Is there a Boolean function to test whether an integer is an index value contained in a slice object? Without unpacking start, stop, step parameters?

3 in slice(1,6,2)

Throws an error as slices are not iterable.

The predicate should work for arbitrary None start, stop, step parameters. The logic is straightforward but hoping there's a built in or package.

  • 1
    Does it need to support negative indices? What is the desired output of 123 in slice(None, -1, None)?
    – Kevin
    Feb 22 '19 at 20:52

The logic is not as straightforward as you think, since it doesn't make sense to do this for a None stop or start (depending on the sign of step), since you need to specify a length.

Essentially, what you are asking for is containment in a range object, which holds the same information as a slice, but is a valid sequence, and supports fast containment checking. slice has an undocumented1 indices method to help with the transformation, if you provide the length of the sequence you are interested in slicing:

def in_slice(n, s, length):
    return n in range(*s.indices(length))

1 Except in the C API, which mentions PySlice_GetIndices and PySlice_GetIndicesEx methods. The python method also has a docstring which reads:

S.indices(len) -> (start, stop, stride)

Assuming a sequence of length len, calculate the start and stop indices, and the stride length of the extended slice described by S. Out of bounds indices are clipped in a manner consistent with the handling of normal slices.

This is mostly consistent with the documentation of PySlice_GetIndicesEx, so it is likely that one is a python interface for the other.


If you can select an appropriately sized range, you can apply the slice to it and determine if the index will be in the range.

for positive/None boundaries, this is merely a matter of having a big enough range to contain the index itself:

i in range(i+1)[slice(start,stop,step)]

3 in range(7)[slice(1,6,2)] --> True

In order to support negative boundaries (in particular a negative start), you'll need to ensure that index offset from start is a multiple of the step and that the size is small enough to include the index. This is under the assumption that there exists a range size that will contain the index. Otherwise you'll have to supply a range size yourself:

def inSlice(i,s, size = None):
    if size is None:
        step  = s.step  or 1
        start = s.start or 0
        size  = size or i+1
        if step < 0 or start <= 0:
           size = (i-min(0,start))//step*step - int(s.stop is None)
    return  i in range(size)[s]

This will provide the following results:

inSlice( 3 , slice(1, 6, 2) )           -->  True ( size = 4 )
inSlice( 37000216 , slice(10, 100000000, 3) )   -->  True ( size = 37000217 )
inSlice( 17 , slice(-100, 10, -3) )     -->  True ( size = 117 )
inSlice( 17 , slice(-100, -10, 3) )     -->  True ( size = 117 )
inSlice( 97 , slice(100, None, -3) )    -->  True ( size = 98 )
inSlice( 107 , slice(None, 100, -3) )   -->  True ( size = 108 )
inSlice( 97 , slice(-10, None, -3) )    -->  True ( size = 107 )

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