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** This file is part of the test suite of PySide2.
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#include "testreverseoperators.h"
#include <QtTest/QTest>
#include "testutil.h"
#include <abstractmetalang.h>
#include <typesystem.h>

void TestReverseOperators::testReverseSum()
{
    const char cppCode[] = "struct A {\n\
            A& operator+(int);\n\
        };\n\
        A& operator+(int, const A&);";
    const char xmlCode[] = "\n\
    <typesystem package=\"Foo\">\n\
        <primitive-type name='int' />\n\
        <value-type name='A' />\n\
    </typesystem>";

    QScopedPointer<AbstractMetaBuilder> builder(TestUtil::parse(cppCode, xmlCode, false));
    QVERIFY(!builder.isNull());
    AbstractMetaClassList classes = builder->classes();
    AbstractMetaClass* classA = AbstractMetaClass::findClass(classes, QLatin1String("A"));
    QVERIFY(classA);
    QCOMPARE(classA->functions().count(), 4);

    const AbstractMetaFunction* reverseOp = 0;
    const AbstractMetaFunction* normalOp = 0;
    for (const AbstractMetaFunction *func : classA->functions()) {
        if (func->name() == QLatin1String("operator+")) {
            if (func->isReverseOperator())
                reverseOp = func;
            else
                normalOp = func;
        }
    }

    QVERIFY(normalOp);
    QVERIFY(!normalOp->isReverseOperator());
    QCOMPARE(normalOp->arguments().count(), 1);
    QVERIFY(reverseOp);
    QVERIFY(reverseOp->isReverseOperator());
    QCOMPARE(reverseOp->arguments().count(), 1);
}

void TestReverseOperators::testReverseSumWithAmbiguity()
{
    const char cppCode[] = "\n\
    struct A { A operator+(int); };\n\
    A operator+(int, const A&);\n\
    struct B {};\n\
    B operator+(const A&, const B&);\n\
    B operator+(const B&, const A&);\n\
    int operator-(int, const A*);\n\
    int operator/(const A*, int);\n\
    ";
    const char xmlCode[] = "\n\
    <typesystem package=\"Foo\">\n\
        <primitive-type name='int' />\n\
        <value-type name='A' />\n\
        <value-type name='B' />\n\
    </typesystem>";

    QScopedPointer<AbstractMetaBuilder> builder(TestUtil::parse(cppCode, xmlCode, false));
    QEXPECT_FAIL("", "Clang: Does not compile", Abort);
    QVERIFY(!builder.isNull());
    AbstractMetaClassList classes = builder->classes();
    const AbstractMetaClass *classA = AbstractMetaClass::findClass(classes, QLatin1String("A"));
    QVERIFY(classA);
    QCOMPARE(classA->functions().count(), 6);

    const AbstractMetaClass *classB = AbstractMetaClass::findClass(classes, QLatin1String("B"));
    QVERIFY(classB);
    QCOMPARE(classB->functions().count(), 4);

    const AbstractMetaFunction* reverseOp = 0;
    const AbstractMetaFunction* normalOp = 0;
    for (const AbstractMetaFunction *func : classB->functions()) {
        if (func->name() == QLatin1String("operator+")) {
            if (func->isReverseOperator())
                reverseOp = func;
            else
                normalOp = func;
        }
    }
    QVERIFY(normalOp);
    QVERIFY(!normalOp->isReverseOperator());
    QCOMPARE(normalOp->arguments().count(), 1);
    QCOMPARE(normalOp->minimalSignature(), QLatin1String("operator+(B,A)"));
    QVERIFY(reverseOp);
    QVERIFY(reverseOp->isReverseOperator());
    QCOMPARE(reverseOp->arguments().count(), 1);
    QCOMPARE(reverseOp->minimalSignature(), QLatin1String("operator+(A,B)"));

    reverseOp = classA->findFunction(QLatin1String("operator-"));
    QVERIFY(reverseOp);
    QCOMPARE(reverseOp->arguments().count(), 1);
    QVERIFY(reverseOp->isPointerOperator());
    QVERIFY(reverseOp->isReverseOperator());

    normalOp = classA->findFunction(QLatin1String("operator/"));
    QVERIFY(normalOp);
    QCOMPARE(normalOp->arguments().count(), 1);
    QVERIFY(normalOp->isPointerOperator());
    QVERIFY(!normalOp->isReverseOperator());

}



QTEST_APPLESS_MAIN(TestReverseOperators)