Yes, the range and size of type
short differ on different machines. It can even differ across different implementations on the same machine.
The most common representation is 16 bits, two's-complement, with no padding bits or trap representations, for a range of -32768 to +32767.
The C standard requires
short to cover at least a range of -32767 to +32767, but it can be bigger.
I've worked on systems where
short is 32 bits (Cray T3E) or even 64 bits (Cray T90).
If at all possible, you should write code that doesn't assume a particular range or size for
short, or for any of the other predefined types. Use
SHRT_MAX, defined in
<limits.h>, if you need the bounds, and use
sizeof (short), (or better,
sizeof obj where
obj is an object of type
short) if you need the size.
If you need a type that's exactly 16 bits, use
int16_t, defined in
<inttypes.h>. (Those headers were added in the 1999 version of the C standard, but most compilers should support them.)
In response to your comment asking about overflow:
Questions of overflow get a bit tricky when you're talking about type
short. Integer literals like
32767 are never of type
short; they're always of type
int or something even bigger. And operands of arithmetic operators have the "usual arithmetic conversions" applied to them first;
short operands are quietly promoted to
In C, there is no
+ operator for type
So consider this:
short x = 32767;
x = x + 1;
In the expression
x + 1, the operand
x is promoted from
1 is already of type
int). That yields a result of type
int, which will be
int is wide enough to store that value. (If it isn't, the overflow causes undefined behavior, but we'll ignore that.) Then the
32768 is converted from
short before being stored in
SHRT_MAX > 32767, there's no problem; the conversion yields the expected value of
32768, which is stored in
SHRT_MAX == 32767 (which is the most common case), then the conversion of the
short yields an implementation-defined value (or raises an implementation-defined signal), as described in C99 section 188.8.131.52.
Most commonly, the actual result is
-32768, which is representable as a
short if the system uses two's-complement (which almost all systems do). But strictly speaking, the code is not portable, and it could store some other arbitrary result in
x, or even terminate your program if the implementation decides to raise a signal (I don't know of any that do that).