40

I tried to implement soft-max with the following code (out_vec is a numpy vector of floats):

numerator = np.exp(out_vec)
denominator = np.sum(np.exp(out_vec))
out_vec = numerator/denominator

However, I got an overflow error because of np.exp(out_vec). Therefore, I checked (manually) what the upper limit of np.exp() is, and found that np.exp(709) is a number, but np.exp(710) is considered to be np.inf. Thus, to try to avoid the overflow error, I modified my code as follows:

out_vec[out_vec > 709] = 709 #prevent np.exp overflow
numerator = np.exp(out_vec)
denominator = np.sum(np.exp(out_vec))
out_vec = numerator/denominator

Now, I get a different error:

RuntimeWarning: invalid value encountered in greater out_vec[out_vec > 709] = 709

What's wrong with the line I added? I looked up this specific error and all I found is people's advice on how to ignore the error. Simply ignoring the error won't help me, because every time my code encounters this error it does not give the usual results.

6
  • 2
    out_vec array contains NaN or Inf values?
    – kvorobiev
    Commented Jun 6, 2016 at 7:44
  • @kvorobiev do you know how I could catch the warning so I could check?
    – Cheshie
    Commented Jun 6, 2016 at 7:48
  • Try np.isnan(np.sum(out_vec))
    – kvorobiev
    Commented Jun 6, 2016 at 7:51
  • @kvorobiev yes, I meant how to actually catch it (I call this code thousands of times, I can't just print the output).
    – Cheshie
    Commented Jun 6, 2016 at 8:02
  • Please, see my answer
    – kvorobiev
    Commented Jun 6, 2016 at 8:13

4 Answers 4

37

Your problem is caused by the NaN or Inf elements in your out_vec array. You could use the following code to avoid this problem:

if np.isnan(np.sum(out_vec)):
    out_vec = out_vec[~numpy.isnan(out_vec)] # just remove nan elements from vector
out_vec[out_vec > 709] = 709
...

or you could use the following code to leave the NaN values in your array:

out_vec[ np.array([e > 709 if ~np.isnan(e) else False for e in out_vec], dtype=bool) ] = 709
1
  • 4
    Thanks @kvorobiev, but I can't do that - simply removing the elements will cause data loss...
    – Cheshie
    Commented Jun 6, 2016 at 8:32
14

In my case the warning did not show up when calling this before the comparison (I had NaN values getting compared)

np.warnings.filterwarnings('ignore')
4
  • 3
    There is no warnings module within numpy, this (np.warnings.filterwarnings('ignore')) is accessing the warnings package built into python's standard library which numpy happens to import. The code is equivalent to import warnings, warnings.filterwarnings('ignore'), and it will suppress all warnings generated by all code (not just numpy) unless you later re-enable warnings.
    – scottclowe
    Commented Jan 28, 2020 at 19:54
  • I did the warning suppression too with the warnings module but limited it to the few statements that needed it using: with np.warnings.filterwarnings('ignore'):
    – juerg
    Commented Jan 29, 2020 at 8:28
  • 4
    np.seterr(invalid='ignore') seems like a better option Commented Feb 21, 2020 at 20:59
  • If you want to go the whole hog, try np.seterr(all='raise') Commented May 5, 2020 at 3:21
8

IMO the better way would be to use a more numerically stable implementation of sum of exponentials.

from scipy.misc import logsumexp
out_vec = np.exp(out_vec - logsumexp(out_vec))
2

If this happens because of your NaN value, then this might help:

out_vec[~np.isnan(out_vec)] = out_vec[~np.isnan(out_vec)] > 709

This does the greater operation for none NaN values and the rest remains the same. If you need the rest to be False, then do this too:

out_vec[np.isnan(out_vec)] = False
1
  • This should be the best answer! Commented Mar 23, 2021 at 15:14

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