/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the test suite of Qt for Python. ** ** $QT_BEGIN_LICENSE:GPL-EXCEPT$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 as published by the Free Software ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "testconversionoperator.h" #include #include "testutil.h" #include #include void TestConversionOperator::testConversionOperator() { const char cppCode[] = "\ struct A {\n\ };\n\ struct B {\n\ operator A() const;\n\ };\n\ struct C {\n\ operator A() const;\n\ };\n"; const char xmlCode[] = "\ \n\ \n\ \n\ \n\ \n"; QScopedPointer builder(TestUtil::parse(cppCode, xmlCode)); QVERIFY(!builder.isNull()); AbstractMetaClassList classes = builder->classes(); const AbstractMetaClass *classA = AbstractMetaClass::findClass(classes, QLatin1String("A")); const AbstractMetaClass *classB = AbstractMetaClass::findClass(classes, QLatin1String("B")); const AbstractMetaClass *classC = AbstractMetaClass::findClass(classes, QLatin1String("C")); QVERIFY(classA); QVERIFY(classB); QVERIFY(classC); QCOMPARE(classA->functions().count(), 2); QCOMPARE(classB->functions().count(), 3); QCOMPARE(classC->functions().count(), 3); QCOMPARE(classA->externalConversionOperators().count(), 2); AbstractMetaFunction* convOp = 0; for (AbstractMetaFunction *func : classB->functions()) { if (func->isConversionOperator()) { convOp = func; break; } } QVERIFY(convOp); QVERIFY(classA->externalConversionOperators().contains(convOp)); } void TestConversionOperator::testConversionOperatorOfDiscardedClass() { const char cppCode[] = "\ struct A {\n\ };\n\ struct B {\n\ operator A() const;\n\ };\n"; const char xmlCode[] = "\ \n\ \n\ \n"; QScopedPointer builder(TestUtil::parse(cppCode, xmlCode)); QVERIFY(!builder.isNull()); AbstractMetaClassList classes = builder->classes(); const AbstractMetaClass *classA = AbstractMetaClass::findClass(classes, QLatin1String("A")); QVERIFY(classA); QCOMPARE(classA->externalConversionOperators().count(), 0); } void TestConversionOperator::testRemovedConversionOperator() { const char cppCode[] = "\ struct A {\n\ };\n\ struct B {\n\ operator A() const;\n\ };\n"; const char xmlCode[] = "\ \n\ \n\ \n\ \n\ \n\ \n"; QScopedPointer builder(TestUtil::parse(cppCode, xmlCode)); QVERIFY(!builder.isNull()); AbstractMetaClassList classes = builder->classes(); const AbstractMetaClass *classA = AbstractMetaClass::findClass(classes, QLatin1String("A")); const AbstractMetaClass *classB = AbstractMetaClass::findClass(classes, QLatin1String("B")); QVERIFY(classA); QVERIFY(classB); QCOMPARE(classA->functions().count(), 2); QCOMPARE(classB->functions().count(), 3); QCOMPARE(classA->externalConversionOperators().count(), 0); QCOMPARE(classA->implicitConversions().count(), 0); } void TestConversionOperator::testConversionOperatorReturningReference() { const char cppCode[] = "\ struct A {};\n\ struct B {\n\ operator A&() const;\n\ };\n"; const char xmlCode[] = "\ \n\ \n\ \n\ \n"; QScopedPointer builder(TestUtil::parse(cppCode, xmlCode)); QVERIFY(!builder.isNull()); AbstractMetaClassList classes = builder->classes(); const AbstractMetaClass *classA = AbstractMetaClass::findClass(classes, QLatin1String("A")); const AbstractMetaClass *classB = AbstractMetaClass::findClass(classes, QLatin1String("B")); QVERIFY(classA); QVERIFY(classB); QCOMPARE(classA->functions().count(), 2); QCOMPARE(classB->functions().count(), 3); QCOMPARE(classA->externalConversionOperators().count(), 1); QCOMPARE(classA->externalConversionOperators().first()->type()->cppSignature(), QLatin1String("A")); QCOMPARE(classA->externalConversionOperators().first()->ownerClass()->name(), QLatin1String("B")); QCOMPARE(classA->implicitConversions().count(), 1); QCOMPARE(classA->implicitConversions().first()->type()->cppSignature(), QLatin1String("A")); QCOMPARE(classA->implicitConversions().first()->ownerClass()->name(), QLatin1String("B")); } void TestConversionOperator::testConversionOperatorReturningConstReference() { const char cppCode[] = "\ struct A {};\n\ struct B {\n\ operator const A&() const;\n\ };\n"; const char xmlCode[] = "\ \n\ \n\ \n\ \n"; QScopedPointer builder(TestUtil::parse(cppCode, xmlCode)); QVERIFY(!builder.isNull()); AbstractMetaClassList classes = builder->classes(); const AbstractMetaClass *classA = AbstractMetaClass::findClass(classes, QLatin1String("A")); const AbstractMetaClass *classB = AbstractMetaClass::findClass(classes, QLatin1String("B")); QVERIFY(classA); QVERIFY(classB); QCOMPARE(classA->functions().count(), 2); QCOMPARE(classB->functions().count(), 3); QCOMPARE(classA->externalConversionOperators().count(), 1); QCOMPARE(classA->externalConversionOperators().first()->type()->cppSignature(), QLatin1String("A")); QCOMPARE(classA->externalConversionOperators().first()->ownerClass()->name(), QLatin1String("B")); QCOMPARE(classA->implicitConversions().count(), 1); QCOMPARE(classA->implicitConversions().first()->type()->cppSignature(), QLatin1String("A")); QCOMPARE(classA->implicitConversions().first()->ownerClass()->name(), QLatin1String("B")); } QTEST_APPLESS_MAIN(TestConversionOperator)