#ifndef lint static char sccsid[] = "@(#)subr.c 4.1 (Berkeley) 6/27/83"; #endif #include #include "con.h" abval(q) { return (q>=0 ? q : -q); } xconv (xp) { /* x position input is -2047 to +2047, output must be 0 to PAGSIZ*HORZRES */ xp += 2048; /* the computation is newx = xp*(PAGSIZ*HORZRES)/4096 */ return (xoffset + xp /xscale); } yconv (yp) { /* see description of xconv */ yp += 2048; return (yp / yscale); } inplot() { stty(OUTF, &PTTY); spew(ESC); spew (INPLOT); } outplot() { spew(ESC); spew(ACK); spew(ESC); spew(ACK); fflush(stdout); stty (OUTF, &ITTY); } spew(ch) { putc(ch, stdout); } tobotleft () { move(-2048,-2048); } reset() { outplot(); exit(); } float dist2 (x1, y1, x2, y2) { float t,v; t = x2-x1; v = y1-y2; return (t*t+v*v); } swap (pa, pb) int *pa, *pb; { int t; t = *pa; *pa = *pb; *pb = t; } #define DOUBLE 010 #define ADDR 0100 #define COM 060 #define MAXX 070 #define MAXY 07 extern xnow,ynow; #define SPACES 7 movep(ix,iy){ int dx,dy,remx,remy,pts,i; int xd,yd; int addr,command; char c; if(xnow == ix && ynow == iy)return; inplot(); dx = ix-xnow; dy = iy-ynow; command = COM|PENUP|((dx<0)<<1)|(dy<0); dx = abval(dx); dy = abval(dy); xd = dx/(SPACES*2); yd = dy/(SPACES*2); pts = xd0){ c=command|DOUBLE; addr=ADDR; if(xd>0)addr|=MAXX; if(yd>0)addr|=MAXY; spew(c); while(i--){ spew(addr); } } if(xd!=yd){ if(xd>pts){ i=xd-pts; addr=ADDR|MAXX; } else{ i=yd-pts; addr=ADDR|MAXY; } c=command|DOUBLE; spew(c); while(i--){ spew(addr); } } remx=dx-xd*SPACES*2; remy=dy-yd*SPACES*2; addr=ADDR; i = 0; if(remx>7){ i=1; addr|=MAXX; remx -= 7; } if(remy>7){ i=1; addr|=MAXY; remy -= 7; } while(i--){ spew(command); spew(addr); } if(remx>0||remy>0){ spew(command); spew(ADDR|remx<<3|remy); } xnow=ix; ynow=iy; outplot(); return; } xsc(xi){ int xa; xa = (xi - obotx) * scalex + botx; return(xa); } ysc(yi){ int ya; ya = (yi - oboty) *scaley +boty; return(ya); }