In the example enumeration code given in this question, reproduced below, why does TOKEN
contain the implementations of __contains__
and __repr__
from the metaclass EnumerationType
?
from ctypes import *
class EnumerationType(type(c_uint)):
def __new__(metacls, name, bases, dict):
if not "_members_" in dict:
_members_ = {}
for key,value in dict.items():
if not key.startswith("_"):
_members_[key] = value
dict["_members_"] = _members_
cls = type(c_uint).__new__(metacls, name, bases, dict)
for key,value in cls._members_.items开发者_如何学Python():
globals()[key] = value
return cls
def __contains__(self, value):
return value in self._members_.values()
def __repr__(self):
return "<Enumeration %s>" % self.__name__
class Enumeration(c_uint):
__metaclass__ = EnumerationType
_members_ = {}
def __init__(self, value):
for k,v in self._members_.items():
if v == value:
self.name = k
break
else:
raise ValueError("No enumeration member with value %r" % value)
c_uint.__init__(self, value)
@classmethod
def from_param(cls, param):
if isinstance(param, Enumeration):
if param.__class__ != cls:
raise ValueError("Cannot mix enumeration members")
else:
return param
else:
return cls(param)
def __repr__(self):
return "<member %s=%d of %r>" % (self.name, self.value, self.__class__)
class TOKEN(Enumeration):
_members_ = {'T_UNDEF':0, 'T_NAME':1, 'T_NUMBER':2, 'T_STRING':3, 'T_OPERATOR':4, 'T_VARIABLE':5, 'T_FUNCTION':6}
I would expect to have exceptions thrown by the following code to the effect that __contains__
is not implemented, instead however, I receive True False
.
print 2 in TOKEN, 7 in TOKEN
Both Enumeration
and TOKEN
are instances of EnumerationType
:
>>> isinstance(Enumeration, EnumerationType)
True
>>> isinstance(TOKEN, EnumerationType)
True
And special methods for instances of new style classes are looked up in class, e.g. repr(TOKEN)
is equivalent to type(TOKEN).__repr__(TOKEN)
, which is EnumerationType.__repr__(TOKEN)
.
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