y=-1;
y=0xFFFFFFFF;
-1
is an expression of type int
, with the value negative one.
0xFFFFFFFF
is a constant of type int
, unsigned int
, long int
, or unsigned long int
, depending on the implementation. Its value is 4294967295
(232-1). Note that it never has a negative value.
If y
is of a signed integer type, the first line assigns the value -1
to y
. If y
is of an unsigned integer type, the value -1
is converted to y
's type, yielding the maximum value of its type.
If 4294967295
is within the range of y
's type, then the second line assigns the value 4294967295
to y
.
If it isn't, then if y
is of an unsigned type, the value 4294967295
is reduced modulo the maximum value of the type plus one. For example, if y
is of a 16-bit unsigned type, the value assigned is 65535
. If y
is of a signed type that's not big enough to hold 4294967295
, then the implicit conversion yields an implementation-defined result. Most commonly, the high-order bits are discarded, but that's not required.
For example, if y
is of a 32-bit signed integer type, then y=0xFFFFFFFF
will most likely assign the value -1
to y
.
Finally, converting an out-of-range value to a signed integer type can in principle raise an implementation-defined signal (starting with C99), but I don't know of any implementations that do this.
I've glossed over the possibility of padding bits. I've also ignored the possibility that y
is of a floating-point or complex type.
This answer could have been a lot shorter if you had told us how y
is declared, and what the range of y
's type is on the implementation you're using.
y
declared?sizeof(y)
on the system in question?y
, and the range and signedness of that type, that are relevant, not its size (at least not directly).