*:|instant_extended|, failing that it looks up
 // |rule|:|page_classification|:*, failing that it looks up |rule|:*:*,
 // and failing that it returns the empty string.
 std::string OmniboxFieldTrial::GetValueForRuleInContext(
     const std::string& rule,
     OmniboxEventProto::PageClassification page_classification) {
   VariationParams params;
   if (!variations::GetVariationParams(kBundledExperimentFieldTrialName,
                                       &params)) {
     return std::string();
   }
   const std::string page_classification_str =
       base::IntToString(static_cast<int>(page_classification));
   const std::string instant_extended =
       chrome::IsInstantExtendedAPIEnabled() ? "1" : "0";
   // Look up rule in this exact context.
   VariationParams::const_iterator it = params.find(
       rule + ":" + page_classification_str + ":" + instant_extended);
   if (it != params.end())
     return it->second;
   // Fall back to the global page classification context.
   it = params.find(rule + ":*:" + instant_extended);
   if (it != params.end())
     return it->second;
   // Fall back to the global instant extended context.
   it = params.find(rule + ":" + page_classification_str + ":*");
   if (it != params.end())
     return it->second;
   // Look up rule in the global context.
   it = params.find(rule + ":*:*");
   return (it != params.end()) ? it->second : std::string();
 }
	// Copyright 2014 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.

	#include "components/omnibox/omnibox_field_trial.h"

	#include <cmath>
	#include <string>

	#include "base/command_line.h"
	#include "base/metrics/field_trial.h"
	#include "base/strings/string_number_conversions.h"
	#include "base/strings/string_split.h"
	#include "base/strings/string_util.h"
	#include "base/strings/stringprintf.h"
	#include "base/time/time.h"
	#include "components/metrics/proto/omnibox_event.pb.h"
	#include "components/omnibox/omnibox_switches.h"
	#include "components/search/search.h"
	#include "components/variations/active_field_trials.h"
	#include "components/variations/metrics_util.h"
	#include "components/variations/variations_associated_data.h"

	using metrics::OmniboxEventProto;

	namespace {

	typedef std::map<std::string, std::string> VariationParams;
	typedef HUPScoringParams::ScoreBuckets ScoreBuckets;

	// Field trial names.
	const char kStopTimerFieldTrialName[] = "OmniboxStopTimer";

	// The autocomplete dynamic field trial name prefix. Each field trial is
	// configured dynamically and is retrieved automatically by Chrome during
	// the startup.
	const char kAutocompleteDynamicFieldTrialPrefix[] = "AutocompleteDynamicTrial_";
	// The maximum number of the autocomplete dynamic field trials (aka layers).
	const int kMaxAutocompleteDynamicFieldTrials = 5;


	// Concatenates the autocomplete dynamic field trial prefix with a field trial
	// ID to form a complete autocomplete field trial name.
	std::string DynamicFieldTrialName(int id) {
	return base::StringPrintf("%s%d", kAutocompleteDynamicFieldTrialPrefix, id);
	}

	void InitializeScoreBuckets(const VariationParams& params,
	const char* relevance_cap_param,
	const char* half_life_param,
	const char* score_buckets_param,
	ScoreBuckets* score_buckets) {
	VariationParams::const_iterator it = params.find(relevance_cap_param);
	if (it != params.end()) {
	int relevance_cap;
	if (base::StringToInt(it->second, &relevance_cap))
	score_buckets->set_relevance_cap(relevance_cap);
	}

	it = params.find(half_life_param);
	if (it != params.end()) {
	int half_life_days;
	if (base::StringToInt(it->second, &half_life_days))
	score_buckets->set_half_life_days(half_life_days);
	}

	it = params.find(score_buckets_param);
	if (it != params.end()) {
	// The value of the score bucket is a comma-separated list of
	// {DecayedCount + ":" + MaxRelevance}.
	base::StringPairs kv_pairs;
	if (base::SplitStringIntoKeyValuePairs(it->second, ':', ',', &kv_pairs)) {
	for (base::StringPairs::const_iterator it = kv_pairs.begin();
	it != kv_pairs.end(); ++it) {
	ScoreBuckets::CountMaxRelevance bucket;
	base::StringToDouble(it->first, &bucket.first);
	base::StringToInt(it->second, &bucket.second);
	score_buckets->buckets().push_back(bucket);
	}
	std::sort(score_buckets->buckets().begin(),
	score_buckets->buckets().end(),
	std::greater<ScoreBuckets::CountMaxRelevance>());
	}
	}
	}

	} // namespace

	HUPScoringParams::ScoreBuckets::ScoreBuckets()
	: relevance_cap_(-1),
	half_life_days_(-1) {
	}

	HUPScoringParams::ScoreBuckets::~ScoreBuckets() {
	}

	double HUPScoringParams::ScoreBuckets::HalfLifeTimeDecay(
	const base::TimeDelta& elapsed_time) const {
	double time_ms;
	if ((half_life_days_ <= 0) \|\|
	((time_ms = elapsed_time.InMillisecondsF()) <= 0))
	return 1.0;

	const double half_life_intervals =
	time_ms / base::TimeDelta::FromDays(half_life_days_).InMillisecondsF();
	return pow(2.0, -half_life_intervals);
	}

	void OmniboxFieldTrial::ActivateDynamicTrials() {
	// Initialize all autocomplete dynamic field trials. This method may be
	// called multiple times.
	for (int i = 0; i < kMaxAutocompleteDynamicFieldTrials; ++i)
	base::FieldTrialList::FindValue(DynamicFieldTrialName(i));
	}

	int OmniboxFieldTrial::GetDisabledProviderTypes() {
	// Make sure that Autocomplete dynamic field trials are activated. It's OK to
	// call this method multiple times.
	ActivateDynamicTrials();

	// Look for group names in form of "DisabledProviders_<mask>" where "mask"
	// is a bitmap of disabled provider types (AutocompleteProvider::Type).
	int provider_types = 0;
	for (int i = 0; i < kMaxAutocompleteDynamicFieldTrials; ++i) {
	std::string group_name = base::FieldTrialList::FindFullName(
	DynamicFieldTrialName(i));
	const char kDisabledProviders[] = "DisabledProviders_";
	if (!StartsWithASCII(group_name, kDisabledProviders, true))
	continue;
	int types = 0;
	if (!base::StringToInt(base::StringPiece(
	group_name.substr(strlen(kDisabledProviders))), &types))
	continue;
	provider_types \|= types;
	}
	return provider_types;
	}

	void OmniboxFieldTrial::GetActiveSuggestFieldTrialHashes(
	std::vector<uint32>* field_trial_hashes) {
	field_trial_hashes->clear();
	for (int i = 0; i < kMaxAutocompleteDynamicFieldTrials; ++i) {
	const std::string& trial_name = DynamicFieldTrialName(i);
	if (base::FieldTrialList::TrialExists(trial_name))
	field_trial_hashes->push_back(metrics::HashName(trial_name));
	}
	if (base::FieldTrialList::TrialExists(kBundledExperimentFieldTrialName)) {
	field_trial_hashes->push_back(
	metrics::HashName(kBundledExperimentFieldTrialName));
	}
	}

	base::TimeDelta OmniboxFieldTrial::StopTimerFieldTrialDuration() {
	int stop_timer_ms;
	if (base::StringToInt(
	base::FieldTrialList::FindFullName(kStopTimerFieldTrialName),
	&stop_timer_ms))
	return base::TimeDelta::FromMilliseconds(stop_timer_ms);
	return base::TimeDelta::FromMilliseconds(1500);
	}

	bool OmniboxFieldTrial::InZeroSuggestFieldTrial() {
	if (variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName, kZeroSuggestRule) == "true")
	return true;
	if (variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName, kZeroSuggestRule) == "false")
	return false;
	#if defined(OS_WIN) \|\| defined(OS_CHROMEOS) \|\| defined(OS_LINUX) \|\| \
	(defined(OS_MACOSX) && !defined(OS_IOS))
	return true;
	#else
	return false;
	#endif
	}

	bool OmniboxFieldTrial::InZeroSuggestMostVisitedFieldTrial() {
	return variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName,
	kZeroSuggestVariantRule) == "MostVisited";
	}

	bool OmniboxFieldTrial::InZeroSuggestAfterTypingFieldTrial() {
	return variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName,
	kZeroSuggestVariantRule) == "AfterTyping";
	}

	bool OmniboxFieldTrial::InZeroSuggestPersonalizedFieldTrial() {
	return variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName,
	kZeroSuggestVariantRule) == "Personalized";
	}

	bool OmniboxFieldTrial::ShortcutsScoringMaxRelevance(
	OmniboxEventProto::PageClassification current_page_classification,
	int* max_relevance) {
	// The value of the rule is a string that encodes an integer containing
	// the max relevance.
	const std::string& max_relevance_str =
	OmniboxFieldTrial::GetValueForRuleInContext(
	kShortcutsScoringMaxRelevanceRule, current_page_classification);
	if (max_relevance_str.empty())
	return false;
	if (!base::StringToInt(max_relevance_str, max_relevance))
	return false;
	return true;
	}

	bool OmniboxFieldTrial::SearchHistoryPreventInlining(
	OmniboxEventProto::PageClassification current_page_classification) {
	return OmniboxFieldTrial::GetValueForRuleInContext(
	kSearchHistoryRule, current_page_classification) == "PreventInlining";
	}

	bool OmniboxFieldTrial::SearchHistoryDisable(
	OmniboxEventProto::PageClassification current_page_classification) {
	return OmniboxFieldTrial::GetValueForRuleInContext(
	kSearchHistoryRule, current_page_classification) == "Disable";
	}

	void OmniboxFieldTrial::GetDemotionsByType(
	OmniboxEventProto::PageClassification current_page_classification,
	DemotionMultipliers* demotions_by_type) {
	demotions_by_type->clear();
	std::string demotion_rule = OmniboxFieldTrial::GetValueForRuleInContext(
	kDemoteByTypeRule, current_page_classification);
	// If there is no demotion rule for this context, then use the default
	// value for that context. At the moment the default value is non-empty
	// only for the fakebox-focus context.
	if (demotion_rule.empty() &&
	(current_page_classification ==
	OmniboxEventProto::INSTANT_NTP_WITH_FAKEBOX_AS_STARTING_FOCUS))
	demotion_rule = "1:61,2:61,3:61,4:61,16:61";

	// The value of the DemoteByType rule is a comma-separated list of
	// {ResultType + ":" + Number} where ResultType is an AutocompleteMatchType::
	// Type enum represented as an integer and Number is an integer number
	// between 0 and 100 inclusive. Relevance scores of matches of that result
	// type are multiplied by Number / 100. 100 means no change.
	base::StringPairs kv_pairs;
	if (base::SplitStringIntoKeyValuePairs(demotion_rule, ':', ',', &kv_pairs)) {
	for (base::StringPairs::const_iterator it = kv_pairs.begin();
	it != kv_pairs.end(); ++it) {
	// This is a best-effort conversion; we trust the hand-crafted parameters
	// downloaded from the server to be perfect. There's no need to handle
	// errors smartly.
	int k, v;
	base::StringToInt(it->first, &k);
	base::StringToInt(it->second, &v);
	(*demotions_by_type)[static_cast<AutocompleteMatchType::Type>(k)] =
	static_cast<float>(v) / 100.0f;
	}
	}
	}

	void OmniboxFieldTrial::GetExperimentalHUPScoringParams(
	HUPScoringParams* scoring_params) {
	scoring_params->experimental_scoring_enabled = false;

	VariationParams params;
	if (!variations::GetVariationParams(kBundledExperimentFieldTrialName,
	&params))
	return;

	VariationParams::const_iterator it = params.find(kHUPNewScoringEnabledParam);
	if (it != params.end()) {
	int enabled = 0;
	if (base::StringToInt(it->second, &enabled))
	scoring_params->experimental_scoring_enabled = (enabled != 0);
	}

	InitializeScoreBuckets(params, kHUPNewScoringTypedCountRelevanceCapParam,
	kHUPNewScoringTypedCountHalfLifeTimeParam,
	kHUPNewScoringTypedCountScoreBucketsParam,
	&scoring_params->typed_count_buckets);
	InitializeScoreBuckets(params, kHUPNewScoringVisitedCountRelevanceCapParam,
	kHUPNewScoringVisitedCountHalfLifeTimeParam,
	kHUPNewScoringVisitedCountScoreBucketsParam,
	&scoring_params->visited_count_buckets);
	}

	int OmniboxFieldTrial::HQPBookmarkValue() {
	std::string bookmark_value_str =
	variations::GetVariationParamValue(kBundledExperimentFieldTrialName,
	kHQPBookmarkValueRule);
	if (bookmark_value_str.empty())
	return 10;
	// This is a best-effort conversion; we trust the hand-crafted parameters
	// downloaded from the server to be perfect. There's no need for handle
	// errors smartly.
	int bookmark_value;
	base::StringToInt(bookmark_value_str, &bookmark_value);
	return bookmark_value;
	}

	bool OmniboxFieldTrial::HQPAllowMatchInTLDValue() {
	return variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName,
	kHQPAllowMatchInTLDRule) == "true";
	}

	bool OmniboxFieldTrial::HQPAllowMatchInSchemeValue() {
	return variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName,
	kHQPAllowMatchInSchemeRule) == "true";
	}

	bool OmniboxFieldTrial::DisableInlining() {
	return variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName,
	kDisableInliningRule) == "true";
	}

	bool OmniboxFieldTrial::EnableAnswersInSuggest() {
	const CommandLine* cl = CommandLine::ForCurrentProcess();
	if (cl->HasSwitch(switches::kDisableAnswersInSuggest))
	return false;
	if (cl->HasSwitch(switches::kEnableAnswersInSuggest))
	return true;

	return variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName,
	kAnswersInSuggestRule) == "true";
	}

	bool OmniboxFieldTrial::AddUWYTMatchEvenIfPromotedURLs() {
	return variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName,
	kAddUWYTMatchEvenIfPromotedURLsRule) == "true";
	}

	bool OmniboxFieldTrial::DisplayHintTextWhenPossible() {
	return variations::GetVariationParamValue(
	kBundledExperimentFieldTrialName,
	kDisplayHintTextWhenPossibleRule) == "true";
	}

	const char OmniboxFieldTrial::kBundledExperimentFieldTrialName[] =
	"OmniboxBundledExperimentV1";
	const char OmniboxFieldTrial::kShortcutsScoringMaxRelevanceRule[] =
	"ShortcutsScoringMaxRelevance";
	const char OmniboxFieldTrial::kSearchHistoryRule[] = "SearchHistory";
	const char OmniboxFieldTrial::kDemoteByTypeRule[] = "DemoteByType";
	const char OmniboxFieldTrial::kHQPBookmarkValueRule[] =
	"HQPBookmarkValue";
	const char OmniboxFieldTrial::kHQPAllowMatchInTLDRule[] = "HQPAllowMatchInTLD";
	const char OmniboxFieldTrial::kHQPAllowMatchInSchemeRule[] =
	"HQPAllowMatchInScheme";
	const char OmniboxFieldTrial::kZeroSuggestRule[] = "ZeroSuggest";
	const char OmniboxFieldTrial::kZeroSuggestVariantRule[] = "ZeroSuggestVariant";
	const char OmniboxFieldTrial::kDisableInliningRule[] = "DisableInlining";
	const char OmniboxFieldTrial::kAnswersInSuggestRule[] = "AnswersInSuggest";
	const char OmniboxFieldTrial::kAddUWYTMatchEvenIfPromotedURLsRule[] =
	"AddUWYTMatchEvenIfPromotedURLs";
	const char OmniboxFieldTrial::kDisplayHintTextWhenPossibleRule[] =
	"DisplayHintTextWhenPossible";

	const char OmniboxFieldTrial::kHUPNewScoringEnabledParam[] =
	"HUPExperimentalScoringEnabled";
	const char OmniboxFieldTrial::kHUPNewScoringTypedCountRelevanceCapParam[] =
	"TypedCountRelevanceCap";
	const char OmniboxFieldTrial::kHUPNewScoringTypedCountHalfLifeTimeParam[] =
	"TypedCountHalfLifeTime";
	const char OmniboxFieldTrial::kHUPNewScoringTypedCountScoreBucketsParam[] =
	"TypedCountScoreBuckets";
	const char OmniboxFieldTrial::kHUPNewScoringVisitedCountRelevanceCapParam[] =
	"VisitedCountRelevanceCap";
	const char OmniboxFieldTrial::kHUPNewScoringVisitedCountHalfLifeTimeParam[] =
	"VisitedCountHalfLifeTime";
	const char OmniboxFieldTrial::kHUPNewScoringVisitedCountScoreBucketsParam[] =
	"VisitedCountScoreBuckets";

	// Background and implementation details:
	//
	// Each experiment group in any field trial can come with an optional set of
	// parameters (key-value pairs). In the bundled omnibox experiment
	// (kBundledExperimentFieldTrialName), each experiment group comes with a
	// list of parameters in the form:
	// key=<Rule>:
	// <OmniboxEventProto::PageClassification (as an int)>:
	// <whether Instant Extended is enabled (as a 1 or 0)>
	// (note that there are no linebreaks in keys; this format is for
	// presentation only>
	// value=<arbitrary string>
	// Both the OmniboxEventProto::PageClassification and the Instant Extended
	// entries can be "*", which means this rule applies for all values of the
	// matching portion of the context.
	// One example parameter is
	// key=SearchHistory:6:1
	// value=PreventInlining
	// This means in page classification context 6 (a search result page doing
	// search term replacement) with Instant Extended enabled, the SearchHistory
	// experiment should PreventInlining.
	//
	// When an exact match to the rule in the current context is missing, we
	// give preference to a wildcard rule that matches the instant extended
	// context over a wildcard rule that matches the page classification
	// context. Hopefully, though, users will write their field trial configs
	// so as not to rely on this fall back order.
	//
	// In short, this function tries to find the value associated with key
	// \|rule\|:\|page_classification\|:\|instant_extended\|, failing that it looks up
	// \|rule\|:*:\|instant_extended\|, failing that it looks up
	// \|rule\|:\|page_classification\|:, failing that it looks up \|rule\|::*,
	// and failing that it returns the empty string.
	std::string OmniboxFieldTrial::GetValueForRuleInContext(
	const std::string& rule,
	OmniboxEventProto::PageClassification page_classification) {
	VariationParams params;
	if (!variations::GetVariationParams(kBundledExperimentFieldTrialName,
	&params)) {
	return std::string();
	}
	const std::string page_classification_str =
	base::IntToString(static_cast<int>(page_classification));
	const std::string instant_extended =
	chrome::IsInstantExtendedAPIEnabled() ? "1" : "0";
	// Look up rule in this exact context.
	VariationParams::const_iterator it = params.find(
	rule + ":" + page_classification_str + ":" + instant_extended);
	if (it != params.end())
	return it->second;
	// Fall back to the global page classification context.
	it = params.find(rule + ":*:" + instant_extended);
	if (it != params.end())
	return it->second;
	// Fall back to the global instant extended context.
	it = params.find(rule + ":" + page_classification_str + ":*");
	if (it != params.end())
	return it->second;
	// Look up rule in the global context.
	it = params.find(rule + "::");
	return (it != params.end()) ? it->second : std::string();
	}