コード例 #1
0
ファイル: codes.py プロジェクト: domenicrosati/FAdo
def symmAndRefl(t, ipt=False):
    """ Return the  transducer      t | t.inverse,  if ipt is True;
        return the transducer  t | t.inverse | id,  otherwise

    :type t: SFT
    :type ipt: bool
    :rtype: SFT"""
    t1 = t | t.inverse()
    if ipt is True:
        return t1
    t2 = SFT()
    s0 = t2.addState()
    t2.addInitial(s0)
    t2.addFinal(s0)
    for sym in t.Sigma:
        t2.addTransition(s0, sym, sym, s0)
    return t1 | t2
コード例 #2
0
ファイル: fio.py プロジェクト: mebusy/codeLib
    def startTRANSSemRule(self, lst, context=None):
        """

            :param lst:
            :param context:"""
        if self.TRtype is None:
            new = SFT()
        elif self.TRtype == "GFT":
            new = GFT()
        else:
            raise common.TRError
        new.Sigma = self.alphabet
        new.Output = self.alphabetOut
        while self.states:
            x = self.states.pop()
            new.addState(x)
        while self.initials:
            x = self.initials.pop()
            new.addInitial(new.stateIndex(x))
        while self.finals:
            x = self.finals.pop()
            new.addFinal(new.stateIndex(x))
        while self.transitions:
            (x1, x2, x3, x4) = self.transitions.pop()
            new.addTransition(new.stateIndex(x1), x2, x3, new.stateIndex(x4))
        self.theList.append(new)
        self.initLocal()
コード例 #3
0
ファイル: codes.py プロジェクト: domenicrosati/FAdo
def createInputAlteringSIDTrans(n, sigmaSet):
    """Create an input-altering SID transducer based

    :param int n: max number of errors
    :param set sigmaSet: alphabet
    :return: a transducer representing the SID channel
    :rtype: SFT"""
    new = SFT()
    new.setSigma(sigmaSet)
    new.setOutput(sigmaSet)
    init = new.stateIndex((0, None), True)
    new.addInitial(init)
    for sy in new.Sigma:
        new.addTransition(init, sy, sy, init)
    i = 1
    while i <= n:
        d1 = new.stateIndex((i, None), True)
        new.addFinal(d1)
        for s in new.Sigma:
            new.addTransition(d1, s, s, d1)
            d = new.stateIndex((i, s), True)
            new.addFinal(d)
            if i == 1:
                new.addTransition(init, s, Epsilon, d)
                for s1 in new.Sigma - {s}:
                    new.addTransition(init, s, s1, d1)
            else:
                bar = new.stateIndex((i - 1, None))
                new.addTransition(bar, s, Epsilon, d1)
                new.addTransition(bar, Epsilon, s, d1)
                for s1 in new.Sigma:
                    foo = new.stateIndex((i - 1, s))
                    new.addTransition(foo, s1, Epsilon, d)
                    if s1 != s:
                        new.addTransition(bar, s, s1, d1)
                        new.addTransition(foo, Epsilon, s1, d1)
                        for s2 in new.Sigma:
                            new.addTransition(foo, s2, s1, d1)
            for s1 in new.Sigma - {s}:
                new.addTransition(d, s1, s1, d1)
        i += 1
    return new
コード例 #4
0
ファイル: codes.py プロジェクト: domenicrosati/FAdo
    def notSatisfiesW(self, aut):
        """Test whether the language is a code.

        :param DFA|NFA aut: the automaton
        :return: two different factorizations of the same word
        :rtype: tuple of list"""
        def _findFactors(w, m):
            l = []
            i1 = 0
            while True:
                j = m.find('1', i1)
                if j < 0:
                    break
                l.append(w[i1:j + 1])
                i1 = j + 1
            return l

        n = aut.toNFA()   # .eliminateEpsilonTransitions()
        for i in n.Initial:
            if i in n.Final:
                return [Epsilon], [Epsilon, Epsilon]
        t = SFT()
        t.States = copy.deepcopy(n.States)
        t.setInitial(n.Initial)
        t.setFinal(n.Initial)
        t.setSigma(n.Sigma)
        t.setOutput(['1', '0'])
        for si in n.delta:
            for sym in n.delta[si]:
                for so in n.delta[si][sym]:
                    if so not in n.Final:
                        t.addTransition(si, sym, '0', so)
                    else:
                        t.addTransition(si, sym, '0', so)
                        for ss in t.Initial:
                            t.addTransition(si, sym, '1', ss)
        t.trim()
        foo = t.nonFunctionalW()
        if foo == (None, None, None):
            return None, None
        else:
            return _findFactors(foo[0], foo[1]), _findFactors(foo[0], foo[2])
コード例 #5
0
ファイル: codes.py プロジェクト: domenicrosati/FAdo
    def trajToTransducer(traj, Sigma):
        """ Input Altering Tranducer corresponding to a Trajectory

        :param NFA traj: trajectory language
        :param set Sigma: alphabet
        :rtype: SFT"""
        t = SFT()
        t.Sigma = Sigma
        for s, sn in enumerate(traj.States):
            no = t.stateIndex((sn, False), True)
            yes = t.stateIndex((sn, True), True)
            if s in traj.Final:
                t.addFinal(yes)
            if s in traj.Initial:
                t.addInitial(no)
            for b in traj.delta.get(s, {}):
                for c in Sigma:
                    for st in traj.delta[s][b]:
                        fNo = t.stateIndex((traj.States[st], False), True)
                        fYes = t.stateIndex((traj.States[st], True), True)
                        if b == "0":
                            t.addTransition(no, c, c, fNo)
                            t.addTransition(yes, c, c, fYes)
                        if b == "1":
                            t.addTransition(no, Epsilon, c, fYes)
                            t.addTransition(yes, Epsilon, c, fYes)
        return t
コード例 #6
0
ファイル: fio.py プロジェクト: FakerKimg/regexor
    def startTRANSSemRule(self, lst, context=None):
            """

            :param lst:
            :param context:"""
            if self.TRtype is None:
                new = SFT()
            elif self.TRtype == "GFT":
                new = GFT()
            else: raise common.TRError
            new.Sigma = self.alphabet
            new.Output = self.alphabetOut
            while self.states:
                x = self.states.pop()
                new.addState(x)
            while self.initials:
                x = self.initials.pop()
                new.addInitial(new.stateIndex(x))
            while self.finals:
                x = self.finals.pop()
                new.addFinal(new.stateIndex(x))
            while self.transitions:
                (x1, x2, x3, x4) = self.transitions.pop()
                new.addTransition(new.stateIndex(x1), x2, x3, new.stateIndex(x4))
            self.theList.append(new)
            self.initLocal()