chore(deps): update dependency numpy to v2.2.0

[renovate]

This PR contains the following updates:

Package	Change	Age	Adoption	Passing	Confidence
numpy (changelog)	>=1.16.0, <2.2 -> >=2.2, <3
numpy (changelog)	>=1.16.0,<1.24 -> >=2.2,<2.3

---

Release Notes

numpy/numpy (numpy)

v2.2.0: 2.2.0 (Dec 8, 2024)

Compare Source

NumPy 2.2.0 Release Notes

The NumPy 2.2.0 release is quick release that brings us back into sync
with the usual twice yearly release cycle. There have been an number of
small cleanups, as well as work bringing the new StringDType to
completion and improving support for free threaded Python. Highlights
are:

• New functions matvec and vecmat, see below.
• Many improved annotations.
• Improved support for the new StringDType.
• Improved support for free threaded Python
• Fixes for f2py

This release supports Python versions 3.10-3.13.

Deprecations

• _add_newdoc_ufunc is now deprecated. ufunc.__doc__ = newdoc
  should be used instead.

  (gh-27735)

Expired deprecations

• bool(np.array([])) and other empty arrays will now raise an error.
  Use arr.size > 0 instead to check whether an array has no
  elements.

  (gh-27160)

Compatibility notes

• numpy.cov now properly transposes single-row (2d
  array) design matrices when rowvar=False. Previously, single-row
  design matrices would return a scalar in this scenario, which is not
  correct, so this is a behavior change and an array of the
  appropriate shape will now be returned.

  (gh-27661)

New Features

• New functions for matrix-vector and vector-matrix products

  Two new generalized ufuncs were defined:

  • numpy.matvec - matrix-vector product, treating the
    arguments as stacks of matrices and column vectors,
    respectively.
  • numpy.vecmat - vector-matrix product, treating the
    arguments as stacks of column vectors and matrices,
    respectively. For complex vectors, the conjugate is taken.

  These add to the existing numpy.matmul as well as to
  numpy.vecdot, which was added in numpy 2.0.

  Note that numpy.matmul never takes a complex
  conjugate, also not when its left input is a vector, while both
  numpy.vecdot and numpy.vecmat do take
  the conjugate for complex vectors on the left-hand side (which are
  taken to be the ones that are transposed, following the physics
  convention).

  (gh-25675)

• np.complexfloating[T, T] can now also be written as
  np.complexfloating[T]

  (gh-27420)

• UFuncs now support __dict__ attribute and allow overriding
  __doc__ (either directly or via ufunc.__dict__["__doc__"]).
  __dict__ can be used to also override other properties, such as
  __module__ or __qualname__.

  (gh-27735)

• The "nbit" type parameter of np.number and its subtypes now
  defaults to typing.Any. This way, type-checkers will infer
  annotations such as x: np.floating as x: np.floating[Any], even
  in strict mode.

  (gh-27736)

Improvements

• The datetime64 and timedelta64 hashes now correctly match the
  Pythons builtin datetime and timedelta ones. The hashes now
  evaluated equal even for equal values with different time units.

  (gh-14622)

• Fixed a number of issues around promotion for string ufuncs with
  StringDType arguments. Mixing StringDType and the fixed-width DTypes
  using the string ufuncs should now generate much more uniform
  results.

  (gh-27636)

• Improved support for empty memmap. Previously an empty
  memmap would fail unless a non-zero offset was set.
  Now a zero-size memmap is supported even if
  offset=0. To achieve this, if a memmap is mapped to
  an empty file that file is padded with a single byte.

  (gh-27723)

• A regression has been fixed which allows F2PY users to expose variables
  to Python in modules with only assignments, and also fixes situations
  where multiple modules are present within a single source file.

  (gh-27695)

Performance improvements and changes

• Improved multithreaded scaling on the free-threaded build when many
  threads simultaneously call the same ufunc operations.

  (gh-27896)

• NumPy now uses fast-on-failure attribute lookups for protocols. This
  can greatly reduce overheads of function calls or array creation
  especially with custom Python objects. The largest improvements will
  be seen on Python 3.12 or newer.

  (gh-27119)

• OpenBLAS on x86_64 and i686 is built with fewer kernels. Based on
  benchmarking, there are 5 clusters of performance around these
  kernels: PRESCOTT NEHALEM SANDYBRIDGE HASWELL SKYLAKEX.

• OpenBLAS on windows is linked without quadmath, simplifying
  licensing

• Due to a regression in OpenBLAS on windows, the performance
  improvements when using multiple threads for OpenBLAS 0.3.26 were
  reverted.

  (gh-27147)

• NumPy now indicates hugepages also for large np.zeros allocations
  on linux. Thus should generally improve performance.

  (gh-27808)

Changes

• numpy.fix now won't perform casting to a floating
  data-type for integer and boolean data-type input arrays.

  (gh-26766)

• The type annotations of numpy.float64 and numpy.complex128 now
  reflect that they are also subtypes of the built-in float and
  complex types, respectively. This update prevents static
  type-checkers from reporting errors in cases such as:

  x: float = numpy.float64(6.28)  # valid
  z: complex = numpy.complex128(-1j)  # valid

  (gh-27334)

• The repr of arrays large enough to be summarized (i.e., where
  elements are replaced with ...) now includes the shape of the
  array, similar to what already was the case for arrays with zero
  size and non-obvious shape. With this change, the shape is always
  given when it cannot be inferred from the values. Note that while
  written as shape=..., this argument cannot actually be passed in
  to the np.array constructor. If you encounter problems, e.g., due
  to failing doctests, you can use the print option legacy=2.1 to
  get the old behaviour.

  (gh-27482)

• Calling __array_wrap__ directly on NumPy arrays or scalars now
  does the right thing when return_scalar is passed (Added in NumPy
  2). It is further safe now to call the scalar __array_wrap__ on a
  non-scalar result.

  (gh-27807)

• Bump the musllinux CI image and wheels to 1_2 from 1_1. This is because
  1_1 is end of life.

  (gh-27088)

• The NEP 50 promotion state settings are now removed. They were always
  meant as temporary means for testing. A warning will be given if the
  environment variable is set to anything but NPY_PROMOTION_STATE=weak
  while _set_promotion_state and _get_promotion_state are removed. In
  case code used _no_nep50_warning, a contextlib.nullcontext could be
  used to replace it when not available.

  (gh-27156)

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