I've read the masked array documentation several times now, searched everywhere and feel thoroughly stupid. I can't figure out for the life in me how to apply a mask from one array to another.


import numpy as np

y = np.array([2,1,5,2])          # y axis
x = np.array([1,2,3,4])          # x axis
m = np.ma.masked_where(y>2, y)   # filter out values larger than 5
print m
[2 1 -- 2]
print np.ma.compressed(m)
[2 1 2]

So this works fine.... but to plot this y axis, I need a matching x axis. How do I apply the mask from the y array to the x array? Something like this would make sense, but produces rubbish:

new_x = x[m.mask].copy()

So, how on earth is that done (note the new x array needs to be a new array).


Well, it seems one way to do this works like this:

>>> import numpy as np
>>> x = np.array([1,2,3,4])
>>> y = np.array([2,1,5,2])
>>> m = np.ma.masked_where(y>2, y)
>>> new_x = np.ma.masked_array(x, m.mask)
>>> print np.ma.compressed(new_x)
[1 2 4]

But that's incredibly messy! I'm trying to find a solution as elegant as IDL...

  • Can't you just plot like plot(x, m) without making a new_x?
    – joris
    Commented May 11, 2013 at 8:40
  • 4
    And it is new_x = x[~m.mask].copy(). Note the ~, as the mask is True where the value is masked.
    – joris
    Commented May 11, 2013 at 8:41
  • 5
    Note that there is no need for .copy() in new_x = x[~m.mask].copy(). Indexing with a boolean array will always result in a copy, so this can be new_x = x[~m.mask]. Commented May 11, 2013 at 9:54
  • 5
    Do you really need to use mask here? Indexing over boolean array will give you what you want. new_y = y[y < 5] and new_x = x[y < 5].
    – Akavall
    Commented May 11, 2013 at 12:29
  • 3
    You can just assign that to a variable if you want to reuse it: mask = y < 5; m = y[mask]; new_x = x[mask]. In this way you avoid using masked arrays and keep it more simple and straight.
    – joris
    Commented May 11, 2013 at 15:29

3 Answers 3


I had a similar issue, but involving loads more masking commands and more arrays to apply them. My solution is that I do all the masking on one array and then use the finally masked array as the condition in the mask_where command.

For example:

y = np.array([2,1,5,2])                         # y axis
x = np.array([1,2,3,4])                         # x axis
m = np.ma.masked_where(y>5, y)                  # filter out values larger than 5
new_x = np.ma.masked_where(np.ma.getmask(m), x) # applies the mask of m on x

The nice thing is you can now apply this mask to many more arrays without going through the masking process for each of them.


Why not simply

import numpy as np

y = np.array([2,1,5,2])          # y axis
x = np.array([1,2,3,4])          # x axis
m = np.ma.masked_where(y>2, y)   # filter out values larger than 5
print list(m)
print np.ma.compressed(m)

# mask x the same way
m_ = np.ma.masked_where(y>2, x)   # filter out values larger than 5
# print here the list
print list(m_) 
print np.ma.compressed(m_)

code is for Python 2.x

Also, as proposed by joris, this do the work new_x = x[~m.mask].copy() giving an array

>>> new_x
array([1, 2, 4])
  • Good stuff also, thanks. I'm obviously new to Python and suffering my way through...
    – Balthasar
    Commented May 11, 2013 at 13:07
  • 9
    It may help your answers to avoid the words "simply," "just" etc. Commented Sep 21, 2017 at 12:42
  • What if x and y have different number of dimensions and I want to mask only on axis 0? Commented Oct 30, 2019 at 15:57

This may not bee 100% what OP wanted to know, but it's a cute little piece of code I use all the time - if you want to mask several arrays the same way, you can use this generalized function to mask a dynamic number of numpy arrays at once:

def apply_mask_to_all(mask, *arrays):
assert all([arr.shape == mask.shape for arr in arrays]), "All Arrays need to have the same shape as the mask"
return tuple([arr[mask] for arr in arrays])

See this example usage:

    # init 4 equally shaped arrays
x1 = np.random.rand(3,4)
x2 = np.random.rand(3,4)
x3 = np.random.rand(3,4)
x4 = np.random.rand(3,4)

# create a mask
mask = x1 > 0.8

# apply the mask to all arrays at once
x1, x2, x3, x4 = apply_mask_to_all(m, x1, x2, x3, x4)

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