// 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 "tools/json_schema_compiler/test/choices.h" #include "base/strings/string_piece.h" #include "testing/gtest/include/gtest/gtest.h" #include "tools/json_schema_compiler/test/test_util.h" namespace { using namespace test::api::choices; using json_schema_compiler::test_util::Dictionary; using json_schema_compiler::test_util::List; using json_schema_compiler::test_util::ReadJson; using json_schema_compiler::test_util::Vector; TEST(JsonSchemaCompilerChoicesTest, TakesIntegersParamsCreate) { { scoped_ptr params( TakesIntegers::Params::Create(*List(new base::FundamentalValue(true)))); EXPECT_FALSE(params); } { scoped_ptr params( TakesIntegers::Params::Create(*List(new base::FundamentalValue(6)))); ASSERT_TRUE(params); EXPECT_FALSE(params->nums.as_integers); EXPECT_EQ(6, *params->nums.as_integer); } { scoped_ptr params(TakesIntegers::Params::Create( *List(List(new base::FundamentalValue(2), new base::FundamentalValue(6), new base::FundamentalValue(8)).release()))); ASSERT_TRUE(params); ASSERT_TRUE(params->nums.as_integers); EXPECT_EQ(Vector(2, 6, 8), *params->nums.as_integers); } } TEST(JsonSchemaCompilerChoicesTest, ObjectWithChoicesParamsCreate) { { scoped_ptr params( ObjectWithChoices::Params::Create(*List( Dictionary("strings", new base::StringValue("asdf")).release()))); ASSERT_TRUE(params); EXPECT_FALSE(params->string_info.strings.as_strings); EXPECT_EQ("asdf", *params->string_info.strings.as_string); EXPECT_FALSE(params->string_info.integers); } { scoped_ptr params( ObjectWithChoices::Params::Create(*List( Dictionary("strings", new base::StringValue("asdf"), "integers", new base::FundamentalValue(6)).release()))); ASSERT_TRUE(params); EXPECT_FALSE(params->string_info.strings.as_strings); EXPECT_EQ("asdf", *params->string_info.strings.as_string); ASSERT_TRUE(params->string_info.integers); EXPECT_FALSE(params->string_info.integers->as_integers); EXPECT_EQ(6, *params->string_info.integers->as_integer); } } // TODO(kalman): Clean up the rest of these tests to use the // Vector/List/Dictionary helpers. TEST(JsonSchemaCompilerChoicesTest, ObjectWithChoicesParamsCreateFail) { { scoped_ptr object_param(new base::DictionaryValue()); object_param->SetWithoutPathExpansion("strings", new base::FundamentalValue(5)); scoped_ptr params_value(new base::ListValue()); params_value->Append(object_param.release()); scoped_ptr params( ObjectWithChoices::Params::Create(*params_value)); EXPECT_FALSE(params.get()); } { scoped_ptr object_param(new base::DictionaryValue()); object_param->SetWithoutPathExpansion("strings", new base::StringValue("asdf")); object_param->SetWithoutPathExpansion("integers", new base::StringValue("asdf")); scoped_ptr params_value(new base::ListValue()); params_value->Append(object_param.release()); scoped_ptr params( ObjectWithChoices::Params::Create(*params_value)); EXPECT_FALSE(params.get()); } { scoped_ptr object_param(new base::DictionaryValue()); object_param->SetWithoutPathExpansion("integers", new base::FundamentalValue(6)); scoped_ptr params_value(new base::ListValue()); params_value->Append(object_param.release()); scoped_ptr params( ObjectWithChoices::Params::Create(*params_value)); EXPECT_FALSE(params.get()); } } TEST(JsonSchemaCompilerChoicesTest, PopulateChoiceType) { std::vector strings = Vector(std::string("list"), std::string("of"), std::string("strings")); base::ListValue* strings_value = new base::ListValue(); for (size_t i = 0; i < strings.size(); ++i) strings_value->Append(new base::StringValue(strings[i])); base::DictionaryValue value; value.SetInteger("integers", 4); value.Set("strings", strings_value); ChoiceType out; ASSERT_TRUE(ChoiceType::Populate(value, &out)); ASSERT_TRUE(out.integers.as_integer.get()); EXPECT_FALSE(out.integers.as_integers.get()); EXPECT_EQ(4, *out.integers.as_integer); EXPECT_FALSE(out.strings->as_string.get()); ASSERT_TRUE(out.strings->as_strings.get()); EXPECT_EQ(strings, *out.strings->as_strings); } TEST(JsonSchemaCompilerChoicesTest, ChoiceTypeToValue) { base::ListValue* strings_value = new base::ListValue(); strings_value->Append(new base::StringValue("list")); strings_value->Append(new base::StringValue("of")); strings_value->Append(new base::StringValue("strings")); base::DictionaryValue value; value.SetInteger("integers", 5); value.Set("strings", strings_value); ChoiceType out; ASSERT_TRUE(ChoiceType::Populate(value, &out)); EXPECT_TRUE(value.Equals(out.ToValue().get())); } TEST(JsonSchemaCompilerChoicesTest, ReturnChoices) { { ReturnChoices::Results::Result results; results.as_integers.reset(new std::vector(Vector(1, 2))); scoped_ptr results_value = results.ToValue(); ASSERT_TRUE(results_value); base::ListValue expected; expected.AppendInteger(1); expected.AppendInteger(2); EXPECT_TRUE(expected.Equals(results_value.get())); } { ReturnChoices::Results::Result results; results.as_integer.reset(new int(5)); scoped_ptr results_value = results.ToValue(); ASSERT_TRUE(results_value); base::FundamentalValue expected(5); EXPECT_TRUE(expected.Equals(results_value.get())); } } TEST(JsonSchemaCompilerChoicesTest, NestedChoices) { // These test both ToValue and FromValue for every legitimate configuration of // NestedChoices. { // The plain integer choice. scoped_ptr value = ReadJson("42"); scoped_ptr obj = NestedChoice::FromValue(*value); ASSERT_TRUE(obj); ASSERT_TRUE(obj->as_integer); EXPECT_FALSE(obj->as_choice1); EXPECT_FALSE(obj->as_choice2); EXPECT_EQ(42, *obj->as_integer); EXPECT_TRUE(base::Value::Equals(value.get(), obj->ToValue().get())); } { // The string choice within the first choice. scoped_ptr value = ReadJson("\"foo\""); scoped_ptr obj = NestedChoice::FromValue(*value); ASSERT_TRUE(obj); EXPECT_FALSE(obj->as_integer); ASSERT_TRUE(obj->as_choice1); EXPECT_FALSE(obj->as_choice2); ASSERT_TRUE(obj->as_choice1->as_string); EXPECT_FALSE(obj->as_choice1->as_boolean); EXPECT_EQ("foo", *obj->as_choice1->as_string); EXPECT_TRUE(base::Value::Equals(value.get(), obj->ToValue().get())); } { // The boolean choice within the first choice. scoped_ptr value = ReadJson("true"); scoped_ptr obj = NestedChoice::FromValue(*value); ASSERT_TRUE(obj); EXPECT_FALSE(obj->as_integer); ASSERT_TRUE(obj->as_choice1); EXPECT_FALSE(obj->as_choice2); EXPECT_FALSE(obj->as_choice1->as_string); ASSERT_TRUE(obj->as_choice1->as_boolean); EXPECT_TRUE(*obj->as_choice1->as_boolean); EXPECT_TRUE(base::Value::Equals(value.get(), obj->ToValue().get())); } { // The double choice within the second choice. scoped_ptr value = ReadJson("42.0"); scoped_ptr obj = NestedChoice::FromValue(*value); ASSERT_TRUE(obj); EXPECT_FALSE(obj->as_integer); EXPECT_FALSE(obj->as_choice1); ASSERT_TRUE(obj->as_choice2); ASSERT_TRUE(obj->as_choice2->as_double); EXPECT_FALSE(obj->as_choice2->as_choice_type); EXPECT_FALSE(obj->as_choice2->as_choice_types); EXPECT_EQ(42.0, *obj->as_choice2->as_double); EXPECT_TRUE(base::Value::Equals(value.get(), obj->ToValue().get())); } { // The ChoiceType choice within the second choice. scoped_ptr value = ReadJson( "{\"integers\": [1, 2], \"strings\": \"foo\"}"); scoped_ptr obj = NestedChoice::FromValue(*value); ASSERT_TRUE(obj); EXPECT_FALSE(obj->as_integer); EXPECT_FALSE(obj->as_choice1); ASSERT_TRUE(obj->as_choice2); EXPECT_FALSE(obj->as_choice2->as_double); ASSERT_TRUE(obj->as_choice2->as_choice_type); EXPECT_FALSE(obj->as_choice2->as_choice_types); { ChoiceType* choice_type = obj->as_choice2->as_choice_type.get(); ASSERT_TRUE(choice_type->integers.as_integers); EXPECT_FALSE(choice_type->integers.as_integer); EXPECT_EQ(Vector(1, 2), *choice_type->integers.as_integers); ASSERT_TRUE(choice_type->strings); EXPECT_FALSE(choice_type->strings->as_strings); ASSERT_TRUE(choice_type->strings->as_string); EXPECT_EQ("foo", *choice_type->strings->as_string); } EXPECT_TRUE(base::Value::Equals(value.get(), obj->ToValue().get())); } { // The array of ChoiceTypes within the second choice. scoped_ptr value = ReadJson( "[" " {\"integers\": [1, 2], \"strings\": \"foo\"}," " {\"integers\": 3, \"strings\": [\"bar\", \"baz\"]}" "]"); scoped_ptr obj = NestedChoice::FromValue(*value); ASSERT_TRUE(obj); EXPECT_FALSE(obj->as_integer); EXPECT_FALSE(obj->as_choice1); ASSERT_TRUE(obj->as_choice2); EXPECT_FALSE(obj->as_choice2->as_double); EXPECT_FALSE(obj->as_choice2->as_choice_type); ASSERT_TRUE(obj->as_choice2->as_choice_types); { std::vector >* choice_types = obj->as_choice2->as_choice_types.get(); // Bleh too much effort to test everything. ASSERT_EQ(2u, choice_types->size()); } EXPECT_TRUE(base::Value::Equals(value.get(), obj->ToValue().get())); } } } // namespace