/* * 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 "mpv_talloc.h" #include "config.h" #include "options/m_config.h" #include "options/options.h" #include "common/common.h" #include "common/msg.h" #include "demux/demux.h" #include "video/csputils.h" #include "video/mp_image.h" #include "dec_sub.h" #include "ass_mp.h" #include "sd.h" struct sd_ass_priv { struct ass_library *ass_library; struct ass_renderer *ass_renderer; struct ass_track *ass_track; struct ass_track *shadow_track; // for --sub-ass=no rendering bool ass_configured; bool is_converted; struct lavc_conv *converter; struct sd_filter **filters; int num_filters; bool clear_once; bool on_top; struct mp_ass_packer *packer; struct sub_bitmap_copy_cache *copy_cache; char last_text[500]; struct mp_image_params video_params; struct mp_image_params last_params; struct mp_osd_res osd; int64_t *seen_packets; int num_seen_packets; bool duration_unknown; }; static void mangle_colors(struct sd *sd, struct sub_bitmaps *parts); static void fill_plaintext(struct sd *sd, double pts); static const struct sd_filter_functions *const filters[] = { // Note: list order defines filter order. &sd_filter_sdh, #if HAVE_POSIX &sd_filter_regex, #endif #if HAVE_JAVASCRIPT &sd_filter_jsre, #endif NULL, }; // Add default styles, if the track does not have any styles yet. // Apply style overrides if the user provides any. static void mp_ass_add_default_styles(ASS_Track *track, struct mp_subtitle_opts *opts) { if (opts->ass_styles_file && opts->ass_style_override) ass_read_styles(track, opts->ass_styles_file, NULL); if (track->n_styles == 0) { if (!track->PlayResY) { track->PlayResX = MP_ASS_FONT_PLAYRESX; track->PlayResY = MP_ASS_FONT_PLAYRESY; } track->Kerning = true; int sid = ass_alloc_style(track); track->default_style = sid; ASS_Style *style = track->styles + sid; style->Name = strdup("Default"); mp_ass_set_style(style, track->PlayResY, opts->sub_style); } if (opts->ass_style_override) ass_process_force_style(track); } static const char *const font_mimetypes[] = { "application/x-truetype-font", "application/vnd.ms-opentype", "application/x-font-ttf", "application/x-font", // probably incorrect "application/font-sfnt", "font/collection", "font/otf", "font/sfnt", "font/ttf", NULL }; static const char *const font_exts[] = {".ttf", ".ttc", ".otf", ".otc", NULL}; static bool attachment_is_font(struct mp_log *log, struct demux_attachment *f) { if (!f->name || !f->type || !f->data || !f->data_size) return false; for (int n = 0; font_mimetypes[n]; n++) { if (strcmp(font_mimetypes[n], f->type) == 0) return true; } // fallback: match against file extension char *ext = strlen(f->name) > 4 ? f->name + strlen(f->name) - 4 : ""; for (int n = 0; font_exts[n]; n++) { if (strcasecmp(ext, font_exts[n]) == 0) { mp_warn(log, "Loading font attachment '%s' with MIME type %s. " "Assuming this is a broken Matroska file, which was " "muxed without setting a correct font MIME type.\n", f->name, f->type); return true; } } return false; } static void add_subtitle_fonts(struct sd *sd) { struct sd_ass_priv *ctx = sd->priv; struct mp_subtitle_opts *opts = sd->opts; if (!opts->ass_enabled || !opts->use_embedded_fonts || !sd->attachments) return; for (int i = 0; i < sd->attachments->num_entries; i++) { struct demux_attachment *f = &sd->attachments->entries[i]; if (attachment_is_font(sd->log, f)) ass_add_font(ctx->ass_library, f->name, f->data, f->data_size); } } static void filters_destroy(struct sd *sd) { struct sd_ass_priv *ctx = sd->priv; for (int n = 0; n < ctx->num_filters; n++) { struct sd_filter *ft = ctx->filters[n]; if (ft->driver->uninit) ft->driver->uninit(ft); talloc_free(ft); } ctx->num_filters = 0; } static void filters_init(struct sd *sd) { struct sd_ass_priv *ctx = sd->priv; filters_destroy(sd); for (int n = 0; filters[n]; n++) { struct sd_filter *ft = talloc_ptrtype(ctx, ft); *ft = (struct sd_filter){ .global = sd->global, .log = sd->log, .opts = mp_get_config_group(ft, sd->global, &mp_sub_filter_opts), .driver = filters[n], .codec = "ass", .event_format = ctx->ass_track->event_format, }; if (ft->driver->init(ft)) { MP_TARRAY_APPEND(ctx, ctx->filters, ctx->num_filters, ft); } else { talloc_free(ft); } } } static void enable_output(struct sd *sd, bool enable) { struct sd_ass_priv *ctx = sd->priv; if (enable == !!ctx->ass_renderer) return; if (ctx->ass_renderer) { ass_renderer_done(ctx->ass_renderer); ctx->ass_renderer = NULL; } else { ctx->ass_renderer = ass_renderer_init(ctx->ass_library); mp_ass_configure_fonts(ctx->ass_renderer, sd->opts->sub_style, sd->global, sd->log); } } static void assobjects_init(struct sd *sd) { struct sd_ass_priv *ctx = sd->priv; struct mp_subtitle_opts *opts = sd->opts; ctx->ass_library = mp_ass_init(sd->global, sd->opts->sub_style, sd->log); ass_set_extract_fonts(ctx->ass_library, opts->use_embedded_fonts); add_subtitle_fonts(sd); if (opts->ass_style_override) ass_set_style_overrides(ctx->ass_library, opts->ass_style_override_list); ctx->ass_track = ass_new_track(ctx->ass_library); ctx->ass_track->track_type = TRACK_TYPE_ASS; ctx->shadow_track = ass_new_track(ctx->ass_library); ctx->shadow_track->PlayResX = MP_ASS_FONT_PLAYRESX; ctx->shadow_track->PlayResY = MP_ASS_FONT_PLAYRESY; mp_ass_add_default_styles(ctx->shadow_track, opts); char *extradata = sd->codec->extradata; int extradata_size = sd->codec->extradata_size; if (ctx->converter) { extradata = lavc_conv_get_extradata(ctx->converter); extradata_size = extradata ? strlen(extradata) : 0; } if (extradata) ass_process_codec_private(ctx->ass_track, extradata, extradata_size); mp_ass_add_default_styles(ctx->ass_track, opts); #if LIBASS_VERSION >= 0x01302000 ass_set_check_readorder(ctx->ass_track, sd->opts->sub_clear_on_seek ? 0 : 1); #endif enable_output(sd, true); } static void assobjects_destroy(struct sd *sd) { struct sd_ass_priv *ctx = sd->priv; ass_free_track(ctx->ass_track); ass_free_track(ctx->shadow_track); enable_output(sd, false); ass_library_done(ctx->ass_library); } static int init(struct sd *sd) { struct sd_ass_priv *ctx = talloc_zero(sd, struct sd_ass_priv); sd->priv = ctx; // Note: accept "null" as alias for "ass", so EDL delay_open subtitle // streams work. if (strcmp(sd->codec->codec, "ass") != 0 && strcmp(sd->codec->codec, "null") != 0) { ctx->is_converted = true; ctx->converter = lavc_conv_create(sd->log, sd->codec); if (!ctx->converter) return -1; if (strcmp(sd->codec->codec, "eia_608") == 0) ctx->duration_unknown = 1; } assobjects_init(sd); filters_init(sd); ctx->packer = mp_ass_packer_alloc(ctx); return 0; } // Note: pkt is not necessarily a fully valid refcounted packet. static void filter_and_add(struct sd *sd, struct demux_packet *pkt) { struct sd_ass_priv *ctx = sd->priv; struct demux_packet *orig_pkt = pkt; for (int n = 0; n < ctx->num_filters; n++) { struct sd_filter *ft = ctx->filters[n]; struct demux_packet *npkt = ft->driver->filter(ft, pkt); if (pkt != npkt && pkt != orig_pkt) talloc_free(pkt); pkt = npkt; if (!pkt) return; } ass_process_chunk(ctx->ass_track, pkt->buffer, pkt->len, llrint(pkt->pts * 1000), llrint(pkt->duration * 1000)); if (pkt != orig_pkt) talloc_free(pkt); } // Test if the packet with the given file position (used as unique ID) was // already consumed. Return false if the packet is new (and add it to the // internal list), and return true if it was already seen. static bool check_packet_seen(struct sd *sd, int64_t pos) { struct sd_ass_priv *priv = sd->priv; int a = 0; int b = priv->num_seen_packets; while (a < b) { int mid = a + (b - a) / 2; int64_t val = priv->seen_packets[mid]; if (pos == val) return true; if (pos > val) { a = mid + 1; } else { b = mid; } } MP_TARRAY_INSERT_AT(priv, priv->seen_packets, priv->num_seen_packets, a, pos); return false; } #define UNKNOWN_DURATION (INT_MAX / 1000) static void decode(struct sd *sd, struct demux_packet *packet) { struct sd_ass_priv *ctx = sd->priv; ASS_Track *track = ctx->ass_track; if (ctx->converter) { if (!sd->opts->sub_clear_on_seek && packet->pos >= 0 && check_packet_seen(sd, packet->pos)) return; double sub_pts = 0; double sub_duration = 0; char **r = lavc_conv_decode(ctx->converter, packet, &sub_pts, &sub_duration); if (packet->duration < 0 || sub_duration == UINT32_MAX) { if (!ctx->duration_unknown) { MP_WARN(sd, "Subtitle with unknown duration.\n"); ctx->duration_unknown = true; } sub_duration = UNKNOWN_DURATION; } for (int n = 0; r && r[n]; n++) { struct demux_packet pkt2 = { .pts = sub_pts, .duration = sub_duration, .buffer = r[n], .len = strlen(r[n]), }; filter_and_add(sd, &pkt2); } if (ctx->duration_unknown) { for (int n = track->n_events - 2; n >= 0; n--) { if (track->events[n].Duration == UNKNOWN_DURATION * 1000) { if (track->events[n].Start != track->events[n + 1].Start) { track->events[n].Duration = track->events[n + 1].Start - track->events[n].Start; } else { track->events[n].Duration = track->events[n + 1].Duration; } } } } } else { // Note that for this packet format, libass has an internal mechanism // for discarding duplicate (already seen) packets. filter_and_add(sd, packet); } } static void configure_ass(struct sd *sd, struct mp_osd_res *dim, bool converted, ASS_Track *track) { struct mp_subtitle_opts *opts = sd->opts; struct sd_ass_priv *ctx = sd->priv; ASS_Renderer *priv = ctx->ass_renderer; ass_set_frame_size(priv, dim->w, dim->h); ass_set_margins(priv, dim->mt, dim->mb, dim->ml, dim->mr); bool set_use_margins = false; float set_sub_pos = 0.0f; float set_line_spacing = 0; float set_font_scale = 1; int set_hinting = 0; bool set_scale_with_window = false; bool set_scale_by_window = true; bool total_override = false; // With forced overrides, apply the --sub-* specific options if (converted || opts->ass_style_override == 3) { // 'force' set_scale_with_window = opts->sub_scale_with_window; set_use_margins = opts->sub_use_margins; set_scale_by_window = opts->sub_scale_by_window; total_override = true; } else { set_scale_with_window = opts->ass_scale_with_window; set_use_margins = opts->ass_use_margins; } if (converted || opts->ass_style_override) { set_sub_pos = 100.0f - opts->sub_pos; set_line_spacing = opts->ass_line_spacing; set_hinting = opts->ass_hinting; set_font_scale = opts->sub_scale; } if (set_scale_with_window) { int vidh = dim->h - (dim->mt + dim->mb); set_font_scale *= dim->h / (float)MPMAX(vidh, 1); } if (!set_scale_by_window) { double factor = dim->h / 720.0; if (factor != 0.0) set_font_scale /= factor; } ass_set_use_margins(priv, set_use_margins); ass_set_line_position(priv, set_sub_pos); ass_set_shaper(priv, opts->ass_shaper); int set_force_flags = 0; if (total_override) set_force_flags |= ASS_OVERRIDE_BIT_STYLE | ASS_OVERRIDE_BIT_SELECTIVE_FONT_SCALE; if (opts->ass_style_override == 4) // 'scale' set_force_flags |= ASS_OVERRIDE_BIT_SELECTIVE_FONT_SCALE; if (converted) set_force_flags |= ASS_OVERRIDE_BIT_ALIGNMENT; #ifdef ASS_JUSTIFY_AUTO if ((converted || opts->ass_style_override) && opts->ass_justify) set_force_flags |= ASS_OVERRIDE_BIT_JUSTIFY; #endif ass_set_selective_style_override_enabled(priv, set_force_flags); ASS_Style style = {0}; mp_ass_set_style(&style, MP_ASS_FONT_PLAYRESY, opts->sub_style); ass_set_selective_style_override(priv, &style); free(style.FontName); if (converted && track->default_style < track->n_styles) { mp_ass_set_style(track->styles + track->default_style, track->PlayResY, opts->sub_style); } ass_set_font_scale(priv, set_font_scale); ass_set_hinting(priv, set_hinting); ass_set_line_spacing(priv, set_line_spacing); #if LIBASS_VERSION >= 0x01600010 if (converted) ass_track_set_feature(track, ASS_FEATURE_WRAP_UNICODE, 1); #endif if (converted) { bool override_playres = true; char **ass_style_override_list = opts->ass_style_override_list; for (int i = 0; ass_style_override_list && ass_style_override_list[i]; i++) { if (bstr_find0(bstr0(ass_style_override_list[i]), "PlayResX") >= 0) override_playres = false; } // srt to ass conversion from ffmpeg has fixed PlayResX of 384 with an // aspect of 4:3. Starting with libass f08f8ea5 (pre 0.17) PlayResX // affects shadow and border widths, among others, so to render borders // and shadows correctly, we adjust PlayResX according to the DAR. // But PlayResX also affects margins, so we adjust those too. // This should ensure basic srt-to-ass ffmpeg conversion has correct // borders, but there could be other issues with some srt extensions // and/or different source formats which would be exposed over time. // Make these adjustments only if the user didn't set PlayResX. if (override_playres) { int vidw = dim->w - (dim->ml + dim->mr); int vidh = dim->h - (dim->mt + dim->mb); track->PlayResX = track->PlayResY * (double)vidw / MPMAX(vidh, 1); // ffmpeg and mpv use a default PlayResX of 384 when it is not known, // this comes from VSFilter. double fix_margins = track->PlayResX / (double)MP_ASS_FONT_PLAYRESX; track->styles->MarginL = round(track->styles->MarginL * fix_margins); track->styles->MarginR = round(track->styles->MarginR * fix_margins); } } } static bool has_overrides(char *s) { if (!s) return false; return strstr(s, "\\pos") || strstr(s, "\\move") || strstr(s, "\\clip") || strstr(s, "\\iclip") || strstr(s, "\\org") || strstr(s, "\\p"); } #define END(ev) ((ev)->Start + (ev)->Duration) static long long find_timestamp(struct sd *sd, double pts) { struct sd_ass_priv *priv = sd->priv; if (pts == MP_NOPTS_VALUE) return 0; long long ts = llrint(pts * 1000); if (!sd->opts->sub_fix_timing || sd->opts->ass_style_override == 0) return ts; // Try to fix small gaps and overlaps. ASS_Track *track = priv->ass_track; int threshold = SUB_GAP_THRESHOLD * 1000; int keep = SUB_GAP_KEEP * 1000; // Find the "current" event. ASS_Event *ev[2] = {0}; int n_ev = 0; for (int n = 0; n < track->n_events; n++) { ASS_Event *event = &track->events[n]; if (ts >= event->Start - threshold && ts <= END(event) + threshold) { if (n_ev >= MP_ARRAY_SIZE(ev)) return ts; // multiple overlaps - give up (probably complex subs) ev[n_ev++] = event; } } if (n_ev != 2) return ts; // Simple/minor heuristic against destroying typesetting. if (ev[0]->Style != ev[1]->Style || has_overrides(ev[0]->Text) || has_overrides(ev[1]->Text)) return ts; // Sort by start timestamps. if (ev[0]->Start > ev[1]->Start) MPSWAP(ASS_Event*, ev[0], ev[1]); // We want to fix partial overlaps only. if (END(ev[0]) >= END(ev[1])) return ts; if (ev[0]->Duration < keep || ev[1]->Duration < keep) return ts; // Gap between the events -> move ts to show the end of the first event. if (ts >= END(ev[0]) && ts < ev[1]->Start && END(ev[0]) < ev[1]->Start && END(ev[0]) + threshold >= ev[1]->Start) return END(ev[0]) - 1; // Overlap -> move ts to the (exclusive) end of the first event. // Relies on the fact that the ASS_Renderer has no overlap registered, even // if there is one. This happens to work because we never render the // overlapped state, and libass never resolves a collision. if (ts >= ev[1]->Start && ts <= END(ev[0]) && END(ev[0]) > ev[1]->Start && END(ev[0]) <= ev[1]->Start + threshold) return END(ev[0]); return ts; } #undef END static struct sub_bitmaps *get_bitmaps(struct sd *sd, struct mp_osd_res dim, int format, double pts) { struct sd_ass_priv *ctx = sd->priv; struct mp_subtitle_opts *opts = sd->opts; bool no_ass = !opts->ass_enabled || ctx->on_top || opts->ass_style_override == 5; bool converted = ctx->is_converted || no_ass; ASS_Track *track = no_ass ? ctx->shadow_track : ctx->ass_track; ASS_Renderer *renderer = ctx->ass_renderer; struct sub_bitmaps *res = &(struct sub_bitmaps){0}; // Always update the osd_res struct mp_osd_res old_osd = ctx->osd; ctx->osd = dim; if (pts == MP_NOPTS_VALUE || !renderer) goto done; // Currently no supported text sub formats support a distinction between forced // and unforced lines, so we just assume everything's unforced and discard everything. // If we ever see a format that makes this distinction, we can add support here. if (opts->sub_forced_events_only) goto done; double scale = dim.display_par; if (!converted && (!opts->ass_style_override || opts->ass_vsfilter_aspect_compat)) { // Let's use the original video PAR for vsfilter compatibility: double par = ctx->video_params.p_w / (double)ctx->video_params.p_h; if (isnormal(par)) scale *= par; } if (!ctx->ass_configured || !osd_res_equals(old_osd, ctx->osd)) { configure_ass(sd, &dim, converted, track); ctx->ass_configured = true; } ass_set_pixel_aspect(renderer, scale); if (!converted && (!opts->ass_style_override || opts->ass_vsfilter_blur_compat)) { ass_set_storage_size(renderer, ctx->video_params.w, ctx->video_params.h); } else { ass_set_storage_size(renderer, 0, 0); } long long ts = find_timestamp(sd, pts); if (ctx->duration_unknown && pts != MP_NOPTS_VALUE) { mp_ass_flush_old_events(track, ts); ctx->num_seen_packets = 0; sd->preload_ok = false; } if (no_ass) fill_plaintext(sd, pts); int changed; ASS_Image *imgs = ass_render_frame(renderer, track, ts, &changed); mp_ass_packer_pack(ctx->packer, &imgs, 1, changed, format, res); done: // mangle_colors() modifies the color field, so copy the thing _before_. res = sub_bitmaps_copy(&ctx->copy_cache, res); if (!converted && res) mangle_colors(sd, res); return res; } struct buf { char *start; int size; int len; }; static void append(struct buf *b, char c) { if (b->len < b->size) { b->start[b->len] = c; b->len++; } } static void ass_to_plaintext(struct buf *b, const char *in) { bool in_tag = false; const char *open_tag_pos = NULL; bool in_drawing = false; while (*in) { if (in_tag) { if (in[0] == '}') { in += 1; in_tag = false; } else if (in[0] == '\\' && in[1] == 'p') { in += 2; // Skip text between \pN and \p0 tags. A \p without a number // is the same as \p0, and leading 0s are also allowed. in_drawing = false; while (in[0] >= '0' && in[0] <= '9') { if (in[0] != '0') in_drawing = true; in += 1; } } else { in += 1; } } else { if (in[0] == '\\' && (in[1] == 'N' || in[1] == 'n')) { in += 2; append(b, '\n'); } else if (in[0] == '\\' && in[1] == 'h') { in += 2; append(b, ' '); } else if (in[0] == '{') { open_tag_pos = in; in += 1; in_tag = true; } else { if (!in_drawing) append(b, in[0]); in += 1; } } } // A '{' without a closing '}' is always visible. if (in_tag) { while (*open_tag_pos) append(b, *open_tag_pos++); } } // Empty string counts as whitespace. Reads s[len-1] even if there are \0s. static bool is_whitespace_only(char *s, int len) { for (int n = 0; n < len; n++) { if (s[n] != ' ' && s[n] != '\t') return false; } return true; } static char *get_text_buf(struct sd *sd, double pts, enum sd_text_type type) { struct sd_ass_priv *ctx = sd->priv; ASS_Track *track = ctx->ass_track; if (pts == MP_NOPTS_VALUE) return NULL; long long ipts = find_timestamp(sd, pts); struct buf b = {ctx->last_text, sizeof(ctx->last_text) - 1}; for (int i = 0; i < track->n_events; ++i) { ASS_Event *event = track->events + i; if (ipts >= event->Start && ipts < event->Start + event->Duration) { if (event->Text) { int start = b.len; if (type == SD_TEXT_TYPE_PLAIN) { ass_to_plaintext(&b, event->Text); } else { char *t = event->Text; while (*t) append(&b, *t++); } if (is_whitespace_only(&b.start[start], b.len - start)) { b.len = start; } else { append(&b, '\n'); } } } } b.start[b.len] = '\0'; if (b.len > 0 && b.start[b.len - 1] == '\n') b.start[b.len - 1] = '\0'; return ctx->last_text; } static char *get_text(struct sd *sd, double pts, enum sd_text_type type) { return talloc_strdup(NULL, get_text_buf(sd, pts, type)); } static struct sd_times get_times(struct sd *sd, double pts) { struct sd_ass_priv *ctx = sd->priv; ASS_Track *track = ctx->ass_track; struct sd_times res = { .start = MP_NOPTS_VALUE, .end = MP_NOPTS_VALUE }; if (pts == MP_NOPTS_VALUE) return res; long long ipts = find_timestamp(sd, pts); for (int i = 0; i < track->n_events; ++i) { ASS_Event *event = track->events + i; if (ipts >= event->Start && ipts < event->Start + event->Duration) { double start = event->Start / 1000.0; double end = event->Duration == UNKNOWN_DURATION ? MP_NOPTS_VALUE : (event->Start + event->Duration) / 1000.0; if (res.start == MP_NOPTS_VALUE || res.start > start) res.start = start; if (res.end == MP_NOPTS_VALUE || res.end < end) res.end = end; } } return res; } static void fill_plaintext(struct sd *sd, double pts) { struct sd_ass_priv *ctx = sd->priv; ASS_Track *track = ctx->shadow_track; ass_flush_events(track); char *text = get_text_buf(sd, pts, SD_TEXT_TYPE_PLAIN); if (!text) return; bstr dst = {0}; if (ctx->on_top) bstr_xappend(NULL, &dst, bstr0("{\\a6}")); while (*text) { if (*text == '{') bstr_xappend(NULL, &dst, bstr0("\\")); bstr_xappend(NULL, &dst, (bstr){text, 1}); // Break ASS escapes with U+2060 WORD JOINER if (*text == '\\') mp_append_utf8_bstr(NULL, &dst, 0x2060); text++; } if (!dst.start) return; int n = ass_alloc_event(track); ASS_Event *event = track->events + n; event->Start = 0; event->Duration = INT_MAX; event->Style = track->default_style; event->Text = strdup(dst.start); talloc_free(dst.start); } static void reset(struct sd *sd) { struct sd_ass_priv *ctx = sd->priv; if (sd->opts->sub_clear_on_seek || ctx->duration_unknown || ctx->clear_once) { ass_flush_events(ctx->ass_track); ctx->num_seen_packets = 0; sd->preload_ok = false; ctx->clear_once = false; } if (ctx->converter) lavc_conv_reset(ctx->converter); } static void uninit(struct sd *sd) { struct sd_ass_priv *ctx = sd->priv; filters_destroy(sd); if (ctx->converter) lavc_conv_uninit(ctx->converter); assobjects_destroy(sd); talloc_free(ctx->copy_cache); } static int control(struct sd *sd, enum sd_ctrl cmd, void *arg) { struct sd_ass_priv *ctx = sd->priv; switch (cmd) { case SD_CTRL_SUB_STEP: { double *a = arg; long long ts = llrint(a[0] * 1000.0); long long res = ass_step_sub(ctx->ass_track, ts, a[1]); if (!res) return false; a[0] += res / 1000.0; return true; } case SD_CTRL_SET_VIDEO_PARAMS: ctx->video_params = *(struct mp_image_params *)arg; return CONTROL_OK; case SD_CTRL_SET_TOP: ctx->on_top = *(bool *)arg; return CONTROL_OK; case SD_CTRL_UPDATE_OPTS: { int flags = (uintptr_t)arg; if (flags & UPDATE_SUB_FILT) { filters_destroy(sd); filters_init(sd); ctx->clear_once = true; // allow reloading on seeks } if (flags & UPDATE_SUB_HARD) { // ass_track will be recreated, so clear duplicate cache ctx->clear_once = true; reset(sd); assobjects_destroy(sd); assobjects_init(sd); } ctx->ass_configured = false; // ass always needs to be reconfigured return CONTROL_OK; } default: return CONTROL_UNKNOWN; } } const struct sd_functions sd_ass = { .name = "ass", .accept_packets_in_advance = true, .init = init, .decode = decode, .get_bitmaps = get_bitmaps, .get_text = get_text, .get_times = get_times, .control = control, .reset = reset, .select = enable_output, .uninit = uninit, }; // Disgusting hack for (xy-)vsfilter color compatibility. static void mangle_colors(struct sd *sd, struct sub_bitmaps *parts) { struct mp_subtitle_opts *opts = sd->opts; struct sd_ass_priv *ctx = sd->priv; enum mp_csp csp = 0; enum mp_csp_levels levels = 0; if (opts->ass_vsfilter_color_compat == 0) // "no" return; bool force_601 = opts->ass_vsfilter_color_compat == 3; ASS_Track *track = ctx->ass_track; static const int ass_csp[] = { [YCBCR_BT601_TV] = MP_CSP_BT_601, [YCBCR_BT601_PC] = MP_CSP_BT_601, [YCBCR_BT709_TV] = MP_CSP_BT_709, [YCBCR_BT709_PC] = MP_CSP_BT_709, [YCBCR_SMPTE240M_TV] = MP_CSP_SMPTE_240M, [YCBCR_SMPTE240M_PC] = MP_CSP_SMPTE_240M, }; static const int ass_levels[] = { [YCBCR_BT601_TV] = MP_CSP_LEVELS_TV, [YCBCR_BT601_PC] = MP_CSP_LEVELS_PC, [YCBCR_BT709_TV] = MP_CSP_LEVELS_TV, [YCBCR_BT709_PC] = MP_CSP_LEVELS_PC, [YCBCR_SMPTE240M_TV] = MP_CSP_LEVELS_TV, [YCBCR_SMPTE240M_PC] = MP_CSP_LEVELS_PC, }; int trackcsp = track->YCbCrMatrix; if (force_601) trackcsp = YCBCR_BT601_TV; // NONE is a bit random, but the intention is: don't modify colors. if (trackcsp == YCBCR_NONE) return; if (trackcsp < sizeof(ass_csp) / sizeof(ass_csp[0])) csp = ass_csp[trackcsp]; if (trackcsp < sizeof(ass_levels) / sizeof(ass_levels[0])) levels = ass_levels[trackcsp]; if (trackcsp == YCBCR_DEFAULT) { csp = MP_CSP_BT_601; levels = MP_CSP_LEVELS_TV; } // Unknown colorspace (either YCBCR_UNKNOWN, or a valid value unknown to us) if (!csp || !levels) return; struct mp_image_params params = ctx->video_params; if (force_601) { params.color = (struct mp_colorspace){ .space = MP_CSP_BT_709, .levels = MP_CSP_LEVELS_TV, }; } if ((csp == params.color.space && levels == params.color.levels) || params.color.space == MP_CSP_RGB) // Even VSFilter doesn't mangle on RGB video return; bool basic_conv = params.color.space == MP_CSP_BT_709 && params.color.levels == MP_CSP_LEVELS_TV && csp == MP_CSP_BT_601 && levels == MP_CSP_LEVELS_TV; // With "basic", only do as much as needed for basic compatibility. if (opts->ass_vsfilter_color_compat == 1 && !basic_conv) return; if (params.color.space != ctx->last_params.color.space || params.color.levels != ctx->last_params.color.levels) { int msgl = basic_conv ? MSGL_V : MSGL_WARN; ctx->last_params = params; MP_MSG(sd, msgl, "mangling colors like vsfilter: " "RGB -> %s %s -> %s %s -> RGB\n", m_opt_choice_str(mp_csp_names, csp), m_opt_choice_str(mp_csp_levels_names, levels), m_opt_choice_str(mp_csp_names, params.color.space), m_opt_choice_str(mp_csp_names, params.color.levels)); } // Conversion that VSFilter would use struct mp_csp_params vs_params = MP_CSP_PARAMS_DEFAULTS; vs_params.color.space = csp; vs_params.color.levels = levels; struct mp_cmat vs_yuv2rgb, vs_rgb2yuv; mp_get_csp_matrix(&vs_params, &vs_yuv2rgb); mp_invert_cmat(&vs_rgb2yuv, &vs_yuv2rgb); // Proper conversion to RGB struct mp_csp_params rgb_params = MP_CSP_PARAMS_DEFAULTS; rgb_params.color = params.color; struct mp_cmat vs2rgb; mp_get_csp_matrix(&rgb_params, &vs2rgb); for (int n = 0; n < parts->num_parts; n++) { struct sub_bitmap *sb = &parts->parts[n]; uint32_t color = sb->libass.color; int r = (color >> 24u) & 0xff; int g = (color >> 16u) & 0xff; int b = (color >> 8u) & 0xff; int a = 0xff - (color & 0xff); int rgb[3] = {r, g, b}, yuv[3]; mp_map_fixp_color(&vs_rgb2yuv, 8, rgb, 8, yuv); mp_map_fixp_color(&vs2rgb, 8, yuv, 8, rgb); sb->libass.color = MP_ASS_RGBA(rgb[0], rgb[1], rgb[2], a); } } int sd_ass_fmt_offset(const char *evt_fmt) { // "Text" is always last (as it's arbitrary content in buf), e.g. format: // "Layer, Start, End, Style, Name, MarginL, MarginR, MarginV, Effect, Text" int n = 0; while (evt_fmt && (evt_fmt = strchr(evt_fmt, ','))) evt_fmt++, n++; return n-1; // buffer is without the format's Start/End, with ReadOrder } bstr sd_ass_pkt_text(struct sd_filter *ft, struct demux_packet *pkt, int offset) { // e.g. pkt->buffer ("4" is ReadOrder): "4,0,Default,,0,0,0,,fifth line" bstr txt = {(char *)pkt->buffer, pkt->len}, t0 = txt; while (offset-- > 0) { int n = bstrchr(txt, ','); if (n < 0) { // shouldn't happen MP_WARN(ft, "Malformed event '%.*s'\n", BSTR_P(t0)); return (bstr){NULL, 0}; } txt = bstr_cut(txt, n+1); } return txt; } bstr sd_ass_to_plaintext(char *out, size_t out_siz, const char *in) { struct buf b = {out, out_siz, 0}; ass_to_plaintext(&b, in); if (b.len < out_siz) out[b.len] = 0; return (bstr){out, b.len}; }