Tizen Native API
4.0
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This group discusses functions that are acting on Ecore's main loop itself or on events and infrastructure directly linked to it. Most programs only need to start and end the main loop, the rest of the functions discussed here are meant to be used in special situations, and with great care.
For details on the usage of ecore's main loop and how it interacts with other ecore facilities see: The Ecore Main Loop.
#define ECORE_CALLBACK_CANCEL EINA_FALSE |
Return value to remove a callback
#define ECORE_CALLBACK_DONE EINA_FALSE |
Return value to stop event handling
#define ECORE_CALLBACK_PASS_ON EINA_TRUE |
Return value to pass event to next handler
#define ECORE_CALLBACK_RENEW EINA_TRUE |
Return value to keep a callback
#define ECORE_VERSION_MAJOR EFL_VERSION_MAJOR |
Ecore version major number
#define ECORE_VERSION_MINOR EFL_VERSION_MINOR |
Ecore version minor number
A callback which is used to return data to the main function
A function which can be used to replace select() in the main loop.
A callback run for a task (timer, idler, poller, animator, etc).
This is the Ecore version information structure that can be used at runtime to detect which version of ecore is being used and adapt appropriately as follows for example:
#if defined(ECORE_VERSION_MAJOR) && (ECORE_VERSION_MAJOR >= 1) && defined(ECORE_VERSION_MINOR) && (ECORE_VERSION_MINOR > 0) printf("Ecore version: %i.%i.%i\n", ecore_version->major, ecore_version->minor, ecore_version->micro); if (ecore_version->revision > 0) { printf(" Built from Git revision # %i\n", ecore_version->revision); } #endif
void ecore_fork_reset | ( | void | ) |
Resets the ecore internal state after a fork.
Ecore maintains internal data that can be affected by the fork() system call which creates a duplicate of the current process. This also duplicates file descriptors which is problematic in that these file descriptors still point to their original sources. This function makes ecore reset internal state (e.g. pipes used for signalling between threads) so they function correctly afterwards.
It is highly suggested that you call this function after any fork() system call inside the child process if you intend to use ecore features after this point and not call any exec() family functions. Not doing so will cause possible misbehaviour.
Eina_Bool ecore_fork_reset_callback_add | ( | Ecore_Cb | func, |
const void * | data | ||
) |
Adds a function to be called by ecore_fork_reset().
func | The function to add. |
data | The data to pass to this function. |
This queues func
to be called (and passed data
as its argument) when ecore_fork_reset() is called. This allows other libraries and subsystems to also reset their internal state after a fork.
EINA_TRUE
on success, else EINA_FALSE
. Eina_Bool ecore_fork_reset_callback_del | ( | Ecore_Cb | func, |
const void * | data | ||
) |
This removes the callback specified.
func | The function to delete. |
data | The data passed to this function. |
This deletes the callback added by ecore_fork_reset_callback_add() using the function and data pointer to specify which to remove.
EINA_TRUE
on success, else EINA_FALSE
. Returns if an animator has ticked off during this loop iteration.
EINA_TRUE
if an animator has been called, EINA_FALSE
otherwise.There should be little need for anyone to use this - ever.
void ecore_main_loop_begin | ( | void | ) |
Runs the application main loop.
This function will not return until ecore_main_loop_quit is called. It will check for expired timers, idlers, file descriptors being watched by fd handlers, etc. Once everything is done, before entering again on idle state, any callback set as Idle_Enterer
will be called.
This function should be called once only from the same thread that initted ecore, eina etc. (ecore_init(), eina_init(), ...) and should never be nested. Never call it from within an instance of itself.
Each main loop iteration is done by calling ecore_main_loop_iterate() internally.
The polling (select) function used can be changed with ecore_main_loop_select_func_set().
The function used to check for file descriptors, events, and that has a timeout for the timers can be changed using ecore_main_loop_select_func_set().
void ecore_main_loop_glib_always_integrate_disable | ( | void | ) |
Disables always integrating GLib.
If ecore is compiled with --with-glib=always (to always call ecore_main_loop_glib_integrate() when ecore_init() is called), then calling this before calling ecore_init() will disable the integration. This is for apps that explicitly do not want this to happen for whatever reasons they may have.
Eina_Bool ecore_main_loop_glib_integrate | ( | void | ) |
Requests ecore to integrate GLib's main loop.
This will add a small overhead during every main loop interaction by checking GLib's default main context (used by its main loop). If it have events to be checked (timers, file descriptors or idlers), then these will be polled alongside with Ecore's own events, then dispatched before Ecore's. This is done by calling ecore_main_loop_select_func_set().
This will cooperate with previously set ecore_main_loop_select_func_set() by calling the old function. Similarly, if you want to override ecore_main_loop_select_func_set() after main loop is integrated, call the new select function set by this call (get it by calling ecore_main_loop_select_func_get() right after ecore_main_loop_glib_integrate()).
This is useful to use GMainLoop libraries, like GTK, GUPnP, LibSoup, GConf and more. Adobe Flash plugin and other plugins systems depend on this as well.
Once initialized/integrated, it will be valid until Ecore is completely shut down.
Example of use:
int main(void) { ecore_init(); ecore_main_loop_glib_integrate(); // some code here ecore_main_loop_begin(); ecore_shutdown(); return 0; }
EINA_TRUE
on success of, EINA_FALSE
if it failed likely due to no GLib support in Ecore. void ecore_main_loop_iterate | ( | void | ) |
Runs a single iteration of the main loop to process everything on the queue.
It does everything that is already done inside an Ecore
main loop, like checking for expired timers, idlers, etc. But it will do it only once and return, instead of keeping watch for new events.
DO NOT use this function unless you are the person God comes to ask for advice when He has trouble managing the Universe.
int ecore_main_loop_iterate_may_block | ( | int | may_block | ) |
Runs a single iteration of the main loop to process everything on the queue with blocking/non-blocking status.
may_block | A flag if the main loop has a possibility of blocking. (EINA_TRUE = may block/EINA_FALSE = non block) |
This is an extension API for ecore_main_loop_iterate() with additional parameter. It does everything that is already done inside an Ecore
main loop, like checking for expired timers, idlers, etc. But it will do it only once and return, instead of keep watching for new events.
DO NOT use this function unless you are the person God comes to ask for advice when He has trouble managing the Universe.
1
if event exists, else 0
. int ecore_main_loop_nested_get | ( | void | ) |
Returns if the ecore_main_loop is running.
0
if not running, > 0
if runningvoid ecore_main_loop_quit | ( | void | ) |
Quits the main loop once all the events currently on the queue have been processed.
This function returns immediately, but will mark the ecore_main_loop_begin() function to return at the end of the current main loop iteration.
Gets the select function set by ecore_select_func_set(), or the native select function if none was set.
void ecore_main_loop_select_func_set | ( | Ecore_Select_Function | func | ) |
Sets the function to use when monitoring multiple file descriptors, and waiting until one of more of the file descriptors are ready for some class of I/O operation.
This function will be used instead of the system call select and could possibly be used to integrate the Ecore event loop with an external event loop.
func | The function to be used. |
void ecore_main_loop_thread_safe_call_async | ( | Ecore_Cb | callback, |
void * | data | ||
) |
Calls callback asynchronously in the main loop.
callback | The callback to call in the main loop |
data | The data to give to that call back |
For all calls that need to happen in the main loop (most EFL functions do), this helper function provides the infrastructure needed to do it safely by avoiding dead lock, race condition and properly wake up the main loop.
Remember after that function call, you should never touch again the data
in the thread, it is owned by the main loop and your callback should take care of freeing it if necessary.
void* ecore_main_loop_thread_safe_call_sync | ( | Ecore_Data_Cb | callback, |
void * | data | ||
) |
Calls callback synchronously in the main loop.
callback | The callback to call in the main loop |
data | The data to give to that call back |
For all calls that need to happen in the main loop (most EFL functions do), this helper function provides the infrastructure needed to do it safely by avoiding dead lock, race condition and properly wake up the main loop.
Remember this function will block until the callback is executed in the main loop. It can take time and you have no guaranty about the timeline.
void ecore_main_loop_thread_safe_call_wait | ( | double | wait | ) |
Waits for the next thread call in the main loop.
wait | How long to wait for this callback to be called. |
Note: This function should only be called in the main loop and will actually block the main loop until either a call is triggered from a thread or the time specified by wait has passed.
int ecore_thread_main_loop_begin | ( | void | ) |
This function suspends the main loop in a know state.
-1
.This function suspend the main loop in a know state, this let you use any EFL call you want after it return. Be carefully, the main loop is blocked until you call ecore_thread_main_loop_end(). This is the only sane way to achieve pseudo thread safety.
Notice that until the main loop is blocked, the thread is blocked and their is noway around that.
We still advise you, when possible, to use ecore_main_loop_thread_safe_call_async() as it will not block the thread nor the main loop.
int ecore_thread_main_loop_end | ( | void | ) |
Unlocks the main loop.
-1
will be returned if you are trying to unlock when there wasn't enough call to ecore_thread_main_loop_begin().After a call to ecore_thread_main_loop_begin(), you need to absolutely call ecore_thread_main_loop_end(), or you application will stay frozen.