// 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 "base/values.h" #include <stddef.h> #include <limits> #include <memory> #include <string> #include <type_traits> #include <utility> #include <vector> #include "base/memory/ptr_util.h" #include "base/strings/string16.h" #include "base/strings/utf_string_conversions.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { TEST(ValuesTest, TestNothrow) { static_assert(std::is_nothrow_move_constructible<Value>::value, "IsNothrowMoveConstructible"); static_assert(std::is_nothrow_default_constructible<Value>::value, "IsNothrowDefaultConstructible"); static_assert(std::is_nothrow_constructible<Value, std::string&&>::value, "IsNothrowMoveConstructibleFromString"); static_assert( std::is_nothrow_constructible<Value, std::vector<char>&&>::value, "IsNothrowMoveConstructibleFromBlob"); static_assert(std::is_nothrow_move_assignable<Value>::value, "IsNothrowMoveAssignable"); } // Group of tests for the value constructors. TEST(ValuesTest, ConstructBool) { Value true_value(true); EXPECT_EQ(Value::Type::BOOLEAN, true_value.type()); EXPECT_TRUE(true_value.GetBool()); Value false_value(false); EXPECT_EQ(Value::Type::BOOLEAN, false_value.type()); EXPECT_FALSE(false_value.GetBool()); } TEST(ValuesTest, ConstructInt) { Value value(-37); EXPECT_EQ(Value::Type::INTEGER, value.type()); EXPECT_EQ(-37, value.GetInt()); } TEST(ValuesTest, ConstructDouble) { Value value(-4.655); EXPECT_EQ(Value::Type::DOUBLE, value.type()); EXPECT_EQ(-4.655, value.GetDouble()); } TEST(ValuesTest, ConstructStringFromConstCharPtr) { const char* str = "foobar"; Value value(str); EXPECT_EQ(Value::Type::STRING, value.type()); EXPECT_EQ("foobar", value.GetString()); } TEST(ValuesTest, ConstructStringFromStdStringConstRef) { std::string str = "foobar"; Value value(str); EXPECT_EQ(Value::Type::STRING, value.type()); EXPECT_EQ("foobar", value.GetString()); } TEST(ValuesTest, ConstructStringFromStdStringRefRef) { std::string str = "foobar"; Value value(std::move(str)); EXPECT_EQ(Value::Type::STRING, value.type()); EXPECT_EQ("foobar", value.GetString()); } TEST(ValuesTest, ConstructStringFromConstChar16Ptr) { string16 str = ASCIIToUTF16("foobar"); Value value(str.c_str()); EXPECT_EQ(Value::Type::STRING, value.type()); EXPECT_EQ("foobar", value.GetString()); } TEST(ValuesTest, ConstructStringFromString16) { string16 str = ASCIIToUTF16("foobar"); Value value(str); EXPECT_EQ(Value::Type::STRING, value.type()); EXPECT_EQ("foobar", value.GetString()); } TEST(ValuesTest, ConstructStringFromStringPiece) { StringPiece str = "foobar"; Value value(str); EXPECT_EQ(Value::Type::STRING, value.type()); EXPECT_EQ("foobar", value.GetString()); } TEST(ValuesTest, ConstructBinary) { BinaryValue value(std::vector<char>({0xF, 0x0, 0x0, 0xB, 0xA, 0x2})); EXPECT_EQ(Value::Type::BINARY, value.type()); EXPECT_EQ(std::vector<char>({0xF, 0x0, 0x0, 0xB, 0xA, 0x2}), value.GetBlob()); } TEST(ValuesTest, ConstructDict) { DictionaryValue value; EXPECT_EQ(Value::Type::DICTIONARY, value.type()); } TEST(ValuesTest, ConstructList) { ListValue value; EXPECT_EQ(Value::Type::LIST, value.type()); } // Group of tests for the copy constructors and copy-assigmnent. For equality // checks comparisons of the interesting fields are done instead of relying on // Equals being correct. TEST(ValuesTest, CopyBool) { Value true_value(true); Value copied_true_value(true_value); EXPECT_EQ(true_value.type(), copied_true_value.type()); EXPECT_EQ(true_value.GetBool(), copied_true_value.GetBool()); Value false_value(false); Value copied_false_value(false_value); EXPECT_EQ(false_value.type(), copied_false_value.type()); EXPECT_EQ(false_value.GetBool(), copied_false_value.GetBool()); Value blank; blank = true_value; EXPECT_EQ(true_value.type(), blank.type()); EXPECT_EQ(true_value.GetBool(), blank.GetBool()); blank = false_value; EXPECT_EQ(false_value.type(), blank.type()); EXPECT_EQ(false_value.GetBool(), blank.GetBool()); } TEST(ValuesTest, CopyInt) { Value value(74); Value copied_value(value); EXPECT_EQ(value.type(), copied_value.type()); EXPECT_EQ(value.GetInt(), copied_value.GetInt()); Value blank; blank = value; EXPECT_EQ(value.type(), blank.type()); EXPECT_EQ(value.GetInt(), blank.GetInt()); } TEST(ValuesTest, CopyDouble) { Value value(74.896); Value copied_value(value); EXPECT_EQ(value.type(), copied_value.type()); EXPECT_EQ(value.GetDouble(), copied_value.GetDouble()); Value blank; blank = value; EXPECT_EQ(value.type(), blank.type()); EXPECT_EQ(value.GetDouble(), blank.GetDouble()); } TEST(ValuesTest, CopyString) { Value value("foobar"); Value copied_value(value); EXPECT_EQ(value.type(), copied_value.type()); EXPECT_EQ(value.GetString(), copied_value.GetString()); Value blank; blank = value; EXPECT_EQ(value.type(), blank.type()); EXPECT_EQ(value.GetString(), blank.GetString()); } TEST(ValuesTest, CopyBinary) { BinaryValue value(std::vector<char>({0xF, 0x0, 0x0, 0xB, 0xA, 0x2})); BinaryValue copied_value(value); EXPECT_EQ(value.type(), copied_value.type()); EXPECT_EQ(value.GetBlob(), copied_value.GetBlob()); Value blank; blank = value; EXPECT_EQ(value.type(), blank.type()); EXPECT_EQ(value.GetBlob(), blank.GetBlob()); } TEST(ValuesTest, CopyDictionary) { // TODO(crbug.com/646113): Clean this up once DictionaryValue switched to // value semantics. int copy; DictionaryValue value; value.SetInteger("Int", 123); DictionaryValue copied_value(value); copied_value.GetInteger("Int", ©); EXPECT_EQ(value.type(), copied_value.type()); EXPECT_EQ(123, copy); auto blank = MakeUnique<Value>(); *blank = value; EXPECT_EQ(Value::Type::DICTIONARY, blank->type()); static_cast<DictionaryValue*>(blank.get())->GetInteger("Int", ©); EXPECT_EQ(123, copy); } TEST(ValuesTest, CopyList) { // TODO(crbug.com/646113): Clean this up once ListValue switched to // value semantics. int copy; ListValue value; value.AppendInteger(123); ListValue copied_value(value); copied_value.GetInteger(0, ©); EXPECT_EQ(value.type(), copied_value.type()); EXPECT_EQ(123, copy); auto blank = MakeUnique<Value>(); *blank = value; EXPECT_EQ(Value::Type::LIST, blank->type()); static_cast<ListValue*>(blank.get())->GetInteger(0, ©); EXPECT_EQ(123, copy); } // Group of tests for the move constructors and move-assigmnent. TEST(ValuesTest, MoveBool) { Value true_value(true); Value moved_true_value(std::move(true_value)); EXPECT_EQ(Value::Type::BOOLEAN, moved_true_value.type()); EXPECT_TRUE(moved_true_value.GetBool()); Value false_value(false); Value moved_false_value(std::move(false_value)); EXPECT_EQ(Value::Type::BOOLEAN, moved_false_value.type()); EXPECT_FALSE(moved_false_value.GetBool()); Value blank; blank = Value(true); EXPECT_EQ(Value::Type::BOOLEAN, blank.type()); EXPECT_TRUE(blank.GetBool()); blank = Value(false); EXPECT_EQ(Value::Type::BOOLEAN, blank.type()); EXPECT_FALSE(blank.GetBool()); } TEST(ValuesTest, MoveInt) { Value value(74); Value moved_value(std::move(value)); EXPECT_EQ(Value::Type::INTEGER, moved_value.type()); EXPECT_EQ(74, moved_value.GetInt()); Value blank; blank = Value(47); EXPECT_EQ(Value::Type::INTEGER, blank.type()); EXPECT_EQ(47, blank.GetInt()); } TEST(ValuesTest, MoveDouble) { Value value(74.896); Value moved_value(std::move(value)); EXPECT_EQ(Value::Type::DOUBLE, moved_value.type()); EXPECT_EQ(74.896, moved_value.GetDouble()); Value blank; blank = Value(654.38); EXPECT_EQ(Value::Type::DOUBLE, blank.type()); EXPECT_EQ(654.38, blank.GetDouble()); } TEST(ValuesTest, MoveString) { Value value("foobar"); Value moved_value(std::move(value)); EXPECT_EQ(Value::Type::STRING, moved_value.type()); EXPECT_EQ("foobar", moved_value.GetString()); Value blank; blank = Value("foobar"); EXPECT_EQ(Value::Type::STRING, blank.type()); EXPECT_EQ("foobar", blank.GetString()); } TEST(ValuesTest, MoveBinary) { const std::vector<char> buffer = {0xF, 0x0, 0x0, 0xB, 0xA, 0x2}; BinaryValue value(buffer); BinaryValue moved_value(std::move(value)); EXPECT_EQ(Value::Type::BINARY, moved_value.type()); EXPECT_EQ(buffer, moved_value.GetBlob()); Value blank; blank = BinaryValue(buffer); EXPECT_EQ(Value::Type::BINARY, blank.type()); EXPECT_EQ(buffer, blank.GetBlob()); } TEST(ValuesTest, MoveDictionary) { // TODO(crbug.com/646113): Clean this up once DictionaryValue switched to // value semantics. int move; DictionaryValue value; value.SetInteger("Int", 123); DictionaryValue moved_value(std::move(value)); moved_value.GetInteger("Int", &move); EXPECT_EQ(Value::Type::DICTIONARY, moved_value.type()); EXPECT_EQ(123, move); Value blank; blank = DictionaryValue(); EXPECT_EQ(Value::Type::DICTIONARY, blank.type()); } TEST(ValuesTest, MoveList) { // TODO(crbug.com/646113): Clean this up once ListValue switched to // value semantics. int move; ListValue value; value.AppendInteger(123); ListValue moved_value(std::move(value)); moved_value.GetInteger(0, &move); EXPECT_EQ(Value::Type::LIST, moved_value.type()); EXPECT_EQ(123, move); Value blank; blank = ListValue(); EXPECT_EQ(Value::Type::LIST, blank.type()); } TEST(ValuesTest, Basic) { // Test basic dictionary getting/setting DictionaryValue settings; std::string homepage = "http://google.com"; ASSERT_FALSE(settings.GetString("global.homepage", &homepage)); ASSERT_EQ(std::string("http://google.com"), homepage); ASSERT_FALSE(settings.Get("global", NULL)); settings.SetBoolean("global", true); ASSERT_TRUE(settings.Get("global", NULL)); settings.SetString("global.homepage", "http://scurvy.com"); ASSERT_TRUE(settings.Get("global", NULL)); homepage = "http://google.com"; ASSERT_TRUE(settings.GetString("global.homepage", &homepage)); ASSERT_EQ(std::string("http://scurvy.com"), homepage); // Test storing a dictionary in a list. ListValue* toolbar_bookmarks; ASSERT_FALSE( settings.GetList("global.toolbar.bookmarks", &toolbar_bookmarks)); std::unique_ptr<ListValue> new_toolbar_bookmarks(new ListValue); settings.Set("global.toolbar.bookmarks", std::move(new_toolbar_bookmarks)); ASSERT_TRUE(settings.GetList("global.toolbar.bookmarks", &toolbar_bookmarks)); std::unique_ptr<DictionaryValue> new_bookmark(new DictionaryValue); new_bookmark->SetString("name", "Froogle"); new_bookmark->SetString("url", "http://froogle.com"); toolbar_bookmarks->Append(std::move(new_bookmark)); ListValue* bookmark_list; ASSERT_TRUE(settings.GetList("global.toolbar.bookmarks", &bookmark_list)); DictionaryValue* bookmark; ASSERT_EQ(1U, bookmark_list->GetSize()); ASSERT_TRUE(bookmark_list->GetDictionary(0, &bookmark)); std::string bookmark_name = "Unnamed"; ASSERT_TRUE(bookmark->GetString("name", &bookmark_name)); ASSERT_EQ(std::string("Froogle"), bookmark_name); std::string bookmark_url; ASSERT_TRUE(bookmark->GetString("url", &bookmark_url)); ASSERT_EQ(std::string("http://froogle.com"), bookmark_url); } TEST(ValuesTest, List) { std::unique_ptr<ListValue> mixed_list(new ListValue()); mixed_list->Set(0, MakeUnique<Value>(true)); mixed_list->Set(1, MakeUnique<Value>(42)); mixed_list->Set(2, MakeUnique<Value>(88.8)); mixed_list->Set(3, MakeUnique<Value>("foo")); ASSERT_EQ(4u, mixed_list->GetSize()); Value *value = NULL; bool bool_value = false; int int_value = 0; double double_value = 0.0; std::string string_value; ASSERT_FALSE(mixed_list->Get(4, &value)); ASSERT_FALSE(mixed_list->GetInteger(0, &int_value)); ASSERT_EQ(0, int_value); ASSERT_FALSE(mixed_list->GetBoolean(1, &bool_value)); ASSERT_FALSE(bool_value); ASSERT_FALSE(mixed_list->GetString(2, &string_value)); ASSERT_EQ("", string_value); ASSERT_FALSE(mixed_list->GetInteger(2, &int_value)); ASSERT_EQ(0, int_value); ASSERT_FALSE(mixed_list->GetBoolean(3, &bool_value)); ASSERT_FALSE(bool_value); ASSERT_TRUE(mixed_list->GetBoolean(0, &bool_value)); ASSERT_TRUE(bool_value); ASSERT_TRUE(mixed_list->GetInteger(1, &int_value)); ASSERT_EQ(42, int_value); // implicit conversion from Integer to Double should be possible. ASSERT_TRUE(mixed_list->GetDouble(1, &double_value)); ASSERT_EQ(42, double_value); ASSERT_TRUE(mixed_list->GetDouble(2, &double_value)); ASSERT_EQ(88.8, double_value); ASSERT_TRUE(mixed_list->GetString(3, &string_value)); ASSERT_EQ("foo", string_value); // Try searching in the mixed list. base::Value sought_value(42); base::Value not_found_value(false); ASSERT_NE(mixed_list->end(), mixed_list->Find(sought_value)); ASSERT_TRUE((*mixed_list->Find(sought_value))->GetAsInteger(&int_value)); ASSERT_EQ(42, int_value); ASSERT_EQ(mixed_list->end(), mixed_list->Find(not_found_value)); } TEST(ValuesTest, BinaryValue) { // Default constructor creates a BinaryValue with a buffer of size 0. auto binary = MakeUnique<Value>(Value::Type::BINARY); ASSERT_TRUE(binary.get()); ASSERT_EQ(0U, binary->GetSize()); // Test the common case of a non-empty buffer std::vector<char> buffer(15); char* original_buffer = buffer.data(); binary.reset(new BinaryValue(std::move(buffer))); ASSERT_TRUE(binary.get()); ASSERT_TRUE(binary->GetBuffer()); ASSERT_EQ(original_buffer, binary->GetBuffer()); ASSERT_EQ(15U, binary->GetSize()); char stack_buffer[42]; memset(stack_buffer, '!', 42); binary = BinaryValue::CreateWithCopiedBuffer(stack_buffer, 42); ASSERT_TRUE(binary.get()); ASSERT_TRUE(binary->GetBuffer()); ASSERT_NE(stack_buffer, binary->GetBuffer()); ASSERT_EQ(42U, binary->GetSize()); ASSERT_EQ(0, memcmp(stack_buffer, binary->GetBuffer(), binary->GetSize())); // Test overloaded GetAsBinary. Value* narrow_value = binary.get(); const BinaryValue* narrow_binary = NULL; ASSERT_TRUE(narrow_value->GetAsBinary(&narrow_binary)); EXPECT_EQ(binary.get(), narrow_binary); } TEST(ValuesTest, StringValue) { // Test overloaded StringValue constructor. std::unique_ptr<Value> narrow_value(new Value("narrow")); ASSERT_TRUE(narrow_value.get()); ASSERT_TRUE(narrow_value->IsType(Value::Type::STRING)); std::unique_ptr<Value> utf16_value(new Value(ASCIIToUTF16("utf16"))); ASSERT_TRUE(utf16_value.get()); ASSERT_TRUE(utf16_value->IsType(Value::Type::STRING)); // Test overloaded GetAsString. std::string narrow = "http://google.com"; string16 utf16 = ASCIIToUTF16("http://google.com"); const Value* string_value = NULL; ASSERT_TRUE(narrow_value->GetAsString(&narrow)); ASSERT_TRUE(narrow_value->GetAsString(&utf16)); ASSERT_TRUE(narrow_value->GetAsString(&string_value)); ASSERT_EQ(std::string("narrow"), narrow); ASSERT_EQ(ASCIIToUTF16("narrow"), utf16); ASSERT_EQ(string_value->GetString(), narrow); ASSERT_TRUE(utf16_value->GetAsString(&narrow)); ASSERT_TRUE(utf16_value->GetAsString(&utf16)); ASSERT_TRUE(utf16_value->GetAsString(&string_value)); ASSERT_EQ(std::string("utf16"), narrow); ASSERT_EQ(ASCIIToUTF16("utf16"), utf16); ASSERT_EQ(string_value->GetString(), narrow); // Don't choke on NULL values. ASSERT_TRUE(narrow_value->GetAsString(static_cast<string16*>(NULL))); ASSERT_TRUE(narrow_value->GetAsString(static_cast<std::string*>(NULL))); ASSERT_TRUE(narrow_value->GetAsString(static_cast<const Value**>(NULL))); } TEST(ValuesTest, ListDeletion) { ListValue list; list.Append(MakeUnique<Value>()); EXPECT_FALSE(list.empty()); list.Clear(); EXPECT_TRUE(list.empty()); } TEST(ValuesTest, ListRemoval) { std::unique_ptr<Value> removed_item; { ListValue list; list.Append(MakeUnique<Value>()); EXPECT_EQ(1U, list.GetSize()); EXPECT_FALSE(list.Remove(std::numeric_limits<size_t>::max(), &removed_item)); EXPECT_FALSE(list.Remove(1, &removed_item)); EXPECT_TRUE(list.Remove(0, &removed_item)); ASSERT_TRUE(removed_item); EXPECT_EQ(0U, list.GetSize()); } removed_item.reset(); { ListValue list; list.Append(MakeUnique<Value>()); EXPECT_TRUE(list.Remove(0, NULL)); EXPECT_EQ(0U, list.GetSize()); } { ListValue list; auto value = MakeUnique<Value>(); Value* original_value = value.get(); list.Append(std::move(value)); size_t index = 0; list.Remove(*original_value, &index); EXPECT_EQ(0U, index); EXPECT_EQ(0U, list.GetSize()); } } TEST(ValuesTest, DictionaryDeletion) { std::string key = "test"; DictionaryValue dict; dict.Set(key, MakeUnique<Value>()); EXPECT_FALSE(dict.empty()); dict.Clear(); EXPECT_TRUE(dict.empty()); } TEST(ValuesTest, DictionaryRemoval) { std::string key = "test"; std::unique_ptr<Value> removed_item; { DictionaryValue dict; dict.Set(key, MakeUnique<Value>()); EXPECT_TRUE(dict.HasKey(key)); EXPECT_FALSE(dict.Remove("absent key", &removed_item)); EXPECT_TRUE(dict.Remove(key, &removed_item)); EXPECT_FALSE(dict.HasKey(key)); ASSERT_TRUE(removed_item); } { DictionaryValue dict; dict.Set(key, MakeUnique<Value>()); EXPECT_TRUE(dict.HasKey(key)); EXPECT_TRUE(dict.Remove(key, NULL)); EXPECT_FALSE(dict.HasKey(key)); } } TEST(ValuesTest, DictionaryWithoutPathExpansion) { DictionaryValue dict; dict.Set("this.is.expanded", Value::CreateNullValue()); dict.SetWithoutPathExpansion("this.isnt.expanded", Value::CreateNullValue()); EXPECT_FALSE(dict.HasKey("this.is.expanded")); EXPECT_TRUE(dict.HasKey("this")); Value* value1; EXPECT_TRUE(dict.Get("this", &value1)); DictionaryValue* value2; ASSERT_TRUE(dict.GetDictionaryWithoutPathExpansion("this", &value2)); EXPECT_EQ(value1, value2); EXPECT_EQ(1U, value2->size()); EXPECT_TRUE(dict.HasKey("this.isnt.expanded")); Value* value3; EXPECT_FALSE(dict.Get("this.isnt.expanded", &value3)); Value* value4; ASSERT_TRUE(dict.GetWithoutPathExpansion("this.isnt.expanded", &value4)); EXPECT_EQ(Value::Type::NONE, value4->GetType()); } // Tests the deprecated version of SetWithoutPathExpansion. // TODO(estade): remove. TEST(ValuesTest, DictionaryWithoutPathExpansionDeprecated) { DictionaryValue dict; dict.Set("this.is.expanded", Value::CreateNullValue()); dict.SetWithoutPathExpansion("this.isnt.expanded", Value::CreateNullValue()); EXPECT_FALSE(dict.HasKey("this.is.expanded")); EXPECT_TRUE(dict.HasKey("this")); Value* value1; EXPECT_TRUE(dict.Get("this", &value1)); DictionaryValue* value2; ASSERT_TRUE(dict.GetDictionaryWithoutPathExpansion("this", &value2)); EXPECT_EQ(value1, value2); EXPECT_EQ(1U, value2->size()); EXPECT_TRUE(dict.HasKey("this.isnt.expanded")); Value* value3; EXPECT_FALSE(dict.Get("this.isnt.expanded", &value3)); Value* value4; ASSERT_TRUE(dict.GetWithoutPathExpansion("this.isnt.expanded", &value4)); EXPECT_EQ(Value::Type::NONE, value4->GetType()); } TEST(ValuesTest, DictionaryRemovePath) { DictionaryValue dict; dict.SetInteger("a.long.way.down", 1); dict.SetBoolean("a.long.key.path", true); std::unique_ptr<Value> removed_item; EXPECT_TRUE(dict.RemovePath("a.long.way.down", &removed_item)); ASSERT_TRUE(removed_item); EXPECT_TRUE(removed_item->IsType(base::Value::Type::INTEGER)); EXPECT_FALSE(dict.HasKey("a.long.way.down")); EXPECT_FALSE(dict.HasKey("a.long.way")); EXPECT_TRUE(dict.Get("a.long.key.path", NULL)); removed_item.reset(); EXPECT_FALSE(dict.RemovePath("a.long.way.down", &removed_item)); EXPECT_FALSE(removed_item); EXPECT_TRUE(dict.Get("a.long.key.path", NULL)); removed_item.reset(); EXPECT_TRUE(dict.RemovePath("a.long.key.path", &removed_item)); ASSERT_TRUE(removed_item); EXPECT_TRUE(removed_item->IsType(base::Value::Type::BOOLEAN)); EXPECT_TRUE(dict.empty()); } TEST(ValuesTest, DeepCopy) { DictionaryValue original_dict; std::unique_ptr<Value> scoped_null = Value::CreateNullValue(); Value* original_null = scoped_null.get(); original_dict.Set("null", std::move(scoped_null)); std::unique_ptr<Value> scoped_bool(new Value(true)); Value* original_bool = scoped_bool.get(); original_dict.Set("bool", std::move(scoped_bool)); std::unique_ptr<Value> scoped_int(new Value(42)); Value* original_int = scoped_int.get(); original_dict.Set("int", std::move(scoped_int)); std::unique_ptr<Value> scoped_double(new Value(3.14)); Value* original_double = scoped_double.get(); original_dict.Set("double", std::move(scoped_double)); std::unique_ptr<Value> scoped_string(new Value("hello")); Value* original_string = scoped_string.get(); original_dict.Set("string", std::move(scoped_string)); std::unique_ptr<Value> scoped_string16(new Value(ASCIIToUTF16("hello16"))); Value* original_string16 = scoped_string16.get(); original_dict.Set("string16", std::move(scoped_string16)); std::vector<char> original_buffer(42, '!'); std::unique_ptr<BinaryValue> scoped_binary( new BinaryValue(std::move(original_buffer))); BinaryValue* original_binary = scoped_binary.get(); original_dict.Set("binary", std::move(scoped_binary)); std::unique_ptr<ListValue> scoped_list(new ListValue()); Value* original_list = scoped_list.get(); std::unique_ptr<Value> scoped_list_element_0(new Value(0)); Value* original_list_element_0 = scoped_list_element_0.get(); scoped_list->Append(std::move(scoped_list_element_0)); std::unique_ptr<Value> scoped_list_element_1(new Value(1)); Value* original_list_element_1 = scoped_list_element_1.get(); scoped_list->Append(std::move(scoped_list_element_1)); original_dict.Set("list", std::move(scoped_list)); std::unique_ptr<DictionaryValue> scoped_nested_dictionary( new DictionaryValue()); Value* original_nested_dictionary = scoped_nested_dictionary.get(); scoped_nested_dictionary->SetString("key", "value"); original_dict.Set("dictionary", std::move(scoped_nested_dictionary)); auto copy_dict = MakeUnique<DictionaryValue>(original_dict); ASSERT_TRUE(copy_dict.get()); ASSERT_NE(copy_dict.get(), &original_dict); Value* copy_null = NULL; ASSERT_TRUE(copy_dict->Get("null", ©_null)); ASSERT_TRUE(copy_null); ASSERT_NE(copy_null, original_null); ASSERT_TRUE(copy_null->IsType(Value::Type::NONE)); Value* copy_bool = NULL; ASSERT_TRUE(copy_dict->Get("bool", ©_bool)); ASSERT_TRUE(copy_bool); ASSERT_NE(copy_bool, original_bool); ASSERT_TRUE(copy_bool->IsType(Value::Type::BOOLEAN)); bool copy_bool_value = false; ASSERT_TRUE(copy_bool->GetAsBoolean(©_bool_value)); ASSERT_TRUE(copy_bool_value); Value* copy_int = NULL; ASSERT_TRUE(copy_dict->Get("int", ©_int)); ASSERT_TRUE(copy_int); ASSERT_NE(copy_int, original_int); ASSERT_TRUE(copy_int->IsType(Value::Type::INTEGER)); int copy_int_value = 0; ASSERT_TRUE(copy_int->GetAsInteger(©_int_value)); ASSERT_EQ(42, copy_int_value); Value* copy_double = NULL; ASSERT_TRUE(copy_dict->Get("double", ©_double)); ASSERT_TRUE(copy_double); ASSERT_NE(copy_double, original_double); ASSERT_TRUE(copy_double->IsType(Value::Type::DOUBLE)); double copy_double_value = 0; ASSERT_TRUE(copy_double->GetAsDouble(©_double_value)); ASSERT_EQ(3.14, copy_double_value); Value* copy_string = NULL; ASSERT_TRUE(copy_dict->Get("string", ©_string)); ASSERT_TRUE(copy_string); ASSERT_NE(copy_string, original_string); ASSERT_TRUE(copy_string->IsType(Value::Type::STRING)); std::string copy_string_value; string16 copy_string16_value; ASSERT_TRUE(copy_string->GetAsString(©_string_value)); ASSERT_TRUE(copy_string->GetAsString(©_string16_value)); ASSERT_EQ(std::string("hello"), copy_string_value); ASSERT_EQ(ASCIIToUTF16("hello"), copy_string16_value); Value* copy_string16 = NULL; ASSERT_TRUE(copy_dict->Get("string16", ©_string16)); ASSERT_TRUE(copy_string16); ASSERT_NE(copy_string16, original_string16); ASSERT_TRUE(copy_string16->IsType(Value::Type::STRING)); ASSERT_TRUE(copy_string16->GetAsString(©_string_value)); ASSERT_TRUE(copy_string16->GetAsString(©_string16_value)); ASSERT_EQ(std::string("hello16"), copy_string_value); ASSERT_EQ(ASCIIToUTF16("hello16"), copy_string16_value); Value* copy_binary = NULL; ASSERT_TRUE(copy_dict->Get("binary", ©_binary)); ASSERT_TRUE(copy_binary); ASSERT_NE(copy_binary, original_binary); ASSERT_TRUE(copy_binary->IsType(Value::Type::BINARY)); ASSERT_NE(original_binary->GetBuffer(), copy_binary->GetBuffer()); ASSERT_EQ(original_binary->GetSize(), copy_binary->GetSize()); ASSERT_EQ(0, memcmp(original_binary->GetBuffer(), copy_binary->GetBuffer(), original_binary->GetSize())); Value* copy_value = NULL; ASSERT_TRUE(copy_dict->Get("list", ©_value)); ASSERT_TRUE(copy_value); ASSERT_NE(copy_value, original_list); ASSERT_TRUE(copy_value->IsType(Value::Type::LIST)); ListValue* copy_list = NULL; ASSERT_TRUE(copy_value->GetAsList(©_list)); ASSERT_TRUE(copy_list); ASSERT_EQ(2U, copy_list->GetSize()); Value* copy_list_element_0; ASSERT_TRUE(copy_list->Get(0, ©_list_element_0)); ASSERT_TRUE(copy_list_element_0); ASSERT_NE(copy_list_element_0, original_list_element_0); int copy_list_element_0_value; ASSERT_TRUE(copy_list_element_0->GetAsInteger(©_list_element_0_value)); ASSERT_EQ(0, copy_list_element_0_value); Value* copy_list_element_1; ASSERT_TRUE(copy_list->Get(1, ©_list_element_1)); ASSERT_TRUE(copy_list_element_1); ASSERT_NE(copy_list_element_1, original_list_element_1); int copy_list_element_1_value; ASSERT_TRUE(copy_list_element_1->GetAsInteger(©_list_element_1_value)); ASSERT_EQ(1, copy_list_element_1_value); copy_value = NULL; ASSERT_TRUE(copy_dict->Get("dictionary", ©_value)); ASSERT_TRUE(copy_value); ASSERT_NE(copy_value, original_nested_dictionary); ASSERT_TRUE(copy_value->IsType(Value::Type::DICTIONARY)); DictionaryValue* copy_nested_dictionary = NULL; ASSERT_TRUE(copy_value->GetAsDictionary(©_nested_dictionary)); ASSERT_TRUE(copy_nested_dictionary); EXPECT_TRUE(copy_nested_dictionary->HasKey("key")); } TEST(ValuesTest, Equals) { std::unique_ptr<Value> null1(Value::CreateNullValue()); std::unique_ptr<Value> null2(Value::CreateNullValue()); EXPECT_NE(null1.get(), null2.get()); EXPECT_EQ(*null1, *null2); Value boolean(false); EXPECT_NE(*null1, boolean); DictionaryValue dv; dv.SetBoolean("a", false); dv.SetInteger("b", 2); dv.SetDouble("c", 2.5); dv.SetString("d1", "string"); dv.SetString("d2", ASCIIToUTF16("http://google.com")); dv.Set("e", Value::CreateNullValue()); auto copy = MakeUnique<DictionaryValue>(dv); EXPECT_EQ(dv, *copy); std::unique_ptr<ListValue> list(new ListValue); ListValue* original_list = list.get(); list->Append(Value::CreateNullValue()); list->Append(WrapUnique(new DictionaryValue)); auto list_copy = MakeUnique<Value>(*list); dv.Set("f", std::move(list)); EXPECT_NE(dv, *copy); copy->Set("f", std::move(list_copy)); EXPECT_EQ(dv, *copy); original_list->Append(MakeUnique<Value>(true)); EXPECT_NE(dv, *copy); // Check if Equals detects differences in only the keys. copy = MakeUnique<DictionaryValue>(dv); EXPECT_EQ(dv, *copy); copy->Remove("a", NULL); copy->SetBoolean("aa", false); EXPECT_NE(dv, *copy); } TEST(ValuesTest, StaticEquals) { std::unique_ptr<Value> null1(Value::CreateNullValue()); std::unique_ptr<Value> null2(Value::CreateNullValue()); EXPECT_TRUE(Value::Equals(null1.get(), null2.get())); EXPECT_TRUE(Value::Equals(NULL, NULL)); std::unique_ptr<Value> i42(new Value(42)); std::unique_ptr<Value> j42(new Value(42)); std::unique_ptr<Value> i17(new Value(17)); EXPECT_TRUE(Value::Equals(i42.get(), i42.get())); EXPECT_TRUE(Value::Equals(j42.get(), i42.get())); EXPECT_TRUE(Value::Equals(i42.get(), j42.get())); EXPECT_FALSE(Value::Equals(i42.get(), i17.get())); EXPECT_FALSE(Value::Equals(i42.get(), NULL)); EXPECT_FALSE(Value::Equals(NULL, i42.get())); // NULL and Value::CreateNullValue() are intentionally different: We need // support for NULL as a return value for "undefined" without caring for // ownership of the pointer. EXPECT_FALSE(Value::Equals(null1.get(), NULL)); EXPECT_FALSE(Value::Equals(NULL, null1.get())); } TEST(ValuesTest, Comparisons) { // Test None Values. Value null1; Value null2; EXPECT_EQ(null1, null2); EXPECT_FALSE(null1 != null2); EXPECT_FALSE(null1 < null2); EXPECT_FALSE(null1 > null2); EXPECT_LE(null1, null2); EXPECT_GE(null1, null2); // Test Bool Values. Value bool1(false); Value bool2(true); EXPECT_FALSE(bool1 == bool2); EXPECT_NE(bool1, bool2); EXPECT_LT(bool1, bool2); EXPECT_FALSE(bool1 > bool2); EXPECT_LE(bool1, bool2); EXPECT_FALSE(bool1 >= bool2); // Test Int Values. Value int1(1); Value int2(2); EXPECT_FALSE(int1 == int2); EXPECT_NE(int1, int2); EXPECT_LT(int1, int2); EXPECT_FALSE(int1 > int2); EXPECT_LE(int1, int2); EXPECT_FALSE(int1 >= int2); // Test Double Values. Value double1(1.0); Value double2(2.0); EXPECT_FALSE(double1 == double2); EXPECT_NE(double1, double2); EXPECT_LT(double1, double2); EXPECT_FALSE(double1 > double2); EXPECT_LE(double1, double2); EXPECT_FALSE(double1 >= double2); // Test String Values. Value string1("1"); Value string2("2"); EXPECT_FALSE(string1 == string2); EXPECT_NE(string1, string2); EXPECT_LT(string1, string2); EXPECT_FALSE(string1 > string2); EXPECT_LE(string1, string2); EXPECT_FALSE(string1 >= string2); // Test Binary Values. Value binary1(std::vector<char>{0x01}); Value binary2(std::vector<char>{0x02}); EXPECT_FALSE(binary1 == binary2); EXPECT_NE(binary1, binary2); EXPECT_LT(binary1, binary2); EXPECT_FALSE(binary1 > binary2); EXPECT_LE(binary1, binary2); EXPECT_FALSE(binary1 >= binary2); // Test Empty List Values. ListValue null_list1; ListValue null_list2; EXPECT_EQ(null_list1, null_list2); EXPECT_FALSE(null_list1 != null_list2); EXPECT_FALSE(null_list1 < null_list2); EXPECT_FALSE(null_list1 > null_list2); EXPECT_LE(null_list1, null_list2); EXPECT_GE(null_list1, null_list2); // Test Non Empty List Values. ListValue int_list1; ListValue int_list2; int_list1.AppendInteger(1); int_list2.AppendInteger(2); EXPECT_FALSE(int_list1 == int_list2); EXPECT_NE(int_list1, int_list2); EXPECT_LT(int_list1, int_list2); EXPECT_FALSE(int_list1 > int_list2); EXPECT_LE(int_list1, int_list2); EXPECT_FALSE(int_list1 >= int_list2); // Test Empty Dict Values. DictionaryValue null_dict1; DictionaryValue null_dict2; EXPECT_EQ(null_dict1, null_dict2); EXPECT_FALSE(null_dict1 != null_dict2); EXPECT_FALSE(null_dict1 < null_dict2); EXPECT_FALSE(null_dict1 > null_dict2); EXPECT_LE(null_dict1, null_dict2); EXPECT_GE(null_dict1, null_dict2); // Test Non Empty Dict Values. DictionaryValue int_dict1; DictionaryValue int_dict2; int_dict1.SetInteger("key", 1); int_dict2.SetInteger("key", 2); EXPECT_FALSE(int_dict1 == int_dict2); EXPECT_NE(int_dict1, int_dict2); EXPECT_LT(int_dict1, int_dict2); EXPECT_FALSE(int_dict1 > int_dict2); EXPECT_LE(int_dict1, int_dict2); EXPECT_FALSE(int_dict1 >= int_dict2); // Test Values of different types. std::vector<Value> values = {null1, bool1, int1, double1, string1, binary1, int_dict1, int_list1}; for (size_t i = 0; i < values.size(); ++i) { for (size_t j = i + 1; j < values.size(); ++j) { EXPECT_FALSE(values[i] == values[j]); EXPECT_NE(values[i], values[j]); EXPECT_LT(values[i], values[j]); EXPECT_FALSE(values[i] > values[j]); EXPECT_LE(values[i], values[j]); EXPECT_FALSE(values[i] >= values[j]); } } } TEST(ValuesTest, DeepCopyCovariantReturnTypes) { DictionaryValue original_dict; std::unique_ptr<Value> scoped_null(Value::CreateNullValue()); Value* original_null = scoped_null.get(); original_dict.Set("null", std::move(scoped_null)); std::unique_ptr<Value> scoped_bool(new Value(true)); Value* original_bool = scoped_bool.get(); original_dict.Set("bool", std::move(scoped_bool)); std::unique_ptr<Value> scoped_int(new Value(42)); Value* original_int = scoped_int.get(); original_dict.Set("int", std::move(scoped_int)); std::unique_ptr<Value> scoped_double(new Value(3.14)); Value* original_double = scoped_double.get(); original_dict.Set("double", std::move(scoped_double)); std::unique_ptr<Value> scoped_string(new Value("hello")); Value* original_string = scoped_string.get(); original_dict.Set("string", std::move(scoped_string)); std::unique_ptr<Value> scoped_string16(new Value(ASCIIToUTF16("hello16"))); Value* original_string16 = scoped_string16.get(); original_dict.Set("string16", std::move(scoped_string16)); std::vector<char> original_buffer(42, '!'); std::unique_ptr<BinaryValue> scoped_binary( new BinaryValue(std::move(original_buffer))); Value* original_binary = scoped_binary.get(); original_dict.Set("binary", std::move(scoped_binary)); std::unique_ptr<ListValue> scoped_list(new ListValue()); Value* original_list = scoped_list.get(); std::unique_ptr<Value> scoped_list_element_0(new Value(0)); scoped_list->Append(std::move(scoped_list_element_0)); std::unique_ptr<Value> scoped_list_element_1(new Value(1)); scoped_list->Append(std::move(scoped_list_element_1)); original_dict.Set("list", std::move(scoped_list)); auto copy_dict = MakeUnique<Value>(original_dict); auto copy_null = MakeUnique<Value>(*original_null); auto copy_bool = MakeUnique<Value>(*original_bool); auto copy_int = MakeUnique<Value>(*original_int); auto copy_double = MakeUnique<Value>(*original_double); auto copy_string = MakeUnique<Value>(*original_string); auto copy_string16 = MakeUnique<Value>(*original_string16); auto copy_binary = MakeUnique<Value>(*original_binary); auto copy_list = MakeUnique<Value>(*original_list); EXPECT_EQ(original_dict, *copy_dict); EXPECT_EQ(*original_null, *copy_null); EXPECT_EQ(*original_bool, *copy_bool); EXPECT_EQ(*original_int, *copy_int); EXPECT_EQ(*original_double, *copy_double); EXPECT_EQ(*original_string, *copy_string); EXPECT_EQ(*original_string16, *copy_string16); EXPECT_EQ(*original_binary, *copy_binary); EXPECT_EQ(*original_list, *copy_list); } TEST(ValuesTest, RemoveEmptyChildren) { std::unique_ptr<DictionaryValue> root(new DictionaryValue); // Remove empty lists and dictionaries. root->Set("empty_dict", WrapUnique(new DictionaryValue)); root->Set("empty_list", WrapUnique(new ListValue)); root->SetWithoutPathExpansion("a.b.c.d.e", WrapUnique(new DictionaryValue)); root = root->DeepCopyWithoutEmptyChildren(); EXPECT_TRUE(root->empty()); // Make sure we don't prune too much. root->SetBoolean("bool", true); root->Set("empty_dict", WrapUnique(new DictionaryValue)); root->SetString("empty_string", std::string()); root = root->DeepCopyWithoutEmptyChildren(); EXPECT_EQ(2U, root->size()); // Should do nothing. root = root->DeepCopyWithoutEmptyChildren(); EXPECT_EQ(2U, root->size()); // Nested test cases. These should all reduce back to the bool and string // set above. { root->Set("a.b.c.d.e", WrapUnique(new DictionaryValue)); root = root->DeepCopyWithoutEmptyChildren(); EXPECT_EQ(2U, root->size()); } { std::unique_ptr<DictionaryValue> inner(new DictionaryValue); inner->Set("empty_dict", WrapUnique(new DictionaryValue)); inner->Set("empty_list", WrapUnique(new ListValue)); root->Set("dict_with_empty_children", std::move(inner)); root = root->DeepCopyWithoutEmptyChildren(); EXPECT_EQ(2U, root->size()); } { std::unique_ptr<ListValue> inner(new ListValue); inner->Append(WrapUnique(new DictionaryValue)); inner->Append(WrapUnique(new ListValue)); root->Set("list_with_empty_children", std::move(inner)); root = root->DeepCopyWithoutEmptyChildren(); EXPECT_EQ(2U, root->size()); } // Nested with siblings. { std::unique_ptr<ListValue> inner(new ListValue()); inner->Append(WrapUnique(new DictionaryValue)); inner->Append(WrapUnique(new ListValue)); root->Set("list_with_empty_children", std::move(inner)); std::unique_ptr<DictionaryValue> inner2(new DictionaryValue); inner2->Set("empty_dict", WrapUnique(new DictionaryValue)); inner2->Set("empty_list", WrapUnique(new ListValue)); root->Set("dict_with_empty_children", std::move(inner2)); root = root->DeepCopyWithoutEmptyChildren(); EXPECT_EQ(2U, root->size()); } // Make sure nested values don't get pruned. { std::unique_ptr<ListValue> inner(new ListValue); std::unique_ptr<ListValue> inner2(new ListValue); inner2->Append(MakeUnique<Value>("hello")); inner->Append(WrapUnique(new DictionaryValue)); inner->Append(std::move(inner2)); root->Set("list_with_empty_children", std::move(inner)); root = root->DeepCopyWithoutEmptyChildren(); EXPECT_EQ(3U, root->size()); ListValue* inner_value, *inner_value2; EXPECT_TRUE(root->GetList("list_with_empty_children", &inner_value)); EXPECT_EQ(1U, inner_value->GetSize()); // Dictionary was pruned. EXPECT_TRUE(inner_value->GetList(0, &inner_value2)); EXPECT_EQ(1U, inner_value2->GetSize()); } } TEST(ValuesTest, MergeDictionary) { std::unique_ptr<DictionaryValue> base(new DictionaryValue); base->SetString("base_key", "base_key_value_base"); base->SetString("collide_key", "collide_key_value_base"); std::unique_ptr<DictionaryValue> base_sub_dict(new DictionaryValue); base_sub_dict->SetString("sub_base_key", "sub_base_key_value_base"); base_sub_dict->SetString("sub_collide_key", "sub_collide_key_value_base"); base->Set("sub_dict_key", std::move(base_sub_dict)); std::unique_ptr<DictionaryValue> merge(new DictionaryValue); merge->SetString("merge_key", "merge_key_value_merge"); merge->SetString("collide_key", "collide_key_value_merge"); std::unique_ptr<DictionaryValue> merge_sub_dict(new DictionaryValue); merge_sub_dict->SetString("sub_merge_key", "sub_merge_key_value_merge"); merge_sub_dict->SetString("sub_collide_key", "sub_collide_key_value_merge"); merge->Set("sub_dict_key", std::move(merge_sub_dict)); base->MergeDictionary(merge.get()); EXPECT_EQ(4U, base->size()); std::string base_key_value; EXPECT_TRUE(base->GetString("base_key", &base_key_value)); EXPECT_EQ("base_key_value_base", base_key_value); // Base value preserved. std::string collide_key_value; EXPECT_TRUE(base->GetString("collide_key", &collide_key_value)); EXPECT_EQ("collide_key_value_merge", collide_key_value); // Replaced. std::string merge_key_value; EXPECT_TRUE(base->GetString("merge_key", &merge_key_value)); EXPECT_EQ("merge_key_value_merge", merge_key_value); // Merged in. DictionaryValue* res_sub_dict; EXPECT_TRUE(base->GetDictionary("sub_dict_key", &res_sub_dict)); EXPECT_EQ(3U, res_sub_dict->size()); std::string sub_base_key_value; EXPECT_TRUE(res_sub_dict->GetString("sub_base_key", &sub_base_key_value)); EXPECT_EQ("sub_base_key_value_base", sub_base_key_value); // Preserved. std::string sub_collide_key_value; EXPECT_TRUE(res_sub_dict->GetString("sub_collide_key", &sub_collide_key_value)); EXPECT_EQ("sub_collide_key_value_merge", sub_collide_key_value); // Replaced. std::string sub_merge_key_value; EXPECT_TRUE(res_sub_dict->GetString("sub_merge_key", &sub_merge_key_value)); EXPECT_EQ("sub_merge_key_value_merge", sub_merge_key_value); // Merged in. } TEST(ValuesTest, MergeDictionaryDeepCopy) { std::unique_ptr<DictionaryValue> child(new DictionaryValue); DictionaryValue* original_child = child.get(); child->SetString("test", "value"); EXPECT_EQ(1U, child->size()); std::string value; EXPECT_TRUE(child->GetString("test", &value)); EXPECT_EQ("value", value); std::unique_ptr<DictionaryValue> base(new DictionaryValue); base->Set("dict", std::move(child)); EXPECT_EQ(1U, base->size()); DictionaryValue* ptr; EXPECT_TRUE(base->GetDictionary("dict", &ptr)); EXPECT_EQ(original_child, ptr); std::unique_ptr<DictionaryValue> merged(new DictionaryValue); merged->MergeDictionary(base.get()); EXPECT_EQ(1U, merged->size()); EXPECT_TRUE(merged->GetDictionary("dict", &ptr)); EXPECT_NE(original_child, ptr); EXPECT_TRUE(ptr->GetString("test", &value)); EXPECT_EQ("value", value); original_child->SetString("test", "overwrite"); base.reset(); EXPECT_TRUE(ptr->GetString("test", &value)); EXPECT_EQ("value", value); } TEST(ValuesTest, DictionaryIterator) { DictionaryValue dict; for (DictionaryValue::Iterator it(dict); !it.IsAtEnd(); it.Advance()) { ADD_FAILURE(); } Value value1("value1"); dict.Set("key1", MakeUnique<Value>(value1)); bool seen1 = false; for (DictionaryValue::Iterator it(dict); !it.IsAtEnd(); it.Advance()) { EXPECT_FALSE(seen1); EXPECT_EQ("key1", it.key()); EXPECT_EQ(value1, it.value()); seen1 = true; } EXPECT_TRUE(seen1); Value value2("value2"); dict.Set("key2", MakeUnique<Value>(value2)); bool seen2 = seen1 = false; for (DictionaryValue::Iterator it(dict); !it.IsAtEnd(); it.Advance()) { if (it.key() == "key1") { EXPECT_FALSE(seen1); EXPECT_EQ(value1, it.value()); seen1 = true; } else if (it.key() == "key2") { EXPECT_FALSE(seen2); EXPECT_EQ(value2, it.value()); seen2 = true; } else { ADD_FAILURE(); } } EXPECT_TRUE(seen1); EXPECT_TRUE(seen2); } // DictionaryValue/ListValue's Get*() methods should accept NULL as an out-value // and still return true/false based on success. TEST(ValuesTest, GetWithNullOutValue) { DictionaryValue main_dict; ListValue main_list; Value bool_value(false); Value int_value(1234); Value double_value(12.34567); Value string_value("foo"); BinaryValue binary_value(Value::Type::BINARY); DictionaryValue dict_value; ListValue list_value; main_dict.Set("bool", MakeUnique<Value>(bool_value)); main_dict.Set("int", MakeUnique<Value>(int_value)); main_dict.Set("double", MakeUnique<Value>(double_value)); main_dict.Set("string", MakeUnique<Value>(string_value)); main_dict.Set("binary", MakeUnique<Value>(binary_value)); main_dict.Set("dict", MakeUnique<Value>(dict_value)); main_dict.Set("list", MakeUnique<Value>(list_value)); main_list.Append(MakeUnique<Value>(bool_value)); main_list.Append(MakeUnique<Value>(int_value)); main_list.Append(MakeUnique<Value>(double_value)); main_list.Append(MakeUnique<Value>(string_value)); main_list.Append(MakeUnique<Value>(binary_value)); main_list.Append(MakeUnique<Value>(dict_value)); main_list.Append(MakeUnique<Value>(list_value)); EXPECT_TRUE(main_dict.Get("bool", NULL)); EXPECT_TRUE(main_dict.Get("int", NULL)); EXPECT_TRUE(main_dict.Get("double", NULL)); EXPECT_TRUE(main_dict.Get("string", NULL)); EXPECT_TRUE(main_dict.Get("binary", NULL)); EXPECT_TRUE(main_dict.Get("dict", NULL)); EXPECT_TRUE(main_dict.Get("list", NULL)); EXPECT_FALSE(main_dict.Get("DNE", NULL)); EXPECT_TRUE(main_dict.GetBoolean("bool", NULL)); EXPECT_FALSE(main_dict.GetBoolean("int", NULL)); EXPECT_FALSE(main_dict.GetBoolean("double", NULL)); EXPECT_FALSE(main_dict.GetBoolean("string", NULL)); EXPECT_FALSE(main_dict.GetBoolean("binary", NULL)); EXPECT_FALSE(main_dict.GetBoolean("dict", NULL)); EXPECT_FALSE(main_dict.GetBoolean("list", NULL)); EXPECT_FALSE(main_dict.GetBoolean("DNE", NULL)); EXPECT_FALSE(main_dict.GetInteger("bool", NULL)); EXPECT_TRUE(main_dict.GetInteger("int", NULL)); EXPECT_FALSE(main_dict.GetInteger("double", NULL)); EXPECT_FALSE(main_dict.GetInteger("string", NULL)); EXPECT_FALSE(main_dict.GetInteger("binary", NULL)); EXPECT_FALSE(main_dict.GetInteger("dict", NULL)); EXPECT_FALSE(main_dict.GetInteger("list", NULL)); EXPECT_FALSE(main_dict.GetInteger("DNE", NULL)); // Both int and double values can be obtained from GetDouble. EXPECT_FALSE(main_dict.GetDouble("bool", NULL)); EXPECT_TRUE(main_dict.GetDouble("int", NULL)); EXPECT_TRUE(main_dict.GetDouble("double", NULL)); EXPECT_FALSE(main_dict.GetDouble("string", NULL)); EXPECT_FALSE(main_dict.GetDouble("binary", NULL)); EXPECT_FALSE(main_dict.GetDouble("dict", NULL)); EXPECT_FALSE(main_dict.GetDouble("list", NULL)); EXPECT_FALSE(main_dict.GetDouble("DNE", NULL)); EXPECT_FALSE(main_dict.GetString("bool", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetString("int", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetString("double", static_cast<std::string*>(NULL))); EXPECT_TRUE(main_dict.GetString("string", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetString("binary", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetString("dict", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetString("list", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetString("DNE", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetString("bool", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetString("int", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetString("double", static_cast<string16*>(NULL))); EXPECT_TRUE(main_dict.GetString("string", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetString("binary", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetString("dict", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetString("list", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetString("DNE", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetBinary("bool", NULL)); EXPECT_FALSE(main_dict.GetBinary("int", NULL)); EXPECT_FALSE(main_dict.GetBinary("double", NULL)); EXPECT_FALSE(main_dict.GetBinary("string", NULL)); EXPECT_TRUE(main_dict.GetBinary("binary", NULL)); EXPECT_FALSE(main_dict.GetBinary("dict", NULL)); EXPECT_FALSE(main_dict.GetBinary("list", NULL)); EXPECT_FALSE(main_dict.GetBinary("DNE", NULL)); EXPECT_FALSE(main_dict.GetDictionary("bool", NULL)); EXPECT_FALSE(main_dict.GetDictionary("int", NULL)); EXPECT_FALSE(main_dict.GetDictionary("double", NULL)); EXPECT_FALSE(main_dict.GetDictionary("string", NULL)); EXPECT_FALSE(main_dict.GetDictionary("binary", NULL)); EXPECT_TRUE(main_dict.GetDictionary("dict", NULL)); EXPECT_FALSE(main_dict.GetDictionary("list", NULL)); EXPECT_FALSE(main_dict.GetDictionary("DNE", NULL)); EXPECT_FALSE(main_dict.GetList("bool", NULL)); EXPECT_FALSE(main_dict.GetList("int", NULL)); EXPECT_FALSE(main_dict.GetList("double", NULL)); EXPECT_FALSE(main_dict.GetList("string", NULL)); EXPECT_FALSE(main_dict.GetList("binary", NULL)); EXPECT_FALSE(main_dict.GetList("dict", NULL)); EXPECT_TRUE(main_dict.GetList("list", NULL)); EXPECT_FALSE(main_dict.GetList("DNE", NULL)); EXPECT_TRUE(main_dict.GetWithoutPathExpansion("bool", NULL)); EXPECT_TRUE(main_dict.GetWithoutPathExpansion("int", NULL)); EXPECT_TRUE(main_dict.GetWithoutPathExpansion("double", NULL)); EXPECT_TRUE(main_dict.GetWithoutPathExpansion("string", NULL)); EXPECT_TRUE(main_dict.GetWithoutPathExpansion("binary", NULL)); EXPECT_TRUE(main_dict.GetWithoutPathExpansion("dict", NULL)); EXPECT_TRUE(main_dict.GetWithoutPathExpansion("list", NULL)); EXPECT_FALSE(main_dict.GetWithoutPathExpansion("DNE", NULL)); EXPECT_TRUE(main_dict.GetBooleanWithoutPathExpansion("bool", NULL)); EXPECT_FALSE(main_dict.GetBooleanWithoutPathExpansion("int", NULL)); EXPECT_FALSE(main_dict.GetBooleanWithoutPathExpansion("double", NULL)); EXPECT_FALSE(main_dict.GetBooleanWithoutPathExpansion("string", NULL)); EXPECT_FALSE(main_dict.GetBooleanWithoutPathExpansion("binary", NULL)); EXPECT_FALSE(main_dict.GetBooleanWithoutPathExpansion("dict", NULL)); EXPECT_FALSE(main_dict.GetBooleanWithoutPathExpansion("list", NULL)); EXPECT_FALSE(main_dict.GetBooleanWithoutPathExpansion("DNE", NULL)); EXPECT_FALSE(main_dict.GetIntegerWithoutPathExpansion("bool", NULL)); EXPECT_TRUE(main_dict.GetIntegerWithoutPathExpansion("int", NULL)); EXPECT_FALSE(main_dict.GetIntegerWithoutPathExpansion("double", NULL)); EXPECT_FALSE(main_dict.GetIntegerWithoutPathExpansion("string", NULL)); EXPECT_FALSE(main_dict.GetIntegerWithoutPathExpansion("binary", NULL)); EXPECT_FALSE(main_dict.GetIntegerWithoutPathExpansion("dict", NULL)); EXPECT_FALSE(main_dict.GetIntegerWithoutPathExpansion("list", NULL)); EXPECT_FALSE(main_dict.GetIntegerWithoutPathExpansion("DNE", NULL)); EXPECT_FALSE(main_dict.GetDoubleWithoutPathExpansion("bool", NULL)); EXPECT_TRUE(main_dict.GetDoubleWithoutPathExpansion("int", NULL)); EXPECT_TRUE(main_dict.GetDoubleWithoutPathExpansion("double", NULL)); EXPECT_FALSE(main_dict.GetDoubleWithoutPathExpansion("string", NULL)); EXPECT_FALSE(main_dict.GetDoubleWithoutPathExpansion("binary", NULL)); EXPECT_FALSE(main_dict.GetDoubleWithoutPathExpansion("dict", NULL)); EXPECT_FALSE(main_dict.GetDoubleWithoutPathExpansion("list", NULL)); EXPECT_FALSE(main_dict.GetDoubleWithoutPathExpansion("DNE", NULL)); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "bool", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "int", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "double", static_cast<std::string*>(NULL))); EXPECT_TRUE(main_dict.GetStringWithoutPathExpansion( "string", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "binary", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "dict", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "list", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "DNE", static_cast<std::string*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "bool", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "int", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "double", static_cast<string16*>(NULL))); EXPECT_TRUE(main_dict.GetStringWithoutPathExpansion( "string", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "binary", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "dict", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "list", static_cast<string16*>(NULL))); EXPECT_FALSE(main_dict.GetStringWithoutPathExpansion( "DNE", static_cast<string16*>(NULL))); // There is no GetBinaryWithoutPathExpansion for some reason, but if there // were it should be tested here... EXPECT_FALSE(main_dict.GetDictionaryWithoutPathExpansion("bool", NULL)); EXPECT_FALSE(main_dict.GetDictionaryWithoutPathExpansion("int", NULL)); EXPECT_FALSE(main_dict.GetDictionaryWithoutPathExpansion("double", NULL)); EXPECT_FALSE(main_dict.GetDictionaryWithoutPathExpansion("string", NULL)); EXPECT_FALSE(main_dict.GetDictionaryWithoutPathExpansion("binary", NULL)); EXPECT_TRUE(main_dict.GetDictionaryWithoutPathExpansion("dict", NULL)); EXPECT_FALSE(main_dict.GetDictionaryWithoutPathExpansion("list", NULL)); EXPECT_FALSE(main_dict.GetDictionaryWithoutPathExpansion("DNE", NULL)); EXPECT_FALSE(main_dict.GetListWithoutPathExpansion("bool", NULL)); EXPECT_FALSE(main_dict.GetListWithoutPathExpansion("int", NULL)); EXPECT_FALSE(main_dict.GetListWithoutPathExpansion("double", NULL)); EXPECT_FALSE(main_dict.GetListWithoutPathExpansion("string", NULL)); EXPECT_FALSE(main_dict.GetListWithoutPathExpansion("binary", NULL)); EXPECT_FALSE(main_dict.GetListWithoutPathExpansion("dict", NULL)); EXPECT_TRUE(main_dict.GetListWithoutPathExpansion("list", NULL)); EXPECT_FALSE(main_dict.GetListWithoutPathExpansion("DNE", NULL)); EXPECT_TRUE(main_list.Get(0, NULL)); EXPECT_TRUE(main_list.Get(1, NULL)); EXPECT_TRUE(main_list.Get(2, NULL)); EXPECT_TRUE(main_list.Get(3, NULL)); EXPECT_TRUE(main_list.Get(4, NULL)); EXPECT_TRUE(main_list.Get(5, NULL)); EXPECT_TRUE(main_list.Get(6, NULL)); EXPECT_FALSE(main_list.Get(7, NULL)); EXPECT_TRUE(main_list.GetBoolean(0, NULL)); EXPECT_FALSE(main_list.GetBoolean(1, NULL)); EXPECT_FALSE(main_list.GetBoolean(2, NULL)); EXPECT_FALSE(main_list.GetBoolean(3, NULL)); EXPECT_FALSE(main_list.GetBoolean(4, NULL)); EXPECT_FALSE(main_list.GetBoolean(5, NULL)); EXPECT_FALSE(main_list.GetBoolean(6, NULL)); EXPECT_FALSE(main_list.GetBoolean(7, NULL)); EXPECT_FALSE(main_list.GetInteger(0, NULL)); EXPECT_TRUE(main_list.GetInteger(1, NULL)); EXPECT_FALSE(main_list.GetInteger(2, NULL)); EXPECT_FALSE(main_list.GetInteger(3, NULL)); EXPECT_FALSE(main_list.GetInteger(4, NULL)); EXPECT_FALSE(main_list.GetInteger(5, NULL)); EXPECT_FALSE(main_list.GetInteger(6, NULL)); EXPECT_FALSE(main_list.GetInteger(7, NULL)); EXPECT_FALSE(main_list.GetDouble(0, NULL)); EXPECT_TRUE(main_list.GetDouble(1, NULL)); EXPECT_TRUE(main_list.GetDouble(2, NULL)); EXPECT_FALSE(main_list.GetDouble(3, NULL)); EXPECT_FALSE(main_list.GetDouble(4, NULL)); EXPECT_FALSE(main_list.GetDouble(5, NULL)); EXPECT_FALSE(main_list.GetDouble(6, NULL)); EXPECT_FALSE(main_list.GetDouble(7, NULL)); EXPECT_FALSE(main_list.GetString(0, static_cast<std::string*>(NULL))); EXPECT_FALSE(main_list.GetString(1, static_cast<std::string*>(NULL))); EXPECT_FALSE(main_list.GetString(2, static_cast<std::string*>(NULL))); EXPECT_TRUE(main_list.GetString(3, static_cast<std::string*>(NULL))); EXPECT_FALSE(main_list.GetString(4, static_cast<std::string*>(NULL))); EXPECT_FALSE(main_list.GetString(5, static_cast<std::string*>(NULL))); EXPECT_FALSE(main_list.GetString(6, static_cast<std::string*>(NULL))); EXPECT_FALSE(main_list.GetString(7, static_cast<std::string*>(NULL))); EXPECT_FALSE(main_list.GetString(0, static_cast<string16*>(NULL))); EXPECT_FALSE(main_list.GetString(1, static_cast<string16*>(NULL))); EXPECT_FALSE(main_list.GetString(2, static_cast<string16*>(NULL))); EXPECT_TRUE(main_list.GetString(3, static_cast<string16*>(NULL))); EXPECT_FALSE(main_list.GetString(4, static_cast<string16*>(NULL))); EXPECT_FALSE(main_list.GetString(5, static_cast<string16*>(NULL))); EXPECT_FALSE(main_list.GetString(6, static_cast<string16*>(NULL))); EXPECT_FALSE(main_list.GetString(7, static_cast<string16*>(NULL))); EXPECT_FALSE(main_list.GetBinary(0, NULL)); EXPECT_FALSE(main_list.GetBinary(1, NULL)); EXPECT_FALSE(main_list.GetBinary(2, NULL)); EXPECT_FALSE(main_list.GetBinary(3, NULL)); EXPECT_TRUE(main_list.GetBinary(4, NULL)); EXPECT_FALSE(main_list.GetBinary(5, NULL)); EXPECT_FALSE(main_list.GetBinary(6, NULL)); EXPECT_FALSE(main_list.GetBinary(7, NULL)); EXPECT_FALSE(main_list.GetDictionary(0, NULL)); EXPECT_FALSE(main_list.GetDictionary(1, NULL)); EXPECT_FALSE(main_list.GetDictionary(2, NULL)); EXPECT_FALSE(main_list.GetDictionary(3, NULL)); EXPECT_FALSE(main_list.GetDictionary(4, NULL)); EXPECT_TRUE(main_list.GetDictionary(5, NULL)); EXPECT_FALSE(main_list.GetDictionary(6, NULL)); EXPECT_FALSE(main_list.GetDictionary(7, NULL)); EXPECT_FALSE(main_list.GetList(0, NULL)); EXPECT_FALSE(main_list.GetList(1, NULL)); EXPECT_FALSE(main_list.GetList(2, NULL)); EXPECT_FALSE(main_list.GetList(3, NULL)); EXPECT_FALSE(main_list.GetList(4, NULL)); EXPECT_FALSE(main_list.GetList(5, NULL)); EXPECT_TRUE(main_list.GetList(6, NULL)); EXPECT_FALSE(main_list.GetList(7, NULL)); } } // namespace base