<p>到<code>__new__</code>的参数也传递到<code>__init__</code>,因此:</p>
<pre><code>def __init__(self, flubid):
...
</code></pre>
<p>您需要接受那里的<code>flubid</code>参数,即使您不在<code>__init__</code>中使用它</p>
<p>以下是<a href="http://hg.python.org/cpython/file/70274d53c1dd/Objects/typeobject.c#l2795" rel="nofollow">typeobject.c in Python2.7.3</a>中的相关注释</p>
<pre><code>/* You may wonder why object.__new__() only complains about arguments
when object.__init__() is not overridden, and vice versa.
Consider the use cases:
1. When neither is overridden, we want to hear complaints about
excess (i.e., any) arguments, since their presence could
indicate there's a bug.
2. When defining an Immutable type, we are likely to override only
__new__(), since __init__() is called too late to initialize an
Immutable object. Since __new__() defines the signature for the
type, it would be a pain to have to override __init__() just to
stop it from complaining about excess arguments.
3. When defining a Mutable type, we are likely to override only
__init__(). So here the converse reasoning applies: we don't
want to have to override __new__() just to stop it from
complaining.
4. When __init__() is overridden, and the subclass __init__() calls
object.__init__(), the latter should complain about excess
arguments; ditto for __new__().
Use cases 2 and 3 make it unattractive to unconditionally check for
excess arguments. The best solution that addresses all four use
cases is as follows: __init__() complains about excess arguments
unless __new__() is overridden and __init__() is not overridden
(IOW, if __init__() is overridden or __new__() is not overridden);
symmetrically, __new__() complains about excess arguments unless
__init__() is overridden and __new__() is not overridden
(IOW, if __new__() is overridden or __init__() is not overridden).
However, for backwards compatibility, this breaks too much code.
Therefore, in 2.6, we'll *warn* about excess arguments when both
methods are overridden; for all other cases we'll use the above
rules.
*/
</code></pre>