问题
I am a bit surprised by the method call order and the different arguments when overriding new
and init
in a metaclass. Consider the following:
class AT(type):
def __new__(mcs, name, bases, dct):
print(f"Name as received in new: {name}")
return super().__new__(mcs, name + 'HELLO', bases + (list,), dct)
def __init__(cls, name, bases, dct):
print(f"Name as received in init: {name}")
pass
class A(metaclass=AT):
pass
A.__name__
The output is:
Name as received in new: A
Name as received in init: A
'AHELLO'
In short I would have expected init
to receive AHELLO
with the argument name
.
I imagined that __init__
was called by super().__new__
: if the call is not done in the overridden __new__
then my __init__
is not called.
Could someone clarify how __init__
is called in this case?
For information my use case for this is that I wanted to make creation of classes, in a special case, easier at runtime by providing only a single "base" class (and not a tuple), I then added this code in __new__
:
if not isinstance(bases, tuple):
bases = (bases, )
however, I found out that I also need to add it in __init__
.
回答1:
Your __init__
method is obviously called and the reason for that is because your __new__
method is returning an instance of your class.
From https://docs.python.org/3/reference/datamodel.html#object.new:
If
__new__()
returns an instance of cls, then the new instance’s__init__()
method will be invoked like__init__(self[, ...])
, where self is the new instance and the remaining arguments are the same as were passed to__new__()
.
As you can see the arguments passed to __init__
are those passed to __new__
method's caller not when you call it using super
. It's a little bit vague but that's what it means if you read it closely.
And regarding the rest it works just as expected:
In [10]: A.__bases__
Out[10]: (list,)
In [11]: a = A()
In [12]: a.__class__.__bases__
Out[12]: (list,)
回答2:
The fact is that what orchestrates the call of __new__
and __init__
of an ordinary class is the __call__
method on its metaclass. The code in the __call__
method of type
, the default metatype, is in C, but the equivalent of it in Python would be:
class type:
...
def __call__(cls, *args, **kw):
instance = cls.__new__(cls, *args, **kw) # __new__ is actually a static method - cls has to be passed explicitly
if isinstance(instance, cls):
instance.__init__(*args, **kw)
return instance
That takes place for most object instantiation in Python, including when instantiating classes themselves - the metaclass is implicitly called as part of a class statement. In this case, the __new__
and __init__
called from type.__call__
are the methods on the metaclass itself. And in this case, type
is acting as the "metametaclass" - a concept seldom needed, but it is what creates the behavior you are exploring.
When creating classes, type.__new__
will be responsible for calling the class (not the metaclass) __init_subclass__
, and its descriptors' __set_name__
methods - so, the "metametaclass" __call__
method can't control that.
So, if you want the args passed to the metaclass __init__
to be programmatically modified, the "normal" way will be to have a "metametaclass", inheriting from type
and distinct from your metaclass itself, and override its __call__
method:
class MM(type):
def __call__(metacls, name, bases, namespace, **kw):
name = modify(name)
cls = metacls.__new__(metacls, name, bases, namespace, **kw)
metacls.__init__(cls, name, bases, namespace, **kw)
return cls
# or you could delegate to type.__call__, replacing the above with just
# return super().__call__(modify(name), bases, namespace, **kw)
Of course that is a way to get to go closer to "turtles all way to the bottom" than anyone would ever like in production code.
An alternative is to keep the modified name as an attribute on the metaclass, so that its __init__
method can take the needed information from there, and ignore the name passed in from its own metaclass' __call__
invocation. The information channel can be an ordinary attribute on the metaclass instance. Well - it happens that the "metaclass instance" is the class being created itself - and oh, see - that the name passed to type.__new__
already gets recorded in it - on the __name__
atribute.
In other words, all you have to do to use a class name modified in a metaclass __new__
method in its own __init__
method, is to ignore the passed in name
argument, and use cls.__name__
instead:
class Meta(type):
def __new__(mcls, name, bases, namespace, **kw):
name = modified(name)
return super().__new__(mcls, name, bases, namespace, **kw)
def __init__(cls, name, bases, namespace, **kw):
name = cls.__name__ # noQA (otherwise linting tools would warn on the overriden parameter name)
...
来源:https://stackoverflow.com/questions/56514586/arguments-of-new-and-init-for-metaclasses