typedef struct _Ecore_Exe_Event_Del Ecore_Exe_Event_Del; /**< Spawned Exe exit event */
typedef struct _Ecore_Exe_Event_Data_Line Ecore_Exe_Event_Data_Line; /**< Lines from a child process */
typedef struct _Ecore_Exe_Event_Data Ecore_Exe_Event_Data; /**< Data from a child process */
- typedef struct _Ecore_Thread Ecore_Thread;
+ typedef struct _Ecore_Thread Ecore_Thread; /**< A handle for threaded jobs */
/**
* @typedef Ecore_Data_Cb Ecore_Data_Cb
/**
* @defgroup Ecore_Thread_Group Ecore Thread functions
*
+ * Facilities to run heavy tasks in different threads to avoid blocking
+ * the main loop.
+ *
+ * The EFL is, for the most part, not thread safe. This means that if you
+ * have some task running in another thread and you have, for example, an
+ * Evas object to show the status progress of this task, you cannot update
+ * the object from within the thread. This can only be done from the main
+ * thread, the one running the main loop. This problem can be solved
+ * by running a thread that sends messages to the main one using an
+ * @ref Ecore_Pipe_Group "Ecore_Pipe", but when you need to handle other
+ * things like cancelling the thread, your code grows in coplexity and gets
+ * much harder to maintain.
+ *
+ * Ecore Thread is here to solve that problem. It is @b not a simple wrapper
+ * around standard POSIX threads (or the equivalent in other systems) and
+ * it's not meant to be used to run parallel tasks throughout the entire
+ * duration of the program, especially when these tasks are performance
+ * critical, as Ecore manages these tasks using a pool of threads based on
+ * system configuration.
+ *
+ * What Ecore Thread does, is make it a lot easier to dispatch a worker
+ * function to perform some heavy task and then get the result once it
+ * completes, without blocking the application's UI. In addition, cancelling
+ * and rescheduling comes practically for free and the developer needs not
+ * worry about how many threads are launched, since Ecore will schedule
+ * them according to the number of processors the system has and maximum
+ * amount of concurrent threads set for the application.
+ *
+ * At the system level, Ecore will start a new thread on an as-needed basis
+ * until the maximum set is reached. When no more threads can be launched,
+ * new worker functions will be queued in a waiting list until a thread
+ * becomes available. This way, system threads will be shared throughout
+ * different worker functions, but running only one at a time. At the same
+ * time, a worker function that is rescheduled may be run on a different
+ * thread the next time.
+ *
+ * The ::Ecore_Thread handler has two meanings, depending on what context
+ * it is on. The one returned when starting a worker with any of the
+ * functions ecore_thread_run() or ecore_thread_feedback_run() is an
+ * identifier of that specific instance of the function and can be used from
+ * the main loop with the ecore_thread_cancel() and ecore_thread_check()
+ * functions. This handler must not be shared with the worker function
+ * function running in the thread. This same handler will be the one received
+ * on the @c end, @c cancel and @c feedback callbacks.
+ *
+ * The worker function, that's the one running in the thread, also receives
+ * an ::Ecore_Thread handler that can be used with ecore_thread_cancel() and
+ * ecore_thread_check(), sharing the flag with the main loop. But this
+ * handler is also associated with the thread where the function is running.
+ * This has strong implications when working with thread local data.
+
+ * There are two kinds of worker threads Ecore handles: simple, or short,
+ * workers and feedback workers.
+ *
+ * The first kind is for simple functions that perform a
+ * usually small but time consuming task. Ecore will run this function in
+ * a thread as soon as one becomes available and notify the calling user of
+ * its completion once the task is done.
+ *
+ * For larger tasks that may require continuous communication with the main
+ * program, the feedback workers provide the same functionality plus a way
+ * for the function running in the thread to send messages to the main
+ * thread.
+ *
+ * @ingroup Ecore_Group
+ *
* @{
*/
+ /**
+ * Schedule a task to run in a parallel thread to avoid locking the main loop
+ *
+ * @param func_blocking The function that should run in another thread.
+ * @param func_end Function to call from main loop when @p func_blocking
+ * completes its task successfully (may be NULL)
+ * @param func_cancel Function to call from main loop if the thread running
+ * @p func_blocking is cancelled or fails to start (may be NULL)
+ * @param data User context data to pass to all callbacks.
+ * @return A new thread handler, or NULL on failure
+ *
+ * This function will try to create a new thread to run @p func_blocking in,
+ * or if the maximum number of concurrent threads has been reached, will
+ * add it to the pending list, where it will wait until a thread becomes
+ * available. The return value will be an ::Ecore_Thread handle that can
+ * be used to cancel the thread before its completion.
+ *
+ * @note This function should always return immediately, but in the rare
+ * case that Ecore is built with no thread support, @p func_blocking will
+ * be called here, actually blocking the main loop.
+ *
+ * Once a thread becomes available, @p func_blocking will be run in it until
+ * it finishes, then @p func_end is called from the thread containing the
+ * main loop to inform the user of its completion. While in @p func_blocking,
+ * no functions from the EFL can be used, except for those from Eina that are
+ * marked to be thread-safe. Even for the latter, caution needs to be taken
+ * if the data is shared across several threads.
+ *
+ * @p func_end will be called from the main thread when @p func_blocking ends,
+ * so here it's safe to use anything from the EFL freely.
+ *
+ * The thread can also be cancelled before its completion calling
+ * ecore_thread_cancel(), either from the main thread or @p func_blocking.
+ * In this case, @p func_cancel will be called, also from the main thread
+ * to inform of this happening. If the thread could not be created, this
+ * function will be called and it's @c thread parameter will be NULL. It's
+ * also safe to call any EFL function here, as it will be running in the
+ * main thread.
+ *
+ * Inside @p func_blocking, it's possible to call ecore_thread_reschedule()
+ * to tell Ecore that this function should be called again.
+ *
+ * Be aware that no assumptions can be made about the order in which the
+ * @p func_end callbacks for each task will be called. Once the function is
+ * running in a different thread, it's the OS that will handle its running
+ * schedule, and different functions may take longer to finish than others.
+ * Also remember that just starting several tasks together doesn't mean they
+ * will be running at the same time. Ecore will schedule them based on the
+ * number of threads available for the particular system it's running in,
+ * so some of the jobs started may be waiting until another one finishes
+ * before it can execute its own @p func_blocking.
+ *
+ * @see ecore_thread_feedback_run()
+ * @see ecore_thread_cancel()
+ * @see ecore_thread_reschedule()
+ * @see ecore_thread_max_set()
+ */
EAPI Ecore_Thread *ecore_thread_run(Ecore_Thread_Cb func_blocking,
Ecore_Thread_Cb func_end,
Ecore_Thread_Cb func_cancel,
const void *data);
+ /**
+ * Launch a thread to run a task than can talk back to the main thread
+ *
+ * @param func_heavy The function that should run in another thread.
+ * @param func_notify Function that receives the data sent from the thread
+ * @param func_end Function to call from main loop when @p func_heavy
+ * completes its task successfully
+ * @param func_cancel Function to call from main loop if the thread running
+ * @p func_heavy is cancelled or fails to start
+ * @param data User context data to pass to all callback.
+ * @param try_no_queue If you want to run outside of the thread pool.
+ * @return A new thread handler, or NULL on failure
+ *
+ * See ecore_thread_run() for a general description of this function.
+ *
+ * The difference with the above is that ecore_thread_run() is meant for
+ * tasks that don't need to communicate anything until they finish, while
+ * this function is provided with a new callback, @p func_notify, that will
+ * be called from the main thread for every message sent from @p func_heavy
+ * with ecore_thread_feedback().
+ *
+ * Like with ecore_thread_run(), a new thread will be launched to run
+ * @p func_heavy unless the maximum number of simultaneous threadas has been
+ * reached, in which case the function will be scheduled to run whenever a
+ * running task ends and a thread becomes free. But if @p try_no_queue is
+ * set, Ecore will first try to launch a thread outside of the pool to run
+ * the task. If it fails, it will revert to the normal behaviour of using a
+ * thread from the pool as if @p try_no_queue had not been set.
+ *
+ * Keep in mind that Ecore handles the thread pool based on the number of
+ * CPUs available, but running a thread outside of the pool doesn't count for
+ * this, so having too many of them may have drastic effects over the
+ * program's performance.
+ *
+ * @see ecore_thread_feedback()
+ * @see ecore_thread_run()
+ * @see ecore_thread_cancel()
+ * @see ecore_thread_reschedule()
+ * @see ecore_thread_max_set()
+ */
EAPI Ecore_Thread *ecore_thread_feedback_run(Ecore_Thread_Cb func_heavy,
Ecore_Thread_Notify_Cb func_notify,
Ecore_Thread_Cb func_end,
Ecore_Thread_Cb func_cancel,
const void *data,
Eina_Bool try_no_queue);
+ /**
+ * Cancel a running thread.
+ *
+ * @param thread The thread to cancel.
+ * @return Will return EINA_TRUE if the thread has been cancelled,
+ * EINA_FALSE if it is pending.
+ *
+ * This function can be called both in the main loop or in the running thread.
+ *
+ * This function cancels a running thread. If @p thread can be immediately
+ * cancelled (it's still pending execution after creation or rescheduling),
+ * then the @c cancel callback will be called, @p thread will be freed and
+ * the function will return EINA_TRUE.
+ *
+ * If the thread is already running, then this function returns EINA_FALSE
+ * after marking the @p thread as pending cancellation. For the thread to
+ * actually be terminated, it needs to return from the user function back
+ * into Ecore control. This can happen in several ways:
+ * @li The function ends and returns normally. If it hadn't been cancelled,
+ * @c func_end would be called here, but instead @c func_cancel will happen.
+ * @li The function returns after requesting to be rescheduled with
+ * ecore_thread_reschedule().
+ * @li The function is prepared to leave early by checking if
+ * ecore_thread_check() returns EINA_TRUE.
+ *
+ * The user function can cancel itself by calling ecore_thread_cancel(), but
+ * it should always use the ::Ecore_Thread handle passed to it and never
+ * share it with the main loop thread by means of shared user data or any
+ * other way.
+ *
+ * @p thread will be freed and should not be used again if this function
+ * returns EINA_TRUE or after the @c func_cancel callback returns.
+ *
+ * @see ecore_thread_check()
+ */
EAPI Eina_Bool ecore_thread_cancel(Ecore_Thread *thread);
+ /**
+ * Checks if a thread is pending cancellation
+ *
+ * @param thread The thread to test.
+ * @return EINA_TRUE if the thread is pending cancellation,
+ * EINA_FALSE if it is not.
+ *
+ * This function can be called both in the main loop or in the running thread.
+ *
+ * When ecore_thread_cancel() is called on an already running task, the
+ * thread is marked as pending cancellation. This function returns EINA_TRUE
+ * if this mark is set for the given @p thread and can be used from the
+ * main loop thread to check if a still active thread has been cancelled,
+ * or from the user function running in the thread to check if it should
+ * stop doing what it's doing and return early, effectively cancelling the
+ * task.
+ *
+ * @see ecore_thread_cancel()
+ */
EAPI Eina_Bool ecore_thread_check(Ecore_Thread *thread);
+ /**
+ * Sends data from the worker thread to the main loop
+ *
+ * @param thread The current ::Ecore_Thread context to send data from
+ * @param msg_data Data to be transmitted to the main loop
+ * @return EINA_TRUE if @p msg_data was successfully sent to main loop,
+ * EINA_FALSE if anything goes wrong.
+ *
+ * You should use this function only in the @c func_heavy call.
+ *
+ * Only the address to @p msg_data will be sent and once this function
+ * returns EINA_TRUE, the job running in the thread should never touch the
+ * contents of it again. The data sent should be malloc()'ed or something
+ * similar, as long as it's not memory local to the thread that risks being
+ * overwritten or deleted once it goes out of scope or the thread finishes.
+ *
+ * Care must be taken that @p msg_data is properly freed in the @c func_notify
+ * callback set when creating the thread.
+ *
+ * @see ecore_thread_feedback_run()
+ */
EAPI Eina_Bool ecore_thread_feedback(Ecore_Thread *thread, const void *msg_data);
+ /**
+ * Asks for the function in the thread to be called again at a later time
+ *
+ * @param thread The current ::Ecore_Thread context to rescheduled
+ * @return EINA_TRUE if the task was successfully rescheduled,
+ * EINA_FALSE if anything goes wrong.
+ *
+ * This function should be called only from the same function represented
+ * by @pthread.
+ *
+ * Calling this function will mark the thread for a reschedule, so as soon
+ * as it returns, it will be added to the end of the list of pending tasks.
+ * If no other tasks are waiting or there are sufficient threads available,
+ * the rescheduled task will be launched again immediately.
+ *
+ * This should never return EINA_FALSE, unless it was called from the wrong
+ * thread or with the wrong arguments.
+ *
+ * The @c func_end callback set when the thread is created will not be
+ * called until the function in the thread returns without being rescheduled.
+ * Similarly, if the @p thread is cancelled, the reschedule will not take
+ * effect.
+ */
EAPI Eina_Bool ecore_thread_reschedule(Ecore_Thread *thread);
+ /**
+ * Gets the number of active threads running jobs
+ *
+ * @return Number of active threads running jobs
+ *
+ * This returns the number of threads currently running jobs of any type
+ * through the Ecore_Thread API.
+ *
+ * @note Jobs started through the ecore_thread_feedback_run() function with
+ * the @c try_no_queue parameter set to EINA_TRUE will not be accounted for
+ * in the return of this function unless the thread creation fails and it
+ * falls back to using one from the pool.
+ */
EAPI int ecore_thread_active_get(void);
+ /**
+ * Gets the number of short jobs waiting for a thread to run
+ *
+ * @return Number of pending threads running "short" jobs
+ *
+ * This returns the number of tasks started with ecore_thread_run() that are
+ * pending, waiting for a thread to become available to run them.
+ */
EAPI int ecore_thread_pending_get(void);
+ /**
+ * Gets the number of feedback jobs waiting for a thread to run
+ *
+ * @return Number of pending threads running "feedback" jobs
+ *
+ * This returns the number of tasks started with ecore_thread_feedback_run()
+ * that are pending, waiting for a thread to become available to run them.
+ */
EAPI int ecore_thread_pending_feedback_get(void);
+ /**
+ * Gets the total number of pending jobs
+ *
+ * @return Number of pending threads running jobs
+ *
+ * Same as the sum of ecore_thread_pending_get() and
+ * ecore_thread_pending_feedback_get().
+ */
EAPI int ecore_thread_pending_total_get(void);
+ /**
+ * Gets the maximum number of threads that can run simultaneously
+ *
+ * @return Max possible number of Ecore_Thread's running concurrently
+ *
+ * This returns the maximum number of Ecore_Thread's that may be running at
+ * the same time. If this number is reached, new jobs started by either
+ * ecore_thread_run() or ecore_thread_feedback_run() will be added to the
+ * respective pending queue until one of the running threads finishes its
+ * task and becomes available to run a new one.
+ *
+ * By default, this will be the number of available CPUs for the
+ * running program (as returned by eina_cpu_count()), or 1 if this value
+ * could not be fetched.
+ *
+ * @see ecore_thread_max_set()
+ * @see ecore_thread_max_reset()
+ */
EAPI int ecore_thread_max_get(void);
+ /**
+ * Sets the maximum number of threads allowed to run simultaneously
+ *
+ * @param num The new maximum
+ *
+ * This sets a new value for the maximum number of concurrently running
+ * Ecore_Thread's. It @b must an integer between 1 and (2 * @c x), where @c x
+ * is the number for CPUs available.
+ *
+ * @see ecore_thread_max_get()
+ * @see ecore_thread_max_reset()
+ */
EAPI void ecore_thread_max_set(int num);
+ /**
+ * Resets the maximum number of concurrently running threads to the default
+ *
+ * This resets the value returned by ecore_thread_max_get() back to its
+ * default.
+ *
+ * @see ecore_thread_max_get()
+ * @see ecore_thread_max_set()
+ */
EAPI void ecore_thread_max_reset(void);
+ /**
+ * Gets the number of threads available for running tasks
+ *
+ * @return The number of available threads
+ *
+ * Same as doing ecore_thread_max_get() - ecore_thread_active_get().
+ *
+ * This function may return a negative number only in the case the user
+ * changed the maximum number of running threads while other tasks are
+ * running.
+ */
EAPI int ecore_thread_available_get(void);
+ /**
+ * Adds some data to a hash local to the thread
+ *
+ * @param thread The thread context the data belongs to
+ * @param key The name under which the data will be stored
+ * @param value The data to add
+ * @param cb Function to free the data when removed from the hash
+ * @param direct If true, this will not copy the key string (like
+ * eina_hash_direct_add())
+ * @return EINA_TRUE on success, EINA_FALSE on failure
+ *
+ * Ecore Thread has a mechanism to share data across several worker functions
+ * that run on the same system thread. That is, the data is stored per
+ * thread and for a worker function to have access to it, it must be run
+ * by the same thread that stored the data.
+ *
+ * When there are no more workers pending, the thread will be destroyed
+ * along with the internal hash and any data left in it will be freed with
+ * the @p cb function given.
+ *
+ * This set of functions is useful to share things around several instances
+ * of a function when that thing is costly to create and can be reused, but
+ * may only be used by one function at a time.
+ *
+ * For example, if you have a program doing requisitions to a database,
+ * these requisitions can be done in threads so that waiting for the
+ * database to respond doesn't block the UI. Each of these threads will
+ * run a function, and each function will be dependant on a connection to
+ * the database, which may not be able to handle more than one request at
+ * a time so for each running function you will need one connection handle.
+ * The options then are:
+ * @li Each function opens a connection when it's called, does the work and
+ * closes the connection when it finishes. This may be costly, wasting a lot
+ * of time on resolving hostnames, negotiating permissions and allocating
+ * memory.
+ * @li Open the connections in the main loop and pass it to the threads
+ * using the data pointer. Even worse, it's just as costly as before and now
+ * it may even be kept with connections open doing nothing until a thread
+ * becomes available to run the function.
+ * @li Have a way to share connection handles, so that each instance of the
+ * function can check if an available connection exists, and if it doesn't,
+ * create one and add it to the pool. When no more connections are needed,
+ * they are all closed.
+ *
+ * The last option is the most efficient, but it requires a lot of work to
+ * implement properly. Using thread local data helps to achieve the same
+ * result while avoiding doing all the tracking work on your code. The way
+ * to use it would be, at the worker function, to ask for the connection
+ * with ecore_thread_local_data_find() and if it doesn't exist, then open
+ * a new one and save it with ecore_thread_local_data_add(). Do the work and
+ * forget about the connection handle, when everything is done the function
+ * just ends. The next worker to run on that thread will check if a
+ * connection exists and find that it does, so the process of opening a
+ * new one has been spared. When no more workers exist, the thread is
+ * destroyed and the callback used when saving the connection will be called
+ * to close it.
+ *
+ * This function adds the data @p value to the thread data under the given
+ * @p key.
+ * No other value in the hash may have the same @p key. If you need to
+ * change the value under a @p key, or you don't know if one exists already,
+ * you can use ecore_thread_local_data_set().
+ *
+ * Neither @p key nor @p value may be NULL and @p key will be copied in the
+ * hash, unless @p direct is set, in which case the string used should not
+ * be freed until the data is removed from the hash.
+ *
+ * The @p cb function will be called when the data in the hash needs to be
+ * freed, be it because it got deleted with ecore_thread_local_data_del() or
+ * because @p thread was terminated and the hash destroyed. This parameter
+ * may be NULL, in which case @p value needs to be manually freed after
+ * removing it from the hash with either ecore_thread_local_data_del() or
+ * ecore_thread_local_data_set(), but it's very unlikely that this is what
+ * you want.
+ *
+ * This function, and all of the others in the @c ecore_thread_local_data
+ * family of functions, can only be called within the worker function running
+ * in the thread. Do not call them from the main loop or from a thread
+ * other than the one represented by @p thread.
+ *
+ * @see ecore_thread_local_data_set()
+ * @see ecore_thread_local_data_find()
+ * @see ecore_thread_local_data_del()
+ */
EAPI Eina_Bool ecore_thread_local_data_add(Ecore_Thread *thread, const char *key, void *value, Eina_Free_Cb cb, Eina_Bool direct);
+ /**
+ * Sets some data in the hash local to the given thread
+ *
+ * @param thread The thread context the data belongs to
+ * @param key The name under which the data will be stored
+ * @param value The data to add
+ * @param cb Function to free the data when removed from the hash
+ *
+ * If no data exists in the hash under the @p key, this function adds
+ * @p value in the hash under the given @p key and returns NULL.
+ * The key itself is copied.
+ *
+ * If the hash already contains something under @p key, the data will be
+ * replaced by @p value and the old value will be returned.
+ *
+ * NULL will also be returned if either @p key or @p value are NULL, or if
+ * an error occurred.
+ *
+ * This function, and all of the others in the @c ecore_thread_local_data
+ * family of functions, can only be called within the worker function running
+ * in the thread. Do not call them from the main loop or from a thread
+ * other than the one represented by @p thread.
+ *
+ * @see ecore_thread_local_data_add()
+ * @see ecore_thread_local_data_del()
+ * @see ecore_thread_local_data_find()
+ */
EAPI void *ecore_thread_local_data_set(Ecore_Thread *thread, const char *key, void *value, Eina_Free_Cb cb);
+ /**
+ * Gets data stored in the hash local to the given thread
+ *
+ * @param thread The thread context the data belongs to
+ * @param key The name under which the data is stored
+ * @return The value under the given key, or NULL on error
+ *
+ * Finds and return the data stored in the shared hash under the key @p key.
+ *
+ * This function, and all of the others in the @c ecore_thread_local_data
+ * family of functions, can only be called within the worker function running
+ * in the thread. Do not call them from the main loop or from a thread
+ * other than the one represented by @p thread.
+ *
+ * @see ecore_thread_local_data_add()
+ * @see ecore_thread_local_data_wait()
+ */
EAPI void *ecore_thread_local_data_find(Ecore_Thread *thread, const char *key);
+ /**
+ * Deletes from the thread's hash the data corresponding to the given key
+ *
+ * @param thread The thread context the data belongs to
+ * @param key The name under which the data is stored
+ * @return EINA_TRUE on success, EINA_FALSE on failure
+ *
+ * If there's any data stored associated with @p key in the global hash,
+ * this function will remove it from it and return EINA_TRUE. If no data
+ * exists or an error occurs, it returns EINA_FALSE.
+ *
+ * If the data was added to the hash with a free function, then it will
+ * also be freed after removing it from the hash, otherwise it requires
+ * to be manually freed by the user, which means that if no other reference
+ * to it exists before calling this function, it will result in a memory
+ * leak.
+ *
+ * This function, and all of the others in the @c ecore_thread_local_data
+ * family of functions, can only be called within the worker function running
+ * in the thread. Do not call them from the main loop or from a thread
+ * other than the one represented by @p thread.
+ *
+ * @see ecore_thread_local_data_add()
+ */
EAPI Eina_Bool ecore_thread_local_data_del(Ecore_Thread *thread, const char *key);
+ /**
+ * Adds some data to a hash shared by all threads
+ *
+ * @param key The name under which the data will be stored
+ * @param value The data to add
+ * @param cb Function to free the data when removed from the hash
+ * @param direct If true, this will not copy the key string (like
+ * eina_hash_direct_add())
+ * @return EINA_TRUE on success, EINA_FALSE on failure
+ *
+ * Ecore Thread keeps a hash that can be used to share data across several
+ * threads, including the main loop one, without having to manually handle
+ * mutexes to do so safely.
+ *
+ * This function adds the data @p value to this hash under the given @p key.
+ * No other value in the hash may have the same @p key. If you need to
+ * change the value under a @p key, or you don't know if one exists already,
+ * you can use ecore_thread_global_data_set().
+ *
+ * Neither @p key nor @p value may be NULL and @p key will be copied in the
+ * hash, unless @p direct is set, in which case the string used should not
+ * be freed until the data is removed from the hash.
+ *
+ * The @p cb function will be called when the data in the hash needs to be
+ * freed, be it because it got deleted with ecore_thread_global_data_del() or
+ * because Ecore Thread was shut down and the hash destroyed. This parameter
+ * may be NULL, in which case @p value needs to be manually freed after
+ * removing it from the hash with either ecore_thread_global_data_del() or
+ * ecore_thread_global_data_set().
+ *
+ * Manually freeing any data that was added to the hash with a @p cb function
+ * is likely to produce a segmentation fault, or any other strange
+ * happenings, later on in the program.
+ *
+ * @see ecore_thread_global_data_del()
+ * @see ecore_thread_global_data_set()
+ * @see ecore_thread_global_data_find()
+ */
EAPI Eina_Bool ecore_thread_global_data_add(const char *key, void *value, Eina_Free_Cb cb, Eina_Bool direct);
+ /**
+ * Sets some data in the hash shared by all threads
+ *
+ * @param key The name under which the data will be stored
+ * @param value The data to add
+ * @param cb Function to free the data when removed from the hash
+ *
+ * If no data exists in the hash under the @p key, this function adds
+ * @p value in the hash under the given @p key and returns NULL.
+ * The key itself is copied.
+ *
+ * If the hash already contains something under @p key, the data will be
+ * replaced by @p value and the old value will be returned.
+ *
+ * NULL will also be returned if either @p key or @p value are NULL, or if
+ * an error occurred.
+ *
+ * @see ecore_thread_global_data_add()
+ * @see ecore_thread_global_data_del()
+ * @see ecore_thread_global_data_find()
+ */
EAPI void *ecore_thread_global_data_set(const char *key, void *value, Eina_Free_Cb cb);
+ /**
+ * Gets data stored in the hash shared by all threads
+ *
+ * @param key The name under which the data is stored
+ * @return The value under the given key, or NULL on error
+ *
+ * Finds and return the data stored in the shared hash under the key @p key.
+ *
+ * Keep in mind that the data returned may be used by more than one thread
+ * at the same time and no reference counting is done on it by Ecore.
+ * Freeing the data or modifying its contents may require additional
+ * precautions to be considered, depending on the application's design.
+ *
+ * @see ecore_thread_global_data_add()
+ * @see ecore_thread_global_data_wait()
+ */
EAPI void *ecore_thread_global_data_find(const char *key);
+ /**
+ * Deletes from the shared hash the data corresponding to the given key
+ *
+ * @param key The name under which the data is stored
+ * @return EINA_TRUE on success, EINA_FALSE on failure
+ *
+ * If there's any data stored associated with @p key in the global hash,
+ * this function will remove it from it and return EINA_TRUE. If no data
+ * exists or an error occurs, it returns EINA_FALSE.
+ *
+ * If the data was added to the hash with a free function, then it will
+ * also be freed after removing it from the hash, otherwise it requires
+ * to be manually freed by the user, which means that if no other reference
+ * to it exists before calling this function, it will result in a memory
+ * leak.
+ *
+ * Note, also, that freeing data that other threads may be using will result
+ * in a crash, so appropriate care must be taken by the application when
+ * that possibility exists.
+ *
+ * @see ecore_thread_global_data_add()
+ */
EAPI Eina_Bool ecore_thread_global_data_del(const char *key);
- EAPI void *ecore_thread_global_data_wait(const char *key, double seconds);
-
/**
- * @}
+ * Gets data stored in the shared hash, or wait for it if it doesn't exist
+ *
+ * @param key The name under which the data is stored
+ * @param seconds The amount of time in seconds to wait for the data.
+ * @return The value under the given key, or NULL on error
+ *
+ * Finds and return the data stored in the shared hash under the key @p key.
+ *
+ * If there's nothing in the hash under the given @p key, the function
+ * will block and wait up to @p seconds seconds for some other thread to
+ * add it with either ecore_thread_global_data_add() or
+ * ecore_thread_global_data_set(). If after waiting there's still no data
+ * to get, NULL will be returned.
+ *
+ * If @p seconds is 0, then no waiting will happen and this function works
+ * like ecore_thread_global_data_find(). If @p seconds is less than 0, then
+ * the function will wait indefinitely.
+ *
+ * Keep in mind that the data returned may be used by more than one thread
+ * at the same time and no reference counting is done on it by Ecore.
+ * Freeing the data or modifying its contents may require additional
+ * precautions to be considered, depending on the application's design.
+ *
+ * @see ecore_thread_global_data_add()
+ * @see ecore_thread_global_data_find()
*/
+ EAPI void *ecore_thread_global_data_wait(const char *key, double seconds);
+
+ /**
+ * @}
+ */
/**
* @defgroup Ecore_Time_Group Ecore Time functions
}
}
-/**
- * @addtogroup Ecore_Group Ecore - Main Loop and Job Functions.
- *
- * @{
- */
-
-/**
- * @addtogroup Ecore_Thread_Group Ecore Thread functions
- *
- * These functions allow for ecore-managed threads which integrate with ecore's main loop.
- *
- * @{
- */
-
-/**
- * @brief Run some blocking code in a parallel thread to avoid locking the main loop.
- * @param func_blocking The function that should run in another thread.
- * @param func_end The function that will be called in the main loop if the thread terminate correctly.
- * @param func_cancel The function that will be called in the main loop if the thread is cancelled.
- * @param data User context data to pass to all callback.
- * @return A reference to the newly created thread instance, or NULL if it failed.
- *
- * ecore_thread_run provide a facility for easily managing blocking task in a
- * parallel thread. You should provide three function. The first one, func_blocking,
- * that will do the blocking work in another thread (so you should not use the
- * EFL in it except Eina if you are careful). The second one, func_end,
- * that will be called in Ecore main loop when func_blocking is done. So you
- * can use all the EFL inside this function. The last one, func_cancel, will
- * be called in the main loop if the thread is cancelled or could not run at all.
- *
- * Be aware, that you can't make assumption on the result order of func_end
- * after many call to ecore_thread_run, as we start as much thread as the
- * host CPU can handle.
- */
EAPI Ecore_Thread *
ecore_thread_run(Ecore_Thread_Cb func_blocking,
Ecore_Thread_Cb func_end,
#endif
}
-/**
- * @brief Cancel a running thread.
- * @param thread The thread to cancel.
- * @return Will return EINA_TRUE if the thread has been cancelled,
- * EINA_FALSE if it is pending.
- *
- * ecore_thread_cancel give the possibility to cancel a task still running. It
- * will return EINA_FALSE, if the destruction is delayed or EINA_TRUE if it is
- * cancelled after this call.
- *
- * This function work in the main loop and in the thread, but you should not pass
- * the Ecore_Thread variable from main loop to the worker thread in any structure.
- * You should always use the one passed to the Ecore_Thread_Heavy_Cb.
- *
- * func_end, func_cancel will destroy the handler, so don't use it after.
- * And if ecore_thread_cancel return EINA_TRUE, you should not use Ecore_Thread also.
- */
EAPI Eina_Bool
ecore_thread_cancel(Ecore_Thread *thread)
{
#endif
}
-/**
- * @brief Tell if a thread was canceled or not.
- * @param thread The thread to test.
- * @return EINA_TRUE if the thread is cancelled,
- * EINA_FALSE if it is not.
- *
- * You can use this function in main loop and in the thread.
- */
EAPI Eina_Bool
ecore_thread_check(Ecore_Thread *thread)
{
return worker->cancel;
}
-/**
- * @brief Run some heavy code in a parallel thread to avoid locking the main loop.
- * @param func_heavy The function that should run in another thread.
- * @param func_notify The function that will receive the data send by func_heavy in the main loop.
- * @param func_end The function that will be called in the main loop if the thread terminate correctly.
- * @param func_cancel The function that will be called in the main loop if the thread is cancelled.
- * @param data User context data to pass to all callback.
- * @param try_no_queue If you want to run outside of the thread pool.
- * @return A reference to the newly created thread instance, or NULL if it failed.
- *
- * ecore_thread_feedback_run provide a facility for easily managing heavy task in a
- * parallel thread. You should provide four functions. The first one, func_heavy,
- * that will do the heavy work in another thread (so you should not use the
- * EFL in it except Eina and Eet if you are careful). The second one, func_notify,
- * will receive the data send from the thread function (func_heavy) by ecore_thread_feedback
- * in the main loop (and so, can use all the EFL). The third, func_end,
- * that will be called in Ecore main loop when func_heavy is done. So you
- * can use all the EFL inside this function. The last one, func_cancel, will
- * be called in the main loop also, if the thread is cancelled or could not run at all.
- *
- * Be aware, that you can't make assumption on the result order of func_end
- * after many call to ecore_feedback_run, as we start as much thread as the
- * host CPU can handle.
- *
- * If you set try_no_queue, it will try to run outside of the thread pool, this can bring
- * the CPU down, so be careful with that. Of course if it can't start a new thread, it will
- * try to use one from the pool.
- */
EAPI Ecore_Thread *ecore_thread_feedback_run(Ecore_Thread_Cb func_heavy,
Ecore_Thread_Notify_Cb func_notify,
Ecore_Thread_Cb func_end,
#endif
}
-/**
- * @brief Send data to main loop from worker thread.
- * @param thread The current Ecore_Thread context to send data from
- * @param data Data to be transmitted to the main loop
- * @return EINA_TRUE if data was successfully send to main loop,
- * EINA_FALSE if anything goes wrong.
- *
- * After a succesfull call, the data should be considered owned
- * by the main loop.
- *
- * You should use this function only in the func_heavy call.
- */
EAPI Eina_Bool
ecore_thread_feedback(Ecore_Thread *thread, const void *data)
{
#endif
}
-/**
- * @brief Plan to recall the heavy function once it exist it.
- * @param thread The current Ecore_Thread context to reschedule
- * @return EINA_TRUE if data was successfully send to main loop,
- * EINA_FALSE if anything goes wrong.
- *
- * After a succesfull call, you can still do what you want in your thread, it
- * will only reschedule it once you exit the heavy loop.
- *
- * You should use this function only in the func_heavy call.
- */
EAPI Eina_Bool
ecore_thread_reschedule(Ecore_Thread *thread)
{
return EINA_TRUE;
}
-/**
- * @brief Get number of active thread jobs
- * @return Number of active threads running jobs
- * This returns the number of threads currently running jobs through the
- * ecore_thread api.
- */
EAPI int
ecore_thread_active_get(void)
{
#endif
}
-/**
- * @brief Get number of pending (short) thread jobs
- * @return Number of pending threads running "short" jobs
- * This returns the number of threads currently running jobs through the
- * ecore_thread_run api call.
- */
EAPI int
ecore_thread_pending_get(void)
{
#endif
}
-/**
- * @brief Get number of pending feedback thread jobs
- * @return Number of pending threads running "feedback" jobs
- * This returns the number of threads currently running jobs through the
- * ecore_thread_feedback_run api call.
- */
EAPI int
ecore_thread_pending_feedback_get(void)
{
#endif
}
-/**
- * @brief Get number of pending thread jobs
- * @return Number of pending threads running jobs
- * This returns the number of threads currently running jobs through the
- * ecore_thread_run and ecore_thread_feedback_run api calls combined.
- */
EAPI int
ecore_thread_pending_total_get(void)
{
#endif
}
-/**
- * @brief Get the max number of threads that can run simultaneously
- * @return Max number of threads ecore will run
- * This returns the total number of threads that ecore will attempt to run
- * simultaneously.
- */
EAPI int
ecore_thread_max_get(void)
{
return _ecore_thread_count_max;
}
-/**
- * @brief Set the max number of threads that can run simultaneously
- * @param num The new maximum
- * This sets the maximum number of threads that ecore will try to run
- * simultaneously. This number cannot be < 1 or >= 2x the number of active cpus.
- */
EAPI void
ecore_thread_max_set(int num)
{
_ecore_thread_count_max = num;
}
-/**
- * @brief Reset the max number of threads that can run simultaneously
- * This resets the maximum number of threads that ecore will try to run
- * simultaneously to the number of active cpus.
- */
EAPI void
ecore_thread_max_reset(void)
{
_ecore_thread_count_max = eina_cpu_count();
}
-/**
- * @brief Get the number of threads which are available to be used
- * @return The number of available threads
- * This returns the number of threads slots that ecore has currently available.
- * Assuming that you haven't changed the max number of threads with @ref ecore_thread_max_set
- * this should be equal to (num_cpus - (active_running + active_feedback_running))
- */
EAPI int
ecore_thread_available_get(void)
{
#endif
}
-/**
- * @brief Add data to the thread for subsequent use
- * @param thread The thread context to add to
- * @param key The name string to add the data with
- * @param value The data to add
- * @param cb The callback to free the data with
- * @param direct If true, this will not copy the key string (like eina_hash_direct_add)
- * @return EINA_TRUE on success, EINA_FALSE on failure
- * This adds data to the thread context, allowing the thread
- * to retrieve and use it without complicated mutexing. This function can only be called by a
- * *_run thread INSIDE the thread and will return EINA_FALSE in any case but success.
- * All data added to the thread will be freed with its associated callback (if present)
- * upon thread termination. If no callback is specified, it is expected that the user will free the
- * data, but this is most likely not what you want.
- */
EAPI Eina_Bool
ecore_thread_local_data_add(Ecore_Thread *thread, const char *key, void *value, Eina_Free_Cb cb, Eina_Bool direct)
{
#endif
}
-/**
- * @brief Modify data in the thread, or add if not found
- * @param thread The thread context
- * @param key The name string to add the data with
- * @param value The data to add
- * @param cb The callback to free the data with
- * @return The old data associated with @p key on success if modified, NULL if added
- * This adds/modifies data in the thread context, adding only if modify fails.
- * This function can only be called by a *_run thread INSIDE the thread.
- * All data added to the thread pool will be freed with its associated callback (if present)
- * upon thread termination. If no callback is specified, it is expected that the user will free the
- * data, but this is most likely not what you want.
- */
EAPI void *
ecore_thread_local_data_set(Ecore_Thread *thread, const char *key, void *value, Eina_Free_Cb cb)
{
#endif
}
-/**
- * @brief Find data in the thread's data
- * @param thread The thread context
- * @param key The name string the data is associated with
- * @return The value, or NULL on error
- * This finds data in the thread context that has been previously added with @ref ecore_thread_local_data_add
- * This function can only be called by a *_run thread INSIDE the thread, and will return NULL
- * in any case but success.
- */
EAPI void *
ecore_thread_local_data_find(Ecore_Thread *thread, const char *key)
#endif
}
-/**
- * @brief Delete data from the thread's data
- * @param thread The thread context
- * @param key The name string the data is associated with
- * @return EINA_TRUE on success, EINA_FALSE on failure
- * This deletes the data pointer from the thread context which was previously added with @ref ecore_thread_local_data_add
- * This function can only be called by a *_run thread INSIDE the thread, and will return EINA_FALSE
- * in any case but success. Note that this WILL free the data if a callback was specified.
- */
EAPI Eina_Bool
ecore_thread_local_data_del(Ecore_Thread *thread, const char *key)
{
#endif
}
-/**
- * @brief Add data to the global data
- * @param key The name string to add the data with
- * @param value The data to add
- * @param cb The optional callback to free the data with once ecore is shut down
- * @param direct If true, this will not copy the key string (like eina_hash_direct_add)
- * @return EINA_TRUE on success, EINA_FALSE on failure
- * This adds data to the global thread data, and will return EINA_FALSE in any case but success.
- * All data added to global can be manually freed, or a callback can be provided with @p cb which will
- * be called upon ecore_thread shutting down. Note that if you have manually freed data that a callback
- * was specified for, you will most likely encounter a segv later on.
- */
EAPI Eina_Bool
ecore_thread_global_data_add(const char *key, void *value, Eina_Free_Cb cb, Eina_Bool direct)
{
#endif
}
-/**
- * @brief Add data to the global data
- * @param key The name string to add the data with
- * @param value The data to add
- * @param cb The optional callback to free the data with once ecore is shut down
- * @return An Ecore_Thread_Data on success, NULL on failure
- * This adds data to the global thread data and returns NULL, or replaces the previous data
- * associated with @p key and returning the previous data if it existed. To see if an error occurred,
- * one must use eina_error_get.
- * All data added to global can be manually freed, or a callback can be provided with @p cb which will
- * be called upon ecore_thread shutting down. Note that if you have manually freed data that a callback
- * was specified for, you will most likely encounter a segv later on.
- */
EAPI void *
ecore_thread_global_data_set(const char *key, void *value, Eina_Free_Cb cb)
{
#endif
}
-/**
- * @brief Find data in the global data
- * @param key The name string the data is associated with
- * @return The value, or NULL on error
- * This finds data in the global data that has been previously added with @ref ecore_thread_global_data_add
- * This function will return NULL in any case but success.
- * All data added to global can be manually freed, or a callback can be provided with @p cb which will
- * be called upon ecore_thread shutting down. Note that if you have manually freed data that a callback
- * was specified for, you will most likely encounter a segv later on.
- * @note Keep in mind that the data returned can be used by multiple threads at a time, so you will most likely want to mutex
- * if you will be doing anything with it.
- */
EAPI void *
ecore_thread_global_data_find(const char *key)
#endif
}
-/**
- * @brief Delete data from the global data
- * @param key The name string the data is associated with
- * @return EINA_TRUE on success, EINA_FALSE on failure
- * This deletes the data pointer from the global data which was previously added with @ref ecore_thread_global_data_add
- * This function will return EINA_FALSE in any case but success.
- * Note that this WILL free the data if an @c Eina_Free_Cb was specified when the data was added.
- */
EAPI Eina_Bool
ecore_thread_global_data_del(const char *key)
{
#endif
}
-/**
- * @brief Find data in the global data and optionally wait for the data if not found
- * @param key The name string the data is associated with
- * @param seconds The amount of time in seconds to wait for the data. If 0, the call will be async and not wait for data.
- * If < 0 the call will wait indefinitely for the data.
- * @return The value, or NULL on failure
- * This finds data in the global data that has been previously added with @ref ecore_thread_global_data_add
- * This function will return NULL in any case but success.
- * Use @p seconds to specify the amount of time to wait. Use > 0 for an actual wait time, 0 to not wait, and < 0 to wait indefinitely.
- * @note Keep in mind that the data returned can be used by multiple threads at a time, so you will most likely want to mutex
- * if you will be doing anything with it.
- */
EAPI void *
ecore_thread_global_data_wait(const char *key, double seconds)
{
return NULL;
#endif
}
-
-/**
- * @}
- */
-
-/**
- * @}
- */