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In Numpy 1.4.1, what is the simplest or most efficient way of calculating the histogram of a masked array? numpy.histogram and pyplot.hist do count the masked elements, by default!

The only simple solution I can think of right now involves creating a new array with the non-masked value:


This is not very efficient, though, as this unnecessarily creates a new array. I'd be happy to read about better ideas!

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For what it's worth, this would probably be considered a bug in numpy.histogram. You should probably file a bug report and mention it on the mailing list. It's easily fixed by replacing asarray with asanyarray in the numpy.histogram sources. – Joe Kington Aug 31 '10 at 14:55
Joe, you might want to submit your comment as an answer: I might well mark it as the accepted answer, if confirmed by the Numpy developers. – EOL Sep 2 '10 at 7:41
I sent out a quick question to the list.… We'll see whether or not folks consider it a bug or not. It seems counter intuitive to me at the very least, though. – Joe Kington Sep 2 '10 at 19:56
For what it's worth, the general consensus was that it was intended behavior, and that such a fix would probably cause more problems than it would fix. E.g.:… – Joe Kington Sep 2 '10 at 23:36
Thank you, Joe. Can you summarize your comments in an answer. I'd like to mark it as the accepted answer because it shows that there is nothing better than tillsten's good solution. – EOL Sep 3 '10 at 8:09
up vote 12 down vote accepted

(Undeleting this as per discussion above...)

I'm not sure whether or not the numpy developers would consider this a bug or expected behavior. I asked on the mailing list, so I guess we'll see what they say.

Either way, it's an easy fix. Patching numpy/lib/ to use numpy.asanyarray rather than numpy.asarray on the inputs to the function will allow it to properly use masked arrays (or any other subclass of an ndarray) without creating a copy.

Edit: It seems like it is expected behavior. As discussed here:

If you want to ignore masked data it's just on extra function call


I don't think the fact that this makes an extra copy will be relevant, because I guess full masked array handling inside histogram will be a lot more expensive.

Using asanyarray would also allow matrices in and other subtypes that might not be handled correctly by the histogram calculations.

For anything else besides dropping masked observations, it would be necessary to figure out what the masked array definition of a histogram is, as Bruce pointed out.

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Thank you. One of the arguments against handling masked arrays in histograms is that if histograms handled masked values, one would have to decide how masked data with a masked array of weights should be treated. I don't think that there is any obviously better solution to this problem: it looks like histogram()'s features do not mix too well with masked input+weight arrays. – EOL Sep 7 '10 at 7:12

Try hist(m_arr.compressed()).

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This is a better idea than my m_arr[~m_arr.mask]. However, it does not solve the problem that a new array is unnecessarily corrected. – EOL Sep 2 '10 at 7:40
PS: "corrected" -> "created" – EOL Sep 2 '10 at 14:44

This is a super old question, but these days I just use:

numpy.histogram(m_arr, bins=.., range=.., density=False, weights=m_arr_mask)

Where m_arr_mask is an array with the same shape as m_arr, consisting of 0 values for elements of m_arr to be excluded from the histogram and 1 values for elements that are to be included.

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How well does that work for NaNs? – Mad Physicist Mar 18 at 12:33
Also, this won't work if you try to pass in a string for bins. Great answer aside from that. – Mad Physicist Mar 18 at 12:34

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