# How to compute the integer absolute value

How to compute the integer absolute value without using if condition. I guess we need to use some bitwise operation. Can anybody help?

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Is the ternary operator allowed ? –  cnicutar Aug 20 '12 at 16:42
No, I guess you cannot use that too. –  Pragyan Aug 20 '12 at 16:43
What's the motivation? Performance? Are you trying to solve a branch-predication failure by eliminating the branch? Intellectual curiosity? Homework? Something else? –  Adrian McCarthy Aug 20 '12 at 17:04
@AdrianMcCarthy Well, who cares? I'd be satisfied with all of those (yes, even performance). –  Christian Rau Aug 20 '12 at 17:28

1) Set the mask as right shift of integer by 31 (assuming integers are stored as two's-complement 32-bit values and that the right-shift operator does sign extension).

2) XOR the mask with number

3) Subtract mask from result of step 2 and return the result.

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graphics.stanford.edu/~seander/bithacks.html is this patented? –  Quonux Oct 20 '13 at 16:32

What is the programming language you're using? In C# you can use the Math.Abs methos:

int value1 = -1000;
int value2 = 20;
int abs1 = Math.Abs(value1);
int abs2 = Math.Abs(value2);
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Well, I'm pretty sure that's also outruled by the question. Of course using a prebuilt functions is always easiest ;) –  Christian Rau Aug 20 '12 at 16:51
I can see that now. Worth trying to help though. Good thing he got his answer. –  Florin Bombeanu Aug 20 '12 at 17:42
Always worth mentioning the obvious. Sometimes I find that the bitmask or branchless hacks that are supposed to be faster are really slower. All depends on the processor and the compiler. –  Paul Chernoch Oct 21 '13 at 15:00

Assume int is of 32-bit.

int my_abs(int x)
{
int y = (x >> 31);
return (x ^ y) - y;
}
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Same as existing answers, but with more explanations:

Let's assume a twos-complement number (as it's the usual case and you don't say otherwise) and let's assume 32-bit:

First, we perform an arithmetic right-shift by 31 bits. This shifts in all 1s for a negative number or all 0s for a positive one (but note that the actual >>-operator's behaviour in C or C++ is implementation defined for negative numbers, but will usually also perform an arithmetic shift, but let's just assume pseudocode or actual hardware instructions, since it sounds like homework anyway):

So what we get is 111...111 (-1) for negative numbers and 000...000 (0) for positives

Now we XOR this with x, getting the behaviour of a NOT for mask=111...111 (negative) and a no-op for mask=000...000 (positive):

And finally subtract our mask, which means +1 for negatives and +0/no-op for positives: