tools/json_schema_compiler/test/idl_schemas_unittest.cc - chromium/src - 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 <utility>

 #include "base/values.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "tools/json_schema_compiler/test/idl_basics.h"
 #include "tools/json_schema_compiler/test/idl_object_types.h"

 using test::api::idl_basics::MyType1;
 using test::api::idl_object_types::BarType;
 using test::api::idl_object_types::FooType;

 namespace Function2 = test::api::idl_basics::Function2;
 namespace Function3 = test::api::idl_basics::Function3;
 namespace Function4 = test::api::idl_basics::Function4;
 namespace Function5 = test::api::idl_basics::Function5;
 namespace Function6 = test::api::idl_basics::Function6;
 namespace Function7 = test::api::idl_basics::Function7;
 namespace Function8 = test::api::idl_basics::Function8;
 namespace Function9 = test::api::idl_basics::Function9;
 namespace Function10 = test::api::idl_basics::Function10;
 namespace Function11 = test::api::idl_basics::Function11;
 namespace ObjectFunction1 = test::api::idl_object_types::ObjectFunction1;

 TEST(IdlCompiler, Basics) {
   // Test MyType1.
   MyType1 a;
   a.x = 5;
   a.y = std::string("foo");
   std::unique_ptr<base::DictionaryValue> serialized = a.ToValue();
   MyType1 b;
   EXPECT_TRUE(MyType1::Populate(*serialized.get(), &b));
   EXPECT_EQ(a.x, b.x);
   EXPECT_EQ(a.y, b.y);

   // Test Function2, which takes an integer parameter.
   base::ListValue list;
   list.AppendInteger(5);
   std::unique_ptr<Function2::Params> f2_params =
       Function2::Params::Create(list);
   EXPECT_EQ(5, f2_params->x);

   // Test Function3, which takes a MyType1 parameter.
   list.Clear();
   base::DictionaryValue* tmp = new base::DictionaryValue();
   tmp->SetInteger("x", 17);
   tmp->SetString("y", "hello");
   tmp->SetString("z", "zstring");
   tmp->SetString("a", "astring");
   tmp->SetString("b", "bstring");
   tmp->SetString("c", "cstring");
   list.Append(tmp);
   std::unique_ptr<Function3::Params> f3_params =
       Function3::Params::Create(list);
   EXPECT_EQ(17, f3_params->arg.x);
   EXPECT_EQ("hello", f3_params->arg.y);

   // Test functions that take a callback function as a parameter, with varying
   // callback signatures.
   std::unique_ptr<base::ListValue> f4_results = Function4::Results::Create();
   base::ListValue expected;
   EXPECT_TRUE(f4_results->Equals(&expected));

   std::unique_ptr<base::ListValue> f5_results(Function5::Results::Create(13));
   base::Value* f5_result_int = NULL;
   ASSERT_TRUE(f5_results->Get(0, &f5_result_int));
   EXPECT_TRUE(f5_result_int->IsType(base::Value::TYPE_INTEGER));

   std::unique_ptr<base::ListValue> f6_results(Function6::Results::Create(a));
   base::Value* f6_result_dict = NULL;
   ASSERT_TRUE(f6_results->Get(0, &f6_result_dict));
   MyType1 c;
   EXPECT_TRUE(MyType1::Populate(*f6_result_dict, &c));
   EXPECT_EQ(a.x, c.x);
   EXPECT_EQ(a.y, c.y);
 }

 TEST(IdlCompiler, OptionalArguments) {
   // Test a function that takes one optional argument, both without and with
   // that argument.
   base::ListValue list;
   std::unique_ptr<Function7::Params> f7_params =
       Function7::Params::Create(list);
   EXPECT_EQ(NULL, f7_params->arg.get());
   list.AppendInteger(7);
   f7_params = Function7::Params::Create(list);
   EXPECT_EQ(7, *(f7_params->arg));

   // Similar to above, but a function with one required and one optional
   // argument.
   list.Clear();
   list.AppendInteger(8);
   std::unique_ptr<Function8::Params> f8_params =
       Function8::Params::Create(list);
   EXPECT_EQ(8, f8_params->arg1);
   EXPECT_EQ(NULL, f8_params->arg2.get());
   list.AppendString("foo");
   f8_params = Function8::Params::Create(list);
   EXPECT_EQ(8, f8_params->arg1);
   EXPECT_EQ("foo", *(f8_params->arg2));

   // Test a function with an optional argument of custom type.
   list.Clear();
   std::unique_ptr<Function9::Params> f9_params =
       Function9::Params::Create(list);
   EXPECT_EQ(NULL, f9_params->arg.get());
   list.Clear();
   base::DictionaryValue* tmp = new base::DictionaryValue();
   tmp->SetInteger("x", 17);
   tmp->SetString("y", "hello");
   tmp->SetString("z", "zstring");
   tmp->SetString("a", "astring");
   tmp->SetString("b", "bstring");
   tmp->SetString("c", "cstring");
   list.Append(tmp);
   f9_params = Function9::Params::Create(list);
   ASSERT_TRUE(f9_params->arg.get() != NULL);
   MyType1* t1 = f9_params->arg.get();
   EXPECT_EQ(17, t1->x);
   EXPECT_EQ("hello", t1->y);
 }

 TEST(IdlCompiler, ArrayTypes) {
   // Tests of a function that takes an integer and an array of integers. First
   // use an empty array.
   base::ListValue list;
   list.AppendInteger(33);
   list.Append(new base::ListValue);
   std::unique_ptr<Function10::Params> f10_params =
       Function10::Params::Create(list);
   ASSERT_TRUE(f10_params != NULL);
   EXPECT_EQ(33, f10_params->x);
   EXPECT_TRUE(f10_params->y.empty());

   // Same function, but this time with 2 values in the array.
   list.Clear();
   list.AppendInteger(33);
   base::ListValue* sublist = new base::ListValue;
   sublist->AppendInteger(34);
   sublist->AppendInteger(35);
   list.Append(sublist);
   f10_params = Function10::Params::Create(list);
   ASSERT_TRUE(f10_params != NULL);
   EXPECT_EQ(33, f10_params->x);
   ASSERT_EQ(2u, f10_params->y.size());
   EXPECT_EQ(34, f10_params->y[0]);
   EXPECT_EQ(35, f10_params->y[1]);

   // Now test a function which takes an array of a defined type.
   list.Clear();
   MyType1 a;
   MyType1 b;
   a.x = 5;
   b.x = 6;
   a.y = std::string("foo");
   b.y = std::string("bar");
   base::ListValue* sublist2 = new base::ListValue;
   sublist2->Append(a.ToValue());
   sublist2->Append(b.ToValue());
   list.Append(sublist2);
   std::unique_ptr<Function11::Params> f11_params =
       Function11::Params::Create(list);
   ASSERT_TRUE(f11_params != NULL);
   ASSERT_EQ(2u, f11_params->arg.size());
   EXPECT_EQ(5, f11_params->arg[0].x);
   EXPECT_EQ("foo", f11_params->arg[0].y);
   EXPECT_EQ(6, f11_params->arg[1].x);
   EXPECT_EQ("bar", f11_params->arg[1].y);
 }

 TEST(IdlCompiler, ObjectTypes) {
   // Test the FooType type.
   FooType f1;
   f1.x = 3;
   std::unique_ptr<base::DictionaryValue> serialized_foo = f1.ToValue();
   FooType f2;
   EXPECT_TRUE(FooType::Populate(*serialized_foo.get(), &f2));
   EXPECT_EQ(f1.x, f2.x);

   // Test the BarType type.
   BarType b1;
   b1.x.reset(new base::FundamentalValue(7));
   std::unique_ptr<base::DictionaryValue> serialized_bar = b1.ToValue();
   BarType b2;
   EXPECT_TRUE(BarType::Populate(*serialized_bar.get(), &b2));
   int tmp_int = 0;
   EXPECT_TRUE(b2.x->GetAsInteger(&tmp_int));
   EXPECT_EQ(7, tmp_int);

   // Test the params to the ObjectFunction1 function.
   std::unique_ptr<base::DictionaryValue> icon_props(
       new base::DictionaryValue());
   icon_props->SetString("hello", "world");
   ObjectFunction1::Params::Icon icon;
   EXPECT_TRUE(ObjectFunction1::Params::Icon::Populate(*(icon_props.get()),
                                                       &icon));
   base::ListValue list;
   list.Append(std::move(icon_props));
   std::unique_ptr<ObjectFunction1::Params> params =
       ObjectFunction1::Params::Create(list);
   ASSERT_TRUE(params.get() != NULL);
   std::string tmp;
   EXPECT_TRUE(params->icon.additional_properties.GetString("hello", &tmp));
   EXPECT_EQ("world", tmp);
 }
	// 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 <utility>

	#include "base/values.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "tools/json_schema_compiler/test/idl_basics.h"
	#include "tools/json_schema_compiler/test/idl_object_types.h"

	using test::api::idl_basics::MyType1;
	using test::api::idl_object_types::BarType;
	using test::api::idl_object_types::FooType;

	namespace Function2 = test::api::idl_basics::Function2;
	namespace Function3 = test::api::idl_basics::Function3;
	namespace Function4 = test::api::idl_basics::Function4;
	namespace Function5 = test::api::idl_basics::Function5;
	namespace Function6 = test::api::idl_basics::Function6;
	namespace Function7 = test::api::idl_basics::Function7;
	namespace Function8 = test::api::idl_basics::Function8;
	namespace Function9 = test::api::idl_basics::Function9;
	namespace Function10 = test::api::idl_basics::Function10;
	namespace Function11 = test::api::idl_basics::Function11;
	namespace ObjectFunction1 = test::api::idl_object_types::ObjectFunction1;

	TEST(IdlCompiler, Basics) {
	// Test MyType1.
	MyType1 a;
	a.x = 5;
	a.y = std::string("foo");
	std::unique_ptr<base::DictionaryValue> serialized = a.ToValue();
	MyType1 b;
	EXPECT_TRUE(MyType1::Populate(*serialized.get(), &b));
	EXPECT_EQ(a.x, b.x);
	EXPECT_EQ(a.y, b.y);

	// Test Function2, which takes an integer parameter.
	base::ListValue list;
	list.AppendInteger(5);
	std::unique_ptr<Function2::Params> f2_params =
	Function2::Params::Create(list);
	EXPECT_EQ(5, f2_params->x);

	// Test Function3, which takes a MyType1 parameter.
	list.Clear();
	base::DictionaryValue* tmp = new base::DictionaryValue();
	tmp->SetInteger("x", 17);
	tmp->SetString("y", "hello");
	tmp->SetString("z", "zstring");
	tmp->SetString("a", "astring");
	tmp->SetString("b", "bstring");
	tmp->SetString("c", "cstring");
	list.Append(tmp);
	std::unique_ptr<Function3::Params> f3_params =
	Function3::Params::Create(list);
	EXPECT_EQ(17, f3_params->arg.x);
	EXPECT_EQ("hello", f3_params->arg.y);

	// Test functions that take a callback function as a parameter, with varying
	// callback signatures.
	std::unique_ptr<base::ListValue> f4_results = Function4::Results::Create();
	base::ListValue expected;
	EXPECT_TRUE(f4_results->Equals(&expected));

	std::unique_ptr<base::ListValue> f5_results(Function5::Results::Create(13));
	base::Value* f5_result_int = NULL;
	ASSERT_TRUE(f5_results->Get(0, &f5_result_int));
	EXPECT_TRUE(f5_result_int->IsType(base::Value::TYPE_INTEGER));

	std::unique_ptr<base::ListValue> f6_results(Function6::Results::Create(a));
	base::Value* f6_result_dict = NULL;
	ASSERT_TRUE(f6_results->Get(0, &f6_result_dict));
	MyType1 c;
	EXPECT_TRUE(MyType1::Populate(*f6_result_dict, &c));
	EXPECT_EQ(a.x, c.x);
	EXPECT_EQ(a.y, c.y);
	}

	TEST(IdlCompiler, OptionalArguments) {
	// Test a function that takes one optional argument, both without and with
	// that argument.
	base::ListValue list;
	std::unique_ptr<Function7::Params> f7_params =
	Function7::Params::Create(list);
	EXPECT_EQ(NULL, f7_params->arg.get());
	list.AppendInteger(7);
	f7_params = Function7::Params::Create(list);
	EXPECT_EQ(7, *(f7_params->arg));

	// Similar to above, but a function with one required and one optional
	// argument.
	list.Clear();
	list.AppendInteger(8);
	std::unique_ptr<Function8::Params> f8_params =
	Function8::Params::Create(list);
	EXPECT_EQ(8, f8_params->arg1);
	EXPECT_EQ(NULL, f8_params->arg2.get());
	list.AppendString("foo");
	f8_params = Function8::Params::Create(list);
	EXPECT_EQ(8, f8_params->arg1);
	EXPECT_EQ("foo", *(f8_params->arg2));

	// Test a function with an optional argument of custom type.
	list.Clear();
	std::unique_ptr<Function9::Params> f9_params =
	Function9::Params::Create(list);
	EXPECT_EQ(NULL, f9_params->arg.get());
	list.Clear();
	base::DictionaryValue* tmp = new base::DictionaryValue();
	tmp->SetInteger("x", 17);
	tmp->SetString("y", "hello");
	tmp->SetString("z", "zstring");
	tmp->SetString("a", "astring");
	tmp->SetString("b", "bstring");
	tmp->SetString("c", "cstring");
	list.Append(tmp);
	f9_params = Function9::Params::Create(list);
	ASSERT_TRUE(f9_params->arg.get() != NULL);
	MyType1* t1 = f9_params->arg.get();
	EXPECT_EQ(17, t1->x);
	EXPECT_EQ("hello", t1->y);
	}

	TEST(IdlCompiler, ArrayTypes) {
	// Tests of a function that takes an integer and an array of integers. First
	// use an empty array.
	base::ListValue list;
	list.AppendInteger(33);
	list.Append(new base::ListValue);
	std::unique_ptr<Function10::Params> f10_params =
	Function10::Params::Create(list);
	ASSERT_TRUE(f10_params != NULL);
	EXPECT_EQ(33, f10_params->x);
	EXPECT_TRUE(f10_params->y.empty());

	// Same function, but this time with 2 values in the array.
	list.Clear();
	list.AppendInteger(33);
	base::ListValue* sublist = new base::ListValue;
	sublist->AppendInteger(34);
	sublist->AppendInteger(35);
	list.Append(sublist);
	f10_params = Function10::Params::Create(list);
	ASSERT_TRUE(f10_params != NULL);
	EXPECT_EQ(33, f10_params->x);
	ASSERT_EQ(2u, f10_params->y.size());
	EXPECT_EQ(34, f10_params->y[0]);
	EXPECT_EQ(35, f10_params->y[1]);

	// Now test a function which takes an array of a defined type.
	list.Clear();
	MyType1 a;
	MyType1 b;
	a.x = 5;
	b.x = 6;
	a.y = std::string("foo");
	b.y = std::string("bar");
	base::ListValue* sublist2 = new base::ListValue;
	sublist2->Append(a.ToValue());
	sublist2->Append(b.ToValue());
	list.Append(sublist2);
	std::unique_ptr<Function11::Params> f11_params =
	Function11::Params::Create(list);
	ASSERT_TRUE(f11_params != NULL);
	ASSERT_EQ(2u, f11_params->arg.size());
	EXPECT_EQ(5, f11_params->arg[0].x);
	EXPECT_EQ("foo", f11_params->arg[0].y);
	EXPECT_EQ(6, f11_params->arg[1].x);
	EXPECT_EQ("bar", f11_params->arg[1].y);
	}

	TEST(IdlCompiler, ObjectTypes) {
	// Test the FooType type.
	FooType f1;
	f1.x = 3;
	std::unique_ptr<base::DictionaryValue> serialized_foo = f1.ToValue();
	FooType f2;
	EXPECT_TRUE(FooType::Populate(*serialized_foo.get(), &f2));
	EXPECT_EQ(f1.x, f2.x);

	// Test the BarType type.
	BarType b1;
	b1.x.reset(new base::FundamentalValue(7));
	std::unique_ptr<base::DictionaryValue> serialized_bar = b1.ToValue();
	BarType b2;
	EXPECT_TRUE(BarType::Populate(*serialized_bar.get(), &b2));
	int tmp_int = 0;
	EXPECT_TRUE(b2.x->GetAsInteger(&tmp_int));
	EXPECT_EQ(7, tmp_int);

	// Test the params to the ObjectFunction1 function.
	std::unique_ptr<base::DictionaryValue> icon_props(
	new base::DictionaryValue());
	icon_props->SetString("hello", "world");
	ObjectFunction1::Params::Icon icon;
	EXPECT_TRUE(ObjectFunction1::Params::Icon::Populate(*(icon_props.get()),
	&icon));
	base::ListValue list;
	list.Append(std::move(icon_props));
	std::unique_ptr<ObjectFunction1::Params> params =
	ObjectFunction1::Params::Create(list);
	ASSERT_TRUE(params.get() != NULL);
	std::string tmp;
	EXPECT_TRUE(params->icon.additional_properties.GetString("hello", &tmp));
	EXPECT_EQ("world", tmp);
	}