# Remove mean from numpy matrix

I have a numpy matrix `A` where the data is organised column-vector-vise i.e `A[:,0]` is the first data vector, `A[:,1]` is the second and so on. I wanted to know whether there was a more elegant way to zero out the mean from this data. I am currently doing it via a `for` loop:

``````mean=A.mean(axis=1)
for k in range(A.shape[1]):
A[:,k]=A[:,k]-mean
``````

So does numpy provide a function to do this? Or can it be done more efficiently another way?

-

As is typical, you can do this a number of ways. Each of the approaches below works by adding a dimension to the `mean` vector, making it a 4 x 1 array, and then NumPy's broadcasting takes care of the rest. Each approach creates a view of `mean`, rather than a deep copy. The first approach (i.e., using `newaxis`) is likely preferred by most, but the other methods are included for the record.

In addition to the approaches below, see also ovgolovin's answer, which uses a NumPy matrix to avoid the need to reshape `mean` altogether.

For the methods below, we start with the following code and example array `A`.

``````import numpy as np

A = np.array([[1,2,3], [4,5,6], [7,8,9], [10, 11, 12]])
mean = A.mean(axis=1)
``````

# Using `numpy.newaxis`

``````>>> A - mean[:, np.newaxis]
array([[-1.,  0.,  1.],
[-1.,  0.,  1.],
[-1.,  0.,  1.],
[-1.,  0.,  1.]])
``````

# Using `None`

The documentation states that `None` can be used instead of `newaxis`. This is because

``````>>> np.newaxis is None
True
``````

Therefore, the following accomplishes the task.

``````>>> A - mean[:, None]
array([[-1.,  0.,  1.],
[-1.,  0.,  1.],
[-1.,  0.,  1.],
[-1.,  0.,  1.]])
``````

That said, `newaxis` is clearer and should be preferred. Also, a case can be made that `newaxis` is more future proof. See also: Numpy: Should I use newaxis or None?

# Using `ndarray.reshape`

``````>>> A - mean.reshape((mean.shape[0]), 1)
array([[-1.,  0.,  1.],
[-1.,  0.,  1.],
[-1.,  0.,  1.],
[-1.,  0.,  1.]])
``````

# Changing `ndarray.shape` directly

You can alternatively change the shape of `mean` directly.

``````>>> mean.shape = (mean.shape[0], 1)
>>> A - mean
array([[-1.,  0.,  1.],
[-1.,  0.,  1.],
[-1.,  0.,  1.],
[-1.,  0.,  1.]])
``````
-
it works, thanks! – pratikm Dec 7 '11 at 22:17
The usual way to express this kind of reshape in NumPy is to use `np.newaxis`: `A - mean[:, np.newaxis]`. – Sven Marnach Dec 7 '11 at 23:02
@SvenMarnach that's much more elegant, thanks! – pratikm Dec 8 '11 at 0:28
@SvenMarnach Updated the answer to use `np.newaxis`. Thanks for your input. – David Alber Dec 8 '11 at 1:19
Note that `None` can also be used (i.e., `A - mean[:, None]`, see documentation). This is because `numpy.newaxis` is `None`, but `np.newaxis` is clearer and is probably more future proof (also see stackoverflow.com/questions/944863/…). – David Alber Dec 8 '11 at 1:21

You can also use `matrix` instead of `array`. Then you won't need to reshape:

``````>>> A = np.matrix([[1,2,3], [4,5,6], [7,8,9], [10, 11, 12]])
>>> m = A.mean(axis=1)
>>> A - m
matrix([[-1.,  0.,  1.],
[-1.,  0.,  1.],
[-1.,  0.,  1.],
[-1.,  0.,  1.]])
``````
-
ah! This looks much easier...thanks! – pratikm Dec 7 '11 at 22:18
I didn't know matrices did that. +1. – Carl F. Dec 8 '11 at 2:30

Yes. `pylab.demean`:

``````In [1]: X = scipy.rand(2,3)

In [2]: X.mean(axis=1)
Out[2]: array([ 0.42654669,  0.65216704])

In [3]: Y = pylab.demean(X, axis=1)

In [4]: Y.mean(axis=1)
Out[4]: array([  1.85037171e-17,   0.00000000e+00])
``````

Source:

``````In [5]: pylab.demean??
Type:           function
Base Class:     <type 'function'>
String Form:    <function demean at 0x38492a8>
Namespace:      Interactive
File:           /usr/lib/pymodules/python2.7/matplotlib/mlab.py
Definition:     pylab.demean(x, axis=0)
Source:
def demean(x, axis=0):
"Return x minus its mean along the specified axis"
x = np.asarray(x)
if axis == 0 or axis is None or x.ndim <= 1:
return x - x.mean(axis)
ind = [slice(None)] * x.ndim
ind[axis] = np.newaxis
return x - x.mean(axis)[ind]
``````
-
this is wonderful! Thanks! – pratikm Dec 9 '11 at 22:21
You're welcome! – Steve Tjoa Dec 9 '11 at 23:57
Steve, could you please also add the modules that you imported? – pratikm Dec 10 '11 at 2:22
In this answer, only `scipy` and `pylab`. – Steve Tjoa Dec 10 '11 at 2:28