# How do I find if two variables are approximately equals?

I am writing unit tests that verify calculations in a database and there is a lot of rounding and truncating and stuff that mean that sometimes figures are slightly off.

When verifying, I'm finding a lot of times when things will pass but say they fail - for instance, the figure will be 1 and I'm getting 0.999999

I mean, I could just round everything into an integer but since I'm using a lot of randomized samples, eventually i'm going to get something like this

10.5 10.4999999999

one is going to round to 10, the other will round to 11.

How should I solve this problem where I need something to be approximately correct?

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Define a tolerance value (or an epsilon), for instance, 0.00001, and then use to compare the difference like so:

``````if (Math.Abs(a - b) < epsilon)
// Then they are the same
``````

[You could use `Double.Epsilon` but you would have to use a multiplying factor.]

Better still, write an extension method to do the same. We have something like `Assert.AreSimiliar(a,b)` in our unit tests.

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correct, but this is a C# question, i.e., no abs function and you have Double.Epsilon. –  Ed S. Aug 6 '10 at 3:25
@Ed Swangren : pls see addition about size of Double.Epsilon –  Mitch Wheat Aug 6 '10 at 3:26
@Ed Swangren there is too an abs function: msdn.microsoft.com/en-us/library/system.math.abs.aspx Math.Abs(...) –  Muad'Dib Aug 6 '10 at 3:26
Yes, as in my example, there is "Math.Abs", there is no "abs" function as one may use in C++. –  Ed S. Aug 6 '10 at 3:29
Math.Abs(a - b) will never be less than Double.Epsilon (unless it is exactly 0), the best you could check for is something equal to this value. Double.Epsilon is by definition the smallest positive double value. –  user414076 Aug 6 '10 at 3:37

You could provide a function that includes a parameter for an acceptable difference between two values. For example

``````// close is good for horseshoes, hand grenades, nuclear weapons, and doubles
static bool CloseEnoughForMe(double value1, double value2, double acceptableDifference)
{
return Math.Abs(value1 - value2) <= acceptableDifference;
}
``````

And then call it

``````double value1 = 24.5;
double value2 = 24.4999;

bool equalValues = CloseEnoughForMe(value1, value2, 0.001);
``````

If you wanted to be slightly professional about it, you could call the function `ApproximatelyEquals` or something along those lines.

``````static bool ApproximatelyEquals(this double value1, double value2, double acceptableDifference)
``````
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+1 for a correct answer, +1 for suggesting an extension, -1 for not being snobby enough to use a Greek letter. :-) –  Steven Sudit Aug 6 '10 at 3:47
I'd call it `CloseEnoughForGovernmentWork()`, personally –  kyoryu Aug 6 '10 at 3:50

One way to compare floating point numbers is to compare how many floating point representations that separate them. This solution is indifferent to the size of the numbers and thus you don't have to worry about the size of "epsilon" mentioned in other answers.

A description of the algorithm can be found here (the AlmostEqual2sComplement function in the end) and here is my C# version of it.

``````public static class DoubleComparerExtensions
{
public static bool AlmostEquals(this double left, double right, long representationTolerance)
{
long leftAsBits = left.ToBits2Complement();
long rightAsBits = right.ToBits2Complement();
long floatingPointRepresentationsDiff = Math.Abs(leftAsBits - rightAsBits);
return (floatingPointRepresentationsDiff <= representationTolerance);
}

private static unsafe long ToBits2Complement(this double value)
{
double* valueAsDoublePtr = &value;
long* valueAsLongPtr = (long*)valueAsDoublePtr;
long valueAsLong = *valueAsLongPtr;
return valueAsLong < 0
? (long)(0x8000000000000000 - (ulong)valueAsLong)
: valueAsLong;
}
}
``````

If you'd like to compare floats, change all `double` to `float`, all `long` to `int` and `0x8000000000000000` to `0x80000000`.

With the `representationTolerance` parameter you can specify how big an error is tolerated. A higher value means a larger error is accepted. I normally use the value 10 as default.

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