# Width of int64_t, is it always 64 bits?

For the following code

static inline float fix2float(int64_t f)
{
return (float)f / (1 << 60); // <-- error here
}


The compiler is giving me these warnings.

warning: left shift count >= width of type
warning: division by zero


Why is the compiler giving these warnings when 64 > 60?

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1 is not a 64-bit number in your C implementation. It is an int, which is likely 32 bits.

The compiler does not look over an expression and see that there is an int64_t involved, therefore other arithmetic should use 64 bits. It builds up expressions from their parts. In the part (1 << 60), the compiler recognizes one and gives it a type of int, because that is what the C rules say to do with simple constant values (there are additional rules for hexadecimal notation, suffixes, and large values). So, 1 << 60 tries to shift an int by 60 bits. Since the int on your system is only 32 bits, the compiler warns you.

A better way to write this is return f * 0x1p-60f;. 0x1p-60f is a float constant with value 2–60.

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+1: I did not know that syntax for C99 hex exponents.... (that said, I don't think one should use this syntax without a prominent code comment explaining the magic) –  Norman Gray Apr 18 '13 at 14:18
@NormanGray: It’s been a part of the language for 13 years. It’s hardly “magic". –  Stephen Canon Apr 18 '13 at 15:29
It's C – only 13 years means it counts as a novelty (remember, some folk still think that non-K&R C is a pretty rad idea). But seriously, this syntax is unique to C as far as I'm aware, and it's at least somewhat arcane, therefore a prominent comment would be civil to the code's eventual reader. –  Norman Gray Apr 18 '13 at 20:56

In your code there is error not actually related to int64_t. In (1 << 60) expression both 1 and 60 are considered int (which is usually 32 bits). You should use modifier LL. Something like (1LL << 60).

#include <stdio.h>

int main()
{
printf("%llx\n", (1LL << 60));
return 0;
}


By the way please pay attention to printf() format. int64_t is actually long long (at least in most cases).

UPDATE: there is community voice that recommends to use somewhat different approach:

printf("%" PRIx64 "\n", (UINT64_C(1) << 60));


The issue here is at least in my area not all compilers properly implement these macros (here is one of possible proofs). But mainstream compilers should be happy. At least I'd not recommend to mix %lld and 1LL even in GCC (you could try, at least GCC 4.6.3 complains about such mix).

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In all cases, you can use "%" PRId64 to format int64_t, no need to assume it's an alias for long long. –  unwind Apr 18 '13 at 14:14
The proper way to write an int64_t constant with value 1 is INT64_C(1), not 1LL. The proper format specifier for it is PRId64, as in printf("%" PRId64 "\n",…);, after #include <inttypes.h>, of course. Also, x is for unsigned. If you want to print an int64_t with hexadecimal, you should convert it to uint64_t and print it with PRIx64. –  Eric Postpischil Apr 18 '13 at 14:16