Why did these two program behave differently in ANSI C? [duplicate]

Possible Duplicate:
A riddle (in C)

1.

``````main()
{

if(-1<(unsigned char)1)
printf("-1 is less than (unsigned char)1:ANSI semantics");
else
printf("-1 NOT less than (unsigned char)1:K&R semantics");
}
``````

2.

``````int array[] = {23,41,12,24,52,11};
#define TOTAL_ELEMENTS (sizeof(array)/sizeof(array[0]))
main()
{
int d = -1,x;
if(d<=TOTAL_ELEMENTS -2)
x = array[d+1];
}
``````

The first convert unsigned char 1 to a signed variable in ANSI C, while the second program convert d to an unsigned int that makes the condition expression return false in ANSI C. Why did they behave differently?

• In your second code example, do you mean "array" instead of "arrary"? – mweiss Feb 1 '09 at 9:56
• See also this similar question. – John Carter Feb 1 '09 at 10:26

For the first one the right-hand side is an unsigned char, and all unsigned char values fit into a signed int, so it is converted to signed int.

For the second one the right-hand side is an unsigned int, so the left-hand side is converted from signed int to unsigned int.

starblue explained the first part of your question. I'll take the second part. Because `TOTAL_ELEMENTS` is a `size_t`, which is unsigned, the int is converted to that unsigned type. Your size_t is so that int cannot represent all values of it, so the conversion of the `int` to `size_t` happens, instead of the `size_t` to the `int`.

Conversion of negative numbers to unsigned is perfectly defined: The value wraps around. If you convert `-1` to an `unsigned int`, it ends up at `UINT_MAX`. That is true whether or not you use twos' complement to represent negative numbers.