assimp/contrib/cppunit-1.12.1/include/cppunit/extensions/Orthodox.h

96 lines
2.1 KiB
C++

#ifndef CPPUNIT_EXTENSIONS_ORTHODOX_H
#define CPPUNIT_EXTENSIONS_ORTHODOX_H
#include <cppunit/TestCase.h>
CPPUNIT_NS_BEGIN
/*
* Orthodox performs a simple set of tests on an arbitary
* class to make sure that it supports at least the
* following operations:
*
* default construction - constructor
* equality/inequality - operator== && operator!=
* assignment - operator=
* negation - operator!
* safe passage - copy construction
*
* If operations for each of these are not declared
* the template will not instantiate. If it does
* instantiate, tests are performed to make sure
* that the operations have correct semantics.
*
* Adding an orthodox test to a suite is very
* easy:
*
* public: Test *suite () {
* TestSuite *suiteOfTests = new TestSuite;
* suiteOfTests->addTest (new ComplexNumberTest ("testAdd");
* suiteOfTests->addTest (new TestCaller<Orthodox<Complex> > ());
* return suiteOfTests;
* }
*
* Templated test cases be very useful when you are want to
* make sure that a group of classes have the same form.
*
* see TestSuite
*/
template <class ClassUnderTest> class Orthodox : public TestCase
{
public:
Orthodox () : TestCase ("Orthodox") {}
protected:
ClassUnderTest call (ClassUnderTest object);
void runTest ();
};
// Run an orthodoxy test
template <class ClassUnderTest> void Orthodox<ClassUnderTest>::runTest ()
{
// make sure we have a default constructor
ClassUnderTest a, b, c;
// make sure we have an equality operator
CPPUNIT_ASSERT (a == b);
// check the inverse
b.operator= (a.operator! ());
CPPUNIT_ASSERT (a != b);
// double inversion
b = !!a;
CPPUNIT_ASSERT (a == b);
// invert again
b = !a;
// check calls
c = a;
CPPUNIT_ASSERT (c == call (a));
c = b;
CPPUNIT_ASSERT (c == call (b));
}
// Exercise a call
template <class ClassUnderTest>
ClassUnderTest Orthodox<ClassUnderTest>::call (ClassUnderTest object)
{
return object;
}
CPPUNIT_NS_END
#endif