numpy/tests/typing/reveal/fromnumeric.py


1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135

"""Tests for :mod:`numpy.core.fromnumeric`."""

import numpy as np

A = np.array(True, ndmin=2, dtype=bool)
B = np.array(1.0, ndmin=2, dtype=np.float32)
A.setflags(write=False)
B.setflags(write=False)

a = np.bool_(True)
b = np.float32(1.0)
c = 1.0

reveal_type(np.take(a, 0))  # E: numpy.bool_
reveal_type(np.take(b, 0))  # E: numpy.float32
reveal_type(
    np.take(c, 0)  # E: Union[numpy.generic, datetime.datetime, datetime.timedelta]
)
reveal_type(
    np.take(A, 0)  # E: Union[numpy.generic, datetime.datetime, datetime.timedelta]
)
reveal_type(
    np.take(B, 0)  # E: Union[numpy.generic, datetime.datetime, datetime.timedelta]
)
reveal_type(
    np.take(  # E: Union[Union[numpy.generic, datetime.datetime, datetime.timedelta], numpy.ndarray]
        A, [0]
    )
)
reveal_type(
    np.take(  # E: Union[Union[numpy.generic, datetime.datetime, datetime.timedelta], numpy.ndarray]
        B, [0]
    )
)

reveal_type(np.reshape(a, 1))  # E: numpy.ndarray
reveal_type(np.reshape(b, 1))  # E: numpy.ndarray
reveal_type(np.reshape(c, 1))  # E: numpy.ndarray
reveal_type(np.reshape(A, 1))  # E: numpy.ndarray
reveal_type(np.reshape(B, 1))  # E: numpy.ndarray

reveal_type(np.choose(a, [True, True]))  # E: numpy.bool_
reveal_type(np.choose(A, [True, True]))  # E: numpy.ndarray

reveal_type(np.repeat(a, 1))  # E: numpy.ndarray
reveal_type(np.repeat(b, 1))  # E: numpy.ndarray
reveal_type(np.repeat(c, 1))  # E: numpy.ndarray
reveal_type(np.repeat(A, 1))  # E: numpy.ndarray
reveal_type(np.repeat(B, 1))  # E: numpy.ndarray

# TODO: Add tests for np.put()

reveal_type(np.swapaxes(A, 0, 0))  # E: numpy.ndarray
reveal_type(np.swapaxes(B, 0, 0))  # E: numpy.ndarray

reveal_type(np.transpose(a))  # E: numpy.ndarray
reveal_type(np.transpose(b))  # E: numpy.ndarray
reveal_type(np.transpose(c))  # E: numpy.ndarray
reveal_type(np.transpose(A))  # E: numpy.ndarray
reveal_type(np.transpose(B))  # E: numpy.ndarray

reveal_type(np.partition(a, 0, axis=None))  # E: numpy.ndarray
reveal_type(np.partition(b, 0, axis=None))  # E: numpy.ndarray
reveal_type(np.partition(c, 0, axis=None))  # E: numpy.ndarray
reveal_type(np.partition(A, 0))  # E: numpy.ndarray
reveal_type(np.partition(B, 0))  # E: numpy.ndarray

reveal_type(np.argpartition(a, 0))  # E: numpy.integer
reveal_type(np.argpartition(b, 0))  # E: numpy.integer
reveal_type(np.argpartition(c, 0))  # E: numpy.ndarray
reveal_type(np.argpartition(A, 0))  # E: numpy.ndarray
reveal_type(np.argpartition(B, 0))  # E: numpy.ndarray

reveal_type(np.sort(A, 0))  # E: numpy.ndarray
reveal_type(np.sort(B, 0))  # E: numpy.ndarray

reveal_type(np.argsort(A, 0))  # E: numpy.ndarray
reveal_type(np.argsort(B, 0))  # E: numpy.ndarray

reveal_type(np.argmax(A))  # E: numpy.integer
reveal_type(np.argmax(B))  # E: numpy.integer
reveal_type(np.argmax(A, axis=0))  # E: Union[numpy.integer, numpy.ndarray]
reveal_type(np.argmax(B, axis=0))  # E: Union[numpy.integer, numpy.ndarray]

reveal_type(np.argmin(A))  # E: numpy.integer
reveal_type(np.argmin(B))  # E: numpy.integer
reveal_type(np.argmin(A, axis=0))  # E: Union[numpy.integer, numpy.ndarray]
reveal_type(np.argmin(B, axis=0))  # E: Union[numpy.integer, numpy.ndarray]

reveal_type(np.searchsorted(A[0], 0))  # E: numpy.integer
reveal_type(np.searchsorted(B[0], 0))  # E: numpy.integer
reveal_type(np.searchsorted(A[0], [0]))  # E: numpy.ndarray
reveal_type(np.searchsorted(B[0], [0]))  # E: numpy.ndarray

reveal_type(np.resize(a, (5, 5)))  # E: numpy.ndarray
reveal_type(np.resize(b, (5, 5)))  # E: numpy.ndarray
reveal_type(np.resize(c, (5, 5)))  # E: numpy.ndarray
reveal_type(np.resize(A, (5, 5)))  # E: numpy.ndarray
reveal_type(np.resize(B, (5, 5)))  # E: numpy.ndarray

reveal_type(np.squeeze(a))  # E: numpy.bool_
reveal_type(np.squeeze(b))  # E: numpy.float32
reveal_type(np.squeeze(c))  # E: numpy.ndarray
reveal_type(np.squeeze(A))  # E: numpy.ndarray
reveal_type(np.squeeze(B))  # E: numpy.ndarray

reveal_type(np.diagonal(A))  # E: numpy.ndarray
reveal_type(np.diagonal(B))  # E: numpy.ndarray

reveal_type(np.trace(A))  # E: Union[numpy.number, numpy.ndarray]
reveal_type(np.trace(B))  # E: Union[numpy.number, numpy.ndarray]

reveal_type(np.ravel(a))  # E: numpy.ndarray
reveal_type(np.ravel(b))  # E: numpy.ndarray
reveal_type(np.ravel(c))  # E: numpy.ndarray
reveal_type(np.ravel(A))  # E: numpy.ndarray
reveal_type(np.ravel(B))  # E: numpy.ndarray

reveal_type(np.nonzero(a))  # E: tuple[numpy.ndarray]
reveal_type(np.nonzero(b))  # E: tuple[numpy.ndarray]
reveal_type(np.nonzero(c))  # E: tuple[numpy.ndarray]
reveal_type(np.nonzero(A))  # E: tuple[numpy.ndarray]
reveal_type(np.nonzero(B))  # E: tuple[numpy.ndarray]

reveal_type(np.shape(a))  # E: tuple[builtins.int]
reveal_type(np.shape(b))  # E: tuple[builtins.int]
reveal_type(np.shape(c))  # E: tuple[builtins.int]
reveal_type(np.shape(A))  # E: tuple[builtins.int]
reveal_type(np.shape(B))  # E: tuple[builtins.int]

reveal_type(np.compress([True], a))  # E: numpy.ndarray
reveal_type(np.compress([True], b))  # E: numpy.ndarray
reveal_type(np.compress([True], c))  # E: numpy.ndarray
reveal_type(np.compress([True], A))  # E: numpy.ndarray
reveal_type(np.compress([True], B))  # E: numpy.ndarray