# Is it safe when compare 2 float/double directly in Java?

Is it safe if I use comparision like this (a is int, b and c is float/double):

``````a == b
b == c
``````

It may hear ridiculous, but in my old programing language, sometimes 1 + 2 == 3 is false (because left side returns 2.99999999999...). And, what about this:

``````Math.sqrt(b) == Math.sqrt(c)
b / 3 == 10 / 3 //In case b = 10, does it return true?
``````
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If 1.0 + 2.0 != 3.0, regardless of precision, your computer is broken. Now if 0.1 + 0.2 != 0.3, that makes more sense. –  cHao Nov 14 '11 at 9:17

In general, no it is not safe due to the fact that so many decimal numbers cannot be precisely represented as `float` or `double` values. The often stated solution is test if the difference between the numbers is less than some "small" value (often denoted by a greek 'epsilon' character in the maths literature).

However - you need to be a bit careful how you do the test. For instance, if you write:

``````if (Math.abs(a - b) < 0.000001) {
System.err.println("equal");
}
``````

where `a` and `b` are supposed to be "the same", you are testing the absolute error. If you do this, you can get into trouble if `a` and `b` are (say_ `1,999,999.99` and `2,000,000.00` respectively. The difference between these two numbers is less than the smallest representable value at that scale for a `float`, and yet it is much bigger than our chosen epsilon.

Arguably, a better approach is to use the relative error; e.g. coded (defensively) as

``````if (a == b ||
Math.abs(a - b) / Math.max(Math.abs(a), Math.abs(b)) < 0.000001) {
System.err.println("close enough to be equal");
}
``````

But even this is not the complete answer, because it does not take account of the way that certain calculations cause the errors to build up to unmanageable proportions. Take a look at this Wikipedia link for more details.

The bottom line is that dealing with errors in floating point calculations is a lot more difficult than it appears at first glance.

The other point to note is (as others have explained) integer arithmetic behaves very differently to floating point arithmetic in a couple of respects:

• integer division will truncate if the result is not integral
• integer addition subtraction and multiplication will overflow.

Both of these happen without any warning, either at compile time or at runtime.

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An absolutely perfect answer! Thank you very much! –  DatVM Jul 22 '11 at 7:00

You do need to exercise some care.

``````1.0 + 2.0 == 3.0
``````

is true because integers are exactly representable.

``````Math.sqrt(b) == Math.sqrt(c)
``````

if b == c.

``````b / 3.0 == 10.0 / 3.0
``````

if b == 10.0 which is what I think you meant.

The last two examples compare two different instances of the same calculation. When you have different calculations with non representable numbers then exact equality testing fails.

If you are testing the results of a calculation that is subject to floating point approximation then equality testing should be done up to a tolerance.

Do you have any specific real world examples? I think you will find that it is rare to want to test equality with floating point.

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Yes, it may be rare, but when I made a school score calculator program in VB.NET, 1 + 2 sudden return 2.99999, which make all logic become false. And rare is unacceptable here. –  DatVM Jul 22 '11 at 6:25
since 1 and 2 are representable that is hard to explain. –  David Heffernan Jul 22 '11 at 6:28
Actually, 2 come from 10 / 5 (exactly 10 / 5), but somehow, Double in VB.NET return 1.9999999 so when + 1, it is 2.9999999999999. –  DatVM Jul 22 '11 at 6:30
Whilst you are wise to be cautious about how floating point works, you should not be paranoid. `10.0/5.0` results in `2.0`, represented exactly in VB.NET and every other environment based on IEEE754 floating point. What's more `1.0+2.0==3.0` in such environments. It's important to know what you can do as well as what you can't do, and where the boundaries lie. –  David Heffernan Jul 22 '11 at 8:05
Well, I'm not very sure about 5, I just sure that `2` is the result of a division of `10` with a `number` (comes from a function that other teammate does, not me), and in theory/algorithm, it should be integer (although the return type is double). So maybe the problem come from that function. –  DatVM Jul 22 '11 at 9:07
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`b / 3 != 10 / 3` - if b is a floating point variable like `b = 10.0f`, so b / 3 is 3.3333, while 10 / 3 is integer division, so is equal to 3.

If `b == c`, then `Math.sqrt(b) == Math.sqrt(c)` - this is because the sqrt function returns double anyways.

In general, you shouldn't be comparing doubles/floats for equation, because they are floating point numbers so you might get errors. You almost always want to compare them with a given precision, i.e.:

`b - c < 0.000001`

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+1 The first statement here is definitely something important to understand. –  Jesse Webb Jul 22 '11 at 6:33
Yes, first statement is a very useful information! –  DatVM Jul 22 '11 at 6:37

== comparison is not particularly safe for doubles/floats in basically any language. An epsilon comparison method (where you check that the difference between two floats is reasonably small) is your best bet.

For:

``````Math.sqrt(b) == Math.sqrt(c)
``````

I'm not sure why you wouldn't just compare b and c, but an epsilon comparison would work here too.

For:

``````b / 3 == 10 / 3
``````

Since 10/3 = 3 because of integer division, this will not necessarily give the results you're looking for. You could use 10.0 / 3, though i'm still not sure why you wouldn't just compare b and 10 (using the epsilon comparison method in either case).

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It's just an example, sometimes you will need a function (not sqrt) that return a double/float value to compare. –  DatVM Jul 22 '11 at 6:29
Gotcha. Regardless, you should use the comparison method that Ionel demonstrates in his answer. –  Jodaka Jul 22 '11 at 6:32

The safest way to compare a float/double with something else is actually to use see if their difference is a small number.

e.g.

``````Math.abs(a - b) < EPS
``````

where EPS can be something like 0.0000001.

In this way you make sure that precision errors do not affect your results.

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Yes this is what I intent to do if it is unsafe. –  DatVM Jul 22 '11 at 6:28

In java you can compare a float with another float,and a double with another double.And you will get true when comparing a double with a float when their precision is equal

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b is float and 10 is integer then if you compare both with your this critearia then it will give false because...

``````b = flaot (meance ans 3.33333333333333333333333)
10 is integer so that make sence.
``````
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@Rasel ya in language you can compare with same . –  Siten Jul 22 '11 at 6:20