base/test/values_test_util.cc - cobalt - Git at Google

 // Copyright 2012 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/test/values_test_util.h"

 #include <ostream>
 #include <utility>

 #include "base/files/file_util.h"
 #include "base/json/json_reader.h"
 #include "base/json/json_writer.h"
 #include "base/memory/ptr_util.h"
 #include "base/strings/string_number_conversions.h"
 #include "base/types/optional_util.h"
 #include "base/values.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "third_party/abseil-cpp/absl/types/optional.h"

 namespace base {

 void ExpectDictBooleanValue(bool expected_value,
                             const Value::Dict& dict,
                             StringPiece path) {
   EXPECT_EQ(dict.FindBoolByDottedPath(path),
             absl::make_optional(expected_value))
       << path;
 }

 void ExpectDictIntegerValue(int expected_value,
                             const Value::Dict& dict,
                             StringPiece path) {
   EXPECT_EQ(dict.FindIntByDottedPath(path), absl::make_optional(expected_value))
       << path;
 }

 void ExpectDictStringValue(StringPiece expected_value,
                            const Value::Dict& dict,
                            StringPiece path) {
   EXPECT_EQ(OptionalFromPtr(dict.FindStringByDottedPath(path)),
             absl::make_optional(expected_value))
       << path;
 }

 void ExpectDictValue(const Value::Dict& expected_value,
                      const Value::Dict& dict,
                      StringPiece path) {
   const Value* found_value = dict.FindByDottedPath(path);
   ASSERT_TRUE(found_value) << path;
   EXPECT_EQ(*found_value, expected_value) << path;
 }

 void ExpectDictValue(const Value& expected_value,
                      const Value::Dict& dict,
                      StringPiece path) {
   const Value* found_value = dict.FindByDottedPath(path);
   ASSERT_TRUE(found_value) << path;
   EXPECT_EQ(*found_value, expected_value) << path;
 }

 void ExpectStringValue(const std::string& expected_str, const Value& actual) {
   EXPECT_EQ(Value::Type::STRING, actual.type());
   EXPECT_EQ(expected_str, actual.GetString());
 }

 namespace test {

 namespace {

 std::string FormatAsJSON(ValueView value) {
   std::string json;
   JSONWriter::Write(value, &json);
   return json;
 }

 class DictionaryHasValueMatcher
     : public testing::MatcherInterface<const base::Value::Dict&> {
  public:
   DictionaryHasValueMatcher(const std::string& key,
                             const base::Value& expected_value)
       : key_(key), expected_value_(expected_value.Clone()) {}

   DictionaryHasValueMatcher(const DictionaryHasValueMatcher& other) = delete;
   DictionaryHasValueMatcher& operator=(const DictionaryHasValueMatcher& other) =
       delete;

   bool MatchAndExplain(const base::Value::Dict& value,
                        testing::MatchResultListener* listener) const override {
     const base::Value* sub_value = value.Find(key_);
     if (!sub_value) {
       *listener << "Dictionary '" << FormatAsJSON(value)
                 << "' does not have key '" << key_ << "'";
       return false;
     }
     if (*sub_value != expected_value_) {
       *listener << "Dictionary value under key '" << key_ << "' is '"
                 << FormatAsJSON(*sub_value) << "', expected '"
                 << FormatAsJSON(expected_value_) << "'";
       return false;
     }
     return true;
   }

   void DescribeTo(std::ostream* os) const override {
     *os << "has key '" << key_ << "' with value '"
         << FormatAsJSON(expected_value_) << "'";
   }

   void DescribeNegationTo(std::ostream* os) const override {
     *os << "does not have key '" << key_ << "' with value '"
         << FormatAsJSON(expected_value_) << "'";
   }

  private:
   const std::string key_;
   const base::Value expected_value_;
 };

 class DictionaryHasValuesMatcher
     : public testing::MatcherInterface<const base::Value::Dict&> {
  public:
   explicit DictionaryHasValuesMatcher(const base::Value::Dict& template_value)
       : template_value_(template_value.Clone()) {}

   DictionaryHasValuesMatcher(const DictionaryHasValuesMatcher& other) = delete;
   DictionaryHasValuesMatcher& operator=(
       const DictionaryHasValuesMatcher& other) = delete;

   bool MatchAndExplain(const base::Value::Dict& value,
                        testing::MatchResultListener* listener) const override {
     bool ok = true;
     for (auto template_dict_item : template_value_) {
       const base::Value* sub_value = value.Find(template_dict_item.first);
       if (!sub_value) {
         *listener << "\nDictionary does not have key '"
                   << template_dict_item.first << "'";
         ok = false;
         continue;
       }
       if (*sub_value != template_dict_item.second) {
         *listener << "\nDictionary value under key '"
                   << template_dict_item.first << "' is '"
                   << FormatAsJSON(*sub_value) << "', expected '"
                   << FormatAsJSON(template_dict_item.second) << "'";
         ok = false;
       }
     }
     return ok;
   }

   void DescribeTo(std::ostream* os) const override {
     *os << "contains all key-values from '" << FormatAsJSON(template_value_)
         << "'";
   }

   void DescribeNegationTo(std::ostream* os) const override {
     *os << "does not contain key-values from '" << FormatAsJSON(template_value_)
         << "'";
   }

  private:
   const base::Value::Dict template_value_;
 };

 // Attempts to parse `json` as JSON. Returns resulting Value on success, has an
 // EXPECT failure and returns nullopt on failure. If `expected_type` is
 // provided, treats `json` parsing as a Value of a different type as a failure.
 //
 absl::optional<Value> ParseJsonHelper(
     StringPiece json,
     absl::optional<Value::Type> expected_type) {
   auto result = JSONReader::ReadAndReturnValueWithError(
       json, JSON_PARSE_CHROMIUM_EXTENSIONS | JSON_ALLOW_TRAILING_COMMAS);
   if (!result.has_value()) {
     ADD_FAILURE() << "Failed to parse \"" << json
                   << "\": " << result.error().message;
     return absl::nullopt;
   }
   if (expected_type && result->type() != *expected_type) {
     ADD_FAILURE() << "JSON is of wrong type: " << json;
     return absl::nullopt;
   }
   return std::move(*result);
 }

 }  // namespace

 testing::Matcher<const base::Value::Dict&> DictionaryHasValue(
     const std::string& key,
     const base::Value& expected_value) {
   return testing::MakeMatcher(
       new DictionaryHasValueMatcher(key, expected_value));
 }

 testing::Matcher<const base::Value::Dict&> DictionaryHasValues(
     const base::Value::Dict& template_value) {
   return testing::MakeMatcher(new DictionaryHasValuesMatcher(template_value));
 }

 IsJsonMatcher::IsJsonMatcher(base::StringPiece json)
     : expected_value_(test::ParseJson(json)) {}

 IsJsonMatcher::IsJsonMatcher(const base::Value& value)
     : expected_value_(value.Clone()) {}

 IsJsonMatcher::IsJsonMatcher(const base::Value::Dict& value)
     : expected_value_(base::Value(value.Clone())) {}

 IsJsonMatcher::IsJsonMatcher(const base::Value::List& value)
     : expected_value_(base::Value(value.Clone())) {}

 IsJsonMatcher::IsJsonMatcher(const IsJsonMatcher& other)
     : expected_value_(other.expected_value_.Clone()) {}

 IsJsonMatcher& IsJsonMatcher::operator=(const IsJsonMatcher& other) {
   expected_value_ = other.expected_value_.Clone();
   return *this;
 }

 IsJsonMatcher::~IsJsonMatcher() = default;

 bool IsJsonMatcher::MatchAndExplain(
     base::StringPiece json,
     testing::MatchResultListener* listener) const {
   // This is almost the same logic as ParseJson, but the parser uses stricter
   // options for JSON data that is assumed to be generated by the code under
   // test rather than written by hand as part of a unit test.
   auto ret = JSONReader::ReadAndReturnValueWithError(json, JSON_PARSE_RFC);
   if (!ret.has_value()) {
     *listener << "Failed to parse \"" << json << "\": " << ret.error().message;
     return false;
   }
   return MatchAndExplain(*ret, listener);
 }

 bool IsJsonMatcher::MatchAndExplain(
     const base::Value& value,
     testing::MatchResultListener* /* listener */) const {
   return expected_value_ == value;
 }

 bool IsJsonMatcher::MatchAndExplain(
     const base::Value::Dict& dict,
     testing::MatchResultListener* /* listener */) const {
   return expected_value_.is_dict() && expected_value_.GetDict() == dict;
 }

 bool IsJsonMatcher::MatchAndExplain(
     const base::Value::List& list,
     testing::MatchResultListener* /* listener */) const {
   return expected_value_.is_list() && expected_value_.GetList() == list;
 }

 void IsJsonMatcher::DescribeTo(std::ostream* os) const {
   *os << "is the JSON value " << expected_value_;
 }

 void IsJsonMatcher::DescribeNegationTo(std::ostream* os) const {
   *os << "is not the JSON value " << expected_value_;
 }

 Value ParseJson(StringPiece json) {
   absl::optional<Value> result =
       ParseJsonHelper(json, /*expected_type=*/absl::nullopt);
   return result.has_value() ? std::move(*result) : Value();
 }

 Value::Dict ParseJsonDict(StringPiece json) {
   absl::optional<Value> result =
       ParseJsonHelper(json, /*expected_type=*/Value::Type::DICT);
   return result.has_value() ? std::move(*result).TakeDict() : Value::Dict();
 }

 Value::List ParseJsonList(StringPiece json) {
   absl::optional<Value> result =
       ParseJsonHelper(json, /*expected_type=*/Value::Type::LIST);
   return result.has_value() ? std::move(*result).TakeList() : Value::List();
 }

 Value::Dict ParseJsonDictFromFile(const FilePath& json_file_path) {
   std::string json;
   if (!ReadFileToString(json_file_path, &json)) {
     ADD_FAILURE() << "Failed to load json file for parsing. path="
                   << json_file_path;
     return {};
   }
   return ParseJsonDict(json);
 }

 expected<void, WriteJsonError> WriteJsonFile(const FilePath& json_file_path,
                                              ValueView root) {
   std::string json;
   if (!JSONWriter::Write(root, &json)) {
     return unexpected(WriteJsonError::kGenerateJsonFailure);
   }
   if (!WriteFile(json_file_path, json)) {
     return unexpected(WriteJsonError::kWriteFileFailure);
   }
   return {};
 }

 }  // namespace test
 }  // namespace base
	// Copyright 2012 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/test/values_test_util.h"

	#include <ostream>
	#include <utility>

	#include "base/files/file_util.h"
	#include "base/json/json_reader.h"
	#include "base/json/json_writer.h"
	#include "base/memory/ptr_util.h"
	#include "base/strings/string_number_conversions.h"
	#include "base/types/optional_util.h"
	#include "base/values.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "third_party/abseil-cpp/absl/types/optional.h"

	namespace base {

	void ExpectDictBooleanValue(bool expected_value,
	const Value::Dict& dict,
	StringPiece path) {
	EXPECT_EQ(dict.FindBoolByDottedPath(path),
	absl::make_optional(expected_value))
	<< path;
	}

	void ExpectDictIntegerValue(int expected_value,
	const Value::Dict& dict,
	StringPiece path) {
	EXPECT_EQ(dict.FindIntByDottedPath(path), absl::make_optional(expected_value))
	<< path;
	}

	void ExpectDictStringValue(StringPiece expected_value,
	const Value::Dict& dict,
	StringPiece path) {
	EXPECT_EQ(OptionalFromPtr(dict.FindStringByDottedPath(path)),
	absl::make_optional(expected_value))
	<< path;
	}

	void ExpectDictValue(const Value::Dict& expected_value,
	const Value::Dict& dict,
	StringPiece path) {
	const Value* found_value = dict.FindByDottedPath(path);
	ASSERT_TRUE(found_value) << path;
	EXPECT_EQ(*found_value, expected_value) << path;
	}

	void ExpectDictValue(const Value& expected_value,
	const Value::Dict& dict,
	StringPiece path) {
	const Value* found_value = dict.FindByDottedPath(path);
	ASSERT_TRUE(found_value) << path;
	EXPECT_EQ(*found_value, expected_value) << path;
	}

	void ExpectStringValue(const std::string& expected_str, const Value& actual) {
	EXPECT_EQ(Value::Type::STRING, actual.type());
	EXPECT_EQ(expected_str, actual.GetString());
	}

	namespace test {

	namespace {

	std::string FormatAsJSON(ValueView value) {
	std::string json;
	JSONWriter::Write(value, &json);
	return json;
	}

	class DictionaryHasValueMatcher
	: public testing::MatcherInterface<const base::Value::Dict&> {
	public:
	DictionaryHasValueMatcher(const std::string& key,
	const base::Value& expected_value)
	: key_(key), expected_value_(expected_value.Clone()) {}

	DictionaryHasValueMatcher(const DictionaryHasValueMatcher& other) = delete;
	DictionaryHasValueMatcher& operator=(const DictionaryHasValueMatcher& other) =
	delete;

	bool MatchAndExplain(const base::Value::Dict& value,
	testing::MatchResultListener* listener) const override {
	const base::Value* sub_value = value.Find(key_);
	if (!sub_value) {
	*listener << "Dictionary '" << FormatAsJSON(value)
	<< "' does not have key '" << key_ << "'";
	return false;
	}
	if (*sub_value != expected_value_) {
	*listener << "Dictionary value under key '" << key_ << "' is '"
	<< FormatAsJSON(*sub_value) << "', expected '"
	<< FormatAsJSON(expected_value_) << "'";
	return false;
	}
	return true;
	}

	void DescribeTo(std::ostream* os) const override {
	*os << "has key '" << key_ << "' with value '"
	<< FormatAsJSON(expected_value_) << "'";
	}

	void DescribeNegationTo(std::ostream* os) const override {
	*os << "does not have key '" << key_ << "' with value '"
	<< FormatAsJSON(expected_value_) << "'";
	}

	private:
	const std::string key_;
	const base::Value expected_value_;
	};

	class DictionaryHasValuesMatcher
	: public testing::MatcherInterface<const base::Value::Dict&> {
	public:
	explicit DictionaryHasValuesMatcher(const base::Value::Dict& template_value)
	: template_value_(template_value.Clone()) {}

	DictionaryHasValuesMatcher(const DictionaryHasValuesMatcher& other) = delete;
	DictionaryHasValuesMatcher& operator=(
	const DictionaryHasValuesMatcher& other) = delete;

	bool MatchAndExplain(const base::Value::Dict& value,
	testing::MatchResultListener* listener) const override {
	bool ok = true;
	for (auto template_dict_item : template_value_) {
	const base::Value* sub_value = value.Find(template_dict_item.first);
	if (!sub_value) {
	*listener << "\nDictionary does not have key '"
	<< template_dict_item.first << "'";
	ok = false;
	continue;
	}
	if (*sub_value != template_dict_item.second) {
	*listener << "\nDictionary value under key '"
	<< template_dict_item.first << "' is '"
	<< FormatAsJSON(*sub_value) << "', expected '"
	<< FormatAsJSON(template_dict_item.second) << "'";
	ok = false;
	}
	}
	return ok;
	}

	void DescribeTo(std::ostream* os) const override {
	*os << "contains all key-values from '" << FormatAsJSON(template_value_)
	<< "'";
	}

	void DescribeNegationTo(std::ostream* os) const override {
	*os << "does not contain key-values from '" << FormatAsJSON(template_value_)
	<< "'";
	}

	private:
	const base::Value::Dict template_value_;
	};

	// Attempts to parse `json` as JSON. Returns resulting Value on success, has an
	// EXPECT failure and returns nullopt on failure. If `expected_type` is
	// provided, treats `json` parsing as a Value of a different type as a failure.
	//
	absl::optional<Value> ParseJsonHelper(
	StringPiece json,
	absl::optional<Value::Type> expected_type) {
	auto result = JSONReader::ReadAndReturnValueWithError(
	json, JSON_PARSE_CHROMIUM_EXTENSIONS \| JSON_ALLOW_TRAILING_COMMAS);
	if (!result.has_value()) {
	ADD_FAILURE() << "Failed to parse \"" << json
	<< "\": " << result.error().message;
	return absl::nullopt;
	}
	if (expected_type && result->type() != *expected_type) {
	ADD_FAILURE() << "JSON is of wrong type: " << json;
	return absl::nullopt;
	}
	return std::move(*result);
	}

	} // namespace

	testing::Matcher<const base::Value::Dict&> DictionaryHasValue(
	const std::string& key,
	const base::Value& expected_value) {
	return testing::MakeMatcher(
	new DictionaryHasValueMatcher(key, expected_value));
	}

	testing::Matcher<const base::Value::Dict&> DictionaryHasValues(
	const base::Value::Dict& template_value) {
	return testing::MakeMatcher(new DictionaryHasValuesMatcher(template_value));
	}

	IsJsonMatcher::IsJsonMatcher(base::StringPiece json)
	: expected_value_(test::ParseJson(json)) {}

	IsJsonMatcher::IsJsonMatcher(const base::Value& value)
	: expected_value_(value.Clone()) {}

	IsJsonMatcher::IsJsonMatcher(const base::Value::Dict& value)
	: expected_value_(base::Value(value.Clone())) {}

	IsJsonMatcher::IsJsonMatcher(const base::Value::List& value)
	: expected_value_(base::Value(value.Clone())) {}

	IsJsonMatcher::IsJsonMatcher(const IsJsonMatcher& other)
	: expected_value_(other.expected_value_.Clone()) {}

	IsJsonMatcher& IsJsonMatcher::operator=(const IsJsonMatcher& other) {
	expected_value_ = other.expected_value_.Clone();
	return *this;
	}

	IsJsonMatcher::~IsJsonMatcher() = default;

	bool IsJsonMatcher::MatchAndExplain(
	base::StringPiece json,
	testing::MatchResultListener* listener) const {
	// This is almost the same logic as ParseJson, but the parser uses stricter
	// options for JSON data that is assumed to be generated by the code under
	// test rather than written by hand as part of a unit test.
	auto ret = JSONReader::ReadAndReturnValueWithError(json, JSON_PARSE_RFC);
	if (!ret.has_value()) {
	*listener << "Failed to parse \"" << json << "\": " << ret.error().message;
	return false;
	}
	return MatchAndExplain(*ret, listener);
	}

	bool IsJsonMatcher::MatchAndExplain(
	const base::Value& value,
	testing::MatchResultListener* /* listener */) const {
	return expected_value_ == value;
	}

	bool IsJsonMatcher::MatchAndExplain(
	const base::Value::Dict& dict,
	testing::MatchResultListener* /* listener */) const {
	return expected_value_.is_dict() && expected_value_.GetDict() == dict;
	}

	bool IsJsonMatcher::MatchAndExplain(
	const base::Value::List& list,
	testing::MatchResultListener* /* listener */) const {
	return expected_value_.is_list() && expected_value_.GetList() == list;
	}

	void IsJsonMatcher::DescribeTo(std::ostream* os) const {
	*os << "is the JSON value " << expected_value_;
	}

	void IsJsonMatcher::DescribeNegationTo(std::ostream* os) const {
	*os << "is not the JSON value " << expected_value_;
	}

	Value ParseJson(StringPiece json) {
	absl::optional<Value> result =
	ParseJsonHelper(json, /expected_type=/absl::nullopt);
	return result.has_value() ? std::move(*result) : Value();
	}

	Value::Dict ParseJsonDict(StringPiece json) {
	absl::optional<Value> result =
	ParseJsonHelper(json, /expected_type=/Value::Type::DICT);
	return result.has_value() ? std::move(*result).TakeDict() : Value::Dict();
	}

	Value::List ParseJsonList(StringPiece json) {
	absl::optional<Value> result =
	ParseJsonHelper(json, /expected_type=/Value::Type::LIST);
	return result.has_value() ? std::move(*result).TakeList() : Value::List();
	}

	Value::Dict ParseJsonDictFromFile(const FilePath& json_file_path) {
	std::string json;
	if (!ReadFileToString(json_file_path, &json)) {
	ADD_FAILURE() << "Failed to load json file for parsing. path="
	<< json_file_path;
	return {};
	}
	return ParseJsonDict(json);
	}

	expected<void, WriteJsonError> WriteJsonFile(const FilePath& json_file_path,
	ValueView root) {
	std::string json;
	if (!JSONWriter::Write(root, &json)) {
	return unexpected(WriteJsonError::kGenerateJsonFailure);
	}
	if (!WriteFile(json_file_path, json)) {
	return unexpected(WriteJsonError::kWriteFileFailure);
	}
	return {};
	}

	} // namespace test
	} // namespace base