The Standard specifies that hexadecimal constants like 0x8000 (larger than fits in a signed integer) are unsigned (just like octal constants), whereas decimal constants like 32768 are signed long. (The exact types assume a 16bit integer and a 32bit long.) However, in regular C environments both will have the same representation, in binary 1000 0000 0000 0000
.
Is a situation possible where this difference really produces a different outcome? In other words, is a situation possible where this difference matters at all?


Yes, it can matter. If your processor has a 16bit Now consider the following program:
When 32768 is considered It is best to augment the constants with 


On a 32 bit platform with 64 bit



Another examine not yet given: compare (with greaterthan or lessthan operators) 1 to both 32768 and to 0x8000. Or, for that matter, try comparing each of them for equality with an 'int' variable equal to 32768. 


Assuming
In most contexts, a numeric expression will be implicitly converted to an appropriate type determined by the context. (That's not always the type you want, though.) This doesn't apply to nonfixed arguments to variadic functions, such as any argument to one of the 


The difference would be if you were to try and add a value to the 16 bit int it would not be able to do so because it would exceed the bounds of the variable whereas if you were using a 32bit long you could add any number that is less than 2^16 to it. 


0x8000
and it didn't work expectedly because it's unsigned. But that's not really likely to happen. – Seth Carnegie Nov 9 '11 at 18:14