/* * MIT License * * Copyright (c) 2019 Alexey Edelev , Viktor Kopp * * This file is part of QtProtobuf project https://git.semlanik.org/semlanik/qtprotobuf * * Permission is hereby granted, free of charge, to any person obtaining a copy of this * software and associated documentation files (the "Software"), to deal in the Software * without restriction, including without limitation the rights to use, copy, modify, * merge, publish, distribute, sublicense, and/or sell copies of the Software, and * to permit persons to whom the Software is furnished to do so, subject to the following * conditions: * * The above copyright notice and this permission notice shall be included in all copies * or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, * INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR * PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE * FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #include #include #include #include using namespace qtprotobufnamespace::tests; namespace QtProtobuf { namespace tests { class SimpleTest : public ::testing::Test { public: // see simpletest.proto for property names and their field indices SimpleTest() { } template static void assertMessagePropertyRegistered(int fieldIndex, const char *propertyTypeName, const char *propertyName) { // TODO: there should be(?) a mapping avaialble: PropertyType -> propertyTypeName const int propertyNumber = MessageType::propertyOrdering.at(fieldIndex); ASSERT_STREQ(MessageType::staticMetaObject.property(propertyNumber).typeName(), propertyTypeName); ASSERT_EQ(MessageType::staticMetaObject.property(propertyNumber).userType(), qMetaTypeId()); ASSERT_STREQ(MessageType::staticMetaObject.property(propertyNumber).name(), propertyName); } static void SetUpTestCase(); }; void SimpleTest::SetUpTestCase() { QtProtobuf::qRegisterProtobufTypes(); } TEST_F(SimpleTest, SimpleBoolMessageTest) { const char *propertyName = "testFieldBool"; assertMessagePropertyRegistered(1, "bool", propertyName); SimpleBoolMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(true))); ASSERT_EQ(test.property(propertyName).value(), true); ASSERT_EQ(test.testFieldBool(), true); } TEST_F(SimpleTest, SimpleIntMessageTest) { const char *propertyName = "testFieldInt_p"; assertMessagePropertyRegistered(1, "QtProtobuf::int32", propertyName); SimpleIntMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(1))); ASSERT_EQ(test.property(propertyName).value(), 1); ASSERT_EQ(test.testFieldInt(), 1); } TEST_F(SimpleTest, SimpleSIntMessageTest) { const char *propertyName = "testFieldInt"; assertMessagePropertyRegistered(1, "QtProtobuf::sint32", propertyName); SimpleSIntMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(1))); ASSERT_EQ(test.property(propertyName).value(), 1); ASSERT_EQ(test.testFieldInt(), 1); } TEST_F(SimpleTest, SimpleUIntMessageTest) { const char *propertyName = "testFieldInt"; assertMessagePropertyRegistered(1, "QtProtobuf::uint32", propertyName); SimpleUIntMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(1))); ASSERT_EQ(test.property(propertyName).value(), 1); ASSERT_EQ(test.testFieldInt(), 1); } TEST_F(SimpleTest, SimpleInt64MessageTest) { const char *propertyName = "testFieldInt"; assertMessagePropertyRegistered(1, "QtProtobuf::int64", propertyName); SimpleInt64Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(1))); ASSERT_EQ(test.property(propertyName).value(), 1); ASSERT_EQ(test.testFieldInt(), 1); } TEST_F(SimpleTest, SimpleSInt64MessageTest) { const char *propertyName = "testFieldInt"; assertMessagePropertyRegistered(1, "QtProtobuf::sint64", propertyName); SimpleSInt64Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(1))); ASSERT_EQ(test.property(propertyName).value(), 1); ASSERT_EQ(test.testFieldInt(), 1); } TEST_F(SimpleTest, SimpleUInt64MessageTest) { const char *propertyName = "testFieldInt"; assertMessagePropertyRegistered(1, "QtProtobuf::uint64", propertyName); SimpleUInt64Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(1))); ASSERT_EQ(test.property(propertyName).value(), 1); ASSERT_EQ(test.testFieldInt(), 1); } TEST_F(SimpleTest, SimpleFixedInt32MessageTest) { const char *propertyName = "testFieldFixedInt32_p"; assertMessagePropertyRegistered(1, "QtProtobuf::fixed32", propertyName); SimpleFixedInt32Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(1))); ASSERT_EQ(test.property(propertyName).value(), 1); ASSERT_EQ(test.testFieldFixedInt32(), 1); } TEST_F(SimpleTest, SimpleFixedInt64MessageTest) { const char *propertyName = "testFieldFixedInt64"; assertMessagePropertyRegistered(1, "QtProtobuf::fixed64", propertyName); SimpleFixedInt64Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(1))); ASSERT_EQ(test.property(propertyName).value(), 1); ASSERT_EQ(test.testFieldFixedInt64(), 1); } TEST_F(SimpleTest, SimpleSFixedInt32MessageTest) { const char *propertyName = "testFieldFixedInt32_p"; assertMessagePropertyRegistered(1, "QtProtobuf::sfixed32", propertyName); SimpleSFixedInt32Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(1))); ASSERT_EQ(test.property(propertyName).value(), 1); ASSERT_EQ(test.testFieldFixedInt32(), 1); } TEST_F(SimpleTest, SimpleSFixedInt64MessageTest) { const char *propertyName = "testFieldFixedInt64"; assertMessagePropertyRegistered(1, "QtProtobuf::sfixed64", propertyName); SimpleSFixedInt64Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(1))); ASSERT_EQ(test.property(propertyName).value(), 1); ASSERT_EQ(test.testFieldFixedInt64(), 1); } TEST_F(SimpleTest, SimpleStringMessageTest) { const char *propertyName = "testFieldString"; SimpleStringMessage test; int propertyNumber = SimpleStringMessage::propertyOrdering.at(6); //See simpletest.proto ASSERT_EQ(SimpleStringMessage::staticMetaObject.property(propertyNumber).type(), QMetaType::QString); ASSERT_STREQ(SimpleStringMessage::staticMetaObject.property(propertyNumber).name(), propertyName); ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(QString("test1")))); ASSERT_STREQ(test.property(propertyName).toString().toStdString().c_str(), "test1"); ASSERT_STREQ(test.testFieldString().toStdString().c_str(), "test1"); } TEST_F(SimpleTest, SimpleFloatMessageTest) { const char *propertyName = "testFieldFloat"; SimpleFloatMessage test; int propertyNumber = SimpleFloatMessage::propertyOrdering.at(7); //See simpletest.proto ASSERT_EQ(SimpleFloatMessage::staticMetaObject.property(propertyNumber).type(), QMetaType::Float); ASSERT_STREQ(SimpleFloatMessage::staticMetaObject.property(propertyNumber).name(), "testFieldFloat"); float assignedValue = 1.55f; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(assignedValue))); ASSERT_FLOAT_EQ(test.property(propertyName).toFloat(), assignedValue); ASSERT_FLOAT_EQ(test.testFieldFloat(), assignedValue); } TEST_F(SimpleTest, SimpleDoubleMessageTest) { const char *propertyName = "testFieldDouble"; SimpleDoubleMessage test; int propertyNumber = SimpleDoubleMessage::propertyOrdering.at(8); //See simpletest.proto ASSERT_EQ(SimpleDoubleMessage::staticMetaObject.property(propertyNumber).type(), QMetaType::Double); ASSERT_STREQ(SimpleDoubleMessage::staticMetaObject.property(propertyNumber).name(), propertyName); double assignedValue = 0.55; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(assignedValue))); ASSERT_DOUBLE_EQ(test.property(propertyName).toDouble(), assignedValue); ASSERT_DOUBLE_EQ(test.testFieldDouble(), assignedValue); } TEST_F(SimpleTest, SimpleLocalEnumTest) { ASSERT_GT(SimpleEnumMessage::staticMetaObject.enumeratorCount(), 0); QMetaEnum simpleEnum; for (int i = 0; i < SimpleEnumMessage::staticMetaObject.enumeratorCount(); i++) { QMetaEnum tmp = SimpleEnumMessage::staticMetaObject.enumerator(i); if (QString(tmp.name()) == QString("LocalEnum")) { simpleEnum = tmp; break; } } ASSERT_TRUE(simpleEnum.isValid()); ASSERT_STREQ(simpleEnum.key(0), "LOCAL_ENUM_VALUE0"); ASSERT_STREQ(simpleEnum.key(1), "LOCAL_ENUM_VALUE1"); ASSERT_STREQ(simpleEnum.key(2), "LOCAL_ENUM_VALUE2"); ASSERT_STREQ(simpleEnum.key(3), "LOCAL_ENUM_VALUE3"); ASSERT_EQ(simpleEnum.value(0), 0); ASSERT_EQ(simpleEnum.value(1), 1); ASSERT_EQ(simpleEnum.value(2), 2); ASSERT_EQ(simpleEnum.value(3), 3); } TEST_F(SimpleTest, SimpleLocalEnumListTest) { ASSERT_GT(SimpleEnumListMessage::staticMetaObject.enumeratorCount(), 0); const char *propertyName = "localEnumList"; assertMessagePropertyRegistered(1, "SimpleEnumListMessage::LocalEnumRepeated", propertyName); SimpleEnumListMessage::LocalEnumRepeated value({SimpleEnumListMessage::LOCAL_ENUM_VALUE2, SimpleEnumListMessage::LOCAL_ENUM_VALUE2, SimpleEnumListMessage::LOCAL_ENUM_VALUE1, SimpleEnumListMessage::LOCAL_ENUM_VALUE3}); SimpleEnumListMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(value))); ASSERT_TRUE(test.property(propertyName).value() == value); ASSERT_TRUE(test.localEnumList() == value); } TEST_F(SimpleTest, SimpleExternalEnumMessageTest) { using ExternalGlobalEnums = qtprotobufnamespace1::externaltests::ExternalTestEnumGadget; const char *propertyName = "externalEnum"; assertMessagePropertyRegistered(1, "qtprotobufnamespace1::externaltests::ExternalTestEnumGadget::ExternalTestEnum", propertyName); SimpleExternalEnumMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(ExternalGlobalEnums::EXTERNAL_TEST_ENUM_VALUE4))); ASSERT_TRUE(test.property(propertyName).value() == QVariant::fromValue(ExternalGlobalEnums::EXTERNAL_TEST_ENUM_VALUE4)); ASSERT_TRUE(test.externalEnum() == QVariant::fromValue(ExternalGlobalEnums::EXTERNAL_TEST_ENUM_VALUE4)); } TEST_F(SimpleTest, SimpleEnumsTest) { EXPECT_GT(TestEnumGadget::staticMetaObject.enumeratorCount(), 0); QMetaEnum testEnum; for (int i = 0; i < TestEnumGadget::staticMetaObject.enumeratorCount(); i++) { QMetaEnum tmp = TestEnumGadget::staticMetaObject.enumerator(i); if (QString(tmp.name()) == QString("TestEnum")) { testEnum = tmp; break; } } ASSERT_TRUE(testEnum.isValid()); ASSERT_STREQ(testEnum.key(0), "TEST_ENUM_VALUE0"); ASSERT_STREQ(testEnum.key(1), "TEST_ENUM_VALUE1"); ASSERT_STREQ(testEnum.key(2), "TEST_ENUM_VALUE2"); ASSERT_STREQ(testEnum.key(3), "TEST_ENUM_VALUE3"); ASSERT_STREQ(testEnum.key(4), "TEST_ENUM_VALUE4"); ASSERT_EQ(testEnum.value(0), 0); ASSERT_EQ(testEnum.value(1), 1); ASSERT_EQ(testEnum.value(2), 2); ASSERT_EQ(testEnum.value(3), 4); ASSERT_EQ(testEnum.value(4), 3); for (int i = 0; i < TestEnumSecondInFileGadget::staticMetaObject.enumeratorCount(); i++) { QMetaEnum tmp = TestEnumSecondInFileGadget::staticMetaObject.enumerator(i); if (QString(tmp.name()) == QString("TestEnumSecondInFile")) { testEnum = tmp; break; } } ASSERT_TRUE(testEnum.isValid()); ASSERT_STREQ(testEnum.key(0), "TEST_ENUM_SIF_VALUE0"); ASSERT_STREQ(testEnum.key(1), "TEST_ENUM_SIF_VALUE1"); ASSERT_STREQ(testEnum.key(2), "TEST_ENUM_SIF_VALUE2"); ASSERT_EQ(testEnum.value(0), 0); ASSERT_EQ(testEnum.value(1), 1); ASSERT_EQ(testEnum.value(2), 2); } TEST_F(SimpleTest, SimpleFileEnumsTest) { const char *propertyName = "globalEnumList"; assertMessagePropertyRegistered(2, "qtprotobufnamespace::tests::TestEnumGadget::TestEnumRepeated", propertyName); TestEnumGadget::TestEnumRepeated value{TestEnumGadget::TEST_ENUM_VALUE1, TestEnumGadget::TEST_ENUM_VALUE3, TestEnumGadget::TEST_ENUM_VALUE4, TestEnumGadget::TEST_ENUM_VALUE2, TestEnumGadget::TEST_ENUM_VALUE1}; SimpleFileEnumMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(value))); ASSERT_TRUE(test.property(propertyName).value() == value); ASSERT_TRUE(test.globalEnumList() == value); } TEST_F(SimpleTest, ComplexMessageTest) { ComplexMessage msg; } TEST_F(SimpleTest, SimpleBytesMessageTest) { const char *propertyName = "testFieldBytes"; SimpleBytesMessage test; int propertyNumber = SimpleBytesMessage::propertyOrdering.at(1); //See simpletest.proto ASSERT_EQ(SimpleBytesMessage::staticMetaObject.property(propertyNumber).type(), QMetaType::QByteArray); ASSERT_STREQ(SimpleBytesMessage::staticMetaObject.property(propertyNumber).name(), propertyName); ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue("\x01\x02\x03\x04\x05"))); ASSERT_TRUE(test.property(propertyName).toByteArray() == QByteArray("\x01\x02\x03\x04\x05")); ASSERT_TRUE(test.testFieldBytes() == QByteArray("\x01\x02\x03\x04\x05")); } TEST_F(SimpleTest, SimpleExternalComplexMessageTest) { const char *propertyName = "localList"; assertMessagePropertyRegistered( 1, "QtProtobuf::int32List", propertyName); qtprotobufnamespace1::externaltests::SimpleExternalMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == int32List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.localList() == int32List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, RepeatedExternalComplexMessageTest) { const char *propertyName = "testExternalComplex"; assertMessagePropertyRegistered( 1, "qtprotobufnamespace1::externaltests::ExternalComplexMessageRepeated", propertyName); qtprotobufnamespace1::externaltests::SimpleExternalMessage complexMessage; complexMessage.setLocalList({1, 2, 3, 4, 5}); QSharedPointer externalMessage(new qtprotobufnamespace1::externaltests::ExternalComplexMessage); externalMessage->setTestFieldInt(complexMessage); qtprotobufnamespace1::externaltests::ExternalComplexMessageRepeated complexMessageList; complexMessageList << externalMessage; RepeatedExternalComplexMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(complexMessageList))); ASSERT_TRUE(test.property(propertyName).value() == complexMessageList); ASSERT_TRUE(test.testExternalComplex() == complexMessageList); } TEST_F(SimpleTest, RepeatedStringMessageTest) { const char *propertyName = "testRepeatedString"; assertMessagePropertyRegistered(1, "QStringList", propertyName); RepeatedStringMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({"Text", "tryam"}))); ASSERT_TRUE(test.property(propertyName).value() == QStringList({"Text", "tryam"})); ASSERT_TRUE(test.testRepeatedString() == QStringList({"Text", "tryam"})); } TEST_F(SimpleTest, RepeatedIntMessageTest) { const char *propertyName = "testRepeatedInt"; assertMessagePropertyRegistered(1, "QtProtobuf::int32List", propertyName); RepeatedIntMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == int32List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.testRepeatedInt() == int32List({1, 2, 3, 4, 5})); test.testRepeatedInt().append(66); ASSERT_TRUE(test.testRepeatedInt() == int32List({1, 2, 3, 4, 5, 66})); test.testRepeatedInt().pop_back(); ASSERT_TRUE(test.testRepeatedInt() == int32List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, RepeatedDoubleMessageTest) { const char *propertyName = "testRepeatedDouble"; assertMessagePropertyRegistered(1, "QtProtobuf::DoubleList", propertyName); RepeatedDoubleMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1.0, 2.3, 3, 4.7, 5.9}))); ASSERT_TRUE(test.property(propertyName).value() == QtProtobuf::DoubleList({1.0, 2.3, 3, 4.7, 5.9})); ASSERT_TRUE(test.testRepeatedDouble() == QtProtobuf::DoubleList({1.0, 2.3, 3, 4.7, 5.9})); test.testRepeatedDouble().append(6.6); ASSERT_TRUE(test.testRepeatedDouble() == QtProtobuf::DoubleList({1.0, 2.3, 3, 4.7, 5.9, 6.6})); test.testRepeatedDouble().pop_back(); ASSERT_TRUE(test.testRepeatedDouble() == QtProtobuf::DoubleList({1.0, 2.3, 3, 4.7, 5.9})); } TEST_F(SimpleTest, RepeatedFloatMessageTest) { const char *propertyName = "testRepeatedFloat"; assertMessagePropertyRegistered(1, "QtProtobuf::FloatList", propertyName); RepeatedFloatMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1.0f, 2.3f, 3, 4.7f, 5.9f}))); ASSERT_TRUE(test.property(propertyName).value() == QtProtobuf::FloatList({1.0f, 2.3f, 3, 4.7f, 5.9f})); ASSERT_TRUE(test.testRepeatedFloat() == QtProtobuf::FloatList({1.0f, 2.3f, 3, 4.7f, 5.9f})); test.testRepeatedFloat().append(6.6f); ASSERT_TRUE(test.testRepeatedFloat() == QtProtobuf::FloatList({1.0f, 2.3f, 3, 4.7f, 5.9f, 6.6f})); test.testRepeatedFloat().pop_back(); ASSERT_TRUE(test.testRepeatedFloat() == QtProtobuf::FloatList({1.0f, 2.3f, 3, 4.7f, 5.9f})); } TEST_F(SimpleTest, RepeatedBytesMessageTest) { const char *propertyName = "testRepeatedBytes"; assertMessagePropertyRegistered(1, "QByteArrayList", propertyName); QByteArrayList bList; bList << "\x01\x02\x03\x04\x05"; bList << "\x01\x05\x03\x04\x03"; RepeatedBytesMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(bList))); ASSERT_TRUE(test.property(propertyName).value() == bList); ASSERT_TRUE(test.testRepeatedBytes() == bList); bList << "\x01\x05\x03\x03"; test.testRepeatedBytes() << "\x01\x05\x03\x03"; ASSERT_TRUE(test.testRepeatedBytes() == bList); bList.pop_back(); test.testRepeatedBytes().pop_back(); ASSERT_TRUE(test.testRepeatedBytes() == bList); } TEST_F(SimpleTest, RepeatedSIntMessageTest) { const char *propertyName = "testRepeatedInt"; assertMessagePropertyRegistered(1, "QtProtobuf::sint32List", propertyName); RepeatedSIntMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == sint32List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.testRepeatedInt() == sint32List({1, 2, 3, 4, 5})); test.testRepeatedInt() << 6; ASSERT_TRUE(test.testRepeatedInt() == sint32List({1, 2, 3, 4, 5, 6})); test.testRepeatedInt().pop_back(); ASSERT_TRUE(test.testRepeatedInt() == sint32List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, RepeatedUIntMessageTest) { const char *propertyName = "testRepeatedInt"; assertMessagePropertyRegistered(1, "QtProtobuf::uint32List", propertyName); RepeatedUIntMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == uint32List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.testRepeatedInt() == uint32List({1, 2, 3, 4, 5})); test.testRepeatedInt().append(6); ASSERT_TRUE(test.testRepeatedInt() == uint32List({1, 2, 3, 4, 5,6})); test.testRepeatedInt().pop_back(); ASSERT_TRUE(test.testRepeatedInt() == uint32List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, RepeatedInt64MessageTest) { const char *propertyName = "testRepeatedInt"; assertMessagePropertyRegistered(1, "QtProtobuf::int64List", propertyName); RepeatedInt64Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == int64List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.testRepeatedInt() == int64List({1, 2, 3, 4, 5})); test.testRepeatedInt().append(69); ASSERT_TRUE(test.testRepeatedInt() == int64List({1, 2, 3, 4, 5, 69})); test.testRepeatedInt().pop_back(); ASSERT_TRUE(test.testRepeatedInt() == int64List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, RepeatedSInt64MessageTest) { const char *propertyName = "testRepeatedInt"; assertMessagePropertyRegistered(1, "QtProtobuf::sint64List", propertyName); RepeatedSInt64Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == sint64List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.testRepeatedInt() == sint64List({1, 2, 3, 4, 5})); test.testRepeatedInt() << 96; ASSERT_TRUE(test.testRepeatedInt() == sint64List({1, 2, 3, 4, 5, 96})); test.testRepeatedInt().pop_back(); ASSERT_TRUE(test.testRepeatedInt() == sint64List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, RepeatedUInt64MessageTest) { const char *propertyName = "testRepeatedInt"; assertMessagePropertyRegistered(1, "QtProtobuf::uint64List", propertyName); RepeatedUInt64Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == uint64List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.testRepeatedInt() == uint64List({1, 2, 3, 4, 5})); test.testRepeatedInt().append(96); ASSERT_TRUE(test.testRepeatedInt() == uint64List({1, 2, 3, 4, 5, 96})); test.testRepeatedInt().pop_back(); ASSERT_TRUE(test.testRepeatedInt() == uint64List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, RepeatedFixedIntMessageTest) { const char *propertyName = "testRepeatedInt"; assertMessagePropertyRegistered(1, "QtProtobuf::fixed32List", propertyName); RepeatedFixedIntMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == fixed32List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.testRepeatedInt() == fixed32List({1, 2, 3, 4, 5})); test.testRepeatedInt() << 0; ASSERT_TRUE(test.testRepeatedInt() == fixed32List({1, 2, 3, 4, 5, 0})); test.testRepeatedInt().pop_back(); ASSERT_TRUE(test.testRepeatedInt() == fixed32List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, RepeatedFixedInt64MessageTest) { const char *propertyName = "testRepeatedInt"; assertMessagePropertyRegistered(1, "QtProtobuf::fixed64List", propertyName); RepeatedFixedInt64Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == fixed64List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.testRepeatedInt() == fixed64List({1, 2, 3, 4, 5})); test.testRepeatedInt() << 0; ASSERT_TRUE(test.testRepeatedInt() == fixed64List({1, 2, 3, 4, 5, 0})); test.testRepeatedInt().pop_back(); ASSERT_TRUE(test.testRepeatedInt() == fixed64List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, RepeatedSFixedIntMessageTest) { const char *propertyName = "testRepeatedInt"; assertMessagePropertyRegistered(1, "QtProtobuf::sfixed32List", propertyName); RepeatedSFixedIntMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == sfixed32List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.testRepeatedInt() == sfixed32List({1, 2, 3, 4, 5})); test.testRepeatedInt() << 0; ASSERT_TRUE(test.testRepeatedInt() == sfixed32List({1, 2, 3, 4, 5, 0})); test.testRepeatedInt().pop_back(); ASSERT_TRUE(test.testRepeatedInt() == sfixed32List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, RepeatedSFixedInt64MessageTest) { const char *propertyName = "testRepeatedInt"; assertMessagePropertyRegistered(1, "QtProtobuf::sfixed64List", propertyName); RepeatedSFixedInt64Message test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue({1, 2, 3, 4, 5}))); ASSERT_TRUE(test.property(propertyName).value() == sfixed64List({1, 2, 3, 4, 5})); ASSERT_TRUE(test.testRepeatedInt() == sfixed64List({1, 2, 3, 4, 5})); test.testRepeatedInt() << 0; ASSERT_TRUE(test.testRepeatedInt() == sfixed64List({1, 2, 3, 4, 5, 0})); test.testRepeatedInt().pop_back(); ASSERT_TRUE(test.testRepeatedInt() == sfixed64List({1, 2, 3, 4, 5})); } TEST_F(SimpleTest, StepChildEnumMessageTest) { const char *propertyName = "localStepChildEnum"; assertMessagePropertyRegistered(1, "qtprotobufnamespace::tests::SimpleEnumMessage::LocalEnum", propertyName); StepChildEnumMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(SimpleEnumMessage::LocalEnum::LOCAL_ENUM_VALUE2))); ASSERT_TRUE(test.property(propertyName).value() == SimpleEnumMessage::LocalEnum::LOCAL_ENUM_VALUE2); ASSERT_TRUE(test.localStepChildEnum() == SimpleEnumMessage::LocalEnum::LOCAL_ENUM_VALUE2); } TEST_F(SimpleTest, StepChildEnumListMessageTest) { const char *propertyName = "localStepChildList"; assertMessagePropertyRegistered(2, "qtprotobufnamespace::tests::SimpleEnumMessage::LocalEnumRepeated", propertyName); SimpleEnumMessage::LocalEnumRepeated value({SimpleEnumMessage::LOCAL_ENUM_VALUE2, SimpleEnumMessage::LOCAL_ENUM_VALUE2, SimpleEnumMessage::LOCAL_ENUM_VALUE1, SimpleEnumMessage::LOCAL_ENUM_VALUE3}); StepChildEnumMessage test; ASSERT_TRUE(test.setProperty(propertyName, QVariant::fromValue(value))); ASSERT_TRUE(test.property(propertyName).value() == value); ASSERT_TRUE(test.localStepChildList() == value); } TEST_F(SimpleTest, SimpleSInt32StringMapMessageTest) { const char *propertyName = "mapField"; assertMessagePropertyRegistered(1, "SimpleSInt32StringMapMessage::MapFieldEntry", propertyName); ASSERT_TRUE(QMetaType::isRegistered(qMetaTypeId())); SimpleSInt32StringMapMessage::MapFieldEntry testMap = {{10, {"Some 10"}}, {0, {"Some 0"}}, {44, {"Some 44"}}}; SimpleSInt32StringMapMessage test; test.setMapField(testMap); ASSERT_TRUE(test.property(propertyName).value() == testMap); ASSERT_TRUE(test.mapField() == testMap); ASSERT_STREQ(test.mapField()[10].toStdString().c_str(), "Some 10"); ASSERT_STREQ(test.mapField()[0].toStdString().c_str(), "Some 0"); ASSERT_STREQ(test.mapField()[44].toStdString().c_str(), "Some 44"); test.mapField()[66] = "Some 66"; ASSERT_STREQ(test.mapField()[66].toStdString().c_str(), "Some 66"); test.mapField()[66] = "Some default"; ASSERT_STREQ(test.mapField()[66].toStdString().c_str(), "Some default"); } TEST_F(SimpleTest, SimpleStringStringMapMessageTest) { const char *propertyName = "mapField"; assertMessagePropertyRegistered(13, "SimpleStringStringMapMessage::MapFieldEntry", propertyName); ASSERT_TRUE(QMetaType::isRegistered(qMetaTypeId())); SimpleStringStringMapMessage::MapFieldEntry testMap = {{"key 10", "Some 10"}, {"key 0", "Some 0"}, {"key 44", "Some 44"}}; SimpleStringStringMapMessage test; test.setMapField(testMap); ASSERT_TRUE(test.property(propertyName).value() == testMap); ASSERT_TRUE(test.mapField() == testMap); ASSERT_STREQ(test.mapField()["key 10"].toStdString().c_str(), "Some 10"); ASSERT_STREQ(test.mapField()["key 0"].toStdString().c_str(), "Some 0"); ASSERT_STREQ(test.mapField()["key 44"].toStdString().c_str(), "Some 44"); test.mapField()["key 66"] = "Some 66"; ASSERT_STREQ(test.mapField()["key 66"].toStdString().c_str(), "Some 66"); test.mapField()["key 66"] = "Some default"; ASSERT_STREQ(test.mapField()["key 66"].toStdString().c_str(), "Some default"); } TEST_F(SimpleTest, EmptyMessageTest) { ASSERT_EQ(EmptyMessage::propertyOrdering.size(), 0); ASSERT_EQ(EmptyMessage::staticMetaObject.propertyCount(), 1); } TEST_F(SimpleTest, NullPointerMessageTest) { ComplexMessage msg(0, {QString("not null")}); msg.setTestComplexField_p(nullptr); ASSERT_TRUE(msg.testComplexField().testFieldString().isEmpty()); } TEST_F(SimpleTest, AssignmentOperatorTest) { const char *propertyName = "testFieldInt"; SimpleIntMessage test; SimpleIntMessage test2{35}; QSignalSpy updateSpy(&test, &SimpleIntMessage::testFieldIntChanged); test.setProperty(propertyName, QVariant::fromValue(15)); test.setTestFieldInt(25); test = test2; test = test; test = test2; ASSERT_EQ(test2.testFieldInt(), test.testFieldInt()); ASSERT_EQ(3, updateSpy.count()); } TEST_F(SimpleTest, MoveOperatorTest) { const char *propertyName = "testFieldInt"; SimpleIntMessage test; SimpleIntMessage test2{35}; QSignalSpy updateSpy(&test, &SimpleIntMessage::testFieldIntChanged); QSignalSpy movedUpdateSpy(&test2, &SimpleIntMessage::testFieldIntChanged); SimpleIntMessage test3(std::move(test2)); test2.setTestFieldInt(35); test.setProperty(propertyName, QVariant::fromValue(15)); test.setTestFieldInt(25); test = std::move(test2); ASSERT_EQ(35, test.testFieldInt()); ASSERT_EQ(0, test2.testFieldInt()); ASSERT_EQ(3, updateSpy.count()); ASSERT_EQ(3, movedUpdateSpy.count()); } TEST_F(SimpleTest, MoveOperatorRepeatedTest) { const char *propertyName = "testRepeatedInt"; RepeatedIntMessage test; RepeatedIntMessage test2{{55,44,11,33}}; QSignalSpy updateSpy(&test, &RepeatedIntMessage::testRepeatedIntChanged); QSignalSpy movedUpdateSpy(&test2, &RepeatedIntMessage::testRepeatedIntChanged); RepeatedIntMessage test3(std::move(test2)); test2.setTestRepeatedInt({55,44,11,35}); test.setProperty(propertyName, QVariant::fromValue({55})); test.setTestRepeatedInt({44}); test = std::move(test2); ASSERT_EQ(QtProtobuf::int32List({55,44,11,35}), test.testRepeatedInt()); ASSERT_TRUE(test2.testRepeatedInt().isEmpty()); ASSERT_EQ(3, updateSpy.count()); ASSERT_EQ(3, movedUpdateSpy.count()); } TEST_F(SimpleTest, UnderscoresTest) { //Sanity compilation checks Message_Uderscore_name msg1; MessageUderscorename msg2; MessageUnderscoreField msg3; PriorMessageUnderscoreField msg4; FollowingMessageUnderscoreField msg5; CombinedMessageUnderscoreField msg6; assertMessagePropertyRegistered(1, "QtProtobuf::sint32", "underScoreMessageField"); assertMessagePropertyRegistered(1, "QtProtobuf::sint32", "underScoreMessageField"); assertMessagePropertyRegistered(1, "QtProtobuf::sint32", "underScoreMessageField"); assertMessagePropertyRegistered(1, "QtProtobuf::sint32", "underScoreMessageField"); assertMessagePropertyRegistered(1, "QtProtobuf::sint32", "underScoreMessageField"); } TEST_F(SimpleTest, SequenceTest) { assertMessagePropertyRegistered(1, "TestMessageSequence2*", "testField"); assertMessagePropertyRegistered(1, "bool", "testField"); } TEST_F(SimpleTest, CyclingTest) { assertMessagePropertyRegistered(1, "CyclingSecondDependency*", "testField"); assertMessagePropertyRegistered(1, "CyclingFirstDependency*", "testField"); } TEST_F(SimpleTest, UpperCaseTest) { assertMessagePropertyRegistered(1, "QtProtobuf::sint32", "testField"); } TEST_F(SimpleTest, ReservedTest) { assertMessagePropertyRegistered(1, "QtProtobuf::sint32", "import_proto"); assertMessagePropertyRegistered(2, "QtProtobuf::sint32", "property_proto"); assertMessagePropertyRegistered(3, "QtProtobuf::sint32", "id_proto"); } TEST_F(SimpleTest, ReservedUpperCaseTest) { assertMessagePropertyRegistered(1, "QtProtobuf::sint32", "import_proto"); assertMessagePropertyRegistered(2, "QtProtobuf::sint32", "property_proto"); assertMessagePropertyRegistered(3, "QtProtobuf::sint32", "id_proto"); } TEST_F(SimpleTest, ReservedEnumTest) { ASSERT_GT(MessageEnumReserved::staticMetaObject.enumeratorCount(), 0); QMetaEnum simpleEnum; for (int i = 0; i < MessageEnumReserved::staticMetaObject.enumeratorCount(); i++) { QMetaEnum tmp = MessageEnumReserved::staticMetaObject.enumerator(i); if (QString(tmp.name()) == QString("ReservedEnum")) { simpleEnum = tmp; break; } } ASSERT_TRUE(simpleEnum.isValid()); ASSERT_STREQ(simpleEnum.key(0), "Import"); ASSERT_STREQ(simpleEnum.key(1), "Property"); ASSERT_STREQ(simpleEnum.key(2), "Id"); ASSERT_EQ(simpleEnum.value(0), 0); ASSERT_EQ(simpleEnum.value(1), 1); ASSERT_EQ(simpleEnum.value(2), 2); } TEST_F(SimpleTest, LowerCaseEnumTest) { ASSERT_GT(MessageEnumReserved::staticMetaObject.enumeratorCount(), 0); QMetaEnum simpleEnum; for (int i = 0; i < MessageEnumReserved::staticMetaObject.enumeratorCount(); i++) { QMetaEnum tmp = MessageEnumReserved::staticMetaObject.enumerator(i); if (QString(tmp.name()) == QString("LowerCaseEnum")) { simpleEnum = tmp; break; } } ASSERT_TRUE(simpleEnum.isValid()); ASSERT_STREQ(simpleEnum.key(0), "EnumValue0"); ASSERT_STREQ(simpleEnum.key(1), "EnumValue1"); ASSERT_STREQ(simpleEnum.key(2), "EnumValue2"); } TEST_F(SimpleTest, MapRepeatedFieldSequenceTest) { assertMessagePropertyRegistered(1, "RepeatedFieldSequence2Repeated", "testField"); assertMessagePropertyRegistered(1, "MapFieldSequence::TestFieldEntry", "testField"); } } // tests } // qtprotobuf