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I am trying to compare 2 doubles which fall in [0.0, 1.0].

My function (taken from http://stackoverflow.com/a/17341 )-

inline bool isEqual(double x, double y)
    const double epsilon = 0.000001;
    return fabs(x - y) < epsilon;


cerr << isEqual(1.000001, 1.000002) << endl;
cerr << isEqual(1.000010, 1.000020) << endl;

The output is-


Whereas I am expecting first to be true, second to be false. Please tell me where I am going wrong and how to fix it?

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You will always get rouding errors with floating-point. And even if it were exact precision, fabs(1.000001 - 1.000002) would be equal to 0.000001, not strictly less than it. –  gx_ Jun 20 '13 at 15:50
The function has the wrong name. It does not test for equality, and should be called nearly_equals or something along that line. –  Pete Becker Jun 20 '13 at 17:55

1 Answer 1

up vote 6 down vote accepted

1.000001 when limited to the usual 64-bit IEEE floating point representation is actually 1.0000009999999999177333620536956004798412. Likewise 1.000002 is actually 1.0000020000000000575113290324225090444087. The two are ever more slightly apart than 0.000001.

You can use a very slightly larger comparison value to catch this:

    const double epsilon = 0.0000011;

It really isn't possible to completely eliminate any rounding problems with floating point numbers.

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Thanks! That solved it. However I decided to solve problem with higher precision, and in end print answer with 5 digits of precision. –  Vinayak Garg Jun 20 '13 at 16:54
Anyway, doesn't epsilon = 0.000001 give you six digits of precision instead of five? –  Massa Jun 20 '13 at 17:15

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