EDIT: maaartinus gave the answer I was looking for and tmyklebu's data on the problem helped a lot, so thanks both! :)

I've read a bit about how HotSpot has some "intrinsics" that injects in the code, specially for Java standard Math libs (from here)

So I decided to give it a try, to see how much difference HotSpot could make against doing the comparison directly (specially since I've heard min/max can compile to branchless asm).

```
public static final int max ( final int a, final int b )
{
if ( a > b )
{
return a;
}
return b;
}
```

That's my implementation. From another SO question I've read that using the ternary operator uses an extra register, I haven't found significant differences between doing an if block and using a ternary operator (ie, return ( a > b ) ? a : b ).

Allocating a 8Mb int array (ie, 2 million values), and randomizing it, I do the following test:

```
try ( final Benchmark bench = new Benchmark( "millis to max" ) )
{
int max = Integer.MIN_VALUE;
for ( int i = 0; i < array.length; ++i )
{
max = OpsMath.max( max, array[i] );
// max = Math.max( max, array[i] );
}
}
```

I'm using a Benchmark object in a try-with-resources block. When it finishes, it calls close() on the object and prints the time the block took to complete. The tests are done separately by commenting in/out the max calls in the code above.

'max' is added to a list outside the benchmark block and printed later, so to avoid the JVM optimizing the whole block away.

The array is randomized each time the test runs.

Running the test 6 times, it gives these results:

Java standard Math:

```
millis to max 9.242167
millis to max 2.1566199999999998
millis to max 2.046396
millis to max 2.048616
millis to max 2.035761
millis to max 2.001044
```

So fairly stable after the first run, and running the tests again gives similar results.

OpsMath:

```
millis to max 8.65418
millis to max 1.161559
millis to max 0.955851
millis to max 0.946642
millis to max 0.994543
millis to max 0.9469069999999999
```

Again, very stable results after the first run.

The question is: **Why?** Thats quite a big difference there. And I have no idea why. Even if I implement my max() method **exactly** like Math.max() (ie, return (a >= b) ? a : b ) I still get better results! It makes no sense.

Specs:

CPU: Intel i5 2500, 3,3Ghz. Java Version: JDK 8 (public march 18 release), x64. Debian Jessie (testing release) x64.

I have yet to try with 32 bit JVM.

EDIT: Self contained test as requested. Added a line to force the JVM to preload Math and OpsMath classes. That eliminates the 18ms cost of the first iteration for OpsMath test.

```
// Constant nano to millis.
final double TO_MILLIS = 1.0d / 1000000.0d;
// 8Mb alloc.
final int[] array = new int[(8*1024*1024)/4];
// Result and time array.
final ArrayList<Integer> results = new ArrayList<>();
final ArrayList<Double> times = new ArrayList<>();
// Number of tests.
final int itcount = 6;
// Call both Math and OpsMath method so JVM initializes the classes.
System.out.println("initialize classes " +
OpsMath.max( Math.max( 20.0f, array.length ), array.length / 2.0f ));
final Random r = new Random();
for ( int it = 0; it < itcount; ++it )
{
int max = Integer.MIN_VALUE;
// Randomize the array.
for ( int i = 0; i < array.length; ++i )
{
array[i] = r.nextInt();
}
final long start = System.nanoTime();
for ( int i = 0; i < array.length; ++i )
{
max = Math.max( array[i], max );
// OpsMath.max() method implemented as described.
// max = OpsMath.max( array[i], max );
}
// Calc time.
final double end = (System.nanoTime() - start);
// Store results.
times.add( Double.valueOf( end ) );
results.add( Integer.valueOf( max ) );
}
// Print everything.
for ( int i = 0; i < itcount; ++i )
{
System.out.println( "IT" + i + " result: " + results.get( i ) );
System.out.println( "IT" + i + " millis: " + times.get( i ) * TO_MILLIS );
}
```

Java Math.max result:

```
IT0 result: 2147477409
IT0 millis: 9.636998
IT1 result: 2147483098
IT1 millis: 1.901314
IT2 result: 2147482877
IT2 millis: 2.095551
IT3 result: 2147483286
IT3 millis: 1.9232859999999998
IT4 result: 2147482828
IT4 millis: 1.9455179999999999
IT5 result: 2147482475
IT5 millis: 1.882047
```

OpsMath.max result:

```
IT0 result: 2147482689
IT0 millis: 9.003616
IT1 result: 2147483480
IT1 millis: 0.882421
IT2 result: 2147483186
IT2 millis: 1.079143
IT3 result: 2147478560
IT3 millis: 0.8861169999999999
IT4 result: 2147477851
IT4 millis: 0.916383
IT5 result: 2147481983
IT5 millis: 0.873984
```

Still the same overall results. I've tried with randomizing the array only once, and repeating the tests over the same array, I get faster results overall, but the same 2x difference between Java Math.max and OpsMath.max.

`-XX:+PrintAssembly`

. It will save your ass when you get confused by things like this. – tmyklebu Mar 31 at 1:47`Benchmark`

from`Caliper`

(code.google.com/p/caliper)? If not, read this: code.google.com/p/caliper/wiki/JavaMicrobenchmarks – unhillbilly Mar 31 at 2:48`final double end = (System.nanoTime() - start;`

won't compile, so this isn't what you ran. – Mike Samuel Mar 31 at 3:15