There seems to be no perfect way. The root of the problem is that `clock_t`

can be either integer or floating point.

**clock_t can be a floating point type**

As Bastien Léonard mentions for POSIX (go upvote him), C99 N1256 draft 7.23.1/3 also says that:

[clock_t is] arithmetic types capable of representing times

and 6.2.5/18:

Integer and floating types are collectively called arithmetic types.

and the standard defines arithmetic type as either integers or floating point types.

**If you will divide by CLOCKS_PER_SEC, use long double**

The return value of `clock()`

is implementation defined, and the only way to get standard meaning out of it is to divide by `CLOCKS_PER_SEC`

to find the number of seconds:

```
clock_t t0 = clock();
/* Work. */
clock_t t1 = clock();
printf("%Lf", (long double)(t1 - t0));
```

This is good enough, although not perfect, for the two following reasons:

there seems to be no analogue to `intmax_t`

for floating point types: How to get the largest precision floating point data type of implemenation and its printf specifier? So if a larger floating point type comes out tomorrow, it could be used and break your implementation.

if `clock_t`

is an integer, the cast to float is well defined to use the nearest float possible. You may lose precision, but it would not matter much compared to the absolute value, and would only happen for huge amounts of time, e.g. `long int`

in x86 is the 80-bit float with 64-bit significant, which is millions of years in seconds.

Go upvote lemonad who said something similar.

**If you suppose it is an integer, use %ju and uintmax_t**

Although `unsigned long long`

is currently the largest standard integer type possible:

so it is best to typecast to the largest unsigned integer type possible:

```
#include <stdint.h>
printf("%ju", (uintmax_t)(clock_t)1);
```

`uintmax_t`

is guaranteed to have the size of the largest possible integer size on the machine.

`uintmax_t`

and its printf specifier `%ju`

were introduced in c99 and gcc for example implements them.

As a bonus, this solves once and for all the question of how to reliably `printf`

integer types (which is unfortunately not the necessarily the case for `clock_t`

).

What could go wrong if it was a double:

- if too large to fit into the integer, undefined behavior
- much smaller than 1, will get rounded to 0 and you won't see anything

Since those consequences are much harsher than the integer to float conversion, using float is likely a better idea.

**On glibc 2.21 it is an integer**

The manual says that using `double`

is a better idea:

On GNU/Linux and GNU/Hurd systems, clock_t is equivalent to long int and CLOCKS_PER_SEC is an integer value. But in other systems, both clock_t and the macro CLOCKS_PER_SEC can be either integer or floating-point types. Casting CPU time values to double, as in the example above, makes sure that operations such as arithmetic and printing work properly and consistently no matter what the underlying representation is.

In glibc 2.21:

`clock_t`

is `long int`

:

`clock()`

in Linux is implemented with `sys_clock_gettime`

:

`man clock_gettime`

, tells us that it returns a `struct timespec`

which in GCC contains `long int`

fields.

So the underlying implementation really returns integers.

**See also**