# -*- mode: python; coding: utf-8 -*- # Copyright (C) by the Spot authors, see the AUTHORS file for details. # # 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 . # Test that the spot.gen package works, in particular, we want # to make sure that the objects created from spot.gen methods # are usable with methods from the spot package. import spot from unittest import TestCase tc = TestCase() a, b, d, f = spot.automata(""" HOA: v1 States: 2 Start: 0 AP: 1 "p0" Acceptance: 3 Inf(0)&Inf(1)|Fin(2) --BODY-- State: 0 [0] 1 {1 2} State: 1 [0] 0 {0} --END-- HOA: v1 States: 3 Start: 2 AP: 1 "p0" Acceptance: 3 Inf(0)&Inf(1)|Fin(2) --BODY-- State: 0 [0] 1 {1 2} State: 1 [0] 0 {0} State: 2 [0] 0 {0} [0] 0 {1} --END-- HOA: v1 States: 1 Start: 0 AP: 1 "p0" Acceptance: 1 Fin(0) --BODY-- State: 0 [0] 0 {0} --END-- HOA: v1 States: 2 Start: 0 AP: 1 "p0" Acceptance: 2 Fin(0)|Fin(1) --BODY-- State: 0 [0] 0 {0} [0] 1 {1} State: 1 [!0] 0 --END-- """) tc.assertEqual(spot.is_partially_degeneralizable(a), [0, 1]) da = spot.partial_degeneralize(a, [0, 1]) tc.assertTrue(da.equivalent_to(a)) tc.assertEqual(da.num_states(), 2) tc.assertEqual(spot.is_partially_degeneralizable(b), [0, 1]) db = spot.partial_degeneralize(b, [0, 1]) tc.assertTrue(db.equivalent_to(b)) tc.assertEqual(db.num_states(), 3) db.copy_state_names_from(b) dbhoa = db.to_str('hoa') tc.assertEqual(dbhoa, """HOA: v1 States: 3 Start: 0 AP: 1 "p0" acc-name: Streett 1 Acceptance: 2 Fin(0) | Inf(1) properties: trans-labels explicit-labels state-acc deterministic --BODY-- State: 0 "2#0" [0] 1 State: 1 "0#0" {0 1} [0] 2 State: 2 "1#0" {1} [0] 1 --END--""") c = spot.automaton("randaut -A'(Fin(0)&Inf(1)&Inf(2))|Fin(2)' 1 |") tc.assertEqual(spot.is_partially_degeneralizable(c), [1, 2]) dc = spot.partial_degeneralize(c, [1, 2]) tc.assertTrue(dc.equivalent_to(c)) tc.assertEqual(str(dc.get_acceptance()), '(Fin(0) & Inf(2)) | Fin(1)') tc.assertEqual(spot.is_partially_degeneralizable(d), []) dd = spot.partial_degeneralize(d, []) tc.assertTrue(dd.equivalent_to(d)) tc.assertEqual(dd.num_states(), 1) tc.assertEqual(str(dd.get_acceptance()), 'Inf(1) & Fin(0)') e = spot.dualize(b) de = spot.partial_degeneralize(e, [0, 1]) tc.assertTrue(de.equivalent_to(e)) tc.assertEqual(de.num_states(), 4) de.copy_state_names_from(e) dehoa = de.to_str('hoa') tc.assertEqual(dehoa, """HOA: v1 States: 4 Start: 0 AP: 1 "p0" acc-name: co-Buchi Acceptance: 1 Fin(0) properties: trans-labels explicit-labels trans-acc complete properties: deterministic --BODY-- State: 0 "0#0" [0] 1 [!0] 2 State: 1 "1#0" [!0] 2 [0] 3 {0} State: 2 "3#0" [t] 2 State: 3 "2#0" [0] 1 {0} [!0] 2 --END--""") tc.assertEqual(spot.is_partially_degeneralizable(de), []) df = spot.partial_degeneralize(f, [0, 1]) df.equivalent_to(f) tc.assertEqual(str(df.acc()), '(1, Fin(0))') df2 = spot.degeneralize(f) df.equivalent_to(f) tc.assertEqual(str(df2.acc()), '(1, Fin(0))') try: df = spot.partial_degeneralize(f, [0, 1, 2]) except RuntimeError as e: tc.assertIn('partial_degeneralize(): {0,1,2} does not', str(e)) else: raise RuntimeError("missing exception") aut5 = spot.automaton(""" HOA: v1 States: 8 Start: 0 AP: 3 "p0" "p1" "p2" acc-name: generalized-Buchi 10 Acceptance: 10 Inf(0)&Inf(1)&Inf(2)&Inf(3)&Inf(4)&Inf(5)&Inf(6)&Inf(7)&Inf(8)&Inf(9) properties: trans-labels explicit-labels trans-acc deterministic --BODY-- State: 0 [0&!1&2] 3 {2 4 9} State: 1 [!0&1&2] 5 {2 6 7 8} [!0&!1&!2] 0 {2} State: 2 [0&!1&2] 3 {1 4 9} State: 3 [0&!1&2] 4 {0 1 5 9} State: 4 [!0&!1&2] 1 {7} [0&!1&2] 6 {1 2} State: 5 [!0&1&2] 7 {3 5} State: 6 [!0&!1&2] 2 {1 3 5} State: 7 [0&!1&!2] 0 {4 7} --END--""") daut5 = spot.degeneralize_tba(aut5) tc.assertTrue(daut5.equivalent_to(aut5)) sets = list(range(aut5.num_sets())) tc.assertEqual(spot.is_partially_degeneralizable(aut5), sets) pdaut5 = spot.partial_degeneralize(aut5, sets) tc.assertTrue(pdaut5.equivalent_to(aut5)) tc.assertEqual(daut5.num_states(), 9) tc.assertEqual(pdaut5.num_states(), 8) aut6 = spot.automaton("""HOA: v1 States: 6 Start: 0 AP: 3 "p0" "p1" "p2" acc-name: generalized-Buchi 3 Acceptance: 3 Inf(0)&Inf(1)&Inf(2) properties: trans-labels explicit-labels trans-acc deterministic --BODY-- State: 0 [0&!1&!2] 4 {1} State: 1 [!0&!1&!2] 2 {0 1} State: 2 [!0&1&2] 0 {1} State: 3 [0&1&!2] 5 {1} State: 4 [!0&1&!2] 0 {1 2} [0&!1&!2] 3 {0} State: 5 [!0&1&2] 1 --END-- """) daut6 = spot.degeneralize_tba(aut6) tc.assertTrue(daut6.equivalent_to(aut6)) sets = list(range(aut6.num_sets())) tc.assertEqual(spot.is_partially_degeneralizable(aut6), sets) pdaut6 = spot.partial_degeneralize(aut6, sets) tc.assertTrue(pdaut6.equivalent_to(aut6)) tc.assertEqual(daut6.num_states(), 8) tc.assertEqual(pdaut6.num_states(), 8) aut7 = spot.automaton("""HOA: v1 States: 8 Start: 0 AP: 3 "p0" "p1" "p2" acc-name: generalized-Buchi 4 Acceptance: 4 Inf(0)&Inf(1)&Inf(2)&Inf(3) properties: trans-labels explicit-labels trans-acc deterministic --BODY-- State: 0 [0&!1&2] 1 {2 3} State: 1 [0&!1&2] 0 {0 2} [0&!1&!2] 6 State: 2 [0&1&2] 0 [!0&!1&2] 5 [!0&1&!2] 6 {1} State: 3 [0&!1&2] 5 [0&!1&!2] 6 State: 4 [!0&!1&!2] 3 State: 5 [0&1&!2] 0 [!0&1&2] 7 State: 6 [0&1&2] 2 {1} State: 7 [!0&!1&2] 0 {0} [!0&1&!2] 4 --END--""") daut7 = spot.degeneralize_tba(aut7) tc.assertTrue(daut7.equivalent_to(aut7)) sets = list(range(aut7.num_sets())) tc.assertEqual(spot.is_partially_degeneralizable(aut7), sets) pdaut7 = spot.partial_degeneralize(aut7, sets) tc.assertTrue(pdaut7.equivalent_to(aut7)) tc.assertEqual(daut7.num_states(), 10) tc.assertEqual(pdaut7.num_states(), 10) ddaut7 = spot.dualize(aut7) ddaut7a = spot.scc_filter(spot.dualize(spot.degeneralize_tba(ddaut7))) tc.assertTrue(ddaut7a.equivalent_to(aut7)) tc.assertEqual(ddaut7a.num_states(), daut7.num_states()) ddaut7b = spot.scc_filter(spot.dualize(spot.to_nca(ddaut7))) tc.assertTrue(ddaut7b.equivalent_to(aut7)) tc.assertEqual(ddaut7b.num_states(), daut7.num_states()) ddaut7c = spot.scc_filter(spot.dualize(spot.to_dca(ddaut7))) tc.assertTrue(ddaut7c.equivalent_to(aut7)) tc.assertEqual(ddaut7c.num_states(), daut7.num_states()) aut8 = spot.automaton("""HOA: v1 States: 8 Start: 0 AP: 3 "p0" "p1" "p2" acc-name: generalized-Buchi 5 Acceptance: 5 Inf(0)&Inf(1)&Inf(2)&Inf(3)&Inf(4) properties: trans-labels explicit-labels trans-acc deterministic --BODY-- State: 0 [!0&1&!2] 7 {0} State: 1 [!0&1&2] 1 {4} [0&!1&2] 6 {1 2} State: 2 [!0&!1&2] 3 {1 2} [0&1&2] 5 State: 3 [0&1&2] 2 {2} State: 4 [!0&!1&!2] 3 State: 5 [!0&1&!2] 0 {1 3} State: 6 [0&1&2] 4 [0&1&!2] 6 State: 7 [!0&!1&!2] 1 --END--""") daut8 = spot.degeneralize_tba(aut8) tc.assertTrue(daut8.equivalent_to(aut8)) sets = list(range(aut8.num_sets())) tc.assertEqual(spot.is_partially_degeneralizable(aut8), sets) pdaut8 = spot.partial_degeneralize(aut8, sets) tc.assertTrue(pdaut8.equivalent_to(aut8)) tc.assertEqual(daut8.num_states(), 22) tc.assertEqual(pdaut8.num_states(), 9) aut9 = spot.dualize(aut8) pdaut9 = spot.partial_degeneralize(aut9, sets) tc.assertTrue(pdaut9.equivalent_to(aut9)) # one more state than aut9, because dualize completed the automaton. tc.assertEqual(pdaut9.num_states(), 10) aut10 = spot.automaton("""HOA: v1 States: 3 Start: 0 AP: 1 "p0" Acceptance: 3 (Fin(0)|Fin(1))&Inf(2) | Inf(0)&Inf(1) --BODY-- State: 0 [0] 1 {0} State: 1 [0] 2 {2} [!0] 2 State: 2 [0] 0 {1} [!0] 1 --END--""") tc.assertEqual(spot.is_partially_degeneralizable(aut10), [0, 1]) pdaut10 = spot.partial_degeneralize(aut10, [0, 1]) tc.assertTrue(pdaut10.equivalent_to(aut10)) tc.assertEqual(pdaut10.to_str(), """HOA: v1 States: 3 Start: 0 AP: 1 "p0" Acceptance: 2 (Fin(1) & Inf(0)) | Inf(1) properties: trans-labels explicit-labels trans-acc deterministic --BODY-- State: 0 [0] 1 {1} State: 1 [!0] 2 [0] 2 {0} State: 2 [0] 0 {1} [!0] 1 --END--""") aut11 = spot.automaton("""HOA: v1 States: 3 Start: 0 AP: 1 "p0" Acceptance: 4 (Fin(0)|Fin(1))&Inf(2) | Inf(0)&Inf(1)&Inf(3) --BODY-- State: 0 [0] 1 {0} State: 1 [0] 2 {2} [!0] 2 State: 2 [0] 0 {1} [!0] 1 --END--""") tc.assertEqual(spot.is_partially_degeneralizable(aut11), [0, 1]) pdaut11 = spot.partial_degeneralize(aut11, [0, 1]) tc.assertTrue(pdaut11.equivalent_to(aut11)) tc.assertEqual(pdaut11.to_str(), """HOA: v1 States: 3 Start: 0 AP: 1 "p0" Acceptance: 3 (Fin(2) & Inf(0)) | (Inf(1)&Inf(2)) properties: trans-labels explicit-labels trans-acc deterministic --BODY-- State: 0 [0] 1 {2} State: 1 [!0] 2 [0] 2 {0} State: 2 [0] 0 {2} [!0] 1 --END--""") aut12 = spot.automaton("""HOA: v1 States: 3 Start: 0 AP: 1 "p0" Acceptance: 4 Inf(0)&Inf(1)&Inf(3) | (Inf(0)&Inf(1))&Fin(2) --BODY-- State: 0 [0] 1 {0} State: 1 [0] 2 {2} [!0] 2 State: 2 [0] 2 {1} [0] 0 [!0] 1 {3} --END--""") tc.assertEqual(spot.is_partially_degeneralizable(aut12), [0,1]) aut12b = spot.partial_degeneralize(aut12, [0,1]) aut12c = spot.partial_degeneralize(aut12b, [1,2]) tc.assertTrue(aut12c.equivalent_to(aut12)) tc.assertEqual(aut12c.num_states(), 9) aut12d = spot.partial_degeneralize(aut12, [0,1,3]) aut12e = spot.partial_degeneralize(aut12d, [0,1]) tc.assertTrue(aut12e.equivalent_to(aut12)) tc.assertEqual(aut12e.num_states(), 9) aut12f = spot.partial_degeneralize(aut12) tc.assertTrue(aut12f.equivalent_to(aut12)) tc.assertEqual(aut12f.num_states(), 9) # Check handling of original-states dot = aut12f.to_str('dot', 'd') tc.assertEqual(dot, """digraph "" { rankdir=LR label="Inf(2) | (Inf(1) & Fin(0))\\n[Rabin-like 2]" labelloc="t" node [shape="box",style="rounded",width="0.5"] I [label="", style=invis, width=0] I -> 0 0 [label="0 (0)"] 0 -> 1 [label="p0"] 1 [label="1 (1)"] 1 -> 2 [label="!p0"] 1 -> 2 [label="p0\\n{0}"] 2 [label="2 (2)"] 2 -> 0 [label="p0"] 2 -> 3 [label="!p0"] 2 -> 4 [label="p0\\n{1}"] 3 [label="3 (1)"] 3 -> 8 [label="!p0"] 3 -> 8 [label="p0\\n{0}"] 4 [label="4 (2)"] 4 -> 0 [label="p0"] 4 -> 4 [label="p0"] 4 -> 5 [label="!p0"] 5 [label="5 (1)"] 5 -> 6 [label="!p0"] 5 -> 6 [label="p0\\n{0}"] 6 [label="6 (2)"] 6 -> 5 [label="!p0"] 6 -> 6 [label="p0"] 6 -> 7 [label="p0"] 7 [label="7 (0)"] 7 -> 3 [label="p0"] 8 [label="8 (2)"] 8 -> 3 [label="!p0"] 8 -> 4 [label="p0\\n{1,2}"] 8 -> 7 [label="p0"] } """) aut12g = spot.partial_degeneralize(aut12f) tc.assertEqual(aut12f, aut12g) aut13 = spot.automaton("""HOA: v1 States: 2 Start: 0 AP: 4 "p9" "p14" "p10" "p7" acc-name: generalized-Buchi 3 Acceptance: 3 Inf(0)&Inf(1)&Inf(2) properties: trans-labels explicit-labels trans-acc deterministic --BODY-- State: 0 [!0&!1&2] 0 {0 1 2} [!0&!1&!2] 1 {0 1} State: 1 [!0&!1&2&!3] 0 {0 1 2} [!0&!1&!2&!3] 1 {0 1} [!0&!1&!2&3] 1 {0} [!0&!1&2&3] 1 {0 2} --END--""") aut13g = spot.partial_degeneralize(aut13) tc.assertTrue(aut13g.equivalent_to(aut13)) tc.assertEqual(aut13g.num_states(), 3) aut14 = spot.automaton("""HOA: v1 States: 2 Start: 0 AP: 2 "p0" "p1" Acceptance: 5 (Inf(0)&Inf(1)) | ((Fin(2)|Fin(3)) & Fin(4)) --BODY-- State: 0 [!0 & 1] 0 {2 3} [!0 & !1] 0 {3} [0] 1 State: 1 [0&1] 1 {1 2 4} [0&!1] 1 {4} [!0&1] 1 {0 1 2 3} [!0&!1] 1 {0 3} --END-- """) aut14g = spot.partial_degeneralize(aut14) tc.assertTrue(aut14g.equivalent_to(aut14)) tc.assertEqual(aut14g.num_states(), 3) # Extracting an SCC from this large automaton will produce an automaton A in # which original-states refers to states larger than those in A. Some version # of partial_degeneralize(A) incorrectly assumed that orig_states could not be # larger than A, (because initially partial_degeneralize did not compose # original-states). aut15 = spot.automaton(""" HOA: v1 name: "(FGp0 & ((XFp0 & F!p1) | F(Gp1 & XG!p0))) | G(F!p0 & (XFp0 | F!p1) & F(Gp1 | G!p0))" States: 14 Start: 0 AP: 2 "p1" "p0" Acceptance: 6 (Fin(0) & Fin(1)) | ((Fin(4)|Fin(5)) & (Inf(2)&Inf(3))) properties: trans-labels explicit-labels trans-acc complete properties: deterministic --BODY-- State: 0 [!0] 1 [0] 2 State: 1 [!0&!1] 1 {0 1 2 3 5} [0&!1] 3 [!0&1] 4 [0&1] 5 State: 2 [0&!1] 2 {1} [!0&1] 4 [!0&!1] 6 [0&1] 7 State: 3 [0&!1] 3 {1 3} [!0&1] 4 [!0&!1] 6 {0 1 2 3 5} [0&1] 8 State: 4 [!0&!1] 4 {1 2 3 5} [!0&1] 4 {2 4 5} [0&!1] 5 {1 3} [0&1] 5 {4} State: 5 [!0&1] 4 {2 4 5} [0&!1] 5 {1 3} [0&1] 8 {2 4} [!0&!1] 9 {1 2 3 5} State: 6 [0&!1] 3 {1 3} [!0&1] 4 [0&1] 5 [!0&!1] 10 State: 7 [!0&1] 4 [0&!1] 7 {1 3} [!0&!1] 11 [0&1] 12 {0 4} State: 8 [!0&1] 4 {2 4 5} [0&1] 5 {4} [0&!1] 8 {1 3} [!0&!1] 11 {1 3 5} State: 9 [!0&1] 4 {2 4 5} [0&!1] 5 {1 3} [0&1] 5 {4} [!0&!1] 11 {1 3 5} State: 10 [!0&1] 4 [0&1] 8 [!0&!1] 10 {0 1 2 3 5} [0&!1] 13 {1 2 3} State: 11 [!0&1] 4 {2 4 5} [0&!1] 8 {1 2 3} [0&1] 8 {2 4} [!0&!1] 11 {1 2 3 5} State: 12 [!0&1] 4 [0&1] 7 {0 2 4} [!0&!1] 9 [0&!1] 12 {1 3} State: 13 [!0&1] 4 [0&1] 5 [!0&!1] 10 {0 1 3 5} [0&!1] 13 {1 3} --END--""") si = spot.scc_info(aut15) aut15b = si.split_on_sets(2, [])[0]; d aut15c = spot.partial_degeneralize(aut15b) tc.assertTrue(aut15c.equivalent_to(aut15b)) # Testing property propagation/update # for propagate_marks_here s = """HOA: v1 States: 3 Start: 0 AP: 1 "a" acc-name: Buchi Acceptance: 1 Inf(0) properties: trans-labels explicit-labels state-acc --BODY-- State: 0 [0] 1 [!0] 2 State: 1 {0} [0] 0 State: 2 [!0] 0 --END--""" aut = spot.automaton(s) spot.propagate_marks_here(aut) s2 = aut.to_str("hoa") tc.assertEqual(s2, """HOA: v1 States: 3 Start: 0 AP: 1 "a" acc-name: Buchi Acceptance: 1 Inf(0) properties: trans-labels explicit-labels trans-acc deterministic --BODY-- State: 0 [0] 1 {0} [!0] 2 State: 1 [0] 0 {0} State: 2 [!0] 0 --END--""")