# averaging matrix efficiently

in Python, given an n x p matrix, e.g. 4 x 4, how can I return a matrix that's 4 x 2 that simply averages the first two columns and the last two columns for all 4 rows of the matrix?

e.g. given:

a = array([[1, 2, 3, 4], [5, 6, 7, 8], [9, 10, 11, 12], [13, 14, 15, 16]])

return a matrix that has the average of a[:, 0] and a[:, 1] and the average of a[:, 2] and a[:, 3]. I want this to work for an arbitrary matrix of n x p assuming that the number of columns I am averaging of n is obviously evenly divisible by n.

let me clarify: for each row, I want to take the average of the first two columns, then the average of the last two columns. So it would be:

1 + 2 / 2, 3 + 4 / 2 <- row 1 of new matrix 5 + 6 / 2, 7 + 8 / 2 <- row 2 of new matrix, etc.

which should yield a 4 by 2 matrix rather than 4 x 4.

thanks.

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you want a 4x2 matrix, but what you describe (with a[:,0], etc) sounds like it will be a 1x4 matrix –  Justin Peel Jun 4 '10 at 23:07

reshape - get mean - reshape

a.reshape(-1, a.shape[1]//2).mean(1).reshape(a.shape[0],-1)

array([[ 1.5, 3.5], [ 5.5, 7.5], [ 9.5, 11.5], [ 13.5, 15.5]])

is supposed to work for any array size, and reshape doesn't make a copy

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How about using some math? You can define a matrix `M = [[0.5,0],[0.5,0],[0,0.5],[0,0.5]]` so that `A*M` is what you want.

``````from numpy import array, matrix

A = array([[1, 2, 3, 4],
[5, 6, 7, 8],
[9, 10, 11, 12],
[13, 14, 15, 16]])
M = matrix([[0.5,0],
[0.5,0],
[0,0.5],
[0,0.5]])
print A*M
``````

Generating M is pretty simple too, entries are `1/n` or zero.

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Here's a way to do it. You only need to change `groupsize` to make it work with other sizes like you said, though I'm not fully sure what you want.

``````groupsize = 2
out = np.hstack([np.mean(x,axis=1,out=np.zeros((a.shape[0],1))) for x in np.hsplit(a,groupsize)])
``````

yields

``````array([[  1.5,   3.5],
[  5.5,   7.5],
[  9.5,  11.5],
[ 13.5,  15.5]])
``````

for `out`. Hopefully it gives you some ideas on how to do exactly what it is that you want to do. You can make `groupsize` dependent on the dimensions of `a` for instance.

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It's a bit unclear what should happen for matrices with n > 4, but this code will do what you want:

``````a = N.array([[1,2,3,4],[5,6,7,8],[9,10,11,12],[13,14,15,16]], dtype=float)
avg = N.vstack((N.average(a[:,0:2], axis=1), N.average(a[:,2:4], axis=1))).T
``````

This yields `avg =`

``````array([[  1.5,   3.5],
[  5.5,   7.5],
[  9.5,  11.5],
[ 13.5,  15.5]])
``````
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