Update numpy to 2.4.0

[pyup-bot]

This PR updates numpy from 2.3.5 to 2.4.0.

Changelog

2.4.0

The NumPy 2.4.0 release continues the work to improve free threaded Python
support, user dtypes implementation, and annotations. There are many expired
deprecations and bug fixes as well.

This release supports Python versions 3.11-3.14

Highlights

Apart from annotations and `same_value` kwarg, the 2.4 highlights are mostly
of interest to downstream developers. They should help in implementing new user
dtypes.

- Many annotation improvements. In particular, runtime signature introspection.
- New `casting` kwarg `'same_value'` for casting by value.
- New `PyUFunc_AddLoopsFromSpec` function that can be used to add user sort
loops using the `ArrayMethod` API.
- New `__numpy_dtype__` protocol.

Deprecations

Setting the `strides` attribute is deprecated

Setting the strides attribute is now deprecated since mutating
an array is unsafe if an array is shared, especially by multiple
threads. As an alternative, you can create a new view (no copy) via:

- `np.lib.stride_tricks.strided_window_view` if applicable,
- `np.lib.stride_tricks.as_strided` for the general case,
- or the `np.ndarray` constructor (`buffer` is the original array) for a
light-weight version.

([gh-28925](https://github.com/numpy/numpy/pull/28925))

Positional `out` argument to `np.maximum`, `np.minimum` is deprecated

Passing the output array `out` positionally to `numpy.maximum` and
`numpy.minimum` is deprecated. For example, `np.maximum(a, b, c)` will emit
a deprecation warning, since `c` is treated as the output buffer rather than
a third input.

Always pass the output with the keyword form, e.g. `np.maximum(a, b, out=c)`.
This makes intent clear and simplifies type annotations.

([gh-29052](https://github.com/numpy/numpy/pull/29052))

`align=` must be passed as boolean to `np.dtype()`

When creating a new `dtype` a `VisibleDeprecationWarning` will be given if
`align=` is not a boolean. This is mainly to prevent accidentally passing a
subarray align flag where it has no effect, such as `np.dtype("f8", 3)`
instead of `np.dtype(("f8", 3))`. We strongly suggest to always pass
`align=` as a keyword argument.

([gh-29301](https://github.com/numpy/numpy/pull/29301))

Assertion and warning control utilities are deprecated

`np.testing.assert_warns` and `np.testing.suppress_warnings` are
deprecated. Use `warnings.catch_warnings`, `warnings.filterwarnings`,
`pytest.warns`, or `pytest.filterwarnings` instead.

([gh-29550](https://github.com/numpy/numpy/pull/29550))

`np.fix` is pending deprecation

The `numpy.fix` function will be deprecated in a future release. It is
recommended to use `numpy.trunc` instead, as it provides the same
functionality of truncating decimal values to their integer parts. Static type
checkers might already report a warning for the use of `numpy.fix`.

([gh-30168](https://github.com/numpy/numpy/pull/30168))

in-place modification of `ndarray.shape` is pending deprecation

Setting the `ndarray.shape` attribute directly will be deprecated in a future
release. Instead of modifying the shape in place, it is recommended to use the
`numpy.reshape` function. Static type checkers might already report a
warning for assignments to `ndarray.shape`.

([gh-30282](https://github.com/numpy/numpy/pull/30282))

Deprecation of `numpy.lib.user_array.container`

The `numpy.lib.user_array.container` class is deprecated and will be removed
in a future version.

([gh-30284](https://github.com/numpy/numpy/pull/30284))

Expired deprecations

Removed deprecated `MachAr` runtime discovery mechanism.

([gh-29836](https://github.com/numpy/numpy/pull/29836))

Raise `TypeError` on attempt to convert array with `ndim > 0` to scalar

Conversion of an array with `ndim > 0` to a scalar was deprecated in NumPy
1.25. Now, attempting to do so raises `TypeError`. Ensure you extract a
single element from your array before performing this operation.

([gh-29841](https://github.com/numpy/numpy/pull/29841))

Removed numpy.linalg.linalg and numpy.fft.helper

The following were deprecated in NumPy 2.0 and have been moved to private
modules:

- `numpy.linalg.linalg`
Use `numpy.linalg` instead.
- `numpy.fft.helper`
Use `numpy.fft` instead.

([gh-29909](https://github.com/numpy/numpy/pull/29909))

Removed `interpolation` parameter from quantile and percentile functions

The `interpolation` parameter was deprecated in NumPy 1.22.0 and has been
removed from the following functions:

- `numpy.percentile`
- `numpy.nanpercentile`
- `numpy.quantile`
- `numpy.nanquantile`

Use the `method` parameter instead.

([gh-29973](https://github.com/numpy/numpy/pull/29973))

Removed `numpy.in1d`

`numpy.in1d` has been deprecated since NumPy 2.0 and is now removed in favor of `numpy.isin`.

([gh-29978](https://github.com/numpy/numpy/pull/29978))

Removed `numpy.ndindex.ndincr()`

The `ndindex.ndincr()` method has been deprecated since NumPy 1.20 and is now
removed; use `next(ndindex)` instead.

([gh-29980](https://github.com/numpy/numpy/pull/29980))

Removed `fix_imports` parameter from `numpy.save`

The `fix_imports` parameter was deprecated in NumPy 2.1.0 and is now removed.
This flag has been ignored since NumPy 1.17 and was only needed to support
loading files in Python 2 that were written in Python 3.

([gh-29984](https://github.com/numpy/numpy/pull/29984))

Removal of four undocumented `ndarray.ctypes` methods

Four undocumented methods of the `ndarray.ctypes` object have been removed:

- `_ctypes.get_data()` (use `_ctypes.data` instead)
- `_ctypes.get_shape()` (use `_ctypes.shape` instead)
- `_ctypes.get_strides()` (use `_ctypes.strides` instead)
- `_ctypes.get_as_parameter()` (use `_ctypes._as_parameter_` instead)

These methods have been deprecated since NumPy 1.21.

([gh-29986](https://github.com/numpy/numpy/pull/29986))

Removed `newshape` parameter from `numpy.reshape`

The `newshape` parameter was deprecated in NumPy 2.1.0 and has been
removed from `numpy.reshape`. Pass it positionally or use `shape=`
on newer NumPy versions.

([gh-29994](https://github.com/numpy/numpy/pull/29994))

Removal of deprecated functions and arguments

The following long-deprecated APIs have been removed:

- `numpy.trapz` --- deprecated since NumPy 2.0 (2023-08-18). Use `numpy.trapezoid` or
`scipy.integrate` functions instead.
- `disp` function --- deprecated from 2.0 release and no longer functional. Use
your own printing function instead.
- `bias` and `ddof` arguments in `numpy.corrcoef` --- these had no effect
since NumPy 1.10.

([gh-29997](https://github.com/numpy/numpy/pull/29997))

Removed `delimitor` parameter from `numpy.ma.mrecords.fromtextfile()`

The `delimitor` parameter was deprecated in NumPy 1.22.0 and has been
removed from `numpy.ma.mrecords.fromtextfile()`. Use `delimiter` instead.

([gh-30021](https://github.com/numpy/numpy/pull/30021))

`numpy.array2string` and `numpy.sum` deprecations finalized

The following long-deprecated APIs have been removed or converted to errors:

- The `style` parameter has been removed from `numpy.array2string`.
This argument had no effect since Numpy 1.14.0. Any arguments following
it, such as `formatter` have now been made keyword-only.
- Calling `np.sum(generator)` directly on a generator object now raises a
`TypeError`. This behavior was deprecated in NumPy 1.15.0. Use
`np.sum(np.fromiter(generator))` or the python `sum` builtin instead.

([gh-30068](https://github.com/numpy/numpy/pull/30068))

Compatibility notes

- NumPy\'s C extension modules have begun to use multi-phase initialisation, as
defined by PEP 489. As part of this, a new explicit check has been added that
each such module is only imported once per Python process. This comes with
the side-effect that deleting `numpy` from `sys.modules` and re-importing
it will now fail with an `ImportError`. This has always been unsafe, with
unexpected side-effects, though did not previously raise an error.

([gh-29030](https://github.com/numpy/numpy/pull/29030))

- `numpy.round` now always returns a copy. Previously, it returned a view
for integer inputs for `decimals >= 0` and a copy in all other cases.
This change brings `round` in line with `ceil`, `floor` and `trunc`.

([gh-29137](https://github.com/numpy/numpy/pull/29137))

- Type-checkers will no longer accept calls to `numpy.arange` with
`start` as a keyword argument. This was done for compatibility with
the Array API standard. At runtime it is still possible to use
`numpy.arange` with `start` as a keyword argument.

([gh-30147](https://github.com/numpy/numpy/pull/30147))

- The Macro NPY_ALIGNMENT_REQUIRED has been removed The macro was defined in
the `npy_cpu.h` file, so might be regarded as semi public. As it turns out,
with modern compilers and hardware it is almost always the case that
alignment is required, so numpy no longer uses the macro. It is unlikely
anyone uses it, but you might want to compile with the `-Wundef` flag or
equivalent to be sure.

([gh-29094](https://github.com/numpy/numpy/pull/29094))

C API changes

The NPY_SORTKIND enum has been enhanced with new variables

This is of interest if you are using `PyArray_Sort` or `PyArray_ArgSort`.
We have changed the semantics of the old names in the `NPY_SORTKIND` enum and
added new ones. The changes are backward compatible, and no recompilation is
needed. The new names of interest are:

- `NPY_SORT_DEFAULT` \-- default sort (same value as `NPY_QUICKSORT`)
- `NPY_SORT_STABLE` \-- the sort must be stable (same value as `NPY_MERGESORT`)
- `NPY_SORT_DESCENDING` \-- the sort must be descending

The semantic change is that `NPY_HEAPSORT` is mapped to `NPY_QUICKSORT` when used.
Note that `NPY_SORT_DESCENDING` is not yet implemented.

([gh-29642](https://github.com/numpy/numpy/pull/29642))

New `NPY_DT_get_constant` slot for DType constant retrieval

A new slot `NPY_DT_get_constant` has been added to the DType API, allowing
dtype implementations to provide constant values such as machine limits and
special values. The slot function has the signature:

 int get_constant(PyArray_Descr *descr, int constant_id, void *ptr)

It returns 1 on success, 0 if the constant is not available, or -1 on error.
The function is always called with the GIL held and may write to unaligned memory.

Integer constants (marked with the `1 << 16` bit) return `npy_intp` values,
while floating-point constants return values of the dtype\'s native type.

Implementing this can be used by user DTypes to provide `numpy.finfo` values.

([gh-29836](https://github.com/numpy/numpy/pull/29836))

A new `PyUFunc_AddLoopsFromSpecs` convenience function has been added to the C API.

This function allows adding multiple ufunc loops from their specs in one call
using a NULL-terminated array of `PyUFunc_LoopSlot` structs. It allows
registering sorting and argsorting loops using the new ArrayMethod API.

([gh-29900](https://github.com/numpy/numpy/pull/29900))

New Features

- Let `np.size` accept multiple axes.

([gh-29240](https://github.com/numpy/numpy/pull/29240))

- Extend `numpy.pad` to accept a dictionary for the `pad_width` argument.

([gh-29273](https://github.com/numpy/numpy/pull/29273))

`'same_value'` for casting by value

The `casting` kwarg now has a `'same_value'` option that checks the actual
values can be round-trip cast without changing value. Currently it is only
implemented in `ndarray.astype`. This will raise a `ValueError` if any of the
values in the array would change as a result of the cast, including rounding of
floats or overflowing of ints.

([gh-29129](https://github.com/numpy/numpy/pull/29129))

`StringDType` fill_value support in `numpy.ma.MaskedArray`

Masked arrays now accept and preserve a Python `str` as their `fill_value`
when using the variable‑width `StringDType` (kind `'T'`), including through
slicing and views. The default is `'N/A'` and may be overridden by any valid
string. This fixes issue [gh‑29421](https://github.com/numpy/numpy/issues/29421)
and was implemented in pull request [gh‑29423](https://github.com/numpy/numpy/pull/29423).

([gh-29423](https://github.com/numpy/numpy/pull/29423))

`ndmax` option for `numpy.array`

The `ndmax` option is now available for `numpy.array`.
It explicitly limits the maximum number of dimensions created from nested sequences.

This is particularly useful when creating arrays of list-like objects with `dtype=object`.
By default, NumPy recurses through all nesting levels to create the highest possible
dimensional array, but this behavior may not be desired when the intent is to preserve
nested structures as objects. The `ndmax` parameter provides explicit control over
this recursion depth.

python
Default behavior: Creates a 2D array
>>> a = np.array([[1, 2], [3, 4]], dtype=object)
>>> a
array([[1, 2],
    [3, 4]], dtype=object)
>>> a.shape
(2, 2)

With ndmax=1: Creates a 1D array
>>> b = np.array([[1, 2], [3, 4]], dtype=object, ndmax=1)
>>> b
array([list([1, 2]), list([3, 4])], dtype=object)
>>> b.shape
(2,)


([gh-29569](https://github.com/numpy/numpy/pull/29569))

Warning emitted when using `where` without `out`

Ufuncs called with a `where` mask and without an `out` positional or kwarg will
now emit a warning. This usage tends to trip up users who expect some value in
output locations where the mask is `False` (the ufunc will not touch those
locations). The warning can be suppressed by using `out=None`.

([gh-29813](https://github.com/numpy/numpy/pull/29813))

DType sorting and argsorting supports the ArrayMethod API

User-defined dtypes can now implement custom sorting and argsorting using the
`ArrayMethod` API. This mechanism can be used in place of the
`PyArray_ArrFuncs` slots which may be deprecated in the future.

The sorting and argsorting methods are registered by passing the arraymethod
specs that implement the operations to the new `PyUFunc_AddLoopsFromSpecs`
function. See the `ArrayMethod` API documentation for details.

([gh-29900](https://github.com/numpy/numpy/pull/29900))

New `__numpy_dtype__` protocol

NumPy now has a new `__numpy_dtype__` protocol. NumPy will check
for this attribute when converting to a NumPy dtype via `np.dtype(obj)`
or any `dtype=` argument.

Downstream projects are encouraged to implement this for all dtype like
objects which may previously have used a `.dtype` attribute that returned
a NumPy dtype.
We expect to deprecate `.dtype` in the future to prevent interpreting
array-like objects with a `.dtype` attribute as a dtype.
If you wish you can implement `__numpy_dtype__` to ensure an earlier
warning or error (`.dtype` is ignored if this is found).

([gh-30179](https://github.com/numpy/numpy/pull/30179))

Improvements

Fix `flatiter` indexing edge cases

The `flatiter` object now shares the same index preparation logic as
`ndarray`, ensuring consistent behavior and fixing several issues where
invalid indices were previously accepted or misinterpreted.

Key fixes and improvements:

- Stricter index validation

- Boolean non-array indices like `arr.flat[[True, True]]` were
 incorrectly treated as `arr.flat[np.array([1, 1], dtype=int)]`.
 They now raise an index error. Note that indices that match the
 iterator\'s shape are expected to not raise in the future and be
 handled as regular boolean indices. Use `np.asarray(<index>)` if
 you want to match that behavior.
- Float non-array indices were also cast to integer and incorrectly
 treated as `arr.flat[np.array([1.0, 1.0], dtype=int)]`. This is now
 deprecated and will be removed in a future version.
- 0-dimensional boolean indices like `arr.flat[True]` are also
 deprecated and will be removed in a future version.

- Consistent error types:

Certain invalid `flatiter` indices that previously raised `ValueError`
now correctly raise `IndexError`, aligning with `ndarray` behavior.

- Improved error messages:

The error message for unsupported index operations now provides more
specific details, including explicitly listing the valid index types,
instead of the generic `IndexError: unsupported index operation`.

([gh-28590](https://github.com/numpy/numpy/pull/28590))

Improved error handling in `np.quantile`

[np.quantile]{.title-ref} now raises errors if:

- All weights are zero
- At least one weight is `np.nan`
- At least one weight is `np.inf`

([gh-28595](https://github.com/numpy/numpy/pull/28595))

Improved error message for `assert_array_compare`

The error message generated by `assert_array_compare` which is used by functions
like `assert_allclose`, `assert_array_less` etc. now also includes information
about the indices at which the assertion fails.

([gh-29112](https://github.com/numpy/numpy/pull/29112))

Show unit information in `__repr__` for `datetime64("NaT")`

When a `datetime64` object is \"Not a Time\" (NaT), its `__repr__` method now
includes the time unit of the datetime64 type. This makes it consistent with
the behavior of a `timedelta64` object.

([gh-29396](https://github.com/numpy/numpy/pull/29396))

Performance increase for scalar calculations

The speed of calculations on scalars has been improved by about a factor 6 for
ufuncs that take only one input (like `np.sin(scalar)`), reducing the speed
difference from their `math` equivalents from a factor 19 to 3 (the speed
for arrays is left unchanged).

([gh-29819](https://github.com/numpy/numpy/pull/29819))

`numpy.finfo` Refactor

The `numpy.finfo` class has been completely refactored to obtain floating-point
constants directly from C compiler macros rather than deriving them at runtime.
This provides better accuracy, platform compatibility and corrected
several attribute calculations:

- Constants like `eps`, `min`, `max`, `smallest_normal`, and
`smallest_subnormal` now come directly from standard C macros (`FLT_EPSILON`,
`DBL_MIN`, etc.), ensuring platform-correct values.
- The deprecated `MachAr` runtime discovery mechanism has been removed.
- Derived attributes have been corrected to match standard definitions:
`machep` and `negep` now use `int(log2(eps))`; `nexp` accounts for
all exponent patterns; `nmant` excludes the implicit bit; and `minexp`
follows the C standard definition.
- longdouble constants, Specifically `smallest_normal` now follows the
C standard definitions as per respecitive platform.
- Special handling added for PowerPC\'s IBM double-double format.
- New test suite added in `test_finfo.py` to validate all
`finfo` properties against expected machine arithmetic values for
float16, float32, and float64 types.

([gh-29836](https://github.com/numpy/numpy/pull/29836))

Multiple axes are now supported in `numpy.trim_zeros`

The `axis` argument of `numpy.trim_zeros` now accepts a sequence; for example
`np.trim_zeros(x, axis=(0, 1))` will trim the zeros from a multi-dimensional
array `x` along axes 0 and 1. This fixes issue
[gh‑29945](https://github.com/numpy/numpy/issues/29945) and was implemented
in pull request [gh‑29947](https://github.com/numpy/numpy/pull/29947).

([gh-29947](https://github.com/numpy/numpy/pull/29947))

Runtime signature introspection support has been significantly improved

Many NumPy functions, classes, and methods that previously raised
`ValueError` when passed to `inspect.signature()` now return meaningful
signatures. This improves support for runtime type checking, IDE autocomplete,
documentation generation, and runtime introspection capabilities across the
NumPy API.

Over three hundred classes and functions have been updated in total, including,
but not limited to, core classes such as `ndarray`, `generic`, `dtype`,
`ufunc`, `broadcast`, `nditer`, etc., most methods of `ndarray` and
scalar types, array constructor functions (`array`, `empty`, `arange`,
`fromiter`, etc.), all `ufuncs`, and many other commonly used functions,
including `dot`, `concat`, `where`, `bincount`, `can_cast`, and
numerous others.

([gh-30208](https://github.com/numpy/numpy/pull/30208))

Performance improvements and changes

Performance improvements to `np.unique` for string dtypes

The hash-based algorithm for unique extraction provides an order-of-magnitude
speedup on large string arrays. In an internal benchmark with about 1 billion
string elements, the hash-based np.unique completed in roughly 33.5 seconds,
compared to 498 seconds with the sort-based method -- about 15× faster for
unsorted unique operations on strings. This improvement greatly reduces the
time to find unique values in very large string datasets.

([gh-28767](https://github.com/numpy/numpy/pull/28767))

Rewrite of `np.ndindex` using `itertools.product`

The `numpy.ndindex` function now uses `itertools.product` internally,
providing significant improvements in performance for large iteration spaces,
while maintaining the original behavior and interface. For example, for an
array of shape (50, 60, 90) the NumPy `ndindex` benchmark improves
performance by a factor 5.2.

([gh-29165](https://github.com/numpy/numpy/pull/29165))

Performance improvements to `np.unique` for complex dtypes

The hash-based algorithm for unique extraction now also supports
complex dtypes, offering noticeable performance gains.

In our benchmarks on complex128 arrays with 200,000 elements,
the hash-based approach was about 1.4--1.5× faster
than the sort-based baseline when there were 20% of unique values,
and about 5× faster when there were 0.2% of unique values.

([gh-29537](https://github.com/numpy/numpy/pull/29537))

Changes

- Multiplication between a string and integer now raises OverflowError instead
of MemoryError if the result of the multiplication would create a string that
is too large to be represented. This follows Python\'s behavior.

([gh-29060](https://github.com/numpy/numpy/pull/29060))

- The accuracy of `np.quantile` and `np.percentile` for 16- and 32-bit
floating point input data has been improved.

([gh-29105](https://github.com/numpy/numpy/pull/29105))

`unique_values` for string dtypes may return unsorted data

np.unique now supports hash‐based duplicate removal for string dtypes.
This enhancement extends the hash-table algorithm to byte strings (\'S\'),
Unicode strings (\'U\'), and the experimental string dtype (\'T\', StringDType).
As a result, calling np.unique() on an array of strings will use
the faster hash-based method to obtain unique values.
Note that this hash-based method does not guarantee that the returned unique values will be sorted.
This also works for StringDType arrays containing None (missing values)
when using equal_nan=True (treating missing values as equal).

([gh-28767](https://github.com/numpy/numpy/pull/28767))

Modulate dispatched x86 CPU features

**IMPORTANT**: The default setting for `cpu-baseline` on x86 has been raised
to `x86-64-v2` microarchitecture. This can be changed to none during build
time to support older CPUs, though SIMD optimizations for pre-2009 processors
are no longer maintained.

NumPy has reorganized x86 CPU features into microarchitecture-based groups
instead of individual features, aligning with Linux distribution standards and
Google Highway requirements.

Key changes:

- Replaced individual x86 features with microarchitecture levels: `X86_V2`,
`X86_V3`, and `X86_V4`
- Raised the baseline to `X86_V2`
- Improved `-` operator behavior to properly exclude successor features that
imply the excluded feature
- Added meson redirections for removed feature names to maintain backward
compatibility
- Removed compiler compatibility workarounds for partial feature support (e.g.,
AVX512 without mask operations)
- Removed legacy AMD features (XOP, FMA4) and discontinued Intel Xeon Phi
support

New Feature Group Hierarchy:

Name           Implies        Includes
-------------- -------------- ------------------------------------------------------------------------------------------------------------------
`X86_V2`                      `SSE` `SSE2` `SSE3` `SSSE3` `SSE4_1` `SSE4_2` `POPCNT` `CX16` `LAHF`
`X86_V3`       `X86_V2`       `AVX` `AVX2` `FMA3` `BMI` `BMI2` `LZCNT` `F16C` `MOVBE`
`X86_V4`       `X86_V3`       `AVX512F` `AVX512CD` `AVX512VL` `AVX512BW` `AVX512DQ`
`AVX512_ICL`   `X86_V4`       `AVX512VBMI` `AVX512VBMI2` `AVX512VNNI` `AVX512BITALG` `AVX512VPOPCNTDQ` `AVX512IFMA` `VAES` `GFNI` `VPCLMULQDQ`
`AVX512_SPR`   `AVX512_ICL`   `AVX512FP16`

These groups correspond to CPU generations:

- `X86_V2`: x86-64-v2 microarchitectures (CPUs since 2009)
- `X86_V3`: x86-64-v3 microarchitectures (CPUs since 2015)
- `X86_V4`: x86-64-v4 microarchitectures (AVX-512 capable CPUs)
- `AVX512_ICL`: Intel Ice Lake and similar CPUs
- `AVX512_SPR`: Intel Sapphire Rapids and newer CPUs

On 32-bit x86, `cx16` is excluded from `X86_V2`.

Documentation has been updated with details on using these new feature groups
with the current meson build system.

([gh-28896](https://github.com/numpy/numpy/pull/28896))

Fix bug in `matmul` for non-contiguous out kwarg parameter

In some cases, if `out` was non-contiguous, `np.matmul` would cause memory
corruption or a c-level assert. This was new to v2.3.0 and fixed in v2.3.1.

([gh-29179](https://github.com/numpy/numpy/pull/29179))

`__array_interface__` with NULL pointer changed

The array interface now accepts NULL pointers (NumPy will do its own dummy
allocation, though). Previously, these incorrectly triggered an undocumented
scalar path. In the unlikely event that the scalar path was actually desired,
you can (for now) achieve the previous behavior via the correct scalar path by
not providing a `data` field at all.

([gh-29338](https://github.com/numpy/numpy/pull/29338))

`unique_values` for complex dtypes may return unsorted data

np.unique now supports hash‐based duplicate removal for complex dtypes. This
enhancement extends the hash‐table algorithm to all complex types (\'c\'), and
their extended precision variants. The hash‐based method provides faster
extraction of unique values but does not guarantee that the result will be
sorted.

([gh-29537](https://github.com/numpy/numpy/pull/29537))

Sorting `kind='heapsort'` now maps to `kind='quicksort'`

It is unlikely that this change will be noticed, but if you do see a change in
execution time or unstable argsort order, that is likely the cause. Please let
us know if there is a performance regression. Congratulate us if it is improved
:)

([gh-29642](https://github.com/numpy/numpy/pull/29642))

`numpy.typing.DTypeLike` no longer accepts `None`

The type alias `numpy.typing.DTypeLike` no longer accepts `None`. Instead of

python
dtype: DTypeLike = None


it should now be

python
dtype: DTypeLike | None = None


instead.

([gh-29739](https://github.com/numpy/numpy/pull/29739))

The `npymath` and `npyrandom` libraries now have a `.lib` rather than a
`.a` file extension on win-arm64, for compatibility for building with MSVC
and `setuptools`. Please note that using these static libraries is
discouraged and for existing projects using it, it\'s best to use it with a
matching compiler toolchain, which is `clang-cl` on Windows on Arm.

([gh-29750](https://github.com/numpy/numpy/pull/29750))

Links

• PyPI: https://pypi.org/project/numpy
• Changelog: https://data.safetycli.com/changelogs/numpy/