425 lines
11 KiB
C
425 lines
11 KiB
C
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#include <math.h>
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#include <gtk/gtk.h>
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#include "variable.h"
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typedef struct {
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double angle;
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gint64 stream_time;
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gint64 clock_time;
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gint64 frame_counter;
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} FrameData;
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static FrameData *displayed_frame;
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static GtkWidget *window;
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static GList *past_frames;
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static Variable latency_error = VARIABLE_INIT;
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static Variable time_factor_stats = VARIABLE_INIT;
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static int dropped_frames = 0;
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static int n_frames = 0;
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static gboolean pll;
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static int fps = 24;
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/* Thread-safe frame queue */
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#define MAX_QUEUE_LENGTH 5
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static GQueue *frame_queue;
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static GMutex frame_mutex;
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static GCond frame_cond;
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static void
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queue_frame (FrameData *frame_data)
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{
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g_mutex_lock (&frame_mutex);
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while (frame_queue->length == MAX_QUEUE_LENGTH)
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g_cond_wait (&frame_cond, &frame_mutex);
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g_queue_push_tail (frame_queue, frame_data);
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g_mutex_unlock (&frame_mutex);
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}
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static FrameData *
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unqueue_frame (void)
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{
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FrameData *frame_data;
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g_mutex_lock (&frame_mutex);
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if (frame_queue->length > 0)
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{
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frame_data = g_queue_pop_head (frame_queue);
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g_cond_signal (&frame_cond);
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}
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else
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{
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frame_data = NULL;
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}
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g_mutex_unlock (&frame_mutex);
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return frame_data;
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}
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static FrameData *
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peek_pending_frame (void)
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{
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FrameData *frame_data;
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g_mutex_lock (&frame_mutex);
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if (frame_queue->head)
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frame_data = frame_queue->head->data;
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else
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frame_data = NULL;
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g_mutex_unlock (&frame_mutex);
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return frame_data;
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}
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static FrameData *
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peek_next_frame (void)
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{
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FrameData *frame_data;
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g_mutex_lock (&frame_mutex);
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if (frame_queue->head && frame_queue->head->next)
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frame_data = frame_queue->head->next->data;
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else
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frame_data = NULL;
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g_mutex_unlock (&frame_mutex);
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return frame_data;
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}
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/* Frame producer thread */
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static gpointer
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create_frames_thread (gpointer data)
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{
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int frame_count = 0;
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while (TRUE)
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{
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FrameData *frame_data = g_new0 (FrameData, 1);
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frame_data->angle = 2 * M_PI * (frame_count % fps) / (double)fps;
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frame_data->stream_time = (G_GINT64_CONSTANT (1000000) * frame_count) / fps;
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queue_frame (frame_data);
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frame_count++;
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}
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return NULL;
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}
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/* Clock management:
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*
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* The logic here, which is activated by the --pll argument
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* demonstrates adjusting the playback rate so that the frames exactly match
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* when they are displayed both frequency and phase. If there was an
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* accompanying audio track, you would need to resample the audio to match
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* the clock.
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*
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* The algorithm isn't exactly a PLL - I wrote it first that way, but
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* it oscillicated before coming into sync and this approach was easier than
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* fine-tuning the PLL filter.
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*
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* A more complicated algorithm could also establish sync when the playback
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* rate isn't exactly an integral divisor of the VBlank rate, such as 24fps
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* video on a 60fps display.
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*/
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#define PRE_BUFFER_TIME 500000
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static gint64 stream_time_base;
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static gint64 clock_time_base;
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static double time_factor = 1.0;
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static double frequency_time_factor = 1.0;
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static double phase_time_factor = 1.0;
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static gint64
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stream_time_to_clock_time (gint64 stream_time)
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{
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return clock_time_base + (stream_time - stream_time_base) * time_factor;
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}
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static void
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adjust_clock_for_phase (gint64 frame_clock_time,
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gint64 presentation_time)
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{
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static int count = 0;
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static gint64 previous_frame_clock_time;
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static gint64 previous_presentation_time;
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gint64 phase = presentation_time - frame_clock_time;
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count++;
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if (count >= fps) /* Give a second of warmup */
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{
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gint64 time_delta = frame_clock_time - previous_frame_clock_time;
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gint64 previous_phase = previous_presentation_time - previous_frame_clock_time;
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double expected_phase_delta;
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stream_time_base += (frame_clock_time - clock_time_base) / time_factor;
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clock_time_base = frame_clock_time;
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expected_phase_delta = time_delta * (1 - phase_time_factor);
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/* If the phase is increasing that means the computed clock times are
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* increasing too slowly. We increase the frequency time factor to compensate,
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* but decrease the compensation so that it takes effect over 1 second to
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* avoid jitter */
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frequency_time_factor += (phase - previous_phase - expected_phase_delta) / (double)time_delta / fps;
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/* We also want to increase or decrease the frequency to bring the phase
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* into sync. We do that again so that the phase should sync up over 1 seconds
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*/
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phase_time_factor = 1 + phase / 2000000.;
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time_factor = frequency_time_factor * phase_time_factor;
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}
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previous_frame_clock_time = frame_clock_time;
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previous_presentation_time = presentation_time;
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}
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/* Drawing */
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static void
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on_draw (GtkDrawingArea *da,
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cairo_t *cr,
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int width,
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int height,
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gpointer data)
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{
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double cx, cy, r;
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cairo_set_source_rgb (cr, 1., 1., 1.);
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cairo_paint (cr);
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cairo_set_source_rgb (cr, 0., 0., 0.);
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cx = width / 2.;
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cy = height / 2.;
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r = MIN (width, height) / 2.;
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cairo_arc (cr, cx, cy, r,
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0, 2 * M_PI);
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cairo_stroke (cr);
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if (displayed_frame)
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{
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cairo_move_to (cr, cx, cy);
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cairo_line_to (cr,
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cx + r * cos(displayed_frame->angle - M_PI / 2),
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cy + r * sin(displayed_frame->angle - M_PI / 2));
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cairo_stroke (cr);
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if (displayed_frame->frame_counter == 0)
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{
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GdkFrameClock *frame_clock = gtk_widget_get_frame_clock (window);
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displayed_frame->frame_counter = gdk_frame_clock_get_frame_counter (frame_clock);
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}
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}
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}
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static void
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collect_old_frames (void)
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{
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GdkFrameClock *frame_clock = gtk_widget_get_frame_clock (window);
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GList *l, *l_next;
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for (l = past_frames; l; l = l_next)
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{
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FrameData *frame_data = l->data;
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gboolean remove = FALSE;
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l_next = l->next;
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GdkFrameTimings *timings = gdk_frame_clock_get_timings (frame_clock,
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frame_data->frame_counter);
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if (timings == NULL)
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{
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remove = TRUE;
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}
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else if (gdk_frame_timings_get_complete (timings))
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{
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gint64 presentation_time = gdk_frame_timings_get_predicted_presentation_time (timings);
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gint64 refresh_interval = gdk_frame_timings_get_refresh_interval (timings);
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if (pll &&
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presentation_time && refresh_interval &&
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presentation_time > frame_data->clock_time - refresh_interval / 2 &&
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presentation_time < frame_data->clock_time + refresh_interval / 2)
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adjust_clock_for_phase (frame_data->clock_time, presentation_time);
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if (presentation_time)
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variable_add (&latency_error,
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presentation_time - frame_data->clock_time);
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remove = TRUE;
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}
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if (remove)
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{
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past_frames = g_list_delete_link (past_frames, l);
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g_free (frame_data);
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}
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}
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}
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static void
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print_statistics (void)
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{
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gint64 now = g_get_monotonic_time ();
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static gint64 last_print_time = 0;
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if (last_print_time == 0)
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last_print_time = now;
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else if (now -last_print_time > 5000000)
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{
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g_print ("dropped_frames: %d/%d\n",
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dropped_frames, n_frames);
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g_print ("collected_frames: %g/%d\n",
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latency_error.weight, n_frames);
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g_print ("latency_error: %g +/- %g\n",
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variable_mean (&latency_error),
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variable_standard_deviation (&latency_error));
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if (pll)
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g_print ("playback rate adjustment: %g +/- %g %%\n",
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(variable_mean (&time_factor_stats) - 1) * 100,
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variable_standard_deviation (&time_factor_stats) * 100);
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variable_init (&latency_error);
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variable_init (&time_factor_stats);
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dropped_frames = 0;
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n_frames = 0;
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last_print_time = now;
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}
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}
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static void
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on_update (GdkFrameClock *frame_clock,
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gpointer data)
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{
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GdkFrameTimings *timings = gdk_frame_clock_get_current_timings (frame_clock);
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gint64 frame_time = gdk_frame_timings_get_frame_time (timings);
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gint64 predicted_presentation_time = gdk_frame_timings_get_predicted_presentation_time (timings);
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gint64 refresh_interval;
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FrameData *pending_frame;
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if (clock_time_base == 0)
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clock_time_base = frame_time + PRE_BUFFER_TIME;
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gdk_frame_clock_get_refresh_info (frame_clock, frame_time,
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&refresh_interval, NULL);
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pending_frame = peek_pending_frame ();
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g_assert (pending_frame);
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if (stream_time_to_clock_time (pending_frame->stream_time)
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< predicted_presentation_time + refresh_interval / 2)
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{
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while (TRUE)
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{
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FrameData *next_frame = peek_next_frame ();
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if (next_frame &&
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stream_time_to_clock_time (next_frame->stream_time)
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< predicted_presentation_time + refresh_interval / 2)
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{
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g_free (unqueue_frame ());
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n_frames++;
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dropped_frames++;
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pending_frame = next_frame;
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}
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else
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break;
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}
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if (displayed_frame)
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past_frames = g_list_prepend (past_frames, displayed_frame);
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n_frames++;
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displayed_frame = unqueue_frame ();
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g_assert (displayed_frame);
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displayed_frame->clock_time = stream_time_to_clock_time (displayed_frame->stream_time);
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displayed_frame->frame_counter = gdk_frame_timings_get_frame_counter (timings);
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variable_add (&time_factor_stats, time_factor);
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collect_old_frames ();
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print_statistics ();
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gtk_widget_queue_draw (window);
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}
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}
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static GOptionEntry options[] = {
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{ "pll", 'p', 0, G_OPTION_ARG_NONE, &pll, "Sync frame rate to refresh", NULL },
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{ "fps", 'f', 0, G_OPTION_ARG_INT, &fps, "Frame rate", "FPS" },
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{ NULL }
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};
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static void
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quit_cb (GtkWidget *widget,
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gpointer data)
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{
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gboolean *done = data;
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*done = TRUE;
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g_main_context_wakeup (NULL);
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}
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int
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main(int argc, char **argv)
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{
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GtkWidget *da;
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GError *error = NULL;
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GdkFrameClock *frame_clock;
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GOptionContext *context;
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gboolean done = FALSE;
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context = g_option_context_new ("");
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g_option_context_add_main_entries (context, options, NULL);
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if (!g_option_context_parse (context, &argc, &argv, &error))
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{
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g_printerr ("Option parsing failed: %s\n", error->message);
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return 1;
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}
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g_option_context_free (context);
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gtk_init ();
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window = gtk_window_new ();
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gtk_window_set_default_size (GTK_WINDOW (window), 300, 300);
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g_signal_connect (window, "destroy",
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G_CALLBACK (quit_cb), &done);
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da = gtk_drawing_area_new ();
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gtk_drawing_area_set_draw_func (GTK_DRAWING_AREA (da), on_draw, NULL, NULL);
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gtk_window_set_child (GTK_WINDOW (window), da);
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gtk_window_present (GTK_WINDOW (window));
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frame_queue = g_queue_new ();
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g_mutex_init (&frame_mutex);
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g_cond_init (&frame_cond);
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g_thread_new ("Create Frames", create_frames_thread, NULL);
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frame_clock = gtk_widget_get_frame_clock (window);
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g_signal_connect (frame_clock, "update",
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G_CALLBACK (on_update), NULL);
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gdk_frame_clock_begin_updating (frame_clock);
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while (!done)
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g_main_context_iteration (NULL, TRUE);
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return 0;
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}
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