2016-06-17 22:53:20 -04:00
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PEP: 523
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Title: Adding a frame evaluation API to CPython
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Version: $Revision$
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Last-Modified: $Date$
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Author: Brett Cannon <brett@python.org>,
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Dino Viehland <dinov@microsoft.com>
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Status: Draft
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 16-May-2016
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Post-History: 16-May-2016
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Abstract
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========
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This PEP proposes to expand CPython's C API [#c-api]_ to allow for
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the specification of a per-interpreter function pointer to handle the
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evaluation of frames [#pyeval_evalframeex]_. This proposal also
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suggests adding a new field to code objects [#pycodeobject]_ to store
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arbitrary data for use by the frame evaluation function.
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Rationale
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=========
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One place where flexibility has been lacking in Python is in the direct
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execution of Python code. While CPython's C API [#c-api]_ allows for
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constructing the data going into a frame object and then evaluating it
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via ``PyEval_EvalFrameEx()`` [#pyeval_evalframeex]_, control over the
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execution of Python code comes down to individual objects instead of a
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holistic control of execution at the frame level.
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While wanting to have influence over frame evaluation may seem a bit
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too low-level, it does open the possibility for things such as a
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method-level JIT to be introduced into CPython without CPython itself
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having to provide one. By allowing external C code to control frame
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evaluation, a JIT can participate in the execution of Python code at
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the key point where evaluation occurs. This then allows for a JIT to
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conditionally recompile Python bytecode to machine code as desired
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while still allowing for executing regular CPython bytecode when
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running the JIT is not desired. This can be accomplished by allowing
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interpreters to specify what function to call to evaluate a frame. And
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by placing the API at the frame evaluation level it allows for a
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complete view of the execution environment of the code for the JIT.
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This ability to specify a frame evaluation function also allows for
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other use-cases beyond just opening CPython up to a JIT. For instance,
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it would not be difficult to implement a tracing or profiling function
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at the call level with this API. While CPython does provide the
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ability to set a tracing or profiling function at the Python level,
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this would be able to match the data collection of the profiler and
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quite possibly be faster for tracing by simply skipping per-line
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tracing support.
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It also opens up the possibility of debugging where the frame
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evaluation function only performs special debugging work when it
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detects it is about to execute a specific code object. In that
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instance the bytecode could be theoretically rewritten in-place to
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inject a breakpoint function call at the proper point for help in
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debugging while not having to do a heavy-handed approach as
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required by ``sys.settrace()``.
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To help facilitate these use-cases, we are also proposing the adding
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of a "scratch space" on code objects via a new field. This will allow
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per-code object data to be stored with the code object itself for easy
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retrieval by the frame evaluation function as necessary. The field
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itself will simply be a ``PyObject *`` type so that any data stored in
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the field will participate in normal object memory management.
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Proposal
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========
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All proposed C API changes below will not be part of the stable ABI.
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Expanding ``PyCodeObject``
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--------------------------
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One field is to be added to the ``PyCodeObject`` struct
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[#pycodeobject]_::
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typedef struct {
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...
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PyObject *co_extra; /* "Scratch space" for the code object. */
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} PyCodeObject;
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The ``co_extra`` will be ``NULL`` by default and will not be used by
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CPython itself. Third-party code is free to use the field as desired.
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Values stored in the field are expected to not be required in order
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for the code object to function, allowing the loss of the data of the
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field to be acceptable (this keeps the code object as immutable from
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a functionality point-of-view; this is slightly contentious and so is
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listed as an open issue in `Is co_extra needed?`_). The field will be
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freed like all other fields on ``PyCodeObject`` during deallocation
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using ``Py_XDECREF()``.
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It is not recommended that multiple users attempt to use the
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``co_extra`` simultaneously. While a dictionary could theoretically be
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set to the field and various users could use a key specific to the
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project, there is still the issue of key collisions as well as
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performance degradation from using a dictionary lookup on every frame
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evaluation. Users are expected to do a type check to make sure that
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the field has not been previously set by someone else.
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Expanding ``PyInterpreterState``
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--------------------------------
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The entrypoint for the frame evalution function is per-interpreter::
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// Same type signature as PyEval_EvalFrameEx().
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typedef PyObject* (__stdcall *PyFrameEvalFunction)(PyFrameObject*, int);
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typedef struct {
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...
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PyFrameEvalFunction eval_frame;
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} PyInterpreterState;
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By default, the ``eval_frame`` field will be initialized to a function
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pointer that represents what ``PyEval_EvalFrameEx()`` currently is
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(called ``PyEval_EvalFrameDefault()``, discussed later in this PEP).
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Third-party code may then set their own frame evaluation function
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instead to control the execution of Python code. A pointer comparison
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can be used to detect if the field is set to
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``PyEval_EvalFrameDefault()`` and thus has not been mutated yet.
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Changes to ``Python/ceval.c``
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-----------------------------
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``PyEval_EvalFrameEx()`` [#pyeval_evalframeex]_ as it currently stands
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will be renamed to ``PyEval_EvalFrameDefault()``. The new
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``PyEval_EvalFrameEx()`` will then become::
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PyObject *
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PyEval_EvalFrameEx(PyFrameObject *frame, int throwflag)
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{
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PyThreadState *tstate = PyThreadState_GET();
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return tstate->interp->eval_frame(frame, throwflag);
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}
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This allows third-party code to place themselves directly in the path
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of Python code execution while being backwards-compatible with code
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already using the pre-existing C API.
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Updating ``python-gdb.py``
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--------------------------
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The generated ``python-gdb.py`` file used for Python support in GDB
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makes some hard-coded assumptions about ``PyEval_EvalFrameEx()``, e.g.
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the names of local variables. It will need to be updated to work with
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the proposed changes.
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Performance impact
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==================
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As this PEP is proposing an API to add pluggability, performance
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impact is considered only in the case where no third-party code has
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made any changes.
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Several runs of pybench [#pybench]_ consistently showed no performance
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cost from the API change alone.
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A run of the Python benchmark suite [#py-benchmarks]_ showed no
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measurable cost in performance.
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In terms of memory impact, since there are typically not many CPython
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interpreters executing in a single process that means the impact of
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``co_extra`` being added to ``PyCodeObject`` is the only worry.
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According to [#code-object-count]_, a run of the Python test suite
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results in about 72,395 code objects being created. On a 64-bit
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CPU that would result in 579,160 bytes of extra memory being used if
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all code objects were alive at once and had nothing set in their
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``co_extra`` fields.
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Example Usage
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=============
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A JIT for CPython
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-----------------
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Pyjion
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''''''
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The Pyjion project [#pyjion]_ has used this proposed API to implement
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a JIT for CPython using the CoreCLR's JIT [#coreclr]_. Each code
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object has its ``co_extra`` field set to a ``PyjionJittedCode`` object
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which stores four pieces of information:
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1. Execution count
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2. A boolean representing whether a previous attempt to JIT failed
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3. A function pointer to a trampoline (which can be type tracing or not)
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4. A void pointer to any JIT-compiled machine code
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The frame evaluation function has (roughly) the following algorithm::
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def eval_frame(frame, throw_flag):
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pyjion_code = frame.code.co_extra
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if not pyjion_code:
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frame.code.co_extra = PyjionJittedCode()
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elif not pyjion_code.jit_failed:
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if not pyjion_code.jit_code:
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return pyjion_code.eval(pyjion_code.jit_code, frame)
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elif pyjion_code.exec_count > 20_000:
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if jit_compile(frame):
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return pyjion_code.eval(pyjion_code.jit_code, frame)
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else:
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pyjion_code.jit_failed = True
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pyjion_code.exec_count += 1
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return PyEval_EvalFrameDefault(frame, throw_flag)
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The key point, though, is that all of this work and logic is separate
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from CPython and yet with the proposed API changes it is able to
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provide a JIT that is compliant with Python semantics (as of this
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writing, performance is almost equivalent to CPython without the new
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API). This means there's nothing technically preventing others from
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implementing their own JITs for CPython by utilizing the proposed API.
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Other JITs
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''''''''''
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It should be mentioned that the Pyston team was consulted on an
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earlier version of this PEP that was more JIT-specific and they were
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not interested in utilizing the changes proposed because they want
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control over memory layout they had no interest in directly supporting
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CPython itself. An informal discusion with a developer on the PyPy
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team led to a similar comment.
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Numba [#numba]_, on the other hand, suggested that they would be
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interested in the proposed change in a post-1.0 future for
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themselves [#numba-interest]_.
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The experimental Coconut JIT [#coconut]_ could have benefitted from
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this PEP. In private conversations with Coconut's creator we were told
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that our API was probably superior to the one they developed for
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Coconut to add JIT support to CPython.
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Debugging
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---------
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In conversations with the Python Tools for Visual Studio team (PTVS)
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[#ptvs]_, they thought they would find these API changes useful for
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implementing more performant debugging. As mentioned in the Rationale_
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section, this API would allow for switching on debugging functionality
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only in frames where it is needed. This could allow for either
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skipping information that ``sys.settrace()`` normally provides and
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even go as far as to dynamically rewrite bytecode prior to execution
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to inject e.g. breakpoints in the bytecode.
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It also turns out that Google has provided a very similar API
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internally for years. It has been used for performant debugging
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purposes.
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Implementation
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==============
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A set of patches implementing the proposed API is available through
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the Pyjion project [#pyjion]_. In its current form it has more
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changes to CPython than just this proposed API, but that is for ease
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of development instead of strict requirements to accomplish its goals.
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Open Issues
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===========
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Allow ``eval_frame`` to be ``NULL``
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-----------------------------------
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Currently the frame evaluation function is expected to always be set.
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It could very easily simply default to ``NULL`` instead which would
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signal to use ``PyEval_EvalFrameDefault()``. The current proposal of
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not special-casing the field seemed the most straight-forward, but it
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does require that the field not accidentally be cleared, else a crash
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may occur.
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Is co_extra needed?
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-------------------
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While discussing this PEP at PyCon US 2016, some core developers
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expressed their worry of the ``co_extra`` field making code objects
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mutable. The thinking seemed to be that having a field that was
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mutated after the creation of the code object made the object seem
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mutable, even though no other aspect of code objects changed.
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The view of this PEP is that the `co_extra` field doesn't change the
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fact that code objects are immutable. The field is specified in this
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PEP as to not contain information required to make the code object
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usable, making it more of a caching field. It could be viewed as
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similar to the UTF-8 cache that string objects have internally;
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strings are still considered immutable even though they have a field
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that is conditionally set.
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The field is also not strictly necessary. While the field greatly
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simplifies attaching extra information to code objects, other options
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such as keeping a mapping of code object memory addresses to what
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would have been kept in ``co_extra`` or perhaps using a weak reference
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of the data on the code object and then iterating through the weak
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references until the attached data is found is possible. But obviously
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all of these solutions are not as simple or performant as adding the
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``co_extra`` field.
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Rejected Ideas
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==============
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A JIT-specific C API
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--------------------
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Originally this PEP was going to propose a much larger API change
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which was more JIT-specific. After soliciting feedback from the Numba
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team [#numba]_, though, it became clear that the API was unnecessarily
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large. The realization was made that all that was truly needed was the
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opportunity to provide a trampoline function to handle execution of
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Python code that had been JIT-compiled and a way to attach that
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compiled machine code along with other critical data to the
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corresponding Python code object. Once it was shown that there was no
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loss in functionality or in performance while minimizing the API
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changes required, the proposal was changed to its current form.
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References
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==========
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.. [#pyjion] Pyjion project
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(https://github.com/microsoft/pyjion)
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.. [#c-api] CPython's C API
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(https://docs.python.org/3/c-api/index.html)
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.. [#pycodeobject] ``PyCodeObject``
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(https://docs.python.org/3/c-api/code.html#c.PyCodeObject)
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.. [#coreclr] .NET Core Runtime (CoreCLR)
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(https://github.com/dotnet/coreclr)
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.. [#pyeval_evalframeex] ``PyEval_EvalFrameEx()``
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(https://docs.python.org/3/c-api/veryhigh.html?highlight=pyframeobject#c.PyEval_EvalFrameEx)
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.. [#numba] Numba
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(http://numba.pydata.org/)
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.. [#numba-interest] numba-users mailing list:
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"Would the C API for a JIT entrypoint being proposed by Pyjion help out Numba?"
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(https://groups.google.com/a/continuum.io/forum/#!topic/numba-users/yRl_0t8-m1g)
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.. [#code-object-count] [Python-Dev] Opcode cache in ceval loop
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(https://mail.python.org/pipermail/python-dev/2016-February/143025.html)
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.. [#py-benchmarks] Python benchmark suite
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(https://hg.python.org/benchmarks)
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.. [#pyston] Pyston
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(http://pyston.org)
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.. [#pypy] PyPy
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(http://pypy.org/)
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.. [#ptvs] Python Tools for Visual Studio
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(http://microsoft.github.io/PTVS/)
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.. [#coconut] Coconut
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(https://github.com/davidmalcolm/coconut)
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2016-06-19 12:49:05 -04:00
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.. [#pybench] pybench
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(https://hg.python.org/cpython/file/default/Tools/pybench)
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2016-06-17 22:53:20 -04:00
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Copyright
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=========
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This document has been placed in the public domain.
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..
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Local Variables:
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mode: indented-text
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indent-tabs-mode: nil
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sentence-end-double-space: t
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fill-column: 70
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coding: utf-8
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End:
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