352 lines
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ReStructuredText
352 lines
14 KiB
ReStructuredText
PEP: 712
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Title: Adding a "converter" parameter to dataclasses.field
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Author: Joshua Cannon <joshdcannon@gmail.com>
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Sponsor: Eric V. Smith <eric at trueblade.com>
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Discussions-To: https://discuss.python.org/t/pep-712-adding-a-converter-parameter-to-dataclasses-field/26126
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Status: Rejected
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 01-Jan-2023
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Python-Version: 3.13
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Post-History: `27-Dec-2022 <https://mail.python.org/archives/list/typing-sig@python.org/thread/NWZQIINJQZDOCZGO6TGCUP2PNW4PEKNY/>`__,
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`19-Jan-2023 <https://discuss.python.org/t/add-converter-to-dataclass-field/22956>`__,
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`23-Apr-2023 <https://discuss.python.org/t/pep-712-adding-a-converter-parameter-to-dataclasses-field/26126>`__,
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Resolution: https://discuss.python.org/t/pep-712-adding-a-converter-parameter-to-dataclasses-field/26126/98
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Rejection Notice
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================
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The reasons for the 2024 Steering Council rejection include:
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* We did not find evidence of a strong consensus that this feature was needed in the standard library, despite some proponents arguing in favor in order to reduce their dependence on third party packages. For those who need such functionality, we think those existing third party libraries such as attrs and Pydantic (which the PEP references) are acceptable alternatives.
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* This feature seems to us like an accumulation of what could be considered more cruft in the standard library, leading us ever farther away from the “simple” use cases that dataclasses are ideal for.
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* Reading the “How to Teach This” section of the PEP gives us pause that the pitfalls and gotchas are significant, with a heightened confusion and complexity outweighing any potential benefits.
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* The PEP seems more focused toward helping type checkers than people using the library.
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Abstract
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========
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:pep:`557` added :mod:`dataclasses` to the Python stdlib. :pep:`681` added
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:func:`~py3.11:typing.dataclass_transform` to help type checkers understand
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several common dataclass-like libraries, such as attrs, Pydantic, and object
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relational mapper (ORM) packages such as SQLAlchemy and Django.
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A common feature other libraries provide over the standard library
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implementation is the ability for the library to convert arguments given at
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initialization time into the types expected for each field using a
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user-provided conversion function.
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Therefore, this PEP adds a ``converter`` parameter to :func:`dataclasses.field`
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(along with the requisite changes to :class:`dataclasses.Field` and
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:func:`~py3.11:typing.dataclass_transform`) to specify the function to use to
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convert the input value for each field to the representation to be stored in
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the dataclass.
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Motivation
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==========
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There is no existing, standard way for :mod:`dataclasses` or third-party
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dataclass-like libraries to support argument conversion in a type-checkable
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way. To work around this limitation, library authors/users are forced to choose
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to:
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* Opt-in to a custom Mypy plugin. These plugins help Mypy understand the
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conversion semantics, but not other tools.
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* Shift conversion responsibility onto the caller of the dataclass
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constructor. This can make constructing certain dataclasses unnecessarily
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verbose and repetitive.
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* Provide a custom ``__init__`` which declares "wider" parameter types and
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converts them when setting the appropriate attribute. This not only duplicates
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the typing annotations between the converter and ``__init__``, but also opts
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the user out of many of the features :mod:`dataclasses` provides.
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* Provide a custom ``__init__`` but without meaningful type annotations
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for the parameter types requiring conversion.
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None of these choices are ideal.
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Rationale
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=========
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Adding argument conversion semantics is useful and beneficial enough that most
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dataclass-like libraries provide support. Adding this feature to the standard
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library means more users are able to opt-in to these benefits without requiring
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third-party libraries. Additionally third-party libraries are able to clue
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type-checkers into their own conversion semantics through added support in
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:func:`~py3.11:typing.dataclass_transform`, meaning users of those libraries
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benefit as well.
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Specification
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=============
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New ``converter`` parameter
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---------------------------
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This specification introduces a new parameter named ``converter`` to the
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:func:`dataclasses.field` function. If provided, it represents a single-argument
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callable used to convert all values when assigning to the associated attribute.
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For frozen dataclasses, the converter is only used inside a ``dataclass``-synthesized
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``__init__`` when setting the attribute. For non-frozen dataclasses, the converter
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is used for all attribute assignment (E.g. ``obj.attr = value``), which includes
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assignment of default values.
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The converter is not used when reading attributes, as the attributes should already
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have been converted.
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Adding this parameter also implies the following changes:
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* A ``converter`` attribute will be added to :class:`dataclasses.Field`.
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* ``converter`` will be added to :func:`~py3.11:typing.dataclass_transform`'s
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list of supported field specifier parameters.
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Example
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'''''''
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.. code-block:: python
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def str_or_none(x: Any) -> str | None:
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return str(x) if x is not None else None
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@dataclasses.dataclass
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class InventoryItem:
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# `converter` as a type (including a GenericAlias).
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id: int = dataclasses.field(converter=int)
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skus: tuple[int, ...] = dataclasses.field(converter=tuple[int, ...])
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# `converter` as a callable.
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vendor: str | None = dataclasses.field(converter=str_or_none))
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names: tuple[str, ...] = dataclasses.field(
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converter=lambda names: tuple(map(str.lower, names))
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) # Note that lambdas are supported, but discouraged as they are untyped.
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# The default value is also converted; therefore the following is not a
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# type error.
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stock_image_path: pathlib.PurePosixPath = dataclasses.field(
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converter=pathlib.PurePosixPath, default="assets/unknown.png"
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)
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# Default value conversion extends to `default_factory`;
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# therefore the following is also not a type error.
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shelves: tuple = dataclasses.field(
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converter=tuple, default_factory=list
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)
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item1 = InventoryItem(
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"1",
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[234, 765],
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None,
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["PYTHON PLUSHIE", "FLUFFY SNAKE"]
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)
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# item1's repr would be (with added newlines for readability):
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# InventoryItem(
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# id=1,
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# skus=(234, 765),
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# vendor=None,
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# names=('PYTHON PLUSHIE', 'FLUFFY SNAKE'),
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# stock_image_path=PurePosixPath('assets/unknown.png'),
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# shelves=()
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# )
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# Attribute assignment also participates in conversion.
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item1.skus = [555]
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# item1's skus attribute is now (555,).
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Impact on typing
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----------------
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A ``converter`` must be a callable that accepts a single positional argument, and
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the parameter type corresponding to this positional argument provides the type
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of the the synthesized ``__init__`` parameter associated with the field.
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In other words, the argument provided for the converter parameter must be
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compatible with ``Callable[[T], X]`` where ``T`` is the input type for
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the converter and ``X`` is the output type of the converter.
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Type-checking ``default`` and ``default_factory``
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'''''''''''''''''''''''''''''''''''''''''''''''''
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Because default values are unconditionally converted using ``converter``, if
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an argument for ``converter`` is provided alongside either ``default`` or
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``default_factory``, the type of the default (the ``default`` argument if
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provided, otherwise the return value of ``default_factory``) should be checked
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using the type of the single argument to the ``converter`` callable.
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Converter return type
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'''''''''''''''''''''
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The return type of the callable must be a type that's compatible with the
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field's declared type. This includes the field's type exactly, but can also be
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a type that's more specialized (such as a converter returning a ``list[int]``
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for a field annotated as ``list``, or a converter returning an ``int`` for a
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field annotated as ``int | str``).
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Indirection of allowable argument types
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---------------------------------------
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One downside introduced by this PEP is that knowing what argument types are
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allowed in the dataclass' ``__init__`` and during attribute assignment is not
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immediately obvious from reading the dataclass. The allowable types are defined
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by the converter.
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This is true when reading code from source, however typing-related aides such
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as ``typing.reveal_type`` and "IntelliSense" in an IDE should make it easy to know
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exactly what types are allowed without having to read any source code.
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Backward Compatibility
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======================
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These changes don't introduce any compatibility problems since they
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only introduce opt-in new features.
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Security Implications
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======================
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There are no direct security concerns with these changes.
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How to Teach This
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=================
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Documentation and examples explaining the new parameter and behavior will be
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added to the relevant sections of the docs site (primarily on
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:mod:`dataclasses`) and linked from the *What's New* document.
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The added documentation/examples will also cover the "common pitfalls" that
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users of converters are likely to encounter. Such pitfalls include:
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* Needing to handle ``None``/sentinel values.
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* Needing to handle values that are already of the correct type.
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* Avoiding lambdas for converters, as the synthesized ``__init__``
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parameter's type will become ``Any``.
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* Forgetting to convert values in the bodies of user-defined ``__init__`` in
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frozen dataclasses.
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* Forgetting to convert values in the bodies of user-defined ``__setattr__`` in
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non-frozen dataclasses.
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Additionally, potentially confusing pattern matching semantics should be covered:
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.. code-block:: python
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@dataclass
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class Point:
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x: int = field(converter=int)
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y: int
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match Point(x="0", y=0):
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case Point(x="0", y=0): # Won't be matched
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...
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case Point(): # Will be matched
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...
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case _:
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...
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However it's worth noting this behavior is true of any type that does conversion
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in its initializer, and type-checkers should be able to catch this pitfall:
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.. code-block:: python
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match int("0"):
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case int("0"): # Won't be matched
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...
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case _: # Will be matched
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...
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Reference Implementation
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========================
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The attrs library `already includes <attrs-converters_>`__ a ``converter``
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parameter exhibiting the same converter semantics (converting in the
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initializer and on attribute setting) when using the ``@define`` class
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decorator.
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CPython support is implemented on `a branch in the author's fork <cpython-branch_>`__.
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Rejected Ideas
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==============
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Just adding "converter" to ``typing.dataclass_transform``'s ``field_specifiers``
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--------------------------------------------------------------------------------
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The idea of isolating this addition to
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:func:`~py3.11:typing.dataclass_transform` was briefly
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`discussed on Typing-SIG <only-dataclass-transform_>`__ where it was suggested
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to broaden this to :mod:`dataclasses` more generally.
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Additionally, adding this to :mod:`dataclasses` ensures anyone can reap the
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benefits without requiring additional libraries.
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Not converting default values
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-----------------------------
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There are pros and cons with both converting and not converting default values.
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Leaving default values as-is allows type-checkers and dataclass authors to
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expect that the type of the default matches the type of the field. However,
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converting default values has three large advantages:
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1. Consistency. Unconditionally converting all values that are assigned to the
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attribute, involves fewer "special rules" that users must remember.
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2. Simpler defaults. Allowing the default value to have the same type as
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user-provided values means dataclass authors get the same conveniences as
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their callers.
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3. Compatibility with attrs. Attrs unconditionally uses the converter to
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convert default values.
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Automatic conversion using the field's type
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-------------------------------------------
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One idea could be to allow the type of the field specified (e.g. ``str`` or
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``int``) to be used as a converter for each argument provided.
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`Pydantic's data conversion <pydantic-data-conversion_>`__ has semantics which
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appear to be similar to this approach.
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This works well for fairly simple types, but leads to ambiguity in expected
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behavior for complex types such as generics. E.g. For ``tuple[int, ...]`` it is
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ambiguous if the converter is supposed to simply convert an iterable to a tuple,
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or if it is additionally supposed to convert each element type to ``int``. Or
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for ``int | None``, which isn't callable.
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Deducing the attribute type from the return type of the converter
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-----------------------------------------------------------------
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Another idea would be to allow the user to omit the attribute's type annotation
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if providing a ``field`` with a ``converter`` argument. Although this would
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reduce the common repetition this PEP introduces (e.g. ``x: str = field(converter=str)``),
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it isn't clear how to best support this while maintaining the current dataclass
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semantics (namely, that the attribute order is preserved for things like the
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synthesized ``__init__``, or ``dataclasses.fields``). This is because there isn't
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an easy way in Python (today) to get the annotation-only attributes interspersed
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with un-annotated attributes in the order they were defined.
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A sentinel annotation could be applied (e.g. ``x: FromConverter = ...``),
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however this breaks a fundamental assumption of type annotations.
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Lastly, this is feasible if *all* fields (including those without a converter)
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were assigned to ``dataclasses.field``, which means the class' own namespace
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holds the order, however this trades repetition of type+converter with
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repetition of field assignment. The end result is no gain or loss of repetition,
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but with the added complexity of dataclasses semantics.
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This PEP doesn't suggest it can't or shouldn't be done. Just that it isn't
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included in this PEP.
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References
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==========
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.. _attrs-converters: https://www.attrs.org/en/21.2.0/examples.html#conversion
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.. _cpython-branch: https://github.com/thejcannon/cpython/tree/converter
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.. _only-dataclass-transform: https://mail.python.org/archives/list/typing-sig@python.org/thread/NWZQIINJQZDOCZGO6TGCUP2PNW4PEKNY/
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.. _pydantic-data-conversion: https://docs.pydantic.dev/usage/models/#data-conversion
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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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