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Spent a while this morning looking for a generalized question to point duplicates to for questions about as_strided and/or how to make generalized window functions. There seem to be a lot of questions on how to (safely) create patches, sliding windows, rolling windows, tiles, or views onto an array for machine learning, convolution, image processing and/or numerical integration.

I'm looking for a generalized function that can accept a window, step and axis parameter and return an as_strided view for over arbitrary dimensions. I will give my answer below, but I'm interested if anyone can make a more efficient method, as I'm not sure using np.squeeze() is the best method, I'm not sure my assert statements make the function safe enough to write to the resulting view, and I'm not sure how to handle the edge case of axis not being in ascending order.

DUE DILIGENCE

The most generalized function I can find is sklearn.feature_extraction.image.extract_patches written by @eickenberg (as well as the apparently equivalent skimage.util.view_as_windows), but those are not well documented on the net, and can't do windows over fewer axes than there are in the original array (for example, this question asks for a window of a certain size over just one axis). Also often questions want a numpy only answer.

@Divakar created a generalized numpy function for 1-d inputs here, but higher-dimension inputs require a bit more care. I've made a bare bones 2D window over 3d input method, but it's not very extensible.

  • Feel free to edit that first paragraph if you can think of any other buzzwords people might search for. – Daniel F Aug 30 '17 at 12:18
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Here's the recipe I have so far:

def window_nd(a, window, steps = None, axis = None, outlist = False):
    """
    Create a windowed view over `n`-dimensional input that uses an 
    `m`-dimensional window, with `m <= n`

    Parameters
    -------------
    a : Array-like
        The array to create the view on

    window : tuple or int
        If int, the size of the window in `axis`, or in all dimensions if 
        `axis == None`

        If tuple, the shape of the desired window.  `window.size` must be:
            equal to `len(axis)` if `axis != None`, else 
            equal to `len(a.shape)`, or 
            1

    steps : tuple, int or None
        The offset between consecutive windows in desired dimension
        If None, offset is one in all dimensions
        If int, the offset for all windows over `axis`
        If tuple, the steps along each `axis`.  
            `len(steps)` must me equal to `len(axis)`

    axis : tuple, int or None
        The axes over which to apply the window
        If None, apply over all dimensions
        if tuple or int, the dimensions over which to apply the window

    outlist : boolean
        If output should be as list of windows.  
        If False, it will be an array with 
            `a.nidim + 1 <= a_view.ndim <= a.ndim *2`.  
        If True, output is a list of arrays with `a_view[0].ndim = a.ndim`
            Warning: this is a memory-intensive copy and not a view

    Returns
    -------

    a_view : ndarray
        A windowed view on the input array `a`, or copied list of windows   

    """
    ashp = np.array(a.shape)

    if axis != None:
        axs = np.array(axis, ndmin = 1)
        assert np.all(np.in1d(axs, np.arange(ashp.size))), "Axes out of range"
    else:
        axs = np.arange(ashp.size)

    window = np.array(window, ndmin = 1)
    assert (window.size == axs.size) | (window.size == 1), "Window dims and axes don't match"
    wshp = ashp.copy()
    wshp[axs] = window
    assert np.all(wshp <= ashp), "Window is bigger than input array in axes"

    stp = np.ones_like(ashp)
    if steps:
        steps = np.array(steps, ndmin = 1)
        assert np.all(steps > 0), "Only positive steps allowed"
        assert (steps.size == axs.size) | (steps.size == 1), "Steps and axes don't match"
        stp[axs] = steps

    astr = np.array(a.strides)

    shape = tuple((ashp - wshp) // stp + 1) + tuple(wshp)
    strides = tuple(astr * stp) + tuple(astr)

    as_strided = np.lib.stride_tricks.as_strided
    a_view = np.squeeze(as_strided(a, 
                                 shape = shape, 
                                 strides = strides))
    if outlist:
        return list(a_view.reshape((-1,) + tuple(wshp)))
    else:
        return a_view

Some test cases:

a = np.arange(1000).reshape(10,10,10)

window_nd(a, 4).shape # sliding (4x4x4) window
Out: (7, 7, 7, 4, 4, 4)

window_nd(a, 2, 2).shape # (2x2x2) blocks
Out: (5, 5, 5, 2, 2, 2)

window_nd(a, 2, 1, 0).shape # sliding window of width 2 over axis 0
Out: (9, 2, 10, 10)

window_nd(a, 2, 2, (0,1)).shape # tiled (2x2) windows over first and second axes
Out: (5, 5, 2, 2, 10)

window_nd(a,(4,3,2)).shape  # arbitrary sliding window
Out: (7, 8, 9, 4, 3, 2)

window_nd(a,(4,3,2),(1,5,2),(0,2,1)).shape #arbitrary windows, steps and axis
Out: (7, 5, 2, 4, 2, 3) # note shape[-3:] != window as axes are out of order
  • Coincidentally been working on a very similar stuff (might be identical if I understand what it's supposed to accept for axis/window). Got a query - Can you show a sample run on shape for m < n case? – Divakar Aug 30 '17 at 13:28
  • Added some test cases – Daniel F Aug 30 '17 at 13:55
  • This makes sense! Thanks. Earlier I tried : window_nd(a, window=(3,2), axis=(0,1)) and was throwing error. And this is exact same task I have been working on too :) – Divakar Aug 30 '17 at 14:07

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