Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I came across the data type int32_t in a C program recently. I know that it stores 32 bits, but don't int and int32 do the same?

Also, I want to use char in a program. Can I use int8_t instead? What is the difference?

To summarize: what is the difference between int32, int, int32_t, int8 and int8_t in C?

share|improve this question

2 Answers 2

up vote 37 down vote accepted

Between int32 and int32_t, (and likewise between int8 and int8_t) the difference is pretty simple: the C standard defines int8_t and int32_t, but does not define anything named int8 or int32 -- the latter (if they exist at all) is probably from some other header or library (most likely predates the addition of int8_t and int32_t in C99).

Plain int is quite a bit different from the others. Where int8_t and int32_t each have a specified size, int can be any size >= 16 bits. At different times, both 16 bits and 32 bits have been reasonably common (and for a 64-bit implementation, it should probably be 64 bits).

On the other hand, int is guaranteed to be present in every implementation of C, where int8_t and int32_t are not. It's probably open to question whether this matters to you though. If you use C on small embedded systems and/or older compilers, it may be a problem. If you use it primarily with a modern compiler on desktop/server machines, it probably won't be.

Oops -- missed the part about char. You'd use int8_t instead of char if (and only if) you want an integer type guaranteed to be exactly 8 bits in size. If you want to store characters, you probably want to use char instead. Its size can vary (in terms of number of bits) but it's guaranteed to be exactly one byte. One slight oddity though: there's no guarantee about whether a plain char is signed or unsigned (and many compilers can make it either one, depending on a compile-time flag). If you need to ensure its being either signed or unsigned, you need to specify that explicitly.

share|improve this answer
What about bool and bool_t? Are they the same? – linuxfreak Jan 25 '13 at 5:40
@linuxfreak: Not sure about bool_t -- never heard of that one before. The C standard defines _Bool as a built-in type. bool is defined only if you #include <stdbool.h> (as a macro that expands to _Bool). – Jerry Coffin Jan 25 '13 at 5:41
You said "for a 64-bit implementation, (int) should probably be 64 bits". In practice, int is 32-bits on all common 64-bit platforms including Windows, Mac OS X, Linux, and various flavors of UNIX. One exception is Cray / UNICOS but they are out of fashion these days. – Sam Watkins Nov 18 '14 at 5:53
@SamWatkins: Yes, that's why I carefully said "should be", not "is". The standard says it's "the natural size suggested by the architecture", which (IMO) means on a 64-bit processor, it really should be 64 bits (though, for better or worse, you're quite right that it usually isn't). From a more practical viewpoint, it is awfully handy to have a 32-bit type among the types in C89, and if int is 64 bits, long has to be at least 64 bits too, so there'd often be no 32-bit type. – Jerry Coffin Nov 18 '14 at 6:43
You write "If you want to store characters, you probably want to use char instead. Its size can vary (in terms of number of bits) but it's guaranteed to be exactly one byte" <--- Are you taking an ancient definition of byte, where byte doesn't have to be 8 bits? If you're using a non-ancient definition of byte i.e. byte=8 bits, then what do you mean when you say a char can vary in how many bits it is but is always one byte? – barlop Oct 19 at 20:28

The _t data types are typedef types in the stdint.h header, while int is an in built fundamental data type. This make the _t available only if stdint.h exists. int on the other hand is guaranteed to exist.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.