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Is it the same? If no: what is the difference? If yes then why do you need this type?

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uint32_t (or however pre-C++11 compilers call it) is guaranteed to be a 32-bit unsigned integer; unsigned int is whatever unsigned integer the compiler likes best to call unsigned int, as far as it meets the requirements of the standard (which demands for it a 0-65535 minimum range).

Like int, unsigned int typically is an integer that is fast to manipulate for the current architecture (normally it fits into a register), so it's to be used when a "normal", fast integer is required.

uint32_t, instead, is used when you need an exact-width integer, e.g. to serialize to file, or when you require that exact range or you rely on unsigned overflow to happen exactly at 2^32-1.

For example, on a 16 bit-processor unsigned int will typically be 16 bits wide, while uint32_t will have to be 32 bits wide.


Incidentally, as pointed out by @Marc Glisse, while unsigned int is always present, uint32_t is not mandatory - a particular compiler implementation may not provide it. This is mostly because not all platforms can easily provide such a type (typically DSPs with weird word sizes).

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    Also, one is required to exist and not the other. – Marc Glisse Feb 16 '13 at 15:33
  • @user1511417: it makes no sense to ask which is better "a priori" - they both have their use, as outlined in the answer. – Matteo Italia Feb 16 '13 at 15:35
  • The uint32_t is also used when exact bit width access is needed, such as writing to hardware registers. – Thomas Matthews Feb 16 '13 at 17:01
  • uint_least32_t, however, is required to exist. Doesn't help with direct hardware access, but does help with minimum width requirements. – DevSolar Oct 28 '15 at 11:59
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    "0-65535 minimum range" is a slight understatement. It must have a [0, 2^N-1] range with N >=16, in order to support modulo 2^N arithmetic. – MSalters Oct 28 '15 at 13:04

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