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mutter/src/tests/clutter/conform/frame-clock.c

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clutter: Add a simple frame clock base This adds a current unused, apart from tests, frame clock. It just reschedules given a refresh rate, based on presentation time feedback. The aiming for it is to be used with a single frame listener (stage views) that will notify when a frame is presented. It does not aim to handle multiple frame listeners, instead, it's assumed that different frame listeners will use their own frame clocks. Also add a test that verifies that the basic functionality works. https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/1285
2020-03-06 17:28:51 -05:00
#include "clutter/clutter-frame-clock.h"
#include "tests/clutter-test-utils.h"
static const float refresh_rate = 60.0;
static const int64_t refresh_interval_us = (int64_t) (0.5 + G_USEC_PER_SEC /
refresh_rate);
static int64_t test_frame_count;
static int64_t expected_frame_count;
typedef struct _FakeHwClock
{
GSource source;
ClutterFrameClock *frame_clock;
int64_t next_presentation_time_us;
gboolean has_pending_present;
} FakeHwClock;
typedef struct _FrameClockTest
{
FakeHwClock *fake_hw_clock;
GMainLoop *main_loop;
} FrameClockTest;
static gboolean
fake_hw_clock_source_dispatch (GSource *source,
GSourceFunc callback,
gpointer user_data)
{
FakeHwClock *fake_hw_clock = (FakeHwClock *) source;
ClutterFrameClock *frame_clock = fake_hw_clock->frame_clock;
if (fake_hw_clock->has_pending_present)
{
fake_hw_clock->has_pending_present = FALSE;
clutter_frame_clock_notify_presented (frame_clock,
g_source_get_time (source));
if (callback)
callback (user_data);
}
fake_hw_clock->next_presentation_time_us += refresh_interval_us;
g_source_set_ready_time (source, fake_hw_clock->next_presentation_time_us);
return G_SOURCE_CONTINUE;
}
static GSourceFuncs fake_hw_clock_source_funcs = {
NULL,
NULL,
fake_hw_clock_source_dispatch,
NULL
};
static FakeHwClock *
fake_hw_clock_new (ClutterFrameClock *frame_clock,
GSourceFunc callback,
gpointer user_data)
{
GSource *source;
FakeHwClock *fake_hw_clock;
source = g_source_new (&fake_hw_clock_source_funcs, sizeof (FakeHwClock));
fake_hw_clock = (FakeHwClock *) source;
fake_hw_clock->frame_clock = frame_clock;
fake_hw_clock->next_presentation_time_us =
g_get_monotonic_time () + refresh_interval_us;
g_source_set_ready_time (source, fake_hw_clock->next_presentation_time_us);
g_source_set_callback (source, callback, user_data, NULL);
return fake_hw_clock;
}
static ClutterFrameResult
frame_clock_frame (ClutterFrameClock *frame_clock,
int64_t frame_count,
gpointer user_data)
{
FrameClockTest *test = user_data;
GMainLoop *main_loop = test->main_loop;
g_assert_cmpint (frame_count, ==, expected_frame_count);
expected_frame_count++;
if (test_frame_count == 0)
{
g_main_loop_quit (main_loop);
return CLUTTER_FRAME_RESULT_IDLE;
}
else
{
test->fake_hw_clock->has_pending_present = TRUE;
}
test_frame_count--;
return CLUTTER_FRAME_RESULT_PENDING_PRESENTED;
}
static const ClutterFrameListenerIface frame_listener_iface = {
.frame = frame_clock_frame,
};
static gboolean
schedule_update_hw_callback (gpointer user_data)
{
ClutterFrameClock *frame_clock = user_data;
clutter_frame_clock_schedule_update (frame_clock);
return G_SOURCE_CONTINUE;
}
static void
frame_clock_schedule_update (void)
{
FrameClockTest test;
ClutterFrameClock *frame_clock;
int64_t before_us;
int64_t after_us;
GSource *source;
FakeHwClock *fake_hw_clock;
test_frame_count = 10;
expected_frame_count = 0;
test.main_loop = g_main_loop_new (NULL, FALSE);
frame_clock = clutter_frame_clock_new (refresh_rate,
&frame_listener_iface,
&test);
fake_hw_clock = fake_hw_clock_new (frame_clock,
schedule_update_hw_callback,
frame_clock);
source = &fake_hw_clock->source;
g_source_attach (source, NULL);
test.fake_hw_clock = fake_hw_clock;
before_us = g_get_monotonic_time ();
clutter_frame_clock_schedule_update (frame_clock);
g_main_loop_run (test.main_loop);
after_us = g_get_monotonic_time ();
g_assert_cmpint (after_us - before_us, >, 10 * refresh_interval_us);
g_main_loop_unref (test.main_loop);
g_object_unref (frame_clock);
g_source_destroy (source);
g_source_unref (source);
}
clutter/frame-clock: Handle immediate present feedback In certain scenarios, the frame clock needs to handle present feedback long before the assumed presentation time happens. To avoid scheduling the next frame to soon, avoid scheduling one if we were presented half a frame interval within the last expected presentation time. https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/1285
2020-03-20 11:03:34 -04:00
static gboolean
schedule_update_idle (gpointer user_data)
{
ClutterFrameClock *frame_clock = user_data;
clutter_frame_clock_schedule_update (frame_clock);
return G_SOURCE_REMOVE;
}
static ClutterFrameResult
immediate_frame_clock_frame (ClutterFrameClock *frame_clock,
int64_t frame_count,
gpointer user_data)
{
GMainLoop *main_loop = user_data;
g_assert_cmpint (frame_count, ==, expected_frame_count);
expected_frame_count++;
if (test_frame_count == 0)
{
g_main_loop_quit (main_loop);
return CLUTTER_FRAME_RESULT_IDLE;
}
test_frame_count--;
clutter_frame_clock_notify_presented (frame_clock, g_get_monotonic_time ());
g_idle_add (schedule_update_idle, frame_clock);
return CLUTTER_FRAME_RESULT_PENDING_PRESENTED;
}
static const ClutterFrameListenerIface immediate_frame_listener_iface = {
.frame = immediate_frame_clock_frame,
};
static void
frame_clock_immediate_present (void)
{
GMainLoop *main_loop;
ClutterFrameClock *frame_clock;
int64_t before_us;
int64_t after_us;
test_frame_count = 10;
expected_frame_count = 0;
main_loop = g_main_loop_new (NULL, FALSE);
frame_clock = clutter_frame_clock_new (refresh_rate,
&immediate_frame_listener_iface,
main_loop);
before_us = g_get_monotonic_time ();
clutter_frame_clock_schedule_update (frame_clock);
g_main_loop_run (main_loop);
after_us = g_get_monotonic_time ();
/* The initial frame will only be delayed by 2 ms, so we are checking one
* less.
*/
g_assert_cmpint (after_us - before_us, >, 9 * refresh_interval_us);
g_main_loop_unref (main_loop);
g_object_unref (frame_clock);
}
clutter: Add a simple frame clock base This adds a current unused, apart from tests, frame clock. It just reschedules given a refresh rate, based on presentation time feedback. The aiming for it is to be used with a single frame listener (stage views) that will notify when a frame is presented. It does not aim to handle multiple frame listeners, instead, it's assumed that different frame listeners will use their own frame clocks. Also add a test that verifies that the basic functionality works. https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/1285
2020-03-06 17:28:51 -05:00
CLUTTER_TEST_SUITE (
CLUTTER_TEST_UNIT ("/frame-clock/schedule-update", frame_clock_schedule_update)
clutter/frame-clock: Handle immediate present feedback In certain scenarios, the frame clock needs to handle present feedback long before the assumed presentation time happens. To avoid scheduling the next frame to soon, avoid scheduling one if we were presented half a frame interval within the last expected presentation time. https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/1285
2020-03-20 11:03:34 -04:00
CLUTTER_TEST_UNIT ("/frame-clock/immediate-present", frame_clock_immediate_present)
clutter: Add a simple frame clock base This adds a current unused, apart from tests, frame clock. It just reschedules given a refresh rate, based on presentation time feedback. The aiming for it is to be used with a single frame listener (stage views) that will notify when a frame is presented. It does not aim to handle multiple frame listeners, instead, it's assumed that different frame listeners will use their own frame clocks. Also add a test that verifies that the basic functionality works. https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/1285
2020-03-06 17:28:51 -05:00
)
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