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8f60d5a3a2
Starting from the 2.27 cycle, GLib is exposing a monotonic clock with microseconds granularity throughout the time-based API. We can start using it, given that the old, non-monotonic version is going to be deprecated by the same cycle.
499 lines
14 KiB
C
499 lines
14 KiB
C
/*
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* Clutter.
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*
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* An OpenGL based 'interactive canvas' library.
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*
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* Authored By Matthew Allum <mallum@openedhand.com>
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*
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* Copyright (C) 2006 OpenedHand
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library. If not, see <http://www.gnu.org/licenses/>.
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*
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*
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*
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* ClutterTimeoutPool: pool of timeout functions using the same slice of
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* the GLib main loop
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*
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* Author: Emmanuele Bassi <ebassi@openedhand.com>
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*
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* Based on similar code by Tristan van Berkom
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*/
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#undef CLUTTER_DISABLE_DEPRECATED
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#include "clutter-timeout-pool.h"
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#include "clutter-debug.h"
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#include "clutter-timeout-interval.h"
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typedef struct _ClutterTimeout ClutterTimeout;
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typedef enum {
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CLUTTER_TIMEOUT_NONE = 0,
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CLUTTER_TIMEOUT_READY = 1 << 1
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} ClutterTimeoutFlags;
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struct _ClutterTimeout
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{
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guint id;
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ClutterTimeoutFlags flags;
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gint refcount;
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ClutterTimeoutInterval interval;
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GSourceFunc func;
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gpointer data;
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GDestroyNotify notify;
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};
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struct _ClutterTimeoutPool
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{
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GSource source;
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guint next_id;
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GList *timeouts;
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GList *dispatched_timeouts;
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gint ready;
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guint id;
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};
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#define TIMEOUT_READY(timeout) (timeout->flags & CLUTTER_TIMEOUT_READY)
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static gboolean clutter_timeout_pool_prepare (GSource *source,
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gint *next_timeout);
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static gboolean clutter_timeout_pool_check (GSource *source);
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static gboolean clutter_timeout_pool_dispatch (GSource *source,
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GSourceFunc callback,
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gpointer data);
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static void clutter_timeout_pool_finalize (GSource *source);
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static GSourceFuncs clutter_timeout_pool_funcs =
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{
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clutter_timeout_pool_prepare,
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clutter_timeout_pool_check,
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clutter_timeout_pool_dispatch,
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clutter_timeout_pool_finalize
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};
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static gint
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clutter_timeout_sort (gconstpointer a,
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gconstpointer b)
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{
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const ClutterTimeout *t_a = a;
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const ClutterTimeout *t_b = b;
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/* Keep 'ready' timeouts at the front */
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if (TIMEOUT_READY (t_a))
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return -1;
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if (TIMEOUT_READY (t_b))
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return 1;
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return _clutter_timeout_interval_compare_expiration (&t_a->interval,
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&t_b->interval);
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}
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static gint
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clutter_timeout_find_by_id (gconstpointer a,
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gconstpointer b)
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{
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const ClutterTimeout *t_a = a;
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return t_a->id == GPOINTER_TO_UINT (b) ? 0 : 1;
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}
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static ClutterTimeout *
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clutter_timeout_new (guint fps)
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{
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ClutterTimeout *timeout;
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timeout = g_slice_new0 (ClutterTimeout);
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_clutter_timeout_interval_init (&timeout->interval, fps);
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timeout->flags = CLUTTER_TIMEOUT_NONE;
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timeout->refcount = 1;
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return timeout;
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}
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static gboolean
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clutter_timeout_prepare (ClutterTimeoutPool *pool,
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ClutterTimeout *timeout,
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gint *next_timeout)
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{
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GSource *source = (GSource *) pool;
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gint64 now;
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#if GLIB_CHECK_VERSION (2, 27, 3)
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now = g_source_get_time (source) / 1000;
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#else
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{
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GTimeVal source_time;
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g_source_get_current_time (source, &source_time);
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now = source_time.tv_sec * 1000 + source_time.tv_usec / 1000;
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}
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#endif
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return _clutter_timeout_interval_prepare (now,
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&timeout->interval,
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next_timeout);
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}
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/* ref and unref are always called under the main Clutter lock, so there
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* is not need for us to use g_atomic_int_* API.
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*/
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static ClutterTimeout *
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clutter_timeout_ref (ClutterTimeout *timeout)
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{
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g_return_val_if_fail (timeout != NULL, timeout);
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g_return_val_if_fail (timeout->refcount > 0, timeout);
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timeout->refcount += 1;
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return timeout;
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}
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static void
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clutter_timeout_unref (ClutterTimeout *timeout)
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{
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g_return_if_fail (timeout != NULL);
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g_return_if_fail (timeout->refcount > 0);
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timeout->refcount -= 1;
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if (timeout->refcount == 0)
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{
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if (timeout->notify)
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timeout->notify (timeout->data);
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g_slice_free (ClutterTimeout, timeout);
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}
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}
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static void
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clutter_timeout_free (ClutterTimeout *timeout)
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{
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if (G_LIKELY (timeout))
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{
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if (timeout->notify)
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timeout->notify (timeout->data);
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g_slice_free (ClutterTimeout, timeout);
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}
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}
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static gboolean
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clutter_timeout_pool_prepare (GSource *source,
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gint *next_timeout)
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{
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ClutterTimeoutPool *pool = (ClutterTimeoutPool *) source;
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GList *l = pool->timeouts;
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/* the pool is ready if the first timeout is ready */
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if (l && l->data)
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{
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ClutterTimeout *timeout = l->data;
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return clutter_timeout_prepare (pool, timeout, next_timeout);
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}
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else
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{
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*next_timeout = -1;
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return FALSE;
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}
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}
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static gboolean
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clutter_timeout_pool_check (GSource *source)
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{
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ClutterTimeoutPool *pool = (ClutterTimeoutPool *) source;
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GList *l;
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clutter_threads_enter ();
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for (l = pool->timeouts; l; l = l->next)
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{
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ClutterTimeout *timeout = l->data;
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/* since the timeouts are sorted by expiration, as soon
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* as we get a check returning FALSE we know that the
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* following timeouts are not expiring, so we break as
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* soon as possible
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*/
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if (clutter_timeout_prepare (pool, timeout, NULL))
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{
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timeout->flags |= CLUTTER_TIMEOUT_READY;
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pool->ready += 1;
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}
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else
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break;
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}
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clutter_threads_leave ();
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return (pool->ready > 0);
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}
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static gboolean
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clutter_timeout_pool_dispatch (GSource *source,
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GSourceFunc func,
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gpointer data)
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{
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ClutterTimeoutPool *pool = (ClutterTimeoutPool *) source;
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GList *dispatched_timeouts;
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/* the main loop might have predicted this, so we repeat the
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* check for ready timeouts.
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*/
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if (!pool->ready)
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clutter_timeout_pool_check (source);
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clutter_threads_enter ();
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/* Iterate by moving the actual start of the list along so that it
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* can cope with adds and removes while a timeout is being dispatched
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*/
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while (pool->timeouts && pool->timeouts->data && pool->ready-- > 0)
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{
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ClutterTimeout *timeout = pool->timeouts->data;
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GList *l;
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/* One of the ready timeouts may have been removed during dispatch,
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* in which case pool->ready will be wrong, but the ready timeouts
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* are always kept at the start of the list so we can stop once
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* we've reached the first non-ready timeout
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*/
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if (!(TIMEOUT_READY (timeout)))
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break;
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/* Add a reference to the timeout so it can't disappear
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* while it's being dispatched
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*/
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clutter_timeout_ref (timeout);
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timeout->flags &= ~CLUTTER_TIMEOUT_READY;
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/* Move the list node to a list of dispatched timeouts */
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l = pool->timeouts;
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if (l->next)
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l->next->prev = NULL;
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pool->timeouts = l->next;
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if (pool->dispatched_timeouts)
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pool->dispatched_timeouts->prev = l;
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l->prev = NULL;
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l->next = pool->dispatched_timeouts;
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pool->dispatched_timeouts = l;
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if (!_clutter_timeout_interval_dispatch (&timeout->interval,
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timeout->func, timeout->data))
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{
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/* The timeout may have already been removed, but nothing
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* can be added to the dispatched_timeout list except in this
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* function so it will always either be at the head of the
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* dispatched list or have been removed
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*/
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if (pool->dispatched_timeouts &&
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pool->dispatched_timeouts->data == timeout)
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{
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pool->dispatched_timeouts =
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g_list_delete_link (pool->dispatched_timeouts,
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pool->dispatched_timeouts);
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/* Remove the reference that was held by it being in the list */
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clutter_timeout_unref (timeout);
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}
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}
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clutter_timeout_unref (timeout);
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}
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/* Re-insert the dispatched timeouts in sorted order */
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dispatched_timeouts = pool->dispatched_timeouts;
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while (dispatched_timeouts)
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{
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ClutterTimeout *timeout = dispatched_timeouts->data;
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GList *next = dispatched_timeouts->next;
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if (timeout)
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pool->timeouts = g_list_insert_sorted (pool->timeouts, timeout,
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clutter_timeout_sort);
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dispatched_timeouts = next;
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}
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g_list_free (pool->dispatched_timeouts);
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pool->dispatched_timeouts = NULL;
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pool->ready = 0;
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clutter_threads_leave ();
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return TRUE;
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}
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static void
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clutter_timeout_pool_finalize (GSource *source)
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{
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ClutterTimeoutPool *pool = (ClutterTimeoutPool *) source;
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/* force destruction */
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g_list_foreach (pool->timeouts, (GFunc) clutter_timeout_free, NULL);
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g_list_free (pool->timeouts);
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}
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/**
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* clutter_timeout_pool_new:
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* @priority: the priority of the timeout pool. Typically this will
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* be #G_PRIORITY_DEFAULT
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*
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* Creates a new timeout pool source. A timeout pool should be used when
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* multiple timeout functions, running at the same priority, are needed and
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* the g_timeout_add() API might lead to starvation of the time slice of
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* the main loop. A timeout pool allocates a single time slice of the main
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* loop and runs every timeout function inside it. The timeout pool is
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* always sorted, so that the extraction of the next timeout function is
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* a constant time operation.
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*
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* Return value: the newly created #ClutterTimeoutPool. The created pool
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* is owned by the GLib default context and will be automatically
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* destroyed when the context is destroyed. It is possible to force
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* the destruction of the timeout pool using g_source_destroy()
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*
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* Since: 0.4
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*
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* Deprecated: 1.6
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*/
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ClutterTimeoutPool *
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clutter_timeout_pool_new (gint priority)
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{
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ClutterTimeoutPool *pool;
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GSource *source;
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source = g_source_new (&clutter_timeout_pool_funcs,
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sizeof (ClutterTimeoutPool));
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if (!source)
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return NULL;
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g_source_set_name (source, "Clutter timeout pool");
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if (priority != G_PRIORITY_DEFAULT)
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g_source_set_priority (source, priority);
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pool = (ClutterTimeoutPool *) source;
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pool->next_id = 1;
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pool->id = g_source_attach (source, NULL);
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/* let the default GLib context manage the pool */
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g_source_unref (source);
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return pool;
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}
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/**
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* clutter_timeout_pool_add:
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* @pool: a #ClutterTimeoutPool
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* @fps: the time between calls to the function, in frames per second
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* @func: function to call
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* @data: data to pass to the function, or %NULL
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* @notify: function to call when the timeout is removed, or %NULL
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*
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* Sets a function to be called at regular intervals, and puts it inside
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* the @pool. The function is repeatedly called until it returns %FALSE,
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* at which point the timeout is automatically destroyed and the function
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* won't be called again. If @notify is not %NULL, the @notify function
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* will be called. The first call to @func will be at the end of @interval.
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*
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* Since Clutter 0.8 this will try to compensate for delays. For
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* example, if @func takes half the interval time to execute then the
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* function will be called again half the interval time after it
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* finished. Before version 0.8 it would not fire until a full
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* interval after the function completes so the delay between calls
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* would be @interval * 1.5. This function does not however try to
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* invoke the function multiple times to catch up missing frames if
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* @func takes more than @interval ms to execute.
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*
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* Return value: the ID (greater than 0) of the timeout inside the pool.
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* Use clutter_timeout_pool_remove() to stop the timeout.
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*
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* Since: 0.4
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*
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* Deprecated: 1.6
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*/
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guint
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clutter_timeout_pool_add (ClutterTimeoutPool *pool,
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guint fps,
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GSourceFunc func,
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gpointer data,
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GDestroyNotify notify)
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{
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ClutterTimeout *timeout;
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guint retval = 0;
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timeout = clutter_timeout_new (fps);
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retval = timeout->id = pool->next_id++;
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timeout->func = func;
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timeout->data = data;
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timeout->notify = notify;
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pool->timeouts = g_list_insert_sorted (pool->timeouts, timeout,
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clutter_timeout_sort);
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return retval;
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}
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/**
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* clutter_timeout_pool_remove:
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* @pool: a #ClutterTimeoutPool
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* @id: the id of the timeout to remove
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*
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* Removes a timeout function with @id from the timeout pool. The id
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* is the same returned when adding a function to the timeout pool with
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* clutter_timeout_pool_add().
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*
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* Since: 0.4
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*
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* Deprecated: 1.6
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*/
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void
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clutter_timeout_pool_remove (ClutterTimeoutPool *pool,
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guint id)
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{
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GList *l;
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if ((l = g_list_find_custom (pool->timeouts, GUINT_TO_POINTER (id),
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clutter_timeout_find_by_id)))
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{
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clutter_timeout_unref (l->data);
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pool->timeouts = g_list_delete_link (pool->timeouts, l);
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}
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else if ((l = g_list_find_custom (pool->dispatched_timeouts,
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GUINT_TO_POINTER (id),
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clutter_timeout_find_by_id)))
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{
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clutter_timeout_unref (l->data);
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pool->dispatched_timeouts =
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g_list_delete_link (pool->dispatched_timeouts, l);
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}
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}
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