Mini-Unix/usr/source/s1/gsi.c
#define PLOT 006 /* ack */
#define BEL 007 /* exit plot mode */
#define ESC 033 /* escape */
#define HFWD '9'
#define HREV '8'
#define FREV '7'
#define SO 016 /* shift out - enter greek */
#define SI 017 /* shift in */
#define UP 013
#define DN 012
#define RT ' '
#define LF '\b'
int restore();
int svmode, mode[3];
main(argc,argv) int argc; char **argv; {
int c, textmode;
extern int fin,fout;
fin = dup(0);
fout = dup(1);
if ((signal(2, 1) & 01) == 0)
signal(2, &restore);
gtty(1, mode);
svmode = mode[2];
mode[2] =& 0777757; /* turn off cr-lf */
mode[2] =| 03; /* turn off delays, tabs */
stty(1, mode);
textmode = 1;
while( (c=getchar()) != '\0' ){
if( c==SO ){
special();
continue;
}
if (c== PLOT) textmode = 1-textmode;
if (c==BEL) textmode = 1;
if( c=='\n' && textmode )
putchar(015); /* CR */
if( c!=ESC ){
putchar(c);
continue;
}
putchar(PLOT);
c = getchar();
if( c == HREV )
nplot(4,UP);
else if( c == HFWD )
nplot(4,DN);
else if( c == FREV )
nplot(8,UP);
putchar(PLOT);
}
flush();
restore();
}
restore(){
mode[2] = svmode;
stty(1, mode);
exit();
}
int tab[]{
'A', /* alpha */
'B', /* beta */
'D', /* delta */
'W', /* DELTA */
'S', /* epsilon */
'N', /* eta */
'\\', /* gamma */
'G', /* GAMMA */
'o', /* infinity - not in M37 */
'^', /* integral */
'L', /* lambda */
'E', /* LAMBDA */
'M', /* mu */
'[', /* nabla (del) */
'_', /* not */
'@', /* nu */
'C', /* omega */
'Z', /* OMEGA */
']', /* partial */
'U', /* phi */
'F', /* PHI */
'V', /* psi */
'H', /* PSI */
'J', /* pi */
'P', /* PI */
'K', /* rho */
'Y', /* sigma */
'R', /* SIGMA */
'I', /* tau */
'T', /* theta */
'O', /* THETA */
'X', /* xi */
'Q', /* zeta */
0
};
int trans[]{
alpha,
beta,
delta,
DELTA,
epsilon,
eta,
gamma,
GAMMA,
infinity,
integral,
lambda,
LAMBDA,
mu,
nabla,
not,
nu,
omega,
OMEGA,
partial,
phi,
PHI,
psi,
PSI,
pi,
PI,
rho,
sigma,
SIGMA,
tau,
theta,
THETA,
xi,
zeta,
0
};
int alpha[] {LF,'c',RT,RT,'(',LF,0};
int beta[] {'B',LF,LF,DN,DN,'|',RT,RT,UP,UP,0};
int delta[] {'o',UP,UP,'<',DN,DN,0};
int DELTA[] {LF,LF,'/',-3,DN,'-',-4,RT,'-',-3,UP,'\\',LF,LF,0};
int epsilon[] {'<','-',0};
int eta[] {'n',RT,RT,DN,DN,'|',LF,LF,UP,UP,0};
int gamma[] {')',RT,'/',LF,0};
int GAMMA[] {LF,LF,'|',RT,RT,-3,UP,'-',-3,DN,RT,RT,'`',LF,LF,0};
int infinity[] {LF,LF,'c',-4,RT,'o',LF,LF,0};
int integral[] {'|','\'',RT,RT,'`',-3,LF,-6,DN,'\'',LF,'`',RT,RT,-6,UP,0};
int lambda[] {'\\',-4,DN,LF,'\'',DN,LF,'\'',-5,UP,RT,RT,0};
int LAMBDA[] {LF,LF,'/',-4,RT,'\\',LF,LF,0};
int mu[] {'u',LF,LF,',',RT,RT,0};
int nabla[] {LF,LF,'\\',-3,UP,'-',-4,RT,'-',-3,DN,'/',LF,LF,0};
int not[] {'-',-2,RT,UP,',',DN,-2,LF,0};
int nu[] {LF,'(',-3,RT,'/',LF,LF,0};
int omega[] {LF,'u',-3,RT,'u',LF,LF,0};
int OMEGA[] {'O',DN,DN,LF,'-',RT,RT,'-',LF,UP,UP,0};
int partial[] {'o',RT,DN,'`',LF,UP,'`',LF,UP,'`',RT,DN,0};
int phi[] {'o','/',0};
int PHI[] {'o','[',']',0};
int psi[] {'/','-',DN,DN,RT,RT,'\'',-4,LF,'\'',RT,RT,UP,UP,0};
int PSI[] {'[',']','-',DN,DN,RT,RT,'\'',-4,LF,'`',RT,RT,UP,UP,0};
int pi[] {UP,'-',-3,DN,'"',DN,'"',-3,UP,0};
int PI[] {LF,LF,'[',']',-4,RT,'[',']',LF,LF,-3,UP,'-',-3,DN,0};
int rho[] {'o',LF,LF,DN,DN,'|',UP,UP,RT,RT,0};
int sigma[] {'o',DN,RT,RT,'~',UP,LF,LF,0};
int SIGMA[] {'>',-2,DN,'-',-5,UP,'-',-3,DN,0};
int tau[] {'t',DN,RT,RT,'~',LF,LF,LF,'~',RT,UP,0};
int theta[] {'O','-',0};
int THETA[] {'O','=',0};
int xi[] {'c',RT,DN,',',LF,-3,UP,'c',LF,DN,'`',RT,DN,0};
int zeta[] {'c',RT,DN,',',LF,-3,UP,'<',DN,DN,0};
special(){
int c,i,j,t;
loop:
if( (c=getchar()) == SI )
return;
for( i=0; tab[i]!=0; i++)
if( c==tab[i] ){
plot(trans[i]);
goto loop;
}
putchar(c);
goto loop;
}
plot(s) int *s; {
int i,c;
putchar(PLOT);
for( i=0; (c=s[i])!=0; i++ )
if( c<0 )
nplot(-c,s[++i]);
else
putchar(c);
putchar(PLOT);
putchar(' ');
}
nplot(n,c) int n,c; {
while(n--)
putchar(c);
}