876 lines
31 KiB
ReStructuredText
876 lines
31 KiB
ReStructuredText
PEP: 505
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Title: None-aware operators
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Version: $Revision$
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Last-Modified: $Date$
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Author: Mark E. Haase <mehaase@gmail.com>, Steve Dower <steve.dower@python.org>
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Status: Deferred
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 18-Sep-2015
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Python-Version: 3.8
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Abstract
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========
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Several modern programming languages have so-called "``null``-coalescing" or
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"``null``- aware" operators, including C# [1]_, Dart [2]_, Perl, Swift, and PHP
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(starting in version 7). There are also stage 3 draft proposals for their
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addition to ECMAScript (a.k.a. JavaScript) [3]_ [4]_. These operators provide
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syntactic sugar for common patterns involving null references.
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* The "``null``-coalescing" operator is a binary operator that returns its left
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operand if it is not ``null``. Otherwise it returns its right operand.
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* The "``null``-aware member access" operator accesses an instance member only
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if that instance is non-``null``. Otherwise it returns ``null``. (This is also
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called a "safe navigation" operator.)
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* The "``null``-aware index access" operator accesses an element of a collection
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only if that collection is non-``null``. Otherwise it returns ``null``. (This
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is another type of "safe navigation" operator.)
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This PEP proposes three ``None``-aware operators for Python, based on the
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definitions and other language's implementations of those above. Specifically:
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* The "``None`` coalescing" binary operator ``??`` returns the left hand side
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if it evaluates to a value that is not ``None``, or else it evaluates and
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returns the right hand side. A coalescing ``??=`` augmented assignment
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operator is included.
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* The "``None``-aware attribute access" operator ``?.`` ("maybe dot") evaluates
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the complete expression if the left hand side evaluates to a value that is
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not ``None``
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* The "``None``-aware indexing" operator ``?[]`` ("maybe subscript") evaluates
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the complete expression if the left hand site evaluates to a value that is
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not ``None``
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See the `Grammar changes`_ section for specifics and examples of the required
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grammar changes.
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See the `Examples`_ section for more realistic examples of code that could be
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updated to use the new operators.
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Syntax and Semantics
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====================
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Specialness of ``None``
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-----------------------
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The ``None`` object denotes the lack of a value. For the purposes of these
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operators, the lack of a value indicates that the remainder of the expression
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also lacks a value and should not be evaluated.
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A rejected proposal was to treat any value that evaluates as "false" in a
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Boolean context as not having a value. However, the purpose of these operators
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is to propagate the "lack of value" state, rather than the "false" state.
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Some argue that this makes ``None`` special. We contend that ``None`` is
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already special, and that using it as both the test and the result of these
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operators does not change the existing semantics in any way.
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See the `Rejected Ideas`_ section for discussions on alternate approaches.
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Grammar changes
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---------------
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The following rules of the Python grammar are updated to read::
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augassign: ('+=' | '-=' | '*=' | '@=' | '/=' | '%=' | '&=' | '|=' | '^=' |
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'<<=' | '>>=' | '**=' | '//=' | '??=')
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power: coalesce ['**' factor]
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coalesce: atom_expr ['??' factor]
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atom_expr: ['await'] atom trailer*
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trailer: ('(' [arglist] ')' |
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'[' subscriptlist ']' |
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'?[' subscriptlist ']' |
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'.' NAME |
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'?.' NAME)
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The coalesce rule
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*****************
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The ``coalesce`` rule provides the ``??`` binary operator. Unlike most binary
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operators, the right-hand side is not evaluated until the left-hand side is
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determined to be ``None``.
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The ``??`` operator binds more tightly than other binary operators as most
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existing implementations of these do not propagate ``None`` values (they will
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typically raise ``TypeError``). Expressions that are known to potentially
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result in ``None`` can be substituted for a default value without needing
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additional parentheses.
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Some examples of how implicit parentheses are placed when evaluating operator
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precedence in the presence of the ``??`` operator::
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a, b = None, None
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def c(): return None
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def ex(): raise Exception()
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(a ?? 2 ** b ?? 3) == a ?? (2 ** (b ?? 3))
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(a * b ?? c // d) == a * (b ?? c) // d
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(a ?? True and b ?? False) == (a ?? True) and (b ?? False)
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(c() ?? c() ?? True) == True
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(True ?? ex()) == True
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(c ?? ex)() == c()
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Particularly for cases such as ``a ?? 2 ** b ?? 3``, parenthesizing the
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sub-expressions any other way would result in ``TypeError``, as ``int.__pow__``
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cannot be called with ``None`` (and the fact that the ``??`` operator is used
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at all implies that ``a`` or ``b`` may be ``None``). However, as usual,
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while parentheses are not required they should be added if it helps improve
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readability.
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An augmented assignment for the ``??`` operator is also added. Augmented
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coalescing assignment only rebinds the name if its current value is ``None``.
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If the target name already has a value, the right-hand side is not evaluated.
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For example::
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a = None
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b = ''
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c = 0
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a ??= 'value'
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b ??= undefined_name
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c ??= shutil.rmtree('/') # don't try this at home, kids
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assert a == 'value'
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assert b == ''
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assert c == 0 and any(os.scandir('/'))
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The maybe-dot and maybe-subscript operators
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*******************************************
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The maybe-dot and maybe-subscript operators are added as trailers for atoms,
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so that they may be used in all the same locations as the regular operators,
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including as part of an assignment target (more details below). As the
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existing evaluation rules are not directly embedded in the grammar, we specify
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the required changes below.
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Assume that the ``atom`` is always successfully evaluated. Each ``trailer`` is
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then evaluated from left to right, applying its own parameter (either its
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arguments, subscripts or attribute name) to produce the value for the next
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``trailer``. Finally, if present, ``await`` is applied.
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For example, ``await a.b(c).d[e]`` is currently parsed as
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``['await', 'a', '.b', '(c)', '.d', '[e]']`` and evaluated::
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_v = a
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_v = _v.b
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_v = _v(c)
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_v = _v.d
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_v = _v[e]
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await _v
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When a ``None``-aware operator is present, the left-to-right evaluation may be
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short-circuited. For example, ``await a?.b(c).d?[e]`` is evaluated::
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_v = a
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if _v is not None:
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_v = _v.b
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_v = _v(c)
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_v = _v.d
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if _v is not None:
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_v = _v[e]
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await _v
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.. note::
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``await`` will almost certainly fail in this context, as it would in
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the case where code attempts ``await None``. We are not proposing to add a
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``None``-aware ``await`` keyword here, and merely include it in this
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example for completeness of the specification, since the ``atom_expr``
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grammar rule includes the keyword. If it were in its own rule, we would have
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never mentioned it.
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Parenthesised expressions are handled by the ``atom`` rule (not shown above),
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which will implicitly terminate the short-circuiting behaviour of the above
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transformation. For example, ``(a?.b ?? c).d?.e`` is evaluated as::
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# a?.b
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_v = a
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if _v is not None:
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_v = _v.b
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# ... ?? c
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if _v is None:
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_v = c
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# (...).d?.e
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_v = _v.d
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if _v is not None:
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_v = _v.e
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When used as an assignment target, the ``None``-aware operations may only be
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used in a "load" context. That is, ``a?.b = 1`` and ``a?[b] = 1`` will raise
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``SyntaxError``. Use earlier in the expression (``a?.b.c = 1``) is permitted,
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though unlikely to be useful unless combined with a coalescing operation::
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(a?.b ?? d).c = 1
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Reading expressions
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-------------------
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For the maybe-dot and maybe-subscript operators, the intention is that
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expressions including these operators should be read and interpreted as for the
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regular versions of these operators. In "normal" cases, the end results are
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going to be identical between an expression such as ``a?.b?[c]`` and
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``a.b[c]``, and just as we do not currently read "a.b" as "read attribute b
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from a *if it has an attribute a or else it raises AttributeError*", there is
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no need to read "a?.b" as "read attribute b from a *if a is not None*"
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(unless in a context where the listener needs to be aware of the specific
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behaviour).
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For coalescing expressions using the ``??`` operator, expressions should either
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be read as "or ... if None" or "coalesced with". For example, the expression
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``a.get_value() ?? 100`` would be read "call a dot get_value or 100 if None",
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or "call a dot get_value coalesced with 100".
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.. note::
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Reading code in spoken text is always lossy, and so we make no attempt to
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define an unambiguous way of speaking these operators. These suggestions
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are intended to add context to the implications of adding the new syntax.
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Examples
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========
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This section presents some examples of common ``None`` patterns and shows what
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conversion to use ``None``-aware operators may look like.
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Standard Library
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----------------
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Using the ``find-pep505.py`` script[5]_ an analysis of the Python 3.7 standard
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library discovered up to 678 code snippets that could be replaced with use of
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one of the ``None``-aware operators::
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$ find /usr/lib/python3.7 -name '*.py' | xargs python3.7 find-pep505.py
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<snip>
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Total None-coalescing `if` blocks: 449
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Total [possible] None-coalescing `or`: 120
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Total None-coalescing ternaries: 27
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Total Safe navigation `and`: 13
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Total Safe navigation `if` blocks: 61
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Total Safe navigation ternaries: 8
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Some of these are shown below as examples before and after converting to use the
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new operators.
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From ``bisect.py``::
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def insort_right(a, x, lo=0, hi=None):
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# ...
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if hi is None:
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hi = len(a)
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# ...
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After updating to use the ``??=`` augmented assignment statement::
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def insort_right(a, x, lo=0, hi=None):
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# ...
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hi ??= len(a)
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# ...
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From ``calendar.py``::
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encoding = options.encoding
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if encoding is None:
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encoding = sys.getdefaultencoding()
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optdict = dict(encoding=encoding, css=options.css)
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After updating to use the ``??`` operator::
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optdict = dict(encoding=options.encoding ?? sys.getdefaultencoding(),
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css=options.css)
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From ``email/generator.py`` (and importantly note that there is no way to
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substitute ``or`` for ``??`` in this situation)::
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mangle_from_ = True if policy is None else policy.mangle_from_
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After updating::
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mangle_from_ = policy?.mangle_from_ ?? True
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From ``asyncio/subprocess.py``::
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def pipe_data_received(self, fd, data):
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if fd == 1:
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reader = self.stdout
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elif fd == 2:
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reader = self.stderr
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else:
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reader = None
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if reader is not None:
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reader.feed_data(data)
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After updating to use the ``?.`` operator::
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def pipe_data_received(self, fd, data):
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if fd == 1:
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reader = self.stdout
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elif fd == 2:
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reader = self.stderr
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else:
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reader = None
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reader?.feed_data(data)
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From ``asyncio/tasks.py``::
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try:
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await waiter
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finally:
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if timeout_handle is not None:
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timeout_handle.cancel()
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After updating to use the ``?.`` operator::
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try:
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await waiter
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finally:
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timeout_handle?.cancel()
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From ``ctypes/_aix.py``::
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if libpaths is None:
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libpaths = []
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else:
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libpaths = libpaths.split(":")
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After updating::
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libpaths = libpaths?.split(":") ?? []
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From ``os.py``::
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if entry.is_dir():
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dirs.append(name)
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if entries is not None:
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entries.append(entry)
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else:
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nondirs.append(name)
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After updating to use the ``?.`` operator::
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if entry.is_dir():
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dirs.append(name)
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entries?.append(entry)
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else:
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nondirs.append(name)
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From ``importlib/abc.py``::
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def find_module(self, fullname, path):
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if not hasattr(self, 'find_spec'):
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return None
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found = self.find_spec(fullname, path)
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return found.loader if found is not None else None
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After partially updating::
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def find_module(self, fullname, path):
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if not hasattr(self, 'find_spec'):
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return None
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return self.find_spec(fullname, path)?.loader
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After extensive updating (arguably excessive, though that's for the style
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guides to determine)::
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def find_module(self, fullname, path):
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return getattr(self, 'find_spec', None)?.__call__(fullname, path)?.loader
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From ``dis.py``::
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def _get_const_info(const_index, const_list):
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argval = const_index
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if const_list is not None:
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argval = const_list[const_index]
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return argval, repr(argval)
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After updating to use the ``?[]`` and ``??`` operators::
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def _get_const_info(const_index, const_list):
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argval = const_list?[const_index] ?? const_index
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return argval, repr(argval)
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jsonify
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-------
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This example is from a Python web crawler that uses the Flask framework as its
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front-end. This function retrieves information about a web site from a SQL
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database and formats it as JSON to send to an HTTP client::
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class SiteView(FlaskView):
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@route('/site/<id_>', methods=['GET'])
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def get_site(self, id_):
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site = db.query('site_table').find(id_)
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return jsonify(
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first_seen=site.first_seen.isoformat() if site.first_seen is not None else None,
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id=site.id,
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is_active=site.is_active,
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last_seen=site.last_seen.isoformat() if site.last_seen is not None else None,
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url=site.url.rstrip('/')
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)
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Both ``first_seen`` and ``last_seen`` are allowed to be ``null`` in the
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database, and they are also allowed to be ``null`` in the JSON response. JSON
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does not have a native way to represent a ``datetime``, so the server's contract
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states that any non-``null`` date is represented as an ISO-8601 string.
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Without knowing the exact semantics of the ``first_seen`` and ``last_seen``
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attributes, it is impossible to know whether the attribute can be safely or
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performantly accessed multiple times.
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One way to fix this code is to replace each conditional expression with an
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explicit value assignment and a full ``if``/``else`` block::
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class SiteView(FlaskView):
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@route('/site/<id_>', methods=['GET'])
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def get_site(self, id_):
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site = db.query('site_table').find(id_)
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first_seen_dt = site.first_seen
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if first_seen_dt is None:
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first_seen = None
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else:
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first_seen = first_seen_dt.isoformat()
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last_seen_dt = site.last_seen
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if last_seen_dt is None:
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last_seen = None
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else:
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last_seen = last_seen_dt.isoformat()
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return jsonify(
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first_seen=first_seen,
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id=site.id,
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is_active=site.is_active,
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last_seen=last_seen,
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url=site.url.rstrip('/')
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)
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This adds ten lines of code and four new code paths to the function,
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dramatically increasing the apparent complexity. Rewriting using the
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``None``-aware attribute operator results in shorter code with more clear
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intent::
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class SiteView(FlaskView):
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@route('/site/<id_>', methods=['GET'])
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def get_site(self, id_):
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site = db.query('site_table').find(id_)
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return jsonify(
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first_seen=site.first_seen?.isoformat(),
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id=site.id,
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is_active=site.is_active,
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last_seen=site.last_seen?.isoformat(),
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url=site.url.rstrip('/')
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)
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Grab
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----
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The next example is from a Python scraping library called `Grab
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<https://github.com/lorien/grab/blob/4c95b18dcb0fa88eeca81f5643c0ebfb114bf728/gr
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ab/upload.py>`_::
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class BaseUploadObject(object):
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def find_content_type(self, filename):
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ctype, encoding = mimetypes.guess_type(filename)
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if ctype is None:
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return 'application/octet-stream'
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else:
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return ctype
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class UploadContent(BaseUploadObject):
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def __init__(self, content, filename=None, content_type=None):
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self.content = content
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if filename is None:
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self.filename = self.get_random_filename()
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else:
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self.filename = filename
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if content_type is None:
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self.content_type = self.find_content_type(self.filename)
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else:
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self.content_type = content_type
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class UploadFile(BaseUploadObject):
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def __init__(self, path, filename=None, content_type=None):
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self.path = path
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if filename is None:
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self.filename = os.path.split(path)[1]
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else:
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self.filename = filename
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if content_type is None:
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self.content_type = self.find_content_type(self.filename)
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else:
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self.content_type = content_type
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This example contains several good examples of needing to provide default
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values. Rewriting to use conditional expressions reduces the overall lines of
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code, but does not necessarily improve readability::
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class BaseUploadObject(object):
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def find_content_type(self, filename):
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ctype, encoding = mimetypes.guess_type(filename)
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return 'application/octet-stream' if ctype is None else ctype
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class UploadContent(BaseUploadObject):
|
||
def __init__(self, content, filename=None, content_type=None):
|
||
self.content = content
|
||
self.filename = (self.get_random_filename() if filename
|
||
is None else filename)
|
||
self.content_type = (self.find_content_type(self.filename)
|
||
if content_type is None else content_type)
|
||
|
||
class UploadFile(BaseUploadObject):
|
||
def __init__(self, path, filename=None, content_type=None):
|
||
self.path = path
|
||
self.filename = (os.path.split(path)[1] if filename is
|
||
None else filename)
|
||
self.content_type = (self.find_content_type(self.filename)
|
||
if content_type is None else content_type)
|
||
|
||
The first ternary expression is tidy, but it reverses the intuitive order of
|
||
the operands: it should return ``ctype`` if it has a value and use the string
|
||
literal as fallback. The other ternary expressions are unintuitive and so
|
||
long that they must be wrapped. The overall readability is worsened, not
|
||
improved.
|
||
|
||
Rewriting using the ``None`` coalescing operator::
|
||
|
||
class BaseUploadObject(object):
|
||
def find_content_type(self, filename):
|
||
ctype, encoding = mimetypes.guess_type(filename)
|
||
return ctype ?? 'application/octet-stream'
|
||
|
||
class UploadContent(BaseUploadObject):
|
||
def __init__(self, content, filename=None, content_type=None):
|
||
self.content = content
|
||
self.filename = filename ?? self.get_random_filename()
|
||
self.content_type = content_type ?? self.find_content_type(self.filename)
|
||
|
||
class UploadFile(BaseUploadObject):
|
||
def __init__(self, path, filename=None, content_type=None):
|
||
self.path = path
|
||
self.filename = filename ?? os.path.split(path)[1]
|
||
self.content_type = content_type ?? self.find_content_type(self.filename)
|
||
|
||
This syntax has an intuitive ordering of the operands. In ``find_content_type``,
|
||
for example, the preferred value ``ctype`` appears before the fallback value.
|
||
The terseness of the syntax also makes for fewer lines of code and less code to
|
||
visually parse, and reading from left-to-right and top-to-bottom more accurately
|
||
follows the execution flow.
|
||
|
||
|
||
Rejected Ideas
|
||
==============
|
||
|
||
The first three ideas in this section are oft-proposed alternatives to treating
|
||
``None`` as special. For further background on why these are rejected, see their
|
||
treatment in `PEP 531 <https://www.python.org/dev/peps/pep-0531/>`_ and
|
||
`PEP 532 <https://www.python.org/dev/peps/pep-0532/>`_ and the associated
|
||
discussions.
|
||
|
||
No-Value Protocol
|
||
-----------------
|
||
|
||
The operators could be generalised to user-defined types by defining a protocol
|
||
to indicate when a value represents "no value". Such a protocol may be a dunder
|
||
method ``__has_value__(self)`` that returns ``True`` if the value should be
|
||
treated as having a value, and ``False`` if the value should be treated as no
|
||
value.
|
||
|
||
With this generalization, ``object`` would implement a dunder method equivalent
|
||
to this::
|
||
|
||
def __has_value__(self):
|
||
return True
|
||
|
||
``NoneType`` would implement a dunder method equivalent to this::
|
||
|
||
def __has_value__(self):
|
||
return False
|
||
|
||
In the specification section, all uses of ``x is None`` would be replaced with
|
||
``not x.__has_value__()``.
|
||
|
||
This generalization would allow for domain-specific "no-value" objects to be
|
||
coalesced just like ``None``. For example, the ``pyasn1`` package has a type
|
||
called ``Null`` that represents an ASN.1 ``null``::
|
||
|
||
>>> from pyasn1.type import univ
|
||
>>> univ.Null() ?? univ.Integer(123)
|
||
Integer(123)
|
||
|
||
Similarly, values such as ``math.nan`` and ``NotImplemented`` could be treated
|
||
as representing no value.
|
||
|
||
However, the "no-value" nature of these values is domain-specific, which means
|
||
they *should* be treated as a value by the language. For example,
|
||
``math.nan.imag`` is well defined (it's ``0.0``), and so short-circuiting
|
||
``math.nan?.imag`` to return ``math.nan`` would be incorrect.
|
||
|
||
As ``None`` is already defined by the language as being the value that
|
||
represents "no value", and the current specification would not preclude
|
||
switching to a protocol in the future (though changes to built-in objects would
|
||
not be compatible), this idea is rejected for now.
|
||
|
||
Boolean-aware operators
|
||
-----------------------
|
||
|
||
This suggestion is fundamentally the same as adding a no-value protocol, and so
|
||
the discussion above also applies.
|
||
|
||
Similar behavior to the ``??`` operator can be achieved with an ``or``
|
||
expression, however ``or`` checks whether its left operand is false-y and not
|
||
specifically ``None``. This approach is attractive, as it requires fewer changes
|
||
to the language, but ultimately does not solve the underlying problem correctly.
|
||
|
||
Assuming the check is for truthiness rather than ``None``, there is no longer a
|
||
need for the ``??`` operator. However, applying this check to the ``?.`` and
|
||
``?[]`` operators prevents perfectly valid operations applying
|
||
|
||
Consider the following example, where ``get_log_list()`` may return either a
|
||
list containing current log messages (potentially empty), or ``None`` if logging
|
||
is not enabled::
|
||
|
||
lst = get_log_list()
|
||
lst?.append('A log message')
|
||
|
||
If ``?.`` is checking for true values rather than specifically ``None`` and the
|
||
log has not been initialized with any items, no item will ever be appended. This
|
||
violates the obvious intent of the code, which is to append an item. The
|
||
``append`` method is available on an empty list, as are all other list methods,
|
||
and there is no reason to assume that these members should not be used because
|
||
the list is presently empty.
|
||
|
||
Further, there is no sensible result to use in place of the expression. A
|
||
normal ``lst.append`` returns ``None``, but under this idea ``lst?.append`` may
|
||
result in either ``[]`` or ``None``, depending on the value of ``lst``. As with
|
||
the examples in the previous section, this makes no sense.
|
||
|
||
As checking for truthiness rather than ``None`` results in apparently valid
|
||
expressions no longer executing as intended, this idea is rejected.
|
||
|
||
Exception-aware operators
|
||
-------------------------
|
||
|
||
Arguably, the reason to short-circuit an expression when ``None`` is encountered
|
||
is to avoid the ``AttributeError`` or ``TypeError`` that would be raised under
|
||
normal circumstances. As an alternative to testing for ``None``, the ``?.`` and
|
||
``?[]`` operators could instead handle ``AttributeError`` and ``TypeError``
|
||
raised by the operation and skip the remainder of the expression.
|
||
|
||
This produces a transformation for ``a?.b.c?.d.e`` similar to this::
|
||
|
||
_v = a
|
||
try:
|
||
_v = _v.b
|
||
except AttributeError:
|
||
pass
|
||
else:
|
||
_v = _v.c
|
||
try:
|
||
_v = _v.d
|
||
except AttributeError:
|
||
pass
|
||
else:
|
||
_v = _v.e
|
||
|
||
One open question is which value should be returned as the expression when an
|
||
exception is handled. The above example simply leaves the partial result, but
|
||
this is not helpful for replacing with a default value. An alternative would be
|
||
to force the result to ``None``, which then raises the question as to why
|
||
``None`` is special enough to be the result but not special enough to be the
|
||
test.
|
||
|
||
Secondly, this approach masks errors within code executed implicitly as part of
|
||
the expression. For ``?.``, any ``AttributeError`` within a property or
|
||
``__getattr__`` implementation would be hidden, and similarly for ``?[]`` and
|
||
``__getitem__`` implementations.
|
||
|
||
Similarly, simple typing errors such as ``{}?.ietms()`` could go unnoticed.
|
||
|
||
Existing conventions for handling these kinds of errors in the form of the
|
||
``getattr`` builtin and the ``.get(key, default)`` method pattern established by
|
||
``dict`` show that it is already possible to explicitly use this behaviour.
|
||
|
||
As this approach would hide errors in code, it is rejected.
|
||
|
||
``None``-aware Function Call
|
||
----------------------------
|
||
|
||
The ``None``-aware syntax applies to attribute and index access, so it seems
|
||
natural to ask if it should also apply to function invocation syntax. It might
|
||
be written as ``foo?()``, where ``foo`` is only called if it is not None.
|
||
|
||
This has been deferred on the basis of the proposed operators being intended
|
||
to aid traversal of partially populated hierarchical data structures, *not*
|
||
for traversal of arbitrary class hierarchies. This is reflected in the fact
|
||
that none of the other mainstream languages that already offer this syntax
|
||
have found it worthwhile to support a similar syntax for optional function
|
||
invocations.
|
||
|
||
A workaround similar to that used by C# would be to write
|
||
``maybe_none?.__call__(arguments)``. If the callable is ``None``, the
|
||
expression will not be evaluated. (The C# equivalent uses ``?.Invoke()`` on its
|
||
callable type.)
|
||
|
||
``?`` Unary Postfix Operator
|
||
----------------------------
|
||
|
||
To generalize the ``None``-aware behavior and limit the number of new operators
|
||
introduced, a unary, postfix operator spelled ``?`` was suggested. The idea is
|
||
that ``?`` might return a special object that could would override dunder
|
||
methods that return ``self``. For example, ``foo?`` would evaluate to ``foo`` if
|
||
it is not ``None``, otherwise it would evaluate to an instance of
|
||
``NoneQuestion``::
|
||
|
||
class NoneQuestion():
|
||
def __call__(self, *args, **kwargs):
|
||
return self
|
||
|
||
def __getattr__(self, name):
|
||
return self
|
||
|
||
def __getitem__(self, key):
|
||
return self
|
||
|
||
|
||
With this new operator and new type, an expression like ``foo?.bar[baz]``
|
||
evaluates to ``NoneQuestion`` if ``foo`` is None. This is a nifty
|
||
generalization, but it's difficult to use in practice since most existing code
|
||
won't know what ``NoneQuestion`` is.
|
||
|
||
Going back to one of the motivating examples above, consider the following::
|
||
|
||
>>> import json
|
||
>>> created = None
|
||
>>> json.dumps({'created': created?.isoformat()})``
|
||
|
||
The JSON serializer does not know how to serialize ``NoneQuestion``, nor will
|
||
any other API. This proposal actually requires *lots of specialized logic*
|
||
throughout the standard library and any third party library.
|
||
|
||
At the same time, the ``?`` operator may also be **too general**, in the sense
|
||
that it can be combined with any other operator. What should the following
|
||
expressions mean?::
|
||
|
||
>>> x? + 1
|
||
>>> x? -= 1
|
||
>>> x? == 1
|
||
>>> ~x?
|
||
|
||
This degree of generalization is not useful. The operators actually proposed
|
||
herein are intentionally limited to a few operators that are expected to make it
|
||
easier to write common code patterns.
|
||
|
||
Built-in ``maybe``
|
||
------------------
|
||
|
||
Haskell has a concept called `Maybe <https://wiki.haskell.org/Maybe>`_ that
|
||
encapsulates the idea of an optional value without relying on any special
|
||
keyword (e.g. ``null``) or any special instance (e.g. ``None``). In Haskell, the
|
||
purpose of ``Maybe`` is to avoid separate handling of "something" and nothing".
|
||
|
||
A Python package called `pymaybe <https://pypi.org/p/pymaybe/>`_ provides a
|
||
rough approximation. The documentation shows the following example::
|
||
|
||
>>> maybe('VALUE').lower()
|
||
'value'
|
||
|
||
>>> maybe(None).invalid().method().or_else('unknown')
|
||
'unknown'
|
||
|
||
The function ``maybe()`` returns either a ``Something`` instance or a
|
||
``Nothing`` instance. Similar to the unary postfix operator described in the
|
||
previous section, ``Nothing`` overrides dunder methods in order to allow
|
||
chaining on a missing value.
|
||
|
||
Note that ``or_else()`` is eventually required to retrieve the underlying value
|
||
from ``pymaybe``'s wrappers. Furthermore, ``pymaybe`` does not short circuit any
|
||
evaluation. Although ``pymaybe`` has some strengths and may be useful in its own
|
||
right, it also demonstrates why a pure Python implementation of coalescing is
|
||
not nearly as powerful as support built into the language.
|
||
|
||
The idea of adding a builtin ``maybe`` type to enable this scenario is rejected.
|
||
|
||
Just use a conditional expression
|
||
---------------------------------
|
||
|
||
Another common way to initialize default values is to use the ternary operator.
|
||
Here is an excerpt from the popular `Requests package
|
||
<https://github.com/kennethreitz/requests/blob/14a555ac716866678bf17e43e23230d81
|
||
a8149f5/requests/models.py#L212>`_::
|
||
|
||
data = [] if data is None else data
|
||
files = [] if files is None else files
|
||
headers = {} if headers is None else headers
|
||
params = {} if params is None else params
|
||
hooks = {} if hooks is None else hooks
|
||
|
||
This particular formulation has the undesirable effect of putting the operands
|
||
in an unintuitive order: the brain thinks, "use ``data`` if possible and use
|
||
``[]`` as a fallback," but the code puts the fallback *before* the preferred
|
||
value.
|
||
|
||
The author of this package could have written it like this instead::
|
||
|
||
data = data if data is not None else []
|
||
files = files if files is not None else []
|
||
headers = headers if headers is not None else {}
|
||
params = params if params is not None else {}
|
||
hooks = hooks if hooks is not None else {}
|
||
|
||
This ordering of the operands is more intuitive, but it requires 4 extra
|
||
characters (for "not "). It also highlights the repetition of identifiers:
|
||
``data if data``, ``files if files``, etc.
|
||
|
||
When written using the ``None`` coalescing operator, the sample reads::
|
||
|
||
data = data ?? []
|
||
files = files ?? []
|
||
headers = headers ?? {}
|
||
params = params ?? {}
|
||
hooks = hooks ?? {}
|
||
|
||
|
||
References
|
||
==========
|
||
|
||
.. [1] C# Reference: Operators
|
||
(https://msdn.microsoft.com/en-us/library/6a71f45d.aspx)
|
||
|
||
.. [2] A Tour of the Dart Language: Operators
|
||
(https://www.dartlang.org/docs/dart-up-and-running/ch02.html#operators)
|
||
|
||
.. [3] Proposal: Nullish Coalescing for JavaScript
|
||
(https://github.com/tc39/proposal-nullish-coalescing)
|
||
|
||
.. [4] Proposal: Optional Chaining for JavaScript
|
||
(https://github.com/tc39/proposal-optional-chaining)
|
||
|
||
.. [5] Associated scripts
|
||
(https://github.com/python/peps/tree/master/pep-0505/)
|
||
|
||
Copyright
|
||
=========
|
||
|
||
This document has been placed in the public domain.
|
||
|
||
|
||
|
||
..
|
||
Local Variables:
|
||
mode: indented-text
|
||
indent-tabs-mode: nil
|
||
sentence-end-double-space: t
|
||
fill-column: 70
|
||
coding: utf-8
|
||
End:
|