2018-03-27 08:19:09 -04:00
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PEP: 573
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Title: Module State Access from C Extension Methods
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Version: $Revision$
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Last-Modified: $Date$
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Author: Petr Viktorin <encukou@gmail.com>,
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Nick Coghlan <ncoghlan@gmail.com>,
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Eric Snow <ericsnowcurrently@gmail.com>
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Marcel Plch <gmarcel.plch@gmail.com>
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2019-04-25 01:20:39 -04:00
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BDFL-Delegate: Stefan Behnel
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2018-03-27 08:19:09 -04:00
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Discussions-To: import-sig@python.org
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2020-06-23 15:37:46 -04:00
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Status: Final
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2019-03-19 18:17:30 -04:00
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Type: Standards Track
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2018-03-27 08:19:09 -04:00
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Content-Type: text/x-rst
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Created: 02-Jun-2016
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2019-04-21 01:03:51 -04:00
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Python-Version: 3.9
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2018-03-27 08:19:09 -04:00
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Post-History:
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Abstract
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========
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2020-01-03 07:24:51 -05:00
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This PEP proposes to add a way for CPython extension methods to access context,
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such as the state of the modules they are defined in.
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2018-03-27 08:19:09 -04:00
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This will allow extension methods to use direct pointer dereferences
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rather than PyState_FindModule for looking up module state, reducing or
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eliminating the performance cost of using module-scoped state over process
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global state.
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2018-03-27 08:19:09 -04:00
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This fixes one of the remaining roadblocks for adoption of PEP 3121 (Extension
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module initialization and finalization) and PEP 489
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(Multi-phase extension module initialization).
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2020-01-03 07:24:51 -05:00
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While this PEP takes an additional step towards fully solving the problems that
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PEP 3121 and PEP 489 started tackling, it does not attempt to resolve *all*
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2020-01-15 16:19:07 -05:00
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remaining concerns. In particular, access to the module state
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from slot methods (``nb_add``, etc) is not solved.
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2018-03-27 08:19:09 -04:00
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Terminology
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===========
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Process-Global State
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--------------------
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C-level static variables. Since this is very low-level
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memory storage, it must be managed carefully.
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2019-09-12 05:27:21 -04:00
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.. _per-module state:
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Per-module State
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----------------
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State local to a module object, allocated dynamically as part of a
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module object's initialization. This isolates the state from other
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instances of the module (including those in other subinterpreters).
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Accessed by ``PyModule_GetState()``.
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Static Type
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-----------
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A type object defined as a C-level static variable, i.e. a compiled-in type
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object.
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A static type needs to be shared between module instances and has no
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information of what module it belongs to.
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Static types do not have ``__dict__`` (although their instances might).
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Heap Type
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---------
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A type object created at run time.
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Defining Class
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--------------
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The defining class of a method (either bound or unbound) is the class on which
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the method was defined.
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A class that merely inherits the method from its base is not the defining class.
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For example, ``int`` is the defining class of ``True.to_bytes``,
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``True.__floor__`` and ``int.__repr__``.
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In C, the defining class is the one defined with the corresponding
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``tp_methods`` or "tp slots" [#tp-slots]_ entry.
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For methods defined in Python, the defining class is saved in the
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`__class__` closure cell.
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C-API
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-----
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The "Python/C API" as described in Python documentation.
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CPython implements the C-API, but other implementations exist.
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Rationale
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=========
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PEP 489 introduced a new way to initialize extension modules, which brings
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several advantages to extensions that implement it:
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* The extension modules behave more like their Python counterparts.
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* The extension modules can easily support loading into pre-existing
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module objects, which paves the way for extension module support for
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``runpy`` or for systems that enable extension module reloading.
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* Loading multiple modules from the same extension is possible, which
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2020-01-03 07:24:51 -05:00
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makes it possible to test module isolation (a key feature for proper
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sub-interpreter support) from a single interpreter.
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2018-03-27 08:19:09 -04:00
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The biggest hurdle for adoption of PEP 489 is allowing access to module state
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from methods of extension types.
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Currently, the way to access this state from extension methods is by looking up
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the module via ``PyState_FindModule`` (in contrast to module level functions in
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extension modules, which receive a module reference as an argument).
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However, ``PyState_FindModule`` queries the thread-local state, making it
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relatively costly compared to C level process global access and consequently
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deterring module authors from using it.
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2018-03-27 08:19:09 -04:00
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Also, ``PyState_FindModule`` relies on the assumption that in each
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subinterpreter, there is at most one module corresponding to
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a given ``PyModuleDef``. This assumption does not hold for modules that use
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PEP 489's multi-phase initialization, so ``PyState_FindModule`` is unavailable
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for these modules.
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2018-03-27 08:19:09 -04:00
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A faster, safer way of accessing module-level state from extension methods
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is needed.
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Background
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===========
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The implementation of a Python method may need access to one or more of
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the following pieces of information:
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* The instance it is called on (``self``)
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* The underlying function
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* The *defining class*, i. e. the class the method was defined in
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* The corresponding module
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* The module state
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In Python code, the Python-level equivalents may be retrieved as::
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import sys
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class Foo:
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def meth(self):
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instance = self
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module_globals = globals()
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module_object = sys.modules[__name__] # (1)
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underlying_function = Foo.meth # (1)
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defining_class = Foo # (1)
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defining_class = __class__ # (2)
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.. note::
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The defining class is not ``type(self)``, since ``type(self)`` might
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be a subclass of ``Foo``.
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The statements marked (1) implicitly rely on name-based lookup via the
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function's ``__globals__``: either the ``Foo`` attribute to access the defining
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class and Python function object, or ``__name__`` to find the module object in
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``sys.modules``.
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In Python code, this is feasible, as ``__globals__`` is set appropriately when
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the function definition is executed, and even if the namespace has been
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manipulated to return a different object, at worst an exception will be raised.
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The ``__class__`` closure, (2), is a safer way to get the defining class, but it
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still relies on ``__closure__`` being set appropriately.
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2018-03-27 08:19:09 -04:00
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By contrast, extension methods are typically implemented as normal C functions.
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This means that they only have access to their arguments and C level thread-local
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and process-global states. Traditionally, many extension modules have stored
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their shared state in C-level process globals, causing problems when:
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2019-09-09 11:30:48 -04:00
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* running multiple initialize/finalize cycles in the same process
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* reloading modules (e.g. to test conditional imports)
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* loading extension modules in subinterpreters
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2018-03-27 08:19:09 -04:00
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2020-01-03 07:24:51 -05:00
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PEP 3121 attempted to resolve this by offering the ``PyState_FindModule`` API,
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but this still has significant problems when it comes to extension methods
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(rather than module level functions):
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* it is markedly slower than directly accessing C-level process-global state
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* there is still some inherent reliance on process global state that means it
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still doesn't reliably handle module reloading
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It's also the case that when looking up a C-level struct such as module state,
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supplying an unexpected object layout can crash the interpreter, so it's
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significantly more important to ensure that extension methods receive the kind
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of object they expect.
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Proposal
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========
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2020-01-03 07:24:51 -05:00
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Currently, a bound extension method (``PyCFunction`` or
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``PyCFunctionWithKeywords``) receives only ``self``, and (if applicable) the
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supplied positional and keyword arguments.
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2018-03-27 08:19:09 -04:00
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2020-01-03 07:24:51 -05:00
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While module-level extension functions already receive access to the defining
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module object via their ``self`` argument, methods of extension types don't have
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that luxury: they receive the bound instance via ``self``, and hence have no
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direct access to the defining class or the module level state.
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2018-03-27 08:19:09 -04:00
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2020-01-03 07:24:51 -05:00
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The additional module level context described above can be made available with
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two changes.
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Both additions are optional; extension authors need to opt in to start
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using them:
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* Add a pointer to the module to heap type objects.
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* Pass the defining class to the underlying C function.
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2020-01-15 16:19:07 -05:00
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In CPython, the defining class is readily available at the time the built-in
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method object (``PyCFunctionObject``) is created, so it can be stored
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in a new struct that extends ``PyCFunctionObject``.
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The module state can then be retrieved from the module object via
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``PyModule_GetState``.
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2020-01-03 07:24:51 -05:00
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Note that this proposal implies that any type whose methods need to access
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`per-module state`_ must be a heap type, rather than a static type. This is
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necessary to support loading multiple module objects from a single
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extension: a static type, as a C-level global, has no information about
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which module object it belongs to.
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Slot methods
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------------
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The above changes don't cover slot methods, such as ``tp_iter`` or ``nb_add``.
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The problem with slot methods is that their C API is fixed, so we can't
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simply add a new argument to pass in the defining class.
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Two possible solutions have been proposed to this problem:
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* Look up the class through walking the MRO.
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This is potentially expensive, but will be usable if performance is not
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a problem (such as when raising a module-level exception).
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* Storing a pointer to the defining class of each slot in a separate table,
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``__typeslots__`` [#typeslots-mail]_. This is technically feasible and fast,
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but quite invasive.
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Modules affected by this concern also have the option of using
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`thread-local state`_ or `PEP 567 context variables`_ as a caching mechanism, or
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else defining their own reload-friendly lookup caching scheme.
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2020-01-15 16:19:07 -05:00
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Solving the issue generally is deferred to a future PEP.
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.. _thread-local state: https://docs.python.org/3/c-api/init.html#thread-local-storage-support
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.. _PEP 567 context variables: https://docs.python.org/3/c-api/contextvars.html
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Specification
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=============
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Adding module references to heap types
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--------------------------------------
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A new factory method will be added to the C-API for creating modules::
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PyObject* PyType_FromModuleAndSpec(PyObject *module,
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PyType_Spec *spec,
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PyObject *bases)
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This acts the same as ``PyType_FromSpecWithBases``, and additionally associates
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the provided module object with the new type. (In CPython, this will set
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``ht_module`` described below.)
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Additionally, an accessor, ``PyObject * PyType_GetModule(PyTypeObject *)``
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will be provided.
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It will return the type's associated module if one is set,
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otherwise it will set ``TypeError`` and return NULL.
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When given a static type, it will always set ``TypeError`` and return NULL.
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To implement this in CPython, the ``PyHeapTypeObject`` struct will get a
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new member, ``PyObject *ht_module``, that will store a pointer to the
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associated module.
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It will be ``NULL`` by default and should not be modified after the type
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object is created.
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The ``ht_module`` member will not be inherited by subclasses; it needs to be
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set using ``PyType_FromSpecWithBases`` for each individual type that needs it.
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Usually, creating a class with ``ht_module`` set will create a reference
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cycle involving the class and the module.
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This is not a problem, as tearing down modules is not a performance-sensitive
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operation, and module-level functions typically also create reference cycles.
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The existing "set all module globals to None" code that breaks function cycles
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through ``f_globals`` will also break the new cycles through ``ht_module``.
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Passing the defining class to extension methods
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-----------------------------------------------
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2020-01-15 16:19:07 -05:00
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A new signature flag, ``METH_METHOD``, will be added for use in
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``PyMethodDef.ml_flags``. Conceptually, it adds ``defining_class``
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to the function signature.
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To make the initial implementation easier, the flag can only be used as
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``(METH_FASTCALL | METH_KEYWORDS | METH_METHOD)``.
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(It can't be used with other flags like ``METH_O`` or bare ``METH_FASTCALL``,
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though it may be combined with ``METH_CLASS`` or ``METH_STATIC``).
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2020-01-15 16:19:07 -05:00
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C functions for methods defined using this flag combination will be called
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using a new C signature called ``PyCMethod``::
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PyObject *PyCMethod(PyObject *self,
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PyTypeObject *defining_class,
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2019-09-12 05:27:21 -04:00
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PyObject *const *args,
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size_t nargsf,
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PyObject *kwnames)
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2018-03-27 08:19:09 -04:00
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2019-09-12 05:27:21 -04:00
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Additional combinations like ``(METH_VARARGS | METH_METHOD)`` may be added
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in the future (or even in the initial implementation of this PEP).
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However, ``METH_METHOD`` should always be an *additional* flag, i.e., the
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defining class should only be passed in if needed.
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2018-03-27 08:19:09 -04:00
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2020-01-15 16:19:07 -05:00
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In CPython, a new structure extending ``PyCFunctionObject`` will be added
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to hold the extra information::
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2018-03-27 08:19:09 -04:00
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typedef struct {
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PyCFunctionObject func;
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PyTypeObject *mm_class; /* Passed as 'defining_class' arg to the C func */
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} PyCMethodObject;
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2019-09-12 05:27:21 -04:00
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The ``PyCFunction`` implementation will pass ``mm_class`` into a
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``PyCMethod`` C function when it finds the ``METH_METHOD`` flag being set.
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A new macro ``PyCFunction_GET_CLASS(cls)`` will be added for easier access
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to ``mm_class``.
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2018-04-13 06:35:49 -04:00
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2019-09-12 05:27:21 -04:00
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C methods may continue to use the other ``METH_*`` signatures if they do
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not require access to their defining class/module.
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If ``METH_METHOD`` is not set, casting to ``PyCMethodObject`` is invalid.
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2018-03-27 08:19:09 -04:00
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Argument Clinic
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|
---------------
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To support passing the defining class to methods using Argument Clinic,
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2020-01-15 16:19:07 -05:00
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a new converter called ``defining_class`` will be added to CPython's Argument
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Clinic tool.
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2018-03-27 08:19:09 -04:00
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Each method may only have one argument using this converter, and it must
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appear after ``self``, or, if ``self`` is not used, as the first argument.
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The argument will be of type ``PyTypeObject *``.
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|
2019-09-12 05:27:21 -04:00
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When used, Argument Clinic will select
|
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|
``METH_FASTCALL | METH_KEYWORDS | METH_METHOD`` as the calling convention.
|
2018-03-27 08:19:09 -04:00
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The argument will not appear in ``__text_signature__``.
|
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|
2020-01-15 16:19:07 -05:00
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|
The new converter will initially not be compatible with ``__init__`` and
|
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|
|
``__new__`` methods, which cannot use the ``METH_METHOD`` convention.
|
2018-03-27 08:19:09 -04:00
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|
|
Helpers
|
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|
|
-------
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|
|
2019-09-12 05:27:21 -04:00
|
|
|
Getting to `per-module state`_ from a heap type is a very common task. To make
|
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|
|
this easier, a helper will be added::
|
2018-04-13 06:35:49 -04:00
|
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|
|
|
|
|
void *PyType_GetModuleState(PyObject *type)
|
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|
|
|
2020-01-03 07:24:51 -05:00
|
|
|
This function takes a heap type and on success, it returns pointer to the state
|
|
|
|
of the module that the heap type belongs to.
|
2018-03-27 08:19:09 -04:00
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|
2020-01-03 07:24:51 -05:00
|
|
|
On failure, two scenarios may occur. When a non-type object, or a type without a
|
|
|
|
module is passed in, ``TypeError`` is set and ``NULL`` returned. If the module
|
|
|
|
is found, the pointer to the state, which may be ``NULL``, is returned without
|
|
|
|
setting any exception.
|
2018-03-27 08:19:09 -04:00
|
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|
|
|
|
|
|
|
|
Modules Converted in the Initial Implementation
|
|
|
|
-----------------------------------------------
|
|
|
|
|
2020-01-15 16:19:07 -05:00
|
|
|
To validate the approach, the ``_elementtree`` module will be modified during
|
|
|
|
the initial implementation.
|
2018-03-27 08:19:09 -04:00
|
|
|
|
|
|
|
|
|
|
|
Summary of API Changes and Additions
|
|
|
|
====================================
|
|
|
|
|
2020-01-15 16:19:07 -05:00
|
|
|
The following will be added to Python C-API:
|
2018-04-13 06:35:49 -04:00
|
|
|
|
2020-01-15 16:19:07 -05:00
|
|
|
* ``PyType_FromModuleAndSpec`` function
|
|
|
|
* ``PyType_GetModule`` function
|
|
|
|
* ``PyType_GetModuleState`` function
|
|
|
|
* ``METH_METHOD`` call flag
|
|
|
|
* ``PyCMethod`` function signature
|
2018-04-13 06:35:49 -04:00
|
|
|
|
2020-01-15 16:19:07 -05:00
|
|
|
The following additions will be added as CPython implementation details,
|
|
|
|
and won't be documented:
|
2018-04-13 06:35:49 -04:00
|
|
|
|
2020-01-15 16:19:07 -05:00
|
|
|
* ``PyCFunction_GET_CLASS`` macro
|
|
|
|
* ``PyCMethodObject`` struct
|
|
|
|
* ``ht_module`` member of ``_heaptypeobject``
|
|
|
|
* ``defining_class`` converter in Argument Clinic
|
2018-03-27 08:19:09 -04:00
|
|
|
|
|
|
|
|
|
|
|
Backwards Compatibility
|
|
|
|
=======================
|
|
|
|
|
2020-01-03 07:24:51 -05:00
|
|
|
One new pointer is added to all heap types.
|
2019-09-13 13:16:31 -04:00
|
|
|
All other changes are adding new functions and structures,
|
2019-09-12 05:27:21 -04:00
|
|
|
or changes to private implementation details.
|
2018-03-27 08:19:09 -04:00
|
|
|
|
|
|
|
Implementation
|
|
|
|
==============
|
|
|
|
|
|
|
|
An initial implementation is available in a Github repository [#gh-repo]_;
|
|
|
|
a patchset is at [#gh-patch]_.
|
|
|
|
|
|
|
|
|
|
|
|
Possible Future Extensions
|
|
|
|
==========================
|
|
|
|
|
2020-01-15 16:19:07 -05:00
|
|
|
Slot methods
|
|
|
|
------------
|
|
|
|
|
|
|
|
A way of passing defining class (or module state) to slot methods may be
|
|
|
|
added in the future.
|
|
|
|
|
|
|
|
A previous version of this PEP proposed a helper function that would determine
|
|
|
|
a defining class by searching the MRO for a class that defines a slot to a
|
|
|
|
particular function. However, this approach would fail if a class is mutated
|
|
|
|
(which is, for heap types, possible from Python code).
|
|
|
|
Solving this problem is left to future discussions.
|
|
|
|
|
|
|
|
|
2018-03-27 08:19:09 -04:00
|
|
|
Easy creation of types with module references
|
|
|
|
---------------------------------------------
|
|
|
|
|
|
|
|
It would be possible to add a PEP 489 execution slot type to make
|
|
|
|
creating heap types significantly easier than calling
|
|
|
|
``PyType_FromModuleAndSpec``.
|
|
|
|
This is left to a future PEP.
|
|
|
|
|
2019-09-12 05:27:21 -04:00
|
|
|
It may be good to add a good way to create static exception types from the
|
|
|
|
limited API. Such exception types could be shared between subinterpreters,
|
|
|
|
but instantiated without needing specific module state.
|
|
|
|
This is also left to possible future discussions.
|
|
|
|
|
2018-03-27 08:19:09 -04:00
|
|
|
|
|
|
|
Optimization
|
|
|
|
------------
|
|
|
|
|
2019-09-12 05:27:21 -04:00
|
|
|
As proposed here, methods defined with the ``METH_METHOD`` flag only support
|
|
|
|
one specific signature.
|
2018-03-27 08:19:09 -04:00
|
|
|
|
2019-09-12 05:27:21 -04:00
|
|
|
If it turns out that other signatures are needed for performance reasons,
|
|
|
|
they may be added.
|
2018-04-13 06:35:49 -04:00
|
|
|
|
2018-03-27 08:19:09 -04:00
|
|
|
|
|
|
|
References
|
|
|
|
==========
|
|
|
|
|
2020-01-15 16:19:07 -05:00
|
|
|
.. [#tp-slots] https://docs.python.org/3/c-api/typeobj.html#tp-slots
|
|
|
|
|
2018-03-27 08:19:09 -04:00
|
|
|
.. [#typeslots-mail] [Import-SIG] On singleton modules, heap types, and subinterpreters
|
|
|
|
(https://mail.python.org/pipermail/import-sig/2015-July/001035.html)
|
|
|
|
|
|
|
|
.. [#gh-repo]
|
2019-09-12 05:27:21 -04:00
|
|
|
https://github.com/Dormouse759/cpython/tree/pep-c-rebase_newer
|
2018-03-27 08:19:09 -04:00
|
|
|
|
|
|
|
.. [#gh-patch]
|
2019-09-12 05:27:21 -04:00
|
|
|
https://github.com/Dormouse759/cpython/compare/master...Dormouse759:pep-c-rebase_newer
|
|
|
|
|
|
|
|
.. [#pep-590]
|
|
|
|
https://www.python.org/dev/peps/pep-0590/
|
2018-03-27 08:19:09 -04:00
|
|
|
|
|
|
|
|
|
|
|
Copyright
|
|
|
|
=========
|
|
|
|
|
2019-09-13 13:16:31 -04:00
|
|
|
This document is placed in the public domain or under the
|
|
|
|
CC0-1.0-Universal license, whichever is more permissive.
|
2018-03-27 08:19:09 -04:00
|
|
|
|
|
|
|
|
|
|
|
..
|
|
|
|
Local Variables:
|
|
|
|
mode: indented-text
|
|
|
|
indent-tabs-mode: nil
|
|
|
|
sentence-end-double-space: t
|
|
|
|
fill-column: 70
|
|
|
|
coding: utf-8
|
|
|
|
End:
|