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spot/tests/python/satmin.py
Alexandre GBAGUIDI AISSE 9a204b770f spot: Implement dt*a_sat_minimize_assume(...) methods 
* python/spot/__init__.py: Add 'assume' option.
* spot/misc/satsolver.cc: Add function to handle assumptions.
* spot/misc/satsolver.hh: Declare assumption function.
* spot/twaalgos/dtbasat.cc: Implement dtba_sat_minimize_assume.
* spot/twaalgos/dtbasat.hh: Declare it.
* spot/twaalgos/dtwasat.cc: Implement dtwa_sat_minimize_assume and
handle options.
* spot/twaalgos/dtwasat.hh: Declare it.
* spot/twaalgos/postproc.cc: Handle options.
* spot/twaalgos/postproc.hh: Use param_ var for incr and assume.
* tests/core/satmin.test: Add tests for the new function.
* tests/core/satmin2.test: Add tests for the new function.
* tests/python/satmin.py: Add tests for the new function.
2017-01-06 19:53:21 +01:00

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# -*- mode: python; coding: utf-8 -*-
# Copyright (C) 2015 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 <http://www.gnu.org/licenses/>.
import spot
aut = spot.translate('GFa & GFb', 'BA')
assert aut.num_sets() == 1
assert aut.num_states() == 3
assert aut.is_deterministic()
min1 = spot.sat_minimize(aut, acc='Rabin 1')
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', assume=True)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', assume=True, param=0)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', assume=True, param=1)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', assume=True, param=2)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', assume=True, param=50)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', incr=True)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', incr=True, param=-1)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', incr=True, param=0)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', incr=True, param=1)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', incr=True, param=2)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min1 = spot.sat_minimize(aut, acc='Rabin 1', incr=True, param=50)
assert min1.num_sets() == 2
assert min1.num_states() == 2
min2 = spot.sat_minimize(aut, acc='Streett 2', assume=True)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min2 = spot.sat_minimize(aut, acc='Streett 2', assume=True, param=0)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min2 = spot.sat_minimize(aut, acc='Streett 2', assume=True, param=1)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min2 = spot.sat_minimize(aut, acc='Streett 2', assume=True, param=2)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min2 = spot.sat_minimize(aut, acc='Streett 2', assume=True, param=50)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min2 = spot.sat_minimize(aut, acc='Streett 2', incr=True)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min2 = spot.sat_minimize(aut, acc='Streett 2', incr=True, param=-1)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min2 = spot.sat_minimize(aut, acc='Streett 2', incr=True, param=0)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min2 = spot.sat_minimize(aut, acc='Streett 2', incr=True, param=1)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min2 = spot.sat_minimize(aut, acc='Streett 2', incr=True, param=2)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min2 = spot.sat_minimize(aut, acc='Streett 2', incr=True, param=50)
assert min2.num_sets() == 4
assert min2.num_states() == 1
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, dichotomy=True)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, assume=True)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, assume=True, param=0)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, assume=True, param=1)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, assume=True, param=2)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, assume=True, param=50)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, incr=True)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, incr=True, param=-1)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, incr=True, param=0)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, incr=True, param=1)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, incr=True, param=2)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min3 = spot.sat_minimize(aut, acc='Rabin 2',
state_based=True, max_states=5, incr=True, param=50)
assert min3.num_sets() == 4
assert min3.num_states() == 3
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, dichotomy=True)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, assume=True)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, assume=True, param=0)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, assume=True, param=1)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, assume=True, param=2)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, assume=True, param=50)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, incr=True)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, incr=True, param=-1)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, incr=True, param=0)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, incr=True, param=1)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, incr=True, param=2)
assert min4.num_sets() == 3
assert min4.num_states() == 2
min4 = spot.sat_minimize(aut, acc='parity max odd 3',
colored=True, incr=True, param=50)
assert min4.num_sets() == 3
assert min4.num_states() == 2
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