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| PEP: 309 | |
| Title: Partial Function Application | |
| Version: $Revision$ | |
| Last-Modified: $Date$ | |
| Author: Peter Harris <scav@blueyonder.co.uk> | |
| Status: Final | |
| Type: Standards Track | |
| Content-Type: text/x-rst | |
| Created: 08-Feb-2003 | |
| Python-Version: 2.5 | |
| Post-History: 10-Feb-2003, 27-Feb-2003, 22-Feb-2004, 28-Apr-2006 | |
| Note | |
| ==== | |
| Following the acceptance of this PEP, further discussion on python-dev and | |
| comp.lang.python revealed a desire for several tools that operated on | |
| function objects, but were not related to functional programming. Rather | |
| than create a new module for these tools, it was agreed [1]_ that the | |
| "functional" module be renamed to "functools" to reflect its newly-widened | |
| focus. | |
| References in this PEP to a "functional" module have been left in for | |
| historical reasons. | |
| Abstract | |
| ======== | |
| This proposal is for a function or callable class that allows a new | |
| callable to be constructed from a callable and a partial argument list | |
| (including positional and keyword arguments). | |
| I propose a standard library module called "functional", to hold | |
| useful higher-order functions, including the implementation of | |
| partial(). | |
| An implementation has been submitted to SourceForge [2]_. | |
| Acceptance | |
| ========== | |
| Patch #941881 was accepted and applied in 2005 for Py2.5. It is | |
| essentially as outlined here, a partial() type constructor binding | |
| leftmost positional arguments and any keywords. The partial object has | |
| three read-only attributes func, args, and keywords. Calls to the partial | |
| object can specify keywords that override those in the object itself. | |
| There is a separate and continuing discussion of whether to modify the | |
| partial implementation with a __get__ method to more closely emulate | |
| the behavior of an equivalent function. | |
| Motivation | |
| ========== | |
| In functional programming, function currying is a way of implementing | |
| multi-argument functions in terms of single-argument functions. A | |
| function with N arguments is really a function with 1 argument that | |
| returns another function taking (N-1) arguments. Function application | |
| in languages like Haskell and ML works such that a function call:: | |
| f x y z | |
| actually means:: | |
| (((f x) y) z) | |
| This would be only an obscure theoretical issue except that in actual | |
| programming it turns out to be very useful. Expressing a function in | |
| terms of partial application of arguments to another function can be | |
| both elegant and powerful, and in functional languages it is heavily | |
| used. | |
| In some functional languages, (e.g. Miranda) you can use an expression | |
| such as ``(+1)`` to mean the equivalent of Python's | |
| ``(lambda x: x + 1)``. | |
| In general, languages like that are strongly typed, so the compiler | |
| always knows the number of arguments expected and can do the right | |
| thing when presented with a functor and less arguments than expected. | |
| Python does not implement multi-argument functions by currying, so if | |
| you want a function with partially-applied arguments you would | |
| probably use a lambda as above, or define a named function for each | |
| instance. | |
| However, lambda syntax is not to everyone's taste, so say the least. | |
| Furthermore, Python's flexible parameter passing using both positional | |
| and keyword presents an opportunity to generalise the idea of partial | |
| application and do things that lambda cannot. | |
| Example Implementation | |
| ====================== | |
| Here is one way to do a create a callable with partially-applied | |
| arguments in Python. The implementation below is based on improvements | |
| provided by Scott David Daniels:: | |
| class partial(object): | |
| def __init__(*args, **kw): | |
| self = args[0] | |
| self.fn, self.args, self.kw = (args[1], args[2:], kw) | |
| def __call__(self, *args, **kw): | |
| if kw and self.kw: | |
| d = self.kw.copy() | |
| d.update(kw) | |
| else: | |
| d = kw or self.kw | |
| return self.fn(*(self.args + args), **d) | |
| (A recipe similar to this has been in the Python Cookbook for some | |
| time [3]_.) | |
| Note that when the object is called as though it were a function, | |
| positional arguments are appended to those provided to the | |
| constructor, and keyword arguments override and augment those provided | |
| to the constructor. | |
| Positional arguments, keyword arguments or both can be supplied at | |
| when creating the object and when calling it. | |
| Examples of Use | |
| =============== | |
| So ``partial(operator.add, 1)`` is a bit like ``(lambda x: 1 + x)``. | |
| Not an example where you see the benefits, of course. | |
| Note too, that you could wrap a class in the same way, since classes | |
| themselves are callable factories for objects. So in some cases, | |
| rather than defining a subclass, you can specialise classes by partial | |
| application of the arguments to the constructor. | |
| For example, ``partial(Tkinter.Label, fg='blue')`` makes Tkinter | |
| Labels that have a blue foreground by default. | |
| Here's a simple example that uses partial application to construct | |
| callbacks for Tkinter widgets on the fly:: | |
| from Tkinter import Tk, Canvas, Button | |
| import sys | |
| from functional import partial | |
| win = Tk() | |
| c = Canvas(win,width=200,height=50) | |
| c.pack() | |
| for colour in sys.argv[1:]: | |
| b = Button(win, text=colour, | |
| command=partial(c.config, bg=colour)) | |
| b.pack(side='left') | |
| win.mainloop() | |
| Abandoned Syntax Proposal | |
| ========================= | |
| I originally suggested the syntax ``fn@(*args, **kw)``, meaning the | |
| same as ``partial(fn, *args, **kw)``. | |
| The @ sign is used in some assembly languages to imply register | |
| indirection, and the use here is also a kind of indirection. | |
| ``f@(x)`` is not ``f(x)``, but a thing that becomes ``f(x)`` when you | |
| call it. | |
| It was not well-received, so I have withdrawn this part of the | |
| proposal. In any case, @ has been taken for the new decorator syntax. | |
| Feedback from comp.lang.python and python-dev | |
| ============================================= | |
| Among the opinions voiced were the following (which I summarise): | |
| * Lambda is good enough. | |
| * The @ syntax is ugly (unanimous). | |
| * It's really a curry rather than a closure. There is an almost | |
| identical implementation of a curry class on ActiveState's Python | |
| Cookbook. | |
| * A curry class would indeed be a useful addition to the standard | |
| library. | |
| * It isn't function currying, but partial application. Hence the | |
| name is now proposed to be partial(). | |
| * It maybe isn't useful enough to be in the built-ins. | |
| * The idea of a module called ``functional`` was well received, and | |
| there are other things that belong there (for example function | |
| composition). | |
| * For completeness, another object that appends partial arguments | |
| after those supplied in the function call (maybe called | |
| ``rightcurry``) has been suggested. | |
| I agree that lambda is usually good enough, just not always. And I | |
| want the possibility of useful introspection and subclassing. | |
| I disagree that @ is particularly ugly, but it may be that I'm just | |
| weird. We have dictionary, list and tuple literals neatly | |
| differentiated by special punctuation -- a way of directly expressing | |
| partially-applied function literals is not such a stretch. However, | |
| not one single person has said they like it, so as far as I'm | |
| concerned it's a dead parrot. | |
| I concur with calling the class partial rather than curry or closure, | |
| so I have amended the proposal in this PEP accordingly. But not | |
| throughout: some incorrect references to 'curry' have been left in | |
| since that's where the discussion was at the time. | |
| Partially applying arguments from the right, or inserting arguments at | |
| arbitrary positions creates its own problems, but pending discovery of | |
| a good implementation and non-confusing semantics, I don't think it | |
| should be ruled out. | |
| Carl Banks posted an implementation as a real functional closure:: | |
| def curry(fn, *cargs, **ckwargs): | |
| def call_fn(*fargs, **fkwargs): | |
| d = ckwargs.copy() | |
| d.update(fkwargs) | |
| return fn(*(cargs + fargs), **d) | |
| return call_fn | |
| which he assures me is more efficient. | |
| I also coded the class in Pyrex, to estimate how the performance | |
| might be improved by coding it in C:: | |
| cdef class curry: | |
| cdef object fn, args, kw | |
| def __init__(self, fn, *args, **kw): | |
| self.fn=fn | |
| self.args=args | |
| self.kw = kw | |
| def __call__(self, *args, **kw): | |
| if self.kw: # from Python Cookbook version | |
| d = self.kw.copy() | |
| d.update(kw) | |
| else: | |
| d=kw | |
| return self.fn(*(self.args + args), **d) | |
| The performance gain in Pyrex is less than 100% over the nested | |
| function implementation, since to be fully general it has to operate | |
| by Python API calls. For the same reason, a C implementation will be | |
| unlikely to be much faster, so the case for a built-in coded in C is | |
| not very strong. | |
| Summary | |
| ======= | |
| I prefer that some means to partially-apply functions and other | |
| callables should be present in the standard library. | |
| A standard library module ``functional`` should contain an | |
| implementation of ``partial``, and any other higher-order functions | |
| the community want. Other functions that might belong there fall | |
| outside the scope of this PEP though. | |
| Patches for the implementation, documentation and unit tests (SF | |
| patches 931005_, 931007_, and 931010_ respectively) have been | |
| submitted but not yet checked in. | |
| A C implementation by Hye-Shik Chang has also been submitted, although | |
| it is not expected to be included until after the Python | |
| implementation has proven itself useful enough to be worth optimising. | |
| References | |
| ========== | |
| .. [1] https://mail.python.org/pipermail/python-dev/2006-March/062290.html | |
| .. [2] Patches 931005_, 931007_, and 931010_. | |
| .. [3] http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/52549 | |
| .. _931005: https://bugs.python.org/issue931005 | |
| .. _931007: https://bugs.python.org/issue931007 | |
| .. _931010: https://bugs.python.org/issue931010 | |
| Copyright | |
| ========= | |
| This document has been placed in the public domain. | |
| .. | |
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