/* dt2dv - convert human-readable "DTL" file to DVI format - this is intended to invert dv2dt version 0.6.0 - version 0.6.1 - 14:38 GMT +11 Thu 9 March 1995 - Geoffrey Tobin G.Tobin@ee.latrobe.edu.au - fixes: Michal Tomczak-Jaegermann ntomczak@vm.ucs.ualberta.ca Nelson H. F. Beebe beebe@math.utah.edu - Reference: "The DVI Driver Standard, Level 0", by The TUG DVI Driver Standards Committee. Appendix A, "Device-Independent File Format". */ /* unix version; read from stdin, write to stdout, by default. */ #include #include #include #include #include #include #include "dtl.h" /* by default, read and write regular files */ int rd_stdin = 0; int wr_stdout = 0; /* maximum number of characters in a DTL input line */ #define MAXLINE 1024 /* input line */ typedef struct { COUNT num; /* current line number */ size_t max; /* capacity of buf */ S4 wrote; /* number of characters written into buf */ size_t read; /* position in buf of next character to read from buf */ char * buf; /* line buffer */ } Line; char linebuf[MAXLINE+1]; Line dtl_line = {0, 0, 0, MAXLINE, linebuf}; /* a DTL token either is: a quoted string (admitting an escape character), or BCOM (if that is a nonempty string), or ECOM (if that is a nonempty string), or a string _not_ including ECOM_CHAR or space. */ /* maximum expected length of a DTL token */ #define MAXTOKLEN 255 typedef char Token[MAXTOKLEN+1]; typedef unsigned char Byte; typedef char Boolean; #define true 1 #define false 0 /* command prefixes */ typedef struct { Byte first_code; char * name; Boolean has_suffix; Byte first_suffix, last_suffix; } CmdPrefix; CmdPrefix cmd_prefixes [] = { {0, SETCHAR, true, 0, 127}, {128, SET, true, 1, 4}, {132, SETRULE, false, 0, 0}, {133, PUT, true, 1, 4}, {137, PUTRULE, false, 0, 0}, {138, NOP, false, 0, 0}, {139, BOP, false, 0, 0}, {140, EOP, false, 0, 0}, {141, PUSH, false, 0, 0}, {142, POP, false, 0, 0}, {143, RIGHT, true, 1, 4}, {147, W, true, 0, 4}, {152, X, true, 0, 4}, {157, DOWN, true, 1, 4}, {161, Y, true, 0, 4}, {166, Z, true, 0, 4}, {171, FONTNUM, true, 0, 63}, {235, FONT, true, 1, 4}, {239, SPECIAL, true, 1, 4}, {243, FONTDEF, true, 1, 4}, {247, PRE, false, 0, 0}, {248, POST, false, 0, 0}, {249, POSTPOST, false, 0, 0}, {250, OPCODE, true, 250, 255} }; /* cmd_prefixes[] */ /* Number of DVI commands, including those officially undefined */ #define NCMDS 256 /* table of command name (string) pointers */ typedef char * CmdTable [NCMDS]; /* initially all command name pointers are NULL */ CmdTable cmd_table; /* operation's opcode, name, number of args, string of arguments. */ typedef struct { int code; char * name; int nargs; char * args; } op_info; /* name of table, first opcode, last opcode, pointer to opcode info. */ typedef struct { char * name; int first; int last; op_info * list; } op_table; /* Table for opcodes 128 to 170 inclusive. */ op_info op_info_128_170 [] = { {128, SET1, 1, "1"}, {129, SET2, 1, "2"}, {130, SET3, 1, "3"}, {131, SET4, 1, "-4"}, {132, SETRULE, 2, "-4 -4"}, {133, PUT1, 1, "1"}, {134, PUT2, 1, "2"}, {135, PUT3, 1, "3"}, {136, PUT4, 1, "-4"}, {137, PUTRULE, 2, "-4 -4"}, {138, NOP, 0, ""}, /* bop: not counting last argument, a signed address: */ {139, BOP, 10, "-4 -4 -4 -4 -4 -4 -4 -4 -4 -4"}, {140, EOP, 0, ""}, {141, PUSH, 0, ""}, {142, POP, 0, ""}, {143, RIGHT1, 1, "-1"}, {144, RIGHT2, 1, "-2"}, {145, RIGHT3, 1, "-3"}, {146, RIGHT4, 1, "-4"}, {147, W0, 0, ""}, {148, W1, 1, "-1"}, {149, W2, 1, "-2"}, {150, W3, 1, "-3"}, {151, W4, 1, "-4"}, {152, X0, 0, ""}, {153, X1, 1, "-1"}, {154, X2, 1, "-2"}, {155, X3, 1, "-3"}, {156, X4, 1, "-4"}, {157, DOWN1, 1, "-1"}, {158, DOWN2, 1, "-2"}, {159, DOWN3, 1, "-3"}, {160, DOWN4, 1, "-4"}, {161, Y0, 0, ""}, {162, Y1, 1, "-1"}, {163, Y2, 1, "-2"}, {164, Y3, 1, "-3"}, {165, Y4, 1, "-4"}, {166, Z0, 0, ""}, {167, Z1, 1, "-1"}, {168, Z2, 1, "-2"}, {169, Z3, 1, "-3"}, {170, Z4, 1, "-4"} }; /* op_info op_info_128_170 [] */ op_table op_128_170 = {"op_128_170", 128, 170, op_info_128_170}; /* Table for fnt1 to fnt4 (opcodes 235 to 238) inclusive. */ op_info fnt_n [] = { {235, FONT1, 1, "1"}, {236, FONT2, 1, "2"}, {237, FONT3, 1, "3"}, {238, FONT4, 1, "-4"} }; /* op_info fnt_n [] */ op_table fnt = {FONT, 235, 238, fnt_n}; /* Function prototypes */ Void mem_viol ARGS((int sig)); Void give_help (VOID); int parse ARGS((char * s)); Void process ARGS((char * s)); Void no_op (VOID); Void dtl_stdin (VOID); Void dvi_stdout (VOID); int open_dtl ARGS((char * dtl_file, FILE ** pdtl)); int open_dvi ARGS((char * dvi_file, FILE ** pdvi)); int dt2dv ARGS((FILE * dtl, FILE * dvi)); Void * gmalloc ARGS((long int size)); Void dinfo (VOID); Void dexit ARGS((int n)); int cons_cmds ARGS((int nprefixes, CmdPrefix * prefix, CmdTable cmds)); Void free_cmds ARGS((CmdTable cmd_table)); int get_line ARGS((FILE * fp, Line * line, int max)); int read_line_char ARGS((FILE * fp, int * ch)); int read_char ARGS((FILE * fp, int * ch)); int unread_char (VOID); int read_string_char ARGS((FILE * fp, int * ch)); COUNT read_variety ARGS((FILE * dtl)); COUNT read_token ARGS((FILE * dtl, char * token)); COUNT skip_space ARGS((FILE * fp, int * ch)); COUNT read_misc ARGS((FILE * fp, Token token)); COUNT read_mes ARGS((FILE * fp, char * token)); int find_command ARGS((char * command, int * opcode)); int xfer_args ARGS((FILE * dtl, FILE * dvi, int opcode)); int set_seq ARGS((FILE * dtl, FILE * dvi)); int check_byte ARGS((int byte)); int put_byte ARGS((int onebyte, FILE * dvi)); U4 xfer_hex ARGS((int n, FILE * dtl, FILE * dvi)); U4 xfer_oct ARGS((int n, FILE * dtl, FILE * dvi)); U4 xfer_unsigned ARGS((int n, FILE * dtl, FILE * dvi)); S4 xfer_signed ARGS((int n, FILE * dtl, FILE * dvi)); int check_bmes ARGS((FILE * dtl)); int check_emes ARGS((FILE * dtl)); Void init_Lstring ARGS((Lstring * lsp, long int n)); Void de_init_Lstring ARGS((Lstring * lsp)); Lstring * alloc_Lstring ARGS((long int n)); Void free_Lstring ARGS((Lstring * lstr)); Void ls_putb ARGS((int ch, Lstring * lstr)); S4 get_Lstring ARGS((FILE * dtl, Lstring * lstr)); Void put_Lstring ARGS((const Lstring * lstr, FILE * dvi)); U4 xfer_len_string ARGS((int n, FILE * dtl, FILE * dvi)); U4 get_unsigned ARGS((FILE * dtl)); S4 get_signed ARGS((FILE * dtl)); int put_unsigned ARGS((int n, U4 unum, FILE * dvi)); int put_signed ARGS((int n, S4 snum, FILE * dvi)); S4 xfer_bop_address ARGS((FILE * dtl, FILE * dvi)); S4 xfer_postamble_address ARGS((FILE * dtl, FILE * dvi)); int put_table ARGS((op_table table, int opcode, FILE * dtl, FILE * dvi)); U4 special ARGS((FILE * dtl, FILE * dvi, int n)); int fontdef ARGS((FILE * dtl, FILE * dvi, int n)); U4 preamble ARGS((FILE * dtl, FILE * dvi)); int postamble ARGS((FILE * dtl, FILE * dvi)); int post_post ARGS((FILE * dtl, FILE * dvi)); typedef struct { char * keyword; /* command line option keyword */ int * p_var; /* pointer to option variable */ char * desc; /* description of keyword and value */ Void (* p_fn) (VOID); /* pointer to function called when option is set */ } Options; Options opts[] = { {"-debug", &debug, "detailed debugging", no_op}, {"-group", &group, "each DTL command is in parentheses", no_op}, {"-si", &rd_stdin, "read all DTL commands from standard input", dtl_stdin}, {"-so", &wr_stdout, "write all DVI commands to standard output", dvi_stdout}, {NULL, NULL, NULL, NULL} }; /* opts[] */ char * progname = ""; /* intended for name of this program */ int nfile = 0; /* number of filename arguments on the command line */ #define PRINT_PROGNAME fprintf (stderr, "%s ", progname) /* Harbison & Steele (1991) warn that some C implementations */ /* of free() do not treat NULL pointers correctly. */ #define gfree(p) {if (p) free (p);} FILE * dtl_fp = NULL; FILE * dvi_fp = NULL; char * dtl_filename = ""; char * dvi_filename = ""; int main #ifdef STDC (int argc, char * argv[]) #else (argc, argv) int argc; char * argv[]; #endif { Void (*handler) ARGS((int)); /* Previous signal handler */ int i; progname = argv[0]; /* name of this program */ /* memory violation signal handler */ handler = (Void (*) ARGS((int))) signal (SIGSEGV, mem_viol); #ifndef __DATE__ #define __DATE__ "" #endif #ifndef __TIME__ #define __TIME__ "" #endif #if STDC #define C_LEVEL "" #else /* NOT STDC */ #define C_LEVEL "non-" #endif /* NOT STDC */ /* message about program and compiler */ /* NB: LTU EE's Sun/OS library is BSD, even though gcc 2.2.2 is ANSI */ fprintf (stderr, "\n"); fprintf (stderr, "Program \"%s\" version %s compiled %s %s in %sstandard C.\n", progname, VERSION, __DATE__, __TIME__, C_LEVEL); /* interpret command line arguments */ nfile = 0; dtl_fp = dvi_fp = NULL; dtl_filename = dvi_filename = ""; for (i=1; i < argc; i++) { /* parse options, followed by any explicit filenames */ parse (argv[i]); } if (nfile != 2) /* not exactly two files specified, so give help */ give_help(); else /* the real works */ dt2dv (dtl_fp, dvi_fp); return 0; /* OK */ } /* end main */ Void mem_viol #ifdef STDC (int sig) #else (sig) int sig; #endif { Void (* handler) ARGS((int)); handler = (Void (*) ARGS((int))) signal (SIGSEGV, mem_viol); if (sig != SIGSEGV) { PRINT_PROGNAME; fprintf (stderr, "(mem_viol) : called with wrong signal!\n"); } PRINT_PROGNAME; fprintf (stderr, "(mem_viol) : RUNTIME MEMORY ERROR : memory violation, "); fprintf (stderr, "dtl line >= "); fprintf (stderr, WF, dtl_line.num); fprintf (stderr, "\n"); dexit (1); } /* mem_viol */ Void give_help (VOID) { int i; char * keyword; fprintf (stderr, "usage: "); PRINT_PROGNAME; fprintf (stderr, "[options] dtl_file dvi_file"); fprintf (stderr, "\n"); for (i=0; (keyword = opts[i].keyword) != NULL; i++) { fprintf (stderr, " "); fprintf (stderr, "[%s]", keyword); fprintf (stderr, " "); fprintf (stderr, "%s", opts[i].desc); fprintf (stderr, "\n"); } fprintf (stderr, "Messages, like this one, go to stderr.\n"); } /* give_help */ Void no_op (VOID) /* do nothing */ { } Void dtl_stdin (VOID) { extern FILE * dtl_fp; extern int nfile; dtl_fp = stdin; dtl_filename = "Standard Input"; ++ nfile; } Void dvi_stdout (VOID) { extern FILE * dvi_fp; extern int nfile; /* ! Perilous to monitors! */ dvi_fp = stdout; dvi_filename = "Standard Output"; ++ nfile; } int parse #ifdef STDC (char * s) #else (s) char * s; #endif /* parse one command-line argument, `s' */ { int i; char * keyword; for (i=0; (keyword = opts[i].keyword) != NULL; i++) { if (strncmp (s, keyword, strlen (keyword)) == 0) { Void (*pfn) (VOID); (*(opts[i].p_var)) = 1; /* turn option on */ if ((pfn = opts[i].p_fn) != NULL) (*pfn) (); /* call option function */ return i; } } /* reached here, so not an option: assume it's a filename */ process (s); return i; } /* parse */ int open_dtl #ifdef STDC (char * dtl_file, FILE ** pdtl) #else (dtl_file, pdtl) char * dtl_file; FILE ** pdtl; #endif /* I: dtl_file; I: pdtl; O: *pdtl. */ { extern char * dtl_filename; dtl_filename = dtl_file; if (dtl_filename == NULL) { PRINT_PROGNAME; fprintf (stderr, "(open_dtl) : INTERNAL ERROR : dtl file's name is NULL.\n"); dexit (1); } if (pdtl == NULL) { PRINT_PROGNAME; fprintf (stderr, "(open_dtl) : INTERNAL ERROR : address of dtl variable is NULL.\n"); dexit (1); } *pdtl = fopen (dtl_file, "r"); if (*pdtl == NULL) { PRINT_PROGNAME; fprintf (stderr, "(open_dtl) : DTL FILE ERROR : Cannot open \"%s\" for text reading.\n", dtl_file); dexit (1); } return 1; /* OK */ } /* open_dtl */ int open_dvi #ifdef STDC (char * dvi_file, FILE ** pdvi) #else (dvi_file, pdvi) char * dvi_file; FILE ** pdvi; #endif /* I: dvi_file; I: pdvi; O: *pdvi. */ { extern char * dvi_filename; dvi_filename = dvi_file; if (dvi_filename == NULL) { PRINT_PROGNAME; fprintf (stderr, "(open_dvi) : INTERNAL ERROR : dvi file's name is NULL.\n"); dexit (1); } if (pdvi == NULL) { PRINT_PROGNAME; fprintf (stderr, "(open_dvi) : INTERNAL ERROR : address of dvi variable is NULL.\n"); dexit (1); } *pdvi = fopen (dvi_file, "wb"); if (*pdvi == NULL) { PRINT_PROGNAME; fprintf (stderr, "(open_dvi) : DVI FILE ERROR : Cannot open \"%s\" for binary writing.\n", dvi_file); dexit (1); } return 1; /* OK */ } /* open_dvi */ Void process #ifdef STDC (char * s) #else (s) char * s; #endif { extern FILE * dtl_fp, * dvi_fp; extern int nfile; if (dtl_fp == NULL) /* first filename assumed to be DTL input */ { open_dtl (s, &dtl_fp); } else if (dvi_fp == NULL) /* second filename assumed to be DVI output */ { open_dvi (s, &dvi_fp); } else { PRINT_PROGNAME; fprintf (stderr, "(process) : at most two filenames allowed.\n"); exit (1); } ++ nfile; } /* process */ COUNT dtl_read = 0; /* bytes read from dtl file */ COUNT dvi_written = 0; /* bytes written to dvi file */ word_t last_bop_address = -1; /* byte address of last bop; first bop uses -1 */ word_t postamble_address = -1; /* byte address of postamble */ COUNT ncom = 0; /* commands successfully read and interpreted from dtl file */ COUNT com_read = 0; /* bytes read in current (command and arguments), */ /* since and including the opening BCOM_CHAR, if any */ int put_byte #ifdef STDC (int byte, FILE * dvi) #else (byte, dvi) int byte; FILE * dvi; #endif /* write byte into dvi file */ { check_byte (byte); /* if (fprintf (dvi, "%c", byte) != 1) */ if (fprintf (dvi, "%c", byte) < 0) { PRINT_PROGNAME; fprintf (stderr, "(put_byte) : DVI FILE ERROR (%s) : cannot write to dvi file.\n", dtl_filename); dexit (1); } ++ dvi_written; return 1; /* OK */ } /* put_byte */ int dt2dv #ifdef STDC (FILE * dtl, FILE * dvi) #else (dtl, dvi) FILE * dtl; FILE * dvi; #endif { int nprefixes = 0; /* number of prefixes in cmd_prefixes[] list. */ static Token dtl_cmd = ""; /* DTL command name */ COUNT nread = 0; /* number of bytes read by a function from dtl file. */ nprefixes = sizeof (cmd_prefixes) / sizeof (CmdPrefix); /* Construct array of all NCMDS == 256 DTL commands */ (Void) cons_cmds (nprefixes, cmd_prefixes, cmd_table); /* DTL commands have the form "[ ]*command arg ... arg[ ]*", */ /* possibly enclosed in a BCOM, ECOM pair, */ /* and are separated by optional whitespace, typically newlines. */ /* That is, each command and its arguments are parenthesised, */ /* with optional spaces after the BCOM and before the ECOM, if any. */ /* dt2dv is now at the very start of the DTL file */ dtl_line.num = 0; dtl_read = 0; /* The very first thing should be the "variety" signature */ nread = read_variety (dtl); /* while not end of dtl file or reading error, */ /* read, interpret, and write commands */ while (!feof (dtl)) { int opcode; com_read = 0; if (group) { /* BCOM check */ static Token token = ""; /* DTL token */ nread = read_token (dtl, token); /* test for end of input, or reading error */ if (strlen (token) == 0) { if (debug) { PRINT_PROGNAME; fprintf (stderr, "(dt2dv) : end of input, or reading error.\n"); } break; } /* test whether this command begins correctly */ else if (strcmp (token, BCOM) != 0) { PRINT_PROGNAME; fprintf (stderr, "(dt2dv) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "command must begin with \"%s\", ", BCOM); fprintf (stderr, "not `%c' (char %d).\n", token[0], token[0]); dexit (1); } /* end BCOM check */ } /* read the command name */ nread = read_token (dtl, dtl_cmd); /* test for end of input, or reading error */ if (strlen (dtl_cmd) == 0) { if (debug) { PRINT_PROGNAME; fprintf (stderr, "(dt2dv) : end of input, or reading error.\n"); } break; } else { if (debug) { PRINT_PROGNAME; fprintf (stderr, "(dt2dv) : command "); fprintf (stderr, WF, ncom); fprintf (stderr, " = \"%s\".\n", dtl_cmd); } /* find opcode for this command */ if (find_command (dtl_cmd, &opcode) == 1) { /* write the opcode, if we can */ put_byte (opcode, dvi); /* treat the arguments, if any */ xfer_args (dtl, dvi, opcode); } else if (dtl_cmd[0] == BSEQ_CHAR) { /* sequence of font characters for SETCHAR */ set_seq (dtl, dvi); } else { PRINT_PROGNAME; fprintf (stderr, "(dt2dv) : DTL FILE ERROR (%s) : unknown command \"%s\".\n", dtl_filename, dtl_cmd); dexit (1); } } if (group) { /* seek ECOM after command's last argument and optional whitespace */ static Token token = ""; /* DTL token */ nread = read_token (dtl, token); /* test for end of input, or reading error */ if (strlen (token) == 0) { if (debug) { PRINT_PROGNAME; fprintf (stderr, "(dt2dv) : end of input, or reading error.\n"); } break; } if (strcmp (token, ECOM) != 0) { PRINT_PROGNAME; fprintf (stderr, "(dt2dv) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "ECOM (\"%s\") expected, not `%c' (char %d).\n", ECOM, token[0], token[0]); dexit (1); } /* end ECOM check */ } ++ ncom; /* one more command successfully read and interpreted */ } /* end while */ PRINT_PROGNAME; fprintf (stderr, "(dt2dv) :\n"); fprintf (stderr, "Read (from file \"%s\") ", dtl_filename); fprintf (stderr, WF, dtl_read); fprintf (stderr, " DTL bytes ("); fprintf (stderr, UF4, dtl_line.num); fprintf (stderr, " lines);\n"); fprintf (stderr, "wrote (to file \"%s\") ", dvi_filename); fprintf (stderr, WF, dvi_written); fprintf (stderr, " DVI bytes;\n"); fprintf (stderr, "completely interpreted "); fprintf (stderr, WF, ncom); fprintf (stderr, " DVI command%s.\n", (ncom == 1 ? "" : "s")); fprintf (stderr, "\n"); (Void) free_cmds (cmd_table); return 1; /* OK */ } /* dt2dv */ Void * gmalloc #ifdef STDC (long int size) #else (size) long int size; #endif { Void * p = NULL; if (size < 1) { PRINT_PROGNAME; fprintf (stderr, "(gmalloc) : INTERNAL ERROR : "); fprintf (stderr, "unreasonable request to malloc %ld bytes\n", size); dexit (1); } p = (Void *) malloc ((size_t) size); if (p == NULL) { PRINT_PROGNAME; fprintf (stderr, "(gmalloc) : MEMORY ALLOCATION ERROR : "); fprintf (stderr, "operating system failed to malloc %ld bytes\n", size); dexit (1); } return (p); } /* gmalloc */ Void dinfo (VOID) { PRINT_PROGNAME; fprintf (stderr, "(dinfo) : "); fprintf (stderr, "Current DTL input line "); fprintf (stderr, UF4, dtl_line.num); fprintf (stderr, " :\n"); fprintf (stderr, "\"%s\"\n", dtl_line.buf); fprintf (stderr, "Read "); fprintf (stderr, WF, dtl_read); fprintf (stderr, " DTL bytes ("); fprintf (stderr, WF, com_read); fprintf (stderr, " in current command), wrote "); fprintf (stderr, WF, dvi_written); fprintf (stderr, " DVI bytes.\n"); fprintf (stderr, "Successfully interpreted "); fprintf (stderr, WF, ncom); fprintf (stderr, " DVI command%s.\n", (ncom == 1 ? "" : "s")); } /* dinfo */ Void dexit #ifdef STDC (int n) #else (n) int n; #endif { dinfo(); PRINT_PROGNAME; fprintf (stderr, "(dexit) : exiting with status %d.\n", n); exit (n); } /* dexit */ int cons_cmds #ifdef STDC (int nprefixes, CmdPrefix * prefix, CmdTable cmds) #else (nprefixes, prefix, cmds) int nprefixes; CmdPrefix * prefix; CmdTable cmds; #endif { int code; /* first opcode for a given command prefix */ int opcode; /* command's opcode */ int nsuffixes; /* number of commands with a given prefix */ int isuffix; /**** integer suffix, of at most three digits ****/ String suffix; /* suffix string generated from integer suffix */ size_t plen = 0; /* prefix length */ size_t slen; /* suffix length */ size_t clen; /* whole command name length */ int i, j; /* loop indices */ for (i=0; i < nprefixes; prefix++, i++) { code = prefix->first_code; if (code < 0 || code > 255) { PRINT_PROGNAME; fprintf (stderr, "(cons_cmds) : INTERNAL ERROR : "); fprintf (stderr, "prefix listed internally with code = %d, must be 0 to 255\n", code); dexit (1); } if (prefix->has_suffix) { plen = strlen (prefix->name); /**** Suffixes in DTL are Integers, in Sequence */ if (prefix->last_suffix < prefix->first_suffix) { PRINT_PROGNAME; fprintf (stderr, "(cons_cmds) : INTERNAL ERROR : "); fprintf (stderr, "prefix's last suffix %d < first suffix (%d)\n", prefix->last_suffix, prefix->first_suffix); dexit (1); } nsuffixes = prefix->last_suffix - prefix->first_suffix + 1; opcode = prefix->first_code; for (j=0; j < nsuffixes; j++, opcode++) { isuffix = prefix->first_suffix + j; if (0 <= code && code <= 127) /* SETCHAR */ { /* SETCHAR's suffix is written in uppercase hexadecimal */ sprintf (suffix, "%02X", isuffix); } else /* 128 <= code && code <= 255 */ /* other DTL commands */ { /* other commands' suffices are written in decimal */ sprintf (suffix, "%d", isuffix); } slen = strlen (suffix); clen = plen + slen; cmds[opcode] = (char *) gmalloc (clen+1); strcpy (cmds[opcode], prefix->name); strcat (cmds[opcode], suffix); } } else /* command name = prefix */ { plen = strlen (prefix->name); clen = plen; opcode = prefix->first_code; cmds[opcode] = (char *) gmalloc (clen+1); strcpy (cmds[opcode], prefix->name); } } return 1; /* OK */ } /* cons_cmds */ Void free_cmds #ifdef STDC (CmdTable cmd_table) #else (cmd_table) CmdTable cmd_table; #endif { int i; for (i=0; i < NCMDS; i++) gfree (cmd_table[i]); } /* free_cmds */ int get_line #ifdef STDC (FILE * fp, Line * line, int max) #else (fp, line, max) FILE * fp; Line * line; int max; #endif /* read a (Line *) line from fp, return length */ /* adapted from K&R (second, alias ANSI C, edition, 1988), page 165 */ { if (fgets (line->buf, max, fp) == NULL) return 0; else { ++ line->num; line->wrote = strlen (line->buf); line->read = 0; return 1; } } /* get_line */ int read_line_char #ifdef STDC (FILE * fp, int * ch) #else (fp, ch) FILE * fp; int * ch; #endif /* read one character from dtl_line if possible, */ /* otherwise read another dtl_line from fp */ /* return 1 if a character is read, 0 if at end of fp file */ { extern Line dtl_line; if (dtl_line.wrote == 0 || dtl_line.read >= dtl_line.wrote) { int line_status; /* refill line buffer */ line_status = get_line (fp, &dtl_line, MAXLINE); if (line_status == 0) { /* at end of DTL file */ if (debug) { PRINT_PROGNAME; fprintf (stderr, "(read_line_char) : end of DTL file\n"); dinfo(); } return 0; } else { /* new DTL line was read */ if (debug) { PRINT_PROGNAME; fprintf (stderr, "(read_line_char) : new DTL input line:\n"); fprintf (stderr, "\"%s\"\n", dtl_line.buf); } } } *ch = dtl_line.buf [dtl_line.read ++]; ++ dtl_read; ++ com_read; /* count another DTL command character */ return 1; } /* read_line_char */ int read_char #ifdef STDC (FILE * fp, int * ch) #else (fp, ch) FILE * fp; int * ch; #endif /* Read next character, if any, from file fp. */ /* Write it into *ch. */ /* If no character is read, then *ch value < 0. */ /* Return 1 if OK, 0 if EOF or error. */ { int status = 1; int c; /* in case ch points awry, we still have something in c. */ c = EOF; if (read_line_char (fp, &c) == 0) { /* end of fp file, or error reading it */ status = 0; } else { if (c > 255) { PRINT_PROGNAME; fprintf (stderr, "(read_char) : character %d not in range 0 to 255\n", c); dinfo(); status = 0; } else if ( ! isprint (c) && ! isspace (c)) { PRINT_PROGNAME; fprintf (stderr, "(read_char) : character %d %s.\n", c, "not printable and not white space"); dinfo(); status = 0; } } *ch = c; return status; } /* read_char */ COUNT read_variety #ifdef STDC (FILE * dtl) #else (dtl) FILE * dtl; #endif /* read and check DTL variety signature */ /* return number of DTL bytes written */ /* DTL variety is _NEVER_ grouped by BCOM and ECOM. */ /* Uniformity here enables the program easily to modify its behavior. */ { COUNT vread = 0; /* number of DTL bytes read by read_variety */ COUNT nread = 0; /* number of DTL bytes read by read_token */ static Token token = ""; /* read the DTL VARIETY keyword */ nread = read_token (dtl, token); vread += nread; /* test whether signature begins correctly */ if (strcmp (token, "variety") != 0) { PRINT_PROGNAME; fprintf (stderr, "(read_variety) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "DTL signature must begin with \"%s\", not \"%s\".\n", "variety", token); dexit (1); } /* read the DTL variety */ nread = read_token (dtl, token); vread += nread; /* test whether variety is correct */ if (strcmp (token, VARIETY) != 0) { PRINT_PROGNAME; fprintf (stderr, "(read_variety) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "DTL variety must be \"%s\", not \"%s\".\n", VARIETY, token); dexit (1); } PRINT_PROGNAME; fprintf (stderr, "(read_variety) : DTL variety %s is OK.\n", VARIETY); return vread; /* OK */ } /* read_variety */ COUNT skip_space #ifdef STDC (FILE * fp, int * ch) #else (fp, ch) FILE * fp; int * ch; #endif /* Skip whitespace characters in file fp. */ /* Write in *ch the last character read from fp, */ /* or < 0 if fp could not be read. */ /* Return number of characters read from fp. */ { int c; /* character read (if any) */ COUNT count; /* number (0 or more) of whitespace characters read */ int nchar; /* number (0 or 1) of characters read by read_char */ /* loop ends at: end of fp file, or reading error, or not a white space */ for (count=0; ((nchar = read_char (fp, &c)) == 1 && isspace (c)); ++count) { /* otherwise, more white spaces to skip */ if (debug) { /* report when each DTL end of line is reached */ if (c == '\n') { PRINT_PROGNAME; fprintf (stderr, "(skip_space) : "); fprintf (stderr, "end of DTL line (at least) "); fprintf (stderr, WF, dtl_line.num); fprintf (stderr, "\n"); } } } if (nchar == 0) { c = -1; } *ch = c; /* c will be < 0 if read_char could not read fp */ return (count + nchar); } /* skip_space */ COUNT read_token #ifdef STDC (FILE * dtl, char * token) #else (dtl, token) FILE * dtl; char * token; #endif /* read next token from dtl file. */ /* return number of DTL bytes read. */ /* A token is one of: a string from BMES_CHAR to the next unescaped EMES_CHAR, inclusive; BCOM or ECOM, unless these are empty strings; BSEQ or ESEQ; any other sequence of non-whitespace characters. */ { COUNT nread; /* number of DTL bytes read by read_token */ int ch; /* most recent character read */ nread = 0; /* obtain first non-space character */ /* add to nread the number of characters read from dtl by skip_space */ nread += skip_space (dtl, &ch); if (ch < 0) { /* end of dtl file */ /* write an empty token */ strcpy (token, ""); if (debug) { PRINT_PROGNAME; fprintf (stderr, "(read_token) : end of dtl file.\n"); } } else if (group && ch == BCOM_CHAR) { strcpy (token, BCOM); } else if (group && ch == ECOM_CHAR) { strcpy (token, ECOM); } else { token[0] = ch; token[1] = '\0'; if (ch == BMES_CHAR) /* string token; read until unescaped EMES_CHAR */ { nread += read_mes (dtl, token+1); } else if (ch == BSEQ_CHAR || ch == ESEQ_CHAR) { /* token is complete */ } else /* any other string not containing (ECOM_CHAR or) whitespace */ { nread += read_misc (dtl, token+1); } } if (debug) { PRINT_PROGNAME; fprintf (stderr, "(read_token) : token = \"%s\"\n", token); } return (nread); /* number of bytes read from dtl file */ } /* read_token */ #define CHAR_OK 1 #define CHAR_FAIL 0 #define CHAR_EOS (-1) int read_string_char #ifdef STDC (FILE * fp, int * ch) #else (fp, ch) FILE * fp; int * ch; #endif { int status = CHAR_OK; /* OK so far */ int c; if (read_char (fp, &c) == 0) status = CHAR_FAIL; /* fail */ if (c == EMES_CHAR) /* end-of-string char */ { status = CHAR_EOS; /* end of string */ } else if (c == ESC_CHAR) /* escape character */ { /* accept the next character literally, even ESC_CHAR and EMES_CHAR */ if (read_char (fp, &c) == 0) status = CHAR_FAIL; /* fail */ } *ch = c; return status; } /* read_string_char */ COUNT read_misc #ifdef STDC (FILE * fp, Token token) #else (fp, token) FILE * fp; Token token; #endif { int c; int count; /* loop ends at: end of fp file, or reading error, or a space */ for (count=0; count <= MAXTOKLEN; ++count) { if (read_char (fp, &c) == 0 || isspace (c)) break; if (group && c == ECOM_CHAR) { (Void) unread_char (); break; } token[count] = c; } token[count] = '\0'; return count; } /* read_misc */ COUNT read_mes #ifdef STDC (FILE * fp, char * token) #else (fp, token) FILE * fp; char * token; #endif /* called **AFTER** a BMES_CHAR has been read */ /* read file fp for characters up to next unescaped EMES_CHAR */ /* this is called a "string token" */ /* write string, including EMES_CHAR, into token[] */ /* return number of characters read from fp */ { COUNT dtl_count; /* number of DTL characters read by read_mes from fp */ int more; /* flag more == 0 to terminate loop */ int escape; /* flag escape == 1 if previous character was ESC_CHAR */ int ch; /* current DTL character */ escape = 0; more = 1; dtl_count = 0; while (more) { if (read_char (fp, &ch) == 0) { /* end of fp file, or reading error */ more = 0; } else /* error checking passed */ { ++ dtl_count; if (ch == EMES_CHAR && escape == 0) /* end of string */ { /* include final EMES_CHAR */ * token ++ = ch; more = 0; } else if (ch == ESC_CHAR && escape == 0) { /* next character is not end of string */ escape = 1; } else { /* store any other character, */ /* including escaped EMES_CHAR and ESC_CHAR*/ * token ++ = ch; escape = 0; } } } * token = '\0'; return dtl_count; } /* read_mes */ int unread_char (VOID) /* wind input back, to allow rereading of one character */ /* return 1 if this works, 0 on error */ { extern Line dtl_line; int status; if (dtl_line.read > 0) { -- dtl_line.read; /* back up one character in dtl_line */ -- dtl_read; /* correct the count of DTL characters */ -- com_read; /* count another DTL command character */ status = 1; /* OK */ } else /* current DTL line is empty */ { status = 0; /* error */ } return status; } /* unread_char */ int find_command #ifdef STDC (char * command, int * opcode) #else (command, opcode) char * command; int * opcode; #endif { int found; int i; found = 0; for (i=0; i < NCMDS; i++) { if ((cmd_table[i] != 0) && (strcmp (command, cmd_table[i]) == 0)) { found = 1; break; } } *opcode = i; return found; } /* find_command */ int check_byte #ifdef STDC (int byte) #else (byte) int byte; #endif { if (byte < 0 || byte > 255) { PRINT_PROGNAME; fprintf (stderr, "(check_byte) : INTERNAL ERROR : "); fprintf (stderr, "byte %d not in the range of 0 to 255.\n", byte); dexit (1); } return 1; /* OK */ } /* check_byte */ int xfer_args #ifdef STDC (FILE * dtl, FILE * dvi, int opcode) #else (dtl, dvi, opcode) FILE * dtl; FILE * dvi; int opcode; #endif { int n; if (opcode >= 0 && opcode <= 127) ; /* SETCHAR uses no data */ else if (opcode >= 128 && opcode <= 170) { word_t this_bop_address = last_bop_address; if (opcode == 139) /* BOP */ { this_bop_address = dvi_written - 1; } put_table (op_128_170, opcode, dtl, dvi); if (opcode == 139) /* BOP */ { xfer_bop_address (dtl, dvi); last_bop_address = this_bop_address; } } else if (opcode >= 171 && opcode <= 234) ; /* FONTNUM uses no data */ else if (opcode >= 235 && opcode <= 238) put_table (fnt, opcode, dtl, dvi); else if (opcode >= 239 && opcode <= 242) { n = opcode - 238; special (dtl, dvi, n); } else if (opcode >= 243 && opcode <= 246) { n = opcode - 242; fontdef (dtl, dvi, n); } else if (opcode == 247) preamble (dtl, dvi); else if (opcode == 248) postamble (dtl, dvi); else if (opcode == 249) post_post (dtl, dvi); else if (opcode >= 250 && opcode <= 255) ; /* these, undefined, opcodes use no data */ else { PRINT_PROGNAME; fprintf (stderr, "(xfer_args) : opcode %d not handled.\n", opcode); } return 1; /* OK */ } /* xfer_args */ int set_seq #ifdef STDC (FILE * dtl, FILE * dvi) #else (dtl, dvi) FILE * dtl; FILE * dvi; #endif /* Called _after_ a BSEQ_CHAR command */ /* Read bytes from dtl file, */ /* writing corresponding SETCHAR or SET1 commands to DVI file, */ /* _until_ unescaped ESEQ_CHAR is found */ /* Return 1 if OK, 0 on error */ /**** dt2dv assumes 8 bit characters, ****/ /**** but some day one might change that. ****/ { int status = 1; /* status = 1 if OK, 0 if error */ int more; /* sequence of font characters continuing? */ int escape = 0; /* flag set if previous character was an escape */ int ch; /* character read from DTL file */ more = 1; while (more) { /* ignore read_char status, to allow unprintable characters */ (Void) read_char (dtl, &ch); /* but check for end of dtl file, or serious file reading error */ if (ch < 0) { PRINT_PROGNAME; fprintf (stderr, "(set_seq) : "); fprintf (stderr, "end of dtl file, "); fprintf (stderr, "or serious dtl file reading error\n"); dinfo(); more = 0; status = 0; /* bad news */ } else /* read dtl file, okay */ { if (ch == ESC_CHAR && escape == 0) /* escape next character */ { escape = 1; } else { if (ch == ESEQ_CHAR && escape == 0) /* end of sequence */ { more = 0; } else if (ch <= 127) /* can use SETCHAR */ { put_byte (ch, dvi); } else if (ch <= 255) /* can use SET1 */ { put_byte (128, dvi); /* SET1 opcode */ put_unsigned (1, (U4) ch, dvi); } else { PRINT_PROGNAME; fprintf (stderr, "(set_seq) : "); fprintf (stderr, "ERROR : DTL character %d is not in range 0 to 255\n", ch); dexit (1); more = 0; status = 0; /* Error, because dt2dv assumes 8 bit characters */ } escape = 0; /* current ch is not an escape character */ } } } return status; } /* set_seq */ U4 xfer_hex #ifdef STDC (int n, FILE * dtl, FILE * dvi) #else (n, dtl, dvi) int n; FILE * dtl; FILE * dvi; #endif /* translate unsigned n-byte hexadecimal number from dtl to dvi file. */ /* return value of hexadecimal number */ { U4 unum = 0; /* at most this space needed */ COUNT nread = 0; /* number of DTL bytes read by read_token */ int nconv = 0; /* number of arguments converted by sscanf */ static Token token = ""; /* DTL token */ if (n < 1 || n > 4) { PRINT_PROGNAME; fprintf (stderr, "(xfer_hex) : INTERNAL ERROR : asked for %d bytes. Must be 1 to 4.\n", n); dexit (1); } nread = read_token (dtl, token); nconv = sscanf (token, XF4, &unum); if (nconv < 1) { PRINT_PROGNAME; fprintf (stderr, "(xfer_hex) : DTL FILE ERROR (%s) : %s \"%s\".\n", dtl_filename, "hexadecimal number expected, not", token); dexit (1); } put_unsigned (n, unum, dvi); return unum; } /* xfer_hex */ U4 xfer_oct #ifdef STDC (int n, FILE * dtl, FILE * dvi) #else (n, dtl, dvi) int n; FILE * dtl; FILE * dvi; #endif /* translate unsigned n-byte octal number from dtl to dvi file. */ /* return value of octal number */ { U4 unum = 0; /* at most this space needed */ COUNT nread = 0; /* number of DTL bytes read by read_token */ int nconv = 0; /* number of arguments converted by sscanf */ static Token token = ""; /* DTL token */ if (n < 1 || n > 4) { PRINT_PROGNAME; fprintf (stderr, "(xfer_oct) : INTERNAL ERROR : asked for %d bytes. Must be 1 to 4.\n", n); dexit (1); } nread = read_token (dtl, token); nconv = sscanf (token, OF4, &unum); if (nconv < 1) { PRINT_PROGNAME; fprintf (stderr, "(xfer_oct) : DTL FILE ERROR (%s) : %s \"%s\".\n", dtl_filename, "octal number expected, not", token); dexit (1); } put_unsigned (n, unum, dvi); return unum; } /* xfer_oct */ U4 xfer_unsigned #ifdef STDC (int n, FILE * dtl, FILE * dvi) #else (n, dtl, dvi) int n; FILE * dtl; FILE * dvi; #endif /* translate unsigned n-byte number from dtl to dvi file. */ /* return value of unsigned number */ { U4 unum = 0; /* at most this space needed */ unum = get_unsigned (dtl); put_unsigned (n, unum, dvi); return unum; } /* xfer_unsigned */ S4 xfer_signed #ifdef STDC (int n, FILE * dtl, FILE * dvi) #else (n, dtl, dvi) int n; FILE * dtl; FILE * dvi; #endif /* translate signed n-byte number from dtl to dvi file. */ /* return value of signed number */ { S4 snum = 0; snum = get_signed (dtl); put_signed (n, snum, dvi); return snum; } /* xfer_signed */ U4 get_unsigned #ifdef STDC (FILE * dtl) #else (dtl) FILE * dtl; #endif /* read unsigned number from dtl file. */ /* return value of unsigned number */ { U4 unum = 0; /* at most this space needed */ COUNT nread = 0; /* number of DTL bytes read by read_token */ int nconv = 0; /* number of arguments converted by sscanf */ static Token token = ""; /* DTL token */ nread = read_token (dtl, token); nconv = sscanf (token, UF4, &unum); if (nconv < 1) { PRINT_PROGNAME; fprintf (stderr, "(get_unsigned) : DTL FILE ERROR (%s) : %s \"%s\".\n", dtl_filename, "unsigned number expected, not", token); dexit (1); } return unum; } /* get_unsigned */ S4 get_signed #ifdef STDC (FILE * dtl) #else (dtl) FILE * dtl; #endif /* read signed number from dtl file. */ /* return value of signed number */ { S4 snum = 0; COUNT nread = 0; /* number of DTL bytes read by read_token */ int nconv = 0; /* number of sscanf arguments converted and assigned */ static Token token = ""; nread = read_token (dtl, token); nconv = sscanf (token, SF4, &snum); if (nconv < 1) { PRINT_PROGNAME; fprintf (stderr, "(get_signed) : DTL FILE ERROR (%s) : %s \"%s\".\n", dtl_filename, "signed number expected, not", token); dexit (1); } return snum; } /* get_signed */ int put_unsigned #ifdef STDC (int n, U4 unum, FILE * dvi) #else (n, unum, dvi) int n; U4 unum; FILE * dvi; #endif /* put unsigned in-byte integer to dvi file */ /* DVI format uses Big-endian storage of numbers: */ /* most significant byte is first. */ /* return number of bytes written. */ { Byte ubyte[4]; /* at most 4 bytes needed in DVI format */ int i; if (n < 1 || n > 4) { PRINT_PROGNAME; fprintf (stderr, "(put_unsigned) : INTERNAL ERROR : asked for %d bytes. Must be 1 to 4.\n", n); dexit (1); } /* Big-endian storage. */ for (i = 0; i < n; i++) { ubyte[i] = (Byte) (unum % 256); unum /= 256; } /* Reverse order for big-endian representation. */ for (i = n-1; i >= 0; i--) { put_byte ((int) ubyte[i], dvi); } return n; } /* put_unsigned */ int put_signed #ifdef STDC (int n, S4 snum, FILE * dvi) #else (n, snum, dvi) int n; S4 snum; FILE * dvi; #endif /* put signed in-byte integer to dvi file */ /* DVI format uses 2's complement Big-endian storage of signed numbers: */ /* most significant byte is first. */ /* return number of bytes written. */ { /* Will this deal properly with the sign? */ if (n < 1 || n > 4) { PRINT_PROGNAME; fprintf (stderr, "(put_signed) : INTERNAL ERROR : asked for %d bytes. Must be 1 to 4.\n", n); dexit (1); } /* How do we ensure 2's complement representation? */ /* Here's a trick that I hope is portable, given ANSI C. */ /* See K&R (2nd edition), Appendix A6.2 "Integral Conversions". */ /* Convert snum to U4 data type */ put_unsigned (n, (U4) snum, dvi); return n; } /* put_signed */ int check_bmes #ifdef STDC (FILE * dtl) #else (dtl) FILE * dtl; #endif /* check that a BMES_CHAR is the next non-whitespace character in dtl */ { int ch; /* next non-whitespace character in dtl */ /* `(Void)' because we ignore the number of spaces skipped */ (Void) skip_space (dtl, &ch); if (ch < 0) { PRINT_PROGNAME; fprintf (stderr, "(check_bmes) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "end of dtl file, or reading error\n"); dexit (1); } if (ch != BMES_CHAR) { PRINT_PROGNAME; fprintf (stderr, "(check_bmes) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "BMES_CHAR (`%c') %s, not `%c' (char %d).\n", BMES_CHAR, "expected before string", ch, ch); dexit (1); } return 1; /* OK */ } /* check_bmes */ int check_emes #ifdef STDC (FILE * dtl) #else (dtl) FILE * dtl; #endif /* check that an EMES_CHAR is the next character in dtl */ { int ch; /* dtl character */ if (read_char (dtl, &ch) == 0) { PRINT_PROGNAME; fprintf (stderr, "(check_emes) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "end of dtl file, or reading error\n"); dexit (1); } if (ch != EMES_CHAR) { PRINT_PROGNAME; fprintf (stderr, "(check_emes) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "EMES_CHAR (`%c') %s, not `%c' (char %d).\n", EMES_CHAR, "expected to follow string", ch, ch); dexit (1); } return 1; /* OK */ } /* check_emes */ /* Size typically used in this program for Lstring variables */ #define LSIZE 1024 Void init_Lstring #ifdef STDC (Lstring * lsp, long int n) #else (lsp, n) Lstring * lsp; long int n; #endif { lsp->l = 0; lsp->m = n; lsp->s = (char *) gmalloc (n); } /* init_Lstring */ Void de_init_Lstring #ifdef STDC (Lstring * lsp) #else (lsp) Lstring * lsp; #endif { lsp->l = 0; lsp->m = 0; free (lsp->s); lsp->s = NULL; /* to be sure */ } /* de_init_Lstring */ Lstring * alloc_Lstring #ifdef STDC (long int n) #else (n) long int n; #endif { Lstring * lsp; lsp = (Lstring *) gmalloc (sizeof (Lstring)); init_Lstring (lsp, n); return (lsp); } /* alloc_Lstring */ Void free_Lstring #ifdef STDC (Lstring * lstr) #else (lstr) Lstring * lstr; #endif { free (lstr->s); free (lstr); } /* free_Lstring */ Void ls_putb #ifdef STDC (int ch, Lstring * lstr) #else (ch, lstr) int ch; Lstring * lstr; #endif /* write byte ch into Lstring *lstr */ { if (lstr->l >= lstr->m) { PRINT_PROGNAME; fprintf (stderr, "(ls_putb) : ERROR : No more room in Lstring.\n"); dexit (1); } else { lstr->s [(lstr->l)++] = ch; } } /* ls_putb */ long int get_Lstring #ifdef STDC (FILE * dtl, Lstring * lstr) #else (dtl, lstr) FILE * dtl; Lstring * lstr; #endif /* get a string from dtl file, store as an Lstring in *lstr. */ /* lstr must already be allocated and initialised. */ /* return length of Lstring *lstr */ { U4 nch; int char_status = CHAR_OK; /* OK so far */ if (debug) { PRINT_PROGNAME; fprintf (stderr, "(get_Lstring) : entering get_Lstring.\n"); } check_bmes (dtl); if (debug) { PRINT_PROGNAME; fprintf (stderr, "(get_Lstring) : string is: \""); } for (nch=0; ; nch++) { int ch; char_status = read_string_char (dtl, &ch); if (char_status == CHAR_FAIL) { /* end of dtl file, or reading error */ fprintf (stderr, "\n"); PRINT_PROGNAME; fprintf (stderr, "(get_Lstring) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "cannot read string["); fprintf (stderr, UF4, nch); fprintf (stderr, "] from dtl file.\n"); dexit (1); } if (debug) { fprintf (stderr, "%c", ch); } if (char_status == CHAR_EOS) { if (ch != EMES_CHAR) { PRINT_PROGNAME; fprintf (stderr, "(get_Lstring) : INTERNAL ERROR : "); fprintf (stderr, "char_status = CHAR_FAIL,\n"); fprintf (stderr, "but ch = %c (char %d) is not EMES_CHAR = %c (char %d)\n", ch, ch, EMES_CHAR, EMES_CHAR); dexit (1); } (Void) unread_char (); break; /* end of string */ } else if (char_status == CHAR_OK) { ls_putb (ch, lstr); } else { PRINT_PROGNAME; fprintf (stderr, "(get_Lstring) : INTERNAL ERROR : "); fprintf (stderr, "char_status = %d is unfamiliar!\n", char_status); dexit (1); } } /* end for */ if (debug) { fprintf (stderr, "\".\n"); } check_emes (dtl); if (debug) { PRINT_PROGNAME; fprintf (stderr, "(get_Lstring) : leaving get_Lstring.\n"); } return (lstr->l); } /* get_Lstring */ Void put_Lstring #ifdef STDC (const Lstring * lstr, FILE * dvi) #else (str, dvi) Lstring lstr; FILE * dvi; #endif { size_t fwret; fwret = fwrite ((lstr->s), sizeof (char), (size_t) (lstr->l), dvi); dvi_written += fwret; if (fwret < lstr->l) { PRINT_PROGNAME; fprintf (stderr, "(put_Lstring) : DVI File ERROR : not all bytes written "); fprintf (stderr, "(%ld of %ld).\n", (long int) fwret, (long int) (lstr->l)); dexit (1); } } /* put_Lstring */ U4 xfer_len_string #ifdef STDC (int n, FILE * dtl, FILE * dvi) #else (n, dtl, dvi) int n; FILE * dtl; FILE * dvi; #endif /* transfer (length and) quoted string from dtl to dvi file, */ /* return number of bytes written to dvi file. */ { U4 k, k2, lstr_maxsize; Lstring lstr; if (debug) { PRINT_PROGNAME; fprintf (stderr, "(xfer_len_string) : entering xfer_len_string.\n"); } /* k[n] : length of special string */ k = get_unsigned (dtl); lstr_maxsize = (k > LSIZE) ? k : LSIZE; init_Lstring (&lstr, lstr_maxsize); if (debug) { PRINT_PROGNAME; fprintf (stderr, "(xfer_len_string) : string's nominal length k = "); fprintf (stderr, UF4, k); fprintf (stderr, " characters.\n"); } k2 = get_Lstring (dtl, &lstr); if (k2 != k) { PRINT_PROGNAME; fprintf (stderr, "(xfer_len_string) : WARNING : string length ("); fprintf (stderr, UF4, k); fprintf (stderr, ") in DTL file is wrong\n"); fprintf (stderr, "Writing correct value ("); fprintf (stderr, UF4, k2); fprintf (stderr, ") to DVI file\n"); } put_unsigned (n, k2, dvi); put_Lstring (&lstr, dvi); if (debug) { PRINT_PROGNAME; fprintf (stderr, "(xfer_len_string) : leaving xfer_len_string.\n"); } de_init_Lstring (&lstr); return (n + k2); } /* xfer_len_string */ S4 xfer_bop_address #ifdef STDC (FILE * dtl, FILE * dvi) #else (dtl, dvi) FILE * dtl; FILE * dvi; #endif /* translate signed 4-byte bop address from dtl to dvi file. */ /* return value of bop address written to DVI file */ { S4 snum = 0; /* at most this space needed for byte address */ COUNT nread = 0; /* number of DTL bytes read by read_token */ int nconv = 0; /* number of arguments converted by sscanf */ static Token token = ""; /* DTL token */ nread += read_token (dtl, token); nconv = sscanf (token, SF4, &snum); if (nconv != 1) { PRINT_PROGNAME; fprintf (stderr, "(xfer_bop_address) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "signed number expected, not \"%s\".\n", token); dexit (1); } if (snum != last_bop_address) { PRINT_PROGNAME; fprintf (stderr, "(xfer_bop_address) : WARNING : byte address ("); fprintf (stderr, WF, snum); fprintf (stderr, ")\n"); fprintf (stderr, "for previous bop in DTL file is wrong\n"); fprintf (stderr, "Writing correct value ("); fprintf (stderr, WF, last_bop_address); fprintf (stderr, ") to DVI file\n"); } put_signed (4, last_bop_address, dvi); return last_bop_address; } /* xfer_bop_address */ S4 xfer_postamble_address #ifdef STDC (FILE * dtl, FILE * dvi) #else (dtl, dvi) FILE * dtl; FILE * dvi; #endif /* translate signed 4-byte postamble address from dtl to dvi file. */ /* return value of postamble address written to DVI file */ { S4 snum = 0; /* at most this space needed for byte address */ COUNT nread = 0; /* number of DTL bytes read by read_token */ int nconv = 0; /* number of arguments converted by sscanf */ static Token token = ""; /* DTL token */ nread += read_token (dtl, token); nconv = sscanf (token, SF4, &snum); if (nconv != 1) { PRINT_PROGNAME; fprintf (stderr, "(xfer_postamble_address) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "signed number expected, not \"%s\".\n", token); dexit (1); } if (snum != postamble_address) { PRINT_PROGNAME; fprintf (stderr, "(xfer_postamble_address) : WARNING : byte address ("); fprintf (stderr, WF, snum); fprintf (stderr, ")\n"); fprintf (stderr, "for postamble in DTL file is wrong\n"); fprintf (stderr, "Writing correct value ("); fprintf (stderr, WF, postamble_address); fprintf (stderr, ") to DVI file\n"); } put_signed (4, postamble_address, dvi); return postamble_address; } /* xfer_postamble_address */ int put_table #ifdef STDC (op_table table, int opcode, FILE * dtl, FILE * dvi) #else (table, opcode, dtl, dvi) op_table table; int opcode; FILE * dtl; FILE * dvi; #endif { /* table: {char * name; int first, last; op_info * list; }; */ /* op_info: {int code; char * name; int nargs; char * args; }; */ op_info op; /* entry in table */ int i; int pos; /* current position in string being scanned */ static String args = ""; /* Defensive programming. */ if (opcode < table.first || opcode > table.last) { PRINT_PROGNAME; fprintf (stderr, "(put_table) : DTL FILE (OR INTERNAL) ERROR : opcode %d ", opcode); fprintf (stderr, "is outside table %s [ %d to %d ] !\n", table.name, table.first, table.last); dexit (1); } op = table.list [ opcode - table.first ]; /* More defensive programming. */ if (opcode != op.code) { PRINT_PROGNAME; fprintf (stderr, "(put_table) : INTERNAL ERROR : opcode %d for command \"%s\"", opcode, op.name); fprintf (stderr, " faulty in table \"%s\".\n", table.name); dexit (1); } /* process all the arguments, according to size and sign */ strncpy (args, op.args, MAXSTRLEN); pos = 0; for (i=0; i < op.nargs; i++) { int argtype = 0; int nscan = 0; /* number of bytes read by sscanf */ int nconv = 0; /* number of sscanf arguments converted & assigned */ /* sscanf() does NOT advance over its input: */ /* C strings lack internal state information, which C files have. */ /* On Sun/OS, sscanf calls ungetc on the string it reads, */ /* which therefore has to be writable. */ nconv = sscanf (args + pos, "%d%n", &argtype, &nscan); if (nconv < 1 || nscan < 1) { PRINT_PROGNAME; fprintf (stderr, "(put_table) : INTERNAL ERROR : internal read of table %s failed!\n", table.name); dexit (1); } pos += nscan; if (argtype < 0) xfer_signed (-argtype, dtl, dvi); else xfer_unsigned (argtype, dtl, dvi); } /* end for */ return 1; /* OK */ } /* put_table */ /* ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ */ U4 special #ifdef STDC (FILE * dtl, FILE * dvi, int n) #else (dtl, dvi, n) FILE * dtl; FILE * dvi; int n; #endif /* read special (1 <= n <= 4 byte) data from dtl, and write in dvi */ /* return number of bytes written */ { U4 nk; if (debug) { PRINT_PROGNAME; fprintf (stderr, "(special) : entering special.\n"); } if (n < 1 || n > 4) { PRINT_PROGNAME; fprintf (stderr, "(special) : DTL FILE ERROR (%s) : special %d, ", dtl_filename, n); fprintf (stderr, "range is 1 to 4.\n"); dexit (1); } /* k[n] : length of special string */ /* x[k] : special string */ /* nk = n + k */ nk = xfer_len_string (n, dtl, dvi); if (debug) { PRINT_PROGNAME; fprintf (stderr, "(special) : leaving special.\n"); } return (nk); } /* special */ int fontdef #ifdef STDC (FILE * dtl, FILE * dvi, int suffix) #else (dtl, dvi, suffix) FILE * dtl; FILE * dvi; int suffix; #endif /* read fontdef fnt_def1 .. fnt_def4 from dtl, and write in dvi */ /* suffix is the fontdef suffix : 1 to 4 */ /* return number of bytes written */ { U4 a, l, a2, l2; U4 k; Lstring lstr1, lstr2; if (debug) { PRINT_PROGNAME; fprintf (stderr, "(fontdef) : entering fontdef.\n"); } if (suffix < 1 || suffix > 4) { PRINT_PROGNAME; fprintf (stderr, "(fontdef) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "font def %d, but range is 1 to 4.\n", suffix); dexit (1); } init_Lstring (&lstr1, LSIZE); init_Lstring (&lstr2, LSIZE); if (debug) { PRINT_PROGNAME; fprintf (stderr, "(fontdef) : about to read font number.\n"); } /* k[suffix] : font number */ if (suffix == 4) k = xfer_signed (suffix, dtl, dvi); else k = xfer_unsigned (suffix, dtl, dvi); if (debug) { PRINT_PROGNAME; fprintf (stderr, "(fontdef) : font "); fprintf (stderr, UF4, k); fprintf (stderr, ".\n"); } #ifdef HEX_CHECKSUM /* c[4] : (hexadecimal) checksum : I (gt) would prefer this */ xfer_hex (4, dtl, dvi); #else /*NOT HEX_CHECKSUM */ /* c[4] : checksum (octal, for comparison with tftopl's .pl file) */ xfer_oct (4, dtl, dvi); #endif /* s[4] */ xfer_unsigned (4, dtl, dvi); /* d[4] */ xfer_unsigned (4, dtl, dvi); /* If DTL file's edited, a and l may be wrong. */ /* a[1] : length of font `area' (directory) portion of pathname string */ a = get_unsigned (dtl); /* l[1] : length of font portion of pathname string */ l = get_unsigned (dtl); /* n[a+l] : font pathname string <= area + font */ a2 = get_Lstring (dtl, &lstr1); if (a2 != a) { PRINT_PROGNAME; fprintf (stderr, "(fontdef) : WARNING : font area string's length ("); fprintf (stderr, UF4, a); fprintf (stderr, ") in DTL file is wrong\n"); fprintf (stderr, "Writing correct value ("); fprintf (stderr, UF4, a2); fprintf (stderr, ") to DVI file\n"); } put_unsigned (1, a2, dvi); l2 = get_Lstring (dtl, &lstr2); if (l2 != l) { PRINT_PROGNAME; fprintf (stderr, "(fontdef) : WARNING : font string's length ("); fprintf (stderr, UF4, l); fprintf (stderr, ") in DTL file is wrong\n"); fprintf (stderr, "Writing correct value ("); fprintf (stderr, UF4, l2); fprintf (stderr, ") to DVI file\n"); } put_unsigned (1, l2, dvi); put_Lstring (&lstr1, dvi); put_Lstring (&lstr2, dvi); de_init_Lstring (&lstr2); de_init_Lstring (&lstr1); if (debug) { PRINT_PROGNAME; fprintf (stderr, "(fontdef) : leaving fontdef.\n"); } return (suffix + 4*4 + 2*1 + a2 + l2); } /* fontdef */ U4 preamble #ifdef STDC (FILE * dtl, FILE * dvi) #else (dtl, dvi) FILE * dtl; FILE * dvi; #endif /* read preamble from dtl, and write in dvi */ /* return number of bytes written */ { U4 k1; if (debug) { PRINT_PROGNAME; fprintf (stderr, "(preamble) : entering preamble.\n"); } /* i[1] */ xfer_unsigned (1, dtl, dvi); /* num[4] */ xfer_unsigned (4, dtl, dvi); /* den[4] */ xfer_unsigned (4, dtl, dvi); /* mag[4] */ xfer_unsigned (4, dtl, dvi); /* k[1] : length of comment */ /* x[k] : comment string */ /* k1 = 1 + k */ k1 = xfer_len_string (1, dtl, dvi); if (debug) { PRINT_PROGNAME; fprintf (stderr, "(preamble) : leaving preamble.\n"); } return (1 + 3*4 + k1); } /* preamble */ int postamble #ifdef STDC (FILE * dtl, FILE * dvi) #else (dtl, dvi) FILE * dtl; FILE * dvi; #endif /* read postamble from dtl, and write in dvi */ /* return number of bytes written */ { postamble_address = dvi_written - 1; /* p[4] : DVI address of previous bop command */ /* --- unsigned? --- or signed, as I assume? */ /* For, surely p should be -1 if the DVI file has NO bop? */ xfer_bop_address (dtl, dvi); /* num[4] */ xfer_unsigned (4, dtl, dvi); /* den[4] */ xfer_unsigned (4, dtl, dvi); /* mag[4] */ xfer_unsigned (4, dtl, dvi); /* l[4] */ xfer_unsigned (4, dtl, dvi); /* u[4] */ xfer_unsigned (4, dtl, dvi); /* s[2] */ xfer_unsigned (2, dtl, dvi); /* t[2] */ xfer_unsigned (2, dtl, dvi); return (6*4 + 2*2); } /* postamble */ int post_post #ifdef STDC (FILE * dtl, FILE * dvi) #else (dtl, dvi) FILE * dtl; FILE * dvi; #endif /* read post_post from dtl, and write in dvi */ /* return number of bytes written */ { /* hope I'm writing the "223" bytes in an 8-bit clean way */ int n223 = 0; /* number of "223" bytes in final padding */ /* q[4] : DVI address of post command */ /* --- unsigned? --- or signed, as I assume? */ /* what happens if there is NO postamble command? */ /* shouldn't q be -1 then? */ xfer_postamble_address (dtl, dvi); /* i[1] : DVI identification byte = 2 */ xfer_unsigned (1, dtl, dvi); for (n223 = 0; true; n223++) { COUNT nread = 0; /* number of DTL bytes read by read_token */ static Token token; strcpy (token, ""); nread = read_token (dtl, token); /* check whether end of dtl file */ if (nread == 0) { if (group) { /* dtl file shouldn't end before an ECOM */ PRINT_PROGNAME; fprintf (stderr, "(post_post) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "premature end of DTL file!\n"); fprintf (stderr, "%d complete iterations of \"padding byte\" loop;\n", n223); fprintf (stderr, "troublesome token = \"%s\"\n", token); dexit (1); } /* leave the "223" loop */ break; } else if (strcmp (token, "223") == 0) { /* token is a "223" padding byte */ /* loop again */ } else { /* read a non-empty token that wasn't "223" */ (Void) unread_char (); if (group) { if (strcmp (token, ECOM) == 0) { /* end of DTL's post_post command */ } else { /* error : expected end of post_post */ PRINT_PROGNAME; fprintf (stderr, "(post_post) : DTL FILE ERROR (%s) : ", dtl_filename); fprintf (stderr, "token \"%s\" should be ECOM (\"%s\")\n", token, ECOM); dexit (1); } } /* leave the "223" loop */ break; } } /* end for */ if (n223 < 4) { PRINT_PROGNAME; fprintf (stderr, "(post_post) : DTL FILE ERROR (%s) : \n", dtl_filename); fprintf (stderr, "fewer than four `223' padding bytes.\n"); fprintf (stderr, "Will write at least four `223' padding bytes.\n"); } /* check whether the DVI file size is a multiple of 4 bytes */ if ((dvi_written + n223) % 4 != 0) { PRINT_PROGNAME; fprintf (stderr, "(post_post) : WARNING : \n"); fprintf (stderr, "DVI size "); fprintf (stderr, WF, dvi_written); fprintf (stderr, " (bytes) wouldn't be a multiple of 4 !\n"); fprintf (stderr, "Will write (at least four) `223' padding bytes until it is.\n"); } /* final padding of DVI file by "223" bytes to a multiple of 4 bytes, */ /* with at least 4 bytes */ for (n223 = 0; (n223 < 4) || (dvi_written % 4 != 0); n223++) { /* add a "223" padding byte */ put_byte (223, dvi); } return (4 + 1 + n223); } /* post_post */ /* end of dt2dv.c */