/* * This file is part of mpv. * * mpv 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 2.1 of the License, or (at your option) any later version. * * mpv 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 mpv. If not, see . */ #include #include #include #include #include #include "mpv_talloc.h" #include "misc/thread_pool.h" #include "misc/thread_tools.h" #include "osdep/io.h" #include "osdep/terminal.h" #include "osdep/threads.h" #include "osdep/timer.h" #include "client.h" #include "common/msg.h" #include "common/msg_control.h" #include "common/global.h" #include "options/path.h" #include "options/m_config.h" #include "options/parse_configfile.h" #include "common/playlist.h" #include "options/options.h" #include "options/m_property.h" #include "common/common.h" #include "common/encode.h" #include "common/stats.h" #include "input/input.h" #include "misc/language.h" #include "audio/out/ao.h" #include "filters/f_decoder_wrapper.h" #include "filters/f_lavfi.h" #include "filters/filter_internal.h" #include "demux/demux.h" #include "stream/stream.h" #include "sub/dec_sub.h" #include "external_files.h" #include "video/out/vo.h" #include "core.h" #include "command.h" #include "libmpv/client.h" // Called from the demuxer thread if a new packet is available, or other changes. static void wakeup_demux(void *pctx) { struct MPContext *mpctx = pctx; mp_wakeup_core(mpctx); } // Called by foreign threads when playback should be stopped and such. void mp_abort_playback_async(struct MPContext *mpctx) { mp_cancel_trigger(mpctx->playback_abort); mp_mutex_lock(&mpctx->abort_lock); for (int n = 0; n < mpctx->num_abort_list; n++) { struct mp_abort_entry *abort = mpctx->abort_list[n]; if (abort->coupled_to_playback) mp_abort_trigger_locked(mpctx, abort); } mp_mutex_unlock(&mpctx->abort_lock); } // Add it to the global list, and allocate required data structures. void mp_abort_add(struct MPContext *mpctx, struct mp_abort_entry *abort) { mp_mutex_lock(&mpctx->abort_lock); assert(!abort->cancel); abort->cancel = mp_cancel_new(NULL); MP_TARRAY_APPEND(NULL, mpctx->abort_list, mpctx->num_abort_list, abort); mp_abort_recheck_locked(mpctx, abort); mp_mutex_unlock(&mpctx->abort_lock); } // Remove Add it to the global list, and free/clear required data structures. // Does not deallocate the abort value itself. void mp_abort_remove(struct MPContext *mpctx, struct mp_abort_entry *abort) { mp_mutex_lock(&mpctx->abort_lock); for (int n = 0; n < mpctx->num_abort_list; n++) { if (mpctx->abort_list[n] == abort) { MP_TARRAY_REMOVE_AT(mpctx->abort_list, mpctx->num_abort_list, n); TA_FREEP(&abort->cancel); abort = NULL; // it's not free'd, just clear for the assert below break; } } assert(!abort); // should have been in the list mp_mutex_unlock(&mpctx->abort_lock); } // Verify whether the abort needs to be signaled after changing certain fields // in abort. void mp_abort_recheck_locked(struct MPContext *mpctx, struct mp_abort_entry *abort) { if ((abort->coupled_to_playback && mp_cancel_test(mpctx->playback_abort)) || mpctx->abort_all) { mp_abort_trigger_locked(mpctx, abort); } } void mp_abort_trigger_locked(struct MPContext *mpctx, struct mp_abort_entry *abort) { mp_cancel_trigger(abort->cancel); } static void kill_demuxers_reentrant(struct MPContext *mpctx, struct demuxer **demuxers, int num_demuxers) { struct demux_free_async_state **items = NULL; int num_items = 0; for (int n = 0; n < num_demuxers; n++) { struct demuxer *d = demuxers[n]; if (!demux_cancel_test(d)) { // Make sure it is set if it wasn't yet. demux_set_wakeup_cb(d, wakeup_demux, mpctx); struct demux_free_async_state *item = demux_free_async(d); if (item) { MP_TARRAY_APPEND(NULL, items, num_items, item); d = NULL; } } demux_cancel_and_free(d); } if (!num_items) return; MP_DBG(mpctx, "Terminating demuxers...\n"); double end = mp_time_sec() + mpctx->opts->demux_termination_timeout; bool force = false; while (num_items) { double wait = end - mp_time_sec(); for (int n = 0; n < num_items; n++) { struct demux_free_async_state *item = items[n]; if (demux_free_async_finish(item)) { items[n] = items[num_items - 1]; num_items -= 1; n--; goto repeat; } else if (wait < 0) { demux_free_async_force(item); if (!force) MP_VERBOSE(mpctx, "Forcefully terminating demuxers...\n"); force = true; } } if (wait >= 0) mp_set_timeout(mpctx, wait); mp_idle(mpctx); repeat:; } talloc_free(items); MP_DBG(mpctx, "Done terminating demuxers.\n"); } static void uninit_demuxer(struct MPContext *mpctx) { for (int t = 0; t < STREAM_TYPE_COUNT; t++) { for (int r = 0; r < num_ptracks[t]; r++) mpctx->current_track[r][t] = NULL; } talloc_free(mpctx->chapters); mpctx->chapters = NULL; mpctx->num_chapters = 0; mp_abort_cache_dumping(mpctx); struct demuxer **demuxers = NULL; int num_demuxers = 0; if (mpctx->demuxer) MP_TARRAY_APPEND(NULL, demuxers, num_demuxers, mpctx->demuxer); mpctx->demuxer = NULL; for (int i = 0; i < mpctx->num_tracks; i++) { struct track *track = mpctx->tracks[i]; assert(!track->dec && !track->d_sub); assert(!track->vo_c && !track->ao_c); assert(!track->sink); // Demuxers can be added in any order (if they appear mid-stream), and // we can't know which tracks uses which, so here's some O(n^2) trash. for (int n = 0; n < num_demuxers; n++) { if (demuxers[n] == track->demuxer) { track->demuxer = NULL; break; } } if (track->demuxer) MP_TARRAY_APPEND(NULL, demuxers, num_demuxers, track->demuxer); talloc_free(track); } mpctx->num_tracks = 0; kill_demuxers_reentrant(mpctx, demuxers, num_demuxers); talloc_free(demuxers); } #define APPEND(s, ...) mp_snprintf_cat(s, sizeof(s), __VA_ARGS__) static void print_stream(struct MPContext *mpctx, struct track *t) { struct sh_stream *s = t->stream; const char *tname = "?"; const char *selopt = "?"; const char *langopt = "?"; switch (t->type) { case STREAM_VIDEO: tname = "Video"; selopt = "vid"; langopt = NULL; break; case STREAM_AUDIO: tname = "Audio"; selopt = "aid"; langopt = "alang"; break; case STREAM_SUB: tname = "Subs"; selopt = "sid"; langopt = "slang"; break; } char b[2048] = {0}; bool forced_only = false; if (t->type == STREAM_SUB) { bool forced_opt = mpctx->opts->subs_rend->sub_forced_events_only; if (forced_opt) forced_only = t->selected; } APPEND(b, " %3s %-5s", t->selected ? (forced_only ? "(*)" : "(+)") : "", tname); APPEND(b, " --%s=%d", selopt, t->user_tid); if (t->lang && langopt) APPEND(b, " --%s=%s", langopt, t->lang); if (t->default_track) APPEND(b, " (*)"); if (t->forced_track) APPEND(b, " (f)"); if (t->attached_picture) APPEND(b, " [P]"); if (forced_only) APPEND(b, " [F]"); if (t->title) APPEND(b, " '%s'", t->title); const char *codec = s ? s->codec->codec : NULL; APPEND(b, " (%s", codec ? codec : ""); if (s && s->codec->codec_profile) APPEND(b, " [%s]", s->codec->codec_profile); if (t->type == STREAM_VIDEO) { if (s && s->codec->disp_w) APPEND(b, " %dx%d", s->codec->disp_w, s->codec->disp_h); if (s && s->codec->fps) APPEND(b, " %.3ffps", s->codec->fps); } else if (t->type == STREAM_AUDIO) { if (s && s->codec->channels.num) APPEND(b, " %dch", s->codec->channels.num); if (s && s->codec->samplerate) APPEND(b, " %dHz", s->codec->samplerate); } APPEND(b, ")"); if (s && s->hls_bitrate > 0) APPEND(b, " (%d kbps)", (s->hls_bitrate + 500) / 1000); if (t->is_external) APPEND(b, " (external)"); MP_INFO(mpctx, "%s\n", b); } void print_track_list(struct MPContext *mpctx, const char *msg) { if (msg) MP_INFO(mpctx, "%s\n", msg); for (int t = 0; t < STREAM_TYPE_COUNT; t++) { for (int n = 0; n < mpctx->num_tracks; n++) if (mpctx->tracks[n]->type == t) print_stream(mpctx, mpctx->tracks[n]); } } void update_demuxer_properties(struct MPContext *mpctx) { struct demuxer *demuxer = mpctx->demuxer; if (!demuxer) return; demux_update(demuxer, get_current_time(mpctx)); int events = demuxer->events; if ((events & DEMUX_EVENT_INIT) && demuxer->num_editions > 1) { for (int n = 0; n < demuxer->num_editions; n++) { struct demux_edition *edition = &demuxer->editions[n]; char b[128] = {0}; APPEND(b, " %3s --edition=%d", n == demuxer->edition ? "(+)" : "", n); char *name = mp_tags_get_str(edition->metadata, "title"); if (name) APPEND(b, " '%s'", name); if (edition->default_edition) APPEND(b, " (*)"); MP_INFO(mpctx, "%s\n", b); } } struct demuxer *tracks = mpctx->demuxer; if (tracks->events & DEMUX_EVENT_STREAMS) { add_demuxer_tracks(mpctx, tracks); print_track_list(mpctx, NULL); tracks->events &= ~DEMUX_EVENT_STREAMS; } if (events & DEMUX_EVENT_METADATA) { struct mp_tags *info = mp_tags_filtered(mpctx, demuxer->metadata, mpctx->opts->display_tags); // prev is used to attempt to print changed tags only (to some degree) struct mp_tags *prev = mpctx->filtered_tags; int n_prev = 0; bool had_output = false; for (int n = 0; n < info->num_keys; n++) { if (prev && n_prev < prev->num_keys) { if (strcmp(prev->keys[n_prev], info->keys[n]) == 0) { n_prev++; if (strcmp(prev->values[n_prev - 1], info->values[n]) == 0) continue; } } struct mp_log *log = mp_log_new(NULL, mpctx->log, "!display-tags"); if (!had_output) mp_info(log, "File tags:\n"); mp_info(log, " %s: %s\n", info->keys[n], info->values[n]); had_output = true; talloc_free(log); } talloc_free(mpctx->filtered_tags); mpctx->filtered_tags = info; mp_notify(mpctx, MP_EVENT_METADATA_UPDATE, NULL); } if (events & DEMUX_EVENT_DURATION) mp_notify(mpctx, MP_EVENT_DURATION_UPDATE, NULL); demuxer->events = 0; } // Enables or disables the stream for the given track, according to // track->selected. // With refresh_only=true, refreshes the stream if it's enabled. void reselect_demux_stream(struct MPContext *mpctx, struct track *track, bool refresh_only) { if (!track->stream) return; double pts = get_current_time(mpctx); if (pts != MP_NOPTS_VALUE) { pts += get_track_seek_offset(mpctx, track); if (track->type == STREAM_SUB) pts -= 10.0; } if (refresh_only) demuxer_refresh_track(track->demuxer, track->stream, pts); else demuxer_select_track(track->demuxer, track->stream, pts, track->selected); } static void enable_demux_thread(struct MPContext *mpctx, struct demuxer *demux) { if (mpctx->opts->demuxer_thread && !demux->fully_read) { demux_set_wakeup_cb(demux, wakeup_demux, mpctx); demux_start_thread(demux); } } static int find_new_tid(struct MPContext *mpctx, enum stream_type t) { int new_id = 0; for (int i = 0; i < mpctx->num_tracks; i++) { struct track *track = mpctx->tracks[i]; if (track->type == t) new_id = MPMAX(new_id, track->user_tid); } return new_id + 1; } static struct track *add_stream_track(struct MPContext *mpctx, struct demuxer *demuxer, struct sh_stream *stream) { for (int i = 0; i < mpctx->num_tracks; i++) { struct track *track = mpctx->tracks[i]; if (track->stream == stream) return track; } struct track *track = talloc_ptrtype(NULL, track); *track = (struct track) { .type = stream->type, .user_tid = find_new_tid(mpctx, stream->type), .demuxer_id = stream->demuxer_id, .ff_index = stream->ff_index, .hls_bitrate = stream->hls_bitrate, .program_id = stream->program_id, .title = stream->title, .default_track = stream->default_track, .forced_track = stream->forced_track, .dependent_track = stream->dependent_track, .visual_impaired_track = stream->visual_impaired_track, .hearing_impaired_track = stream->hearing_impaired_track, .image = stream->image, .attached_picture = stream->attached_picture != NULL, .lang = stream->lang, .demuxer = demuxer, .stream = stream, }; MP_TARRAY_APPEND(mpctx, mpctx->tracks, mpctx->num_tracks, track); mp_notify(mpctx, MP_EVENT_TRACKS_CHANGED, NULL); return track; } void add_demuxer_tracks(struct MPContext *mpctx, struct demuxer *demuxer) { for (int n = 0; n < demux_get_num_stream(demuxer); n++) add_stream_track(mpctx, demuxer, demux_get_stream(demuxer, n)); } // Result numerically higher => better match. 0 == no match. static int match_lang(char **langs, const char *lang) { if (!lang) return 0; for (int idx = 0; langs && langs[idx]; idx++) { int score = mp_match_lang_single(langs[idx], lang); if (score > 0) return INT_MAX - (idx + 1) * LANGUAGE_SCORE_MAX + score - 1; } return 0; } /* Get the track wanted by the user. * tid is the track ID requested by the user (-2: deselect, -1: default) * lang is a string list, NULL is same as empty list * Sort tracks based on the following criteria, and pick the first: *0a) track matches tid (always wins) * 0b) track is not from --external-file * 1) track is external (no_default cancels this) * 1b) track was passed explicitly (is not an auto-loaded subtitle) * 1c) track matches the program ID of the video * 2) earlier match in lang list but not if we're using os_langs * 3a) track is marked forced and we're preferring forced tracks * 3b) track is marked non-forced and we're preferring non-forced tracks * 3c) track is marked default * 3d) match in lang list with os_langs * 4) attached picture, HLS bitrate * 5) lower track number * If select_fallback is not set, 5) is only used to determine whether a * matching track is preferred over another track. Otherwise, always pick a * track (if nothing else matches, return the track with lowest ID). * Forced tracks are preferred when the user prefers not to display subtitles */ // Return whether t1 is preferred over t2 static bool compare_track(struct track *t1, struct track *t2, char **langs, bool os_langs, bool forced, struct MPOpts *opts, int preferred_program) { bool sub = t2->type == STREAM_SUB; if (!opts->autoload_files && t1->is_external != t2->is_external) return !t1->is_external; bool ext1 = t1->is_external && !t1->no_default; bool ext2 = t2->is_external && !t2->no_default; if (ext1 != ext2) { if (t1->attached_picture && t2->attached_picture && opts->audio_display == 1) return !ext1; return ext1; } if (t1->auto_loaded != t2->auto_loaded) return !t1->auto_loaded; if (preferred_program != -1 && t1->program_id != -1 && t2->program_id != -1) { if ((t1->program_id == preferred_program) != (t2->program_id == preferred_program)) return t1->program_id == preferred_program; } int l1 = match_lang(langs, t1->lang), l2 = match_lang(langs, t2->lang); if (!os_langs && l1 != l2) return l1 > l2; if (forced) return t1->forced_track; if (t1->default_track != t2->default_track && !t2->forced_select) return t1->default_track; if (sub && !t2->forced_select && t2->forced_track) return !t1->forced_track; if (os_langs && l1 != l2) return l1 > l2; if (t1->attached_picture != t2->attached_picture) return !t1->attached_picture; if (t1->stream && t2->stream && opts->hls_bitrate >= 0 && t1->stream->hls_bitrate != t2->stream->hls_bitrate) { bool t1_ok = t1->stream->hls_bitrate <= opts->hls_bitrate; bool t2_ok = t2->stream->hls_bitrate <= opts->hls_bitrate; if (t1_ok != t2_ok) return t1_ok; if (t1_ok && t2_ok) return t1->stream->hls_bitrate > t2->stream->hls_bitrate; return t1->stream->hls_bitrate < t2->stream->hls_bitrate; } return t1->user_tid <= t2->user_tid; } static bool duplicate_track(struct MPContext *mpctx, int order, enum stream_type type, struct track *track) { for (int i = 0; i < order; i++) { if (mpctx->current_track[i][type] == track) return true; } return false; } static bool append_lang(size_t *nb, char ***out, char *in) { if (!in) return false; MP_TARRAY_GROW(NULL, *out, *nb + 1); (*out)[(*nb)++] = in; (*out)[*nb] = NULL; ta_set_parent(in, *out); return true; } static char **add_os_langs(void) { size_t nb = 0; char **out = NULL; char **autos = mp_get_user_langs(); for (int i = 0; autos && autos[i]; i++) { if (!append_lang(&nb, &out, autos[i])) goto cleanup; } cleanup: talloc_free(autos); return out; } static char **process_langs(char **in) { size_t nb = 0; char **out = NULL; for (int i = 0; in && in[i]; i++) { if (!append_lang(&nb, &out, talloc_strdup(NULL, in[i]))) break; } return out; } static const char *get_audio_lang(struct MPContext *mpctx) { // If we have a single current audio track, this is simple. if (mpctx->current_track[0][STREAM_AUDIO]) return mpctx->current_track[0][STREAM_AUDIO]->lang; const char *ret = NULL; // Otherwise, we may be using a filter with multiple inputs. // Iterate over the tracks and find the ones in use. for (int i = 0; i < mpctx->num_tracks; i++) { const struct track *t = mpctx->tracks[i]; if (t->type != STREAM_AUDIO || !t->selected) continue; // If we have input in multiple audio languages, bail out; // we don't have a meaningful single language. // Partial matches (e.g. en-US vs en-GB) are acceptable here. if (ret && t->lang && !mp_match_lang_single(t->lang, ret)) return NULL; // We'll return the first non-null tag we see if (!ret) ret = t->lang; } return ret; } struct track *select_default_track(struct MPContext *mpctx, int order, enum stream_type type) { struct MPOpts *opts = mpctx->opts; int tid = opts->stream_id[order][type]; int preferred_program = (type != STREAM_VIDEO && mpctx->current_track[0][STREAM_VIDEO]) ? mpctx->current_track[0][STREAM_VIDEO]->program_id : -1; if (tid == -2) return NULL; char **langs = process_langs(opts->stream_lang[type]); bool os_langs = false; // Try to add OS languages if enabled by the user and we don't already have a lang from slang. if (type == STREAM_SUB && (!langs || !strcmp(langs[0], "")) && opts->subs_match_os_language) { talloc_free(langs); langs = add_os_langs(); os_langs = true; } const char *audio_lang = get_audio_lang(mpctx); bool sub = type == STREAM_SUB; struct track *pick = NULL; for (int n = 0; n < mpctx->num_tracks; n++) { struct track *track = mpctx->tracks[n]; if (track->type != type) continue; if (track->user_tid == tid) { pick = track; goto cleanup; } if (tid >= 0) continue; if (track->no_auto_select) continue; if (duplicate_track(mpctx, order, type, track)) continue; if (sub) { // Subtitle specific auto-selecting crap. bool audio_matches = mp_match_lang_single(audio_lang, track->lang); bool forced = track->forced_track && (opts->subs_fallback_forced == 2 || (audio_matches && opts->subs_fallback_forced == 1)); bool lang_match = !os_langs && match_lang(langs, track->lang) > 0; bool subs_fallback = (track->is_external && !track->no_default) || opts->subs_fallback == 2 || (opts->subs_fallback == 1 && track->default_track); bool subs_matching_audio = (!match_lang(langs, audio_lang) || opts->subs_with_matching_audio == 2 || (opts->subs_with_matching_audio == 1 && track->forced_track)); if (subs_matching_audio && ((!pick && (forced || lang_match || subs_fallback)) || (pick && compare_track(track, pick, langs, os_langs, forced, mpctx->opts, preferred_program)))) { pick = track; pick->forced_select = forced; } } else if (!pick || compare_track(track, pick, langs, os_langs, false, mpctx->opts, preferred_program)) { pick = track; } } if (pick && pick->attached_picture && !mpctx->opts->audio_display) pick = NULL; if (pick && !opts->autoload_files && pick->is_external) pick = NULL; cleanup: talloc_free(langs); return pick; } static char *track_layout_hash(struct MPContext *mpctx) { char *h = talloc_strdup(NULL, ""); for (int type = 0; type < STREAM_TYPE_COUNT; type++) { for (int n = 0; n < mpctx->num_tracks; n++) { struct track *track = mpctx->tracks[n]; if (track->type != type) continue; h = talloc_asprintf_append_buffer(h, "%d-%d-%d-%d-%s\n", type, track->user_tid, track->default_track, track->is_external, track->lang ? track->lang : ""); } } return h; } // Normally, video/audio/sub track selection is persistent across files. This // code resets track selection if the new file has a different track layout. static void check_previous_track_selection(struct MPContext *mpctx) { struct MPOpts *opts = mpctx->opts; if (!mpctx->track_layout_hash) return; char *h = track_layout_hash(mpctx); if (strcmp(h, mpctx->track_layout_hash) != 0) { // Reset selection, but only if they're not "auto" or "off". The // defaults are -1 (default selection), or -2 (off) for secondary tracks. for (int t = 0; t < STREAM_TYPE_COUNT; t++) { for (int i = 0; i < num_ptracks[t]; i++) { if (opts->stream_id[i][t] >= 0) mark_track_selection(mpctx, i, t, i == 0 ? -1 : -2); } } talloc_free(mpctx->track_layout_hash); mpctx->track_layout_hash = NULL; } talloc_free(h); } // Update the matching track selection user option to the given value. void mark_track_selection(struct MPContext *mpctx, int order, enum stream_type type, int value) { assert(order >= 0 && order < num_ptracks[type]); mpctx->opts->stream_id[order][type] = value; m_config_notify_change_opt_ptr(mpctx->mconfig, &mpctx->opts->stream_id[order][type]); } void mp_switch_track_n(struct MPContext *mpctx, int order, enum stream_type type, struct track *track, int flags) { assert(!track || track->type == type); assert(type >= 0 && type < STREAM_TYPE_COUNT); assert(order >= 0 && order < num_ptracks[type]); // Mark the current track selection as explicitly user-requested. (This is // different from auto-selection or disabling a track due to errors.) if (flags & FLAG_MARK_SELECTION) mark_track_selection(mpctx, order, type, track ? track->user_tid : -2); // No decoder should be initialized yet. if (!mpctx->demuxer) return; struct track *current = mpctx->current_track[order][type]; if (track == current) return; if (current && current->sink) { MP_ERR(mpctx, "Can't disable input to complex filter.\n"); goto error; } if ((type == STREAM_VIDEO && mpctx->vo_chain && !mpctx->vo_chain->track) || (type == STREAM_AUDIO && mpctx->ao_chain && !mpctx->ao_chain->track)) { MP_ERR(mpctx, "Can't switch away from complex filter output.\n"); goto error; } if (track && track->selected) { // Track has been selected in a different order parameter. MP_ERR(mpctx, "Track %d is already selected.\n", track->user_tid); goto error; } if (order == 0) { if (type == STREAM_VIDEO) { uninit_video_chain(mpctx); if (!track) handle_force_window(mpctx, true); } else if (type == STREAM_AUDIO) { clear_audio_output_buffers(mpctx); uninit_audio_chain(mpctx); if (!track) uninit_audio_out(mpctx); } } if (type == STREAM_SUB) uninit_sub(mpctx, current); if (current) { current->selected = false; reselect_demux_stream(mpctx, current, false); } mpctx->current_track[order][type] = track; if (track) { track->selected = true; reselect_demux_stream(mpctx, track, false); } if (type == STREAM_VIDEO && order == 0) { reinit_video_chain(mpctx); } else if (type == STREAM_AUDIO && order == 0) { reinit_audio_chain(mpctx); } else if (type == STREAM_SUB && order >= 0 && order <= 2) { reinit_sub(mpctx, track); } mp_notify(mpctx, MP_EVENT_TRACK_SWITCHED, NULL); mp_wakeup_core(mpctx); talloc_free(mpctx->track_layout_hash); mpctx->track_layout_hash = talloc_steal(mpctx, track_layout_hash(mpctx)); return; error: mark_track_selection(mpctx, order, type, -1); } void mp_switch_track(struct MPContext *mpctx, enum stream_type type, struct track *track, int flags) { mp_switch_track_n(mpctx, 0, type, track, flags); } void mp_deselect_track(struct MPContext *mpctx, struct track *track) { if (track && track->selected) { for (int t = 0; t < num_ptracks[track->type]; t++) { if (mpctx->current_track[t][track->type] != track) continue; mp_switch_track_n(mpctx, t, track->type, NULL, 0); mark_track_selection(mpctx, t, track->type, -1); // default } } } struct track *mp_track_by_tid(struct MPContext *mpctx, enum stream_type type, int tid) { if (tid == -1) return mpctx->current_track[0][type]; for (int n = 0; n < mpctx->num_tracks; n++) { struct track *track = mpctx->tracks[n]; if (track->type == type && track->user_tid == tid) return track; } return NULL; } bool mp_remove_track(struct MPContext *mpctx, struct track *track) { if (!track->is_external) return false; mp_deselect_track(mpctx, track); if (track->selected) return false; struct demuxer *d = track->demuxer; int index = 0; while (index < mpctx->num_tracks && mpctx->tracks[index] != track) index++; MP_TARRAY_REMOVE_AT(mpctx->tracks, mpctx->num_tracks, index); talloc_free(track); // Close the demuxer, unless there is still a track using it. These are // all external tracks. bool in_use = false; for (int n = mpctx->num_tracks - 1; n >= 0 && !in_use; n--) in_use |= mpctx->tracks[n]->demuxer == d; if (!in_use) demux_cancel_and_free(d); mp_notify(mpctx, MP_EVENT_TRACKS_CHANGED, NULL); return true; } // Add the given file as additional track. The filter argument controls how or // if tracks are auto-selected at any point. // To be run on a worker thread, locked (temporarily unlocks core). // cancel will generally be used to abort the loading process, but on success // the demuxer is changed to be slaved to mpctx->playback_abort instead. int mp_add_external_file(struct MPContext *mpctx, char *filename, enum stream_type filter, struct mp_cancel *cancel, bool cover_art) { struct MPOpts *opts = mpctx->opts; if (!filename || mp_cancel_test(cancel)) return -1; char *disp_filename = filename; if (strncmp(disp_filename, "memory://", 9) == 0) disp_filename = "memory://"; // avoid noise struct demuxer_params params = { .is_top_level = true, .stream_flags = STREAM_ORIGIN_DIRECT, }; switch (filter) { case STREAM_SUB: params.force_format = opts->sub_demuxer_name; break; case STREAM_AUDIO: params.force_format = opts->audio_demuxer_name; break; } mp_core_unlock(mpctx); struct demuxer *demuxer = demux_open_url(filename, ¶ms, cancel, mpctx->global); if (demuxer) enable_demux_thread(mpctx, demuxer); mp_core_lock(mpctx); // The command could have overlapped with playback exiting. (We don't care // if playback has started again meanwhile - weird, but not a problem.) if (mpctx->stop_play) goto err_out; if (!demuxer) goto err_out; if (filter != STREAM_SUB && opts->rebase_start_time) demux_set_ts_offset(demuxer, -demuxer->start_time); bool has_any = false; for (int n = 0; n < demux_get_num_stream(demuxer); n++) { struct sh_stream *sh = demux_get_stream(demuxer, n); if (sh->type == filter || filter == STREAM_TYPE_COUNT) { has_any = true; break; } } if (!has_any) { char *tname = mp_tprintf(20, "%s ", stream_type_name(filter)); if (filter == STREAM_TYPE_COUNT) tname = ""; MP_ERR(mpctx, "No %sstreams in file %s.\n", tname, disp_filename); goto err_out; } int first_num = -1; for (int n = 0; n < demux_get_num_stream(demuxer); n++) { struct sh_stream *sh = demux_get_stream(demuxer, n); struct track *t = add_stream_track(mpctx, demuxer, sh); t->is_external = true; if (sh->title && sh->title[0]) { t->title = talloc_strdup(t, sh->title); } else { t->title = talloc_strdup(t, mp_basename(disp_filename)); } t->external_filename = talloc_strdup(t, filename); t->no_default = sh->type != filter; t->no_auto_select = t->no_default; // if we found video, and we are loading cover art, flag as such. t->attached_picture = t->type == STREAM_VIDEO && cover_art; if (first_num < 0 && (filter == STREAM_TYPE_COUNT || sh->type == filter)) first_num = mpctx->num_tracks - 1; } mp_cancel_set_parent(demuxer->cancel, mpctx->playback_abort); return first_num; err_out: demux_cancel_and_free(demuxer); if (!mp_cancel_test(cancel)) MP_ERR(mpctx, "Can not open external file %s.\n", disp_filename); return -1; } // to be run on a worker thread, locked (temporarily unlocks core) static void open_external_files(struct MPContext *mpctx, char **files, enum stream_type filter) { // Need a copy, because the option value could be mutated during iteration. void *tmp = talloc_new(NULL); files = mp_dup_str_array(tmp, files); for (int n = 0; files && files[n]; n++) // when given filter is set to video, we are loading up cover art mp_add_external_file(mpctx, files[n], filter, mpctx->playback_abort, filter == STREAM_VIDEO); talloc_free(tmp); } // See mp_add_external_file() for meaning of cancel parameter. void autoload_external_files(struct MPContext *mpctx, struct mp_cancel *cancel) { struct MPOpts *opts = mpctx->opts; if (opts->sub_auto < 0 && opts->audiofile_auto < 0 && opts->coverart_auto < 0) return; if (!opts->autoload_files || strcmp(mpctx->filename, "-") == 0) return; void *tmp = talloc_new(NULL); struct subfn *list = find_external_files(mpctx->global, mpctx->filename, opts); talloc_steal(tmp, list); int sc[STREAM_TYPE_COUNT] = {0}; for (int n = 0; n < mpctx->num_tracks; n++) { if (!mpctx->tracks[n]->attached_picture) sc[mpctx->tracks[n]->type]++; } for (int i = 0; list && list[i].fname; i++) { struct subfn *e = &list[i]; for (int n = 0; n < mpctx->num_tracks; n++) { struct track *t = mpctx->tracks[n]; if (t->demuxer && strcmp(t->demuxer->filename, e->fname) == 0) goto skip; } if (e->type == STREAM_SUB && !sc[STREAM_VIDEO] && !sc[STREAM_AUDIO]) goto skip; if (e->type == STREAM_AUDIO && !sc[STREAM_VIDEO]) goto skip; if (e->type == STREAM_VIDEO && (sc[STREAM_VIDEO] || !sc[STREAM_AUDIO])) goto skip; // when given filter is set to video, we are loading up cover art int first = mp_add_external_file(mpctx, e->fname, e->type, cancel, e->type == STREAM_VIDEO); if (first < 0) goto skip; for (int n = first; n < mpctx->num_tracks; n++) { struct track *t = mpctx->tracks[n]; t->auto_loaded = true; if (!t->lang) t->lang = talloc_strdup(t, e->lang); } skip:; } talloc_free(tmp); } // Do stuff to a newly loaded playlist. This includes any processing that may // be required after loading a playlist. void prepare_playlist(struct MPContext *mpctx, struct playlist *pl) { struct MPOpts *opts = mpctx->opts; pl->current = NULL; if (opts->playlist_pos >= 0) pl->current = playlist_entry_from_index(pl, opts->playlist_pos); if (opts->shuffle) playlist_shuffle(pl); if (opts->merge_files) merge_playlist_files(pl); if (!pl->current) pl->current = mp_check_playlist_resume(mpctx, pl); if (!pl->current) pl->current = playlist_get_first(pl); } // Replace the current playlist entry with playlist contents. Moves the entries // from the given playlist pl, so the entries don't actually need to be copied. static void transfer_playlist(struct MPContext *mpctx, struct playlist *pl, int64_t *start_id, int *num_new_entries) { if (pl->num_entries) { prepare_playlist(mpctx, pl); struct playlist_entry *new = pl->current; *num_new_entries = pl->num_entries; *start_id = playlist_transfer_entries(mpctx->playlist, pl); // current entry is replaced if (mpctx->playlist->current) playlist_remove(mpctx->playlist, mpctx->playlist->current); if (new) mpctx->playlist->current = new; } else { MP_WARN(mpctx, "Empty playlist!\n"); } } static void process_hooks(struct MPContext *mpctx, char *name) { mp_hook_start(mpctx, name); while (!mp_hook_test_completion(mpctx, name)) { mp_idle(mpctx); // We have no idea what blocks a hook, so just do a full abort. This // does nothing for hooks that happen outside of playback. if (mpctx->stop_play) mp_abort_playback_async(mpctx); } } // to be run on a worker thread, locked (temporarily unlocks core) static void load_chapters(struct MPContext *mpctx) { struct demuxer *src = mpctx->demuxer; bool free_src = false; char *chapter_file = mpctx->opts->chapter_file; if (chapter_file && chapter_file[0]) { chapter_file = talloc_strdup(NULL, chapter_file); mp_core_unlock(mpctx); struct demuxer_params p = {.stream_flags = STREAM_ORIGIN_DIRECT}; struct demuxer *demux = demux_open_url(chapter_file, &p, mpctx->playback_abort, mpctx->global); mp_core_lock(mpctx); if (demux) { src = demux; free_src = true; } talloc_free(mpctx->chapters); mpctx->chapters = NULL; talloc_free(chapter_file); } if (src && !mpctx->chapters) { talloc_free(mpctx->chapters); mpctx->num_chapters = src->num_chapters; mpctx->chapters = demux_copy_chapter_data(src->chapters, src->num_chapters); if (mpctx->opts->rebase_start_time) { for (int n = 0; n < mpctx->num_chapters; n++) mpctx->chapters[n].pts -= src->start_time; } } if (free_src) demux_cancel_and_free(src); } static void load_per_file_options(m_config_t *conf, struct playlist_param *params, int params_count) { for (int n = 0; n < params_count; n++) { m_config_set_option_cli(conf, params[n].name, params[n].value, M_SETOPT_BACKUP); } } static MP_THREAD_VOID open_demux_thread(void *ctx) { struct MPContext *mpctx = ctx; mp_thread_set_name("opener"); struct demuxer_params p = { .force_format = mpctx->open_format, .stream_flags = mpctx->open_url_flags, .stream_record = true, .is_top_level = true, }; struct demuxer *demux = demux_open_url(mpctx->open_url, &p, mpctx->open_cancel, mpctx->global); mpctx->open_res_demuxer = demux; if (demux) { MP_VERBOSE(mpctx, "Opening done: %s\n", mpctx->open_url); if (mpctx->open_for_prefetch && !demux->fully_read) { int num_streams = demux_get_num_stream(demux); for (int n = 0; n < num_streams; n++) { struct sh_stream *sh = demux_get_stream(demux, n); demuxer_select_track(demux, sh, MP_NOPTS_VALUE, true); } demux_set_wakeup_cb(demux, wakeup_demux, mpctx); demux_start_thread(demux); demux_start_prefetch(demux); } } else { MP_VERBOSE(mpctx, "Opening failed or was aborted: %s\n", mpctx->open_url); if (p.demuxer_failed) { mpctx->open_res_error = MPV_ERROR_UNKNOWN_FORMAT; } else { mpctx->open_res_error = MPV_ERROR_LOADING_FAILED; } } atomic_store(&mpctx->open_done, true); mp_wakeup_core(mpctx); MP_THREAD_RETURN(); } static void cancel_open(struct MPContext *mpctx) { if (mpctx->open_cancel) mp_cancel_trigger(mpctx->open_cancel); if (mpctx->open_active) mp_thread_join(mpctx->open_thread); mpctx->open_active = false; if (mpctx->open_res_demuxer) demux_cancel_and_free(mpctx->open_res_demuxer); mpctx->open_res_demuxer = NULL; TA_FREEP(&mpctx->open_cancel); TA_FREEP(&mpctx->open_url); TA_FREEP(&mpctx->open_format); atomic_store(&mpctx->open_done, false); } // Setup all the field to open this url, and make sure a thread is running. static void start_open(struct MPContext *mpctx, char *url, int url_flags, bool for_prefetch) { cancel_open(mpctx); assert(!mpctx->open_active); assert(!mpctx->open_cancel); assert(!mpctx->open_res_demuxer); assert(!atomic_load(&mpctx->open_done)); mpctx->open_cancel = mp_cancel_new(NULL); mpctx->open_url = talloc_strdup(NULL, url); mpctx->open_format = talloc_strdup(NULL, mpctx->opts->demuxer_name); mpctx->open_url_flags = url_flags; mpctx->open_for_prefetch = for_prefetch && mpctx->opts->demuxer_thread; if (mp_thread_create(&mpctx->open_thread, open_demux_thread, mpctx)) { cancel_open(mpctx); return; } mpctx->open_active = true; } static void open_demux_reentrant(struct MPContext *mpctx) { char *url = mpctx->stream_open_filename; if (mpctx->open_active) { bool done = atomic_load(&mpctx->open_done); bool failed = done && !mpctx->open_res_demuxer; bool correct_url = strcmp(mpctx->open_url, url) == 0; if (correct_url && !failed) { MP_VERBOSE(mpctx, "Using prefetched/prefetching URL.\n"); } else if (correct_url && failed) { MP_VERBOSE(mpctx, "Prefetched URL failed, retrying.\n"); cancel_open(mpctx); } else { if (done) { MP_VERBOSE(mpctx, "Dropping finished prefetch of wrong URL.\n"); } else { MP_VERBOSE(mpctx, "Aborting ongoing prefetch of wrong URL.\n"); } cancel_open(mpctx); } } if (!mpctx->open_active) start_open(mpctx, url, mpctx->playing->stream_flags, false); // User abort should cancel the opener now. mp_cancel_set_parent(mpctx->open_cancel, mpctx->playback_abort); while (!atomic_load(&mpctx->open_done)) { mp_idle(mpctx); if (mpctx->stop_play) mp_abort_playback_async(mpctx); } if (mpctx->open_res_demuxer) { mpctx->demuxer = mpctx->open_res_demuxer; mpctx->open_res_demuxer = NULL; mp_cancel_set_parent(mpctx->demuxer->cancel, mpctx->playback_abort); } else { mpctx->error_playing = mpctx->open_res_error; } cancel_open(mpctx); // cleanup } void prefetch_next(struct MPContext *mpctx) { if (!mpctx->opts->prefetch_open) return; struct playlist_entry *new_entry = mp_next_file(mpctx, +1, false); if (new_entry && !mpctx->open_active && new_entry->filename) { MP_VERBOSE(mpctx, "Prefetching: %s\n", new_entry->filename); start_open(mpctx, new_entry->filename, new_entry->stream_flags, true); } } static void clear_playlist_paths(struct MPContext *mpctx) { TA_FREEP(&mpctx->playlist_paths); mpctx->playlist_paths_len = 0; } static bool infinite_playlist_loading_loop(struct MPContext *mpctx, struct playlist *pl) { if (pl->num_entries) { struct playlist_entry *e = pl->entries[0]; for (int n = 0; n < mpctx->playlist_paths_len; n++) { if (strcmp(mpctx->playlist_paths[n], e->filename) == 0) { clear_playlist_paths(mpctx); return true; } } } MP_TARRAY_APPEND(mpctx, mpctx->playlist_paths, mpctx->playlist_paths_len, talloc_strdup(mpctx->playlist_paths, mpctx->filename)); return false; } // Destroy the complex filter, and remove the references to the filter pads. // (Call cleanup_deassociated_complex_filters() to close decoders/VO/AO // that are not connected anymore due to this.) static void deassociate_complex_filters(struct MPContext *mpctx) { for (int n = 0; n < mpctx->num_tracks; n++) mpctx->tracks[n]->sink = NULL; if (mpctx->vo_chain) mpctx->vo_chain->filter_src = NULL; if (mpctx->ao_chain) mpctx->ao_chain->filter_src = NULL; TA_FREEP(&mpctx->lavfi); TA_FREEP(&mpctx->lavfi_graph); } // Close all decoders and sinks (AO/VO) that are not connected to either // a track or a filter pad. static void cleanup_deassociated_complex_filters(struct MPContext *mpctx) { for (int n = 0; n < mpctx->num_tracks; n++) { struct track *track = mpctx->tracks[n]; if (!(track->sink || track->vo_c || track->ao_c)) { if (track->dec && !track->vo_c && !track->ao_c) { talloc_free(track->dec->f); track->dec = NULL; } track->selected = false; } } if (mpctx->vo_chain && !mpctx->vo_chain->dec_src && !mpctx->vo_chain->filter_src) { uninit_video_chain(mpctx); } if (mpctx->ao_chain && !mpctx->ao_chain->dec_src && !mpctx->ao_chain->filter_src) { uninit_audio_chain(mpctx); } } static void kill_outputs(struct MPContext *mpctx, struct track *track) { if (track->vo_c || track->ao_c) { MP_VERBOSE(mpctx, "deselecting track %d for lavfi-complex option\n", track->user_tid); mp_switch_track(mpctx, track->type, NULL, 0); } assert(!(track->vo_c || track->ao_c)); } // >0: changed, 0: no change, -1: error static int reinit_complex_filters(struct MPContext *mpctx, bool force_uninit) { char *graph = mpctx->opts->lavfi_complex; bool have_graph = graph && graph[0] && !force_uninit; if (have_graph && mpctx->lavfi && strcmp(graph, mpctx->lavfi_graph) == 0 && !mp_filter_has_failed(mpctx->lavfi)) return 0; if (!mpctx->lavfi && !have_graph) return 0; // Deassociate the old filter pads. We leave both sources (tracks) and // sinks (AO/VO) "dangling", connected to neither track or filter pad. // Later, we either reassociate them with new pads, or uninit them if // they are still dangling. This avoids too interruptive actions like // recreating the VO. deassociate_complex_filters(mpctx); bool success = false; if (!have_graph) { success = true; // normal full removal of graph goto done; } struct mp_lavfi *l = mp_lavfi_create_graph(mpctx->filter_root, 0, false, NULL, NULL, graph); if (!l) goto done; mpctx->lavfi = l->f; mpctx->lavfi_graph = talloc_strdup(NULL, graph); mp_filter_set_error_handler(mpctx->lavfi, mpctx->filter_root); for (int n = 0; n < mpctx->lavfi->num_pins; n++) mp_pin_disconnect(mpctx->lavfi->pins[n]); struct mp_pin *pad = mp_filter_get_named_pin(mpctx->lavfi, "vo"); if (pad && mp_pin_get_dir(pad) == MP_PIN_OUT) { if (mpctx->vo_chain && mpctx->vo_chain->track) kill_outputs(mpctx, mpctx->vo_chain->track); if (!mpctx->vo_chain) { reinit_video_chain_src(mpctx, NULL); if (!mpctx->vo_chain) goto done; } struct vo_chain *vo_c = mpctx->vo_chain; assert(!vo_c->track); vo_c->filter_src = pad; mp_pin_connect(vo_c->filter->f->pins[0], vo_c->filter_src); } pad = mp_filter_get_named_pin(mpctx->lavfi, "ao"); if (pad && mp_pin_get_dir(pad) == MP_PIN_OUT) { if (mpctx->ao_chain && mpctx->ao_chain->track) kill_outputs(mpctx, mpctx->ao_chain->track); if (!mpctx->ao_chain) { reinit_audio_chain_src(mpctx, NULL); if (!mpctx->ao_chain) goto done; } struct ao_chain *ao_c = mpctx->ao_chain; assert(!ao_c->track); ao_c->filter_src = pad; mp_pin_connect(ao_c->filter->f->pins[0], ao_c->filter_src); } for (int n = 0; n < mpctx->num_tracks; n++) { struct track *track = mpctx->tracks[n]; char label[32]; char prefix; switch (track->type) { case STREAM_VIDEO: prefix = 'v'; break; case STREAM_AUDIO: prefix = 'a'; break; default: continue; } snprintf(label, sizeof(label), "%cid%d", prefix, track->user_tid); pad = mp_filter_get_named_pin(mpctx->lavfi, label); if (!pad) continue; if (mp_pin_get_dir(pad) != MP_PIN_IN) continue; assert(!mp_pin_is_connected(pad)); assert(!track->sink); kill_outputs(mpctx, track); track->sink = pad; track->selected = true; if (!track->dec) { if (track->type == STREAM_VIDEO && !init_video_decoder(mpctx, track)) goto done; if (track->type == STREAM_AUDIO && !init_audio_decoder(mpctx, track)) goto done; } mp_pin_connect(track->sink, track->dec->f->pins[0]); } // Don't allow unconnected pins. Libavfilter would make the data flow a // real pain anyway. for (int n = 0; n < mpctx->lavfi->num_pins; n++) { struct mp_pin *pin = mpctx->lavfi->pins[n]; if (!mp_pin_is_connected(pin)) { MP_ERR(mpctx, "Pad %s is not connected to anything.\n", mp_pin_get_name(pin)); goto done; } } success = true; done: if (!success) deassociate_complex_filters(mpctx); cleanup_deassociated_complex_filters(mpctx); if (mpctx->playback_initialized) { for (int n = 0; n < mpctx->num_tracks; n++) reselect_demux_stream(mpctx, mpctx->tracks[n], false); } mp_notify(mpctx, MP_EVENT_TRACKS_CHANGED, NULL); return success ? 1 : -1; } void update_lavfi_complex(struct MPContext *mpctx) { if (mpctx->playback_initialized) { if (reinit_complex_filters(mpctx, false) != 0) issue_refresh_seek(mpctx, MPSEEK_EXACT); } } // Worker thread for loading external files and such. This is needed to avoid // freezing the core when waiting for network while loading these. static void load_external_opts_thread(void *p) { void **a = p; struct MPContext *mpctx = a[0]; struct mp_waiter *waiter = a[1]; mp_core_lock(mpctx); load_chapters(mpctx); open_external_files(mpctx, mpctx->opts->audio_files, STREAM_AUDIO); open_external_files(mpctx, mpctx->opts->sub_name, STREAM_SUB); open_external_files(mpctx, mpctx->opts->coverart_files, STREAM_VIDEO); open_external_files(mpctx, mpctx->opts->external_files, STREAM_TYPE_COUNT); autoload_external_files(mpctx, mpctx->playback_abort); mp_waiter_wakeup(waiter, 0); mp_wakeup_core(mpctx); mp_core_unlock(mpctx); } static void load_external_opts(struct MPContext *mpctx) { struct mp_waiter wait = MP_WAITER_INITIALIZER; void *a[] = {mpctx, &wait}; if (!mp_thread_pool_queue(mpctx->thread_pool, load_external_opts_thread, a)) { mpctx->stop_play = PT_ERROR; return; } while (!mp_waiter_poll(&wait)) { mp_idle(mpctx); if (mpctx->stop_play) mp_abort_playback_async(mpctx); } mp_waiter_wait(&wait); } // Start playing the current playlist entry. // Handle initialization and deinitialization. static void play_current_file(struct MPContext *mpctx) { struct MPOpts *opts = mpctx->opts; assert(mpctx->stop_play); mpctx->stop_play = 0; process_hooks(mpctx, "on_before_start_file"); if (mpctx->stop_play || !mpctx->playlist->current) return; mpv_event_start_file start_event = { .playlist_entry_id = mpctx->playlist->current->id, }; mpv_event_end_file end_event = { .playlist_entry_id = start_event.playlist_entry_id, }; mp_notify(mpctx, MPV_EVENT_START_FILE, &start_event); mp_cancel_reset(mpctx->playback_abort); mpctx->error_playing = MPV_ERROR_LOADING_FAILED; mpctx->filename = NULL; mpctx->shown_aframes = 0; mpctx->shown_vframes = 0; mpctx->last_chapter_seek = -2; mpctx->last_chapter_flag = false; mpctx->last_chapter = -2; mpctx->paused = false; mpctx->playing_msg_shown = false; mpctx->max_frames = -1; mpctx->video_speed = mpctx->audio_speed = opts->playback_speed; mpctx->speed_factor_a = mpctx->speed_factor_v = 1.0; mpctx->display_sync_error = 0.0; mpctx->display_sync_active = false; // let get_current_time() show 0 as start time (before playback_pts is set) mpctx->last_seek_pts = 0.0; mpctx->seek = (struct seek_params){ 0 }; mpctx->filter_root = mp_filter_create_root(mpctx->global); mp_filter_graph_set_wakeup_cb(mpctx->filter_root, mp_wakeup_core_cb, mpctx); mp_filter_graph_set_max_run_time(mpctx->filter_root, 0.1); reset_playback_state(mpctx); mpctx->playing = mpctx->playlist->current; assert(mpctx->playing); assert(mpctx->playing->filename); mpctx->playing->reserved += 1; mpctx->filename = talloc_strdup(NULL, mpctx->playing->filename); mpctx->stream_open_filename = mpctx->filename; mpctx->add_osd_seek_info &= OSD_SEEK_INFO_CURRENT_FILE; if (opts->reset_options) { for (int n = 0; opts->reset_options[n]; n++) { const char *opt = opts->reset_options[n]; if (opt[0]) { if (strcmp(opt, "all") == 0) { m_config_backup_all_opts(mpctx->mconfig); } else { m_config_backup_opt(mpctx->mconfig, opt); } } } } mp_load_auto_profiles(mpctx); bool watch_later = mp_load_playback_resume(mpctx, mpctx->filename); load_per_file_options(mpctx->mconfig, mpctx->playing->params, mpctx->playing->num_params); mpctx->max_frames = opts->play_frames; handle_force_window(mpctx, false); if (mpctx->playlist->num_entries > 1 || mpctx->playing->playlist_path) MP_INFO(mpctx, "Playing: %s\n", mpctx->filename); assert(mpctx->demuxer == NULL); process_hooks(mpctx, "on_load"); if (mpctx->stop_play) goto terminate_playback; if (opts->stream_dump && opts->stream_dump[0]) { if (stream_dump(mpctx, mpctx->stream_open_filename) >= 0) mpctx->error_playing = 1; goto terminate_playback; } open_demux_reentrant(mpctx); if (!mpctx->stop_play && !mpctx->demuxer) { process_hooks(mpctx, "on_load_fail"); if (strcmp(mpctx->stream_open_filename, mpctx->filename) != 0 && !mpctx->stop_play) { mpctx->error_playing = MPV_ERROR_LOADING_FAILED; open_demux_reentrant(mpctx); } } if (!mpctx->demuxer || mpctx->stop_play) goto terminate_playback; if (mpctx->demuxer->playlist) { if (watch_later) mp_delete_watch_later_conf(mpctx, mpctx->filename); struct playlist *pl = mpctx->demuxer->playlist; playlist_populate_playlist_path(pl, mpctx->filename); if (infinite_playlist_loading_loop(mpctx, pl)) { mpctx->stop_play = PT_STOP; MP_ERR(mpctx, "Infinite playlist loading loop detected.\n"); goto terminate_playback; } transfer_playlist(mpctx, pl, &end_event.playlist_insert_id, &end_event.playlist_insert_num_entries); mp_notify_property(mpctx, "playlist"); mpctx->error_playing = 2; goto terminate_playback; } if (mpctx->opts->rebase_start_time) demux_set_ts_offset(mpctx->demuxer, -mpctx->demuxer->start_time); enable_demux_thread(mpctx, mpctx->demuxer); add_demuxer_tracks(mpctx, mpctx->demuxer); load_external_opts(mpctx); if (mpctx->stop_play) goto terminate_playback; check_previous_track_selection(mpctx); process_hooks(mpctx, "on_preloaded"); if (mpctx->stop_play) goto terminate_playback; if (reinit_complex_filters(mpctx, false) < 0) goto terminate_playback; for (int t = 0; t < STREAM_TYPE_COUNT; t++) { for (int i = 0; i < num_ptracks[t]; i++) { struct track *sel = NULL; bool taken = (t == STREAM_VIDEO && mpctx->vo_chain) || (t == STREAM_AUDIO && mpctx->ao_chain); if (!taken && opts->stream_auto_sel) sel = select_default_track(mpctx, i, t); mpctx->current_track[i][t] = sel; } } for (int t = 0; t < STREAM_TYPE_COUNT; t++) { for (int i = 0; i < num_ptracks[t]; i++) { // One track can strictly feed at most 1 decoder struct track *track = mpctx->current_track[i][t]; if (track) { if (track->type != STREAM_SUB && mpctx->encode_lavc_ctx && !encode_lavc_stream_type_ok(mpctx->encode_lavc_ctx, track->type)) { MP_WARN(mpctx, "Disabling %s (not supported by target " "format).\n", stream_type_name(track->type)); mpctx->current_track[i][t] = NULL; mark_track_selection(mpctx, i, t, -2); // disable } else if (track->selected) { MP_ERR(mpctx, "Track %d can't be selected twice.\n", track->user_tid); mpctx->current_track[i][t] = NULL; mark_track_selection(mpctx, i, t, -2); // disable } else { track->selected = true; } } // Revert selection of unselected tracks to default. This is needed // because track properties have inconsistent behavior. if (!track && opts->stream_id[i][t] >= 0) mark_track_selection(mpctx, i, t, -1); // default } } for (int n = 0; n < mpctx->num_tracks; n++) reselect_demux_stream(mpctx, mpctx->tracks[n], false); update_demuxer_properties(mpctx); update_playback_speed(mpctx); reinit_video_chain(mpctx); reinit_audio_chain(mpctx); reinit_sub_all(mpctx); if (mpctx->encode_lavc_ctx) { if (mpctx->vo_chain) encode_lavc_expect_stream(mpctx->encode_lavc_ctx, STREAM_VIDEO); if (mpctx->ao_chain) encode_lavc_expect_stream(mpctx->encode_lavc_ctx, STREAM_AUDIO); encode_lavc_set_metadata(mpctx->encode_lavc_ctx, mpctx->demuxer->metadata); } if (!mpctx->vo_chain && !mpctx->ao_chain && opts->stream_auto_sel) { MP_FATAL(mpctx, "No video or audio streams selected.\n"); mpctx->error_playing = MPV_ERROR_NOTHING_TO_PLAY; goto terminate_playback; } if (mpctx->vo_chain && mpctx->vo_chain->is_coverart) { MP_INFO(mpctx, "Displaying cover art. Use --no-audio-display to prevent this.\n"); } if (!mpctx->vo_chain) handle_force_window(mpctx, true); MP_VERBOSE(mpctx, "Starting playback...\n"); mpctx->playback_initialized = true; mpctx->playing->playlist_prev_attempt = false; mp_notify(mpctx, MPV_EVENT_FILE_LOADED, NULL); update_screensaver_state(mpctx); clear_playlist_paths(mpctx); if (watch_later) mp_delete_watch_later_conf(mpctx, mpctx->filename); if (mpctx->max_frames == 0) { if (!mpctx->stop_play) mpctx->stop_play = PT_NEXT_ENTRY; mpctx->error_playing = 0; goto terminate_playback; } if (opts->demuxer_cache_wait) { demux_start_prefetch(mpctx->demuxer); while (!mpctx->stop_play) { struct demux_reader_state s; demux_get_reader_state(mpctx->demuxer, &s); if (s.idle) break; mp_idle(mpctx); } } // (Not get_play_start_pts(), which would always trigger a seek.) double play_start_pts = rel_time_to_abs(mpctx, opts->play_start); // Backward playback -> start from end by default. if (play_start_pts == MP_NOPTS_VALUE && opts->play_dir < 0) play_start_pts = get_start_time(mpctx, -1); if (play_start_pts != MP_NOPTS_VALUE) { queue_seek(mpctx, MPSEEK_ABSOLUTE, play_start_pts, MPSEEK_DEFAULT, 0); execute_queued_seek(mpctx); } update_internal_pause_state(mpctx); mpctx->error_playing = 0; mpctx->in_playloop = true; while (!mpctx->stop_play) run_playloop(mpctx); mpctx->in_playloop = false; MP_VERBOSE(mpctx, "EOF code: %d \n", mpctx->stop_play); terminate_playback: if (!mpctx->stop_play) mpctx->stop_play = PT_ERROR; if (mpctx->stop_play != AT_END_OF_FILE) clear_audio_output_buffers(mpctx); update_core_idle_state(mpctx); if (mpctx->step_frames) { opts->pause = true; m_config_notify_change_opt_ptr(mpctx->mconfig, &opts->pause); } process_hooks(mpctx, "on_unload"); // time to uninit all, except global stuff: reinit_complex_filters(mpctx, true); uninit_audio_chain(mpctx); uninit_video_chain(mpctx); uninit_sub_all(mpctx); if (!opts->gapless_audio && !mpctx->encode_lavc_ctx) uninit_audio_out(mpctx); mpctx->playback_initialized = false; uninit_demuxer(mpctx); // Possibly stop ongoing async commands. mp_abort_playback_async(mpctx); m_config_restore_backups(mpctx->mconfig); TA_FREEP(&mpctx->filter_root); talloc_free(mpctx->filtered_tags); mpctx->filtered_tags = NULL; mp_notify(mpctx, MP_EVENT_TRACKS_CHANGED, NULL); if (encode_lavc_didfail(mpctx->encode_lavc_ctx)) mpctx->stop_play = PT_ERROR; if (mpctx->stop_play == PT_ERROR && !mpctx->error_playing) mpctx->error_playing = MPV_ERROR_GENERIC; bool nothing_played = !mpctx->shown_aframes && !mpctx->shown_vframes && mpctx->error_playing <= 0; bool playlist_prev_continue = false; switch (mpctx->stop_play) { case PT_ERROR: case AT_END_OF_FILE: { if (mpctx->error_playing == 0 && nothing_played) mpctx->error_playing = MPV_ERROR_NOTHING_TO_PLAY; if (mpctx->error_playing < 0) { end_event.error = mpctx->error_playing; end_event.reason = MPV_END_FILE_REASON_ERROR; } else if (mpctx->error_playing == 2) { end_event.reason = MPV_END_FILE_REASON_REDIRECT; } else { end_event.reason = MPV_END_FILE_REASON_EOF; } if (mpctx->playing) { mpctx->playing->init_failed = nothing_played; playlist_prev_continue = mpctx->playing->playlist_prev_attempt && nothing_played; mpctx->playing->playlist_prev_attempt = false; } break; } // Note that error_playing is meaningless in these cases. case PT_NEXT_ENTRY: case PT_CURRENT_ENTRY: case PT_STOP: end_event.reason = MPV_END_FILE_REASON_STOP; break; case PT_QUIT: end_event.reason = MPV_END_FILE_REASON_QUIT; break; }; mp_notify(mpctx, MPV_EVENT_END_FILE, &end_event); MP_VERBOSE(mpctx, "finished playback, %s (reason %d)\n", mpv_error_string(end_event.error), end_event.reason); if (end_event.error == MPV_ERROR_UNKNOWN_FORMAT) MP_ERR(mpctx, "Failed to recognize file format.\n"); if (mpctx->playing) playlist_entry_unref(mpctx->playing); mpctx->playing = NULL; talloc_free(mpctx->filename); mpctx->filename = NULL; mpctx->stream_open_filename = NULL; if (end_event.error < 0 && nothing_played) { mpctx->files_broken++; } else if (end_event.error < 0) { mpctx->files_errored++; } else { mpctx->files_played++; } assert(mpctx->stop_play); process_hooks(mpctx, "on_after_end_file"); if (playlist_prev_continue) { struct playlist_entry *e = mp_next_file(mpctx, -1, false); if (e) { mp_set_playlist_entry(mpctx, e); play_current_file(mpctx); } } } // Determine the next file to play. Note that if this function returns non-NULL, // it can have side-effects and mutate mpctx. // direction: -1 (previous) or +1 (next) // force: if true, don't skip playlist entries marked as failed struct playlist_entry *mp_next_file(struct MPContext *mpctx, int direction, bool force) { struct playlist_entry *next = playlist_get_next(mpctx->playlist, direction); if (next && direction < 0 && !force) next->playlist_prev_attempt = true; if (!next && mpctx->opts->loop_times != 1) { if (direction > 0) { if (mpctx->opts->shuffle) playlist_shuffle(mpctx->playlist); next = playlist_get_first(mpctx->playlist); if (next && mpctx->opts->loop_times > 1) { mpctx->opts->loop_times--; m_config_notify_change_opt_ptr(mpctx->mconfig, &mpctx->opts->loop_times); } } else { next = playlist_get_last(mpctx->playlist); } bool ignore_failures = mpctx->opts->loop_times == -2; if (!force && next && next->init_failed && !ignore_failures) { // Don't endless loop if no file in playlist is playable bool all_failed = true; for (int n = 0; n < mpctx->playlist->num_entries; n++) { all_failed &= mpctx->playlist->entries[n]->init_failed; if (!all_failed) break; } if (all_failed) next = NULL; } } return next; } // Play all entries on the playlist, starting from the current entry. // Return if all done. void mp_play_files(struct MPContext *mpctx) { stats_register_thread_cputime(mpctx->stats, "thread"); // Wait for all scripts to load before possibly starting playback. if (!mp_clients_all_initialized(mpctx)) { MP_VERBOSE(mpctx, "Waiting for scripts...\n"); while (!mp_clients_all_initialized(mpctx)) mp_idle(mpctx); mp_wakeup_core(mpctx); // avoid lost wakeups during waiting MP_VERBOSE(mpctx, "Done loading scripts.\n"); } // After above is finished; but even if it's skipped. mp_msg_set_early_logging(mpctx->global, false); prepare_playlist(mpctx, mpctx->playlist); for (;;) { idle_loop(mpctx); if (mpctx->stop_play == PT_QUIT) break; if (mpctx->playlist->current) play_current_file(mpctx); if (mpctx->stop_play == PT_QUIT) break; struct playlist_entry *new_entry = NULL; if (mpctx->stop_play == PT_NEXT_ENTRY || mpctx->stop_play == PT_ERROR || mpctx->stop_play == AT_END_OF_FILE) { new_entry = mp_next_file(mpctx, +1, false); } else if (mpctx->stop_play == PT_CURRENT_ENTRY) { new_entry = mpctx->playlist->current; } mpctx->playlist->current = new_entry; mpctx->playlist->current_was_replaced = false; mpctx->stop_play = new_entry ? PT_NEXT_ENTRY : PT_STOP; if (!mpctx->playlist->current && mpctx->opts->player_idle_mode < 2) break; } cancel_open(mpctx); if (mpctx->encode_lavc_ctx) { // Make sure all streams get finished. uninit_audio_out(mpctx); uninit_video_out(mpctx); if (!encode_lavc_free(mpctx->encode_lavc_ctx)) mpctx->files_errored += 1; mpctx->encode_lavc_ctx = NULL; } } // Abort current playback and set the given entry to play next. // e must be on the mpctx->playlist. void mp_set_playlist_entry(struct MPContext *mpctx, struct playlist_entry *e) { assert(!e || playlist_entry_to_index(mpctx->playlist, e) >= 0); mpctx->playlist->current = e; mpctx->playlist->current_was_replaced = false; mp_notify(mpctx, MP_EVENT_CHANGE_PLAYLIST, NULL); // Make it pick up the new entry. if (mpctx->stop_play != PT_QUIT) mpctx->stop_play = e ? PT_CURRENT_ENTRY : PT_STOP; mp_wakeup_core(mpctx); }