Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I have a piece of code in C with the following:

a = b & ((1<<24) - 1);

If I am not mistaking, this is equivalent to:

a = b & 0xFFFFFF;

What is the benefit in terms of performance to write the first one? For me it is more complicated to read, but I suppose the guy who wrote that had a better C background than I have.


share|improve this question
They will compile to identical code, there is no performance benefit. I would write it your way (0xffffff), but it's been a while since I worked in C, I'm curious what reasons others might come up with for writing it the first way. – meagar May 25 '11 at 13:18
The only reason I'd write it with the bitshift is if I were making a macro or function parametrized by a bit count N rather than a constant 24. – R.. May 25 '11 at 13:24
Ok, thanks to all of you for your explanations which converge to show that it's only a way to understand the operation is done on 24 bits. – drolex May 25 '11 at 13:30

7 Answers 7

up vote 8 down vote accepted

In all likelihood, there isn't any performance difference since the compiler will figure out that ((1<<24) - 1) is a constant expression, and will evaluate it at compile time.

We can only speculate about why the original author of the code chose to write it the way they did. Perhaps they thought it better expressed the intent ("mask out all but the 24 least significant bits of b").

If that was their reasoning, I personally would tend to agree with them.

share|improve this answer
It's required to be able to make this determination, since knowing what's a constant expression is essential to initialization of static-storage-duration objects. A compiler would have to be maliciously bad to choose to evaluate this expression at runtime. – R.. May 25 '11 at 13:23

There is no difference in performance since the compiler will perform the calculation for you.

The first option may be used to explicitly clarify that you are using 24 set bits. This is harder to count in the second option.

share|improve this answer

I can't see any benefit from the performance point of view, as aix says.

To me, anyway, it appears clearer in the first version better communicates that the constant value is 2^24-1 than the latter form. Of course, I guess this is just an opinion.

share|improve this answer

If it isn't part of a larger block of code, I like your use of 0xFFFFFF better.

But, it can conceivably be part of a group of similar statements. Then the shift version is (arguably) better.

switch (binaryprefix) {
    default:       a = 0;                   break;
    case DECABIN:  a = b & ((1 <<  1) - 1); break;
    case HECTOBIN: a = b & ((1 <<  2) - 1); break;
    case KILOBIN:  a = b & ((1 <<  3) - 1); break;
    case MEGABIN:  a = b & ((1 <<  6) - 1); break;
    /* ... */
    case ZETTABIN: a = b & ((1 << 21) - 1); break;
    case YOTTABIN: a = b & ((1 << 24) - 1); break;
share|improve this answer

No benefit in performance for doing ((1<<24) - 1). It might be slower since it has to perform some operations (<< and -), while 0xFFFFFF is a constant. Best case the compiler will calculate the 1st at compile time and they'd be equivalent.

share|improve this answer

Generally, you should avoid using statements like the first.

The only scenario that i can think of that the first sentence would be preferable, is if the number 24 has a meaning. (Which should have been defined and named anyway.)

Like, if for some reason in this line of code it can be 24, and in a different place it might be 22.

share|improve this answer

Strictly speaking, the expression


is non-portable and may be undefined behaviour, because 1 is treated as an int, and the standard guarantees only 16 bits for an int. If you still happen to code for such an implementation... If a and b are ints, then you can safely deduce that the target are more modern implementations only, having ints with 32 or more bits, of course.

share|improve this answer
It is a legal C expression and can be used in a perfectly portable manner. Consider (sizeof(int) >= 4 ? (1<<24) : (1<<8)). – Tomas May 26 '11 at 8:08

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.