Gets process and waited-for child process times
#include <sys/times.h>
clock_t times (buffer)
struct tms *buffer;
The times subroutine fills the tms structure pointed to by buffer with time-accounting information. The tms structure is defined in <sys/times.h>.
All times are measured in terms of the number of clock ticks used.
The times of a terminated child process is included in the tms_cutime and tms_cstime elements of the parent when the wait or waitpid subroutine returns the process ID of the terminated child. If a child process has not waited for its children, their times are not included in its times.
Applications should use sysconf(_SC_CLK_TCK) to determine the number of clock ticks per second as it may vary from system to system.
Item | Description |
---|---|
*buffer | Points to the tms structure. |
Upon successful completion, the times subroutine returns the elapsed real time, in clock ticks, since an arbitrary point in the past (for example, system startup time). This point does not change from one invocation of the times subroutine within the process to another. The return value may overflow the possible range of type clock_t. If the times subroutine fails, (clock_t)-1 is returned, and the errno global variable is set to indicate the error.
Timing a Database Lookup
#include <sys/times.h>
#include <stdio.h>
...
void start_clock(void);
void end_clock(char *msg);
...
static clock_t st_time;
static clock_t en_time;
static struct tms st_cpu;
static struct tms en_cpu;
...
void
start_clock()
{
st_time = times(&st_cpu);
}
/* This example assumes that the result of each subtraction is within the range of values that can
be represented in an integer type. */
void
end_clock(char *msg)
{
en_time = times(&en_cpu);
fputs(msg,stdout);
printf("Real Time: %jd, User Time %jd, System Time %jd\n",
(intmax_t)(en_time - st_time),
(intmax_t)(en_cpu.tms_utime - st_cpu.tms_utime),
(intmax_t)(en_cpu.tms_stime - st_cpu.tms_stime));
}