1351 lines
64 KiB
ReStructuredText
1351 lines
64 KiB
ReStructuredText
PEP: 558
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Title: Defined semantics for locals()
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Author: Nick Coghlan <ncoghlan@gmail.com>
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BDFL-Delegate: Nathaniel J. Smith
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Discussions-To: python-dev@python.org
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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: 08-Sep-2017
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Python-Version: 3.11
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Post-History: 08-Sep-2017, 22-May-2019, 30-May-2019, 30-Dec-2019, 18-Jul-2021,
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26-Aug-2021
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Abstract
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========
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The semantics of the ``locals()`` builtin have historically been underspecified
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and hence implementation dependent.
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This PEP proposes formally standardising on the behaviour of the CPython 3.10
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reference implementation for most execution scopes, with some adjustments to the
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behaviour at function scope to make it more predictable and independent of the
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presence or absence of tracing functions.
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In addition, it proposes that the following functions be added to the stable
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Python C API/ABI::
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typedef enum {
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PyLocals_UNDEFINED = -1,
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PyLocals_DIRECT_REFERENCE = 0,
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PyLocals_SHALLOW_COPY = 1,
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_PyLocals_ENSURE_32BIT_ENUM = 2147483647
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} PyLocals_Kind;
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PyLocals_Kind PyLocals_GetKind();
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PyObject * PyLocals_Get();
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PyObject * PyLocals_GetCopy();
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It also proposes the addition of several supporting functions and type
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definitions to the CPython C API.
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Motivation
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==========
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While the precise semantics of the ``locals()`` builtin are nominally undefined,
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in practice, many Python programs depend on it behaving exactly as it behaves in
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CPython (at least when no tracing functions are installed).
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Other implementations such as PyPy are currently replicating that behaviour,
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up to and including replication of local variable mutation bugs that
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can arise when a trace hook is installed [1]_.
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While this PEP considers CPython's current behaviour when no trace hooks are
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installed to be largely acceptable, it considers the current
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behaviour when trace hooks are installed to be problematic, as it causes bugs
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like [1]_ *without* even reliably enabling the desired functionality of allowing
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debuggers like ``pdb`` to mutate local variables [3]_.
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Review of the initial PEP and the draft implementation then identified an
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opportunity for simplification of both the documentation and implementation
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of the function level ``locals()`` behaviour by updating it to return an
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independent snapshot of the function locals and closure variables on each
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call, rather than continuing to return the semi-dynamic intermittently updated
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shared copy that it has historically returned in CPython.
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Proposal
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========
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The expected semantics of the ``locals()`` builtin change based on the current
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execution scope. For this purpose, the defined scopes of execution are:
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* module scope: top-level module code, as well as any other code executed using
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``exec()`` or ``eval()`` with a single namespace
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* class scope: code in the body of a ``class`` statement, as well as any other
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code executed using ``exec()`` or ``eval()`` with separate local and global
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namespaces
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* function scope: code in the body of a ``def`` or ``async def`` statement,
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or any other construct that creates an optimized code block in CPython (e.g.
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comprehensions, lambda functions)
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This PEP proposes elevating most of the current behaviour of the CPython
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reference implementation to become part of the language specification, *except*
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that each call to ``locals()`` at function scope will create a new dictionary
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object, rather than caching a common dict instance in the frame object that
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each invocation will update and return.
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This PEP also proposes to largely eliminate the concept of a separate "tracing"
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mode from the CPython reference implementation. In releases up to and including
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Python 3.10, the CPython interpreter behaves differently when a trace hook has
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been registered in one or more threads via an implementation dependent mechanism
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like ``sys.settrace`` ([4]_) in CPython's ``sys`` module or
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``PyEval_SetTrace`` ([5]_) in CPython's C API. If this PEP is accepted, then
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the only remaining behavioural difference when a trace hook is installed is that
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some optimisations in the interpreter eval loop are disabled when the tracing
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logic needs to run after each opcode.
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This PEP proposes changes to CPython's behaviour at function scope that make
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the ``locals()`` builtin semantics when a trace hook is registered identical to
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those used when no trace hook is registered, while also making the related frame
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API semantics clearer and easier for interactive debuggers to rely on.
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The proposed elimination of tracing mode affects the semantics of frame object
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references obtained through other means, such as via a traceback, or via the
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``sys._getframe()`` API, as the write-through semantics needed for trace hook
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support are always provided by the ``f_locals`` attribute on frame objects,
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rather than being runtime state dependent.
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New ``locals()`` documentation
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------------------------------
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The heart of this proposal is to revise the documentation for the ``locals()``
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builtin to read as follows:
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Return a mapping object representing the current local symbol table, with
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variable names as the keys, and their currently bound references as the
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values.
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At module scope, as well as when using ``exec()`` or ``eval()`` with a
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single namespace, this function returns the same namespace as ``globals()``.
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At class scope, it returns the namespace that will be passed to the
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metaclass constructor.
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When using ``exec()`` or ``eval()`` with separate local and global
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namespaces, it returns the local namespace passed in to the function call.
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In all of the above cases, each call to ``locals()`` in a given frame of
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execution will return the *same* mapping object. Changes made through
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the mapping object returned from ``locals()`` will be visible as bound,
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rebound, or deleted local variables, and binding, rebinding, or deleting
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local variables will immediately affect the contents of the returned mapping
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object.
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At function scope (including for generators and coroutines), each call to
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``locals()`` instead returns a fresh dictionary containing the current
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bindings of the function's local variables and any nonlocal cell references.
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In this case, name binding changes made via the returned dict are *not*
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written back to the corresponding local variables or nonlocal cell
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references, and binding, rebinding, or deleting local variables and nonlocal
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cell references does *not* affect the contents of previously returned
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dictionaries.
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There would also be a versionchanged note for the release making this change:
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In prior versions, the semantics of mutating the mapping object returned
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from ``locals()`` were formally undefined. In CPython specifically,
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the mapping returned at function scope could be implicitly refreshed by
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other operations, such as calling ``locals()`` again, or the interpreter
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implicitly invoking a Python level trace function. Obtaining the legacy
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CPython behaviour now requires explicit calls to update the initially
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returned dictionary with the results of subsequent calls to ``locals()``.
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For reference, the current documentation of this builtin reads as follows:
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Update and return a dictionary representing the current local symbol table.
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Free variables are returned by locals() when it is called in function
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blocks, but not in class blocks.
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Note: The contents of this dictionary should not be modified; changes may
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not affect the values of local and free variables used by the interpreter.
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(In other words: the status quo is that the semantics and behaviour of
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``locals()`` are formally implementation defined, whereas the proposed
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state after this PEP is that the only implementation defined behaviour will be
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that associated with whether or not the implementation emulates the CPython
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frame API, with the behaviour in all other cases being defined by the language
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and library references)
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Module scope
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------------
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At module scope, as well as when using ``exec()`` or ``eval()`` with a
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single namespace, ``locals()`` must return the same object as ``globals()``,
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which must be the actual execution namespace (available as
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``inspect.currentframe().f_locals`` in implementations that provide access
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to frame objects).
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Variable assignments during subsequent code execution in the same scope must
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dynamically change the contents of the returned mapping, and changes to the
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returned mapping must change the values bound to local variable names in the
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execution environment.
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To capture this expectation as part of the language specification, the following
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paragraph will be added to the documentation for ``locals()``:
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At module scope, as well as when using ``exec()`` or ``eval()`` with a
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single namespace, this function returns the same namespace as ``globals()``.
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This part of the proposal does not require any changes to the reference
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implementation - it is standardisation of the current behaviour.
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Class scope
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-----------
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At class scope, as well as when using ``exec()`` or ``eval()`` with separate
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global and local namespaces, ``locals()`` must return the specified local
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namespace (which may be supplied by the metaclass ``__prepare__`` method
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in the case of classes). As for module scope, this must be a direct reference
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to the actual execution namespace (available as
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``inspect.currentframe().f_locals`` in implementations that provide access
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to frame objects).
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Variable assignments during subsequent code execution in the same scope must
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change the contents of the returned mapping, and changes to the returned mapping
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must change the values bound to local variable names in the
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execution environment.
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The mapping returned by ``locals()`` will *not* be used as the actual class
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namespace underlying the defined class (the class creation process will copy
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the contents to a fresh dictionary that is only accessible by going through the
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class machinery).
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For nested classes defined inside a function, any nonlocal cells referenced from
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the class scope are *not* included in the ``locals()`` mapping.
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To capture this expectation as part of the language specification, the following
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two paragraphs will be added to the documentation for ``locals()``:
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When using ``exec()`` or ``eval()`` with separate local and global
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namespaces, [this function] returns the given local namespace.
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At class scope, it returns the namespace that will be passed to the metaclass
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constructor.
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This part of the proposal does not require any changes to the reference
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implementation - it is standardisation of the current behaviour.
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Function scope
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--------------
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At function scope, interpreter implementations are granted significant freedom
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to optimise local variable access, and hence are NOT required to permit
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arbitrary modification of local and nonlocal variable bindings through the
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mapping returned from ``locals()``.
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Historically, this leniency has been described in the language specification
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with the words "The contents of this dictionary should not be modified; changes
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may not affect the values of local and free variables used by the interpreter."
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This PEP proposes to change that text to instead say:
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At function scope (including for generators and coroutines), each call to
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``locals()`` instead returns a fresh dictionary containing the current
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bindings of the function's local variables and any nonlocal cell references.
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In this case, name binding changes made via the returned dict are *not*
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written back to the corresponding local variables or nonlocal cell
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references, and binding, rebinding, or deleting local variables and nonlocal
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cell references does *not* affect the contents of previously returned
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dictionaries.
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This part of the proposal *does* require changes to the CPython reference
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implementation, as CPython currently returns a shared mapping object that may
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be implicitly refreshed by additional calls to ``locals()``, and the
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"write back" strategy currently used to support namespace changes
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from trace functions also doesn't comply with it (and causes the quirky
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behavioural problems mentioned in the Motivation above).
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CPython Implementation Changes
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==============================
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Summary of proposed implementation-specific changes
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---------------------------------------------------
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* Changes are made as necessary to provide the updated Python level semantics
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* Two new functions are added to the stable ABI to replicate the updated
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behaviour of the Python ``locals()`` builtin::
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PyObject * PyLocals_Get();
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PyLocals_Kind PyLocals_GetKind();
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* One new function is added to the stable ABI to efficiently get a snapshot of
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the local namespace in the running frame::
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PyObject * PyLocals_GetCopy();
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* Corresponding frame accessor functions for these new public APIs are added to
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the CPython frame C API
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* On optimised frames, the Python level ``f_locals`` API will return dynamically
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created read/write proxy objects that directly access the frame's local and
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closure variable storage. To provide interoperability with the existing
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``PyEval_GetLocals()`` API, the proxy objects will continue to use the C level
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frame locals data storage field to hold a value cache that also allows for
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storage of arbitrary additional keys. Additional details on the expected
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behaviour of these fast locals proxy objects are covered below.
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* No C API function is added to get access to a mutable mapping for the local
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namespace. Instead, ``PyObject_GetAttrString(frame, "f_locals")`` is used, the
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same API as is used in Python code.
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* ``PyEval_GetLocals()`` remains supported and does not emit a programmatic
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warning, but will be deprecated in the documentation in favour of the new
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APIs that don't rely on returning a borrowed reference
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* ``PyFrame_FastToLocals()`` and ``PyFrame_FastToLocalsWithError()`` remain
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supported and do not emit a programmatic warning, but will be deprecated in
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the documentation in favour of the new APIs that don't require direct access
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to the internal data storage layout of frame objects
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* ``PyFrame_LocalsToFast()`` always raises ``RuntimeError()``, indicating that
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``PyObject_GetAttrString(frame, "f_locals")`` should be used to obtain a
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mutable read/write mapping for the local variables.
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* The trace hook implementation will no longer call ``PyFrame_FastToLocals()``
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implicitly. The version porting guide will recommend migrating to
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``PyFrame_GetLocals()`` for read-only access and
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``PyObject_GetAttrString(frame, "f_locals")`` for read/write access.
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Providing the updated Python level semantics
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--------------------------------------------
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The implementation of the ``locals()`` builtin is modified to return a distinct
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copy of the local namespace for optimised frames, rather than a direct reference
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to the internal frame value cache updated by the ``PyFrame_FastToLocals()`` C
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API and returned by the ``PyEval_GetLocals()`` C API.
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Resolving the issues with tracing mode behaviour
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------------------------------------------------
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The current cause of CPython's tracing mode quirks (both the side effects from
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simply installing a tracing function and the fact that writing values back to
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function locals only works for the specific function being traced) is the way
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that locals mutation support for trace hooks is currently implemented: the
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``PyFrame_LocalsToFast`` function.
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When a trace function is installed, CPython currently does the following for
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function frames (those where the code object uses "fast locals" semantics):
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1. Calls ``PyFrame_FastToLocals`` to update the frame value cache
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2. Calls the trace hook (with tracing of the hook itself disabled)
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3. Calls ``PyFrame_LocalsToFast`` to capture any changes made to the frame
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value cache
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This approach is problematic for a few different reasons:
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* Even if the trace function doesn't mutate the value cache, the final step
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resets any cell references back to the state they were in before the trace
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function was called (this is the root cause of the bug report in [1]_)
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* If the trace function *does* mutate the value cache, but then does something
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that causes the value cache to be refreshed from the frame, those changes are
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lost (this is one aspect of the bug report in [3]_)
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* If the trace function attempts to mutate the local variables of a frame other
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than the one being traced (e.g. ``frame.f_back.f_locals``), those changes
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will almost certainly be lost (this is another aspect of the bug report in
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[3]_)
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* If a reference to the frame value cache (e.g. retrieved via ``locals()``) is
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passed to another function, and *that* function mutates the value cache, then
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those changes *may* be written back to the execution frame *if* a trace hook
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is installed
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The proposed resolution to this problem is to take advantage of the fact that
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whereas functions typically access their *own* namespace using the language
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defined ``locals()`` builtin, trace functions necessarily use the implementation
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dependent ``frame.f_locals`` interface, as a frame reference is what gets
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passed to hook implementations.
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Instead of being a direct reference to the internal frame value cache historically
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returned by the ``locals()`` builtin, the Python level ``frame.f_locals`` will be
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updated to instead return instances of a dedicated fast locals proxy type that
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writes and reads values directly to and from the fast locals array on the
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underlying frame. Each access of the attribute produces a new instance of the
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proxy (so creating proxy instances is intentionally a cheap operation).
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Despite the new proxy type becoming the preferred way to access local variables
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on optimised frames, the internal value cache stored on the frame is still
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retained for two key purposes:
|
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* maintaining backwards compatibility for and interoperability with the
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``PyEval_GetLocals()`` C API
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* providing storage space for additional keys that don't have slots in the
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fast locals array (e.g. the ``__return__`` and ``__exception__`` keys set by
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``pdb`` when tracing code execution for debugging purposes)
|
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With the changes in this PEP, this internal frame value cache is no longer
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directly accessible from Python code (whereas historically it was both
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returned by the ``locals()`` builtin and available as the ``frame.f_locals``
|
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attribute). Instead, the value cache is only accessible via the
|
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``PyEval_GetLocals()`` C API and by directly accessing the internal storage of
|
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a frame object.
|
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|
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Fast locals proxy objects and the internal frame value cache returned by
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``PyEval_GetLocals()`` offer the following behavioural guarantees:
|
||
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* changes made via a fast locals proxy will be immediately visible to the frame
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itself, to other fast locals proxy objects for the same frame, and in the
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internal value cache stored on the frame (it is this last point that provides
|
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``PyEval_GetLocals()`` interoperability)
|
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* changes made directly to the internal frame value cache will never be visible
|
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to the frame itself, and will only be reliably visible via fast locals proxies
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for the same frame if the change relates to extra variables that don't have
|
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slots in the frame's fast locals array
|
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* changes made by executing code in the frame will be immediately visible to all
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fast locals proxy objects for that frame (both existing proxies and newly
|
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created ones). Visibility in the internal frame value cache cache returned
|
||
by ``PyEval_GetLocals()`` is subject to the cache update guidelines discussed
|
||
in the next section
|
||
|
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As a result of these points, only code using ``PyEval_GetLocals()``,
|
||
``PyLocals_Get()``, or ``PyLocals_GetCopy()`` will need to be concerned about
|
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the frame value cache potentially becoming stale. Code using the new frame fast
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locals proxy API (whether from Python or from C) will always see the live state
|
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of the frame.
|
||
|
||
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Fast locals proxy implementation details
|
||
----------------------------------------
|
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Each fast locals proxy instance has a single internal attribute that is not
|
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exposed as part of the Python runtime API:
|
||
|
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* *frame*: the underlying optimised frame that the proxy provides access to
|
||
|
||
In addition, proxy instances use and update the following attributes stored on the
|
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underlying frame or code object:
|
||
|
||
* *_name_to_offset_mapping*: a hidden mapping from variable names to fast local
|
||
storage offsets. This mapping is lazily initialized on the first frame read or
|
||
write access through a fast locals proxy, rather than being eagerly populated
|
||
as soon as the first fast locals proxy is created. Since the mapping is
|
||
identical for all frames running a given code object, a single copy is stored
|
||
on the code object, rather than each frame object populating its own mapping
|
||
* *locals*: the internal frame value cache returned by the ``PyEval_GetLocals()``
|
||
C API and updated by the ``PyFrame_FastToLocals()`` C API. This is the mapping
|
||
that the ``locals()`` builtin returns in Python 3.10 and earlier.
|
||
|
||
``__getitem__`` operations on the proxy will populate the ``_name_to_offset_mapping``
|
||
on the code object (if it is not already populated), and then either return the
|
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relevant value (if the key is found in either the ``_name_to_offset_mapping``
|
||
mapping or the internal frame value cache), or else raise ``KeyError``. Variables
|
||
that are defined on the frame but not currently bound also raise ``KeyError``
|
||
(just as they're omitted from the result of ``locals()``).
|
||
|
||
As the frame storage is always accessed directly, the proxy will automatically
|
||
pick up name binding and unbinding operations that take place as the function
|
||
executes. The internal value cache is implicitly updated when individual
|
||
variables are read from the frame state (including for containment checks,
|
||
which need to check if the name is currently bound or unbound).
|
||
|
||
Similarly, ``__setitem__`` and ``__delitem__`` operations on the proxy will
|
||
directly affect the corresponding fast local or cell reference on the underlying
|
||
frame, ensuring that changes are immediately visible to the running Python code,
|
||
rather than needing to be written back to the runtime storage at some later time.
|
||
Such changes are also immediately written to the internal frame value cache to
|
||
make them visible to users of the ``PyEval_GetLocals()`` C API.
|
||
|
||
Keys that are not defined as local or closure variables on the underlying frame
|
||
are still written to the internal value cache on optimised frames. This allows
|
||
utilities like ``pdb`` (which writes ``__return__`` and ``__exception__``
|
||
values into the frame's ``f_locals`` mapping) to continue working as they always
|
||
have. These additional keys that do not correspond to a local or closure
|
||
variable on the frame will be left alone by future cache sync operations.
|
||
Using the frame value cache to store these extra keys (rather than defining a
|
||
new mapping that holds only the extra keys) provides full interoperability
|
||
with the existing ``PyEval_GetLocals()`` API (since users of either API will
|
||
see extra keys added by users of either API, rather than users of the new fast
|
||
locals proxy API only seeing keys added via that API).
|
||
|
||
An additional benefit of storing only the variable value cache on the frame
|
||
(rather than storing an instance of the proxy type), is that it avoids
|
||
creating a reference cycle from the frame back to itself, so the frame will
|
||
only be kept alive if another object retains a reference to a proxy instance.
|
||
|
||
Note: calling the ``proxy.clear()`` method has a similarly broad impact as
|
||
calling ``PyFrame_LocalsToFast()`` on an empty frame value cache in earlier
|
||
versions. Not only will the frame local variables be cleared, but also any cell
|
||
variables accessible from the frame (whether those cells are owned by the
|
||
frame itself or by an outer frame). This *can* clear a class's ``__class__``
|
||
cell if called on the frame of a method that uses the zero-arg ``super()``
|
||
construct (or otherwise references ``__class__``). This exceeds the scope of
|
||
calling ``frame.clear()``, as that only drop's the frame's references to cell
|
||
variables, it doesn't clear the cells themselves. This PEP could be a potential
|
||
opportunity to narrow the scope of attempts to clear the frame variables
|
||
directly by leaving cells belonging to outer frames alone, and only clearing
|
||
local variables and cells belonging directly to the frame underlying the proxy
|
||
(this issue affects :pep:`667` as well, as the question relates to the handling of
|
||
cell variables, and is entirely independent of the internal frame value cache).
|
||
|
||
|
||
Changes to the stable C API/ABI
|
||
-------------------------------
|
||
|
||
Unlike Python code, extension module functions that call in to the Python C API
|
||
can be called from any kind of Python scope. This means it isn't obvious from
|
||
the context whether ``locals()`` will return a snapshot or not, as it depends
|
||
on the scope of the calling Python code, not the C code itself.
|
||
|
||
This means it is desirable to offer C APIs that give predictable, scope
|
||
independent, behaviour. However, it is also desirable to allow C code to
|
||
exactly mimic the behaviour of Python code at the same scope.
|
||
|
||
To enable mimicking the behaviour of Python code, the stable C ABI would gain
|
||
the following new functions::
|
||
|
||
PyObject * PyLocals_Get();
|
||
PyLocals_Kind PyLocals_GetKind();
|
||
|
||
``PyLocals_Get()`` is directly equivalent to the Python ``locals()`` builtin.
|
||
It returns a new reference to the local namespace mapping for the active
|
||
Python frame at module and class scope, and when using ``exec()`` or ``eval()``.
|
||
It returns a shallow copy of the active namespace at
|
||
function/coroutine/generator scope.
|
||
|
||
``PyLocals_GetKind()`` returns a value from the newly defined ``PyLocals_Kind``
|
||
enum, with the following options being available:
|
||
|
||
* ``PyLocals_DIRECT_REFERENCE``: ``PyLocals_Get()`` returns a direct reference
|
||
to the local namespace for the running frame.
|
||
* ``PyLocals_SHALLOW_COPY``: ``PyLocals_Get()`` returns a shallow copy of the
|
||
local namespace for the running frame.
|
||
* ``PyLocals_UNDEFINED``: an error occurred (e.g. no active Python thread
|
||
state). A Python exception will be set if this value is returned.
|
||
|
||
Since the enum is used in the stable ABI, an additional 31-bit value is set to
|
||
ensure that it is safe to cast arbitrary signed 32-bit signed integers to
|
||
``PyLocals_Kind`` values.
|
||
|
||
This query API allows extension module code to determine the potential impact
|
||
of mutating the mapping returned by ``PyLocals_Get()`` without needing access
|
||
to the details of the running frame object. Python code gets equivalent
|
||
information visually through lexical scoping (as covered in the new ``locals()``
|
||
builtin documentation).
|
||
|
||
To allow extension module code to behave consistently regardless of the active
|
||
Python scope, the stable C ABI would gain the following new function::
|
||
|
||
PyObject * PyLocals_GetCopy();
|
||
|
||
``PyLocals_GetCopy()`` returns a new dict instance populated from the current
|
||
locals namespace. Roughly equivalent to ``dict(locals())`` in Python code, but
|
||
avoids the double-copy in the case where ``locals()`` already returns a shallow
|
||
copy. Akin to the following code, but doesn't assume there will only ever be
|
||
two kinds of locals result::
|
||
|
||
locals = PyLocals_Get();
|
||
if (PyLocals_GetKind() == PyLocals_DIRECT_REFERENCE) {
|
||
locals = PyDict_Copy(locals);
|
||
}
|
||
|
||
The existing ``PyEval_GetLocals()`` API will retain its existing behaviour in
|
||
CPython (mutable locals at class and module scope, shared dynamic snapshot
|
||
otherwise). However, its documentation will be updated to note that the
|
||
conditions under which the shared dynamic snapshot get updated have changed.
|
||
|
||
The ``PyEval_GetLocals()`` documentation will also be updated to recommend
|
||
replacing usage of this API with whichever of the new APIs is most appropriate
|
||
for the use case:
|
||
|
||
* Use ``PyLocals_Get()`` (optionally combined with ``PyDictProxy_New()``) for
|
||
read-only access to the current locals namespace. This form of usage will
|
||
need to be aware that the copy may go stale in optimised frames.
|
||
* Use ``PyLocals_GetCopy()`` for a regular mutable dict that contains a copy of
|
||
the current locals namespace, but has no ongoing connection to the active
|
||
frame.
|
||
* Use ``PyLocals_Get()`` to exactly match the semantics of the Python level
|
||
``locals()`` builtin.
|
||
* Query ``PyLocals_GetKind()`` explicitly to implement custom handling
|
||
(e.g. raising a meaningful exception) for scopes where ``PyLocals_Get()``
|
||
would return a shallow copy rather than granting read/write access to the
|
||
locals namespace.
|
||
* Use implementation specific APIs (e.g. ``PyObject_GetAttrString(frame, "f_locals")``)
|
||
if read/write access to the frame is required and ``PyLocals_GetKind()``
|
||
returns something other than ``PyLocals_DIRECT_REFERENCE``.
|
||
|
||
|
||
Changes to the public CPython C API
|
||
-----------------------------------
|
||
|
||
The existing ``PyEval_GetLocals()`` API returns a borrowed reference, which
|
||
means it cannot be updated to return the new shallow copies at function
|
||
scope. Instead, it will continue to return a borrowed reference to an internal
|
||
dynamic snapshot stored on the frame object. This shared mapping will behave
|
||
similarly to the existing shared mapping in Python 3.10 and earlier, but the exact
|
||
conditions under which it gets refreshed will be different. Specifically, it
|
||
will be updated only in the following circumstance:
|
||
|
||
* any call to ``PyEval_GetLocals()``, ``PyLocals_Get()``, ``PyLocals_GetCopy()``,
|
||
or the Python ``locals()`` builtin while the frame is running
|
||
* any call to ``PyFrame_GetLocals()``, ``PyFrame_GetLocalsCopy()``,
|
||
``_PyFrame_BorrowLocals()``, ``PyFrame_FastToLocals()``, or
|
||
``PyFrame_FastToLocalsWithError()`` for the frame
|
||
* any operation on a fast locals proxy object that updates the shared
|
||
mapping as part of its implementation. In the initial reference
|
||
implementation, those operations are those that are intrinsically ``O(n)``
|
||
operations (``len(flp)``, mapping comparison, ``flp.copy()`` and rendering as
|
||
a string), as well as those that refresh the cache entries for individual keys.
|
||
|
||
Requesting a fast locals proxy will *not* implicitly update the shared dynamic
|
||
snapshot, and the CPython trace hook handling will no longer implicitly update
|
||
it either.
|
||
|
||
(Note: even though ``PyEval_GetLocals()`` is part of the stable C API/ABI, the
|
||
specifics of when the namespace it returns gets refreshed are still an
|
||
interpreter implementation detail)
|
||
|
||
The additions to the public CPython C API are the frame level enhancements
|
||
needed to support the stable C API/ABI updates::
|
||
|
||
PyLocals_Kind PyFrame_GetLocalsKind(frame);
|
||
PyObject * PyFrame_GetLocals(frame);
|
||
PyObject * PyFrame_GetLocalsCopy(frame);
|
||
PyObject * _PyFrame_BorrowLocals(frame);
|
||
|
||
|
||
``PyFrame_GetLocalsKind(frame)`` is the underlying API for
|
||
``PyLocals_GetKind()``.
|
||
|
||
``PyFrame_GetLocals(frame)`` is the underlying API for ``PyLocals_Get()``.
|
||
|
||
``PyFrame_GetLocalsCopy(frame)`` is the underlying API for
|
||
``PyLocals_GetCopy()``.
|
||
|
||
``_PyFrame_BorrowLocals(frame)`` is the underlying API for
|
||
``PyEval_GetLocals()``. The underscore prefix is intended to discourage use and
|
||
to indicate that code using it is unlikely to be portable across
|
||
implementations. However, it is documented and visible to the linker in order
|
||
to avoid having to access the internals of the frame struct from the
|
||
``PyEval_GetLocals()`` implementation.
|
||
|
||
The ``PyFrame_LocalsToFast()`` function will be changed to always emit
|
||
``RuntimeError``, explaining that it is no longer a supported operation, and
|
||
affected code should be updated to use
|
||
``PyObject_GetAttrString(frame, "f_locals")`` to obtain a read/write proxy
|
||
instead.
|
||
|
||
In addition to the above documented interfaces, the draft reference
|
||
implementation also exposes the following undocumented interfaces::
|
||
|
||
PyTypeObject _PyFastLocalsProxy_Type;
|
||
#define _PyFastLocalsProxy_CheckExact(self) Py_IS_TYPE(op, &_PyFastLocalsProxy_Type)
|
||
|
||
This type is what the reference implementation actually returns from
|
||
``PyObject_GetAttrString(frame, "f_locals")`` for optimized frames (i.e.
|
||
when ``PyFrame_GetLocalsKind()`` returns ``PyLocals_SHALLOW_COPY``).
|
||
|
||
|
||
Reducing the runtime overhead of trace hooks
|
||
--------------------------------------------
|
||
|
||
As noted in [9]_, the implicit call to ``PyFrame_FastToLocals()`` in the
|
||
Python trace hook support isn't free, and could be rendered unnecessary if
|
||
the frame proxy read values directly from the frame instead of getting them
|
||
from the mapping.
|
||
|
||
As the new frame locals proxy type doesn't require separate data refresh steps,
|
||
this PEP incorporates Victor Stinner's proposal to no longer implicitly call
|
||
``PyFrame_FastToLocalsWithError()`` before calling trace hooks implemented in
|
||
Python.
|
||
|
||
Code using the new fast locals proxy objects will have the dynamic locals snapshot
|
||
implicitly refreshed when accessing methods that need it, while code using the
|
||
``PyEval_GetLocals()`` API will implicitly refresh it when making that call.
|
||
|
||
The PEP necessarily also drops the implicit call to ``PyFrame_LocalsToFast()``
|
||
when returning from a trace hook, as that API now always raises an exception.
|
||
|
||
|
||
Rationale and Design Discussion
|
||
===============================
|
||
|
||
Changing ``locals()`` to return independent snapshots at function scope
|
||
-----------------------------------------------------------------------
|
||
|
||
The ``locals()`` builtin is a required part of the language, and in the
|
||
reference implementation it has historically returned a mutable mapping with
|
||
the following characteristics:
|
||
|
||
* each call to ``locals()`` returns the *same* mapping object
|
||
* for namespaces where ``locals()`` returns a reference to something other than
|
||
the actual local execution namespace, each call to ``locals()`` updates the
|
||
mapping object with the current state of the local variables and any referenced
|
||
nonlocal cells
|
||
* changes to the returned mapping *usually* aren't written back to the
|
||
local variable bindings or the nonlocal cell references, but write backs
|
||
can be triggered by doing one of the following:
|
||
|
||
* installing a Python level trace hook (write backs then happen whenever
|
||
the trace hook is called)
|
||
* running a function level wildcard import (requires bytecode injection in Py3)
|
||
* running an ``exec`` statement in the function's scope (Py2 only, since
|
||
``exec`` became an ordinary builtin in Python 3)
|
||
|
||
Originally this PEP proposed to retain the first two of these properties,
|
||
while changing the third in order to address the outright behaviour bugs that
|
||
it can cause.
|
||
|
||
In [7]_ Nathaniel Smith made a persuasive case that we could make the behaviour
|
||
of ``locals()`` at function scope substantially less confusing by retaining only
|
||
the second property and having each call to ``locals()`` at function scope
|
||
return an *independent* snapshot of the local variables and closure references
|
||
rather than updating an implicitly shared snapshot.
|
||
|
||
As this revised design also made the implementation markedly easier to follow,
|
||
the PEP was updated to propose this change in behaviour, rather than retaining
|
||
the historical shared snapshot.
|
||
|
||
|
||
Keeping ``locals()`` as a snapshot at function scope
|
||
----------------------------------------------------
|
||
|
||
As discussed in [7]_, it would theoretically be possible to change the semantics
|
||
of the ``locals()`` builtin to return the write-through proxy at function scope,
|
||
rather than switching it to return independent snapshots.
|
||
|
||
This PEP doesn't (and won't) propose this as it's a backwards incompatible
|
||
change in practice, even though code that relies on the current behaviour is
|
||
technically operating in an undefined area of the language specification.
|
||
|
||
Consider the following code snippet::
|
||
|
||
def example():
|
||
x = 1
|
||
locals()["x"] = 2
|
||
print(x)
|
||
|
||
Even with a trace hook installed, that function will consistently print ``1``
|
||
on the current reference interpreter implementation::
|
||
|
||
>>> example()
|
||
1
|
||
>>> import sys
|
||
>>> def basic_hook(*args):
|
||
... return basic_hook
|
||
...
|
||
>>> sys.settrace(basic_hook)
|
||
>>> example()
|
||
1
|
||
|
||
Similarly, ``locals()`` can be passed to the ``exec()`` and ``eval()`` builtins
|
||
at function scope (either explicitly or implicitly) without risking unexpected
|
||
rebinding of local variables or closure references.
|
||
|
||
Provoking the reference interpreter into incorrectly mutating the local variable
|
||
state requires a more complex setup where a nested function closes over a
|
||
variable being rebound in the outer function, and due to the use of either
|
||
threads, generators, or coroutines, it's possible for a trace function to start
|
||
running for the nested function before the rebinding operation in the outer
|
||
function, but finish running after the rebinding operation has taken place (in
|
||
which case the rebinding will be reverted, which is the bug reported in [1]_).
|
||
|
||
In addition to preserving the de facto semantics which have been in place since
|
||
:pep:`227` introduced nested scopes in Python 2.1, the other benefit of restricting
|
||
the write-through proxy support to the implementation-defined frame object API
|
||
is that it means that only interpreter implementations which emulate the full
|
||
frame API need to offer the write-through capability at all, and that
|
||
JIT-compiled implementations only need to enable it when a frame introspection
|
||
API is invoked, or a trace hook is installed, not whenever ``locals()`` is
|
||
accessed at function scope.
|
||
|
||
Returning snapshots from ``locals()`` at function scope also means that static
|
||
analysis for function level code will be more reliable, as only access to the
|
||
frame machinery will allow rebinding of local and nonlocal variable
|
||
references in a way that is hidden from static analysis.
|
||
|
||
|
||
Retaining the internal frame value cache
|
||
----------------------------------------
|
||
|
||
Retaining the internal frame value cache results in some visible quirks when
|
||
frame proxy instances are kept around and re-used after name binding and
|
||
unbinding operations have been executed on the frame.
|
||
|
||
The primary reason for retaining the frame value cache is to maintain backwards
|
||
compatibility with the ``PyEval_GetLocals()`` API. That API returns a borrowed
|
||
reference, so it must refer to persistent state stored on the frame object.
|
||
Storing a fast locals proxy object on the frame creates a problematic reference
|
||
cycle, so the cleanest option is to instead continue to return a frame value
|
||
cache, just as this function has done since optimised frames were first
|
||
introduced.
|
||
|
||
With the frame value cache being kept around anyway, it then further made sense
|
||
to rely on it to simplify the fast locals proxy mapping implementation.
|
||
|
||
|
||
What happens with the default args for ``eval()`` and ``exec()``?
|
||
-----------------------------------------------------------------
|
||
|
||
These are formally defined as inheriting ``globals()`` and ``locals()`` from
|
||
the calling scope by default.
|
||
|
||
There isn't any need for the PEP to change these defaults, so it doesn't, and
|
||
``exec()`` and ``eval()`` will start running in a shallow copy of the local
|
||
namespace when that is what ``locals()`` returns.
|
||
|
||
This behaviour will have potential performance implications, especially
|
||
for functions with large numbers of local variables (e.g. if these functions
|
||
are called in a loop, calling ``globals()`` and ``locals()`` once before the
|
||
loop and then passing the namespace into the function explicitly will give the
|
||
same semantics and performance characteristics as the status quo, whereas
|
||
relying on the implicit default would create a new shallow copy of the local
|
||
namespace on each iteration).
|
||
|
||
(Note: the reference implementation draft PR has updated the ``locals()`` and
|
||
``vars()``, ``eval()``, and ``exec()`` builtins to use ``PyLocals_Get()``. The
|
||
``dir()`` builtin still uses ``PyEval_GetLocals()``, since it's only using it
|
||
to make a list from the keys).
|
||
|
||
|
||
Changing the frame API semantics in regular operation
|
||
-----------------------------------------------------
|
||
|
||
Earlier versions of this PEP proposed having the semantics of the frame
|
||
``f_locals`` attribute depend on whether or not a tracing hook was currently
|
||
installed - only providing the write-through proxy behaviour when a tracing hook
|
||
was active, and otherwise behaving the same as the historical ``locals()``
|
||
builtin.
|
||
|
||
That was adopted as the original design proposal for a couple of key reasons,
|
||
one pragmatic and one more philosophical:
|
||
|
||
* Object allocations and method wrappers aren't free, and tracing functions
|
||
aren't the only operations that access frame locals from outside the function.
|
||
Restricting the changes to tracing mode meant that the additional memory and
|
||
execution time overhead of these changes would be as close to zero in regular
|
||
operation as we can possibly make them.
|
||
* "Don't change what isn't broken": the current tracing mode problems are caused
|
||
by a requirement that's specific to tracing mode (support for external
|
||
rebinding of function local variable references), so it made sense to also
|
||
restrict any related fixes to tracing mode
|
||
|
||
However, actually attempting to implement and document that dynamic approach
|
||
highlighted the fact that it makes for a really subtle runtime state dependent
|
||
behaviour distinction in how ``frame.f_locals`` works, and creates several
|
||
new edge cases around how ``f_locals`` behaves as trace functions are added
|
||
and removed.
|
||
|
||
Accordingly, the design was switched to the current one, where
|
||
``frame.f_locals`` is always a write-through proxy, and ``locals()`` is always
|
||
a snapshot, which is both simpler to implement and easier to explain.
|
||
|
||
Regardless of how the CPython reference implementation chooses to handle this,
|
||
optimising compilers and interpreters also remain free to impose additional
|
||
restrictions on debuggers, such as making local variable mutation through frame
|
||
objects an opt-in behaviour that may disable some optimisations (just as the
|
||
emulation of CPython's frame API is already an opt-in flag in some Python
|
||
implementations).
|
||
|
||
|
||
Continuing to support storing additional data on optimised frames
|
||
-----------------------------------------------------------------
|
||
|
||
One of the draft iterations of this PEP proposed removing the ability to store
|
||
additional data on optimised frames by writing to ``frame.f_locals`` keys that
|
||
didn't correspond to local or closure variable names on the underlying frame.
|
||
|
||
While this idea offered some attractive simplification of the fast locals proxy
|
||
implementation, ``pdb`` stores ``__return__`` and ``__exception__`` values on
|
||
arbitrary frames, so the standard library test suite fails if that functionality
|
||
no longer works.
|
||
|
||
Accordingly, the ability to store arbitrary keys was retained, at the expense
|
||
of certain operations on proxy objects being slower than could otherwise be
|
||
(since they can't assume that only names defined on the code object will be
|
||
accessible through the proxy).
|
||
|
||
It is expected that the exact details of the interaction between the fast locals
|
||
proxy and the ``f_locals`` value cache on the underlying frame will evolve over
|
||
time as opportunities for improvement are identified.
|
||
|
||
|
||
Historical semantics at function scope
|
||
--------------------------------------
|
||
|
||
The current semantics of mutating ``locals()`` and ``frame.f_locals`` in CPython
|
||
are rather quirky due to historical implementation details:
|
||
|
||
* actual execution uses the fast locals array for local variable bindings and
|
||
cell references for nonlocal variables
|
||
* there's a ``PyFrame_FastToLocals`` operation that populates the frame's
|
||
``f_locals`` attribute based on the current state of the fast locals array
|
||
and any referenced cells. This exists for three reasons:
|
||
|
||
* allowing trace functions to read the state of local variables
|
||
* allowing traceback processors to read the state of local variables
|
||
* allowing ``locals()`` to read the state of local variables
|
||
* a direct reference to ``frame.f_locals`` is returned from ``locals()``, so if
|
||
you hand out multiple concurrent references, then all those references will be
|
||
to the exact same dictionary
|
||
* the two common calls to the reverse operation, ``PyFrame_LocalsToFast``, were
|
||
removed in the migration to Python 3: ``exec`` is no longer a statement (and
|
||
hence can no longer affect function local namespaces), and the compiler now
|
||
disallows the use of ``from module import *`` operations at function scope
|
||
* however, two obscure calling paths remain: ``PyFrame_LocalsToFast`` is called
|
||
as part of returning from a trace function (which allows debuggers to make
|
||
changes to the local variable state), and you can also still inject the
|
||
``IMPORT_STAR`` opcode when creating a function directly from a code object
|
||
rather than via the compiler
|
||
|
||
This proposal deliberately *doesn't* formalise these semantics as is, since they
|
||
only make sense in terms of the historical evolution of the language and the
|
||
reference implementation, rather than being deliberately designed.
|
||
|
||
|
||
Proposing several additions to the stable C API/ABI
|
||
---------------------------------------------------
|
||
|
||
Historically, the CPython C API (and subsequently, the stable ABI) has
|
||
exposed only a single API function related to the Python ``locals`` builtin:
|
||
``PyEval_GetLocals()``. However, as it returns a borrowed reference, it is
|
||
not possible to adapt that interface directly to supporting the new ``locals()``
|
||
semantics proposed in this PEP.
|
||
|
||
An earlier iteration of this PEP proposed a minimalist adaptation to the new
|
||
semantics: one C API function that behaved like the Python ``locals()`` builtin,
|
||
and another that behaved like the ``frame.f_locals`` descriptor (creating and
|
||
returning the write-through proxy if necessary).
|
||
|
||
The feedback [8]_ on that version of the C API was that it was too heavily based
|
||
on how the Python level semantics were implemented, and didn't account for the
|
||
behaviours that authors of C extensions were likely to *need*.
|
||
|
||
The broader API now being proposed came from grouping the potential reasons for
|
||
wanting to access the Python ``locals()`` namespace from an extension module
|
||
into the following cases:
|
||
|
||
* needing to exactly replicate the semantics of the Python level ``locals()``
|
||
operation. This is the ``PyLocals_Get()`` API.
|
||
* needing to behave differently depending on whether writes to the result of
|
||
``PyLocals_Get()`` will be visible to Python code or not. This is handled by
|
||
the ``PyLocals_GetKind()`` query API.
|
||
* always wanting a mutable namespace that has been pre-populated from the
|
||
current Python ``locals()`` namespace, but *not* wanting any changes to
|
||
be visible to Python code. This is the ``PyLocals_GetCopy()`` API.
|
||
* always wanting a read-only view of the current locals namespace, without
|
||
incurring the runtime overhead of making a full copy each time. This isn't
|
||
readily offered for optimised frames due to the need to check whether names
|
||
are currently bound or not, so no specific API is being added to cover it.
|
||
|
||
Historically, these kinds of checks and operations would only have been
|
||
possible if a Python implementation emulated the full CPython frame API. With
|
||
the proposed API, extension modules can instead ask more clearly for the
|
||
semantics that they actually need, giving Python implementations more
|
||
flexibility in how they provide those capabilities.
|
||
|
||
|
||
Comparison with PEP 667
|
||
-----------------------
|
||
|
||
:pep:`667` offers a partially competing proposal for this PEP that suggests it
|
||
would be reasonable to eliminate the internal frame value cache on optimised
|
||
frames entirely.
|
||
|
||
These changes were originally offered as amendments to :pep:`558`, and the PEP
|
||
author rejected them for three main reasons:
|
||
|
||
* the initial claim that ``PyEval_GetLocals()`` was unfixable because it returns
|
||
a borrowed reference was simply false, as it is still working in the :pep:`558`
|
||
reference implementation. All that is required to keep it working is to
|
||
retain the internal frame value cache and design the fast locals proxy in
|
||
such a way that it is reasonably straightforward to keep the cache up to date
|
||
with changes in the frame state without incurring significant runtime overhead
|
||
when the cache isn't needed. Given that this claim is false, the proposal to
|
||
require that all code using the ``PyEval_GetLocals()`` API be rewritten to use
|
||
a new API with different refcounting semantics fails :pep:`387`'s requirement
|
||
that API compatibility breaks should have a large benefit to breakage ratio
|
||
(since there's no significant benefit gained from dropping the cache, no code
|
||
breakage can be justified). The only genuinely unfixable public API is
|
||
``PyFrame_LocalsToFast()`` (which is why both PEPs propose breaking that).
|
||
* without some form of internal value cache, the API performance characteristics
|
||
of the fast locals proxy mapping become quite unintuitive. ``len(proxy)``, for
|
||
example, becomes consistently O(n) in the number of variables defined on the
|
||
frame, as the proxy has to iterate over the entire fast locals array to see
|
||
which names are currently bound to values before it can determine the answer.
|
||
By contrast, maintaining an internal frame value cache potentially allows
|
||
proxies to largely be treated as normal dictionaries from an algorithmic
|
||
complexity point of view, with allowances only needing to be made for the
|
||
initial implicit O(n) cache refresh that runs the first time an operation
|
||
that relies on the cache being up to date is executed.
|
||
* the claim that a cache-free implementation would be simpler is highly suspect,
|
||
as :pep:`667` includes only a pure Python sketch of a subset of a mutable mapping
|
||
implementation, rather than a full-fledged C implementation of a new mapping
|
||
type integrated with the underlying data storage for optimised frames.
|
||
:pep:`558`'s fast locals proxy implementation delegates heavily to the
|
||
frame value cache for the operations needed to fully implement the mutable
|
||
mapping API, allowing it to re-use the existing dict implementations of the
|
||
following operations:
|
||
|
||
* ``__len__``
|
||
* ``__str__``
|
||
* ``__or__`` (dict union)
|
||
* ``__iter__`` (allowing the ``dict_keyiterator`` type to be reused)
|
||
* ``__reversed__`` (allowing the ``dict_reversekeyiterator`` type to be reused)
|
||
* ``keys()`` (allowing the ``dict_keys`` type to be reused)
|
||
* ``values()`` (allowing the ``dict_values`` type to be reused)
|
||
* ``items()`` (allowing the ``dict_items`` type to be reused)
|
||
* ``copy()``
|
||
* ``popitem()``
|
||
* value comparison operations
|
||
|
||
Of the three reasons, the first is the most important (since we need compelling
|
||
reasons to break API backwards compatibility, and we don't have them).
|
||
|
||
However, after reviewing :pep:`667`'s proposed Python level semantics, the author
|
||
of this PEP eventually agreed that they *would* be simpler for users of the
|
||
Python ``locals()`` API, so this distinction between the two PEPs has been
|
||
eliminated: regardless of which PEP and implementation is accepted, the fast
|
||
locals proxy object *always* provides a consistent view of the current state
|
||
of the local variables, even if this results in some operations becoming O(n)
|
||
that would be O(1) on a regular dictionary (specifically, ``len(proxy)``
|
||
becomes O(n), since it needs to check which names are currently bound, and proxy
|
||
mapping comparisons avoid relying on the length check optimisation that allows
|
||
differences in the number of stored keys to be detected quickly for regular
|
||
mappings).
|
||
|
||
Due to the adoption of these non-standard performance characteristics in the
|
||
proxy implementation, the ``PyLocals_GetView()`` and ``PyFrame_GetLocalsView()``
|
||
C APIs were also removed from the proposal in this PEP.
|
||
|
||
This leaves the only remaining points of distinction between the two PEPs as
|
||
specifically related to the C API:
|
||
|
||
* :pep:`667` still proposes completely unnecessary C API breakage (the programmatic
|
||
deprecation and eventual removal of ``PyEval_GetLocals()``,
|
||
``PyFrame_FastToLocalsWithError()``, and ``PyFrame_FastToLocals()``) without
|
||
justification, when it is entirely possible to keep these working indefintely
|
||
(and interoperably) given a suitably designed fast locals proxy implementation
|
||
* the fast locals proxy handling of additional variables is defined in this PEP
|
||
in a way that is fully interoperable with the existing ``PyEval_GetLocals()``
|
||
API. In the proxy implementation proposed in :pep:`667`, users of the new frame
|
||
API will not see changes made to additional variables by users of the old API,
|
||
and changes made to additional variables via the old API will be overwritten
|
||
on subsequent calls to ``PyEval_GetLocals()``.
|
||
* the ``PyLocals_Get()`` API in this PEP is called ``PyEval_Locals()`` in :pep:`667`.
|
||
This function name is a bit strange as it lacks a verb, making it look more
|
||
like a type name than a data access API.
|
||
* this PEP adds ``PyLocals_GetCopy()`` and ``PyFrame_GetLocalsCopy()`` APIs to
|
||
allow extension modules to easily avoid incurring a double copy operation in
|
||
frames where ``PyLocals_Get()`` alreadys makes a copy
|
||
* this PEP adds ``PyLocals_Kind``, ``PyLocals_GetKind()``, and
|
||
``PyFrame_GetLocalsKind()`` to allow extension modules to identify when code
|
||
is running at function scope without having to inspect non-portable frame and
|
||
code object APIs (without the proposed query API, the existing equivalent to
|
||
the new ``PyLocals_GetKind() == PyLocals_SHALLOW_COPY`` check is to include
|
||
the CPython internal frame API headers and check if
|
||
``_PyFrame_GetCode(PyEval_GetFrame())->co_flags & CO_OPTIMIZED`` is set)
|
||
|
||
The Python pseudo-code below is based on the implementation sketch presented
|
||
in :pep:`667` as of the time of writing (2021-10-24). The differences that
|
||
provide the improved interoperability between the new fast locals proxy API
|
||
and the existing ``PyEval_GetLocals()`` API are noted in comments.
|
||
|
||
As in :pep:`667`, all attributes that start with an underscore are invisible and
|
||
cannot be accessed directly. They serve only to illustrate the proposed design.
|
||
|
||
For simplicity (and as in :pep:`667`), the handling of module and class level
|
||
frames is omitted (they're much simpler, as ``_locals`` *is* the execution
|
||
namespace, so no translation is required).
|
||
|
||
::
|
||
|
||
NULL: Object # NULL is a singleton representing the absence of a value.
|
||
|
||
class CodeType:
|
||
|
||
_name_to_offset_mapping_impl: dict | NULL
|
||
...
|
||
|
||
def __init__(self, ...):
|
||
self._name_to_offset_mapping_impl = NULL
|
||
self._variable_names = deduplicate(
|
||
self.co_varnames + self.co_cellvars + self.co_freevars
|
||
)
|
||
...
|
||
|
||
def _is_cell(self, offset):
|
||
... # How the interpreter identifies cells is an implementation detail
|
||
|
||
@property
|
||
def _name_to_offset_mapping(self):
|
||
"Mapping of names to offsets in local variable array."
|
||
if self._name_to_offset_mapping_impl is NULL:
|
||
|
||
self._name_to_offset_mapping_impl = {
|
||
name: index for (index, name) in enumerate(self._variable_names)
|
||
}
|
||
return self._name_to_offset_mapping_impl
|
||
|
||
class FrameType:
|
||
|
||
_fast_locals : array[Object] # The values of the local variables, items may be NULL.
|
||
_locals: dict | NULL # Dictionary returned by PyEval_GetLocals()
|
||
|
||
def __init__(self, ...):
|
||
self._locals = NULL
|
||
...
|
||
|
||
@property
|
||
def f_locals(self):
|
||
return FastLocalsProxy(self)
|
||
|
||
class FastLocalsProxy:
|
||
|
||
__slots__ "_frame"
|
||
|
||
def __init__(self, frame:FrameType):
|
||
self._frame = frame
|
||
|
||
def _set_locals_entry(self, name, val):
|
||
f = self._frame
|
||
if f._locals is NULL:
|
||
f._locals = {}
|
||
f._locals[name] = val
|
||
|
||
def __getitem__(self, name):
|
||
f = self._frame
|
||
co = f.f_code
|
||
if name in co._name_to_offset_mapping:
|
||
index = co._name_to_offset_mapping[name]
|
||
val = f._fast_locals[index]
|
||
if val is NULL:
|
||
raise KeyError(name)
|
||
if co._is_cell(offset)
|
||
val = val.cell_contents
|
||
if val is NULL:
|
||
raise KeyError(name)
|
||
# PyEval_GetLocals() interop: implicit frame cache refresh
|
||
self._set_locals_entry(name, val)
|
||
return val
|
||
# PyEval_GetLocals() interop: frame cache may contain additional names
|
||
if f._locals is NULL:
|
||
raise KeyError(name)
|
||
return f._locals[name]
|
||
|
||
def __setitem__(self, name, value):
|
||
f = self._frame
|
||
co = f.f_code
|
||
if name in co._name_to_offset_mapping:
|
||
index = co._name_to_offset_mapping[name]
|
||
kind = co._local_kinds[index]
|
||
if co._is_cell(offset)
|
||
cell = f._locals[index]
|
||
cell.cell_contents = val
|
||
else:
|
||
f._fast_locals[index] = val
|
||
# PyEval_GetLocals() interop: implicit frame cache update
|
||
# even for names that are part of the fast locals array
|
||
self._set_locals_entry(name, val)
|
||
|
||
def __delitem__(self, name):
|
||
f = self._frame
|
||
co = f.f_code
|
||
if name in co._name_to_offset_mapping:
|
||
index = co._name_to_offset_mapping[name]
|
||
kind = co._local_kinds[index]
|
||
if co._is_cell(offset)
|
||
cell = f._locals[index]
|
||
cell.cell_contents = NULL
|
||
else:
|
||
f._fast_locals[index] = NULL
|
||
# PyEval_GetLocals() interop: implicit frame cache update
|
||
# even for names that are part of the fast locals array
|
||
if f._locals is not NULL:
|
||
del f._locals[name]
|
||
|
||
def __iter__(self):
|
||
f = self._frame
|
||
co = f.f_code
|
||
for index, name in enumerate(co._variable_names):
|
||
val = f._fast_locals[index]
|
||
if val is NULL:
|
||
continue
|
||
if co._is_cell(offset):
|
||
val = val.cell_contents
|
||
if val is NULL:
|
||
continue
|
||
yield name
|
||
for name in f._locals:
|
||
# Yield any extra names not defined on the frame
|
||
if name in co._name_to_offset_mapping:
|
||
continue
|
||
yield name
|
||
|
||
def popitem(self):
|
||
f = self._frame
|
||
co = f.f_code
|
||
for name in self:
|
||
val = self[name]
|
||
# PyEval_GetLocals() interop: implicit frame cache update
|
||
# even for names that are part of the fast locals array
|
||
del name
|
||
return name, val
|
||
|
||
def _sync_frame_cache(self):
|
||
# This method underpins PyEval_GetLocals, PyFrame_FastToLocals
|
||
# PyFrame_GetLocals, PyLocals_Get, mapping comparison, etc
|
||
f = self._frame
|
||
co = f.f_code
|
||
res = 0
|
||
if f._locals is NULL:
|
||
f._locals = {}
|
||
for index, name in enumerate(co._variable_names):
|
||
val = f._fast_locals[index]
|
||
if val is NULL:
|
||
f._locals.pop(name, None)
|
||
continue
|
||
if co._is_cell(offset):
|
||
if val.cell_contents is NULL:
|
||
f._locals.pop(name, None)
|
||
continue
|
||
f._locals[name] = val
|
||
|
||
def __len__(self):
|
||
self._sync_frame_cache()
|
||
return len(self._locals)
|
||
|
||
Note: the simplest way to convert the earlier iterations of the :pep:`558`
|
||
reference implementation into a preliminary implementation of the now proposed
|
||
semantics is to remove the ``frame_cache_updated`` checks in affected operations,
|
||
and instead always sync the frame cache in those methods. Adopting that approach
|
||
changes the algorithmic complexity of the following operations as shown (where
|
||
``n`` is the number of local and cell variables defined on the frame):
|
||
|
||
* ``__len__``: O(1) -> O(n)
|
||
* value comparison operations: no longer benefit from O(1) length check shortcut
|
||
* ``__iter__``: O(1) -> O(n)
|
||
* ``__reversed__``: O(1) -> O(n)
|
||
* ``keys()``: O(1) -> O(n)
|
||
* ``values()``: O(1) -> O(n)
|
||
* ``items()``: O(1) -> O(n)
|
||
* ``popitem()``: O(1) -> O(n)
|
||
|
||
The length check and value comparison operations have relatively limited
|
||
opportunities for improvement: without allowing usage of a potentially stale
|
||
cache, the only way to know how many variables are currently bound is to iterate
|
||
over all of them and check, and if the implementation is going to be spending
|
||
that many cycles on an operation anyway, it may as well spend it updating the
|
||
frame value cache and then consuming the result. These operations are O(n) in
|
||
both this PEP and in :pep:`667`. Customised implementations could be provided that
|
||
*are* faster than updating the frame cache, but it's far from clear that the
|
||
extra code complexity needed to speed these operations up would be worthwhile
|
||
when it only offers a linear performance improvement rather than an algorithmic
|
||
complexity improvement.
|
||
|
||
The O(1) nature of the other operations can be restored by adding implementation
|
||
code that doesn't rely on the value cache being up to date.
|
||
|
||
Keeping the iterator/iterable retrieval methods as ``O(1)`` will involve
|
||
writing custom replacements for the corresponding builtin dict helper types,
|
||
just as proposed in :pep:`667`. As illustrated above, the implementations would
|
||
be similar to the pseudo-code presented in :pep:`667`, but not identical (due to
|
||
the improved ``PyEval_GetLocals()`` interoperability offered by this PEP
|
||
affecting the way it stores extra variables).
|
||
|
||
``popitem()`` can be improved from "always O(n)" to "O(n) worst case" by
|
||
creating a custom implementation that relies on the improved iteration APIs.
|
||
|
||
To ensure stale frame information is never presented in the Python fast locals
|
||
proxy API, these changes in the reference implementation will need to be
|
||
implemented before merging.
|
||
|
||
The current implementation at time of writing (2021-10-24) also still stores a
|
||
copy of the fast refs mapping on each frame rather than storing a single
|
||
instance on the underlying code object (as it still stores cell references
|
||
directly, rather than check for cells on each fast locals array access). Fixing
|
||
this would also be required before merging.
|
||
|
||
|
||
Implementation
|
||
==============
|
||
|
||
The reference implementation update is in development as a draft pull
|
||
request on GitHub ([6]_).
|
||
|
||
|
||
Acknowledgements
|
||
================
|
||
|
||
Thanks to Nathaniel J. Smith for proposing the write-through proxy idea in
|
||
[1]_ and pointing out some critical design flaws in earlier iterations of the
|
||
PEP that attempted to avoid introducing such a proxy.
|
||
|
||
Thanks to Steve Dower and Petr Viktorin for asking that more attention be paid
|
||
to the developer experience of the proposed C API additions [8,13]_.
|
||
|
||
Thanks to Larry Hastings for the suggestion on how to use enums in the stable
|
||
ABI while ensuring that they safely support typecasting from arbitrary
|
||
integers.
|
||
|
||
Thanks to Mark Shannon for pushing for further simplification of the C level
|
||
API and semantics, as well as significant clarification of the PEP text (and for
|
||
restarting discussion on the PEP in early 2021 after a further year of
|
||
inactivity) [10,11,12]_. Mark's comments that were ultimately published as
|
||
:pep:`667` also directly resulted in several implementation efficiency improvements
|
||
that avoid incurring the cost of redundant O(n) mapping refresh operations
|
||
when the relevant mappings aren't used, as well as the change to ensure that
|
||
the state reported through the Python level ``f_locals`` API is never stale.
|
||
|
||
|
||
References
|
||
==========
|
||
|
||
.. [1] Broken local variable assignment given threads + trace hook + closure
|
||
(https://bugs.python.org/issue30744)
|
||
|
||
.. [2] Clarify the required behaviour of ``locals()``
|
||
(https://bugs.python.org/issue17960)
|
||
|
||
.. [3] Updating function local variables from pdb is unreliable
|
||
(https://bugs.python.org/issue9633)
|
||
|
||
.. [4] CPython's Python API for installing trace hooks
|
||
(https://docs.python.org/dev/library/sys.html#sys.settrace)
|
||
|
||
.. [5] CPython's C API for installing trace hooks
|
||
(https://docs.python.org/3/c-api/init.html#c.PyEval_SetTrace)
|
||
|
||
.. [6] PEP 558 reference implementation
|
||
(https://github.com/python/cpython/pull/3640/files)
|
||
|
||
.. [7] Nathaniel's review of possible function level semantics for locals()
|
||
(https://mail.python.org/pipermail/python-dev/2019-May/157738.html)
|
||
|
||
.. [8] Discussion of more intentionally designed C API enhancements
|
||
(https://discuss.python.org/t/pep-558-defined-semantics-for-locals/2936/3)
|
||
|
||
.. [9] Disable automatic update of frame locals during tracing
|
||
(https://bugs.python.org/issue42197)
|
||
|
||
.. [10] python-dev thread: Resurrecting PEP 558 (Defined semantics for locals())
|
||
(https://mail.python.org/archives/list/python-dev@python.org/thread/TUQOEWQSCQZPUDV2UFFKQ3C3I4WGFPAJ/)
|
||
|
||
.. [11] python-dev thread: Comments on PEP 558
|
||
(https://mail.python.org/archives/list/python-dev@python.org/thread/A3UN4DGBCOB45STE6AQBITJFW6UZE43O/)
|
||
|
||
.. [12] python-dev thread: More comments on PEP 558
|
||
(https://mail.python.org/archives/list/python-dev@python.org/thread/7TKPMD5LHCBXGFUIMKDAUZELRH6EX76S/)
|
||
|
||
.. [13] Petr Viktorin's suggestion to use an enum for ``PyLocals_Get``'s behaviour
|
||
(https://mail.python.org/archives/list/python-dev@python.org/message/BTQUBHIVE766RPIWLORC5ZYRCRC4CEBL/)
|
||
|
||
Copyright
|
||
=========
|
||
|
||
This document is placed in the public domain or under the
|
||
CC0-1.0-Universal license, whichever is more permissive.
|
||
|
||
|
||
|
||
..
|
||
Local Variables:
|
||
mode: indented-text
|
||
indent-tabs-mode: nil
|
||
sentence-end-double-space: t
|
||
fill-column: 70
|
||
coding: utf-8
|
||
End:
|