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So the reason for typedef:ed primitive data types is to abstract the low-level representation and make it easier to comprehend (uint64_t instead of long long type, which is 8 bytes).

However, there is uint_fast32_t which has the same typedef as uint32_t. Will using the "fast" version make the program faster?

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up vote 59 down vote accepted
  • int may be as small as 16 bits on some platforms. It may not be sufficient for your application.
  • uint32_t is not guaranteed to exist. It's an optional typedef that the implementation must provide iff it has an unsigned integer type of exactly 32-bits. Some have a 9-bit bytes for example, so they don't have a uint32_t.
  • uint_fast32_t states your intent clearly: it's a type of at least 32 bits which is the best from a performance point-of-view. uint_fast32_t may be in fact 64 bits long. It's up to the implementation.

See also: Exotic architectures the standard committee cares about.

... there is uint_fast32_t which has the same typedef as uint32_t ...

What you are looking at is not the standard. It's a particular implementation (BlackBerry). So you can't deduce from there that uint_fast32_t is always the same as uint32_t.

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Good answer. For completeness, one could maybe point out the difference to uint_least32_t too, which is the same as uint_fast32_t except it favours smaller store rather than speed. – Damon Dec 14 '11 at 11:14
Why would the fastest integer that is at least 32-bit in width to be larger than 32-bit? I always thought if there's less bits, there will be less bits CPU has to work on, thus faster. What am I missing here? – Shane Hsu Sep 3 '13 at 11:24
@ShaneHsu: say a 64-bit cpu will have a 64-bit bit summer, which sums 64-bit numbers in one cycle. It doesn't matter if all you want to do is to work on 32-bit numbers, it's not going to be faster than one cycle. Now, although it is not so on x86/amd64, 32-bit integers may not be even addressable. In such a case working on them requires additional ops to extract the 32-bits from, say, 64-bit aligned units. See also the linked question. C++ standard is written so that it could work on a machine that has 37-bit words... so no 32-bit type there at all. – ybungalobill Sep 3 '13 at 11:47

When you #include inttypes.h in your program, you get access to a bunch of different ways for representing integers.

The uint_fast*_t type simply defines the fastest type for representing a given number of bits.

Think about it this way: you define a variable of type short and use it several times in the program, which is totally valid. However, the system you're working on might work more quickly with values of type int. By defining a variable as type uint_fast*t, the computer simply chooses the most efficient representation that it can work with.

If there is no difference between these representations, then the system chooses whichever one it wants, and uses it consistently throughout.

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Why inttypes.h and not stdint.h? It seems that inttypes.h only contains various mildly useful fluff, plus an include of stdint.h? – Lundin Dec 14 '11 at 8:57

The difference lies in their exact-ness and availability.

The doc here says:

unsigned integer type with width of exactly 8, 16, 32 and 64 bits respectively (provided only if the implementation directly supports the type):



fastest unsigned unsigned integer type with width of at least 8, 16, 32 and 64 bits respectively


So the difference is pretty much clear that uint32_t is a type which has exactly 32 bits, and an implementation should provide it only if it has type with exactly 32 bits, and then it can typedef that type as uint32_t. This means, uint32_t may or may not be available.

On the other hand, uint_fast32_t is a type which has at least 32 bits, which also means, if an implementation may typedef uint32_t as uint_fast32_t if it provides uint32_t. If it doesn't provide uint32_t, then uint_fast32_t could be a typedef of any type which has at least 32 bits.

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But what is the reason that makes for example uint_fast32_t faster than uint32_t? Why it is faster? – Destructor Jul 6 '15 at 17:05
@PravasiMeet: Not all integers accessed in the same way. Some are easier to access than others. Easier means less-computation, more direct, which results in faster access. Now uint32_t is exactly 32-bit on all systems (if it exists), which might not be faster compared to the one which has, say, 64-bit. uint_fast32_t on the other hand at least 32 bit, could be even 64-bit. – Nawaz Jul 6 '15 at 17:31
@Destructor: On some processors, if a variable gets stored in a register which is longer, the compiler may have to add extra code to lop off any extra bits. For example, if uint16_t x; gets stored in a 32-bit register on the ARM7-TDMI, the code x++; may need to be evaluated as x=((x+1)<<16)>>16);. On compilers for that platform, uint_fast16_t would most likely be defined as synonymous with uint32_t to avoid that. – supercat Mar 7 at 20:51

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