def test_tictactoe_cax(self): fsm = self.tictactoe() spec = parseATL("'run = circle' -> ['circlep']X 'run = cross'")[0] agents = {atom.value for atom in spec.right.group} phi = evalATL(fsm, spec.right.child) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_cax(fsm, first, agents, phi) #self.show_cex(explanation, spec.right) self.check_cax(fsm, explanation, agents, phi) spec = parseATL("'run = circle' -> ['crossp']X 'board[1] = circle'")[0] agents = {atom.value for atom in spec.right.group} phi = evalATL(fsm, spec.right.child) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_cax(fsm, first, agents, phi) #self.show_cex(explanation, spec.right) self.check_cax(fsm, explanation, agents, phi)
def test_tictactoe_cag(self): fsm = self.tictactoe() spec = parseATL("['circlep'] G 'winner != circle'")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.child) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_cag(fsm, first, agents, phi) self.check_ceg(fsm, explanation, agents, phi)
def test_cardgame_cag(self): fsm = self.cardgame() spec = parseATL("['dealer'] G ~'win'")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.child) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_cag(fsm, first, agents, phi) self.check_ceg(fsm, explanation, agents, phi)
def test_transmission_cau(self): fsm = self.transmission() spec = parseATL("['transmitter']['TRUE' U ~'received']")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.left) psi = evalATL(fsm, spec.right) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_cau(fsm, first, agents, phi, psi) self.check_ceu(fsm, explanation, agents, phi, psi)
def test_cardgame_ceu(self): fsm = self.cardgame() spec = parseATL("<'player'>['TRUE' U 'win']")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.left) psi = evalATL(fsm, spec.right) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_ceu(fsm, first, agents, phi, psi) self.check_ceu(fsm, explanation, agents, phi, psi)
def test_transmission_cax(self): fsm = self.transmission() spec = parseATL("['sender']X ~'received'")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.child) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_cax(fsm, first, agents, phi) #self.show_cex(explanation, spec) self.check_cax(fsm, explanation, agents, phi)
def test_tictactoe_cau(self): fsm = self.tictactoe() spec = parseATL("['circlep']['TRUE' U ('winner != circle' & 'run = stop')]")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.left) psi = evalATL(fsm, spec.right) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) self.assertEqual(sat, fp(lambda Y : psi | (phi & fsm.pre_nstrat(Y, agents)), BDD.false(fsm.bddEnc.DDmanager))) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_cau(fsm, first, agents, phi, psi) self.check_ceu(fsm, explanation, agents, phi, psi)
def test_cardgame_cax(self): fsm = self.cardgame() spec = parseATL("['player']X 'pcard = Ac'")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.child) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_cax(fsm, first, agents, evalATL(fsm, spec.child)) #self.show_cex(explanation, spec) self.check_cax(fsm, explanation, agents, phi) spec = parseATL("['dealer']X 'win'")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.child) # False since we do not want initial states #self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = (sat & eval_simple_expression(fsm, 'step = 1') & fsm.reachable_states) first = fsm.pick_one_state(initsat) explanation = explain_cax(fsm, first, agents, evalATL(fsm, spec.child)) #self.show_cex(explanation, spec) self.check_cax(fsm, explanation, agents, phi)
def test_tictactoe_ceu(self): fsm = self.tictactoe() spec = parseATL("<'circlep'> ['TRUE' U 'winner != circle' & 'run = stop']")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.left) psi = evalATL(fsm, spec.right) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_ceu(fsm, first, agents, phi, psi) self.check_ceu(fsm, explanation, agents, phi, psi) spec = parseATL("<'circlep', 'crossp'> ['TRUE' U 'winner = empty' & 'run = stop']")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.left) psi = evalATL(fsm, spec.right) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_ceu(fsm, first, agents, phi, psi) self.check_ceu(fsm, explanation, agents, phi, psi)
def test_cardgame_cex(self): fsm = self.cardgame() spec = parseATL("<'dealer'>X 'pcard = Ac'")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.child) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_cex(fsm, first, agents, evalATL(fsm, spec.child)) #self.show_cex(explanation, spec) self.check_cex(fsm, explanation, agents, phi) spec = parseATL("<'player'>X 'step = 1'")[0] agents = {atom.value for atom in spec.group} phi = evalATL(fsm, spec.child) self.assertTrue(check(fsm, spec)) sat = evalATL(fsm, spec) initsat = sat & fsm.init first = fsm.pick_one_state(initsat) explanation = explain_cex(fsm, first, agents, evalATL(fsm, spec.child)) #self.show_cex(explanation, spec) self.check_cex(fsm, explanation, agents, phi)