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I was thinking how to get the absolute value of an integer without using if statement nor abs(). At first I was using shift bits right (<<), trying to get negative sign out of the range, then shift bits left back to where it be, but unfortunately it doesn't work for me. Please let me know why it isn't working and other alternatives ways to do it.

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Is this homework? – juergen d Mar 19 '12 at 14:53
If you know the size of the int you're dealing with, just use a bit-wise "and" to clear the highest-order bit. – Marc B Mar 19 '12 at 14:55
@MarcB: That'll work with sign/magnitude representation (which is fairly unusual) but fail miserably for 1's complement or (by far the most common) 2's complement. – Jerry Coffin Mar 19 '12 at 14:57
@MarcB: It's slightly more involved than that for 2's complement. – Oliver Charlesworth Mar 19 '12 at 14:58
it's not a homework, but a question asked by my compiler course instructor. I found it is an interesting question because I've never done it this way before. By the way, solving this problem won't improve my grade for the course, but it will certainly improve my coding skills. ^__^ – shanwu Mar 21 '12 at 12:56

15 Answers 15

up vote 20 down vote accepted

From Bit Twiddling Hacks:

int v;           // we want to find the absolute value of v
unsigned int r;  // the result goes here 
int const mask = v >> sizeof(int) * CHAR_BIT - 1;

r = (v + mask) ^ mask;
share|improve this answer
I think this is the answer the OP was looking for. – marton78 May 3 '13 at 13:22
v >> sizeof(int) * CHAR_BIT - 1 could you please explain what this does? – codey modey Feb 13 '14 at 2:57
@codeymodey: I didn't write the original, but this depends on 2's complement representation. It makes mask be equal to all 1s if the sign bit is set (since it is being shifted right and this is usually an arithmetic shift, so sign extension occurs). This is equivalent to setting mask to either -1 or 0 according to the sign bit. – Hasturkun Feb 13 '14 at 10:14
Isn't right shifting signed ints implementation defined ? Basically we are setting mask = 0x0 for positive and mask=0xffffffff for negative numbers. Isn't "-((unsigned)num>>31)" correct or is it slower ? – Zxcv Mnb Oct 23 '14 at 19:00
@ZxcvMnb: Yes, right shifting signed integers is implementation defined. As I mentioned in a previous comment, this is usually an arithmetic right shift (for instance, GCC defines this as such). I don't know if your variation is slower, though it probably requires more operations (i.e. logical shift, negate instead of a single arithmetic shift), in any case, both variations require a 2's complement representation. The linked page has more discussion, which you might find relevant. – Hasturkun Oct 29 '14 at 9:35


int abs (int n) {
    const int ret[2] = { n, -n };
    return ret [n<0];

Note 4.7 Integral Conversions / 4: [...] If the source type is bool, the value false is converted to zero and the value true is converted to one.

*: In the sense that there is no conditional branching in your code. Under the hood, the ternary operator will also produce a branch. However, it's also a valid answer, because the ternary one isn't an if-statement. This doesn't imply that your compiler isn't able to emit branchfree assembly code for code that logically branches.

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"branch-free" in C, may not be once compiled. To be interesting, "branchfree" really is a property of the object code, not of the source. – Steve Jessop Mar 19 '12 at 15:07
@SteveJessop: May. – phresnel Mar 19 '12 at 15:08
@SteveJessop: But more seriously: Probably, with any half-decent compiler. However, this is also branchfree in the code structure :) – phresnel Mar 19 '12 at 15:08
well, suppose I'd said "most likely not once compiled". Would I be right or wrong, would it even matter? ;-) – Steve Jessop Mar 19 '12 at 15:09
Nope, and my "may" was of the style of saying the classy laconian "If.". I think there isn't too much value in the question, and my answer was more an intentionally grunty demonstration :P – phresnel Mar 19 '12 at 15:14
int abs(int v) 
  return v * ( (v<0) * (-1) + (v>0));
  // simpler: v * ((v>0) - (v<0))   thanks Jens

This code multiplies the value of v with -1 or 1 to get abs(v). Hence, inside the parenthesis will be one of -1 or 1.

If v is positive, the expression (v>0) is true and will have the value 1 while (v<0) is false (with a value 0 for false). Hence, when v is positive ((v>0) - (v<0)) = (1-0) = 1. And the whole expression is: v * (1) == v.

If v is negative, the expression (v>0) is false and will have the value 0 while (v<0) is true (value 1). Thus, for negative v, ((v>0) - (v<0)) = (0-1) = -1. And the whole expression is: v * (-1) == -v.

When v == 0, both (v<0) and (v>0) will evaluate to 0, leaving: v * 0 == 0.

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wrong, this doesn't even compile, no? – Jens Gustedt Mar 19 '12 at 16:22
opps, updated thanks – perreal Mar 19 '12 at 16:30
just doing v * ((v>0) - (v<0)) would be equivalent and easier to read, no? – Jens Gustedt Mar 19 '12 at 16:38
sorry, I don't really understand your code ... outside of the (): return v*(); -> doesn't it mean to multiply some number ? and inside (): (v<0)*(-1)+(v>0) -> does it mean if v<0, then multiply -1, and add v if v>0 ??? I don't understand this code at all, please explain it for me , thank you very much. – shanwu Mar 21 '12 at 13:30
@user1145976, updated the answer – perreal Mar 21 '12 at 14:38

Assuming 32 bit signed integers (Java), you can write:

public static int abs(int x)
    return (x + (x >> 31)) ^ (x >> 31);

No multiplication, no branch.

BTW, return (x ^ (x >> 31)) - (x >> 31); would work as well but it is patented. Yup!

Note: This code may take more then 10x longer then conditional statement (8bit Verison). This may be useful for Hardware programming System C etc

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How do you even patent something like that? – Jeremy Rodi Oct 25 '15 at 6:05
How would this take ten times longer? There are no branches or multiplies... – racarate Feb 19 at 16:10
The question is for c, not java. -1. – Ashish Ahuja ツ Feb 25 at 11:19

Bit shifting signed integers in the way you consider is undefined behaviour and thus not an option. Instead, you can do this:

int abs(int n) { return n > 0 ? n : -n; }

No if statements, just a conditional expression.

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While technically this answers the question, a ternary is really just a compact if statement, so its probably not what OP is looking for. – Aaron Dufour Mar 19 '12 at 15:15
@AaronDufour: ?: is not a compact if statement... – Oliver Charlesworth Mar 19 '12 at 15:17
It uses a different syntax, and returns a value (unlike if), but once compiled still contains a branch, which is generally what people are talking about when they want to avoid if statements. This will probably compile to the same machine code as the obvious if implementation. – Aaron Dufour Mar 19 '12 at 15:21
@AaronDufour: But the standard does not define the ternary operator to be an if-statement. Actually, unlike if-statements, the ternary operator has a value, and it can yield an lvalue (e.g. x?y:z = 0;). What it compiles to is irrelevant. switch-statements may compile to lookup-tables, if-statements may completely dissapear, only the visible behavaiour of the program shall not change (with the exception of RVO) – phresnel Mar 21 '12 at 15:43
@phresnel But for such a contrived question, the only reasonable interpretation is trying to avoid conditional constructs, which includes both the ternary and if statements. Otherwise the question is trivial, as shown in this answer. This is what I was trying to convey with my talk of compiling to branches. – Aaron Dufour Mar 21 '12 at 17:34

Try the following:

int abs(int n) 
  return sqrt(n*n);
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sqrt is pretty costly, in addition it accepts double as parameter, so you have 2 conversions (int to double) and (double to int) – dousin Dec 17 '13 at 14:46

Use the ternary operator:

y = condition ? value_if_true : value_if_false;
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Here is another approach without abs(), if nor any logical/conditional expression: assume int is 32-bit integer here. The idea is quite simple: (1 - 2 * sign_bit) will convert sign_bit = 1 / 0 to -1 / 1.

unsigned int abs_by_pure_math( int a ) {
   return (1 - (((a >> 31) & 0x1) << 1)) * a;
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how about that:

value = value > 0 ? value: ~value + 1

its based on the fact that negative numbers are stored as 2's complement to there positive equivalent, and that one can build the 2's complement by first building the 1's complement and adding 1, so

 5 ->   0000 0101b
-5 ->  (1111 1010b) + 1 -> 1111 1011b 

what I did was basically to reverse this, so

-5 ->  1111 1011b
 5 -> (0000 0100b) + 1 -> 0000 0101b

I know it's a bit late but just had the same issue and landed here, hope this helps.

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One more way to do it:

int abs(int n) {
    int mask = n >> 31;
    return (mask & -n) | (~mask & n);

Using the (mask & A) | (~mask & B) pattern. Not sure if it has a name. I call it a bitwise branch.

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Didn't saw this one. For two's complement representation and 32 bit int

( n >> 31 | 1 ) * n
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What's wrong with just:

-1 * n

Using the minus minus equals plus principle

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That doesn't work for positive values:-1 * 1 = -1 – StarQuake Feb 25 '14 at 9:09
#include <stdio.h>
#include <conio.h>

void main()
    int num
    printf("enter a number")
    printf("output %d",(num*(num>0-num<0)
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Your syntax is strange. – deviantfan Jun 19 '14 at 11:03

if you want a purely mathematical way that isn't too costly, try

f(x) = (x*x)/x

or in C++

function abs(auto x) {return ((x*x)/x);}
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Doesn't work for negative values. – Toto Sep 9 '14 at 18:07

You have to combine bitwise not and addition.

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-1: No, he doesn't. If at all, he can. – phresnel Mar 19 '12 at 15:00
He has, if he's to avoid conditionals. – zvrba Mar 19 '12 at 15:07
@zvrba See phresnel's array indexing trick. That does not use bitwise not or conditionals. – Aaron Dufour Mar 19 '12 at 15:14
Comparison is also conditional as it must produce 0/1 result. – zvrba Mar 19 '12 at 15:25
This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post. - From Review – Michaël Azevedo Feb 26 at 15:16

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