/* * 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 #include #include #include #include #include #include #include "mpv_talloc.h" #include "client.h" #include "external_files.h" #include "common/av_common.h" #include "common/codecs.h" #include "common/msg.h" #include "common/msg_control.h" #include "common/stats.h" #include "filters/f_decoder_wrapper.h" #include "command.h" #include "osdep/threads.h" #include "osdep/timer.h" #include "common/common.h" #include "input/input.h" #include "input/keycodes.h" #include "stream/stream.h" #include "demux/demux.h" #include "demux/stheader.h" #include "common/playlist.h" #include "sub/dec_sub.h" #include "sub/osd.h" #include "sub/sd.h" #include "options/m_option.h" #include "options/m_property.h" #include "options/m_config_frontend.h" #include "options/parse_configfile.h" #include "osdep/getpid.h" #include "video/out/gpu/context.h" #include "video/out/vo.h" #include "video/csputils.h" #include "video/hwdec.h" #include "audio/aframe.h" #include "audio/format.h" #include "audio/out/ao.h" #include "video/out/bitmap_packer.h" #include "options/path.h" #include "screenshot.h" #include "misc/dispatch.h" #include "misc/language.h" #include "misc/node.h" #include "misc/thread_pool.h" #include "misc/thread_tools.h" #include "osdep/io.h" #include "osdep/subprocess.h" #include "osdep/terminal.h" #include "core.h" #ifdef _WIN32 #include #endif struct command_ctx { // All properties, terminated with a {0} item. struct m_property *properties; double last_seek_time; double last_seek_pts; double marked_pts; bool marked_permanent; char **warned_deprecated; int num_warned_deprecated; bool command_opts_processed; struct overlay *overlays; int num_overlays; // One of these is in use by the OSD; the other one exists so that the // bitmap list can be manipulated without additional synchronization. struct sub_bitmaps overlay_osd[2]; int overlay_osd_current; struct bitmap_packer *overlay_packer; struct hook_handler **hooks; int num_hooks; int64_t hook_seq; // for hook_handler.seq struct ao_hotplug *hotplug; struct mp_cmd_ctx *cache_dump_cmd; // in progress cache dumping char **script_props; mpv_node udata; mpv_node mdata; double cached_window_scale; }; static const struct m_option script_props_type = { .type = &m_option_type_keyvalue_list }; static const struct m_option udata_type = { .type = CONF_TYPE_NODE }; static const struct m_option mdata_type = { .type = CONF_TYPE_NODE }; struct overlay { struct mp_image *source; int x, y; int dw, dh; }; struct hook_handler { char *client; // client mpv_handle name (for logging) int64_t client_id; // client mpv_handle ID char *type; // kind of hook, e.g. "on_load" uint64_t user_id; // user-chosen ID int priority; // priority for global hook order int64_t seq; // unique ID, != 0, also for fixed order on equal priorities bool active; // hook is currently in progress (only 1 at a time for now) }; enum load_action_type { LOAD_TYPE_REPLACE, LOAD_TYPE_INSERT_AT, LOAD_TYPE_INSERT_NEXT, LOAD_TYPE_APPEND, }; struct load_action { enum load_action_type type; bool play; }; // U+25CB WHITE CIRCLE // U+25CF BLACK CIRCLE // U+00A0 NO-BREAK SPACE #define WHITECIRCLE "\xe2\x97\x8b" #define BLACKCIRCLE "\xe2\x97\x8f" #define NBSP "\xc2\xa0" const char list_current[] = BLACKCIRCLE NBSP; const char list_normal[] = WHITECIRCLE NBSP; static int edit_filters(struct MPContext *mpctx, struct mp_log *log, enum stream_type mediatype, const char *cmd, const char *arg); static int set_filters(struct MPContext *mpctx, enum stream_type mediatype, struct m_obj_settings *new_chain); static bool is_property_set(int action, void *val); static void hook_remove(struct MPContext *mpctx, struct hook_handler *h) { struct command_ctx *cmd = mpctx->command_ctx; for (int n = 0; n < cmd->num_hooks; n++) { if (cmd->hooks[n] == h) { talloc_free(cmd->hooks[n]); MP_TARRAY_REMOVE_AT(cmd->hooks, cmd->num_hooks, n); return; } } MP_ASSERT_UNREACHABLE(); } bool mp_hook_test_completion(struct MPContext *mpctx, char *type) { struct command_ctx *cmd = mpctx->command_ctx; for (int n = 0; n < cmd->num_hooks; n++) { struct hook_handler *h = cmd->hooks[n]; if (h->active && strcmp(h->type, type) == 0) { if (!mp_client_id_exists(mpctx, h->client_id)) { MP_WARN(mpctx, "client removed during hook handling\n"); hook_remove(mpctx, h); break; } return false; } } return true; } static int invoke_hook_handler(struct MPContext *mpctx, struct hook_handler *h) { MP_VERBOSE(mpctx, "Running hook: %s/%s\n", h->client, h->type); h->active = true; uint64_t reply_id = 0; mpv_event_hook *m = talloc_ptrtype(NULL, m); *m = (mpv_event_hook){ .name = talloc_strdup(m, h->type), .id = h->seq, }, reply_id = h->user_id; char *name = mp_tprintf(22, "@%"PRIi64, h->client_id); int r = mp_client_send_event(mpctx, name, reply_id, MPV_EVENT_HOOK, m); if (r < 0) { MP_WARN(mpctx, "Sending hook command failed. Removing hook.\n"); hook_remove(mpctx, h); mp_wakeup_core(mpctx); // repeat next iteration to finish } return r; } static int run_next_hook_handler(struct MPContext *mpctx, char *type, int index) { struct command_ctx *cmd = mpctx->command_ctx; for (int n = index; n < cmd->num_hooks; n++) { struct hook_handler *h = cmd->hooks[n]; if (strcmp(h->type, type) == 0) return invoke_hook_handler(mpctx, h); } mp_wakeup_core(mpctx); // finished hook return 0; } // Start processing script/client API hooks. This is asynchronous, and the // caller needs to use mp_hook_test_completion() to check whether they're done. void mp_hook_start(struct MPContext *mpctx, char *type) { while (run_next_hook_handler(mpctx, type, 0) < 0) { // We can repeat this until all broken clients have been removed, and // hook processing is successfully started. } } int mp_hook_continue(struct MPContext *mpctx, int64_t client_id, uint64_t id) { struct command_ctx *cmd = mpctx->command_ctx; for (int n = 0; n < cmd->num_hooks; n++) { struct hook_handler *h = cmd->hooks[n]; if (h->client_id == client_id && h->seq == id) { if (!h->active) break; h->active = false; return run_next_hook_handler(mpctx, h->type, n + 1); } } MP_ERR(mpctx, "invalid hook API usage\n"); return MPV_ERROR_INVALID_PARAMETER; } static int compare_hook(const void *pa, const void *pb) { struct hook_handler **h1 = (void *)pa; struct hook_handler **h2 = (void *)pb; if ((*h1)->priority != (*h2)->priority) return (*h1)->priority - (*h2)->priority; return (*h1)->seq - (*h2)->seq; } void mp_hook_add(struct MPContext *mpctx, char *client, int64_t client_id, const char *name, uint64_t user_id, int pri) { struct command_ctx *cmd = mpctx->command_ctx; struct hook_handler *h = talloc_ptrtype(cmd, h); int64_t seq = ++cmd->hook_seq; *h = (struct hook_handler){ .client = talloc_strdup(h, client), .client_id = client_id, .type = talloc_strdup(h, name), .user_id = user_id, .priority = pri, .seq = seq, }; MP_TARRAY_APPEND(cmd, cmd->hooks, cmd->num_hooks, h); qsort(cmd->hooks, cmd->num_hooks, sizeof(cmd->hooks[0]), compare_hook); } // Call before a seek, in order to allow revert-seek to undo the seek. void mark_seek(struct MPContext *mpctx) { struct command_ctx *cmd = mpctx->command_ctx; double now = mp_time_sec(); if (now > cmd->last_seek_time + 2.0 || cmd->last_seek_pts == MP_NOPTS_VALUE) cmd->last_seek_pts = get_current_time(mpctx); cmd->last_seek_time = now; } static char *skip_n_lines(char *text, int lines) { while (text && lines > 0) { char *next = strchr(text, '\n'); text = next ? next + 1 : NULL; lines--; } return text; } static int count_lines(char *text) { int count = 0; while (text) { char *next = strchr(text, '\n'); if (!next || (next[0] == '\n' && !next[1])) break; text = next + 1; count++; } return count; } // Given a huge string separated by new lines, attempts to cut off text above // the current line to keep the line visible, and below to keep rendering // performance up. pos gives the current line (0 for the first line). // "text" might be returned as is, or it can be freed and a new allocation is // returned. // This is only a heuristic - we can't deal with line breaking. static char *cut_osd_list(struct MPContext *mpctx, char *text, int pos) { int screen_h, font_h; osd_get_text_size(mpctx->osd, &screen_h, &font_h); int max_lines = screen_h / MPMAX(font_h, 1) - 1; if (!text || max_lines < 5) return text; int count = count_lines(text); if (count <= max_lines) return text; char *new = talloc_strdup(NULL, ""); int start = MPMAX(pos - max_lines / 2, 0); if (start == 1) start = 0; // avoid weird transition when pad_h becomes visible int pad_h = start > 0; int space = max_lines - pad_h - 1; int pad_t = count - start > space; if (!pad_t) start = count - space; if (pad_h) { new = talloc_asprintf_append_buffer(new, "\342\206\221 (%d hidden items)\n", start); } char *head = skip_n_lines(text, start); if (!head) { talloc_free(new); return text; } int lines_shown = max_lines - pad_h - pad_t; char *tail = skip_n_lines(head, lines_shown); new = talloc_asprintf_append_buffer(new, "%.*s", (int)(tail ? tail - head : strlen(head)), head); if (pad_t) { new = talloc_asprintf_append_buffer(new, "\342\206\223 (%d hidden items)\n", count - start - lines_shown + 1); } talloc_free(text); return new; } static char *format_delay(double time) { return talloc_asprintf(NULL, "%d ms", (int)lrint(time * 1000)); } // Property-option bridge. (Maps the property to the option with the same name.) static int mp_property_generic_option(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct m_config_option *opt = m_config_get_co(mpctx->mconfig, bstr0(prop->name)); if (!opt) return M_PROPERTY_UNKNOWN; switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = *(opt->opt); return M_PROPERTY_OK; case M_PROPERTY_GET: if (!opt->data) return M_PROPERTY_NOT_IMPLEMENTED; m_option_copy(opt->opt, arg, opt->data); return M_PROPERTY_OK; case M_PROPERTY_SET: if (m_config_set_option_raw(mpctx->mconfig, opt, arg, 0) < 0) return M_PROPERTY_ERROR; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } /// Playback speed (RW) static int mp_property_playback_speed(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (action == M_PROPERTY_PRINT || action == M_PROPERTY_FIXED_LEN_PRINT) { *(char **)arg = mp_format_double(NULL, mpctx->opts->playback_speed, 2, false, false, action != M_PROPERTY_FIXED_LEN_PRINT); return M_PROPERTY_OK; } return mp_property_generic_option(mpctx, prop, action, arg); } static int mp_property_av_speed_correction(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; char *type = prop->priv; double val = 0; switch (type[0]) { case 'a': val = mpctx->speed_factor_a; break; case 'v': val = mpctx->speed_factor_v; break; default: MP_ASSERT_UNREACHABLE(); } if (action == M_PROPERTY_PRINT || action == M_PROPERTY_FIXED_LEN_PRINT) { *(char **)arg = mp_format_double(NULL, (val - 1) * 100, 2, true, true, action != M_PROPERTY_FIXED_LEN_PRINT); return M_PROPERTY_OK; } return m_property_double_ro(action, arg, val); } static int mp_property_display_sync_active(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; return m_property_bool_ro(action, arg, mpctx->display_sync_active); } static int mp_property_pid(void *ctx, struct m_property *prop, int action, void *arg) { // 32 bit on linux/windows - which C99 `int' is not guaranteed to hold return m_property_int64_ro(action, arg, mp_getpid()); } /// filename with path (RO) static int mp_property_path(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->filename) return M_PROPERTY_UNAVAILABLE; return m_property_strdup_ro(action, arg, mpctx->filename); } static int mp_property_filename(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->filename) return M_PROPERTY_UNAVAILABLE; char *filename = talloc_strdup(NULL, mpctx->filename); if (mp_is_url(bstr0(filename))) mp_url_unescape_inplace(filename); char *f = (char *)mp_basename(filename); if (!f[0]) f = filename; if (action == M_PROPERTY_KEY_ACTION) { struct m_property_action_arg *ka = arg; if (strcmp(ka->key, "no-ext") == 0) { action = ka->action; arg = ka->arg; bstr root; if (mp_splitext(f, &root)) f = bstrto0(filename, root); } } int r = m_property_strdup_ro(action, arg, f); talloc_free(filename); return r; } static int mp_property_stream_open_filename(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->stream_open_filename || !mpctx->playing) return M_PROPERTY_UNAVAILABLE; switch (action) { case M_PROPERTY_SET: { if (mpctx->demuxer) return M_PROPERTY_ERROR; mpctx->stream_open_filename = talloc_strdup(mpctx->stream_open_filename, *(char **)arg); mp_notify_property(mpctx, prop->name); return M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: case M_PROPERTY_GET: return m_property_strdup_ro(action, arg, mpctx->stream_open_filename); } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_file_size(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; int64_t size = mpctx->demuxer->filesize; if (size < 0) return M_PROPERTY_UNAVAILABLE; if (action == M_PROPERTY_PRINT) { *(char **)arg = format_file_size(size); return M_PROPERTY_OK; } return m_property_int64_ro(action, arg, size); } static const char *find_non_filename_media_title(MPContext *mpctx) { const char *name = mpctx->opts->media_title; if (name && name[0]) return name; if (mpctx->demuxer) { name = mp_tags_get_str(mpctx->demuxer->metadata, "service_name"); if (name && name[0]) return name; name = mp_tags_get_str(mpctx->demuxer->metadata, "title"); if (name && name[0]) return name; name = mp_tags_get_str(mpctx->demuxer->metadata, "icy-title"); if (name && name[0]) return name; } if (mpctx->playing && mpctx->playing->title) return mpctx->playing->title; return NULL; } static int mp_property_media_title(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; const char *name = find_non_filename_media_title(mpctx); if (name && name[0]) return m_property_strdup_ro(action, arg, name); return mp_property_filename(ctx, prop, action, arg); } static int mp_property_stream_path(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer || !mpctx->demuxer->filename) return M_PROPERTY_UNAVAILABLE; return m_property_strdup_ro(action, arg, mpctx->demuxer->filename); } /// Demuxer name (RO) static int mp_property_demuxer(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct demuxer *demuxer = mpctx->demuxer; if (!demuxer) return M_PROPERTY_UNAVAILABLE; return m_property_strdup_ro(action, arg, demuxer->desc->name); } static int mp_property_file_format(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct demuxer *demuxer = mpctx->demuxer; if (!demuxer) return M_PROPERTY_UNAVAILABLE; const char *name = demuxer->filetype ? demuxer->filetype : demuxer->desc->name; return m_property_strdup_ro(action, arg, name); } static int mp_property_stream_pos(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct demuxer *demuxer = mpctx->demuxer; if (!demuxer || demuxer->filepos < 0) return M_PROPERTY_UNAVAILABLE; return m_property_int64_ro(action, arg, demuxer->filepos); } /// Stream end offset (RO) static int mp_property_stream_end(void *ctx, struct m_property *prop, int action, void *arg) { return mp_property_file_size(ctx, prop, action, arg); } // Does some magic to handle "/full" as time formatted with milliseconds. // Assumes prop is the type of the actual property. static int property_time(int action, void *arg, double time) { if (time == MP_NOPTS_VALUE) return M_PROPERTY_UNAVAILABLE; const struct m_option time_type = {.type = CONF_TYPE_TIME}; switch (action) { case M_PROPERTY_GET: *(double *)arg = time; return M_PROPERTY_OK; case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = time_type; return M_PROPERTY_OK; case M_PROPERTY_KEY_ACTION: { struct m_property_action_arg *ka = arg; if (strcmp(ka->key, "full") != 0) return M_PROPERTY_UNKNOWN; switch (ka->action) { case M_PROPERTY_GET: *(double *)ka->arg = time; return M_PROPERTY_OK; case M_PROPERTY_PRINT: *(char **)ka->arg = mp_format_time(time, true); return M_PROPERTY_OK; case M_PROPERTY_GET_TYPE: *(struct m_option *)ka->arg = time_type; return M_PROPERTY_OK; } } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_duration(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; double len = get_time_length(mpctx); if (len < 0) return M_PROPERTY_UNAVAILABLE; return property_time(action, arg, len); } static int mp_property_avsync(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->ao_chain || !mpctx->vo_chain) return M_PROPERTY_UNAVAILABLE; if (action == M_PROPERTY_PRINT || action == M_PROPERTY_FIXED_LEN_PRINT) { *(char **)arg = mp_format_double(NULL, mpctx->last_av_difference, 4, true, false, action != M_PROPERTY_FIXED_LEN_PRINT); return M_PROPERTY_OK; } return m_property_double_ro(action, arg, mpctx->last_av_difference); } static int mp_property_total_avsync_change(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->ao_chain || !mpctx->vo_chain) return M_PROPERTY_UNAVAILABLE; if (mpctx->total_avsync_change == MP_NOPTS_VALUE) return M_PROPERTY_UNAVAILABLE; return m_property_double_ro(action, arg, mpctx->total_avsync_change); } static int mp_property_frame_drop_dec(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct mp_decoder_wrapper *dec = mpctx->vo_chain && mpctx->vo_chain->track ? mpctx->vo_chain->track->dec : NULL; if (!dec) return M_PROPERTY_UNAVAILABLE; return m_property_int_ro(action, arg, mp_decoder_wrapper_get_frames_dropped(dec)); } static int mp_property_mistimed_frame_count(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->vo_chain || !mpctx->display_sync_active) return M_PROPERTY_UNAVAILABLE; return m_property_int_ro(action, arg, mpctx->mistimed_frames_total); } static int mp_property_vsync_ratio(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->vo_chain || !mpctx->display_sync_active) return M_PROPERTY_UNAVAILABLE; int vsyncs = 0, frames = 0; for (int n = 0; n < mpctx->num_past_frames; n++) { int vsync = mpctx->past_frames[n].num_vsyncs; if (vsync < 0) break; vsyncs += vsync; frames += 1; } if (!frames) return M_PROPERTY_UNAVAILABLE; return m_property_double_ro(action, arg, vsyncs / (double)frames); } static int mp_property_frame_drop_vo(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->vo_chain) return M_PROPERTY_UNAVAILABLE; return m_property_int_ro(action, arg, vo_get_drop_count(mpctx->video_out)); } static int mp_property_vo_delayed_frame_count(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->vo_chain) return M_PROPERTY_UNAVAILABLE; return m_property_int_ro(action, arg, vo_get_delayed_count(mpctx->video_out)); } /// Current position in percent (RW) static int mp_property_percent_pos(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->playback_initialized) return M_PROPERTY_UNAVAILABLE; switch (action) { case M_PROPERTY_SET: { double pos = *(double *)arg; queue_seek(mpctx, MPSEEK_FACTOR, pos / 100.0, MPSEEK_DEFAULT, 0); return M_PROPERTY_OK; } case M_PROPERTY_GET: { double pos = get_current_pos_ratio(mpctx, false) * 100.0; if (pos < 0) return M_PROPERTY_UNAVAILABLE; *(double *)arg = pos; return M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){ .type = CONF_TYPE_DOUBLE, .min = 0, .max = 100, }; return M_PROPERTY_OK; case M_PROPERTY_PRINT: { int pos = get_percent_pos(mpctx); if (pos < 0) return M_PROPERTY_UNAVAILABLE; *(char **)arg = talloc_asprintf(NULL, "%d", pos); return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_time_start(void *ctx, struct m_property *prop, int action, void *arg) { // minor backwards-compat. return property_time(action, arg, 0); } /// Current position in seconds (RW) static int mp_property_time_pos(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->playback_initialized) return M_PROPERTY_UNAVAILABLE; if (action == M_PROPERTY_SET) { queue_seek(mpctx, MPSEEK_ABSOLUTE, *(double *)arg, MPSEEK_DEFAULT, 0); return M_PROPERTY_OK; } return property_time(action, arg, get_current_time(mpctx)); } /// Current audio pts in seconds (R) static int mp_property_audio_pts(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->playback_initialized || mpctx->audio_status < STATUS_PLAYING || mpctx->audio_status >= STATUS_EOF) return M_PROPERTY_UNAVAILABLE; return property_time(action, arg, playing_audio_pts(mpctx)); } static bool time_remaining(MPContext *mpctx, double *remaining) { double len = get_time_length(mpctx); double playback = get_playback_time(mpctx); if (playback == MP_NOPTS_VALUE || len <= 0) return false; *remaining = len - playback; return len >= 0; } static int mp_property_remaining(void *ctx, struct m_property *prop, int action, void *arg) { double remaining; if (!time_remaining(ctx, &remaining)) return M_PROPERTY_UNAVAILABLE; return property_time(action, arg, remaining); } static int mp_property_playtime_remaining(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; double remaining; if (!time_remaining(mpctx, &remaining)) return M_PROPERTY_UNAVAILABLE; double speed = mpctx->video_speed; return property_time(action, arg, remaining / speed); } static int mp_property_playback_time(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->playback_initialized) return M_PROPERTY_UNAVAILABLE; if (action == M_PROPERTY_SET) { queue_seek(mpctx, MPSEEK_ABSOLUTE, *(double *)arg, MPSEEK_DEFAULT, 0); return M_PROPERTY_OK; } return property_time(action, arg, get_playback_time(mpctx)); } /// Current chapter (RW) static int mp_property_chapter(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->playback_initialized) return M_PROPERTY_UNAVAILABLE; int chapter = get_current_chapter(mpctx); int num = get_chapter_count(mpctx); if (chapter < -1) return M_PROPERTY_UNAVAILABLE; switch (action) { case M_PROPERTY_GET: *(int *) arg = chapter; return M_PROPERTY_OK; case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){ .type = CONF_TYPE_INT, .min = -1, .max = num - 1, }; return M_PROPERTY_OK; case M_PROPERTY_PRINT: { *(char **) arg = chapter_display_name(mpctx, chapter); return M_PROPERTY_OK; } case M_PROPERTY_SWITCH: case M_PROPERTY_SET: ; mark_seek(mpctx); int step_all; if (action == M_PROPERTY_SWITCH) { struct m_property_switch_arg *sarg = arg; step_all = lrint(sarg->inc); // Check threshold for relative backward seeks if (mpctx->opts->chapter_seek_threshold >= 0 && step_all < 0) { double current_chapter_start = chapter_start_time(mpctx, chapter); // If we are far enough into a chapter, seek back to the // beginning of current chapter instead of previous one if (current_chapter_start != MP_NOPTS_VALUE && get_current_time(mpctx) - current_chapter_start > mpctx->opts->chapter_seek_threshold) { step_all++; } } } else // Absolute set step_all = *(int *)arg - chapter; chapter += step_all; if (chapter < 0) // avoid using -1 if first chapter starts at 0 chapter = (chapter_start_time(mpctx, 0) <= 0) ? 0 : -1; if (chapter >= num && step_all > 0) { if (mpctx->opts->keep_open) { seek_to_last_frame(mpctx); } else { // semi-broken file; ignore for user convenience if (action == M_PROPERTY_SWITCH && num < 2) return M_PROPERTY_UNAVAILABLE; if (!mpctx->stop_play) mpctx->stop_play = PT_NEXT_ENTRY; mp_wakeup_core(mpctx); } } else { double pts = chapter_start_time(mpctx, chapter); if (pts != MP_NOPTS_VALUE) { queue_seek(mpctx, MPSEEK_CHAPTER, pts, MPSEEK_DEFAULT, 0); mpctx->last_chapter_seek = chapter; mpctx->last_chapter_flag = true; } } return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static int get_chapter_entry(int item, int action, void *arg, void *ctx) { struct MPContext *mpctx = ctx; char *name = chapter_name(mpctx, item); double time = chapter_start_time(mpctx, item); struct m_sub_property props[] = { {"title", SUB_PROP_STR(name)}, {"time", {.type = CONF_TYPE_TIME}, {.time = time}}, {0} }; int r = m_property_read_sub(props, action, arg); return r; } static int parse_node_chapters(struct MPContext *mpctx, struct mpv_node *given_chapters) { if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; if (given_chapters->format != MPV_FORMAT_NODE_ARRAY) return M_PROPERTY_ERROR; double len = get_time_length(mpctx); talloc_free(mpctx->chapters); mpctx->num_chapters = 0; mpctx->chapters = talloc_array(NULL, struct demux_chapter, 0); for (int n = 0; n < given_chapters->u.list->num; n++) { struct mpv_node *chapter_data = &given_chapters->u.list->values[n]; if (chapter_data->format != MPV_FORMAT_NODE_MAP) continue; mpv_node_list *chapter_data_elements = chapter_data->u.list; double time = -1; char *title = 0; for (int e = 0; e < chapter_data_elements->num; e++) { struct mpv_node *chapter_data_element = &chapter_data_elements->values[e]; char *key = chapter_data_elements->keys[e]; switch (chapter_data_element->format) { case MPV_FORMAT_INT64: if (strcmp(key, "time") == 0) time = (double)chapter_data_element->u.int64; break; case MPV_FORMAT_DOUBLE: if (strcmp(key, "time") == 0) time = chapter_data_element->u.double_; break; case MPV_FORMAT_STRING: if (strcmp(key, "title") == 0) title = chapter_data_element->u.string; break; } } if (time >= 0 && time < len) { struct demux_chapter new = { .pts = time, .metadata = talloc_zero(mpctx->chapters, struct mp_tags), }; if (title) mp_tags_set_str(new.metadata, "title", title); MP_TARRAY_APPEND(NULL, mpctx->chapters, mpctx->num_chapters, new); } } mp_notify(mpctx, MP_EVENT_CHAPTER_CHANGE, NULL); mp_notify_property(mpctx, "chapter-list"); return M_PROPERTY_OK; } static int mp_property_list_chapters(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; int count = get_chapter_count(mpctx); switch (action) { case M_PROPERTY_PRINT: { int cur = mpctx->playback_initialized ? get_current_chapter(mpctx) : -1; char *res = NULL; int n; if (count < 1) { res = talloc_asprintf_append(res, "No chapters."); } for (n = 0; n < count; n++) { char *name = chapter_display_name(mpctx, n); double t = chapter_start_time(mpctx, n); char* time = mp_format_time(t, false); res = talloc_asprintf_append(res, "%s", time); talloc_free(time); const char *m = n == cur ? list_current : list_normal; res = talloc_asprintf_append(res, " %s%s\n", m, name); talloc_free(name); } *(char **)arg = res; return M_PROPERTY_OK; } case M_PROPERTY_SET: { struct mpv_node *given_chapters = arg; return parse_node_chapters(mpctx, given_chapters); } } return m_property_read_list(action, arg, count, get_chapter_entry, mpctx); } static int mp_property_current_edition(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct demuxer *demuxer = mpctx->demuxer; if (!demuxer || demuxer->num_editions <= 0) return M_PROPERTY_UNAVAILABLE; return m_property_int_ro(action, arg, demuxer->edition); } static int mp_property_edition(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct demuxer *demuxer = mpctx->demuxer; char *name = NULL; if (!demuxer) return mp_property_generic_option(mpctx, prop, action, arg); int ed = demuxer->edition; if (demuxer->num_editions <= 1) return M_PROPERTY_UNAVAILABLE; switch (action) { case M_PROPERTY_GET_CONSTRICTED_TYPE: { *(struct m_option *)arg = (struct m_option){ .type = CONF_TYPE_INT, .min = 0, .max = demuxer->num_editions - 1, }; return M_PROPERTY_OK; } case M_PROPERTY_PRINT: { if (ed < 0) return M_PROPERTY_UNAVAILABLE; name = mp_tags_get_str(demuxer->editions[ed].metadata, "title"); if (name) { *(char **) arg = talloc_strdup(NULL, name); } else { *(char **) arg = talloc_asprintf(NULL, "%d", ed + 1); } return M_PROPERTY_OK; } default: return mp_property_generic_option(mpctx, prop, action, arg); } } static int get_edition_entry(int item, int action, void *arg, void *ctx) { struct MPContext *mpctx = ctx; struct demuxer *demuxer = mpctx->demuxer; struct demux_edition *ed = &demuxer->editions[item]; char *title = mp_tags_get_str(ed->metadata, "title"); struct m_sub_property props[] = { {"id", SUB_PROP_INT(item)}, {"title", SUB_PROP_STR(title), .unavailable = !title}, {"default", SUB_PROP_BOOL(ed->default_edition)}, {0} }; return m_property_read_sub(props, action, arg); } static int property_list_editions(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct demuxer *demuxer = mpctx->demuxer; if (!demuxer) return M_PROPERTY_UNAVAILABLE; if (action == M_PROPERTY_PRINT) { char *res = NULL; struct demux_edition *editions = demuxer->editions; int num_editions = demuxer->num_editions; int current = demuxer->edition; if (!num_editions) res = talloc_asprintf_append(res, "No editions."); for (int n = 0; n < num_editions; n++) { struct demux_edition *ed = &editions[n]; res = talloc_strdup_append(res, n == current ? list_current : list_normal); res = talloc_asprintf_append(res, "%d: ", n); char *title = mp_tags_get_str(ed->metadata, "title"); if (!title) title = "unnamed"; res = talloc_asprintf_append(res, "'%s'\n", title); } *(char **)arg = res; return M_PROPERTY_OK; } return m_property_read_list(action, arg, demuxer->num_editions, get_edition_entry, mpctx); } /// Number of chapters in file static int mp_property_chapters(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->playback_initialized) return M_PROPERTY_UNAVAILABLE; int count = get_chapter_count(mpctx); return m_property_int_ro(action, arg, count); } static int mp_property_editions(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct demuxer *demuxer = mpctx->demuxer; if (!demuxer) return M_PROPERTY_UNAVAILABLE; if (demuxer->num_editions <= 0) return M_PROPERTY_UNAVAILABLE; return m_property_int_ro(action, arg, demuxer->num_editions); } static int get_tag_entry(int item, int action, void *arg, void *ctx) { struct mp_tags *tags = ctx; struct m_sub_property props[] = { {"key", SUB_PROP_STR(tags->keys[item])}, {"value", SUB_PROP_STR(tags->values[item])}, {0} }; return m_property_read_sub(props, action, arg); } // tags can be NULL for M_PROPERTY_GET_TYPE. (In all other cases, tags must be // provided, even for M_PROPERTY_KEY_ACTION GET_TYPE sub-actions.) static int tag_property(int action, void *arg, struct mp_tags *tags) { switch (action) { case M_PROPERTY_GET_NODE: // same as GET, because type==mpv_node case M_PROPERTY_GET: { mpv_node_list *list = talloc_zero(NULL, mpv_node_list); mpv_node node = { .format = MPV_FORMAT_NODE_MAP, .u.list = list, }; list->num = tags->num_keys; list->values = talloc_array(list, mpv_node, list->num); list->keys = talloc_array(list, char*, list->num); for (int n = 0; n < tags->num_keys; n++) { list->keys[n] = talloc_strdup(list, tags->keys[n]); list->values[n] = (struct mpv_node){ .format = MPV_FORMAT_STRING, .u.string = talloc_strdup(list, tags->values[n]), }; } *(mpv_node*)arg = node; return M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: { *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_NODE}; return M_PROPERTY_OK; } case M_PROPERTY_PRINT: { char *res = NULL; for (int n = 0; n < tags->num_keys; n++) { res = talloc_asprintf_append_buffer(res, "%s: %s\n", tags->keys[n], tags->values[n]); } if (!res) res = talloc_strdup(NULL, "(empty)"); *(char **)arg = res; return M_PROPERTY_OK; } case M_PROPERTY_KEY_ACTION: { struct m_property_action_arg *ka = arg; bstr key; char *rem; m_property_split_path(ka->key, &key, &rem); if (bstr_equals0(key, "list")) { struct m_property_action_arg nka = *ka; nka.key = rem; return m_property_read_list(action, &nka, tags->num_keys, get_tag_entry, tags); } // Direct access without this prefix is allowed for compatibility. bstr k = bstr0(ka->key); bstr_eatstart0(&k, "by-key/"); char *meta = mp_tags_get_bstr(tags, k); if (!meta) return M_PROPERTY_UNKNOWN; switch (ka->action) { case M_PROPERTY_GET: *(char **)ka->arg = talloc_strdup(NULL, meta); return M_PROPERTY_OK; case M_PROPERTY_GET_TYPE: *(struct m_option *)ka->arg = (struct m_option){ .type = CONF_TYPE_STRING, }; return M_PROPERTY_OK; } } } return M_PROPERTY_NOT_IMPLEMENTED; } /// Demuxer meta data static int mp_property_metadata(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct demuxer *demuxer = mpctx->demuxer; if (!demuxer) return M_PROPERTY_UNAVAILABLE; return tag_property(action, arg, demuxer->metadata); } static int mp_property_filtered_metadata(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->filtered_tags) return M_PROPERTY_UNAVAILABLE; return tag_property(action, arg, mpctx->filtered_tags); } static int mp_property_chapter_metadata(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; int chapter = get_current_chapter(mpctx); if (chapter < 0) return M_PROPERTY_UNAVAILABLE; return tag_property(action, arg, mpctx->chapters[chapter].metadata); } static int mp_property_filter_metadata(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; const char *type = prop->priv; if (action == M_PROPERTY_KEY_ACTION) { struct m_property_action_arg *ka = arg; bstr key; char *rem; m_property_split_path(ka->key, &key, &rem); struct mp_tags *metadata = NULL; struct mp_output_chain *chain = NULL; if (strcmp(type, "vf") == 0) { chain = mpctx->vo_chain ? mpctx->vo_chain->filter : NULL; } else if (strcmp(type, "af") == 0) { chain = mpctx->ao_chain ? mpctx->ao_chain->filter : NULL; } if (!chain) return M_PROPERTY_UNAVAILABLE; if (ka->action != M_PROPERTY_GET_TYPE) { struct mp_filter_command cmd = { .type = MP_FILTER_COMMAND_GET_META, .res = &metadata, }; mp_output_chain_command(chain, mp_tprintf(80, "%.*s", BSTR_P(key)), &cmd); if (!metadata) return M_PROPERTY_ERROR; } int res; if (strlen(rem)) { struct m_property_action_arg next_ka = *ka; next_ka.key = rem; res = tag_property(M_PROPERTY_KEY_ACTION, &next_ka, metadata); } else { res = tag_property(ka->action, ka->arg, metadata); } talloc_free(metadata); return res; } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_core_idle(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; return m_property_bool_ro(action, arg, !mpctx->playback_active); } static int mp_property_deinterlace(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo_chain *vo_c = mpctx->vo_chain; if (!vo_c) return M_PROPERTY_UNAVAILABLE; bool deinterlace_active = mp_output_chain_deinterlace_active(vo_c->filter); return m_property_bool_ro(action, arg, deinterlace_active); } static int mp_property_idle(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; return m_property_bool_ro(action, arg, mpctx->stop_play == PT_STOP); } static int mp_property_window_id(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo *vo = mpctx->video_out; int64_t wid; if (!vo || vo_control(vo, VOCTRL_GET_WINDOW_ID, &wid) <= 0) return M_PROPERTY_UNAVAILABLE; return m_property_int64_ro(action, arg, wid); } static int mp_property_eof_reached(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->playback_initialized) return M_PROPERTY_UNAVAILABLE; bool eof = mpctx->video_status == STATUS_EOF && mpctx->audio_status == STATUS_EOF; return m_property_bool_ro(action, arg, eof); } static int mp_property_seeking(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->playback_initialized) return M_PROPERTY_UNAVAILABLE; return m_property_bool_ro(action, arg, !mpctx->restart_complete); } static int mp_property_playback_abort(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; return m_property_bool_ro(action, arg, !mpctx->playing || mpctx->stop_play); } static int mp_property_cache_speed(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; struct demux_reader_state s; demux_get_reader_state(mpctx->demuxer, &s); uint64_t val = s.bytes_per_second; if (action == M_PROPERTY_PRINT) { *(char **)arg = talloc_strdup_append(format_file_size(val), "/s"); return M_PROPERTY_OK; } return m_property_int64_ro(action, arg, val); } static int mp_property_demuxer_cache_duration(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; struct demux_reader_state s; demux_get_reader_state(mpctx->demuxer, &s); if (s.ts_info.duration < 0) return M_PROPERTY_UNAVAILABLE; return m_property_double_ro(action, arg, s.ts_info.duration); } static int mp_property_demuxer_cache_time(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; struct demux_reader_state s; demux_get_reader_state(mpctx->demuxer, &s); if (s.ts_info.end == MP_NOPTS_VALUE) return M_PROPERTY_UNAVAILABLE; return m_property_double_ro(action, arg, s.ts_info.end); } static int mp_property_demuxer_cache_idle(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; struct demux_reader_state s; demux_get_reader_state(mpctx->demuxer, &s); return m_property_bool_ro(action, arg, s.idle); } static int mp_property_demuxer_cache_state(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; if (action == M_PROPERTY_GET_TYPE) { *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_NODE}; return M_PROPERTY_OK; } if (action != M_PROPERTY_GET) return M_PROPERTY_NOT_IMPLEMENTED; struct demux_reader_state s; demux_get_reader_state(mpctx->demuxer, &s); struct mpv_node *r = (struct mpv_node *)arg; node_init(r, MPV_FORMAT_NODE_MAP, NULL); if (s.ts_info.end != MP_NOPTS_VALUE) node_map_add_double(r, "cache-end", s.ts_info.end); if (s.ts_info.reader != MP_NOPTS_VALUE) node_map_add_double(r, "reader-pts", s.ts_info.reader); if (s.ts_info.duration >= 0) node_map_add_double(r, "cache-duration", s.ts_info.duration); node_map_add_flag(r, "eof", s.eof); node_map_add_flag(r, "underrun", s.underrun); node_map_add_flag(r, "idle", s.idle); node_map_add_int64(r, "total-bytes", s.total_bytes); node_map_add_int64(r, "fw-bytes", s.fw_bytes); if (s.file_cache_bytes >= 0) node_map_add_int64(r, "file-cache-bytes", s.file_cache_bytes); if (s.bytes_per_second > 0) node_map_add_int64(r, "raw-input-rate", s.bytes_per_second); if (s.seeking != MP_NOPTS_VALUE) node_map_add_double(r, "debug-seeking", s.seeking); node_map_add_int64(r, "debug-low-level-seeks", s.low_level_seeks); node_map_add_int64(r, "debug-byte-level-seeks", s.byte_level_seeks); if (s.ts_last != MP_NOPTS_VALUE) node_map_add_double(r, "debug-ts-last", s.ts_last); struct mpv_node *stream_types = node_map_add(r, "ts-per-stream", MPV_FORMAT_NODE_ARRAY); for (int n = 0; n < STREAM_TYPE_COUNT; n++) { struct demux_ctrl_ts_info ts = s.ts_per_stream[n]; if (ts.duration == -1) continue; struct mpv_node *st = node_array_add(stream_types, MPV_FORMAT_NODE_MAP); node_map_add_string(st, "type", n == STREAM_VIDEO ? "video" : n == STREAM_AUDIO ? "audio" : n == STREAM_SUB ? "subtitle" : "unknown"); node_map_add_double(st, "cache-duration", ts.duration); if (ts.reader != MP_NOPTS_VALUE) node_map_add_double(st, "reader-pts", ts.reader); if (ts.end != MP_NOPTS_VALUE) node_map_add_double(st, "cache-end", ts.end); } node_map_add_flag(r, "bof-cached", s.bof_cached); node_map_add_flag(r, "eof-cached", s.eof_cached); struct mpv_node *ranges = node_map_add(r, "seekable-ranges", MPV_FORMAT_NODE_ARRAY); for (int n = s.num_seek_ranges - 1; n >= 0; n--) { struct demux_seek_range *range = &s.seek_ranges[n]; struct mpv_node *sub = node_array_add(ranges, MPV_FORMAT_NODE_MAP); node_map_add_double(sub, "start", range->start); node_map_add_double(sub, "end", range->end); } return M_PROPERTY_OK; } static int mp_property_demuxer_start_time(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; return m_property_double_ro(action, arg, mpctx->demuxer->start_time); } static int mp_property_paused_for_cache(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->playback_initialized) return M_PROPERTY_UNAVAILABLE; return m_property_bool_ro(action, arg, mpctx->paused_for_cache); } static int mp_property_cache_buffering(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; int state = get_cache_buffering_percentage(mpctx); if (state < 0) return M_PROPERTY_UNAVAILABLE; return m_property_int_ro(action, arg, state); } static int mp_property_demuxer_is_network(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; return m_property_bool_ro(action, arg, mpctx->demuxer->is_network); } static int mp_property_clock(void *ctx, struct m_property *prop, int action, void *arg) { char outstr[6]; time_t t = time(NULL); struct tm *tmp = localtime(&t); if ((tmp != NULL) && (strftime(outstr, sizeof(outstr), "%H:%M", tmp) == 5)) return m_property_strdup_ro(action, arg, outstr); return M_PROPERTY_UNAVAILABLE; } static int mp_property_seekable(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; return m_property_bool_ro(action, arg, mpctx->demuxer->seekable); } static int mp_property_partially_seekable(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->demuxer) return M_PROPERTY_UNAVAILABLE; return m_property_bool_ro(action, arg, mpctx->demuxer->partially_seekable); } static int mp_property_mixer_active(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; return m_property_bool_ro(action, arg, !!mpctx->ao); } /// Volume (RW) static int mp_property_volume(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct MPOpts *opts = mpctx->opts; switch (action) { case M_PROPERTY_GET_CONSTRICTED_TYPE: *(struct m_option *)arg = (struct m_option){ .type = CONF_TYPE_FLOAT, .min = 0, .max = opts->softvol_max, }; return M_PROPERTY_OK; case M_PROPERTY_PRINT: *(char **)arg = talloc_asprintf(NULL, "%i", (int)opts->softvol_volume); return M_PROPERTY_OK; } return mp_property_generic_option(mpctx, prop, action, arg); } static int mp_property_volume_gain(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct MPOpts *opts = mpctx->opts; switch (action) { case M_PROPERTY_GET_CONSTRICTED_TYPE: *(struct m_option *)arg = (struct m_option){ .type = CONF_TYPE_FLOAT, .min = opts->softvol_gain_min, .max = opts->softvol_gain_max, }; return M_PROPERTY_OK; case M_PROPERTY_PRINT: *(char **)arg = talloc_asprintf(NULL, "%.1f", opts->softvol_gain); return M_PROPERTY_OK; } return mp_property_generic_option(mpctx, prop, action, arg); } static int mp_property_ao_volume(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct ao *ao = mpctx->ao; if (!ao) return M_PROPERTY_NOT_IMPLEMENTED; switch (action) { case M_PROPERTY_SET: { float vol = *(float *)arg; if (ao_control(ao, AOCONTROL_SET_VOLUME, &vol) != CONTROL_OK) return M_PROPERTY_UNAVAILABLE; return M_PROPERTY_OK; } case M_PROPERTY_GET: { if (ao_control(ao, AOCONTROL_GET_VOLUME, arg) != CONTROL_OK) return M_PROPERTY_UNAVAILABLE; return M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){ .type = CONF_TYPE_FLOAT, .min = 0, .max = 100, }; return M_PROPERTY_OK; case M_PROPERTY_PRINT: { float vol = 0; if (ao_control(ao, AOCONTROL_GET_VOLUME, &vol) != CONTROL_OK) return M_PROPERTY_UNAVAILABLE; *(char **)arg = talloc_asprintf(NULL, "%.f", vol); return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_ao_mute(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct ao *ao = mpctx->ao; if (!ao) return M_PROPERTY_NOT_IMPLEMENTED; switch (action) { case M_PROPERTY_SET: { bool value = *(int *)arg; if (ao_control(ao, AOCONTROL_SET_MUTE, &value) != CONTROL_OK) return M_PROPERTY_UNAVAILABLE; return M_PROPERTY_OK; } case M_PROPERTY_GET: { bool value = false; if (ao_control(ao, AOCONTROL_GET_MUTE, &value) != CONTROL_OK) return M_PROPERTY_UNAVAILABLE; *(int *)arg = value; return M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_BOOL}; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static int get_device_entry(int item, int action, void *arg, void *ctx) { struct ao_device_list *list = ctx; struct ao_device_desc *entry = &list->devices[item]; struct m_sub_property props[] = { {"name", SUB_PROP_STR(entry->name)}, {"description", SUB_PROP_STR(entry->desc)}, {0} }; return m_property_read_sub(props, action, arg); } static void create_hotplug(struct MPContext *mpctx) { struct command_ctx *cmd = mpctx->command_ctx; if (!cmd->hotplug) { cmd->hotplug = ao_hotplug_create(mpctx->global, mp_wakeup_core_cb, mpctx); } } static int mp_property_audio_device(void *ctx, struct m_property *prop, int action, void *arg) { struct MPContext *mpctx = ctx; struct command_ctx *cmd = mpctx->command_ctx; if (action == M_PROPERTY_PRINT) { create_hotplug(mpctx); char *name = NULL; if (mp_property_generic_option(mpctx, prop, M_PROPERTY_GET, &name) < 1) name = NULL; struct ao_device_list *list = ao_hotplug_get_device_list(cmd->hotplug, mpctx->ao); for (int n = 0; n < list->num_devices; n++) { struct ao_device_desc *dev = &list->devices[n]; if (dev->name && name && strcmp(dev->name, name) == 0) { *(char **)arg = talloc_strdup(NULL, dev->desc ? dev->desc : "?"); talloc_free(name); return M_PROPERTY_OK; } } talloc_free(name); } return mp_property_generic_option(mpctx, prop, action, arg); } static int mp_property_audio_devices(void *ctx, struct m_property *prop, int action, void *arg) { struct MPContext *mpctx = ctx; struct command_ctx *cmd = mpctx->command_ctx; create_hotplug(mpctx); struct ao_device_list *list = ao_hotplug_get_device_list(cmd->hotplug, mpctx->ao); return m_property_read_list(action, arg, list->num_devices, get_device_entry, list); } static int mp_property_ao(void *ctx, struct m_property *p, int action, void *arg) { MPContext *mpctx = ctx; return m_property_strdup_ro(action, arg, mpctx->ao ? ao_get_name(mpctx->ao) : NULL); } /// Audio delay (RW) static int mp_property_audio_delay(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (action == M_PROPERTY_PRINT) { *(char **)arg = format_delay(mpctx->opts->audio_delay); return M_PROPERTY_OK; } return mp_property_generic_option(mpctx, prop, action, arg); } static int property_audiofmt(struct mp_aframe *fmt, int action, void *arg) { if (!fmt || !mp_aframe_config_is_valid(fmt)) return M_PROPERTY_UNAVAILABLE; struct mp_chmap chmap = {0}; mp_aframe_get_chmap(fmt, &chmap); struct m_sub_property props[] = { {"samplerate", SUB_PROP_INT(mp_aframe_get_rate(fmt))}, {"channel-count", SUB_PROP_INT(chmap.num)}, {"channels", SUB_PROP_STR(mp_chmap_to_str(&chmap))}, {"hr-channels", SUB_PROP_STR(mp_chmap_to_str_hr(&chmap))}, {"format", SUB_PROP_STR(af_fmt_to_str(mp_aframe_get_format(fmt)))}, {0} }; return m_property_read_sub(props, action, arg); } static int mp_property_audio_params(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; return property_audiofmt(mpctx->ao_chain ? mpctx->ao_chain->filter->input_aformat : NULL, action, arg); } static int mp_property_audio_out_params(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct mp_aframe *frame = NULL; if (mpctx->ao) { frame = mp_aframe_create(); int samplerate; int format; struct mp_chmap channels; ao_get_format(mpctx->ao, &samplerate, &format, &channels); mp_aframe_set_rate(frame, samplerate); mp_aframe_set_format(frame, format); mp_aframe_set_chmap(frame, &channels); } int r = property_audiofmt(frame, action, arg); talloc_free(frame); return r; } static struct track* track_next(struct MPContext *mpctx, enum stream_type type, int direction, struct track *track) { assert(direction == -1 || direction == +1); struct track *prev = NULL, *next = NULL; bool seen = track == NULL; for (int n = 0; n < mpctx->num_tracks; n++) { struct track *cur = mpctx->tracks[n]; if (cur->type == type) { if (cur == track) { seen = true; } else if (!cur->selected) { if (seen && !next) { next = cur; } if (!seen || !track) { prev = cur; } } } } return direction > 0 ? next : prev; } static int property_switch_track(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; const int *def = prop->priv; int order = def[0]; enum stream_type type = def[1]; struct track *track = mpctx->current_track[order][type]; switch (action) { case M_PROPERTY_GET: if (mpctx->playback_initialized) { *(int *)arg = track ? track->user_tid : -2; } else { *(int *)arg = mpctx->opts->stream_id[order][type]; } return M_PROPERTY_OK; case M_PROPERTY_PRINT: if (track) { char *lang = track->lang; if (!lang && type != STREAM_VIDEO) { lang = "unknown"; } else if (!lang) { lang = ""; } if (track->title) { *(char **)arg = talloc_asprintf(NULL, "(%d) %s (\"%s\")", track->user_tid, lang, track->title); } else { *(char **)arg = talloc_asprintf(NULL, "(%d) %s", track->user_tid, lang); } } else { const char *msg = "no"; if (!mpctx->playback_initialized && mpctx->opts->stream_id[order][type] == -1) msg = "auto"; *(char **) arg = talloc_strdup(NULL, msg); } return M_PROPERTY_OK; case M_PROPERTY_SWITCH: { if (mpctx->playback_initialized) { struct m_property_switch_arg *sarg = arg; do { track = track_next(mpctx, type, sarg->inc >= 0 ? +1 : -1, track); mp_switch_track_n(mpctx, order, type, track, FLAG_MARK_SELECTION); } while (mpctx->current_track[order][type] != track); print_track_list(mpctx, "Track switched:"); } else { // Simply cycle between "no" and "auto". It's possible that this does // not always do what the user means, but keep the complexity low. mark_track_selection(mpctx, order, type, mpctx->opts->stream_id[order][type] == -1 ? -2 : -1); } return M_PROPERTY_OK; } } return mp_property_generic_option(mpctx, prop, action, arg); } static int track_channels(struct track *track) { return track->stream ? track->stream->codec->channels.num : 0; } static int get_track_entry(int item, int action, void *arg, void *ctx) { struct MPContext *mpctx = ctx; struct track *track = mpctx->tracks[item]; struct mp_codec_params p = track->stream ? *track->stream->codec : (struct mp_codec_params){0}; bool has_rg = track->stream && track->stream->codec->replaygain_data; struct replaygain_data rg = has_rg ? *track->stream->codec->replaygain_data : (struct replaygain_data){0}; double par = 0.0; if (p.par_h) par = p.par_w / (double) p.par_h; int order = -1; if (track->selected) { for (int i = 0; i < num_ptracks[track->type]; i++) { if (mpctx->current_track[i][track->type] == track) { order = i; break; } } } bool has_crop = mp_rect_w(p.crop) > 0 && mp_rect_h(p.crop) > 0; struct m_sub_property props[] = { {"id", SUB_PROP_INT(track->user_tid)}, {"type", SUB_PROP_STR(stream_type_name(track->type)), .unavailable = !stream_type_name(track->type)}, {"src-id", SUB_PROP_INT(track->demuxer_id), .unavailable = track->demuxer_id == -1}, {"title", SUB_PROP_STR(track->title), .unavailable = !track->title}, {"lang", SUB_PROP_STR(track->lang), .unavailable = !track->lang}, {"audio-channels", SUB_PROP_INT(track_channels(track)), .unavailable = track_channels(track) <= 0}, {"image", SUB_PROP_BOOL(track->image)}, {"albumart", SUB_PROP_BOOL(track->attached_picture)}, {"default", SUB_PROP_BOOL(track->default_track)}, {"forced", SUB_PROP_BOOL(track->forced_track)}, {"dependent", SUB_PROP_BOOL(track->dependent_track)}, {"visual-impaired", SUB_PROP_BOOL(track->visual_impaired_track)}, {"hearing-impaired", SUB_PROP_BOOL(track->hearing_impaired_track)}, {"external", SUB_PROP_BOOL(track->is_external)}, {"selected", SUB_PROP_BOOL(track->selected)}, {"main-selection", SUB_PROP_INT(order), .unavailable = order < 0}, {"external-filename", SUB_PROP_STR(track->external_filename), .unavailable = !track->external_filename}, {"ff-index", SUB_PROP_INT(track->ff_index)}, {"hls-bitrate", SUB_PROP_INT(track->hls_bitrate), .unavailable = !track->hls_bitrate}, {"program-id", SUB_PROP_INT(track->program_id), .unavailable = track->program_id < 0}, {"decoder", SUB_PROP_STR(p.decoder), .unavailable = !p.decoder}, {"decoder-desc", SUB_PROP_STR(p.decoder_desc), .unavailable = !p.decoder_desc}, {"codec", SUB_PROP_STR(p.codec), .unavailable = !p.codec}, {"codec-desc", SUB_PROP_STR(p.codec_desc), .unavailable = !p.codec_desc}, {"codec-profile", SUB_PROP_STR(p.codec_profile), .unavailable = !p.codec_profile}, {"demux-w", SUB_PROP_INT(p.disp_w), .unavailable = !p.disp_w}, {"demux-h", SUB_PROP_INT(p.disp_h), .unavailable = !p.disp_h}, {"demux-crop-x",SUB_PROP_INT(p.crop.x0), .unavailable = !has_crop}, {"demux-crop-y",SUB_PROP_INT(p.crop.y0), .unavailable = !has_crop}, {"demux-crop-w",SUB_PROP_INT(mp_rect_w(p.crop)), .unavailable = !has_crop}, {"demux-crop-h",SUB_PROP_INT(mp_rect_h(p.crop)), .unavailable = !has_crop}, {"demux-channel-count", SUB_PROP_INT(p.channels.num), .unavailable = !p.channels.num}, {"demux-channels", SUB_PROP_STR(mp_chmap_to_str(&p.channels)), .unavailable = !p.channels.num}, {"demux-samplerate", SUB_PROP_INT(p.samplerate), .unavailable = !p.samplerate}, {"demux-fps", SUB_PROP_DOUBLE(p.fps), .unavailable = p.fps <= 0}, {"demux-bitrate", SUB_PROP_INT(p.bitrate), .unavailable = p.bitrate <= 0}, {"demux-rotation", SUB_PROP_INT(p.rotate), .unavailable = p.rotate <= 0}, {"demux-par", SUB_PROP_DOUBLE(par), .unavailable = par <= 0}, {"format-name", SUB_PROP_STR(p.format_name), .unavailable = !p.format_name}, {"replaygain-track-peak", SUB_PROP_FLOAT(rg.track_peak), .unavailable = !has_rg}, {"replaygain-track-gain", SUB_PROP_FLOAT(rg.track_gain), .unavailable = !has_rg}, {"replaygain-album-peak", SUB_PROP_FLOAT(rg.album_peak), .unavailable = !has_rg}, {"replaygain-album-gain", SUB_PROP_FLOAT(rg.album_gain), .unavailable = !has_rg}, {"dolby-vision-profile", SUB_PROP_INT(p.dv_profile), .unavailable = !p.dovi}, {"dolby-vision-level", SUB_PROP_INT(p.dv_level), .unavailable = !p.dovi}, {0} }; return m_property_read_sub(props, action, arg); } static const char *track_type_name(enum stream_type t) { switch (t) { case STREAM_VIDEO: return "Video"; case STREAM_AUDIO: return "Audio"; case STREAM_SUB: return "Sub"; } return NULL; } static int property_list_tracks(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (action == M_PROPERTY_PRINT) { char *res = 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; res = talloc_asprintf_append(res, "%s: ", track_type_name(track->type)); res = talloc_strdup_append(res, track->selected ? list_current : list_normal); res = talloc_asprintf_append(res, "(%d) ", track->user_tid); if (track->title) res = talloc_asprintf_append(res, "'%s' ", track->title); if (track->lang) res = talloc_asprintf_append(res, "(%s) ", track->lang); if (track->is_external) res = talloc_asprintf_append(res, "(external) "); res = talloc_asprintf_append(res, "\n"); } res = talloc_asprintf_append(res, "\n"); } struct demuxer *demuxer = mpctx->demuxer; if (demuxer && demuxer->num_editions > 1) res = talloc_asprintf_append(res, "\nEdition: %d of %d\n", demuxer->edition + 1, demuxer->num_editions); *(char **)arg = res; return M_PROPERTY_OK; } return m_property_read_list(action, arg, mpctx->num_tracks, get_track_entry, mpctx); } static int property_current_tracks(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (action != M_PROPERTY_KEY_ACTION) return M_PROPERTY_UNAVAILABLE; int type = -1; int order = 0; struct m_property_action_arg *ka = arg; bstr key; char *rem; m_property_split_path(ka->key, &key, &rem); if (bstr_equals0(key, "video")) { type = STREAM_VIDEO; } else if (bstr_equals0(key, "audio")) { type = STREAM_AUDIO; } else if (bstr_equals0(key, "sub")) { type = STREAM_SUB; } else if (bstr_equals0(key, "sub2")) { type = STREAM_SUB; order = 1; } if (type < 0) return M_PROPERTY_UNKNOWN; struct track *t = mpctx->current_track[order][type]; if (!t && mpctx->lavfi) { for (int n = 0; n < mpctx->num_tracks; n++) { if (mpctx->tracks[n]->type == type && mpctx->tracks[n]->selected) { t = mpctx->tracks[n]; break; } } } if (!t) return M_PROPERTY_UNAVAILABLE; int index = -1; for (int n = 0; n < mpctx->num_tracks; n++) { if (mpctx->tracks[n] == t) { index = n; break; } } assert(index >= 0); char *name = mp_tprintf(80, "track-list/%d/%s", index, rem); return mp_property_do(name, ka->action, ka->arg, ctx); } static int mp_property_hwdec_current(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct track *track = mpctx->current_track[0][STREAM_VIDEO]; struct mp_decoder_wrapper *dec = track ? track->dec : NULL; if (!dec) return M_PROPERTY_UNAVAILABLE; char *current = NULL; mp_decoder_wrapper_control(dec, VDCTRL_GET_HWDEC, ¤t); if (!current || !current[0]) current = "no"; return m_property_strdup_ro(action, arg, current); } static int mp_property_hwdec_interop(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->video_out || !mpctx->video_out->hwdec_devs) return M_PROPERTY_UNAVAILABLE; char *names = hwdec_devices_get_names(mpctx->video_out->hwdec_devs); int res = m_property_strdup_ro(action, arg, names); talloc_free(names); return res; } static int get_frame_count(struct MPContext *mpctx) { struct demuxer *demuxer = mpctx->demuxer; if (!demuxer) return -1; if (!mpctx->vo_chain) return -1; double len = get_time_length(mpctx); double fps = mpctx->vo_chain->filter->container_fps; if (len < 0 || fps <= 0) return 0; return len * fps; } static int mp_property_frame_number(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; int frames = get_frame_count(mpctx); if (frames < 0) return M_PROPERTY_UNAVAILABLE; return m_property_int_ro(action, arg, lrint(get_current_pos_ratio(mpctx, false) * frames)); } static int mp_property_frame_count(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; int frames = get_frame_count(mpctx); if (frames < 0) return M_PROPERTY_UNAVAILABLE; return m_property_int_ro(action, arg, frames); } static const char *get_aspect_ratio_name(double ratio) { // Depending on cropping/mastering exact ratio may differ. #define RATIO_THRESH 0.025 #define RATIO_CASE(ref, name) \ if (fabs(ratio - (ref)) < RATIO_THRESH) \ return name; \ // https://en.wikipedia.org/wiki/Aspect_ratio_(image) RATIO_CASE(9.0 / 16.0, "Vertical") RATIO_CASE(1.0, "Square"); RATIO_CASE(19.0 / 16.0, "Movietone Ratio"); RATIO_CASE(5.0 / 4.0, "5:4"); RATIO_CASE(4.0 / 3.0, "4:3"); RATIO_CASE(11.0 / 8.0, "Academy Ratio"); RATIO_CASE(1.43, "IMAX Ratio"); RATIO_CASE(3.0 / 2.0, "VistaVision Ratio"); RATIO_CASE(16.0 / 10.0, "16:10"); RATIO_CASE(5.0 / 3.0, "35mm Widescreen Ratio"); RATIO_CASE(16.0 / 9.0, "16:9"); RATIO_CASE(7.0 / 4.0, "Early 35mm Widescreen Ratio"); RATIO_CASE(1.85, "Academy Flat"); RATIO_CASE(256.0 / 135.0, "SMPTE/DCI Ratio"); RATIO_CASE(2.0, "Univisium"); RATIO_CASE(2.208, "70mm film"); RATIO_CASE(2.35, "Scope"); RATIO_CASE(2.39, "Panavision"); RATIO_CASE(2.55, "Original CinemaScope"); RATIO_CASE(2.59, "Full-frame Cinerama"); RATIO_CASE(24.0 / 9.0, "Full-frame Super 16mm"); RATIO_CASE(2.76, "Ultra Panavision 70"); RATIO_CASE(32.0 / 9.0, "32:9"); RATIO_CASE(3.6, "Ultra-WideScreen 3.6"); RATIO_CASE(4.0, "Polyvision"); RATIO_CASE(12.0, "Circle-Vision 360°"); return NULL; #undef RATIO_THRESH #undef RATIO_CASE } static int property_imgparams(const struct mp_image_params *p, int action, void *arg) { if (!p->imgfmt && !p->imgfmt_name) return M_PROPERTY_UNAVAILABLE; int d_w, d_h; mp_image_params_get_dsize(p, &d_w, &d_h); int bpp = 0; enum pl_alpha_mode alpha = p->repr.alpha; int fmt = p->hw_subfmt ? p->hw_subfmt : p->imgfmt; if (fmt) { struct mp_imgfmt_desc desc = mp_imgfmt_get_desc(fmt); for (int i = 0; i < desc.num_planes; i++) bpp += desc.bpp[i] >> (desc.xs[i] + desc.ys[i]); // Alpha type is not supported by FFmpeg, so PL_ALPHA_UNKNOWN may mean alpha // is of an unknown type, or simply not present. Normalize to AUTO=no alpha. if (!!(desc.flags & MP_IMGFLAG_ALPHA) != (alpha != PL_ALPHA_UNKNOWN)) alpha = (desc.flags & MP_IMGFLAG_ALPHA) ? PL_ALPHA_INDEPENDENT : PL_ALPHA_UNKNOWN; } const struct pl_hdr_metadata *hdr = &p->color.hdr; bool has_cie_y = pl_hdr_metadata_contains(hdr, PL_HDR_METADATA_CIE_Y); bool has_hdr10 = pl_hdr_metadata_contains(hdr, PL_HDR_METADATA_HDR10); bool has_hdr10plus = pl_hdr_metadata_contains(hdr, PL_HDR_METADATA_HDR10PLUS); bool has_crop = mp_rect_w(p->crop) > 0 && mp_rect_h(p->crop) > 0; const char *aspect_name = get_aspect_ratio_name(d_w / (double)d_h); const char *sar_name = get_aspect_ratio_name(p->w / (double)p->h); const char *pixelformat_name = p->imgfmt_name ? p->imgfmt_name : mp_imgfmt_to_name(p->imgfmt); struct m_sub_property props[] = { {"pixelformat", SUB_PROP_STR(pixelformat_name)}, {"hw-pixelformat", SUB_PROP_STR(mp_imgfmt_to_name(p->hw_subfmt)), .unavailable = !p->hw_subfmt}, {"average-bpp", SUB_PROP_INT(bpp), .unavailable = !bpp}, {"w", SUB_PROP_INT(p->w)}, {"h", SUB_PROP_INT(p->h)}, {"dw", SUB_PROP_INT(d_w)}, {"dh", SUB_PROP_INT(d_h)}, {"crop-x", SUB_PROP_INT(p->crop.x0), .unavailable = !has_crop}, {"crop-y", SUB_PROP_INT(p->crop.y0), .unavailable = !has_crop}, {"crop-w", SUB_PROP_INT(mp_rect_w(p->crop)), .unavailable = !has_crop}, {"crop-h", SUB_PROP_INT(mp_rect_h(p->crop)), .unavailable = !has_crop}, {"aspect", SUB_PROP_FLOAT(d_w / (double)d_h)}, {"aspect-name", SUB_PROP_STR(aspect_name), .unavailable = !aspect_name}, {"par", SUB_PROP_FLOAT(p->p_w / (double)p->p_h)}, {"sar", SUB_PROP_FLOAT(p->w / (double)p->h)}, {"sar-name", SUB_PROP_STR(sar_name), .unavailable = !sar_name}, {"colormatrix", SUB_PROP_STR(m_opt_choice_str(pl_csp_names, p->repr.sys))}, {"colorlevels", SUB_PROP_STR(m_opt_choice_str(pl_csp_levels_names, p->repr.levels))}, {"primaries", SUB_PROP_STR(m_opt_choice_str(pl_csp_prim_names, p->color.primaries))}, {"gamma", SUB_PROP_STR(m_opt_choice_str(pl_csp_trc_names, p->color.transfer))}, {"sig-peak", SUB_PROP_FLOAT(p->color.hdr.max_luma / MP_REF_WHITE)}, {"light", SUB_PROP_STR(m_opt_choice_str(mp_csp_light_names, p->light))}, {"chroma-location", SUB_PROP_STR(m_opt_choice_str(pl_chroma_names, p->chroma_location))}, {"stereo-in", SUB_PROP_STR(m_opt_choice_str(mp_stereo3d_names, p->stereo3d))}, {"rotate", SUB_PROP_INT(p->rotate)}, {"alpha", SUB_PROP_STR(m_opt_choice_str(pl_alpha_names, alpha)), // avoid using "auto" for "no", so just make it unavailable .unavailable = alpha == PL_ALPHA_UNKNOWN}, {"min-luma", SUB_PROP_FLOAT(hdr->min_luma), .unavailable = !has_hdr10}, {"max-luma", SUB_PROP_FLOAT(hdr->max_luma), .unavailable = !has_hdr10}, {"max-cll", SUB_PROP_FLOAT(hdr->max_cll), .unavailable = !has_hdr10}, {"max-fall", SUB_PROP_FLOAT(hdr->max_fall), .unavailable = !has_hdr10}, {"scene-max-r", SUB_PROP_FLOAT(hdr->scene_max[0]), .unavailable = !has_hdr10plus}, {"scene-max-g", SUB_PROP_FLOAT(hdr->scene_max[1]), .unavailable = !has_hdr10plus}, {"scene-max-b", SUB_PROP_FLOAT(hdr->scene_max[2]), .unavailable = !has_hdr10plus}, {"scene-avg", SUB_PROP_FLOAT(hdr->scene_avg), .unavailable = !has_hdr10plus}, {"max-pq-y", SUB_PROP_FLOAT(hdr->max_pq_y), .unavailable = !has_cie_y}, {"avg-pq-y", SUB_PROP_FLOAT(hdr->avg_pq_y), .unavailable = !has_cie_y}, {0} }; return m_property_read_sub(props, action, arg); } static struct mp_image_params get_video_out_params(struct MPContext *mpctx) { if (!mpctx->vo_chain) return (struct mp_image_params){0}; struct mp_image_params o_params = mpctx->vo_chain->filter->output_params; if (mpctx->video_out) { struct m_geometry *gm = &mpctx->video_out->opts->video_crop; if (gm->xy_valid || (gm->wh_valid && (gm->w > 0 || gm->h > 0))) { m_rect_apply(&o_params.crop, o_params.w, o_params.h, gm); } } return o_params; } static int mp_property_vo_imgparams(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo *vo = mpctx->video_out; if (!vo) return M_PROPERTY_UNAVAILABLE; int valid = m_property_read_sub_validate(ctx, prop, action, arg); if (valid != M_PROPERTY_VALID) return valid; struct mp_image_params p = vo_get_current_params(vo); return property_imgparams(&p, action, arg); } static int mp_property_tgt_imgparams(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo *vo = mpctx->video_out; if (!mpctx->video_out) return M_PROPERTY_UNAVAILABLE; int valid = m_property_read_sub_validate(ctx, prop, action, arg); if (valid != M_PROPERTY_VALID) return valid; struct mp_image_params p = vo_get_target_params(vo); return property_imgparams(&p, action, arg); } static int mp_property_dec_imgparams(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct mp_image_params p = {0}; struct vo_chain *vo_c = mpctx->vo_chain; if (!vo_c || !vo_c->track) return M_PROPERTY_UNAVAILABLE; int valid = m_property_read_sub_validate(ctx, prop, action, arg); if (valid != M_PROPERTY_VALID) return valid; mp_decoder_wrapper_get_video_dec_params(vo_c->track->dec, &p); if (!p.imgfmt) return M_PROPERTY_UNAVAILABLE; return property_imgparams(&p, action, arg); } static int mp_property_vd_imgparams(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo_chain *vo_c = mpctx->vo_chain; if (!vo_c) return M_PROPERTY_UNAVAILABLE; struct track *track = mpctx->current_track[0][STREAM_VIDEO]; struct mp_codec_params *c = track && track->stream ? track->stream->codec : NULL; if (vo_c->filter->input_params.imgfmt) { return property_imgparams(&vo_c->filter->input_params, action, arg); } else if (c && c->disp_w && c->disp_h) { // Simplistic fallback for stupid scripts querying "width"/"height" // before the first frame is decoded. struct m_sub_property props[] = { {"w", SUB_PROP_INT(c->disp_w)}, {"h", SUB_PROP_INT(c->disp_h)}, {0} }; return m_property_read_sub(props, action, arg); } return M_PROPERTY_UNAVAILABLE; } static int mp_property_video_frame_info(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->video_out) return M_PROPERTY_UNAVAILABLE; int valid = m_property_read_sub_validate(ctx, prop, action, arg); if (valid != M_PROPERTY_VALID) return valid; struct mp_image *f = vo_get_current_frame(mpctx->video_out); if (!f) return M_PROPERTY_UNAVAILABLE; const char *pict_types[] = {0, "I", "P", "B"}; const char *pict_type = f->pict_type >= 1 && f->pict_type <= 3 ? pict_types[f->pict_type] : NULL; struct m_sub_property props[] = { {"picture-type", SUB_PROP_STR(pict_type), .unavailable = !pict_type}, {"interlaced", SUB_PROP_BOOL(!!(f->fields & MP_IMGFIELD_INTERLACED))}, {"tff", SUB_PROP_BOOL(!!(f->fields & MP_IMGFIELD_TOP_FIRST))}, {"repeat", SUB_PROP_BOOL(!!(f->fields & MP_IMGFIELD_REPEAT_FIRST))}, {0} }; talloc_free(f); return m_property_read_sub(props, action, arg); } static int mp_property_current_window_scale(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo *vo = mpctx->video_out; if (!vo) return M_PROPERTY_UNAVAILABLE; struct mp_image_params params = get_video_out_params(mpctx); int vid_w, vid_h; mp_image_params_get_dsize(¶ms, &vid_w, &vid_h); if (vid_w < 1 || vid_h < 1) return M_PROPERTY_UNAVAILABLE; if (params.rotate % 180 == 90 && (vo->driver->caps & VO_CAP_ROTATE90)) MPSWAP(int, vid_w, vid_h); if (vo->monitor_par < 1) { vid_h = MPCLAMP(vid_h / vo->monitor_par, 1, 16000); } else { vid_w = MPCLAMP(vid_w * vo->monitor_par, 1, 16000); } if (action == M_PROPERTY_SET) { // Also called by update_window_scale as a NULL property. double scale = *(double *)arg; int s[2] = {vid_w * scale, vid_h * scale}; if (s[0] <= 0 || s[1] <= 0) return M_PROPERTY_INVALID_FORMAT; vo_control(vo, VOCTRL_SET_UNFS_WINDOW_SIZE, s); return M_PROPERTY_OK; } int s[2]; if (vo_control(vo, VOCTRL_GET_UNFS_WINDOW_SIZE, s) <= 0 || s[0] < 1 || s[1] < 1) return M_PROPERTY_UNAVAILABLE; double xs = (double)s[0] / vid_w; double ys = (double)s[1] / vid_h; return m_property_double_ro(action, arg, (xs + ys) / 2); } static void update_window_scale(struct MPContext *mpctx) { double scale = mpctx->opts->vo->window_scale; mp_property_current_window_scale(mpctx, (struct m_property *)NULL, M_PROPERTY_SET, (void*)&scale); } static int mp_property_display_fps(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; double fps = mpctx->video_out ? vo_get_display_fps(mpctx->video_out) : 0; switch (action) { case M_PROPERTY_GET: if (fps <= 0) return M_PROPERTY_UNAVAILABLE; return m_property_double_ro(action, arg, fps); case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_DOUBLE}; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_estimated_display_fps(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo *vo = mpctx->video_out; if (!vo) return M_PROPERTY_UNAVAILABLE; double interval = vo_get_estimated_vsync_interval(vo) / 1e9; if (interval <= 0) return M_PROPERTY_UNAVAILABLE; return m_property_double_ro(action, arg, 1.0 / interval); } static int mp_property_vsync_jitter(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo *vo = mpctx->video_out; if (!vo) return M_PROPERTY_UNAVAILABLE; double stddev = vo_get_estimated_vsync_jitter(vo); if (stddev < 0) return M_PROPERTY_UNAVAILABLE; return m_property_double_ro(action, arg, stddev); } static int mp_property_display_resolution(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo *vo = mpctx->video_out; if (!vo) return M_PROPERTY_UNAVAILABLE; int res[2]; if (vo_control(vo, VOCTRL_GET_DISPLAY_RES, &res) <= 0) return M_PROPERTY_UNAVAILABLE; if (strcmp(prop->name, "display-width") == 0) { return m_property_int_ro(action, arg, res[0]); } else { return m_property_int_ro(action, arg, res[1]); } } static int mp_property_hidpi_scale(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct command_ctx *cmd = mpctx->command_ctx; struct vo *vo = mpctx->video_out; if (!vo) return M_PROPERTY_UNAVAILABLE; if (!cmd->cached_window_scale) { double scale = 0; if (vo_control(vo, VOCTRL_GET_HIDPI_SCALE, &scale) < 1 || !scale) scale = -1; cmd->cached_window_scale = scale; } if (cmd->cached_window_scale < 0) return M_PROPERTY_UNAVAILABLE; return m_property_double_ro(action, arg, cmd->cached_window_scale); } static void update_hidpi_window_scale(struct MPContext *mpctx, bool hidpi_scale) { struct command_ctx *cmd = mpctx->command_ctx; struct vo *vo = mpctx->video_out; if (!vo || cmd->cached_window_scale <= 0) return; double scale = hidpi_scale ? cmd->cached_window_scale : 1 / cmd->cached_window_scale; int s[2]; if (vo_control(vo, VOCTRL_GET_UNFS_WINDOW_SIZE, s) <= 0 || s[0] < 1 || s[1] < 1) return; s[0] *= scale; s[1] *= scale; if (s[0] <= 0 || s[1] <= 0) return; vo_control(vo, VOCTRL_SET_UNFS_WINDOW_SIZE, s); } static int mp_property_focused(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo *vo = mpctx->video_out; if (!vo) return M_PROPERTY_UNAVAILABLE; bool focused; if (vo_control(vo, VOCTRL_GET_FOCUSED, &focused) < 1) return M_PROPERTY_UNAVAILABLE; return m_property_bool_ro(action, arg, focused); } static int mp_property_display_names(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct vo *vo = mpctx->video_out; if (!vo) return M_PROPERTY_UNAVAILABLE; switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_STRING_LIST}; return M_PROPERTY_OK; case M_PROPERTY_GET: { char** display_names; if (vo_control(vo, VOCTRL_GET_DISPLAY_NAMES, &display_names) < 1) return M_PROPERTY_UNAVAILABLE; *(char ***)arg = display_names; return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_vo_configured(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; return m_property_bool_ro(action, arg, mpctx->video_out && mpctx->video_out->config_ok); } static void get_frame_perf(struct mpv_node *node, struct mp_frame_perf *perf) { for (int i = 0; i < perf->count; i++) { struct mp_pass_perf *data = &perf->perf[i]; struct mpv_node *pass = node_array_add(node, MPV_FORMAT_NODE_MAP); node_map_add_string(pass, "desc", perf->desc[i]); node_map_add(pass, "last", MPV_FORMAT_INT64)->u.int64 = data->last; node_map_add(pass, "avg", MPV_FORMAT_INT64)->u.int64 = data->avg; node_map_add(pass, "peak", MPV_FORMAT_INT64)->u.int64 = data->peak; node_map_add(pass, "count", MPV_FORMAT_INT64)->u.int64 = data->count; struct mpv_node *samples = node_map_add(pass, "samples", MPV_FORMAT_NODE_ARRAY); for (int n = 0; n < data->count; n++) node_array_add(samples, MPV_FORMAT_INT64)->u.int64 = data->samples[n]; } } static char *asprint_perf(char *res, struct mp_frame_perf *perf) { for (int i = 0; i < perf->count; i++) { struct mp_pass_perf *pass = &perf->perf[i]; res = talloc_asprintf_append(res, "- %s: last %dus avg %dus peak %dus\n", perf->desc[i], (int)pass->last/1000, (int)pass->avg/1000, (int)pass->peak/1000); } return res; } static int mp_property_vo_passes(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->video_out) return M_PROPERTY_UNAVAILABLE; // Return early, to avoid having to go through a completely unnecessary VOCTRL switch (action) { case M_PROPERTY_PRINT: case M_PROPERTY_GET: break; case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_NODE}; return M_PROPERTY_OK; default: return M_PROPERTY_NOT_IMPLEMENTED; } struct voctrl_performance_data *data = talloc_ptrtype(NULL, data); if (vo_control(mpctx->video_out, VOCTRL_PERFORMANCE_DATA, data) <= 0) { talloc_free(data); return M_PROPERTY_UNAVAILABLE; } switch (action) { case M_PROPERTY_PRINT: { char *res = NULL; res = talloc_asprintf_append(res, "fresh:\n"); res = asprint_perf(res, &data->fresh); res = talloc_asprintf_append(res, "\nredraw:\n"); res = asprint_perf(res, &data->redraw); *(char **)arg = res; break; } case M_PROPERTY_GET: { struct mpv_node node; node_init(&node, MPV_FORMAT_NODE_MAP, NULL); struct mpv_node *fresh = node_map_add(&node, "fresh", MPV_FORMAT_NODE_ARRAY); struct mpv_node *redraw = node_map_add(&node, "redraw", MPV_FORMAT_NODE_ARRAY); get_frame_perf(fresh, &data->fresh); get_frame_perf(redraw, &data->redraw); *(struct mpv_node *)arg = node; break; } } talloc_free(data); return M_PROPERTY_OK; } static int mp_property_perf_info(void *ctx, struct m_property *p, int action, void *arg) { MPContext *mpctx = ctx; switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_NODE}; return M_PROPERTY_OK; case M_PROPERTY_GET: { stats_global_query(mpctx->global, (struct mpv_node *)arg); return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_vo(void *ctx, struct m_property *p, int action, void *arg) { MPContext *mpctx = ctx; return m_property_strdup_ro(action, arg, mpctx->video_out ? mpctx->video_out->driver->name : NULL); } static int mp_property_gpu_context(void *ctx, struct m_property *p, int action, void *arg) { MPContext *mpctx = ctx; return m_property_strdup_ro(action, arg, mpctx->video_out ? mpctx->video_out->context_name : NULL); } static int mp_property_osd_dim(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct mp_osd_res vo_res = osd_get_vo_res(mpctx->osd); if (!mpctx->video_out || !mpctx->video_out->config_ok) vo_res = (struct mp_osd_res){0}; double aspect = 1.0 * vo_res.w / MPMAX(vo_res.h, 1) / (vo_res.display_par ? vo_res.display_par : 1); struct m_sub_property props[] = { {"w", SUB_PROP_INT(vo_res.w)}, {"h", SUB_PROP_INT(vo_res.h)}, {"par", SUB_PROP_DOUBLE(vo_res.display_par)}, {"aspect", SUB_PROP_DOUBLE(aspect)}, {"mt", SUB_PROP_INT(vo_res.mt)}, {"mb", SUB_PROP_INT(vo_res.mb)}, {"ml", SUB_PROP_INT(vo_res.ml)}, {"mr", SUB_PROP_INT(vo_res.mr)}, {0} }; return m_property_read_sub(props, action, arg); } static int mp_property_osd_sym(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; char temp[20]; get_current_osd_sym(mpctx, temp, sizeof(temp)); return m_property_strdup_ro(action, arg, temp); } static int mp_property_osd_ass(void *ctx, struct m_property *prop, int action, void *arg) { struct m_sub_property props[] = { {"0", SUB_PROP_STR(OSD_ASS_0)}, {"1", SUB_PROP_STR(OSD_ASS_1)}, {0} }; return m_property_read_sub(props, action, arg); } static int mp_property_term_size(void *ctx, struct m_property *prop, int action, void *arg) { int w = -1, h = -1; terminal_get_size(&w, &h); if (w == -1 || h == -1) return M_PROPERTY_UNAVAILABLE; struct m_sub_property props[] = { {"w", SUB_PROP_INT(w)}, {"h", SUB_PROP_INT(h)}, {0} }; return m_property_read_sub(props, action, arg); } static int mp_property_mouse_pos(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_NODE}; return M_PROPERTY_OK; case M_PROPERTY_GET: { struct mpv_node node; int x, y, hover; mp_input_get_mouse_pos(mpctx->input, &x, &y, &hover); node_init(&node, MPV_FORMAT_NODE_MAP, NULL); node_map_add_int64(&node, "x", x); node_map_add_int64(&node, "y", y); node_map_add_flag(&node, "hover", hover); *(struct mpv_node *)arg = node; return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int get_touch_pos(int item, int action, void *arg, void *ctx) { const int **pos = (const int **)ctx; struct m_sub_property props[] = { {"x", SUB_PROP_INT(pos[0][item])}, {"y", SUB_PROP_INT(pos[1][item])}, {"id", SUB_PROP_INT(pos[2][item])}, {0} }; int r = m_property_read_sub(props, action, arg); return r; } #define MAX_TOUCH_POINTS 10 static int mp_property_touch_pos(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; int xs[MAX_TOUCH_POINTS], ys[MAX_TOUCH_POINTS], ids[MAX_TOUCH_POINTS]; int count = mp_input_get_touch_pos(mpctx->input, MAX_TOUCH_POINTS, xs, ys, ids); const int *pos[3] = {xs, ys, ids}; return m_property_read_list(action, arg, MPMIN(MAX_TOUCH_POINTS, count), get_touch_pos, (void *)pos); } /// Video fps (RO) static int mp_property_fps(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; float fps = mpctx->vo_chain ? mpctx->vo_chain->filter->container_fps : 0; if (fps < 0.1 || !isfinite(fps)) return M_PROPERTY_UNAVAILABLE;; return m_property_float_ro(action, arg, fps); } static int mp_property_vf_fps(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->vo_chain) return M_PROPERTY_UNAVAILABLE; double avg = calc_average_frame_duration(mpctx); if (avg <= 0) return M_PROPERTY_UNAVAILABLE; return m_property_double_ro(action, arg, 1.0 / avg); } #define doubles_equal(x, y) (fabs((x) - (y)) <= 0.001) static int mp_property_video_aspect_override(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (action == M_PROPERTY_PRINT) { double aspect_ratio; mp_property_generic_option(mpctx, prop, M_PROPERTY_GET, &aspect_ratio); if (doubles_equal(aspect_ratio, 2.35 / 1.0)) *(char **)arg = talloc_asprintf(NULL, "2.35:1"); else if (doubles_equal(aspect_ratio, 16.0 / 9.0)) *(char **)arg = talloc_asprintf(NULL, "16:9"); else if (doubles_equal(aspect_ratio, 16.0 / 10.0)) *(char **)arg = talloc_asprintf(NULL, "16:10"); else if (doubles_equal(aspect_ratio, 4.0 / 3.0)) *(char **)arg = talloc_asprintf(NULL, "4:3"); else if (doubles_equal(aspect_ratio, -1.0)) *(char **)arg = talloc_asprintf(NULL, "Original"); else *(char **)arg = talloc_asprintf(NULL, "%.3f", aspect_ratio); return M_PROPERTY_OK; } return mp_property_generic_option(mpctx, prop, action, arg); } /// Subtitle delay (RW) static int mp_property_sub_delay(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct MPOpts *opts = mpctx->opts; int track_ind = *(int *)prop->priv; switch (action) { case M_PROPERTY_PRINT: *(char **)arg = format_delay(opts->subs_shared->sub_delay[track_ind]); return M_PROPERTY_OK; } return mp_property_generic_option(mpctx, prop, action, arg); } /// Subtitle speed (RW) static int mp_property_sub_speed(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct MPOpts *opts = mpctx->opts; if (action == M_PROPERTY_PRINT) { *(char **)arg = talloc_asprintf(NULL, "%4.1f%%", 100 * opts->subs_rend->sub_speed); return M_PROPERTY_OK; } return mp_property_generic_option(mpctx, prop, action, arg); } static int mp_property_sub_pos(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct MPOpts *opts = mpctx->opts; int track_ind = *(int *)prop->priv; if (action == M_PROPERTY_PRINT) { *(char **)arg = talloc_asprintf(NULL, "%4.2f%%/100", opts->subs_shared->sub_pos[track_ind]); return M_PROPERTY_OK; } return mp_property_generic_option(mpctx, prop, action, arg); } static int mp_property_sub_ass_extradata(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct track *track = mpctx->current_track[0][STREAM_SUB]; struct dec_sub *sub = track ? track->d_sub : NULL; if (!sub) return M_PROPERTY_UNAVAILABLE; switch (action) { case M_PROPERTY_GET: { char *data = sub_ass_get_extradata(sub); if (!data) return M_PROPERTY_UNAVAILABLE; *(char **)arg = data; return M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_STRING}; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_sub_text(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; const int *def = prop->priv; int sub_index = def[0]; int type = def[1]; if (action == M_PROPERTY_KEY_ACTION) { struct m_property_action_arg *ka = arg; if (!strcmp(ka->key, "ass")) type = SD_TEXT_TYPE_ASS; else if (!strcmp(ka->key, "ass-full")) type = SD_TEXT_TYPE_ASS_FULL; else return M_PROPERTY_UNKNOWN; action = ka->action; arg = ka->arg; } struct track *track = mpctx->current_track[sub_index][STREAM_SUB]; struct dec_sub *sub = track ? track->d_sub : NULL; double pts = mpctx->playback_pts; if (!sub || pts == MP_NOPTS_VALUE) return M_PROPERTY_UNAVAILABLE; switch (action) { case M_PROPERTY_GET: { char *text = sub_get_text(sub, pts, type); if (!text) text = talloc_strdup(NULL, ""); *(char **)arg = text; return M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_STRING}; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static struct sd_times get_times(void *ctx, struct m_property *prop, int action, void *arg) { struct sd_times res = { .start = MP_NOPTS_VALUE, .end = MP_NOPTS_VALUE }; MPContext *mpctx = ctx; int track_ind = *(int *)prop->priv; struct track *track = mpctx->current_track[track_ind][STREAM_SUB]; struct dec_sub *sub = track ? track->d_sub : NULL; double pts = mpctx->playback_pts; if (!sub || pts == MP_NOPTS_VALUE) return res; return sub_get_times(sub, pts); } static int mp_property_sub_start(void *ctx, struct m_property *prop, int action, void *arg) { double start = get_times(ctx, prop, action, arg).start; if (start == MP_NOPTS_VALUE) return M_PROPERTY_UNAVAILABLE; return property_time(action, arg, start); } static int mp_property_sub_end(void *ctx, struct m_property *prop, int action, void *arg) { double end = get_times(ctx, prop, action, arg).end; if (end == MP_NOPTS_VALUE) return M_PROPERTY_UNAVAILABLE; return property_time(action, arg, end); } static int mp_property_playlist_current_pos(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct playlist *pl = mpctx->playlist; switch (action) { case M_PROPERTY_GET: { *(int *)arg = playlist_entry_to_index(pl, pl->current); return M_PROPERTY_OK; } case M_PROPERTY_SET: { pl->current = playlist_entry_from_index(pl, *(int *)arg); mp_notify(mpctx, MP_EVENT_CHANGE_PLAYLIST, NULL); return M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_INT}; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_playlist_playing_pos(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct playlist *pl = mpctx->playlist; return m_property_int_ro(action, arg, playlist_entry_to_index(pl, mpctx->playing)); } static int mp_property_playlist_pos_x(void *ctx, struct m_property *prop, int action, void *arg, int base) { MPContext *mpctx = ctx; struct playlist *pl = mpctx->playlist; switch (action) { case M_PROPERTY_GET: { int pos = playlist_entry_to_index(pl, pl->current); *(int *)arg = pos < 0 ? -1 : pos + base; return M_PROPERTY_OK; } case M_PROPERTY_SET: { int pos = *(int *)arg - base; if (pos >= 0 && playlist_entry_to_index(pl, pl->current) == pos) return M_PROPERTY_OK; mp_set_playlist_entry(mpctx, playlist_entry_from_index(pl, pos)); return M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_INT}; return M_PROPERTY_OK; case M_PROPERTY_GET_CONSTRICTED_TYPE: { struct m_option opt = { .type = CONF_TYPE_INT, .min = base, .max = playlist_entry_count(pl) - 1 + base, }; *(struct m_option *)arg = opt; return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_playlist_pos(void *ctx, struct m_property *prop, int action, void *arg) { return mp_property_playlist_pos_x(ctx, prop, action, arg, 0); } static int mp_property_playlist_pos_1(void *ctx, struct m_property *prop, int action, void *arg) { return mp_property_playlist_pos_x(ctx, prop, action, arg, 1); } static int get_playlist_entry(int item, int action, void *arg, void *ctx) { struct MPContext *mpctx = ctx; struct playlist_entry *e = playlist_entry_from_index(mpctx->playlist, item); if (!e) return M_PROPERTY_ERROR; bool current = mpctx->playlist->current == e; bool playing = mpctx->playing == e; struct m_sub_property props[] = { {"filename", SUB_PROP_STR(e->filename)}, {"current", SUB_PROP_BOOL(1), .unavailable = !current}, {"playing", SUB_PROP_BOOL(1), .unavailable = !playing}, {"title", SUB_PROP_STR(e->title), .unavailable = !e->title}, {"id", SUB_PROP_INT64(e->id)}, {"playlist-path", SUB_PROP_STR(e->playlist_path), .unavailable = !e->playlist_path}, {0} }; return m_property_read_sub(props, action, arg); } static int mp_property_playlist_path(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (!mpctx->playlist->current) return M_PROPERTY_UNAVAILABLE; struct playlist_entry *e = mpctx->playlist->current; return m_property_strdup_ro(action, arg, e->playlist_path); } static int mp_property_playlist(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; if (action == M_PROPERTY_PRINT) { struct playlist *pl = mpctx->playlist; char *res = talloc_strdup(NULL, ""); for (int n = 0; n < pl->num_entries; n++) { struct playlist_entry *e = pl->entries[n]; char *p = e->title; if (!p) { p = e->filename; if (!mp_is_url(bstr0(p))) { char *s = mp_basename(e->filename); if (s[0]) p = s; } } const char *m = pl->current == e ? list_current : list_normal; res = talloc_asprintf_append(res, "%s%s\n", m, p); } *(char **)arg = cut_osd_list(mpctx, res, playlist_entry_to_index(pl, pl->current)); return M_PROPERTY_OK; } return m_property_read_list(action, arg, playlist_entry_count(mpctx->playlist), get_playlist_entry, mpctx); } static char *print_obj_osd_list(struct m_obj_settings *list) { char *res = NULL; for (int n = 0; list && list[n].name; n++) { res = talloc_asprintf_append(res, "%s [", list[n].name); for (int i = 0; list[n].attribs && list[n].attribs[i]; i += 2) { res = talloc_asprintf_append(res, "%s%s=%s", i > 0 ? " " : "", list[n].attribs[i], list[n].attribs[i + 1]); } res = talloc_asprintf_append(res, "]"); if (!list[n].enabled) res = talloc_strdup_append(res, " (disabled)"); res = talloc_strdup_append(res, "\n"); } if (!res) res = talloc_strdup(NULL, "(empty)"); return res; } static int property_filter(struct m_property *prop, int action, void *arg, MPContext *mpctx, enum stream_type mt) { if (action == M_PROPERTY_PRINT) { struct m_config_option *opt = m_config_get_co(mpctx->mconfig, bstr0(prop->name)); *(char **)arg = print_obj_osd_list(*(struct m_obj_settings **)opt->data); return M_PROPERTY_OK; } return mp_property_generic_option(mpctx, prop, action, arg); } static int mp_property_vf(void *ctx, struct m_property *prop, int action, void *arg) { return property_filter(prop, action, arg, ctx, STREAM_VIDEO); } static int mp_property_af(void *ctx, struct m_property *prop, int action, void *arg) { return property_filter(prop, action, arg, ctx, STREAM_AUDIO); } static int mp_property_ab_loop(void *ctx, struct m_property *prop, int action, void *arg) { struct MPContext *mpctx = ctx; if (action == M_PROPERTY_KEY_ACTION) { double val; if (mp_property_generic_option(mpctx, prop, M_PROPERTY_GET, &val) < 1) return M_PROPERTY_ERROR; return property_time(action, arg, val); } return mp_property_generic_option(mpctx, prop, action, arg); } static int mp_property_packet_bitrate(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; int type = (uintptr_t)prop->priv & ~0x100; bool old = (uintptr_t)prop->priv & 0x100; struct demuxer *demuxer = NULL; if (mpctx->current_track[0][type]) demuxer = mpctx->current_track[0][type]->demuxer; if (!demuxer) demuxer = mpctx->demuxer; if (!demuxer) return M_PROPERTY_UNAVAILABLE; double r[STREAM_TYPE_COUNT]; demux_get_bitrate_stats(demuxer, r); if (r[type] < 0) return M_PROPERTY_UNAVAILABLE; // r[type] is in bytes/second -> bits double rate = r[type] * 8; // Same story, but used kilobits for some reason. if (old) return m_property_int64_ro(action, arg, llrint(rate / 1000.0)); if (action == M_PROPERTY_PRINT) { rate /= 1000; if (rate < 1000) { *(char **)arg = talloc_asprintf(NULL, "%d kbps", (int)rate); } else { *(char **)arg = talloc_asprintf(NULL, "%.3f Mbps", rate / 1000.0); } return M_PROPERTY_OK; } return m_property_int64_ro(action, arg, llrint(rate)); } static int mp_property_cwd(void *ctx, struct m_property *prop, int action, void *arg) { switch (action) { case M_PROPERTY_GET: { char *cwd = mp_getcwd(NULL); if (!cwd) return M_PROPERTY_ERROR; *(char **)arg = cwd; return M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_STRING}; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_protocols(void *ctx, struct m_property *prop, int action, void *arg) { switch (action) { case M_PROPERTY_GET: *(char ***)arg = stream_get_proto_list(); return M_PROPERTY_OK; case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_STRING_LIST}; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_keylist(void *ctx, struct m_property *prop, int action, void *arg) { switch (action) { case M_PROPERTY_GET: *(char ***)arg = mp_get_key_list(); return M_PROPERTY_OK; case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_STRING_LIST}; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static int get_decoder_entry(int item, int action, void *arg, void *ctx) { struct mp_decoder_list *codecs = ctx; struct mp_decoder_entry *c = &codecs->entries[item]; struct m_sub_property props[] = { {"codec", SUB_PROP_STR(c->codec)}, {"driver" , SUB_PROP_STR(c->decoder)}, {"description", SUB_PROP_STR(c->desc)}, {0} }; return m_property_read_sub(props, action, arg); } static int mp_property_decoders(void *ctx, struct m_property *prop, int action, void *arg) { struct mp_decoder_list *codecs = talloc_zero(NULL, struct mp_decoder_list); struct mp_decoder_list *v = talloc_steal(codecs, video_decoder_list()); struct mp_decoder_list *a = talloc_steal(codecs, audio_decoder_list()); mp_append_decoders(codecs, v); mp_append_decoders(codecs, a); int r = m_property_read_list(action, arg, codecs->num_entries, get_decoder_entry, codecs); talloc_free(codecs); return r; } static int mp_property_encoders(void *ctx, struct m_property *prop, int action, void *arg) { struct mp_decoder_list *codecs = talloc_zero(NULL, struct mp_decoder_list); mp_add_lavc_encoders(codecs); int r = m_property_read_list(action, arg, codecs->num_entries, get_decoder_entry, codecs); talloc_free(codecs); return r; } static int mp_property_lavf_demuxers(void *ctx, struct m_property *prop, int action, void *arg) { switch (action) { case M_PROPERTY_GET: *(char ***)arg = mp_get_lavf_demuxers(); return M_PROPERTY_OK; case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_STRING_LIST}; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_version(void *ctx, struct m_property *prop, int action, void *arg) { return m_property_strdup_ro(action, arg, mpv_version); } static int mp_property_configuration(void *ctx, struct m_property *prop, int action, void *arg) { return m_property_strdup_ro(action, arg, CONFIGURATION); } static int mp_property_ffmpeg(void *ctx, struct m_property *prop, int action, void *arg) { return m_property_strdup_ro(action, arg, av_version_info()); } static int mp_property_libass_version(void *ctx, struct m_property *prop, int action, void *arg) { return m_property_int64_ro(action, arg, ass_library_version()); } static int mp_property_platform(void *ctx, struct m_property *prop, int action, void *arg) { return m_property_strdup_ro(action, arg, PLATFORM); } static int mp_property_alias(void *ctx, struct m_property *prop, int action, void *arg) { const char *real_property = prop->priv; return mp_property_do(real_property, action, arg, ctx); } static int mp_property_deprecated_alias(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; struct command_ctx *cmd = mpctx->command_ctx; const char *real_property = prop->priv; for (int n = 0; n < cmd->num_warned_deprecated; n++) { if (strcmp(cmd->warned_deprecated[n], prop->name) == 0) goto done; } MP_WARN(mpctx, "Warning: property '%s' was replaced with '%s' and " "might be removed in the future.\n", prop->name, real_property); MP_TARRAY_APPEND(cmd, cmd->warned_deprecated, cmd->num_warned_deprecated, (char *)prop->name); done: return mp_property_do(real_property, action, arg, ctx); } static int access_options(struct m_property_action_arg *ka, bool local, MPContext *mpctx) { struct m_config_option *opt = m_config_get_co(mpctx->mconfig, bstr0(ka->key)); if (!opt) return M_PROPERTY_UNKNOWN; if (!opt->data) return M_PROPERTY_UNAVAILABLE; switch (ka->action) { case M_PROPERTY_GET: m_option_copy(opt->opt, ka->arg, opt->data); return M_PROPERTY_OK; case M_PROPERTY_SET: { if (local && !mpctx->playing) return M_PROPERTY_ERROR; int flags = local ? M_SETOPT_BACKUP : 0; int r = m_config_set_option_raw(mpctx->mconfig, opt, ka->arg, flags); mp_wakeup_core(mpctx); return r < 0 ? M_PROPERTY_ERROR : M_PROPERTY_OK; } case M_PROPERTY_GET_TYPE: *(struct m_option *)ka->arg = *opt->opt; return M_PROPERTY_OK; } return M_PROPERTY_NOT_IMPLEMENTED; } static int access_option_list(int action, void *arg, bool local, MPContext *mpctx) { switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_STRING_LIST}; return M_PROPERTY_OK; case M_PROPERTY_GET: *(char ***)arg = m_config_list_options(NULL, mpctx->mconfig); return M_PROPERTY_OK; case M_PROPERTY_KEY_ACTION: return access_options(arg, local, mpctx); } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_options(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; return access_option_list(action, arg, false, mpctx); } static int mp_property_local_options(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; return access_option_list(action, arg, true, mpctx); } static int mp_property_option_info(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; switch (action) { case M_PROPERTY_KEY_ACTION: { struct m_property_action_arg *ka = arg; bstr key; char *rem; m_property_split_path(ka->key, &key, &rem); struct m_config_option *co = m_config_get_co(mpctx->mconfig, key); if (!co) return M_PROPERTY_UNKNOWN; const struct m_option *opt = co->opt; union m_option_value def = m_option_value_default; const void *def_ptr = m_config_get_co_default(mpctx->mconfig, co); if (def_ptr && opt->type->size > 0) memcpy(&def, def_ptr, opt->type->size); bool has_minmax = opt->min < opt->max && (opt->type->flags & M_OPT_TYPE_USES_RANGE); char **choices = NULL; if (opt->type == &m_option_type_choice) { const struct m_opt_choice_alternatives *alt = opt->priv; int num = 0; for ( ; alt->name; alt++) MP_TARRAY_APPEND(NULL, choices, num, alt->name); MP_TARRAY_APPEND(NULL, choices, num, NULL); } if (opt->type == &m_option_type_obj_settings_list) { const struct m_obj_list *objs = opt->priv; int num = 0; for (int n = 0; ; n++) { struct m_obj_desc desc = {0}; if (!objs->get_desc(&desc, n)) break; MP_TARRAY_APPEND(NULL, choices, num, (char *)desc.name); } if (objs->get_lavfi_filters) { const char **filters = objs->get_lavfi_filters(choices); for (int n = 0; filters[n]; n++) { MP_TARRAY_APPEND(NULL, choices, num, (char *)filters[n]); } } MP_TARRAY_APPEND(NULL, choices, num, NULL); } struct m_sub_property props[] = { {"name", SUB_PROP_STR(co->name)}, {"type", SUB_PROP_STR(opt->type->name)}, {"set-from-commandline", SUB_PROP_BOOL(co->is_set_from_cmdline)}, {"set-locally", SUB_PROP_BOOL(co->is_set_locally)}, {"expects-file", SUB_PROP_BOOL(opt->flags & M_OPT_FILE)}, {"default-value", *opt, def}, {"min", SUB_PROP_DOUBLE(opt->min), .unavailable = !(has_minmax && opt->min != DBL_MIN)}, {"max", SUB_PROP_DOUBLE(opt->max), .unavailable = !(has_minmax && opt->max != DBL_MAX)}, {"choices", .type = {.type = CONF_TYPE_STRING_LIST}, .value = {.string_list = choices}, .unavailable = !choices}, {0} }; struct m_property_action_arg next_ka = *ka; next_ka.key = rem; int r = m_property_read_sub(props, M_PROPERTY_KEY_ACTION, &next_ka); talloc_free(choices); return r; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_list(void *ctx, struct m_property *prop, int action, void *arg) { struct MPContext *mpctx = ctx; struct command_ctx *cmd = mpctx->command_ctx; switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_STRING_LIST}; return M_PROPERTY_OK; case M_PROPERTY_GET: { char **list = NULL; int num = 0; for (int n = 0; cmd->properties[n].name; n++) { MP_TARRAY_APPEND(NULL, list, num, talloc_strdup(NULL, cmd->properties[n].name)); } MP_TARRAY_APPEND(NULL, list, num, NULL); *(char ***)arg = list; return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_profile_list(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_NODE}; return M_PROPERTY_OK; case M_PROPERTY_GET: { *(struct mpv_node *)arg = m_config_get_profiles(mpctx->mconfig); return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_commands(void *ctx, struct m_property *prop, int action, void *arg) { switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_NODE}; return M_PROPERTY_OK; case M_PROPERTY_GET: { struct mpv_node *root = arg; node_init(root, MPV_FORMAT_NODE_ARRAY, NULL); for (int n = 0; mp_cmds[n].name; n++) { const struct mp_cmd_def *cmd = &mp_cmds[n]; struct mpv_node *entry = node_array_add(root, MPV_FORMAT_NODE_MAP); node_map_add_string(entry, "name", cmd->name); struct mpv_node *args = node_map_add(entry, "args", MPV_FORMAT_NODE_ARRAY); for (int i = 0; i < MP_CMD_DEF_MAX_ARGS; i++) { const struct m_option *a = &cmd->args[i]; if (!a->type) break; struct mpv_node *ae = node_array_add(args, MPV_FORMAT_NODE_MAP); node_map_add_string(ae, "name", a->name); node_map_add_string(ae, "type", a->type->name); node_map_add_flag(ae, "optional", a->flags & MP_CMD_OPT_ARG); } node_map_add_flag(entry, "vararg", cmd->vararg); } return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_bindings(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_NODE}; return M_PROPERTY_OK; case M_PROPERTY_GET: { *(struct mpv_node *)arg = mp_input_get_bindings(mpctx->input); return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int mp_property_mdata(void *ctx, struct m_property *prop, int action, void *arg) { MPContext *mpctx = ctx; mpv_node *node = &mpctx->command_ctx->mdata; switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = (struct m_option){.type = CONF_TYPE_NODE}; return M_PROPERTY_OK; case M_PROPERTY_GET: case M_PROPERTY_GET_NODE: m_option_copy(&mdata_type, arg, node); return M_PROPERTY_OK; case M_PROPERTY_SET: case M_PROPERTY_SET_NODE: { m_option_copy(&mdata_type, node, arg); talloc_steal(mpctx->command_ctx, node_get_alloc(node)); mp_notify_property(mpctx, prop->name); struct vo *vo = mpctx->video_out; if (vo) vo_control(vo, VOCTRL_UPDATE_MENU, arg); return M_PROPERTY_OK; } } return M_PROPERTY_NOT_IMPLEMENTED; } static int do_list_udata(int item, int action, void *arg, void *ctx); struct udata_ctx { MPContext *mpctx; const char *path; mpv_node *node; void *ta_parent; }; static int do_op_udata(struct udata_ctx* ctx, int action, void *arg) { MPContext *mpctx = ctx->mpctx; mpv_node *node = ctx->node; switch (action) { case M_PROPERTY_GET_TYPE: *(struct m_option *)arg = udata_type; return M_PROPERTY_OK; case M_PROPERTY_GET: case M_PROPERTY_GET_NODE: // same as GET, because type==mpv_node assert(node); m_option_copy(&udata_type, arg, node); return M_PROPERTY_OK; case M_PROPERTY_FIXED_LEN_PRINT: case M_PROPERTY_PRINT: { char *str = m_option_pretty_print(&udata_type, node, action == M_PROPERTY_FIXED_LEN_PRINT); *(char **)arg = str; return str != NULL; } case M_PROPERTY_SET: case M_PROPERTY_SET_NODE: assert(node); m_option_copy(&udata_type, node, arg); talloc_steal(ctx->ta_parent, node_get_alloc(node)); mp_notify_property(mpctx, ctx->path); return M_PROPERTY_OK; case M_PROPERTY_KEY_ACTION: { assert(node); // If we're operating on an array, sub-object access is handled by m_property_read_list if (node->format == MPV_FORMAT_NODE_ARRAY) return m_property_read_list(action, arg, node->u.list->num, &do_list_udata, ctx); // Sub-objects only make sense for arrays and maps if (node->format != MPV_FORMAT_NODE_MAP) return M_PROPERTY_NOT_IMPLEMENTED; struct m_property_action_arg *act = arg; // See if the next layer down will also be a sub-object access bstr key; char *rem; bool has_split = m_property_split_path(act->key, &key, &rem); if (!has_split && act->action == M_PROPERTY_DELETE) { // Find the object we're looking for int i; for (i = 0; i < node->u.list->num; i++) { if (bstr_equals0(key, node->u.list->keys[i])) break; } // Return if it didn't exist if (i == node->u.list->num) return M_PROPERTY_UNKNOWN; // Delete the item m_option_free(&udata_type, &node->u.list->values[i]); talloc_free(node->u.list->keys[i]); // Shift the remaining items back for (i++; i < node->u.list->num; i++) { node->u.list->values[i - 1] = node->u.list->values[i]; node->u.list->keys[i - 1] = node->u.list->keys[i]; } // And decrement the count node->u.list->num--; return M_PROPERTY_OK; } // Look up the next level down mpv_node *cnode = node_map_bget(node, key); if (!cnode) { switch (act->action) { case M_PROPERTY_SET: case M_PROPERTY_SET_NODE: { // If we're doing a set, and the key doesn't exist, create it. // If we're recursing another layer down, make it an empty map; // otherwise, make it NONE, since we'll be overwriting it at the next level. cnode = node_map_badd(node, key, has_split ? MPV_FORMAT_NODE_MAP : MPV_FORMAT_NONE); if (!cnode) return M_PROPERTY_ERROR; break; case M_PROPERTY_GET_TYPE: // Nonexistent keys have type NODE, so they can be overwritten *(struct m_option *)act->arg = udata_type; return M_PROPERTY_OK; default: // We can't perform any other options on nonexistent keys return M_PROPERTY_UNKNOWN; } } } struct udata_ctx nctx = *ctx; nctx.node = cnode; nctx.ta_parent = node_get_alloc(node); // If we're going down another level, set up a new key-action. if (has_split) { struct m_property_action_arg sub_act = { .key = rem, .action = act->action, .arg = act->arg, }; return do_op_udata(&nctx, M_PROPERTY_KEY_ACTION, &sub_act); } else { return do_op_udata(&nctx, act->action, act->arg); } } } return M_PROPERTY_NOT_IMPLEMENTED; } static int do_list_udata(int item, int action, void *arg, void *ctx) { struct udata_ctx nctx = *(struct udata_ctx*)ctx; nctx.node = &nctx.node->u.list->values[item]; nctx.ta_parent = nctx.node->u.list; return do_op_udata(&nctx, action, arg); } static int mp_property_udata(void *ctx, struct m_property *prop, int action, void *arg) { // The root of udata is a shared map; don't allow overwriting // or deleting the whole thing if (action == M_PROPERTY_SET || action == M_PROPERTY_SET_NODE || action == M_PROPERTY_DELETE) return M_PROPERTY_NOT_IMPLEMENTED; char *path = NULL; if (action == M_PROPERTY_KEY_ACTION) { struct m_property_action_arg *act = arg; if (act->action == M_PROPERTY_SET || act->action == M_PROPERTY_SET_NODE) path = talloc_asprintf(NULL, "%s/%s", prop->name, act->key); } struct MPContext *mpctx = ctx; struct udata_ctx nctx = { .mpctx = mpctx, .path = path, .node = &mpctx->command_ctx->udata, .ta_parent = mpctx->command_ctx, }; int ret = do_op_udata(&nctx, action, arg); talloc_free(path); return ret; } // Redirect a property name to another #define M_PROPERTY_ALIAS(name, real_property) \ {(name), mp_property_alias, .priv = (real_property)} #define M_PROPERTY_DEPRECATED_ALIAS(name, real_property) \ {(name), mp_property_deprecated_alias, .priv = (real_property)} // Base list of properties. This does not include option-mapped properties. static const struct m_property mp_properties_base[] = { // General {"pid", mp_property_pid}, {"speed", mp_property_playback_speed}, {"audio-speed-correction", mp_property_av_speed_correction, .priv = "a"}, {"video-speed-correction", mp_property_av_speed_correction, .priv = "v"}, {"display-sync-active", mp_property_display_sync_active}, {"filename", mp_property_filename}, {"stream-open-filename", mp_property_stream_open_filename}, {"file-size", mp_property_file_size}, {"path", mp_property_path}, {"media-title", mp_property_media_title}, {"stream-path", mp_property_stream_path}, {"current-demuxer", mp_property_demuxer}, {"file-format", mp_property_file_format}, {"stream-pos", mp_property_stream_pos}, {"stream-end", mp_property_stream_end}, {"duration", mp_property_duration}, {"avsync", mp_property_avsync}, {"total-avsync-change", mp_property_total_avsync_change}, {"mistimed-frame-count", mp_property_mistimed_frame_count}, {"vsync-ratio", mp_property_vsync_ratio}, {"display-width", mp_property_display_resolution}, {"display-height", mp_property_display_resolution}, {"decoder-frame-drop-count", mp_property_frame_drop_dec}, {"frame-drop-count", mp_property_frame_drop_vo}, {"vo-delayed-frame-count", mp_property_vo_delayed_frame_count}, {"percent-pos", mp_property_percent_pos}, {"time-start", mp_property_time_start}, {"time-pos", mp_property_time_pos}, {"time-remaining", mp_property_remaining}, {"audio-pts", mp_property_audio_pts}, {"playtime-remaining", mp_property_playtime_remaining}, {"playback-time", mp_property_playback_time}, {"chapter", mp_property_chapter}, {"edition", mp_property_edition}, {"current-edition", mp_property_current_edition}, {"chapters", mp_property_chapters}, {"editions", mp_property_editions}, {"metadata", mp_property_metadata}, {"filtered-metadata", mp_property_filtered_metadata}, {"chapter-metadata", mp_property_chapter_metadata}, {"vf-metadata", mp_property_filter_metadata, .priv = "vf"}, {"af-metadata", mp_property_filter_metadata, .priv = "af"}, {"core-idle", mp_property_core_idle}, {"eof-reached", mp_property_eof_reached}, {"seeking", mp_property_seeking}, {"playback-abort", mp_property_playback_abort}, {"cache-speed", mp_property_cache_speed}, {"demuxer-cache-duration", mp_property_demuxer_cache_duration}, {"demuxer-cache-time", mp_property_demuxer_cache_time}, {"demuxer-cache-idle", mp_property_demuxer_cache_idle}, {"demuxer-start-time", mp_property_demuxer_start_time}, {"demuxer-cache-state", mp_property_demuxer_cache_state}, {"cache-buffering-state", mp_property_cache_buffering}, {"paused-for-cache", mp_property_paused_for_cache}, {"demuxer-via-network", mp_property_demuxer_is_network}, {"clock", mp_property_clock}, {"seekable", mp_property_seekable}, {"partially-seekable", mp_property_partially_seekable}, {"deinterlace-active", mp_property_deinterlace}, {"idle-active", mp_property_idle}, {"window-id", mp_property_window_id}, {"chapter-list", mp_property_list_chapters}, {"track-list", property_list_tracks}, {"current-tracks", property_current_tracks}, {"edition-list", property_list_editions}, {"playlist", mp_property_playlist}, {"playlist-path", mp_property_playlist_path}, {"playlist-pos", mp_property_playlist_pos}, {"playlist-pos-1", mp_property_playlist_pos_1}, {"playlist-current-pos", mp_property_playlist_current_pos}, {"playlist-playing-pos", mp_property_playlist_playing_pos}, M_PROPERTY_ALIAS("playlist-count", "playlist/count"), // Audio {"mixer-active", mp_property_mixer_active}, {"volume", mp_property_volume}, {"volume-gain", mp_property_volume_gain}, {"ao-volume", mp_property_ao_volume}, {"ao-mute", mp_property_ao_mute}, {"audio-delay", mp_property_audio_delay}, M_PROPERTY_ALIAS("audio-codec-name", "current-tracks/audio/codec"), M_PROPERTY_ALIAS("audio-codec", "current-tracks/audio/codec-desc"), {"audio-params", mp_property_audio_params}, {"audio-out-params", mp_property_audio_out_params}, {"aid", property_switch_track, .priv = (void *)(const int[]){0, STREAM_AUDIO}}, {"audio-device", mp_property_audio_device}, {"audio-device-list", mp_property_audio_devices}, {"current-ao", mp_property_ao}, // Video {"video-target-params", mp_property_tgt_imgparams}, {"video-out-params", mp_property_vo_imgparams}, {"video-dec-params", mp_property_dec_imgparams}, {"video-params", mp_property_vd_imgparams}, {"video-frame-info", mp_property_video_frame_info}, M_PROPERTY_ALIAS("video-format", "current-tracks/video/codec"), M_PROPERTY_ALIAS("video-codec", "current-tracks/video/codec-desc"), M_PROPERTY_ALIAS("dwidth", "video-out-params/dw"), M_PROPERTY_ALIAS("dheight", "video-out-params/dh"), M_PROPERTY_ALIAS("width", "video-params/w"), M_PROPERTY_ALIAS("height", "video-params/h"), {"current-window-scale", mp_property_current_window_scale}, {"vo-configured", mp_property_vo_configured}, {"vo-passes", mp_property_vo_passes}, {"perf-info", mp_property_perf_info}, {"current-vo", mp_property_vo}, {"current-gpu-context", mp_property_gpu_context}, {"container-fps", mp_property_fps}, {"estimated-vf-fps", mp_property_vf_fps}, {"video-aspect-override", mp_property_video_aspect_override}, {"vid", property_switch_track, .priv = (void *)(const int[]){0, STREAM_VIDEO}}, {"hwdec-current", mp_property_hwdec_current}, {"hwdec-interop", mp_property_hwdec_interop}, {"estimated-frame-count", mp_property_frame_count}, {"estimated-frame-number", mp_property_frame_number}, {"osd-dimensions", mp_property_osd_dim}, M_PROPERTY_ALIAS("osd-width", "osd-dimensions/w"), M_PROPERTY_ALIAS("osd-height", "osd-dimensions/h"), M_PROPERTY_ALIAS("osd-par", "osd-dimensions/par"), {"osd-sym-cc", mp_property_osd_sym}, {"osd-ass-cc", mp_property_osd_ass}, {"mouse-pos", mp_property_mouse_pos}, {"touch-pos", mp_property_touch_pos}, // Subs {"sid", property_switch_track, .priv = (void *)(const int[]){0, STREAM_SUB}}, {"secondary-sid", property_switch_track, .priv = (void *)(const int[]){1, STREAM_SUB}}, {"sub-delay", mp_property_sub_delay, .priv = (void *)&(const int){0}}, {"secondary-sub-delay", mp_property_sub_delay, .priv = (void *)&(const int){1}}, {"sub-speed", mp_property_sub_speed}, {"sub-pos", mp_property_sub_pos, .priv = (void *)&(const int){0}}, {"secondary-sub-pos", mp_property_sub_pos, .priv = (void *)&(const int){1}}, {"sub-ass-extradata", mp_property_sub_ass_extradata}, {"sub-text", mp_property_sub_text, .priv = (void *)&(const int[]){0, SD_TEXT_TYPE_PLAIN}}, {"secondary-sub-text", mp_property_sub_text, .priv = (void *)&(const int[]){1, SD_TEXT_TYPE_PLAIN}}, M_PROPERTY_DEPRECATED_ALIAS("sub-text-ass", "sub-text/ass"), {"sub-start", mp_property_sub_start, .priv = (void *)&(const int){0}}, {"secondary-sub-start", mp_property_sub_start, .priv = (void *)&(const int){1}}, {"sub-end", mp_property_sub_end, .priv = (void *)&(const int){0}}, {"secondary-sub-end", mp_property_sub_end, .priv = (void *)&(const int){1}}, {"vf", mp_property_vf}, {"af", mp_property_af}, {"ab-loop-a", mp_property_ab_loop}, {"ab-loop-b", mp_property_ab_loop}, #define PROPERTY_BITRATE(name, old, type) \ {name, mp_property_packet_bitrate, (void *)(uintptr_t)((type)|(old?0x100:0))} PROPERTY_BITRATE("packet-video-bitrate", true, STREAM_VIDEO), PROPERTY_BITRATE("packet-audio-bitrate", true, STREAM_AUDIO), PROPERTY_BITRATE("packet-sub-bitrate", true, STREAM_SUB), PROPERTY_BITRATE("video-bitrate", false, STREAM_VIDEO), PROPERTY_BITRATE("audio-bitrate", false, STREAM_AUDIO), PROPERTY_BITRATE("sub-bitrate", false, STREAM_SUB), {"focused", mp_property_focused}, {"display-names", mp_property_display_names}, {"display-fps", mp_property_display_fps}, {"estimated-display-fps", mp_property_estimated_display_fps}, {"vsync-jitter", mp_property_vsync_jitter}, {"display-hidpi-scale", mp_property_hidpi_scale}, {"working-directory", mp_property_cwd}, {"protocol-list", mp_property_protocols}, {"decoder-list", mp_property_decoders}, {"encoder-list", mp_property_encoders}, {"demuxer-lavf-list", mp_property_lavf_demuxers}, {"input-key-list", mp_property_keylist}, {"mpv-version", mp_property_version}, {"mpv-configuration", mp_property_configuration}, {"ffmpeg-version", mp_property_ffmpeg}, {"libass-version", mp_property_libass_version}, {"platform", mp_property_platform}, {"options", mp_property_options}, {"file-local-options", mp_property_local_options}, {"option-info", mp_property_option_info}, {"property-list", mp_property_list}, {"profile-list", mp_profile_list}, {"command-list", mp_property_commands}, {"input-bindings", mp_property_bindings}, {"menu-data", mp_property_mdata}, {"user-data", mp_property_udata}, {"term-size", mp_property_term_size}, M_PROPERTY_ALIAS("video", "vid"), M_PROPERTY_ALIAS("audio", "aid"), M_PROPERTY_ALIAS("sub", "sid"), // compatibility M_PROPERTY_ALIAS("colormatrix", "video-params/colormatrix"), M_PROPERTY_ALIAS("colormatrix-input-range", "video-params/colorlevels"), M_PROPERTY_ALIAS("colormatrix-primaries", "video-params/primaries"), M_PROPERTY_ALIAS("colormatrix-gamma", "video-params/gamma"), M_PROPERTY_DEPRECATED_ALIAS("sub-forced-only-cur", "sub-forced-events-only"), }; // Each entry describes which properties an event (possibly) changes. #define E(x, ...) [x] = (const char*const[]){__VA_ARGS__, NULL} static const char *const *const mp_event_property_change[] = { E(MPV_EVENT_START_FILE, "*"), E(MPV_EVENT_END_FILE, "*"), E(MPV_EVENT_FILE_LOADED, "*"), E(MP_EVENT_CHANGE_ALL, "*"), E(MP_EVENT_TRACKS_CHANGED, "track-list", "current-tracks"), E(MP_EVENT_TRACK_SWITCHED, "track-list", "current-tracks"), E(MPV_EVENT_IDLE, "*"), E(MPV_EVENT_TICK, "time-pos", "audio-pts", "stream-pos", "avsync", "percent-pos", "time-remaining", "playtime-remaining", "playback-time", "estimated-vf-fps", "total-avsync-change", "audio-speed-correction", "video-speed-correction", "vo-delayed-frame-count", "mistimed-frame-count", "vsync-ratio", "estimated-display-fps", "vsync-jitter", "sub-text", "secondary-sub-text", "audio-bitrate", "video-bitrate", "sub-bitrate", "decoder-frame-drop-count", "frame-drop-count", "video-frame-info", "vf-metadata", "af-metadata", "sub-start", "sub-end", "secondary-sub-start", "secondary-sub-end", "video-out-params", "video-dec-params", "video-params", "deinterlace-active", "video-target-params"), E(MP_EVENT_DURATION_UPDATE, "duration"), E(MPV_EVENT_VIDEO_RECONFIG, "video-out-params", "video-params", "video-format", "video-codec", "video-bitrate", "dwidth", "dheight", "width", "height", "container-fps", "aspect", "aspect-name", "vo-configured", "current-vo", "video-dec-params", "osd-dimensions", "hwdec", "hwdec-current", "hwdec-interop", "window-id", "track-list", "current-tracks"), E(MPV_EVENT_AUDIO_RECONFIG, "audio-format", "audio-codec", "audio-bitrate", "samplerate", "channels", "audio", "volume", "volume-gain", "mute", "current-ao", "audio-codec-name", "audio-params", "track-list", "current-tracks", "audio-out-params", "volume-max", "volume-gain-min", "volume-gain-max", "mixer-active"), E(MPV_EVENT_SEEK, "seeking", "core-idle", "eof-reached"), E(MPV_EVENT_PLAYBACK_RESTART, "seeking", "core-idle", "eof-reached"), E(MP_EVENT_METADATA_UPDATE, "metadata", "filtered-metadata", "media-title"), E(MP_EVENT_CHAPTER_CHANGE, "chapter", "chapter-metadata"), E(MP_EVENT_CACHE_UPDATE, "demuxer-cache-duration", "demuxer-cache-idle", "paused-for-cache", "demuxer-cache-time", "cache-buffering-state", "cache-speed", "demuxer-cache-state"), E(MP_EVENT_WIN_RESIZE, "current-window-scale", "osd-width", "osd-height", "osd-par", "osd-dimensions"), E(MP_EVENT_WIN_STATE, "display-names", "display-fps", "display-width", "display-height"), E(MP_EVENT_WIN_STATE2, "display-hidpi-scale"), E(MP_EVENT_FOCUS, "focused"), E(MP_EVENT_CHANGE_PLAYLIST, "playlist", "playlist-pos", "playlist-pos-1", "playlist-count", "playlist/count", "playlist-current-pos", "playlist-playing-pos"), E(MP_EVENT_INPUT_PROCESSED, "mouse-pos", "touch-pos"), E(MP_EVENT_CORE_IDLE, "core-idle", "eof-reached"), }; #undef E // If there is no prefix, return length+1 (avoids matching full name as prefix). static int prefix_len(const char *p) { const char *end = strchr(p, '/'); return end ? end - p : strlen(p) + 1; } static bool match_property(const char *a, const char *b) { if (strcmp(a, "*") == 0) return true; // Give options and properties the same ID each, so change notifications // work both way. if (strncmp(a, "options/", 8) == 0) a += 8; if (strncmp(b, "options/", 8) == 0) b += 8; int len_a = prefix_len(a); int len_b = prefix_len(b); return strncmp(a, b, MPMIN(len_a, len_b)) == 0; } // Return a bitset of events which change the property. uint64_t mp_get_property_event_mask(const char *name) { uint64_t mask = 0; for (int n = 0; n < MP_ARRAY_SIZE(mp_event_property_change); n++) { const char *const *const list = mp_event_property_change[n]; for (int i = 0; list && list[i]; i++) { if (match_property(list[i], name)) mask |= 1ULL << n; } } return mask; } // Return an ID for the property. It might not be unique, but is good enough // for property change handling. Return -1 if property unknown. int mp_get_property_id(struct MPContext *mpctx, const char *name) { struct command_ctx *ctx = mpctx->command_ctx; for (int n = 0; ctx->properties[n].name; n++) { if (match_property(ctx->properties[n].name, name)) return n; } return -1; } static bool is_property_set(int action, void *val) { switch (action) { case M_PROPERTY_SET: case M_PROPERTY_SWITCH: case M_PROPERTY_SET_STRING: case M_PROPERTY_SET_NODE: case M_PROPERTY_MULTIPLY: return true; case M_PROPERTY_KEY_ACTION: { struct m_property_action_arg *key = val; return is_property_set(key->action, key->arg); } default: return false; } } int mp_property_do(const char *name, int action, void *val, struct MPContext *ctx) { struct command_ctx *cmd = ctx->command_ctx; int r = m_property_do(ctx->log, cmd->properties, name, action, val, ctx); if (mp_msg_test(ctx->log, MSGL_V) && is_property_set(action, val)) { struct m_option ot = {0}; void *data = val; switch (action) { case M_PROPERTY_SET_NODE: ot.type = &m_option_type_node; break; case M_PROPERTY_SET_STRING: ot.type = &m_option_type_string; data = &val; break; } char *t = ot.type ? m_option_print(&ot, data) : NULL; MP_VERBOSE(ctx, "Set property: %s%s%s -> %d\n", name, t ? "=" : "", t ? t : "", r); talloc_free(t); } return r; } char *mp_property_expand_string(struct MPContext *mpctx, const char *str) { struct command_ctx *ctx = mpctx->command_ctx; return m_properties_expand_string(ctx->properties, str, mpctx); } // Before expanding properties, parse C-style escapes like "\n" char *mp_property_expand_escaped_string(struct MPContext *mpctx, const char *str) { void *tmp = talloc_new(NULL); bstr strb = bstr0(str); bstr dst = {0}; while (strb.len) { if (!mp_append_escaped_string(tmp, &dst, &strb)) { talloc_free(tmp); return talloc_strdup(NULL, "(broken escape sequences)"); } // pass " through literally if (!bstr_eatstart0(&strb, "\"")) break; bstr_xappend(tmp, &dst, bstr0("\"")); } char *r = mp_property_expand_string(mpctx, dst.start); talloc_free(tmp); return r; } void property_print_help(struct MPContext *mpctx) { struct command_ctx *ctx = mpctx->command_ctx; m_properties_print_help_list(mpctx->log, ctx->properties); } /* List of default ways to show a property on OSD. * * If osd_progbar is set, a bar showing the current position between min/max * values of the property is shown. In this case osd_msg is only used for * terminal output if there is no video; it'll be a label shown together with * percentage. */ static const struct property_osd_display { // property name const char *name; // name used on OSD const char *osd_name; // progressbar type int osd_progbar; // Needs special ways to display the new value (seeks are delayed) int seek_msg, seek_bar; // Show a marker thing on OSD bar. Ignored if osd_progbar==0. float marker; // Free-form message (if NULL, osd_name or the property name is used) const char *msg; } property_osd_display[] = { // general {"loop-playlist", "Loop"}, {"loop-file", "Loop current file"}, {"chapter", .seek_msg = OSD_SEEK_INFO_CHAPTER_TEXT, .seek_bar = OSD_SEEK_INFO_BAR}, {"hr-seek", "hr-seek"}, {"speed", "Speed"}, {"clock", "Clock"}, {"edition", "Edition"}, // audio {"volume", "Volume", .msg = "Volume: ${?volume:${volume}% ${?mute==yes:(Muted)}}${!volume:${volume}}", .osd_progbar = OSD_VOLUME, .marker = 100}, {"volume-gain", "Volume gain", .msg = "Volume gain: ${?volume-gain:${volume-gain} dB ${?mute==yes:(Muted)}}${!volume-gain:${volume-gain}}", .osd_progbar = OSD_VOLUME, .marker = 0}, {"ao-volume", "AO Volume", .msg = "AO Volume: ${?ao-volume:${ao-volume}% ${?ao-mute==yes:(Muted)}}${!ao-volume:${ao-volume}}", .osd_progbar = OSD_VOLUME, .marker = 100}, {"mute", "Mute"}, {"ao-mute", "AO Mute"}, {"audio-delay", "A-V delay"}, {"audio", "Audio"}, // video {"panscan", "Panscan", .osd_progbar = OSD_PANSCAN}, {"taskbar-progress", "Progress in taskbar"}, {"snap-window", "Snap to screen edges"}, {"ontop", "Stay on top"}, {"on-all-workspaces", "Visibility on all workspaces"}, {"border", "Border"}, {"framedrop", "Framedrop"}, {"deinterlace", "Deinterlace"}, {"gamma", "Gamma", .osd_progbar = OSD_BRIGHTNESS }, {"brightness", "Brightness", .osd_progbar = OSD_BRIGHTNESS}, {"contrast", "Contrast", .osd_progbar = OSD_CONTRAST}, {"saturation", "Saturation", .osd_progbar = OSD_SATURATION}, {"hue", "Hue", .osd_progbar = OSD_HUE}, {"angle", "Angle"}, // subs {"sub", "Subtitles"}, {"secondary-sid", "Secondary subtitles"}, {"sub-pos", "Sub position"}, {"secondary-sub-pos", "Secondary sub position"}, {"sub-delay", "Sub delay"}, {"secondary-sub-delay", "Secondary sub delay"}, {"sub-speed", "Sub speed"}, {"sub-visibility", .msg = "Subtitles ${!sub-visibility==yes:hidden}" "${?sub-visibility==yes:visible${?sub==no: (but no subtitles selected)}}"}, {"secondary-sub-visibility", .msg = "Secondary Subtitles ${!secondary-sub-visibility==yes:hidden}" "${?secondary-sub-visibility==yes:visible${?secondary-sid==no: (but no secondary subtitles selected)}}"}, {"sub-forced-events-only", "Forced sub only"}, {"sub-scale", "Sub Scale"}, {"sub-ass-vsfilter-aspect-compat", "Subtitle VSFilter aspect compat"}, {"sub-ass-override", "ASS subtitle style override"}, {"secondary-sub-ass-override", "Secondary sub ASS subtitle style override"}, {"vf", "Video filters", .msg = "Video filters:\n${vf}"}, {"af", "Audio filters", .msg = "Audio filters:\n${af}"}, {"ab-loop-a", "A-B loop start"}, {"ab-loop-b", .msg = "A-B loop: ${ab-loop-a} - ${ab-loop-b}" "${?=ab-loop-count==0: (disabled)}"}, {"audio-device", "Audio device"}, {"hwdec", .msg = "Hardware decoding: ${hwdec-current}"}, {"video-aspect-override", "Aspect ratio override"}, // By default, don't display the following properties on OSD {"pause", NULL}, {"fullscreen", NULL}, {"window-minimized", NULL}, {"window-maximized", NULL}, {0} }; static void show_property_osd(MPContext *mpctx, const char *name, int osd_mode) { struct MPOpts *opts = mpctx->opts; struct property_osd_display disp = {.name = name, .osd_name = name}; if (!osd_mode) return; // look for the command for (const struct property_osd_display *p = property_osd_display; p->name; p++) { if (!strcmp(p->name, name)) { disp = *p; break; } } if (osd_mode == MP_ON_OSD_AUTO) { osd_mode = ((disp.msg || disp.osd_name || disp.seek_msg) ? MP_ON_OSD_MSG : 0) | ((disp.osd_progbar || disp.seek_bar) ? MP_ON_OSD_BAR : 0); } if (!disp.osd_progbar) disp.osd_progbar = ' '; if (!disp.osd_name) disp.osd_name = name; if (disp.seek_msg || disp.seek_bar) { mpctx->add_osd_seek_info |= (osd_mode & MP_ON_OSD_MSG ? disp.seek_msg : 0) | (osd_mode & MP_ON_OSD_BAR ? disp.seek_bar : 0); return; } struct m_option prop = {0}; mp_property_do(name, M_PROPERTY_GET_CONSTRICTED_TYPE, &prop, mpctx); if ((osd_mode & MP_ON_OSD_BAR)) { if (prop.type == CONF_TYPE_INT && prop.min < prop.max) { int n = prop.min; if (disp.osd_progbar) n = disp.marker; int i; if (mp_property_do(name, M_PROPERTY_GET, &i, mpctx) > 0) set_osd_bar(mpctx, disp.osd_progbar, prop.min, prop.max, n, i); } else if (prop.type == CONF_TYPE_FLOAT && prop.min < prop.max) { float n = prop.min; if (disp.osd_progbar) n = disp.marker; float f; if (mp_property_do(name, M_PROPERTY_GET, &f, mpctx) > 0) set_osd_bar(mpctx, disp.osd_progbar, prop.min, prop.max, n, f); } } if (osd_mode & MP_ON_OSD_MSG) { void *tmp = talloc_new(NULL); const char *msg = disp.msg; if (!msg) msg = talloc_asprintf(tmp, "%s: ${%s}", disp.osd_name, name); char *osd_msg = talloc_steal(tmp, mp_property_expand_string(mpctx, msg)); if (osd_msg && osd_msg[0]) set_osd_msg(mpctx, 1, opts->osd_duration, "%s", osd_msg); talloc_free(tmp); } } static bool reinit_filters(MPContext *mpctx, enum stream_type mediatype) { switch (mediatype) { case STREAM_VIDEO: return reinit_video_filters(mpctx) >= 0; case STREAM_AUDIO: return reinit_audio_filters(mpctx) >= 0; } return false; } static const char *const filter_opt[STREAM_TYPE_COUNT] = { [STREAM_VIDEO] = "vf", [STREAM_AUDIO] = "af", }; static int set_filters(struct MPContext *mpctx, enum stream_type mediatype, struct m_obj_settings *new_chain) { bstr option = bstr0(filter_opt[mediatype]); struct m_config_option *co = m_config_get_co(mpctx->mconfig, option); if (!co) return -1; struct m_obj_settings **list = co->data; struct m_obj_settings *old_settings = *list; *list = NULL; m_option_copy(co->opt, list, &new_chain); bool success = reinit_filters(mpctx, mediatype); if (success) { m_option_free(co->opt, &old_settings); m_config_notify_change_opt_ptr(mpctx->mconfig, list); } else { m_option_free(co->opt, list); *list = old_settings; } return success ? 0 : -1; } static int edit_filters(struct MPContext *mpctx, struct mp_log *log, enum stream_type mediatype, const char *cmd, const char *arg) { bstr option = bstr0(filter_opt[mediatype]); struct m_config_option *co = m_config_get_co(mpctx->mconfig, option); if (!co) return -1; // The option parser is used to modify the filter list itself. char optname[20]; snprintf(optname, sizeof(optname), "%.*s-%s", BSTR_P(option), cmd); struct m_obj_settings *new_chain = NULL; m_option_copy(co->opt, &new_chain, co->data); int r = m_option_parse(log, co->opt, bstr0(optname), bstr0(arg), &new_chain); if (r >= 0) r = set_filters(mpctx, mediatype, new_chain); m_option_free(co->opt, &new_chain); return r >= 0 ? 0 : -1; } static int edit_filters_osd(struct MPContext *mpctx, enum stream_type mediatype, const char *cmd, const char *arg, bool on_osd) { int r = edit_filters(mpctx, mpctx->log, mediatype, cmd, arg); if (on_osd) { if (r >= 0) { const char *prop = filter_opt[mediatype]; show_property_osd(mpctx, prop, MP_ON_OSD_MSG); } else { set_osd_msg(mpctx, 1, mpctx->opts->osd_duration, "Changing filters failed!"); } } return r; } static void recreate_overlays(struct MPContext *mpctx) { struct command_ctx *cmd = mpctx->command_ctx; int overlay_next = !cmd->overlay_osd_current; struct sub_bitmaps *new = &cmd->overlay_osd[overlay_next]; new->format = SUBBITMAP_BGRA; new->change_id = 1; bool valid = false; new->num_parts = 0; for (int n = 0; n < cmd->num_overlays; n++) { struct overlay *o = &cmd->overlays[n]; if (o->source) { struct mp_image *s = o->source; struct sub_bitmap b = { .bitmap = s->planes[0], .stride = s->stride[0], .w = s->w, .dw = o->dw, .h = s->h, .dh = o->dh, .x = o->x, .y = o->y, }; MP_TARRAY_APPEND(cmd, new->parts, new->num_parts, b); } } if (!cmd->overlay_packer) cmd->overlay_packer = talloc_zero(cmd, struct bitmap_packer); cmd->overlay_packer->padding = 1; // assume bilinear scaling packer_set_size(cmd->overlay_packer, new->num_parts); for (int n = 0; n < new->num_parts; n++) cmd->overlay_packer->in[n] = (struct pos){new->parts[n].w, new->parts[n].h}; if (packer_pack(cmd->overlay_packer) < 0 || new->num_parts == 0) goto done; struct pos bb[2]; packer_get_bb(cmd->overlay_packer, bb); new->packed_w = bb[1].x; new->packed_h = bb[1].y; if (!new->packed || new->packed->w < new->packed_w || new->packed->h < new->packed_h) { talloc_free(new->packed); new->packed = mp_image_alloc(IMGFMT_BGRA, cmd->overlay_packer->w, cmd->overlay_packer->h); if (!new->packed) goto done; } if (!mp_image_make_writeable(new->packed)) goto done; // clear padding mp_image_clear(new->packed, 0, 0, new->packed->w, new->packed->h); for (int n = 0; n < new->num_parts; n++) { struct sub_bitmap *b = &new->parts[n]; struct pos pos = cmd->overlay_packer->result[n]; int stride = new->packed->stride[0]; void *pdata = (uint8_t *)new->packed->planes[0] + pos.y * stride + pos.x * 4; memcpy_pic(pdata, b->bitmap, b->w * 4, b->h, stride, b->stride); b->bitmap = pdata; b->stride = stride; b->src_x = pos.x; b->src_y = pos.y; } valid = true; done: if (!valid) { new->format = SUBBITMAP_EMPTY; new->num_parts = 0; } osd_set_external2(mpctx->osd, new); mp_wakeup_core(mpctx); cmd->overlay_osd_current = overlay_next; } // Set overlay with the given ID to the contents as described by "new". static void replace_overlay(struct MPContext *mpctx, int id, struct overlay *new) { struct command_ctx *cmd = mpctx->command_ctx; assert(id >= 0); if (id >= cmd->num_overlays) { MP_TARRAY_GROW(cmd, cmd->overlays, id); while (cmd->num_overlays <= id) cmd->overlays[cmd->num_overlays++] = (struct overlay){0}; } struct overlay *ptr = &cmd->overlays[id]; talloc_free(ptr->source); *ptr = *new; recreate_overlays(mpctx); } static void cmd_overlay_add(void *pcmd) { struct mp_cmd_ctx *cmd = pcmd; struct MPContext *mpctx = cmd->mpctx; int id = cmd->args[0].v.i, x = cmd->args[1].v.i, y = cmd->args[2].v.i; char *file = cmd->args[3].v.s; int offset = cmd->args[4].v.i; char *fmt = cmd->args[5].v.s; int w = cmd->args[6].v.i, h = cmd->args[7].v.i, stride = cmd->args[8].v.i; int dw = cmd->args[9].v.i, dh = cmd->args[10].v.i; if (dw <= 0) dw = w; if (dh <= 0) dh = h; if (strcmp(fmt, "bgra") != 0) { MP_ERR(mpctx, "overlay-add: unsupported OSD format '%s'\n", fmt); goto error; } if (id < 0 || id >= 64) { // arbitrary upper limit MP_ERR(mpctx, "overlay-add: invalid id %d\n", id); goto error; } if (w <= 0 || h <= 0 || stride < w * 4 || (stride % 4)) { MP_ERR(mpctx, "overlay-add: inconsistent parameters\n"); goto error; } struct overlay overlay = { .source = mp_image_alloc(IMGFMT_BGRA, w, h), .x = x, .y = y, .dw = dw, .dh = dh, }; if (!overlay.source) goto error; int fd = -1; bool close_fd = true; void *p = NULL; if (file[0] == '@') { char *end; fd = strtol(&file[1], &end, 10); if (!file[1] || end[0]) fd = -1; close_fd = false; } else if (file[0] == '&') { char *end; unsigned long long addr = strtoull(&file[1], &end, 0); if (!file[1] || end[0]) addr = 0; p = (void *)(uintptr_t)addr; } else { fd = open(file, O_RDONLY | O_BINARY | O_CLOEXEC); } int map_size = 0; if (fd >= 0) { map_size = offset + h * stride; void *m = mmap(NULL, map_size, PROT_READ, MAP_SHARED, fd, 0); if (close_fd) close(fd); if (m && m != MAP_FAILED) p = m; } if (!p) { MP_ERR(mpctx, "overlay-add: could not open or map '%s'\n", file); talloc_free(overlay.source); goto error; } memcpy_pic(overlay.source->planes[0], (char *)p + offset, w * 4, h, overlay.source->stride[0], stride); if (map_size) munmap(p, map_size); replace_overlay(mpctx, id, &overlay); return; error: cmd->success = false; } static void cmd_overlay_remove(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; struct command_ctx *cmdctx = mpctx->command_ctx; int id = cmd->args[0].v.i; if (id >= 0 && id < cmdctx->num_overlays) replace_overlay(mpctx, id, &(struct overlay){0}); } static void overlay_uninit(struct MPContext *mpctx) { struct command_ctx *cmd = mpctx->command_ctx; if (!mpctx->osd) return; for (int id = 0; id < cmd->num_overlays; id++) replace_overlay(mpctx, id, &(struct overlay){0}); osd_set_external2(mpctx->osd, NULL); for (int n = 0; n < 2; n++) mp_image_unrefp(&cmd->overlay_osd[n].packed); } static void cmd_osd_overlay(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; double rc[4] = {0}; struct osd_external_ass ov = { .owner = cmd->cmd->sender, .id = cmd->args[0].v.i64, .format = cmd->args[1].v.i, .data = cmd->args[2].v.s, .res_x = cmd->args[3].v.i, .res_y = cmd->args[4].v.i, .z = cmd->args[5].v.i, .hidden = cmd->args[6].v.b, .out_rc = cmd->args[7].v.b ? rc : NULL, }; osd_set_external(mpctx->osd, &ov); struct mpv_node *res = &cmd->result; node_init(res, MPV_FORMAT_NODE_MAP, NULL); // (An empty rc uses INFINITY, avoid in JSON, just leave it unset.) if (rc[0] < rc[2] && rc[1] < rc[3]) { node_map_add_double(res, "x0", rc[0]); node_map_add_double(res, "y0", rc[1]); node_map_add_double(res, "x1", rc[2]); node_map_add_double(res, "y1", rc[3]); } mp_wakeup_core(mpctx); } static struct track *find_track_with_url(struct MPContext *mpctx, int type, const char *url) { for (int n = 0; n < mpctx->num_tracks; n++) { struct track *track = mpctx->tracks[n]; if (track && track->type == type && track->is_external && strcmp(track->external_filename, url) == 0) return track; } return NULL; } // Whether this property should react to key events generated by auto-repeat. static bool check_property_autorepeat(char *property, struct MPContext *mpctx) { struct m_option prop = {0}; if (mp_property_do(property, M_PROPERTY_GET_TYPE, &prop, mpctx) <= 0) return true; // This is a heuristic at best. if (prop.type->flags & M_OPT_TYPE_CHOICE) return false; return true; } // Whether changes to this property (add/cycle cmds) benefit from cmd->scale static bool check_property_scalable(char *property, struct MPContext *mpctx) { struct m_option prop = {0}; if (mp_property_do(property, M_PROPERTY_GET_TYPE, &prop, mpctx) <= 0) return true; // These properties are backed by a floating-point number return prop.type == &m_option_type_float || prop.type == &m_option_type_double || prop.type == &m_option_type_time || prop.type == &m_option_type_aspect; } static void show_property_status(struct mp_cmd_ctx *cmd, const char *name, int r) { struct MPContext *mpctx = cmd->mpctx; struct MPOpts *opts = mpctx->opts; int osd_duration = opts->osd_duration; int osdl = cmd->msg_osd ? 1 : OSD_LEVEL_INVISIBLE; if (r == M_PROPERTY_OK || r == M_PROPERTY_UNAVAILABLE) { show_property_osd(mpctx, name, cmd->on_osd); if (r == M_PROPERTY_UNAVAILABLE) cmd->success = false; } else if (r == M_PROPERTY_UNKNOWN) { set_osd_msg(mpctx, osdl, osd_duration, "Unknown property: '%s'", name); cmd->success = false; } else if (r <= 0) { set_osd_msg(mpctx, osdl, osd_duration, "Failed to set property '%s'", name); cmd->success = false; } } static void change_property_cmd(struct mp_cmd_ctx *cmd, const char *name, int action, void *arg) { int r = mp_property_do(name, action, arg, cmd->mpctx); show_property_status(cmd, name, r); } static void cmd_cycle_values(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int first = 0, dir = 1; if (strcmp(cmd->args[first].v.s, "!reverse") == 0) { first += 1; dir = -1; } const char *name = cmd->args[first].v.s; first += 1; if (first >= cmd->num_args) { MP_ERR(mpctx, "cycle-values command does not have any value arguments.\n"); cmd->success = false; return; } struct m_option prop = {0}; int r = mp_property_do(name, M_PROPERTY_GET_TYPE, &prop, mpctx); if (r <= 0) { show_property_status(cmd, name, r); return; } union m_option_value curval = m_option_value_default; r = mp_property_do(name, M_PROPERTY_GET, &curval, mpctx); if (r <= 0) { show_property_status(cmd, name, r); return; } int current = -1; for (int n = first; n < cmd->num_args; n++) { union m_option_value val = m_option_value_default; if (m_option_parse(mpctx->log, &prop, bstr0(name), bstr0(cmd->args[n].v.s), &val) < 0) continue; if (m_option_equal(&prop, &curval, &val)) current = n; m_option_free(&prop, &val); if (current >= 0) break; } m_option_free(&prop, &curval); if (current >= 0) { current += dir; if (current < first) current = cmd->num_args - 1; if (current >= cmd->num_args) current = first; } else { MP_VERBOSE(mpctx, "Current value not found. Picking default.\n"); current = dir > 0 ? first : cmd->num_args - 1; } change_property_cmd(cmd, name, M_PROPERTY_SET_STRING, cmd->args[current].v.s); } struct cmd_list_ctx { struct MPContext *mpctx; // actual list command struct mp_cmd_ctx *parent; bool current_valid; mp_thread_id current_tid; bool completed_recursive; // list of sub commands yet to run struct mp_cmd **sub; int num_sub; }; static void continue_cmd_list(struct cmd_list_ctx *list); static void on_cmd_list_sub_completion(struct mp_cmd_ctx *cmd) { struct cmd_list_ctx *list = cmd->on_completion_priv; if (list->current_valid && mp_thread_id_equal(list->current_tid, mp_thread_current_id())) { list->completed_recursive = true; } else { continue_cmd_list(list); } } static void continue_cmd_list(struct cmd_list_ctx *list) { while (list->parent->args[0].v.p) { struct mp_cmd *sub = list->parent->args[0].v.p; list->parent->args[0].v.p = sub->queue_next; ta_set_parent(sub, NULL); if (sub->flags & MP_ASYNC_CMD) { // We run it "detached" (fire & forget) run_command(list->mpctx, sub, NULL, NULL, NULL); } else { // Run the next command once this one completes. list->completed_recursive = false; list->current_valid = true; list->current_tid = mp_thread_current_id(); run_command(list->mpctx, sub, NULL, on_cmd_list_sub_completion, list); list->current_valid = false; // run_command() either recursively calls the completion function, // or lets the command continue run in the background. If it was // completed recursively, we can just continue our loop. Otherwise // the completion handler will invoke this loop again elsewhere. // We could unconditionally call continue_cmd_list() in the handler // instead, but then stack depth would grow with list length. if (!list->completed_recursive) return; } } mp_cmd_ctx_complete(list->parent); talloc_free(list); } static void cmd_list(void *p) { struct mp_cmd_ctx *cmd = p; cmd->completed = false; struct cmd_list_ctx *list = talloc_zero(NULL, struct cmd_list_ctx); list->mpctx = cmd->mpctx; list->parent = p; continue_cmd_list(list); } const struct mp_cmd_def mp_cmd_list = { "list", cmd_list, .exec_async = true }; // Signal that the command is complete now. This also deallocates cmd. // You must call this function in a state where the core is locked for the // current thread (e.g. from the main thread, or from within mp_dispatch_lock()). // Completion means the command is finished, even if it errored or never ran. // Keep in mind that calling this can execute further user command that can // change arbitrary state (due to cmd_list). void mp_cmd_ctx_complete(struct mp_cmd_ctx *cmd) { cmd->completed = true; if (!cmd->success) mpv_free_node_contents(&cmd->result); if (cmd->on_completion) cmd->on_completion(cmd); if (cmd->abort) mp_abort_remove(cmd->mpctx, cmd->abort); mpv_free_node_contents(&cmd->result); talloc_free(cmd); } static void run_command_on_worker_thread(void *p) { struct mp_cmd_ctx *ctx = p; struct MPContext *mpctx = ctx->mpctx; mp_core_lock(mpctx); bool exec_async = ctx->cmd->def->exec_async; ctx->cmd->def->handler(ctx); if (!exec_async) mp_cmd_ctx_complete(ctx); mpctx->outstanding_async -= 1; if (!mpctx->outstanding_async && mp_is_shutting_down(mpctx)) mp_wakeup_core(mpctx); mp_core_unlock(mpctx); } // Run the given command. Upon command completion, on_completion is called. This // can happen within the function, or for async commands, some time after the // function returns (the caller is supposed to be able to handle both cases). In // both cases, the callback will be called while the core is locked (i.e. you // can access the core freely). // If abort is non-NULL, then the caller creates the abort object. It must have // been allocated with talloc. run_command() will register/unregister/destroy // it. Must not be set if cmd->def->can_abort==false. // on_completion_priv is copied to mp_cmd_ctx.on_completion_priv and can be // accessed from the completion callback. // The completion callback is invoked exactly once. If it's NULL, it's ignored. // Ownership of cmd goes to the caller. void run_command(struct MPContext *mpctx, struct mp_cmd *cmd, struct mp_abort_entry *abort, void (*on_completion)(struct mp_cmd_ctx *cmd), void *on_completion_priv) { struct mp_cmd_ctx *ctx = talloc(NULL, struct mp_cmd_ctx); *ctx = (struct mp_cmd_ctx){ .mpctx = mpctx, .cmd = talloc_steal(ctx, cmd), .args = cmd->args, .num_args = cmd->nargs, .priv = cmd->def->priv, .abort = talloc_steal(ctx, abort), .success = true, .completed = true, .on_completion = on_completion, .on_completion_priv = on_completion_priv, }; if (!ctx->abort && cmd->def->can_abort) ctx->abort = talloc_zero(ctx, struct mp_abort_entry); assert(cmd->def->can_abort == !!ctx->abort); if (ctx->abort) { ctx->abort->coupled_to_playback |= cmd->def->abort_on_playback_end; mp_abort_add(mpctx, ctx->abort); } struct MPOpts *opts = mpctx->opts; ctx->on_osd = cmd->flags & MP_ON_OSD_FLAGS; bool auto_osd = ctx->on_osd == MP_ON_OSD_AUTO; ctx->msg_osd = auto_osd || (ctx->on_osd & MP_ON_OSD_MSG); ctx->bar_osd = auto_osd || (ctx->on_osd & MP_ON_OSD_BAR); ctx->seek_msg_osd = auto_osd ? opts->osd_on_seek & 2 : ctx->msg_osd; ctx->seek_bar_osd = auto_osd ? opts->osd_on_seek & 1 : ctx->bar_osd; bool noise = cmd->def->is_noisy || cmd->mouse_move; mp_cmd_dump(mpctx->log, noise ? MSGL_TRACE : MSGL_DEBUG, "Run command:", cmd); if (cmd->flags & MP_EXPAND_PROPERTIES) { for (int n = 0; n < cmd->nargs; n++) { if (cmd->args[n].type->type == CONF_TYPE_STRING) { char *s = mp_property_expand_string(mpctx, cmd->args[n].v.s); if (!s) { ctx->success = false; mp_cmd_ctx_complete(ctx); return; } talloc_free(cmd->args[n].v.s); cmd->args[n].v.s = s; } } } if (cmd->def->spawn_thread) { mpctx->outstanding_async += 1; // prevent that core disappears if (!mp_thread_pool_queue(mpctx->thread_pool, run_command_on_worker_thread, ctx)) { mpctx->outstanding_async -= 1; ctx->success = false; mp_cmd_ctx_complete(ctx); } } else { bool exec_async = cmd->def->exec_async; cmd->def->handler(ctx); if (!exec_async) mp_cmd_ctx_complete(ctx); } } // When a command shows a message. status is the level (e.g. MSGL_INFO), and // msg+vararg is as in printf (don't include a trailing "\n"). void mp_cmd_msg(struct mp_cmd_ctx *cmd, int status, const char *msg, ...) { va_list ap; char *s; va_start(ap, msg); s = talloc_vasprintf(NULL, msg, ap); va_end(ap); MP_MSG(cmd->mpctx, status, "%s\n", s); if (cmd->msg_osd && status <= MSGL_INFO) set_osd_msg(cmd->mpctx, 1, cmd->mpctx->opts->osd_duration, "%s", s); talloc_free(s); } static void cmd_seek(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; double v = cmd->args[0].v.d * cmd->cmd->scale; int abs = cmd->args[1].v.i & 3; enum seek_precision precision = MPSEEK_DEFAULT; switch (((cmd->args[2].v.i | cmd->args[1].v.i) >> 3) & 3) { case 1: precision = MPSEEK_KEYFRAME; break; case 2: precision = MPSEEK_EXACT; break; } if (!mpctx->playback_initialized) { cmd->success = false; return; } mark_seek(mpctx); switch (abs) { case 0: { // Relative seek queue_seek(mpctx, MPSEEK_RELATIVE, v, precision, MPSEEK_FLAG_DELAY); set_osd_function(mpctx, (v > 0) ? OSD_FFW : OSD_REW); break; } case 1: { // Absolute seek by percentage double ratio = v / 100.0; double cur_pos = get_current_pos_ratio(mpctx, false); queue_seek(mpctx, MPSEEK_FACTOR, ratio, precision, MPSEEK_FLAG_DELAY); set_osd_function(mpctx, cur_pos < ratio ? OSD_FFW : OSD_REW); break; } case 2: { // Absolute seek to a timestamp in seconds if (v < 0) { // Seek from end double len = get_time_length(mpctx); if (len < 0) { cmd->success = false; return; } v = MPMAX(0, len + v); } queue_seek(mpctx, MPSEEK_ABSOLUTE, v, precision, MPSEEK_FLAG_DELAY); set_osd_function(mpctx, v > get_current_time(mpctx) ? OSD_FFW : OSD_REW); break; } case 3: { // Relative seek by percentage queue_seek(mpctx, MPSEEK_FACTOR, get_current_pos_ratio(mpctx, false) + v / 100.0, precision, MPSEEK_FLAG_DELAY); set_osd_function(mpctx, v > 0 ? OSD_FFW : OSD_REW); break; }} if (cmd->seek_bar_osd) mpctx->add_osd_seek_info |= OSD_SEEK_INFO_BAR; if (cmd->seek_msg_osd) mpctx->add_osd_seek_info |= OSD_SEEK_INFO_TEXT; } static void cmd_revert_seek(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; struct command_ctx *cmdctx = mpctx->command_ctx; if (!mpctx->playback_initialized) { cmd->success = false; return; } double oldpts = cmdctx->last_seek_pts; if (cmdctx->marked_pts != MP_NOPTS_VALUE) oldpts = cmdctx->marked_pts; if (cmd->args[0].v.i & 3) { cmdctx->marked_pts = get_current_time(mpctx); cmdctx->marked_permanent = cmd->args[0].v.i & 1; } else if (oldpts != MP_NOPTS_VALUE) { if (!cmdctx->marked_permanent) { cmdctx->marked_pts = MP_NOPTS_VALUE; cmdctx->last_seek_pts = get_current_time(mpctx); } queue_seek(mpctx, MPSEEK_ABSOLUTE, oldpts, MPSEEK_EXACT, MPSEEK_FLAG_DELAY); set_osd_function(mpctx, OSD_REW); if (cmd->seek_bar_osd) mpctx->add_osd_seek_info |= OSD_SEEK_INFO_BAR; if (cmd->seek_msg_osd) mpctx->add_osd_seek_info |= OSD_SEEK_INFO_TEXT; } else { cmd->success = false; } } static void cmd_set(void *p) { struct mp_cmd_ctx *cmd = p; change_property_cmd(cmd, cmd->args[0].v.s, M_PROPERTY_SET_STRING, cmd->args[1].v.s); } static void cmd_del(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; const char *name = cmd->args[0].v.s; int osdl = cmd->msg_osd ? 1 : OSD_LEVEL_INVISIBLE; int osd_duration = mpctx->opts->osd_duration; int r = mp_property_do(name, M_PROPERTY_DELETE, NULL, mpctx); if (r == M_PROPERTY_OK) { set_osd_msg(mpctx, osdl, osd_duration, "Deleted property: '%s'", name); cmd->success = true; } else if (r == M_PROPERTY_UNKNOWN) { set_osd_msg(mpctx, osdl, osd_duration, "Unknown property: '%s'", name); cmd->success = false; } else if (r <= 0) { set_osd_msg(mpctx, osdl, osd_duration, "Failed to set property '%s'", name); cmd->success = false; } } static void cmd_change_list(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; char *name = cmd->args[0].v.s; char *op = cmd->args[1].v.s; char *value = cmd->args[2].v.s; int osd_duration = mpctx->opts->osd_duration; int osdl = cmd->msg_osd ? 1 : OSD_LEVEL_INVISIBLE; struct m_option prop = {0}; if (mp_property_do(name, M_PROPERTY_GET_TYPE, &prop, mpctx) <= 0) { set_osd_msg(mpctx, osdl, osd_duration, "Unknown option: '%s'", name); cmd->success = false; return; } const struct m_option_type *type = prop.type; bool found = false; for (int i = 0; type->actions && type->actions[i].name; i++) { const struct m_option_action *action = &type->actions[i]; if (strcmp(action->name, op) == 0) found = true; } if (!found) { set_osd_msg(mpctx, osdl, osd_duration, "Unknown action: '%s'", op); cmd->success = false; return; } union m_option_value val = m_option_value_default; if (mp_property_do(name, M_PROPERTY_GET, &val, mpctx) <= 0) { set_osd_msg(mpctx, osdl, osd_duration, "Could not read: '%s'", name); cmd->success = false; return; } char *optname = mp_tprintf(80, "%s-%s", name, op); // the dirty truth int r = m_option_parse(mpctx->log, &prop, bstr0(optname), bstr0(value), &val); if (r >= 0 && mp_property_do(name, M_PROPERTY_SET, &val, mpctx) <= 0) r = -1; m_option_free(&prop, &val); if (r < 0) { set_osd_msg(mpctx, osdl, osd_duration, "Failed setting option: '%s'", name); cmd->success = false; return; } show_property_osd(mpctx, name, cmd->on_osd); } static void cmd_add_cycle(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; bool is_cycle = !!cmd->priv; char *property = cmd->args[0].v.s; if (cmd->cmd->repeated && !check_property_autorepeat(property, mpctx) && !(cmd->cmd->flags & MP_ALLOW_REPEAT) /* "repeatable" prefix */ ) { MP_VERBOSE(mpctx, "Dropping command '%s' from auto-repeated key.\n", cmd->cmd->original); return; } double scale = 1; int scale_units = cmd->cmd->scale_units; if (check_property_scalable(property, mpctx)) { scale = cmd->cmd->scale; scale_units = 1; } for (int i = 0; i < scale_units; i++) { struct m_property_switch_arg s = { .inc = cmd->args[1].v.d * scale, .wrap = is_cycle, }; change_property_cmd(cmd, property, M_PROPERTY_SWITCH, &s); if (!cmd->success) return; } } static void cmd_multiply(void *p) { struct mp_cmd_ctx *cmd = p; change_property_cmd(cmd, cmd->args[0].v.s, M_PROPERTY_MULTIPLY, &cmd->args[1].v.d); } static void cmd_frame_step(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; if (!mpctx->playback_initialized) { cmd->success = false; return; } if (cmd->cmd->is_up_down) { if (cmd->cmd->is_up) { if (mpctx->step_frames < 1) set_pause_state(mpctx, true); } else { if (cmd->cmd->repeated) { set_pause_state(mpctx, false); } else { add_step_frame(mpctx, 1); } } } else { add_step_frame(mpctx, 1); } } static void cmd_frame_back_step(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; if (!mpctx->playback_initialized) { cmd->success = false; return; } add_step_frame(mpctx, -1); } static void cmd_quit(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; bool write_watch_later = *(bool *)cmd->priv; if (write_watch_later || mpctx->opts->position_save_on_quit) mp_write_watch_later_conf(mpctx); mpctx->stop_play = PT_QUIT; mpctx->quit_custom_rc = cmd->args[0].v.i; mpctx->has_quit_custom_rc = true; mp_wakeup_core(mpctx); } static void cmd_playlist_next_prev(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int dir = *(int *)cmd->priv; int force = cmd->args[0].v.i; struct playlist_entry *e = mp_next_file(mpctx, dir, force); if (!e && !force) { cmd->success = false; return; } mp_set_playlist_entry(mpctx, e); if (cmd->on_osd & MP_ON_OSD_MSG) mpctx->add_osd_seek_info |= OSD_SEEK_INFO_CURRENT_FILE; } static void cmd_playlist_next_prev_playlist(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int direction = *(int *)cmd->priv; struct playlist_entry *entry = playlist_get_first_in_next_playlist(mpctx->playlist, direction); if (!entry && mpctx->opts->loop_times != 1 && mpctx->playlist->current) { entry = direction > 0 ? playlist_get_first(mpctx->playlist) : playlist_get_last(mpctx->playlist); if (entry && entry->playlist_path && mpctx->playlist->current->playlist_path && strcmp(entry->playlist_path, mpctx->playlist->current->playlist_path) == 0) entry = NULL; if (direction > 0 && entry && mpctx->opts->loop_times > 1) { mpctx->opts->loop_times--; m_config_notify_change_opt_ptr(mpctx->mconfig, &mpctx->opts->loop_times); } if (direction < 0) entry = playlist_get_first_in_same_playlist( entry, mpctx->playlist->current->playlist_path); } if (!entry) { cmd->success = false; return; } mp_set_playlist_entry(mpctx, entry); if (cmd->on_osd & MP_ON_OSD_MSG) mpctx->add_osd_seek_info |= OSD_SEEK_INFO_CURRENT_FILE; } static void cmd_playlist_play_index(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; struct playlist *pl = mpctx->playlist; int pos = cmd->args[0].v.i; if (pos == -2) pos = playlist_entry_to_index(pl, pl->current); mp_set_playlist_entry(mpctx, playlist_entry_from_index(pl, pos)); if (cmd->on_osd & MP_ON_OSD_MSG) mpctx->add_osd_seek_info |= OSD_SEEK_INFO_CURRENT_FILE; } static void cmd_sub_step_seek(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; bool step = *(bool *)cmd->priv; int track_ind = cmd->args[1].v.i; if (!mpctx->playback_initialized) { cmd->success = false; return; } struct track *track = mpctx->current_track[track_ind][STREAM_SUB]; struct dec_sub *sub = track ? track->d_sub : NULL; double refpts = get_current_time(mpctx); if (sub && refpts != MP_NOPTS_VALUE) { double a[2]; a[0] = refpts; a[1] = cmd->args[0].v.i; if (sub_control(sub, SD_CTRL_SUB_STEP, a) > 0) { if (step) { mpctx->opts->subs_shared->sub_delay[track_ind] -= a[0] - refpts; m_config_notify_change_opt_ptr_notify(mpctx->mconfig, &mpctx->opts->subs_shared->sub_delay[track_ind]); show_property_osd( mpctx, track_ind == 0 ? "sub-delay" : "secondary-sub-delay", cmd->on_osd); } else { // We can easily seek/step to the wrong subtitle line (because // video frame PTS and sub PTS rarely match exactly). // sub/sd_ass.c adds SUB_SEEK_OFFSET as a workaround, and we // need an even bigger offset without a video. if (!mpctx->current_track[0][STREAM_VIDEO] || mpctx->current_track[0][STREAM_VIDEO]->image) { a[0] += SUB_SEEK_WITHOUT_VIDEO_OFFSET - SUB_SEEK_OFFSET; } mark_seek(mpctx); queue_seek(mpctx, MPSEEK_ABSOLUTE, a[0], MPSEEK_EXACT, MPSEEK_FLAG_DELAY); set_osd_function(mpctx, (a[0] > refpts) ? OSD_FFW : OSD_REW); if (cmd->seek_bar_osd) mpctx->add_osd_seek_info |= OSD_SEEK_INFO_BAR; if (cmd->seek_msg_osd) mpctx->add_osd_seek_info |= OSD_SEEK_INFO_TEXT; } } } } static void cmd_print_text(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; MP_INFO(mpctx, "%s\n", cmd->args[0].v.s); } static void cmd_show_text(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int osd_duration = mpctx->opts->osd_duration; // if no argument supplied use default osd_duration, else ms. set_osd_msg(mpctx, cmd->args[2].v.i, (cmd->args[1].v.i < 0 ? osd_duration : cmd->args[1].v.i), "%s", cmd->args[0].v.s); } static void cmd_expand_text(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; cmd->result = (mpv_node){ .format = MPV_FORMAT_STRING, .u.string = mp_property_expand_string(mpctx, cmd->args[0].v.s) }; } static void cmd_expand_path(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; cmd->result = (mpv_node){ .format = MPV_FORMAT_STRING, .u.string = mp_get_user_path(NULL, mpctx->global, cmd->args[0].v.s) }; } static void cmd_normalize_path(void *p) { struct mp_cmd_ctx *cmd = p; void *ctx = talloc_new(NULL); cmd->result = (mpv_node){ .format = MPV_FORMAT_STRING, .u.string = talloc_strdup(NULL, mp_normalize_path(ctx, cmd->args[0].v.s)), }; talloc_free(ctx); } static void cmd_escape_ass(void *p) { struct mp_cmd_ctx *cmd = p; bstr dst = {0}; osd_mangle_ass(&dst, cmd->args[0].v.s, true); cmd->result = (mpv_node){ .format = MPV_FORMAT_STRING, .u.string = dst.len ? (char *)dst.start : talloc_strdup(NULL, ""), }; } static struct load_action get_load_action(struct MPContext *mpctx, int action_flag) { switch (action_flag) { case 0: // replace return (struct load_action){LOAD_TYPE_REPLACE, .play = true}; case 1: // append return (struct load_action){LOAD_TYPE_APPEND, .play = false}; case 2: // append-play return (struct load_action){LOAD_TYPE_APPEND, .play = true}; case 3: // insert-next return (struct load_action){LOAD_TYPE_INSERT_NEXT, .play = false}; case 4: // insert-next-play return (struct load_action){LOAD_TYPE_INSERT_NEXT, .play = true}; case 5: // insert-at return (struct load_action){LOAD_TYPE_INSERT_AT, .play = false}; case 6: // insert-at-play return (struct load_action){LOAD_TYPE_INSERT_AT, .play = true}; default: // default: replace return (struct load_action){LOAD_TYPE_REPLACE, .play = true}; } } static struct playlist_entry *get_insert_entry(struct MPContext *mpctx, struct load_action *action, int insert_at_idx) { switch (action->type) { case LOAD_TYPE_INSERT_NEXT: return playlist_get_next(mpctx->playlist, +1); case LOAD_TYPE_INSERT_AT: return playlist_entry_from_index(mpctx->playlist, insert_at_idx); case LOAD_TYPE_REPLACE: case LOAD_TYPE_APPEND: default: return NULL; } } static void cmd_loadfile(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; char *filename = cmd->args[0].v.s; int action_flag = cmd->args[1].v.i; int insert_at_idx = cmd->args[2].v.i; struct load_action action = get_load_action(mpctx, action_flag); if (action.type == LOAD_TYPE_REPLACE) playlist_clear(mpctx->playlist); struct playlist_entry *entry = playlist_entry_new(filename); if (cmd->args[3].v.str_list) { char **pairs = cmd->args[3].v.str_list; for (int i = 0; pairs[i] && pairs[i + 1]; i += 2) playlist_entry_add_param(entry, bstr0(pairs[i]), bstr0(pairs[i + 1])); } struct playlist_entry *at = get_insert_entry(mpctx, &action, insert_at_idx); playlist_insert_at(mpctx->playlist, entry, at); struct mpv_node *res = &cmd->result; node_init(res, MPV_FORMAT_NODE_MAP, NULL); node_map_add_int64(res, "playlist_entry_id", entry->id); if (action.type == LOAD_TYPE_REPLACE || (action.play && !mpctx->playlist->current)) { if (mpctx->opts->position_save_on_quit) // requested in issue #1148 mp_write_watch_later_conf(mpctx); mp_set_playlist_entry(mpctx, entry); } mp_notify(mpctx, MP_EVENT_CHANGE_PLAYLIST, NULL); mp_wakeup_core(mpctx); } static void cmd_loadlist(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; char *filename = cmd->args[0].v.s; int action_flag = cmd->args[1].v.i; int insert_at_idx = cmd->args[2].v.i; struct load_action action = get_load_action(mpctx, action_flag); struct playlist *pl = playlist_parse_file(filename, cmd->abort->cancel, mpctx->global); if (pl) { prepare_playlist(mpctx, pl); struct playlist_entry *new = pl->current; if (action.type == LOAD_TYPE_REPLACE) playlist_clear(mpctx->playlist); struct playlist_entry *first = playlist_entry_from_index(pl, 0); int num_entries = pl->num_entries; struct playlist_entry *at = get_insert_entry(mpctx, &action, insert_at_idx); if (at == NULL) { playlist_append_entries(mpctx->playlist, pl); } else { int at_index = playlist_entry_to_index(mpctx->playlist, at); playlist_transfer_entries_to(mpctx->playlist, at_index, pl); } talloc_free(pl); if (!new) new = playlist_get_first(mpctx->playlist); if ((action.type == LOAD_TYPE_REPLACE || (action.play && !mpctx->playlist->current)) && new) { mp_set_playlist_entry(mpctx, new); } struct mpv_node *res = &cmd->result; node_init(res, MPV_FORMAT_NODE_MAP, NULL); if (num_entries) { node_map_add_int64(res, "playlist_entry_id", first->id); node_map_add_int64(res, "num_entries", num_entries); } mp_notify(mpctx, MP_EVENT_CHANGE_PLAYLIST, NULL); mp_wakeup_core(mpctx); } else { MP_ERR(mpctx, "Unable to load playlist %s.\n", filename); cmd->success = false; } } static void cmd_playlist_clear(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; // Supposed to clear the playlist, except the currently played item. if (mpctx->playlist->current_was_replaced) mpctx->playlist->current = NULL; playlist_clear_except_current(mpctx->playlist); mp_notify(mpctx, MP_EVENT_CHANGE_PLAYLIST, NULL); mp_wakeup_core(mpctx); } static void cmd_playlist_remove(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; struct playlist_entry *e = playlist_entry_from_index(mpctx->playlist, cmd->args[0].v.i); if (cmd->args[0].v.i < 0) e = mpctx->playlist->current; if (!e) { cmd->success = false; return; } // Can't play a removed entry if (mpctx->playlist->current == e && !mpctx->stop_play) mpctx->stop_play = PT_NEXT_ENTRY; playlist_remove(mpctx->playlist, e); mp_notify(mpctx, MP_EVENT_CHANGE_PLAYLIST, NULL); mp_wakeup_core(mpctx); } static void cmd_playlist_move(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; struct playlist_entry *e1 = playlist_entry_from_index(mpctx->playlist, cmd->args[0].v.i); struct playlist_entry *e2 = playlist_entry_from_index(mpctx->playlist, cmd->args[1].v.i); if (!e1) { cmd->success = false; return; } playlist_move(mpctx->playlist, e1, e2); mp_notify(mpctx, MP_EVENT_CHANGE_PLAYLIST, NULL); } static void cmd_playlist_shuffle(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; playlist_shuffle(mpctx->playlist); mp_notify(mpctx, MP_EVENT_CHANGE_PLAYLIST, NULL); } static void cmd_playlist_unshuffle(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; playlist_unshuffle(mpctx->playlist); mp_notify(mpctx, MP_EVENT_CHANGE_PLAYLIST, NULL); } static void cmd_stop(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int flags = cmd->args[0].v.i; if (!(flags & 1)) playlist_clear(mpctx->playlist); if (mpctx->opts->player_idle_mode < 2 && mpctx->opts->position_save_on_quit) { mp_write_watch_later_conf(mpctx); } if (mpctx->stop_play != PT_QUIT) mpctx->stop_play = PT_STOP; mp_wakeup_core(mpctx); } static void cmd_show_progress(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; mpctx->add_osd_seek_info |= (cmd->msg_osd ? OSD_SEEK_INFO_TEXT : 0) | (cmd->bar_osd ? OSD_SEEK_INFO_BAR : 0); // If we got neither (i.e. no-osd) force both like osd-auto. if (!mpctx->add_osd_seek_info) mpctx->add_osd_seek_info |= OSD_SEEK_INFO_TEXT | OSD_SEEK_INFO_BAR; mpctx->osd_force_update = true; mp_wakeup_core(mpctx); } static void cmd_track_add(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int type = *(int *)cmd->priv; bool is_albumart = type == STREAM_VIDEO && cmd->args[4].v.b; if (mpctx->stop_play) { cmd->success = false; return; } if (cmd->args[1].v.i == 2) { struct track *t = find_track_with_url(mpctx, type, cmd->args[0].v.s); if (t) { if (mpctx->playback_initialized) { mp_switch_track(mpctx, t->type, t, FLAG_MARK_SELECTION); print_track_list(mpctx, "Track switched:"); } else { mark_track_selection(mpctx, 0, t->type, t->user_tid); } return; } } int first = mp_add_external_file(mpctx, cmd->args[0].v.s, type, cmd->abort->cancel, is_albumart); if (first < 0) { cmd->success = false; return; } for (int n = first; n < mpctx->num_tracks; n++) { struct track *t = mpctx->tracks[n]; if (cmd->args[1].v.i == 1) { t->no_default = true; } else if (n == first) { if (mpctx->playback_initialized) { mp_switch_track(mpctx, t->type, t, FLAG_MARK_SELECTION); } else { mark_track_selection(mpctx, 0, t->type, t->user_tid); } } char *title = cmd->args[2].v.s; if (title && title[0]) t->title = talloc_strdup(t, title); char *lang = cmd->args[3].v.s; if (lang && lang[0]) t->lang = talloc_strdup(t, lang); } if (mpctx->playback_initialized) print_track_list(mpctx, "Track added:"); } static void cmd_track_remove(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int type = *(int *)cmd->priv; struct track *t = mp_track_by_tid(mpctx, type, cmd->args[0].v.i); if (!t) { cmd->success = false; return; } mp_remove_track(mpctx, t); if (mpctx->playback_initialized) print_track_list(mpctx, "Track removed:"); } static void cmd_track_reload(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int type = *(int *)cmd->priv; if (!mpctx->playback_initialized) { MP_ERR(mpctx, "Cannot reload while not initialized.\n"); cmd->success = false; return; } struct track *t = mp_track_by_tid(mpctx, type, cmd->args[0].v.i); int nt_num = -1; if (t && t->is_external && t->external_filename) { char *filename = talloc_strdup(NULL, t->external_filename); bool is_albumart = t->attached_picture; mp_remove_track(mpctx, t); nt_num = mp_add_external_file(mpctx, filename, type, cmd->abort->cancel, is_albumart); talloc_free(filename); } if (nt_num < 0) { cmd->success = false; return; } struct track *nt = mpctx->tracks[nt_num]; if (!nt->lang) nt->lang = bstrto0(nt, mp_guess_lang_from_filename(bstr0(nt->external_filename), NULL)); mp_switch_track(mpctx, nt->type, nt, 0); print_track_list(mpctx, "Reloaded:"); } static void cmd_rescan_external_files(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; if (mpctx->stop_play) { cmd->success = false; return; } autoload_external_files(mpctx, cmd->abort->cancel); if (!cmd->args[0].v.i && mpctx->playback_initialized) { // somewhat fuzzy and not ideal struct track *a = select_default_track(mpctx, 0, STREAM_AUDIO); if (a && a->is_external) mp_switch_track(mpctx, STREAM_AUDIO, a, 0); struct track *s = select_default_track(mpctx, 0, STREAM_SUB); if (s && s->is_external) mp_switch_track(mpctx, STREAM_SUB, s, 0); print_track_list(mpctx, "Track list:"); } } static void cmd_run(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; char **args = talloc_zero_array(NULL, char *, cmd->num_args + 1); for (int n = 0; n < cmd->num_args; n++) args[n] = cmd->args[n].v.s; mp_msg_flush_status_line(mpctx->log, true); struct mp_subprocess_opts opts = { .exe = args[0], .args = args, .fds = { {0, .src_fd = 0}, {1, .src_fd = 1}, {2, .src_fd = 2} }, .num_fds = 3, .detach = true, }; struct mp_subprocess_result res; mp_subprocess2(&opts, &res); if (res.error < 0) { mp_err(mpctx->log, "Starting subprocess failed: %s\n", mp_subprocess_err_str(res.error)); } talloc_free(args); } struct subprocess_fd_ctx { struct mp_log *log; void* talloc_ctx; int64_t max_size; int msgl; bool capture; bstr output; }; static void subprocess_read(void *p, char *data, size_t size) { struct subprocess_fd_ctx *ctx = p; if (ctx->capture) { if (ctx->output.len < ctx->max_size) bstr_xappend(ctx->talloc_ctx, &ctx->output, (bstr){data, size}); } else { mp_msg(ctx->log, ctx->msgl, "%.*s", (int)size, data); } } static void subprocess_write(void *p) { // Unused; we write a full buffer. } static void cmd_subprocess(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; char **args = cmd->args[0].v.str_list; bool playback_only = cmd->args[1].v.b; bool detach = cmd->args[5].v.b; char **env = cmd->args[6].v.str_list; bstr stdin_data = bstr0(cmd->args[7].v.s); bool passthrough_stdin = cmd->args[8].v.b; if (env && !env[0]) env = NULL; // do not actually set an empty environment if (!args || !args[0]) { MP_ERR(mpctx, "program name missing\n"); cmd->success = false; return; } if (stdin_data.len && passthrough_stdin) { MP_ERR(mpctx, "both stdin_data and passthrough_stdin set\n"); cmd->success = false; return; } void *tmp = talloc_new(NULL); struct mp_log *fdlog = mp_log_new(tmp, mpctx->log, cmd->cmd->sender); struct subprocess_fd_ctx fdctx[3]; for (int fd = 0; fd < 3; fd++) { fdctx[fd] = (struct subprocess_fd_ctx) { .log = fdlog, .talloc_ctx = tmp, .max_size = cmd->args[2].v.i, .msgl = fd == 2 ? MSGL_ERR : MSGL_INFO, }; } fdctx[1].capture = cmd->args[3].v.b; fdctx[2].capture = cmd->args[4].v.b; mp_mutex_lock(&mpctx->abort_lock); cmd->abort->coupled_to_playback = playback_only; mp_abort_recheck_locked(mpctx, cmd->abort); mp_mutex_unlock(&mpctx->abort_lock); mp_core_unlock(mpctx); struct mp_subprocess_opts opts = { .exe = args[0], .args = args, .env = env, .cancel = cmd->abort->cancel, .detach = detach, .fds = { { .fd = 0, // stdin .src_fd = passthrough_stdin ? 0 : -1, }, }, .num_fds = 1, }; // stdout, stderr for (int fd = 1; fd < 3; fd++) { bool capture = fdctx[fd].capture || !detach; opts.fds[opts.num_fds++] = (struct mp_subprocess_fd){ .fd = fd, .src_fd = capture ? -1 : fd, .on_read = capture ? subprocess_read : NULL, .on_read_ctx = &fdctx[fd], }; } // stdin if (stdin_data.len) { opts.fds[0] = (struct mp_subprocess_fd){ .fd = 0, .src_fd = -1, .on_write = subprocess_write, .on_write_ctx = &fdctx[0], .write_buf = &stdin_data, }; } struct mp_subprocess_result sres; mp_subprocess2(&opts, &sres); int status = sres.exit_status; char *error = NULL; if (sres.error < 0) { error = (char *)mp_subprocess_err_str(sres.error); status = sres.error; } mp_core_lock(mpctx); struct mpv_node *res = &cmd->result; node_init(res, MPV_FORMAT_NODE_MAP, NULL); node_map_add_int64(res, "status", status); node_map_add_flag(res, "killed_by_us", status == MP_SUBPROCESS_EKILLED_BY_US); node_map_add_string(res, "error_string", error ? error : ""); const char *sname[] = {NULL, "stdout", "stderr"}; for (int fd = 1; fd < 3; fd++) { if (!fdctx[fd].capture) continue; struct mpv_byte_array *ba = node_map_add(res, sname[fd], MPV_FORMAT_BYTE_ARRAY)->u.ba; *ba = (struct mpv_byte_array){ .data = talloc_steal(ba, fdctx[fd].output.start), .size = fdctx[fd].output.len, }; } talloc_free(tmp); } static void cmd_enable_input_section(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; mp_input_enable_section(mpctx->input, cmd->args[0].v.s, cmd->args[1].v.i); } static void cmd_disable_input_section(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; mp_input_disable_section(mpctx->input, cmd->args[0].v.s); } static void cmd_define_input_section(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; mp_input_define_section(mpctx->input, cmd->args[0].v.s, "", cmd->args[1].v.s, !cmd->args[2].v.i, cmd->cmd->sender); } static void cmd_ab_loop(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int osd_duration = mpctx->opts->osd_duration; int osdl = cmd->msg_osd ? 1 : OSD_LEVEL_INVISIBLE; double now = get_current_time(mpctx); if (mpctx->opts->ab_loop[0] == MP_NOPTS_VALUE) { mp_property_do("ab-loop-a", M_PROPERTY_SET, &now, mpctx); show_property_osd(mpctx, "ab-loop-a", cmd->on_osd); } else if (mpctx->opts->ab_loop[1] == MP_NOPTS_VALUE) { mp_property_do("ab-loop-b", M_PROPERTY_SET, &now, mpctx); show_property_osd(mpctx, "ab-loop-b", cmd->on_osd); } else { now = MP_NOPTS_VALUE; mp_property_do("ab-loop-a", M_PROPERTY_SET, &now, mpctx); mp_property_do("ab-loop-b", M_PROPERTY_SET, &now, mpctx); set_osd_msg(mpctx, osdl, osd_duration, "Clear A-B loop"); } } static void cmd_align_cache_ab(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; if (!mpctx->demuxer) return; double a = demux_probe_cache_dump_target(mpctx->demuxer, mpctx->opts->ab_loop[0], false); double b = demux_probe_cache_dump_target(mpctx->demuxer, mpctx->opts->ab_loop[1], true); mp_property_do("ab-loop-a", M_PROPERTY_SET, &a, mpctx); mp_property_do("ab-loop-b", M_PROPERTY_SET, &b, mpctx); // Happens to cover both properties. show_property_osd(mpctx, "ab-loop-b", cmd->on_osd); } static void cmd_drop_buffers(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; reset_playback_state(mpctx); if (mpctx->demuxer) demux_flush(mpctx->demuxer); } static void cmd_ao_reload(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; reload_audio_output(mpctx); } static void cmd_filter(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int type = *(int *)cmd->priv; cmd->success = edit_filters_osd(mpctx, type, cmd->args[0].v.s, cmd->args[1].v.s, cmd->msg_osd) >= 0; } static void cmd_filter_command(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int type = *(int *)cmd->priv; struct mp_output_chain *chain = NULL; if (type == STREAM_VIDEO) chain = mpctx->vo_chain ? mpctx->vo_chain->filter : NULL; if (type == STREAM_AUDIO) chain = mpctx->ao_chain ? mpctx->ao_chain->filter : NULL; if (!chain) { cmd->success = false; return; } struct mp_filter_command filter_cmd = { .type = MP_FILTER_COMMAND_TEXT, .target = cmd->args[3].v.s, .cmd = cmd->args[1].v.s, .arg = cmd->args[2].v.s, }; cmd->success = mp_output_chain_command(chain, cmd->args[0].v.s, &filter_cmd); } static void cmd_script_binding(void *p) { struct mp_cmd_ctx *cmd = p; struct mp_cmd *incmd = cmd->cmd; struct MPContext *mpctx = cmd->mpctx; mpv_event_client_message event = {0}; char *name = cmd->args[0].v.s; if (!name || !name[0]) { cmd->success = false; return; } char *sep = strchr(name, '/'); char *target = NULL; char space[MAX_CLIENT_NAME]; if (sep) { snprintf(space, sizeof(space), "%.*s", (int)(sep - name), name); target = space; name = sep + 1; } char state[3] = {'p', incmd->is_mouse_button ? 'm' : '-'}; if (incmd->is_up_down) state[0] = incmd->repeated ? 'r' : (incmd->is_up ? 'u' : 'd'); event.num_args = 5; event.args = (const char*[5]){"key-binding", name, state, incmd->key_name ? incmd->key_name : "", incmd->key_text ? incmd->key_text : ""}; if (mp_client_send_event_dup(mpctx, target, MPV_EVENT_CLIENT_MESSAGE, &event) < 0) { MP_VERBOSE(mpctx, "Can't find script '%s' when handling input.\n", target ? target : "-"); cmd->success = false; } } static void cmd_script_message_to(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; mpv_event_client_message *event = talloc_ptrtype(NULL, event); *event = (mpv_event_client_message){0}; for (int n = 1; n < cmd->num_args; n++) { MP_TARRAY_APPEND(event, event->args, event->num_args, talloc_strdup(event, cmd->args[n].v.s)); } if (mp_client_send_event(mpctx, cmd->args[0].v.s, 0, MPV_EVENT_CLIENT_MESSAGE, event) < 0) { MP_VERBOSE(mpctx, "Can't find script '%s' to send message to.\n", cmd->args[0].v.s); cmd->success = false; } } static void cmd_script_message(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; const char **args = talloc_array(NULL, const char *, cmd->num_args); mpv_event_client_message event = {.args = args}; for (int n = 0; n < cmd->num_args; n++) event.args[event.num_args++] = cmd->args[n].v.s; mp_client_broadcast_event(mpctx, MPV_EVENT_CLIENT_MESSAGE, &event); talloc_free(args); } static void cmd_ignore(void *p) { } static void cmd_write_watch_later_config(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; mp_write_watch_later_conf(mpctx); } static void cmd_delete_watch_later_config(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; char *filename = cmd->args[0].v.s; if (filename && !*filename) filename = NULL; mp_delete_watch_later_conf(mpctx, filename); } static void cmd_mouse(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int pre_key = 0; const int x = cmd->args[0].v.i, y = cmd->args[1].v.i; int button = cmd->args[2].v.i; if (mpctx->video_out && mpctx->video_out->config_ok) { int oldx, oldy, oldhover; mp_input_get_mouse_pos(mpctx->input, &oldx, &oldy, &oldhover); struct mp_osd_res vo_res = osd_get_vo_res(mpctx->osd); // TODO: VOs don't send outside positions. should we abort if outside? int hover = x >= 0 && y >= 0 && x < vo_res.w && y < vo_res.h; if (vo_res.w && vo_res.h && hover != oldhover) pre_key = hover ? MP_KEY_MOUSE_ENTER : MP_KEY_MOUSE_LEAVE; } if (button == -1) {// no button if (pre_key) mp_input_put_key_artificial(mpctx->input, pre_key, 1); mp_input_set_mouse_pos_artificial(mpctx->input, x, y); return; } if (button < 0 || button >= MP_KEY_MOUSE_BTN_COUNT) {// invalid button MP_ERR(mpctx, "%d is not a valid mouse button number.\n", button); cmd->success = false; return; } const bool dbc = cmd->args[3].v.i; if (dbc && button > (MP_MBTN_RIGHT - MP_MBTN_BASE)) { MP_ERR(mpctx, "%d is not a valid mouse button for double-clicks.\n", button); cmd->success = false; return; } button += dbc ? MP_MBTN_DBL_BASE : MP_MBTN_BASE; if (pre_key) mp_input_put_key_artificial(mpctx->input, pre_key, 1); mp_input_set_mouse_pos_artificial(mpctx->input, x, y); mp_input_put_key_artificial(mpctx->input, button, 1); } static void cmd_key(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int action = *(int *)cmd->priv; const char *key_name = cmd->args[0].v.s; if (key_name[0] == '\0' && action == MP_KEY_STATE_UP) { mp_input_put_key_artificial(mpctx->input, MP_INPUT_RELEASE_ALL, 1); } else { int code = mp_input_get_key_from_name(key_name); if (code < 0) { MP_ERR(mpctx, "%s is not a valid input name.\n", key_name); cmd->success = false; return; } double scale = action == 0 ? cmd->args[1].v.d : 1; mp_input_put_key_artificial(mpctx->input, code | action, scale); } } static void cmd_key_bind(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; int code = mp_input_get_key_from_name(cmd->args[0].v.s); if (code < 0) { MP_ERR(mpctx, "%s is not a valid input name.\n", cmd->args[0].v.s); cmd->success = false; return; } const char *target_cmd = cmd->args[1].v.s; mp_input_bind_key(mpctx->input, code, bstr0(target_cmd)); } static void cmd_apply_profile(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; char *profile = cmd->args[0].v.s; int mode = cmd->args[1].v.i; if (mode == 0) { cmd->success = m_config_set_profile(mpctx->mconfig, profile, 0) >= 0; } else { cmd->success = m_config_restore_profile(mpctx->mconfig, profile) >= 0; } } static void cmd_load_config_file(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; char *config_file = cmd->args[0].v.s; int r = m_config_parse_config_file(mpctx->mconfig, mpctx->global, config_file, NULL, 0); if (r < 1) { cmd->success = false; return; } mp_notify_property(mpctx, "profile-list"); } static void cmd_load_input_conf(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; char *config_file = cmd->args[0].v.s; cmd->success = mp_input_load_config_file(mpctx->input, config_file); } static void cmd_load_script(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; char *script = cmd->args[0].v.s; int64_t id = mp_load_user_script(mpctx, script); if (id > 0) { struct mpv_node *res = &cmd->result; node_init(res, MPV_FORMAT_NODE_MAP, NULL); node_map_add_int64(res, "client_id", id); } else { cmd->success = false; } } static void cache_dump_poll(struct MPContext *mpctx) { struct command_ctx *ctx = mpctx->command_ctx; struct mp_cmd_ctx *cmd = ctx->cache_dump_cmd; if (!cmd) return; // Can't close demuxer without stopping dumping. assert(mpctx->demuxer); if (mp_cancel_test(cmd->abort->cancel)) { // Synchronous abort. In particular, the dump command shall not report // completion to the user before the dump target file was closed. demux_cache_dump_set(mpctx->demuxer, 0, 0, NULL); assert(demux_cache_dump_get_status(mpctx->demuxer) <= 0); } int status = demux_cache_dump_get_status(mpctx->demuxer); if (status <= 0) { if (status < 0) { mp_cmd_msg(cmd, MSGL_ERR, "Cache dumping stopped due to error."); cmd->success = false; } else { mp_cmd_msg(cmd, MSGL_INFO, "Cache dumping successfully ended."); cmd->success = true; } ctx->cache_dump_cmd = NULL; mp_cmd_ctx_complete(cmd); } } void mp_abort_cache_dumping(struct MPContext *mpctx) { struct command_ctx *ctx = mpctx->command_ctx; if (ctx->cache_dump_cmd) mp_cancel_trigger(ctx->cache_dump_cmd->abort->cancel); cache_dump_poll(mpctx); assert(!ctx->cache_dump_cmd); // synchronous abort, must have worked } static void run_dump_cmd(struct mp_cmd_ctx *cmd, double start, double end, char *filename) { struct MPContext *mpctx = cmd->mpctx; struct command_ctx *ctx = mpctx->command_ctx; mp_abort_cache_dumping(mpctx); if (!mpctx->demuxer) { mp_cmd_msg(cmd, MSGL_ERR, "No demuxer open."); cmd->success = false; mp_cmd_ctx_complete(cmd); return; } mp_cmd_msg(cmd, MSGL_INFO, "Cache dumping started."); if (!demux_cache_dump_set(mpctx->demuxer, start, end, filename)) { mp_cmd_msg(cmd, MSGL_INFO, "Cache dumping stopped."); mp_cmd_ctx_complete(cmd); return; } ctx->cache_dump_cmd = cmd; cache_dump_poll(mpctx); } static void cmd_dump_cache(void *p) { struct mp_cmd_ctx *cmd = p; run_dump_cmd(cmd, cmd->args[0].v.d, cmd->args[1].v.d, cmd->args[2].v.s); } static void cmd_dump_cache_ab(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; run_dump_cmd(cmd, mpctx->opts->ab_loop[0], mpctx->opts->ab_loop[1], cmd->args[0].v.s); } static void cmd_begin_vo_dragging(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; struct vo *vo = mpctx->video_out; if (vo) vo_control(vo, VOCTRL_BEGIN_DRAGGING, NULL); } static void cmd_context_menu(void *p) { struct mp_cmd_ctx *cmd = p; struct MPContext *mpctx = cmd->mpctx; struct vo *vo = mpctx->video_out; if (vo) vo_control(vo, VOCTRL_SHOW_MENU, NULL); } /* This array defines all known commands. * The first field the command name used in libmpv and input.conf. * The second field is the handler function (see mp_cmd_def.handler and * run_command()). * Then comes the definition of each argument. They are defined like options, * except that the result is parsed into mp_cmd.args[] (thus the option variable * is a field in the mp_cmd_arg union field). Arguments are optional if either * defval is set (usually via OPTDEF_ macros), or the MP_CMD_OPT_ARG flag is * set, or if it's the last argument and .vararg is set. If .vararg is set, the * command has an arbitrary number of arguments, all using the type indicated by * the last argument (they are appended to mp_cmd.args[] starting at the last * argument's index). * Arguments have names, which can be used by named argument functions, e.g. in * Lua with mp.command_native(). */ // This does not specify the real destination of the command parameter values, // it just provides a dummy for the OPT_ macros. The real destination is an // array item in mp_cmd.args[], using the index of the option definition. #define OPT_BASE_STRUCT struct mp_cmd_arg const struct mp_cmd_def mp_cmds[] = { { "ignore", cmd_ignore, .is_ignore = true, .is_noisy = true, }, { "seek", cmd_seek, { {"target", OPT_TIME(v.d)}, {"flags", OPT_FLAGS(v.i, {"relative", 4|0}, {"-", 4|0}, {"absolute-percent", 4|1}, {"absolute", 4|2}, {"relative-percent", 4|3}, {"keyframes", 32|8}, {"exact", 32|16}), OPTDEF_INT(4|0)}, // backwards compatibility only {"legacy", OPT_CHOICE(v.i, {"unused", 0}, {"default-precise", 0}, {"keyframes", 32|8}, {"exact", 32|16}), .flags = MP_CMD_OPT_ARG}, }, .allow_auto_repeat = true, .scalable = true, }, { "revert-seek", cmd_revert_seek, { {"flags", OPT_FLAGS(v.i, {"mark", 2|0}, {"mark-permanent", 2|1}), .flags = MP_CMD_OPT_ARG} }, }, { "quit", cmd_quit, { {"code", OPT_INT(v.i), .flags = MP_CMD_OPT_ARG} }, .priv = &(const bool){0} }, { "quit-watch-later", cmd_quit, { {"code", OPT_INT(v.i), .flags = MP_CMD_OPT_ARG} }, .priv = &(const bool){1} }, { "stop", cmd_stop, { {"flags", OPT_FLAGS(v.i, {"keep-playlist", 1}), .flags = MP_CMD_OPT_ARG} } }, { "frame-step", cmd_frame_step, .allow_auto_repeat = true, .on_updown = true }, { "frame-back-step", cmd_frame_back_step, .allow_auto_repeat = true }, { "playlist-next", cmd_playlist_next_prev, { {"flags", OPT_CHOICE(v.i, {"weak", 0}, {"force", 1}), .flags = MP_CMD_OPT_ARG}, }, .priv = &(const int){1}, }, { "playlist-prev", cmd_playlist_next_prev, { {"flags", OPT_CHOICE(v.i, {"weak", 0}, {"force", 1}), .flags = MP_CMD_OPT_ARG}, }, .priv = &(const int){-1}, }, { "playlist-next-playlist", cmd_playlist_next_prev_playlist, .priv = &(const int){1} }, { "playlist-prev-playlist", cmd_playlist_next_prev_playlist, .priv = &(const int){-1} }, { "playlist-play-index", cmd_playlist_play_index, { {"index", OPT_CHOICE(v.i, {"current", -2}, {"none", -1}), M_RANGE(-1, INT_MAX)}, } }, { "playlist-shuffle", cmd_playlist_shuffle, }, { "playlist-unshuffle", cmd_playlist_unshuffle, }, { "sub-step", cmd_sub_step_seek, { {"skip", OPT_INT(v.i)}, {"flags", OPT_CHOICE(v.i, {"primary", 0}, {"secondary", 1}), OPTDEF_INT(0)}, }, .allow_auto_repeat = true, .priv = &(const bool){true} }, { "sub-seek", cmd_sub_step_seek, { {"skip", OPT_INT(v.i)}, {"flags", OPT_CHOICE(v.i, {"primary", 0}, {"secondary", 1}), OPTDEF_INT(0)}, }, .allow_auto_repeat = true, .priv = &(const bool){false} }, { "print-text", cmd_print_text, { {"text", OPT_STRING(v.s)} }, .is_noisy = true, .allow_auto_repeat = true }, { "show-text", cmd_show_text, { {"text", OPT_STRING(v.s)}, {"duration", OPT_INT(v.i), OPTDEF_INT(-1)}, {"level", OPT_INT(v.i), .flags = MP_CMD_OPT_ARG}, }, .is_noisy = true, .allow_auto_repeat = true}, { "expand-text", cmd_expand_text, { {"text", OPT_STRING(v.s)} }, .is_noisy = true }, { "expand-path", cmd_expand_path, { {"text", OPT_STRING(v.s)} }, .is_noisy = true }, { "normalize-path", cmd_normalize_path, { {"filename", OPT_STRING(v.s)} }}, { "escape-ass", cmd_escape_ass, { {"text", OPT_STRING(v.s)} }, .is_noisy = true }, { "show-progress", cmd_show_progress, .allow_auto_repeat = true, .is_noisy = true }, { "sub-add", cmd_track_add, { {"url", OPT_STRING(v.s)}, {"flags", OPT_CHOICE(v.i, {"select", 0}, {"auto", 1}, {"cached", 2}), .flags = MP_CMD_OPT_ARG}, {"title", OPT_STRING(v.s), .flags = MP_CMD_OPT_ARG}, {"lang", OPT_STRING(v.s), .flags = MP_CMD_OPT_ARG}, }, .priv = &(const int){STREAM_SUB}, .spawn_thread = true, .can_abort = true, .abort_on_playback_end = true, }, { "audio-add", cmd_track_add, { {"url", OPT_STRING(v.s)}, {"flags", OPT_CHOICE(v.i, {"select", 0}, {"auto", 1}, {"cached", 2}), .flags = MP_CMD_OPT_ARG}, {"title", OPT_STRING(v.s), .flags = MP_CMD_OPT_ARG}, {"lang", OPT_STRING(v.s), .flags = MP_CMD_OPT_ARG}, }, .priv = &(const int){STREAM_AUDIO}, .spawn_thread = true, .can_abort = true, .abort_on_playback_end = true, }, { "video-add", cmd_track_add, { {"url", OPT_STRING(v.s)}, {"flags", OPT_CHOICE(v.i, {"select", 0}, {"auto", 1}, {"cached", 2}), .flags = MP_CMD_OPT_ARG}, {"title", OPT_STRING(v.s), .flags = MP_CMD_OPT_ARG}, {"lang", OPT_STRING(v.s), .flags = MP_CMD_OPT_ARG}, {"albumart", OPT_BOOL(v.b), .flags = MP_CMD_OPT_ARG}, }, .priv = &(const int){STREAM_VIDEO}, .spawn_thread = true, .can_abort = true, .abort_on_playback_end = true, }, { "sub-remove", cmd_track_remove, { {"id", OPT_INT(v.i), OPTDEF_INT(-1)} }, .priv = &(const int){STREAM_SUB}, }, { "audio-remove", cmd_track_remove, { {"id", OPT_INT(v.i), OPTDEF_INT(-1)} }, .priv = &(const int){STREAM_AUDIO}, }, { "video-remove", cmd_track_remove, { {"id", OPT_INT(v.i), OPTDEF_INT(-1)} }, .priv = &(const int){STREAM_VIDEO}, }, { "sub-reload", cmd_track_reload, { {"id", OPT_INT(v.i), OPTDEF_INT(-1)} }, .priv = &(const int){STREAM_SUB}, .spawn_thread = true, .can_abort = true, .abort_on_playback_end = true, }, { "audio-reload", cmd_track_reload, { {"id", OPT_INT(v.i), OPTDEF_INT(-1)} }, .priv = &(const int){STREAM_AUDIO}, .spawn_thread = true, .can_abort = true, .abort_on_playback_end = true, }, { "video-reload", cmd_track_reload, { {"id", OPT_INT(v.i), OPTDEF_INT(-1)} }, .priv = &(const int){STREAM_VIDEO}, .spawn_thread = true, .can_abort = true, .abort_on_playback_end = true, }, { "rescan-external-files", cmd_rescan_external_files, { {"flags", OPT_CHOICE(v.i, {"keep-selection", 1}, {"reselect", 0}), .flags = MP_CMD_OPT_ARG}, }, .spawn_thread = true, .can_abort = true, .abort_on_playback_end = true, }, { "screenshot", cmd_screenshot, { {"flags", OPT_FLAGS(v.i, {"video", 4|0}, {"-", 4|0}, {"window", 4|1}, {"subtitles", 4|2}, {"each-frame", 8}), OPTDEF_INT(4|2)}, // backwards compatibility {"legacy", OPT_CHOICE(v.i, {"unused", 0}, {"single", 0}, {"each-frame", 8}), .flags = MP_CMD_OPT_ARG}, }, .spawn_thread = true, }, { "screenshot-to-file", cmd_screenshot_to_file, { {"filename", OPT_STRING(v.s)}, {"flags", OPT_CHOICE(v.i, {"video", 0}, {"window", 1}, {"subtitles", 2}), OPTDEF_INT(2)}, }, .spawn_thread = true, }, { "screenshot-raw", cmd_screenshot_raw, { {"flags", OPT_CHOICE(v.i, {"video", 0}, {"window", 1}, {"subtitles", 2}), OPTDEF_INT(2)}, }, }, { "loadfile", cmd_loadfile, { {"url", OPT_STRING(v.s)}, {"flags", OPT_CHOICE(v.i, {"replace", 0}, {"append", 1}, {"append-play", 2}, {"insert-next", 3}, {"insert-next-play", 4}, {"insert-at", 5}, {"insert-at-play", 6}), .flags = MP_CMD_OPT_ARG}, {"index", OPT_INT(v.i), OPTDEF_INT(-1)}, {"options", OPT_KEYVALUELIST(v.str_list), .flags = MP_CMD_OPT_ARG}, }, }, { "loadlist", cmd_loadlist, { {"url", OPT_STRING(v.s)}, {"flags", OPT_CHOICE(v.i, {"replace", 0}, {"append", 1}, {"append-play", 2}, {"insert-next", 3}, {"insert-next-play", 4}, {"insert-at", 5}, {"insert-at-play", 6}), .flags = MP_CMD_OPT_ARG}, {"index", OPT_INT(v.i), OPTDEF_INT(-1)}, }, .spawn_thread = true, .can_abort = true, }, { "playlist-clear", cmd_playlist_clear }, { "playlist-remove", cmd_playlist_remove, { {"index", OPT_CHOICE(v.i, {"current", -1}), .flags = MP_CMD_OPT_ARG, M_RANGE(0, INT_MAX)}, }}, { "playlist-move", cmd_playlist_move, { {"index1", OPT_INT(v.i)}, {"index2", OPT_INT(v.i)}, }}, { "run", cmd_run, { {"command", OPT_STRING(v.s)}, {"args", OPT_STRING(v.s)}, }, .vararg = true, }, { "subprocess", cmd_subprocess, { {"args", OPT_STRINGLIST(v.str_list)}, {"playback_only", OPT_BOOL(v.b), OPTDEF_INT(1)}, {"capture_size", OPT_BYTE_SIZE(v.i64), M_RANGE(0, INT_MAX), OPTDEF_INT64(64 * 1024 * 1024)}, {"capture_stdout", OPT_BOOL(v.b), .flags = MP_CMD_OPT_ARG}, {"capture_stderr", OPT_BOOL(v.b), .flags = MP_CMD_OPT_ARG}, {"detach", OPT_BOOL(v.b), .flags = MP_CMD_OPT_ARG}, {"env", OPT_STRINGLIST(v.str_list), .flags = MP_CMD_OPT_ARG}, {"stdin_data", OPT_STRING(v.s), .flags = MP_CMD_OPT_ARG}, {"passthrough_stdin", OPT_BOOL(v.b), .flags = MP_CMD_OPT_ARG}, }, .spawn_thread = true, .can_abort = true, }, { "set", cmd_set, {{"name", OPT_STRING(v.s)}, {"value", OPT_STRING(v.s)}}}, { "del", cmd_del, {{"name", OPT_STRING(v.s)}}}, { "change-list", cmd_change_list, { {"name", OPT_STRING(v.s)}, {"operation", OPT_STRING(v.s)}, {"value", OPT_STRING(v.s)} }}, { "add", cmd_add_cycle, { {"name", OPT_STRING(v.s)}, {"value", OPT_DOUBLE(v.d), OPTDEF_DOUBLE(1)}, }, .allow_auto_repeat = true, .scalable = true, }, { "cycle", cmd_add_cycle, { {"name", OPT_STRING(v.s)}, {"value", OPT_CYCLEDIR(v.d), OPTDEF_DOUBLE(1)}, }, .allow_auto_repeat = true, .scalable = true, .priv = "", }, { "multiply", cmd_multiply, { {"name", OPT_STRING(v.s)}, {"value", OPT_DOUBLE(v.d)}}, .allow_auto_repeat = true}, { "cycle-values", cmd_cycle_values, { {"arg0", OPT_STRING(v.s)}, {"arg1", OPT_STRING(v.s)}, {"argN", OPT_STRING(v.s)}, }, .vararg = true}, { "enable-section", cmd_enable_input_section, { {"name", OPT_STRING(v.s)}, {"flags", OPT_FLAGS(v.i, {"default", 0}, {"exclusive", MP_INPUT_EXCLUSIVE}, {"allow-hide-cursor", MP_INPUT_ALLOW_HIDE_CURSOR}, {"allow-vo-dragging", MP_INPUT_ALLOW_VO_DRAGGING}), .flags = MP_CMD_OPT_ARG}, } }, { "disable-section", cmd_disable_input_section, {{"name", OPT_STRING(v.s)} }}, { "define-section", cmd_define_input_section, { {"name", OPT_STRING(v.s)}, {"contents", OPT_STRING(v.s)}, {"flags", OPT_CHOICE(v.i, {"default", 0}, {"force", 1}), .flags = MP_CMD_OPT_ARG}, }, }, { "ab-loop", cmd_ab_loop }, { "drop-buffers", cmd_drop_buffers, }, { "af", cmd_filter, { {"operation", OPT_STRING(v.s)}, {"value", OPT_STRING(v.s)}, }, .priv = &(const int){STREAM_AUDIO} }, { "vf", cmd_filter, { {"operation", OPT_STRING(v.s)}, {"value", OPT_STRING(v.s)}, }, .priv = &(const int){STREAM_VIDEO} }, { "af-command", cmd_filter_command, { {"label", OPT_STRING(v.s)}, {"command", OPT_STRING(v.s)}, {"argument", OPT_STRING(v.s)}, {"target", OPT_STRING(v.s), OPTDEF_STR("all"), .flags = MP_CMD_OPT_ARG}, }, .priv = &(const int){STREAM_AUDIO} }, { "vf-command", cmd_filter_command, { {"label", OPT_STRING(v.s)}, {"command", OPT_STRING(v.s)}, {"argument", OPT_STRING(v.s)}, {"target", OPT_STRING(v.s), OPTDEF_STR("all"), .flags = MP_CMD_OPT_ARG}, }, .priv = &(const int){STREAM_VIDEO} }, { "ao-reload", cmd_ao_reload }, { "script-binding", cmd_script_binding, { {"name", OPT_STRING(v.s)} }, .allow_auto_repeat = true, .on_updown = true}, { "script-message", cmd_script_message, { {"args", OPT_STRING(v.s)} }, .vararg = true }, { "script-message-to", cmd_script_message_to, { {"target", OPT_STRING(v.s)}, {"args", OPT_STRING(v.s)} }, .vararg = true }, { "overlay-add", cmd_overlay_add, { {"id", OPT_INT(v.i)}, {"x", OPT_INT(v.i)}, {"y", OPT_INT(v.i)}, {"file", OPT_STRING(v.s)}, {"offset", OPT_INT(v.i)}, {"fmt", OPT_STRING(v.s)}, {"w", OPT_INT(v.i)}, {"h", OPT_INT(v.i)}, {"stride", OPT_INT(v.i)}, {"dw", OPT_INT(v.i), OPTDEF_INT(0)}, {"dh", OPT_INT(v.i), OPTDEF_INT(0)}, }}, { "overlay-remove", cmd_overlay_remove, { {"id", OPT_INT(v.i)} } }, { "osd-overlay", cmd_osd_overlay, { {"id", OPT_INT64(v.i64)}, {"format", OPT_CHOICE(v.i, {"none", 0}, {"ass-events", 1})}, {"data", OPT_STRING(v.s)}, {"res_x", OPT_INT(v.i), OPTDEF_INT(0)}, {"res_y", OPT_INT(v.i), OPTDEF_INT(720)}, {"z", OPT_INT(v.i), OPTDEF_INT(0)}, {"hidden", OPT_BOOL(v.b), OPTDEF_INT(0)}, {"compute_bounds", OPT_BOOL(v.b), OPTDEF_INT(0)}, }, .is_noisy = true, }, { "write-watch-later-config", cmd_write_watch_later_config }, { "delete-watch-later-config", cmd_delete_watch_later_config, {{"filename", OPT_STRING(v.s), .flags = MP_CMD_OPT_ARG} }}, { "mouse", cmd_mouse, { {"x", OPT_INT(v.i)}, {"y", OPT_INT(v.i)}, {"button", OPT_INT(v.i), OPTDEF_INT(-1)}, {"mode", OPT_CHOICE(v.i, {"single", 0}, {"double", 1}), .flags = MP_CMD_OPT_ARG}}}, { "keybind", cmd_key_bind, { {"name", OPT_STRING(v.s)}, {"cmd", OPT_STRING(v.s)} }}, { "keypress", cmd_key, { {"name", OPT_STRING(v.s)}, {"scale", OPT_DOUBLE(v.d), OPTDEF_DOUBLE(1)} }, .priv = &(const int){0}}, { "keydown", cmd_key, { {"name", OPT_STRING(v.s)} }, .priv = &(const int){MP_KEY_STATE_DOWN}}, { "keyup", cmd_key, { {"name", OPT_STRING(v.s), .flags = MP_CMD_OPT_ARG} }, .priv = &(const int){MP_KEY_STATE_UP}}, { "apply-profile", cmd_apply_profile, { {"name", OPT_STRING(v.s)}, {"mode", OPT_CHOICE(v.i, {"apply", 0}, {"restore", 1}), .flags = MP_CMD_OPT_ARG}, } }, { "load-config-file", cmd_load_config_file, {{"filename", OPT_STRING(v.s)}} }, { "load-input-conf", cmd_load_input_conf, {{"filename", OPT_STRING(v.s)}} }, { "load-script", cmd_load_script, {{"filename", OPT_STRING(v.s)}} }, { "dump-cache", cmd_dump_cache, { {"start", OPT_TIME(v.d), .flags = M_OPT_ALLOW_NO}, {"end", OPT_TIME(v.d), .flags = M_OPT_ALLOW_NO}, {"filename", OPT_STRING(v.s)} }, .exec_async = true, .can_abort = true, }, { "ab-loop-dump-cache", cmd_dump_cache_ab, { {"filename", OPT_STRING(v.s)} }, .exec_async = true, .can_abort = true, }, { "ab-loop-align-cache", cmd_align_cache_ab }, { "begin-vo-dragging", cmd_begin_vo_dragging }, { "context-menu", cmd_context_menu }, {0} }; #undef OPT_BASE_STRUCT #undef ARG void command_uninit(struct MPContext *mpctx) { struct command_ctx *ctx = mpctx->command_ctx; assert(!ctx->cache_dump_cmd); // closing the demuxer must have aborted it overlay_uninit(mpctx); ao_hotplug_destroy(ctx->hotplug); m_option_free(&script_props_type, &ctx->script_props); talloc_free(mpctx->command_ctx); mpctx->command_ctx = NULL; } static int str_compare(const void *a, const void *b) { return strcmp(*(const char **)a, *(const char **)b); } void command_init(struct MPContext *mpctx) { struct command_ctx *ctx = talloc(NULL, struct command_ctx); *ctx = (struct command_ctx){ .last_seek_pts = MP_NOPTS_VALUE, }; mpctx->command_ctx = ctx; int num_base = MP_ARRAY_SIZE(mp_properties_base); int num_opts = m_config_get_co_count(mpctx->mconfig); ctx->properties = talloc_zero_array(ctx, struct m_property, num_base + num_opts + 1); memcpy(ctx->properties, mp_properties_base, sizeof(mp_properties_base)); const char **prop_names = talloc_array(NULL, const char *, num_base); for (int i = 0; i < num_base; ++i) prop_names[i] = mp_properties_base[i].name; qsort(prop_names, num_base, sizeof(const char *), str_compare); int count = num_base; for (int n = 0; n < num_opts; n++) { struct m_config_option *co = m_config_get_co_index(mpctx->mconfig, n); assert(co->name[0]); if (co->opt->flags & M_OPT_NOPROP) continue; struct m_property prop = { .name = co->name, .call = mp_property_generic_option, .is_option = true, }; if (co->opt->type == &m_option_type_alias) { prop.priv = co->opt->priv; prop.call = co->opt->deprecation_message ? mp_property_deprecated_alias : mp_property_alias; // Check whether this eventually arrives at a real option. If not, // it's some CLI special handling thing. For example, "nosound" is // mapped to "no-audio", which has CLI special-handling, and cannot // be set as property. struct m_config_option *co2 = co; while (co2 && co2->opt->type == &m_option_type_alias) { const char *alias = (const char *)co2->opt->priv; co2 = m_config_get_co_raw(mpctx->mconfig, bstr0(alias)); } if (!co2) continue; } // The option might be covered by a manual property already. if (bsearch(&prop.name, prop_names, num_base, sizeof(const char *), str_compare)) continue; ctx->properties[count++] = prop; } node_init(&ctx->mdata, MPV_FORMAT_NODE_ARRAY, NULL); talloc_steal(ctx, ctx->mdata.u.list); node_init(&ctx->udata, MPV_FORMAT_NODE_MAP, NULL); talloc_steal(ctx, ctx->udata.u.list); talloc_free(prop_names); } static void command_event(struct MPContext *mpctx, int event, void *arg) { struct command_ctx *ctx = mpctx->command_ctx; if (event == MPV_EVENT_START_FILE) { ctx->last_seek_pts = MP_NOPTS_VALUE; ctx->marked_pts = MP_NOPTS_VALUE; ctx->marked_permanent = false; } if (event == MPV_EVENT_PLAYBACK_RESTART) ctx->last_seek_time = mp_time_sec(); if (event == MPV_EVENT_END_FILE) mp_msg_flush_status_line(mpctx->log, false); if (event == MPV_EVENT_END_FILE || event == MPV_EVENT_FILE_LOADED) { // Update chapters - does nothing if something else is visible. set_osd_bar_chapters(mpctx, OSD_BAR_SEEK); } if (event == MP_EVENT_WIN_STATE2) ctx->cached_window_scale = 0; if (event == MP_EVENT_METADATA_UPDATE) { struct playlist_entry *const pe = mpctx->playing; if (pe && !pe->title) { const char *const name = find_non_filename_media_title(mpctx); if (name && name[0]) { pe->title = talloc_strdup(pe, name); mp_notify_property(mpctx, "playlist"); } } } } void handle_command_updates(struct MPContext *mpctx) { struct command_ctx *ctx = mpctx->command_ctx; // This is a bit messy: ao_hotplug wakes up the player, and then we have // to recheck the state. Then the client(s) will read the property. if (ctx->hotplug && ao_hotplug_check_update(ctx->hotplug)) mp_notify_property(mpctx, "audio-device-list"); // Depends on polling demuxer wakeup callback notifications. cache_dump_poll(mpctx); // Potentially run the commands now (idle) instead of waiting for a file to load. if (mpctx->stop_play == PT_STOP) run_command_opts(mpctx); } void run_command_opts(struct MPContext *mpctx) { struct MPOpts *opts = mpctx->opts; struct command_ctx *ctx = mpctx->command_ctx; if (!opts->input_commands || ctx->command_opts_processed) return; // Take easy way out and add these to the input queue. for (int i = 0; opts->input_commands[i]; i++) { struct mp_cmd *cmd = mp_input_parse_cmd(mpctx->input, bstr0(opts->input_commands[i]), "the command line"); mp_input_queue_cmd(mpctx->input, cmd); } ctx->command_opts_processed = true; } void mp_notify(struct MPContext *mpctx, int event, void *arg) { // The OSD can implicitly reference some properties. mpctx->osd_idle_update = true; command_event(mpctx, event, arg); mp_client_broadcast_event(mpctx, event, arg); } static void update_priority(struct MPContext *mpctx) { #if HAVE_WIN32_DESKTOP struct MPOpts *opts = mpctx->opts; if (opts->w32_priority > 0) SetPriorityClass(GetCurrentProcess(), opts->w32_priority); #endif } static void update_track_switch(struct MPContext *mpctx, int order, int type) { if (!mpctx->playback_initialized) return; int tid = mpctx->opts->stream_id[order][type]; struct track *track; if (tid == -1) { // If "auto" reset to default track selection track = select_default_track(mpctx, order, type); mark_track_selection(mpctx, order, type, -1); } else { track = mp_track_by_tid(mpctx, type, tid); } mp_switch_track_n(mpctx, order, type, track, (tid == -1) ? 0 : FLAG_MARK_SELECTION); print_track_list(mpctx, "Track switched:"); mp_wakeup_core(mpctx); } void mp_option_change_callback(void *ctx, struct m_config_option *co, int flags, bool self_update) { struct MPContext *mpctx = ctx; struct MPOpts *opts = mpctx->opts; bool init = !co; void *opt_ptr = init ? NULL : co->data; // NULL on start if (co) mp_notify_property(mpctx, co->name); if (opt_ptr == &opts->media_title) mp_notify(mpctx, MP_EVENT_METADATA_UPDATE, NULL); if (self_update) return; if (flags & UPDATE_TERM) mp_update_logging(mpctx, false); if (flags & (UPDATE_OSD | UPDATE_SUB_FILT | UPDATE_SUB_HARD)) { for (int n = 0; n < num_ptracks[STREAM_SUB]; n++) { struct track *track = mpctx->current_track[n][STREAM_SUB]; struct dec_sub *sub = track ? track->d_sub : NULL; if (sub) { int ret = sub_control(sub, SD_CTRL_UPDATE_OPTS, (void *)(uintptr_t)flags); if (ret == CONTROL_OK && flags & (UPDATE_SUB_FILT | UPDATE_SUB_HARD)) { sub_redecode_cached_packets(sub); if (track->selected) reselect_demux_stream(mpctx, track, true); } } } osd_changed(mpctx->osd); } if (flags & UPDATE_BUILTIN_SCRIPTS) mp_load_builtin_scripts(mpctx); if (flags & UPDATE_IMGPAR) { struct track *track = mpctx->current_track[0][STREAM_VIDEO]; if (track && track->dec) { mp_decoder_wrapper_reset_params(track->dec); mp_force_video_refresh(mpctx); } } if (flags & UPDATE_INPUT) mp_input_update_opts(mpctx->input); if (flags & UPDATE_SUB_EXTS) mp_update_subtitle_exts(mpctx->opts); if (init || opt_ptr == &opts->ipc_path || opt_ptr == &opts->ipc_client) { mp_uninit_ipc(mpctx->ipc_ctx); mpctx->ipc_ctx = mp_init_ipc(mpctx->clients, mpctx->global); } if (opt_ptr == &opts->vo->video_driver_list || opt_ptr == &opts->ra_ctx_opts->context_list || opt_ptr == &opts->ra_ctx_opts->context_type) { struct track *track = mpctx->current_track[0][STREAM_VIDEO]; uninit_video_out(mpctx); handle_force_window(mpctx, true); reinit_video_chain(mpctx); if (track) queue_seek(mpctx, MPSEEK_RELATIVE, 0.0, MPSEEK_EXACT, 0); mp_wakeup_core(mpctx); } if (flags & UPDATE_AUDIO) reload_audio_output(mpctx); if (flags & UPDATE_PRIORITY) update_priority(mpctx); if (flags & UPDATE_SCREENSAVER) update_screensaver_state(mpctx); if (flags & UPDATE_VOL) audio_update_volume(mpctx); if (flags & UPDATE_LAVFI_COMPLEX) update_lavfi_complex(mpctx); if (flags & UPDATE_VIDEO) { if (mpctx->video_out) { vo_control(mpctx->video_out, VOCTRL_UPDATE_RENDER_OPTS, NULL); mp_wakeup_core(mpctx); } } if (opt_ptr == &opts->vo->android_surface_size) { if (mpctx->video_out) vo_control(mpctx->video_out, VOCTRL_EXTERNAL_RESIZE, NULL); } if (opt_ptr == &opts->input_commands) { mpctx->command_ctx->command_opts_processed = false; run_command_opts(mpctx); } if (opt_ptr == &opts->playback_speed) { update_playback_speed(mpctx); mp_wakeup_core(mpctx); } if (opt_ptr == &opts->play_dir) { if (mpctx->play_dir != opts->play_dir) { // Some weird things for play_dir if we're at EOF. // 1. The option must be set before we seek. // 2. queue_seek can change the stop_play value; always keep the old one. int old_stop_play = mpctx->stop_play; if (old_stop_play == AT_END_OF_FILE) mpctx->play_dir = opts->play_dir; queue_seek(mpctx, MPSEEK_ABSOLUTE, get_current_time(mpctx), MPSEEK_EXACT, 0); if (old_stop_play == AT_END_OF_FILE) mpctx->stop_play = old_stop_play; } } if (opt_ptr == &opts->edition_id) { struct demuxer *demuxer = mpctx->demuxer; if (mpctx->playback_initialized && demuxer && demuxer->num_editions > 0) { if (opts->edition_id != demuxer->edition) { if (!mpctx->stop_play) mpctx->stop_play = PT_CURRENT_ENTRY; mp_wakeup_core(mpctx); } } } if (opt_ptr == &opts->pause) set_pause_state(mpctx, opts->pause); if (opt_ptr == &opts->audio_delay) { if (mpctx->ao_chain) { mpctx->delay += mpctx->opts->audio_delay - mpctx->ao_chain->delay; mpctx->ao_chain->delay = mpctx->opts->audio_delay; } mp_wakeup_core(mpctx); } if (flags & UPDATE_HWDEC) { struct track *track = mpctx->current_track[0][STREAM_VIDEO]; struct mp_decoder_wrapper *dec = track ? track->dec : NULL; if (dec) { mp_decoder_wrapper_control(dec, VDCTRL_REINIT, NULL); double last_pts = mpctx->video_pts; if (last_pts != MP_NOPTS_VALUE) queue_seek(mpctx, MPSEEK_ABSOLUTE, last_pts, MPSEEK_EXACT, 0); } } if (opt_ptr == &opts->vo->window_scale) update_window_scale(mpctx); if (opt_ptr == &opts->vo->hidpi_window_scale) update_hidpi_window_scale(mpctx, opts->vo->hidpi_window_scale); if (opt_ptr == &opts->cursor_autohide_delay) mpctx->mouse_timer = 0; if (flags & UPDATE_DVB_PROG) { if (!mpctx->stop_play) mpctx->stop_play = PT_CURRENT_ENTRY; } if (opt_ptr == &opts->ab_loop[0] || opt_ptr == &opts->ab_loop[1]) { update_ab_loop_clip(mpctx); // Update if visible set_osd_bar_chapters(mpctx, OSD_BAR_SEEK); mp_wakeup_core(mpctx); } if (opt_ptr == &opts->vf_settings) set_filters(mpctx, STREAM_VIDEO, opts->vf_settings); if (opt_ptr == &opts->af_settings) set_filters(mpctx, STREAM_AUDIO, opts->af_settings); for (int type = 0; type < STREAM_TYPE_COUNT; type++) { for (int order = 0; order < num_ptracks[type]; order++) { if (opt_ptr == &opts->stream_id[order][type]) update_track_switch(mpctx, order, type); } } if (opt_ptr == &opts->vo->fullscreen && !opts->vo->fullscreen) mpctx->mouse_event_ts--; // Show mouse cursor if (opt_ptr == &opts->vo->taskbar_progress) update_vo_playback_state(mpctx); if (opt_ptr == &opts->image_display_duration && mpctx->vo_chain && mpctx->vo_chain->is_sparse && !mpctx->ao_chain && mpctx->video_status == STATUS_DRAINING) mpctx->time_frame = opts->image_display_duration; } void mp_notify_property(struct MPContext *mpctx, const char *property) { mp_client_property_change(mpctx, property); }