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Two use cases for which I would consider short come to mind:

  1. I want an integer type that's at least 16 bits in size
  2. I want an integer type that's exactly 16 bits in size

In the first case, since int is guaranteed to be at least 16 bits and is the most efficient integral data type, I would use int. In the second case, since the standard doesn't guarantee that short's size is exactly 16 bit, I would use int16_t instead. So what use is short?

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possible duplicate of short int vs int –  nes1983 Apr 20 '12 at 22:51

5 Answers 5

up vote 4 down vote accepted

There is never a reason to use short in a C99 environment that has 16-bit integers; you can use int16_t, int_fast16_t or int_least16_t instead.

The main reasons for using short is backward compatibility with C89 or older environments, which do not offer these types, or with libraries using short as part of their public API, for implementing <stdint.h> itself, or for compatibility with platforms that do not have 16-bit integers so their C compilers do not provide int16_t.

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Also for APIs that use short as part of a structure or function interface (e.g. a function that takes short * as an argument). That's really the only reason I would ever use short in modern code. –  R.. Apr 21 '12 at 5:19

ISO/IEC 9899:1999 (C99) adds headers <stdint.h> and <inttypes.h> that provide what you need:

  • int16_t might not be defined, but if there is a 16-bit (exactly) integer type in the implementation, int16_t will be an alias for it.
  • int_least16_t is a type that is the smallest type that holds at least 16 bits. It is always available.
  • int_fast16_t is the fastest type that holds at least 16 bits. It is always available.

Similarly for other sizes: 8, 16, 32, 64.

There's also intmax_t for the maximum precision integer type. Of course, there's also an unsigned type for each of these: uint16_t etc.

These types are also present in C2011. They were not present in C89 or C90. However, I believe that the headers are available in some shape or form for most compilers, even those like MS Visual C, that do not claim to provide support for C99.

Note that I've given links to the POSIX 2008 versions of the <stdint.h> and <inttypes.h> headers. POSIX imposes rules on the implementation that the C standard does not:

§ Exact-width integer types

¶1 The typedef name intN_t designates a signed integer type with width N, no padding bits, and a two’s complement representation. Thus, int8_t denotes a signed integer type with a width of exactly 8 bits.

¶2 The typedef name uintN_t designates an unsigned integer type with width N. Thus, uint24_t denotes an unsigned integer type with a width of exactly 24 bits.

¶3 These types are optional. However, if an implementation provides integer types with widths of 8, 16, 32, or 64 bits, it shall define the corresponding typedef names.

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Yes, if you really want a particular data size you use int16_t, int32_t, etc.

int16_t is usually a platform-specific typedef from short (or whatever maps to 16 bits). On a 32-bit machine, int16_t may be typedef'd as short, on a 16-bit machine int16_t may be typedef as int.

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If you have a very large array you might want to use shorts.

You might find them useful for picking out pieces of some other data as part of a union.

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If you have a very large array of 16-bit values, you can also use an int16_t[]. –  larsmans Apr 21 '12 at 10:42

ANSI C specifies minimum value ranges for types. You can only be sure of the first case; not the second.

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You can be sure of int16_t having 16 bits width in C99. –  larsmans Apr 20 '12 at 22:58
@larsmans: yes, you can be sure that if it is defined then int16_t will have exactly 16 bits. You can't be sure it will be defined (in theory; this is one of those places where practice is simpler than the theory, in general, unless perhaps you're working on a Cray). –  Jonathan Leffler Apr 20 '12 at 23:06

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