freebsd-dev/games/larn/io.c
Jordan K. Hubbard 554eb505f8 Bring in the 4.4 Lite games directory, modulo man page changes and segregation
of the x11 based games.  I'm not going to tag the originals with bsd_44_lite
and do this in two stages since it's just not worth it for this collection,
and I've got directory renames to deal with that way.  Bleah.
Submitted by:	jkh
1994-09-04 04:03:31 +00:00

916 lines
22 KiB
C

/* io.c Larn is copyrighted 1986 by Noah Morgan.
*
* Below are the functions in this file:
*
* setupvt100() Subroutine to set up terminal in correct mode for game
* clearvt100() Subroutine to clean up terminal when the game is over
* getchar() Routine to read in one character from the terminal
* scbr() Function to set cbreak -echo for the terminal
* sncbr() Function to set -cbreak echo for the terminal
* newgame() Subroutine to save the initial time and seed rnd()
*
* FILE OUTPUT ROUTINES
*
* lprintf(format,args . . .) printf to the output buffer
* lprint(integer) send binary integer to output buffer
* lwrite(buf,len) write a buffer to the output buffer
* lprcat(str) sent string to output buffer
*
* FILE OUTPUT MACROS (in header.h)
*
* lprc(character) put the character into the output buffer
*
* FILE INPUT ROUTINES
*
* long lgetc() read one character from input buffer
* long lrint() read one integer from input buffer
* lrfill(address,number) put input bytes into a buffer
* char *lgetw() get a whitespace ended word from input
* char *lgetl() get a \n or EOF ended line from input
*
* FILE OPEN / CLOSE ROUTINES
*
* lcreat(filename) create a new file for write
* lopen(filename) open a file for read
* lappend(filename) open for append to an existing file
* lrclose() close the input file
* lwclose() close output file
* lflush() flush the output buffer
*
* Other Routines
*
* cursor(x,y) position cursor at [x,y]
* cursors() position cursor at [1,24] (saves memory)
* cl_line(x,y) Clear line at [1,y] and leave cursor at [x,y]
* cl_up(x,y) Clear screen from [x,1] to current line.
* cl_dn(x,y) Clear screen from [1,y] to end of display.
* standout(str) Print the string in standout mode.
* set_score_output() Called when output should be literally printed.
** putchar(ch) Print one character in decoded output buffer.
** flush_buf() Flush buffer with decoded output.
** init_term() Terminal initialization -- setup termcap info
** char *tmcapcnv(sd,ss) Routine to convert VT100 \33's to termcap format
* beep() Routine to emit a beep if enabled (see no-beep in .larnopts)
*
* Note: ** entries are available only in termcap mode.
*/
#include "header.h"
#ifdef SYSV /* system III or system V */
#include <termio.h>
#define sgttyb termio
#define stty(_a,_b) ioctl(_a,TCSETA,_b)
#define gtty(_a,_b) ioctl(_a,TCGETA,_b)
static int rawflg = 0;
static char saveeof,saveeol;
#define doraw(_a) if(!rawflg){++rawflg;saveeof=_a.c_cc[VMIN];saveeol=_a.c_cc[VTIME];}\
_a.c_cc[VMIN]=1;_a.c_cc[VTIME]=1;_a.c_lflag &= ~(ICANON|ECHO|ECHOE|ECHOK|ECHONL)
#define unraw(_a) _a.c_cc[VMIN]=saveeof;_a.c_cc[VTIME]=saveeol;_a.c_lflag |= ICANON|ECHO|ECHOE|ECHOK|ECHONL
#else not SYSV
#ifndef BSD
#define CBREAK RAW /* V7 has no CBREAK */
#endif
#define doraw(_a) (_a.sg_flags |= CBREAK,_a.sg_flags &= ~ECHO)
#define unraw(_a) (_a.sg_flags &= ~CBREAK,_a.sg_flags |= ECHO)
#include <sgtty.h>
#endif not SYSV
#ifndef NOVARARGS /* if we have varargs */
#include <varargs.h>
#else NOVARARGS /* if we don't have varargs */
typedef char *va_list;
#define va_dcl int va_alist;
#define va_start(plist) plist = (char *) &va_alist
#define va_end(plist)
#define va_arg(plist,mode) ((mode *)(plist += sizeof(mode)))[-1]
#endif NOVARARGS
#define LINBUFSIZE 128 /* size of the lgetw() and lgetl() buffer */
int lfd; /* output file numbers */
int fd; /* input file numbers */
static struct sgttyb ttx; /* storage for the tty modes */
static int ipoint=MAXIBUF,iepoint=MAXIBUF; /* input buffering pointers */
static char lgetwbuf[LINBUFSIZE]; /* get line (word) buffer */
/*
* setupvt100() Subroutine to set up terminal in correct mode for game
*
* Attributes off, clear screen, set scrolling region, set tty mode
*/
setupvt100()
{
clear(); setscroll(); scbr(); /* system("stty cbreak -echo"); */
}
/*
* clearvt100() Subroutine to clean up terminal when the game is over
*
* Attributes off, clear screen, unset scrolling region, restore tty mode
*/
clearvt100()
{
resetscroll(); clear(); sncbr(); /* system("stty -cbreak echo"); */
}
/*
* getchar() Routine to read in one character from the terminal
*/
getchar()
{
char byt;
#ifdef EXTRA
c[BYTESIN]++;
#endif
lflush(); /* be sure output buffer is flushed */
read(0,&byt,1); /* get byte from terminal */
return(byt);
}
/*
* scbr() Function to set cbreak -echo for the terminal
*
* like: system("stty cbreak -echo")
*/
scbr()
{
gtty(0,&ttx); doraw(ttx); stty(0,&ttx);
}
/*
* sncbr() Function to set -cbreak echo for the terminal
*
* like: system("stty -cbreak echo")
*/
sncbr()
{
gtty(0,&ttx); unraw(ttx); stty(0,&ttx);
}
/*
* newgame() Subroutine to save the initial time and seed rnd()
*/
newgame()
{
register long *p,*pe;
for (p=c,pe=c+100; p<pe; *p++ =0);
time(&initialtime); srand(initialtime);
lcreat((char*)0); /* open buffering for output to terminal */
}
/*
* lprintf(format,args . . .) printf to the output buffer
* char *format;
* ??? args . . .
*
* Enter with the format string in "format", as per printf() usage
* and any needed arguments following it
* Note: lprintf() only supports %s, %c and %d, with width modifier and left
* or right justification.
* No correct checking for output buffer overflow is done, but flushes
* are done beforehand if needed.
* Returns nothing of value.
*/
#ifdef lint
/*VARARGS*/
lprintf(str)
char *str;
{
char *str2;
str2 = str;
str = str2; /* to make lint happy */
}
/*VARARGS*/
sprintf(str)
char *str;
{
char *str2;
str2 = str;
str = str2; /* to make lint happy */
}
#else lint
/*VARARGS*/
lprintf(va_alist)
va_dcl
{
va_list ap; /* pointer for variable argument list */
register char *fmt;
register char *outb,*tmpb;
register long wide,left,cont,n; /* data for lprintf */
char db[12]; /* %d buffer in lprintf */
va_start(ap); /* initialize the var args pointer */
fmt = va_arg(ap, char *); /* pointer to format string */
if (lpnt >= lpend) lflush();
outb = lpnt;
for ( ; ; )
{
while (*fmt != '%')
if (*fmt) *outb++ = *fmt++; else { lpnt=outb; return; }
wide = 0; left = 1; cont=1;
while (cont)
switch(*(++fmt))
{
case 'd': n = va_arg(ap, long);
if (n<0) { n = -n; *outb++ = '-'; if (wide) --wide; }
tmpb = db+11; *tmpb = (char)(n % 10 + '0');
while (n>9) *(--tmpb) = (char)((n /= 10) % 10 + '0');
if (wide==0) while (tmpb < db+12) *outb++ = *tmpb++;
else
{
wide -= db-tmpb+12;
if (left) while (wide-- > 0) *outb++ = ' ';
while (tmpb < db+12) *outb++ = *tmpb++;
if (left==0) while (wide-- > 0) *outb++ = ' ';
}
cont=0; break;
case 's': tmpb = va_arg(ap, char *);
if (wide==0) { while (*outb++ = *tmpb++); --outb; }
else
{
n = wide - strlen(tmpb);
if (left) while (n-- > 0) *outb++ = ' ';
while (*outb++ = *tmpb++); --outb;
if (left==0) while (n-- > 0) *outb++ = ' ';
}
cont=0; break;
case 'c': *outb++ = va_arg(ap, int); cont=0; break;
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9': wide = 10*wide + *fmt - '0'; break;
case '-': left = 0; break;
default: *outb++ = *fmt; cont=0; break;
};
fmt++;
}
va_end(ap);
}
#endif lint
/*
* lprint(long-integer) send binary integer to output buffer
* long integer;
*
* +---------+---------+---------+---------+
* | high | | | low |
* | order | | | order |
* | byte | | | byte |
* +---------+---------+---------+---------+
* 31 --- 24 23 --- 16 15 --- 8 7 --- 0
*
* The save order is low order first, to high order (4 bytes total)
* and is written to be system independent.
* No checking for output buffer overflow is done, but flushes if needed!
* Returns nothing of value.
*/
lprint(x)
register long x;
{
if (lpnt >= lpend) lflush();
*lpnt++ = 255 & x; *lpnt++ = 255 & (x>>8);
*lpnt++ = 255 & (x>>16); *lpnt++ = 255 & (x>>24);
}
/*
* lwrite(buf,len) write a buffer to the output buffer
* char *buf;
* int len;
*
* Enter with the address and number of bytes to write out
* Returns nothing of value
*/
lwrite(buf,len)
register char *buf;
int len;
{
register char *str;
register int num2;
if (len > 399) /* don't copy data if can just write it */
{
#ifdef EXTRA
c[BYTESOUT] += len;
#endif
#ifndef VT100
for (str=buf; len>0; --len)
lprc(*str++);
#else VT100
lflush();
write(lfd,buf,len);
#endif VT100
}
else while (len)
{
if (lpnt >= lpend) lflush(); /* if buffer is full flush it */
num2 = lpbuf+BUFBIG-lpnt; /* # bytes left in output buffer */
if (num2 > len) num2=len;
str = lpnt; len -= num2;
while (num2--) *str++ = *buf++; /* copy in the bytes */
lpnt = str;
}
}
/*
* long lgetc() Read one character from input buffer
*
* Returns 0 if EOF, otherwise the character
*/
long lgetc()
{
register int i;
if (ipoint != iepoint) return(inbuffer[ipoint++]);
if (iepoint!=MAXIBUF) return(0);
if ((i=read(fd,inbuffer,MAXIBUF))<=0)
{
if (i!=0) write(1,"error reading from input file\n",30);
iepoint = ipoint = 0; return(0);
}
ipoint=1; iepoint=i; return(*inbuffer);
}
/*
* long lrint() Read one integer from input buffer
*
* +---------+---------+---------+---------+
* | high | | | low |
* | order | | | order |
* | byte | | | byte |
* +---------+---------+---------+---------+
* 31 --- 24 23 --- 16 15 --- 8 7 --- 0
*
* The save order is low order first, to high order (4 bytes total)
* Returns the int read
*/
long lrint()
{
register unsigned long i;
i = 255 & lgetc(); i |= (255 & lgetc()) << 8;
i |= (255 & lgetc()) << 16; i |= (255 & lgetc()) << 24;
return(i);
}
/*
* lrfill(address,number) put input bytes into a buffer
* char *address;
* int number;
*
* Reads "number" bytes into the buffer pointed to by "address".
* Returns nothing of value
*/
lrfill(adr,num)
register char *adr;
int num;
{
register char *pnt;
register int num2;
while (num)
{
if (iepoint == ipoint)
{
if (num>5) /* fast way */
{
if (read(fd,adr,num) != num)
write(2,"error reading from input file\n",30);
num=0;
}
else { *adr++ = lgetc(); --num; }
}
else
{
num2 = iepoint-ipoint; /* # of bytes left in the buffer */
if (num2 > num) num2=num;
pnt = inbuffer+ipoint; num -= num2; ipoint += num2;
while (num2--) *adr++ = *pnt++;
}
}
}
/*
* char *lgetw() Get a whitespace ended word from input
*
* Returns pointer to a buffer that contains word. If EOF, returns a NULL
*/
char *lgetw()
{
register char *lgp,cc;
register int n=LINBUFSIZE,quote=0;
lgp = lgetwbuf;
do cc=lgetc(); while ((cc <= 32) && (cc > NULL)); /* eat whitespace */
for ( ; ; --n,cc=lgetc())
{
if ((cc==NULL) && (lgp==lgetwbuf)) return(NULL); /* EOF */
if ((n<=1) || ((cc<=32) && (quote==0))) { *lgp=NULL; return(lgetwbuf); }
if (cc != '"') *lgp++ = cc; else quote ^= 1;
}
}
/*
* char *lgetl() Function to read in a line ended by newline or EOF
*
* Returns pointer to a buffer that contains the line. If EOF, returns NULL
*/
char *lgetl()
{
register int i=LINBUFSIZE,ch;
register char *str=lgetwbuf;
for ( ; ; --i)
{
if ((*str++ = ch = lgetc()) == NULL)
{
if (str == lgetwbuf+1) return(NULL); /* EOF */
ot: *str = NULL; return(lgetwbuf); /* line ended by EOF */
}
if ((ch=='\n') || (i<=1)) goto ot; /* line ended by \n */
}
}
/*
* lcreat(filename) Create a new file for write
* char *filename;
*
* lcreat((char*)0); means to the terminal
* Returns -1 if error, otherwise the file descriptor opened.
*/
lcreat(str)
char *str;
{
lpnt = lpbuf; lpend = lpbuf+BUFBIG;
if (str==NULL) return(lfd=1);
if ((lfd=creat(str,0644)) < 0)
{
lfd=1; lprintf("error creating file <%s>\n",str); lflush(); return(-1);
}
return(lfd);
}
/*
* lopen(filename) Open a file for read
* char *filename;
*
* lopen(0) means from the terminal
* Returns -1 if error, otherwise the file descriptor opened.
*/
lopen(str)
char *str;
{
ipoint = iepoint = MAXIBUF;
if (str==NULL) return(fd=0);
if ((fd=open(str,0)) < 0)
{
lwclose(); lfd=1; lpnt=lpbuf; return(-1);
}
return(fd);
}
/*
* lappend(filename) Open for append to an existing file
* char *filename;
*
* lappend(0) means to the terminal
* Returns -1 if error, otherwise the file descriptor opened.
*/
lappend(str)
char *str;
{
lpnt = lpbuf; lpend = lpbuf+BUFBIG;
if (str==NULL) return(lfd=1);
if ((lfd=open(str,2)) < 0)
{
lfd=1; return(-1);
}
lseek(lfd,0,2); /* seek to end of file */
return(lfd);
}
/*
* lrclose() close the input file
*
* Returns nothing of value.
*/
lrclose()
{
if (fd > 0) close(fd);
}
/*
* lwclose() close output file flushing if needed
*
* Returns nothing of value.
*/
lwclose()
{
lflush(); if (lfd > 2) close(lfd);
}
/*
* lprcat(string) append a string to the output buffer
* avoids calls to lprintf (time consuming)
*/
lprcat(str)
register char *str;
{
register char *str2;
if (lpnt >= lpend) lflush();
str2 = lpnt;
while (*str2++ = *str++);
lpnt = str2 - 1;
}
#ifdef VT100
/*
* cursor(x,y) Subroutine to set the cursor position
*
* x and y are the cursor coordinates, and lpbuff is the output buffer where
* escape sequence will be placed.
*/
static char *y_num[]= { "\33[","\33[","\33[2","\33[3","\33[4","\33[5","\33[6",
"\33[7","\33[8","\33[9","\33[10","\33[11","\33[12","\33[13","\33[14",
"\33[15","\33[16","\33[17","\33[18","\33[19","\33[20","\33[21","\33[22",
"\33[23","\33[24" };
static char *x_num[]= { "H","H",";2H",";3H",";4H",";5H",";6H",";7H",";8H",";9H",
";10H",";11H",";12H",";13H",";14H",";15H",";16H",";17H",";18H",";19H",
";20H",";21H",";22H",";23H",";24H",";25H",";26H",";27H",";28H",";29H",
";30H",";31H",";32H",";33H",";34H",";35H",";36H",";37H",";38H",";39H",
";40H",";41H",";42H",";43H",";44H",";45H",";46H",";47H",";48H",";49H",
";50H",";51H",";52H",";53H",";54H",";55H",";56H",";57H",";58H",";59H",
";60H",";61H",";62H",";63H",";64H",";65H",";66H",";67H",";68H",";69H",
";70H",";71H",";72H",";73H",";74H",";75H",";76H",";77H",";78H",";79H",
";80H" };
cursor(x,y)
int x,y;
{
register char *p;
if (lpnt >= lpend) lflush();
p = y_num[y]; /* get the string to print */
while (*p) *lpnt++ = *p++; /* print the string */
p = x_num[x]; /* get the string to print */
while (*p) *lpnt++ = *p++; /* print the string */
}
#else VT100
/*
* cursor(x,y) Put cursor at specified coordinates staring at [1,1] (termcap)
*/
cursor (x,y)
int x,y;
{
if (lpnt >= lpend) lflush ();
*lpnt++ = CURSOR; *lpnt++ = x; *lpnt++ = y;
}
#endif VT100
/*
* Routine to position cursor at beginning of 24th line
*/
cursors()
{
cursor(1,24);
}
#ifndef VT100
/*
* Warning: ringing the bell is control code 7. Don't use in defines.
* Don't change the order of these defines.
* Also used in helpfiles. Codes used in helpfiles should be \E[1 to \E[7 with
* obvious meanings.
*/
static char cap[256];
char *CM, *CE, *CD, *CL, *SO, *SE, *AL, *DL;/* Termcap capabilities */
static char *outbuf=0; /* translated output buffer */
int putchar ();
/*
* init_term() Terminal initialization -- setup termcap info
*/
init_term()
{
char termbuf[1024];
char *capptr = cap+10;
char *term;
switch (tgetent(termbuf, term = getenv("TERM")))
{
case -1:
write(2, "Cannot open termcap file.\n", 26); exit();
case 0:
write(2, "Cannot find entry of ", 21);
write(2, term, strlen (term));
write(2, " in termcap\n", 12);
exit();
};
CM = tgetstr("cm", &capptr); /* Cursor motion */
CE = tgetstr("ce", &capptr); /* Clear to eoln */
CL = tgetstr("cl", &capptr); /* Clear screen */
/* OPTIONAL */
AL = tgetstr("al", &capptr); /* Insert line */
DL = tgetstr("dl", &capptr); /* Delete line */
SO = tgetstr("so", &capptr); /* Begin standout mode */
SE = tgetstr("se", &capptr); /* End standout mode */
CD = tgetstr("cd", &capptr); /* Clear to end of display */
if (!CM) /* can't find cursor motion entry */
{
write(2, "Sorry, for a ",13); write(2, term, strlen(term));
write(2, ", I can't find the cursor motion entry in termcap\n",50);
exit();
}
if (!CE) /* can't find clear to end of line entry */
{
write(2, "Sorry, for a ",13); write(2, term, strlen(term));
write(2,", I can't find the clear to end of line entry in termcap\n",57);
exit();
}
if (!CL) /* can't find clear entire screen entry */
{
write(2, "Sorry, for a ",13); write(2, term, strlen(term));
write(2, ", I can't find the clear entire screen entry in termcap\n",56);
exit();
}
if ((outbuf=malloc(BUFBIG+16))==0) /* get memory for decoded output buffer*/
{
write(2,"Error malloc'ing memory for decoded output buffer\n",50);
died(-285); /* malloc() failure */
}
}
#endif VT100
/*
* cl_line(x,y) Clear the whole line indicated by 'y' and leave cursor at [x,y]
*/
cl_line(x,y)
int x,y;
{
#ifdef VT100
cursor(x,y); lprcat("\33[2K");
#else VT100
cursor(1,y); *lpnt++ = CL_LINE; cursor(x,y);
#endif VT100
}
/*
* cl_up(x,y) Clear screen from [x,1] to current position. Leave cursor at [x,y]
*/
cl_up(x,y)
register int x,y;
{
#ifdef VT100
cursor(x,y); lprcat("\33[1J\33[2K");
#else VT100
register int i;
cursor(1,1);
for (i=1; i<=y; i++) { *lpnt++ = CL_LINE; *lpnt++ = '\n'; }
cursor(x,y);
#endif VT100
}
/*
* cl_dn(x,y) Clear screen from [1,y] to end of display. Leave cursor at [x,y]
*/
cl_dn(x,y)
register int x,y;
{
#ifdef VT100
cursor(x,y); lprcat("\33[J\33[2K");
#else VT100
register int i;
cursor(1,y);
if (!CD)
{
*lpnt++ = CL_LINE;
for (i=y; i<=24; i++) { *lpnt++ = CL_LINE; if (i!=24) *lpnt++ = '\n'; }
cursor(x,y);
}
else
*lpnt++ = CL_DOWN;
cursor(x,y);
#endif VT100
}
/*
* standout(str) Print the argument string in inverse video (standout mode).
*/
standout(str)
register char *str;
{
#ifdef VT100
setbold();
while (*str)
*lpnt++ = *str++;
resetbold();
#else VT100
*lpnt++ = ST_START;
while (*str)
*lpnt++ = *str++;
*lpnt++ = ST_END;
#endif VT100
}
/*
* set_score_output() Called when output should be literally printed.
*/
set_score_output()
{
enable_scroll = -1;
}
/*
* lflush() Flush the output buffer
*
* Returns nothing of value.
* for termcap version: Flush output in output buffer according to output
* status as indicated by `enable_scroll'
*/
#ifndef VT100
static int scrline=18; /* line # for wraparound instead of scrolling if no DL */
lflush ()
{
register int lpoint;
register char *str;
static int curx = 0;
static int cury = 0;
if ((lpoint = lpnt - lpbuf) > 0)
{
#ifdef EXTRA
c[BYTESOUT] += lpoint;
#endif
if (enable_scroll <= -1)
{
flush_buf();
if (write(lfd,lpbuf,lpoint) != lpoint)
write(2,"error writing to output file\n",29);
lpnt = lpbuf; /* point back to beginning of buffer */
return;
}
for (str = lpbuf; str < lpnt; str++)
{
if (*str>=32) { putchar (*str); curx++; }
else switch (*str)
{
case CLEAR: tputs (CL, 0, putchar); curx = cury = 0;
break;
case CL_LINE: tputs (CE, 0, putchar);
break;
case CL_DOWN: tputs (CD, 0, putchar);
break;
case ST_START: tputs (SO, 0, putchar);
break;
case ST_END: tputs (SE, 0, putchar);
break;
case CURSOR: curx = *++str - 1; cury = *++str - 1;
tputs (tgoto (CM, curx, cury), 0, putchar);
break;
case '\n': if ((cury == 23) && enable_scroll)
{
if (!DL || !AL) /* wraparound or scroll? */
{
if (++scrline > 23) scrline=19;
if (++scrline > 23) scrline=19;
tputs (tgoto (CM, 0, scrline), 0, putchar);
tputs (CE, 0, putchar);
if (--scrline < 19) scrline=23;
tputs (tgoto (CM, 0, scrline), 0, putchar);
tputs (CE, 0, putchar);
}
else
{
tputs (tgoto (CM, 0, 19), 0, putchar);
tputs (DL, 0, putchar);
tputs (tgoto (CM, 0, 23), 0, putchar);
/* tputs (AL, 0, putchar); */
}
}
else
{
putchar ('\n'); cury++;
}
curx = 0;
break;
default: putchar (*str); curx++;
};
}
}
lpnt = lpbuf;
flush_buf(); /* flush real output buffer now */
}
#else VT100
/*
* lflush() flush the output buffer
*
* Returns nothing of value.
*/
lflush()
{
register int lpoint;
if ((lpoint = lpnt - lpbuf) > 0)
{
#ifdef EXTRA
c[BYTESOUT] += lpoint;
#endif
if (write(lfd,lpbuf,lpoint) != lpoint)
write(2,"error writing to output file\n",29);
}
lpnt = lpbuf; /* point back to beginning of buffer */
}
#endif VT100
#ifndef VT100
static int index=0;
/*
* putchar(ch) Print one character in decoded output buffer.
*/
int putchar(c)
int c;
{
outbuf[index++] = c;
if (index >= BUFBIG) flush_buf();
}
/*
* flush_buf() Flush buffer with decoded output.
*/
flush_buf()
{
if (index) write(lfd, outbuf, index);
index = 0;
}
/*
* char *tmcapcnv(sd,ss) Routine to convert VT100 escapes to termcap format
*
* Processes only the \33[#m sequence (converts . files for termcap use
*/
char *tmcapcnv(sd,ss)
register char *sd,*ss;
{
register int tmstate=0; /* 0=normal, 1=\33 2=[ 3=# */
char tmdigit=0; /* the # in \33[#m */
while (*ss)
{
switch(tmstate)
{
case 0: if (*ss=='\33') { tmstate++; break; }
ign: *sd++ = *ss;
ign2: tmstate = 0;
break;
case 1: if (*ss!='[') goto ign;
tmstate++;
break;
case 2: if (isdigit(*ss)) { tmdigit= *ss-'0'; tmstate++; break; }
if (*ss == 'm') { *sd++ = ST_END; goto ign2; }
goto ign;
case 3: if (*ss == 'm')
{
if (tmdigit) *sd++ = ST_START;
else *sd++ = ST_END;
goto ign2;
}
default: goto ign;
};
ss++;
}
*sd=0; /* NULL terminator */
return(sd);
}
#endif VT100
/*
* beep() Routine to emit a beep if enabled (see no-beep in .larnopts)
*/
beep()
{
if (!nobeep) *lpnt++ = '\7';
}