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I'm trying to port my code to 64bit.

I found that C++ provides 64bit integer types, but I'm still confused about it.

First, I found four different 64bit ints:


and their unsigned counterparts. I tested them using sizeof() and they are 8 byte so they are 64bit.

What's the different between them? What is the meaning of the least and fast types? What about intmax_t?

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Those typedefs are worth knowing about, but are you sure that you're looking at the right problem? "Porting to 64 bit" shouldn't generally require that you change your types. In the best case you just recompile. – Kerrek SB Feb 16 '12 at 20:26
@KerrekSB: Excellent point. I've updated my answer to address that also. – Ben Voigt Feb 16 '12 at 20:32
possible duplicate of What is the difference between intXX_t and int_fastXX_t? – Bo Persson Feb 16 '12 at 21:31

2 Answers 2

up vote 30 down vote accepted

On your platform, they're all names for the same underlying data type. On other platforms, they aren't.

int64_t is required to be EXACTLY 64 bits. On architectures with (for example) a 9-bit byte, it won't be available at all.

int_least64_t is the smallest data type with at least 64 bits. If int64_t is available, it will be used. But (for example) with a 9-bit byte machine, this could be 72 bits.

int_fast64_t is the data type with at least 64 bits and the best arithmetic performance. It's there mainly for consistency with int_fast8_t and int_fast16_t, which on many machines will be 32 bits, not 8 or 16. In a few more years, there might be an architecture where 128-bit math is faster than 64-bit, but I don't think any exists today.

If you're porting an algorithm, you probably want to be using int_fast32_t, since it will hold any value your old 32-bit code can handle, but will be 64-bit if that's faster. If you're converting pointers to integers (why?) then use intptr_t.

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+1, good explanation. – ildjarn Feb 16 '12 at 20:23
"On architectures with (for example) a 9-bit byte, it won't be available at all." Perhaps interesting to mention is that the original POSIX definition of intN_t (as an extension to C90) allowed padding, so you could have a 72-bit int64_t of which 8 bits are used for padding. – hvd Feb 16 '12 at 20:27
correct me if i am wrong : about int64_t , if i have a 8bit platform it will defined , and if i have other platform that is not 64bit it will not define , is that OK? ; about int_least64_t : it will define only if i have a 64bit platform at least or big than 64bit platform but if the platform less than 64bit it will not define , is that true and in the last int_fast64_t is the default for example if i have a 64bit platform it will defined as _int64 if i and so on but with condition to be 8bit architecture at least , and thank you . – user722528 Feb 16 '12 at 20:52
i edit my post check it please – user722528 Feb 16 '12 at 20:53
If bytes are 8 bits, it's still possible (even though it's unlikely) that no 64-bit type exists, and in that case, int64_t will not be defined. And 4 bit bytes are not allowed; CHAR_BIT must be at least 8. – hvd Feb 16 '12 at 21:07

int64_t has exactly 64 bits. It might not be defined for all platforms.

int_least64_t is the smallest type with at least 64 bits.

int_fast64_t is the type that's fastest to process, with at least 64 bits.

On a 32 or 64-bit processor, they will all be defined, and will all have 64 bits. On a hypothetical 73-bit processor, int64_t won't be defined (since there is no type with exactly 64 bits), and the others will have 73 bits.

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