/* * termcap.c 1.1 20/7/87 agc Joypace Ltd * * Copyright Joypace Ltd, London, UK, 1987. All rights reserved. * This file may be freely distributed provided that this notice * remains attached. * * A public domain implementation of the termcap(3) routines. * * Made fully functional by Ceriel J.H. Jacobs. * * BUGS: * - does not check termcap entry sizes * - not fully tested */ /* $Header$ */ #include #include #include #define CAPABLEN 2 #define ISSPACE(c) ((c) == ' ' || (c) == '\t' || (c) == '\r' || (c) == '\n') #define ISDIGIT(x) ((x) >= '0' && (x) <= '9') short ospeed; /* output speed */ char PC; /* padding character */ char *BC; /* back cursor movement */ char *UP; /* up cursor movement */ static const char *capab; /* the capability itself */ static int check_for_tc(void); static int match_name(const char *buf, const char *name); /* * tgetent - get the termcap entry for terminal name, and put it * in bp (which must be an array of 1024 chars). Returns 1 if * termcap entry found, 0 if not found, and -1 if file not found. */ int tgetent(char *bp, const char *name) { FILE *fp; char *file; char *cp; char buf[1024]; capab = bp; if ((file = getenv("TERMCAP")) != (char *) NULL) { if (*file != '/' && (cp = getenv("TERM")) != NULL && strcmp(name, cp) == 0) { (void) strcpy(bp, file); return(1); } else file = "/etc/termcap"; } else file = "/etc/termcap"; if ((fp = fopen(file, "r")) == (FILE *) NULL) return(-1); while (fgets(buf, 1024, fp) != NULL) { if (buf[0] == '#') continue; while (*(cp = &buf[strlen(buf) - 2]) == '\\') if (fgets(cp, 1024, fp) == NULL) return (0); if (match_name(buf, name)) { strcpy(bp, buf); fclose(fp); return(check_for_tc()); } } fclose(fp); return(0); } /* * Compare the terminal name with each termcap entry name; Return 1 if a * match is found. */ static int match_name(const char *buf, const char *name) { register const char *tp = buf; register const char *np; for (;;) { for (np = name; *np && *tp == *np; np++, tp++) { } if (*np == 0 && (*tp == '|' || *tp == ':' || *tp == 0)) return(1); while (*tp != 0 && *tp != '|' && *tp != ':') tp++; if (*tp++ != '|') return (0); } } /* * Handle tc= definitions recursively. */ static int check_for_tc(void) { static int count = 0; const char *savcapab = capab; char buf[1024]; char terminalname[128]; register char *p = (char *)capab + strlen(capab) - 2, *q; while (*p != ':') if (--p < (char *)capab) return(0); /* no : in termcap entry */ if (p[1] != 't' || p[2] != 'c') return(1); if (count > 16) return(0); /* recursion in tc= definitions */ count++; strcpy(terminalname, &p[4]); q = terminalname; while (*q && *q != ':') q++; *q = 0; if (tgetent(buf, terminalname) != 1) { --count; return(0); } --count; for (q = buf; *q && *q != ':'; q++) { } strcpy(p, q); capab = savcapab; return(1); } /* * tgetnum - get the numeric terminal capability corresponding * to id. Returns the value, -1 if invalid. */ int tgetnum(const char *id) { const char *cp; int ret; if ((cp = capab) == NULL || id == NULL) return(-1); while (*++cp != ':') ; while (*cp) { cp++; while (ISSPACE(*cp)) cp++; if (strncmp(cp, id, CAPABLEN) == 0) { while (*cp && *cp != ':' && *cp != '#') cp++; if (*cp != '#') return(-1); for (ret = 0, cp++ ; *cp && ISDIGIT(*cp) ; cp++) ret = ret * 10 + *cp - '0'; return(ret); } while (*cp && *cp != ':') cp++; } return(-1); } /* * tgetflag - get the boolean flag corresponding to id. Returns -1 * if invalid, 0 if the flag is not in termcap entry, or 1 if it is * present. */ int tgetflag(const char *id) { const char *cp; if ((cp = capab) == NULL || id == NULL) return(-1); while (*++cp != ':') ; while (*cp) { cp++; while (ISSPACE(*cp)) cp++; if (strncmp(cp, id, CAPABLEN) == 0) return(1); while (*cp && *cp != ':') cp++; } return(0); } /* * tgetstr - get the string capability corresponding to id and place * it in area (advancing area at same time). Expand escape sequences * etc. Returns the string, or NULL if it can't do it. */ char * tgetstr(const char *id, char ** const area) { const char *cp; char *ret; int i; if ((cp = capab) == NULL || id == NULL) return(NULL); while (*++cp != ':') ; while (*cp) { cp++; while (ISSPACE(*cp)) cp++; if (strncmp(cp, id, CAPABLEN) == 0) { while (*cp && *cp != ':' && *cp != '=') cp++; if (*cp != '=') return(NULL); for (ret = *area, cp++; *cp && *cp != ':' ; (*area)++, cp++) switch(*cp) { case '^' : **area = *++cp - 'A' + 1; break; case '\\' : switch(*++cp) { case 'E' : **area = '\033'; break; case 'n' : **area = '\n'; break; case 'r' : **area = '\r'; break; case 't' : **area = '\t'; break; case 'b' : **area = '\b'; break; case 'f' : **area = '\f'; break; case '0' : case '1' : case '2' : case '3' : for (i=0 ; *cp && ISDIGIT(*cp) ; cp++) i = i * 8 + *cp - '0'; **area = i; cp--; break; case '^' : case '\\' : **area = *cp; break; } break; default : **area = *cp; } *(*area)++ = '\0'; return(ret); } while (*cp && *cp != ':') cp++; } return(NULL); } /* * tgoto - given the cursor motion string cm, make up the string * for the cursor to go to (destcol, destline), and return the string. * Returns "OOPS" if something's gone wrong, or the string otherwise. */ char * tgoto(const char *cm, int destcol, int destline) { register char *rp; static char ret[24]; char added[16]; int *dp = &destline; int numval; int swapped = 0; added[0] = 0; for (rp = ret ; *cm ; cm++) { if (*cm == '%') { switch(*++cm) { case '>' : if (dp == NULL) return("OOPS"); cm++; if (*dp > *cm++) { *dp += *cm; } break; case '+' : case '.' : if (dp == NULL) return("OOPS"); if (*cm == '+') *dp = *dp + *++cm; for (;;) { switch(*dp) { case 0: case 04: case '\t': case '\n': /* filter these out */ if (dp == &destcol || swapped || UP) { strcat(added, dp == &destcol || swapped ? (BC ? BC : "\b") : UP); (*dp)++; continue; } } break; } *rp++ = *dp; dp = (dp == &destline) ? &destcol : NULL; break; case 'r' : { int tmp = destline; destline = destcol; destcol = tmp; swapped = 1 - swapped; break; } case 'n' : destcol ^= 0140; destline ^= 0140; break; case '%' : *rp++ = '%'; break; case 'i' : destcol++; destline++; break; case 'B' : if (dp == NULL) return("OOPS"); *dp = 16 * (*dp / 10) + *dp % 10; break; case 'D' : if (dp == NULL) return("OOPS"); *dp = *dp - 2 * (*dp % 16); break; case 'd' : case '2' : case '3' : if (dp == NULL) return("OOPS"); numval = *dp; dp = (dp == &destline) ? &destcol : NULL; if (numval >= 100) { *rp++ = '0' + numval / 100; } else if (*cm == '3') { *rp++ = ' '; } if (numval >= 10) { *rp++ = '0' + ((numval%100)/10); } else if (*cm == '3' || *cm == '2') { *rp++ = ' '; } *rp++ = '0' + (numval%10); break; default : return("OOPS"); } } else *rp++ = *cm; } *rp = '\0'; strcpy(rp, added); return(ret); } static int tens_of_ms_p_char[] = { /* index as returned by gtty */ /* assume 10 bits per char */ 0, 2000, 1333, 909, 743, 666, 500, 333, 166, 83, 55, 41, 20, 10, 5, 2 }; /* * tputs - put the string cp out onto the terminal, using the function * outc. Also handle padding. */ int tputs(register const char *cp, int affcnt, int (*outc)(int)) { int delay = 0; if (cp == NULL) return(1); while (ISDIGIT(*cp)) { delay = delay * 10 + (*cp++ - '0'); } delay *= 10; if (*cp == '.') { cp++; if (ISDIGIT(*cp)) { delay += *cp++ - '0'; } while (ISDIGIT(*cp)) cp++; } if (*cp == '*') { delay *= affcnt; cp++; } while (*cp) (*outc)(*cp++); if (delay != 0 && ospeed > 0 && ospeed < (sizeof tens_of_ms_p_char / sizeof tens_of_ms_p_char[0])) { delay = (delay + tens_of_ms_p_char[ospeed] - 1) / tens_of_ms_p_char[ospeed]; while (delay--) (*outc)(PC); } return(1); } /* * That's all, folks... */