# Finding which rows have all elements as zeros in a matrix with numpy

I have a large `numpy` matrix `M`. Some of the rows of the matrix have all of their elements as zero and I need to get the indices of those rows. The naive approach I'm considering is to loop through each row in the matrix and then check each elements. However I think there's a better and a faster approach to accomplish this using `numpy`. I hope you can help!

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Here's one way. I assume numpy has been imported using `import numpy as np`.

``````In [20]: a
Out[20]:
array([[0, 1, 0],
[1, 0, 1],
[0, 0, 0],
[1, 1, 0],
[0, 0, 0]])

In [21]: np.where(~a.any(axis=1))[0]
Out[21]: array([2, 4])
``````

It's a slight variation of this answer: How to check that a matrix contains a zero column?

Here's what's going on:

The `any` method returns True if any value in the array is "truthy". Nonzero numbers are considered True, and 0 is considered False. By using the argument `axis=1`, the method is applied to each row. For the example `a`, we have:

``````In [32]: a.any(axis=1)
Out[32]: array([ True,  True, False,  True, False], dtype=bool)
``````

So each value indicates whether the corresponding row contains a nonzero value. The `~` operator is the binary "not" or complement:

``````In [33]: ~a.any(axis=1)
Out[33]: array([False, False,  True, False,  True], dtype=bool)
``````

To get the row indices, we use the `where` function. It returns the indices where its argument is True:

``````In [34]: np.where(~a.any(axis=1))
Out[34]: (array([2, 4]),)
``````

Note that `where` returned a tuple containing a single array. `where` works for n-dimensional arrays, so it always returns a tuple. We want the single array in that tuple.

``````In [35]: np.where(~a.any(axis=1))[0]
Out[35]: array([2, 4])
``````
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what does `~a` mean? –  Jack Twain May 18 '14 at 19:49
I wish if you can elaborate your answer more so I can understand what happened :) –  Jack Twain May 18 '14 at 19:49
also you forgot `numpy.where()`. You ommited `numpy` –  Jack Twain May 18 '14 at 19:50
I updated the answer with some details. –  Warren Weckesser May 18 '14 at 19:59