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This might be very basic or even silly to experts here but I wanted to get my head around this. Most of the times I generally write hex values like this in C:

unsigned int a = 0xFFFF1232;

Let's say I am trying to extract the first and last 16-bits then I can simply do:

unsigned short high = a >> 16; // Gives me 0xFFFF
unsigned short low = a & 0x0000FFFF; // Gives me 0x00001232 which is then stored as 0x1232

In some of the code I am reading I have come across the following:

unsigned short high = a >> 16; 
unsigned short low = a & 0xFFFF; 

I have two questions

  • When you are ANDing a 32-bit value with a mask, why do people write 0xFFFF instead of 0x0000FFFF? Is it to keep it compact?
  • Is it always safe to write 0x0000FFFF as 0xFFFF? Is it interpreted differently in any context?
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up vote 7 down vote accepted

They're completely synonymous. Leaving out the leading zeros makes it a little more readable.

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I think which one is "more readable" here is arguable and subject to interpretation, but +1. – Chris Lutz Dec 3 '10 at 22:38
I'd rather say "less readable" ( ex: today is 00000002010/00000000012/00000000004). – ruslik Dec 3 '10 at 22:38
@xscott: it's perfecty legal to write char c = 0x000000000000000000001; you'll receive warning only when the actual value (and not its representation) will exceed the size of the destination, – ruslik Dec 3 '10 at 22:48
The problem is with unsigned int a = 0xFFFF1232; on a smaller processor. – UncleO Dec 3 '10 at 22:51
&ruslik, you're right. – xscott Dec 3 '10 at 22:51

They are identical.

And, you're making an assumption that ints are always 32 bits long. If your platform happened to use 64-bit ints would you write it like this?

 unsigned short low = a & 0x000000000000FFFF; // ouch. Did I count them right?

And there's another reason why you shouldn't waste time putting in leading zeroes: You'll try and do it with decimals next, which is a Bad Idea:

int x = 00000377

printf("%d\n", x); // 255! WTF....
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Yes... I would write it that way. If you put too many zeros in, it doesn't hurt anything (might give a compiler warning). If you put too few in, likewise... but if you try to put the right width in, you've at least attempted to document what you think is happening here. – jkerian Dec 3 '10 at 22:47

In your example low is a short (typically 16bit). So the leading zeroes are not only redundant, they suggest a 32bit result is expected, and in this case the upper bits are discarded, so arguably it makes the intent of the code clearer.

In fact in this case

unsigned short low = a ;

would suffice, though is perhaps less clear.

Further you should not assume that the integer widths are appropriate and use the <stdint.h> types instead:

uint32_t a = 0xFFFF1232;
uint16_t = a >> 16; 
uint16_t = a & 0xFFFF; 

If you are using VC++ which does not supply that header, you can use this implementation

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Yes, but remember that the & operation will be performed between two ints, with the result being demoted to short. – Roddy Dec 3 '10 at 22:43
short low = a isn't portable if short is > 16 bits... – Roddy Dec 3 '10 at 22:47
@Roddy: That is true, but using such types for bit-width manipulation is itself a bad idea. I'd write uint16_t low = a ; personally. Actually I wouldn't, I'd leave the bit mask in for clarity of intent. – Clifford Dec 3 '10 at 23:01

Something like 0x1 is called a literal, which defaults to be an int type. This is not necessarily 32 bits, depending on the compiler or platform, so yes, there is a context in which it is not safe to leave off the leading zeroes.

For example, in embedded systems, it is common to encounter int types that are only 16 bits long. If you want a longer integer, you need to use long int.

In that case, the compiler will notice if you forgot to append "L" to the hex literal, to indicate that you wanted the longer type.

unsigned int a = 0xFFFF1234;

would be a compiler error at best, or an undetected bug at worst. You would need to use

unsigned long int a = 0xFFFF1234L;


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Compilers wont notice about leading zeros for long literals. They will look at if the binary result fits, not the textual representation – Roddy Dec 3 '10 at 22:50

In your case 0x0000FFFF and 0xFFFF are identical.

This woud not be the case if your variables weren't unsigned: a 16-bits value of 0xFFFF means -1, which is 0xFFFFFFFF in 32 bits.

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