#ifndef lint static char SCCSid[] = "$SunId$ LBL"; #endif /* Copyright (c) 1989 Regents of the University of California */ /* * genrev.c - program to generate functions of rotation about z * * The program takes as input the functions of t for z and r * (the radius). If z is increasing, the normal points * outward, inward for decreasing z. Negative radii are forbidden. * * 8/6/86 */ #include #define ZNAME "Z`SYS`" /* z function name */ #define RNAME "R`SYS`" /* r function name */ #define PI 3.14159265358979323846 #define FTINY 1e-9 /* orientation */ #define OUT 01 #define IN 02 #define UP 04 #define DOWN 010 double funvalue(), l_hermite(), l_bezier(), l_bspline(), argument(); main(argc, argv) int argc; char *argv[]; { extern long eclock; char stmp[256]; char *modname; int smooth = 0; double t, lastz, z, nextz, lastr, r, nextr; double lastnz, lastnr, nz, nr, nextnz, nextnr; int i, nseg; int orient; varset("PI", ':', PI); funset("hermite", 5, ':', l_hermite); funset("bezier", 5, ':', l_bezier); funset("bspline", 5, ':', l_bspline); if (argc < 6) goto userror; for (i = 6; i < argc; i++) if (!strcmp(argv[i], "-e")) scompile(argv[++i], NULL, 0); else if (!strcmp(argv[i], "-f")) fcompile(argv[++i]); else if (!strcmp(argv[i], "-s")) smooth = 1; else goto userror; sprintf(stmp, "%s(t)=%s;", ZNAME, argv[3]); scompile(stmp, NULL, 0); sprintf(stmp, "%s(t)=%s;", RNAME, argv[4]); scompile(stmp, NULL, 0); nseg = atoi(argv[5]); if (nseg <= 0) goto userror; modname = smooth ? "Phong" : argv[1]; printhead(argc, argv); eclock = 0; lastnz = lastnr = 0.0; t = 0.0; lastz = funvalue(ZNAME, 1, &t); lastr = funvalue(RNAME, 1, &t); t = 1.0/nseg; z = funvalue(ZNAME, 1, &t); r = funvalue(RNAME, 1, &t); computen(&nz, &nr, lastz, lastr, z, r); for (i = 1; i <= nseg; i++) { if (i < nseg) { t = (double)(i+1)/nseg; nextz = funvalue(ZNAME, 1, &t); nextr = funvalue(RNAME, 1, &t); computen(&nextnz, &nextnr, z, r, nextz, nextr); } else nextnz = nextnr = 0.0; orient = 0; if (z < lastz-FTINY) orient |= DOWN; else if (z > lastz+FTINY) orient |= UP; if (r < lastr-FTINY) orient |= IN; else if (r > lastr+FTINY) orient |= OUT; if (!orient) goto endfor; if (smooth) { printf("\n%s texfunc Phong\n", argv[1]); printf("4 rev_dx rev_dy rev_dz rev.cal\n"); printf("0\n4\n"); if (orient&(UP|DOWN)) { t = (nextnz - lastnz)/(z - lastz); printf("\t%15.9g\t%15.9g\n", t, lastnz - t*lastz); } else printf("\t0\t%d\n", orient&IN ? 1 : -1); if (orient&(OUT|IN)) { t = (nextnr - lastnr)/(r - lastr); printf("\t%15.9g\t%15.9g\n", t, lastnr - t*lastr); } else printf("\t0\t%d\n", orient&UP ? 1 : -1); } if (!(orient&(IN|OUT))) { printf("\n%s %s %s.%d\n", modname, orient&DOWN ? "tube" : "cylinder", argv[2], i); printf("0\n0\n7\n"); printf("\t0\t0\t%15.9g\n", lastz); printf("\t0\t0\t%15.9g\n", z); printf("\t%15.9g\n", r); } else if (!(orient&(UP|DOWN))) { printf("\n%s ring %s.%d\n", modname, argv[2], i); printf("0\n0\n8\n"); printf("\t0\t0\t%15.9g\n", z); printf("\t0\t0\t%15.9g\n", orient&IN ? 1.0 : -1.0); printf("\t%15.9g\t%15.9g\n", lastr, r); } else { printf("\n%s %s %s.%d\n", modname, orient&DOWN ? "cup" : "cone", argv[2], i); printf("0\n0\n8\n"); printf("\t0\t0\t%15.9g\n", lastz); printf("\t0\t0\t%15.9g\n", z); printf("\t%15.9g\t%15.9g\n", lastr, r); } endfor: lastz = z; lastr = r; z = nextz; r = nextr; lastnz = nz; lastnr = nr; nz = nextnz; nr = nextnr; } quit(0); userror: fprintf(stderr, "Usage: %s material name z(t) r(t) nseg [-e expr] [-f file] [-s]\n", argv[0]); quit(1); } computen(nzp, nrp, z0, r0, z1, r1) /* compute normal */ double *nzp, *nrp, z0, r0, z1, r1; { extern double sqrt(); double dr, dz, len; dz = r0 - r1; /* right angle vector */ dr = z1 - z0; len = sqrt(dr*dr + dz*dz); *nzp = dz/len; *nrp = dr/len; } eputs(msg) char *msg; { fputs(msg, stderr); } wputs(msg) char *msg; { eputs(msg); } quit(code) { exit(code); } printhead(ac, av) /* print command header */ register int ac; register char **av; { putchar('#'); while (ac--) { putchar(' '); fputs(*av++, stdout); } putchar('\n'); } double l_hermite() { double t; t = argument(5); return( argument(1)*((2.0*t-3.0)*t*t+1.0) + argument(2)*(-2.0*t+3.0)*t*t + argument(3)*((t-2.0)*t+1.0)*t + argument(4)*(t-1.0)*t*t ); } double l_bezier() { double t; t = argument(5); return( argument(1) * (1.+t*(-3.+t*(3.-t))) + argument(2) * 3.*t*(1.+t*(-2.+t)) + argument(3) * 3.*t*t*(1.-t) + argument(4) * t*t*t ); } double l_bspline() { double t; t = argument(5); return( argument(1) * (1./6.+t*(-1./2.+t*(1./2.-1./6.*t))) + argument(2) * (2./3.+t*t*(-1.+1./2.*t)) + argument(3) * (1./6.+t*(1./2.+t*(1./2.-1./2.*t))) + argument(4) * (1./6.*t*t*t) ); }