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I've seen a lot of discussion on SO related to rounding float values, but no solid Q&A considering the efficiency aspect. So here it is:

What is the most efficient (but correct) way to round a float value to the nearest integer?

(int) (mFloat + 0.5);




FloatMath.floor(mFloat + 0.5);

or something else?

Preferably I would like to use something available in standard java libraries, not some external library that I have to import.

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Do you have any evidence that this is a performance bottleneck in your code? – Jon Skeet Aug 23 '12 at 11:59
Why do you care? If your code runs too slow, profile it. Most likely, rounding floats won't be a bottleneck. – Philipp Reichart Aug 23 '12 at 11:59
If you care to check the implementation of Math.round, you'll see the code from your first line, except for a single special case. This is why the performance is expected to be the same, especially if HotSpot inlines your round call. – Marko Topolnik Aug 23 '12 at 12:02
Jon and Philipp: I am mainly just curious. But I use rounding a lot in my applications, so I'd like to use the most efficient way. I'm working in the mobile domain, so minimizing CPU usage is always some benefit. – robguinness Aug 23 '12 at 12:35
"CPU usage is always some benefit." The same is true of code running on a super-computer. The real issue is how big 'some' is, and whether chasing further improvement really pays off in the end. – Andrew Thompson Aug 23 '12 at 12:46

5 Answers 5

up vote 3 down vote accepted
public class Main {
    public static void main(String[] args) throws InterruptedException {
        for (int i = 0; i < 10; i++) {

    public static void measurementIteration() {
        long s, t1 = 0, t2 = 0;
        float mFloat = 3.3f;
        int f, n1 = 0, n2 = 0;
        for (int i = 0; i < 1E4; i++) {
            switch ((int) (Math.random() * 2)) {
            case 0:
                n1 += 1E4;
                s = System.currentTimeMillis();
                for (int k = 0; k < 1E4; k++)
                    f = (int) (mFloat + 0.5);
                t1 += System.currentTimeMillis() - s;
            case 1:
                n2 += 1E4;
                s = System.currentTimeMillis();
                for (int k = 0; k < 1E4; k++)
                    f = Math.round(mFloat);
                t2 += System.currentTimeMillis() - s;
        System.out.println(String.format("(int) (mFloat + 0.5): n1 = %d    -> %.3fms/1000", n1, t1 * 1000.0 / n1));
        System.out.println(String.format("Math.round(mFloat)  : n2 = %d    -> %.3fms/1000", n2, t2 * 1000.0 / n2));

Output on Java SE6:

(int) (mFloat + 0.5): n1 = 500410000    -> 0.003ms/1000
Math.round(mFloat)  : n2 = 499590000    -> 0.022ms/1000

Output on Java SE7 (thanks to alex for the results):

(int) (mFloat + 0.5): n1 = 50120000 -> 0,002ms/1000
Math.round(mFloat) : n2 = 49880000 -> 0,002ms/1000

As you can see, there was a huge performance improvement on Math.round from SE6 to SE7. I think in SE7 there is no significant difference anymore and you should choose whatever seems more readable to you.

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For good results you should always make an outer loop that calls the measuring function something like 10 times so when HotSpot replaces the interpreted code, it actually takes effect. This code mixes the interpreted performance with the compiled performance. – Marko Topolnik Aug 23 '12 at 12:16
@MarkoTopolnik you mean like that? – brimborium Aug 23 '12 at 12:27
Yes, that would be close to it. You could pull the printlns into the methods, that would make it unnecessary to use static variables. This is definitely the recommended approach for any microbenchmark and I routinely observe shrinking times after the first one or two runs. – Marko Topolnik Aug 23 '12 at 12:30
@MarkoTopolnik Yes, you are right, the t1 measurement (for (int) (mFloat + 0.5)) reduces almost by a factor of 2 during the first 3 runs. Thanks for your suggestion. – brimborium Aug 23 '12 at 12:37
Thanks, guys. I may do some benchmarking on my platform (Android) and see if I get the same results. BTW, sorry for the confusion, but FloatMath is part of Android, not standard Java. That was my oversight. – robguinness Aug 23 '12 at 12:40

Based on the Q&A's that I think you are referring to, the relative efficiency of the various methods depends on the platform you are using.

But the bottom line is that:

  • the latest JREs have the performance fix for Math.floor / StrictMath.floor, and
  • unless you are doing an awful lot of rounding, it probably doesn't make any difference which way you do it.


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You may benchmark it by using System.currentTimeMillis(). You will see that difference is too little

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When you want to do benchmarking then you should use System.nanoTime() and not System.currentTimeMillis(). – Fabian Barney Aug 23 '12 at 12:18
It's not absolutely necessary. If you measure times in excess of 10 ms, there's no particular need for nanoTime. – Marko Topolnik Aug 23 '12 at 12:32
That's why I said "should" and not "must". Nevertheless it's good style to always use nanoTime for such cases. – Fabian Barney Aug 23 '12 at 12:35
The difference between the first two is actually quite remarkable (not tested it on Android though)... – brimborium Aug 23 '12 at 12:42
@PeterLawrey OK, then I'm doing it right already since I invoke the 1e4-iteration method 10 times from outside. This will work even on JRockit. – Marko Topolnik Aug 23 '12 at 13:40

I should go for Math.round(mFloat) cause it's encapsuling rounding logic in a method (even if it's not your method).

According with its documentation the code you've written is the same that Math.round executes (except it checks border cases).

Anyway what is more important is the time-complexity of your algorithm, not the time for small constant-like things... Except you are programming something that will be invoked millions of times! :D

Edit: I don't know FloatMath. Is it from JDK?

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I think FloatMath is an android library... – brimborium Aug 23 '12 at 12:14
Yes, FloatMath is from android...sorry for that. I didn't look close enough to realize where it was coming from. – robguinness Aug 23 '12 at 12:36

Simply adding 0.5 will give an incorrect result for negative numbers. See Faster implementation of Math.round? for a better solution.

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