Exemple #1
0
 def argumentChoices(t):
     if t == turtle:
         return [Index(0)]
     elif t == arrow(turtle,turtle):
         return subprograms
     elif t == tint:
         return specialNumbers.get(str(p),numbers)
     elif t == tangle:
         return specialAngles.get(str(p),angles)
     elif t == tlength:
         return specialDistances.get(str(p),distances)
     else: return []
Exemple #2
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    def command(k, environment, continuation):
        assert isinstance(k, list)
        if k[0] == Symbol("move"):
            return Application(
                Application(Application(_move, expression(k[1], environment)),
                            expression(k[2], environment)), continuation)
        if k[0] == Symbol("for") or k[0] == Symbol("loop"):
            v = k[1]
            b = expression(k[2], environment)
            newEnvironment = [None, v] + environment
            body = block(k[3:], newEnvironment, Index(0))
            return Application(
                Application(Application(_loop, b),
                            Abstraction(Abstraction(body))), continuation)
        if k[0] == Symbol("embed"):
            body = block(k[1:], [None] + environment, Index(0))
            return Application(Application(_embed, Abstraction(body)),
                               continuation)
        if k[0] == Symbol("p"):
            body = block(k[1:], [None] + environment, Index(0))
            return Application(Application(_p, Abstraction(body)),
                               continuation)

        assert False
Exemple #3
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    def expression(e, environment):
        for n, v in enumerate(environment):
            if e == v: return Index(n)

        if isinstance(e, int): return Program.parse(str(e))

        mapping = {
            "1a": _ua,
            "1d": _ul,
            "1l": _ul,
            "0a": _za,
            "0d": _zl,
            "0l": _zl,
            "/a": _da,
            "/l": _dl,
            "/d": _dl,
            "*a": _ma,
            "*l": _ml,
            "*d": _ml,
            "+a": _aa,
            "+d": _al,
            "+l": _al,
            "-a": _sa,
            "-d": _sl,
            "-l": _sl,
            "+": _addition,
            "infinity": _infinity,
            "epsilonAngle": _ea,
            "epsilonDistance": _el,
            "epsilonLength": _el
        }
        if e == float('inf'): return _infinity
        for name, value in mapping.items():
            if e == Symbol(name): return value

        assert isinstance(e, list), "not a list %s" % e
        for name, value in mapping.items():
            if e[0] == Symbol(name):
                f = value
                for argument in e[1:]:
                    f = Application(f, expression(argument, environment))
                return f
        assert False
Exemple #4
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def translate(expr, encoding=global_encoding):
    '''Translates a left-associated list representing an S-expression into a
    lambda calculus term.'''

    if type(expr) is str:
        if expr in encoding:
            return encoding[expr]
        elif expr.startswith('$'):
            return Index(int(expr[1:]))
        elif expr.isdecimal():
            return encode_num(int(expr))
        else:
            raise NameError('unknown primitive ' + expr)
    else:
        if expr[0] == 'lambda':
            return Abstr(translate(expr[1], encoding=encoding))
        else:
            return Appl(translate(expr[0], encoding=encoding),
                        translate(expr[1], encoding=encoding))
Exemple #5
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    def betaReduce(self):
        if self.reduced is not None:
            return self.reduced

        if self.f.isAbstraction:
            b = self.f.body
            v = self.x
            self.reduced = b.substitute(Index(0), v.shift(1)).shift(-1)
            return self.reduced

        f = self.f.betaReduce()
        if f is not None:
            self.reduced = Appl(f, self.x)
            return self.reduced

        x = self.x.betaReduce()
        if x is not None:
            self.reduced = Appl(self.f, x)
            return self.reduced

        return None
Exemple #6
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def parseLogo(s):

    _ua = Program.parse("logo_UA")
    _ul = Program.parse("logo_UL")

    _za = Program.parse("logo_ZA")
    _zl = Program.parse("logo_ZL")

    _da = Program.parse("logo_DIVA")
    _ma = Program.parse("logo_MULA")
    _dl = Program.parse("logo_DIVL")
    _ml = Program.parse("logo_MULL")

    _aa = Program.parse("logo_ADDA")
    _sa = Program.parse("logo_SUBA")
    _al = None  #Program.parse("logo_ADDL")
    _sl = None  #Program.parse("logo_SUBL")

    _pu = None  #Program.parse("logo_PU")
    _pd = None  #Program.parse("logo_PD")
    _p = Program.parse("logo_PT")
    _move = Program.parse("logo_FWRT")
    _embed = Program.parse("logo_GETSET")

    _addition = Program.parse("+")
    _infinity = Program.parse("logo_IFTY")
    _ea = Program.parse("logo_epsA")
    _el = Program.parse("logo_epsL")
    _loop = Program.parse("logo_forLoop")

    from sexpdata import loads, Symbol
    s = loads(s)

    def command(k, environment, continuation):
        assert isinstance(k, list)
        if k[0] == Symbol("move"):
            return Application(
                Application(Application(_move, expression(k[1], environment)),
                            expression(k[2], environment)), continuation)
        if k[0] == Symbol("for") or k[0] == Symbol("loop"):
            v = k[1]
            b = expression(k[2], environment)
            newEnvironment = [None, v] + environment
            body = block(k[3:], newEnvironment, Index(0))
            return Application(
                Application(Application(_loop, b),
                            Abstraction(Abstraction(body))), continuation)
        if k[0] == Symbol("embed"):
            body = block(k[1:], [None] + environment, Index(0))
            return Application(Application(_embed, Abstraction(body)),
                               continuation)
        if k[0] == Symbol("p"):
            body = block(k[1:], [None] + environment, Index(0))
            return Application(Application(_p, Abstraction(body)),
                               continuation)

        assert False

    def expression(e, environment):
        for n, v in enumerate(environment):
            if e == v: return Index(n)

        if isinstance(e, int): return Program.parse(str(e))

        mapping = {
            "1a": _ua,
            "1d": _ul,
            "1l": _ul,
            "0a": _za,
            "0d": _zl,
            "0l": _zl,
            "/a": _da,
            "/l": _dl,
            "/d": _dl,
            "*a": _ma,
            "*l": _ml,
            "*d": _ml,
            "+a": _aa,
            "+d": _al,
            "+l": _al,
            "-a": _sa,
            "-d": _sl,
            "-l": _sl,
            "+": _addition,
            "infinity": _infinity,
            "epsilonAngle": _ea,
            "epsilonDistance": _el,
            "epsilonLength": _el
        }
        if e == float('inf'): return _infinity
        for name, value in mapping.items():
            if e == Symbol(name): return value

        assert isinstance(e, list), "not a list %s" % e
        for name, value in mapping.items():
            if e[0] == Symbol(name):
                f = value
                for argument in e[1:]:
                    f = Application(f, expression(argument, environment))
                return f
        assert False

    def block(b, environment, continuation):
        if len(b) == 0: return continuation
        return command(b[0], environment,
                       block(b[1:], environment, continuation))

    try:
        return Abstraction(command(s, [], Index(0)))
    except:
        return Abstraction(block(s, [], Index(0)))
Exemple #7
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def encode_num(m):
    '''Return Church encoding of m.'''
    return Abstr(Abstr(_encode_num(m, Index(1), Index(0))))