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# A faster implementation for Math.abs(a - b) - Math.abs(c - d)?

I have a Java method that repeatedly evaluates the following expression in a very tight loop with a large number of repetitions:

``````Math.abs(a - b) - Math.abs(c - d)
``````

`a`, `b`, `c` and `d` are `long` values that can span the whole range of their type. They are different in each loop iteration and they do not satisfy any invariant that I know of.

The profiler indicates that a significant portion of the processor time is spent in this method. While I will pursue other avenues of optimization first, I was wondering if there is a smarter way to calculate the aforementioned expression.

Apart from inlining the `Math.abs()` calls manually for a very slight (if any) performance gain, is there any mathematical trick that I could use to speed-up the evaluation of this expression?

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If the values span the whole range of their type, you will have plenty of overflows with this code if, for example, a is a very large negative number and b is a very large positive number (or vice-versa). Check your algorithm. – JB Nizet Jan 19 '12 at 10:57
@JBNizet: I have not yet encountered any overflows, so I suppose that is some sort of invariant. The `span the whole range` condition was mostly to avoid answers that assume that e.g. all variable fit in 32-bits. – thkala Jan 19 '12 at 11:01
note that such overflows will not cause any exception: only wrong calculated values. They might thus have been unnoticed. – JB Nizet Jan 19 '12 at 11:05
@JBNizet: I do know that integer overflows are silent - I am mostly a C programmer :-) I have a test harness using the results of known-good code as a reference. I am still looking for corner cases, but I have yet to encounter any issues. – thkala Jan 19 '12 at 11:11
@thkala Simple corner case: `a=-2^63; b=any positive value`. If your test harness isn't testing such numbers, better make absolutely sure such cases are impossible. Especially fun case: `a=-2^63; b = 0` - I do hope your algorithm can deal with cases where the result of Math.abs is negative! – Voo Jan 19 '12 at 15:15

I suspect the profiler isn't giving you a true result as it trying to profile (and thus adding over head to) such a trivial "method". Without the profile Math.abs can be turned into a small number of machine code instructions, and you won't be able to make it faster than that.

I suggest you do a micro-benchmark to confirm this. I would expect loading the data to be an order of magnitude more expensive.

``````long a = 10, b = 6, c = -2, d = 3;

int runs = 1000 * 1000 * 1000;
long start = System.nanoTime();
for (int i = 0; i < runs; i += 2) {
long r = Math.abs(i - a) - Math.abs(c - i);
long r2 = Math.abs(i - b) - Math.abs(d - i);
if (r + r2 < Integer.MIN_VALUE) throw new AssertionError();
}
long time = System.nanoTime() - start;
System.out.printf("Took an average of %.1f ns per abs-abs. %n", (double) time / runs);
``````

prints

``````Took an average of 0.9 ns per abs-abs.
``````
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It's definitely possible, although I think that the loop is tight enough to be indicative. BTW, are you sure that there is such an instruction for 64-bit integers on x86_64? – thkala Jan 19 '12 at 10:58
Hmmmm, It has `movabs` but that doesn't appear to do what I thought. – Peter Lawrey Jan 19 '12 at 11:11
That's actually testing the Interpreter performance (the JIT itself recognizes that the loop can be optimized away it seems - running this test several times returns `178, 176, 0, 0, 0,..` for me. – Voo Jan 19 '12 at 15:12
Hoisting the variables outside the method seems to work fine: `mean=185ms, var=13ms` for 100 test runs with 100million loop iterations each. – Voo Jan 19 '12 at 15:18

I ended up using this little method:

``````public static long diff(final long a, final long b, final long c, final long d) {
final long a0 = (a < b)?(b - a):(a - b);
final long a1 = (c < d)?(d - c):(c - d);

return a0 - a1;
}
``````

I experienced a measurable performance increase - about 10-15% for the whole application. I believe this is mostly due to:

• The elimination of a method call: Rather than calling `Math.abs()` twice, I call this method once. Sure, static method calls are not inordinately expensive, but they still have an impact.

• The elimination of a couple of negation operations: This may be offset by the slightly increased size of the code, but I'll happily fool myself into believing that it actually made a difference.

EDIT:

It seems that it's actually the other way around. Explicitly inlining the code does not seem to impact the performance in my micro-benchmark. Changing the way the absolute values are calculated does...

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Your first point is unimportant. The JIT inlines such simple calls anyway - you can easily test that by putting your logic into a function and calling it, no different in time (and good practice too ;) ). The second point seems to be valid though - I get about 10% speedup in a micro benchmark (can post code, but yes I'm observing OSR, warmup and all that!) – Voo Jan 25 '12 at 21:37
@Voo: true, my benchmark had an issue with a counter that would not count, thus skewing the results. – thkala Jan 25 '12 at 22:01

You can always try to unroll the functions and hand optimize, if you don't get more cache misses it might be faster.

If I got the unrolling right it could be something like this:

``````    if(a<b)
{
if(c<d)
{
r=b-a-d+c;
}
else
{
r=b-a+d-c;
}
}
else
{
if(c<d)
{
r=a-b-d+c;
}
else
{
r=a-b+d-c;
}
}
``````
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+1 Inlining the code helped, although I did not go as far as this... – thkala Jan 25 '12 at 20:25

are you sure its the method itself causes the problem? Maybe its an enormous amount of invocation of this method and you just see the aggregated results (like TIME_OF_METHOD_EXECUTION X NUMBER_OF_INVOCATIONS) in your profiler?

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