/* * ActionSequenzTest.cpp * * Created on: Dec 17, 2009 * Author: crueger */ #include #include #include #include "unittests/ActionSequenceTest.hpp" #include "Actions/Action.hpp" #include "Actions/ActionSequence.hpp" #include "Actions/MakroAction.hpp" #include "Actions/ActionHistory.hpp" #include "Actions/ActionRegistry.hpp" #ifdef HAVE_TESTRUNNER #include "UnitTestMain.hpp" #endif /*HAVE_TESTRUNNER*/ /********************************************** Test classes **************************************/ // Registers the fixture into the 'registry' CPPUNIT_TEST_SUITE_REGISTRATION( ActionSequenceTest ); /* some neccessary stubs for tests */ class canUndoActionStub : public Action { public: canUndoActionStub(): Action("canUndoActionStub",false){} virtual ~canUndoActionStub(){} virtual Action::state_ptr performCall(){ return Action::success; } virtual Action::state_ptr performUndo(Action::state_ptr){ return Action::success; } virtual Action::state_ptr performRedo(Action::state_ptr){ return Action::success; } virtual bool canUndo(){ return true; } virtual bool shouldUndo(){ return true; } }; class cannotUndoActionStub : public Action { public: cannotUndoActionStub() : Action("cannotUndoActionStub",false){} virtual ~cannotUndoActionStub(){} virtual Action::state_ptr performCall(){ return Action::success; } virtual Action::state_ptr performUndo(Action::state_ptr){ return Action::success; } virtual Action::state_ptr performRedo(Action::state_ptr){ return Action::success; } virtual bool canUndo(){ return false; } virtual bool shouldUndo(){ return true; } }; class wasCalledActionStub : public Action { public: wasCalledActionStub() : Action("wasCalledActionStub",false), called(false) {} virtual ~wasCalledActionStub(){} virtual Action::state_ptr performCall(){ called = true; return Action::success; } virtual Action::state_ptr performUndo(Action::state_ptr){ called = false; return Action::success; } virtual Action::state_ptr performRedo(Action::state_ptr){ called = true; return Action::success; } virtual bool canUndo(){ return true; } virtual bool shouldUndo(){ return true; } bool wasCalled(){ return called; } private: bool called; }; void ActionSequenceTest::setUp(){ ActionHistory::init(); // create some necessary stubs used in this test positive1 = new canUndoActionStub(); positive2 = new canUndoActionStub(); negative1 = new cannotUndoActionStub(); negative2 = new cannotUndoActionStub(); shouldCall1 = new wasCalledActionStub(); shouldCall2 = new wasCalledActionStub(); shouldNotCall1 = new wasCalledActionStub(); shouldNotCall2 = new wasCalledActionStub(); } void ActionSequenceTest::tearDown(){ delete positive1; delete positive2; delete negative1; delete negative2; delete shouldCall1; delete shouldCall2; delete shouldNotCall1; delete shouldNotCall2; ActionHistory::purgeInstance(); ActionRegistry::purgeInstance(); } void ActionSequenceTest::canUndoTest(){ // first section: { // test some combinations { ActionSequence *sequence = new ActionSequence(); sequence->addAction(positive1); sequence->addAction(positive2); CPPUNIT_ASSERT_EQUAL( true, sequence->canUndo() ); delete sequence; } { ActionSequence *sequence = new ActionSequence(); sequence->addAction(positive1); sequence->addAction(negative2); CPPUNIT_ASSERT_EQUAL( false, sequence->canUndo() ); delete sequence; } { ActionSequence *sequence = new ActionSequence(); sequence->addAction(negative1); sequence->addAction(positive2); CPPUNIT_ASSERT_EQUAL( false, sequence->canUndo() ); delete sequence; } { ActionSequence *sequence = new ActionSequence(); sequence->addAction(negative1); sequence->addAction(negative2); CPPUNIT_ASSERT_EQUAL( false, sequence->canUndo() ); delete sequence; } } // second section: { // empty sequence can be undone ActionSequence *sequence = new ActionSequence(); CPPUNIT_ASSERT_EQUAL( true, sequence->canUndo() ); // if only a positive action is contained it can be undone sequence->addAction(positive1); CPPUNIT_ASSERT_EQUAL( true, sequence->canUndo() ); // the single negative action should block the process sequence->addAction(negative1); CPPUNIT_ASSERT_EQUAL( false, sequence->canUndo() ); // after removing the negative action all is well again sequence->removeLastAction(); CPPUNIT_ASSERT_EQUAL( true, sequence->canUndo() ); delete sequence; } } void ActionSequenceTest::doesCallTest(){ ActionSequence *sequence = new ActionSequence(); sequence->addAction(shouldCall1); sequence->addAction(shouldCall2); sequence->addAction(shouldNotCall1); sequence->addAction(shouldNotCall2); sequence->removeLastAction(); sequence->removeLastAction(); sequence->callAll(); CPPUNIT_ASSERT_EQUAL(true,shouldCall1->wasCalled()); CPPUNIT_ASSERT_EQUAL(true,shouldCall2->wasCalled()); CPPUNIT_ASSERT_EQUAL(false,shouldNotCall1->wasCalled()); CPPUNIT_ASSERT_EQUAL(false,shouldNotCall2->wasCalled()); delete sequence; } void ActionSequenceTest::doesUndoTest(){ ActionSequence *sequence = new ActionSequence(); wasCalledActionStub *wasCalled1 = new wasCalledActionStub(); wasCalledActionStub *wasCalled2 = new wasCalledActionStub(); sequence->addAction(wasCalled1); sequence->addAction(wasCalled2); MakroAction act("Test MakroAction",sequence,false); act.call(); CPPUNIT_ASSERT_EQUAL(true,wasCalled1->wasCalled()); CPPUNIT_ASSERT_EQUAL(true,wasCalled1->wasCalled()); ActionHistory::getInstance().undoLast(); CPPUNIT_ASSERT_EQUAL(false,wasCalled1->wasCalled()); CPPUNIT_ASSERT_EQUAL(false,wasCalled1->wasCalled()); }