13

I read that JVM stores internally short, integer and long as 4 bytes. I read it from an article from the year 2000, so I don't know how true it is now.

For the newer JVMs, is there any performance gain in using short over integer/long? And did that part of the implementation has changed since 2000?

Thanks

3
  • 11
    Um, there's no possible way to store longs in 4 bytes.
    – Michael Myers
    Mar 4, 2010 at 16:06
  • do you have a link to this article? are you sure you are remembering it correctly? Mar 4, 2010 at 17:17
  • 1
    short willl be (microscopically) slower than int. How long and int compare depends a lot on the actual implementation. Generally long will be slower, but it could be microscopic or could be borderline significant.
    – Hot Licks
    Jan 27, 2015 at 22:24

6 Answers 6

15

Integer types are stored in many bytes, depending on the exact type :

  • byte on 8 bits
  • short on 16 bits, signed
  • int on 32 bits, signed
  • long on 64 bits, signed

See the spec here.

As for performance, it depends on what you're doing with them. For example, if you're assigning a literal value to a byte or short, they will be upscaled to int because literal values are considered as ints by default.

byte b = 10;  // upscaled to int, because "10" is an int

That's why you can't do :

byte b = 10;
b = b + 1;  // Error, right member converted to int, cannot be reassigned to byte without a cast.

So, if you plan to use bytes or shorts to perform some looping, you won't gain anything.

for (byte b=0; b<10; b++) 
{ ... } 

On the other hand, if you're using arrays of bytes or shorts to store some data, you will obviously benefit from their reduced size.

byte[] bytes = new byte[1000];
int[] ints = new int[1000];  // 4X the size

So, my answer is : it depends :)

13
long  64 –9,223,372,036,854,775,808 to 9 ,223,372,036,854,775,807 
int   32 –2,147,483,648 to 2,147,483,647 
short 16 –32,768 to 32,767 
byte   8 –128 to 127 

Use what you need, I would think shorts are rarely used due to the small range and it is in big-endian format.

Any performance gain would be minimal, but like I said if your application requires a range more then that of a short go with int. The long type may be too extremly large for you; but again it all depends on your application.

You should only use short if you have a concern over space (memory) otherwise use int (in most cases). If you are creating arrays and such try it out by declaring arrays of type int and short. Short will use 1/2 of the space as opposed to the int. But if you run the tests based on speed / performance you will see little to no difference (if you are dealing with Arrays), in addition, the only thing you save is space.

Also being that a commentor mentioned long because a long is 64 bits. You will not be able to store the size of a long in 4 bytes (notice the range of long).

2
  • 6
    Long is not "generally" considered 8 bytes, it's defined as 64 bit. It will always be 64 bits.
    – Steve Kuo
    Mar 4, 2010 at 16:49
  • 6
    @KitHo: iff you have 8 bits per byte, which is not necessarily the case (en.wikipedia.org/wiki/Byte) Jan 1, 2012 at 11:22
8

It's an implementation detail, but it's still true that for performance reasons, most JVMs will use a full word (or more) for each variable, since CPUs access memory in word units. If the JVM stored the variables in sub-word units and locations, it would actually be slower.

This means that a 32bit JVM will use 4 bytes for short (and even boolean) while a 64bit JVM will use 8 bytes. However, the same is not true for array elements.

4
  • I assume you are essentially saying that you will save space but there will be no gain for perforamnce reasons (especially with arrays).
    – JonH
    Mar 4, 2010 at 16:17
  • 2
    With regular variables, short saves neither space nor peformance over int (on a 32 or 64bit JVM). With arrays, it's hard to say since the extra CPU commands needed to convert the shorts to words and back can easily be offset by better cache behaviour due to smaller data size. Mar 4, 2010 at 16:20
  • I agree with that, short vs int as regular variables will not matter, again it comes down to what are the needs in the application (the range of the type). But for arrays, the short will be a better space saver then an int / long.
    – JonH
    Mar 4, 2010 at 16:25
  • Even as member variables nearly all JVMs store shorts in 16-bits, not as a full word, and 64-bit JVMs certainly don't use 64-bits to store short or int. So it's not just arrays, but essentially all data in the heap that benefits from using short.
    – BeeOnRope
    Jan 28, 2015 at 1:01
1

There's basically no difference. One has to "confuse" the JITC a bit so that it doesn't recognize that the increment/decrement operations are self-cancelling and that the results aren't used. Do that and the three cases come out about equal. (Actually, short seems to be a tiny bit faster.)

public class ShortTest {

    public static void main(String[] args){
        // Do the inner method 5 times to see how it changes as the JITC attempts to
        // do further optimizations.
        for (int i = 0; i < 5; i++) {
            calculate(i);
        }
    }

    public static void calculate(int passNum){

        System.out.println("Pass " + passNum);
        // Broke into two (nested) loop counters so the total number of iterations could
        // be large enough to be seen on the clock.  (Though this isn't as important when
        // the JITC over-optimizations are prevented.)
        int M = 100000;
        int N = 100000;
        java.util.Random r = new java.util.Random();
        short x = (short) r.nextInt(1);
        short y1 = (short) (x + 1);
        int y2 = x + 1;
        long y3 = x + 1;

        long time1=System.currentTimeMillis();
        short s=x;
        for (int j = 0; j<M;j++) {
            for(int i = 0; i<N;i++) {
                s+=y1;
                s-=1;
                if (s > 100) {
                    System.out.println("Shouldn't be here");
                }
            }
        }
        long time2=System.currentTimeMillis();
        System.out.println("Time elapsed for shorts: "+(time2-time1) + " (" + time1 + "," + time2 + ")");


        long time3=System.currentTimeMillis();
        int in=x;
        for (int j = 0; j<M;j++) {
            for(int i = 0; i<N;i++) {
                in+=y2;
                in-=1;
                if (in > 100) {
                    System.out.println("Shouldn't be here");
                }
            }
        }
        long time4=System.currentTimeMillis();
        System.out.println("Time elapsed for ints: "+(time4-time3) + " (" + time3 + "," + time4 + ")");


        long time5=System.currentTimeMillis();
        long l=x;
        for (int j = 0; j<M;j++) {
            for(int i = 0; i<N;i++) {
                l+=y3;
                l-=1;
                if (l > 100) {
                    System.out.println("Shouldn't be here");
                }
            }
        }
        long time6=System.currentTimeMillis();
        System.out.println("Time elapsed for longs: "+(time6-time5) + " (" + time5 + "," + time6 + ")");


        System.out.println(s+in+l);
    }
}

Results:

C:\JavaTools>java ShortTest
Pass 0
Time elapsed for shorts: 59119 (1422405830404,1422405889523)
Time elapsed for ints: 45810 (1422405889524,1422405935334)
Time elapsed for longs: 47840 (1422405935335,1422405983175)
0
Pass 1
Time elapsed for shorts: 58258 (1422405983176,1422406041434)
Time elapsed for ints: 45607 (1422406041435,1422406087042)
Time elapsed for longs: 46635 (1422406087043,1422406133678)
0
Pass 2
Time elapsed for shorts: 31822 (1422406133679,1422406165501)
Time elapsed for ints: 39663 (1422406165502,1422406205165)
Time elapsed for longs: 37232 (1422406205165,1422406242397)
0
Pass 3
Time elapsed for shorts: 30392 (1422406242398,1422406272790)
Time elapsed for ints: 37949 (1422406272791,1422406310740)
Time elapsed for longs: 37634 (1422406310741,1422406348375)
0
Pass 4
Time elapsed for shorts: 31303 (1422406348376,1422406379679)
Time elapsed for ints: 36583 (1422406379680,1422406416263)
Time elapsed for longs: 38730 (1422406416264,1422406454994)
0

C:\JavaTools>java -version
java version "1.7.0_65"
Java(TM) SE Runtime Environment (build 1.7.0_65-b19)
Java HotSpot(TM) 64-Bit Server VM (build 24.65-b04, mixed mode)
1
  • 1
    Wow! So the JITC is not as good in optimizing short calculations, but once it's optimized, the operations are faster! Jan 28, 2015 at 17:23
0

I agree with user2391480, calculations with shorts seem to be way more expensive. Here is an example, where on my machine (Java7 64bit, Intel i7-3770, Windows 7) operations with shorts are around ~50 times slower than integers and longs.

public class ShortTest {

public static void main(String[] args){
    calculate();
    calculate();
}

public static void calculate(){
    int N = 100000000;

    long time1=System.currentTimeMillis();
    short s=0;
    for(int i = 0; i<N;i++) {
        s+=1;
        s-=1;
    }
    long time2=System.currentTimeMillis();
    System.out.println("Time elapsed for shorts: "+(time2-time1));


    long time3=System.currentTimeMillis();
    int in=0;
    for(int i = 0; i<N;i++) {
        in+=1;
        in-=1;
    }
    long time4=System.currentTimeMillis();
    System.out.println("Time elapsed for ints: "+(time4-time3));


    long time5=System.currentTimeMillis();
    long l=0;
    for(int i = 0; i<N;i++) {
        l+=1;
        l-=1;
    }
    long time6=System.currentTimeMillis();
    System.out.println("Time elapsed for longs: "+(time6-time5));


    System.out.println(s+in+l);
}

}

Output:

Time elapsed for shorts: 113
Time elapsed for ints: 2
Time elapsed for longs: 2
0
Time elapsed for shorts: 119
Time elapsed for ints: 2
Time elapsed for longs: 2
0

Note: specifying "1" to be a short (in order to avoid casting every time, as suggested by user Robotnik as a source of delay) does not seem to help, e.g.

    short s=0;
    short one = (short)1;
    for(int i = 0; i<N;i++) {
      s+=one;
      s-=one;
    }

EDIT: modified as per request of user Hot Licks in the comment, in order to invoke the calculate() method more than once outside the main method.

5
  • 1
    To be fair: Move the "guts" to a separate method. Invoke it from main once, throw away the result, then invoke it again, keeping only the result from the last run. This will give the JITC a shot at optimizing the code. (Code in main is hardly ever optimized.)
    – Hot Licks
    Jan 27, 2015 at 22:28
  • Will try at once. Yeah the difference remains. Jan 27, 2015 at 23:02
  • You've been punk'd by the JITC. For int and long it's recognizing that the +/-1 operations cancel out and also that the result is never used, so it's basically cancelling the entire loop. It doesn't put as much effort into optimizing for short. Rewrite to fix those and there's essentially no difference between the 3 data types.
    – Hot Licks
    Jan 28, 2015 at 0:44
  • Thank you for the downvote, but please let me understand: I am printing the result in the end, so it is used. Also, can you be more specific about "JITC not putting much effort in optimiziing for short"? How should I rewrite the operation to not cancel the loop in all three data types? Jan 28, 2015 at 16:12
  • 2
    See my answer. I started with your code & modified it. Not sure which features are definitely necessary, but certainly the cancelling +1/-1 operations must be "obfuscated" somehow, since even the dumbest of optimizers can figure that out. (I missed the fact that you were referencing the results at the end. That's probably sufficient for that issue.)
    – Hot Licks
    Jan 28, 2015 at 16:49
-2

Calculations with a short type are extremely expensive.

Take the following useless loop for example:

short t=0;
//int t=0;
//long t=0;
for(many many times...)
{
  t+=1;
  t-=1;
}

If it is a short, it will take literally 1000s of times longer than if it's an int or a long.

Checked on 64-bit JVMs versions 6/7 on Linux

11
  • 2
    I thought this sounded wrong so I just tried it. Short and integer both gave essentially the same timing results in a quick test. Do you have any figures to back this up?
    – Tim B
    Jan 3, 2014 at 10:11
  • 1
    I just tried this on my 64-bit machine with a loop of 1 billion iterations, run three times per test. I replaced the calculations with t+=a and t-=b, a and b both calculated to become 1 but to never be removed by the compiler, (a = (int)Math.ceil(Math.random()), same for b). Also printed result of loop, to ensure that loop runs. With 64-bit JRE 6: short: 1450ms, int: 70ms, long: 765ms May 4, 2014 at 11:23
  • @DanielJohansson - wouldn't converting to/from an int slow down the application when t is not an int?
    – Robotnik
    May 19, 2014 at 14:11
  • 1
    @Robotnik - It might do on some architectures. However, this Answer claims a 1000+ fold performance difference, and that is (IMO) implausible. So does the result claimed by Daniel Johnson, IMO. This sort of claim needs to be accompanied by the full source code of the benchmark so that other people can examine the methodology and attempt to reproduce the results. It is VERY easy to get micro-benchmarking wrong in Java.
    – Stephen C
    Jun 19, 2014 at 11:01
  • 1
    Here's the code for my quick benchmark. The compiler shouldn't be able to optimize any of the cases more than the others. pastebin.com/fvV1GPFH Aug 28, 2014 at 11:08

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