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PEP: 3115
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Title: Metaclasses in Python 3000
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2015-12-27 12:09:06 -05:00
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Author: Talin <viridia@gmail.com>
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Status: Final
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2007-04-14 22:10:27 -04:00
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Type: Standards Track
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Content-Type: text/x-rst
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2007-03-14 13:52:19 -04:00
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Created: 07-Mar-2007
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Python-Version: 3.0
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Post-History: 11-Mar-2007, 14-Mar-2007
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Abstract
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========
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This PEP proposes changing the syntax for declaring metaclasses,
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and alters the semantics for how classes with metaclasses are
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constructed.
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Rationale
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=========
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There are two rationales for this PEP, both of which are somewhat
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subtle.
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The primary reason for changing the way metaclasses work, is that
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there are a number of interesting use cases that require the
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metaclass to get involved earlier in the class construction process
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than is currently possible. Currently, the metaclass mechanism is
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essentially a post-processing step. With the advent of class
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decorators, much of these post-processing chores can be taken over
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by the decorator mechanism.
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In particular, there is an important body of use cases where it
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would be useful to preserve the order in which a class members are
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declared. Ordinary Python objects store their members in a
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dictionary, in which ordering is unimportant, and members are
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accessed strictly by name. However, Python is often used to
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interface with external systems in which the members are organized
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according to an implicit ordering. Examples include declaration of C
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structs; COM objects; Automatic translation of Python classes into
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IDL or database schemas, such as used in an ORM; and so on.
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In such cases, it would be useful for a Python programmer to specify
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such ordering directly using the declaration order of class members.
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Currently, such orderings must be specified explicitly, using some
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other mechanism (see the ctypes module for an example.)
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Unfortunately, the current method for declaring a metaclass does
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not allow for this, since the ordering information has already been
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lost by the time the metaclass comes into play. By allowing the
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metaclass to get involved in the class construction process earlier,
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the new system allows the ordering or other early artifacts of
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construction to be preserved and examined.
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There proposed metaclass mechanism also supports a number of other
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interesting use cases beyond preserving the ordering of declarations.
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One use case is to insert symbols into the namespace of the class
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body which are only valid during class construction. An example of
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this might be "field constructors", small functions that are used in
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the creation of class members. Another interesting possibility is
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supporting forward references, i.e. references to Python
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symbols that are declared further down in the class body.
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The other, weaker, rationale is purely cosmetic: The current method
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for specifying a metaclass is by assignment to the special variable
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``__metaclass__``, which is considered by some to be aesthetically less
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than ideal. Others disagree strongly with that opinion. This PEP
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will not address this issue, other than to note it, since aesthetic
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debates cannot be resolved via logical proofs.
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Specification
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=============
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In the new model, the syntax for specifying a metaclass is via a
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keyword argument in the list of base classes::
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class Foo(base1, base2, metaclass=mymeta):
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...
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Additional keywords will also be allowed here, and will be passed to
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the metaclass, as in the following example::
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class Foo(base1, base2, metaclass=mymeta, private=True):
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...
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Note that this PEP makes no attempt to define what these other
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keywords might be - that is up to metaclass implementors to
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determine.
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More generally, the parameter list passed to a class definition will
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now support all of the features of a function call, meaning that you
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can now use ``*args`` and ``**kwargs``-style arguments in the class base
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list::
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class Foo(*bases, **kwds):
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...
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Invoking the Metaclass
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======================
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In the current metaclass system, the metaclass object can be any
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callable type. This does not change, however in order to fully
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exploit all of the new features the metaclass will need to have an
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extra attribute which is used during class pre-construction.
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This attribute is named ``__prepare__``, which is invoked as a function
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before the evaluation of the class body. The ``__prepare__`` function
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takes two positional arguments, and an arbitrary number of keyword
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arguments. The two positional arguments are:
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======= ====================================
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*name* the name of the class being created.
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*bases* the list of base classes.
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======= ====================================
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The interpreter always tests for the existence of ``__prepare__`` before
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calling it; If it is not present, then a regular dictionary is used,
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as illustrated in the following Python snippet.
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::
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def prepare_class(name, *bases, metaclass=None, **kwargs):
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if metaclass is None:
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metaclass = compute_default_metaclass(bases)
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prepare = getattr(metaclass, '__prepare__', None)
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if prepare is not None:
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return prepare(name, bases, **kwargs)
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else:
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return dict()
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The example above illustrates how the arguments to 'class' are
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interpreted. The class name is the first argument, followed by
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an arbitrary length list of base classes. After the base classes,
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there may be one or more keyword arguments, one of which can be
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*metaclass*. Note that the *metaclass* argument is not included
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in *kwargs*, since it is filtered out by the normal parameter
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assignment algorithm. (Note also that *metaclass* is a keyword-
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only argument as per :pep:`3102`.)
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Even though ``__prepare__`` is not required, the default metaclass
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('type') implements it, for the convenience of subclasses calling
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it via super().
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``__prepare__`` returns a dictionary-like object which is used to store
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the class member definitions during evaluation of the class body.
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In other words, the class body is evaluated as a function block
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(just like it is now), except that the local variables dictionary
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is replaced by the dictionary returned from ``__prepare__``. This
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dictionary object can be a regular dictionary or a custom mapping
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type.
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This dictionary-like object is not required to support the full
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dictionary interface. A dictionary which supports a limited set of
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dictionary operations will restrict what kinds of actions can occur
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during evaluation of the class body. A minimal implementation might
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only support adding and retrieving values from the dictionary - most
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class bodies will do no more than that during evaluation. For some
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classes, it may be desirable to support deletion as well. Many
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metaclasses will need to make a copy of this dictionary afterwards,
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so iteration or other means for reading out the dictionary contents
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may also be useful.
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The ``__prepare__`` method will most often be implemented as a class
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method rather than an instance method because it is called before
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the metaclass instance (i.e. the class itself) is created.
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Once the class body has finished evaluating, the metaclass will be
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called (as a callable) with the class dictionary, which is no
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different from the current metaclass mechanism.
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Typically, a metaclass will create a custom dictionary - either a
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subclass of dict, or a wrapper around it - that will contain
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additional properties that are set either before or during the
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evaluation of the class body. Then in the second phase, the
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metaclass can use these additional properties to further customize
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the class.
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An example would be a metaclass that uses information about the
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ordering of member declarations to create a C struct. The metaclass
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would provide a custom dictionary that simply keeps a record of the
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order of insertions. This does not need to be a full 'ordered dict'
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implementation, but rather just a Python list of (key,value) pairs
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that is appended to for each insertion.
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Note that in such a case, the metaclass would be required to deal
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with the possibility of duplicate keys, but in most cases that is
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trivial. The metaclass can use the first declaration, the last,
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combine them in some fashion, or simply throw an exception. It's up
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to the metaclass to decide how it wants to handle that case.
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Example
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=======
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Here's a simple example of a metaclass which creates a list of
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the names of all class members, in the order that they were
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declared::
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# The custom dictionary
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class member_table(dict):
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def __init__(self):
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self.member_names = []
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def __setitem__(self, key, value):
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# if the key is not already defined, add to the
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# list of keys.
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if key not in self:
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self.member_names.append(key)
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# Call superclass
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dict.__setitem__(self, key, value)
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# The metaclass
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class OrderedClass(type):
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# The prepare function
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@classmethod
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def __prepare__(metacls, name, bases): # No keywords in this case
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return member_table()
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# The metaclass invocation
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def __new__(cls, name, bases, classdict):
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# Note that we replace the classdict with a regular
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# dict before passing it to the superclass, so that we
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# don't continue to record member names after the class
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# has been created.
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result = type.__new__(cls, name, bases, dict(classdict))
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result.member_names = classdict.member_names
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return result
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class MyClass(metaclass=OrderedClass):
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# method1 goes in array element 0
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def method1(self):
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pass
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# method2 goes in array element 1
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def method2(self):
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pass
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Sample Implementation
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=====================
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Guido van Rossum has created a patch which implements the new
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functionality: https://bugs.python.org/issue1681101
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Alternate Proposals
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===================
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Josiah Carlson proposed using the name 'type' instead of
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'metaclass', on the theory that what is really being specified is
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the type of the type. While this is technically correct, it is also
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confusing from the point of view of a programmer creating a new
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class. From the application programmer's point of view, the 'type'
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that they are interested in is the class that they are writing; the
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type of that type is the metaclass.
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There were some objections in the discussion to the 'two-phase'
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creation process, where the metaclass is invoked twice, once to
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create the class dictionary and once to 'finish' the class. Some
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people felt that these two phases should be completely separate, in
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that there ought to be separate syntax for specifying the custom
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dict as for specifying the metaclass. However, in most cases, the
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two will be intimately tied together, and the metaclass will most
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likely have an intimate knowledge of the internal details of the
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class dict. Requiring the programmer to insure that the correct dict
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type and the correct metaclass type are used together creates an
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additional and unneeded burden on the programmer.
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Another good suggestion was to simply use an ordered dict for all
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classes, and skip the whole 'custom dict' mechanism. This was based
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on the observation that most use cases for a custom dict were for
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the purposes of preserving order information. However, this idea has
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several drawbacks, first because it means that an ordered dict
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implementation would have to be added to the set of built-in types
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in Python, and second because it would impose a slight speed (and
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complexity) penalty on all class declarations. Later, several people
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came up with ideas for use cases for custom dictionaries other
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than preserving field orderings, so this idea was dropped.
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Backwards Compatibility
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=======================
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It would be possible to leave the existing ``__metaclass__`` syntax in
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place. Alternatively, it would not be too difficult to modify the
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syntax rules of the Py3K translation tool to convert from the old to
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the new syntax.
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References
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==========
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2023-08-03 08:27:30 -04:00
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[1] [Python-3000] Metaclasses in Py3K (original proposal)
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\ https://mail.python.org/pipermail/python-3000/2006-December/005030.html
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2023-08-03 08:27:30 -04:00
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[2] [Python-3000] Metaclasses in Py3K (Guido's suggested syntax)
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\ https://mail.python.org/pipermail/python-3000/2006-December/005033.html
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2023-08-03 08:27:30 -04:00
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[3] [Python-3000] Metaclasses in Py3K (Objections to two-phase init)
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\ https://mail.python.org/pipermail/python-3000/2006-December/005108.html
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2023-08-03 08:27:30 -04:00
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[4] [Python-3000] Metaclasses in Py3K (Always use an ordered dict)
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\ https://mail.python.org/pipermail/python-3000/2006-December/005118.html
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Copyright
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=========
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This document has been placed in the public domain.
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