ui/app_list/search/mixer_unittest.cc - chromium/src - Git at Google

 // 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 "ui/app_list/search/mixer.h"

 #include <stddef.h>

 #include <set>
 #include <string>

 #include "base/macros.h"
 #include "base/memory/ptr_util.h"
 #include "base/memory/scoped_vector.h"
 #include "base/metrics/field_trial.h"
 #include "base/strings/string16.h"
 #include "base/strings/stringprintf.h"
 #include "base/strings/utf_string_conversions.h"
 #include "base/test/mock_entropy_provider.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "ui/app_list/app_list_model.h"
 #include "ui/app_list/search/history_types.h"
 #include "ui/app_list/search_provider.h"
 #include "ui/app_list/search_result.h"

 namespace app_list {
 namespace test {

 // Maximum number of results to show in each mixer group.
 const size_t kMaxAppsGroupResults = 4;
 // Ignored unless AppListMixer field trial is "Blended".
 const size_t kMaxOmniboxResults = 4;
 const size_t kMaxWebstoreResults = 2;

 class TestSearchResult : public SearchResult {
  public:
   TestSearchResult(const std::string& id, double relevance)
       : instance_id_(instantiation_count++) {
     set_id(id);
     set_title(base::UTF8ToUTF16(id));
     set_relevance(relevance);
   }
   ~TestSearchResult() override {}

   using SearchResult::set_voice_result;

   // SearchResult overrides:
   void Open(int event_flags) override {}
   void InvokeAction(int action_index, int event_flags) override {}
   std::unique_ptr<SearchResult> Duplicate() const override {
     return base::WrapUnique(new TestSearchResult(id(), relevance()));
   }

   // For reference equality testing. (Addresses cannot be used to test reference
   // equality because it is possible that an object will be allocated at the
   // same address as a previously deleted one.)
   static int GetInstanceId(SearchResult* result) {
     return static_cast<const TestSearchResult*>(result)->instance_id_;
   }

  private:
   static int instantiation_count;

   int instance_id_;

   DISALLOW_COPY_AND_ASSIGN(TestSearchResult);
 };
 int TestSearchResult::instantiation_count = 0;

 class TestSearchProvider : public SearchProvider {
  public:
   explicit TestSearchProvider(const std::string& prefix)
       : prefix_(prefix),
         count_(0),
         bad_relevance_range_(false),
         display_type_(SearchResult::DISPLAY_LIST) {}
   ~TestSearchProvider() override {}

   // SearchProvider overrides:
   void Start(bool is_voice_query, const base::string16& query) override {
     ClearResults();
     for (size_t i = 0; i < count_; ++i) {
       const std::string id =
           base::StringPrintf("%s%d", prefix_.c_str(), static_cast<int>(i));
       double relevance = 1.0 - i / 10.0;
       // If bad_relevance_range_, change the relevances to give results outside
       // of the canonical [0.0, 1.0] range.
       if (bad_relevance_range_)
         relevance = 10.0 - i * 10;
       TestSearchResult* result = new TestSearchResult(id, relevance);
       result->set_display_type(display_type_);
       if (voice_result_indices.find(i) != voice_result_indices.end())
         result->set_voice_result(true);
       Add(std::unique_ptr<SearchResult>(result));
     }
   }
   void Stop() override {}

   void set_prefix(const std::string& prefix) { prefix_ = prefix; }
   void set_display_type(SearchResult::DisplayType display_type) {
     display_type_ = display_type;
   }
   void set_count(size_t count) { count_ = count; }
   void set_as_voice_result(size_t index) { voice_result_indices.insert(index); }
   void set_bad_relevance_range() { bad_relevance_range_ = true; }

  private:
   std::string prefix_;
   size_t count_;
   bool bad_relevance_range_;
   SearchResult::DisplayType display_type_;
   // Indices of results that will have the |voice_result| flag set.
   std::set<size_t> voice_result_indices;

   DISALLOW_COPY_AND_ASSIGN(TestSearchProvider);
 };

 // Test is parameterized with bool. True enables the "Blended" field trial.
 class MixerTest : public testing::Test,
                   public testing::WithParamInterface<bool> {
  public:
   MixerTest()
       : is_voice_query_(false),
         field_trial_list_(new base::MockEntropyProvider()) {}
   ~MixerTest() override {}

   // testing::Test overrides:
   void SetUp() override {
     // If the parameter is true, enable the field trial.
     const char* field_trial_name = GetParam() ? "Blended" : "Control";
     base::FieldTrialList::CreateFieldTrial("AppListMixer", field_trial_name);

     results_.reset(new AppListModel::SearchResults);

     providers_.push_back(new TestSearchProvider("app"));
     providers_.push_back(new TestSearchProvider("omnibox"));
     providers_.push_back(new TestSearchProvider("webstore"));

     is_voice_query_ = false;

     mixer_.reset(new Mixer(results_.get()));

     size_t apps_group_id = mixer_->AddGroup(kMaxAppsGroupResults, 3.0, 1.0);
     size_t omnibox_group_id =
         mixer_->AddOmniboxGroup(kMaxOmniboxResults, 2.0, 1.0);
     size_t webstore_group_id = mixer_->AddGroup(kMaxWebstoreResults, 1.0, 0.5);

     mixer_->AddProviderToGroup(apps_group_id, providers_[0]);
     mixer_->AddProviderToGroup(omnibox_group_id, providers_[1]);
     mixer_->AddProviderToGroup(webstore_group_id, providers_[2]);
   }

   void RunQuery() {
     const base::string16 query;

     for (size_t i = 0; i < providers_.size(); ++i) {
       providers_[i]->Start(is_voice_query_, query);
       providers_[i]->Stop();
     }

     mixer_->MixAndPublish(is_voice_query_, known_results_);
   }

   std::string GetResults() const {
     std::string result;
     for (size_t i = 0; i < results_->item_count(); ++i) {
       if (!result.empty())
         result += ',';

       result += base::UTF16ToUTF8(results_->GetItemAt(i)->title());
     }

     return result;
   }

   Mixer* mixer() { return mixer_.get(); }
   TestSearchProvider* app_provider() { return providers_[0]; }
   TestSearchProvider* omnibox_provider() { return providers_[1]; }
   TestSearchProvider* webstore_provider() { return providers_[2]; }

   // Sets whether test runs should be treated as a voice query.
   void set_is_voice_query(bool is_voice_query) {
     is_voice_query_ = is_voice_query;
   }

   void AddKnownResult(const std::string& id, KnownResultType type) {
     known_results_[id] = type;
   }

  private:
   std::unique_ptr<Mixer> mixer_;
   std::unique_ptr<AppListModel::SearchResults> results_;
   KnownResults known_results_;

   bool is_voice_query_;

   ScopedVector<TestSearchProvider> providers_;

   base::FieldTrialList field_trial_list_;

   DISALLOW_COPY_AND_ASSIGN(MixerTest);
 };

 TEST_P(MixerTest, Basic) {
   // Note: Some cases in |expected_blended| have vastly more results than
   // others, due to the "at least 6" mechanism. If it gets at least 6 results
   // from all providers, it stops at 6. If not, it fetches potentially many more
   // results from all providers. Not ideal, but currently by design.
   struct TestCase {
     const size_t app_results;
     const size_t omnibox_results;
     const size_t webstore_results;
     const char* expected_default;  // Expected results with trial off.
     const char* expected_blended;  // Expected results with trial on.
   } kTestCases[] = {
       {0, 0, 0, "", ""},
       {10, 0, 0, "app0,app1,app2,app3",
        "app0,app1,app2,app3,app4,app5,app6,app7,app8,app9"},
       {0, 0, 10, "webstore0,webstore1",
        "webstore0,webstore1,webstore2,webstore3,webstore4,webstore5,webstore6,"
        "webstore7,webstore8,webstore9"},
       {4, 6, 0, "app0,app1,app2,app3,omnibox0,omnibox1",
        "app0,omnibox0,app1,omnibox1,app2,omnibox2,app3,omnibox3"},
       {4, 6, 2, "app0,app1,app2,app3,omnibox0,webstore0",
        "app0,omnibox0,app1,omnibox1,app2,omnibox2,app3,omnibox3,webstore0,"
        "webstore1"},
       {10, 10, 10, "app0,app1,app2,app3,omnibox0,webstore0",
        "app0,omnibox0,app1,omnibox1,app2,omnibox2,app3,omnibox3,webstore0,"
        "webstore1"},
       {0, 10, 0, "omnibox0,omnibox1,omnibox2,omnibox3,omnibox4,omnibox5",
        "omnibox0,omnibox1,omnibox2,omnibox3,omnibox4,omnibox5,omnibox6,"
        "omnibox7,omnibox8,omnibox9"},
       {0, 10, 1, "omnibox0,omnibox1,omnibox2,omnibox3,omnibox4,webstore0",
        "omnibox0,omnibox1,omnibox2,omnibox3,webstore0,omnibox4,omnibox5,"
        "omnibox6,omnibox7,omnibox8,omnibox9"},
       {0, 10, 2, "omnibox0,omnibox1,omnibox2,omnibox3,webstore0,webstore1",
        "omnibox0,omnibox1,omnibox2,omnibox3,webstore0,webstore1"},
       {1, 10, 0, "app0,omnibox0,omnibox1,omnibox2,omnibox3,omnibox4",
        "app0,omnibox0,omnibox1,omnibox2,omnibox3,omnibox4,omnibox5,omnibox6,"
        "omnibox7,omnibox8,omnibox9"},
       {2, 10, 0, "app0,app1,omnibox0,omnibox1,omnibox2,omnibox3",
        "app0,omnibox0,app1,omnibox1,omnibox2,omnibox3"},
       {2, 10, 1, "app0,app1,omnibox0,omnibox1,omnibox2,webstore0",
        "app0,omnibox0,app1,omnibox1,omnibox2,omnibox3,webstore0"},
       {2, 10, 2, "app0,app1,omnibox0,omnibox1,webstore0,webstore1",
        "app0,omnibox0,app1,omnibox1,omnibox2,omnibox3,webstore0,webstore1"},
       {2, 0, 2, "app0,app1,webstore0,webstore1",
        "app0,app1,webstore0,webstore1"},
       {0, 0, 0, "", ""},
   };

   for (size_t i = 0; i < arraysize(kTestCases); ++i) {
     app_provider()->set_count(kTestCases[i].app_results);
     omnibox_provider()->set_count(kTestCases[i].omnibox_results);
     webstore_provider()->set_count(kTestCases[i].webstore_results);
     RunQuery();

     const char* expected = GetParam() ? kTestCases[i].expected_blended
                                       : kTestCases[i].expected_default;
     EXPECT_EQ(expected, GetResults()) << "Case " << i;
   }
 }

 TEST_P(MixerTest, RemoveDuplicates) {
   const std::string dup = "dup";

   // This gives "dup0,dup1,dup2".
   app_provider()->set_prefix(dup);
   app_provider()->set_count(3);

   // This gives "dup0,dup1".
   omnibox_provider()->set_prefix(dup);
   omnibox_provider()->set_count(2);

   // This gives "dup0".
   webstore_provider()->set_prefix(dup);
   webstore_provider()->set_count(1);

   RunQuery();

   // Only three results with unique id are kept.
   EXPECT_EQ("dup0,dup1,dup2", GetResults());
 }

 // Tests that "known results" have priority over others.
 TEST_P(MixerTest, KnownResultsPriority) {
   // This gives omnibox 0 -- 5.
   omnibox_provider()->set_count(6);

   // omnibox 1 -- 4 are "known results".
   AddKnownResult("omnibox1", PREFIX_SECONDARY);
   AddKnownResult("omnibox2", PERFECT_SECONDARY);
   AddKnownResult("omnibox3", PREFIX_PRIMARY);
   AddKnownResult("omnibox4", PERFECT_PRIMARY);

   RunQuery();

   // omnibox 1 -- 4 should be prioritised over the others. They should be
   // ordered 4, 3, 2, 1 (in order of match quality).
   EXPECT_EQ("omnibox4,omnibox3,omnibox2,omnibox1,omnibox0,omnibox5",
             GetResults());
 }

 // Tests that "known results" are not considered for recommendation results.
 TEST_P(MixerTest, KnownResultsIgnoredForRecommendations) {
   // This gives omnibox 0 -- 5.
   omnibox_provider()->set_count(6);
   omnibox_provider()->set_display_type(SearchResult::DISPLAY_RECOMMENDATION);

   // omnibox 1 -- 4 are "known results".
   AddKnownResult("omnibox1", PREFIX_SECONDARY);
   AddKnownResult("omnibox2", PERFECT_SECONDARY);
   AddKnownResult("omnibox3", PREFIX_PRIMARY);
   AddKnownResult("omnibox4", PERFECT_PRIMARY);

   RunQuery();

   // omnibox 1 -- 4 should be unaffected despite being known results.
   EXPECT_EQ("omnibox0,omnibox1,omnibox2,omnibox3,omnibox4,omnibox5",
             GetResults());
 }

 TEST_P(MixerTest, VoiceQuery) {
   omnibox_provider()->set_count(3);
   RunQuery();
   EXPECT_EQ("omnibox0,omnibox1,omnibox2", GetResults());

   // Set "omnibox1" as a voice result. Do not expect any changes (as this is not
   // a voice query).
   omnibox_provider()->set_as_voice_result(1);
   RunQuery();
   EXPECT_EQ("omnibox0,omnibox1,omnibox2", GetResults());

   // Perform a voice query. Expect voice result first.
   set_is_voice_query(true);
   RunQuery();
   EXPECT_EQ("omnibox1,omnibox0,omnibox2", GetResults());

   // All voice results should appear before non-voice results.
   omnibox_provider()->set_as_voice_result(2);
   RunQuery();
   EXPECT_EQ("omnibox1,omnibox2,omnibox0", GetResults());
 }

 TEST_P(MixerTest, Publish) {
   std::unique_ptr<SearchResult> result1(new TestSearchResult("app1", 0));
   std::unique_ptr<SearchResult> result2(new TestSearchResult("app2", 0));
   std::unique_ptr<SearchResult> result3(new TestSearchResult("app3", 0));
   std::unique_ptr<SearchResult> result3_copy = result3->Duplicate();
   std::unique_ptr<SearchResult> result4(new TestSearchResult("app4", 0));
   std::unique_ptr<SearchResult> result5(new TestSearchResult("app5", 0));

   AppListModel::SearchResults ui_results;

   // Publish the first three results to |ui_results|.
   Mixer::SortedResults new_results;
   new_results.push_back(Mixer::SortData(result1.get(), 1.0f));
   new_results.push_back(Mixer::SortData(result2.get(), 1.0f));
   new_results.push_back(Mixer::SortData(result3.get(), 1.0f));

   Mixer::Publish(new_results, &ui_results);
   EXPECT_EQ(3u, ui_results.item_count());
   // The objects in |ui_results| should be new copies because the input results
   // are owned and |ui_results| needs to own its results as well.
   EXPECT_NE(TestSearchResult::GetInstanceId(new_results[0].result),
             TestSearchResult::GetInstanceId(ui_results.GetItemAt(0)));
   EXPECT_NE(TestSearchResult::GetInstanceId(new_results[1].result),
             TestSearchResult::GetInstanceId(ui_results.GetItemAt(1)));
   EXPECT_NE(TestSearchResult::GetInstanceId(new_results[2].result),
             TestSearchResult::GetInstanceId(ui_results.GetItemAt(2)));

   // Save the current |ui_results| instance ids for comparison later.
   std::vector<int> old_ui_result_ids;
   for (size_t i = 0; i < ui_results.item_count(); ++i) {
     old_ui_result_ids.push_back(
         TestSearchResult::GetInstanceId(ui_results.GetItemAt(i)));
   }

   // Change the first result to a totally new object (with a new ID).
   new_results[0] = Mixer::SortData(result4.get(), 1.0f);

   // Change the second result's title, but keep the same id. (The result will
   // keep the id "app2" but change its title to "New App 2 Title".)
   const base::string16 kNewAppTitle = base::UTF8ToUTF16("New App 2 Title");
   new_results[1].result->set_title(kNewAppTitle);

   // Change the third result's object address (it points to an object with the
   // same data).
   new_results[2] = Mixer::SortData(result3_copy.get(), 1.0f);

   Mixer::Publish(new_results, &ui_results);
   EXPECT_EQ(3u, ui_results.item_count());

   // The first result will be a new object, as the ID has changed.
   EXPECT_NE(old_ui_result_ids[0],
             TestSearchResult::GetInstanceId(ui_results.GetItemAt(0)));

   // The second result will still use the original object, but have a different
   // title, since the ID did not change.
   EXPECT_EQ(old_ui_result_ids[1],
             TestSearchResult::GetInstanceId(ui_results.GetItemAt(1)));
   EXPECT_EQ(kNewAppTitle, ui_results.GetItemAt(1)->title());

   // The third result will use the original object as the ID did not change.
   EXPECT_EQ(old_ui_result_ids[2],
             TestSearchResult::GetInstanceId(ui_results.GetItemAt(2)));

   // Save the current |ui_results| order which should is app4, app2, app3.
   old_ui_result_ids.clear();
   for (size_t i = 0; i < ui_results.item_count(); ++i) {
     old_ui_result_ids.push_back(
         TestSearchResult::GetInstanceId(ui_results.GetItemAt(i)));
   }

   // Reorder the existing results and add a new one in the second place.
   new_results[0] = Mixer::SortData(result2.get(), 1.0f);
   new_results[1] = Mixer::SortData(result5.get(), 1.0f);
   new_results[2] = Mixer::SortData(result3.get(), 1.0f);
   new_results.push_back(Mixer::SortData(result4.get(), 1.0f));

   Mixer::Publish(new_results, &ui_results);
   EXPECT_EQ(4u, ui_results.item_count());

   // The reordered results should use the original objects.
   EXPECT_EQ(old_ui_result_ids[0],
             TestSearchResult::GetInstanceId(ui_results.GetItemAt(3)));
   EXPECT_EQ(old_ui_result_ids[1],
             TestSearchResult::GetInstanceId(ui_results.GetItemAt(0)));
   EXPECT_EQ(old_ui_result_ids[2],
             TestSearchResult::GetInstanceId(ui_results.GetItemAt(2)));
 }

 INSTANTIATE_TEST_CASE_P(MixerTestInstance, MixerTest, testing::Bool());

 }  // namespace test
 }  // namespace app_list
	// 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 "ui/app_list/search/mixer.h"

	#include <stddef.h>

	#include <set>
	#include <string>

	#include "base/macros.h"
	#include "base/memory/ptr_util.h"
	#include "base/memory/scoped_vector.h"
	#include "base/metrics/field_trial.h"
	#include "base/strings/string16.h"
	#include "base/strings/stringprintf.h"
	#include "base/strings/utf_string_conversions.h"
	#include "base/test/mock_entropy_provider.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "ui/app_list/app_list_model.h"
	#include "ui/app_list/search/history_types.h"
	#include "ui/app_list/search_provider.h"
	#include "ui/app_list/search_result.h"

	namespace app_list {
	namespace test {

	// Maximum number of results to show in each mixer group.
	const size_t kMaxAppsGroupResults = 4;
	// Ignored unless AppListMixer field trial is "Blended".
	const size_t kMaxOmniboxResults = 4;
	const size_t kMaxWebstoreResults = 2;

	class TestSearchResult : public SearchResult {
	public:
	TestSearchResult(const std::string& id, double relevance)
	: instance_id_(instantiation_count++) {
	set_id(id);
	set_title(base::UTF8ToUTF16(id));
	set_relevance(relevance);
	}
	~TestSearchResult() override {}

	using SearchResult::set_voice_result;

	// SearchResult overrides:
	void Open(int event_flags) override {}
	void InvokeAction(int action_index, int event_flags) override {}
	std::unique_ptr<SearchResult> Duplicate() const override {
	return base::WrapUnique(new TestSearchResult(id(), relevance()));
	}

	// For reference equality testing. (Addresses cannot be used to test reference
	// equality because it is possible that an object will be allocated at the
	// same address as a previously deleted one.)
	static int GetInstanceId(SearchResult* result) {
	return static_cast<const TestSearchResult*>(result)->instance_id_;
	}

	private:
	static int instantiation_count;

	int instance_id_;

	DISALLOW_COPY_AND_ASSIGN(TestSearchResult);
	};
	int TestSearchResult::instantiation_count = 0;

	class TestSearchProvider : public SearchProvider {
	public:
	explicit TestSearchProvider(const std::string& prefix)
	: prefix_(prefix),
	count_(0),
	bad_relevance_range_(false),
	display_type_(SearchResult::DISPLAY_LIST) {}
	~TestSearchProvider() override {}

	// SearchProvider overrides:
	void Start(bool is_voice_query, const base::string16& query) override {
	ClearResults();
	for (size_t i = 0; i < count_; ++i) {
	const std::string id =
	base::StringPrintf("%s%d", prefix_.c_str(), static_cast<int>(i));
	double relevance = 1.0 - i / 10.0;
	// If bad_relevance_range_, change the relevances to give results outside
	// of the canonical [0.0, 1.0] range.
	if (bad_relevance_range_)
	relevance = 10.0 - i * 10;
	TestSearchResult* result = new TestSearchResult(id, relevance);
	result->set_display_type(display_type_);
	if (voice_result_indices.find(i) != voice_result_indices.end())
	result->set_voice_result(true);
	Add(std::unique_ptr<SearchResult>(result));
	}
	}
	void Stop() override {}

	void set_prefix(const std::string& prefix) { prefix_ = prefix; }
	void set_display_type(SearchResult::DisplayType display_type) {
	display_type_ = display_type;
	}
	void set_count(size_t count) { count_ = count; }
	void set_as_voice_result(size_t index) { voice_result_indices.insert(index); }
	void set_bad_relevance_range() { bad_relevance_range_ = true; }

	private:
	std::string prefix_;
	size_t count_;
	bool bad_relevance_range_;
	SearchResult::DisplayType display_type_;
	// Indices of results that will have the \|voice_result\| flag set.
	std::set<size_t> voice_result_indices;

	DISALLOW_COPY_AND_ASSIGN(TestSearchProvider);
	};

	// Test is parameterized with bool. True enables the "Blended" field trial.
	class MixerTest : public testing::Test,
	public testing::WithParamInterface<bool> {
	public:
	MixerTest()
	: is_voice_query_(false),
	field_trial_list_(new base::MockEntropyProvider()) {}
	~MixerTest() override {}

	// testing::Test overrides:
	void SetUp() override {
	// If the parameter is true, enable the field trial.
	const char* field_trial_name = GetParam() ? "Blended" : "Control";
	base::FieldTrialList::CreateFieldTrial("AppListMixer", field_trial_name);

	results_.reset(new AppListModel::SearchResults);

	providers_.push_back(new TestSearchProvider("app"));
	providers_.push_back(new TestSearchProvider("omnibox"));
	providers_.push_back(new TestSearchProvider("webstore"));

	is_voice_query_ = false;

	mixer_.reset(new Mixer(results_.get()));

	size_t apps_group_id = mixer_->AddGroup(kMaxAppsGroupResults, 3.0, 1.0);
	size_t omnibox_group_id =
	mixer_->AddOmniboxGroup(kMaxOmniboxResults, 2.0, 1.0);
	size_t webstore_group_id = mixer_->AddGroup(kMaxWebstoreResults, 1.0, 0.5);

	mixer_->AddProviderToGroup(apps_group_id, providers_[0]);
	mixer_->AddProviderToGroup(omnibox_group_id, providers_[1]);
	mixer_->AddProviderToGroup(webstore_group_id, providers_[2]);
	}

	void RunQuery() {
	const base::string16 query;

	for (size_t i = 0; i < providers_.size(); ++i) {
	providers_[i]->Start(is_voice_query_, query);
	providers_[i]->Stop();
	}

	mixer_->MixAndPublish(is_voice_query_, known_results_);
	}

	std::string GetResults() const {
	std::string result;
	for (size_t i = 0; i < results_->item_count(); ++i) {
	if (!result.empty())
	result += ',';

	result += base::UTF16ToUTF8(results_->GetItemAt(i)->title());
	}

	return result;
	}

	Mixer* mixer() { return mixer_.get(); }
	TestSearchProvider* app_provider() { return providers_[0]; }
	TestSearchProvider* omnibox_provider() { return providers_[1]; }
	TestSearchProvider* webstore_provider() { return providers_[2]; }

	// Sets whether test runs should be treated as a voice query.
	void set_is_voice_query(bool is_voice_query) {
	is_voice_query_ = is_voice_query;
	}

	void AddKnownResult(const std::string& id, KnownResultType type) {
	known_results_[id] = type;
	}

	private:
	std::unique_ptr<Mixer> mixer_;
	std::unique_ptr<AppListModel::SearchResults> results_;
	KnownResults known_results_;

	bool is_voice_query_;

	ScopedVector<TestSearchProvider> providers_;

	base::FieldTrialList field_trial_list_;

	DISALLOW_COPY_AND_ASSIGN(MixerTest);
	};

	TEST_P(MixerTest, Basic) {
	// Note: Some cases in \|expected_blended\| have vastly more results than
	// others, due to the "at least 6" mechanism. If it gets at least 6 results
	// from all providers, it stops at 6. If not, it fetches potentially many more
	// results from all providers. Not ideal, but currently by design.
	struct TestCase {
	const size_t app_results;
	const size_t omnibox_results;
	const size_t webstore_results;
	const char* expected_default; // Expected results with trial off.
	const char* expected_blended; // Expected results with trial on.
	} kTestCases[] = {
	{0, 0, 0, "", ""},
	{10, 0, 0, "app0,app1,app2,app3",
	"app0,app1,app2,app3,app4,app5,app6,app7,app8,app9"},
	{0, 0, 10, "webstore0,webstore1",
	"webstore0,webstore1,webstore2,webstore3,webstore4,webstore5,webstore6,"
	"webstore7,webstore8,webstore9"},
	{4, 6, 0, "app0,app1,app2,app3,omnibox0,omnibox1",
	"app0,omnibox0,app1,omnibox1,app2,omnibox2,app3,omnibox3"},
	{4, 6, 2, "app0,app1,app2,app3,omnibox0,webstore0",
	"app0,omnibox0,app1,omnibox1,app2,omnibox2,app3,omnibox3,webstore0,"
	"webstore1"},
	{10, 10, 10, "app0,app1,app2,app3,omnibox0,webstore0",
	"app0,omnibox0,app1,omnibox1,app2,omnibox2,app3,omnibox3,webstore0,"
	"webstore1"},
	{0, 10, 0, "omnibox0,omnibox1,omnibox2,omnibox3,omnibox4,omnibox5",
	"omnibox0,omnibox1,omnibox2,omnibox3,omnibox4,omnibox5,omnibox6,"
	"omnibox7,omnibox8,omnibox9"},
	{0, 10, 1, "omnibox0,omnibox1,omnibox2,omnibox3,omnibox4,webstore0",
	"omnibox0,omnibox1,omnibox2,omnibox3,webstore0,omnibox4,omnibox5,"
	"omnibox6,omnibox7,omnibox8,omnibox9"},
	{0, 10, 2, "omnibox0,omnibox1,omnibox2,omnibox3,webstore0,webstore1",
	"omnibox0,omnibox1,omnibox2,omnibox3,webstore0,webstore1"},
	{1, 10, 0, "app0,omnibox0,omnibox1,omnibox2,omnibox3,omnibox4",
	"app0,omnibox0,omnibox1,omnibox2,omnibox3,omnibox4,omnibox5,omnibox6,"
	"omnibox7,omnibox8,omnibox9"},
	{2, 10, 0, "app0,app1,omnibox0,omnibox1,omnibox2,omnibox3",
	"app0,omnibox0,app1,omnibox1,omnibox2,omnibox3"},
	{2, 10, 1, "app0,app1,omnibox0,omnibox1,omnibox2,webstore0",
	"app0,omnibox0,app1,omnibox1,omnibox2,omnibox3,webstore0"},
	{2, 10, 2, "app0,app1,omnibox0,omnibox1,webstore0,webstore1",
	"app0,omnibox0,app1,omnibox1,omnibox2,omnibox3,webstore0,webstore1"},
	{2, 0, 2, "app0,app1,webstore0,webstore1",
	"app0,app1,webstore0,webstore1"},
	{0, 0, 0, "", ""},
	};

	for (size_t i = 0; i < arraysize(kTestCases); ++i) {
	app_provider()->set_count(kTestCases[i].app_results);
	omnibox_provider()->set_count(kTestCases[i].omnibox_results);
	webstore_provider()->set_count(kTestCases[i].webstore_results);
	RunQuery();

	const char* expected = GetParam() ? kTestCases[i].expected_blended
	: kTestCases[i].expected_default;
	EXPECT_EQ(expected, GetResults()) << "Case " << i;
	}
	}

	TEST_P(MixerTest, RemoveDuplicates) {
	const std::string dup = "dup";

	// This gives "dup0,dup1,dup2".
	app_provider()->set_prefix(dup);
	app_provider()->set_count(3);

	// This gives "dup0,dup1".
	omnibox_provider()->set_prefix(dup);
	omnibox_provider()->set_count(2);

	// This gives "dup0".
	webstore_provider()->set_prefix(dup);
	webstore_provider()->set_count(1);

	RunQuery();

	// Only three results with unique id are kept.
	EXPECT_EQ("dup0,dup1,dup2", GetResults());
	}

	// Tests that "known results" have priority over others.
	TEST_P(MixerTest, KnownResultsPriority) {
	// This gives omnibox 0 -- 5.
	omnibox_provider()->set_count(6);

	// omnibox 1 -- 4 are "known results".
	AddKnownResult("omnibox1", PREFIX_SECONDARY);
	AddKnownResult("omnibox2", PERFECT_SECONDARY);
	AddKnownResult("omnibox3", PREFIX_PRIMARY);
	AddKnownResult("omnibox4", PERFECT_PRIMARY);

	RunQuery();

	// omnibox 1 -- 4 should be prioritised over the others. They should be
	// ordered 4, 3, 2, 1 (in order of match quality).
	EXPECT_EQ("omnibox4,omnibox3,omnibox2,omnibox1,omnibox0,omnibox5",
	GetResults());
	}

	// Tests that "known results" are not considered for recommendation results.
	TEST_P(MixerTest, KnownResultsIgnoredForRecommendations) {
	// This gives omnibox 0 -- 5.
	omnibox_provider()->set_count(6);
	omnibox_provider()->set_display_type(SearchResult::DISPLAY_RECOMMENDATION);

	// omnibox 1 -- 4 are "known results".
	AddKnownResult("omnibox1", PREFIX_SECONDARY);
	AddKnownResult("omnibox2", PERFECT_SECONDARY);
	AddKnownResult("omnibox3", PREFIX_PRIMARY);
	AddKnownResult("omnibox4", PERFECT_PRIMARY);

	RunQuery();

	// omnibox 1 -- 4 should be unaffected despite being known results.
	EXPECT_EQ("omnibox0,omnibox1,omnibox2,omnibox3,omnibox4,omnibox5",
	GetResults());
	}

	TEST_P(MixerTest, VoiceQuery) {
	omnibox_provider()->set_count(3);
	RunQuery();
	EXPECT_EQ("omnibox0,omnibox1,omnibox2", GetResults());

	// Set "omnibox1" as a voice result. Do not expect any changes (as this is not
	// a voice query).
	omnibox_provider()->set_as_voice_result(1);
	RunQuery();
	EXPECT_EQ("omnibox0,omnibox1,omnibox2", GetResults());

	// Perform a voice query. Expect voice result first.
	set_is_voice_query(true);
	RunQuery();
	EXPECT_EQ("omnibox1,omnibox0,omnibox2", GetResults());

	// All voice results should appear before non-voice results.
	omnibox_provider()->set_as_voice_result(2);
	RunQuery();
	EXPECT_EQ("omnibox1,omnibox2,omnibox0", GetResults());
	}

	TEST_P(MixerTest, Publish) {
	std::unique_ptr<SearchResult> result1(new TestSearchResult("app1", 0));
	std::unique_ptr<SearchResult> result2(new TestSearchResult("app2", 0));
	std::unique_ptr<SearchResult> result3(new TestSearchResult("app3", 0));
	std::unique_ptr<SearchResult> result3_copy = result3->Duplicate();
	std::unique_ptr<SearchResult> result4(new TestSearchResult("app4", 0));
	std::unique_ptr<SearchResult> result5(new TestSearchResult("app5", 0));

	AppListModel::SearchResults ui_results;

	// Publish the first three results to \|ui_results\|.
	Mixer::SortedResults new_results;
	new_results.push_back(Mixer::SortData(result1.get(), 1.0f));
	new_results.push_back(Mixer::SortData(result2.get(), 1.0f));
	new_results.push_back(Mixer::SortData(result3.get(), 1.0f));

	Mixer::Publish(new_results, &ui_results);
	EXPECT_EQ(3u, ui_results.item_count());
	// The objects in \|ui_results\| should be new copies because the input results
	// are owned and \|ui_results\| needs to own its results as well.
	EXPECT_NE(TestSearchResult::GetInstanceId(new_results[0].result),
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(0)));
	EXPECT_NE(TestSearchResult::GetInstanceId(new_results[1].result),
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(1)));
	EXPECT_NE(TestSearchResult::GetInstanceId(new_results[2].result),
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(2)));

	// Save the current \|ui_results\| instance ids for comparison later.
	std::vector<int> old_ui_result_ids;
	for (size_t i = 0; i < ui_results.item_count(); ++i) {
	old_ui_result_ids.push_back(
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(i)));
	}

	// Change the first result to a totally new object (with a new ID).
	new_results[0] = Mixer::SortData(result4.get(), 1.0f);

	// Change the second result's title, but keep the same id. (The result will
	// keep the id "app2" but change its title to "New App 2 Title".)
	const base::string16 kNewAppTitle = base::UTF8ToUTF16("New App 2 Title");
	new_results[1].result->set_title(kNewAppTitle);

	// Change the third result's object address (it points to an object with the
	// same data).
	new_results[2] = Mixer::SortData(result3_copy.get(), 1.0f);

	Mixer::Publish(new_results, &ui_results);
	EXPECT_EQ(3u, ui_results.item_count());

	// The first result will be a new object, as the ID has changed.
	EXPECT_NE(old_ui_result_ids[0],
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(0)));

	// The second result will still use the original object, but have a different
	// title, since the ID did not change.
	EXPECT_EQ(old_ui_result_ids[1],
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(1)));
	EXPECT_EQ(kNewAppTitle, ui_results.GetItemAt(1)->title());

	// The third result will use the original object as the ID did not change.
	EXPECT_EQ(old_ui_result_ids[2],
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(2)));

	// Save the current \|ui_results\| order which should is app4, app2, app3.
	old_ui_result_ids.clear();
	for (size_t i = 0; i < ui_results.item_count(); ++i) {
	old_ui_result_ids.push_back(
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(i)));
	}

	// Reorder the existing results and add a new one in the second place.
	new_results[0] = Mixer::SortData(result2.get(), 1.0f);
	new_results[1] = Mixer::SortData(result5.get(), 1.0f);
	new_results[2] = Mixer::SortData(result3.get(), 1.0f);
	new_results.push_back(Mixer::SortData(result4.get(), 1.0f));

	Mixer::Publish(new_results, &ui_results);
	EXPECT_EQ(4u, ui_results.item_count());

	// The reordered results should use the original objects.
	EXPECT_EQ(old_ui_result_ids[0],
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(3)));
	EXPECT_EQ(old_ui_result_ids[1],
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(0)));
	EXPECT_EQ(old_ui_result_ids[2],
	TestSearchResult::GetInstanceId(ui_results.GetItemAt(2)));
	}

	INSTANTIATE_TEST_CASE_P(MixerTestInstance, MixerTest, testing::Bool());

	} // namespace test
	} // namespace app_list