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android / platform / external / chromium_org / 613f9f2 / . / components / variations / variations_seed_processor_unittest.cc
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// Copyright 2013 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/variations/variations_seed_processor.h"
#include <vector>
#include "base/command_line.h"
#include "base/strings/string_split.h"
#include "components/variations/processed_study.h"
#include "components/variations/variations_associated_data.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace chrome_variations {
namespace {
// Converts |time| to Study proto format.
int64 TimeToProtoTime(const base::Time& time) {
return (time - base::Time::UnixEpoch()).InSeconds();
}
// Constants for testing associating command line flags with trial groups.
const char kFlagStudyName[] = "flag_test_trial";
const char kFlagGroup1Name[] = "flag_group1";
const char kFlagGroup2Name[] = "flag_group2";
const char kNonFlagGroupName[] = "non_flag_group";
const char kForcingFlag1[] = "flag_test1";
const char kForcingFlag2[] = "flag_test2";
const VariationID kExperimentId = 123;
// Adds an experiment to |study| with the specified |name| and |probability|.
Study_Experiment* AddExperiment(const std::string& name, int probability,
Study* study) {
Study_Experiment* experiment = study->add_experiment();
experiment->set_name(name);
experiment->set_probability_weight(probability);
return experiment;
}
// Populates |study| with test data used for testing associating command line
// flags with trials groups. The study will contain three groups, a default
// group that isn't associated with a flag, and two other groups, both
// associated with different flags.
Study CreateStudyWithFlagGroups(int default_group_probability,
int flag_group1_probability,
int flag_group2_probability) {
DCHECK_GE(default_group_probability, 0);
DCHECK_GE(flag_group1_probability, 0);
DCHECK_GE(flag_group2_probability, 0);
Study study;
study.set_name(kFlagStudyName);
study.set_default_experiment_name(kNonFlagGroupName);
AddExperiment(kNonFlagGroupName, default_group_probability, &study);
AddExperiment(kFlagGroup1Name, flag_group1_probability, &study)
->set_forcing_flag(kForcingFlag1);
AddExperiment(kFlagGroup2Name, flag_group2_probability, &study)
->set_forcing_flag(kForcingFlag2);
return study;
}
// Tests whether a field trial is active (i.e. group() has been called on it).
bool IsFieldTrialActive(const std::string& trial_name) {
base::FieldTrial::ActiveGroups active_groups;
base::FieldTrialList::GetActiveFieldTrialGroups(&active_groups);
for (size_t i = 0; i < active_groups.size(); ++i) {
if (active_groups[i].trial_name == trial_name)
return true;
}
return false;
}
} // namespace
class VariationsSeedProcessorTest : public ::testing::Test {
public:
VariationsSeedProcessorTest() {
}
virtual ~VariationsSeedProcessorTest() {
// Ensure that the maps are cleared between tests, since they are stored as
// process singletons.
testing::ClearAllVariationIDs();
testing::ClearAllVariationParams();
}
bool CreateTrialFromStudy(const Study* study) {
ProcessedStudy processed_study;
if (processed_study.Init(study, false)) {
VariationsSeedProcessor().CreateTrialFromStudy(processed_study);
return true;
}
return false;
}
private:
DISALLOW_COPY_AND_ASSIGN(VariationsSeedProcessorTest);
};
TEST_F(VariationsSeedProcessorTest, AllowForceGroupAndVariationId) {
CommandLine::ForCurrentProcess()->AppendSwitch(kForcingFlag1);
base::FieldTrialList field_trial_list(NULL);
Study study = CreateStudyWithFlagGroups(100, 0, 0);
study.mutable_experiment(1)->set_google_web_experiment_id(kExperimentId);
study.mutable_filter()->add_channel(Study_Channel_DEV);
study.mutable_filter()->add_channel(Study_Channel_CANARY);
study.mutable_filter()->add_platform(Study_Platform_PLATFORM_ANDROID);
EXPECT_TRUE(CreateTrialFromStudy(&study));
EXPECT_EQ(kFlagGroup1Name,
base::FieldTrialList::FindFullName(kFlagStudyName));
VariationID id = GetGoogleVariationID(GOOGLE_WEB_PROPERTIES, kFlagStudyName,
kFlagGroup1Name);
EXPECT_EQ(kExperimentId, id);
}
TEST_F(VariationsSeedProcessorTest, AllowVariationIdWithForcingFlag) {
VariationsSeedProcessor seed_processor;
Study study = CreateStudyWithFlagGroups(100, 0, 0);
EXPECT_FALSE(seed_processor.AllowVariationIdWithForcingFlag(study));
study.mutable_filter()->add_channel(Study_Channel_DEV);
EXPECT_FALSE(seed_processor.AllowVariationIdWithForcingFlag(study));
study.mutable_filter()->add_platform(Study_Platform_PLATFORM_ANDROID);
EXPECT_TRUE(seed_processor.AllowVariationIdWithForcingFlag(study));
study.mutable_filter()->add_channel(Study_Channel_CANARY);
study.mutable_filter()->add_platform(Study_Platform_PLATFORM_IOS);
EXPECT_TRUE(seed_processor.AllowVariationIdWithForcingFlag(study));
study.mutable_filter()->add_platform(Study_Platform_PLATFORM_WINDOWS);
EXPECT_FALSE(seed_processor.AllowVariationIdWithForcingFlag(study));
}
TEST_F(VariationsSeedProcessorTest, CheckStudyChannel) {
VariationsSeedProcessor seed_processor;
const Study_Channel channels[] = {
Study_Channel_CANARY,
Study_Channel_DEV,
Study_Channel_BETA,
Study_Channel_STABLE,
};
bool channel_added[arraysize(channels)] = { 0 };
Study_Filter filter;
// Check in the forwarded order. The loop cond is <= arraysize(channels)
// instead of < so that the result of adding the last channel gets checked.
for (size_t i = 0; i <= arraysize(channels); ++i) {
for (size_t j = 0; j < arraysize(channels); ++j) {
const bool expected = channel_added[j] || filter.channel_size() == 0;
const bool result = seed_processor.CheckStudyChannel(filter, channels[j]);
EXPECT_EQ(expected, result) << "Case " << i << "," << j << " failed!";
}
if (i < arraysize(channels)) {
filter.add_channel(channels[i]);
channel_added[i] = true;
}
}
// Do the same check in the reverse order.
filter.clear_channel();
memset(&channel_added, 0, sizeof(channel_added));
for (size_t i = 0; i <= arraysize(channels); ++i) {
for (size_t j = 0; j < arraysize(channels); ++j) {
const bool expected = channel_added[j] || filter.channel_size() == 0;
const bool result = seed_processor.CheckStudyChannel(filter, channels[j]);
EXPECT_EQ(expected, result) << "Case " << i << "," << j << " failed!";
}
if (i < arraysize(channels)) {
const int index = arraysize(channels) - i - 1;
filter.add_channel(channels[index]);
channel_added[index] = true;
}
}
}
TEST_F(VariationsSeedProcessorTest, CheckStudyFormFactor) {
VariationsSeedProcessor seed_processor;
const Study_FormFactor form_factors[] = {
Study_FormFactor_DESKTOP,
Study_FormFactor_PHONE,
Study_FormFactor_TABLET,
};
ASSERT_EQ(Study_FormFactor_FormFactor_ARRAYSIZE,
static_cast<int>(arraysize(form_factors)));
bool form_factor_added[arraysize(form_factors)] = { 0 };
Study_Filter filter;
for (size_t i = 0; i <= arraysize(form_factors); ++i) {
for (size_t j = 0; j < arraysize(form_factors); ++j) {
const bool expected = form_factor_added[j] ||
filter.form_factor_size() == 0;
const bool result = seed_processor.CheckStudyFormFactor(filter,
form_factors[j]);
EXPECT_EQ(expected, result) << "Case " << i << "," << j << " failed!";
}
if (i < arraysize(form_factors)) {
filter.add_form_factor(form_factors[i]);
form_factor_added[i] = true;
}
}
// Do the same check in the reverse order.
filter.clear_form_factor();
memset(&form_factor_added, 0, sizeof(form_factor_added));
for (size_t i = 0; i <= arraysize(form_factors); ++i) {
for (size_t j = 0; j < arraysize(form_factors); ++j) {
const bool expected = form_factor_added[j] ||
filter.form_factor_size() == 0;
const bool result = seed_processor.CheckStudyFormFactor(filter,
form_factors[j]);
EXPECT_EQ(expected, result) << "Case " << i << "," << j << " failed!";
}
if (i < arraysize(form_factors)) {
const int index = arraysize(form_factors) - i - 1;;
filter.add_form_factor(form_factors[index]);
form_factor_added[index] = true;
}
}
}
TEST_F(VariationsSeedProcessorTest, CheckStudyLocale) {
VariationsSeedProcessor seed_processor;
struct {
const char* filter_locales;
bool en_us_result;
bool en_ca_result;
bool fr_result;
} test_cases[] = {
{"en-US", true, false, false},
{"en-US,en-CA,fr", true, true, true},
{"en-US,en-CA,en-GB", true, true, false},
{"en-GB,en-CA,en-US", true, true, false},
{"ja,kr,vi", false, false, false},
{"fr-CA", false, false, false},
{"", true, true, true},
};
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(test_cases); ++i) {
std::vector<std::string> filter_locales;
Study_Filter filter;
base::SplitString(test_cases[i].filter_locales, ',', &filter_locales);
for (size_t j = 0; j < filter_locales.size(); ++j)
filter.add_locale(filter_locales[j]);
EXPECT_EQ(test_cases[i].en_us_result,
seed_processor.CheckStudyLocale(filter, "en-US"));
EXPECT_EQ(test_cases[i].en_ca_result,
seed_processor.CheckStudyLocale(filter, "en-CA"));
EXPECT_EQ(test_cases[i].fr_result,
seed_processor.CheckStudyLocale(filter, "fr"));
}
}
TEST_F(VariationsSeedProcessorTest, CheckStudyPlatform) {
VariationsSeedProcessor seed_processor;
const Study_Platform platforms[] = {
Study_Platform_PLATFORM_WINDOWS,
Study_Platform_PLATFORM_MAC,
Study_Platform_PLATFORM_LINUX,
Study_Platform_PLATFORM_CHROMEOS,
Study_Platform_PLATFORM_ANDROID,
Study_Platform_PLATFORM_IOS,
};
ASSERT_EQ(Study_Platform_Platform_ARRAYSIZE,
static_cast<int>(arraysize(platforms)));
bool platform_added[arraysize(platforms)] = { 0 };
Study_Filter filter;
// Check in the forwarded order. The loop cond is <= arraysize(platforms)
// instead of < so that the result of adding the last channel gets checked.
for (size_t i = 0; i <= arraysize(platforms); ++i) {
for (size_t j = 0; j < arraysize(platforms); ++j) {
const bool expected = platform_added[j] || filter.platform_size() == 0;
const bool result = seed_processor.CheckStudyPlatform(filter,
platforms[j]);
EXPECT_EQ(expected, result) << "Case " << i << "," << j << " failed!";
}
if (i < arraysize(platforms)) {
filter.add_platform(platforms[i]);
platform_added[i] = true;
}
}
// Do the same check in the reverse order.
filter.clear_platform();
memset(&platform_added, 0, sizeof(platform_added));
for (size_t i = 0; i <= arraysize(platforms); ++i) {
for (size_t j = 0; j < arraysize(platforms); ++j) {
const bool expected = platform_added[j] || filter.platform_size() == 0;
const bool result = seed_processor.CheckStudyPlatform(filter,
platforms[j]);
EXPECT_EQ(expected, result) << "Case " << i << "," << j << " failed!";
}
if (i < arraysize(platforms)) {
const int index = arraysize(platforms) - i - 1;
filter.add_platform(platforms[index]);
platform_added[index] = true;
}
}
}
TEST_F(VariationsSeedProcessorTest, CheckStudyStartDate) {
VariationsSeedProcessor seed_processor;
const base::Time now = base::Time::Now();
const base::TimeDelta delta = base::TimeDelta::FromHours(1);
const struct {
const base::Time start_date;
bool expected_result;
} start_test_cases[] = {
{ now - delta, true },
{ now, true },
{ now + delta, false },
};
Study_Filter filter;
// Start date not set should result in true.
EXPECT_TRUE(seed_processor.CheckStudyStartDate(filter, now));
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(start_test_cases); ++i) {
filter.set_start_date(TimeToProtoTime(start_test_cases[i].start_date));
const bool result = seed_processor.CheckStudyStartDate(filter, now);
EXPECT_EQ(start_test_cases[i].expected_result, result)
<< "Case " << i << " failed!";
}
}
TEST_F(VariationsSeedProcessorTest, CheckStudyVersion) {
VariationsSeedProcessor seed_processor;
const struct {
const char* min_version;
const char* version;
bool expected_result;
} min_test_cases[] = {
{ "1.2.2", "1.2.3", true },
{ "1.2.3", "1.2.3", true },
{ "1.2.4", "1.2.3", false },
{ "1.3.2", "1.2.3", false },
{ "2.1.2", "1.2.3", false },
{ "0.3.4", "1.2.3", true },
// Wildcards.
{ "1.*", "1.2.3", true },
{ "1.2.*", "1.2.3", true },
{ "1.2.3.*", "1.2.3", true },
{ "1.2.4.*", "1.2.3", false },
{ "2.*", "1.2.3", false },
{ "0.3.*", "1.2.3", true },
};
const struct {
const char* max_version;
const char* version;
bool expected_result;
} max_test_cases[] = {
{ "1.2.2", "1.2.3", false },
{ "1.2.3", "1.2.3", true },
{ "1.2.4", "1.2.3", true },
{ "2.1.1", "1.2.3", true },
{ "2.1.1", "2.3.4", false },
// Wildcards
{ "2.1.*", "2.3.4", false },
{ "2.*", "2.3.4", true },
{ "2.3.*", "2.3.4", true },
{ "2.3.4.*", "2.3.4", true },
{ "2.3.4.0.*", "2.3.4", true },
{ "2.4.*", "2.3.4", true },
{ "1.3.*", "2.3.4", false },
{ "1.*", "2.3.4", false },
};
Study_Filter filter;
// Min/max version not set should result in true.
EXPECT_TRUE(seed_processor.CheckStudyVersion(filter, base::Version("1.2.3")));
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(min_test_cases); ++i) {
filter.set_min_version(min_test_cases[i].min_version);
const bool result =
seed_processor.CheckStudyVersion(filter,
Version(min_test_cases[i].version));
EXPECT_EQ(min_test_cases[i].expected_result, result) <<
"Min. version case " << i << " failed!";
}
filter.clear_min_version();
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(max_test_cases); ++i) {
filter.set_max_version(max_test_cases[i].max_version);
const bool result =
seed_processor.CheckStudyVersion(filter,
Version(max_test_cases[i].version));
EXPECT_EQ(max_test_cases[i].expected_result, result) <<
"Max version case " << i << " failed!";
}
// Check intersection semantics.
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(min_test_cases); ++i) {
for (size_t j = 0; j < ARRAYSIZE_UNSAFE(max_test_cases); ++j) {
filter.set_min_version(min_test_cases[i].min_version);
filter.set_max_version(max_test_cases[j].max_version);
if (!min_test_cases[i].expected_result) {
const bool result =
seed_processor.CheckStudyVersion(
filter, Version(min_test_cases[i].version));
EXPECT_FALSE(result) << "Case " << i << "," << j << " failed!";
}
if (!max_test_cases[j].expected_result) {
const bool result =
seed_processor.CheckStudyVersion(
filter, Version(max_test_cases[j].version));
EXPECT_FALSE(result) << "Case " << i << "," << j << " failed!";
}
}
}
}
TEST_F(VariationsSeedProcessorTest, FilterAndValidateStudies) {
const std::string kTrial1Name = "A";
const std::string kGroup1Name = "Group1";
const std::string kTrial3Name = "B";
VariationsSeed seed;
Study* study1 = seed.add_study();
study1->set_name(kTrial1Name);
study1->set_default_experiment_name("Default");
AddExperiment(kGroup1Name, 100, study1);
AddExperiment("Default", 0, study1);
Study* study2 = seed.add_study();
*study2 = *study1;
study2->mutable_experiment(0)->set_name("Bam");
ASSERT_EQ(seed.study(0).name(), seed.study(1).name());
Study* study3 = seed.add_study();
study3->set_name(kTrial3Name);
study3->set_default_experiment_name("Default");
AddExperiment("A", 10, study3);
AddExperiment("Default", 25, study3);
std::vector<ProcessedStudy> processed_studies;
VariationsSeedProcessor().FilterAndValidateStudies(
seed, "en-CA", base::Time::Now(), base::Version("20.0.0.0"),
Study_Channel_STABLE, Study_FormFactor_DESKTOP, &processed_studies);
// Check that only the first kTrial1Name study was kept.
ASSERT_EQ(2U, processed_studies.size());
EXPECT_EQ(kTrial1Name, processed_studies[0].study()->name());
EXPECT_EQ(kGroup1Name, processed_studies[0].study()->experiment(0).name());
EXPECT_EQ(kTrial3Name, processed_studies[1].study()->name());
}
TEST_F(VariationsSeedProcessorTest, ForbidForceGroupWithVariationId) {
CommandLine::ForCurrentProcess()->AppendSwitch(kForcingFlag1);
base::FieldTrialList field_trial_list(NULL);
Study study = CreateStudyWithFlagGroups(100, 0, 0);
study.mutable_experiment(1)->set_google_web_experiment_id(kExperimentId);
// Adding windows platform makes forcing_flag and variation Id incompatible.
study.mutable_filter()->add_platform(Study_Platform_PLATFORM_WINDOWS);
EXPECT_TRUE(CreateTrialFromStudy(&study));
EXPECT_EQ(kFlagGroup1Name,
base::FieldTrialList::FindFullName(kFlagStudyName));
VariationID id = GetGoogleVariationID(GOOGLE_WEB_PROPERTIES, kFlagStudyName,
kFlagGroup1Name);
EXPECT_EQ(EMPTY_ID, id);
}
// Test that the group for kForcingFlag1 is forced.
TEST_F(VariationsSeedProcessorTest, ForceGroupWithFlag1) {
CommandLine::ForCurrentProcess()->AppendSwitch(kForcingFlag1);
base::FieldTrialList field_trial_list(NULL);
Study study = CreateStudyWithFlagGroups(100, 0, 0);
EXPECT_TRUE(CreateTrialFromStudy(&study));
EXPECT_EQ(kFlagGroup1Name,
base::FieldTrialList::FindFullName(kFlagStudyName));
}
// Test that the group for kForcingFlag2 is forced.
TEST_F(VariationsSeedProcessorTest, ForceGroupWithFlag2) {
CommandLine::ForCurrentProcess()->AppendSwitch(kForcingFlag2);
base::FieldTrialList field_trial_list(NULL);
Study study = CreateStudyWithFlagGroups(100, 0, 0);
EXPECT_TRUE(CreateTrialFromStudy(&study));
EXPECT_EQ(kFlagGroup2Name,
base::FieldTrialList::FindFullName(kFlagStudyName));
}
TEST_F(VariationsSeedProcessorTest, ForceGroup_ChooseFirstGroupWithFlag) {
// Add the flag to the command line arguments so the flag group is forced.
CommandLine::ForCurrentProcess()->AppendSwitch(kForcingFlag1);
CommandLine::ForCurrentProcess()->AppendSwitch(kForcingFlag2);
base::FieldTrialList field_trial_list(NULL);
Study study = CreateStudyWithFlagGroups(100, 0, 0);
EXPECT_TRUE(CreateTrialFromStudy(&study));
EXPECT_EQ(kFlagGroup1Name,
base::FieldTrialList::FindFullName(kFlagStudyName));
}
TEST_F(VariationsSeedProcessorTest, ForceGroup_DontChooseGroupWithFlag) {
base::FieldTrialList field_trial_list(NULL);
// The two flag groups are given high probability, which would normally make
// them very likely to be chosen. They won't be chosen since flag groups are
// never chosen when their flag isn't present.
Study study = CreateStudyWithFlagGroups(1, 999, 999);
EXPECT_TRUE(CreateTrialFromStudy(&study));
EXPECT_EQ(kNonFlagGroupName,
base::FieldTrialList::FindFullName(kFlagStudyName));
}
TEST_F(VariationsSeedProcessorTest, IsStudyExpired) {
VariationsSeedProcessor seed_processor;
const base::Time now = base::Time::Now();
const base::TimeDelta delta = base::TimeDelta::FromHours(1);
const struct {
const base::Time expiry_date;
bool expected_result;
} expiry_test_cases[] = {
{ now - delta, true },
{ now, true },
{ now + delta, false },
};
Study study;
// Expiry date not set should result in false.
EXPECT_FALSE(seed_processor.IsStudyExpired(study, now));
for (size_t i = 0; i < ARRAYSIZE_UNSAFE(expiry_test_cases); ++i) {
study.set_expiry_date(TimeToProtoTime(expiry_test_cases[i].expiry_date));
const bool result = seed_processor.IsStudyExpired(study, now);
EXPECT_EQ(expiry_test_cases[i].expected_result, result)
<< "Case " << i << " failed!";
}
}
TEST_F(VariationsSeedProcessorTest,
NonExpiredStudyPrioritizedOverExpiredStudy) {
VariationsSeedProcessor seed_processor;
const std::string kTrialName = "A";
const std::string kGroup1Name = "Group1";
VariationsSeed seed;
Study* study1 = seed.add_study();
study1->set_name(kTrialName);
study1->set_default_experiment_name("Default");
AddExperiment(kGroup1Name, 100, study1);
AddExperiment("Default", 0, study1);
Study* study2 = seed.add_study();
*study2 = *study1;
ASSERT_EQ(seed.study(0).name(), seed.study(1).name());
const base::Time year_ago =
base::Time::Now() - base::TimeDelta::FromDays(365);
const base::Version version("20.0.0.0");
// Check that adding [expired, non-expired] activates the non-expired one.
ASSERT_EQ(std::string(), base::FieldTrialList::FindFullName(kTrialName));
{
base::FieldTrialList field_trial_list(NULL);
study1->set_expiry_date(TimeToProtoTime(year_ago));
seed_processor.CreateTrialsFromSeed(seed, "en-CA", base::Time::Now(),
version, Study_Channel_STABLE,
Study_FormFactor_DESKTOP);
EXPECT_EQ(kGroup1Name, base::FieldTrialList::FindFullName(kTrialName));
}
// Check that adding [non-expired, expired] activates the non-expired one.
ASSERT_EQ(std::string(), base::FieldTrialList::FindFullName(kTrialName));
{
base::FieldTrialList field_trial_list(NULL);
study1->clear_expiry_date();
study2->set_expiry_date(TimeToProtoTime(year_ago));
seed_processor.CreateTrialsFromSeed(seed, "en-CA", base::Time::Now(),
version, Study_Channel_STABLE,
Study_FormFactor_DESKTOP);
EXPECT_EQ(kGroup1Name, base::FieldTrialList::FindFullName(kTrialName));
}
}
TEST_F(VariationsSeedProcessorTest, ValidateStudy) {
Study study;
study.set_default_experiment_name("def");
AddExperiment("abc", 100, &study);
Study_Experiment* default_group = AddExperiment("def", 200, &study);
ProcessedStudy processed_study;
EXPECT_TRUE(processed_study.Init(&study, false));
EXPECT_EQ(300, processed_study.total_probability());
// Min version checks.
study.mutable_filter()->set_min_version("1.2.3.*");
EXPECT_TRUE(processed_study.Init(&study, false));
study.mutable_filter()->set_min_version("1.*.3");
EXPECT_FALSE(processed_study.Init(&study, false));
study.mutable_filter()->set_min_version("1.2.3");
EXPECT_TRUE(processed_study.Init(&study, false));
// Max version checks.
study.mutable_filter()->set_max_version("2.3.4.*");
EXPECT_TRUE(processed_study.Init(&study, false));
study.mutable_filter()->set_max_version("*.3");
EXPECT_FALSE(processed_study.Init(&study, false));
study.mutable_filter()->set_max_version("2.3.4");
EXPECT_TRUE(processed_study.Init(&study, false));
study.clear_default_experiment_name();
EXPECT_FALSE(processed_study.Init(&study, false));
study.set_default_experiment_name("xyz");
EXPECT_FALSE(processed_study.Init(&study, false));
study.set_default_experiment_name("def");
default_group->clear_name();
EXPECT_FALSE(processed_study.Init(&study, false));
default_group->set_name("def");
EXPECT_TRUE(processed_study.Init(&study, false));
Study_Experiment* repeated_group = study.add_experiment();
repeated_group->set_name("abc");
repeated_group->set_probability_weight(1);
EXPECT_FALSE(processed_study.Init(&study, false));
}
TEST_F(VariationsSeedProcessorTest, VariationParams) {
base::FieldTrialList field_trial_list(NULL);
Study study;
study.set_name("Study1");
study.set_default_experiment_name("B");
Study_Experiment* experiment1 = AddExperiment("A", 1, &study);
Study_Experiment_Param* param = experiment1->add_param();
param->set_name("x");
param->set_value("y");
Study_Experiment* experiment2 = AddExperiment("B", 0, &study);
EXPECT_TRUE(CreateTrialFromStudy(&study));
EXPECT_EQ("y", GetVariationParamValue("Study1", "x"));
study.set_name("Study2");
experiment1->set_probability_weight(0);
experiment2->set_probability_weight(1);
EXPECT_TRUE(CreateTrialFromStudy(&study));
EXPECT_EQ(std::string(), GetVariationParamValue("Study2", "x"));
}
TEST_F(VariationsSeedProcessorTest, VariationParamsWithForcingFlag) {
Study study = CreateStudyWithFlagGroups(100, 0, 0);
ASSERT_EQ(kForcingFlag1, study.experiment(1).forcing_flag());
Study_Experiment_Param* param = study.mutable_experiment(1)->add_param();
param->set_name("x");
param->set_value("y");
CommandLine::ForCurrentProcess()->AppendSwitch(kForcingFlag1);
base::FieldTrialList field_trial_list(NULL);
EXPECT_TRUE(CreateTrialFromStudy(&study));
EXPECT_EQ(kFlagGroup1Name, base::FieldTrialList::FindFullName(study.name()));
EXPECT_EQ("y", GetVariationParamValue(study.name(), "x"));
}
TEST_F(VariationsSeedProcessorTest, StartsActive) {
base::FieldTrialList field_trial_list(NULL);
VariationsSeed seed;
Study* study1 = seed.add_study();
study1->set_name("A");
study1->set_default_experiment_name("Default");
AddExperiment("AA", 100, study1);
AddExperiment("Default", 0, study1);
Study* study2 = seed.add_study();
study2->set_name("B");
study2->set_default_experiment_name("Default");
AddExperiment("BB", 100, study2);
AddExperiment("Default", 0, study2);
study2->set_activation_type(Study_ActivationType_ACTIVATION_AUTO);
Study* study3 = seed.add_study();
study3->set_name("C");
study3->set_default_experiment_name("Default");
AddExperiment("CC", 100, study3);
AddExperiment("Default", 0, study3);
study3->set_activation_type(Study_ActivationType_ACTIVATION_EXPLICIT);
VariationsSeedProcessor seed_processor;
seed_processor.CreateTrialsFromSeed(seed, "en-CA", base::Time::Now(),
base::Version("20.0.0.0"),
Study_Channel_STABLE,
Study_FormFactor_DESKTOP);
// Non-specified and ACTIVATION_EXPLICIT should not start active, but
// ACTIVATION_AUTO should.
EXPECT_FALSE(IsFieldTrialActive("A"));
EXPECT_TRUE(IsFieldTrialActive("B"));
EXPECT_FALSE(IsFieldTrialActive("C"));
EXPECT_EQ("AA", base::FieldTrialList::FindFullName("A"));
EXPECT_EQ("BB", base::FieldTrialList::FindFullName("B"));
EXPECT_EQ("CC", base::FieldTrialList::FindFullName("C"));
// Now, all studies should be active.
EXPECT_TRUE(IsFieldTrialActive("A"));
EXPECT_TRUE(IsFieldTrialActive("B"));
EXPECT_TRUE(IsFieldTrialActive("C"));
}
} // namespace chrome_variations