# Make a negative number positive in Java

I have a Java method in which I'm summing a set of numbers. However, I want any negatives numbers to be treated as positives. So (1)+(2)+(1)+(-1) should equal 5. I'm sure there is very easy way of doing this - I just don't know how!! Any tips would be much appreciated.

-

Just call Math.abs?

-
Note the edge cases, e.g. Math.abs(Integer.MIN_VALUE) = Integer.MIN_VALUE. –  Zach Scrivena Jan 30 '09 at 0:24
((a <= 0.0D) ? 0.0D - a : a) –  Koekiebox Feb 13 at 12:38

The concept you are describing is called "absolute value", and Java has a function called Math.abs to do it for you. Or you could avoid the function call and do it yourself:

``````number = (number < 0 ? -number : number);
``````

or

``````if (number < 0)
number = -number;
``````
-
Oh, dilemma time - there are so many equally good answers, that I might as well delete mine. But then I'd lose 40 points, and I'll never catch Jon Skeet if I do that. –  Paul Tomblin Jan 29 '09 at 21:53
Sorry -1 for reinventing a standard library call. –  cletus Jan 29 '09 at 22:41
@cletus, did you notice that I had already mentioned the standard library call? Or that in this case, the "reinvent" takes fewer instructions that calling the library? –  Paul Tomblin Jan 30 '09 at 0:30
Also worth understanding the details behind the library call. Especially if there are side effects to the library call, or performance issues like Paul mentions. –  simon Jan 30 '09 at 16:27
+1 to undo cletus' downvote :-) –  TheBlastOne Oct 1 '12 at 14:10

Use the `abs` function:

``````int sum=0;
for(Integer i : container)
sum+=Math.abs(i);
``````
-

You're looking for absolute value, mate. `Math.abs(-5)` returns 5...

-

1 more

Why don't you use:

Ma..ab....

... Oh.

-

Math.abs(...) is the function you probably want.

-

The easiest, if verbose way to do this is to wrap each number in a Math.abs() call, so you would add:

``````Math.abs(1) + Math.abs(2) + Math.abs(1) + Math.abs(-1)
``````

with logic changes to reflect how your code is structured. Verbose, perhaps, but it does what you want.

-
You could make it less verbose with a static import. –  Dan Dyer Jan 29 '09 at 21:32
If he has direct control over the values, wouldn't it be better to simply remove the `-` sign(s)? Or otherwise, including if he doesn't have control, wouldn't it be better to use a function like `absoluteSum( int[] values ){ /*loop with Math.abs()*/ }` instead of manually wrapping Math.abs() in each value? [-1] –  TheLima Sep 11 '13 at 15:33
I agree. Encapsulating the logic in a well-named function will make this more clear. –  Eddie Sep 23 '13 at 15:21

You want to wrap each number into `Math.abs()`. e.g.

``````System.out.println(Math.abs(-1));
``````

prints out "1".

If you want to avoid writing the `Math.`-part, you can include the Math util statically. Just write

``````import static java.lang.Math.abs;
``````

along with your imports, and you can refer to the `abs()`-function just by writing

``````System.out.println(abs(-1));
``````
-
``````int x = -20
int y = x + (2*(-1*x));
// Therefore y = -20 + (40) = 20
``````
-
Such elegant math! –  archieoi Sep 6 '13 at 20:53

Why don't you `multiply that number with -1`?

Like This:

``````//Given x as the number, if x is less than 0, return 0 - x, otherwise return x:
return (x <= 0.0F) ? 0.0F - x : x;
``````
-

When you need to represent a value without the concept of a loss or absence (negative value), that is called "absolute value".

The logic to obtain the absolute value is very simple: `"If it's positive, maintain it. If it's negative, negate it"`.

What this means is that your logic and code should work like the following:

``````//If value is negative...
if ( value < 0 ) {
//...negate it (make it a negative negative-value, thus a positive value).
value = negate(value);
}
``````

There are 2 ways you can negate a value:

1. By, well, negating it's value: `value = (-value);`
2. By multiplying it by "100% negative", or "-1": ```value = value * (-1);```

Both are actually two sides of the same coin. It's just that you usually don't remember that `value = (-value);` is actually `value = 1 * (-value);`.

Well, as for how you actually do it in Java, it's very simple, because Java already provides a function for that, in the `Math class`: `value = Math.abs(value);`

Yes, doing it without `Math.abs()` is just a line of code with very simple math, but why make your code look ugly? Just use Java's provided `Math.abs()` function! They provide it for a reason!

If you absolutely need to skip the function, you can use `value = (value < 0) ? (-value) : value;`, which is simply a more compact version of the code I mentioned in the logic (3rd) section, using the Ternary operator (`? :`).

Additionally, there might be situations where you want to always represent loss or absence within a function that might receive both positive and negative values.

Instead of doing some complicated check, you can simply get the absolute value, and negate it: `negativeValue = (-Math.abs(value));`

With that in mind, and considering a case with a sum of multiple numbers such as yours, it would be a nice idea to implement a function:

``````int getSumOfAllAbsolutes(int[] values){
int total = 0;
for(int i=0; i<values.lenght; i++){
total += Math.abs(values[i]);
}
}
``````

Depending on the probability you might need related code again, it might also be a good idea to add them to your own "utils" library, splitting such functions into their core components first, and maintaining the final function simply as a nest of calls to the core components' now-split functions:

``````int[] makeAllAbsolute(int[] values){
//@TIP: You can also make a reference-based version of this function, so that allocating 'absolutes[]' is not needed, thus optimizing.
int[] absolutes = values.clone();
for(int i=0; i<values.lenght; i++){
absolutes[i] = Math.abs(values[i]);
}
return absolutes;
}

int getSumOfAllValues(int[] values){
int total = 0;
for(int i=0; i<values.lenght; i++){
total += Math.abs(values[i]);
}
}

int getSumOfAllAbsolutes(int[] values){
return getSumOfAllValues(makeAllAbsolute(values));
}
``````
-

If you're interested in the mechanics of two's complement, here's the absolutely inefficient, but illustrative low-level way this is made:

``````private static int makeAbsolute(int number){
if(number >=0){
return number;
} else{
return (~number)+1;
}
}
``````
-
``````String s = "-1139627840";
BigInteger bg1 = new BigInteger(s);
System.out.println(bg1.abs());
``````

Alternatively:

``````int i = -123;
System.out.println(Math.abs(i));
``````
-

without lib fun:

``````    value = (value*value)/value
``````

with lib fun:

``````   value=Math.abs(value);
``````
-

I needed the absolute value of a long , and looked deeply into Math.abs and found that if my argument is less than LONG.MIN_VAL which is -9223372036854775808l, then the abs function would not return an absolute value but only the minimum value. Inthis case if your code is using this abs value further then there might be an issue.

-
The whole point of Long.MIN_VAL is that you can't have a long that's "less than LONG.MIN_VAL". –  Paul Tomblin Oct 1 '12 at 14:18