def test_full_witness(self):
fsm = self.model()
spec = parseCTLK("EF (EX nK<'c1'> 'c2.payer' & EG nD<'c1','c2'> 'c3.payer')")[0]
self.assertIsNotNone(spec)
state = fsm.pick_one_state(fsm.init & evalCTLK(fsm, spec))
self.assertIsNotNone(state)
expl = explain_witness(fsm, state, spec)
self.assertIsNotNone(expl)
spec = parseCTLK("E[nE<'c1','c2'> 'c3.payer' U"
" E[ nC<'c1','c3'> ('c1.payer' | 'c2.payer') W"
" nC<'c2'> ('c1.coin = head' <-> 'c2.coin = head')]]")[0]
self.assertIsNotNone(spec)
state = fsm.pick_one_state(fsm.init & evalCTLK(fsm, spec))
self.assertIsNotNone(state)
expl = explain_witness(fsm, state, spec)
self.assertIsNotNone(expl)
spec = parseCTLK("AG(~'c1.payer' | E<'c1'> ('c1.payer' -> "
"C<'c2','c3'> AF 'c1.payer'))")[0]
self.assertIsNotNone(spec)
state = fsm.pick_one_state(fsm.init & evalCTLK(fsm, spec))
self.assertIsNotNone(state)
expl = explain_witness(fsm, state, spec)
self.assertIsNotNone(expl)
def test_true(self):
fsm = self.simplemodel()
spec = parseCTLK("True")[0]
self.assertIsNotNone(spec)
state = fsm.pick_one_state(fsm.init & evalCTLK(fsm, spec))
self.assertIsNotNone(state)
expl = explain_witness(fsm, state, spec)
self.assertIsNotNone(expl)
self.assertEqual(type(expl), Tlacenode)
self.assertEqual(expl.state, state)
self.assertEqual(len(expl.atomics), 0)
self.assertEqual(len(expl.branches), 0)
self.assertEqual(len(expl.universals), 0)
def test_reachable(self):
fsm = self.simplemodel()
lt = eval_simple_expression(fsm, "at.local")
lf = eval_simple_expression(fsm, "af.local")
g = eval_simple_expression(fsm, "global")
true = eval_simple_expression(fsm, "TRUE")
false = eval_simple_expression(fsm, "FALSE")
spec = parseCTLK("Reachable")[0]
self.assertIsNotNone(spec)
state = fsm.pick_one_state(~lt & ~lf & ~g)
self.assertIsNotNone(state)
self.assertTrue(state <= evalCTLK(fsm, spec))
expl = explain_witness(fsm, state, spec)
self.assertIsNotNone(expl)
self.assertEqual(type(expl), Tlacenode)
self.assertEqual(expl.state, state)
self.assertEqual(len(expl.atomics), 0)
self.assertEqual(len(expl.branches), 1)
self.assertEqual(len(expl.universals), 0)
branch = expl.branches[0]
self.assertEqual(type(branch), TemporalBranch)
self.assertEqual(type(branch.specification), Reachable)
path = branch.path
self.assertIsNone(branch.loop)
for (s, i, sp) in zip(path[::2], path[1::2], path[2::2]):
self.assertIsNotNone(s)
self.assertTrue(s.state <= fsm.reachable_states)
self.assertEqual(len(s.atomics), 0)
self.assertEqual(len(s.branches), 0)
self.assertEqual(len(s.universals), 0)
self.assertIsNotNone(sp)
self.assertTrue(sp.state <= fsm.reachable_states)
self.assertEqual(len(sp.branches), 0)
self.assertEqual(len(sp.universals), 0)
self.assertTrue(i <=
fsm.get_inputs_between_states(sp.state, s.state))
self.assertEqual(len(path[-1].atomics), 1)
self.assertEqual(type(path[-1].atomics[0]), Init)
print(xml_witness(fsm, expl, spec))
def test_reachable(self):
fsm = self.simplemodel()
lt = eval_simple_expression(fsm, "at.local")
lf = eval_simple_expression(fsm, "af.local")
g = eval_simple_expression(fsm, "global")
true = eval_simple_expression(fsm, "TRUE")
false = eval_simple_expression(fsm, "FALSE")
spec = parseCTLK("Reachable")[0]
self.assertIsNotNone(spec)
state = fsm.pick_one_state(~lt & ~lf & ~g)
self.assertIsNotNone(state)
self.assertTrue(state <= evalCTLK(fsm, spec))
expl = explain_witness(fsm, state, spec)
self.assertIsNotNone(expl)
self.assertEqual(type(expl), Tlacenode)
self.assertEqual(expl.state, state)
self.assertEqual(len(expl.atomics), 0)
self.assertEqual(len(expl.branches), 1)
self.assertEqual(len(expl.universals), 0)
branch = expl.branches[0]
self.assertEqual(type(branch), TemporalBranch)
self.assertEqual(type(branch.specification), Reachable)
path = branch.path
self.assertIsNone(branch.loop)
for (s, i, sp) in zip(path[::2], path[1::2], path[2::2]):
self.assertIsNotNone(s)
self.assertTrue(s.state <= fsm.reachable_states)
self.assertEqual(len(s.atomics), 0)
self.assertEqual(len(s.branches), 0)
self.assertEqual(len(s.universals), 0)
self.assertIsNotNone(sp)
self.assertTrue(sp.state <= fsm.reachable_states)
self.assertEqual(len(sp.branches), 0)
self.assertEqual(len(sp.universals), 0)
self.assertTrue(i <=
fsm.get_inputs_between_states(sp.state, s.state))
self.assertEqual(len(path[-1].atomics), 1)
self.assertEqual(type(path[-1].atomics[0]), Init)
