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I'm currently writing some code where I have something along the lines of:

double a = SomeCalculation1();
double b = SomeCalculation2();

if (a < b)
else if (a > b)

And then in other places I may need to do equality:

double a = SomeCalculation3();
double b = SomeCalculation4();

if (a == 0.0)
   DoSomethingUseful(1 / a);
if (b == 0.0)
   return 0; // or something else here

In short, I have lots of floating point math going on and I need to do various comparisons for conditions. I can't convert it to integer math because such a thing is meaningless in this context.

I've read before that floating point comparisons can be unreliable, since you can have things like this going on:

double a = 1.0 / 3.0;
double b = a + a + a;
if (a != b)
    Console.WriteLine("Oh no!");

In short, I'd like to know: How can I reliably compare floating point numbers (less than, greater than, equality)?

The number range I am using is roughly from 10E-14 to 10E6, so I do need to work with small numbers as well as large.

I've tagged this as language agnostic because I'm interested in how I can accomplish this no matter what language I'm using.

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There is no way to do this reliably when using floating point numbers. There will always be numbers that for the computer are equal though in reality are not (say 1E+100, 1E+100+1), and you will also usually have calculation results that to the computer are not equal though in reality are (see one of the comments to nelhage's answer). You will have to choose which of the two you desire less. –  toochin Feb 6 '11 at 20:21
On the other hand, if you, say, only deal with rational numbers, you might implement some rational number arithmetic based on integer numbers and then two numbers are considered equal if one of the two numbers can be cancelled down to the other one. –  toochin Feb 6 '11 at 20:24
Well, currently I'm working a simulation. The place I'm usually doing these comparisons is related to variable time steps (for solving some ode). There's a few instances where I need to check if the given time step for one object is equal to, less than, or greater than another object's time step. –  Mike Bantegui Feb 6 '11 at 20:27

9 Answers 9

up vote 28 down vote accepted

Comparing for greater/smaller is not really a problem unless you're working right at the edge of the float/double precision limit.

For a "fuzzy equals" comparison, this (Java code, should be easy to adapt) is what I came up with for The Floating-Point Guide after a lot of work and taking into account lots of criticism:

public static boolean nearlyEqual(float a, float b, float epsilon) {
    final float absA = Math.abs(a);
    final float absB = Math.abs(b);
    final float diff = Math.abs(a - b);

    if (a == b) { // shortcut, handles infinities
        return true;
    } else if (a == 0 || b == 0 || diff < Float.MIN_NORMAL) {
        // a or b is zero or both are extremely close to it
        // relative error is less meaningful here
        return diff < (epsilon * Float.MIN_NORMAL);
    } else { // use relative error
        return diff / (absA + absB) < epsilon;

It comes with a test suite. You should immediately dismiss any solution that doesn't, because it is virtually guaranteed to fail in some edge cases like having one value 0, two very small values opposite of zero, or infinities.

An alternative (see link above for more details) is to convert the floats' bit patterns to integer and accept everything within a fixed integer distance.

In any case, there probably isn't any solution that is perfect for all applications. Ideally, you'd develop/adapt your own with a test suite covering your actual use cases.

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This "two very small values opposite of zero" only applies to denormalized numbers, doesn't it? –  toochin Feb 6 '11 at 20:46
@toochin: depends on how large a margin of error you want to allow for, but it becomes most obviously a problem when you consider the denormalized number closest to zero, positive and negative - apart from zero, these are closer together than any other two values, yet many naive implementations based on relative error will consider them to be too far apart. –  Michael Borgwardt Feb 6 '11 at 20:53
Another question, why not return diff < epsilon*the_smallest_normalized_fp_number in case a*b == 0? –  toochin Feb 6 '11 at 21:10
@toochin: well, that might be a better choice than mine, but it's still somewhat arbitrary. If it really matters, you should decide according to the actual application's requirements. –  Michael Borgwardt Feb 6 '11 at 22:24
Hmm. You have a test else if (a * b == 0), but then your comment on the same line is a or b or both are zero. But aren't these two different things? E.g., if a == 1e-162 and b == 2e-162 then the condition a * b == 0 will be true. –  Mark Dickinson Feb 7 '11 at 7:53

I had the problem of Comparing floating point numbers A < B and A > B Here is what seems to work:

if(A - B < Epsilon) && (fabs(A-B) > Epsilon)
    printf("A is less than B");

if (A - B > Epsilon) && (fabs(A-B) > Epsilon)
    printf("A is greater than B");

The fabs--absolute value-- takes care of if they are essentially equal.

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The standard advice is to use some small "epsilon" value (chosen depending on your application, probably), and consider floats that are within epsilon of each other to be equal. e.g. something like

#define EPSILON 0.00000001

if ((a - b) < EPSILON && (b - a) < EPSILON) {
  printf("a and b are about equal\n");

A more complete answer is complicated, because floating point error is extremely subtle and confusing to reason about. If you really care about equality in any precise sense, you're probably seeking a solution that doesn't involve floating point.

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What if he is working with really small floating point numbers, like 2.3E-15 ? –  toochin Feb 6 '11 at 19:30
I'm working with a range of roughly [10E-14, 10E6], not quite machine epsilon but very close to it. –  Mike Bantegui Feb 6 '11 at 19:40
Working with small numbers is not a problem if you keep in mind that you have to work with relative errors. If you don't care about relatively large error tolerances, the above would be OK if you'd replace it the condition with something like if ((a - b) < EPSILON/a && (b - a) < EPSILON/a) –  toochin Feb 6 '11 at 19:46
The code given above is also problematic when you deal with very large numbers c, because once your number is large enough, the EPSILON will be smaller than the machine precision of c. E.g. suppose c = 1E+22; d=c/3; e=d+d+d;. Then e-c may well be considerably greater than 1. –  toochin Feb 6 '11 at 19:54
For examples, try double a = pow(8,20); double b = a/7; double c = b+b+b+b+b+b+b; std::cout<<std::scientific<<a-c; (a and c not equal according to pnt and nelhage), or double a = pow(10,-14); double b = a/2; std::cout<<std::scientific<<a-b; (a and b equal according to pnt and nelhage) –  toochin Feb 6 '11 at 20:15

We have to choose a tolerance level to compare float numbers. For example,

final float TOLERANCE = 0.00001;
if (Math.abs(f1 - f2) < TOLERANCE)
    Console.WriteLine("Oh yes!");

One note. Your example is rather funny.

double a = 1.0 / 3.0;
double b = a + a + a;
if (a != b)
    Console.WriteLine("Oh no!");

Some maths here
a = 1/3
b = 1/3 + 1/3 + 1/3 = 1.

1/3 != 1
Oh, yes..

Do you mean

if (b != 1)
    Console.WriteLine("Oh no!")
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The best way to compare doubles for equality/inequality is by taking the absolute value of their difference and comparing it to a small enough (depending on your context) value.

double eps = 0.000000001; //for instance

double a = someCalc1();
double b = someCalc2();

double diff = Math.abs(a - b);
if (diff < eps) {
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I tried writing an equality function with the above comments in mind. Here's what I came up with:

Edit: Change from Math.Max(a, b) to Math.Max(Math.Abs(a), Math.Abs(b))

static bool fpEqual(double a, double b)
    double diff = Math.Abs(a - b);
    double epsilon = Math.Max(Math.Abs(a), Math.Abs(b)) * Double.Epsilon;
    return (diff < epsilon);

Thoughts? I still need to work out a greater than, and a less than as well.

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epsilon should be Math.abs(Math.Max(a, b)) * Double.Epsilon;, or it will always be smaller than diff for negative a and b. And I think your epsilon is too small, the function might not return anything different from the == operator. Greater than is a < b && !fpEqual(a,b). –  toochin Feb 6 '11 at 20:30
Fails when both values are exactly zero, fails for Double.Epsilon and -Double.Epsilon, fails for infinities. –  Michael Borgwardt Feb 6 '11 at 20:38
The case of infinities isn't a concern in my particular application, but is duely noted. –  Mike Bantegui Feb 6 '11 at 21:18

Adaptation to PHP from Michael Borgwardt & bosonix's answer:

class Comparison
    const MIN_NORMAL = 1.17549435E-38;  //from Java Specs

    // from http://floating-point-gui.de/errors/comparison/
    public function nearlyEqual($a, $b, $epsilon = 0.000001)
        $absA = abs($a);
        $absB = abs($b);
        $diff = abs($a - $b);

        if ($a == $b) {
            return true;
        } else {
            if ($a == 0 || $b == 0 || $diff < self::MIN_NORMAL) {
                return $diff < ($epsilon * self::MIN_NORMAL);
            } else {
                return $diff / ($absA + $absB) < $epsilon;
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$float_val = 4.5;
$float_val = round($float_val);

now you do comparison , it will work now

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You need to take into account that the truncation error is a relative one. Two numbers are about equal if their difference is about as large as their ulp (Unit in the last place).

However, if you do floating point calculations, your error potential goes up with every operation (esp. careful with subtractions!), so your error tolerance needs to increase accordingly.

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