I want a Simple Javascript function to get the difference between two numbers in such a way that foo(2, 3)
and foo(3,2
) will return the same difference 1.
9 Answers
var difference = function (a, b) { return Math.abs(a  b); }

8Alternative (and more used syntax):
function diff(a,b){return Math.abs(ab);}
Best and simples solution.– AlxandrJul 1, 2010 at 10:10 
2


3Clement Herreman: it's a different story. this "varing" is not necessary at all, i just wanted to provide a pure solution (properly define the function in the actual scope)– mykhalJul 1, 2010 at 10:31
Here is a simple function
function diff (num1, num2) {
if (num1 > num2) {
return num1  num2
} else {
return num2  num1
}
}
And as a shorter, oneline, singleargument, ternaryusing arrow function
function diff (a, b) => a > b ? a  b : b  a

1@Jake, I completely agree :) I was giving that as an example to Tom who claimed that using Math.abs() gives wrong results when using negative numbers. But since 8 is the correct answer, it shows Math.abs() gives the correct answer. Aug 4, 2016 at 6:43

1I did the performance test and it is not faster than Math.abs(), it is basically the same. Use the solution you want, it makes no difference.– pmrotuleOct 30, 2016 at 18:24

1this is a solution for any signed number.
Math.abs()
is not a complete solution. Apr 12, 2017 at 13:20 
1@ChrisDeacy, Niels was explaining to Tom how solutions using
Math.abs()
still return the right answers, like8
for3, 5
. He was making the exact same point you're trying to make... Nov 15, 2019 at 15:31
Seems odd to define a whole new function just to not have to put a minus sign instead of a comma when you call it:
Math.abs(a  b);
vs
difference(a, b);
(with difference calling another function you defined to call that returns the output of the first code example). I'd just use the built in abs method on the Math object.

1I agree. I like abstracting things out for reusability, but in cases where it's simple or just built in things, there's no real benefit.– JamesJul 3, 2021 at 19:09
It means you want to return absolute value.
function foo(num1 , num2) {
return Math.abs(num1num2);
}
I don't get how this is possible on such a seemingly common question, but all the answers I found here are wrong in certain cases.
If both numbers are on the same side of zero then the accepted answer is right, but if the numbers are not on the same side of zero, then their absolute values must be added, not subtracted.
function diff( x, y ) {
if ( Math.sign( x ) === Math.sign( y ) ) {
return Math.abs( x  y );
} else {
return Math.abs( x ) + Math.abs( y );
};
};
diff( 2, 2 ) // 0
diff( 2, 2 ) // 0
diff( 2, 2 ) // 4
diff( 2, 2 ) // 4
Solution on math.stackexchange.com : https://math.stackexchange.com/a/1893992

4This is unnecessary.
Math.abs((2)  2)
still yields correct answer. Feb 4, 2021 at 13:00
In TypeScript
, if anyone interested:
public getDiff(value: number, oldValue: number) {
return value > oldValue ? value  oldValue : oldValue  value;
}
defining four functions I made a little benchmark, surprisingly
fn1 = (a,b)=>(a>b)?ab:ba;
fn2 = (a,b)=>{let c= ab;return c>0?c:c;}
fn3 = (a,b)=>Math.abs(ab)
fn4 = (a,b)=>Math.max(ab, ba)
for(let fn of [ fn1, fn2, fn3, fn4])
executionTime(()=>{console.log(fn);for(let i=0;i<1_000_000;i++)fn(500_000,i)})
function executionTime(cb){//calculate performance
const t0 = performance.now();
cb();
const t1 = performance.now();
console.log(`cb took ${t1  t0} milliseconds.`);
}
Here are the results for 1million iterations:
 cb took 11.129999998956919 milliseconds.
 cb took 53.420000011101365 milliseconds.
 cb took 47.40000003948808 milliseconds.
 cb took 48.20000007748604 milliseconds.
But unfortunalelly those are false results, I mean executing one by one gave on the console resulting:
 6.9ms 11.7 7.0 4.4
 7.5ms 4.4 6.4 4.5
 7.8ms 5.1 6.2 6.8
 3.9ms 6.3 5.2 5.2
I think while looping, after each iteration garbage is collecting while other functions doing their bests. While executing each one by one, fn2 came second, while using extra variable( vm is optimizing with register ? ) .
If you work with floating numbers  the pitfall of the answers above is the math.
For example
> 0.1 + 0.2
0.30000000000000004
You can use a hack like this in your calculations:
total = parseFloat((total + parseFloat(difference.toFixed(2))).toFixed(2))