* as_completed returns object that is both iterator and async iterator
* Existing tests adjusted to test both the old and new style
* New test to ensure iterator can be resumed
* New test to ensure async iterator yields any passed-in Futures as-is
Co-authored-by: Serhiy Storchaka <storchaka@gmail.com>
Co-authored-by: Guido van Rossum <gvanrossum@gmail.com>
Integrates the following ctypes meta tp slot functions:
* `CDataType_traverse()` into `CType_Type_traverse()`.
* `CDataType_clear()` into `CType_Type_clear()`.
* `CDataType_dealloc()` into `CType_Type_dealloc()`.
* `CDataType_repeat()` into `CType_Type_repeat()`.
This just documents the parameter that already exists.
---------
Co-authored-by: Gregory P. Smith <greg@krypto.org>
Co-authored-by: Erlend E. Aasland <erlend.aasland@protonmail.com>
This fixes a crash in `test_threading.test_reinit_tls_after_fork()` when
running with the GIL disabled. We already properly handle the case where
the thread state is `_Py_THREAD_ATTACHED` in `tstate_delete_common()` --
we just need to remove an assertion.
Keeping the thread attached means that a stop-the-world pause, such as
for a `fork()`, won't commence until we remove our thread state from the
interpreter's linked list. This prevents a crash when the child process
tries to clean up the dead thread states.
* Extract method for _read_inner, reducing complexity and indentation by 1.
* Extract method for _raise_all and yield ParseErrors from _read_inner.
Reduces complexity by 1 and reduces touch points for handling errors in _read_inner.
* Prefer iterators to splat expansion and literal indexing.
* Extract method for _strip_comments. Reduces complexity by 7.
* Model the file lines in a class to encapsulate the comment status and cleaned value.
* Encapsulate the read state as a dataclass
* Extract _handle_continuation_line and _handle_rest methods. Reduces complexity by 8.
* Reindent
* At least for now, collect errors in the ReadState
* Check for missing section header separately.
* Extract methods for _handle_header and _handle_option. Reduces complexity by 6.
* Remove unreachable code. Reduces complexity by 4.
* Remove unreachable branch
* Handle error condition early. Reduces complexity by 1.
* Add blurb
* Move _raise_all to ParsingError, as its behavior is most closely related to the exception class and not the reader.
* Split _strip* into separate methods.
* Refactor _strip_full to compute the strip just once and use 'not any' to determine the factor.
* Replace use of 'sys.maxsize' with direct computation of the stripped value.
* Extract has_comments as a dynamic property.
* Implement clean as a cached property.
* Model comment prefixes in the RawConfigParser within a prefixes namespace.
* Use a regular expression to search for the first match.
Avoids mutating variables and tricky logic and over-computing all of the starts when only the first is relevant.
This adds a stop the world pause to make the two functions thread-safe
when the GIL is disabled in the free-threaded build.
Additionally, the main test thread may call `sys._current_exceptions()` as
soon as `g_raised.set()` is called. The background thread may not yet reach
the `leave_g.wait()` line.
Read the MRO in a thread-unsafe way in `PyType_IsSubtype` to avoid locking. Fixing this is tracked in #117306.
The motivation for this change is in support of making weakrefs thread-safe in free-threaded builds:
`WeakValueDictionary` uses a special dictionary function, `_PyDict_DelItemIf`
to remove dead weakrefs from the dictionary. `_PyDict_DelItemIf` removes a key
if a user supplied predicate evaluates to true for the value associated with
the key. Crucially for the `WeakValueDictionary` use case, the predicate
evaluation + deletion sequence is atomic, provided that the predicate doesn’t
suspend. The predicate used by `WeakValueDictionary` includes a subtype check,
which we must ensure doesn't suspend in free-threaded builds.
The tests are not reliable with the GIL disabled. In theory, they can
fail with the GIL enabled too, but the failures are much more likely
with the GIL disabled.
The free-threaded GC sometimes sees objects with zero refcount. This can
happen due to the delay in merging biased reference counting fields,
and, in the future, due to deferred reference counting. We should not
untrack these objects or they will never be collected.
This fixes the refleaks in the free-threaded build.
Mark the swap operations as critical sections.
Add an internal Py_BEGIN_CRITICAL_SECTION_MUT API that takes a PyMutex
pointer instead of a PyObject pointer.