# c++ comparing two floating point values

I'm wondering what is the difference for comparing two double between this two manner :

``````double a1 = ...;
double a2 = ....;
``````
1. fabs(a1-a2) < epsilon
2. (fabs(a1-a2)/a2) < epsilon

Is there a prefering way to do that ?

thanks

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The "prefering way" heavily depends on the surrounding algorithm. Both have their use (and also the more verbose `fabs(a1 - a2) / min(a1, a2)` and `fabs(a1 - a2) / max(a1, a2)`, and especially `max(fabs(a1 - a2), fabs(a1 - a2) / a1)` when you don't know a priori if the numbers are close to zero or not). – Alexandre C. Feb 21 '11 at 9:51

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Added quote from linked article, hope you don't mind, feel free to rollback if you desire. – Binary Worrier Feb 21 '11 at 9:51
Great link. Thanks. – Alexandre C. Feb 21 '11 at 9:54
I worry that that quote is not really answering his question: I think he's aware of the precision issue, just asking why divide by a2. I considered quoting something originally, but I think the article is better left intact. I've rolled-back and edited to indicate the section most relevant. – Martin Stone Feb 21 '11 at 9:57

The former only compares the absolute values, whereas the second compares the relative values. Say that epsilon is set to `0.1`: this may be sufficient if `a1` and `a2` are largish. However, if both values are close to zero, the first way will consider most values equal.

It really depends on what kinds of values you are dealing with. Just be sure to consider the case `a2==0` if you use the somewhat more mathematically reasonable second case.

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This has already been pretty well addressed, but a few points are in order:

``````fabs(a1-a2) < epsilon
``````

is comparing the absolute difference between `a1` and `a2` to the tolerance `epsilon`. This may be appropriate if you know the scaling a priori (for example, if `a2` is actually a constant), but should generally be avoided if you don't know how big `a1` and `a2` are.

Your second option almost computes the relative difference, but has a bug; it should actually read:

``````fabs((a1-a2)/a2) < epsilon
``````

(note that the division is inside the absolute value; otherwise, this condition is useless for negative `a2`). Relative error is more correct for most uses, because it more closely mirrors the way floating-point rounding actually happens, but there are situations in which it does not work and you need to use an absolute tolerance (usually this is because of catastrophic cancellation). You also will sometimes see relative error bounds written in this form:

``````fabs(a1-a2) < fabs(a2)*epsilon
``````

which is often somewhat more efficient because it avoids a division.

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really like the last form, don't really understand in which case it doesn"t work – Guillaume07 Feb 21 '11 at 21:15
If my number are 10e-7 to 10e6 which epsilon value should I used ? – Guillaume07 Feb 22 '11 at 10:38
@Guillaume07: If the values are spread over that large of a range, you certainly want to use one of the relative error comparisons (the 2nd or 3rd options that I listed). The more subtle question is "how do I choose an appropriate value of epsilon?" – Stephen Canon Feb 22 '11 at 18:21
Note that when doing a relative difference epsilon comparison you should not just blindly divide by a2 (or a1). If you do that then you get asymmetries where compare(a,b) gives different results from compare(b,a). That would be bad. You need to consistently divide by the number with the largest or smallest absolute value. Something like this: auto largest = max(fabs(a1),fabs(a2)); return fabs(a1-a2) < fabs(largest)*epsilon; – Bruce Dawson Dec 29 '13 at 19:28