#!/usr/bin/env python # -*- coding: utf-8 -*- # # This file is part of the Shiboken Python Bindings Generator project. # # Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). # # Contact: PySide team # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public License # version 2.1 as published by the Free Software Foundation. Please # review the following information to ensure the GNU Lesser General # Public License version 2.1 requirements will be met: # http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. # # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA # 02110-1301 USA '''Test cases for Derived class''' import sys import unittest import sample from sample import Abstract, Derived, OverloadedFuncEnum class Deviant(Derived): def __init__(self): Derived.__init__(self) self.pure_virtual_called = False self.unpure_virtual_called = False def pureVirtual(self): self.pure_virtual_called = True def unpureVirtual(self): self.unpure_virtual_called = True def className(self): return 'Deviant' class DerivedTest(unittest.TestCase): '''Test case for Derived class''' def testParentClassMethodsAvailability(self): '''Test if Derived class really inherits its methods from parent.''' inherited_methods = set(['callPureVirtual', 'callUnpureVirtual', 'id_', 'pureVirtual', 'unpureVirtual']) self.assert_(inherited_methods.issubset(dir(Derived))) def testOverloadedMethodCall(self): '''Test if the correct overloaded method is being called.''' derived = Derived() result = derived.overloaded(1, 2) self.assertEqual(type(result), OverloadedFuncEnum) self.assertEqual(result, sample.OverloadedFunc_ii) result = derived.overloaded(3) self.assertEqual(type(result), OverloadedFuncEnum) self.assertEqual(result, sample.OverloadedFunc_ii) result = derived.overloaded(4.4) self.assertEqual(type(result), OverloadedFuncEnum) self.assertEqual(result, sample.OverloadedFunc_d) def testOtherOverloadedMethodCall(self): '''Another test to check overloaded method calling, just to double check.''' derived = Derived() result = derived.otherOverloaded(1, 2, True, 3.3) self.assertEqual(type(result), Derived.OtherOverloadedFuncEnum) self.assertEqual(result, sample.Derived.OtherOverloadedFunc_iibd) result = derived.otherOverloaded(1, 2.2) self.assertEqual(type(result), Derived.OtherOverloadedFuncEnum) self.assertEqual(result, Derived.OtherOverloadedFunc_id) def testOverloadedMethodCallWithDifferentNumericTypes(self): '''Test if the correct overloaded method accepts a different numeric type as argument.''' derived = Derived() result = derived.overloaded(1.1, 2.2) self.assertEqual(type(result), OverloadedFuncEnum) self.assertEqual(result, sample.OverloadedFunc_ii) def testOverloadedMethodCallWithWrongNumberOfArguments(self): '''Test if a call to an overloaded method with the wrong number of arguments raises an exception.''' derived = Derived() self.assertRaises(TypeError, derived.otherOverloaded, 1, 2, True) def testReimplementedPureVirtualMethodCall(self): '''Test if a Python override of a implemented pure virtual method is correctly called from C++.''' d = Deviant() d.callPureVirtual() self.assert_(d.pure_virtual_called) def testReimplementedVirtualMethodCall(self): '''Test if a Python override of a reimplemented virtual method is correctly called from C++.''' d = Deviant() d.callUnpureVirtual() self.assert_(d.unpure_virtual_called) def testVirtualMethodCallString(self): '''Test virtual method call returning string.''' d = Derived() self.assertEqual(d.className(), 'Derived') self.assertEqual(d.getClassName(), 'Derived') def testReimplementedVirtualMethodCallReturningString(self): '''Test if a Python override of a reimplemented virtual method is correctly called from C++.''' d = Deviant() self.assertEqual(d.className(), 'Deviant') self.assertEqual(d.getClassName(), 'Deviant') def testSingleArgument(self): '''Test singleArgument call.''' d = Derived() self.assert_(d.singleArgument(False)) self.assert_(not d.singleArgument(True)) def testMethodCallWithDefaultValue(self): '''Test method call with default value.''' d = Derived() self.assertEqual(d.defaultValue(3), 3.1) self.assertEqual(d.defaultValue(), 0.1) def testCallToMethodWithAbstractArgument(self): '''Call to method that expects an Abstract argument.''' objId = 123 d = Derived(objId) self.assertEqual(Abstract.getObjectId(d), objId) def testObjectCreationWithParentType(self): '''Derived class creates an instance of itself in C++ and returns it as a pointer to its ancestor Abstract.''' obj = Derived.createObject() self.assertEqual(type(obj), Derived) if __name__ == '__main__': unittest.main()