PEP 558: Remove dynamic frame semantics proposal (#1051)

Changing the frame API semantics based on whether or not a tracing function is active is tricky to implement and hard to document clearly, so this simplifies the proposal by instead having the frame API always expose a write-through proxy at function scope, and restricting the dynamic snapshot behaviour to the locals() builtin.
2019-05-21 22:41:34 +10:00 · 2019-05-21 22:41:34 +10:00 · 44f2986f8d
parent b8b55f631e
commit 44f2986f8d
1 changed files with 58 additions and 60 deletions
--- a/pep-0558.rst
+++ b/pep-0558.rst
@ -6,7 +6,7 @@ Status: Draft
 Type: Standards Track
 Content-Type: text/x-rst
 Created: 2017-09-08
-Python-Version: 3.7
+Python-Version: 3.8
 Post-History: 2017-09-08
@ -34,7 +34,7 @@ up to and including replication of local variable mutation bugs that
 can arise when a trace hook is installed [1]_.
 While this PEP considers CPython's current behaviour when no trace hooks are
-installed to be acceptable (and even desirable), it considers the current
+installed to be acceptable (and largely desirable), it considers the current
 behaviour when trace hooks are installed to be problematic, as it causes bugs
 like [1]_ *without* even reliably enabling the desired functionality of allowing
 debuggers like ``pdb`` to mutate local variables [3]_.
@ -71,6 +71,10 @@ scope that bring the ``locals()`` builtin semantics closer to those used in
 regular operation, while also making the related frame API semantics clearer
 and easier for interactive debuggers to rely on.
 The proposed tracing mode changes also affect the semantics of frame object
 references obtained through other means, such as via a traceback, or via the
 ``sys._getframe()`` API.
 New ``locals()`` documentation
 ------------------------------
@ -259,40 +263,31 @@ defined ``locals()`` builtin, trace functions necessarily use the implementation
 dependent ``frame.f_locals`` interface, as a frame reference is what gets
 passed to hook implementations.
-In regular operation, nothing will change - ``frame.f_locals`` will be a direct
+Instead of being a direct reference to the dynamic snapshot returned by
-reference to the dynamic snapshot, and ``locals()`` will return a reference to
+``locals()``, ``frame.f_locals`` will be updated to instead return a dedicated
-that snapshot. This reflects the fact that it's only CPython's tracing mode
+proxy type (implemented as a private subclass of the existing
 semantics that are currently problematic.
 In tracing mode, however, we will change ``frame.f_locals`` to instead return
 a dedicated proxy type (implemented as a private subclass of the existing
 ``types.MappingProxyType``) that has two internal attributes not exposed as
 part of either the Python or public C API:
-* *mapping*: the dynamic snapshot that would be returned by ``frame.f_locals``
+* *mapping*: the dynamic snapshot that is returned by the ``locals()`` builtin
  during regular operation
 * *frame*: the underlying frame that the snapshot is for
-The ``locals()`` builtin would be aware of this proxy type, and continue to
+``__setitem__`` and ``__delitem__`` operations on the proxy will affect not only
-return a reference to the dynamic snapshot even when in tracing mode.
+the dynamic snapshot, but *also* the corresponding fast local or cell reference
 on the underlying frame.
-As long as the process remains in tracing mode, then ``__setitem__`` and
+The ``locals()`` builtin will be made aware of this proxy type, and continue to
-``__delitem__`` operations on the proxy will affect not only the dynamic
+return a reference to the dynamic snapshot rather than to the write-through
-snapshot, but *also* the corresponding fast local or cell reference on the
+proxy.
 underlying frame.
 If the process leaves tracing mode (i.e. all previously installed trace hooks
 are uninstalled), then any already created proxy objects will remain in place,
 but their ``__setitem__`` and ``__delitem__`` methods will skip mutating
 the underlying frame.
 At the C API layer, ``PyEval_GetLocals()`` will implement the same semantics
 as the Python level ``locals()`` builtin, and a new ``PyFrame_GetLocals(frame)``
 accessor API will be provided to allow the proxy bypass logic to be encapsulated
 entirely inside the frame implementation. The C level equivalent of accessing
 ``pyframe.f_locals`` in Python will be to access ``cframe->f_locals`` directly
-(the one difference is that the Python descriptor will continue to include an
+(the one difference is that accessing ``pyframe.f_locals`` will continue to
-implicit snapshot refresh).
+implicitly refresh the dynamic snapshot, whereas C code will need to explicitly
 call ``PyFrame_GetLocals(frame)`` to refresh the snapshot).
 The ``PyFrame_LocalsToFast()`` function will be changed to always emit
 ``RuntimeError``, explaining that it is no longer a supported operation, and
@ -300,42 +295,6 @@ affected code should be updated to rely on the write-through tracing mode
 proxy instead.
 Open Questions
 ==============
 Is it necessary to restrict frame semantic changes to tracing mode?
 -------------------------------------------------------------------
 It would be possible to say that ``frame.f_locals`` should *always* return a
 write-through proxy, even in regular operation.
 This PEP currently avoids that option 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 means that the additional memory and
  execution time overhead of these changes are going to 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 makes sense to also
  restrict any related fixes to tracing mode
 The counter-argument to this is that it makes for a really subtle behavioural
 runtime state dependent distinction in how ``frame.f_locals`` works, and creates
 some new edge cases around how ``f_locals`` behaves as trace functions are added
 and removed. If the design adopted were instead "``frame.f_locals`` is always a
 write-through proxy, while ``locals()`` is always a dynamic snapshot", that
 would likely be both simpler to implement and easier to explain, suggesting
 that it may be a good idea.
 Regardless of how the CPython reference implementation chooses to handle this,
 optimising compilers and interpreters can potentially impose additional
 restrictions on debuggers, by making local variable mutation through frame
 objects an opt-in behaviour that may disable some optimisations.
 Design Discussion
 =================
@ -377,6 +336,45 @@ the calling scope by default.
 There doesn't seem to be any reason for the PEP to change this.
 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 ``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 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 dynamic 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, by 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).
 Historical semantics at function scope
 --------------------------------------