Revise implementation strategy for PEP 432

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Nick Coghlan 2015-12-27 21:44:47 +10:00
parent 5968f99d0a
commit 4a179cbd11
1 changed files with 76 additions and 20 deletions

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@ -7,7 +7,7 @@ Status: Draft
Type: Standards Track
Content-Type: text/x-rst
Created: 28-Dec-2012
Python-Version: 3.5
Python-Version: 3.6
Post-History: 28-Dec-2012, 2-Jan-2013
@ -100,7 +100,7 @@ feature requests easier to implement.
Key Concerns
============
There are a couple of key concerns that any change to the startup sequence
There are a few key concerns that any change to the startup sequence
needs to take into account.
@ -123,6 +123,17 @@ data types, it should also be easier to modify the system in the
future to add new configuration options.
Testability
-----------
One of the problems with the complexity of the CPython startup sequence is the
combinatorial explosion of possible interactions between different configuration
settings.
This concern impacts both the design of the new initialisation system, and
the proposed approach for getting there.
Performance
-----------
@ -226,6 +237,54 @@ additional settings arise naturally in the course of migrating existing
settings to the new structure).
Implementation Strategy
=======================
An initial attempt was made at implementing an earlier version of this PEP for
Python 3.4 [2_], with one of the significant problems encountered being merge
conflicts after the initial structural changes were put in place to start the
refactoring process. Unlike some other previous major changes, such as the
switch to an AST-based compiler in Python 2.5, or the switch to the importlib
implementation of the import system in Python 3.3, there is no clear way to
structure a draft implementation that won't be prone to the kinds of merge
conflicts that afflicted the original attempt.
Accordingly, the implementation strategy now being proposed is to implement this
refactoring as a private API for CPython 3.6, before exposing the new functions
and structures as public API elements in CPython 3.7.
The affected APIs with a leading underscore, as they would be named in CPython
3.6:
* ``_Py_IsCoreInitialized``
* ``_Py_InitializeCore``
* ``_PyCoreConfig``
* ``_PyCoreConfig_INIT``
* ``_Py_ReadHashSeed``
* ``_Py_InitializeMainInterpreter``
* ``_PyMainInterpreterConfig``
* ``_PyMainInterpreterConfig_INIT``
* ``_Py_ReadMainInterpreterConfig``
* ``_PyRun_PrepareMain``
* ``_PyRun_ExecMain``
* ``_Py_InterpreterState_Main``
New APIs described in the rest of the PEP with a leading underscore are
intended to be retained permanently as private CPython implementation details.
The principle benefit of this approach is allowing the refactoring to adopt the
new configuration structures to be handled on a setting by setting basis
over the course of the 3.6 and 3.7 development cycles, rather than having to
migrate them in a single monolithic change. It also means any new settings can
be handled using the new approach, even if some existing settings have yet to
be migrated.
If all existing settings are successfully migrated to the new initialization
model in time for the 3.6.0a4 release in August 2016, then the proposal would
be to make the APIs public for the 3.6.0b1 release in September 2016, rather
than waiting for 3.7.
Design Details
==============
@ -255,7 +314,7 @@ Three distinct interpreter initialisation phases are proposed:
* ``Py_IsInitialized()`` returns ``0``
* The embedding application determines the settings required to create the
main interpreter and moves to the next phase by calling
``Py_InitializationCore``.
``Py_InitializeCore``.
* Core Initialized:
@ -329,8 +388,7 @@ The proposed API for this step in the startup sequence is::
void Py_InitializeCore(const PyCoreConfig *config);
Like ``Py_Initialize``, this part of the new API treats initialization
failures
Like ``Py_Initialize``, this part of the new API treats initialization failures
as fatal errors. While that's still not particularly embedding friendly,
the operations in this step *really* shouldn't be failing, and changing them
to return error codes instead of aborting would be an even larger task than
@ -446,7 +504,7 @@ except that:
* Only builtin and frozen modules may be imported (due to above limitations)
* ``sys.stderr`` is set to a temporary IO object using unbuffered binary
mode
* The ``sys.flags`` attribute exists, but may contain flags may not yet
* The ``sys.flags`` attribute exists, but the individual flags may not yet
have their final values.
* The ``sys.flags.initialized`` attribute is set to ``0``
* The ``warnings`` module is not yet initialized
@ -466,7 +524,7 @@ object rather than in C process globals.
Any call to ``Py_InitializeCore()`` must have a matching call to
``Py_Finalize()``. It is acceptable to skip calling
``Py_InitializeMainInterpreter()`` in between (e.g. if attempting to read the
main interpreter configuration settings fails)
main interpreter configuration settings fails).
Determining the remaining configuration settings
@ -583,9 +641,9 @@ Python data types (not set == ``NULL``) or numeric flags (not set == ``-1``)::
/* Main module
*
* If prepare_main is set, at most one of the main_* settings should
* be set before calling PyRun_PrepareMain (Py_ReadConfiguration will
* set one of them based on the command line arguments if prepare_main
* is non-zero when that API is called).
* be set before calling PyRun_PrepareMain (Py_ReadMainInterpreterConfig
* will set one of them based on the command line arguments if
* prepare_main is non-zero when that API is called).
int prepare_main;
PyUnicodeObject *main_source; /* -c switch */
PyUnicodeObject *main_path; /* filesystem path */
@ -923,7 +981,7 @@ executed file is placed at the beginning of the import path.
Issue 16499 [6_] added a ``-I`` option to change the behaviour of
the normal CPython executable, but this is a hard to discover solution (and
adds yet another option to an already complex CLI). This PEP proposes to
instead add a separate ``pysystem`` executable
instead add a separate ``system-python`` executable
Currently, providing a separate executable with different default behaviour
would be prohibitively hard to maintain. One of the goals of this PEP is to
@ -965,21 +1023,19 @@ Open Questions
both PyMainInterpreterConfig and PyMainInterpreterConfig_INIT when adding
new fields?
* The name of the new system Python executable is a bikeshed waiting to be
painted. The 3 options considered so far are ``spython``, ``pysystem``
and ``python-minimal``. The PEP text reflects my current preferred choice
(``pysystem``).
painted. The 4 options considered so far are ``spython``, ``pysystem``,
``python-minimal`` and `system-python``. The PEP text reflects my current
preferred choice (``system-python``).
Implementation
==============
The reference implementation is being developed as a feature branch in my
BitBucket sandbox [2_]. Pull requests to fix the inevitably broken
Windows builds are welcome, but the basic design is still in too much flux
for other pull requests to be feasible just yet. Once the overall design
settles down and it's a matter of migrating individual settings over to
the new design, that level of collaboration should become more practical.
A reference implementation for an earlier design was developed as a feature
branch in my BitBucket sandbox [2_].
There is not yet a reference implementation for the design currently
described in the PEP.
The Status Quo
==============