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When do we need to use unsigned data type and when signed data type in C? And I want to know why we do it and how to decide which one we need.

marked as duplicate by Dan F, user529758, Pascal Cuoq, Macmade, talonmies Aug 8 '13 at 6:02

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Use signed data types when you need your variable to hold negative values. Be careful about overflows, as signed integer overflows result in undefined behavior.

Use unsigned data types when you know your variable only holds non-negative values, or bit patterns. Generally, they can hold higher maximum value than the signed data type of equal size. Unsigned integer overflows will wraparound.

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You should use unsigned int whenever you are positive that your value will always be positive. Also note that the maximum value for an unsigned int is 2^32 - 1, whereas the maximum value for a signed int is 2^31 - 1 since the first bit designates the sign.

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    "the maximum value for an unsigned int is 2^32 - 1" - no, it needn't. – user529758 Aug 7 '13 at 19:34
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    Are you an unsigned value? Yes! Are you sure? I'm positive! – Jiminion Aug 7 '13 at 19:36
  • @H2CO3 ...what? – gr3co Aug 7 '13 at 19:37
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    @gr3co "The type unsigned int in C has 32 bits" - not necessarily. – user529758 Aug 7 '13 at 19:40
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    @gr3co Some compilers have each of 16-bit, 24-bit, 36-bit and 64-bit ints, for example. – Pascal Cuoq Aug 7 '13 at 19:53
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There's a line of thought (to which I often try to adhere) that says unsigned should be used only for entities that really have no concept of a sign. For example, in a machine status register, each bit has a meaning but the register value as a whole has no possible sign. Hence you should use unsigned for such values.

For all the rest, use signed.

The problem with unsigned is that when used arithmetically in conjunction with signed values, the compiler must do some conversions. These can be non-intuitive and can lead to incorrect or unexpected arithmetic results. Here is a little article on the subject: http://soundsoftware.ac.uk/c-pitfall-unsigned

The trouble with this advice is that the standard library does not follow it. Many functions take a size parameter (eg strncpy) or return a size of type size_t (eg strlen), which is unsigned. The logic of this being unsigned is, I believe, that it allows sizes up to the maximum address space of the processor.

So it is a little confusing what the best line to take is. The compiler can warn you of sign conversions - see https://www.gnu.org/software/gsl/manual/html_node/GCC-warning-options-for-numerical-programs.html

  • Unfortunately, the behavior of C seems to have been driven more by expediency than by any consistent rationale. In most contexts, unsigned types don't behave as numbers, but instead represent members of an abstract algebraic ring. The behavior is inconsistent with mixed-sized types, however: the rationale which dictates that adding a signed int to an unsigned int should yield an unsigned int, would dictate that adding a signed long to an unsigned short should yield an unsigned short, but of course it doesn't. – supercat Dec 20 '13 at 21:29

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