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If I have an array like this:

a = np.array([[ 1, 2, 3, 4],
              [ 5 ,6, 7, 8],
              [ 9,10,11,12],

I want to 'change the resolution', and end up with a smaller array, (say 2 rows by 2 cols, or 2 rows by 4 cols, etc.). I want this resolution change to happen through summation. I need this to work with large arrays, the number of rows, cols of the smaller array will always be a factor of the larger array.

Reducing the above array to a 2 by 2 array would result in (which is what I want):

[[ 14.  22.]
 [ 46.  54.]]

I have this function that does it fine:

import numpy as np

def shrink(data, rows, cols):
    shrunk = np.zeros((rows,cols))
    for i in xrange(0,rows):
        for j in xrange(0,cols):
            row_sp = data.shape[0]/rows
            col_sp = data.shape[1]/cols
            zz = data[i*row_sp : i*row_sp + row_sp, j*col_sp : j*col_sp + col_sp]
            shrunk[i,j] = np.sum(zz)
    return shrunk

print shrink(a,2,2)
print shrink(a,2,1)
#correct output:
[[ 14.  22.]
 [ 46.  54.]]
[[  36.]
 [ 100.]]

I've had a long look through the examples, but can't seem to find anything that helps.

Is there a faster way to do this, without needing the loops?

share|improve this question
If it works fine, what is your question? – Niek de Klein May 21 '12 at 13:00
@Niek de Klein - edited to clarify. I'm after a faster method to do this. – fraxel May 21 '12 at 13:04
People wanting to do this kind of stuff tend to use the itertools module, it might be worth taking a look. – heltonbiker May 21 '12 at 13:09
This question may find better answers at – George Cummins May 21 '12 at 13:13
up vote 14 down vote accepted

With your example:



array([[14, 22],
       [46, 54]])

Now let's create a general function…

def shrink(data, rows, cols):
    return data.reshape(rows, data.shape[0]/rows, cols, data.shape[1]/cols).sum(axis=1).sum(axis=2)

works for your examples:

In [19]: shrink(a, 2,2)
array([[14, 22],
       [46, 54]])

In [20]: shrink(a, 2,1)
array([[ 36],
share|improve this answer
This is amazingly "Numpythonic". – heltonbiker May 21 '12 at 13:12
(+1) Clever!... – NPE May 21 '12 at 13:19
Exactly what i was looking for thanks! – fraxel May 21 '12 at 14:48
@eumiro you got a small mistake in function definition, you use a instead of data. – Bitwise Jul 9 '13 at 15:10

I'm sure there is a better/smarter approach without all these horrendous loops...

Here is one way to avoid explicitly looping over every element of data:

def shrink(data, rows, cols):
  row_sp = a.shape[0] / rows
  col_sp = a.shape[1] / cols
  tmp = np.sum(data[i::row_sp] for i in  xrange(row_sp))
  return np.sum(tmp[:,i::col_sp] for i in xrange(col_sp))

On my machine, this is about 30% faster than your version (for shrink(a, 2, 2)).

share|improve this answer
+1 thanks very much, cool way of doing it, but eumiro nailed this one. – fraxel May 21 '12 at 14:48

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