chrome/browser/spellchecker/spelling_service_client_unittest.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 2012 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 <string>
 #include <vector>

 #include "base/bind.h"
 #include "base/json/json_reader.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/prefs/pref_service.h"
 #include "base/strings/stringprintf.h"
 #include "base/strings/utf_string_conversions.h"
 #include "base/values.h"
 #include "chrome/browser/spellchecker/spelling_service_client.h"
 #include "chrome/common/pref_names.h"
 #include "chrome/common/spellcheck_result.h"
 #include "chrome/test/base/testing_profile.h"
 #include "content/public/test/test_browser_thread_bundle.h"
 #include "net/base/load_flags.h"
 #include "net/url_request/test_url_fetcher_factory.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace {

 // A mock URL fetcher used in the TestingSpellingServiceClient class. This class
 // verifies JSON-RPC requests when the SpellingServiceClient class sends them to
 // the Spelling service. This class also verifies the SpellingServiceClient
 // class does not either send cookies to the Spelling service or accept cookies
 // from it.
 class TestSpellingURLFetcher : public net::TestURLFetcher {
  public:
   TestSpellingURLFetcher(int id,
                          const GURL& url,
                          net::URLFetcherDelegate* d,
                          int version,
                          const std::string& text,
                          const std::string& language,
                          int status,
                          const std::string& response)
       : net::TestURLFetcher(0, url, d),
         version_(base::StringPrintf("v%d", version)),
         language_(language.empty() ? std::string("en") : language),
         text_(text) {
     set_response_code(status);
     SetResponseString(response);
   }
   virtual ~TestSpellingURLFetcher() {
   }

   virtual void SetUploadData(const std::string& upload_content_type,
                              const std::string& upload_content) OVERRIDE {
     // Verify the given content type is JSON. (The Spelling service returns an
     // internal server error when this content type is not JSON.)
     EXPECT_EQ("application/json", upload_content_type);

     // Parse the JSON to be sent to the service, and verify its parameters.
     scoped_ptr<DictionaryValue> value(static_cast<DictionaryValue*>(
         base::JSONReader::Read(upload_content,
                                base::JSON_ALLOW_TRAILING_COMMAS)));
     ASSERT_TRUE(!!value.get());
     std::string method;
     EXPECT_TRUE(value->GetString("method", &method));
     EXPECT_EQ("spelling.check", method);
     std::string version;
     EXPECT_TRUE(value->GetString("apiVersion", &version));
     EXPECT_EQ(version_, version);
     std::string text;
     EXPECT_TRUE(value->GetString("params.text", &text));
     EXPECT_EQ(text_, text);
     std::string language;
     EXPECT_TRUE(value->GetString("params.language", &language));
     EXPECT_EQ(language_, language);
     ASSERT_TRUE(GetExpectedCountry(language, &country_));
     std::string country;
     EXPECT_TRUE(value->GetString("params.originCountry", &country));
     EXPECT_EQ(country_, country);

     net::TestURLFetcher::SetUploadData(upload_content_type, upload_content);
   }

   virtual void Start() OVERRIDE {
     // Verify that this client does not either send cookies to the Spelling
     // service or accept cookies from it.
     EXPECT_EQ(net::LOAD_DO_NOT_SEND_COOKIES | net::LOAD_DO_NOT_SAVE_COOKIES,
               GetLoadFlags());
   }

  private:
   bool GetExpectedCountry(const std::string& language, std::string* country) {
     static const struct {
       const char* language;
       const char* country;
     } kCountries[] = {
       {"af", "ZAF"},
       {"en", "USA"},
     };
     for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kCountries); ++i) {
       if (!language.compare(kCountries[i].language)) {
         country->assign(kCountries[i].country);
         return true;
       }
     }
     return false;
   }

   std::string version_;
   std::string language_;
   std::string country_;
   std::string text_;
 };

 // A class derived from the SpellingServiceClient class used by the
 // SpellingServiceClientTest class. This class overrides CreateURLFetcher so
 // this test can use TestSpellingURLFetcher. This class also lets tests access
 // the ParseResponse method.
 class TestingSpellingServiceClient : public SpellingServiceClient {
  public:
   TestingSpellingServiceClient()
       : request_type_(0),
         response_status_(0),
         success_(false),
         fetcher_(NULL) {
   }
   virtual ~TestingSpellingServiceClient() {
   }

   void SetHTTPRequest(int type,
                       const std::string& text,
                       const std::string& language) {
     request_type_ = type;
     request_text_ = text;
     request_language_ = language;
   }

   void SetHTTPResponse(int status, const char* data) {
     response_status_ = status;
     response_data_.assign(data);
   }

   void SetExpectedTextCheckResult(bool success, const char* text) {
     success_ = success;
     corrected_text_.assign(UTF8ToUTF16(text));
   }

   void CallOnURLFetchComplete() {
     ASSERT_TRUE(!!fetcher_);
     fetcher_->delegate()->OnURLFetchComplete(fetcher_);
     fetcher_ = NULL;
   }

   void VerifyResponse(bool success,
                       const base::string16& request_text,
                       const std::vector<SpellCheckResult>& results) {
     EXPECT_EQ(success_, success);
     base::string16 text(UTF8ToUTF16(request_text_));
     EXPECT_EQ(text, request_text);
     for (std::vector<SpellCheckResult>::const_iterator it = results.begin();
          it != results.end(); ++it) {
       text.replace(it->location, it->length, it->replacement);
     }
     EXPECT_EQ(corrected_text_, text);
   }

   bool ParseResponseSuccess(const std::string& data) {
     std::vector<SpellCheckResult> results;
     return ParseResponse(data, &results);
   }

  private:
   virtual net::URLFetcher* CreateURLFetcher(const GURL& url) OVERRIDE {
     EXPECT_EQ("https://www.googleapis.com/rpc", url.spec());
     fetcher_ = new TestSpellingURLFetcher(0, url, this,
                                           request_type_, request_text_,
                                           request_language_,
                                           response_status_, response_data_);
     return fetcher_;
   }

   int request_type_;
   std::string request_text_;
   std::string request_language_;
   int response_status_;
   std::string response_data_;
   bool success_;
   base::string16 corrected_text_;
   TestSpellingURLFetcher* fetcher_;  // weak
 };

 // A test class used for testing the SpellingServiceClient class. This class
 // implements a callback function used by the SpellingServiceClient class to
 // monitor the class calls the callback with expected results.
 class SpellingServiceClientTest : public testing::Test {
  public:
   void OnTextCheckComplete(int tag,
                            bool success,
                            const base::string16& text,
                            const std::vector<SpellCheckResult>& results) {
     client_.VerifyResponse(success, text, results);
   }

  protected:
   content::TestBrowserThreadBundle thread_bundle_;
   TestingSpellingServiceClient client_;
   TestingProfile profile_;
 };

 }  // namespace

 // Verifies that SpellingServiceClient::RequestTextCheck() creates a JSON
 // request sent to the Spelling service as we expect. This test also verifies
 // that it parses a JSON response from the service and calls the callback
 // function. To avoid sending JSON-RPC requests to the service, this test uses a
 // custom TestURLFecher class (TestSpellingURLFetcher) which calls
 // SpellingServiceClient::OnURLFetchComplete() with the parameters set by this
 // test. This test also uses a custom callback function that replaces all
 // misspelled words with ones suggested by the service so this test can compare
 // the corrected text with the expected results. (If there are not any
 // misspelled words, |corrected_text| should be equal to |request_text|.)
 TEST_F(SpellingServiceClientTest, RequestTextCheck) {
   static const struct {
     const char* request_text;
     SpellingServiceClient::ServiceType request_type;
     int response_status;
     const char* response_data;
     bool success;
     const char* corrected_text;
     const char* language;
   } kTests[] = {
     {
       "",
       SpellingServiceClient::SUGGEST,
       500,
       "",
       false,
       "",
       "af",
     }, {
       "chromebook",
       SpellingServiceClient::SUGGEST,
       200,
       "{}",
       true,
       "chromebook",
       "af",
     }, {
       "chrombook",
       SpellingServiceClient::SUGGEST,
       200,
       "{\n"
       "  \"result\": {\n"
       "    \"spellingCheckResponse\": {\n"
       "      \"misspellings\": [{\n"
       "        \"charStart\": 0,\n"
       "        \"charLength\": 9,\n"
       "        \"suggestions\": [{ \"suggestion\": \"chromebook\" }],\n"
       "        \"canAutoCorrect\": false\n"
       "      }]\n"
       "    }\n"
       "  }\n"
       "}",
       true,
       "chromebook",
       "af",
     }, {
       "",
       SpellingServiceClient::SPELLCHECK,
       500,
       "",
       false,
       "",
       "en",
     }, {
       "I have been to USA.",
       SpellingServiceClient::SPELLCHECK,
       200,
       "{}",
       true,
       "I have been to USA.",
       "en",
     }, {
       "I have bean to USA.",
       SpellingServiceClient::SPELLCHECK,
       200,
       "{\n"
       "  \"result\": {\n"
       "    \"spellingCheckResponse\": {\n"
       "      \"misspellings\": [{\n"
       "        \"charStart\": 7,\n"
       "        \"charLength\": 4,\n"
       "        \"suggestions\": [{ \"suggestion\": \"been\" }],\n"
       "        \"canAutoCorrect\": false\n"
       "      }]\n"
       "    }\n"
       "  }\n"
       "}",
       true,
       "I have been to USA.",
       "en",
     },
   };

   PrefService* pref = profile_.GetPrefs();
   pref->SetBoolean(prefs::kEnableContinuousSpellcheck, true);
   pref->SetBoolean(prefs::kSpellCheckUseSpellingService, true);

   for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kTests); ++i) {
     client_.SetHTTPRequest(kTests[i].request_type, kTests[i].request_text,
                            kTests[i].language);
     client_.SetHTTPResponse(kTests[i].response_status, kTests[i].response_data);
     client_.SetExpectedTextCheckResult(kTests[i].success,
                                        kTests[i].corrected_text);
     pref->SetString(prefs::kSpellCheckDictionary, kTests[i].language);
     client_.RequestTextCheck(
         &profile_,
         kTests[i].request_type,
         ASCIIToUTF16(kTests[i].request_text),
         base::Bind(&SpellingServiceClientTest::OnTextCheckComplete,
                    base::Unretained(this), 0));
     client_.CallOnURLFetchComplete();
   }
 }

 // Verify that SpellingServiceClient::IsAvailable() returns true only when it
 // can send suggest requests or spellcheck requests.
 TEST_F(SpellingServiceClientTest, AvailableServices) {
   const SpellingServiceClient::ServiceType kSuggest =
       SpellingServiceClient::SUGGEST;
   const SpellingServiceClient::ServiceType kSpellcheck =
       SpellingServiceClient::SPELLCHECK;

   // When a user disables spellchecking or prevent using the Spelling service,
   // this function should return false both for suggestions and for spellcheck.
   PrefService* pref = profile_.GetPrefs();
   pref->SetBoolean(prefs::kEnableContinuousSpellcheck, false);
   pref->SetBoolean(prefs::kSpellCheckUseSpellingService, false);
   EXPECT_FALSE(client_.IsAvailable(&profile_, kSuggest));
   EXPECT_FALSE(client_.IsAvailable(&profile_, kSpellcheck));

   pref->SetBoolean(prefs::kEnableContinuousSpellcheck, true);
   pref->SetBoolean(prefs::kSpellCheckUseSpellingService, true);

   // For locales supported by the SpellCheck service, this function returns
   // false for suggestions and true for spellcheck. (The comment in
   // SpellingServiceClient::IsAvailable() describes why this function returns
   // false for suggestions.) If there is no language set, then we
   // do not allow any remote.
   pref->SetString(prefs::kSpellCheckDictionary, std::string());
   EXPECT_FALSE(client_.IsAvailable(&profile_, kSuggest));
   EXPECT_FALSE(client_.IsAvailable(&profile_, kSpellcheck));

   static const char* kSupported[] = {
 #if !defined(OS_MACOSX)
     "en-AU", "en-CA", "en-GB", "en-US",
 #endif
   };
   // If spellcheck is allowed, then suggest is not since spellcheck is a
   // superset of suggest.
   for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kSupported); ++i) {
     pref->SetString(prefs::kSpellCheckDictionary, kSupported[i]);
     EXPECT_FALSE(client_.IsAvailable(&profile_, kSuggest));
     EXPECT_TRUE(client_.IsAvailable(&profile_, kSpellcheck));
   }

   // This function returns true for suggestions for all and false for
   // spellcheck for unsupported locales.
   static const char* kUnsupported[] = {
 #if !defined(OS_MACOSX)
     "af-ZA", "bg-BG", "ca-ES", "cs-CZ", "da-DK", "de-DE", "el-GR", "es-ES",
     "et-EE", "fo-FO", "fr-FR", "he-IL", "hi-IN", "hr-HR", "hu-HU", "id-ID",
     "it-IT", "lt-LT", "lv-LV", "nb-NO", "nl-NL", "pl-PL", "pt-BR", "pt-PT",
     "ro-RO", "ru-RU", "sk-SK", "sl-SI", "sh", "sr", "sv-SE", "tr-TR",
     "uk-UA", "vi-VN",
 #endif
   };
   for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kUnsupported); ++i) {
     pref->SetString(prefs::kSpellCheckDictionary, kUnsupported[i]);
     EXPECT_TRUE(client_.IsAvailable(&profile_, kSuggest));
     EXPECT_FALSE(client_.IsAvailable(&profile_, kSpellcheck));
   }
 }

 // Verify that an error in JSON response from spelling service will result in
 // ParseResponse returning false.
 TEST_F(SpellingServiceClientTest, ResponseErrorTest) {
   EXPECT_TRUE(client_.ParseResponseSuccess("{\"result\": {}}"));
   EXPECT_FALSE(client_.ParseResponseSuccess("{\"error\": {}}"));
 }
	// Copyright (c) 2012 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 <string>
	#include <vector>

	#include "base/bind.h"
	#include "base/json/json_reader.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/prefs/pref_service.h"
	#include "base/strings/stringprintf.h"
	#include "base/strings/utf_string_conversions.h"
	#include "base/values.h"
	#include "chrome/browser/spellchecker/spelling_service_client.h"
	#include "chrome/common/pref_names.h"
	#include "chrome/common/spellcheck_result.h"
	#include "chrome/test/base/testing_profile.h"
	#include "content/public/test/test_browser_thread_bundle.h"
	#include "net/base/load_flags.h"
	#include "net/url_request/test_url_fetcher_factory.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace {

	// A mock URL fetcher used in the TestingSpellingServiceClient class. This class
	// verifies JSON-RPC requests when the SpellingServiceClient class sends them to
	// the Spelling service. This class also verifies the SpellingServiceClient
	// class does not either send cookies to the Spelling service or accept cookies
	// from it.
	class TestSpellingURLFetcher : public net::TestURLFetcher {
	public:
	TestSpellingURLFetcher(int id,
	const GURL& url,
	net::URLFetcherDelegate* d,
	int version,
	const std::string& text,
	const std::string& language,
	int status,
	const std::string& response)
	: net::TestURLFetcher(0, url, d),
	version_(base::StringPrintf("v%d", version)),
	language_(language.empty() ? std::string("en") : language),
	text_(text) {
	set_response_code(status);
	SetResponseString(response);
	}
	virtual ~TestSpellingURLFetcher() {
	}

	virtual void SetUploadData(const std::string& upload_content_type,
	const std::string& upload_content) OVERRIDE {
	// Verify the given content type is JSON. (The Spelling service returns an
	// internal server error when this content type is not JSON.)
	EXPECT_EQ("application/json", upload_content_type);

	// Parse the JSON to be sent to the service, and verify its parameters.
	scoped_ptr<DictionaryValue> value(static_cast<DictionaryValue*>(
	base::JSONReader::Read(upload_content,
	base::JSON_ALLOW_TRAILING_COMMAS)));
	ASSERT_TRUE(!!value.get());
	std::string method;
	EXPECT_TRUE(value->GetString("method", &method));
	EXPECT_EQ("spelling.check", method);
	std::string version;
	EXPECT_TRUE(value->GetString("apiVersion", &version));
	EXPECT_EQ(version_, version);
	std::string text;
	EXPECT_TRUE(value->GetString("params.text", &text));
	EXPECT_EQ(text_, text);
	std::string language;
	EXPECT_TRUE(value->GetString("params.language", &language));
	EXPECT_EQ(language_, language);
	ASSERT_TRUE(GetExpectedCountry(language, &country_));
	std::string country;
	EXPECT_TRUE(value->GetString("params.originCountry", &country));
	EXPECT_EQ(country_, country);

	net::TestURLFetcher::SetUploadData(upload_content_type, upload_content);
	}

	virtual void Start() OVERRIDE {
	// Verify that this client does not either send cookies to the Spelling
	// service or accept cookies from it.
	EXPECT_EQ(net::LOAD_DO_NOT_SEND_COOKIES \| net::LOAD_DO_NOT_SAVE_COOKIES,
	GetLoadFlags());
	}

	private:
	bool GetExpectedCountry(const std::string& language, std::string* country) {
	static const struct {
	const char* language;
	const char* country;
	} kCountries[] = {
	{"af", "ZAF"},
	{"en", "USA"},
	};
	for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kCountries); ++i) {
	if (!language.compare(kCountries[i].language)) {
	country->assign(kCountries[i].country);
	return true;
	}
	}
	return false;
	}

	std::string version_;
	std::string language_;
	std::string country_;
	std::string text_;
	};

	// A class derived from the SpellingServiceClient class used by the
	// SpellingServiceClientTest class. This class overrides CreateURLFetcher so
	// this test can use TestSpellingURLFetcher. This class also lets tests access
	// the ParseResponse method.
	class TestingSpellingServiceClient : public SpellingServiceClient {
	public:
	TestingSpellingServiceClient()
	: request_type_(0),
	response_status_(0),
	success_(false),
	fetcher_(NULL) {
	}
	virtual ~TestingSpellingServiceClient() {
	}

	void SetHTTPRequest(int type,
	const std::string& text,
	const std::string& language) {
	request_type_ = type;
	request_text_ = text;
	request_language_ = language;
	}

	void SetHTTPResponse(int status, const char* data) {
	response_status_ = status;
	response_data_.assign(data);
	}

	void SetExpectedTextCheckResult(bool success, const char* text) {
	success_ = success;
	corrected_text_.assign(UTF8ToUTF16(text));
	}

	void CallOnURLFetchComplete() {
	ASSERT_TRUE(!!fetcher_);
	fetcher_->delegate()->OnURLFetchComplete(fetcher_);
	fetcher_ = NULL;
	}

	void VerifyResponse(bool success,
	const base::string16& request_text,
	const std::vector<SpellCheckResult>& results) {
	EXPECT_EQ(success_, success);
	base::string16 text(UTF8ToUTF16(request_text_));
	EXPECT_EQ(text, request_text);
	for (std::vector<SpellCheckResult>::const_iterator it = results.begin();
	it != results.end(); ++it) {
	text.replace(it->location, it->length, it->replacement);
	}
	EXPECT_EQ(corrected_text_, text);
	}

	bool ParseResponseSuccess(const std::string& data) {
	std::vector<SpellCheckResult> results;
	return ParseResponse(data, &results);
	}

	private:
	virtual net::URLFetcher* CreateURLFetcher(const GURL& url) OVERRIDE {
	EXPECT_EQ("https://www.googleapis.com/rpc", url.spec());
	fetcher_ = new TestSpellingURLFetcher(0, url, this,
	request_type_, request_text_,
	request_language_,
	response_status_, response_data_);
	return fetcher_;
	}

	int request_type_;
	std::string request_text_;
	std::string request_language_;
	int response_status_;
	std::string response_data_;
	bool success_;
	base::string16 corrected_text_;
	TestSpellingURLFetcher* fetcher_; // weak
	};

	// A test class used for testing the SpellingServiceClient class. This class
	// implements a callback function used by the SpellingServiceClient class to
	// monitor the class calls the callback with expected results.
	class SpellingServiceClientTest : public testing::Test {
	public:
	void OnTextCheckComplete(int tag,
	bool success,
	const base::string16& text,
	const std::vector<SpellCheckResult>& results) {
	client_.VerifyResponse(success, text, results);
	}

	protected:
	content::TestBrowserThreadBundle thread_bundle_;
	TestingSpellingServiceClient client_;
	TestingProfile profile_;
	};

	} // namespace

	// Verifies that SpellingServiceClient::RequestTextCheck() creates a JSON
	// request sent to the Spelling service as we expect. This test also verifies
	// that it parses a JSON response from the service and calls the callback
	// function. To avoid sending JSON-RPC requests to the service, this test uses a
	// custom TestURLFecher class (TestSpellingURLFetcher) which calls
	// SpellingServiceClient::OnURLFetchComplete() with the parameters set by this
	// test. This test also uses a custom callback function that replaces all
	// misspelled words with ones suggested by the service so this test can compare
	// the corrected text with the expected results. (If there are not any
	// misspelled words, \|corrected_text\| should be equal to \|request_text\|.)
	TEST_F(SpellingServiceClientTest, RequestTextCheck) {
	static const struct {
	const char* request_text;
	SpellingServiceClient::ServiceType request_type;
	int response_status;
	const char* response_data;
	bool success;
	const char* corrected_text;
	const char* language;
	} kTests[] = {
	{
	"",
	SpellingServiceClient::SUGGEST,
	500,
	"",
	false,
	"",
	"af",
	}, {
	"chromebook",
	SpellingServiceClient::SUGGEST,
	200,
	"{}",
	true,
	"chromebook",
	"af",
	}, {
	"chrombook",
	SpellingServiceClient::SUGGEST,
	200,
	"{\n"
	" \"result\": {\n"
	" \"spellingCheckResponse\": {\n"
	" \"misspellings\": [{\n"
	" \"charStart\": 0,\n"
	" \"charLength\": 9,\n"
	" \"suggestions\": [{ \"suggestion\": \"chromebook\" }],\n"
	" \"canAutoCorrect\": false\n"
	" }]\n"
	" }\n"
	" }\n"
	"}",
	true,
	"chromebook",
	"af",
	}, {
	"",
	SpellingServiceClient::SPELLCHECK,
	500,
	"",
	false,
	"",
	"en",
	}, {
	"I have been to USA.",
	SpellingServiceClient::SPELLCHECK,
	200,
	"{}",
	true,
	"I have been to USA.",
	"en",
	}, {
	"I have bean to USA.",
	SpellingServiceClient::SPELLCHECK,
	200,
	"{\n"
	" \"result\": {\n"
	" \"spellingCheckResponse\": {\n"
	" \"misspellings\": [{\n"
	" \"charStart\": 7,\n"
	" \"charLength\": 4,\n"
	" \"suggestions\": [{ \"suggestion\": \"been\" }],\n"
	" \"canAutoCorrect\": false\n"
	" }]\n"
	" }\n"
	" }\n"
	"}",
	true,
	"I have been to USA.",
	"en",
	},
	};

	PrefService* pref = profile_.GetPrefs();
	pref->SetBoolean(prefs::kEnableContinuousSpellcheck, true);
	pref->SetBoolean(prefs::kSpellCheckUseSpellingService, true);

	for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kTests); ++i) {
	client_.SetHTTPRequest(kTests[i].request_type, kTests[i].request_text,
	kTests[i].language);
	client_.SetHTTPResponse(kTests[i].response_status, kTests[i].response_data);
	client_.SetExpectedTextCheckResult(kTests[i].success,
	kTests[i].corrected_text);
	pref->SetString(prefs::kSpellCheckDictionary, kTests[i].language);
	client_.RequestTextCheck(
	&profile_,
	kTests[i].request_type,
	ASCIIToUTF16(kTests[i].request_text),
	base::Bind(&SpellingServiceClientTest::OnTextCheckComplete,
	base::Unretained(this), 0));
	client_.CallOnURLFetchComplete();
	}
	}

	// Verify that SpellingServiceClient::IsAvailable() returns true only when it
	// can send suggest requests or spellcheck requests.
	TEST_F(SpellingServiceClientTest, AvailableServices) {
	const SpellingServiceClient::ServiceType kSuggest =
	SpellingServiceClient::SUGGEST;
	const SpellingServiceClient::ServiceType kSpellcheck =
	SpellingServiceClient::SPELLCHECK;

	// When a user disables spellchecking or prevent using the Spelling service,
	// this function should return false both for suggestions and for spellcheck.
	PrefService* pref = profile_.GetPrefs();
	pref->SetBoolean(prefs::kEnableContinuousSpellcheck, false);
	pref->SetBoolean(prefs::kSpellCheckUseSpellingService, false);
	EXPECT_FALSE(client_.IsAvailable(&profile_, kSuggest));
	EXPECT_FALSE(client_.IsAvailable(&profile_, kSpellcheck));

	pref->SetBoolean(prefs::kEnableContinuousSpellcheck, true);
	pref->SetBoolean(prefs::kSpellCheckUseSpellingService, true);

	// For locales supported by the SpellCheck service, this function returns
	// false for suggestions and true for spellcheck. (The comment in
	// SpellingServiceClient::IsAvailable() describes why this function returns
	// false for suggestions.) If there is no language set, then we
	// do not allow any remote.
	pref->SetString(prefs::kSpellCheckDictionary, std::string());
	EXPECT_FALSE(client_.IsAvailable(&profile_, kSuggest));
	EXPECT_FALSE(client_.IsAvailable(&profile_, kSpellcheck));

	static const char* kSupported[] = {
	#if !defined(OS_MACOSX)
	"en-AU", "en-CA", "en-GB", "en-US",
	#endif
	};
	// If spellcheck is allowed, then suggest is not since spellcheck is a
	// superset of suggest.
	for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kSupported); ++i) {
	pref->SetString(prefs::kSpellCheckDictionary, kSupported[i]);
	EXPECT_FALSE(client_.IsAvailable(&profile_, kSuggest));
	EXPECT_TRUE(client_.IsAvailable(&profile_, kSpellcheck));
	}

	// This function returns true for suggestions for all and false for
	// spellcheck for unsupported locales.
	static const char* kUnsupported[] = {
	#if !defined(OS_MACOSX)
	"af-ZA", "bg-BG", "ca-ES", "cs-CZ", "da-DK", "de-DE", "el-GR", "es-ES",
	"et-EE", "fo-FO", "fr-FR", "he-IL", "hi-IN", "hr-HR", "hu-HU", "id-ID",
	"it-IT", "lt-LT", "lv-LV", "nb-NO", "nl-NL", "pl-PL", "pt-BR", "pt-PT",
	"ro-RO", "ru-RU", "sk-SK", "sl-SI", "sh", "sr", "sv-SE", "tr-TR",
	"uk-UA", "vi-VN",
	#endif
	};
	for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kUnsupported); ++i) {
	pref->SetString(prefs::kSpellCheckDictionary, kUnsupported[i]);
	EXPECT_TRUE(client_.IsAvailable(&profile_, kSuggest));
	EXPECT_FALSE(client_.IsAvailable(&profile_, kSpellcheck));
	}
	}

	// Verify that an error in JSON response from spelling service will result in
	// ParseResponse returning false.
	TEST_F(SpellingServiceClientTest, ResponseErrorTest) {
	EXPECT_TRUE(client_.ParseResponseSuccess("{\"result\": {}}"));
	EXPECT_FALSE(client_.ParseResponseSuccess("{\"error\": {}}"));
	}