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6183eb3632
mutter/clutter/gdk/clutter-master-clock-gdk.c
Lionel Landwerlin 6183eb3632 gdk: master-clock: disable vsync throttling 
When running with a master clock based on the GdkFrameClock, we get
synchronized with the compositor, so no need for throttling rendering.

In particular when dealing with foreign windows, we run into deadlocks
in Mesa because of the way the Mesa wayland backend is implemented [1].

[1] : http://cgit.freedesktop.org/mesa/mesa/tree/src/egl/drivers/dri2/platform_wayland.c#n330

https://bugzilla.gnome.org/show_bug.cgi?id=754671
2015-09-07 18:17:09 +01:00

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/*
* Clutter.
*
* An OpenGL based 'interactive canvas' library.
*
* Authored By: Lionel Landwerlin <lionel.g.landwerlin@linux.intel.com>
*
* Copyright (C) 2015 Intel Corporation.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library. If not, see <http://www.gnu.org/licenses/>.
*/
/*
* SECTION:clutter-master-clock-gdk
* @short_description: The GDK master clock for all animations
*
* The #ClutterMasterClockDefault class is the GdkFrameClock based implementation
* of #ClutterMasterClock.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <gdk/gdk.h>
#include "clutter-master-clock.h"
#include "clutter-master-clock-gdk.h"
#include "clutter-stage-gdk.h"
#include "clutter-debug.h"
#include "clutter-private.h"
#include "clutter-stage-manager-private.h"
#include "clutter-stage-private.h"
#ifdef CLUTTER_ENABLE_DEBUG
#define clutter_warn_if_over_budget(master_clock,start_time,section) G_STMT_START { \
gint64 __delta = g_get_monotonic_time () - start_time; \
gint64 __budget = master_clock->remaining_budget; \
if (__budget > 0 && __delta >= __budget) { \
_clutter_diagnostic_message ("%s took %" G_GINT64_FORMAT " microseconds " \
"more than the remaining budget of %" G_GINT64_FORMAT \
" microseconds", \
section, __delta - __budget, __budget); \
} } G_STMT_END
#else
#define clutter_warn_if_over_budget(master_clock,start_time,section)
#endif
typedef struct _ClutterClockSource ClutterClockSource;
struct _ClutterMasterClockGdk
{
GObject parent_instance;
/* the list of timelines handled by the clock */
GSList *timelines;
/* mapping between ClutterStages and GdkFrameClocks.
*
* @stage_to_clock: a direct mapping because each stage has at most one clock
* @clock_to_stage: each clock can have more than one stage
*/
GHashTable *stage_to_clock;
GHashTable *clock_to_stage;
/* the current state of the clock, in usecs */
gint64 cur_tick;
/* the previous state of the clock, in usecs, used to compute the delta */
gint64 prev_tick;
#ifdef CLUTTER_ENABLE_DEBUG
gint64 frame_budget;
gint64 remaining_budget;
#endif
};
struct _ClutterClockSource
{
GSource source;
ClutterMasterClock *master_clock;
};
static void clutter_master_clock_iface_init (ClutterMasterClockIface *iface);
G_DEFINE_TYPE_WITH_CODE (ClutterMasterClockGdk,
clutter_master_clock_gdk,
G_TYPE_OBJECT,
G_IMPLEMENT_INTERFACE (CLUTTER_TYPE_MASTER_CLOCK,
clutter_master_clock_iface_init));
static void
master_clock_schedule_forced_stages_updates (ClutterMasterClockGdk *master_clock)
{
GHashTableIter iter;
gpointer stage, frame_clock;
g_hash_table_iter_init (&iter, master_clock->stage_to_clock);
while (g_hash_table_iter_next (&iter, &stage, &frame_clock))
gdk_frame_clock_request_phase (GDK_FRAME_CLOCK (frame_clock),
GDK_FRAME_CLOCK_PHASE_UPDATE);
}
static void
master_clock_schedule_stage_update (ClutterMasterClockGdk *master_clock,
ClutterStage *stage,
GdkFrameClock *frame_clock)
{
/* Clear the old update time */
_clutter_stage_clear_update_time (stage);
/* And if there is still work to be done, schedule a new one */
if (_clutter_stage_has_queued_events (stage) ||
_clutter_stage_needs_update (stage))
_clutter_stage_schedule_update (stage);
/* We can avoid to schedule a new frame if the stage doesn't need
* anymore redrawing. But in the case we still have timelines alive,
* we have no choice, we need to advance the timelines for the next
* frame. */
if (master_clock->timelines != NULL)
gdk_frame_clock_request_phase (frame_clock, GDK_FRAME_CLOCK_PHASE_UPDATE);
}
static void
master_clock_process_stage_events (ClutterMasterClockGdk *master_clock,
ClutterStage *stage)
{
#ifdef CLUTTER_ENABLE_DEBUG
gint64 start = g_get_monotonic_time ();
#endif
/* Process queued events */
_clutter_stage_process_queued_events (stage);
#ifdef CLUTTER_ENABLE_DEBUG
if (_clutter_diagnostic_enabled ())
clutter_warn_if_over_budget (master_clock, start, "Event processing");
master_clock->remaining_budget -= (g_get_monotonic_time () - start);
#endif
}
/*
* master_clock_advance_timelines:
* @master_clock: a #ClutterMasterClock
*
* Advances all the timelines held by the master clock. This function
* should be called before calling _clutter_stage_do_update() to
* make sure that all the timelines are advanced and the scene is updated.
*/
static void
master_clock_advance_timelines (ClutterMasterClockGdk *master_clock)
{
GSList *timelines, *l;
#ifdef CLUTTER_ENABLE_DEBUG
gint64 start = g_get_monotonic_time ();
#endif
/* we protect ourselves from timelines being removed during
* the advancement by other timelines by copying the list of
* timelines, taking a reference on them, iterating over the
* copied list and then releasing the reference.
*
* we cannot simply take a reference on the timelines and still
* use the list held by the master clock because the do_tick()
* might result in the creation of a new timeline, which gets
* added at the end of the list with no reference increase and
* thus gets disposed at the end of the iteration.
*
* this implies that a newly added timeline will not be advanced
* by this clock iteration, which is perfectly fine since we're
* in its first cycle.
*
* we also cannot steal the master clock timelines list because
* a timeline might be removed as the direct result of do_tick()
* and remove_timeline() would not find the timeline, failing
* and leaving a dangling pointer behind.
*/
timelines = g_slist_copy (master_clock->timelines);
g_slist_foreach (timelines, (GFunc) g_object_ref, NULL);
for (l = timelines; l != NULL; l = l->next)
_clutter_timeline_do_tick (l->data, master_clock->cur_tick / 1000);
g_slist_foreach (timelines, (GFunc) g_object_unref, NULL);
g_slist_free (timelines);
#ifdef CLUTTER_ENABLE_DEBUG
if (_clutter_diagnostic_enabled ())
clutter_warn_if_over_budget (master_clock, start, "Animations");
master_clock->remaining_budget -= (g_get_monotonic_time () - start);
#endif
}
static gboolean
master_clock_update_stage (ClutterMasterClockGdk *master_clock,
ClutterStage *stage)
{
gboolean stage_updated = FALSE;
#ifdef CLUTTER_ENABLE_DEBUG
gint64 start = g_get_monotonic_time ();
#endif
_clutter_run_repaint_functions (CLUTTER_REPAINT_FLAGS_PRE_PAINT);
/* Update any stage that needs redraw/relayout after the clock
* is advanced.
*/
stage_updated |= _clutter_stage_do_update (stage);
_clutter_run_repaint_functions (CLUTTER_REPAINT_FLAGS_POST_PAINT);
#ifdef CLUTTER_ENABLE_DEBUG
if (_clutter_diagnostic_enabled ())
clutter_warn_if_over_budget (master_clock, start, "Updating the stage");
master_clock->remaining_budget -= (g_get_monotonic_time () - start);
#endif
return stage_updated;
}
static void
clutter_master_clock_gdk_update (GdkFrameClock *frame_clock,
ClutterMasterClockGdk *master_clock)
{
GList *stages, *l;
_clutter_threads_acquire_lock ();
/* Get the time to use for this frame */
master_clock->cur_tick = g_get_monotonic_time ();
#ifdef CLUTTER_ENABLE_DEBUG
/* Update the remaining budget */
master_clock->remaining_budget = master_clock->frame_budget;
#endif
stages = g_hash_table_lookup (master_clock->clock_to_stage, frame_clock);
CLUTTER_NOTE (SCHEDULER, "Updating %d stages tied to frame clock %p",
g_list_length (stages), frame_clock);
for (l = stages; l != NULL; l = l->next)
{
ClutterStage *stage = l->data;
CLUTTER_NOTE (SCHEDULER, "Master clock (stage:%p, clock:%p) [tick]", stage, frame_clock);
/* Each frame is split into three separate phases: */
/* 1. process all the events; goes through the stage's event queue
* and processes each event according to its type, then emits the
* various signals that are associated with the event
*/
master_clock_process_stage_events (master_clock, stage);
/* 2. advance the timelines */
master_clock_advance_timelines (master_clock);
/* 3. relayout and redraw the stage; the stage might have been
* destroyed in 1. when processing events, check whether it's
* still alive.
*/
if (g_hash_table_lookup (master_clock->stage_to_clock, stage) != NULL)
{
master_clock_update_stage (master_clock, stage);
master_clock_schedule_stage_update (master_clock, stage, frame_clock);
}
}
master_clock->prev_tick = master_clock->cur_tick;
_clutter_threads_release_lock ();
}
static void
clutter_master_clock_gdk_remove_stage_clock (ClutterMasterClockGdk *master_clock,
ClutterStage *stage)
{
gpointer frame_clock = g_hash_table_lookup (master_clock->stage_to_clock, stage);
GList *stages;
if (frame_clock == NULL)
return;
CLUTTER_NOTE (SCHEDULER, "Removing stage %p with clock %p", stage, frame_clock);
g_hash_table_remove (master_clock->stage_to_clock, stage);
stages = g_hash_table_lookup (master_clock->clock_to_stage, frame_clock);
if (stages != NULL)
{
if (stages->next == NULL)
{
g_signal_handlers_disconnect_by_func (frame_clock,
clutter_master_clock_gdk_update,
master_clock);
g_hash_table_remove (master_clock->clock_to_stage, frame_clock);
g_list_free (stages);
}
else
{
stages = g_list_remove (stages, stage);
g_hash_table_replace (master_clock->clock_to_stage,
g_object_ref (frame_clock),
stages);
}
}
}
static void
clutter_master_clock_gdk_add_stage_clock (ClutterMasterClockGdk *master_clock,
ClutterStage *stage,
GdkFrameClock *frame_clock)
{
GList *stages;
clutter_master_clock_gdk_remove_stage_clock (master_clock, stage);
CLUTTER_NOTE (SCHEDULER, "Adding stage %p with clock %p", stage, frame_clock);
g_hash_table_insert (master_clock->stage_to_clock, stage, g_object_ref (frame_clock));
stages = g_hash_table_lookup (master_clock->clock_to_stage, frame_clock);
if (stages == NULL)
{
g_hash_table_insert (master_clock->clock_to_stage, g_object_ref (frame_clock),
g_list_append (NULL, stage));
g_signal_connect (frame_clock, "update",
G_CALLBACK (clutter_master_clock_gdk_update),
master_clock);
}
else
stages = g_list_append (stages, stage);
if (master_clock->timelines != NULL)
_clutter_master_clock_start_running ((ClutterMasterClock *) master_clock);
}
static void
clutter_master_clock_gdk_listen_to_stage (ClutterMasterClockGdk *master_clock,
ClutterStage *stage)
{
ClutterStageWindow *stage_window;
ClutterStageGdk *stage_window_gdk;
GdkFrameClock *frame_clock;
stage_window = _clutter_stage_get_window (stage);
if (stage_window == NULL)
{
clutter_master_clock_gdk_remove_stage_clock (master_clock, stage);
return;
}
stage_window_gdk = CLUTTER_STAGE_GDK (stage_window);
if (stage_window_gdk->window == NULL)
{
clutter_master_clock_gdk_remove_stage_clock (master_clock, stage);
return;
}
frame_clock = gdk_window_get_frame_clock (stage_window_gdk->window);
if (frame_clock == NULL)
{
clutter_master_clock_gdk_remove_stage_clock (master_clock, stage);
return;
}
clutter_master_clock_gdk_add_stage_clock (master_clock, stage, frame_clock);
}
static void
clutter_master_clock_gdk_stage_realized (ClutterStage *stage,
GParamSpec *spec,
ClutterMasterClockGdk *master_clock)
{
if (clutter_actor_is_realized (CLUTTER_ACTOR (stage)))
clutter_master_clock_gdk_listen_to_stage (master_clock, stage);
else
clutter_master_clock_gdk_remove_stage_clock (master_clock, stage);
}
static void
clutter_master_clock_gdk_stage_added (ClutterStageManager *manager,
ClutterStage *stage,
ClutterMasterClockGdk *master_clock)
{
g_signal_connect (stage, "notify::realized",
G_CALLBACK (clutter_master_clock_gdk_stage_realized),
master_clock);
clutter_master_clock_gdk_listen_to_stage (master_clock, stage);
}
static void
clutter_master_clock_gdk_stage_removed (ClutterStageManager *manager,
ClutterStage *stage,
ClutterMasterClockGdk *master_clock)
{
clutter_master_clock_gdk_remove_stage_clock (master_clock, stage);
g_signal_handlers_disconnect_by_func (stage,
clutter_master_clock_gdk_stage_realized,
master_clock);
}
static void
clutter_master_clock_gdk_dispose (GObject *gobject)
{
ClutterStageManager *manager = clutter_stage_manager_get_default ();
g_signal_handlers_disconnect_by_func (manager,
clutter_master_clock_gdk_stage_added,
gobject);
g_signal_handlers_disconnect_by_func (manager,
clutter_master_clock_gdk_stage_removed,
gobject);
G_OBJECT_CLASS (clutter_master_clock_gdk_parent_class)->dispose (gobject);
}
static void
clutter_master_clock_gdk_finalize (GObject *gobject)
{
ClutterMasterClockGdk *master_clock = CLUTTER_MASTER_CLOCK_GDK (gobject);
g_hash_table_unref (master_clock->clock_to_stage);
g_hash_table_unref (master_clock->stage_to_clock);
g_slist_free (master_clock->timelines);
G_OBJECT_CLASS (clutter_master_clock_gdk_parent_class)->finalize (gobject);
}
static void
clutter_master_clock_gdk_class_init (ClutterMasterClockGdkClass *klass)
{
GObjectClass *gobject_class = G_OBJECT_CLASS (klass);
gobject_class->dispose = clutter_master_clock_gdk_dispose;
gobject_class->finalize = clutter_master_clock_gdk_finalize;
}
static void
clutter_master_clock_gdk_init (ClutterMasterClockGdk *self)
{
ClutterStageManager *manager;
const GSList *stages, *l;
self->clock_to_stage = g_hash_table_new_full (g_direct_hash, g_direct_equal,
g_object_unref, NULL);
self->stage_to_clock = g_hash_table_new_full (g_direct_hash, g_direct_equal,
NULL, g_object_unref);
manager = clutter_stage_manager_get_default ();
g_signal_connect (manager, "stage-added",
G_CALLBACK (clutter_master_clock_gdk_stage_added), self);
g_signal_connect (manager, "stage-removed",
G_CALLBACK (clutter_master_clock_gdk_stage_removed), self);
stages = clutter_stage_manager_peek_stages (manager);
for (l = stages; l; l = l->next)
clutter_master_clock_gdk_stage_added (manager, l->data, self);
/* Deactivate sync to vblank since we have clock to drive us from
the compositor. */
_clutter_set_sync_to_vblank (FALSE);
if (G_UNLIKELY (clutter_paint_debug_flags & CLUTTER_DEBUG_CONTINUOUS_REDRAW))
g_warning ("Continuous redraw is not supported with the GDK backend.");
}
static void
clutter_master_clock_gdk_add_timeline (ClutterMasterClock *clock,
ClutterTimeline *timeline)
{
ClutterMasterClockGdk *master_clock = (ClutterMasterClockGdk *) clock;
gboolean is_first;
if (g_slist_find (master_clock->timelines, timeline))
return;
is_first = master_clock->timelines == NULL;
master_clock->timelines = g_slist_prepend (master_clock->timelines,
timeline);
if (is_first)
_clutter_master_clock_start_running (clock);
}
static void
clutter_master_clock_gdk_remove_timeline (ClutterMasterClock *clock,
ClutterTimeline *timeline)
{
ClutterMasterClockGdk *master_clock = (ClutterMasterClockGdk *) clock;
master_clock->timelines = g_slist_remove (master_clock->timelines,
timeline);
}
static void
clutter_master_clock_gdk_start_running (ClutterMasterClock *clock)
{
master_clock_schedule_forced_stages_updates ((ClutterMasterClockGdk *) clock);
}
static void
clutter_master_clock_gdk_ensure_next_iteration (ClutterMasterClock *clock)
{
master_clock_schedule_forced_stages_updates ((ClutterMasterClockGdk *) clock);
}
static void
clutter_master_clock_gdk_set_paused (ClutterMasterClock *clock,
gboolean paused)
{
/* GdkFrameClock runs the show here. We do not decide whether the
clock is paused or not. */
}
static void
clutter_master_clock_iface_init (ClutterMasterClockIface *iface)
{
iface->add_timeline = clutter_master_clock_gdk_add_timeline;
iface->remove_timeline = clutter_master_clock_gdk_remove_timeline;
iface->start_running = clutter_master_clock_gdk_start_running;
iface->ensure_next_iteration = clutter_master_clock_gdk_ensure_next_iteration;
iface->set_paused = clutter_master_clock_gdk_set_paused;
}
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