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In x86/amd64 world sizeof(long long) is 8.

Let me quote quite insightful 8 year old mail by Zack Weinberg:

Scott Robert Ladd writes:

On a 64-bit AMD64 architecture, GCC defines long long as 64 bits, the same as a long.

Given that certain 64-bit instructions (multiply) produce 128-bit results, doesn't it seem logical the long long be defined as 128 bits?

No, for two reasons:

  1. The choice of 64-bit 'long long' has been written into the ABI of most LP64-model operating systems; we can't unilaterally change it.

  2. This is actually the correct choice, as it removes the aberration that makes 'long' not the widest basic integral type. There is lots and lots of code in the wild written to the assumption that sizeof(long) >= sizeof(size_t) - this is at least potentially broken by ABIs where long long is wider than long.

    (This was an extremely contentious topic during the development of C99. As best as I can tell from an outside perspective, 'long long' was only standardized due to pressure from Microsoft who can't for some reason implement an LP64 model. Everyone else hated the idea of making 'long' not necessarily the widest basic integral type.)

Best current practice appears to be to provide an "extended integral type" __int128. This doesn't have the problems of 'long long' because it's not a basic integral type (in particular, it cannot be used for size_t).


long long is widest basic integral type. It's 64-bit long on any non-dead-old architectures/ABIs I know. This allows for going with simple cross-platform (well, at least for many 32/64-bit architectures) typedefs:

typedef char               s8;
typedef unsigned char      u8;
typedef short              s16;
typedef unsigned short     u16;
typedef int                s32;
typedef unsigned int       u32;
typedef long long          s64;
typedef unsigned long long u64;

that are nicer than intXX_t, because:

  • they use same underlying type for 64-bit integers on different platforms
  • allows avoiding verbose PRId64/PRIu64
    (I am well aware that Visual C++ supports %lld/%llu only since 2005)

But how portable this solution is can be expressed by answers to the following question.

What are the architectures/ABIs where sizeof(long long) != 8?

If you cannot provide any recent/modern ones, then go ahead with the old ones, but only if they are still in use.

share|improve this question
Btw, typedef int s32 fails on implementations with a 16 bit int, of which there are a few microcontrollers kicking about. Obviously this has nothing to do with long long, which means that your plans for s32 are irrelevant to the question you're asking :-) But I think you're more likely to trip over s32 than s64. –  Steve Jessop Jul 15 '12 at 12:48
@SteveJessop: Sure. Question is about long long alone, but for usual purposes I am indeed concerned only about platforms where char, short and int are respectively 8-, 16- and 32-bit long. –  przemoc Jul 15 '12 at 12:52
Is it really common to assume sizeof(long)>=sizeof(size_t)? I've always assumed the opposite... –  dreamlax Jul 15 '12 at 12:55
@dreamlax: I'm not familiar with that debate, but I assume that there was code around at the time that stored sizes and offsets in an unsigned long. I'm not sure that's actually much better style than whatever Windows code stores long in an int, that prevented MS implementing LP64. But C89 did in fact guarantee that size_t was an "integral type", and "integral type" in C89 meant just the basic ones required in the standard. So it was a breaking change that C99 allows size_t to be a bigger type than unsigned long, since C89 forbids it. –  Steve Jessop Jul 15 '12 at 12:58
long long was not Microsoft's choice. It was standardized because of existing practice and the need for a 64-bit type on 32-bit systems where the prevalent ABI already had long as 32-bit. –  R.. Jul 26 '12 at 4:47

2 Answers 2

up vote 7 down vote accepted

TI TMS320C55x architecture has CHAR_BIT of 16-bit and long long of 40-bit. Although the 40-bit long long violates ISO, sizeof (long long) is different from 8.

Actually nearly all the C99 implementations with CHAR_BIT > 8 have sizeof (long long) != 8.

TMS320C55x Optimizing C/C++ Compiler User’s Guide (2003) http://www.ti.com/lit/ug/spru281f/spru281f.pdf

share|improve this answer
Heh. Although the question clearly asks for sizeof(long long) != 8, I think based on the motivation that the questioner really wants to know about implementations where long long has a width other than 64 bits. I suppose it's possible that the questioner has already ensured CHAR_BIT == 8 in the portability plan, for example by requiring Posix. –  Steve Jessop Jul 15 '12 at 12:45
@SteveJessop: You're right. But I did not mention it in the question to get broader spectrum of answers, i.e. having more informative (thus interesting) thread here. –  przemoc Jul 15 '12 at 12:50
Should have renamed the type slightly longer to avoid ISO conflict. –  dreamlax Jul 15 '12 at 12:50
Doesn't it make sizeof(long long) == 40/CHAR_BIT == 2.5? –  ugoren Jul 15 '12 at 13:18
@ugoren Actually sizeof (long long) == 4 in this architecture. The remaining 24 bits are padding bits. –  ouah Jul 15 '12 at 13:25

Your "cross-platform" typedefs are just misguided. The correct ones are

#include <stdint.h>
typedef int8_t s8;
typedef uint8_t u8;
typedef int16_t s16;
share|improve this answer
Apparently you missed the points of introducing these typedefs. I am well aware of intXX_t, heck I even referred to them. My solution is not intended to be "works everywhere" one (would be nice, though), but "works on majority of used platforms". But you are off-topic for an answer, referring to my introduction, yet leaving actual question unanswered. –  przemoc Jul 26 '12 at 7:10
While it may not answer the question, I believe my answer addresses why the intended application of your question is misguided. It would have been hard to post just a comment given that I wanted to illustrate it with the actual typedefs. –  R.. Jul 27 '12 at 2:17
Poor excuse. You could illustrate it in comment too, e.g. by writing "typedef int8_t s8 and so on" and everyone would clearly understand you. –  przemoc Jul 27 '12 at 7:49

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