EM
eht[p1] += VERT(EM(0.15, ps)); /* 0.15m */
printf(".nr 10 %du\n", VERT(max(eht[p1]-ebase[p1]-EM(1, ps), 0)));
eht[yyval] = VERT(EM(1.0, ps+5) - EM(0.2, ps));
ebase[yyval] = VERT(EM(0.3, ps));
eht[yyval] = VERT(EM(1.15, ps+4));
ebase[yyval] = VERT(EM(0.3, ps));
before = eht[p1] - ebase[p1] - VERT(EM(1.2, ps));
after = ebase[p1] - VERT(EM(0.2, ps));
a = VERT(EM(amt/100.0, EFFPS(ps)));
d = VERT(EM(0.3, ps));
n = (h1 + EM(1.0, EFFPS(ps)) - 1) / EM(1.0, EFFPS(ps));
eht[yyval] = VERT(EM(n, ps));
v = b1 - h1/2 + VERT(EM(0.4, ps));
gap = VERT(EM(0.4, ps)); /* 4/10 m between blocks */
: b - VERT(EM(0.5, ps)) - gap;
d1 = VERT(EM(0.5, effps2));
d2 = VERT(EM(0.2, effps));
d1 = VERT(EM(0.5, effps2));
d1 = VERT(EM(0.2, effps));
eht[yyval] = VERT(EM(1.2, nps));
eht[yyval] = VERT(EM(1.0, EFFPS(ps))); /* ht in machine units */
return(makem((int)(EM)/6));
return(makem((int)(EM)/12));
j = EM;
j = EM;
dfact = EM;
dwn = EM | MOT | VMOT;
*--j = *brabuf = (cnt * EM) / 2 | MOT | NMOT | VMOT;
v = EM;
dfact = EM;
dfact = EM;
sps = EM;
ics = EM * 2;
dfact = EM;
# define SPS (EM/3) /* space size */
dfact = EM;
j = EM / 2;