Exemple #1
0
def model_facts(h, ignore, clauses1, upclose=False):
    # define the universe for each sort:
    uc = [
        fact for s in h.sorts()
        for fact in model_universe_facts(h, s, upclose)
    ]
    # values of constants in formula
    temp = [[(ivy_logic.Constant(c),
              get_model_constant(h.model, ivy_logic.Constant(c)))]
            for c in used_constants_clauses(clauses1)
            if not ignore(c) and c not in ivy_logic.sig.constructors]
    #    print "temp = {}".format(temp)
    vc = [[
        ivy_logic._eq_lit(ivy_logic.Constant(c),
                          get_model_constant(h.model, ivy_logic.Constant(c)))
    ] for c in used_constants_clauses(clauses1)
          if not ignore(c) and c not in ivy_logic.sig.constructors]
    #    print "model_facts vc = {}".format(vc)
    # values of relations in formula
    #    print "used_relations_clauses = {}".format(used_relations_clauses(clauses1))
    vr = [[l] for (r, n) in used_relations_clauses(clauses1).iteritems()
          if not ignore(r) for l in relation_model_to_clauses(h, r, n)]
    # values of functions in formula
    fns = set(f for (f, arity) in functions_clauses(clauses1)
              if not ignore(f) and arity >= 1)
    vf = [[l] for f in fns for l in function_model_to_clauses(h, f)]
    res = uc + vc + vr + vf
    return Clauses(res)
Exemple #2
0
def model_facts(h, ignore, clauses1, upclose=False):
    # define the universe for each sort:
    uc = [fact for s in h.sorts() for fact in model_universe_facts(h, s, upclose)]
    # values of constants in formula
    temp = [
        [(ivy_logic.Constant(c), get_model_constant(h.model, ivy_logic.Constant(c)))]
        for c in used_constants_clauses(clauses1)
        if not ignore(c) and c not in ivy_logic.sig.constructors
    ]
    #    print "temp = {}".format(temp)
    vc = [
        [ivy_logic._eq_lit(ivy_logic.Constant(c), get_model_constant(h.model, ivy_logic.Constant(c)))]
        for c in used_constants_clauses(clauses1)
        if not ignore(c) and c not in ivy_logic.sig.constructors
    ]
    #    print "model_facts vc = {}".format(vc)
    # values of relations in formula
    #    print "used_relations_clauses = {}".format(used_relations_clauses(clauses1))
    urc = dict((ivy_logic.normalize_symbol(r), n) for r, n in used_relations_clauses(clauses1).iteritems())
    vr = [[l] for (r, n) in urc.iteritems() if not ignore(r) for l in relation_model_to_clauses(h, r, n)]
    # values of functions in formula
    fns = set(f for (f, arity) in functions_clauses(clauses1) if not ignore(f) and arity >= 1)
    vf = [[l] for f in fns for l in function_model_to_clauses(h, f)]
    res = uc + vc + vr + vf
    return Clauses(res)