Tizen Native API  4.0
Ecore Timer functions

Ecore provides very flexible timer functionality. The basic usage of timers, to call a certain function at a certain interval can be achieved with a single line:

 Eina_Bool my_func(void *data) {
    do_funky_stuff_with_data(data);
    return ECORE_CALLBACK_RENEW;
 }
 ecore_timer_add(interval_in_seconds, my_func, data_given_to_function);
Note:
If the function was to be executed only once simply return ECORE_CALLBACK_CANCEL instead.

An example that shows the usage of a lot of these:

Functions

double ecore_timer_precision_get (void)
void ecore_timer_precision_set (double precision)
 Sets the precision to be used by timer infrastructure.
char * ecore_timer_dump (void)
Ecore_Timerecore_timer_add (double in, Ecore_Task_Cb func, const void *data)
Ecore_Timerecore_timer_loop_add (double in, Ecore_Task_Cb func, const void *data)
void * ecore_timer_del (Ecore_Timer *timer)

Typedefs

typedef Eo Ecore_Timer

Typedef Documentation

typedef Eo Ecore_Timer

A handle for timers


Function Documentation

Ecore_Timer* ecore_timer_add ( double  in,
Ecore_Task_Cb  func,
const void *  data 
)

Creates a timer to call the given function in the given period of time.

Parameters:
inThe interval in seconds.
funcThe given function. If func returns 1, the timer is rescheduled for the next interval in.
dataData to pass to func when it is called.
Returns:
A timer object on success, NULL on failure.

This function adds a timer and returns its handle on success and NULL on failure. The function func will be called every in seconds. The function will be passed the data pointer as its parameter.

When the timer func is called, it must return a value of either 1 (or ECORE_CALLBACK_RENEW) or 0 (or ECORE_CALLBACK_CANCEL). If it returns 1, it will be called again at the next tick, or if it returns 0 it will be deleted automatically making any references/handles for it invalid.

Since :
2.3.1
Examples:
ecore_animator_example.c, ecore_exe_example.c, ecore_fd_handler_example.c, ecore_idler_example.c, ecore_thread_example.c, ecore_time_functions_example.c, ecore_timer_example.c, eina_tiler_01.c, and evas-events.c.
void* ecore_timer_del ( Ecore_Timer timer)

Deletes the specified timer from the timer list.

Parameters:
timerThe timer to delete.
Returns:
The data pointer set for the timer when ecore_timer_add was called. NULL is returned if the function is unsuccessful.

Note: timer must be a valid handle. If the timer function has already returned 0, the handle is no longer valid (and does not need to be delete).

Since :
2.3.1
Examples:
ecore_fd_handler_example.c, ecore_idler_example.c, ecore_timer_example.c, and evas-events.c.
char* ecore_timer_dump ( void  )

This function returns a human readable text-based log for Ecore_Timer events.

Returns:
A heap allocated string, or NULL. It MUST be freed manually by the caller using `free`.

It only contains an useful implementation if EFL is built in debug build profile, but it's safe to call it for any build profile.

Since :
2.3.1
Ecore_Timer* ecore_timer_loop_add ( double  in,
Ecore_Task_Cb  func,
const void *  data 
)

Creates a timer to call the given function in the given period of time.

Parameters:
inThe interval in seconds from current loop time.
funcThe given function. If func returns 1, the timer is rescheduled for the next interval in.
dataData to pass to func when it is called.
Returns:
A timer object on success, NULL on failure.

This is the same as ecore_timer_add(), but "now" is the time from ecore_loop_time_get() not ecore_time_get() as ecore_timer_add() uses. See ecore_timer_add() for more details.

Since :
2.3.1
double ecore_timer_precision_get ( void  )

Retrieves the current precision used by timer infrastructure.

Returns:
Current precision.
See also:
ecore_timer_precision_set()
Since :
2.3.1
void ecore_timer_precision_set ( double  precision)

Sets the precision to be used by timer infrastructure.

Parameters:
precisionAllowed introduced timeout delay, in seconds.

This sets the precision for all timers. The precision determines how much of an difference from the requested interval is acceptable. One common reason to use this function is to increase the allowed timeout and thus decrease precision of the timers, this is because less precise the timers result in the system waking up less often and thus consuming less resources.

Be aware that kernel may delay delivery even further, these delays are always possible due other tasks having higher priorities or other scheduler policies.

Example: We have 2 timers, one that expires in a 2.0s and another that expires in 2.1s, if precision is 0.1s, then the Ecore will request for the next expire to happen in 2.1s and not 2.0s and another one of 0.1 as it would before.

Note:
Ecore is smart enough to see if there are timers in the precision range, if it does not, in our example if no second timer in (T + precision) existed, then it would use the minimum timeout.
Since :
2.3.1
Examples:
ecore_timer_example.c.