Shear a numpy array

Question

I'd like to 'shear' a numpy array. I'm not sure I'm using the term 'shear' correctly; by shear, I mean something like:

Shift the first column by 0 places
Shift the second column by 1 place
Shift the third colum by 2 places
etc...

So this array:

array([[11, 12, 13],
       [17, 18, 19],
       [35, 36, 37]])

would turn into either this array:

array([[11, 36, 19],
       [17, 12, 37],
       [35, 18, 13]])

or something like this array:

array([[11,  0,  0],
       [17, 12,  0],
       [35, 18, 13]])

depending on how we handle the edges. I'm not too particular about edge behavior.

Here's my attempt at a function that does this:

import numpy

def shear(a, strength=1, shift_axis=0, increase_axis=1, edges='clip'):
    strength = int(strength)
    shift_axis = int(shift_axis)
    increase_axis = int(increase_axis)
    if shift_axis == increase_axis:
        raise UserWarning("Shear can't shift in the direction it increases")
    temp = numpy.zeros(a.shape, dtype=int)
    indices = []
    for d, num in enumerate(a.shape):
        coords = numpy.arange(num)
        shape = [1] * len(a.shape)
        shape[d] = num
        coords = coords.reshape(shape) + temp
        indices.append(coords)
    indices[shift_axis] -= strength * indices[increase_axis]
    if edges == 'clip':
        indices[shift_axis][indices[shift_axis] < 0] = -1
        indices[shift_axis][indices[shift_axis] >= a.shape[shift_axis]] = -1
        res = a[indices]
        res[indices[shift_axis] == -1] = 0
    elif edges == 'roll':
        indices[shift_axis] %= a.shape[shift_axis]
        res = a[indices]
    return res

if __name__ == '__main__':
    a = numpy.random.random((3,4))
    print a
    print shear(a)

It seems to work. Please tell me if it doesn't!

It also seems clunky and inelegant. Am I overlooking a builtin numpy/scipy function that does this? Is there a cleaner/better/more efficient way to do this in numpy? Am I reinventing the wheel?

EDIT:
Bonus points if this works on an N-dimensional array, instead of just the 2D case.

This function will be at the very center of a loop I'll repeat many times in our data processing, so I suspect it's actually worth optimizing.

SECOND EDIT: I finally did some benchmarking. It looks like numpy.roll is the way to go, despite the loop. Thanks, tom10 and Sven Marnach!

Benchmarking code: (run on Windows, don't use time.clock on Linux I think)

import time, numpy

def shear_1(a, strength=1, shift_axis=0, increase_axis=1, edges='roll'):
    strength = int(strength)
    shift_axis = int(shift_axis)
    increase_axis = int(increase_axis)
    if shift_axis == increase_axis:
        raise UserWarning("Shear can't shift in the direction it increases")
    temp = numpy.zeros(a.shape, dtype=int)
    indices = []
    for d, num in enumerate(a.shape):
        coords = numpy.arange(num)
        shape = [1] * len(a.shape)
        shape[d] = num
        coords = coords.reshape(shape) + temp
        indices.append(coords)
    indices[shift_axis] -= strength * indices[increase_axis]
    if edges == 'clip':
        indices[shift_axis][indices[shift_axis] < 0] = -1
        indices[shift_axis][indices[shift_axis] >= a.shape[shift_axis]] = -1
        res = a[indices]
        res[indices[shift_axis] == -1] = 0
    elif edges == 'roll':
        indices[shift_axis] %= a.shape[shift_axis]
        res = a[indices]
    return res

def shear_2(a, strength=1, shift_axis=0, increase_axis=1, edges='roll'):
    indices = numpy.indices(a.shape)
    indices[shift_axis] -= strength * indices[increase_axis]
    indices[shift_axis] %= a.shape[shift_axis]
    res = a[tuple(indices)]
    if edges == 'clip':
        res[indices[shift_axis] < 0] = 0
        res[indices[shift_axis] >= a.shape[shift_axis]] = 0
    return res

def shear_3(a, strength=1, shift_axis=0, increase_axis=1):
    if shift_axis > increase_axis:
        shift_axis -= 1
    res = numpy.empty_like(a)
    index = numpy.index_exp[:] * increase_axis
    roll = numpy.roll
    for i in range(0, a.shape[increase_axis]):
        index_i = index + (i,)
        res[index_i] = roll(a[index_i], i * strength, shift_axis)
    return res

numpy.random.seed(0)
for a in (
    numpy.random.random((3, 3, 3, 3)),
    numpy.random.random((50, 50, 50, 50)),
    numpy.random.random((300, 300, 10, 10)),
    ):
    print 'Array dimensions:', a.shape
    for sa, ia in ((0, 1), (1, 0), (2, 3), (0, 3)):
        print 'Shift axis:', sa
        print 'Increase axis:', ia
        ref = shear_1(a, shift_axis=sa, increase_axis=ia)
        for shear, label in ((shear_1, '1'), (shear_2, '2'), (shear_3, '3')):
            start = time.clock()
            b = shear(a, shift_axis=sa, increase_axis=ia)
            end = time.clock()
            print label + ': %0.6f seconds'%(end-start)
            if (b - ref).max() > 1e-9:
                print "Something's wrong."
        print

Answer 1

The approach in tom10's answer can be extended to arbitrary dimensions:

def shear3(a, strength=1, shift_axis=0, increase_axis=1):
    if shift_axis > increase_axis:
        shift_axis -= 1
    res = numpy.empty_like(a)
    index = numpy.index_exp[:] * increase_axis
    roll = numpy.roll
    for i in range(0, a.shape[increase_axis]):
        index_i = index + (i,)
        res[index_i] = roll(a[index_i], -i * strength, shift_axis)
    return res

Answer 2

numpy roll does this. For example, if you original array is x then

for i in range(x.shape[1]):
    x[:,i] = np.roll(x[:,i], i)

produces

[[11 36 19]
 [17 12 37]
 [35 18 13]]