/* CommandMutation(Test) - checking the functor and undo-functor used within Proc-commands Copyright (C) Lumiera.org 2009, Hermann Vosseler This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * *****************************************************/ #include "lib/test/run.hpp" #include "lib/test/test-helper.hpp" //#include "proc/asset/media.hpp" //#include "proc/mobject/session.hpp" //#include "proc/mobject/session/edl.hpp" //#include "proc/mobject/session/testclip.hpp" //#include "proc/mobject/test-dummy-mobject.hpp" //#include "lib/p.hpp" //#include "proc/mobject/placement.hpp" //#include "proc/mobject/placement-index.hpp" //#include "proc/mobject/explicitplacement.hpp" #include "proc/control/command-mutation.hpp" #include "lib/meta/typelist.hpp" #include "lib/meta/tuple.hpp" //#include "lib/lumitime.hpp" //#include "lib/util.hpp" #include //#include #include #include using std::tr1::bind; //using std::tr1::placeholders::_1; //using std::tr1::placeholders::_2; using std::tr1::function; //using boost::format; //using lumiera::Time; //using util::contains; using std::string; using std::cout; using std::endl; namespace control { namespace test { using lib::test::showSizeof; // using session::test::TestClip; // using lumiera::P; using namespace lumiera::typelist; using lumiera::typelist::Tuple; using control::CmdClosure; namespace { int testVal=0; ///< used to verify the effect of testFunc void testFunc (int val) { testVal += val; } int capture () { return testVal; } } /*************************************************************************** * Verify the behaviour of the type erased closure, which is used * by Proc-Layer commands to implement the capturing and later * re-invocation of a function. * * @see control::Command * @see control::CommandDef * @see control::Mutation * @see control::UndoMutation * @see command-basic-test.hpp */ class CommandMutation_test : public Test { virtual void run (Arg) { checkMutation(); checkUndoMutation(); } /** @test check the Mutation functor which is bound to our \c testFunc(int) . * Then close this Mutation by providing a parameter tuple. * Verify finally that by invoking the Mutation functor * actually \c testFunc(param) is executed. */ void checkMutation () { function funky = bind (testFunc, _1); Mutation functor (funky); ASSERT (!functor); VERIFY_ERROR (UNBOUND_ARGUMENTS, functor() ); Tuple > param = tuple::make(23); Closure close_over (param); CmdClosure& clo (close_over); functor.close(clo); ASSERT (functor); testVal = 0; functor(); ASSERT (testVal == 23); functor(); ASSERT (testVal == 2*23); } /** @test check the special Mutation which is used to \em undo a command. * This time, we use our \c testFunc(int) as implementation of the * "undo" function; thus its parameter has now the meaning of an * captured state value. Consequently this time the \em operation * which is to be undone would have the signature \c void(void) . * To carry out the test, we first have to trigger the state * capturing mechanism; after that, invoking the UndoMutation * will call the testFunc with the previously captured state. * @note Mutation and UndoMutation are value objects. */ void checkUndoMutation () { function undo_func = bind (&testFunc,_1); function cap_func = bind (&capture ); UndoMutation undoFunctor (undo_func,cap_func); ASSERT (!undoFunctor); VERIFY_ERROR (UNBOUND_ARGUMENTS, undoFunctor() ); Tuple > param; Closure clo (param); undoFunctor.close(clo); ASSERT (!undoFunctor); VERIFY_ERROR (MISSING_MEMENTO, undoFunctor() ); VERIFY_ERROR (MISSING_MEMENTO, undoFunctor.getMemento() ); testVal = 11; undoFunctor.captureState(); ASSERT (undoFunctor); ASSERT (testVal == 11); CmdClosure& mem = undoFunctor.getMemento(); cout << showSizeof(mem) << endl; cout << "saved state: " << mem << endl; undoFunctor(); ASSERT (testVal == 11 + 11); undoFunctor(); ASSERT (testVal == 11 + 11 + 11); undoFunctor.captureState(); undoFunctor(); ASSERT (testVal == 33 + 33); testVal = 9; undoFunctor(); ASSERT (testVal == 42); UndoMutation clonedFunc (undoFunctor); ASSERT (&undoFunctor.getMemento() != &clonedFunc.getMemento()); clonedFunc.captureState(); testVal = 0; undoFunctor(); ASSERT (testVal == 33); testVal = 0; clonedFunc(); ASSERT (testVal == 42); } }; /** Register this test class... */ LAUNCHER (CommandMutation_test, "unit controller"); }} // namespace control::test