Metaclasses allow you to deeply modify the behaviour of Python classes (in terms of how they're defined, instantiated, accessed, and more) by replacing the
type metaclass that new classes use by default.
When designing your architecture, consider that many things which can be accomplished with metaclasses can also be accomplished using more simple semantics:
__init_subclass__()which allows a class to partake in the creation of its subclass.
type is called with three arguments it behaves as the (meta)class it is, and creates a new instance, ie. it produces a new class/type.
Dummy = type('OtherDummy', (), dict(x=1)) Dummy.__class__ # <type 'type'> Dummy().__class__.__class__ # <type 'type'>
It is possible to subclass
type to create an custom metaclass.
class mytype(type): def __init__(cls, name, bases, dict): # call the base initializer type.__init__(cls, name, bases, dict) # perform custom initialization... cls.__custom_attribute__ = 2
Now, we have a new custom
mytype metaclass which can be used to create classes in the same manner as
MyDummy = mytype('MyDummy', (), dict(x=2)) MyDummy.__class__ # <class '__main__.mytype'> MyDummy().__class__.__class__ # <class '__main__.mytype'> MyDummy.__custom_attribute__ # 2
When we create a new class using the
class keyword the metaclass is by default chosen based on upon the baseclasses.
>>> class Foo(object): ... pass >>> type(Foo) type
In the above example the only baseclass is
object so our metaclass will be the type of
object, which is
type. It is possible override the default, however it depends on whether we use Python 2 or Python 3:
A special class-level attribute
__metaclass__ can be used to specify the metaclass.
class MyDummy(object): __metaclass__ = mytype type(MyDummy) # <class '__main__.mytype'>
metaclass keyword argument specify the metaclass.
class MyDummy(metaclass=mytype): pass type(MyDummy) # <class '__main__.mytype'>
Any keyword arguments (except
metaclass) in the class declaration will be passed to the metaclass. Thus
class MyDummy(metaclass=mytype, x=2) will pass
x=2 as a keyword argument to the
Read this in-depth description of python meta-classes for more details.
A singleton is a pattern that restricts the instantiation of a class to one instance/object. For more info on python singleton design patterns, see here.
class SingletonType(type): def __call__(cls, *args, **kwargs): try: return cls.__instance except AttributeError: cls.__instance = super(SingletonType, cls).__call__(*args, **kwargs) return cls.__instance
class MySingleton(object): __metaclass__ = SingletonType
class MySingleton(metaclass=SingletonType): pass
MySingleton() is MySingleton() # True, only one instantiation occurs
class MyClass(object): __metaclass__ = SomeMetaclass
class MyClass(metaclass=SomeMetaclass): pass
import six class MyClass(six.with_metaclass(SomeMetaclass)): pass
Functionality in metaclasses can be changed so that whenever a class is built, a string is printed to standard output, or an exception is thrown. This metaclass will print the name of the class being built.
class VerboseMetaclass(type): def __new__(cls, class_name, class_parents, class_dict): print("Creating class ", class_name) new_class = super().__new__(cls, class_name, class_parents, class_dict) return new_class
You can use the metaclass like so:
class Spam(metaclass=VerboseMetaclass): def eggs(self): print("[insert example string here]") s = Spam() s.eggs()
The standard output will be:
Creating class Spam [insert example string here]
In Python, everything is an object: integers, strings, lists, even functions and classes themselves are objects. And every object is an instance of a class.
To check the class of an object x, one can call
>>> type(5) <type 'int'> >>> type(str) <type 'type'> >>> type([1, 2, 3]) <type 'list'> >>> class C(object): ... pass ... >>> type(C) <type 'type'>
Most classes in python are instances of
type itself is also a class. Such classes whose instances are also classes are called metaclasses.
OK, so there is already one metaclass in Python:
type. Can we create another one?
class SimplestMetaclass(type): pass class MyClass(object): __metaclass__ = SimplestMetaclass
That does not add any functionality, but it is a new metaclass, see that MyClass is now an instance of SimplestMetaclass:
>>> type(MyClass) <class '__main__.SimplestMetaclass'>
A metaclass which does something usually overrides
__new__, to modify some properties of the class to be created, before calling the original
__new__ which creates the class:
class AnotherMetaclass(type): def __new__(cls, name, parents, dct): # cls is this class # name is the name of the class to be created # parents is the list of the class's parent classes # dct is the list of class's attributes (methods, static variables) # here all of the attributes can be modified before creating the class, e.g. dct['x'] = 8 # now the class will have a static variable x = 8 # return value is the new class. super will take care of that return super(AnotherMetaclass, cls).__new__(cls, name, parents, dct)
You may have heard that everything in Python is an object. It is true, and all objects have a class:
>>> type(1) int
The literal 1 is an instance of
int. Lets declare a class:
>>> class Foo(object): ... pass ...
Now lets instantiate it:
>>> bar = Foo()
What is the class of
>>> type(bar) Foo
bar is an instance of
Foo. But what is the class of
>>> type(Foo) type
Foo itself is an instance of
type. How about
>>> type(type) type
So what is a metaclass? For now lets pretend it is just a fancy name for the class of a class. Takeaways:
type, and by far it is the most common metaclass
But why should you know about metaclasses? Well, Python itself is quite "hackable", and the concept of metaclass is important if you are doing advanced stuff like meta-programming or if you want to control how your classes are initialized.