348 lines
13 KiB
Plaintext
348 lines
13 KiB
Plaintext
PEP: 362
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Title: Function Signature Object
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Version: $Revision$
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Last-Modified: $Date$
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Author: Brett Cannon <brett@python.org>, Jiwon Seo <seojiwon@gmail.com>
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Status: Draft
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 21-Aug-2006
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Python-Version: 2.6
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Post-History: 05-Sep-2007
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Abstract
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========
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Python has always supported powerful introspection capabilities,
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including that for functions and methods (for the rest of this PEP the
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word "function" refers to both functions and methods). Taking a
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function object, you can fully reconstruct the function's signature.
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Unfortunately it is a little unruly having to look at all the
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different attributes to pull together complete information for a
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function's signature.
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This PEP proposes an object representation for function signatures.
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This should help facilitate introspection on functions for various
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uses. The introspection information contains all possible information
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about the parameters in a signature (including Python 3.0 features).
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This object, though, is not meant to replace existing ways of
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introspection on a function's signature. The current solutions are
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there to make Python's execution work in an efficient manner. The
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proposed object representation is only meant to help make application
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code have an easier time to query a function on its signature.
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Purpose
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=======
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An object representation of a function's call signature should provide
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an easy way to introspect what a function expects as arguments. It
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does not need to be a "live" representation, though; the signature can
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be inferred once and stored without changes to the signature object
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representation affecting the function it represents (but this is an
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`Open Issues`_).
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Indirecation of signature introspection can also occur. If a
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decorator took a decorated function's signature object and set it on
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the decorating function then introspection could be redirected to what
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is actually expected instead of the typical ``*args, **kwargs``
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signature of decorating functions.
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Signature Object
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================
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The overall signature of an object is represented by the Signature
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object. This object is to store a `Parameter object`_ for each
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parameter in the signature. It is also to store any information
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about the function itself that is pertinent to the signature.
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A Signature object has the following structure attributes:
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* name : str
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Name of the function. This is not fully qualified because
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function objects for methods do not know the class they are
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contained within. This makes functions and methods
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indistinguishable from one another when passed to decorators,
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preventing proper creation of a fully qualified name.
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* var_args : str
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Name of the variable positional parameter (i.e., ``*args``), if
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present, or the empty string.
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* var_kw_args : str
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Name of the variable keyword parameter (i.e., ``**kwargs``), if
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present, or the empty string.
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* var_annotations: dict(str, object)
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Dict that contains the annotations for the variable parameters.
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The keys are of the variable parameter with values of the
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annotation. If an annotation does not exist for a variable
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parameter then the key does not exist in the dict.
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* return_annotation : object
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If present, the attribute is set to the annotation for the return
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type of the function.
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* parameters : list(Parameter)
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List of the parameters of the function as represented by
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Parameter objects in the order of its definition (keyword-only
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arguments are in the order listed by ``code.co_varnames``).
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* bind(\*args, \*\*kwargs) -> dict(str, object)
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Create a mapping from arguments to parameters. The keys are the
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names of the parameter that an argument maps to with the value
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being the value the parameter would have if this function was
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called with the given arguments.
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Signature objects also have the following methods:
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* __getitem__(self, key : str) -> Parameter
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Returns the Parameter object for the named parameter.
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* __iter__(self)
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Returns an iterator that returns Parameter objects in their
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sequential order based on their 'position' attribute.
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The Signature object is stored in the ``__signature__`` attribute of
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a function. When it is to be created is discussed in
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`Open Issues`_.
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Parameter Object
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================
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A function's signature is made up of several parameters. Python's
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different kinds of parameters is quite large and rich and continues to
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grow. Parameter objects represent any possible parameter.
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Originally the plan was to represent parameters using a list of
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parameter names on the Signature object along with various dicts keyed
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on parameter names to disseminate the various pieces of information
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one can know about a parameter. But the decision was made to
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incorporate all information about a parameter in a single object so
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as to make extending the information easier. This was originally put
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forth by Talin and the preferred form of Guido (as discussed at the
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2006 Google Sprint).
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The structure of the Parameter object is:
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* name : (str | tuple(str))
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The name of the parameter as a string if it is not a tuple. If
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the argument is a tuple then a tuple of strings is used.
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* position : int
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The position of the parameter within the signature of the
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function (zero-indexed). For keyword-only parameters the position
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value is arbitrary while not conflicting with positional
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parameters. The suggestion of setting the attribute to None or -1
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to represent keyword-only parameters was rejected to prevent
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variable type usage and as a possible point of errors,
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respectively.
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* default_value : object
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The default value for the parameter, if present, else the
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attribute does not exist.
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* keyword_only : bool
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True if the parameter is keyword-only, else False.
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* annotation
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Set to the annotation for the parameter. If ``has_annotation`` is
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False then the attribute does not exist to prevent accidental use.
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Implementation
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==============
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An implementation can be found in Python's sandbox [#impl]_.
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There is a function named ``signature()`` which
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returns the value stored on the ``__signature__`` attribute if it
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exists, else it creates the Signature object for the
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function and sets ``__signature__``. For methods this is stored
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directly on the im_func function object since that is what decorators
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work with.
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Examples
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========
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Annotation Checker
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------------------
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::
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def quack_check(fxn):
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"""Decorator to verify arguments and return value quack as they should.
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Positional arguments.
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>>> @quack_check
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... def one_arg(x:int): pass
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...
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>>> one_arg(42)
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>>> one_arg('a')
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Traceback (most recent call last):
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...
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TypeError: 'a' does not quack like a <type 'int'>
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*args
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>>> @quack_check
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... def var_args(*args:int): pass
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...
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>>> var_args(*[1,2,3])
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>>> var_args(*[1,'b',3])
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Traceback (most recent call last):
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...
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TypeError: *args contains a a value that does not quack like a <type 'int'>
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**kwargs
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>>> @quack_check
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... def var_kw_args(**kwargs:int): pass
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...
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>>> var_kw_args(**{'a': 1})
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>>> var_kw_args(**{'a': 'A'})
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Traceback (most recent call last):
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...
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TypeError: **kwargs contains a value that does not quack like a <type 'int'>
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Return annotations.
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>>> @quack_check
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... def returned(x) -> int: return x
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...
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>>> returned(42)
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42
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>>> returned('a')
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Traceback (most recent call last):
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...
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TypeError: the return value 'a' does not quack like a <type 'int'>
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"""
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# Get the signature; only needs to be calculated once.
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sig = Signature(fxn)
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def check(*args, **kwargs):
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# Find out the variable -> value bindings.
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bindings = sig.bind(*args, **kwargs)
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# Check *args for the proper quack.
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try:
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duck = sig.var_annotations[sig.var_args]
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except KeyError:
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pass
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else:
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# Check every value in *args.
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for value in bindings[sig.var_args]:
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if not isinstance(value, duck):
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raise TypeError("*%s contains a a value that does not "
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"quack like a %r" %
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(sig.var_args, duck))
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# Remove it from the bindings so as to not check it again.
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del bindings[sig.var_args]
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# **kwargs.
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try:
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duck = sig.var_annotations[sig.var_kw_args]
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except (KeyError, AttributeError):
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pass
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else:
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# Check every value in **kwargs.
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for value in bindings[sig.var_kw_args].values():
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if not isinstance(value, duck):
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raise TypeError("**%s contains a value that does not "
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"quack like a %r" %
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(sig.var_kw_args, duck))
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# Remove from bindings so as to not check again.
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del bindings[sig.var_kw_args]
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# For each remaining variable ...
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for var, value in bindings.items():
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# See if an annotation was set.
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try:
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duck = sig[var].annotation
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except AttributeError:
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continue
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# Check that the value quacks like it should.
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if not isinstance(value, duck):
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raise TypeError('%r does not quack like a %s' % (value, duck))
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else:
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# All the ducks quack fine; let the call proceed.
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returned = fxn(*args, **kwargs)
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# Check the return value.
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try:
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if not isinstance(returned, sig.return_annotation):
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raise TypeError('the return value %r does not quack like '
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'a %r' % (returned,
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sig.return_annotation))
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except AttributeError:
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pass
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return returned
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# Full-featured version would set function metadata.
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return check
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Open Issues
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===========
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When to construct the Signature object?
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---------------------------------------
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The Signature object can either be created in an eager or lazy
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fashion. In the eager situation, the object can be created during
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creation of the function object. In the lazy situation, one would
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pass a function object to a function and that would generate the
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Signature object and store it to ``__signature__`` if
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needed, and then return the value of ``__signature__``.
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Should ``Signature.bind`` return Parameter objects as keys?
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-----------------------------------------------------------
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Instead of returning a dict with keys consisting of the name of the
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parameters, would it be more useful to instead use Parameter
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objects? The name of the argument can easily be retrieved from the
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key (and the name would be used as the hash for a Parameter object).
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Have ``var_args`` and ``_var_kw_args`` default to ``None``?
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------------------------------------------------------------
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It has been suggested by Fred Drake that these two attributes have a
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value of ``None`` instead of empty strings when they do not exist.
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The answer to this question will influence what the defaults are for
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other attributes as well.
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Deprecate ``inspect.getargspec()`` and ``.formatargspec()``?
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-------------------------------------------------------------
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Since the Signature object replicates the use of ``getargspec()``
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from the ``inspect`` module it might make sense to deprecate it in
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2.6. ``formatargspec()`` could also go if Signature objects gained a
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__str__ representation.
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Issue with that is types such as ``int``, when used as annotations,
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do not lend themselves for output (e.g., ``"<type 'int'>"`` is the
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string represenation for ``int``). The repr representation of types
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would need to change in order to make this reasonable.
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Have the objects be "live"?
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---------------------------
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Jim Jewett pointed out that Signature and Parameter objects could be
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"live". That would mean requesting information would be done on the
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fly instead of caching it on the objects. It would also allow for
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mutating the function if the Signature or Parameter objects were
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mutated.
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References
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==========
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.. [#impl] pep362 directory in Python's sandbox
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(http://svn.python.org/view/sandbox/trunk/pep362/)
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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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..
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Local Variables:
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mode: indented-text
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indent-tabs-mode: nil
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sentence-end-double-space: t
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fill-column: 70
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coding: utf-8
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End:
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