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I want to be able to compare two doubles disregarding a possible precision loss. Is there a method already that handles this case?

If not, is there a threshold/guideline to know how much is an adequate equivalence between two doubles?

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2 Answers 2

up vote 6 down vote accepted

The threshold is completely dependent to the problem itself. For some problems, you might consider 1.001 equal to 1.002 and for some problems, you might need a much smaller threshold.

The general techique is:

Math.Abs(a - b) < some_epsilon    // `a` is roughly equivalent to `b`
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This is good, but picking a reasonable value for some_epsilon is tricky. –  Reed Copsey Jul 29 '09 at 20:52
Indeed it's tricky; and no general recommendation works. Personally, I've experienced its trickiness in ACM/ICPC geometry questions and those that require binary searching the solution space. –  Mehrdad Afshari Jul 29 '09 at 20:56

A very good, thorough option for this is:

public static bool DoubleEquality(double a, double b) 
    const double epsilonValue = 1e-15;
    if (double.IsNaN(a))
        return double.IsNaN(b);
    else if (double.IsInfinity(a))
        return double.IsInfinity(b);
    else if (a == 0) 
        return b == 0;
        return Math.Abs(a - b) <= Math.Abs(a * epsilonValue);

Note that Double.Epsilon is NOT a good epsilon value for this. This creates an epsilon that scales somewhat with the magnitude of your first value, which helps quite a bit.

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+1, but perhaps worth noting the difference in your function to standard equality (NaN != NaN) –  ShuggyCoUk Jul 30 '09 at 10:41
oh and do you want Positive and Negative infinity to be considered equal? –  ShuggyCoUk Jul 30 '09 at 10:42
Yeah - it's easy to add some extra checks, depending on your conditions. I've also taken out the 0 check at times, although that requires changing the last line slightly. (Currently, 0!=1e-20, which you may want to be equal). –  Reed Copsey Jul 30 '09 at 16:21

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