/* * Closed Caption Decoding * Copyright (c) 2015 Anshul Maheshwari * * This file is part of FFmpeg. * * FFmpeg 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. * * FFmpeg 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 FFmpeg; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "avcodec.h" #include "ass.h" #include "libavutil/opt.h" #define SCREEN_ROWS 15 #define SCREEN_COLUMNS 32 #define SET_FLAG(var, val) ( (var) |= ( 1 << (val)) ) #define UNSET_FLAG(var, val) ( (var) &= ~( 1 << (val)) ) #define CHECK_FLAG(var, val) ( (var) & ( 1 << (val)) ) static const AVRational ass_tb = {1, 100}; /* * TODO list * 1) handle font and color completely */ enum cc_mode { CCMODE_POPON, CCMODE_PAINTON, CCMODE_ROLLUP, CCMODE_TEXT, }; enum cc_color_code { CCCOL_WHITE, CCCOL_GREEN, CCCOL_BLUE, CCCOL_CYAN, CCCOL_RED, CCCOL_YELLOW, CCCOL_MAGENTA, CCCOL_USERDEFINED, CCCOL_BLACK, CCCOL_TRANSPARENT, }; enum cc_font { CCFONT_REGULAR, CCFONT_ITALICS, CCFONT_UNDERLINED, CCFONT_UNDERLINED_ITALICS, }; static const unsigned char pac2_attribs[32][3] = // Color, font, ident { { CCCOL_WHITE, CCFONT_REGULAR, 0 }, // 0x40 || 0x60 { CCCOL_WHITE, CCFONT_UNDERLINED, 0 }, // 0x41 || 0x61 { CCCOL_GREEN, CCFONT_REGULAR, 0 }, // 0x42 || 0x62 { CCCOL_GREEN, CCFONT_UNDERLINED, 0 }, // 0x43 || 0x63 { CCCOL_BLUE, CCFONT_REGULAR, 0 }, // 0x44 || 0x64 { CCCOL_BLUE, CCFONT_UNDERLINED, 0 }, // 0x45 || 0x65 { CCCOL_CYAN, CCFONT_REGULAR, 0 }, // 0x46 || 0x66 { CCCOL_CYAN, CCFONT_UNDERLINED, 0 }, // 0x47 || 0x67 { CCCOL_RED, CCFONT_REGULAR, 0 }, // 0x48 || 0x68 { CCCOL_RED, CCFONT_UNDERLINED, 0 }, // 0x49 || 0x69 { CCCOL_YELLOW, CCFONT_REGULAR, 0 }, // 0x4a || 0x6a { CCCOL_YELLOW, CCFONT_UNDERLINED, 0 }, // 0x4b || 0x6b { CCCOL_MAGENTA, CCFONT_REGULAR, 0 }, // 0x4c || 0x6c { CCCOL_MAGENTA, CCFONT_UNDERLINED, 0 }, // 0x4d || 0x6d { CCCOL_WHITE, CCFONT_ITALICS, 0 }, // 0x4e || 0x6e { CCCOL_WHITE, CCFONT_UNDERLINED_ITALICS, 0 }, // 0x4f || 0x6f { CCCOL_WHITE, CCFONT_REGULAR, 0 }, // 0x50 || 0x70 { CCCOL_WHITE, CCFONT_UNDERLINED, 0 }, // 0x51 || 0x71 { CCCOL_WHITE, CCFONT_REGULAR, 4 }, // 0x52 || 0x72 { CCCOL_WHITE, CCFONT_UNDERLINED, 4 }, // 0x53 || 0x73 { CCCOL_WHITE, CCFONT_REGULAR, 8 }, // 0x54 || 0x74 { CCCOL_WHITE, CCFONT_UNDERLINED, 8 }, // 0x55 || 0x75 { CCCOL_WHITE, CCFONT_REGULAR, 12 }, // 0x56 || 0x76 { CCCOL_WHITE, CCFONT_UNDERLINED, 12 }, // 0x57 || 0x77 { CCCOL_WHITE, CCFONT_REGULAR, 16 }, // 0x58 || 0x78 { CCCOL_WHITE, CCFONT_UNDERLINED, 16 }, // 0x59 || 0x79 { CCCOL_WHITE, CCFONT_REGULAR, 20 }, // 0x5a || 0x7a { CCCOL_WHITE, CCFONT_UNDERLINED, 20 }, // 0x5b || 0x7b { CCCOL_WHITE, CCFONT_REGULAR, 24 }, // 0x5c || 0x7c { CCCOL_WHITE, CCFONT_UNDERLINED, 24 }, // 0x5d || 0x7d { CCCOL_WHITE, CCFONT_REGULAR, 28 }, // 0x5e || 0x7e { CCCOL_WHITE, CCFONT_UNDERLINED, 28 } // 0x5f || 0x7f /* total 32 entries */ }; struct Screen { /* +1 is used to compensate null character of string */ uint8_t characters[SCREEN_ROWS][SCREEN_COLUMNS+1]; uint8_t colors[SCREEN_ROWS][SCREEN_COLUMNS+1]; uint8_t fonts[SCREEN_ROWS][SCREEN_COLUMNS+1]; /* * Bitmask of used rows; if a bit is not set, the * corresponding row is not used. * for setting row 1 use row | (1 << 0) * for setting row 15 use row | (1 << 14) */ int16_t row_used; }; typedef struct CCaptionSubContext { AVClass *class; int real_time; struct Screen screen[2]; int active_screen; uint8_t cursor_row; uint8_t cursor_column; uint8_t cursor_color; uint8_t cursor_font; AVBPrint buffer; int buffer_changed; int rollup; enum cc_mode mode; int64_t start_time; /* visible screen time */ int64_t startv_time; int64_t end_time; int screen_touched; int64_t last_real_time; char prev_cmd[2]; /* buffer to store pkt data */ AVBufferRef *pktbuf; } CCaptionSubContext; static av_cold int init_decoder(AVCodecContext *avctx) { int ret; CCaptionSubContext *ctx = avctx->priv_data; av_bprint_init(&ctx->buffer, 0, AV_BPRINT_SIZE_UNLIMITED); /* taking by default roll up to 2 */ ctx->mode = CCMODE_ROLLUP; ctx->rollup = 2; ret = ff_ass_subtitle_header(avctx, "Monospace", ASS_DEFAULT_FONT_SIZE, ASS_DEFAULT_COLOR, ASS_DEFAULT_BACK_COLOR, ASS_DEFAULT_BOLD, ASS_DEFAULT_ITALIC, ASS_DEFAULT_UNDERLINE, 3, ASS_DEFAULT_ALIGNMENT); if (ret < 0) { return ret; } /* allocate pkt buffer */ ctx->pktbuf = av_buffer_alloc(128); if (!ctx->pktbuf) { ret = AVERROR(ENOMEM); } return ret; } static av_cold int close_decoder(AVCodecContext *avctx) { CCaptionSubContext *ctx = avctx->priv_data; av_bprint_finalize(&ctx->buffer, NULL); av_buffer_unref(&ctx->pktbuf); return 0; } static void flush_decoder(AVCodecContext *avctx) { CCaptionSubContext *ctx = avctx->priv_data; ctx->screen[0].row_used = 0; ctx->screen[1].row_used = 0; ctx->prev_cmd[0] = 0; ctx->prev_cmd[1] = 0; ctx->mode = CCMODE_ROLLUP; ctx->rollup = 2; ctx->cursor_row = 0; ctx->cursor_column = 0; ctx->cursor_font = 0; ctx->cursor_color = 0; ctx->active_screen = 0; ctx->last_real_time = 0; ctx->screen_touched = 0; ctx->buffer_changed = 0; av_bprint_clear(&ctx->buffer); } /** * @param ctx closed caption context just to print log */ static int write_char(CCaptionSubContext *ctx, struct Screen *screen, char ch) { uint8_t col = ctx->cursor_column; char *row = screen->characters[ctx->cursor_row]; char *font = screen->fonts[ctx->cursor_row]; if (col < SCREEN_COLUMNS) { row[col] = ch; font[col] = ctx->cursor_font; if (ch) ctx->cursor_column++; return 0; } /* We have extra space at end only for null character */ else if (col == SCREEN_COLUMNS && ch == 0) { row[col] = ch; return 0; } else { av_log(ctx, AV_LOG_WARNING, "Data Ignored since exceeding screen width\n"); return AVERROR_INVALIDDATA; } } /** * This function after validating parity bit, also remove it from data pair. * The first byte doesn't pass parity, we replace it with a solid blank * and process the pair. * If the second byte doesn't pass parity, it returns INVALIDDATA * user can ignore the whole pair and pass the other pair. */ static int validate_cc_data_pair(uint8_t *cc_data_pair) { uint8_t cc_valid = (*cc_data_pair & 4) >>2; uint8_t cc_type = *cc_data_pair & 3; if (!cc_valid) return AVERROR_INVALIDDATA; // if EIA-608 data then verify parity. if (cc_type==0 || cc_type==1) { if (!av_parity(cc_data_pair[2])) { return AVERROR_INVALIDDATA; } if (!av_parity(cc_data_pair[1])) { cc_data_pair[1]=0x7F; } } //Skip non-data if ((cc_data_pair[0] == 0xFA || cc_data_pair[0] == 0xFC || cc_data_pair[0] == 0xFD) && (cc_data_pair[1] & 0x7F) == 0 && (cc_data_pair[2] & 0x7F) == 0) return AVERROR_PATCHWELCOME; //skip 708 data if (cc_type == 3 || cc_type == 2) return AVERROR_PATCHWELCOME; /* remove parity bit */ cc_data_pair[1] &= 0x7F; cc_data_pair[2] &= 0x7F; return 0; } static struct Screen *get_writing_screen(CCaptionSubContext *ctx) { switch (ctx->mode) { case CCMODE_POPON: // use Inactive screen return ctx->screen + !ctx->active_screen; case CCMODE_PAINTON: case CCMODE_ROLLUP: case CCMODE_TEXT: // use active screen return ctx->screen + ctx->active_screen; } /* It was never an option */ return NULL; } static void roll_up(CCaptionSubContext *ctx) { struct Screen *screen; int i, keep_lines; if (ctx->mode == CCMODE_TEXT) return; screen = get_writing_screen(ctx); /* +1 signify cursor_row starts from 0 * Can't keep lines less then row cursor pos */ keep_lines = FFMIN(ctx->cursor_row + 1, ctx->rollup); for (i = 0; i < SCREEN_ROWS; i++) { if (i > ctx->cursor_row - keep_lines && i <= ctx->cursor_row) continue; UNSET_FLAG(screen->row_used, i); } for (i = 0; i < keep_lines && screen->row_used; i++) { const int i_row = ctx->cursor_row - keep_lines + i + 1; memcpy(screen->characters[i_row], screen->characters[i_row+1], SCREEN_COLUMNS); memcpy(screen->colors[i_row], screen->colors[i_row+1], SCREEN_COLUMNS); memcpy(screen->fonts[i_row], screen->fonts[i_row+1], SCREEN_COLUMNS); if (CHECK_FLAG(screen->row_used, i_row + 1)) SET_FLAG(screen->row_used, i_row); } UNSET_FLAG(screen->row_used, ctx->cursor_row); } static int capture_screen(CCaptionSubContext *ctx) { int i; struct Screen *screen = ctx->screen + ctx->active_screen; enum cc_font prev_font = CCFONT_REGULAR; av_bprint_clear(&ctx->buffer); for (i = 0; screen->row_used && i < SCREEN_ROWS; i++) { if (CHECK_FLAG(screen->row_used, i)) { const char *row = screen->characters[i]; const char *font = screen->fonts[i]; int j = 0; /* skip leading space */ while (row[j] == ' ') j++; for (; j < SCREEN_COLUMNS; j++) { const char *e_tag = "", *s_tag = ""; if (row[j] == 0) break; if (prev_font != font[j]) { switch (prev_font) { case CCFONT_ITALICS: e_tag = "{\\i0}"; break; case CCFONT_UNDERLINED: e_tag = "{\\u0}"; break; case CCFONT_UNDERLINED_ITALICS: e_tag = "{\\u0}{\\i0}"; break; } switch (font[j]) { case CCFONT_ITALICS: s_tag = "{\\i1}"; break; case CCFONT_UNDERLINED: s_tag = "{\\u1}"; break; case CCFONT_UNDERLINED_ITALICS: s_tag = "{\\u1}{\\i1}"; break; } } prev_font = font[j]; av_bprintf(&ctx->buffer, "%s%s%c", e_tag, s_tag, row[j]); } av_bprintf(&ctx->buffer, "\\N"); } } if (!av_bprint_is_complete(&ctx->buffer)) return AVERROR(ENOMEM); if (screen->row_used && ctx->buffer.len >= 2) { ctx->buffer.len -= 2; ctx->buffer.str[ctx->buffer.len] = 0; } ctx->buffer_changed = 1; return 0; } static int reap_screen(CCaptionSubContext *ctx, int64_t pts) { ctx->start_time = ctx->startv_time; ctx->startv_time = pts; ctx->end_time = pts; return capture_screen(ctx); } static void handle_textattr(CCaptionSubContext *ctx, uint8_t hi, uint8_t lo) { int i = lo - 0x20; struct Screen *screen = get_writing_screen(ctx); if (i >= 32) return; ctx->cursor_color = pac2_attribs[i][0]; ctx->cursor_font = pac2_attribs[i][1]; SET_FLAG(screen->row_used, ctx->cursor_row); write_char(ctx, screen, ' '); } static void handle_pac(CCaptionSubContext *ctx, uint8_t hi, uint8_t lo) { static const int8_t row_map[] = { 11, -1, 1, 2, 3, 4, 12, 13, 14, 15, 5, 6, 7, 8, 9, 10 }; const int index = ( (hi<<1) & 0x0e) | ( (lo>>5) & 0x01 ); struct Screen *screen = get_writing_screen(ctx); int indent, i; if (row_map[index] <= 0) { av_log(ctx, AV_LOG_DEBUG, "Invalid pac index encountered\n"); return; } lo &= 0x1f; ctx->cursor_row = row_map[index] - 1; ctx->cursor_color = pac2_attribs[lo][0]; ctx->cursor_font = pac2_attribs[lo][1]; ctx->cursor_column = 0; indent = pac2_attribs[lo][2]; for (i = 0; i < indent; i++) { write_char(ctx, screen, ' '); } } /** * @param pts it is required to set end time */ static void handle_edm(CCaptionSubContext *ctx, int64_t pts) { struct Screen *screen = ctx->screen + ctx->active_screen; // In buffered mode, keep writing to screen until it is wiped. // Before wiping the display, capture contents to emit subtitle. if (!ctx->real_time) reap_screen(ctx, pts); screen->row_used = 0; // In realtime mode, emit an empty caption so the last one doesn't // stay on the screen. if (ctx->real_time) reap_screen(ctx, pts); } static void handle_eoc(CCaptionSubContext *ctx, int64_t pts) { // In buffered mode, we wait til the *next* EOC and // reap what was already on the screen since the last EOC. if (!ctx->real_time) handle_edm(ctx,pts); ctx->active_screen = !ctx->active_screen; ctx->cursor_column = 0; // In realtime mode, we display the buffered contents (after // flipping the buffer to active above) as soon as EOC arrives. if (ctx->real_time) reap_screen(ctx, pts); } static void handle_delete_end_of_row(CCaptionSubContext *ctx, char hi, char lo) { struct Screen *screen = get_writing_screen(ctx); write_char(ctx, screen, 0); } static void handle_char(CCaptionSubContext *ctx, char hi, char lo, int64_t pts) { struct Screen *screen = get_writing_screen(ctx); SET_FLAG(screen->row_used, ctx->cursor_row); write_char(ctx, screen, hi); if (lo) { write_char(ctx, screen, lo); } write_char(ctx, screen, 0); if (ctx->mode != CCMODE_POPON) ctx->screen_touched = 1; /* reset prev command since character can repeat */ ctx->prev_cmd[0] = 0; ctx->prev_cmd[1] = 0; if (lo) ff_dlog(ctx, "(%c,%c)\n", hi, lo); else ff_dlog(ctx, "(%c)\n", hi); } static void process_cc608(CCaptionSubContext *ctx, int64_t pts, uint8_t hi, uint8_t lo) { if (hi == ctx->prev_cmd[0] && lo == ctx->prev_cmd[1]) { /* ignore redundant command */ } else if ( (hi == 0x10 && (lo >= 0x40 && lo <= 0x5f)) || ( (hi >= 0x11 && hi <= 0x17) && (lo >= 0x40 && lo <= 0x7f) ) ) { handle_pac(ctx, hi, lo); } else if ( ( hi == 0x11 && lo >= 0x20 && lo <= 0x2f ) || ( hi == 0x17 && lo >= 0x2e && lo <= 0x2f) ) { handle_textattr(ctx, hi, lo); } else if (hi == 0x14 || hi == 0x15 || hi == 0x1c) { switch (lo) { case 0x20: /* resume caption loading */ ctx->mode = CCMODE_POPON; break; case 0x24: handle_delete_end_of_row(ctx, hi, lo); break; case 0x25: case 0x26: case 0x27: ctx->rollup = lo - 0x23; ctx->mode = CCMODE_ROLLUP; break; case 0x29: /* resume direct captioning */ ctx->mode = CCMODE_PAINTON; break; case 0x2b: /* resume text display */ ctx->mode = CCMODE_TEXT; break; case 0x2c: /* erase display memory */ handle_edm(ctx, pts); break; case 0x2d: /* carriage return */ ff_dlog(ctx, "carriage return\n"); if (!ctx->real_time) reap_screen(ctx, pts); roll_up(ctx); ctx->cursor_column = 0; break; case 0x2e: /* erase buffered (non displayed) memory */ // Only in realtime mode. In buffered mode, we re-use the inactive screen // for our own buffering. if (ctx->real_time) { struct Screen *screen = ctx->screen + !ctx->active_screen; screen->row_used = 0; } break; case 0x2f: /* end of caption */ ff_dlog(ctx, "handle_eoc\n"); handle_eoc(ctx, pts); break; default: ff_dlog(ctx, "Unknown command 0x%hhx 0x%hhx\n", hi, lo); break; } } else if (hi >= 0x20) { /* Standard characters (always in pairs) */ handle_char(ctx, hi, lo, pts); } else { /* Ignoring all other non data code */ ff_dlog(ctx, "Unknown command 0x%hhx 0x%hhx\n", hi, lo); } /* set prev command */ ctx->prev_cmd[0] = hi; ctx->prev_cmd[1] = lo; } static int decode(AVCodecContext *avctx, void *data, int *got_sub, AVPacket *avpkt) { CCaptionSubContext *ctx = avctx->priv_data; AVSubtitle *sub = data; uint8_t *bptr = NULL; int len = avpkt->size; int ret = 0; int i; if (ctx->pktbuf->size < len) { ret = av_buffer_realloc(&ctx->pktbuf, len); if (ret < 0) { av_log(ctx, AV_LOG_WARNING, "Insufficient Memory of %d truncated to %d\n", len, ctx->pktbuf->size); len = ctx->pktbuf->size; ret = 0; } } memcpy(ctx->pktbuf->data, avpkt->data, len); bptr = ctx->pktbuf->data; for (i = 0; i < len; i += 3) { uint8_t cc_type = *(bptr + i) & 3; if (validate_cc_data_pair(bptr + i)) continue; /* ignoring data field 1 */ if(cc_type == 1) continue; else process_cc608(ctx, avpkt->pts, *(bptr + i + 1) & 0x7f, *(bptr + i + 2) & 0x7f); if (!ctx->buffer_changed) continue; ctx->buffer_changed = 0; if (*ctx->buffer.str || ctx->real_time) { int64_t sub_pts = ctx->real_time ? avpkt->pts : ctx->start_time; int start_time = av_rescale_q(sub_pts, avctx->time_base, ass_tb); int duration = -1; if (!ctx->real_time) { int end_time = av_rescale_q(ctx->end_time, avctx->time_base, ass_tb); duration = end_time - start_time; } ff_dlog(ctx, "cdp writing data (%s)\n",ctx->buffer.str); ret = ff_ass_add_rect_bprint(sub, &ctx->buffer, start_time, duration); if (ret < 0) return ret; sub->pts = av_rescale_q(sub_pts, avctx->time_base, AV_TIME_BASE_Q); ctx->buffer_changed = 0; ctx->last_real_time = avpkt->pts; ctx->screen_touched = 0; } } if (ctx->real_time && ctx->screen_touched && avpkt->pts > ctx->last_real_time + av_rescale_q(20, ass_tb, avctx->time_base)) { int start_time; ctx->last_real_time = avpkt->pts; ctx->screen_touched = 0; capture_screen(ctx); ctx->buffer_changed = 0; start_time = av_rescale_q(avpkt->pts, avctx->time_base, ass_tb); ret = ff_ass_add_rect_bprint(sub, &ctx->buffer, start_time, -1); if (ret < 0) return ret; sub->pts = av_rescale_q(avpkt->pts, avctx->time_base, AV_TIME_BASE_Q); } *got_sub = sub->num_rects > 0; return ret; } #define OFFSET(x) offsetof(CCaptionSubContext, x) #define SD AV_OPT_FLAG_SUBTITLE_PARAM | AV_OPT_FLAG_DECODING_PARAM static const AVOption options[] = { { "real_time", "emit subtitle events as they are decoded for real-time display", OFFSET(real_time), AV_OPT_TYPE_BOOL, { .i64 = 0 }, 0, 1, SD }, {NULL} }; static const AVClass ccaption_dec_class = { .class_name = "Closed caption Decoder", .item_name = av_default_item_name, .option = options, .version = LIBAVUTIL_VERSION_INT, }; AVCodec ff_ccaption_decoder = { .name = "cc_dec", .long_name = NULL_IF_CONFIG_SMALL("Closed Caption (EIA-608 / CEA-708) Decoder"), .type = AVMEDIA_TYPE_SUBTITLE, .id = AV_CODEC_ID_EIA_608, .priv_data_size = sizeof(CCaptionSubContext), .init = init_decoder, .close = close_decoder, .flush = flush_decoder, .decode = decode, .priv_class = &ccaption_dec_class, };