/* * From ccextractor, leave this file as intact and close to the original as possible so that * it is easy to patch in fixes - even though this file contains code that we don't need. * * Note that the SRT sub generation from CC could be useful for mkv subs. */ #include "hb.h" #include "deccc608sub.h" /* * ccextractor static configuration variables. */ static int debug_608 = 0; static int trim_subs = 1; static int nofontcolor = 0; static enum encoding_type encoding = ENC_UTF_8; static int cc_channel = 1; static enum output_format write_format = OF_SRT; static int sentence_cap = 1; static int subs_delay = 0; static LLONG screens_to_process = -1; static int processed_enough = 0; static int gui_mode_reports = 0; static int norollup = 1; static int direct_rollup = 0; /* * Get the time of the last buffer that we have received. */ static LLONG get_fts(struct s_write *wb) { return wb->last_pts; } #define fatal(N, ...) // N #define XMLRPC_APPEND(N, ...) // N int rowdata[] = {11,-1,1,2,3,4,12,13,14,15,5,6,7,8,9,10}; // Relationship between the first PAC byte and the row number // The following enc_buffer is not used at the moment, if it does get used // we need to bring it into the swrite struct. Same for "str". #define INITIAL_ENC_BUFFER_CAPACITY 2048 unsigned char str[2048]; // Another generic general purpose buffer #define GUARANTEE(wb, length) if (length>wb->enc_buffer_capacity) \ {wb->enc_buffer_capacity*=2; wb->enc_buffer=(unsigned char*) realloc (wb->enc_buffer, wb->enc_buffer_capacity); \ if (wb->enc_buffer==NULL) { fatal (EXIT_NOT_ENOUGH_MEMORY, "Not enough memory, bailing out\n"); } \ } const unsigned char pac2_attribs[][3]= // Color, font, ident { {COL_WHITE, FONT_REGULAR, 0}, // 0x40 || 0x60 {COL_WHITE, FONT_UNDERLINED, 0}, // 0x41 || 0x61 {COL_GREEN, FONT_REGULAR, 0}, // 0x42 || 0x62 {COL_GREEN, FONT_UNDERLINED, 0}, // 0x43 || 0x63 {COL_BLUE, FONT_REGULAR, 0}, // 0x44 || 0x64 {COL_BLUE, FONT_UNDERLINED, 0}, // 0x45 || 0x65 {COL_CYAN, FONT_REGULAR, 0}, // 0x46 || 0x66 {COL_CYAN, FONT_UNDERLINED, 0}, // 0x47 || 0x67 {COL_RED, FONT_REGULAR, 0}, // 0x48 || 0x68 {COL_RED, FONT_UNDERLINED, 0}, // 0x49 || 0x69 {COL_YELLOW, FONT_REGULAR, 0}, // 0x4a || 0x6a {COL_YELLOW, FONT_UNDERLINED, 0}, // 0x4b || 0x6b {COL_MAGENTA, FONT_REGULAR, 0}, // 0x4c || 0x6c {COL_MAGENTA, FONT_UNDERLINED, 0}, // 0x4d || 0x6d {COL_WHITE, FONT_ITALICS, 0}, // 0x4e || 0x6e {COL_WHITE, FONT_UNDERLINED_ITALICS, 0}, // 0x4f || 0x6f {COL_WHITE, FONT_REGULAR, 0}, // 0x50 || 0x70 {COL_WHITE, FONT_UNDERLINED, 0}, // 0x51 || 0x71 {COL_WHITE, FONT_REGULAR, 4}, // 0x52 || 0x72 {COL_WHITE, FONT_UNDERLINED, 4}, // 0x53 || 0x73 {COL_WHITE, FONT_REGULAR, 8}, // 0x54 || 0x74 {COL_WHITE, FONT_UNDERLINED, 8}, // 0x55 || 0x75 {COL_WHITE, FONT_REGULAR, 12}, // 0x56 || 0x76 {COL_WHITE, FONT_UNDERLINED, 12}, // 0x57 || 0x77 {COL_WHITE, FONT_REGULAR, 16}, // 0x58 || 0x78 {COL_WHITE, FONT_UNDERLINED, 16}, // 0x59 || 0x79 {COL_WHITE, FONT_REGULAR, 20}, // 0x5a || 0x7a {COL_WHITE, FONT_UNDERLINED, 20}, // 0x5b || 0x7b {COL_WHITE, FONT_REGULAR, 24}, // 0x5c || 0x7c {COL_WHITE, FONT_UNDERLINED, 24}, // 0x5d || 0x7d {COL_WHITE, FONT_REGULAR, 28}, // 0x5e || 0x7e {COL_WHITE, FONT_UNDERLINED, 28} // 0x5f || 0x7f }; // Preencoded strings unsigned char encoded_crlf[16]; unsigned int encoded_crlf_length; unsigned char encoded_br[16]; unsigned int encoded_br_length; // Default color unsigned char usercolor_rgb[8]=""; enum color_code default_color=COL_WHITE; const char *sami_header= // TODO: Revise the \n\ \n\ \n\n\ \n"; const char *command_type[] = { "Unknown", "EDM - EraseDisplayedMemory", "RCL - ResumeCaptionLoading", "EOC - End Of Caption", "TO1 - Tab Offset, 1 column", "TO2 - Tab Offset, 2 column", "TO3 - Tab Offset, 3 column", "RU2 - Roll up 2 rows", "RU3 - Roll up 3 rows", "RU4 - Roll up 4 rows", "CR - Carriage Return", "ENM - Erase non-displayed memory", "BS - Backspace", "RTD - Resume Text Display" }; const char *font_text[]= { "regular", "italics", "underlined", "underlined italics" }; const char *cc_modes_text[]= { "Pop-Up captions" }; const char *color_text[][2]= { {"white",""}, {"green",""}, {"blue",""}, {"cyan",""}, {"red",""}, {"yellow",""}, {"magenta",""}, {"userdefined","enc_buffer ) { wb->enc_buffer=(unsigned char *) malloc (INITIAL_ENC_BUFFER_CAPACITY); if (wb->enc_buffer==NULL) return -1; wb->enc_buffer_capacity=INITIAL_ENC_BUFFER_CAPACITY; } if( !wb->subline) { wb->subline = malloc(2048); if (!wb->subline) { return -1; } } wb->new_sentence = 1; wb->new_channel = 1; wb->in_xds_mode = 0; wb->hb_buffer = NULL; wb->hb_last_buffer = NULL; wb->last_pts = 0; return 0; } /* * Free up CC memory - don't call this from HB just yet since it will cause * parallel encodes to fail - to be honest they will be stuffed anyway since * the CC's may be overwriting the buffers. */ void general_608_close (struct s_write *wb) { if( wb->enc_buffer ) { free(wb->enc_buffer); wb->enc_buffer_capacity = 0; wb->enc_buffer_used = 0; } if( wb->subline ) { free(wb->subline); } if( wb->hb_buffer ) { hb_buffer_close( &wb->hb_buffer ); } } #include void get_char_in_latin_1 (unsigned char *buffer, unsigned char c) { unsigned char c1='?'; if (c<0x80) { // Regular line-21 character set, mostly ASCII except these exceptions switch (c) { case 0x2a: // lowercase a, acute accent c1=0xe1; break; case 0x5c: // lowercase e, acute accent c1=0xe9; break; case 0x5e: // lowercase i, acute accent c1=0xed; break; case 0x5f: // lowercase o, acute accent c1=0xf3; break; case 0x60: // lowercase u, acute accent c1=0xfa; break; case 0x7b: // lowercase c with cedilla c1=0xe7; break; case 0x7c: // division symbol c1=0xf7; break; case 0x7d: // uppercase N tilde c1=0xd1; break; case 0x7e: // lowercase n tilde c1=0xf1; break; default: c1=c; break; } *buffer=c1; return; } switch (c) { // THIS BLOCK INCLUDES THE 16 EXTENDED (TWO-BYTE) LINE 21 CHARACTERS // THAT COME FROM HI BYTE=0x11 AND LOW BETWEEN 0x30 AND 0x3F case 0x80: // Registered symbol (R) c1=0xae; break; case 0x81: // degree sign c1=0xb0; break; case 0x82: // 1/2 symbol c1=0xbd; break; case 0x83: // Inverted (open) question mark c1=0xbf; break; case 0x84: // Trademark symbol (TM) - Does not exist in Latin 1 break; case 0x85: // Cents symbol c1=0xa2; break; case 0x86: // Pounds sterling c1=0xa3; break; case 0x87: // Music note - Not in latin 1, so we use 'pilcrow' c1=0xb6; break; case 0x88: // lowercase a, grave accent c1=0xe0; break; case 0x89: // transparent space, we make it regular c1=0x20; break; case 0x8a: // lowercase e, grave accent c1=0xe8; break; case 0x8b: // lowercase a, circumflex accent c1=0xe2; break; case 0x8c: // lowercase e, circumflex accent c1=0xea; break; case 0x8d: // lowercase i, circumflex accent c1=0xee; break; case 0x8e: // lowercase o, circumflex accent c1=0xf4; break; case 0x8f: // lowercase u, circumflex accent c1=0xfb; break; // THIS BLOCK INCLUDES THE 32 EXTENDED (TWO-BYTE) LINE 21 CHARACTERS // THAT COME FROM HI BYTE=0x12 AND LOW BETWEEN 0x20 AND 0x3F case 0x90: // capital letter A with acute c1=0xc1; break; case 0x91: // capital letter E with acute c1=0xc9; break; case 0x92: // capital letter O with acute c1=0xd3; break; case 0x93: // capital letter U with acute c1=0xda; break; case 0x94: // capital letter U with diaresis c1=0xdc; break; case 0x95: // lowercase letter U with diaeresis c1=0xfc; break; case 0x96: // apostrophe c1=0x27; break; case 0x97: // inverted exclamation mark c1=0xa1; break; case 0x98: // asterisk c1=0x2a; break; case 0x99: // apostrophe (yes, duped). See CCADI source code. c1=0x27; break; case 0x9a: // hyphen-minus c1=0x2d; break; case 0x9b: // copyright sign c1=0xa9; break; case 0x9c: // Service Mark - not available in latin 1 break; case 0x9d: // Full stop (.) c1=0x2e; break; case 0x9e: // Quoatation mark c1=0x22; break; case 0x9f: // Quoatation mark c1=0x22; break; case 0xa0: // uppercase A, grave accent c1=0xc0; break; case 0xa1: // uppercase A, circumflex c1=0xc2; break; case 0xa2: // uppercase C with cedilla c1=0xc7; break; case 0xa3: // uppercase E, grave accent c1=0xc8; break; case 0xa4: // uppercase E, circumflex c1=0xca; break; case 0xa5: // capital letter E with diaresis c1=0xcb; break; case 0xa6: // lowercase letter e with diaresis c1=0xeb; break; case 0xa7: // uppercase I, circumflex c1=0xce; break; case 0xa8: // uppercase I, with diaresis c1=0xcf; break; case 0xa9: // lowercase i, with diaresis c1=0xef; break; case 0xaa: // uppercase O, circumflex c1=0xd4; break; case 0xab: // uppercase U, grave accent c1=0xd9; break; case 0xac: // lowercase u, grave accent c1=0xf9; break; case 0xad: // uppercase U, circumflex c1=0xdb; break; case 0xae: // LEFT-POINTING DOUBLE ANGLE QUOTATION MARK c1=0xab; break; case 0xaf: // RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK c1=0xbb; break; // THIS BLOCK INCLUDES THE 32 EXTENDED (TWO-BYTE) LINE 21 CHARACTERS // THAT COME FROM HI BYTE=0x13 AND LOW BETWEEN 0x20 AND 0x3F case 0xb0: // Uppercase A, tilde c1=0xc3; break; case 0xb1: // Lowercase a, tilde c1=0xe3; break; case 0xb2: // Uppercase I, acute accent c1=0xcd; break; case 0xb3: // Uppercase I, grave accent c1=0xcc; break; case 0xb4: // Lowercase i, grave accent c1=0xec; break; case 0xb5: // Uppercase O, grave accent c1=0xd2; break; case 0xb6: // Lowercase o, grave accent c1=0xf2; break; case 0xb7: // Uppercase O, tilde c1=0xd5; break; case 0xb8: // Lowercase o, tilde c1=0xf5; break; case 0xb9: // Open curly brace c1=0x7b; break; case 0xba: // Closing curly brace c1=0x7d; break; case 0xbb: // Backslash c1=0x5c; break; case 0xbc: // Caret c1=0x5e; break; case 0xbd: // Underscore c1=0x5f; break; case 0xbe: // Pipe (broken bar) c1=0xa6; break; case 0xbf: // Tilde c1=0x7e; break; case 0xc0: // Uppercase A, umlaut c1=0xc4; break; case 0xc1: // Lowercase A, umlaut c1=0xe3; break; case 0xc2: // Uppercase O, umlaut c1=0xd6; break; case 0xc3: // Lowercase o, umlaut c1=0xf6; break; case 0xc4: // Esszett (sharp S) c1=0xdf; break; case 0xc5: // Yen symbol c1=0xa5; break; case 0xc6: // Currency symbol c1=0xa4; break; case 0xc7: // Vertical bar c1=0x7c; break; case 0xc8: // Uppercase A, ring c1=0xc5; break; case 0xc9: // Lowercase A, ring c1=0xe5; break; case 0xca: // Uppercase O, slash c1=0xd8; break; case 0xcb: // Lowercase o, slash c1=0xf8; break; case 0xcc: // Upper left corner case 0xcd: // Upper right corner case 0xce: // Lower left corner case 0xcf: // Lower right corner default: // For those that don't have representation *buffer='?'; // I'll do it eventually, I promise break; // This are weird chars anyway } *buffer=c1; } void get_char_in_unicode (unsigned char *buffer, unsigned char c) { unsigned char c1,c2; switch (c) { case 0x84: // Trademark symbol (TM) c2=0x21; c1=0x22; break; case 0x87: // Music note c2=0x26; c1=0x6a; break; case 0x9c: // Service Mark c2=0x21; c1=0x20; break; case 0xcc: // Upper left corner c2=0x23; c1=0x1c; break; case 0xcd: // Upper right corner c2=0x23; c1=0x1d; break; case 0xce: // Lower left corner c2=0x23; c1=0x1e; break; case 0xcf: // Lower right corner c2=0x23; c1=0x1f; break; default: // Everything else, same as latin-1 followed by 00 get_char_in_latin_1 (&c1,c); c2=0; break; } *buffer=c1; *(buffer+1)=c2; } int get_char_in_utf_8 (unsigned char *buffer, unsigned char c) // Returns number of bytes used { if (c==0x00) return 0; if (c<0x80) // Regular line-21 character set, mostly ASCII except these exceptions { switch (c) { case 0x2a: // lowercase a, acute accent *buffer=0xc3; *(buffer+1)=0xa1; return 2; case 0x5c: // lowercase e, acute accent *buffer=0xc3; *(buffer+1)=0xa9; return 2; case 0x5e: // lowercase i, acute accent *buffer=0xc3; *(buffer+1)=0xad; return 2; case 0x5f: // lowercase o, acute accent *buffer=0xc3; *(buffer+1)=0xb3; return 2; case 0x60: // lowercase u, acute accent *buffer=0xc3; *(buffer+1)=0xba; return 2; case 0x7b: // lowercase c with cedilla *buffer=0xc3; *(buffer+1)=0xa7; return 2; case 0x7c: // division symbol *buffer=0xc3; *(buffer+1)=0xb7; return 2; case 0x7d: // uppercase N tilde *buffer=0xc3; *(buffer+1)=0x91; return 2; case 0x7e: // lowercase n tilde *buffer=0xc3; *(buffer+1)=0xb1; return 2; default: *buffer=c; return 1; } } switch (c) { // THIS BLOCK INCLUDES THE 16 EXTENDED (TWO-BYTE) LINE 21 CHARACTERS // THAT COME FROM HI BYTE=0x11 AND LOW BETWEEN 0x30 AND 0x3F case 0x80: // Registered symbol (R) *buffer=0xc2; *(buffer+1)=0xae; return 2; case 0x81: // degree sign *buffer=0xc2; *(buffer+1)=0xb0; return 2; case 0x82: // 1/2 symbol *buffer=0xc2; *(buffer+1)=0xbd; return 2; case 0x83: // Inverted (open) question mark *buffer=0xc2; *(buffer+1)=0xbf; return 2; case 0x84: // Trademark symbol (TM) *buffer=0xe2; *(buffer+1)=0x84; *(buffer+2)=0xa2; return 3; case 0x85: // Cents symbol *buffer=0xc2; *(buffer+1)=0xa2; return 2; case 0x86: // Pounds sterling *buffer=0xc2; *(buffer+1)=0xa3; return 2; case 0x87: // Music note *buffer=0xe2; *(buffer+1)=0x99; *(buffer+2)=0xaa; return 3; case 0x88: // lowercase a, grave accent *buffer=0xc3; *(buffer+1)=0xa0; return 2; case 0x89: // transparent space, we make it regular *buffer=0x20; return 1; case 0x8a: // lowercase e, grave accent *buffer=0xc3; *(buffer+1)=0xa8; return 2; case 0x8b: // lowercase a, circumflex accent *buffer=0xc3; *(buffer+1)=0xa2; return 2; case 0x8c: // lowercase e, circumflex accent *buffer=0xc3; *(buffer+1)=0xaa; return 2; case 0x8d: // lowercase i, circumflex accent *buffer=0xc3; *(buffer+1)=0xae; return 2; case 0x8e: // lowercase o, circumflex accent *buffer=0xc3; *(buffer+1)=0xb4; return 2; case 0x8f: // lowercase u, circumflex accent *buffer=0xc3; *(buffer+1)=0xbb; return 2; // THIS BLOCK INCLUDES THE 32 EXTENDED (TWO-BYTE) LINE 21 CHARACTERS // THAT COME FROM HI BYTE=0x12 AND LOW BETWEEN 0x20 AND 0x3F case 0x90: // capital letter A with acute *buffer=0xc3; *(buffer+1)=0x81; return 2; case 0x91: // capital letter E with acute *buffer=0xc3; *(buffer+1)=0x89; return 2; case 0x92: // capital letter O with acute *buffer=0xc3; *(buffer+1)=0x93; return 2; case 0x93: // capital letter U with acute *buffer=0xc3; *(buffer+1)=0x9a; return 2; case 0x94: // capital letter U with diaresis *buffer=0xc3; *(buffer+1)=0x9c; return 2; case 0x95: // lowercase letter U with diaeresis *buffer=0xc3; *(buffer+1)=0xbc; return 2; case 0x96: // apostrophe *buffer=0x27; return 1; case 0x97: // inverted exclamation mark *buffer=0xc1; *(buffer+1)=0xa1; return 2; case 0x98: // asterisk *buffer=0x2a; return 1; case 0x99: // apostrophe (yes, duped). See CCADI source code. *buffer=0x27; return 1; case 0x9a: // hyphen-minus *buffer=0x2d; return 1; case 0x9b: // copyright sign *buffer=0xc2; *(buffer+1)=0xa9; return 2; case 0x9c: // Service mark *buffer=0xe2; *(buffer+1)=0x84; *(buffer+2)=0xa0; return 3; case 0x9d: // Full stop (.) *buffer=0x2e; return 1; case 0x9e: // Quoatation mark *buffer=0x22; return 1; case 0x9f: // Quoatation mark *buffer=0x22; return 1; case 0xa0: // uppercase A, grave accent *buffer=0xc3; *(buffer+1)=0x80; return 2; case 0xa1: // uppercase A, circumflex *buffer=0xc3; *(buffer+1)=0x82; return 2; case 0xa2: // uppercase C with cedilla *buffer=0xc3; *(buffer+1)=0x87; return 2; case 0xa3: // uppercase E, grave accent *buffer=0xc3; *(buffer+1)=0x88; return 2; case 0xa4: // uppercase E, circumflex *buffer=0xc3; *(buffer+1)=0x8a; return 2; case 0xa5: // capital letter E with diaresis *buffer=0xc3; *(buffer+1)=0x8b; return 2; case 0xa6: // lowercase letter e with diaresis *buffer=0xc3; *(buffer+1)=0xab; return 2; case 0xa7: // uppercase I, circumflex *buffer=0xc3; *(buffer+1)=0x8e; return 2; case 0xa8: // uppercase I, with diaresis *buffer=0xc3; *(buffer+1)=0x8f; return 2; case 0xa9: // lowercase i, with diaresis *buffer=0xc3; *(buffer+1)=0xaf; return 2; case 0xaa: // uppercase O, circumflex *buffer=0xc3; *(buffer+1)=0x94; return 2; case 0xab: // uppercase U, grave accent *buffer=0xc3; *(buffer+1)=0x99; return 2; case 0xac: // lowercase u, grave accent *buffer=0xc3; *(buffer+1)=0xb9; return 2; case 0xad: // uppercase U, circumflex *buffer=0xc3; *(buffer+1)=0x9b; return 2; case 0xae: // LEFT-POINTING DOUBLE ANGLE QUOTATION MARK *buffer=0xc2; *(buffer+1)=0xab; return 2; case 0xaf: // RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK *buffer=0xc2; *(buffer+1)=0xbb; return 2; // THIS BLOCK INCLUDES THE 32 EXTENDED (TWO-BYTE) LINE 21 CHARACTERS // THAT COME FROM HI BYTE=0x13 AND LOW BETWEEN 0x20 AND 0x3F case 0xb0: // Uppercase A, tilde *buffer=0xc3; *(buffer+1)=0x83; return 2; case 0xb1: // Lowercase a, tilde *buffer=0xc3; *(buffer+1)=0xa3; return 2; case 0xb2: // Uppercase I, acute accent *buffer=0xc3; *(buffer+1)=0x8d; return 2; case 0xb3: // Uppercase I, grave accent *buffer=0xc3; *(buffer+1)=0x8c; return 2; case 0xb4: // Lowercase i, grave accent *buffer=0xc3; *(buffer+1)=0xac; return 2; case 0xb5: // Uppercase O, grave accent *buffer=0xc3; *(buffer+1)=0x92; return 2; case 0xb6: // Lowercase o, grave accent *buffer=0xc3; *(buffer+1)=0xb2; return 2; case 0xb7: // Uppercase O, tilde *buffer=0xc3; *(buffer+1)=0x95; return 2; case 0xb8: // Lowercase o, tilde *buffer=0xc3; *(buffer+1)=0xb5; return 2; case 0xb9: // Open curly brace *buffer=0x7b; return 1; case 0xba: // Closing curly brace *buffer=0x7d; return 1; case 0xbb: // Backslash *buffer=0x5c; return 1; case 0xbc: // Caret *buffer=0x5e; return 1; case 0xbd: // Underscore *buffer=0x5f; return 1; case 0xbe: // Pipe (broken bar) *buffer=0xc2; *(buffer+1)=0xa6; return 1; case 0xbf: // Tilde *buffer=0x7e; // Not sure return 1; case 0xc0: // Uppercase A, umlaut *buffer=0xc3; *(buffer+1)=0x84; return 2; case 0xc1: // Lowercase A, umlaut *buffer=0xc3; *(buffer+1)=0xa4; return 2; case 0xc2: // Uppercase O, umlaut *buffer=0xc3; *(buffer+1)=0x96; return 2; case 0xc3: // Lowercase o, umlaut *buffer=0xc3; *(buffer+1)=0xb6; return 2; case 0xc4: // Esszett (sharp S) *buffer=0xc3; *(buffer+1)=0x9f; return 2; case 0xc5: // Yen symbol *buffer=0xc2; *(buffer+1)=0xa5; return 2; case 0xc6: // Currency symbol *buffer=0xc2; *(buffer+1)=0xa4; return 2; case 0xc7: // Vertical bar *buffer=0x7c; return 1; case 0xc8: // Uppercase A, ring *buffer=0xc3; *(buffer+1)=0x85; return 2; case 0xc9: // Lowercase A, ring *buffer=0xc3; *(buffer+1)=0xa5; return 2; case 0xca: // Uppercase O, slash *buffer=0xc3; *(buffer+1)=0x98; return 2; case 0xcb: // Lowercase o, slash *buffer=0xc3; *(buffer+1)=0xb8; return 2; case 0xcc: // Upper left corner *buffer=0xe2; *(buffer+1)=0x8c; *(buffer+2)=0x9c; return 3; case 0xcd: // Upper right corner *buffer=0xe2; *(buffer+1)=0x8c; *(buffer+2)=0x9d; return 3; case 0xce: // Lower left corner *buffer=0xe2; *(buffer+1)=0x8c; *(buffer+2)=0x9e; return 3; case 0xcf: // Lower right corner *buffer=0xe2; *(buffer+1)=0x8c; *(buffer+2)=0x9f; return 3; default: // *buffer='?'; // I'll do it eventually, I promise return 1; // This are weird chars anyway } } unsigned char cctolower (unsigned char c) { if (c>='A' && c<='Z') return tolower(c); switch (c) { case 0x7d: // uppercase N tilde return 0x7e; case 0x90: // capital letter A with acute return 0x2a; case 0x91: // capital letter E with acute return 0x5c; case 0x92: // capital letter O with acute return 0x5f; case 0x93: // capital letter U with acute return 0x60; case 0xa2: // uppercase C with cedilla return 0x7b; case 0xa0: // uppercase A, grave accent return 0x88; case 0xa3: // uppercase E, grave accent return 0x8a; case 0xa1: // uppercase A, circumflex return 0x8b; case 0xa4: // uppercase E, circumflex return 0x8c; case 0xa7: // uppercase I, circumflex return 0x8d; case 0xaa: // uppercase O, circumflex return 0x8e; case 0xad: // uppercase U, circumflex return 0x8f; case 0x94: // capital letter U with diaresis return 0x95; case 0xa5: // capital letter E with diaresis return 0xa6; case 0xa8: // uppercase I, with diaresis return 0xa9; case 0xab: // uppercase U, grave accent return 0xac; case 0xb0: // Uppercase A, tilde return 0xb1; case 0xb2: // Uppercase I, acute accent return 0x5e; case 0xb3: // Uppercase I, grave accent return 0xb4; case 0xb5: // Uppercase O, grave accent return 0xb6; case 0xb7: // Uppercase O, tilde return 0xb8; case 0xc0: // Uppercase A, umlaut return 0xc1; case 0xc2: // Uppercase O, umlaut return 0xc3; case 0xc8: // Uppercase A, ring return 0xc9; case 0xca: // Uppercase O, slash return 0xcb; } return c; } unsigned char cctoupper (unsigned char c) { if (c>='a' && c<='z') return toupper(c); switch (c) { case 0x7e: // lowercase n tilde return 0x7d; case 0x2a: // lowercase a, acute accent return 0x90; case 0x5c: // lowercase e, acute accent return 0x91; case 0x5e: // lowercase i, acute accent return 0xb2; case 0x5f: // lowercase o, acute accent return 0x92; case 0x60: // lowercase u, acute accent return 0x93; case 0x7b: // lowercase c with cedilla return 0xa2; case 0x88: // lowercase a, grave accent return 0xa0; case 0x8a: // lowercase e, grave accent return 0xa3; case 0x8b: // lowercase a, circumflex accent return 0xa1; case 0x8c: // lowercase e, circumflex accent return 0xa4; case 0x8d: // lowercase i, circumflex accent return 0xa7; case 0x8e: // lowercase o, circumflex accent return 0xaa; case 0x8f: // lowercase u, circumflex accent return 0xad; case 0x95: // lowercase letter U with diaeresis return 0x94; case 0xa6: // lowercase letter e with diaresis return 0xa5; case 0xa9: // lowercase i, with diaresis return 0xa8; case 0xac: // lowercase u, grave accent return 0xab; case 0xb1: // Lowercase a, tilde return 0xb0; case 0xb4: // Lowercase i, grave accent return 0xb3; case 0xb6: // Lowercase o, grave accent return 0xb5; case 0xb8: // Lowercase o, tilde return 0xb7; case 0xc1: // Lowercase A, umlaut return 0xc0; case 0xc3: // Lowercase o, umlaut return 0xc2; case 0xc9: // Lowercase A, ring return 0xc8; case 0xcb: // Lowercase o, slash return 0xca; } return c; } // Encodes a generic string. Note that since we use the encoders for closed caption // data, text would have to be encoded as CCs... so using special characters here // it's a bad idea. unsigned encode_line (unsigned char *buffer, unsigned char *text) { unsigned bytes=0; while (*text) { switch (encoding) { case ENC_UTF_8: case ENC_LATIN_1: *buffer=*text; bytes++; buffer++; break; case ENC_UNICODE: *buffer=*text; *(buffer+1)=0; bytes+=2; buffer+=2; break; } text++; } return bytes; } #define ISSEPARATOR(c) (c==' ' || c==0x89 || ispunct(c) \ || c==0x99) // This is the apostrofe. We get it here in CC encoding, not ASCII void correct_case (int line_num, struct eia608_screen *data) { /* int i=0; */ /* while (icharacters[line_num]; */ /* size_t len=strlen (spell_correct[i]); */ /* while ((c=strstr (c,spell_lower[i]))!=NULL) */ /* { */ /* // Make sure it's a whole word (start of line or */ /* // preceded by space, and end of line or followed by */ /* // space) */ /* unsigned char prev; */ /* if (c==(char *) data->characters[line_num]) // Beginning of line... */ /* prev=' '; // ...Pretend we had a blank before */ /* else */ /* prev=*(c-1); */ /* unsigned char next; */ /* if (c-(char *) data->characters[line_num]+len==CC608_SCREEN_WIDTH) // End of line... */ /* next=' '; // ... pretend we have a blank later */ /* else */ /* next=*(c+len); */ /* if ( ISSEPARATOR(prev) && ISSEPARATOR(next)) */ /* { */ /* memcpy (c,spell_correct[i],len); */ /* } */ /* c++; */ /* } */ /* i++; */ /* } */ } void capitalize (int line_num, struct eia608_screen *data, int *new_sentence) { int i; for (i=0;icharacters[line_num][i]) { case ' ': case 0x89: // This is a transparent space case '-': break; case '.': // Fallthrough case '?': // Fallthrough case '!': case ':': *new_sentence=1; break; default: if (*new_sentence) data->characters[line_num][i]=cctoupper (data->characters[line_num][i]); else data->characters[line_num][i]=cctolower (data->characters[line_num][i]); *new_sentence=0; break; } } } void find_limit_characters (unsigned char *line, int *first_non_blank, int *last_non_blank) { int i; *last_non_blank=-1; *first_non_blank=-1; for (i=0;icharacters[line_num]; int last_non_blank=-1; int first_non_blank=-1; unsigned char *orig=buffer; // Keep for debugging int i; find_limit_characters (line, &first_non_blank, &last_non_blank); if (first_non_blank==-1) { *buffer=0; return 0; } int bytes=0; for (i=first_non_blank;i<=last_non_blank;i++) { char c=line[i]; switch (encoding) { case ENC_UTF_8: bytes=get_char_in_utf_8 (buffer,c); break; case ENC_LATIN_1: get_char_in_latin_1 (buffer,c); bytes=1; break; case ENC_UNICODE: get_char_in_unicode (buffer,c); bytes=2; break; } buffer+=bytes; } *buffer=0; return (unsigned) (buffer-orig); // Return length } unsigned get_decoder_line_encoded_for_gui (unsigned char *buffer, int line_num, struct eia608_screen *data) { unsigned char *line = data->characters[line_num]; unsigned char *orig=buffer; // Keep for debugging int first=0, last=31; int i; find_limit_characters(line,&first,&last); for (i=first;i<=last;i++) { get_char_in_latin_1 (buffer,line[i]); buffer++; } *buffer=0; return (unsigned) (buffer-orig); // Return length } unsigned get_decoder_line_encoded (unsigned char *buffer, int line_num, struct eia608_screen *data) { int col = COL_WHITE; int underlined = 0; int italics = 0; int i; unsigned char *line = data->characters[line_num]; unsigned char *orig=buffer; // Keep for debugging int first=0, last=31; if (trim_subs) find_limit_characters(line,&first,&last); for (i=first;i<=last;i++) { // Handle color int its_col = data->colors[line_num][i]; if (its_col != col && !nofontcolor) { if (col!=COL_WHITE) // We need to close the previous font tag { buffer+= encode_line (buffer,(unsigned char *) ""); } // Add new font tag buffer+=encode_line (buffer, (unsigned char*) color_text[its_col][1]); if (its_col==COL_USERDEFINED) { // The previous sentence doesn't copy the whole // tag, just up to the quote before the color buffer+=encode_line (buffer, (unsigned char*) usercolor_rgb); buffer+=encode_line (buffer, (unsigned char*) "\">"); } col = its_col; } // Handle underlined int is_underlined = data->fonts[line_num][i] & FONT_UNDERLINED; if (is_underlined && underlined==0) // Open underline { buffer+=encode_line (buffer, (unsigned char *) ""); } if (is_underlined==0 && underlined) // Close underline { buffer+=encode_line (buffer, (unsigned char *) ""); } underlined=is_underlined; // Handle italics int has_ita = data->fonts[line_num][i] & FONT_ITALICS; if (has_ita && italics==0) // Open italics { buffer+=encode_line (buffer, (unsigned char *) ""); } if (has_ita==0 && italics) // Close italics { buffer+=encode_line (buffer, (unsigned char *) ""); } italics=has_ita; int bytes=0; switch (encoding) { case ENC_UTF_8: bytes=get_char_in_utf_8 (buffer,line[i]); break; case ENC_LATIN_1: get_char_in_latin_1 (buffer,line[i]); bytes=1; break; case ENC_UNICODE: get_char_in_unicode (buffer,line[i]); bytes=2; break; } buffer+=bytes; } if (italics) { buffer+=encode_line (buffer, (unsigned char *) ""); } if (underlined) { buffer+=encode_line (buffer, (unsigned char *) ""); } if (col != COL_WHITE && !nofontcolor) { buffer+=encode_line (buffer, (unsigned char *) ""); } *buffer=0; return (unsigned) (buffer-orig); // Return length } void delete_all_lines_but_current (struct eia608_screen *data, int row) { int i; for (i=0;i<15;i++) { if (i!=row) { memset(data->characters[i],' ',CC608_SCREEN_WIDTH); data->characters[i][CC608_SCREEN_WIDTH]=0; memset (data->colors[i],default_color,CC608_SCREEN_WIDTH+1); memset (data->fonts[i],FONT_REGULAR,CC608_SCREEN_WIDTH+1); data->row_used[i]=0; } } } void clear_eia608_cc_buffer (struct eia608_screen *data) { int i; for (i=0;i<15;i++) { memset(data->characters[i],' ',CC608_SCREEN_WIDTH); data->characters[i][CC608_SCREEN_WIDTH]=0; memset (data->colors[i],default_color,CC608_SCREEN_WIDTH+1); memset (data->fonts[i],FONT_REGULAR,CC608_SCREEN_WIDTH+1); data->row_used[i]=0; } data->empty=1; } void init_eia608 (struct eia608 *data) { data->cursor_column=0; data->cursor_row=0; clear_eia608_cc_buffer (&data->buffer1); clear_eia608_cc_buffer (&data->buffer2); data->visible_buffer=1; data->last_c1=0; data->last_c2=0; data->mode=MODE_POPUP; // data->current_visible_start_cc=0; data->current_visible_start_ms=0; data->srt_counter=0; data->screenfuls_counter=0; data->channel=1; data->color=default_color; data->font=FONT_REGULAR; data->rollup_base_row=14; } struct eia608_screen *get_writing_buffer (struct s_write *wb) { struct eia608_screen *use_buffer=NULL; switch (wb->data608->mode) { case MODE_POPUP: // Write on the non-visible buffer if (wb->data608->visible_buffer==1) use_buffer = &wb->data608->buffer2; else use_buffer = &wb->data608->buffer1; break; case MODE_ROLLUP_2: // Write directly to screen case MODE_ROLLUP_3: case MODE_ROLLUP_4: if (wb->data608->visible_buffer==1) use_buffer = &wb->data608->buffer1; else use_buffer = &wb->data608->buffer2; break; default: fatal (EXIT_BUG_BUG, "Caption mode has an illegal value at get_writing_buffer(), this is a bug.\n"); } return use_buffer; } void write_char (const unsigned char c, struct s_write *wb) { if (wb->data608->mode!=MODE_TEXT) { struct eia608_screen * use_buffer=get_writing_buffer(wb); /* hb_log ("\rWriting char [%c] at %s:%d:%d\n",c, use_buffer == &wb->data608->buffer1?"B1":"B2", wb->data608->cursor_row,wb->data608->cursor_column); */ use_buffer->characters[wb->data608->cursor_row][wb->data608->cursor_column]=c; use_buffer->colors[wb->data608->cursor_row][wb->data608->cursor_column]=wb->data608->color; use_buffer->fonts[wb->data608->cursor_row][wb->data608->cursor_column]=wb->data608->font; use_buffer->row_used[wb->data608->cursor_row]=1; use_buffer->empty=0; if (wb->data608->cursor_column<31) wb->data608->cursor_column++; } } /* Handle MID-ROW CODES. */ void handle_text_attr (const unsigned char c1, const unsigned char c2, struct s_write *wb) { // Handle channel change wb->data608->channel=wb->new_channel; if (wb->data608->channel!=cc_channel) return; if (debug_608) hb_log ("\r608: text_attr: %02X %02X",c1,c2); if ( ((c1!=0x11 && c1!=0x19) || (c2<0x20 || c2>0x2f)) && debug_608) { hb_log ("\rThis is not a text attribute!\n"); } else { int i = c2-0x20; wb->data608->color=pac2_attribs[i][0]; wb->data608->font=pac2_attribs[i][1]; if (debug_608) hb_log (" -- Color: %s, font: %s\n", color_text[wb->data608->color][0], font_text[wb->data608->font]); if (wb->data608->cursor_column<31) wb->data608->cursor_column++; } } void mstotime (LLONG milli, unsigned *hours, unsigned *minutes, unsigned *seconds, unsigned *ms) { // LLONG milli = (LLONG) ((ccblock*1000)/29.97); *ms=(unsigned) (milli%1000); // milliseconds milli=(milli-*ms)/1000; // Remainder, in seconds *seconds = (int) (milli%60); milli=(milli-*seconds)/60; // Remainder, in minutes *minutes = (int) (milli%60); milli=(milli-*minutes)/60; // Remainder, in hours *hours=(int) milli; } void write_subtitle_file_footer (struct s_write *wb) { switch (write_format) { case OF_SAMI: sprintf ((char *) str,"\n"); if (debug_608 && encoding!=ENC_UNICODE) { hb_log ("\r%s\n", str); } wb->enc_buffer_used=encode_line (wb->enc_buffer,(unsigned char *) str); //fwrite (enc_buffer,enc_buffer_used,1,wb->fh); XMLRPC_APPEND(wb->enc_buffer,wb->enc_buffer_used); break; default: // Nothing to do. Only SAMI has a footer break; } } void fhb_log_encoded (FILE *fh, const char *string) { //GUARANTEE(wb, strlen (string)*3); //wb->enc_buffer_used=encode_line (wb->enc_buffer,(unsigned char *) string); //fwrite (wb->enc_buffer,wb->enc_buffer_used,1,fh); } void write_subtitle_file_header (struct s_write *wb) { switch (write_format) { case OF_SRT: // Subrip subtitles have no header break; case OF_SAMI: // This header brought to you by McPoodle's CCASDI //fhb_log_encoded (wb->fh, sami_header); GUARANTEE(wb, strlen (sami_header)*3); wb->enc_buffer_used=encode_line (wb->enc_buffer,(unsigned char *) sami_header); //fwrite (enc_buffer,enc_buffer_used,1,wb->fh); XMLRPC_APPEND(wb->enc_buffer,wb->enc_buffer_used); break; case OF_RCWT: // Write header //fwrite (rcwt_header, sizeof(rcwt_header),1,wb->fh); break; case OF_TRANSCRIPT: // No header. Fall thru default: break; } } void write_cc_line_as_transcript (struct eia608_screen *data, struct s_write *wb, int line_number) { hb_buffer_t *buffer; if (sentence_cap) { capitalize(line_number,data, &wb->new_sentence); correct_case(line_number,data); } int length = get_decoder_line_basic (wb->subline, line_number, data); if (debug_608 && encoding!=ENC_UNICODE) { hb_log ("\r"); hb_log ("%s\n",wb->subline); } if (length>0) { //fwrite (wb->subline, 1, length, wb->fh); /* * Put this subtitle in a hb_buffer_t and shove it into the subtitle fifo */ buffer = hb_buffer_init( length + 1 ); buffer->start = wb->data608->current_visible_start_ms; buffer->stop = get_fts(wb); memcpy( buffer->data, wb->subline, length + 1 ); //hb_log("CC %lld: %s", buffer->stop, wb->subline); if (wb->hb_last_buffer) { wb->hb_last_buffer->next = buffer; } else { wb->hb_buffer = buffer; } wb->hb_last_buffer = buffer; XMLRPC_APPEND(wb->subline,length); //fwrite (encoded_crlf, 1, encoded_crlf_length,wb->fh); XMLRPC_APPEND(encoded_crlf,encoded_crlf_length); } // fhb_log (wb->fh,encoded_crlf); } int write_cc_buffer_as_transcript (struct eia608_screen *data, struct s_write *wb) { int i; int wrote_something = 0; if (debug_608) { hb_log ("\n- - - TRANSCRIPT caption - - -\n"); } for (i=0;i<15;i++) { if (data->row_used[i]) { write_cc_line_as_transcript (data,wb, i); } wrote_something=1; } if (debug_608) { hb_log ("- - - - - - - - - - - -\r\n"); } return wrote_something; } void write_cc_buffer_to_gui (struct eia608_screen *data, struct s_write *wb) { unsigned h1,m1,s1,ms1; unsigned h2,m2,s2,ms2; int i; LLONG ms_start= wb->data608->current_visible_start_ms; ms_start+=subs_delay; if (ms_start<0) // Drop screens that because of subs_delay start too early return; int time_reported=0; for (i=0;i<15;i++) { if (data->row_used[i]) { hb_log ("###SUBTITLE#"); if (!time_reported) { LLONG ms_end = get_fts(wb)+subs_delay; mstotime (ms_start,&h1,&m1,&s1,&ms1); mstotime (ms_end-1,&h2,&m2,&s2,&ms2); // -1 To prevent overlapping with next line. // Note, only MM:SS here as we need to save space in the preview window hb_log ("%02u:%02u#%02u:%02u#", h1*60+m1,s1, h2*60+m2,s2); time_reported=1; } else hb_log ("##"); // We don't capitalize here because whatever function that was used // before to write to file already took care of it. int length = get_decoder_line_encoded_for_gui (wb->subline, i, data); fwrite (wb->subline, 1, length, stderr); fwrite ("\n",1,1,stderr); } } fflush (stderr); } int write_cc_buffer_as_srt (struct eia608_screen *data, struct s_write *wb) { unsigned h1,m1,s1,ms1; unsigned h2,m2,s2,ms2; int wrote_something = 0; LLONG ms_start= wb->data608->current_visible_start_ms; int i; ms_start+=subs_delay; if (ms_start<0) // Drop screens that because of subs_delay start too early return 0; LLONG ms_end = get_fts(wb)+subs_delay; mstotime (ms_start,&h1,&m1,&s1,&ms1); mstotime (ms_end-1,&h2,&m2,&s2,&ms2); // -1 To prevent overlapping with next line. char timeline[128]; wb->data608->srt_counter++; sprintf (timeline,"%u\r\n",wb->data608->srt_counter); //wb->enc_buffer_used=encode_line (wb->enc_buffer,(unsigned char *) timeline); //fwrite (wb->enc_buffer,wb->enc_buffer_used,1,wb->fh); XMLRPC_APPEND(wb->enc_buffer,wb->enc_buffer_used); //sprintf (timeline, "%02u:%02u:%02u,%03u --> %02u:%02u:%02u,%03u\r\n", // h1,m1,s1,ms1, h2,m2,s2,ms2); //wb->enc_buffer_used=encode_line (wb->enc_buffer,(unsigned char *) timeline); if (debug_608) { hb_log ("\n- - - SRT caption - - -\n"); hb_log (timeline); } //fwrite (enc_buffer,enc_buffer_used,1,wb->fh); XMLRPC_APPEND(wb->enc_buffer,wb->enc_buffer_used); /* * Write all the lines into enc_buffer, and then write that out at the end * ensure that we only have two lines, insert a newline after the first one, * and have a big bottom line (strip spaces from any joined lines). */ int line = 1; for (i=0;i<15;i++) { if (data->row_used[i]) { if (sentence_cap) { capitalize(i,data, &wb->new_sentence); correct_case(i,data); } /* * The intention was to use a newline but QT doesn't like it, old code still * here just in case.. */ if (line == 1) { wb->enc_buffer_used = get_decoder_line_encoded (wb->enc_buffer, i, data); line = 2; } else { if (line == 2) { wb->enc_buffer_used += encode_line (wb->enc_buffer+wb->enc_buffer_used, (unsigned char *) " "); } else { wb->enc_buffer_used += encode_line (wb->enc_buffer+wb->enc_buffer_used, (unsigned char *) " "); } wb->enc_buffer_used += get_decoder_line_encoded (wb->enc_buffer+wb->enc_buffer_used, i, data); } } } if (wb->enc_buffer_used) { hb_buffer_t *buffer = hb_buffer_init( wb->enc_buffer_used + 1 ); buffer->start = ms_start; buffer->stop = ms_end; memcpy( buffer->data, wb->enc_buffer, wb->enc_buffer_used + 1 ); if (wb->hb_last_buffer) { wb->hb_last_buffer->next = buffer; } else { wb->hb_buffer = buffer; } wb->hb_last_buffer = buffer; wrote_something=1; } if (debug_608) { hb_log ("- - - - - - - - - - - -\r\n"); } // fhb_log (wb->fh, encoded_crlf); //fwrite (encoded_crlf, 1, encoded_crlf_length,wb->fh); XMLRPC_APPEND(encoded_crlf,encoded_crlf_length); return wrote_something; } int write_cc_buffer_as_sami (struct eia608_screen *data, struct s_write *wb) { int wrote_something=0; LLONG startms = wb->data608->current_visible_start_ms; int i; startms+=subs_delay; if (startms<0) // Drop screens that because of subs_delay start too early return 0; LLONG endms = get_fts(wb)+subs_delay; endms--; // To prevent overlapping with next line. sprintf ((char *) str,"

\r\n",startms); if (debug_608 && encoding!=ENC_UNICODE) { hb_log ("\r%s\n", str); } wb->enc_buffer_used=encode_line (wb->enc_buffer,(unsigned char *) str); fwrite (wb->enc_buffer,wb->enc_buffer_used,1,wb->fh); XMLRPC_APPEND(wb->enc_buffer,wb->enc_buffer_used); for (i=0;i<15;i++) { if (data->row_used[i]) { int length = get_decoder_line_encoded (wb->subline, i, data); if (debug_608 && encoding!=ENC_UNICODE) { hb_log ("\r"); hb_log ("%s\n",wb->subline); } fwrite (wb->subline, 1, length, wb->fh); XMLRPC_APPEND(wb->subline,length); wrote_something=1; if (i!=14) { fwrite (encoded_br, 1, encoded_br_length,wb->fh); XMLRPC_APPEND(encoded_br, encoded_br_length); } fwrite (encoded_crlf, 1, encoded_crlf_length,wb->fh); XMLRPC_APPEND(encoded_crlf, encoded_crlf_length); } } sprintf ((char *) str,"

\r\n"); if (debug_608 && encoding!=ENC_UNICODE) { hb_log ("\r%s\n", str); } wb->enc_buffer_used=encode_line (wb->enc_buffer,(unsigned char *) str); fwrite (wb->enc_buffer,wb->enc_buffer_used,1,wb->fh); XMLRPC_APPEND(wb->enc_buffer,wb->enc_buffer_used); sprintf ((char *) str,"

 

\r\n\r\n",endms); if (debug_608 && encoding!=ENC_UNICODE) { hb_log ("\r%s\n", str); } wb->enc_buffer_used=encode_line (wb->enc_buffer,(unsigned char *) str); fwrite (wb->enc_buffer,wb->enc_buffer_used,1,wb->fh); XMLRPC_APPEND(wb->enc_buffer,wb->enc_buffer_used); return wrote_something; } struct eia608_screen *get_current_visible_buffer (struct s_write *wb) { struct eia608_screen *data; if (wb->data608->visible_buffer==1) data = &wb->data608->buffer1; else data = &wb->data608->buffer2; return data; } int write_cc_buffer (struct s_write *wb) { struct eia608_screen *data; int wrote_something=0; if (screens_to_process!=-1 && wb->data608->screenfuls_counter>=screens_to_process) { // We are done. processed_enough=1; return 0; } if (wb->data608->visible_buffer==1) data = &wb->data608->buffer1; else data = &wb->data608->buffer2; if (!data->empty) { wb->new_sentence=1; switch (write_format) { case OF_SRT: wrote_something = write_cc_buffer_as_srt (data, wb); break; case OF_SAMI: wrote_something = write_cc_buffer_as_sami (data,wb); break; case OF_TRANSCRIPT: wrote_something = write_cc_buffer_as_transcript (data,wb); break; default: break; } if (wrote_something && gui_mode_reports) write_cc_buffer_to_gui (data,wb); } return wrote_something; } void roll_up(struct s_write *wb) { struct eia608_screen *use_buffer; int i, j; if (wb->data608->visible_buffer==1) use_buffer = &wb->data608->buffer1; else use_buffer = &wb->data608->buffer2; int keep_lines; switch (wb->data608->mode) { case MODE_ROLLUP_2: keep_lines=2; break; case MODE_ROLLUP_3: keep_lines=3; break; case MODE_ROLLUP_4: keep_lines=4; break; default: // Shouldn't happen keep_lines=0; break; } int firstrow=-1, lastrow=-1; // Look for the last line used int rows_now=0; // Number of rows in use right now for (i=0;i<15;i++) { if (use_buffer->row_used[i]) { rows_now++; if (firstrow==-1) firstrow=i; lastrow=i; } } if (debug_608) hb_log ("\rIn roll-up: %d lines used, first: %d, last: %d\n", rows_now, firstrow, lastrow); if (lastrow==-1) // Empty screen, nothing to rollup return; for (j=lastrow-keep_lines+1;j=0) { memcpy (use_buffer->characters[j],use_buffer->characters[j+1],CC608_SCREEN_WIDTH+1); memcpy (use_buffer->colors[j],use_buffer->colors[j+1],CC608_SCREEN_WIDTH+1); memcpy (use_buffer->fonts[j],use_buffer->fonts[j+1],CC608_SCREEN_WIDTH+1); use_buffer->row_used[j]=use_buffer->row_used[j+1]; } } for (j=0;j<(1+wb->data608->cursor_row-keep_lines);j++) { memset(use_buffer->characters[j],' ',CC608_SCREEN_WIDTH); memset(use_buffer->colors[j],COL_WHITE,CC608_SCREEN_WIDTH); memset(use_buffer->fonts[j],FONT_REGULAR,CC608_SCREEN_WIDTH); use_buffer->characters[j][CC608_SCREEN_WIDTH]=0; use_buffer->row_used[j]=0; } memset(use_buffer->characters[lastrow],' ',CC608_SCREEN_WIDTH); memset(use_buffer->colors[lastrow],COL_WHITE,CC608_SCREEN_WIDTH); memset(use_buffer->fonts[lastrow],FONT_REGULAR,CC608_SCREEN_WIDTH); use_buffer->characters[lastrow][CC608_SCREEN_WIDTH]=0; use_buffer->row_used[lastrow]=0; // Sanity check rows_now=0; for (i=0;i<15;i++) if (use_buffer->row_used[i]) rows_now++; if (rows_now>keep_lines) hb_log ("Bug in roll_up, should have %d lines but I have %d.\n", keep_lines, rows_now); } void erase_memory (struct s_write *wb, int displayed) { struct eia608_screen *buf; if (displayed) { if (wb->data608->visible_buffer==1) buf=&wb->data608->buffer1; else buf=&wb->data608->buffer2; } else { if (wb->data608->visible_buffer==1) buf=&wb->data608->buffer2; else buf=&wb->data608->buffer1; } clear_eia608_cc_buffer (buf); } int is_current_row_empty (struct s_write *wb) { struct eia608_screen *use_buffer; int i; if (wb->data608->visible_buffer==1) use_buffer = &wb->data608->buffer1; else use_buffer = &wb->data608->buffer2; for (i=0;icharacters[wb->data608->rollup_base_row][i]!=' ') return 0; } return 1; } /* Process GLOBAL CODES */ void handle_command (/*const */ unsigned char c1, const unsigned char c2, struct s_write *wb) { // Handle channel change wb->data608->channel=wb->new_channel; if (wb->data608->channel!=cc_channel) return; enum command_code command = COM_UNKNOWN; if (c1==0x15) c1=0x14; if ((c1==0x14 || c1==0x1C) && c2==0x2C) command = COM_ERASEDISPLAYEDMEMORY; if ((c1==0x14 || c1==0x1C) && c2==0x20) command = COM_RESUMECAPTIONLOADING; if ((c1==0x14 || c1==0x1C) && c2==0x2F) command = COM_ENDOFCAPTION; if ((c1==0x17 || c1==0x1F) && c2==0x21) command = COM_TABOFFSET1; if ((c1==0x17 || c1==0x1F) && c2==0x22) command = COM_TABOFFSET2; if ((c1==0x17 || c1==0x1F) && c2==0x23) command = COM_TABOFFSET3; if ((c1==0x14 || c1==0x1C) && c2==0x25) command = COM_ROLLUP2; if ((c1==0x14 || c1==0x1C) && c2==0x26) command = COM_ROLLUP3; if ((c1==0x14 || c1==0x1C) && c2==0x27) command = COM_ROLLUP4; if ((c1==0x14 || c1==0x1C) && c2==0x2D) command = COM_CARRIAGERETURN; if ((c1==0x14 || c1==0x1C) && c2==0x2E) command = COM_ERASENONDISPLAYEDMEMORY; if ((c1==0x14 || c1==0x1C) && c2==0x21) command = COM_BACKSPACE; if ((c1==0x14 || c1==0x1C) && c2==0x2b) command = COM_RESUMETEXTDISPLAY; if (debug_608) { hb_log ("\rCommand: %02X %02X (%s)\n",c1,c2,command_type[command]); } switch (command) { case COM_BACKSPACE: if (wb->data608->cursor_column>0) { wb->data608->cursor_column--; get_writing_buffer(wb)->characters[wb->data608->cursor_row][wb->data608->cursor_column]=' '; } break; case COM_TABOFFSET1: if (wb->data608->cursor_column<31) wb->data608->cursor_column++; break; case COM_TABOFFSET2: wb->data608->cursor_column+=2; if (wb->data608->cursor_column>31) wb->data608->cursor_column=31; break; case COM_TABOFFSET3: wb->data608->cursor_column+=3; if (wb->data608->cursor_column>31) wb->data608->cursor_column=31; break; case COM_RESUMECAPTIONLOADING: wb->data608->mode=MODE_POPUP; break; case COM_RESUMETEXTDISPLAY: wb->data608->mode=MODE_TEXT; break; case COM_ROLLUP2: if (wb->data608->mode==MODE_POPUP) { if (write_cc_buffer (wb)) wb->data608->screenfuls_counter++; erase_memory (wb, 1); } if (wb->data608->mode==MODE_ROLLUP_2 && !is_current_row_empty(wb)) { if (debug_608) hb_log ("Two RU2, current line not empty. Simulating a CR\n"); handle_command(0x14, 0x2D, wb); } wb->data608->mode=MODE_ROLLUP_2; erase_memory (wb, 0); wb->data608->cursor_column=0; wb->data608->cursor_row=wb->data608->rollup_base_row; break; case COM_ROLLUP3: if (wb->data608->mode==MODE_POPUP) { if (write_cc_buffer (wb)) wb->data608->screenfuls_counter++; erase_memory (wb, 1); } if (wb->data608->mode==MODE_ROLLUP_3 && !is_current_row_empty(wb)) { if (debug_608) hb_log ("Two RU3, current line not empty. Simulating a CR\n"); handle_command(0x14, 0x2D, wb); } wb->data608->mode=MODE_ROLLUP_3; erase_memory (wb, 0); wb->data608->cursor_column=0; wb->data608->cursor_row=wb->data608->rollup_base_row; break; case COM_ROLLUP4: if (wb->data608->mode==MODE_POPUP) { if (write_cc_buffer (wb)) wb->data608->screenfuls_counter++; erase_memory (wb, 1); } if (wb->data608->mode==MODE_ROLLUP_4 && !is_current_row_empty(wb)) { if (debug_608) hb_log ("Two RU4, current line not empty. Simulating a CR\n"); handle_command(0x14, 0x2D, wb); } wb->data608->mode=MODE_ROLLUP_4; wb->data608->cursor_column=0; wb->data608->cursor_row=wb->data608->rollup_base_row; erase_memory (wb, 0); break; case COM_CARRIAGERETURN: // In transcript mode, CR doesn't write the whole screen, to avoid // repeated lines. if (write_format==OF_TRANSCRIPT) { write_cc_line_as_transcript(get_current_visible_buffer (wb), wb, wb->data608->cursor_row); } else { if (norollup) delete_all_lines_but_current (get_current_visible_buffer (wb), wb->data608->cursor_row); if (write_cc_buffer(wb)) wb->data608->screenfuls_counter++; } roll_up(wb); wb->data608->current_visible_start_ms=get_fts(wb); wb->data608->cursor_column=0; break; case COM_ERASENONDISPLAYEDMEMORY: erase_memory (wb,0); break; case COM_ERASEDISPLAYEDMEMORY: // Write it to disk before doing this, and make a note of the new // time it became clear. if (write_format==OF_TRANSCRIPT && (wb->data608->mode==MODE_ROLLUP_2 || wb->data608->mode==MODE_ROLLUP_3 || wb->data608->mode==MODE_ROLLUP_4)) { // In transcript mode we just write the cursor line. The previous lines // should have been written already, so writing everything produces // duplicate lines. write_cc_line_as_transcript(get_current_visible_buffer (wb), wb, wb->data608->cursor_row); } else { if (write_cc_buffer (wb)) wb->data608->screenfuls_counter++; } erase_memory (wb,1); wb->data608->current_visible_start_ms=get_fts(wb); break; case COM_ENDOFCAPTION: // Switch buffers // The currently *visible* buffer is leaving, so now we know it's ending // time. Time to actually write it to file. if (write_cc_buffer (wb)) wb->data608->screenfuls_counter++; wb->data608->visible_buffer = (wb->data608->visible_buffer==1) ? 2 : 1; wb->data608->current_visible_start_ms=get_fts(wb); wb->data608->cursor_column=0; wb->data608->cursor_row=0; wb->data608->color=default_color; wb->data608->font=FONT_REGULAR; break; default: if (debug_608) { hb_log ("\rNot yet implemented.\n"); } break; } } void handle_end_of_data (struct s_write *wb) { // We issue a EraseDisplayedMemory here so if there's any captions pending // they get written to file. handle_command (0x14, 0x2c, wb); // EDM } void handle_double (const unsigned char c1, const unsigned char c2, struct s_write *wb) { unsigned char c; if (wb->data608->channel!=cc_channel) return; if (c2>=0x30 && c2<=0x3f) { c=c2 + 0x50; // So if c>=0x80 && c<=0x8f, it comes from here if (debug_608) hb_log ("\rDouble: %02X %02X --> %c\n",c1,c2,c); write_char(c,wb); } } /* Process EXTENDED CHARACTERS */ unsigned char handle_extended (unsigned char hi, unsigned char lo, struct s_write *wb) { // Handle channel change if (wb->new_channel > 2) { wb->new_channel -= 2; if (debug_608) hb_log ("\nChannel correction, now %d\n", wb->new_channel); } wb->data608->channel=wb->new_channel; if (wb->data608->channel!=cc_channel) return 0; // For lo values between 0x20-0x3f unsigned char c=0; if (debug_608) hb_log ("\rExtended: %02X %02X\n",hi,lo); if (lo>=0x20 && lo<=0x3f && (hi==0x12 || hi==0x13)) { switch (hi) { case 0x12: c=lo+0x70; // So if c>=0x90 && c<=0xaf it comes from here break; case 0x13: c=lo+0x90; // So if c>=0xb0 && c<=0xcf it comes from here break; } // This column change is because extended characters replace // the previous character (which is sent for basic decoders // to show something similar to the real char) if (wb->data608->cursor_column>0) wb->data608->cursor_column--; write_char (c,wb); } return 1; } /* Process PREAMBLE ACCESS CODES (PAC) */ void handle_pac (unsigned char c1, unsigned char c2, struct s_write *wb) { // Handle channel change if (wb->new_channel > 2) { wb->new_channel -= 2; if (debug_608) hb_log ("\nChannel correction, now %d\n", wb->new_channel); } wb->data608->channel=wb->new_channel; if (wb->data608->channel!=cc_channel) return; int row=rowdata[((c1<<1)&14)|((c2>>5)&1)]; if (debug_608) hb_log ("\rPAC: %02X %02X",c1,c2); if (c2>=0x40 && c2<=0x5f) { c2=c2-0x40; } else { if (c2>=0x60 && c2<=0x7f) { c2=c2-0x60; } else { if (debug_608) hb_log ("\rThis is not a PAC!!!!!\n"); return; } } int color=pac2_attribs[c2][0]; int font=pac2_attribs[c2][1]; int indent=pac2_attribs[c2][2]; if (debug_608) hb_log (" -- Position: %d:%d, color: %s, font: %s\n",row, indent,color_text[color][0],font_text[font]); if (wb->data608->mode!=MODE_TEXT) { // According to Robson, row info is discarded in text mode // but column is accepted wb->data608->cursor_row=row-1 ; // Since the array is 0 based } wb->data608->rollup_base_row=row-1; wb->data608->cursor_column=indent; } void handle_single (const unsigned char c1, struct s_write *wb) { if (c1<0x20 || wb->data608->channel!=cc_channel) return; // We don't allow special stuff here if (debug_608) hb_log ("%c",c1); /*if (debug_608) hb_log ("Character: %02X (%c) -> %02X (%c)\n",c1,c1,c,c); */ write_char (c1,wb); } int check_channel (unsigned char c1, struct s_write *wb) { if (c1==0x14) { if (debug_608 && wb->data608->channel!=1) hb_log ("\nChannel change, now 1\n"); return 1; } if (c1==0x1c) { if (debug_608 && wb->data608->channel!=2) hb_log ("\nChannel change, now 2\n"); return 2; } if (c1==0x15) { if (debug_608 && wb->data608->channel!=3) hb_log ("\nChannel change, now 3\n"); return 3; } if (c1==0x1d) { if (debug_608 && wb->data608->channel!=4) hb_log ("\nChannel change, now 4\n"); return 4; } // Otherwise keep the current channel return wb->data608->channel; } /* Handle Command, special char or attribute and also check for * channel changes. * Returns 1 if something was written to screen, 0 otherwise */ int disCommand (unsigned char hi, unsigned char lo, struct s_write *wb) { int wrote_to_screen=0; /* Full channel changes are only allowed for "GLOBAL CODES", * "OTHER POSITIONING CODES", "BACKGROUND COLOR CODES", * "MID-ROW CODES". * "PREAMBLE ACCESS CODES", "BACKGROUND COLOR CODES" and * SPECIAL/SPECIAL CHARACTERS allow only switching * between 1&3 or 2&4. */ wb->new_channel = check_channel (hi,wb); //if (wb->data608->channel!=cc_channel) // continue; if (hi>=0x18 && hi<=0x1f) hi=hi-8; switch (hi) { case 0x10: if (lo>=0x40 && lo<=0x5f) handle_pac (hi,lo,wb); break; case 0x11: if (lo>=0x20 && lo<=0x2f) handle_text_attr (hi,lo,wb); if (lo>=0x30 && lo<=0x3f) { wrote_to_screen=1; handle_double (hi,lo,wb); } if (lo>=0x40 && lo<=0x7f) handle_pac (hi,lo,wb); break; case 0x12: case 0x13: if (lo>=0x20 && lo<=0x3f) { wrote_to_screen=handle_extended (hi,lo,wb); } if (lo>=0x40 && lo<=0x7f) handle_pac (hi,lo,wb); break; case 0x14: case 0x15: if (lo>=0x20 && lo<=0x2f) handle_command (hi,lo,wb); if (lo>=0x40 && lo<=0x7f) handle_pac (hi,lo,wb); break; case 0x16: if (lo>=0x40 && lo<=0x7f) handle_pac (hi,lo,wb); break; case 0x17: if (lo>=0x21 && lo<=0x22) handle_command (hi,lo,wb); if (lo>=0x2e && lo<=0x2f) handle_text_attr (hi,lo,wb); if (lo>=0x40 && lo<=0x7f) handle_pac (hi,lo,wb); break; } return wrote_to_screen; } void process608 (const unsigned char *data, int length, struct s_write *wb) { static int textprinted = 0; int i; if (data!=NULL) { for (i=0;i=0x01 && hi<=0x0E) { // XDS crap - mode. Would be nice to support it eventually // wb->data608->last_c1=0; // wb->data608->last_c2=0; wb->data608->channel=3; // Always channel 3 wb->in_xds_mode=1; } if (hi==0x0F) // End of XDS block { wb->in_xds_mode=0; continue; } if (hi>=0x10 && hi<0x1F) // Non-character code or special/extended char // http://www.geocities.com/mcpoodle43/SCC_TOOLS/DOCS/CC_CODES.HTML // http://www.geocities.com/mcpoodle43/SCC_TOOLS/DOCS/CC_CHARS.HTML { // We were writing characters before, start a new line for // diagnostic output from disCommand() if (debug_608 && textprinted == 1 ) { hb_log("\n"); textprinted = 0; } wb->in_xds_mode=0; // Back to normal if (wb->data608->last_c1==hi && wb->data608->last_c2==lo) { // Duplicate dual code, discard continue; } wb->data608->last_c1=hi; wb->data608->last_c2=lo; wrote_to_screen=disCommand (hi,lo,wb); } if (hi>=0x20) // Standard characters (always in pairs) { // Only print if the channel is active if (wb->data608->channel!=cc_channel) continue; if (debug_608) { if( textprinted == 0 ) { hb_log("\n"); textprinted = 1; } } handle_single(hi,wb); handle_single(lo,wb); wrote_to_screen=1; wb->data608->last_c1=0; wb->data608->last_c2=0; } if ( debug_608 && !textprinted && wb->data608->channel==cc_channel ) { // Current FTS information after the characters are shown //hb_log("Current FTS: %s\n", print_mstime(get_fts())); } if (wrote_to_screen && direct_rollup && // If direct_rollup is enabled and (wb->data608->mode==MODE_ROLLUP_2 || // we are in rollup mode, write now. wb->data608->mode==MODE_ROLLUP_3 || wb->data608->mode==MODE_ROLLUP_4)) { // We don't increase screenfuls_counter here. write_cc_buffer (wb); wb->data608->current_visible_start_ms=get_fts(wb); } } } } /* Return a pointer to a string that holds the printable characters * of the caption data block. FOR DEBUG PURPOSES ONLY! */ unsigned char *debug_608toASC (unsigned char *cc_data, int channel) { static unsigned char output[3]; unsigned char cc_valid = (cc_data[0] & 4) >>2; unsigned char cc_type = cc_data[0] & 3; unsigned char hi, lo; output[0]=' '; output[1]=' '; output[2]='\x00'; if (cc_valid && cc_type==channel) { hi = cc_data[1] & 0x7F; // Get rid of parity bit lo = cc_data[2] & 0x7F; // Get rid of parity bit if (hi>=0x20) { output[0]=hi; output[1]=(lo>=20 ? lo : '.'); output[2]='\x00'; } else { output[0]='<'; output[1]='>'; output[2]='\x00'; } } return output; } struct hb_work_private_s { hb_job_t * job; struct s_write * cc608; }; int decccInit( hb_work_object_t * w, hb_job_t * job ) { int retval = 1; hb_work_private_t * pv; pv = calloc( 1, sizeof( hb_work_private_t ) ); if( pv ) { w->private_data = pv; pv->job = job; pv->cc608 = calloc(1, sizeof(struct s_write)); if( pv->cc608 ) { retval = general_608_init(pv->cc608); if( !retval ) { pv->cc608->data608 = calloc(1, sizeof(struct eia608)); if( !pv->cc608->data608 ) { retval = 1; } } } } return retval; } int decccWork( hb_work_object_t * w, hb_buffer_t ** buf_in, hb_buffer_t ** buf_out ) { hb_work_private_t * pv = w->private_data; hb_buffer_t * in = *buf_in; if ( in->size <= 0 ) { /* EOF on input stream - send it downstream & say that we're done */ handle_end_of_data(pv->cc608); /* * Grab any pending buffer and output them with the EOF on the end */ if (pv->cc608->hb_last_buffer) { pv->cc608->hb_last_buffer->next = in; *buf_out = pv->cc608->hb_buffer; *buf_in = NULL; pv->cc608->hb_buffer = NULL; pv->cc608->hb_last_buffer = NULL; } else { *buf_out = in; *buf_in = NULL; } return HB_WORK_DONE; } pv->cc608->last_pts = in->start; process608(in->data, in->size, pv->cc608); /* * If there is one waiting then pass it on */ *buf_out = pv->cc608->hb_buffer; pv->cc608->hb_buffer = NULL; pv->cc608->hb_last_buffer = NULL; return HB_WORK_OK; } void decccClose( hb_work_object_t * w ) { hb_work_private_t * pv = w->private_data; general_608_close( pv->cc608 ); free( pv->cc608->data608 ); free( pv->cc608 ); free( w->private_data ); } hb_work_object_t hb_deccc608 = { WORK_DECCC608, "Closed Caption (608) decoder", decccInit, decccWork, decccClose };