# -*- mode: python; coding: utf-8 -*- # Copyright (C) 2015, 2017-2018, 2022 Laboratoire de Recherche et Développement # de l'Epita # # This file is part of Spot, a model checking library. # # Spot 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 3 of the License, or # (at your option) any later version. # # Spot 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, see . import spot from unittest import TestCase tc = TestCase() a = spot.acc_cond(5) a.set_acceptance(spot.acc_code('parity min odd 5')) tc.assertEqual(a.is_parity(), [True, False, True]) a.set_acceptance('parity max even 5') tc.assertEqual(a.is_parity(), [True, True, False]) a.set_acceptance('generalized-Buchi 5') tc.assertEqual(a.is_parity()[0], False) tc.assertEqual(a.is_parity(True)[0], False) a.set_acceptance('Inf(4) | (Fin(3)&Inf(2)) | (Fin(3)&Fin(1)&Inf(0))') tc.assertEqual(a.is_parity()[0], False) tc.assertEqual(a.is_parity(True), [True, True, False]) tc.assertTrue(a.maybe_accepting([1, 2, 3], [0, 4]).is_true()) tc.assertTrue(a.maybe_accepting([0], []).is_true()) tc.assertTrue(a.maybe_accepting([0], [3]).is_false()) tc.assertTrue(a.maybe_accepting([0, 3], []).is_maybe()) tc.assertTrue(a.maybe_accepting([2, 3], [3]).is_false()) tc.assertTrue(a.maybe_accepting([2, 3], []).is_maybe()) tc.assertTrue(a.maybe_accepting([2], []).is_true()) tc.assertTrue(a.maybe_accepting([0, 1], []).is_maybe()) tc.assertTrue(a.maybe_accepting([0, 1], [1]).is_false()) a.set_acceptance('Fin(0)|Fin(1)') tc.assertTrue(a.maybe_accepting([0, 1], [1]).is_maybe()) tc.assertTrue(a.maybe_accepting([0, 1], [0, 1]).is_false()) tc.assertTrue(a.maybe_accepting([0], []).is_true()) tc.assertTrue(a.maybe_accepting([], [0]).is_true()) a = spot.acc_cond(0) a.set_acceptance('all') tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), 0) tc.assertEqual(a.is_parity(), [True, True, True]) a.set_acceptance('none') tc.assertEqual(a.is_rabin(), 0) tc.assertEqual(a.is_streett(), -1) tc.assertEqual(a.is_parity(), [True, True, False]) a = spot.acc_cond('(Fin(0)&Inf(1))') tc.assertEqual(a.is_rabin(), 1) tc.assertEqual(a.is_streett(), -1) a.set_acceptance('Inf(1)&Fin(0)') tc.assertEqual(a.is_rabin(), 1) tc.assertEqual(a.is_streett(), -1) a.set_acceptance('(Fin(0)|Inf(1))') tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), 1) a.set_acceptance('Inf(1)|Fin(0)') tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), 1) a = spot.acc_cond('(Fin(0)&Inf(1))|(Fin(2)&Inf(3))') tc.assertEqual(a.is_rabin(), 2) tc.assertEqual(a.is_streett(), -1) a.set_acceptance(spot.acc_code('(Inf(3)&Fin(2))|(Fin(0)&Inf(1))')) tc.assertEqual(a.is_rabin(), 2) tc.assertEqual(a.is_streett(), -1) a.set_acceptance(spot.acc_code('(Inf(2)&Fin(3))|(Fin(0)&Inf(1))')) tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), -1) a.set_acceptance(spot.acc_code('(Inf(3)&Fin(2))|(Fin(2)&Inf(1))')) tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), -1) a.set_acceptance(spot.acc_code('(Inf(1)&Fin(0))|(Fin(0)&Inf(1))')) tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), -1) a.set_acceptance('(Fin(0)&Inf(1))|(Inf(1)&Fin(0))|(Inf(3)&Fin(2))') tc.assertEqual(a.is_rabin(), 2) tc.assertEqual(a.is_streett(), -1) a.set_acceptance('(Fin(0)|Inf(1))&(Fin(2)|Inf(3))') tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), 2) a.set_acceptance('(Inf(3)|Fin(2))&(Fin(0)|Inf(1))') tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), 2) a.set_acceptance('(Inf(2)|Fin(3))&(Fin(0)|Inf(1))') tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), -1) a.set_acceptance('(Inf(3)|Fin(2))&(Fin(2)|Inf(1))') tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), -1) a.set_acceptance('(Inf(1)|Fin(0))&(Fin(0)|Inf(1))') tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), -1) a.set_acceptance('(Fin(0)|Inf(1))&(Inf(1)|Fin(0))&(Inf(3)|Fin(2))') tc.assertEqual(a.is_rabin(), -1) tc.assertEqual(a.is_streett(), 2) a = spot.acc_code('Inf(0)&Inf(1)&Inf(3) | Fin(0)&(Fin(1)|Fin(3))') u = a.symmetries() tc.assertEqual(u[0], 0) tc.assertEqual(u[1], 1) tc.assertEqual(u[2], 2) tc.assertEqual(u[3], 1)