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The kwarray module implements a small set of pure-python extensions to numpy and torch.

Here is the complete API:

from .arrayapi import ArrayAPI
from . import distributions
from .algo_assignment import (maxvalue_assignment, mincost_assignment,
                              mindist_assignment,)
from .dataframe_light import (DataFrameArray, DataFrameLight, LocLight,)
from .fast_rand import (standard_normal, standard_normal32, standard_normal64,
                        uniform, uniform32,)
from .util_averages import (stats_dict,)
from .util_groups import (apply_grouping, group_consecutive,
                          group_consecutive_indices, group_indices,
                          group_items,)
from .util_numpy import (arglexmax, argmaxima, argminima, atleast_nd, boolmask,
                         isect_flags, iter_reduce_ufunc,)
from .util_random import (ensure_rng, random_combinations, random_product,
                          seed_global, shuffle,)
from .util_torch import (one_hot_embedding,)

The ArrayAPI

On of the most useful features in kwarray is the kwarray.ArrayAPI — a class that helps bridge between numpy and torch. This class consists of static methods that implement part of the numpy API and operate equivalently on either torch.Tensor or numpy.ndarray objects.

This works because every function call checks if the input is a torch tensor or a numpy array and then takes the appropriate action.

As you can imagine, it can be slow to validate your inputs on each function call. Therefore the recommended way of using the array API is via the kwarray.ArrayAPI.impl function. This function does the check once and then returns another object that directly performs the correct operations on subsequent data items of the same type.

The following example demonstrates both modes of usage.

import torch
import numpy as np
data1 = torch.rand(10, 10)
data2 = data1.numpy()
# Method 1: grab the appropriate sub-impl
impl1 = ArrayAPI.impl(data1)
impl2 = ArrayAPI.impl(data2)
result1 = impl1.sum(data1, axis=0)
result2 = impl2.sum(data2, axis=0)
assert np.all(impl1.numpy(result1) == impl2.numpy(result2))
# Method 2: choose the impl on the fly
result1 = ArrayAPI.sum(data1, axis=0)
result2 = ArrayAPI.sum(data2, axis=0)
assert np.all(ArrayAPI.numpy(result1) == ArrayAPI.numpy(result2))

Other Notes:

The kwarray.ensure_rng function helps you properly maintain and control local seeded random number generation. This means that you wont clobber the random state of another library / get your random state clobbered.

DataFrameArray and DataFrameLight implement a subset of the pandas API. They are less powerful, but orders of magnitude faster. The main drawback is that you lose loc, but iloc is available.

uniform32 and standard_normal32 are faster 32-bit random number generators (compared to their 64-bit numpy counterparts).

mincost_assignment is the Munkres / Hungarian algorithm. It solves the assignment problem.

one_hot_embedding is a fast numpy / torch way to perform the often needed OHE deep-learning trick.

group_items is a fast way to group a numpy array by another numpy array. For fine grained control we also expose group_indices, which groups the indices of a numpy array, and apply_grouping, which partitions a numpy array by those indices.

boolmask effectively inverts np.where.

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