I'm programming with Python 2.7.6 using numpy. I have this division between two numpy matrixes V/np.dot(W,H)
. Sometimes happens that the denominator has some cell values equal to 0, so i get a Runtime error. I would like to implement a safe division in a efficient way. How can i write a code that performs the Matrix division and for the elements where the denominator is equal to 0 puts 0 in the output Matrix?
3 Answers
Numpy actually allows you to set what you'd like to do in the case of a divide by zero error - see seterr. I believe this is a global flag, though - I'm not aware of a more localized solution - if it's an issue I suppose you can just set seterr before and after your safe division.
-
seterr
set toignore
will set the division by zero elements to inf. It would be nice if you could add a snippet that would change these value to zero as per OP's question.– lioriApr 13, 2014 at 14:08 -
1@Daryl seterr is global, but
errstate
is a context manager that lets you set the same things for a patch of code. Apr 13, 2014 at 17:46
Though you say "matrix", I assume you really want arrays since you want element-wise division. I would just do the division inside a context manager that suppresses the div0 errors. Then I would fix up the result.
# Assume V and D are arrays of the same shape
with np.errstate(divide='ignore'):
# division errors suppressed only within this block
quot = V / D
quot[D == 0] = 0
My gut tells me this is fast because it mostly keeps data in its original shape. But I have never compared it with alternative approaches.
-
this is a nice approach because it solves the global
seterr
problem. Nevertheless in my tests this approach (and also usingseterr
globally) are a little over 10% slower than the approach in my answer (including replacingnp.place
withD[D==0]=
as you suggested). My guess is that the floating point exceptions still have to be caught and discarded within the hardware.– TooToneApr 13, 2014 at 18:11 -
@TooTone I suspect you are correct about why Setting D is faster. The more important difference is that my solution keeps D unchanged, while yours corrects it to be consistent with the final result. Either approach might be better depending on the application. Apr 14, 2014 at 7:34
-
that's a good point. In this case it's ok to change
D
because it's a temporary calculated bydot
. But in general it won't be.– TooToneApr 14, 2014 at 11:32
Simply search for elements in the denominator that are zero and replace them with infinity.
D = np.dot(W,H)
D[D==0] = float('inf')
result = V / D
This approach is slower than a plain result = V / D
without checking for zeros using D[D==0] = float('inf')
, but it gets better with increasing matrix size. With a 30x30 matrix it takes three times as long, and with a 250x250 matrix it takes twice as long, and as n increases further it approaches 1.8 times as long. And it seems to be about 10% faster than changing the way that floating point exceptions are handled as per Daryl's answer and Adrian's answer.
One thing to bear in mind is that with floating point numbers and lack of precision you may have elements in the denominator that should be zero but aren't quite, and it's easy to incorporate that as follows
epsilon = 1e-8
D[np.abs(D)<epsilon] = float('inf')
-
Is
np.place(D, D==0, float('inf'))
faster thanD[D==0] = float('inf')
? Apr 13, 2014 at 17:44 -
@Adrian Ratnapala Good point! There's not a lot in it but if anything the
D[D==0]
way is a little faster. It's certainly simpler and I will change my answer: thankyou.– TooToneApr 13, 2014 at 17:51 -
I am just wondering why
.place
exists. I suppose it might be the "real" method, and the operator overload is just syntactic sugar which calls.place
whenever the index is a boolean array. Apr 13, 2014 at 18:02 -
@AdrianRatnapala it's allows you to assign a sequence of values across to a non-contiguous set of elements in the array (cycling through the values if necessary). It's more general than setting a single value-- I shouldn't have used it for this.– TooToneApr 13, 2014 at 18:07
-
I thought you could do that with binary-array subscripts too. At least you can with MATLAB, I might be making unwarranted assumptions about numpy. Apr 14, 2014 at 7:35
V=[[1 2 3][4 5 6]]
andnp.dot(W,H)=[[1 0 3][0 5 6]]
. I would like to have as result[[1 0 1][0 1 1]]
. I don't get how to do with seterr.