6 #include "frame_on_disk.h"
7 #include "jpeg_frame_view.h"
8 #include "shared/context.h"
9 #include "shared/ffmpeg_raii.h"
10 #include "shared/httpd.h"
11 #include "shared/metrics.h"
12 #include "shared/mux.h"
13 #include "shared/timebase.h"
14 #include "video_stream.h"
18 #include <condition_variable>
19 #include <movit/util.h>
26 using namespace std::chrono;
28 extern HTTPD *global_httpd;
30 void Player::thread_func(AVFormatContext *file_avctx)
32 pthread_setname_np(pthread_self(), "Player");
34 QSurface *surface = create_surface();
35 QOpenGLContext *context = create_context(surface);
36 if (!make_current(context, surface)) {
43 // Create the VideoStream object, now that we have an OpenGL context.
44 if (stream_output != NO_STREAM_OUTPUT) {
45 video_stream.reset(new VideoStream(file_avctx));
46 video_stream->start();
51 while (!should_quit) {
58 double calc_progress(const Clip &clip, int64_t pts)
60 return double(pts - clip.pts_in) / (clip.pts_out - clip.pts_in);
63 void do_splice(const vector<ClipWithID> &new_list, size_t playing_index1, ssize_t playing_index2, vector<ClipWithID> *old_list)
65 assert(playing_index2 == -1 || size_t(playing_index2) == playing_index1 + 1);
67 // First see if we can do the simple thing; find an element in the new
68 // list that we are already playing, which will serve as our splice point.
69 int splice_start_new_list = -1;
70 for (size_t clip_idx = 0; clip_idx < new_list.size(); ++clip_idx) {
71 if (new_list[clip_idx].id == (*old_list)[playing_index1].id) {
72 splice_start_new_list = clip_idx + 1;
73 } else if (playing_index2 != -1 && new_list[clip_idx].id == (*old_list)[playing_index2].id) {
74 splice_start_new_list = clip_idx + 1;
77 if (splice_start_new_list == -1) {
78 // OK, so the playing items are no longer in the new list. Most likely,
79 // that means we deleted some range that included them. But the ones
80 // before should stay put -- and we don't want to play them. So find
81 // the ones that we've already played, and ignore them. Hopefully,
82 // they're contiguous; the last one that's not seen will be our cut point.
84 // Keeping track of the playlist range explicitly in the UI would remove
85 // the need for these heuristics, but it would probably also mean we'd
86 // have to lock the playing clip, which sounds annoying.
87 unordered_map<uint64_t, size_t> played_ids;
88 for (size_t clip_idx = 0; clip_idx < playing_index1; ++old_list) {
89 played_ids.emplace((*old_list)[clip_idx].id, clip_idx);
91 for (size_t clip_idx = 0; clip_idx < new_list.size(); ++clip_idx) {
92 if (played_ids.count(new_list[clip_idx].id)) {
93 splice_start_new_list = clip_idx + 1;
97 if (splice_start_new_list == -1) {
98 // OK, we didn't find any matches; the lists are totally distinct.
99 // So probably the entire thing was deleted; leave it alone.
104 size_t splice_start_old_list = ((playing_index2 == -1) ? playing_index1 : playing_index2) + 1;
105 old_list->erase(old_list->begin() + splice_start_old_list, old_list->end());
106 old_list->insert(old_list->end(), new_list.begin() + splice_start_new_list, new_list.end());
111 void Player::play_playlist_once()
113 vector<ClipWithID> clip_list;
115 steady_clock::time_point before_sleep = steady_clock::now();
117 float master_speed = start_master_speed;
119 // Wait until we're supposed to play something.
121 unique_lock<mutex> lock(queue_state_mu);
123 clip_ready = new_clip_changed.wait_for(lock, milliseconds(100), [this] {
124 return should_quit || new_clip_ready;
130 new_clip_ready = false;
132 clip_list = move(queued_clip_list);
133 queued_clip_list.clear();
134 assert(!clip_list.empty());
135 assert(!splice_ready); // This corner case should have been handled in splice_play().
137 pause_status = this->pause_status;
141 steady_clock::duration time_slept = steady_clock::now() - before_sleep;
142 int64_t slept_pts = duration_cast<duration<size_t, TimebaseRatio>>(time_slept).count();
144 if (video_stream != nullptr) {
145 // Add silence for the time we're waiting.
146 video_stream->schedule_silence(steady_clock::now(), pts, slept_pts, QueueSpotHolder());
152 if (video_stream != nullptr) {
153 ++metric_refresh_frame;
154 string subtitle = "Futatabi " NAGERU_VERSION ";PAUSED;0.000;" + pause_status;
155 video_stream->schedule_refresh_frame(steady_clock::now(), pts, /*display_func=*/nullptr, QueueSpotHolder(),
161 should_skip_to_next = false; // To make sure we don't have a lingering click from before play.
162 steady_clock::time_point origin = steady_clock::now(); // TODO: Add a 100 ms buffer for ramp-up?
163 int64_t in_pts_origin = clip_list[0].clip.pts_in;
164 for (size_t clip_idx = 0; clip_idx < clip_list.size(); ++clip_idx) {
165 const Clip *clip = &clip_list[clip_idx].clip;
166 const Clip *next_clip = (clip_idx + 1 < clip_list.size()) ? &clip_list[clip_idx + 1].clip : nullptr;
167 int64_t out_pts_origin = pts;
169 double next_clip_fade_time = -1.0;
170 if (next_clip != nullptr) {
171 double duration_this_clip = double(clip->pts_out - in_pts_origin) / TIMEBASE / clip->speed;
172 double duration_next_clip = double(next_clip->pts_out - next_clip->pts_in) / TIMEBASE / clip->speed;
173 next_clip_fade_time = min(min(duration_this_clip, duration_next_clip), clip->fade_time_seconds);
176 int stream_idx = clip->stream_idx;
178 // Start playing exactly at a frame.
179 // TODO: Snap secondary (fade-to) clips in the same fashion
180 // so that we don't get jank here).
182 lock_guard<mutex> lock(frame_mu);
184 // Find the first frame such that frame.pts <= in_pts.
185 auto it = find_last_frame_before(frames[stream_idx], in_pts_origin);
186 if (it != frames[stream_idx].end()) {
187 in_pts_origin = it->pts;
191 steady_clock::time_point next_frame_start;
192 for (int64_t frameno = 0; !should_quit; ++frameno) { // Ends when the clip ends.
193 double out_pts = out_pts_origin + TIMEBASE * frameno / global_flags.output_framerate;
195 origin + microseconds(lrint((out_pts - out_pts_origin) * 1e6 / TIMEBASE));
196 int64_t in_pts = lrint(in_pts_origin + TIMEBASE * frameno * clip->speed * master_speed / global_flags.output_framerate);
197 pts = lrint(out_pts);
199 float new_master_speed = change_master_speed.exchange(0.0f / 0.0f);
200 if (!std::isnan(new_master_speed)) {
201 master_speed = new_master_speed;
202 in_pts_origin = in_pts - TIMEBASE * frameno * clip->speed * master_speed / global_flags.output_framerate;
203 out_pts_origin = out_pts - TIMEBASE * frameno / global_flags.output_framerate;
206 if (should_skip_to_next.exchange(false)) { // Test and clear.
207 Clip *clip = &clip_list[clip_idx].clip; // Get a non-const pointer.
208 clip->pts_out = std::min<int64_t>(clip->pts_out, llrint(in_pts + clip->fade_time_seconds * clip->speed * TIMEBASE));
211 if (in_pts >= clip->pts_out) {
215 // Only play audio if we're within 0.1% of normal speed. We could do
216 // stretching or pitch shift later if it becomes needed.
217 bool play_audio = clip->speed * master_speed >= 0.999 && clip->speed * master_speed <= 1.001;
220 lock_guard<mutex> lock(queue_state_mu);
222 if (next_clip == nullptr) {
223 do_splice(to_splice_clip_list, clip_idx, -1, &clip_list);
225 do_splice(to_splice_clip_list, clip_idx, clip_idx + 1, &clip_list);
227 to_splice_clip_list.clear();
228 splice_ready = false;
230 // Refresh the clip pointer, since the clip list may have been reallocated.
231 clip = &clip_list[clip_idx].clip;
233 // Recompute next_clip and any needed fade times, since the next clip may have changed
234 // (or we may have gone from no new clip to having one, or the other way).
235 next_clip = (clip_idx + 1 < clip_list.size()) ? &clip_list[clip_idx + 1].clip : nullptr;
236 if (next_clip != nullptr) {
237 double duration_this_clip = double(clip->pts_out - in_pts) / TIMEBASE / clip->speed;
238 double duration_next_clip = double(next_clip->pts_out - next_clip->pts_in) / TIMEBASE / clip->speed;
239 next_clip_fade_time = min(min(duration_this_clip, duration_next_clip), clip->fade_time_seconds);
244 steady_clock::duration time_behind = steady_clock::now() - next_frame_start;
245 if (stream_output != FILE_STREAM_OUTPUT && time_behind >= milliseconds(200)) {
246 fprintf(stderr, "WARNING: %ld ms behind, dropping a frame (no matter the type).\n",
247 lrint(1e3 * duration<double>(time_behind).count()));
248 ++metric_dropped_unconditional_frame;
252 // pts not affected by the swapping below.
253 int64_t in_pts_for_progress = in_pts, in_pts_secondary_for_progress = -1;
255 int primary_stream_idx = stream_idx;
256 FrameOnDisk secondary_frame;
257 int secondary_stream_idx = -1;
258 float fade_alpha = 0.0f;
259 double time_left_this_clip = double(clip->pts_out - in_pts) / TIMEBASE / clip->speed;
260 if (next_clip != nullptr && time_left_this_clip <= next_clip_fade_time) {
261 // We're in a fade to the next clip->
262 secondary_stream_idx = next_clip->stream_idx;
263 int64_t in_pts_secondary = lrint(next_clip->pts_in + (next_clip_fade_time - time_left_this_clip) * TIMEBASE * clip->speed);
264 in_pts_secondary_for_progress = in_pts_secondary;
265 fade_alpha = 1.0f - time_left_this_clip / next_clip_fade_time;
267 // If more than half-way through the fade, interpolate the next clip
268 // instead of the current one, since it's more visible.
269 if (fade_alpha >= 0.5f) {
270 swap(primary_stream_idx, secondary_stream_idx);
271 swap(in_pts, in_pts_secondary);
272 fade_alpha = 1.0f - fade_alpha;
275 FrameOnDisk frame_lower, frame_upper;
276 bool ok = find_surrounding_frames(in_pts_secondary, secondary_stream_idx, &frame_lower, &frame_upper);
279 secondary_frame = frame_lower;
281 secondary_stream_idx = -1;
285 // NOTE: None of this will take into account any snapping done below.
286 double clip_progress = calc_progress(*clip, in_pts_for_progress);
287 map<uint64_t, double> progress{ { clip_list[clip_idx].id, clip_progress } };
288 TimeRemaining time_remaining;
289 if (next_clip != nullptr && time_left_this_clip <= next_clip_fade_time) {
290 double next_clip_progress = calc_progress(*next_clip, in_pts_secondary_for_progress);
291 progress[clip_list[clip_idx + 1].id] = next_clip_progress;
292 time_remaining = compute_time_left(clip_list, clip_idx + 1, next_clip_progress);
294 time_remaining = compute_time_left(clip_list, clip_idx, clip_progress);
296 if (progress_callback != nullptr) {
297 progress_callback(progress, time_remaining);
300 FrameOnDisk frame_lower, frame_upper;
301 bool ok = find_surrounding_frames(in_pts, primary_stream_idx, &frame_lower, &frame_upper);
306 // Wait until we should, or (given buffering) can, output the frame.
308 unique_lock<mutex> lock(queue_state_mu);
309 if (video_stream == nullptr) {
310 // No queue, just wait until the right time and then show the frame.
311 new_clip_changed.wait_until(lock, next_frame_start, [this] {
312 return should_quit || new_clip_ready || override_stream_idx != -1;
318 // If the queue is full (which is really the state we'd like to be in),
319 // wait until there's room for one more frame (ie., one was output from
320 // VideoStream), or until or until there's a new clip we're supposed to play.
322 // In this case, we don't sleep until next_frame_start; the displaying is
323 // done by the queue.
324 new_clip_changed.wait(lock, [this] {
325 if (num_queued_frames < max_queued_frames) {
328 return should_quit || new_clip_ready || override_stream_idx != -1;
334 if (new_clip_ready) {
335 if (video_stream != nullptr) {
336 lock.unlock(); // Urg.
337 video_stream->clear_queue();
342 // Honor if we got an override request for the camera.
343 if (override_stream_idx != -1) {
344 stream_idx = override_stream_idx;
345 override_stream_idx = -1;
353 ss.imbue(locale("C"));
355 ss << "Futatabi " NAGERU_VERSION ";PLAYING;";
356 ss << fixed << (time_remaining.num_infinite * 86400.0 + time_remaining.t);
357 ss << ";" << format_duration(time_remaining) << " left";
361 // Snap to input frame: If we can do so with less than 1% jitter
362 // (ie., move less than 1% of an _output_ frame), do so.
363 // TODO: Snap secondary (fade-to) clips in the same fashion.
364 double pts_snap_tolerance = 0.01 * double(TIMEBASE) * clip->speed / global_flags.output_framerate;
365 bool snapped = false;
366 for (FrameOnDisk snap_frame : { frame_lower, frame_upper }) {
367 if (fabs(snap_frame.pts - in_pts) < pts_snap_tolerance) {
368 display_single_frame(primary_stream_idx, snap_frame, secondary_stream_idx,
369 secondary_frame, fade_alpha, next_frame_start, /*snapped=*/true,
370 subtitle, play_audio);
371 in_pts_origin += snap_frame.pts - in_pts;
380 // If there's nothing to interpolate between, or if interpolation is turned off,
381 // or we're a preview, then just display the frame.
382 if (frame_lower.pts == frame_upper.pts || global_flags.interpolation_quality == 0 || video_stream == nullptr) {
383 display_single_frame(primary_stream_idx, frame_lower, secondary_stream_idx,
384 secondary_frame, fade_alpha, next_frame_start, /*snapped=*/false,
385 subtitle, play_audio);
389 // The snapping above makes us lock to the input framerate, even in the presence
390 // of pts drift, for most typical cases where it's needed, like converting 60 → 2x60
391 // or 60 → 2x59.94. However, there are some corner cases like 25 → 2x59.94, where we'd
392 // get a snap very rarely (in the given case, once every 24 output frames), and by
393 // that time, we'd have drifted out. We could have solved this by changing the overall
394 // speed ever so slightly, but it requires that we know the actual frame rate (which
395 // is difficult in the presence of jitter and missed frames), or at least do some kind
396 // of matching/clustering. Instead, we take the opportunity to lock to in-between rational
397 // points if we can. E.g., if we are converting 60 → 2x60, we would not only snap to
398 // an original frame every other frame; we would also snap to exactly alpha=0.5 every
399 // in-between frame. Of course, we will still need to interpolate, but we get a lot
400 // closer when we actually get close to an original frame. In other words: Snap more
401 // often, but snap less each time. Unless the input and output frame rates are completely
402 // decorrelated with no common factor, of course (e.g. 12.345 → 34.567, which we should
403 // really never see in practice).
404 for (double fraction : { 1.0 / 2.0, 1.0 / 3.0, 2.0 / 3.0, 1.0 / 4.0, 3.0 / 4.0,
405 1.0 / 5.0, 2.0 / 5.0, 3.0 / 5.0, 4.0 / 5.0 }) {
406 double subsnap_pts = frame_lower.pts + fraction * (frame_upper.pts - frame_lower.pts);
407 if (fabs(subsnap_pts - in_pts) < pts_snap_tolerance) {
408 in_pts_origin += lrint(subsnap_pts) - in_pts;
409 in_pts = lrint(subsnap_pts);
414 if (stream_output != FILE_STREAM_OUTPUT && time_behind >= milliseconds(100)) {
415 fprintf(stderr, "WARNING: %ld ms behind, dropping an interpolated frame.\n",
416 lrint(1e3 * duration<double>(time_behind).count()));
417 ++metric_dropped_interpolated_frame;
421 double alpha = double(in_pts - frame_lower.pts) / (frame_upper.pts - frame_lower.pts);
422 auto display_func = [this](shared_ptr<Frame> frame) {
423 if (destination != nullptr) {
424 destination->setFrame(frame);
427 if (secondary_stream_idx == -1) {
428 ++metric_interpolated_frame;
430 ++metric_interpolated_faded_frame;
432 video_stream->schedule_interpolated_frame(
433 next_frame_start, pts, display_func, QueueSpotHolder(this),
434 frame_lower, frame_upper, alpha,
435 secondary_frame, fade_alpha, subtitle, play_audio);
436 last_pts_played = in_pts; // Not really needed; only previews use last_pts_played.
444 // Start the next clip from the point where the fade went out.
445 if (next_clip != nullptr) {
446 origin = next_frame_start;
447 in_pts_origin = next_clip->pts_in + lrint(next_clip_fade_time * TIMEBASE * clip->speed);
451 if (done_callback != nullptr) {
456 void Player::display_single_frame(int primary_stream_idx, const FrameOnDisk &primary_frame, int secondary_stream_idx, const FrameOnDisk &secondary_frame, double fade_alpha, steady_clock::time_point frame_start, bool snapped, const std::string &subtitle, bool play_audio)
458 auto display_func = [this, primary_stream_idx, primary_frame, secondary_frame, fade_alpha] {
459 if (destination != nullptr) {
460 destination->setFrame(primary_stream_idx, primary_frame, secondary_frame, fade_alpha);
463 if (video_stream == nullptr) {
466 if (secondary_stream_idx == -1) {
467 // NOTE: We could be increasing unused metrics for previews, but that's harmless.
469 ++metric_original_snapped_frame;
471 ++metric_original_frame;
473 video_stream->schedule_original_frame(
474 frame_start, pts, display_func, QueueSpotHolder(this),
475 primary_frame, subtitle, play_audio);
477 assert(secondary_frame.pts != -1);
478 // NOTE: We could be increasing unused metrics for previews, but that's harmless.
480 ++metric_faded_snapped_frame;
482 ++metric_faded_frame;
484 video_stream->schedule_faded_frame(frame_start, pts, display_func,
485 QueueSpotHolder(this), primary_frame,
486 secondary_frame, fade_alpha, subtitle);
489 last_pts_played = primary_frame.pts;
492 // Find the frame immediately before and after this point.
493 // If we have an exact match, return it immediately.
494 bool Player::find_surrounding_frames(int64_t pts, int stream_idx, FrameOnDisk *frame_lower, FrameOnDisk *frame_upper)
496 lock_guard<mutex> lock(frame_mu);
498 // Find the first frame such that frame.pts >= pts.
499 auto it = find_last_frame_before(frames[stream_idx], pts);
500 if (it == frames[stream_idx].end()) {
505 // If we have an exact match, return it immediately.
506 if (frame_upper->pts == pts) {
511 // Find the last frame such that in_pts <= frame.pts (if any).
512 if (it == frames[stream_idx].begin()) {
515 *frame_lower = *(it - 1);
517 assert(pts >= frame_lower->pts);
518 assert(pts <= frame_upper->pts);
522 Player::Player(JPEGFrameView *destination, Player::StreamOutput stream_output, AVFormatContext *file_avctx)
523 : destination(destination), stream_output(stream_output)
525 player_thread = thread(&Player::thread_func, this, file_avctx);
527 if (stream_output == HTTPD_STREAM_OUTPUT) {
528 global_metrics.add("http_output_frames", { { "type", "original" }, { "reason", "edge_frame_or_no_interpolation" } }, &metric_original_frame);
529 global_metrics.add("http_output_frames", { { "type", "faded" }, { "reason", "edge_frame_or_no_interpolation" } }, &metric_faded_frame);
530 global_metrics.add("http_output_frames", { { "type", "original" }, { "reason", "snapped" } }, &metric_original_snapped_frame);
531 global_metrics.add("http_output_frames", { { "type", "faded" }, { "reason", "snapped" } }, &metric_faded_snapped_frame);
532 global_metrics.add("http_output_frames", { { "type", "interpolated" } }, &metric_interpolated_frame);
533 global_metrics.add("http_output_frames", { { "type", "interpolated_faded" } }, &metric_interpolated_faded_frame);
534 global_metrics.add("http_output_frames", { { "type", "refresh" } }, &metric_refresh_frame);
535 global_metrics.add("http_dropped_frames", { { "type", "interpolated" } }, &metric_dropped_interpolated_frame);
536 global_metrics.add("http_dropped_frames", { { "type", "unconditional" } }, &metric_dropped_unconditional_frame);
543 new_clip_changed.notify_all();
544 player_thread.join();
546 if (video_stream != nullptr) {
547 video_stream->stop();
551 void Player::play(const vector<ClipWithID> &clips)
553 lock_guard<mutex> lock(queue_state_mu);
554 new_clip_ready = true;
555 queued_clip_list = clips;
556 splice_ready = false;
557 override_stream_idx = -1;
558 new_clip_changed.notify_all();
561 void Player::splice_play(const vector<ClipWithID> &clips)
563 lock_guard<mutex> lock(queue_state_mu);
564 if (new_clip_ready) {
565 queued_clip_list = clips;
566 assert(!splice_ready);
571 to_splice_clip_list = clips; // Overwrite any queued but not executed splice.
574 void Player::override_angle(unsigned stream_idx)
578 // Corner case: If a new clip is waiting to be played, change its stream and then we're done.
580 lock_guard<mutex> lock(queue_state_mu);
581 if (new_clip_ready) {
582 assert(queued_clip_list.size() == 1);
583 queued_clip_list[0].clip.stream_idx = stream_idx;
587 // If we are playing a clip, set override_stream_idx, and the player thread will
588 // pick it up and change its internal index.
590 override_stream_idx = stream_idx;
591 new_clip_changed.notify_all();
595 // OK, so we're standing still, presumably at the end of a clip.
596 // Look at the last frame played (if it exists), and show the closest
598 if (last_pts_played < 0) {
601 last_pts = last_pts_played;
604 lock_guard<mutex> lock(frame_mu);
605 auto it = find_first_frame_at_or_after(frames[stream_idx], last_pts);
606 if (it == frames[stream_idx].end()) {
609 destination->setFrame(stream_idx, *it);
612 void Player::take_queue_spot()
614 lock_guard<mutex> lock(queue_state_mu);
618 void Player::release_queue_spot()
620 lock_guard<mutex> lock(queue_state_mu);
621 assert(num_queued_frames > 0);
623 new_clip_changed.notify_all();
626 TimeRemaining compute_time_left(const vector<ClipWithID> &clips, size_t currently_playing_idx, double progress_currently_playing)
628 // Look at the last clip and then start counting from there.
629 TimeRemaining remaining { 0, 0.0 };
630 double last_fade_time_seconds = 0.0;
631 for (size_t row = currently_playing_idx; row < clips.size(); ++row) {
632 const Clip &clip = clips[row].clip;
633 double clip_length = double(clip.pts_out - clip.pts_in) / TIMEBASE / clip.speed;
634 if (clip_length >= 86400.0 || clip.pts_out == -1) { // More than one day.
635 ++remaining.num_infinite;
637 if (row == currently_playing_idx) {
638 // A clip we're playing: Subtract the part we've already played.
639 remaining.t = clip_length * (1.0 - progress_currently_playing);
641 // A clip we haven't played yet: Subtract the part that's overlapping
642 // with a previous clip (due to fade).
643 remaining.t += max(clip_length - last_fade_time_seconds, 0.0);
646 last_fade_time_seconds = min(clip_length, clip.fade_time_seconds);
651 string format_duration(TimeRemaining t)
653 int t_ms = lrint(t.t * 1e3);
655 int ms = t_ms % 1000;
662 if (t.num_infinite > 1 && t.t > 0.0) {
663 snprintf(buf, sizeof(buf), "%zu clips + %d:%02d.%03d", t.num_infinite, m, s, ms);
664 } else if (t.num_infinite > 1) {
665 snprintf(buf, sizeof(buf), "%zu clips", t.num_infinite);
666 } else if (t.num_infinite == 1 && t.t > 0.0) {
667 snprintf(buf, sizeof(buf), "%zu clip + %d:%02d.%03d", t.num_infinite, m, s, ms);
668 } else if (t.num_infinite == 1) {
669 snprintf(buf, sizeof(buf), "%zu clip", t.num_infinite);
671 snprintf(buf, sizeof(buf), "%d:%02d.%03d", m, s, ms);