#ifndef lint static const char RCSid[] = "$Id: image.c,v 2.31 2005/02/18 17:42:14 greg Exp $"; #endif /* * image.c - routines for image generation. * * External symbols declared in view.h */ #include "copyright.h" #include "rtio.h" #include "rtmath.h" #include "paths.h" #include "view.h" #define FEQ(x,y) (fabs((x)-(y)) <= FTINY) #define VEQ(v,w) (FEQ((v)[0],(w)[0]) && FEQ((v)[1],(w)[1]) \ && FEQ((v)[2],(w)[2])) VIEW stdview = STDVIEW; /* default view parameters */ static gethfunc gethview; char * setview(v) /* set hvec and vvec, return message on error */ register VIEW *v; { static char ill_horiz[] = "illegal horizontal view size"; static char ill_vert[] = "illegal vertical view size"; if (v->vaft < -FTINY || (v->vaft > FTINY && v->vaft <= v->vfore)) return("illegal fore/aft clipping plane"); if (v->vdist <= FTINY) return("illegal view distance"); v->vdist *= normalize(v->vdir); /* normalize direction */ if (v->vdist == 0.0) return("zero view direction"); if (normalize(v->vup) == 0.0) /* normalize view up */ return("zero view up vector"); fcross(v->hvec, v->vdir, v->vup); /* compute horiz dir */ if (normalize(v->hvec) == 0.0) return("view up parallel to view direction"); fcross(v->vvec, v->hvec, v->vdir); /* compute vert dir */ if (v->horiz <= FTINY) return(ill_horiz); if (v->vert <= FTINY) return(ill_vert); switch (v->type) { case VT_PAR: /* parallel view */ v->hn2 = v->horiz; v->vn2 = v->vert; break; case VT_PER: /* perspective view */ if (v->horiz >= 180.0-FTINY) return(ill_horiz); if (v->vert >= 180.0-FTINY) return(ill_vert); v->hn2 = 2.0 * tan(v->horiz*(PI/180.0/2.0)); v->vn2 = 2.0 * tan(v->vert*(PI/180.0/2.0)); break; case VT_CYL: /* cylindrical panorama */ if (v->horiz > 360.0+FTINY) return(ill_horiz); if (v->vert >= 180.0-FTINY) return(ill_vert); v->hn2 = v->horiz * (PI/180.0); v->vn2 = 2.0 * tan(v->vert*(PI/180.0/2.0)); break; case VT_ANG: /* angular fisheye */ if (v->horiz > 360.0+FTINY) return(ill_horiz); if (v->vert > 360.0+FTINY) return(ill_vert); v->hn2 = v->horiz * (PI/180.0); v->vn2 = v->vert * (PI/180.0); break; case VT_HEM: /* hemispherical fisheye */ if (v->horiz > 180.0+FTINY) return(ill_horiz); if (v->vert > 180.0+FTINY) return(ill_vert); v->hn2 = 2.0 * sin(v->horiz*(PI/180.0/2.0)); v->vn2 = 2.0 * sin(v->vert*(PI/180.0/2.0)); break; default: return("unknown view type"); } if (v->type != VT_ANG) { if (v->type != VT_CYL) { v->hvec[0] *= v->hn2; v->hvec[1] *= v->hn2; v->hvec[2] *= v->hn2; } v->vvec[0] *= v->vn2; v->vvec[1] *= v->vn2; v->vvec[2] *= v->vn2; } v->hn2 *= v->hn2; v->vn2 *= v->vn2; return(NULL); } void normaspect(va, ap, xp, yp) /* fix pixel aspect or resolution */ double va; /* view aspect ratio */ double *ap; /* pixel aspect in (or out if 0) */ int *xp, *yp; /* x and y resolution in (or out if *ap!=0) */ { if (*ap <= FTINY) *ap = va * *xp / *yp; /* compute pixel aspect */ else if (va * *xp > *ap * *yp) *xp = *yp / va * *ap + .5; /* reduce x resolution */ else *yp = *xp * va / *ap + .5; /* reduce y resolution */ } double viewray(orig, direc, v, x, y) /* compute ray origin and direction */ FVECT orig, direc; register VIEW *v; double x, y; { double d, z; x += v->hoff - 0.5; y += v->voff - 0.5; switch(v->type) { case VT_PAR: /* parallel view */ orig[0] = v->vp[0] + v->vfore*v->vdir[0] + x*v->hvec[0] + y*v->vvec[0]; orig[1] = v->vp[1] + v->vfore*v->vdir[1] + x*v->hvec[1] + y*v->vvec[1]; orig[2] = v->vp[2] + v->vfore*v->vdir[2] + x*v->hvec[2] + y*v->vvec[2]; VCOPY(direc, v->vdir); return(v->vaft > FTINY ? v->vaft - v->vfore : 0.0); case VT_PER: /* perspective view */ direc[0] = v->vdir[0] + x*v->hvec[0] + y*v->vvec[0]; direc[1] = v->vdir[1] + x*v->hvec[1] + y*v->vvec[1]; direc[2] = v->vdir[2] + x*v->hvec[2] + y*v->vvec[2]; orig[0] = v->vp[0] + v->vfore*direc[0]; orig[1] = v->vp[1] + v->vfore*direc[1]; orig[2] = v->vp[2] + v->vfore*direc[2]; d = normalize(direc); return(v->vaft > FTINY ? (v->vaft - v->vfore)*d : 0.0); case VT_HEM: /* hemispherical fisheye */ z = 1.0 - x*x*v->hn2 - y*y*v->vn2; if (z < 0.0) return(-1.0); z = sqrt(z); direc[0] = z*v->vdir[0] + x*v->hvec[0] + y*v->vvec[0]; direc[1] = z*v->vdir[1] + x*v->hvec[1] + y*v->vvec[1]; direc[2] = z*v->vdir[2] + x*v->hvec[2] + y*v->vvec[2]; orig[0] = v->vp[0] + v->vfore*direc[0]; orig[1] = v->vp[1] + v->vfore*direc[1]; orig[2] = v->vp[2] + v->vfore*direc[2]; return(v->vaft > FTINY ? v->vaft - v->vfore : 0.0); case VT_CYL: /* cylindrical panorama */ d = x * v->horiz * (PI/180.0); z = cos(d); x = sin(d); direc[0] = z*v->vdir[0] + x*v->hvec[0] + y*v->vvec[0]; direc[1] = z*v->vdir[1] + x*v->hvec[1] + y*v->vvec[1]; direc[2] = z*v->vdir[2] + x*v->hvec[2] + y*v->vvec[2]; orig[0] = v->vp[0] + v->vfore*direc[0]; orig[1] = v->vp[1] + v->vfore*direc[1]; orig[2] = v->vp[2] + v->vfore*direc[2]; d = normalize(direc); return(v->vaft > FTINY ? (v->vaft - v->vfore)*d : 0.0); case VT_ANG: /* angular fisheye */ x *= v->horiz/180.0; y *= v->vert/180.0; d = x*x + y*y; if (d > 1.0) return(-1.0); d = sqrt(d); z = cos(PI*d); d = d <= FTINY ? PI : sqrt(1 - z*z)/d; x *= d; y *= d; direc[0] = z*v->vdir[0] + x*v->hvec[0] + y*v->vvec[0]; direc[1] = z*v->vdir[1] + x*v->hvec[1] + y*v->vvec[1]; direc[2] = z*v->vdir[2] + x*v->hvec[2] + y*v->vvec[2]; orig[0] = v->vp[0] + v->vfore*direc[0]; orig[1] = v->vp[1] + v->vfore*direc[1]; orig[2] = v->vp[2] + v->vfore*direc[2]; return(v->vaft > FTINY ? v->vaft - v->vfore : 0.0); } return(-1.0); } void viewloc(ip, v, p) /* find image location for point */ FVECT ip; register VIEW *v; FVECT p; { double d, d2; FVECT disp; disp[0] = p[0] - v->vp[0]; disp[1] = p[1] - v->vp[1]; disp[2] = p[2] - v->vp[2]; switch (v->type) { case VT_PAR: /* parallel view */ ip[2] = DOT(disp,v->vdir) - v->vfore; break; case VT_PER: /* perspective view */ d = DOT(disp,v->vdir); ip[2] = VLEN(disp); if (d < 0.0) { /* fold pyramid */ ip[2] = -ip[2]; d = -d; } if (d > FTINY) { d = 1.0/d; disp[0] *= d; disp[1] *= d; disp[2] *= d; } ip[2] *= (1.0 - v->vfore*d); break; case VT_HEM: /* hemispherical fisheye */ d = normalize(disp); if (DOT(disp,v->vdir) < 0.0) ip[2] = -d; else ip[2] = d; ip[2] -= v->vfore; break; case VT_CYL: /* cylindrical panorama */ d = DOT(disp,v->hvec); d2 = DOT(disp,v->vdir); ip[0] = 180.0/PI * atan2(d,d2) / v->horiz + 0.5 - v->hoff; d = 1.0/sqrt(d*d + d2*d2); ip[1] = DOT(disp,v->vvec)*d/v->vn2 + 0.5 - v->voff; ip[2] = VLEN(disp); ip[2] *= (1.0 - v->vfore*d); return; case VT_ANG: /* angular fisheye */ ip[0] = 0.5 - v->hoff; ip[1] = 0.5 - v->voff; ip[2] = normalize(disp) - v->vfore; d = DOT(disp,v->vdir); if (d >= 1.0-FTINY) return; if (d <= -(1.0-FTINY)) { ip[0] += 180.0/v->horiz; return; } d = acos(d)/PI / sqrt(1.0 - d*d); ip[0] += DOT(disp,v->hvec)*d*180.0/v->horiz; ip[1] += DOT(disp,v->vvec)*d*180.0/v->vert; return; } ip[0] = DOT(disp,v->hvec)/v->hn2 + 0.5 - v->hoff; ip[1] = DOT(disp,v->vvec)/v->vn2 + 0.5 - v->voff; } void pix2loc(loc, rp, px, py) /* compute image location from pixel pos. */ RREAL loc[2]; register RESOLU *rp; int px, py; { register int x, y; if (rp->rt & YMAJOR) { x = px; y = py; } else { x = py; y = px; } if (rp->rt & XDECR) x = rp->xr-1 - x; if (rp->rt & YDECR) y = rp->yr-1 - y; loc[0] = (x+.5)/rp->xr; loc[1] = (y+.5)/rp->yr; } void loc2pix(pp, rp, lx, ly) /* compute pixel pos. from image location */ int pp[2]; register RESOLU *rp; double lx, ly; { register int x, y; x = lx * rp->xr; y = ly * rp->yr; if (rp->rt & XDECR) x = rp->xr-1 - x; if (rp->rt & YDECR) y = rp->yr-1 - y; if (rp->rt & YMAJOR) { pp[0] = x; pp[1] = y; } else { pp[0] = y; pp[1] = x; } } int getviewopt(v, ac, av) /* process view argument */ register VIEW *v; int ac; register char *av[]; { #define check(c,l) if ((av[0][c]&&av[0][c]!=' ') || \ badarg(ac-1,av+1,l)) return(-1) if (ac <= 0 || av[0][0] != '-' || av[0][1] != 'v') return(-1); switch (av[0][2]) { case 't': /* type */ if (!av[0][3] || av[0][3]==' ') return(-1); check(4,""); v->type = av[0][3]; return(0); case 'p': /* point */ check(3,"fff"); v->vp[0] = atof(av[1]); v->vp[1] = atof(av[2]); v->vp[2] = atof(av[3]); return(3); case 'd': /* direction */ check(3,"fff"); v->vdir[0] = atof(av[1]); v->vdir[1] = atof(av[2]); v->vdir[2] = atof(av[3]); v->vdist = 1.; return(3); case 'u': /* up */ check(3,"fff"); v->vup[0] = atof(av[1]); v->vup[1] = atof(av[2]); v->vup[2] = atof(av[3]); return(3); case 'h': /* horizontal size */ check(3,"f"); v->horiz = atof(av[1]); return(1); case 'v': /* vertical size */ check(3,"f"); v->vert = atof(av[1]); return(1); case 'o': /* fore clipping plane */ check(3,"f"); v->vfore = atof(av[1]); return(1); case 'a': /* aft clipping plane */ check(3,"f"); v->vaft = atof(av[1]); return(1); case 's': /* shift */ check(3,"f"); v->hoff = atof(av[1]); return(1); case 'l': /* lift */ check(3,"f"); v->voff = atof(av[1]); return(1); default: return(-1); } #undef check } int sscanview(vp, s) /* get view parameters from string */ VIEW *vp; register char *s; { int ac; char *av[4]; int na; int nvopts = 0; while (*s == ' ') s++; if (*s != '-') s = sskip2(s,1); while (*s) { ac = 0; do { if (ac || *s == '-') av[ac++] = s; while (*s && *s != ' ') s++; while (*s == ' ') s++; } while (*s && ac < 4); if ((na = getviewopt(vp, ac, av)) >= 0) { if (na+1 < ac) s = av[na+1]; nvopts++; } else if (ac > 1) s = av[1]; } return(nvopts); } void fprintview(vp, fp) /* write out view parameters */ register VIEW *vp; FILE *fp; { fprintf(fp, " -vt%c", vp->type); fprintf(fp, " -vp %.6g %.6g %.6g", vp->vp[0], vp->vp[1], vp->vp[2]); fprintf(fp, " -vd %.6g %.6g %.6g", vp->vdir[0]*vp->vdist, vp->vdir[1]*vp->vdist, vp->vdir[2]*vp->vdist); fprintf(fp, " -vu %.6g %.6g %.6g", vp->vup[0], vp->vup[1], vp->vup[2]); fprintf(fp, " -vh %.6g -vv %.6g", vp->horiz, vp->vert); fprintf(fp, " -vo %.6g -va %.6g", vp->vfore, vp->vaft); fprintf(fp, " -vs %.6g -vl %.6g", vp->hoff, vp->voff); } char * viewopt(vp) /* translate to minimal view string */ register VIEW *vp; { static char vwstr[128]; register char *cp = vwstr; if (vp->type != stdview.type) { sprintf(cp, " -vt%c", vp->type); cp += strlen(cp); } if (!VEQ(vp->vp,stdview.vp)) { sprintf(cp, " -vp %.6g %.6g %.6g", vp->vp[0], vp->vp[1], vp->vp[2]); cp += strlen(cp); } if (!FEQ(vp->vdist,stdview.vdist) || !VEQ(vp->vdir,stdview.vdir)) { sprintf(cp, " -vd %.6g %.6g %.6g", vp->vdir[0]*vp->vdist, vp->vdir[1]*vp->vdist, vp->vdir[2]*vp->vdist); cp += strlen(cp); } if (!VEQ(vp->vup,stdview.vup)) { sprintf(cp, " -vu %.6g %.6g %.6g", vp->vup[0], vp->vup[1], vp->vup[2]); cp += strlen(cp); } if (!FEQ(vp->horiz,stdview.horiz)) { sprintf(cp, " -vh %.6g", vp->horiz); cp += strlen(cp); } if (!FEQ(vp->vert,stdview.vert)) { sprintf(cp, " -vv %.6g", vp->vert); cp += strlen(cp); } if (!FEQ(vp->vfore,stdview.vfore)) { sprintf(cp, " -vo %.6g", vp->vfore); cp += strlen(cp); } if (!FEQ(vp->vaft,stdview.vaft)) { sprintf(cp, " -va %.6g", vp->vaft); cp += strlen(cp); } if (!FEQ(vp->hoff,stdview.hoff)) { sprintf(cp, " -vs %.6g", vp->hoff); cp += strlen(cp); } if (!FEQ(vp->voff,stdview.voff)) { sprintf(cp, " -vl %.6g", vp->voff); cp += strlen(cp); } return(vwstr); } int isview(s) /* is this a view string? */ char *s; { static char *altname[]={NULL,VIEWSTR,"rpict","rview","rvu","rpiece","pinterp",NULL}; extern char *progname; register char *cp; register char **an; /* add program name to list */ if (altname[0] == NULL) { for (cp = progname; *cp; cp++) ; while (cp > progname && !ISDIRSEP(cp[-1])) cp--; altname[0] = cp; } /* skip leading path */ cp = s; while (*cp && *cp != ' ') cp++; while (cp > s && !ISDIRSEP(cp[-1])) cp--; for (an = altname; *an != NULL; an++) if (!strncmp(*an, cp, strlen(*an))) return(1); return(0); } struct myview { VIEW *hv; int ok; }; static int gethview( /* get view from header */ char *s, void *v ) { if (isview(s) && sscanview(((struct myview*)v)->hv, s) > 0) ((struct myview*)v)->ok++; return(0); } int viewfile(fname, vp, rp) /* get view from file */ char *fname; VIEW *vp; RESOLU *rp; { struct myview mvs; FILE *fp; if (fname == NULL || !strcmp(fname, "-")) fp = stdin; else if ((fp = fopen(fname, "r")) == NULL) return(-1); mvs.hv = vp; mvs.ok = 0; getheader(fp, gethview, &mvs); if (rp != NULL && !fgetsresolu(rp, fp)) mvs.ok = 0; fclose(fp); return(mvs.ok); }