# Numpy sum over planes of 3d array, return a scalar

I'm making the transition from MATLAB to Numpy and feeling some growing pains.

I have a 3D array, lets say it's 3x3x3 and I want the scalar sum of each plane. In matlab, I would use:

``````sum_vec = sum(3dArray,3);
``````

TIA wbg

EDIT: I was wrong about my matlab code. Matlab only vectorizes in one dim, so a loop wold be required. So numpy turns out to be more elegant...cool.

``````MATLAB
for i = 1:3
sum_vec(i) = sum(sum(3dArray(:,:,i));
end
``````
-

You should use the `axis` keyword in `np.sum`. Like in many other numpy functions, `axis` lets you perform the operation along a specific axis. For example, if you want to sum along the last dimension of the array, you would do:

``````import numpy as np
sum_vec = np.sum(3dArray, axis=-1)
``````

And you'll get a resulting 2D array which corresponds to the sum along the last dimension to all the array slices `3dArray[i, k, :]`.

UPDATE

I didn't understand exactly what you wanted. You want to sum over two dimensions (a plane). In this case you can do two sums. For example, summing over the first two dimensions:

``````sum_vec = np.sum(np.sum(3dArray, axis=0), axis=0)
``````
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Thanks for responding. I need to be more clear. I would like a vector of scalars, for each plane in the 3dArray, where each scalar is the sum of the entire plane. Therefore, for a 3x3x3 array I would have sum_vec = ([43, 123, 455]) –  wbg Nov 25 '12 at 21:40
@wbg so you want to do the sum twice (your matlab code does not do that as well). On new numpy you can (will be) able to do `array.sum((1,2))` as well, to directly sum along two axes at once. –  seberg Nov 25 '12 at 21:47
yeah, you're right...! that's sad, I've been doing regular python for awhile, forgot that matlab only vectorizes in one dim, thus a 3d array must be looped. –  wbg Nov 25 '12 at 21:54
@wbg, right. I updated the answer to now sum over the planes. –  tiago Nov 25 '12 at 22:35

You can do

``````sum_vec = np.array([plane.sum() for plane in cube])
``````

or simply

``````sum_vec = cube.sum(-1).sum(-1)
``````

where `cube` is your 3d array. You can specify `0` or `1` instead of `-1` (or `2`) depending on the orientation of the planes. The latter version is also better because it doesn't use a Python loop, which usually helps to improve performance when using `numpy`.

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That's it...I'm totally in matlab mode....I assumed there was a shorter command, but your snippet is pretty intuitive.Thanks everyone. –  wbg Nov 25 '12 at 21:49
@wbg seberg mentions that a shorter command will be available in newer versions of `numpy`, which is nice. –  Lev Levitsky Nov 25 '12 at 21:51