In a 128-bit RISC-V (or other 128-bit machine), how big are "long" and "long long" data types in C/C++?

To clarify: what are the sizes that an implementer of a compiler might be expected to use when writing the limits.h file for such a machine, in the absence of other implementations to conform to?


They can be any size the compiler writer wanted, subject to them being at least as large as their predecessor type (long int for long long int and int for long int) and satisfying the minimum ranges set out in the standards.

See, for example, Numerical limits in C11, which states the minimum range required:

long int
    LONG_MIN           -2147483647 // −(2^31 − 1)
    LONG_MAX           +2147483647 //   2^31 − 1
long long int
    LLONG_MIN -9223372036854775807 // −(2^63 − 1)
    LLONG_MAX +9223372036854775807 //   2^63 − 1

Note that these aren't your full two's complement range since they have to account for the other two encoding schemes as well, ones' complement and sign-magnitude, both of which have the concept of negative zero.

If you really want to know, you can just look up those values in the limits.h header file, or compile and run:

#include <stdio.h>
#include <limits.h>

int main (void) {
    printf ("BITS/CHAR %d\n", CHAR_BIT);
    printf ("CHARS/SHORT %d\n", sizeof(short));
    printf ("CHARS/INT %d\n", sizeof(int));
    printf ("CHARS/LONG %d\n", sizeof(long));
    printf ("CHARS/LLONG %d\n", sizeof(long long));
    putchar ('\n');

    printf ("SHORT MIN %d\n", SHRT_MIN);
    printf ("SHORT MAX %d\n", SHRT_MAX);
    printf ("INT MIN %d\n", INT_MIN);
    printf ("INT MAX %d\n", INT_MAX);
    printf ("LONG MIN %ld\n", LONG_MIN);
    printf ("LONG MAX %ld\n", LONG_MAX);
    printf ("LLONG MIN %lld\n", LLONG_MIN);
    printf ("LLONG MAX %lld\n", LLONG_MAX);
    return 0;

On my system, a fairly bog-standard one (and slightly reformatted to look pretty):

BITS/CHAR      8
CHARS/INT      4

SHORT MIN                 -32768
SHORT MAX                  32767
INT MIN              -2147483648
INT MAX               2147483647
LONG MIN             -2147483648
LONG MAX              2147483647
LLONG MIN   -9223372036854775808
LLONG MAX    9223372036854775807

So it looks like, on this system, I have two's complement (the 8/7 mismatch on the last digit of negative/positive numbers), no padding bits, 16-bit short int, 32-bit int and long int and 64-bit long long int.

If you run similar code in your own environment, that should be able to tell you similar information for it.

  • 2
    There is a second constraint on the size of long long: It must be at least 64 bits. That's guaranteed by the C standard. – cmaster Aug 10 '15 at 5:27
  • 1
    @cmaster: actually, the phrase "64 bits" is seen only thrice in C11, twice in relation to IEC 60559 floating point format and once for the exact-width integer types. It is not mentioned at all for the normal integer types though you could extrapolate the ranges (which are specified) to assume 64 bits are required. But it's the ranges that are mandated specifically rather than the width. Of course, I may be wrong, it wouldn't be the first time. But I'd need a citation of the standard to convince me :-) – paxdiablo Aug 10 '15 at 5:36
  • 1
    @paxdiablo: The C11 defines bit in §3.5 as unit, that is large enough to hold two values. It also mentions term mathematically defined in §6.5/p5. By pure math, you can store exactly 2^n unique values in n-bit entity, The minimum range of long long int implies abs(LLONG_MIN) + LLONG_MAX + 1 unique values (extra one for zero). Result of ceil(log2(abs(LLONG_MIN) + LLONG_MAX + 1)) is 64, thus it's the minimum width in bits for that type. Note that this is not neccesiraly implies eight bytes, since CHAR_BIT is implementation-defined and can be different from eight. – Grzegorz Szpetkowski Aug 10 '15 at 6:38
  • @Grzegorz, though I appreciate the effort, that seems like a huge amount of work (and implication) to deliver a piece of information that's pretty much useless, especially as you'd need to also take into account any padding bits may exist, further "disconnecting" the range from the width. I think I'll stick with the ranges since they deliver information that's of far more use :-) – paxdiablo Aug 10 '15 at 6:45

Include the limits.h header and print the size of the wanted type.

 #include <limits.h>

int main () {

printf ("Size of long long is :  %d\n", sizeof(long long));

return 0;

According to the standard, the named non-numeric signed integer types are:

Type name      Possible size
signed char    — 8
short          — 16
int            — 32
long           — 64
long long      — 128
intmax_t       — 256

(By 'non-numeric', I mean ignoring int_least8_t, int_fast16_t and int32_t, etc.)

The sizes listed are not those mandated by the C standard, but they are a standard progression with twice as many bits in each successive type. On a 128-bit machine, it would be reasonable to suppose that long long would be 128 bits long. If the compiler writer wanted to support 256-bit types, it would not be outlandish to make intmax_t into a 256-bit type. But beyond that, you've run out of names. Normally, some of these types share the same sizes.

All the standard requires is the no type earlier in the list is longer than a type later in the list, that char is at least 8 bits, that short and int are at least 16 bits, that long is at least 32 bits, and that long long is at least 64 bits.

  • 1
    Where did you see that long long is 128bit in the standard? I can only find that it is at least 64bit. – galinette Jan 9 '17 at 15:25
  • @galinette: the standard only says 'minimum 64 bits'. The 128 bit example comes from a hypothetical 128-bit CPU type. – Jonathan Leffler Jan 9 '17 at 15:35

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