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.



From Bit Twiddling Hacks:



Branchless^{*}:
_{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 ifstatement. This doesn't imply that your compiler isn't able to emit branchfree assembly code for code that logically branches.} 


This code multiplies the value of If If When 


Assuming 32 bit signed integers (Java), you can write:
No multiplication, no branch. BTW, Note: This code may take more then 10x longer then conditional statement (8bit Verison). This may be useful for Hardware programming System C etc 


Bit shifting signed integers in the way you consider is undefined behaviour and thus not an option. Instead, you can do this:
No 


Try the following:



Use the ternary operator:



Here is another approach without



how about that:
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
what I did was basically to reverse this, so
I know it's a bit late but just had the same issue and landed here, hope this helps. 


One more way to do it:
Using the 


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



What's wrong with just:
Using the minus minus equals plus principle 





if you want a purely mathematical way that isn't too costly, try
or in C++



You have to combine bitwise not and addition. 

