362 lines
16 KiB
ReStructuredText
362 lines
16 KiB
ReStructuredText
PEP: 736
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Title: Shorthand syntax for keyword arguments at invocation
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Author: Joshua Bambrick <jbambrick@google.com>,
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Chris Angelico <rosuav@gmail.com>
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Sponsor: Guido van Rossum <guido@python.org>
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Discussions-To: https://discuss.python.org/t/syntactic-sugar-to-encourage-use-of-named-arguments/36217
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Status: Draft
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Type: Standards Track
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Created: 28-Nov-2023
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Python-Version: 3.13
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Post-History: 14-Oct-2023
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Abstract
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========
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This PEP proposes introducing syntactic sugar ``f(x=)`` for the common
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pattern where a named argument is the same as the name of the variable
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corresponding to its value ``f(x=x)``.
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Motivation
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==========
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Keyword argument syntax can become needlessly repetitive and verbose.
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Consider the following call:
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::
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my_function(
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my_first_variable=my_first_variable,
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my_second_variable=my_second_variable,
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my_third_variable=my_third_variable,
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)
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The case of a keyword argument name matching the variable name of its value is
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prevalent among all major Python libraries. This verbosity and redundancy
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discourages use of named arguments and reduces readability by increasing visual
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noise.
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Rationale
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=========
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There are two ways to invoke a function with arguments: by position and by
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keyword. Keyword arguments confer many benefits by being explicit, thus
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increasing readability and minimising the risk of inadvertent transposition. On
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the flipside, positional arguments are often used simply to minimise verbosity
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and visual noise.
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We contend that a simple syntactic sugar used to simplify this common pattern
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which would confer numerous benefits:
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Encourages use of named variables
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---------------------------------
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This syntax would encourage the use of named variables, thereby increasing
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readability (*explicit is better than implicit*) and reducing bugs from argument
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transposition.
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Reduces verbosity
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-----------------
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By minimising visual noise and in some cases lines of code, we can increase
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readability (*readability counts*).
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Encourages consistent variable names
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------------------------------------
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A common problem is that semantically identical variables have different names
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depending on their contexts. This syntax would encourage authors to use the same
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variable name when calling a function as the argument name, which would increase
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consistency of variable names used and hence also *readability*.
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Applicability to dictionary construction
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----------------------------------------
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This syntax can be applied to dictionary construction where a similar
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pattern frequently occurs (where dictionary keys are identical the names of the
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variables assigned as their values), ``{"x": x, "y": y}`` or ``dict(x=x, y=y)``.
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With this feature, this can now also be trivially written as ``dict(x=, y=)``.
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Whether to further support similar syntax in dictionary literals is an open
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question out of the scope of this PEP.
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Specification
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=============
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We propose to introduce syntactic sugar such that, if the value of a keyword
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argument is omitted from a function invocation, the argument's value is inferred
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to be the variable matching that name at the invocation scope.
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For example, the function invocation:
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::
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my_function(my_first_variable=, my_second_variable=, my_third_variable=)
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Will be interpreted exactly equivalently to following in existing syntax:
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::
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my_function(
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my_first_variable=my_first_variable,
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my_second_variable=my_second_variable,
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my_third_variable=my_third_variable,
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)
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If no variable matches that name in the invocation scope, a ``NameError`` is
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raised in an identical manner as would be with the established expanded syntax.
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This proposal only pertains to function invocations; function defintions are
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unaffected by the syntax change. All existing valid syntax is unchanged.
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Backwards Compatibility
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=======================
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Only new syntax is added which was previously syntactically erroreous. No
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existing valid syntax is modified. As such, the changes proposed are fully
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backwards compatible.
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Security Implications
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=====================
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There are no security implications for this change.
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How to Teach This
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=================
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Programmers may learn about this feature as an optional abbreviated syntax where
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keyword arguments are taught. The
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`Python Glossary <https://docs.python.org/3/glossary.html#term-argument>`__ and
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`Tutorial <https://docs.python.org/3/tutorial/controlflow.html#keyword-arguments>`__
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may be updated accordingly.
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Prior Art
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=========
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Python already possesses a very similar feature in f-string interpolation where
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``f'{x=}'`` is effectively expanded to ``f'x={x}'`` [1]_.
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Several modern languages provide similar features during function invocation,
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sometimes referred to as 'punning'. For example:
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* In Ruby, ``f(x:, y:)`` is syntactic sugar for ``f(x: x, y: y)`` [2]_.
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* In ReasonML, ``f(~x, ~y)`` is syntactic sugar for ``f(~x=x, ~y=y)`` [3]_.
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* In SystemVerilog, ``(.mult, .mop1, .data);`` is syntactic sugar for
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``(.mult(mult), .mop1(mop1), .data(data));`` [4]_.
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Beyond function invocation specifically, more languages offer similar features:
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* In OCaml, ``let+ x in …`` is syntactic sugar for ``let+ x = x in …`` [5]_.
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* In JavaScript, ``{ x, y }`` is syntactic sugar for ``{x: x, y: y}`` [6]_.
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* In Rust, ``User { x, y }`` is shorthand for ``User {x: x, y: y}`` [7]_.
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Applicability
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=============
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We analysed popular Python libraries using
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`this script <https://gist.github.com/joshuabambrick/a850d0e0050129b9252c748fa06c48b2>`__
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to compute:
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* The number of keyword arguments were of the form ``f(x=x)`` at invocation.
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* The percentage of keyword arguments which had the form ``f(x=x)`` at
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invocation.
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* The number of lines of code which could be saved by using this syntactic sugar
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to reduce the need for line wraps.
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===================================================================== ================ ============== =============== =====================
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Statistic `cpython <a_>`__ `numpy <b_>`__ `pandas <c_>`__ `scikit-learn <d_>`__
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===================================================================== ================ ============== =============== =====================
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Number of keyword arguments of the form ``f(x=x)`` at invocation 4,225 2,768 13,235 8,342
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Percentage of keyword arguments of the form ``f(x=x)`` at invocation 11.06% 13.17% 17.24% 18.64%
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Lines saved 290 247 935 794
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===================================================================== ================ ============== =============== =====================
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.. _a: https://github.com/python/cpython/pull/111423/
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.. _b: https://github.com/numpy/numpy/pull/25021/
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.. _c: https://github.com/pandas-dev/pandas/pull/55744/
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.. _d: https://github.com/scikit-learn/scikit-learn/pull/27680/
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Based on this, we note that the ``f(x=x)`` keyword argument pattern is
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widespread, accounting for 10-20% of all keyword argument uses.
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Proposed Syntax
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===============
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While this feature has been proposed on numerous occasions with several
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different forms [8]_ [9]_ [10]_ [11]_ [12]_, [13]_ we have opted to advocate
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for the ``f(x=)`` form for the following reasons:
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* This feature has been proposed frequently over a ten year period with the
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``f(x=)`` or ``f(=x)`` being by far the most common syntax [8]_ [9]_ [13]_.
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This is a strong indicator that it is the obvious notation.
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* The proposed syntax closely matches the f-string debug ``f'{var=}'`` syntax
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(established Pythonic style) and serves an almost identical purpose.
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* The proposed syntax is exactly analogous to the Ruby keyword argument
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syntactic sugar [2]_.
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* The syntax is easy to implement as it is simple syntactic sugar.
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* When compared to the prefix form (see `Rejected Ideas`_), this syntax
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communicates "here is a parameter, go find its argument" which is more
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appropriate given the semantics of named arguments.
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* `A poll of Python developers <https://discuss.python.org/t/syntactic-sugar-to-encourage-use-of-named-arguments/36217/130>`__
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indicates that this is the most popular syntax among those proposed.
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Rejected Ideas
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==============
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Many alternative syntaxes have been proposed however no syntax other than
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``f(=x)`` or ``f(x=)`` has garnered significant support. We here enumerate some
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of the most popular proposed alternatives and why we ultimately reject them.
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``f(=x)``
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----------
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In favour of this form:
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* The prefix operator is more similar to the established ``*args`` and
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``**kwargs`` syntax for function calls.
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* It draws more attention to itself when arguments are arranged vertically. In
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particular, if the arguments are of different lengths it is harder to find the
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equal sign at the end. Moreover, since Python is read left to right, the use
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of this feature is clearer to the reader earlier on.
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On the contrary:
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* While the prefix version is visually louder, in practice, there is no need for
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this feature to shout its presence any more than a typical named argument. By
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the time we read to the ``=`` it is clear that the value is filled in
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automatically just as the value is clear in the typical keyword argument case.
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* Semantically, this form communicates 'here is a value, fill in the parameter'.
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* which is not what we want to convey.
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* Less similar to f-string syntax.
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* Less obvious that arbitrary expressions are invalid, e.g. ``f(=a+b)``.
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``f(%x)`` or ``f(:x)`` or ``f(.x)``
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-----------------------------------
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Several flavours of this syntax have been proposed with the prefix form
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substituting another character for ``=``. However, no such form has gained
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traction and the choice of symbol seems arbitrary compared to ``=``.
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Additionally, there is less precedent in terms of existing language features
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(such as f-string) or other languages (such as Ruby).
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``f(a, b, *, x)``
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-----------------
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On a few occasions the idea has been floated to borrow the syntax from
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keyword-only function definitions. This is less arbitrary than ``f(%x)`` or
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variants, but no less so than ``f(x=)``.
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However, we object that:
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* For any given argument, it is less clear from local context whether it is
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positional or named. The ``*`` could easily be missed in a long argument list
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and named arguments may be read as positional or vice versa.
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* It is unclear whether keyword arguments for which the value was not elided may
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follow the ``*``. If so, then their relative position will be inconsistent but
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if not, then an arbitrary grouping is enforced between different types of
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keyword arguments.
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Objections
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==========
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There are only a few hard objections to the introduction of this syntactic
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sugar. Most of those not in favour of this feature are in the camp of 'I
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wouldn't use it'. However, over the extensive conversations about this feature,
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the following objections were the most common:
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The syntax is ugly
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------------------
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This objection is by far the most common. On the contrary, we argue that:
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* This objection is is subjective and many community members disagree.
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* A nearly-identical syntax is already established for f-strings.
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* Programmers will, as ever, adjust over time.
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The feature is confusing
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------------------------
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We argue that:
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* Introducing new features typically has this impact temporarily.
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* The syntax is very similar to the established ``f'{x=}'`` syntax.
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* The feature and syntax are familiar from other popular modern languages.
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* The expansion of ``x=`` to ``x=x`` is in fact a trivial feature and inherently
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significantly less complex than ``*arg`` and ``**kwarg`` expansion.
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* This particular syntactic form has been independently proposed on numerous
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occasions, indicating that it is the most obvious [8]_ [9]_ [13]_.
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The feature is not explicit
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---------------------------
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This is based on a misunderstanding of the Zen of Python. Keyword arguments are
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fundamentally more explicit than positional ones where argument assignment is
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only visible at the function definition. On the contrary, the proposed syntactic
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sugar contains all the information as is conveyed by the established keyword
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argument syntax but without the redundancy. Moreover, the introduction of this
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syntactic sugar incentivises use of keyword arguments, making typical Python
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codebases more explicit.
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The feature adds another way of doing things
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--------------------------------------------
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The same argument can be made against all syntax changes. This is a simple
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syntactic sugar, much as ``x += 1`` is sugar for ``x = x + 1`` when ``x`` is an
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integer. This isn't tantamount to a 'new way' of passing arguments but a more
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readable notation for the same way.
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Renaming the variable in the calling context will break the code
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----------------------------------------------------------------
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A ``NameError`` would make the mistake abundantly clear. Moreover, text editors
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could highlight this based on static analysis ‒ ``f(x=)`` is exactly equivalent
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to writing ``f(x=x)``. If ``x`` does not exist, modern editors have no problem
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highlighting the issue.
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Recommendations
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===============
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As with any other language feature, the programmer should exercise their own
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judgement about whether to use it in any given context. We do not recommend
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enforcing a rule to use the feature in all cases where it may be applicable.
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Reference Implementation
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========================
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`A proposed implementation <https://github.com/Hels15/cpython/tree/last-build>`_
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for cpython has been provided by @Hels15.
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References
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==========
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.. [1] Issue 36817: Add = to f-strings for easier debugging. - Python tracker
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https://bugs.python.org/issue36817
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.. [2] Ruby keyword argument syntactic sugar
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https://www.ruby-lang.org/en/news/2021/12/25/ruby-3-1-0-released/#:~:text=Other%20Notable%20New%20Features
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.. [3] ReasonML named argument punning
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https://reasonml.github.io/docs/en/function#:~:text=Named%20argument%20punning
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.. [4] SystemVerilog Implicit Port Connections
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http://www.sunburst-design.com/papers/CummingsDesignCon2005_SystemVerilog_ImplicitPorts.pdf
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.. [5] OCaml Short notation for variable bindings (let-punning)
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https://v2.ocaml.org/manual/bindingops.html#ss:letops-punning
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.. [6] JavaScript Object Initializer
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https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/Object_initializer
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.. [7] Rust Using the Field Init Shorthand
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https://doc.rust-lang.org/book/ch05-01-defining-structs.html#using-the-field-init-shorthand-when-variables-and-fields-have-the-same-name
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.. [8] Short form for keyword arguments and dicts (2013)
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https://mail.python.org/archives/list/python-ideas@python.org/thread/SQKZ273MYAY5WNIQRGEDLYTKVORVKNEZ/#LXMU22F63VPCF7CMQ4OQRH2CG6H7WCQ6
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.. [9] Keyword arguments self-assignment (2020)
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https://mail.python.org/archives/list/python-ideas@python.org/thread/SIMIOC7OW6QKLJOTHJJVNNBDSXDE2SGV/
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.. [10] Shorthand notation of dict literal and function call (2020)
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https://discuss.python.org/t/shorthand-notation-of-dict-literal-and-function-call/5697/1
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.. [11] Allow identifiers as keyword arguments at function call site (extension
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of PEP 3102?) (2023)
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https://discuss.python.org/t/allow-identifiers-as-keyword-arguments-at-function-call-site-extension-of-pep-3102/31677
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.. [12] Shorten Keyword Arguments with Implicit Notation: foo(a=a, b=b) to foo(.a, .b) (2023)
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https://discuss.python.org/t/shorten-keyword-arguments-with-implicit-notation-foo-a-a-b-b-to-foo-a-b/33080
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.. [13] Syntactic sugar to encourage use of named arguments (2023)
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https://discuss.python.org/t/syntactic-sugar-to-encourage-use-of-named-arguments/36217
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Copyright
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=========
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This document is placed in the public domain or under the
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CC0-1.0-Universal license, whichever is more permissive.
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