|
|
|
GLib Reference Manual | |
|---|---|---|---|---|
#include <glib.h>
GAsyncQueue;
GAsyncQueue* g_async_queue_new (void);
GAsyncQueue* g_async_queue_new_full (GDestroyNotify item_free_func);
GAsyncQueue* g_async_queue_ref (GAsyncQueue *queue);
void g_async_queue_unref (GAsyncQueue *queue);
void g_async_queue_push (GAsyncQueue *queue,
gpointer data);
void g_async_queue_push_sorted (GAsyncQueue *queue,
gpointer data,
GCompareDataFunc func,
gpointer user_data);
gpointer g_async_queue_pop (GAsyncQueue *queue);
gpointer g_async_queue_try_pop (GAsyncQueue *queue);
gpointer g_async_queue_timed_pop (GAsyncQueue *queue,
GTimeVal *end_time);
gint g_async_queue_length (GAsyncQueue *queue);
void g_async_queue_sort (GAsyncQueue *queue,
GCompareDataFunc func,
gpointer user_data);
void g_async_queue_lock (GAsyncQueue *queue);
void g_async_queue_unlock (GAsyncQueue *queue);
void g_async_queue_ref_unlocked (GAsyncQueue *queue);
void g_async_queue_unref_and_unlock (GAsyncQueue *queue);
void g_async_queue_push_unlocked (GAsyncQueue *queue,
gpointer data);
void g_async_queue_push_sorted_unlocked (GAsyncQueue *queue,
gpointer data,
GCompareDataFunc func,
gpointer user_data);
gpointer g_async_queue_pop_unlocked (GAsyncQueue *queue);
gpointer g_async_queue_try_pop_unlocked (GAsyncQueue *queue);
gpointer g_async_queue_timed_pop_unlocked (GAsyncQueue *queue,
GTimeVal *end_time);
gint g_async_queue_length_unlocked (GAsyncQueue *queue);
void g_async_queue_sort_unlocked (GAsyncQueue *queue,
GCompareDataFunc func,
gpointer user_data);
Often you need to communicate between different threads. In general it's safer not to do this by shared memory, but by explicit message passing. These messages only make sense asynchronously for multi-threaded applications though, as a synchronous operation could as well be done in the same thread.
Asynchronous queues are an exception from most other GLib data structures, as they can be used simultaneously from multiple threads without explicit locking and they bring their own builtin reference counting. This is because the nature of an asynchronous queue is that it will always be used by at least 2 concurrent threads.
For using an asynchronous queue you first have to create one with
g_async_queue_new(). A newly-created queue will get the reference
count 1. Whenever another thread is creating a new reference of (that
is, pointer to) the queue, it has to increase the reference count
(using g_async_queue_ref()). Also, before removing this reference, the
reference count has to be decreased (using
g_async_queue_unref()). After that the queue might no longer exist so
you must not access it after that point.
A thread, which wants to send a message to that queue simply calls
g_async_queue_push() to push the message to the queue.
A thread, which is expecting messages from an asynchronous queue
simply calls g_async_queue_pop() for that queue. If no message is
available in the queue at that point, the thread is now put to sleep
until a message arrives. The message will be removed from the queue
and returned. The functions g_async_queue_try_pop() and
g_async_queue_timed_pop() can be used to only check for the presence
of messages or to only wait a certain time for messages respectively.
For almost every function there exist two variants, one that locks the
queue and one that doesn't. That way you can hold the queue lock
(acquire it with g_async_queue_lock() and release it with
g_async_queue_unlock()) over multiple queue accessing
instructions. This can be necessary to ensure the integrity of the
queue, but should only be used when really necessary, as it can make
your life harder if used unwisely. Normally you should only use the
locking function variants (those without the suffix _unlocked)
typedef struct _GAsyncQueue GAsyncQueue;
The GAsyncQueue struct is an opaque data structure, which represents
an asynchronous queue. It should only be accessed through the
g_async_queue_* functions.
GAsyncQueue* g_async_queue_new (void);
Creates a new asynchronous queue with the initial reference count of 1.
| Returns : | the new GAsyncQueue. |
GAsyncQueue* g_async_queue_new_full (GDestroyNotify item_free_func);
Creates a new asynchronous queue with an initial reference count of 1 and sets up a destroy notify function that is used to free any remaining queue items when the queue is destroyed after the final unref.
item_free_func : |
function to free queue elements |
| Returns : | the new GAsyncQueue. |
Since 2.16
GAsyncQueue* g_async_queue_ref (GAsyncQueue *queue);
Increases the reference count of the asynchronous queue by 1. You
do not need to hold the lock to call this function.
queue : |
a GAsyncQueue. |
| Returns : | the queue that was passed in (since 2.6)
|
void g_async_queue_unref (GAsyncQueue *queue);
Decreases the reference count of the asynchronous queue by 1. If
the reference count went to 0, the queue will be destroyed and the
memory allocated will be freed. So you are not allowed to use the
queue afterwards, as it might have disappeared. You do not need to
hold the lock to call this function.
queue : |
a GAsyncQueue. |
void g_async_queue_push (GAsyncQueue *queue, gpointer data);
Pushes the data into the queue. data must not be NULL.
queue : |
a GAsyncQueue. |
data : |
data to push into the queue.
|
void g_async_queue_push_sorted (GAsyncQueue *queue, gpointer data, GCompareDataFunc func, gpointer user_data);
Inserts data into queue using func to determine the new
position.
This function requires that the queue is sorted before pushing on
new elements.
This function will lock queue before it sorts the queue and unlock
it when it is finished.
For an example of func see g_async_queue_sort().
queue : |
a GAsyncQueue |
data : |
the data to push into the queue
|
func : |
the GCompareDataFunc is used to sort queue. This function
is passed two elements of the queue. The function should return
0 if they are equal, a negative value if the first element
should be higher in the queue or a positive value if the first
element should be lower in the queue than the second element.
|
user_data : |
user data passed to func.
|
Since 2.10
gpointer g_async_queue_pop (GAsyncQueue *queue);
Pops data from the queue. This function blocks until data become
available.
queue : |
a GAsyncQueue. |
| Returns : | data from the queue. |
gpointer g_async_queue_try_pop (GAsyncQueue *queue);
Tries to pop data from the queue. If no data is available, NULL is
returned.
queue : |
a GAsyncQueue. |
| Returns : | data from the queue or NULL, when no data is
available immediately.
|
gpointer g_async_queue_timed_pop (GAsyncQueue *queue, GTimeVal *end_time);
Pops data from the queue. If no data is received before end_time,
NULL is returned.
To easily calculate end_time a combination of g_get_current_time()
and g_time_val_add() can be used.
queue : |
a GAsyncQueue. |
end_time : |
a GTimeVal, determining the final time. |
| Returns : | data from the queue or NULL, when no data is
received before end_time.
|
gint g_async_queue_length (GAsyncQueue *queue);
Returns the length of the queue, negative values mean waiting
threads, positive values mean available entries in the
queue. Actually this function returns the number of data items in
the queue minus the number of waiting threads. Thus a return value
of 0 could mean 'n' entries in the queue and 'n' thread waiting.
That can happen due to locking of the queue or due to
scheduling.
queue : |
a GAsyncQueue. |
| Returns : | the length of the queue.
|
void g_async_queue_sort (GAsyncQueue *queue, GCompareDataFunc func, gpointer user_data);
Sorts queue using func.
This function will lock queue before it sorts the queue and unlock
it when it is finished.
If you were sorting a list of priority numbers to make sure the lowest priority would be at the top of the queue, you could use:
gint32 id1; gint32 id2; id1 = GPOINTER_TO_INT (element1); id2 = GPOINTER_TO_INT (element2); return (id1 > id2 ? +1 : id1 == id2 ? 0 : -1);
queue : |
a GAsyncQueue |
func : |
the GCompareDataFunc is used to sort queue. This
function is passed two elements of the queue. The function
should return 0 if they are equal, a negative value if the
first element should be higher in the queue or a positive
value if the first element should be lower in the queue than
the second element.
|
user_data : |
user data passed to func
|
Since 2.10
void g_async_queue_lock (GAsyncQueue *queue);
Acquires the queue's lock. After that you can only call the
g_async_queue_* function variants on that
_unlocked()queue. Otherwise it will deadlock.
queue : |
a GAsyncQueue. |
void g_async_queue_unlock (GAsyncQueue *queue);
Releases the queue's lock.
queue : |
a GAsyncQueue. |
void g_async_queue_ref_unlocked (GAsyncQueue *queue);
g_async_queue_ref_unlocked is deprecated and should not be used in newly-written code.
Increases the reference count of the asynchronous queue by 1.
Deprecated: Since 2.8, reference counting is done atomically
so g_async_queue_ref() can be used regardless of the queue's
lock.
queue : |
a GAsyncQueue. |
void g_async_queue_unref_and_unlock (GAsyncQueue *queue);
g_async_queue_unref_and_unlock is deprecated and should not be used in newly-written code.
Decreases the reference count of the asynchronous queue by 1 and
releases the lock. This function must be called while holding the
queue's lock. If the reference count went to 0, the queue will be
destroyed and the memory allocated will be freed.
Deprecated: Since 2.8, reference counting is done atomically
so g_async_queue_unref() can be used regardless of the queue's
lock.
queue : |
a GAsyncQueue. |
void g_async_queue_push_unlocked (GAsyncQueue *queue, gpointer data);
Pushes the data into the queue. data must not be NULL. This
function must be called while holding the queue's lock.
queue : |
a GAsyncQueue. |
data : |
data to push into the queue.
|
void g_async_queue_push_sorted_unlocked (GAsyncQueue *queue, gpointer data, GCompareDataFunc func, gpointer user_data);
Inserts data into queue using func to determine the new
position.
This function requires that the queue is sorted before pushing on
new elements.
This function is called while holding the queue's lock.
For an example of func see g_async_queue_sort().
queue : |
a GAsyncQueue |
data : |
the data to push into the queue
|
func : |
the GCompareDataFunc is used to sort queue. This function
is passed two elements of the queue. The function should return
0 if they are equal, a negative value if the first element
should be higher in the queue or a positive value if the first
element should be lower in the queue than the second element.
|
user_data : |
user data passed to func.
|
Since 2.10
gpointer g_async_queue_pop_unlocked (GAsyncQueue *queue);
Pops data from the queue. This function blocks until data become
available. This function must be called while holding the queue's
lock.
queue : |
a GAsyncQueue. |
| Returns : | data from the queue. |
gpointer g_async_queue_try_pop_unlocked (GAsyncQueue *queue);
Tries to pop data from the queue. If no data is available, NULL is
returned. This function must be called while holding the queue's
lock.
queue : |
a GAsyncQueue. |
| Returns : | data from the queue or NULL, when no data is
available immediately.
|
gpointer g_async_queue_timed_pop_unlocked (GAsyncQueue *queue, GTimeVal *end_time);
Pops data from the queue. If no data is received before end_time,
NULL is returned. This function must be called while holding the
queue's lock.
To easily calculate end_time a combination of g_get_current_time()
and g_time_val_add() can be used.
queue : |
a GAsyncQueue. |
end_time : |
a GTimeVal, determining the final time. |
| Returns : | data from the queue or NULL, when no data is
received before end_time.
|
gint g_async_queue_length_unlocked (GAsyncQueue *queue);
Returns the length of the queue, negative values mean waiting
threads, positive values mean available entries in the
queue. Actually this function returns the number of data items in
the queue minus the number of waiting threads. Thus a return value
of 0 could mean 'n' entries in the queue and 'n' thread waiting.
That can happen due to locking of the queue or due to
scheduling. This function must be called while holding the queue's
lock.
queue : |
a GAsyncQueue. |
| Returns : | the length of the queue.
|
void g_async_queue_sort_unlocked (GAsyncQueue *queue, GCompareDataFunc func, gpointer user_data);
Sorts queue using func.
This function is called while holding the queue's lock.
queue : |
a GAsyncQueue |
func : |
the GCompareDataFunc is used to sort queue. This
function is passed two elements of the queue. The function
should return 0 if they are equal, a negative value if the
first element should be higher in the queue or a positive
value if the first element should be lower in the queue than
the second element.
|
user_data : |
user data passed to func
|
Since 2.10