# how to mask out 'upper half' of long int

I have a question about constructing bitmasks in C. I need to mask out the least-significant half of a 'long int', so that I am left with only the upper half. I need to ensure that it masks out half no matter if I am on a 64-bit or 32-bit platform. I see that __WORD_SIZE is defined in limits.h. Initially I am doing it like this:

``````#define UPPER(X) ( X & ( ~0 << (__WORDSIZE/2) ) )
``````

what is the most correct and efficient way to do it?

-
Do you mean mask out the lower half? –  Nosredna Jun 25 '09 at 2:42
you should probably put the second X into parens so you don't get fun order of operations behavior if you try to do UPPER(foo|bar) or something –  cobbal Jun 25 '09 at 3:45

I would suggest you use something like

``````#define UPPER(x) (x & (~0 << (sizeof(x) * 4)))
``````

This will work even if limits.h is not present or if for some reason __WORDSIZE is not defined. Moreover, it will also work for other types, so you could e.g. use it on an int, a short, a char, etc.
Any decent compiler will calculate the value of

``````sizeof(x) * 4
``````

at compile time (since they are both constants), which means you do not have to worry about any performance hit there.

EDIT: corrected error - sizeof returns size in bytes not bits, so we have to multiply by 4 (8 / 2) to get the correct result. Thanks to those who pointed that out.

EDIT 2: If you want to be really pedantic, you could use

``````#define UPPER(x) (x & (~0 << (sizeof(x) * CHAR_BITS / 2)))
``````

CHAR_BIT is a constant defined in limits.h - it specifies the number of bits in a character, and is platform specific. However, this isn't really necessary (in general), since AFAIK there are no platforms in general use ATM that use bytes of a non-standard size.

-
This is wrong. sizeof() doesn't return you the size in bits. Please correct. –  Igor Krivokon Jun 25 '09 at 1:40
I think that should be "#define UPPER(x) (x & (~0 << (sizeof(x) * 4)))" to convert sizeof() from bytes to bits (and divide by two). –  Justicle Jun 25 '09 at 1:54
Done - sorry 'bout that –  a_m0d Jun 25 '09 at 2:01
Please thank with comment upvotes :-) –  Justicle Jun 25 '09 at 2:07
Technically, you should use '#include <limits.h>' and CHAR_BITS, just in case the code is run on a 36-bit machine. –  Jonathan Leffler Jun 25 '09 at 2:07
``````#define UPPER(X) ( (X) & ( ~0L << ( ( sizeof(long) * CHAR_BIT ) / 2 ) ) )
``````
-

What you have is good. Constant propagation will collapse the `( ~0 << (__WORDSIZE/2) )` into a single value, so long as `__WORDSIZE` is constant, which it is.

-
cool. thanks. That is exactly what I was worried about, that the ops to reduce it had to be performed each time. –  mushroom_picker Jun 25 '09 at 0:51

I try not to be clever. I would do something like this:

``````static inline int UPPER(long int x) {
if (sizeof(long int) == 8)
return x & 0xffffffff00000000;
else if (sizeof(long int) == 4)
return x & 0xffff0000;
}
``````

Let the compiler and optimizer do the work, and the code is clear for any future maintainer. If supporting a 36-bit processor in the future is a concern, add an else clause that triggers some error condition, so you can deal with that when it comes up.

-
long int is allowed to be any number of bytes larger than or equal to 4, so to be truly general you would have an infinite number of cases, even ignoring such things as machines with non-8-bit bytes. –  Tyler McHenry Jun 25 '09 at 3:44
Sure, but is that the original question? It is unlikely that the size of an unsigned long will not be a multiple of 4 on typical processors today or in the near future. It is also unlikely that a processor would not have 8-bit bytes, except in some very specific embedded applications. So, I would make the code as clear and simple as I could. If I'm working on a processor with unusual-sized bytes, I expect there would be a considerable effort porting the rest of the code, and this is just one more thing to port. –  Neil Jun 25 '09 at 3:51
your code will run incorrectly on systems that have 32-bit long int such as windows –  Lưu Vĩnh Phúc May 7 '14 at 4:04