def test_new_set_methods(a, b): # A whole bunch of new methods were added to the FSM module to enable FSMs to # function exactly as if they were sets of strings (symbol lists), see: # https://docs.python.org/3/library/stdtypes.html#set-types-set-frozenset # But do they work? assert len(a) == 1 assert len((a | b) * 4) == 16 try: len(a.star()) assert False except OverflowError: pass # "in" assert "a" in a assert not "a" in b assert "a" not in b # List comprehension! four = (a | b) * 2 for string in four: assert string == ["a", "a"] break assert [s for s in four] == [["a", "a"], ["a", "b"], ["b", "a"], ["b", "b"]] # set.union() imitation assert FSM.union(a, b) == a.union(b) assert len(FSM.union()) == 0 assert FSM.intersection(a, b) == a.intersection(b) # This takes a little explaining. In general, `a & b & c` is equivalent to # `EVERYTHING & a & b & c` where `EVERYTHING` is an FSM accepting every # possible string. Similarly `a` is equivalent to `EVERYTHING & a`, and the # intersection of no sets at all is... `EVERYTHING`. # However, since we compute the union of alphabets, and there are no # alphabets, the union is the empty set. So the only string which `EVERYTHING` # actually recognises is the empty string, [] (or "" if you prefer). int_none = FSM.intersection() assert len(int_none) == 1 assert [] in int_none assert (a | b).difference(a) == FSM.difference((a | b), a) == (a | b) - a == b assert (a | b).difference(a, b) == FSM.difference((a | b), a, b) == (a | b) - a - b == null("ab") assert a.symmetric_difference(b) == FSM.symmetric_difference(a, b) == a ^ b assert a.isdisjoint(b) assert a <= (a | b) assert a < (a | b) assert a != (a | b) assert (a | b) > a assert (a | b) >= a assert list(a.concatenate(a, a).strings()) == [["a", "a", "a"]] assert list(a.concatenate().strings()) == [["a"]] assert list(FSM.concatenate(b, a, b).strings()) == [["b", "a", "b"]] assert list(FSM.concatenate().strings()) == [] assert not a.copy() is a
def to_fsm(self, alphabet=None, prefix_postfix=None, flags=None) -> FSM: if alphabet is None: alphabet = self.alphabet if prefix_postfix is None: prefix_postfix = self.prefix_postfix if flags is None: flags = _REFlags(0) flags = _combine_flags(flags, self.added_flags, self.removed_flags) return FSM.union(*(o.to_fsm(alphabet, prefix_postfix, flags) for o in self.options))
def to_fsm(self, alphabet=None, prefix_postfix=None, flags=None) -> FSM: if alphabet is None: alphabet = self.alphabet if prefix_postfix is None: prefix_postfix = self.prefix_postfix if prefix_postfix != (0, 0): raise ValueError("Can not have prefix/postfix on CharGroup-level") base = FSM.union(*(g.to_fsm(alphabet, flags=flags) for g in self.groups)) if self.negate: return _ALL.to_fsm(alphabet).difference(base) else: return base