class PPMeta(parsing.buildMixinMeta(parsing, "PP")):
def __setParens(self, val=True):
self.__parens = val
def __getParens(self):
try:
return self.__parens
except AttributeError:
self.__parens = False
return False
Parens = property(__getParens, __setParens)
@classmethod
def parens(cls, format):
if cls.Parens:
return "(%s)" % format
return format
import fltypes as t
import operator
__metaclass__ = t.buildMixinMeta(t, "Optimize", "_OPTIMIZE")
class PatternMatcher:
class SameMatch:
def __init__(self):
self.__initialized = False
def __call__(self, obj=None):
if not self.__initialized:
self.__o = obj
self.__initialized = True
return True
self.__initialized = False
return self.__o == obj
def _match(self, objs, patterns):
for obj, pattern in zip(objs, patterns):
if not self.__match_objs(obj, pattern):
return False
return True
def __match_objs(self, obj, pattern):
if isinstance(pattern, self.SameMatch):
return pattern(obj)
if isinstance(pattern, tuple):
return self.__match_objs(obj, pattern[0]) and obj.match(pattern[1])
return (
(isinstance(pattern, type) and isinstance(obj, pattern)) or
import fltypes as t
import operator
__metaclass__ = t.buildMixinMeta(t, "Optimize", "_OPTIMIZE")
class PatternMatcher:
class SameMatch:
def __init__(self):
self.__initialized = False
def __call__(self, obj=None):
if not self.__initialized:
self.__o = obj
self.__initialized = True
return True
self.__initialized = False
return self.__o == obj
def _match(self, objs, patterns):
for obj, pattern in zip(objs, patterns):
if not self.__match_objs(obj, pattern):
return False
return True
def __match_objs(self, obj, pattern):
if isinstance(pattern, self.SameMatch):
return pattern(obj)
if isinstance(pattern, tuple):
return self.__match_objs(obj, pattern[0]) and obj.match(pattern[1])
return ((isinstance(pattern, type) and isinstance(obj, pattern))
import fltypes, evaluator, types
__metaclass__ = fltypes.buildMixinMeta(fltypes, "Caching")
class StackException(Exception):
def __init__(self, f):
self.f = f
class CachingFunction:
def eval(self, args=[], _start_flatting=False, **kwargs):
try:
i = self.__cache
except AttributeError:
self.__cache = dict()
if not args in self.__cache:
def _anon_(flat=True):
self.__cache[args] = super(CachingFunction,
self).eval(args,
_start_flatting=flat,
**kwargs)
if not _start_flatting:
funcs = list()
funcs.append(_anon_)
while True:
try:
funcs[-1]()
break
# vim: fileencoding=utf-8 :
from __future__ import with_statement
import contextlib
import fltypes
from operator import __eq__, __add__, __sub__
__metaclass__ = fltypes.buildMixinMeta(fltypes, "Eval")
class NoSuchFunction(Exception): pass
class UnboundArgument(Exception): pass
class UknownArgument(Exception): pass
class EvalLiteral:
def eval(self, **kwargs):
return self
class EvalArgument:
def eval(self, init=False, val=None, no_exception=False, **kwargs):
if init:
self.__val = val
else:
try:
return self.__val
except AttributeError:
raise UnboundArgument("Argument '%s' not passed to function call"%self.Name)
class EvalFunction:
@contextlib.contextmanager
def managed_stack(self, **kwargs):
try:
saved = list()
import fltypes, evaluator, types
__metaclass__ = fltypes.buildMixinMeta(fltypes, "Caching")
class StackException(Exception):
def __init__(self, f):
self.f = f
class CachingFunction:
def eval(self, args=[], _start_flatting=False, **kwargs):
try:
i = self.__cache
except AttributeError:
self.__cache = dict()
if not args in self.__cache:
def _anon_(flat=True):
self.__cache[args] = super(CachingFunction, self).eval(args, _start_flatting=flat, **kwargs)
if not _start_flatting:
funcs = list()
funcs.append(_anon_)
while True:
try:
funcs[-1]()
break
except StackException, e:
funcs.append(e.f)
for i in reversed(funcs):
i(False)
else:
raise StackException(_anon_)
return self.__cache[args]
