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I have an open-source codebase that is written in both C and C++. I'm looking for an integer type that is guaranteed to be at least 64 bits wide, which can be reliably compiled on most OS X (Intel, 64-bit) and Linux boxes with open-source C and C++ compilers, without too much extra work on the end user's part. Windows and 32-bit client support are not important at this time.

I did some testing on OS X, and the latest GCC that ships with the developer tools does not support C+11 mode (and therefore does not seem to guarantee availability of long long). Clang does not support this, either, though it supports long long if C99 mode is enabled, after a certain version.

Is the general suggestion to use int64_t in place of long long, when portability is an important goal? Using the format specifiers seems painful.

Can I reliably cast an int64_t to long long (and likewise to the unsigned equivalent with uint64_t) to use it with existing functions and libraries that take long long as parameters? (And back again, of course.)

In that frame of mind, if I ship code that requires Clang functionality not in GCC, is Clang going to replace GCC as the compiler of choice on Linux? Is that compiler something I can expect, for the most part, when offering source code to end users?

Basically, I'd like to ask for some advice from other developers who have used both types for portable C and C++ code, who might have some suggestions on what might be the better long-term way to go, given the above goal in mind.

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gcc has had long long as an extension before c++11, so as long as you don't disable gcc-extensions you should be fine with using long long on gcc (Actually I don't think I've used/seen a compiler not offering long long for a long time). –  Grizzly Sep 17 '12 at 23:09
    
Note that int64_t can have underlying type long or long long among others, which can cause portability issues if overloading is needed. –  Mark B Sep 17 '12 at 23:41
    
Also consider typedef to make easy changes from platform to platform. –  imallett Sep 18 '12 at 5:48
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One thing to consider is that using overloads or templates with int64_t might select different versions on different systems. See this other question on int64_t vs long vs long long –  Bo Persson Sep 18 '12 at 9:00

2 Answers 2

up vote 12 down vote accepted

The types long long and unsigned long long are standard C and standard C++ types each with at least 64 bits. All compilers I'm aware of provide these types, except possibly when in a -pedantic mode but in this case int64_t or uint64_t won't be available with pre-C++ 2011 compilers, either. On all of the systems <stdint.h> is available, too. That is, as far as I can tell it doesn't matter much how you spell the type. The main goal of <stdint.h> is to provide the best match for a specific number of bits. If you need at least 64 bit but you also want to take advantage of the fasted implementation of such a type, you'd use int_least64_t or uint_least64_t from <stdint.h> or <cstdint> (in case of the latter, the names are defined in namespace std).

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I would sure like the standard to add a bigger type such as 128 or more, considering that in this day where cryptography is used a lot, you need such a type so you don't have to rely on many libraries. –  farmdve Sep 17 '12 at 23:26
    
I haven't seen a proposal for such a type (long long long?) although I'm aware that many system actually support 128 bit types by way of SIMD support: Send a proposal to WG14 and/or WG21! –  Dietmar Kühl Sep 17 '12 at 23:29
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long long long isn't necessary; a system that supports 128-bit integers can define extended integer types and define int128_t and uint128_t in terms of those types. –  Keith Thompson Sep 18 '12 at 0:19

Is the general suggestion to use int64_t in place of long long, when portability is an important goal?

I'd be very surprised if a compiler offered int64_t but not long long.

If long long is present, it must have at least 64 bits, so casting from (u)int64_t to (unsigned) long long is value-preserving.

If you need a type with exactly 64 bits, use (u)int64_t, if you need at least 64 bits, (unsigned) long long is perfectly fine, as would be (u)int_least64_t.

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