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What does a type followed by _t (underscore-t) represent?

Does anyone knows what the 't' in time_t, uint8_t, etc. stands for, is it "type" ? second, why declare this kind of new types, for instance size_t, couldn't it be just an int ?

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marked as duplicate by Mr Lister, Alok Save, Christian Rau, Bo Persson, lxt Mar 25 '12 at 13:40

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Yes, the t is for Type.

The reason for defining the new types is so they can change in the future. As 64-bit machines have become the norm, it's possible for implementations to change the bit-width of size_t to 64 bits instead of just 32. It's a way to future-proof your programs. Some small embedded processors only handle 16 bit numbers well. Their size_t might only be 16 bits wide.

An especially important one might be ptrdiff_t, which represents the difference between two pointers. If the pointer size changes (say to 64 or 128 bits) sometime in the future, your program should not care.

Another reason for the typedefs is stylistic. While those size_t might just be defined by

typedef int size_t;

using the name size_t clearly shows that variable is meant to be the size of something (a container, a region of memory, etc, etc).

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I think, it stands for type - a type which is possibly a typedef of some other type. So when we see int, we can assume that it is not a typedef of any type, but when we see uint32_t, it is most likely a typedef of some type. It is not a rule, but my observation, though there is one exception to this: wchar_t is not a typedef of any other type, yet it has _t.

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Yes, it probably stands for type or typedef, or something like that.

The idea between those typedefs is that you are specifying exactly that that variable is not a generic int, but it is the size of an object/the number of seconds since the UNIX epoch/whatever; also, the standard makes specific guarantees about the characteristics of those types.

For example, size_t is guaranteed to contain the size of the biggest object you can create in C - and a type that can do this can change depending on the platform (on Win32 unsigned long is ok, on Win64 you need unsigned long long, while on some microcontrollers with really small memory an unsigned short may suffice).

As for the various [u]intNN_t, they are fixed size integer types: while for "plain" int/short/long/... the standard do not mandate a specific size, often you'll need a type that, wherever you compile your program, is guaranteed to be of that specific size (e.g. if you are reading a binary file); those typedefs are the solution for this necessity. (By the way, there are also typedefs for "fastest integer of at least some size", when you just need a minimum guaranteed range.)

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