What’s new in Python 3.14
*************************

Editor:
   Hugo van Kemenade

This article explains the new features in Python 3.14, compared to
3.13.

For full details, see the changelog.

See also: **PEP 745** – Python 3.14 release schedule

Note:

  Prerelease users should be aware that this document is currently in
  draft form. It will be updated substantially as Python 3.14 moves
  towards release, so it’s worth checking back even after reading
  earlier versions.


Summary – release highlights
============================

Python 3.14 beta is the pre-release of the next version of the Python
programming language, with a mix of changes to the language, the
implementation and the standard library.

The biggest changes to the implementation include template strings
(**PEP 750**), deferred evaluation of annotations (**PEP 649**), and a
new type of interpreter that uses tail calls.

The library changes include the addition of a new "annotationlib"
module for introspecting and wrapping annotations (**PEP 749**), a new
"compression.zstd" module for Zstandard support (**PEP 784**), plus
syntax highlighting in the REPL, as well as the usual deprecations and
removals, and improvements in user-friendliness and correctness.

* PEP 779: Free-threaded Python is officially supported

* PEP 649 and 749: deferred evaluation of annotations

* PEP 734: Multiple interpreters in the stdlib

* PEP 741: Python configuration C API

* PEP 750: Template strings

* PEP 758: Allow except and except* expressions without parentheses

* PEP 761: Discontinuation of PGP signatures

* PEP 765: Disallow return/break/continue that exit a finally block

* Free-threaded mode improvements

* PEP 768: Safe external debugger interface for CPython

* PEP 784: Adding Zstandard to the standard library

* A new type of interpreter

* Syntax highlighting in PyREPL, and color output in unittest,
  argparse, json and calendar CLIs

* Binary releases for the experimental just-in-time compiler


Incompatible changes
====================

On platforms other than macOS and Windows, the default start method
for "multiprocessing" and "ProcessPoolExecutor" switches from *fork*
to *forkserver*.

See (1) and (2) for details.

If you encounter "NameError"s or pickling errors coming out of
"multiprocessing" or "concurrent.futures", see the forkserver
restrictions.

The interpreter avoids some reference count modifications internally
when it’s safe to do so. This can lead to different values returned
from "sys.getrefcount()" and "Py_REFCNT()" compared to previous
versions of Python.  See below for details.


New features
============


PEP 779: Free-threaded Python is officially supported
-----------------------------------------------------

The free-threaded build of Python is now supported and no longer
experimental. This is the start of phase II where free-threaded Python
is officially supported but still optional.

We are confident that the project is on the right path, and we
appreciate the continued dedication from everyone working to make
free-threading ready for broader adoption across the Python community.

With these recommendations and the acceptance of this PEP, we as the
Python developer community should broadly advertise that free-
threading is a supported Python build option now and into the future,
and that it will not be removed without a proper deprecation schedule.

Any decision to transition to phase III, with free-threading as the
default or sole build of Python is still undecided, and dependent on
many factors both within CPython itself and the community. This
decision is for the future.

See also: **PEP 779** and its acceptance.


PEP 734: Multiple interpreters in the stdlib
--------------------------------------------

The CPython runtime supports running multiple copies of Python in the
same process simultaneously and has done so for over 20 years. Each of
these separate copies is called an “interpreter”. However, the feature
had been available only through the C-API.

That limitation is removed in the 3.14 release, with the new
"concurrent.interpreters" module.

There are at least two notable reasons why using multiple interpreters
is worth considering:

* they support a new (to Python), human-friendly concurrency model

* true multi-core parallelism

For some use cases, concurrency in software enables efficiency and can
simplify software, at a high level.  At the same time, implementing
and maintaining all but the simplest concurrency is often a struggle
for the human brain.  That especially applies to plain threads (for
example, "threading"), where all memory is shared between all threads.

With multiple isolated interpreters, you can take advantage of a class
of concurrency models, like CSP or the actor model, that have found
success in other programming languages, like Smalltalk, Erlang,
Haskell, and Go.  Think of multiple interpreters like threads but with
opt-in sharing.

Regarding multi-core parallelism: as of the 3.12 release, interpreters
are now sufficiently isolated from one another to be used in parallel.
(See **PEP 684**.)  This unlocks a variety of CPU-intensive use cases
for Python that were limited by the *GIL*.

Using multiple interpreters is similar in many ways to
"multiprocessing", in that they both provide isolated logical
“processes” that can run in parallel, with no sharing by default.
However, when using multiple interpreters, an application will use
fewer system resources and will operate more efficiently (since it
stays within the same process).  Think of multiple interpreters as
having the isolation of processes with the efficiency of threads.

While the feature has been around for decades, multiple interpreters
have not been used widely, due to low awareness and the lack of a
stdlib module.  Consequently, they currently have several notable
limitations, which will improve significantly now that the feature is
finally going mainstream.

Current limitations:

* starting each interpreter has not been optimized yet

* each interpreter uses more memory than necessary (we will be working
  next on extensive internal sharing between interpreters)

* there aren’t many options *yet* for truly sharing objects or other
  data between interpreters (other than "memoryview")

* many extension modules on PyPI are not compatible with multiple
  interpreters yet (stdlib extension modules *are* compatible)

* the approach to writing applications that use multiple isolated
  interpreters is mostly unfamiliar to Python users, for now

The impact of these limitations will depend on future CPython
improvements, how interpreters are used, and what the community solves
through PyPI packages.  Depending on the use case, the limitations may
not have much impact, so try it out!

Furthermore, future CPython releases will reduce or eliminate overhead
and provide utilities that are less appropriate on PyPI.  In the
meantime, most of the limitations can also be addressed through
extension modules, meaning PyPI packages can fill any gap for 3.14,
and even back to 3.12 where interpreters were finally properly
isolated and stopped sharing the *GIL*.  Likewise, we expect to slowly
see libraries on PyPI for high-level abstractions on top of
interpreters.

Regarding extension modules, work is in progress to update some PyPI
projects, as well as tools like Cython, pybind11, nanobind, and PyO3.
The steps for isolating an extension module are found at Isolating
Extension Modules.  Isolating a module has a lot of overlap with what
is required to support free-threading, so the ongoing work in the
community in that area will help accelerate support for multiple
interpreters.

Also added in 3.14: concurrent.futures.InterpreterPoolExecutor.

See also: **PEP 734**.


PEP 750: Template strings
-------------------------

Template string literals (t-strings) are a generalization of
f-strings, using a "t" in place of the "f" prefix. Instead of
evaluating to "str", t-strings evaluate to a new
"string.templatelib.Template" type:

   from string.templatelib import Template

   name = "World"
   template: Template = t"Hello {name}"

The template can then be combined with functions that operate on the
template’s structure to produce a "str" or a string-like result. For
example, sanitizing input:

   evil = "<script>alert('evil')</script>"
   template = t"<p>{evil}</p>"
   assert html(template) == "<p>&lt;script&gt;alert('evil')&lt;/script&gt;</p>"

As another example, generating HTML attributes from data:

   attributes = {"src": "shrubbery.jpg", "alt": "looks nice"}
   template = t"<img {attributes}>"
   assert html(template) == '<img src="shrubbery.jpg" alt="looks nice" />'

Compared to using an f-string, the "html" function has access to
template attributes containing the original information: static
strings, interpolations, and values from the original scope. Unlike
existing templating approaches, t-strings build from the well-known
f-string syntax and rules. Template systems thus benefit from Python
tooling as they are much closer to the Python language, syntax,
scoping, and more.

Writing template handlers is straightforward:

   from string.templatelib import Template, Interpolation

   def lower_upper(template: Template) -> str:
       """Render static parts lowercased and interpolations uppercased."""
       parts: list[str] = []
       for item in template:
           if isinstance(item, Interpolation):
               parts.append(str(item.value).upper())
           else:
               parts.append(item.lower())
       return "".join(parts)

   name = "world"
   assert lower_upper(t"HELLO {name}") == "hello WORLD"

With this in place, developers can write template systems to sanitize
SQL, make safe shell operations, improve logging, tackle modern ideas
in web development (HTML, CSS, and so on), and implement lightweight,
custom business DSLs.

(Contributed by Jim Baker, Guido van Rossum, Paul Everitt, Koudai
Aono, Lysandros Nikolaou, Dave Peck, Adam Turner, Jelle Zijlstra,
Bénédikt Tran, and Pablo Galindo Salgado in gh-132661.)

See also: **PEP 750**.


PEP 768: Safe external debugger interface for CPython
-----------------------------------------------------

**PEP 768** introduces a zero-overhead debugging interface that allows
debuggers and profilers to safely attach to running Python processes.
This is a significant enhancement to Python’s debugging capabilities
allowing debuggers to forego unsafe alternatives. See below for how
this feature is leveraged to implement the new "pdb" module’s remote
attaching capabilities.

The new interface provides safe execution points for attaching
debugger code without modifying the interpreter’s normal execution
path or adding runtime overhead. This enables tools to inspect and
interact with Python applications in real-time without stopping or
restarting them — a crucial capability for high-availability systems
and production environments.

For convenience, CPython implements this interface through the "sys"
module with a "sys.remote_exec()" function:

   sys.remote_exec(pid, script_path)

This function allows sending Python code to be executed in a target
process at the next safe execution point. However, tool authors can
also implement the protocol directly as described in the PEP, which
details the underlying mechanisms used to safely attach to running
processes.

Here’s a simple example that inspects object types in a running Python
process:

      import os
      import sys
      import tempfile

      # Create a temporary script
      with tempfile.NamedTemporaryFile(mode='w', suffix='.py', delete=False) as f:
          script_path = f.name
          f.write(f"import my_debugger; my_debugger.connect({os.getpid()})")
      try:
          # Execute in process with PID 1234
          print("Behold! An offering:")
          sys.remote_exec(1234, script_path)
      finally:
          os.unlink(script_path)

The debugging interface has been carefully designed with security in
mind and includes several mechanisms to control access:

* A "PYTHON_DISABLE_REMOTE_DEBUG" environment variable.

* A "-X disable-remote-debug" command-line option.

* A "--without-remote-debug" configure flag to completely disable the
  feature at build time.

A key implementation detail is that the interface piggybacks on the
interpreter’s existing evaluation loop and safe points, ensuring zero
overhead during normal execution while providing a reliable way for
external processes to coordinate debugging operations.

(Contributed by Pablo Galindo Salgado, Matt Wozniski, and Ivona
Stojanovic in gh-131591.)

See also: **PEP 768**.


PEP 784: Adding Zstandard to the standard library
-------------------------------------------------

The new "compression" package contains modules "compression.lzma",
"compression.bz2", "compression.gzip" and "compression.zlib" which re-
export the "lzma", "bz2", "gzip" and "zlib" modules respectively. The
new import names under "compression" are the canonical names for
importing these compression modules going forward. However, the
existing modules names have not been deprecated. Any deprecation or
removal of the existing compression modules will occur no sooner than
five years after the release of 3.14.

The new "compression.zstd" module provides compression and
decompression APIs for the Zstandard format via bindings to Meta’s
zstd library. Zstandard is a widely adopted, highly efficient, and
fast compression format. In addition to the APIs introduced in
"compression.zstd", support for reading and writing Zstandard
compressed archives has been added to the "tarfile", "zipfile", and
"shutil" modules.

Here’s an example of using the new module to compress some data:

   from compression import zstd
   import math

   data = str(math.pi).encode() * 20

   compressed = zstd.compress(data)

   ratio = len(compressed) / len(data)
   print(f"Achieved compression ratio of {ratio}")

As can be seen, the API is similar to the APIs of the "lzma" and "bz2"
modules.

(Contributed by Emma Harper Smith, Adam Turner, Gregory P. Smith,
Tomas Roun, Victor Stinner, and Rogdham in gh-132983.)

See also: **PEP 784**.


Remote attaching to a running Python process with PDB
-----------------------------------------------------

The "pdb" module now supports remote attaching to a running Python
process using a new "-p PID" command-line option:

   python -m pdb -p 1234

This will connect to the Python process with the given PID and allow
you to debug it interactively. Notice that due to how the Python
interpreter works attaching to a remote process that is blocked in a
system call or waiting for I/O will only work once the next bytecode
instruction is executed or when the process receives a signal.

This feature uses **PEP 768** and the "sys.remote_exec()" function to
attach to the remote process and send the PDB commands to it.

(Contributed by Matt Wozniski and Pablo Galindo in gh-131591.)

See also: **PEP 768**.


PEP 758 – Allow except and except* expressions without parentheses
------------------------------------------------------------------

The "except" and "except*" expressions now allow parentheses to be
omitted when there are multiple exception types and the "as" clause is
not used. For example the following expressions are now valid:

   try:
       connect_to_server()
   except TimeoutError, ConnectionRefusedError:
       print("Network issue encountered.")

    # The same applies to except* (for exception groups):

   try:
       connect_to_server()
   except* TimeoutError, ConnectionRefusedError:
       print("Network issue encountered.")

Check **PEP 758** for more details.

(Contributed by Pablo Galindo and Brett Cannon in gh-131831.)

See also: **PEP 758**.


PEP 649 and 749: deferred evaluation of annotations
---------------------------------------------------

The *annotations* on functions, classes, and modules are no longer
evaluated eagerly. Instead, annotations are stored in special-purpose
*annotate functions* and evaluated only when necessary (except if
"from __future__ import annotations" is used). This is specified in
**PEP 649** and **PEP 749**.

This change is designed to make annotations in Python more performant
and more usable in most circumstances. The runtime cost for defining
annotations is minimized, but it remains possible to introspect
annotations at runtime. It is no longer necessary to enclose
annotations in strings if they contain forward references.

The new "annotationlib" module provides tools for inspecting deferred
annotations. Annotations may be evaluated in the "VALUE" format (which
evaluates annotations to runtime values, similar to the behavior in
earlier Python versions), the "FORWARDREF" format (which replaces
undefined names with special markers), and the "STRING" format (which
returns annotations as strings).

This example shows how these formats behave:

   >>> from annotationlib import get_annotations, Format
   >>> def func(arg: Undefined):
   ...     pass
   >>> get_annotations(func, format=Format.VALUE)
   Traceback (most recent call last):
     ...
   NameError: name 'Undefined' is not defined
   >>> get_annotations(func, format=Format.FORWARDREF)
   {'arg': ForwardRef('Undefined', owner=<function func at 0x...>)}
   >>> get_annotations(func, format=Format.STRING)
   {'arg': 'Undefined'}


Implications for annotated code
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

If you define annotations in your code (for example, for use with a
static type checker), then this change probably does not affect you:
you can keep writing annotations the same way you did with previous
versions of Python.

You will likely be able to remove quoted strings in annotations, which
are frequently used for forward references. Similarly, if you use
"from __future__ import annotations" to avoid having to write strings
in annotations, you may well be able to remove that import once you
support only Python 3.14 and newer. However, if you rely on third-
party libraries that read annotations, those libraries may need
changes to support unquoted annotations before they work as expected.


Implications for readers of "__annotations__"
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

If your code reads the "__annotations__" attribute on objects, you may
want to make changes in order to support code that relies on deferred
evaluation of annotations. For example, you may want to use
"annotationlib.get_annotations()" with the "FORWARDREF" format, as the
"dataclasses" module now does.

The external typing_extensions package provides partial backports of
some of the functionality of the "annotationlib" module, such as the
"Format" enum and the "get_annotations()" function. These can be used
to write cross-version code that takes advantage of the new behavior
in Python 3.14.


Related changes
~~~~~~~~~~~~~~~

The changes in Python 3.14 are designed to rework how
"__annotations__" works at runtime while minimizing breakage to code
that contains annotations in source code and to code that reads
"__annotations__". However, if you rely on undocumented details of the
annotation behavior or on private functions in the standard library,
there are many ways in which your code may not work in Python 3.14. To
safeguard your code against future changes, use only the documented
functionality of the "annotationlib" module.

In particular, do not read annotations directly from the namespace
dictionary attribute of type objects. Use
"annotationlib.get_annotate_from_class_namespace()" during class
construction and "annotationlib.get_annotations()" afterwards.

In previous releases, it was sometimes possible to access class
annotations from an instance of an annotated class. This behavior was
undocumented and accidental, and will no longer work in Python 3.14.


"from __future__ import annotations"
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

In Python 3.7, **PEP 563** introduced the "from __future__ import
annotations" directive, which turns all annotations into strings. This
directive is now considered deprecated and it is expected to be
removed in a future version of Python. However, this removal will not
happen until after Python 3.13, the last version of Python without
deferred evaluation of annotations, reaches its end of life in 2029.
In Python 3.14, the behavior of code using "from __future__ import
annotations" is unchanged.

(Contributed by Jelle Zijlstra in gh-119180; **PEP 649** was written
by Larry Hastings.)

See also: **PEP 649** and **PEP 749**.


Improved error messages
-----------------------

* The interpreter now provides helpful suggestions when it detects
  typos in Python keywords. When a word that closely resembles a
  Python keyword is encountered, the interpreter will suggest the
  correct keyword in the error message. This feature helps programmers
  quickly identify and fix common typing mistakes. For example:

     >>> whille True:
     ...     pass
     Traceback (most recent call last):
       File "<stdin>", line 1
         whille True:
         ^^^^^^
     SyntaxError: invalid syntax. Did you mean 'while'?

     >>> asynch def fetch_data():
     ...     pass
     Traceback (most recent call last):
       File "<stdin>", line 1
         asynch def fetch_data():
         ^^^^^^
     SyntaxError: invalid syntax. Did you mean 'async'?

     >>> async def foo():
     ...     awaid fetch_data()
     Traceback (most recent call last):
       File "<stdin>", line 2
         awaid fetch_data()
         ^^^^^
     SyntaxError: invalid syntax. Did you mean 'await'?

     >>> raisee ValueError("Error")
     Traceback (most recent call last):
       File "<stdin>", line 1
         raisee ValueError("Error")
         ^^^^^^
     SyntaxError: invalid syntax. Did you mean 'raise'?

  While the feature focuses on the most common cases, some variations
  of misspellings may still result in regular syntax errors.
  (Contributed by Pablo Galindo in gh-132449.)

* When unpacking assignment fails due to incorrect number of
  variables, the error message prints the received number of values in
  more cases than before. (Contributed by Tushar Sadhwani in
  gh-122239.)

     >>> x, y, z = 1, 2, 3, 4
     Traceback (most recent call last):
       File "<stdin>", line 1, in <module>
         x, y, z = 1, 2, 3, 4
         ^^^^^^^
     ValueError: too many values to unpack (expected 3, got 4)

* "elif" statements that follow an "else" block now have a specific
  error message. (Contributed by Steele Farnsworth in gh-129902.)

     >>> if who == "me":
     ...     print("It's me!")
     ... else:
     ...     print("It's not me!")
     ... elif who is None:
     ...     print("Who is it?")
     File "<stdin>", line 5
       elif who is None:
       ^^^^
     SyntaxError: 'elif' block follows an 'else' block

* If a statement ("pass", "del", "return", "yield", "raise", "break",
  "continue", "assert", "import", "from") is passed to the Conditional
  expressions after "else", or one of "pass", "break", or "continue"
  is passed before "if", then the error message highlights where the
  "expression" is required. (Contributed by Sergey Miryanov in
  gh-129515.)

     >>> x = 1 if True else pass
     Traceback (most recent call last):
       File "<string>", line 1
         x = 1 if True else pass
                            ^^^^
     SyntaxError: expected expression after 'else', but statement is given

     >>> x = continue if True else break
     Traceback (most recent call last):
       File "<string>", line 1
         x = continue if True else break
             ^^^^^^^^
     SyntaxError: expected expression before 'if', but statement is given

* When incorrectly closed strings are detected, the error message
  suggests that the string may be intended to be part of the string.
  (Contributed by Pablo Galindo in gh-88535.)

     >>> "The interesting object "The important object" is very important"
     Traceback (most recent call last):
     SyntaxError: invalid syntax. Is this intended to be part of the string?

* When strings have incompatible prefixes, the error now shows which
  prefixes are incompatible. (Contributed by Nikita Sobolev in
  gh-133197.)

     >>> ub'abc'
       File "<python-input-0>", line 1
         ub'abc'
         ^^
     SyntaxError: 'u' and 'b' prefixes are incompatible

* Improved error messages when using "as" with incompatible targets
  in:

  * Imports: "import ... as ..."

  * From imports: "from ... import ... as ..."

  * Except handlers: "except ... as ..."

  * Pattern-match cases: "case ... as ..."

  (Contributed by Nikita Sobolev in gh-123539, gh-123562, and
  gh-123440.)

     >>> import ast as arr[0]
       File "<python-input-1>", line 1
         import ast as arr[0]
                       ^^^^^^
     SyntaxError: cannot use subscript as import target

* Improved error message when trying to add an instance of an
  unhashable type to a "dict" or "set". (Contributed by CF Bolz-
  Tereick and Victor Stinner in gh-132828.)

     >>> s = set()
     >>> s.add({'pages': 12, 'grade': 'A'})
     Traceback (most recent call last):
       File "<python-input-1>", line 1, in <module>
         s.add({'pages': 12, 'grade': 'A'})
         ~~~~~^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
     TypeError: cannot use 'dict' as a set element (unhashable type: 'dict')
     >>> d = {}
     >>> l = [1, 2, 3]
     >>> d[l] = 12
     Traceback (most recent call last):
       File "<python-input-4>", line 1, in <module>
         d[l] = 12
         ~^^^
     TypeError: cannot use 'list' as a dict key (unhashable type: 'list')


PEP 741: Python configuration C API
-----------------------------------

Add a PyInitConfig C API to configure the Python initialization
without relying on C structures and the ability to make ABI-compatible
changes in the future.

Complete the **PEP 587** PyConfig C API by adding
"PyInitConfig_AddModule()" which can be used to add a built-in
extension module; feature previously referred to as the “inittab”.

Add "PyConfig_Get()" and "PyConfig_Set()" functions to get and set the
current runtime configuration.

PEP 587 “Python Initialization Configuration” unified all the ways to
configure the Python initialization. This PEP unifies also the
configuration of the Python preinitialization and the Python
initialization in a single API. Moreover, this PEP only provides a
single choice to embed Python, instead of having two “Python” and
“Isolated” choices (PEP 587), to simplify the API further.

The lower level PEP 587 PyConfig API remains available for use cases
with an intentionally higher level of coupling to CPython
implementation details (such as emulating the full functionality of
CPython’s CLI, including its configuration mechanisms).

(Contributed by Victor Stinner in gh-107954.)

See also: **PEP 741**.


Asyncio introspection capabilities
----------------------------------

Added a new command-line interface to inspect running Python processes
using asynchronous tasks, available via:

   python -m asyncio ps PID

This tool inspects the given process ID (PID) and displays information
about currently running asyncio tasks.  It outputs a task table: a
flat listing of all tasks, their names, their coroutine stacks, and
which tasks are awaiting them.

   python -m asyncio pstree PID

This tool fetches the same information, but renders a visual async
call tree, showing coroutine relationships in a hierarchical format.
This command is particularly useful for debugging long-running or
stuck asynchronous programs. It can help developers quickly identify
where a program is blocked, what tasks are pending, and how coroutines
are chained together.

For example given this code:

   import asyncio

   async def play(track):
       await asyncio.sleep(5)
       print(f"🎵 Finished: {track}")

   async def album(name, tracks):
       async with asyncio.TaskGroup() as tg:
           for track in tracks:
               tg.create_task(play(track), name=track)

   async def main():
       async with asyncio.TaskGroup() as tg:
           tg.create_task(
             album("Sundowning", ["TNDNBTG", "Levitate"]), name="Sundowning")
           tg.create_task(
             album("TMBTE", ["DYWTYLM", "Aqua Regia"]), name="TMBTE")

   if __name__ == "__main__":
       asyncio.run(main())

Executing the new tool on the running process will yield a table like
this:

   python -m asyncio ps 12345

   tid        task id              task name            coroutine stack                                    awaiter chain                                      awaiter name    awaiter id
   ------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
   1935500    0x7fc930c18050       Task-1               TaskGroup._aexit -> TaskGroup.__aexit__ -> main                                                                       0x0
   1935500    0x7fc930c18230       Sundowning           TaskGroup._aexit -> TaskGroup.__aexit__ -> album   TaskGroup._aexit -> TaskGroup.__aexit__ -> main    Task-1          0x7fc930c18050
   1935500    0x7fc93173fa50       TMBTE                TaskGroup._aexit -> TaskGroup.__aexit__ -> album   TaskGroup._aexit -> TaskGroup.__aexit__ -> main    Task-1          0x7fc930c18050
   1935500    0x7fc93173fdf0       TNDNBTG              sleep -> play                                      TaskGroup._aexit -> TaskGroup.__aexit__ -> album   Sundowning      0x7fc930c18230
   1935500    0x7fc930d32510       Levitate             sleep -> play                                      TaskGroup._aexit -> TaskGroup.__aexit__ -> album   Sundowning      0x7fc930c18230
   1935500    0x7fc930d32890       DYWTYLM              sleep -> play                                      TaskGroup._aexit -> TaskGroup.__aexit__ -> album   TMBTE           0x7fc93173fa50
   1935500    0x7fc93161ec30       Aqua Regia           sleep -> play                                      TaskGroup._aexit -> TaskGroup.__aexit__ -> album   TMBTE           0x7fc93173fa50

or a tree like this:

   python -m asyncio pstree 12345

   └── (T) Task-1
       └──  main example.py:13
           └──  TaskGroup.__aexit__ Lib/asyncio/taskgroups.py:72
               └──  TaskGroup._aexit Lib/asyncio/taskgroups.py:121
                   ├── (T) Sundowning
                   │   └──  album example.py:8
                   │       └──  TaskGroup.__aexit__ Lib/asyncio/taskgroups.py:72
                   │           └──  TaskGroup._aexit Lib/asyncio/taskgroups.py:121
                   │               ├── (T) TNDNBTG
                   │               │   └──  play example.py:4
                   │               │       └──  sleep Lib/asyncio/tasks.py:702
                   │               └── (T) Levitate
                   │                   └──  play example.py:4
                   │                       └──  sleep Lib/asyncio/tasks.py:702
                   └── (T) TMBTE
                       └──  album example.py:8
                           └──  TaskGroup.__aexit__ Lib/asyncio/taskgroups.py:72
                               └──  TaskGroup._aexit Lib/asyncio/taskgroups.py:121
                                   ├── (T) DYWTYLM
                                   │   └──  play example.py:4
                                   │       └──  sleep Lib/asyncio/tasks.py:702
                                   └── (T) Aqua Regia
                                       └──  play example.py:4
                                           └──  sleep Lib/asyncio/tasks.py:702

If a cycle is detected in the async await graph (which could indicate
a programming issue), the tool raises an error and lists the cycle
paths that prevent tree construction:

   python -m asyncio pstree 12345

   ERROR: await-graph contains cycles - cannot print a tree!

   cycle: Task-2 → Task-3 → Task-2

(Contributed by Pablo Galindo, Łukasz Langa, Yury Selivanov, and Marta
Gomez Macias in gh-91048.)


A new type of interpreter
-------------------------

A new type of interpreter has been added to CPython. It uses tail
calls between small C functions that implement individual Python
opcodes, rather than one large C case statement. For certain newer
compilers, this interpreter provides significantly better performance.
Preliminary numbers on our machines suggest anywhere up to 30% faster
Python code, and a geometric mean of 3-5% faster on "pyperformance"
depending on platform and architecture. The baseline is Python 3.14
built with Clang 19 without this new interpreter.

This interpreter currently only works with Clang 19 and newer on
x86-64 and AArch64 architectures. However, we expect that a future
release of GCC will support this as well.

This feature is opt-in for now. We highly recommend enabling profile-
guided optimization with the new interpreter as it is the only
configuration we have tested and can validate its improved
performance. For further information on how to build Python, see "--
with-tail-call-interp".

Note:

  This is not to be confused with tail call optimization of Python
  functions, which is currently not implemented in CPython.This new
  interpreter type is an internal implementation detail of the CPython
  interpreter.  It doesn’t change the visible behavior of Python
  programs at all.  It can improve their performance, but doesn’t
  change anything else.

Attention:

  This section previously reported a 9-15% geometric mean speedup.
  This number has since been cautiously revised down to 3-5%. While we
  expect performance results to be better than what we report, our
  estimates are more conservative due to a compiler bug found in
  Clang/LLVM 19, which causes the normal interpreter to be slower. We
  were unaware of this bug, resulting in inaccurate results. We
  sincerely apologize for communicating results that were only
  accurate for LLVM v19.1.x and v20.1.0. In the meantime, the bug has
  been fixed in LLVM v20.1.1 and for the upcoming v21.1, but it will
  remain unfixed for LLVM v19.1.x and v20.1.0. Thus any benchmarks
  with those versions of LLVM may produce inaccurate numbers. (Thanks
  to Nelson Elhage for bringing this to light.)

(Contributed by Ken Jin in gh-128563, with ideas on how to implement
this in CPython by Mark Shannon, Garrett Gu, Haoran Xu, and Josh
Haberman.)


Free-threaded mode
------------------

Free-threaded mode (**PEP 703**), initially added in 3.13, has been
significantly improved. The implementation described in PEP 703 was
finished, including C API changes, and temporary workarounds in the
interpreter were replaced with more permanent solutions. The
specializing adaptive interpreter (**PEP 659**) is now enabled in
free-threaded mode, which along with many other optimizations greatly
improves its performance. The performance penalty on single-threaded
code in free-threaded mode is now roughly 5-10%, depending on platform
and C compiler used.

This work was done by many contributors: Sam Gross, Matt Page, Neil
Schemenauer, Thomas Wouters, Donghee Na, Kirill Podoprigora, Ken Jin,
Itamar Oren, Brett Simmers, Dino Viehland, Nathan Goldbaum, Ralf
Gommers, Lysandros Nikolaou, Kumar Aditya, Edgar Margffoy, and many
others.

Some of these contributors are employed by Meta, which has continued
to provide significant engineering resources to support this project.

From 3.14, when compiling extension modules for the free-threaded
build of CPython on Windows, the preprocessor variable
"Py_GIL_DISABLED" now needs to be specified by the build backend, as
it will no longer be determined automatically by the C compiler. For a
running interpreter, the setting that was used at compile time can be
found using "sysconfig.get_config_var()".

A new flag has been added, "context_aware_warnings".  This flag
defaults to true for the free-threaded build and false for the GIL-
enabled build. If the flag is true then the "warnings.catch_warnings"
context manager uses a context variable for warning filters.  This
makes the context manager behave predicably when used with multiple
threads or asynchronous tasks.

A new flag has been added, "thread_inherit_context". This flag
defaults to true for the free-threaded build and false for the GIL-
enabled build. If the flag is true then threads created with
"threading.Thread" start with a copy of the "Context()" of the caller
of "start()".  Most significantly, this makes the warning filtering
context established by "catch_warnings" be “inherited” by threads (or
asyncio tasks) started within that context.  It also affects other
modules that use context variables, such as the "decimal" context
manager.


Syntax highlighting in PyREPL
-----------------------------

The default *interactive* shell now highlights Python syntax as you
type.  The feature is enabled by default unless the
"PYTHON_BASIC_REPL" environment is set or any color-disabling
environment variables are used. See Controlling color for details.

The default color theme for syntax highlighting strives for good
contrast and uses exclusively the 4-bit VGA standard ANSI color codes
for maximum compatibility. The theme can be customized using an
experimental API "_colorize.set_theme()".  This can be called
interactively, as well as in the "PYTHONSTARTUP" script.

(Contributed by Łukasz Langa in gh-131507.)


Binary releases for the experimental just-in-time compiler
----------------------------------------------------------

The official macOS and Windows release binaries now include an
*experimental* just-in-time (JIT) compiler. Although it is **not**
recommended for production use, it can be tested by setting
"PYTHON_JIT=1" as an environment variable. Downstream source builds
and redistributors can use the "--enable-experimental-jit=yes-off"
configuration option for similar behavior.

The JIT is at an early stage and still in active development. As such,
the typical performance impact of enabling it can range from 10%
slower to 20% faster, depending on workload. To aid in testing and
evaluation, a set of introspection functions has been provided in the
"sys._jit" namespace. "sys._jit.is_available()" can be used to
determine if the current executable supports JIT compilation, while
"sys._jit.is_enabled()" can be used to tell if JIT compilation has
been enabled for the current process.

Currently, the most significant missing functionality is that native
debuggers and profilers like "gdb" and "perf" are unable to unwind
through JIT frames (Python debuggers and profilers, like "pdb" or
"profile", continue to work without modification). Free-threaded
builds do not support JIT compilation.

Please report any bugs or major performance regressions that you
encounter!

See also: **PEP 744**


Concurrent safe warnings control
--------------------------------

The "warnings.catch_warnings" context manager will now optionally use
a context variable for warning filters.  This is enabled by setting
the "context_aware_warnings" flag, either with the "-X" command-line
option or an environment variable.  This gives predicable warnings
control when using "catch_warnings" combined with multiple threads or
asynchronous tasks. The flag defaults to true for the free-threaded
build and false for the GIL-enabled build.

(Contributed by Neil Schemenauer and Kumar Aditya in gh-130010.)


Incremental garbage collection
------------------------------

The cycle garbage collector is now incremental. This means that
maximum pause times are reduced by an order of magnitude or more for
larger heaps.

There are now only two generations: young and old. When "gc.collect()"
is not called directly, the GC is invoked a little less frequently.
When invoked, it collects the young generation and an increment of the
old generation, instead of collecting one or more generations.

The behavior of "gc.collect()" changes slightly:

* "gc.collect(1)": Performs an increment of garbage collection, rather
  than collecting generation 1.

* Other calls to "gc.collect()" are unchanged.

(Contributed by Mark Shannon in gh-108362.)


Other language changes
======================

* The default *interactive* shell now supports import autocompletion.
  This means that typing "import foo" and pressing "<tab>" will
  suggest modules starting with "foo". Similarly, typing "from foo
  import b" will suggest submodules of "foo" starting with "b". Note
  that autocompletion of module attributes is not currently supported.
  (Contributed by Tomas Roun in gh-69605.)

* The "map()" built-in now has an optional keyword-only *strict* flag
  like "zip()" to check that all the iterables are of equal length.
  (Contributed by Wannes Boeykens in gh-119793.)

* Incorrect usage of "await" and asynchronous comprehensions is now
  detected even if the code is optimized away by the "-O" command-line
  option. For example, "python -O -c 'assert await 1'" now produces a
  "SyntaxError". (Contributed by Jelle Zijlstra in gh-121637.)

* Writes to "__debug__" are now detected even if the code is optimized
  away by the "-O" command-line option. For example, "python -O -c
  'assert (__debug__ := 1)'" now produces a "SyntaxError".
  (Contributed by Irit Katriel in gh-122245.)

* Add class methods "float.from_number()" and "complex.from_number()"
  to convert a number to "float" or "complex" type correspondingly.
  They raise an error if the argument is a string. (Contributed by
  Serhiy Storchaka in gh-84978.)

* Implement mixed-mode arithmetic rules combining real and complex
  numbers as specified by C standards since C99. (Contributed by
  Sergey B Kirpichev in gh-69639.)

* All Windows code pages are now supported as “cpXXX” codecs on
  Windows. (Contributed by Serhiy Storchaka in gh-123803.)

* "super" objects are now "pickleable" and "copyable". (Contributed by
  Serhiy Storchaka in gh-125767.)

* The "memoryview" type now supports subscription, making it a
  *generic type*. (Contributed by Brian Schubert in gh-126012.)

* Support underscore and comma as thousands separators in the
  fractional part for floating-point presentation types of the new-
  style string formatting (with "format()" or f-strings). (Contributed
  by Sergey B Kirpichev in gh-87790.)

* The "bytes.fromhex()" and "bytearray.fromhex()" methods now accept
  ASCII "bytes" and *bytes-like objects*. (Contributed by Daniel Pope
  in gh-129349.)

* Support "\z" as a synonym for "\Z" in "regular expressions". It is
  interpreted unambiguously in many other regular expression engines,
  unlike "\Z", which has subtly different behavior. (Contributed by
  Serhiy Storchaka in gh-133306.)

* "\B" in "regular expression" now matches empty input string. Now it
  is always the opposite of "\b". (Contributed by Serhiy Storchaka in
  gh-124130.)

* iOS and macOS apps can now be configured to redirect "stdout" and
  "stderr" content to the system log. (Contributed by Russell Keith-
  Magee in gh-127592.)

* The iOS testbed is now able to stream test output while the test is
  running. The testbed can also be used to run the test suite of
  projects other than CPython itself. (Contributed by Russell Keith-
  Magee in gh-127592.)

* Three-argument "pow()" now tries calling "__rpow__()" if necessary.
  Previously it was only called in two-argument "pow()" and the binary
  power operator. (Contributed by Serhiy Storchaka in gh-130104.)

* Add a built-in implementation for HMAC (**RFC 2104**) using formally
  verified code from the HACL* project. This implementation is used as
  a fallback when the OpenSSL implementation of HMAC is not available.
  (Contributed by Bénédikt Tran in gh-99108.)

* The import time flag can now track modules that are already loaded
  (‘cached’), via the new "-X importtime=2". When such a module is
  imported, the "self" and "cumulative" times are replaced by the
  string "cached". Values above "2" for "-X importtime" are now
  reserved for future use. (Contributed by Noah Kim and Adam Turner in
  gh-118655.)

* When subclassing from a pure C type, the C slots for the new type
  are no longer replaced with a wrapped version on class creation if
  they are not explicitly overridden in the subclass. (Contributed by
  Tomasz Pytel in gh-132329.)

* The command-line option "-c" now automatically dedents its code
  argument before execution. The auto-dedentation behavior mirrors
  "textwrap.dedent()". (Contributed by Jon Crall and Steven Sun in
  gh-103998.)

* Improve error message when an object supporting the synchronous
  context manager protocol is entered using "async with" instead of
  "with". And vice versa with the asynchronous context manager
  protocol. (Contributed by Bénédikt Tran in gh-128398.)

* "-J" is no longer a reserved flag for Jython, and now has no special
  meaning. (Contributed by Adam Turner in gh-133336.)


PEP 765: Disallow "return"/"break"/"continue" that exit a "finally" block
-------------------------------------------------------------------------

The compiler emits a "SyntaxWarning" when a "return", "break" or
"continue" statements appears where it exits a "finally" block. This
change is specified in **PEP 765**.


New modules
===========

* "annotationlib": For introspecting *annotations*. See **PEP 749**
  for more details. (Contributed by Jelle Zijlstra in gh-119180.)


Improved modules
================


argparse
--------

* The default value of the program name for "argparse.ArgumentParser"
  now reflects the way the Python interpreter was instructed to find
  the "__main__" module code. (Contributed by Serhiy Storchaka and
  Alyssa Coghlan in gh-66436.)

* Introduced the optional *suggest_on_error* parameter to
  "argparse.ArgumentParser", enabling suggestions for argument choices
  and subparser names if mistyped by the user. (Contributed by
  Savannah Ostrowski in gh-124456.)

* Enable color for help text, which can be disabled with the optional
  *color* parameter to "argparse.ArgumentParser". This can also be
  controlled by environment variables. (Contributed by Hugo van
  Kemenade in gh-130645.)


ast
---

* Add "ast.compare()" for comparing two ASTs. (Contributed by Batuhan
  Taskaya and Jeremy Hylton in gh-60191.)

* Add support for "copy.replace()" for AST nodes. (Contributed by
  Bénédikt Tran in gh-121141.)

* Docstrings are now removed from an optimized AST in optimization
  level 2. (Contributed by Irit Katriel in gh-123958.)

* The "repr()" output for AST nodes now includes more information.
  (Contributed by Tomas Roun in gh-116022.)

* "ast.parse()", when called with an AST as input, now always verifies
  that the root node type is appropriate. (Contributed by Irit Katriel
  in gh-130139.)

* Add new "--feature-version", "--optimize", "--show-empty" options to
  command-line interface. (Contributed by Semyon Moroz in gh-133367.)


asyncio
-------

* The function and methods named "create_task()" now take an arbitrary
  list of keyword arguments. All keyword arguments are passed to the
  "Task" constructor or the custom task factory. (See
  "set_task_factory()" for details.) The "name" and "context" keyword
  arguments are no longer special; the name should now be set using
  the "name" keyword argument of the factory, and "context" may be
  "None".

  This affects the following function and methods:
  "asyncio.create_task()", "asyncio.loop.create_task()",
  "asyncio.TaskGroup.create_task()". (Contributed by Thomas Grainger
  in gh-128307.)


bdb
---

* The "bdb" module now supports the "sys.monitoring" backend.
  (Contributed by Tian Gao in gh-124533.)


calendar
--------

* By default, today’s date is highlighted in color in "calendar"’s
  command-line text output. This can be controlled by environment
  variables. (Contributed by Hugo van Kemenade in gh-128317.)


concurrent.futures
------------------

* Add "InterpreterPoolExecutor", which exposes “subinterpreters”
  (multiple Python interpreters in the same process) to Python code.
  This is separate from the proposed API in **PEP 734**. (Contributed
  by Eric Snow in gh-124548.)

* The default "ProcessPoolExecutor" start method changed from fork to
  forkserver on platforms other than macOS and Windows where it was
  already spawn.

  If the threading incompatible *fork* method is required, you must
  explicitly request it by supplying a multiprocessing context
  *mp_context* to "ProcessPoolExecutor".

  See forkserver restrictions for information and differences with the
  *fork* method and how this change may affect existing code with
  mutable global shared variables and/or shared objects that can not
  be automatically "pickled".

  (Contributed by Gregory P. Smith in gh-84559.)

* Add "concurrent.futures.ProcessPoolExecutor.terminate_workers()" and
  "concurrent.futures.ProcessPoolExecutor.kill_workers()" as ways to
  terminate or kill all living worker processes in the given pool.
  (Contributed by Charles Machalow in gh-130849.)

* Add the optional "buffersize" parameter to
  "concurrent.futures.Executor.map()" to limit the number of submitted
  tasks whose results have not yet been yielded. If the buffer is
  full, iteration over the *iterables* pauses until a result is
  yielded from the buffer. (Contributed by Enzo Bonnal and Josh
  Rosenberg in gh-74028.)


configparser
------------

* Security fix: will no longer write config files it cannot read.
  Attempting to "configparser.ConfigParser.write()" keys containing
  delimiters or beginning with the section header pattern will raise a
  "configparser.InvalidWriteError". (Contributed by Jacob Lincoln in
  gh-129270.)


contextvars
-----------

* Support context manager protocol by "contextvars.Token".
  (Contributed by Andrew Svetlov in gh-129889.)


ctypes
------

* The layout of bit fields in "Structure" and "Union" now matches
  platform defaults (GCC/Clang or MSVC) more closely. In particular,
  fields no longer overlap. (Contributed by Matthias Görgens in
  gh-97702.)

* The "Structure._layout_" class attribute can now be set to help
  match a non-default ABI. (Contributed by Petr Viktorin in gh-97702.)

* The class of "Structure"/"Union" field descriptors is now available
  as "CField", and has new attributes to aid debugging and
  introspection. (Contributed by Petr Viktorin in gh-128715.)

* On Windows, the "COMError" exception is now public. (Contributed by
  Jun Komoda in gh-126686.)

* On Windows, the "CopyComPointer()" function is now public.
  (Contributed by Jun Komoda in gh-127275.)

* "ctypes.memoryview_at()" now exists to create a "memoryview" object
  that refers to the supplied pointer and length. This works like
  "ctypes.string_at()" except it avoids a buffer copy, and is
  typically useful when implementing pure Python callback functions
  that are passed dynamically-sized buffers. (Contributed by Rian
  Hunter in gh-112018.)

* Complex types, "c_float_complex", "c_double_complex" and
  "c_longdouble_complex", are now available if both the compiler and
  the "libffi" library support complex C types. (Contributed by Sergey
  B Kirpichev in gh-61103.)

* Add "ctypes.util.dllist()" for listing the shared libraries loaded
  by the current process. (Contributed by Brian Ward in gh-119349.)

* Move "ctypes.POINTER()" types cache from a global internal cache
  ("_pointer_type_cache") to the "ctypes._CData.__pointer_type__"
  attribute of the corresponding "ctypes" types. This will stop the
  cache from growing without limits in some situations. (Contributed
  by Sergey Miryanov in gh-100926.)

* The "ctypes.py_object" type now supports subscription, making it a
  *generic type*. (Contributed by Brian Schubert in gh-132168.)

* "ctypes" now supports *free-threading builds*. (Contributed by Kumar
  Aditya and Peter Bierma in gh-127945.)


curses
------

* Add the "assume_default_colors()" function, a refinement of the
  "use_default_colors()" function which allows to change the color
  pair "0". (Contributed by Serhiy Storchaka in gh-133139.)


datetime
--------

* Add "datetime.time.strptime()" and "datetime.date.strptime()".
  (Contributed by Wannes Boeykens in gh-41431.)


decimal
-------

* Add alternative "Decimal" constructor "Decimal.from_number()".
  (Contributed by Serhiy Storchaka in gh-121798.)

* Expose "decimal.IEEEContext()" to support creation of contexts
  corresponding to the IEEE 754 (2008) decimal interchange formats.
  (Contributed by Sergey B Kirpichev in gh-53032.)


difflib
-------

* Comparison pages with highlighted changes generated by the
  "difflib.HtmlDiff" class now support dark mode. (Contributed by
  Jiahao Li in gh-129939.)


dis
---

* Add support for rendering full source location information of
  "instructions", rather than only the line number. This feature is
  added to the following interfaces via the *show_positions* keyword
  argument:

  * "dis.Bytecode"

  * "dis.dis()"

  * "dis.distb()"

  * "dis.disassemble()"

  This feature is also exposed via "dis --show-positions".
  (Contributed by Bénédikt Tran in gh-123165.)

* Add the "dis --specialized" command-line option to show specialized
  bytecode. (Contributed by Bénédikt Tran in gh-127413.)


errno
-----

* Add "errno.EHWPOISON" error code. (Contributed by James Roy in
  gh-126585.)


faulthandler
------------

* Add support for printing the C stack trace on systems that support
  it via "faulthandler.dump_c_stack()" or via the *c_stack* argument
  in "faulthandler.enable()". (Contributed by Peter Bierma in
  gh-127604.)


fnmatch
-------

* Added "fnmatch.filterfalse()" for excluding names matching a
  pattern. (Contributed by Bénédikt Tran in gh-74598.)


fractions
---------

* Add support for converting any objects that have the
  "as_integer_ratio()" method to a "Fraction". (Contributed by Serhiy
  Storchaka in gh-82017.)

* Add alternative "Fraction" constructor "Fraction.from_number()".
  (Contributed by Serhiy Storchaka in gh-121797.)


functools
---------

* Add support to "functools.partial()" and "functools.partialmethod()"
  for "functools.Placeholder" sentinels to reserve a place for
  positional arguments. (Contributed by Dominykas Grigonis in
  gh-119127.)

* Allow the *initial* parameter of "functools.reduce()" to be passed
  as a keyword argument. (Contributed by Sayandip Dutta in gh-125916.)


gc
--

The cyclic garbage collector is now incremental, which changes the
meaning of the results of "get_threshold()" and "set_threshold()" as
well as "get_count()" and "get_stats()".

* For backwards compatibility, "get_threshold()" continues to return a
  three-item tuple. The first value is the threshold for young
  collections, as before; the second value determines the rate at
  which the old collection is scanned (the default is 10, and higher
  values mean that the old collection is scanned more slowly). The
  third value is meaningless and is always zero.

* "set_threshold()" ignores any items after the second.

* "get_count()" and "get_stats()" continue to return the same format
  of results. The only difference is that instead of the results
  referring to the young, aging and old generations, the results refer
  to the young generation and the aging and collecting spaces of the
  old generation.

In summary, code that attempted to manipulate the behavior of the
cycle GC may not work exactly as intended, but it is very unlikely to
be harmful. All other code will work just fine.


getopt
------

* Add support for options with optional arguments. (Contributed by
  Serhiy Storchaka in gh-126374.)

* Add support for returning intermixed options and non-option
  arguments in order. (Contributed by Serhiy Storchaka in gh-126390.)


getpass
-------

* Support keyboard feedback by "getpass.getpass()" via the keyword-
  only optional argument "echo_char". Placeholder characters are
  rendered whenever a character is entered, and removed when a
  character is deleted. (Contributed by Semyon Moroz in gh-77065.)


graphlib
--------

* Allow "graphlib.TopologicalSorter.prepare()" to be called more than
  once as long as sorting has not started. (Contributed by Daniel Pope
  in gh-130914.)


heapq
-----

* Add functions for working with max-heaps:

  * "heapq.heapify_max()",

  * "heapq.heappush_max()",

  * "heapq.heappop_max()",

  * "heapq.heapreplace_max()"

  * "heapq.heappushpop_max()"


hmac
----

* Add a built-in implementation for HMAC (**RFC 2104**) using formally
  verified code from the HACL* project. (Contributed by Bénédikt Tran
  in gh-99108.)


http
----

* Directory lists and error pages generated by the "http.server"
  module allow the browser to apply its default dark mode.
  (Contributed by Yorik Hansen in gh-123430.)

* The "http.server" module now supports serving over HTTPS using the
  "http.server.HTTPSServer" class. This functionality is exposed by
  the command-line interface ("python -m http.server") through the
  following options:

  * "--tls-cert <path>": Path to the TLS certificate file.

  * "--tls-key <path>": Optional path to the private key file.

  * "--tls-password-file <path>": Optional path to the password file
    for the private key.

  (Contributed by Semyon Moroz in gh-85162.)


imaplib
-------

* Add "IMAP4.idle()", implementing the IMAP4 "IDLE" command as defined
  in **RFC 2177**. (Contributed by Forest in gh-55454.)


inspect
-------

* "inspect.signature()" takes a new argument *annotation_format* to
  control the "annotationlib.Format" used for representing
  annotations. (Contributed by Jelle Zijlstra in gh-101552.)

* "inspect.Signature.format()" takes a new argument
  *unquote_annotations*. If true, string *annotations* are displayed
  without surrounding quotes. (Contributed by Jelle Zijlstra in
  gh-101552.)

* Add function "inspect.ispackage()" to determine whether an object is
  a *package* or not. (Contributed by Zhikang Yan in gh-125634.)


io
--

* Reading text from a non-blocking stream with "read" may now raise a
  "BlockingIOError" if the operation cannot immediately return bytes.
  (Contributed by Giovanni Siragusa in gh-109523.)

* Add protocols "io.Reader" and "io.Writer" as a simpler alternatives
  to the pseudo-protocols "typing.IO", "typing.TextIO", and
  "typing.BinaryIO". (Contributed by Sebastian Rittau in gh-127648.)


json
----

* Add notes for JSON serialization errors that allow to identify the
  source of the error. (Contributed by Serhiy Storchaka in gh-122163.)

* Enable the "json" module to work as a script using the "-m" switch:
  **python -m json**. See the JSON command-line interface
  documentation. (Contributed by Trey Hunner in gh-122873.)

* By default, the output of the JSON command-line interface is
  highlighted in color. This can be controlled by environment
  variables. (Contributed by Tomas Roun in gh-131952.)


linecache
---------

* "linecache.getline()" can retrieve source code for frozen modules.
  (Contributed by Tian Gao in gh-131638.)


logging.handlers
----------------

* "logging.handlers.QueueListener" now implements the context manager
  protocol, allowing it to be used in a "with" statement. (Contributed
  by Charles Machalow in gh-132106.)

* "QueueListener.start" now raises a "RuntimeError" if the listener is
  already started. (Contributed by Charles Machalow in gh-132106.)


math
----

* Added more detailed error messages for domain errors in the module.
  (Contributed by by Charlie Zhao and Sergey B Kirpichev in
  gh-101410.)


mimetypes
---------

* Document the command-line for "mimetypes". It now exits with "1" on
  failure instead of "0" and "2" on incorrect command-line parameters
  instead of "1". Also, errors are printed to stderr instead of stdout
  and their text is made tighter. (Contributed by Oleg Iarygin and
  Hugo van Kemenade in gh-93096.)

* Add MS and **RFC 8081** MIME types for fonts:

  * Embedded OpenType: "application/vnd.ms-fontobject"

  * OpenType Layout (OTF) "font/otf"

  * TrueType: "font/ttf"

  * WOFF 1.0 "font/woff"

  * WOFF 2.0 "font/woff2"

  (Contributed by Sahil Prajapati and Hugo van Kemenade in gh-84852.)

* Add **RFC 9559** MIME types for Matroska audiovisual data container
  structures, containing:

  * audio with no video: "audio/matroska" (".mka")

  * video: "video/matroska" (".mkv")

  * stereoscopic video: "video/matroska-3d" (".mk3d")

  (Contributed by Hugo van Kemenade in gh-89416.)

* Add MIME types for images with RFCs:

  * **RFC 1494**: CCITT Group 3 (".g3")

  * **RFC 3362**: Real-time Facsimile, T.38 (".t38")

  * **RFC 3745**: JPEG 2000 (".jp2"), extension (".jpx") and compound
    (".jpm")

  * **RFC 3950**: Tag Image File Format Fax eXtended, TIFF-FX (".tfx")

  * **RFC 4047**: Flexible Image Transport System (".fits")

  * **RFC 7903**: Enhanced Metafile (".emf") and Windows Metafile
    (".wmf")

  (Contributed by Hugo van Kemenade in gh-85957.)

* More MIME type changes:

  * **RFC 2361**: Change type for ".avi" to "video/vnd.avi" and for
    ".wav" to "audio/vnd.wave"

  * **RFC 4337**: Add MPEG-4 "audio/mp4" (".m4a")

  * **RFC 5334**: Add Ogg media (".oga", ".ogg" and ".ogx")

  * **RFC 6713**: Add gzip "application/gzip" (".gz")

  * **RFC 9639**: Add FLAC "audio/flac" (".flac")

  * Add 7z "application/x-7z-compressed" (".7z")

  * Add Android Package "application/vnd.android.package-archive"
    (".apk") when not strict

  * Add deb "application/x-debian-package" (".deb")

  * Add glTF binary "model/gltf-binary" (".glb")

  * Add glTF JSON/ASCII "model/gltf+json" (".gltf")

  * Add M4V "video/x-m4v" (".m4v")

  * Add PHP "application/x-httpd-php" (".php")

  * Add RAR "application/vnd.rar" (".rar")

  * Add RPM "application/x-rpm" (".rpm")

  * Add STL "model/stl" (".stl")

  * Add Windows Media Video "video/x-ms-wmv" (".wmv")

  * De facto: Add WebM "audio/webm" (".weba")

  * ECMA-376: Add ".docx", ".pptx" and ".xlsx" types

  * OASIS: Add OpenDocument ".odg", ".odp", ".ods" and ".odt" types

  * W3C: Add EPUB "application/epub+zip" (".epub")

  (Contributed by Hugo van Kemenade in gh-129965.)

* Add **RFC 9512** "application/yaml" MIME type for YAML files
  (".yaml" and ".yml"). (Contributed by Sasha “Nelie” Chernykh and
  Hugo van Kemenade in gh-132056.)


multiprocessing
---------------

* The default start method changed from fork to forkserver on
  platforms other than macOS and Windows where it was already spawn.

  If the threading incompatible *fork* method is required, you must
  explicitly request it via a context from
  "multiprocessing.get_context()" (preferred) or change the default
  via "multiprocessing.set_start_method()".

  See forkserver restrictions for information and differences with the
  *fork* method and how this change may affect existing code with
  mutable global shared variables and/or shared objects that can not
  be automatically "pickled".

  (Contributed by Gregory P. Smith in gh-84559.)

* "multiprocessing"’s ""forkserver"" start method now authenticates
  its control socket to avoid solely relying on filesystem permissions
  to restrict what other processes could cause the forkserver to spawn
  workers and run code. (Contributed by Gregory P. Smith for
  gh-97514.)

* The multiprocessing proxy objects for *list* and *dict* types gain
  previously overlooked missing methods:

     * "clear()" and "copy()" for proxies of "list"

     * "fromkeys()", "reversed(d)", "d | {}", "{} | d", "d |= {'b':
       2}" for proxies of "dict"

  (Contributed by Roy Hyunjin Han for gh-103134.)

* Add support for shared "set" objects via "SyncManager.set()". The
  "set()" in "multiprocessing.Manager()" method is now available.
  (Contributed by Mingyu Park in gh-129949.)

* Add "multiprocessing.Process.interrupt()" which terminates the child
  process by sending "SIGINT". This enables "finally" clauses to print
  a stack trace for the terminated process. (Contributed by Artem
  Pulkin in gh-131913.)


operator
--------

* Two new functions "operator.is_none()" and "operator.is_not_none()"
  have been added, such that "operator.is_none(obj)" is equivalent to
  "obj is None" and "operator.is_not_none(obj)" is equivalent to "obj
  is not None". (Contributed by Raymond Hettinger and Nico Mexis in
  gh-115808.)


os
--

* Add the "os.reload_environ()" function to update "os.environ" and
  "os.environb" with changes to the environment made by "os.putenv()",
  by "os.unsetenv()", or made outside Python in the same process.
  (Contributed by Victor Stinner in gh-120057.)

* Add the "SCHED_DEADLINE" and "SCHED_NORMAL" constants to the "os"
  module. (Contributed by James Roy in gh-127688.)

* Add the "os.readinto()" function to read into a buffer object from a
  file descriptor. (Contributed by Cody Maloney in gh-129205.)


os.path
-------

* The *strict* parameter to "os.path.realpath()" accepts a new value,
  "os.path.ALLOW_MISSING". If used, errors other than
  "FileNotFoundError" will be re-raised; the resulting path can be
  missing but it will be free of symlinks. (Contributed by Petr
  Viktorin for **CVE 2025-4517**.)


pathlib
-------

* Add methods to "pathlib.Path" to recursively copy or move files and
  directories:

  * "copy()" copies a file or directory tree to a destination.

  * "copy_into()" copies *into* a destination directory.

  * "move()" moves a file or directory tree to a destination.

  * "move_into()" moves *into* a destination directory.

  (Contributed by Barney Gale in gh-73991.)

* Add "pathlib.Path.info" attribute, which stores an object
  implementing the "pathlib.types.PathInfo" protocol (also new). The
  object supports querying the file type and internally caching
  "stat()" results. Path objects generated by "iterdir()" are
  initialized with file type information gleaned from scanning the
  parent directory. (Contributed by Barney Gale in gh-125413.)


pdb
---

* Hardcoded breakpoints ("breakpoint()" and "pdb.set_trace()") now
  reuse the most recent "Pdb" instance that calls "set_trace()",
  instead of creating a new one each time. As a result, all the
  instance specific data like "display" and "commands" are preserved
  across hardcoded breakpoints. (Contributed by Tian Gao in
  gh-121450.)

* Add a new argument *mode* to "pdb.Pdb". Disable the "restart"
  command when "pdb" is in "inline" mode. (Contributed by Tian Gao in
  gh-123757.)

* A confirmation prompt will be shown when the user tries to quit
  "pdb" in "inline" mode. "y", "Y", "<Enter>" or "EOF" will confirm
  the quit and call "sys.exit()", instead of raising "bdb.BdbQuit".
  (Contributed by Tian Gao in gh-124704.)

* Inline breakpoints like "breakpoint()" or "pdb.set_trace()" will
  always stop the program at calling frame, ignoring the "skip"
  pattern (if any). (Contributed by Tian Gao in gh-130493.)

* "<tab>" at the beginning of the line in "pdb" multi-line input will
  fill in a 4-space indentation now, instead of inserting a "\t"
  character. (Contributed by Tian Gao in gh-130471.)

* Auto-indent is introduced in "pdb" multi-line input. It will either
  keep the indentation of the last line or insert a 4-space
  indentation when it detects a new code block. (Contributed by Tian
  Gao in gh-133350.)

* "$_asynctask" is added to access the current asyncio task if
  applicable. (Contributed by Tian Gao in gh-124367.)

* "pdb" now supports two backends: "sys.settrace()" and
  "sys.monitoring". Using "pdb" CLI or "breakpoint()" will always use
  the "sys.monitoring" backend. Explicitly instantiating "pdb.Pdb" and
  its derived classes will use the "sys.settrace()" backend by
  default, which is configurable. (Contributed by Tian Gao in
  gh-124533.)

* "pdb.set_trace_async()" is added to support debugging asyncio
  coroutines. "await" statements are supported with this function.
  (Contributed by Tian Gao in gh-132576.)

* Source code displayed in "pdb" will be syntax-highlighted. This
  feature can be controlled using the same methods as PyREPL, in
  addition to the newly added "colorize" argument of "pdb.Pdb".
  (Contributed by Tian Gao and Łukasz Langa in gh-133355.)


pickle
------

* Set the default protocol version on the "pickle" module to 5. For
  more details, see pickle protocols.

* Add notes for pickle serialization errors that allow to identify the
  source of the error. (Contributed by Serhiy Storchaka in gh-122213.)


platform
--------

* Add "platform.invalidate_caches()" to invalidate the cached results.
  (Contributed by Bénédikt Tran in gh-122549.)


pydoc
-----

* *Annotations* in help output are now usually displayed in a format
  closer to that in the original source. (Contributed by Jelle
  Zijlstra in gh-101552.)


socket
------

* Improve and fix support for Bluetooth sockets.

  * Fix support of Bluetooth sockets on NetBSD and DragonFly BSD.
    (Contributed by Serhiy Storchaka in gh-132429.)

  * Fix support for "BTPROTO_HCI" on FreeBSD. (Contributed by Victor
    Stinner in gh-111178.)

  * Add support for "BTPROTO_SCO" on FreeBSD. (Contributed by Serhiy
    Storchaka in gh-85302.)

  * Add support for *cid* and *bdaddr_type* in the address for
    "BTPROTO_L2CAP" on FreeBSD. (Contributed by Serhiy Storchaka in
    gh-132429.)

  * Add support for *channel* in the address for "BTPROTO_HCI" on
    Linux. (Contributed by Serhiy Storchaka in gh-70145.)

  * Accept an integer as the address for "BTPROTO_HCI" on Linux.
    (Contributed by Serhiy Storchaka in gh-132099.)

  * Return *cid* in "getsockname()" for "BTPROTO_L2CAP". (Contributed
    by Serhiy Storchaka in gh-132429.)

  * Add many new constants. (Contributed by Serhiy Storchaka in
    gh-132734.)


ssl
---

* Indicate through "ssl.HAS_PHA" whether the "ssl" module supports
  TLSv1.3 post-handshake client authentication (PHA). (Contributed by
  Will Childs-Klein in gh-128036.)


struct
------

* Support the float complex and double complex C types in the "struct"
  module (formatting characters "'F'" and "'D'" respectively).
  (Contributed by Sergey B Kirpichev in gh-121249.)


symtable
--------

* Expose the following "symtable.Symbol" methods:

  * "is_comp_cell()"

  * "is_comp_iter()"

  * "is_free_class()"

  (Contributed by Bénédikt Tran in gh-120029.)


sys
---

* The previously undocumented special function "sys.getobjects()",
  which only exists in specialized builds of Python, may now return
  objects from other interpreters than the one it’s called in.

* Add "sys._is_immortal()" for determining if an object is *immortal*.
  (Contributed by Peter Bierma in gh-128509.)

* On FreeBSD, "sys.platform" doesn’t contain the major version
  anymore. It is always "'freebsd'", instead of "'freebsd13'" or
  "'freebsd14'".

* Raise "DeprecationWarning" for "sys._clear_type_cache()". This
  function was deprecated in Python 3.13 but it didn’t raise a runtime
  warning.


sys.monitoring
--------------

* Two new events are added: "BRANCH_LEFT" and "BRANCH_RIGHT". The
  "BRANCH" event is deprecated.


sysconfig
---------

* Add "ABIFLAGS" key to "sysconfig.get_config_vars()" on Windows.
  (Contributed by Xuehai Pan in gh-131799.)


tarfile
-------

* "data_filter()" now normalizes symbolic link targets in order to
  avoid path traversal attacks. (Contributed by Petr Viktorin in
  gh-127987 and **CVE 2025-4138**.)

* "extractall()" now skips fixing up directory attributes when a
  directory was removed or replaced by another kind of file.
  (Contributed by Petr Viktorin in gh-127987 and **CVE 2024-12718**.)

* "extract()" and "extractall()" now (re-)apply the extraction filter
  when substituting a link (hard or symbolic) with a copy of another
  archive member, and when fixing up directory attributes. The former
  raises a new exception, "LinkFallbackError". (Contributed by Petr
  Viktorin for **CVE 2025-4330** and **CVE 2024-12718**.)

* "extract()" and "extractall()" no longer extract rejected members
  when "errorlevel()" is zero. (Contributed by Matt Prodani and Petr
  Viktorin in gh-112887 and **CVE 2025-4435**.)


threading
---------

* "threading.Thread.start()" now sets the operating system thread name
  to "threading.Thread.name". (Contributed by Victor Stinner in
  gh-59705.)


tkinter
-------

* Make "tkinter" widget methods "after()" and "after_idle()" accept
  arguments passed by keyword. (Contributed by Zhikang Yan in
  gh-126899.)

* Add ability to specify name for "tkinter.OptionMenu" and
  "tkinter.ttk.OptionMenu". (Contributed by Zhikang Yan in gh-130482.)


turtle
------

* Add context managers for "turtle.fill()", "turtle.poly()" and
  "turtle.no_animation()". (Contributed by Marie Roald and Yngve
  Mardal Moe in gh-126350.)


types
-----

* "types.UnionType" is now an alias for "typing.Union". See below for
  more details. (Contributed by Jelle Zijlstra in gh-105499.)


typing
------

* "types.UnionType" and "typing.Union" are now aliases for each other,
  meaning that both old-style unions (created with "Union[int, str]")
  and new-style unions ("int | str") now create instances of the same
  runtime type. This unifies the behavior between the two syntaxes,
  but leads to some differences in behavior that may affect users who
  introspect types at runtime:

  * Both syntaxes for creating a union now produce the same string
    representation in "repr()". For example, "repr(Union[int, str])"
    is now ""int | str"" instead of ""typing.Union[int, str]"".

  * Unions created using the old syntax are no longer cached.
    Previously, running "Union[int, str]" multiple times would return
    the same object ("Union[int, str] is Union[int, str]" would be
    "True"), but now it will return two different objects. Users
    should use "==" to compare unions for equality, not "is". New-
    style unions have never been cached this way. This change could
    increase memory usage for some programs that use a large number of
    unions created by subscripting "typing.Union". However, several
    factors offset this cost: unions used in annotations are no longer
    evaluated by default in Python 3.14 because of **PEP 649**; an
    instance of "types.UnionType" is itself much smaller than the
    object returned by "Union[]" was on prior Python versions; and
    removing the cache also saves some space. It is therefore unlikely
    that this change will cause a significant increase in memory usage
    for most users.

  * Previously, old-style unions were implemented using the private
    class "typing._UnionGenericAlias". This class is no longer needed
    for the implementation, but it has been retained for backward
    compatibility, with removal scheduled for Python 3.17. Users
    should use documented introspection helpers like
    "typing.get_origin()" and "typing.get_args()" instead of relying
    on private implementation details.

  * It is now possible to use "typing.Union" itself in "isinstance()"
    checks. For example, "isinstance(int | str, typing.Union)" will
    return "True"; previously this raised "TypeError".

  * The "__args__" attribute of "typing.Union" objects is no longer
    writable.

  * It is no longer possible to set any attributes on "typing.Union"
    objects. This only ever worked for dunder attributes on previous
    versions, was never documented to work, and was subtly broken in
    many cases.

  (Contributed by Jelle Zijlstra in gh-105499.)


unicodedata
-----------

* The Unicode database has been updated to Unicode 16.0.0.


unittest
--------

* "unittest" output is now colored by default. This can be controlled
  by environment variables. (Contributed by Hugo van Kemenade in
  gh-127221.)

* unittest discovery supports *namespace package* as start directory
  again. It was removed in Python 3.11. (Contributed by Jacob Walls in
  gh-80958.)

* A number of new methods were added in the "TestCase" class that
  provide more specialized tests.

  * "assertHasAttr()" and "assertNotHasAttr()" check whether the
    object has a particular attribute.

  * "assertIsSubclass()" and "assertNotIsSubclass()" check whether the
    object is a subclass of a particular class, or of one of a tuple
    of classes.

  * "assertStartsWith()", "assertNotStartsWith()", "assertEndsWith()"
    and "assertNotEndsWith()" check whether the Unicode or byte string
    starts or ends with particular string(s).

  (Contributed by Serhiy Storchaka in gh-71339.)


urllib
------

* Upgrade HTTP digest authentication algorithm for "urllib.request" by
  supporting SHA-256 digest authentication as specified in **RFC
  7616**. (Contributed by Calvin Bui in gh-128193.)

* Improve ergonomics and standards compliance when parsing and
  emitting "file:" URLs.

  In "urllib.request.url2pathname()":

  * Accept a complete URL when the new *require_scheme* argument is
    set to true.

  * Discard URL authority if it matches the local hostname.

  * Discard URL authority if it resolves to a local IP address when
    the new *resolve_host* argument is set to true.

  * Discard URL query and fragment components.

  * Raise "URLError" if a URL authority isn’t local, except on Windows
    where we return a UNC path as before.

  In "urllib.request.pathname2url()":

  * Return a complete URL when the new *add_scheme* argument is set to
    true.

  * Include an empty URL authority when a path begins with a slash.
    For example, the path "/etc/hosts" is converted to the URL
    "///etc/hosts".

  On Windows, drive letters are no longer converted to uppercase, and
  ":" characters not following a drive letter no longer cause an
  "OSError" exception to be raised.

  (Contributed by Barney Gale in gh-125866.)


uuid
----

* Add support for UUID versions 6, 7, and 8 via "uuid.uuid6()",
  "uuid.uuid7()", and "uuid.uuid8()" respectively, as specified in
  **RFC 9562**. (Contributed by Bénédikt Tran in gh-89083.)

* "uuid.NIL" and "uuid.MAX" are now available to represent the Nil and
  Max UUID formats as defined by **RFC 9562**. (Contributed by Nick
  Pope in gh-128427.)

* Allow to generate multiple UUIDs at once via "python -m uuid
  --count". (Contributed by Simon Legner in gh-131236.)


webbrowser
----------

* Names in the "BROWSER" environment variable can now refer to already
  registered browsers for the "webbrowser" module, instead of always
  generating a new browser command.

  This makes it possible to set "BROWSER" to the value of one of the
  supported browsers on macOS.


zipinfo
-------

* Added "ZipInfo._for_archive" to resolve suitable defaults for a
  "ZipInfo" object as used by "ZipFile.writestr". (Contributed by
  Bénédikt Tran in gh-123424.)

* "zipfile.ZipFile.writestr()" now respect "SOURCE_DATE_EPOCH" that
  distributions can set centrally and have build tools consume this in
  order to produce reproducible output. (Contributed by Jiahao Li in
  gh-91279.)


Optimizations
=============

* The import time for several standard library modules has been
  improved, including "ast", "asyncio", "base64", "cmd", "csv",
  "gettext", "importlib.util", "locale", "mimetypes", "optparse",
  "pickle", "pprint", "pstats", "socket", "subprocess", "threading",
  "tomllib", and "zipfile".

  (Contributed by Adam Turner, Bénédikt Tran, Chris Markiewicz, Eli
  Schwartz, Hugo van Kemenade, Jelle Zijlstra, and others in
  gh-118761.)


asyncio
-------

* "asyncio" has a new per-thread double linked list implementation
  internally for "native tasks" which speeds up execution by 10-20% on
  standard pyperformance benchmarks and reduces memory usage. This
  enables external introspection tools such as python -m asyncio
  pstree to introspect the call graph of asyncio tasks running in all
  threads. (Contributed by Kumar Aditya in gh-107803.)

* "asyncio" has first class support for *free-threading builds*. This
  enables parallel execution of multiple event loops across different
  threads and scales linearly with the number of threads. (Contributed
  by Kumar Aditya in gh-128002.)

* "asyncio" has new utility functions for introspecting and printing
  the program’s call graph: "asyncio.capture_call_graph()" and
  "asyncio.print_call_graph()". (Contributed by Yury Selivanov, Pablo
  Galindo Salgado, and Łukasz Langa in gh-91048.)


base64
------

* Improve the performance of "base64.b16decode()" by up to ten times,
  and reduce the import time of "base64" by up to six times.
  (Contributed by Bénédikt Tran, Chris Markiewicz, and Adam Turner in
  gh-118761.)


gc
--

* The new incremental garbage collector means that maximum pause times
  are reduced by an order of magnitude or more for larger heaps.
  (Contributed by Mark Shannon in gh-108362.)


io
--

* "io" which provides the built-in "open()" makes less system calls
  when opening regular files as well as reading whole files. Reading a
  small operating system cached file in full is up to 15% faster.
  "pathlib.Path.read_bytes()" has the most optimizations for reading a
  file’s bytes in full. (Contributed by Cody Maloney and Victor
  Stinner in gh-120754 and gh-90102.)


uuid
----

* Improve generation of "UUID" objects via their dedicated functions:

  * "uuid3()" and "uuid5()" are both roughly 40% faster for 16-byte
    names and 20% faster for 1024-byte names. Performance for longer
    names remains unchanged.

  * "uuid4()" is 30% faster.

  (Contributed by Bénédikt Tran in gh-128150.)


zlib
----

* On Windows, "zlib-ng" is now used as the implementation of the
  "zlib" module. This should produce compatible and comparable results
  with better performance, though it is worth noting that
  "zlib.Z_BEST_SPEED" (1) may result in significantly less compression
  than the previous implementation (while also significantly reducing
  the time taken to compress). (Contributed by Steve Dower in
  gh-91349.)


Deprecated
==========

* "argparse":

  * Passing the undocumented keyword argument *prefix_chars* to
    "add_argument_group()" is now deprecated. (Contributed by Savannah
    Ostrowski in gh-125563.)

  * Deprecated the "argparse.FileType" type converter. Anything with
    resource management should be done downstream after the arguments
    are parsed. (Contributed by Serhiy Storchaka in gh-58032.)

* "asyncio":

  * "asyncio.iscoroutinefunction()" is deprecated and will be removed
    in Python 3.16; use "inspect.iscoroutinefunction()" instead.
    (Contributed by Jiahao Li and Kumar Aditya in gh-122875.)

  * "asyncio" policy system is deprecated and will be removed in
    Python 3.16. In particular, the following classes and functions
    are deprecated:

    * "asyncio.AbstractEventLoopPolicy"

    * "asyncio.DefaultEventLoopPolicy"

    * "asyncio.WindowsSelectorEventLoopPolicy"

    * "asyncio.WindowsProactorEventLoopPolicy"

    * "asyncio.get_event_loop_policy()"

    * "asyncio.set_event_loop_policy()"

    Users should use "asyncio.run()" or "asyncio.Runner" with
    *loop_factory* to use the desired event loop implementation.

    For example, to use "asyncio.SelectorEventLoop" on Windows:

       import asyncio

       async def main():
           ...

       asyncio.run(main(), loop_factory=asyncio.SelectorEventLoop)

    (Contributed by Kumar Aditya in gh-127949.)

* "builtins": Passing a complex number as the *real* or *imag*
  argument in the "complex()" constructor is now deprecated; it should
  only be passed as a single positional argument. (Contributed by
  Serhiy Storchaka in gh-109218.)

* "codecs": "codecs.open()" is now deprecated. Use "open()" instead.
  (Contributed by Inada Naoki in gh-133036.)

* "ctypes":

  * On non-Windows platforms, setting "Structure._pack_" to use a
    MSVC-compatible default memory layout is deprecated in favor of
    setting "Structure._layout_" to "'ms'". (Contributed by Petr
    Viktorin in gh-131747.)

  * Calling "ctypes.POINTER()" on a string is deprecated. Use
    Incomplete Types for self-referential structures. Also, the
    internal "ctypes._pointer_type_cache" is deprecated. See
    "ctypes.POINTER()" for updated implementation details.
    (Contributed by Sergey Myrianov in gh-100926.)

* "functools": Calling the Python implementation of
  "functools.reduce()" with *function* or *sequence* as keyword
  arguments is now deprecated. (Contributed by Kirill Podoprigora in
  gh-121676.)

* "logging": Support for custom logging handlers with the *strm*
  argument is deprecated and scheduled for removal in Python 3.16.
  Define handlers with the *stream* argument instead. (Contributed by
  Mariusz Felisiak in gh-115032.)

* "mimetypes": Valid extensions start with a ‘.’ or are empty for
  "mimetypes.MimeTypes.add_type()". Undotted extensions are deprecated
  and will raise a "ValueError" in Python 3.16. (Contributed by Hugo
  van Kemenade in gh-75223.)

* "nturl2path": This module is now deprecated. Call
  "urllib.request.url2pathname()" and "pathname2url()" instead.
  (Contributed by Barney Gale in gh-125866.)

* "os": *Soft deprecate* "os.popen()" and "os.spawn*" functions. They
  should no longer be used to write new code.  The "subprocess" module
  is recommended instead. (Contributed by Victor Stinner in
  gh-120743.)

* "pathlib": "pathlib.PurePath.as_uri()" is deprecated and will be
  removed in Python 3.19. Use "pathlib.Path.as_uri()" instead.
  (Contributed by Barney Gale in gh-123599.)

* "pdb": The undocumented "pdb.Pdb.curframe_locals" attribute is now a
  deprecated read-only property. The low overhead dynamic frame locals
  access added in Python 3.13 by PEP 667 means the frame locals cache
  reference previously stored in this attribute is no longer needed.
  Derived debuggers should access "pdb.Pdb.curframe.f_locals" directly
  in Python 3.13 and later versions. (Contributed by Tian Gao in
  gh-124369 and gh-125951.)

* "symtable": Deprecate "symtable.Class.get_methods()" due to the lack
  of interest. (Contributed by Bénédikt Tran in gh-119698.)

* "tkinter": The "tkinter.Variable" methods "trace_variable()",
  "trace_vdelete()" and "trace_vinfo()" are now deprecated. Use
  "trace_add()", "trace_remove()" and "trace_info()" instead.
  (Contributed by Serhiy Storchaka in gh-120220.)

* "urllib.parse": Accepting objects with false values (like "0" and
  "[]") except empty strings, byte-like objects and "None" in
  "urllib.parse" functions "parse_qsl()" and "parse_qs()" is now
  deprecated. (Contributed by Serhiy Storchaka in gh-116897.)


Pending removal in Python 3.15
------------------------------

* The import system:

  * Setting "__cached__" on a module while failing to set
    "__spec__.cached" is deprecated. In Python 3.15, "__cached__" will
    cease to be set or take into consideration by the import system or
    standard library. (gh-97879)

  * Setting "__package__" on a module while failing to set
    "__spec__.parent" is deprecated. In Python 3.15, "__package__"
    will cease to be set or take into consideration by the import
    system or standard library. (gh-97879)

* "ctypes":

  * The undocumented "ctypes.SetPointerType()" function has been
    deprecated since Python 3.13.

* "http.server":

  * The obsolete and rarely used "CGIHTTPRequestHandler" has been
    deprecated since Python 3.13. No direct replacement exists.
    *Anything* is better than CGI to interface a web server with a
    request handler.

  * The "--cgi" flag to the **python -m http.server** command-line
    interface has been deprecated since Python 3.13.

* "importlib":

  * "load_module()" method: use "exec_module()" instead.

* "locale":

  * The "getdefaultlocale()" function has been deprecated since Python
    3.11. Its removal was originally planned for Python 3.13
    (gh-90817), but has been postponed to Python 3.15. Use
    "getlocale()", "setlocale()", and "getencoding()" instead.
    (Contributed by Hugo van Kemenade in gh-111187.)

* "pathlib":

  * "PurePath.is_reserved()" has been deprecated since Python 3.13.
    Use "os.path.isreserved()" to detect reserved paths on Windows.

* "platform":

  * "java_ver()" has been deprecated since Python 3.13. This function
    is only useful for Jython support, has a confusing API, and is
    largely untested.

* "sysconfig":

  * The *check_home* argument of "sysconfig.is_python_build()" has
    been deprecated since Python 3.12.

* "threading":

  * "RLock()" will take no arguments in Python 3.15. Passing any
    arguments has been deprecated since Python 3.14, as the  Python
    version does not permit any arguments, but the C version allows
    any number of positional or keyword arguments, ignoring every
    argument.

* "types":

  * "types.CodeType": Accessing "co_lnotab" was deprecated in **PEP
    626** since 3.10 and was planned to be removed in 3.12, but it
    only got a proper "DeprecationWarning" in 3.12. May be removed in
    3.15. (Contributed by Nikita Sobolev in gh-101866.)

* "typing":

  * The undocumented keyword argument syntax for creating "NamedTuple"
    classes (for example, "Point = NamedTuple("Point", x=int, y=int)")
    has been deprecated since Python 3.13. Use the class-based syntax
    or the functional syntax instead.

  * When using the functional syntax of "TypedDict"s, failing to pass
    a value to the *fields* parameter ("TD = TypedDict("TD")") or
    passing "None" ("TD = TypedDict("TD", None)") has been deprecated
    since Python 3.13. Use "class TD(TypedDict): pass" or "TD =
    TypedDict("TD", {})" to create a TypedDict with zero field.

  * The "typing.no_type_check_decorator()" decorator function has been
    deprecated since Python 3.13. After eight years in the "typing"
    module, it has yet to be supported by any major type checker.

* "wave":

  * The "getmark()", "setmark()", and "getmarkers()" methods of the
    "Wave_read" and "Wave_write" classes have been deprecated since
    Python 3.13.

* "zipimport":

  * "load_module()" has been deprecated since Python 3.10. Use
    "exec_module()" instead. (Contributed by Jiahao Li in gh-125746.)


Pending removal in Python 3.16
------------------------------

* The import system:

  * Setting "__loader__" on a module while failing to set
    "__spec__.loader" is deprecated. In Python 3.16, "__loader__" will
    cease to be set or taken into consideration by the import system
    or the standard library.

* "array":

  * The "'u'" format code ("wchar_t") has been deprecated in
    documentation since Python 3.3 and at runtime since Python 3.13.
    Use the "'w'" format code ("Py_UCS4") for Unicode characters
    instead.

* "asyncio":

  * "asyncio.iscoroutinefunction()" is deprecated and will be removed
    in Python 3.16; use "inspect.iscoroutinefunction()" instead.
    (Contributed by Jiahao Li and Kumar Aditya in gh-122875.)

  * "asyncio" policy system is deprecated and will be removed in
    Python 3.16. In particular, the following classes and functions
    are deprecated:

    * "asyncio.AbstractEventLoopPolicy"

    * "asyncio.DefaultEventLoopPolicy"

    * "asyncio.WindowsSelectorEventLoopPolicy"

    * "asyncio.WindowsProactorEventLoopPolicy"

    * "asyncio.get_event_loop_policy()"

    * "asyncio.set_event_loop_policy()"

    Users should use "asyncio.run()" or "asyncio.Runner" with
    *loop_factory* to use the desired event loop implementation.

    For example, to use "asyncio.SelectorEventLoop" on Windows:

       import asyncio

       async def main():
           ...

       asyncio.run(main(), loop_factory=asyncio.SelectorEventLoop)

    (Contributed by Kumar Aditya in gh-127949.)

* "builtins":

  * Bitwise inversion on boolean types, "~True" or "~False" has been
    deprecated since Python 3.12, as it produces surprising and
    unintuitive results ("-2" and "-1"). Use "not x" instead for the
    logical negation of a Boolean. In the rare case that you need the
    bitwise inversion of the underlying integer, convert to "int"
    explicitly ("~int(x)").

* "functools":

  * Calling the Python implementation of "functools.reduce()" with
    *function* or *sequence* as keyword arguments has been deprecated
    since Python 3.14.

* "logging":

  Support for custom logging handlers with the *strm* argument is
  deprecated and scheduled for removal in Python 3.16. Define handlers
  with the *stream* argument instead. (Contributed by Mariusz Felisiak
  in gh-115032.)

* "mimetypes":

  * Valid extensions start with a ‘.’ or are empty for
    "mimetypes.MimeTypes.add_type()". Undotted extensions are
    deprecated and will raise a "ValueError" in Python 3.16.
    (Contributed by Hugo van Kemenade in gh-75223.)

* "shutil":

  * The "ExecError" exception has been deprecated since Python 3.14.
    It has not been used by any function in "shutil" since Python 3.4,
    and is now an alias of "RuntimeError".

* "symtable":

  * The "Class.get_methods" method has been deprecated since Python
    3.14.

* "sys":

  * The "_enablelegacywindowsfsencoding()" function has been
    deprecated since Python 3.13. Use the
    "PYTHONLEGACYWINDOWSFSENCODING" environment variable instead.

* "sysconfig":

  * The "sysconfig.expand_makefile_vars()" function has been
    deprecated since Python 3.14. Use the "vars" argument of
    "sysconfig.get_paths()" instead.

* "tarfile":

  * The undocumented and unused "TarFile.tarfile" attribute has been
    deprecated since Python 3.13.


Pending removal in Python 3.17
------------------------------

* "typing":

  * Before Python 3.14, old-style unions were implemented using the
    private class "typing._UnionGenericAlias". This class is no longer
    needed for the implementation, but it has been retained for
    backward compatibility, with removal scheduled for Python 3.17.
    Users should use documented introspection helpers like
    "typing.get_origin()" and "typing.get_args()" instead of relying
    on private implementation details.


Pending removal in Python 3.19
------------------------------

* "ctypes":

  * Implicitly switching to the MSVC-compatible struct layout by
    setting "_pack_" but not "_layout_" on non-Windows platforms.


Pending removal in future versions
----------------------------------

The following APIs will be removed in the future, although there is
currently no date scheduled for their removal.

* "argparse":

  * Nesting argument groups and nesting mutually exclusive groups are
    deprecated.

  * Passing the undocumented keyword argument *prefix_chars* to
    "add_argument_group()" is now deprecated.

  * The "argparse.FileType" type converter is deprecated.

* "builtins":

  * "bool(NotImplemented)".

  * Generators: "throw(type, exc, tb)" and "athrow(type, exc, tb)"
    signature is deprecated: use "throw(exc)" and "athrow(exc)"
    instead, the single argument signature.

  * Currently Python accepts numeric literals immediately followed by
    keywords, for example "0in x", "1or x", "0if 1else 2".  It allows
    confusing and ambiguous expressions like "[0x1for x in y]" (which
    can be interpreted as "[0x1 for x in y]" or "[0x1f or x in y]").
    A syntax warning is raised if the numeric literal is immediately
    followed by one of keywords "and", "else", "for", "if", "in", "is"
    and "or".  In a future release it will be changed to a syntax
    error. (gh-87999)

  * Support for "__index__()" and "__int__()" method returning non-int
    type: these methods will be required to return an instance of a
    strict subclass of "int".

  * Support for "__float__()" method returning a strict subclass of
    "float": these methods will be required to return an instance of
    "float".

  * Support for "__complex__()" method returning a strict subclass of
    "complex": these methods will be required to return an instance of
    "complex".

  * Delegation of "int()" to "__trunc__()" method.

  * Passing a complex number as the *real* or *imag* argument in the
    "complex()" constructor is now deprecated; it should only be
    passed as a single positional argument. (Contributed by Serhiy
    Storchaka in gh-109218.)

* "calendar": "calendar.January" and "calendar.February" constants are
  deprecated and replaced by "calendar.JANUARY" and
  "calendar.FEBRUARY". (Contributed by Prince Roshan in gh-103636.)

* "codecs": use "open()" instead of "codecs.open()". (gh-133038)

* "codeobject.co_lnotab": use the "codeobject.co_lines()" method
  instead.

* "datetime":

  * "utcnow()": use "datetime.datetime.now(tz=datetime.UTC)".

  * "utcfromtimestamp()": use
    "datetime.datetime.fromtimestamp(timestamp, tz=datetime.UTC)".

* "gettext": Plural value must be an integer.

* "importlib":

  * "cache_from_source()" *debug_override* parameter is deprecated:
    use the *optimization* parameter instead.

* "importlib.metadata":

  * "EntryPoints" tuple interface.

  * Implicit "None" on return values.

* "logging": the "warn()" method has been deprecated since Python 3.3,
  use "warning()" instead.

* "mailbox": Use of StringIO input and text mode is deprecated, use
  BytesIO and binary mode instead.

* "os": Calling "os.register_at_fork()" in multi-threaded process.

* "pydoc.ErrorDuringImport": A tuple value for *exc_info* parameter is
  deprecated, use an exception instance.

* "re": More strict rules are now applied for numerical group
  references and group names in regular expressions.  Only sequence of
  ASCII digits is now accepted as a numerical reference.  The group
  name in bytes patterns and replacement strings can now only contain
  ASCII letters and digits and underscore. (Contributed by Serhiy
  Storchaka in gh-91760.)

* "sre_compile", "sre_constants" and "sre_parse" modules.

* "shutil": "rmtree()"’s *onerror* parameter is deprecated in Python
  3.12; use the *onexc* parameter instead.

* "ssl" options and protocols:

  * "ssl.SSLContext" without protocol argument is deprecated.

  * "ssl.SSLContext": "set_npn_protocols()" and
    "selected_npn_protocol()" are deprecated: use ALPN instead.

  * "ssl.OP_NO_SSL*" options

  * "ssl.OP_NO_TLS*" options

  * "ssl.PROTOCOL_SSLv3"

  * "ssl.PROTOCOL_TLS"

  * "ssl.PROTOCOL_TLSv1"

  * "ssl.PROTOCOL_TLSv1_1"

  * "ssl.PROTOCOL_TLSv1_2"

  * "ssl.TLSVersion.SSLv3"

  * "ssl.TLSVersion.TLSv1"

  * "ssl.TLSVersion.TLSv1_1"

* "threading" methods:

  * "threading.Condition.notifyAll()": use "notify_all()".

  * "threading.Event.isSet()": use "is_set()".

  * "threading.Thread.isDaemon()", "threading.Thread.setDaemon()": use
    "threading.Thread.daemon" attribute.

  * "threading.Thread.getName()", "threading.Thread.setName()": use
    "threading.Thread.name" attribute.

  * "threading.currentThread()": use "threading.current_thread()".

  * "threading.activeCount()": use "threading.active_count()".

* "typing.Text" (gh-92332).

* The internal class "typing._UnionGenericAlias" is no longer used to
  implement "typing.Union". To preserve compatibility with users using
  this private class, a compatibility shim will be provided until at
  least Python 3.17. (Contributed by Jelle Zijlstra in gh-105499.)

* "unittest.IsolatedAsyncioTestCase": it is deprecated to return a
  value that is not "None" from a test case.

* "urllib.parse" deprecated functions: "urlparse()" instead

  * "splitattr()"

  * "splithost()"

  * "splitnport()"

  * "splitpasswd()"

  * "splitport()"

  * "splitquery()"

  * "splittag()"

  * "splittype()"

  * "splituser()"

  * "splitvalue()"

  * "to_bytes()"

* "wsgiref": "SimpleHandler.stdout.write()" should not do partial
  writes.

* "xml.etree.ElementTree": Testing the truth value of an "Element" is
  deprecated. In a future release it will always return "True". Prefer
  explicit "len(elem)" or "elem is not None" tests instead.

* "sys._clear_type_cache()" is deprecated: use
  "sys._clear_internal_caches()" instead.


Removed
=======


argparse
--------

* Remove the *type*, *choices*, and *metavar* parameters of
  "argparse.BooleanOptionalAction". They were deprecated since 3.12.

* Calling "add_argument_group()" on an argument group, and calling
  "add_argument_group()" or "add_mutually_exclusive_group()" on a
  mutually exclusive group now raise exceptions. This nesting was
  never supported, often failed to work correctly, and was
  unintentionally exposed through inheritance. This functionality has
  been deprecated since Python 3.11. (Contributed by Savannah
  Ostrowski in gh-127186.)


ast
---

* Remove the following classes. They were all deprecated since Python
  3.8, and have emitted deprecation warnings since Python 3.12:

  * "ast.Bytes"

  * "ast.Ellipsis"

  * "ast.NameConstant"

  * "ast.Num"

  * "ast.Str"

  Use "ast.Constant" instead. As a consequence of these removals,
  user-defined "visit_Num", "visit_Str", "visit_Bytes",
  "visit_NameConstant" and "visit_Ellipsis" methods on custom
  "ast.NodeVisitor" subclasses will no longer be called when the
  "NodeVisitor" subclass is visiting an AST. Define a "visit_Constant"
  method instead.

  Also, remove the following deprecated properties on "ast.Constant",
  which were present for compatibility with the now-removed AST
  classes:

  * "ast.Constant.n"

  * "ast.Constant.s"

  Use "ast.Constant.value" instead. (Contributed by Alex Waygood in
  gh-119562.)


asyncio
-------

* Remove the following classes and functions. They were all deprecated
  and emitted deprecation warnings since Python 3.12:

  * "asyncio.get_child_watcher()"

  * "asyncio.set_child_watcher()"

  * "asyncio.AbstractEventLoopPolicy.get_child_watcher()"

  * "asyncio.AbstractEventLoopPolicy.set_child_watcher()"

  * "asyncio.AbstractChildWatcher"

  * "asyncio.FastChildWatcher"

  * "asyncio.MultiLoopChildWatcher"

  * "asyncio.PidfdChildWatcher"

  * "asyncio.SafeChildWatcher"

  * "asyncio.ThreadedChildWatcher"

  (Contributed by Kumar Aditya in gh-120804.)

* Removed implicit creation of event loop by
  "asyncio.get_event_loop()". It now raises a "RuntimeError" if there
  is no current event loop. (Contributed by Kumar Aditya in
  gh-126353.)

  There’s a few patterns that use "asyncio.get_event_loop()", most of
  them can be replaced with "asyncio.run()".

  If you’re running an async function, simply use "asyncio.run()".

  Before:

     async def main():
         ...


     loop = asyncio.get_event_loop()
     try:
         loop.run_until_complete(main())
     finally:
         loop.close()

  After:

     async def main():
         ...

     asyncio.run(main())

  If you need to start something, for example, a server listening on a
  socket and then run forever, use "asyncio.run()" and an
  "asyncio.Event".

  Before:

     def start_server(loop):
         ...

     loop = asyncio.get_event_loop()
     try:
         start_server(loop)
         loop.run_forever()
     finally:
         loop.close()

  After:

     def start_server(loop):
         ...

     async def main():
         start_server(asyncio.get_running_loop())
         await asyncio.Event().wait()

     asyncio.run(main())

  If you need to run something in an event loop, then run some
  blocking code around it, use "asyncio.Runner".

  Before:

     async def operation_one():
         ...

     def blocking_code():
         ...

     async def operation_two():
         ...

     loop = asyncio.get_event_loop()
     try:
         loop.run_until_complete(operation_one())
         blocking_code()
         loop.run_until_complete(operation_two())
     finally:
         loop.close()

  After:

     async def operation_one():
         ...

     def blocking_code():
         ...

     async def operation_two():
         ...

     with asyncio.Runner() as runner:
         runner.run(operation_one())
         blocking_code()
         runner.run(operation_two())


collections.abc
---------------

* Remove "collections.abc.ByteString". It had previously raised a
  "DeprecationWarning" since Python 3.12.


email
-----

* Remove the *isdst* parameter from "email.utils.localtime()".
  (Contributed by Hugo van Kemenade in gh-118798.)


importlib
---------

* Remove deprecated "importlib.abc" classes:

  * "importlib.abc.ResourceReader"

  * "importlib.abc.Traversable"

  * "importlib.abc.TraversableResources"

  Use "importlib.resources.abc" classes instead:

  * "importlib.resources.abc.Traversable"

  * "importlib.resources.abc.TraversableResources"

  (Contributed by Jason R. Coombs and Hugo van Kemenade in gh-93963.)


itertools
---------

* Remove "itertools" support for copy, deepcopy, and pickle
  operations. These had previously raised a "DeprecationWarning" since
  Python 3.12. (Contributed by Raymond Hettinger in gh-101588.)


pathlib
-------

* Remove support for passing additional keyword arguments to
  "pathlib.Path". In previous versions, any such arguments are
  ignored.

* Remove support for passing additional positional arguments to
  "pathlib.PurePath.relative_to()" and "is_relative_to()". In previous
  versions, any such arguments are joined onto *other*.


pkgutil
-------

* Remove deprecated "pkgutil.get_loader()" and
  "pkgutil.find_loader()". These had previously raised a
  "DeprecationWarning" since Python 3.12. (Contributed by Bénédikt
  Tran in gh-97850.)


pty
---

* Remove deprecated "pty.master_open()" and "pty.slave_open()". They
  had previously raised a "DeprecationWarning" since Python 3.12. Use
  "pty.openpty()" instead. (Contributed by Nikita Sobolev in
  gh-118824.)


sqlite3
-------

* Remove "version" and "version_info" from "sqlite3"; use
  "sqlite_version" and "sqlite_version_info" for the actual version
  number of the runtime SQLite library. (Contributed by Hugo van
  Kemenade in gh-118924.)

* Disallow using a sequence of parameters with named placeholders.
  This had previously raised a "DeprecationWarning" since Python 3.12;
  it will now raise a "sqlite3.ProgrammingError". (Contributed by
  Erlend E. Aasland in gh-118928 and gh-101693.)


typing
------

* Remove "typing.ByteString". It had previously raised a
  "DeprecationWarning" since Python 3.12.

* "typing.TypeAliasType" now supports star unpacking.


urllib
------

* Remove deprecated "Quoter" class from "urllib.parse". It had
  previously raised a "DeprecationWarning" since Python 3.11.
  (Contributed by Nikita Sobolev in gh-118827.)

* Remove deprecated "URLopener" and "FancyURLopener" classes from
  "urllib.request". They had previously raised a "DeprecationWarning"
  since Python 3.3.

  "myopener.open()" can be replaced with "urlopen()", and
  "myopener.retrieve()" can be replaced with "urlretrieve()".
  Customizations to the opener classes can be replaced by passing
  customized handlers to "build_opener()". (Contributed by Barney Gale
  in gh-84850.)


Others
------

* Using "NotImplemented" in a boolean context will now raise a
  "TypeError". It had previously raised a "DeprecationWarning" since
  Python 3.9. (Contributed by Jelle Zijlstra in gh-118767.)

* The "int()" built-in no longer delegates to "__trunc__()". Classes
  that want to support conversion to integer must implement either
  "__int__()" or "__index__()". (Contributed by Mark Dickinson in
  gh-119743.)


CPython bytecode changes
========================

* Replaced the opcode "BINARY_SUBSCR" by "BINARY_OP" with oparg
  "NB_SUBSCR". (Contributed by Irit Katriel in gh-100239.)


Porting to Python 3.14
======================

This section lists previously described changes and other bugfixes
that may require changes to your code.


Changes in the Python API
-------------------------

* "functools.partial" is now a method descriptor. Wrap it in
  "staticmethod()" if you want to preserve the old behavior.
  (Contributed by Serhiy Storchaka and Dominykas Grigonis in
  gh-121027.)

* The garbage collector is now incremental, which means that the
  behavior of "gc.collect()" changes slightly:

  * "gc.collect(1)": Performs an increment of garbage collection,
    rather than collecting generation 1.

  * Other calls to "gc.collect()" are unchanged.

* The "locale.nl_langinfo()" function now sets temporarily the
  "LC_CTYPE" locale in some cases. This temporary change affects other
  threads. (Contributed by Serhiy Storchaka in gh-69998.)

* "types.UnionType" is now an alias for "typing.Union", causing
  changes in some behaviors. See above for more details. (Contributed
  by Jelle Zijlstra in gh-105499.)

* The runtime behavior of annotations has changed in various ways; see
  above for details. While most code that interacts with annotations
  should continue to work, some undocumented details may behave
  differently.


Build changes
=============

* GNU Autoconf 2.72 is now required to generate "configure".
  (Contributed by Erlend Aasland in gh-115765.)

* "#pragma"-based linking with "python3*.lib" can now be switched off
  with Py_NO_LINK_LIB. (Contributed by Jean-Christophe Fillion-Robin
  in gh-82909.)


PEP 761: Discontinuation of PGP signatures
------------------------------------------

PGP signatures will not be available for CPython 3.14 and onwards.
Users verifying artifacts must use Sigstore verification materials for
verifying CPython artifacts. This change in release process is
specified in **PEP 761**.


C API changes
=============


New features
------------

* Add "PyLong_GetSign()" function to get the sign of "int" objects.
  (Contributed by Sergey B Kirpichev in gh-116560.)

* Add a new "PyUnicodeWriter" API to create a Python "str" object:

  * "PyUnicodeWriter_Create()"

  * "PyUnicodeWriter_DecodeUTF8Stateful()"

  * "PyUnicodeWriter_Discard()"

  * "PyUnicodeWriter_Finish()"

  * "PyUnicodeWriter_Format()"

  * "PyUnicodeWriter_WriteASCII()"

  * "PyUnicodeWriter_WriteChar()"

  * "PyUnicodeWriter_WriteRepr()"

  * "PyUnicodeWriter_WriteStr()"

  * "PyUnicodeWriter_WriteSubstring()"

  * "PyUnicodeWriter_WriteUCS4()"

  * "PyUnicodeWriter_WriteUTF8()"

  * "PyUnicodeWriter_WriteWideChar()"

  (Contributed by Victor Stinner in gh-119182.)

* Add "PyIter_NextItem()" to replace "PyIter_Next()", which has an
  ambiguous return value. (Contributed by Irit Katriel and Erlend
  Aasland in gh-105201.)

* Add "PyLong_IsPositive()", "PyLong_IsNegative()" and
  "PyLong_IsZero()" for checking if "PyLongObject" is positive,
  negative, or zero, respectively. (Contributed by James Roy and
  Sergey B Kirpichev in gh-126061.)

* Add new functions to convert C "<stdint.h>" numbers from/to Python
  "int":

  * "PyLong_AsInt32()"

  * "PyLong_AsInt64()"

  * "PyLong_AsUInt32()"

  * "PyLong_AsUInt64()"

  * "PyLong_FromInt32()"

  * "PyLong_FromInt64()"

  * "PyLong_FromUInt32()"

  * "PyLong_FromUInt64()"

  (Contributed by Victor Stinner in gh-120389.)

* Add "PyBytes_Join(sep, iterable)" function, similar to
  "sep.join(iterable)" in Python. (Contributed by Victor Stinner in
  gh-121645.)

* Add "Py_HashBuffer()" to compute and return the hash value of a
  buffer. (Contributed by Antoine Pitrou and Victor Stinner in
  gh-122854.)

* Add functions to get and set the current runtime Python
  configuration (**PEP 741**):

  * "PyConfig_Get()"

  * "PyConfig_GetInt()"

  * "PyConfig_Set()"

  * "PyConfig_Names()"

  (Contributed by Victor Stinner in gh-107954.)

* Add functions to configure the Python initialization (**PEP 741**):

  * "Py_InitializeFromInitConfig()"

  * "PyInitConfig_AddModule()"

  * "PyInitConfig_Create()"

  * "PyInitConfig_Free()"

  * "PyInitConfig_FreeStrList()"

  * "PyInitConfig_GetError()"

  * "PyInitConfig_GetExitCode()"

  * "PyInitConfig_GetInt()"

  * "PyInitConfig_GetStr()"

  * "PyInitConfig_GetStrList()"

  * "PyInitConfig_HasOption()"

  * "PyInitConfig_SetInt()"

  * "PyInitConfig_SetStr()"

  * "PyInitConfig_SetStrList()"

  (Contributed by Victor Stinner in gh-107954.)

* Add a new import and export API for Python "int" objects (**PEP
  757**):

  * "PyLong_GetNativeLayout()"

  * "PyLong_Export()"

  * "PyLong_FreeExport()"

  * "PyLongWriter_Create()"

  * "PyLongWriter_Finish()"

  * "PyLongWriter_Discard()"

  (Contributed by Sergey B Kirpichev and Victor Stinner in gh-102471.)

* Add "PyType_GetBaseByToken()" and "Py_tp_token" slot for easier
  superclass identification, which attempts to resolve the type
  checking issue mentioned in **PEP 630**. (Contributed in gh-124153.)

* Add "PyUnicode_Equal()" function to the limited C API: test if two
  strings are equal. (Contributed by Victor Stinner in gh-124502.)

* Add "PyType_Freeze()" function to make a type immutable.
  (Contributed by Victor Stinner in gh-121654.)

* Add "PyUnstable_Object_EnableDeferredRefcount()" for enabling
  deferred reference counting, as outlined in **PEP 703**.

* Add "PyMonitoring_FireBranchLeftEvent()" and
  "PyMonitoring_FireBranchRightEvent()" for generating "BRANCH_LEFT"
  and "BRANCH_RIGHT" events, respectively.

* Add "Py_fopen()" function to open a file. Similar to the "fopen()"
  function, but the *path* parameter is a Python object and an
  exception is set on error. Add also "Py_fclose()" function to close
  a file. (Contributed by Victor Stinner in gh-127350.)

* The "k" and "K" formats in "PyArg_ParseTuple()" and similar
  functions now use "__index__()" if available, like all other integer
  formats. (Contributed by Serhiy Storchaka in gh-112068.)

* Add macros "Py_PACK_VERSION()" and "Py_PACK_FULL_VERSION()" for bit-
  packing Python version numbers. (Contributed by Petr Viktorin in
  gh-128629.)

* Add "PyUnstable_IsImmortal()" for determining whether an object is
  *immortal*, for debugging purposes.

* Add "PyImport_ImportModuleAttr()" and
  "PyImport_ImportModuleAttrString()" helper functions to import a
  module and get an attribute of the module. (Contributed by Victor
  Stinner in gh-128911.)

* Add support for a new "p" format unit in "Py_BuildValue()" that
  allows to take a C integer and produce a Python "bool" object.
  (Contributed by Pablo Galindo in bpo-45325.)

* Add "PyUnstable_Object_IsUniqueReferencedTemporary()" to determine
  if an object is a unique temporary object on the interpreter’s
  operand stack. This can be used in some cases as a replacement for
  checking if "Py_REFCNT()" is "1" for Python objects passed as
  arguments to C API functions.

* Add "PyUnstable_Object_IsUniquelyReferenced()" as a replacement for
  "Py_REFCNT(op) == 1" on *free threaded* builds. (Contributed by
  Peter Bierma in gh-133140.)


Limited C API changes
---------------------

* In the limited C API 3.14 and newer, "Py_TYPE()" and "Py_REFCNT()"
  are now implemented as an opaque function call to hide
  implementation details. (Contributed by Victor Stinner in gh-120600
  and gh-124127.)

* Remove the "PySequence_Fast_GET_SIZE", "PySequence_Fast_GET_ITEM"
  and "PySequence_Fast_ITEMS" macros from the limited C API, since
  these macros never worked in the limited C API. Keep
  "PySequence_Fast()" in the limited C API. (Contributed by Victor
  Stinner in gh-91417.)


Porting to Python 3.14
----------------------

* "Py_Finalize()" now deletes all interned strings. This is backwards
  incompatible to any C-Extension that holds onto an interned string
  after a call to "Py_Finalize()" and is then reused after a call to
  "Py_Initialize()".  Any issues arising from this behavior will
  normally result in crashes during the execution of the subsequent
  call to "Py_Initialize()" from accessing uninitialized memory. To
  fix, use an address sanitizer to identify any use-after-free coming
  from an interned string and deallocate it during module shutdown.
  (Contributed by Eddie Elizondo in gh-113601.)

* The Unicode Exception Objects C API now raises a "TypeError" if its
  exception argument is not a "UnicodeError" object. (Contributed by
  Bénédikt Tran in gh-127691.)

* The interpreter internally avoids some reference count modifications
  when loading objects onto the operands stack by *borrowing*
  references when possible. This can lead to smaller reference count
  values compared to previous Python versions. C API extensions that
  checked "Py_REFCNT()" of "1" to determine if an function argument is
  not referenced by any other code should instead use
  "PyUnstable_Object_IsUniqueReferencedTemporary()" as a safer
  replacement.

* Private functions promoted to public C APIs:

  * "_PyBytes_Join()": "PyBytes_Join()"

  * "_PyLong_IsNegative()": "PyLong_IsNegative()"

  * "_PyLong_IsPositive()": "PyLong_IsPositive()"

  * "_PyLong_IsZero()": "PyLong_IsZero()"

  * "_PyLong_Sign()": "PyLong_GetSign()"

  * "_PyMutex_IsLocked()" : "PyMutex_IsLocked()"

  * "_PyUnicodeWriter_Dealloc()": "PyUnicodeWriter_Discard()"

  * "_PyUnicodeWriter_Finish()": "PyUnicodeWriter_Finish()"

  * "_PyUnicodeWriter_Init()": use "PyUnicodeWriter_Create()"

  * "_PyUnicodeWriter_Prepare()": (no replacement)

  * "_PyUnicodeWriter_PrepareKind()": (no replacement)

  * "_PyUnicodeWriter_WriteChar()": "PyUnicodeWriter_WriteChar()"

  * "_PyUnicodeWriter_WriteStr()": "PyUnicodeWriter_WriteStr()"

  * "_PyUnicodeWriter_WriteSubstring()":
    "PyUnicodeWriter_WriteSubstring()"

  * "_PyUnicode_EQ()": "PyUnicode_Equal()"

  * "_PyUnicode_Equal()": "PyUnicode_Equal()"

  * "_Py_GetConfig()": "PyConfig_Get()" and "PyConfig_GetInt()"

  * "_Py_HashBytes()": "Py_HashBuffer()"

  * "_Py_fopen_obj()": "Py_fopen()"

  The pythoncapi-compat project can be used to get most of these new
  functions on Python 3.13 and older.


Deprecated
----------

* The "Py_HUGE_VAL" macro is *soft deprecated*, use "Py_INFINITY"
  instead. (Contributed by Sergey B Kirpichev in gh-120026.)

* Macros "Py_IS_NAN", "Py_IS_INFINITY" and "Py_IS_FINITE" are *soft
  deprecated*, use instead "isnan", "isinf" and "isfinite" available
  from "math.h" since C99.  (Contributed by Sergey B Kirpichev in
  gh-119613.)

* Non-tuple sequences are deprecated as argument for the "(items)"
  format unit in "PyArg_ParseTuple()" and other argument parsing
  functions if *items* contains format units which store a borrowed
  buffer or a *borrowed reference*. (Contributed by Serhiy Storchaka
  in gh-50333.)

* The previously undocumented function "PySequence_In()" is *soft
  deprecated*. Use "PySequence_Contains()" instead. (Contributed by
  Yuki Kobayashi in gh-127896.)

* The "PyMonitoring_FireBranchEvent" function is deprecated and should
  be replaced with calls to "PyMonitoring_FireBranchLeftEvent()" and
  "PyMonitoring_FireBranchRightEvent()".

* The following private functions are deprecated and planned for
  removal in Python 3.18:

  * "_PyBytes_Join()": use "PyBytes_Join()".

  * "_PyDict_GetItemStringWithError()": use
    "PyDict_GetItemStringRef()".

  * "_PyDict_Pop()": use "PyDict_Pop()".

  * "_PyLong_Sign()": use "PyLong_GetSign()".

  * "_PyLong_FromDigits()" and "_PyLong_New()": use
    "PyLongWriter_Create()".

  * "_PyThreadState_UncheckedGet()": use
    "PyThreadState_GetUnchecked()".

  * "_PyUnicode_AsString()": use "PyUnicode_AsUTF8()".

  * "_PyUnicodeWriter_Init()": replace
    "_PyUnicodeWriter_Init(&writer)" with "writer =
    PyUnicodeWriter_Create(0)".

  * "_PyUnicodeWriter_Finish()": replace
    "_PyUnicodeWriter_Finish(&writer)" with
    "PyUnicodeWriter_Finish(writer)".

  * "_PyUnicodeWriter_Dealloc()": replace
    "_PyUnicodeWriter_Dealloc(&writer)" with
    "PyUnicodeWriter_Discard(writer)".

  * "_PyUnicodeWriter_WriteChar()": replace
    "_PyUnicodeWriter_WriteChar(&writer, ch)" with
    "PyUnicodeWriter_WriteChar(writer, ch)".

  * "_PyUnicodeWriter_WriteStr()": replace
    "_PyUnicodeWriter_WriteStr(&writer, str)" with
    "PyUnicodeWriter_WriteStr(writer, str)".

  * "_PyUnicodeWriter_WriteSubstring()": replace
    "_PyUnicodeWriter_WriteSubstring(&writer, str, start, end)" with
    "PyUnicodeWriter_WriteSubstring(writer, str, start, end)".

  * "_PyUnicodeWriter_WriteASCIIString()": replace
    "_PyUnicodeWriter_WriteASCIIString(&writer, str)" with
    "PyUnicodeWriter_WriteASCII(writer, str)".

  * "_PyUnicodeWriter_WriteLatin1String()": replace
    "_PyUnicodeWriter_WriteLatin1String(&writer, str)" with
    "PyUnicodeWriter_WriteUTF8(writer, str)".

  * "_Py_HashPointer()": use "Py_HashPointer()".

  * "_Py_fopen_obj()": use "Py_fopen()".

  The pythoncapi-compat project can be used to get these new public
  functions on Python 3.13 and older. (Contributed by Victor Stinner
  in gh-128863.)


Pending removal in Python 3.15
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

* The "PyImport_ImportModuleNoBlock()": Use "PyImport_ImportModule()"
  instead.

* "PyWeakref_GetObject()" and "PyWeakref_GET_OBJECT()": Use
  "PyWeakref_GetRef()" instead. The pythoncapi-compat project can be
  used to get "PyWeakref_GetRef()" on Python 3.12 and older.

* "Py_UNICODE" type and the "Py_UNICODE_WIDE" macro: Use "wchar_t"
  instead.

* "PyUnicode_AsDecodedObject()": Use "PyCodec_Decode()" instead.

* "PyUnicode_AsDecodedUnicode()": Use "PyCodec_Decode()" instead; Note
  that some codecs (for example, “base64”) may return a type other
  than "str", such as "bytes".

* "PyUnicode_AsEncodedObject()": Use "PyCodec_Encode()" instead.

* "PyUnicode_AsEncodedUnicode()": Use "PyCodec_Encode()" instead; Note
  that some codecs (for example, “base64”) may return a type other
  than "bytes", such as "str".

* Python initialization functions, deprecated in Python 3.13:

  * "Py_GetPath()": Use "PyConfig_Get("module_search_paths")"
    ("sys.path") instead.

  * "Py_GetPrefix()": Use "PyConfig_Get("base_prefix")"
    ("sys.base_prefix") instead. Use "PyConfig_Get("prefix")"
    ("sys.prefix") if virtual environments need to be handled.

  * "Py_GetExecPrefix()": Use "PyConfig_Get("base_exec_prefix")"
    ("sys.base_exec_prefix") instead. Use
    "PyConfig_Get("exec_prefix")" ("sys.exec_prefix") if virtual
    environments need to be handled.

  * "Py_GetProgramFullPath()": Use "PyConfig_Get("executable")"
    ("sys.executable") instead.

  * "Py_GetProgramName()": Use "PyConfig_Get("executable")"
    ("sys.executable") instead.

  * "Py_GetPythonHome()": Use "PyConfig_Get("home")" or the
    "PYTHONHOME" environment variable instead.

  The pythoncapi-compat project can be used to get "PyConfig_Get()" on
  Python 3.13 and older.

* Functions to configure Python’s initialization, deprecated in Python
  3.11:

  * "PySys_SetArgvEx()": Set "PyConfig.argv" instead.

  * "PySys_SetArgv()": Set "PyConfig.argv" instead.

  * "Py_SetProgramName()": Set "PyConfig.program_name" instead.

  * "Py_SetPythonHome()": Set "PyConfig.home" instead.

  * "PySys_ResetWarnOptions()": Clear "sys.warnoptions" and
    "warnings.filters" instead.

  The "Py_InitializeFromConfig()" API should be used with "PyConfig"
  instead.

* Global configuration variables:

  * "Py_DebugFlag": Use "PyConfig.parser_debug" or
    "PyConfig_Get("parser_debug")" instead.

  * "Py_VerboseFlag": Use "PyConfig.verbose" or
    "PyConfig_Get("verbose")" instead.

  * "Py_QuietFlag": Use "PyConfig.quiet" or "PyConfig_Get("quiet")"
    instead.

  * "Py_InteractiveFlag": Use "PyConfig.interactive" or
    "PyConfig_Get("interactive")" instead.

  * "Py_InspectFlag": Use "PyConfig.inspect" or
    "PyConfig_Get("inspect")" instead.

  * "Py_OptimizeFlag": Use "PyConfig.optimization_level" or
    "PyConfig_Get("optimization_level")" instead.

  * "Py_NoSiteFlag": Use "PyConfig.site_import" or
    "PyConfig_Get("site_import")" instead.

  * "Py_BytesWarningFlag": Use "PyConfig.bytes_warning" or
    "PyConfig_Get("bytes_warning")" instead.

  * "Py_FrozenFlag": Use "PyConfig.pathconfig_warnings" or
    "PyConfig_Get("pathconfig_warnings")" instead.

  * "Py_IgnoreEnvironmentFlag": Use "PyConfig.use_environment" or
    "PyConfig_Get("use_environment")" instead.

  * "Py_DontWriteBytecodeFlag": Use "PyConfig.write_bytecode" or
    "PyConfig_Get("write_bytecode")" instead.

  * "Py_NoUserSiteDirectory": Use "PyConfig.user_site_directory" or
    "PyConfig_Get("user_site_directory")" instead.

  * "Py_UnbufferedStdioFlag": Use "PyConfig.buffered_stdio" or
    "PyConfig_Get("buffered_stdio")" instead.

  * "Py_HashRandomizationFlag": Use "PyConfig.use_hash_seed" and
    "PyConfig.hash_seed" or "PyConfig_Get("hash_seed")" instead.

  * "Py_IsolatedFlag": Use "PyConfig.isolated" or
    "PyConfig_Get("isolated")" instead.

  * "Py_LegacyWindowsFSEncodingFlag": Use
    "PyPreConfig.legacy_windows_fs_encoding" or
    "PyConfig_Get("legacy_windows_fs_encoding")" instead.

  * "Py_LegacyWindowsStdioFlag": Use "PyConfig.legacy_windows_stdio"
    or "PyConfig_Get("legacy_windows_stdio")" instead.

  * "Py_FileSystemDefaultEncoding", "Py_HasFileSystemDefaultEncoding":
    Use "PyConfig.filesystem_encoding" or
    "PyConfig_Get("filesystem_encoding")" instead.

  * "Py_FileSystemDefaultEncodeErrors": Use
    "PyConfig.filesystem_errors" or
    "PyConfig_Get("filesystem_errors")" instead.

  * "Py_UTF8Mode": Use "PyPreConfig.utf8_mode" or
    "PyConfig_Get("utf8_mode")" instead. (see "Py_PreInitialize()")

  The "Py_InitializeFromConfig()" API should be used with "PyConfig"
  to set these options. Or "PyConfig_Get()" can be used to get these
  options at runtime.


Pending removal in Python 3.16
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

* The bundled copy of "libmpdec".


Pending removal in Python 3.18
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

* Deprecated private functions (gh-128863):

  * "_PyBytes_Join()": use "PyBytes_Join()".

  * "_PyDict_GetItemStringWithError()": use
    "PyDict_GetItemStringRef()".

  * "_PyDict_Pop()": "PyDict_Pop()".

  * "_PyLong_Sign()": use "PyLong_GetSign()".

  * "_PyLong_FromDigits()" and "_PyLong_New()": use
    "PyLongWriter_Create()".

  * "_PyThreadState_UncheckedGet()": use
    "PyThreadState_GetUnchecked()".

  * "_PyUnicode_AsString()": use "PyUnicode_AsUTF8()".

  * "_PyUnicodeWriter_Init()": replace
    "_PyUnicodeWriter_Init(&writer)" with "writer =
    PyUnicodeWriter_Create(0)".

  * "_PyUnicodeWriter_Finish()": replace
    "_PyUnicodeWriter_Finish(&writer)" with
    "PyUnicodeWriter_Finish(writer)".

  * "_PyUnicodeWriter_Dealloc()": replace
    "_PyUnicodeWriter_Dealloc(&writer)" with
    "PyUnicodeWriter_Discard(writer)".

  * "_PyUnicodeWriter_WriteChar()": replace
    "_PyUnicodeWriter_WriteChar(&writer, ch)" with
    "PyUnicodeWriter_WriteChar(writer, ch)".

  * "_PyUnicodeWriter_WriteStr()": replace
    "_PyUnicodeWriter_WriteStr(&writer, str)" with
    "PyUnicodeWriter_WriteStr(writer, str)".

  * "_PyUnicodeWriter_WriteSubstring()": replace
    "_PyUnicodeWriter_WriteSubstring(&writer, str, start, end)" with
    "PyUnicodeWriter_WriteSubstring(writer, str, start, end)".

  * "_PyUnicodeWriter_WriteASCIIString()": replace
    "_PyUnicodeWriter_WriteASCIIString(&writer, str)" with
    "PyUnicodeWriter_WriteUTF8(writer, str)".

  * "_PyUnicodeWriter_WriteLatin1String()": replace
    "_PyUnicodeWriter_WriteLatin1String(&writer, str)" with
    "PyUnicodeWriter_WriteUTF8(writer, str)".

  * "_PyUnicodeWriter_Prepare()": (no replacement).

  * "_PyUnicodeWriter_PrepareKind()": (no replacement).

  * "_Py_HashPointer()": use "Py_HashPointer()".

  * "_Py_fopen_obj()": use "Py_fopen()".

  The pythoncapi-compat project can be used to get these new public
  functions on Python 3.13 and older.


Pending removal in future versions
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

The following APIs are deprecated and will be removed, although there
is currently no date scheduled for their removal.

* "Py_TPFLAGS_HAVE_FINALIZE": Unneeded since Python 3.8.

* "PyErr_Fetch()": Use "PyErr_GetRaisedException()" instead.

* "PyErr_NormalizeException()": Use "PyErr_GetRaisedException()"
  instead.

* "PyErr_Restore()": Use "PyErr_SetRaisedException()" instead.

* "PyModule_GetFilename()": Use "PyModule_GetFilenameObject()"
  instead.

* "PyOS_AfterFork()": Use "PyOS_AfterFork_Child()" instead.

* "PySlice_GetIndicesEx()": Use "PySlice_Unpack()" and
  "PySlice_AdjustIndices()" instead.

* "PyUnicode_READY()": Unneeded since Python 3.12

* "PyErr_Display()": Use "PyErr_DisplayException()" instead.

* "_PyErr_ChainExceptions()": Use "_PyErr_ChainExceptions1()" instead.

* "PyBytesObject.ob_shash" member: call "PyObject_Hash()" instead.

* Thread Local Storage (TLS) API:

  * "PyThread_create_key()": Use "PyThread_tss_alloc()" instead.

  * "PyThread_delete_key()": Use "PyThread_tss_free()" instead.

  * "PyThread_set_key_value()": Use "PyThread_tss_set()" instead.

  * "PyThread_get_key_value()": Use "PyThread_tss_get()" instead.

  * "PyThread_delete_key_value()": Use "PyThread_tss_delete()"
    instead.

  * "PyThread_ReInitTLS()": Unneeded since Python 3.7.


Removed
-------

* Creating "immutable types" with mutable bases was deprecated since
  3.12 and now raises a "TypeError".

* Remove "PyDictObject.ma_version_tag" member which was deprecated
  since Python 3.12. Use the "PyDict_AddWatcher()" API instead.
  (Contributed by Sam Gross in gh-124296.)

* Remove the private "_Py_InitializeMain()" function. It was a
  *provisional API* added to Python 3.8 by **PEP 587**. (Contributed
  by Victor Stinner in gh-129033.)

* The undocumented APIs "Py_C_RECURSION_LIMIT" and
  "PyThreadState.c_recursion_remaining", added in 3.13, are removed
  without a deprecation period. Please use "Py_EnterRecursiveCall()"
  to guard against runaway recursion in C code. (Removed in gh-133079,
  see also gh-130396.)
