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How can I improve the speed of this function?

def foo(mri_data, radius):

    mask = mri_data.copy()

    ny = len(mri_data[0,:])
    nx = len(mri_data[:])

    for y in xrange(0, ny):
        for x in xrange(0, nx):
            if (mri_data[x-radius:x+radius,y-radius:y+radius] != 1.0).all():
                mask[x,y] = 0.0                    
    return mask.copy() 

It takes in image slices in the form of a numpy array. Iterates through each pixels and tests a bounding box around that pixel. If no values in the box are equal to 1 than we discard that pixel by setting it to 0.

I've been told I can use numpy.convolve but I am uncertain how this relates.

EDIT: The images values are in binary range so lowest value is 0.0 and max value is 1.0. With values in between ex: 0.767.

share|improve this question
Be careful with the edges. If you have e.g. radius=3 and mri_data = np.arange(8) then your first window is mri_data[-3:3] which returns an empty array... – Jaime Feb 7 '13 at 19:57
up vote 3 down vote accepted

One of the cases where you can abuse convolution. I wouldn't use it, but the boundaries are otherwise tedious...

from scipy.ndimage import convolve

not_one = (mri_data != 1.0) # are you sure you want to compare with float like that?!

conv = convolve(not_one, np.ones((2*radius, 2*radius)))
all_not_one = (conv == (2*radius)**2)

mask[all_not_one] = 0

Should do the same thing really...

share|improve this answer

What you're doing is called a binary_dilation but there is a small bug in your code. Specifically you're getting negative indices when x, y are smaller than radius. These negative numbers are interpreted using numpy indexing rules, which is not what you want here more on indexing here, giving you the wrong result on two edges of your image.

Here is some code that uses binary dilation to accomplish the same thing, and fix the above mentioned bug.

import numpy as np
from scipy.ndimage import binary_dilation

def foo(mri_data, radius):
    structure = np.ones((2*radius, 2*radius))
    # I set the origin here to match your code
    mask = binary_dilation(mri_data == 1, structure, origin=-1)
    return np.where(mask, mri_data, 0)
share|improve this answer
Thanks Bi Rico. I was unaware that this sort of threshold I made was already a filter. I will have to try your solution as well. – David Hassan Feb 7 '13 at 20:56

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