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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "test-interface-proxy.h"
#include <gtest/gtest.h>
#include <limits>
using namespace ::testing;
ACTION_P(SyncMethodCopyInValues2, cs) { arg3 = arg0; arg4 = arg1; arg2 = cs; }
ACTION_P(ASyncMethodReturnInValues2, cs) { arg2(cs, arg0, arg1); return cs; }
TEST(TestInterfaceProxy, VoidPredefinedTypeMethodWorks) {
MockTestInterfaceProxyBase mockTestInterfaceProxyBase;
EXPECT_CALL(mockTestInterfaceProxyBase, testVoidPredefinedTypeMethod(1234567, "Hello World!", _))
.WillOnce(SetArgReferee<2>(CommonAPI::CallStatus::SUCCESS));
CommonAPI::CallStatus callStatusOutValue;
mockTestInterfaceProxyBase.testVoidPredefinedTypeMethod(1234567, "Hello World!", callStatusOutValue);
ASSERT_EQ(callStatusOutValue, CommonAPI::CallStatus::SUCCESS);
}
TEST(TestInterfaceProxy, VoidPredefinedTypeMethodAsyncWorks) {
MockTestInterfaceProxyBase mockTestInterfaceProxyBase;
EXPECT_CALL(mockTestInterfaceProxyBase, testVoidPredefinedTypeMethodAsyncWithoutStdFuture(1234567, "Hello World!", _))
.WillOnce(DoAll(
InvokeArgument<2>(CommonAPI::CallStatus::SUCCESS),
Return(CommonAPI::CallStatus::SUCCESS)));
CommonAPI::CallStatus callStatusOutValue;
std::future<CommonAPI::CallStatus> asyncFuture = mockTestInterfaceProxyBase.testVoidPredefinedTypeMethodAsync(
1234567,
"Hello World!",
[&] (const CommonAPI::CallStatus& callStatusCallback) { callStatusOutValue = callStatusCallback; });
CommonAPI::CallStatus callStatusFuture = asyncFuture.get();
ASSERT_EQ(callStatusFuture, CommonAPI::CallStatus::SUCCESS);
ASSERT_EQ(callStatusOutValue, callStatusFuture);
}
TEST(TestInterfaceProxy, PredefinedTypeMethodWorks) {
MockTestInterfaceProxyBase mockTestInterfaceProxyBase;
EXPECT_CALL(mockTestInterfaceProxyBase, testPredefinedTypeMethod(_, _, _, _, _))
.WillOnce(SyncMethodCopyInValues2(CommonAPI::CallStatus::SUCCESS));
const uint32_t uint32InValue = std::numeric_limits<uint32_t>::max();
const std::string& stringInValue = "Hello World!";
CommonAPI::CallStatus callStatusOutValue;
uint32_t uint32OutValue;
std::string stringOutValue;
mockTestInterfaceProxyBase.testPredefinedTypeMethod(
uint32InValue,
stringInValue,
callStatusOutValue,
uint32OutValue,
stringOutValue);
ASSERT_EQ(callStatusOutValue, CommonAPI::CallStatus::SUCCESS);
ASSERT_EQ(uint32OutValue, uint32InValue);
ASSERT_EQ(stringOutValue, stringInValue);
}
TEST(TestInterfaceProxy, PredefinedTypeMethodAsyncWorks) {
MockTestInterfaceProxyBase mockTestInterfaceProxyBase;
EXPECT_CALL(mockTestInterfaceProxyBase, testPredefinedTypeMethodAsyncWithoutStdFuture(_, _, _))
.WillOnce(ASyncMethodReturnInValues2(CommonAPI::CallStatus::SUCCESS));
const uint32_t uint32InValue = std::numeric_limits<uint32_t>::max();
const std::string& stringInValue = "Hello World!";
CommonAPI::CallStatus callStatusOutValue;
uint32_t uint32OutValue;
std::string stringOutValue;
std::future<CommonAPI::CallStatus> asyncFuture = mockTestInterfaceProxyBase.testPredefinedTypeMethodAsync(
uint32InValue,
stringInValue,
[&] (const CommonAPI::CallStatus& callStatusCallback, const uint32_t& uint32InValueCallback, const std::string& stringInValueCallback) {
callStatusOutValue = callStatusCallback;
uint32OutValue = uint32InValueCallback;
stringOutValue = stringInValueCallback;
});
CommonAPI::CallStatus callStatusFuture = asyncFuture.get();
ASSERT_EQ(callStatusFuture, CommonAPI::CallStatus::SUCCESS);
ASSERT_EQ(callStatusOutValue, callStatusFuture);
ASSERT_EQ(uint32OutValue, uint32InValue);
ASSERT_EQ(stringOutValue, stringInValue);
}
TEST(TestInterfaceProxy, VoidDerivedTypeMethodWorks) {
MockTestInterfaceProxyBase mockTestInterfaceProxyBase;
EXPECT_CALL(mockTestInterfaceProxyBase, testVoidDerivedTypeMethod(commonapi::tests::DerivedTypeCollection::TestEnumExtended2::E_OK, _, _))
.WillOnce(SetArgReferee<2>(CommonAPI::CallStatus::SUCCESS));
commonapi::tests::DerivedTypeCollection::TestMap testMap;
CommonAPI::CallStatus callStatusReturn;
mockTestInterfaceProxyBase.testVoidDerivedTypeMethod(commonapi::tests::DerivedTypeCollection::TestEnumExtended2::E_OK, testMap, callStatusReturn);
ASSERT_EQ(callStatusReturn, CommonAPI::CallStatus::SUCCESS);
}
TEST(TestInterfaceProxy, VoidDerivedTypeMethodAsyncWorks) {
MockTestInterfaceProxyBase mockTestInterfaceProxyBase;
EXPECT_CALL(mockTestInterfaceProxyBase, testVoidDerivedTypeMethodAsyncWithoutStdFuture(
commonapi::tests::DerivedTypeCollection::TestEnumExtended2::E_OK, _, _))
.WillOnce(DoAll(
InvokeArgument<2>(CommonAPI::CallStatus::SUCCESS),
Return(CommonAPI::CallStatus::SUCCESS)));
commonapi::tests::DerivedTypeCollection::TestMap testMap;
CommonAPI::CallStatus callStatusOutValue;
std::future<CommonAPI::CallStatus> asyncFuture = mockTestInterfaceProxyBase.testVoidDerivedTypeMethodAsync(
commonapi::tests::DerivedTypeCollection::TestEnumExtended2::E_OK,
testMap,
[&] (const CommonAPI::CallStatus& callStatusCallback) { callStatusOutValue = callStatusCallback; });
CommonAPI::CallStatus callStatusFuture = asyncFuture.get();
ASSERT_EQ(callStatusFuture, CommonAPI::CallStatus::SUCCESS);
ASSERT_EQ(callStatusOutValue, callStatusFuture);
}
TEST(TestInterfaceProxy, DerivedTypeMethodWorks) {
MockTestInterfaceProxyBase mockTestInterfaceProxyBase;
EXPECT_CALL(mockTestInterfaceProxyBase, testDerivedTypeMethod(_, _, _, _, _))
.WillOnce(SyncMethodCopyInValues2(CommonAPI::CallStatus::SUCCESS));
CommonAPI::CallStatus callStatusOutValue;
commonapi::tests::DerivedTypeCollection::TestEnumExtended2 testEnumExtended2OutValue;
commonapi::tests::DerivedTypeCollection::TestMap testMapOutValue;
mockTestInterfaceProxyBase.testDerivedTypeMethod(
commonapi::tests::DerivedTypeCollection::TestEnumExtended2::E_OK,
{ { 123, { { "First Element", 12345 }, { "Second Element", 6789 } } },
{ 456, { { "Third Element", 333 }, { "Fourth Element", 4444 }, { "Fifth Element", 55555 } } },
{ 7, { } } },
callStatusOutValue,
testEnumExtended2OutValue,
testMapOutValue);
ASSERT_EQ(callStatusOutValue, CommonAPI::CallStatus::SUCCESS);
ASSERT_EQ(testEnumExtended2OutValue, commonapi::tests::DerivedTypeCollection::TestEnumExtended2::E_OK);
ASSERT_FALSE(testMapOutValue.empty());
ASSERT_EQ(testMapOutValue.size(), 3);
ASSERT_NE(testMapOutValue.find(123), testMapOutValue.end());
ASSERT_NE(testMapOutValue.find(456), testMapOutValue.end());
ASSERT_NE(testMapOutValue.find(7), testMapOutValue.end());
ASSERT_FALSE(testMapOutValue[123].empty());
ASSERT_EQ(testMapOutValue[123].size(), 2);
ASSERT_EQ(testMapOutValue[123][0].testString, "First Element");
ASSERT_EQ(testMapOutValue[123][0].uintValue, 12345);
ASSERT_EQ(testMapOutValue[123][1].testString, "Second Element");
ASSERT_EQ(testMapOutValue[123][1].uintValue, 6789);
ASSERT_FALSE(testMapOutValue[456].empty());
ASSERT_EQ(testMapOutValue[456].size(), 3);
ASSERT_EQ(testMapOutValue[456][0].testString, "Third Element");
ASSERT_EQ(testMapOutValue[456][0].uintValue, 333);
ASSERT_EQ(testMapOutValue[456][1].testString, "Fourth Element");
ASSERT_EQ(testMapOutValue[456][1].uintValue, 4444);
ASSERT_EQ(testMapOutValue[456][2].testString, "Fifth Element");
ASSERT_EQ(testMapOutValue[456][2].uintValue, 55555);
ASSERT_TRUE(testMapOutValue[7].empty());
ASSERT_EQ(testMapOutValue[7].size(), 0);
}
TEST(TestInterfaceProxy, DerivedTypeMethodAsyncWorks) {
MockTestInterfaceProxyBase mockTestInterfaceProxyBase;
EXPECT_CALL(mockTestInterfaceProxyBase, testDerivedTypeMethodAsyncWithoutStdFuture(_, _, _))
.WillOnce(ASyncMethodReturnInValues2(CommonAPI::CallStatus::SUCCESS));
CommonAPI::CallStatus callStatusOutValue;
commonapi::tests::DerivedTypeCollection::TestEnumExtended2 testEnumExtended2OutValue;
commonapi::tests::DerivedTypeCollection::TestMap testMapOutValue;
std::future<CommonAPI::CallStatus> asyncFuture = mockTestInterfaceProxyBase.testDerivedTypeMethodAsync(
commonapi::tests::DerivedTypeCollection::TestEnumExtended2::E_OK,
{ { 123, { { "First Element", 12345 }, { "Second Element", 6789 } } },
{ 456, { { "Third Element", 333 }, { "Fourth Element", 4444 }, { "Fifth Element", 55555 } } },
{ 7, { } } },
[&] (const CommonAPI::CallStatus& callStatusCallback,
const commonapi::tests::DerivedTypeCollection::TestEnumExtended2& testEnumExtended2Callback,
const commonapi::tests::DerivedTypeCollection::TestMap& testMapCallback) {
callStatusOutValue = callStatusCallback;
testEnumExtended2OutValue = testEnumExtended2Callback;
testMapOutValue = testMapCallback;
});
CommonAPI::CallStatus callStatusFuture = asyncFuture.get();
ASSERT_EQ(callStatusFuture, CommonAPI::CallStatus::SUCCESS);
ASSERT_EQ(callStatusOutValue, callStatusFuture);
ASSERT_EQ(testEnumExtended2OutValue, commonapi::tests::DerivedTypeCollection::TestEnumExtended2::E_OK);
ASSERT_FALSE(testMapOutValue.empty());
ASSERT_EQ(testMapOutValue.size(), 3);
ASSERT_NE(testMapOutValue.find(123), testMapOutValue.end());
ASSERT_NE(testMapOutValue.find(456), testMapOutValue.end());
ASSERT_NE(testMapOutValue.find(7), testMapOutValue.end());
ASSERT_FALSE(testMapOutValue[123].empty());
ASSERT_EQ(testMapOutValue[123].size(), 2);
ASSERT_EQ(testMapOutValue[123][0].testString, "First Element");
ASSERT_EQ(testMapOutValue[123][0].uintValue, 12345);
ASSERT_EQ(testMapOutValue[123][1].testString, "Second Element");
ASSERT_EQ(testMapOutValue[123][1].uintValue, 6789);
ASSERT_FALSE(testMapOutValue[456].empty());
ASSERT_EQ(testMapOutValue[456].size(), 3);
ASSERT_EQ(testMapOutValue[456][0].testString, "Third Element");
ASSERT_EQ(testMapOutValue[456][0].uintValue, 333);
ASSERT_EQ(testMapOutValue[456][1].testString, "Fourth Element");
ASSERT_EQ(testMapOutValue[456][1].uintValue, 4444);
ASSERT_EQ(testMapOutValue[456][2].testString, "Fifth Element");
ASSERT_EQ(testMapOutValue[456][2].uintValue, 55555);
ASSERT_TRUE(testMapOutValue[7].empty());
ASSERT_EQ(testMapOutValue[7].size(), 0);
}
int main(int argc, char** argv) {
::testing::InitGoogleMock(&argc, argv);
return RUN_ALL_TESTS();
}
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