e = spot.default_environment.instance() p = spot.empty_parse_error_list() f = spot.parse(args[0], p, e, debug_opt) if spot.format_parse_errors(cerr, args[0], p): exit_code = 1 dict = spot.bdd_dict() if f: if fm_opt: a = spot.ltl_to_tgba_fm(f, dict) concrete = 0 else: a = concrete = spot.ltl_to_tgba_lacim(f, dict) f.destroy() del f degeneralized = None if degeneralize_opt: a = degeneralized = spot.tgba_tba_proxy(a) if output == 0: spot.dotty_reachable(cout, a) elif output == 1: if concrete: spot.bdd_print_dot(cout, concrete.get_dict(), concrete.get_core_data().relation) elif output == 2: if concrete: spot.bdd_print_dot(cout, concrete.get_dict(), concrete.get_core_data().acceptance_conditions)
e = spot.default_environment.instance() p = spot.empty_parse_error_list() f = spot.parse(args[0], p, e, debug_opt) if spot.format_parse_errors(cerr, args[0], p): exit_code = 1 dict = spot.bdd_dict() if f: if fm_opt: a = spot.ltl_to_tgba_fm(f, dict) concrete = 0 else: a = concrete = spot.ltl_to_tgba_lacim(f, dict) f.destroy() del f degeneralized = None if degeneralize_opt: a = degeneralized = spot.tgba_tba_proxy(a) if output == 0: spot.dotty_reachable(cout, a) elif output == 1: if concrete: spot.bdd_print_dot(cout, concrete.get_dict(), concrete.get_core_data().relation) elif output == 2: if concrete:
# 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 Spot; see the file COPYING. If not, write to the Free # Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA # 02111-1307, USA. # Make sure that interdependencies between the spot and buddy wrappers # are not problematic. import buddy import spot e = spot.default_environment.instance() p = spot.empty_parse_error_list() f = spot.parse('GFa', p, e) dict = spot.bdd_dict() a = spot.ltl_to_tgba_lacim(f, dict) s0 = a.get_init_state() b = s0.as_bdd() print b iter = a.succ_iter(s0) iter.first() while not iter.done(): c = iter.current_condition() print c b &= c # `&=' is defined only in buddy. So if this statement works # it means buddy can grok spot's objects. iter.next() print b