Python numpy array negative indexing
You have this statement:
In [31]: x[0:-1]
This way of indexing means that "start at 1st row and go till the last row (excluded)". That's why we get the first row as a result.
Out[31]: array([[0, 1, 2, 3, 4]])
But, when you do:
In [31]: x[1:-1]
Out[31]: array([], shape=(0, 5), dtype=int64)
It's asking NumPy to "start at second row and not include the last row". Since here the second row is also the last row, it is excluded and we get an empty array as a result.
More information: There's nothing specific about using negative indexing such as -1
here. For instance, the following ways of indexing would also return empty arrays.
# asking to "start at first row and end at first row"
In [42]: x[0:0]
Out[42]: array([], shape=(0, 5), dtype=int64)
# asking to "start at second row and end at second row"
In [43]: x[1:1]
Out[43]: array([], shape=(0, 5), dtype=int64)
When it comes to indexing in Python/NumPy, it's always "left inclusive and right exclusive".
Here's something in plain Python (i.e. indexing a list
)
In [52]: lst = [1, 2]
In [53]: lst[1:-1]
Out[53]: [] # an empty list
Please note the construct of indexing which is: [start:stop:step]
If we start and stop at the same index, then we get nowhere and an empty data structure (array/list/tuple etc.) is returned as a result.
If you request a slice x[a:b]
, you will receive a section spanning from a
up to but not including b
. So if you slice x[1:-1]
, the resulting array will not include -1
, which happens to be the same as 1
in a (2,5)
array. Another example:
>>> import numpy as np
>>> x = np.arange(15)
>>> x.shape = (3,5)
>>> x
array([[0, 1, 2, 3, 4],
[5, 6, 7, 8, 9],
[10, 11, 12, 13, 14]])
>>> x[0:-1]
array([[0, 1, 2, 3, 4],
[5, 6, 7, 8, 9]])
>>> x[1:-1]
array([[5, 6, 7, 8, 9]])
The last operation above slices x
from row 1
up to (not including) the last row, which is just row 1
.