python-peps/peps/pep-0620.rst

613 lines
23 KiB
ReStructuredText
Raw Permalink Normal View History

PEP: 620
Title: Hide implementation details from the C API
2020-06-21 22:10:12 -04:00
Author: Victor Stinner <vstinner@python.org>
Status: Withdrawn
Type: Standards Track
Content-Type: text/x-rst
Created: 19-Jun-2020
Python-Version: 3.12
Abstract
========
2020-06-21 22:04:07 -04:00
Introduce C API incompatible changes to hide implementation details.
2020-06-22 04:09:57 -04:00
Once most implementation details will be hidden, evolution of CPython
internals would be less limited by C API backward compatibility issues.
It will be way easier to add new features.
2020-06-22 07:06:55 -04:00
It becomes possible to experiment with more advanced optimizations in
CPython than just micro-optimizations, like tagged pointers.
Define a process to reduce the number of broken C extensions.
2020-06-22 04:09:57 -04:00
The implementation of this PEP is expected to be done carefully over
multiple Python versions. It already started in Python 3.7 and most
2020-06-22 07:01:12 -04:00
changes are already completed. The `Process to reduce the number of
2020-06-22 07:06:55 -04:00
broken C extensions`_ dictates the rhythm.
PEP withdrawn
=============
2022-12-13 10:38:41 -05:00
This PEP was withdrawn by its author since the scope is too broad and the work is
distributed over multiple Python versions, which makes it difficult to make
a decision on the overall PEP. It was split into new PEPs with
narrower and better defined scopes, like :pep:`670`.
2022-12-13 10:38:41 -05:00
Motivation
==========
The C API blocks CPython evolutions
-----------------------------------
2020-06-22 04:09:57 -04:00
Adding or removing members of C structures is causing multiple backward
compatibility issues.
Adding a new member breaks the stable ABI (:pep:`384`), especially for
2020-06-21 22:04:07 -04:00
types declared statically (e.g. ``static PyTypeObject MyType =
{...};``). In Python 3.4, the :pep:`442` "Safe object finalization" added
2020-06-22 07:01:12 -04:00
the ``tp_finalize`` member at the end of the ``PyTypeObject`` structure.
For ABI backward compatibility, a new ``Py_TPFLAGS_HAVE_FINALIZE`` type
flag was required to announce if the type structure contains the
``tp_finalize`` member. The flag was removed in Python 3.8 (`bpo-32388
<https://bugs.python.org/issue32388>`_).
The ``PyTypeObject.tp_print`` member, deprecated since Python 3.0
released in 2009, has been removed in the Python 3.8 development cycle.
But the change broke too many C extensions and had to be reverted before
3.8 final release. Finally, the member was removed again in Python 3.9.
2020-07-08 05:34:18 -04:00
C extensions rely on the ability to access structure members,
indirectly through the C API, or even directly. Modifying structures
like ``PyListObject`` cannot be even considered.
The ``PyTypeObject`` structure is the one which evolved the most, simply
because there was no other way to evolve CPython than modifying it.
2020-07-08 05:34:18 -04:00
A C extension can technically dereference a ``PyObject*`` pointer and
access ``PyObject`` members. This prevents experiments like tagged
pointers (storing small values as ``PyObject*`` which does not point to
a valid ``PyObject`` structure).
Replacing Python garbage collector with a tracing garbage collector
would also need to remove ``PyObject.ob_refcnt`` reference counter,
whereas currently ``Py_INCREF()`` and ``Py_DECREF()`` macros access
directly to ``PyObject.ob_refcnt``.
Same CPython design since 1990: structures and reference counting
-----------------------------------------------------------------
When the CPython project was created, it was written with one principle:
keep the implementation simple enough so it can be maintained by a
single developer. CPython complexity grew a lot and many
micro-optimizations have been implemented, but CPython core design has
not changed.
Members of ``PyObject`` and ``PyTupleObject`` structures have not
changed since the "Initial revision" commit (1990)::
#define OB_HEAD \
unsigned int ob_refcnt; \
struct _typeobject *ob_type;
typedef struct _object {
OB_HEAD
} object;
typedef struct {
OB_VARHEAD
object *ob_item[1];
} tupleobject;
Only names changed: ``object`` was renamed to ``PyObject`` and
``tupleobject`` was renamed to ``PyTupleObject``.
CPython still tracks Python objects lifetime using reference counting
internally and for third party C extensions (through the Python C API).
All Python objects must be allocated on the heap and cannot be moved.
Why is PyPy more efficient than CPython?
----------------------------------------
The PyPy project is a Python implementation which is 4.2x faster than
2020-06-22 07:01:12 -04:00
CPython on average. PyPy developers chose to not fork CPython, but start
from scratch to have more freedom in terms of optimization choices.
PyPy does not use reference counting, but a tracing garbage collector
which moves objects. Objects can be allocated on the stack (or even not
at all), rather than always having to be allocated on the heap.
Objects layouts are designed with performance in mind. For example, a
list strategy stores integers directly as integers, rather than objects.
Moreover, PyPy also has a JIT compiler which emits fast code thanks to
the efficient PyPy design.
PyPy bottleneck: the Python C API
---------------------------------
While PyPy is way more efficient than CPython to run pure Python code,
it is as efficient or slower than CPython to run C extensions.
Since the C API requires ``PyObject*`` and allows to access directly
structure members, PyPy has to associate a CPython object to PyPy
objects and maintain both consistent. Converting a PyPy object to a
CPython object is inefficient. Moreover, reference counting also has to
2020-06-22 07:01:12 -04:00
be implemented on top of PyPy tracing garbage collector.
These conversions are required because the Python C API is too close to
the CPython implementation: there is no high-level abstraction.
2020-06-21 22:04:07 -04:00
For example, structures members are part of the public C API and nothing
prevents a C extension to get or set directly
``PyTupleObject.ob_item[0]`` (the first item of a tuple).
See `Inside cpyext: Why emulating CPython C API is so Hard
<https://morepypy.blogspot.com/2018/09/inside-cpyext-why-emulating-cpython-c.html>`_
(Sept 2018) by Antonio Cuni for more details.
Rationale
=========
Hide implementation details
---------------------------
Hiding implementation details from the C API has multiple advantages:
2020-06-22 07:06:55 -04:00
* It becomes possible to experiment with more advanced optimizations in
CPython than just micro-optimizations. For example, tagged pointers,
and replace the garbage collector with a tracing garbage collector
which can move objects.
* Adding new features in CPython becomes easier.
* PyPy should be able to avoid conversions to CPython objects in more
cases: keep efficient PyPy objects.
* It becomes easier to implement the C API for a new Python
implementation.
* More C extensions will be compatible with Python implementations other
than CPython.
Relationship with the limited C API
-----------------------------------
The :pep:`384` "Defining a Stable ABI" is implemented in Python 3.4. It introduces the
"limited C API": a subset of the C API. When the limited C API is used,
2020-06-22 07:01:12 -04:00
it becomes possible to build a C extension only once and use it on
multiple Python versions: that's the stable ABI.
The main limitation of the :pep:`384` is that C extensions have to opt-in
for the limited C API. Only very few projects made this choice,
usually to ease distribution of binaries, especially on Windows.
This PEP moves the C API towards the limited C API.
Ideally, the C API will become the limited C API and all C extensions
will use the stable ABI, but this is out of this PEP scope.
Specification
=============
Summary
-------
* (**Completed**) Reorganize the C API header files: create ``Include/cpython/`` and
``Include/internal/`` subdirectories.
* (**Completed**) Move private functions exposing implementation details to the internal
C API.
* (**Completed**) Convert macros to static inline functions.
* (**Completed**) Add new functions ``Py_SET_TYPE()``, ``Py_SET_REFCNT()`` and
``Py_SET_SIZE()``. The ``Py_TYPE()``, ``Py_REFCNT()`` and
``Py_SIZE()`` macros become functions which cannot be used as l-value.
* (**Completed**) New C API functions must not return borrowed
references.
* (**In Progress**) Provide ``pythoncapi_compat.h`` header file.
* (**In Progress**) Make structures opaque, add getter and setter
functions.
* (**Not Started**) Deprecate ``PySequence_Fast_ITEMS()``.
* (**Not Started**) Convert ``PyTuple_GET_ITEM()`` and
``PyList_GET_ITEM()`` macros to static inline functions.
Reorganize the C API header files
---------------------------------
The first consumer of the C API was Python itself. There is no clear
separation between APIs which must not be used outside Python, and API
which are public on purpose.
Header files must be reorganized in 3 API:
* ``Include/`` directory is the limited C API: no implementation
details, structures are opaque. C extensions using it get a stable
ABI.
* ``Include/cpython/`` directory is the CPython C API: less "portable"
API, depends more on the Python version, expose some implementation
details, few incompatible changes can happen.
* ``Include/internal/`` directory is the internal C API: implementation
details, incompatible changes are likely at each Python release.
The creation of the ``Include/cpython/`` directory is fully backward
compatible. ``Include/cpython/`` header files cannot be included
directly and are included automatically by ``Include/`` header files
when the ``Py_LIMITED_API`` macro is not defined.
The internal C API is installed and can be used for specific usage like
debuggers and profilers which must access structures members without
executing code. C extensions using the internal C API are tightly
coupled to a Python version and must be recompiled at each Python
version.
**STATUS**: Completed (in Python 3.8)
The reorganization of header files started in Python 3.7 and was
completed in Python 3.8:
* `bpo-35134 <https://bugs.python.org/issue35134>`_: Add a new
Include/cpython/ subdirectory for the "CPython API" with
implementation details.
* `bpo-35081 <https://bugs.python.org/issue35081>`_: Move internal
headers to ``Include/internal/``
Move private functions to the internal C API
--------------------------------------------
2020-06-22 07:01:12 -04:00
Private functions which expose implementation details must be moved to
the internal C API.
If a C extension relies on a CPython private function which exposes
CPython implementation details, other Python implementations have to
re-implement this private function to support this C extension.
**STATUS**: Completed (in Python 3.9)
2020-06-22 04:09:57 -04:00
Private functions moved to the internal C API in Python 3.8:
* ``_PyObject_GC_TRACK()``, ``_PyObject_GC_UNTRACK()``
2020-06-22 04:09:57 -04:00
Macros and functions excluded from the limited C API in Python 3.9:
2020-06-22 04:09:57 -04:00
* ``_PyObject_SIZE()``, ``_PyObject_VAR_SIZE()``
* ``PyThreadState_DeleteCurrent()``
* ``PyFPE_START_PROTECT()``, ``PyFPE_END_PROTECT()``
* ``_Py_NewReference()``, ``_Py_ForgetReference()``
* ``_PyTraceMalloc_NewReference()``
* ``_Py_GetRefTotal()``
2020-06-22 04:09:57 -04:00
Private functions moved to the internal C API in Python 3.9:
2020-06-22 04:09:57 -04:00
* GC functions like ``_Py_AS_GC()``, ``_PyObject_GC_IS_TRACKED()``
and ``_PyGCHead_NEXT()``
* ``_Py_AddToAllObjects()`` (not exported)
* ``_PyDebug_PrintTotalRefs()``, ``_Py_PrintReferences()``,
``_Py_PrintReferenceAddresses()`` (not exported)
Public "clear free list" functions moved to the internal C API and
renamed to private functions in Python 3.9:
2020-06-22 04:09:57 -04:00
* ``PyAsyncGen_ClearFreeLists()``
* ``PyContext_ClearFreeList()``
* ``PyDict_ClearFreeList()``
* ``PyFloat_ClearFreeList()``
* ``PyFrame_ClearFreeList()``
* ``PyList_ClearFreeList()``
* ``PyTuple_ClearFreeList()``
* Functions simply removed:
* ``PyMethod_ClearFreeList()`` and ``PyCFunction_ClearFreeList()``:
bound method free list removed in Python 3.9.
* ``PySet_ClearFreeList()``: set free list removed in Python 3.4.
* ``PyUnicode_ClearFreeList()``: Unicode free list removed
in Python 3.3.
Convert macros to static inline functions
-----------------------------------------
Converting macros to static inline functions has multiple advantages:
* Functions have well defined parameter types and return type.
* Functions can use variables with a well defined scope (the function).
* Debugger can be put breakpoints on functions and profilers can display
the function name in the call stacks. In most cases, it works even
when a static inline function is inlined.
* Functions don't have `macros pitfalls
<https://gcc.gnu.org/onlinedocs/cpp/Macro-Pitfalls.html>`_.
Converting macros to static inline functions should only impact very few
C extensions that use macros in unusual ways.
For backward compatibility, functions must continue to accept any type,
not only ``PyObject*``, to avoid compiler warnings, since most macros
cast their parameters to ``PyObject*``.
Python 3.6 requires C compilers to support static inline functions: the
:pep:`7` requires a subset of C99.
**STATUS**: Completed (in Python 3.9)
Macros converted to static inline functions in Python 3.8:
* ``Py_INCREF()``, ``Py_DECREF()``
* ``Py_XINCREF()``, ``Py_XDECREF()``
* ``PyObject_INIT()``, ``PyObject_INIT_VAR()``
* ``_PyObject_GC_TRACK()``, ``_PyObject_GC_UNTRACK()``, ``_Py_Dealloc()``
Macros converted to regular functions in Python 3.9:
* ``Py_EnterRecursiveCall()``, ``Py_LeaveRecursiveCall()``
2020-06-22 04:09:57 -04:00
(added to the limited C API)
* ``PyObject_INIT()``, ``PyObject_INIT_VAR()``
2020-06-22 04:09:57 -04:00
* ``PyObject_GET_WEAKREFS_LISTPTR()``
* ``PyObject_CheckBuffer()``
* ``PyIndex_Check()``
* ``PyObject_IS_GC()``
* ``PyObject_NEW()`` (alias to ``PyObject_New()``),
``PyObject_NEW_VAR()`` (alias to ``PyObject_NewVar()``)
* ``PyType_HasFeature()`` (always call ``PyType_GetFlags()``)
* ``Py_TRASHCAN_BEGIN_CONDITION()`` and ``Py_TRASHCAN_END()`` macros
now call functions which hide implementation details, rather than
accessing directly members of the ``PyThreadState`` structure.
Make structures opaque
----------------------
2020-07-08 05:34:18 -04:00
The following structures of the C API become opaque:
* ``PyInterpreterState``
* ``PyThreadState``
* ``PyGC_Head``
* ``PyTypeObject``
* ``PyObject`` and ``PyVarObject``
* ``PyTypeObject``
* All types which inherit from ``PyObject`` or ``PyVarObject``
C extensions must use getter or setter functions to get or set structure
members. For example, ``tuple->ob_item[0]`` must be replaced with
``PyTuple_GET_ITEM(tuple, 0)``.
To be able to move away from reference counting, ``PyObject`` must
become opaque. Currently, the reference counter ``PyObject.ob_refcnt``
is exposed in the C API. All structures must become opaque, since they
"inherit" from PyObject. For, ``PyFloatObject`` inherits from
``PyObject``::
typedef struct {
PyObject ob_base;
double ob_fval;
} PyFloatObject;
2020-06-22 07:01:12 -04:00
Making ``PyObject`` fully opaque requires converting ``Py_INCREF()`` and
``Py_DECREF()`` macros to function calls. This change has an impact on
2020-06-22 07:06:55 -04:00
performance. It is likely to be one of the very last changes when making
structures opaque.
Making ``PyTypeObject`` structure opaque breaks C extensions declaring
types statically (e.g. ``static PyTypeObject MyType = {...};``). C
extensions must use ``PyType_FromSpec()`` to allocate types on the heap
2020-06-22 07:01:12 -04:00
instead. Using heap types has other advantages like being compatible
with subinterpreters. Combined with :pep:`489` "Multi-phase extension
module initialization", it makes a C extension behavior closer to a
Python module, like allowing to create more than one module instance.
2020-06-22 07:01:12 -04:00
Making ``PyThreadState`` structure opaque requires adding getter and
setter functions for members used by C extensions.
**STATUS**: In Progress (started in Python 3.8)
The ``PyInterpreterState`` structure was made opaque in Python 3.8
(`bpo-35886 <https://bugs.python.org/issue35886>`_) and the
``PyGC_Head`` structure (`bpo-40241
<https://bugs.python.org/issue40241>`_) was made opaque in Python 3.9.
Issues tracking the work to prepare the C API to make following
structures opaque:
* ``PyObject``: `bpo-39573 <https://bugs.python.org/issue39573>`_
* ``PyTypeObject``: `bpo-40170 <https://bugs.python.org/issue40170>`_
2020-06-22 04:09:57 -04:00
* ``PyFrameObject``: `bpo-40421 <https://bugs.python.org/issue40421>`_
* Python 3.9 adds ``PyFrame_GetCode()`` and ``PyFrame_GetBack()``
getter functions, and moves ``PyFrame_GetLineNumber`` to the limited
C API.
* ``PyThreadState``: `bpo-39947 <https://bugs.python.org/issue39947>`_
* Python 3.9 adds 3 getter functions: ``PyThreadState_GetFrame()``,
``PyThreadState_GetID()``, ``PyThreadState_GetInterpreter()``.
Disallow using Py_TYPE() as l-value
-----------------------------------
The ``Py_TYPE()`` function gets an object type, its ``PyObject.ob_type``
member. It is implemented as a macro which can be used as an l-value to
set the type: ``Py_TYPE(obj) = new_type``. This code relies on the
assumption that ``PyObject.ob_type`` can be modified directly. It
2020-06-22 07:01:12 -04:00
prevents making the ``PyObject`` structure opaque.
New setter functions ``Py_SET_TYPE()``, ``Py_SET_REFCNT()`` and
``Py_SET_SIZE()`` are added and must be used instead.
The ``Py_TYPE()``, ``Py_REFCNT()`` and ``Py_SIZE()`` macros must be
converted to static inline functions which can not be used as l-value.
For example, the ``Py_TYPE()`` macro::
#define Py_TYPE(ob) (((PyObject*)(ob))->ob_type)
becomes::
#define _PyObject_CAST_CONST(op) ((const PyObject*)(op))
static inline PyTypeObject* _Py_TYPE(const PyObject *ob) {
return ob->ob_type;
}
#define Py_TYPE(ob) _Py_TYPE(_PyObject_CAST_CONST(ob))
**STATUS**: Completed (in Python 3.10)
New functions ``Py_SET_TYPE()``, ``Py_SET_REFCNT()`` and
``Py_SET_SIZE()`` were added to Python 3.9.
In Python 3.10, ``Py_TYPE()``, ``Py_REFCNT()`` and ``Py_SIZE()`` can no
longer be used as l-value and the new setter functions must be used
instead.
New C API functions must not return borrowed references
-------------------------------------------------------
When a function returns a borrowed reference, Python cannot track when
the caller stops using this reference.
For example, if the Python ``list`` type is specialized for small
integers, store directly "raw" numbers rather than Python objects,
``PyList_GetItem()`` has to create a temporary Python object. The
problem is to decide when it is safe to delete the temporary object.
The general guidelines is to avoid returning borrowed references for new
C API functions.
No function returning borrowed references is scheduled for removal by
this PEP.
**STATUS**: Completed (in Python 3.9)
In Python 3.9, new C API functions returning Python objects only return
strong references:
* ``PyFrame_GetBack()``
* ``PyFrame_GetCode()``
* ``PyObject_CallNoArgs()``
* ``PyObject_CallOneArg()``
* ``PyThreadState_GetFrame()``
Avoid functions returning PyObject**
------------------------------------
The ``PySequence_Fast_ITEMS()`` function gives a direct access to an
array of ``PyObject*`` objects. The function is deprecated in favor of
``PyTuple_GetItem()`` and ``PyList_GetItem()``.
``PyTuple_GET_ITEM()`` can be abused to access directly the
``PyTupleObject.ob_item`` member::
PyObject **items = &PyTuple_GET_ITEM(0);
The ``PyTuple_GET_ITEM()`` and ``PyList_GET_ITEM()`` macros are
converted to static inline functions to disallow that.
**STATUS**: Not Started
New pythoncapi_compat.h header file
-----------------------------------
2020-06-22 07:01:12 -04:00
Making structures opaque requires modifying C extensions to
2020-06-21 22:04:07 -04:00
use getter and setter functions. The practical issue is how to keep
support for old Python versions which don't have these functions.
2020-06-21 22:04:07 -04:00
For example, in Python 3.10, it is no longer possible to use
``Py_TYPE()`` as an l-value. The new ``Py_SET_TYPE()`` function must be
used instead::
#if PY_VERSION_HEX >= 0x030900A4
Py_SET_TYPE(&MyType, &PyType_Type);
#else
Py_TYPE(&MyType) = &PyType_Type;
#endif
This code may ring a bell to developers who ported their Python code
base from Python 2 to Python 3.
Python will distribute a new ``pythoncapi_compat.h`` header file which
provides new C API functions to old Python versions. Example::
#if PY_VERSION_HEX < 0x030900A4
static inline void
_Py_SET_TYPE(PyObject *ob, PyTypeObject *type)
{
ob->ob_type = type;
}
#define Py_SET_TYPE(ob, type) _Py_SET_TYPE((PyObject*)(ob), type)
#endif // PY_VERSION_HEX < 0x030900A4
Using this header file, ``Py_SET_TYPE()`` can be used on old Python
versions as well.
2020-06-22 07:01:12 -04:00
Developers can copy this file in their project, or even to only
2020-06-21 22:04:07 -04:00
copy/paste the few functions needed by their C extension.
2020-06-22 07:01:12 -04:00
**STATUS**: In Progress (implemented but not distributed by CPython yet)
2020-08-07 17:55:44 -04:00
The ``pythoncapi_compat.h`` header file is currently developed at:
https://github.com/pythoncapi/pythoncapi_compat
2020-06-22 07:01:12 -04:00
Process to reduce the number of broken C extensions
===================================================
2020-06-22 07:06:55 -04:00
Process to reduce the number of broken C extensions when introducing C
API incompatible changes listed in this PEP:
* Estimate how many popular C extensions are affected by the
incompatible change.
* Coordinate with maintainers of broken C extensions to prepare their
code for the future incompatible change.
* Introduce the incompatible changes in Python. The documentation must
explain how to port existing code. It is recommended to merge such
2020-06-21 22:04:07 -04:00
changes at the beginning of a development cycle to have more time for
tests.
* Changes which are the most likely to break a large number of C
extensions should be announced on the capi-sig mailing list to notify
C extensions maintainers to prepare their project for the next Python.
* If the change breaks too many projects, reverting the change should be
discussed, taking in account the number of broken packages, their
2020-06-22 07:06:55 -04:00
importance in the Python community, and the importance of the change.
The coordination usually means reporting issues to the projects, or even
2020-06-22 07:06:55 -04:00
proposing changes. It does not require waiting for a new release including
fixes for every broken project.
2020-06-21 22:04:07 -04:00
Since more and more C extensions are written using Cython, rather
directly using the C API, it is important to ensure that Cython is
2020-06-22 07:01:12 -04:00
prepared in advance for incompatible changes. It gives more time for C
2020-06-21 22:04:07 -04:00
extension maintainers to release a new version with code generated with
2020-06-22 07:01:12 -04:00
the updated Cython (for C extensions distributing the code generated by
2020-06-21 22:04:07 -04:00
Cython).
Future incompatible changes can be announced by deprecating a function
in the documentation and by annotating the function with
2020-06-21 22:04:07 -04:00
``Py_DEPRECATED()``. But making a structure opaque and preventing the
usage of a macro as l-value cannot be deprecated with
``Py_DEPRECATED()``.
2020-06-22 07:01:12 -04:00
The important part is coordination and finding a balance between CPython
evolutions and backward compatibility. For example, breaking a random,
old, obscure and unmaintained C extension on PyPI is less severe than
breaking numpy.
If a change is reverted, we move back to the coordination step to better
prepare the change. Once more C extensions are ready, the incompatible
change can be reconsidered.
Version History
===============
2020-06-22 07:01:12 -04:00
* Version 3, June 2020: PEP rewritten from scratch. Python now
distributes a new ``pythoncapi_compat.h`` header and a process is
2020-06-22 07:06:55 -04:00
defined to reduce the number of broken C extensions when introducing C
2020-06-22 07:01:12 -04:00
API incompatible changes listed in this PEP.
* Version 2, April 2020:
`PEP: Modify the C API to hide implementation details
<https://mail.python.org/archives/list/python-dev@python.org/thread/HKM774XKU7DPJNLUTYHUB5U6VR6EQMJF/#TKHNENOXP6H34E73XGFOL2KKXSM4Z6T2>`_.
* Version 1, July 2017:
`PEP: Hide implementation details in the C API
<https://mail.python.org/archives/list/python-ideas@python.org/thread/6XATDGWK4VBUQPRHCRLKQECTJIPBVNJQ/#HFBGCWVLSM47JEP6SO67MRFT7Y3EOC44>`_
sent to python-ideas
Copyright
=========
This document has been placed in the public domain.