src/rt/rv2.c

/* Copyright (c) 1995 Regents of the University of California */

#ifndef lint
static char SCCSid[] = "$SunId$ LBL";
#endif

/*
 *  rv2.c - command routines used in tracing a view.
 *
 *     3/24/87
 */

#include  "ray.h"

#include  "octree.h"

#include  "otypes.h"

#include  "rpaint.h"

#include  "resolu.h"

#include  <ctype.h>

#define  CTRL(c)        ((c)-'@')

#ifdef  SMLFLT
#define  sscanvec(s,v)  (sscanf(s,"%f %f %f",v,v+1,v+2)==3)
#else
#define  sscanvec(s,v)  (sscanf(s,"%lf %lf %lf",v,v+1,v+2)==3)
#endif

extern char  *atos();

extern FILE  *popen();

extern char  rifname[128];              /* rad input file name */

extern char  VersionID[];
extern char  *progname;
extern char  *octname;


getframe(s)                             /* get a new frame */
char  *s;
{
        if (getrect(s, &pframe) < 0)
                return;
        pdepth = 0;
}


getrepaint(s)                           /* get area and repaint */
char  *s;
{
        RECT  box;

        if (getrect(s, &box) < 0)
                return;
        paintrect(&ptrunk, 0, 0, hresolu, vresolu, &box);
}


getview(s)                              /* get/show view parameters */
char  *s;
{
        FILE  *fp;
        char  buf[128];
        char  *fname;
        int  change = 0;
        VIEW  nv;

        while (isspace(*s))
                s++;
        if (*s == '-') {                        /* command line parameters */
                copystruct(&nv, &ourview);
                if (sscanview(&nv, s))
                        newview(&nv);
                else
                        error(COMMAND, "bad view option(s)");
                return;
        }
        if (sscanf(s, "%s", buf) == 1) {        /* write parameters to a file */
                if ((fname = getpath(buf, NULL, 0)) == NULL ||
                                (fp = fopen(fname, "a")) == NULL) {
                        sprintf(errmsg, "cannot open \"%s\"", buf);
                        error(COMMAND, errmsg);
                        return;
                }
                fputs(progname, fp);
                fprintview(&ourview, fp);
                fputs(sskip(s), fp);
                putc('\n', fp);
                fclose(fp);
                return;
        }
        sprintf(buf, "view type (%c): ", ourview.type);
        (*dev->comout)(buf);
        (*dev->comin)(buf, NULL);
        if (buf[0] == CTRL('C')) return;
        if (buf[0] && buf[0] != ourview.type) {
                nv.type = buf[0];
                change++;
        } else
                nv.type = ourview.type;
        sprintf(buf, "view point (%.6g %.6g %.6g): ",
                        ourview.vp[0], ourview.vp[1], ourview.vp[2]);
        (*dev->comout)(buf);
        (*dev->comin)(buf, NULL);
        if (buf[0] == CTRL('C')) return;
        if (sscanvec(buf, nv.vp))
                change++;
        else
                VCOPY(nv.vp, ourview.vp);
        sprintf(buf, "view direction (%.6g %.6g %.6g): ",
                        ourview.vdir[0], ourview.vdir[1], ourview.vdir[2]);
        (*dev->comout)(buf);
        (*dev->comin)(buf, NULL);
        if (buf[0] == CTRL('C')) return;
        if (sscanvec(buf, nv.vdir))
                change++;
        else
                VCOPY(nv.vdir, ourview.vdir);
        sprintf(buf, "view up (%.6g %.6g %.6g): ",
                        ourview.vup[0], ourview.vup[1], ourview.vup[2]);
        (*dev->comout)(buf);
        (*dev->comin)(buf, NULL);
        if (buf[0] == CTRL('C')) return;
        if (sscanvec(buf, nv.vup))
                change++;
        else
                VCOPY(nv.vup, ourview.vup);
        sprintf(buf, "view horiz and vert size (%.6g %.6g): ",
                        ourview.horiz, ourview.vert);
        (*dev->comout)(buf);
        (*dev->comin)(buf, NULL);
        if (buf[0] == CTRL('C')) return;
        if (sscanf(buf, "%lf %lf", &nv.horiz, &nv.vert) == 2)
                change++;
        else {
                nv.horiz = ourview.horiz; nv.vert = ourview.vert;
        }
        sprintf(buf, "fore and aft clipping plane (%.6g %.6g): ",
                        ourview.vfore, ourview.vaft);
        (*dev->comout)(buf);
        (*dev->comin)(buf, NULL);
        if (buf[0] == CTRL('C')) return;
        if (sscanf(buf, "%lf %lf", &nv.vfore, &nv.vaft) == 2)
                change++;
        else {
                nv.vfore = ourview.vfore; nv.vaft = ourview.vaft;
        }
        sprintf(buf, "view shift and lift (%.6g %.6g): ",
                        ourview.hoff, ourview.voff);
        (*dev->comout)(buf);
        (*dev->comin)(buf, NULL);
        if (buf[0] == CTRL('C')) return;
        if (sscanf(buf, "%lf %lf", &nv.hoff, &nv.voff) == 2)
                change++;
        else {
                nv.hoff = ourview.hoff; nv.voff = ourview.voff;
        }
        if (change)
                newview(&nv);
}


lastview(s)                             /* return to a previous view */
char  *s;
{
        char  buf[128];
        char  *fname;
        int  success;
        VIEW  nv;

        if (sscanf(s, "%s", buf) == 1) {        /* get parameters from a file */
                copystruct(&nv, &stdview);
                if ((fname = getpath(buf, "", R_OK)) == NULL ||
                                (success = viewfile(fname, &nv, NULL)) == -1) {
                        sprintf(errmsg, "cannot open \"%s\"", buf);
                        error(COMMAND, errmsg);
                        return;
                }
                if (!success)
                        error(COMMAND, "wrong file format");
                else
                        newview(&nv);
                return;
        }
        if (oldview.type == 0) {        /* no old view! */
                error(COMMAND, "no previous view");
                return;
        }
        copystruct(&nv, &ourview);
        copystruct(&ourview, &oldview);
        copystruct(&oldview, &nv);
        newimage();
}


saveview(s)                             /* save view to rad file */
char  *s;
{
        char  view[64];
        char  *fname;
        FILE  *fp;

        if (*atos(view, sizeof(view), s)) {
                if (isint(view)) {
                        error(COMMAND, "cannot write view by number");
                        return;
                }
                s = sskip(s);
        }
        while (isspace(*s))
                s++;
        if (*s)
                atos(rifname, sizeof(rifname), s);
        else if (rifname[0] == '\0') {
                error(COMMAND, "no previous rad file");
                return;
        }
        if ((fname = getpath(rifname, NULL, 0)) == NULL ||
                        (fp = fopen(fname, "a")) == NULL) {
                sprintf(errmsg, "cannot open \"%s\"", rifname);
                error(COMMAND, errmsg);
                return;
        }
        fputs("view= ", fp);
        fputs(view, fp);
        fprintview(&ourview, fp);
        putc('\n', fp);
        fclose(fp);
}


loadview(s)                             /* load view from rad file */
char  *s;
{
        char  buf[512];
        char  *fname;
        FILE  *fp;
        VIEW  nv;

        strcpy(buf, "rad -n -s -V -v ");
        if (sscanf(s, "%s", buf+strlen(buf)) == 1)
                s = sskip(s);
        else
                strcat(buf, "1");
        if (*s)
                atos(rifname, sizeof(rifname), s);
        else if (rifname[0] == '\0') {
                error(COMMAND, "no previous rad file");
                return;
        }
        if ((fname = getpath(rifname, "", R_OK)) == NULL) {
                sprintf(errmsg, "cannot access \"%s\"", rifname);
                error(COMMAND, errmsg);
                return;
        }
        sprintf(buf+strlen(buf), " %s", fname);
        if ((fp = popen(buf, "r")) == NULL) {
                error(COMMAND, "cannot run rad");
                return;
        }
        buf[0] = '\0';
        fgets(buf, sizeof(buf), fp);
        pclose(fp);
        copystruct(&nv, &stdview);
        if (!sscanview(&nv, buf)) {
                error(COMMAND, "rad error -- no such view?");
                return;
        }
        newview(&nv);
}


getaim(s)                               /* aim camera */
char  *s;
{
        double  zfact;
        VIEW  nv;

        if (getinterest(s, 1, nv.vdir, &zfact) < 0)
                return;
        nv.type = ourview.type;
        VCOPY(nv.vp, ourview.vp);
        VCOPY(nv.vup, ourview.vup);
        nv.horiz = ourview.horiz; nv.vert = ourview.vert;
        nv.vfore = ourview.vfore; nv.vaft = ourview.vaft;
        nv.hoff = ourview.hoff; nv.voff = ourview.voff;
        zoomview(&nv, zfact);
        newview(&nv);
}


getmove(s)                              /* move camera */
char  *s;
{
        FVECT  vc;
        double  mag;

        if (getinterest(s, 0, vc, &mag) < 0)
                return;
        moveview(0.0, 0.0, mag, vc);
}


getrotate(s)                            /* rotate camera */
char  *s;
{
        VIEW  nv;
        FVECT  v1;
        double  angle, elev, zfact;
        
        elev = 0.0; zfact = 1.0;
        if (sscanf(s, "%lf %lf %lf", &angle, &elev, &zfact) < 1) {
                error(COMMAND, "missing angle");
                return;
        }
        nv.type = ourview.type;
        VCOPY(nv.vp, ourview.vp);
        VCOPY(nv.vup, ourview.vup);
        nv.hoff = ourview.hoff; nv.voff = ourview.voff;
        nv.vfore = ourview.vfore; nv.vaft = ourview.vaft;
        spinvector(nv.vdir, ourview.vdir, ourview.vup, angle*(PI/180.));
        if (elev != 0.0) {
                fcross(v1, nv.vdir, ourview.vup);
                normalize(v1);
                spinvector(nv.vdir, nv.vdir, v1, elev*(PI/180.));
        }
        nv.horiz = ourview.horiz; nv.vert = ourview.vert;
        zoomview(&nv, zfact);
        newview(&nv);
}


getpivot(s)                             /* pivot viewpoint */
register char  *s;
{
        FVECT  vc;
        double  angle, elev, mag;

        elev = 0.0;
        if (sscanf(s, "%lf %lf", &angle, &elev) < 1) {
                error(COMMAND, "missing angle");
                return;
        }
        if (getinterest(sskip2(s,2), 0, vc, &mag) < 0)
                return;
        moveview(angle, elev, mag, vc);
}


getexposure(s)                          /* get new exposure */
char  *s;
{
        char  buf[128];
        register char  *cp;
        RECT  r;
        int  x, y;
        register PNODE  *p = &ptrunk;
        int  adapt = 0;
        double  e = 1.0;

        for (cp = s; isspace(*cp); cp++)
                ;
        if (*cp == '@') {
                adapt++;
                while (isspace(*++cp))
                        ;
        }
        if (*cp == '\0') {              /* normalize to point */
                if (dev->getcur == NULL)
                        return;
                (*dev->comout)("Pick point for exposure\n");
                if ((*dev->getcur)(&x, &y) == ABORT)
                        return;
                r.l = r.d = 0;
                r.r = hresolu; r.u = vresolu;
                p = findrect(x, y, &ptrunk, &r, -1);
        } else {
                if (*cp == '=') {       /* absolute setting */
                        p = NULL;
                        e = 1.0/exposure;
                        for (cp++; isspace(*cp); cp++)
                                ;
                        if (*cp == '\0') {      /* interactive */
                                sprintf(buf, "exposure (%f): ", exposure);
                                (*dev->comout)(buf);
                                (*dev->comin)(buf, NULL);
                                for (cp = buf; isspace(*cp); cp++)
                                        ;
                                if (*cp == '\0')
                                        return;
                        }
                }
                if (*cp == '+' || *cp == '-')   /* f-stops */
                        e *= pow(2.0, atof(cp));
                else                            /* multiplier */
                        e *= atof(cp);
        }
        if (p != NULL) {                /* relative setting */
                if (bright(p->v) < 1e-15) {
                        error(COMMAND, "cannot normalize to zero");
                        return;
                }
                if (adapt)
                        e *= 106./pow(1.219+pow(luminance(p->v)/exposure,.4),2.5)/exposure;
                else
                        e *= 0.5 / bright(p->v);
        }
        if (e <= FTINY || fabs(1.0 - e) <= FTINY)
                return;
        scalepict(&ptrunk, e);
        exposure *= e;
        redraw();
}


getparam(str, dsc, typ, ptr)            /* get variable from user */
char  *str, *dsc;
int  typ;
register union {int i; double d; COLOR C;}  *ptr;
{
        extern char  *index();
        int  i0;
        double  d0, d1, d2;
        char  buf[48];

        switch (typ) {
        case 'i':                       /* integer */
                if (sscanf(str, "%d", &i0) != 1) {
                        (*dev->comout)(dsc);
                        sprintf(buf, " (%d): ", ptr->i);
                        (*dev->comout)(buf);
                        (*dev->comin)(buf, NULL);
                        if (sscanf(buf, "%d", &i0) != 1)
                                return(0);
                }
                ptr->i = i0;
                return(1);
        case 'r':                       /* real */
                if (sscanf(str, "%lf", &d0) != 1) {
                        (*dev->comout)(dsc);
                        sprintf(buf, " (%.6g): ", ptr->d);
                        (*dev->comout)(buf);
                        (*dev->comin)(buf, NULL);
                        if (sscanf(buf, "%lf", &d0) != 1)
                                return(0);
                }
                ptr->d = d0;
                return(1);
        case 'b':                       /* boolean */
                if (sscanf(str, "%1s", buf) != 1) {
                        (*dev->comout)(dsc);
                        sprintf(buf, "? (%c): ", ptr->i ? 'y' : 'n');
                        (*dev->comout)(buf);
                        (*dev->comin)(buf, NULL);
                        if (buf[0] == '\0' ||
                                        index("yY+1tTnN-0fF", buf[0]) == NULL)
                                return(0);
                }
                ptr->i = index("yY+1tT", buf[0]) != NULL;
                return(1);
        case 'C':                       /* color */
                if (sscanf(str, "%lf %lf %lf", &d0, &d1, &d2) != 3) {
                        (*dev->comout)(dsc);
                        sprintf(buf, " (%.6g %.6g %.6g): ",
                                        colval(ptr->C,RED),
                                        colval(ptr->C,GRN),
                                        colval(ptr->C,BLU));
                        (*dev->comout)(buf);
                        (*dev->comin)(buf, NULL);
                        if (sscanf(buf, "%lf %lf %lf", &d0, &d1, &d2) != 3)
                                return(0);
                }
                setcolor(ptr->C, d0, d1, d2);
                return(1);
        }
}


setparam(s)                             /* get/set program parameter */
register char  *s;
{
        extern int  psample;
        extern double  maxdiff;
        extern double  minweight;
        extern int  maxdepth;
        extern double  dstrsrc;
        extern double  shadthresh;
        extern double  shadcert;
        extern COLOR  ambval;
        extern int  ambvwt;
        extern double  ambacc;
        extern int  ambres;
        extern int  ambdiv;
        extern int  ambssamp;
        extern int  ambounce;
        extern COLOR  cextinction;
        extern COLOR  salbedo;
        extern double  seccg;
        extern double  ssampdist;
        extern int  directvis;
        extern double  srcsizerat;
        extern int  do_irrad;
        extern double  specjitter;
        extern double  specthresh;
        extern int  backvis;
        char  buf[128];
        
        if (s[0] == '\0') {
                (*dev->comout)(
                "aa ab ad ar as av aw b dc dv dj ds dt i lr lw me ma mg ms ps pt sj st bv: ");
                (*dev->comin)(buf, NULL);
                s = buf;
        }
        switch (s[0]) {
        case 'l':                       /* limit */
                switch (s[1]) {
                case 'w':                       /* weight */
                        getparam(s+2, "limit weight", 'r', &minweight);
                        break;
                case 'r':                       /* reflection */
                        getparam(s+2, "limit reflection", 'i', &maxdepth);
                        break;
                default:
                        goto badparam;
                }
                break;
        case 'd':                       /* direct */
                switch (s[1]) {
                case 'j':                       /* jitter */
                        getparam(s+2, "direct jitter", 'r', &dstrsrc);
                        break;
                case 'c':                       /* certainty */
                        getparam(s+2, "direct certainty", 'r', &shadcert);
                        break;
                case 't':                       /* threshold */
                        getparam(s+2, "direct threshold", 'r', &shadthresh);
                        break;
                case 'v':                       /* visibility */
                        getparam(s+2, "direct visibility",
                                        'b', &directvis);
                        break;
                case 's':                       /* sampling */
                        getparam(s+2, "direct sampling", 'r', &srcsizerat);
                        break;
                default:
                        goto badparam;
                }
                break;
        case 'b':                       /* back faces or black and white */
                switch (s[1]) {
                case 'v':                       /* back face visibility */
                        getparam(s+2, "back face visibility", 'b', &backvis);
                        break;
                case '\0':                      /* black and white */
                case ' ':
                case 'y': case 'Y': case 't': case 'T': case '1': case '+':
                case 'n': case 'N': case 'f': case 'F': case '0': case '-':
                        getparam(s+1, "black and white", 'b', &greyscale);
                        break;
                default:
                        goto badparam;
                }
                break;
        case 'i':                       /* irradiance */
                getparam(s+1, "irradiance", 'b', &do_irrad);
                break;
        case 'a':                       /* ambient */
                switch (s[1]) {
                case 'v':                       /* value */
                        getparam(s+2, "ambient value", 'C', (COLOR *)ambval);
                        break;
                case 'w':                       /* weight */
                        getparam(s+2, "ambient value weight", 'i', &ambvwt);
                        break;
                case 'a':                       /* accuracy */
                        if (getparam(s+2, "ambient accuracy", 'r', &ambacc))
                                setambacc(ambacc);
                        break;
                case 'd':                       /* divisions */
                        getparam(s+2, "ambient divisions", 'i', &ambdiv);
                        break;
                case 's':                       /* samples */
                        getparam(s+2, "ambient super-samples", 'i', &ambssamp);
                        break;
                case 'b':                       /* bounces */
                        getparam(s+2, "ambient bounces", 'i', &ambounce);
                        break;
                case 'r':
                        if (getparam(s+2, "ambient resolution", 'i', &ambres))
                                setambres(ambres);
                        break;
                default:
                        goto badparam;
                }
                break;
        case 'm':                       /* medium */
                switch (s[1]) {
                case 'e':                       /* extinction coefficient */
                        getparam(s+2, "extinction coefficient", 'C',
                                        (COLOR *)cextinction);
                        break;
                case 'a':                       /* scattering albedo */
                        getparam(s+2, "scattering albedo", 'C',
                                        (COLOR *)salbedo);
                        break;
                case 'g':                       /* scattering eccentricity */
                        getparam(s+2, "scattering eccentricity", 'r', &seccg);
                        break;
                case 's':                       /* sampling distance */
                        getparam(s+2, "mist sampling distance", 'r',
                                        &ssampdist);
                        break;
                default:
                        goto badparam;
                }
                break;
        case 'p':                       /* pixel */
                switch (s[1]) {
                case 's':                       /* sample */
                        if (getparam(s+2, "pixel sample", 'i', &psample))
                                pdepth = 0;
                        break;
                case 't':                       /* threshold */
                        if (getparam(s+2, "pixel threshold", 'r', &maxdiff))
                                pdepth = 0;
                        break;
                default:
                        goto badparam;
                }
                break;
        case 's':                       /* specular */
                switch (s[1]) {
                case 'j':                       /* jitter */
                        getparam(s+2, "specular jitter", 'r', &specjitter);
                        break;
                case 't':                       /* threshold */
                        getparam(s+2, "specular threshold", 'r', &specthresh);
                        break;
                default:
                        goto badparam;
                }
                break;
        case '\0':                      /* nothing */
                break;
        default:;
badparam:
                *sskip(s) = '\0';
                sprintf(errmsg, "%s: unknown variable", s);
                error(COMMAND, errmsg);
                break;
        }
}


traceray(s)                             /* trace a single ray */
char  *s;
{
        char  buf[128];
        int  x, y;
        RAY  thisray;

        thisray.rmax = 0.0;

        if (!sscanvec(s, thisray.rorg) ||
                        !sscanvec(sskip2(s,3), thisray.rdir)) {

                if (dev->getcur == NULL)
                        return;
                (*dev->comout)("Pick ray\n");
                if ((*dev->getcur)(&x, &y) == ABORT)
                        return;

                if ((thisray.rmax = viewray(thisray.rorg, thisray.rdir,
                        &ourview, (x+.5)/hresolu, (y+.5)/vresolu)) < -FTINY) {
                        error(COMMAND, "not on image");
                        return;
                }

        } else if (normalize(thisray.rdir) == 0.0) {
                error(COMMAND, "zero ray direction");
                return;
        }

        rayorigin(&thisray, NULL, PRIMARY, 1.0);
        
        rayvalue(&thisray);

        if (thisray.ro == NULL)
                (*dev->comout)("ray hit nothing");
        else {
                sprintf(buf, "ray hit %s%s %s \"%s\"",
                                thisray.rod < 0.0 ? "back of " : "",
                                thisray.ro->omod == OVOID ? VOIDID :
                                        objptr(thisray.ro->omod)->oname,
                                ofun[thisray.ro->otype].funame,
                                thisray.ro->oname);
                (*dev->comout)(buf);
                (*dev->comin)(buf, NULL);
                if (thisray.rot >= FHUGE)
                        (*dev->comout)("at infinity");
                else {
                        sprintf(buf, "at (%.6g %.6g %.6g) (%.6g)",
                                        thisray.rop[0], thisray.rop[1],
                                        thisray.rop[2], thisray.rt);
                        (*dev->comout)(buf);
                }
                (*dev->comin)(buf, NULL);
                sprintf(buf, "value (%.5g %.5g %.5g) (%.1fL)",
                                colval(thisray.rcol,RED),
                                colval(thisray.rcol,GRN),
                                colval(thisray.rcol,BLU),
                                luminance(thisray.rcol));
                (*dev->comout)(buf);
        }
        (*dev->comin)(buf, NULL);
}


writepict(s)                            /* write the picture to a file */
char  *s;
{
        static char  buf[128];
        char  *fname;
        FILE  *fp;
        COLR  *scanline;
        int  y;

        while (isspace(*s))
                s++;
        if (*s)
                atos(buf, sizeof(buf), s);
        else if (buf[0] == '\0') {
                error(COMMAND, "no file");
                return;
        }
        if ((fname = getpath(buf, NULL, 0)) == NULL ||
                        (fp = fopen(fname, "w")) == NULL) {
                sprintf(errmsg, "cannot open \"%s\"", buf);
                error(COMMAND, errmsg);
                return;
        }
#ifdef MSDOS
        setmode(fileno(fp), O_BINARY);
#endif
        (*dev->comout)("writing \"");
        (*dev->comout)(fname);
        (*dev->comout)("\"...\n");
                                                /* write header */
        newheader("RADIANCE", fp);
        fputs(progname, fp);
        fprintview(&ourview, fp);
        if (octname != NULL)
                fprintf(fp, " %s\n", octname);
        else
                putc('\n', fp);
        fprintf(fp, "SOFTWARE= %s\n", VersionID);
        if (exposure != 1.0)
                fputexpos(exposure, fp);
        if (dev->pixaspect != 1.0)
                fputaspect(dev->pixaspect, fp);
        fputformat(COLRFMT, fp);
        putc('\n', fp);
        fprtresolu(hresolu, vresolu, fp);

        scanline = (COLR *)malloc(hresolu*sizeof(COLR));
        if (scanline == NULL) {
                error(COMMAND, "not enough memory!");
                fclose(fp);
                unlink(fname);
                return;
        }
        for (y = vresolu-1; y >= 0; y--) {
                getpictcolrs(y, scanline, &ptrunk, hresolu, vresolu);
                if (fwritecolrs(scanline, hresolu, fp) < 0)
                        break;
        }
        free((char *)scanline);
        if (fclose(fp) < 0)
                error(COMMAND, "write error");
}
Revision:	2.35
Committed:	Wed Apr 17 14:02:12 1996 UTC (28 years ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.34:	+3 -2 lines
Log Message:	changed albedo to 3-color parameter
#	Content
1	/* Copyright (c) 1995 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* rv2.c - command routines used in tracing a view.
9	*
10	* 3/24/87
11	*/
12
13	#include "ray.h"
14
15	#include "octree.h"
16
17	#include "otypes.h"
18
19	#include "rpaint.h"
20
21	#include "resolu.h"
22
23	#include <ctype.h>
24
25	#define CTRL(c) ((c)-'@')
26
27	#ifdef SMLFLT
28	#define sscanvec(s,v) (sscanf(s,"%f %f %f",v,v+1,v+2)==3)
29	#else
30	#define sscanvec(s,v) (sscanf(s,"%lf %lf %lf",v,v+1,v+2)==3)
31	#endif
32
33	extern char *atos();
34
35	extern FILE *popen();
36
37	extern char rifname[128]; /* rad input file name */
38
39	extern char VersionID[];
40	extern char *progname;
41	extern char *octname;
42
43
44	getframe(s) /* get a new frame */
45	char *s;
46	{
47	if (getrect(s, &pframe) < 0)
48	return;
49	pdepth = 0;
50	}
51
52
53	getrepaint(s) /* get area and repaint */
54	char *s;
55	{
56	RECT box;
57
58	if (getrect(s, &box) < 0)
59	return;
60	paintrect(&ptrunk, 0, 0, hresolu, vresolu, &box);
61	}
62
63
64	getview(s) /* get/show view parameters */
65	char *s;
66	{
67	FILE *fp;
68	char buf[128];
69	char *fname;
70	int change = 0;
71	VIEW nv;
72
73	while (isspace(*s))
74	s++;
75	if (s == '-') { / command line parameters */
76	copystruct(&nv, &ourview);
77	if (sscanview(&nv, s))
78	newview(&nv);
79	else
80	error(COMMAND, "bad view option(s)");
81	return;
82	}
83	if (sscanf(s, "%s", buf) == 1) { /* write parameters to a file */
84	if ((fname = getpath(buf, NULL, 0)) == NULL \|\|
85	(fp = fopen(fname, "a")) == NULL) {
86	sprintf(errmsg, "cannot open \"%s\"", buf);
87	error(COMMAND, errmsg);
88	return;
89	}
90	fputs(progname, fp);
91	fprintview(&ourview, fp);
92	fputs(sskip(s), fp);
93	putc('\n', fp);
94	fclose(fp);
95	return;
96	}
97	sprintf(buf, "view type (%c): ", ourview.type);
98	(*dev->comout)(buf);
99	(*dev->comin)(buf, NULL);
100	if (buf[0] == CTRL('C')) return;
101	if (buf[0] && buf[0] != ourview.type) {
102	nv.type = buf[0];
103	change++;
104	} else
105	nv.type = ourview.type;
106	sprintf(buf, "view point (%.6g %.6g %.6g): ",
107	ourview.vp[0], ourview.vp[1], ourview.vp[2]);
108	(*dev->comout)(buf);
109	(*dev->comin)(buf, NULL);
110	if (buf[0] == CTRL('C')) return;
111	if (sscanvec(buf, nv.vp))
112	change++;
113	else
114	VCOPY(nv.vp, ourview.vp);
115	sprintf(buf, "view direction (%.6g %.6g %.6g): ",
116	ourview.vdir[0], ourview.vdir[1], ourview.vdir[2]);
117	(*dev->comout)(buf);
118	(*dev->comin)(buf, NULL);
119	if (buf[0] == CTRL('C')) return;
120	if (sscanvec(buf, nv.vdir))
121	change++;
122	else
123	VCOPY(nv.vdir, ourview.vdir);
124	sprintf(buf, "view up (%.6g %.6g %.6g): ",
125	ourview.vup[0], ourview.vup[1], ourview.vup[2]);
126	(*dev->comout)(buf);
127	(*dev->comin)(buf, NULL);
128	if (buf[0] == CTRL('C')) return;
129	if (sscanvec(buf, nv.vup))
130	change++;
131	else
132	VCOPY(nv.vup, ourview.vup);
133	sprintf(buf, "view horiz and vert size (%.6g %.6g): ",
134	ourview.horiz, ourview.vert);
135	(*dev->comout)(buf);
136	(*dev->comin)(buf, NULL);
137	if (buf[0] == CTRL('C')) return;
138	if (sscanf(buf, "%lf %lf", &nv.horiz, &nv.vert) == 2)
139	change++;
140	else {
141	nv.horiz = ourview.horiz; nv.vert = ourview.vert;
142	}
143	sprintf(buf, "fore and aft clipping plane (%.6g %.6g): ",
144	ourview.vfore, ourview.vaft);
145	(*dev->comout)(buf);
146	(*dev->comin)(buf, NULL);
147	if (buf[0] == CTRL('C')) return;
148	if (sscanf(buf, "%lf %lf", &nv.vfore, &nv.vaft) == 2)
149	change++;
150	else {
151	nv.vfore = ourview.vfore; nv.vaft = ourview.vaft;
152	}
153	sprintf(buf, "view shift and lift (%.6g %.6g): ",
154	ourview.hoff, ourview.voff);
155	(*dev->comout)(buf);
156	(*dev->comin)(buf, NULL);
157	if (buf[0] == CTRL('C')) return;
158	if (sscanf(buf, "%lf %lf", &nv.hoff, &nv.voff) == 2)
159	change++;
160	else {
161	nv.hoff = ourview.hoff; nv.voff = ourview.voff;
162	}
163	if (change)
164	newview(&nv);
165	}
166
167
168	lastview(s) /* return to a previous view */
169	char *s;
170	{
171	char buf[128];
172	char *fname;
173	int success;
174	VIEW nv;
175
176	if (sscanf(s, "%s", buf) == 1) { /* get parameters from a file */
177	copystruct(&nv, &stdview);
178	if ((fname = getpath(buf, "", R_OK)) == NULL \|\|
179	(success = viewfile(fname, &nv, NULL)) == -1) {
180	sprintf(errmsg, "cannot open \"%s\"", buf);
181	error(COMMAND, errmsg);
182	return;
183	}
184	if (!success)
185	error(COMMAND, "wrong file format");
186	else
187	newview(&nv);
188	return;
189	}
190	if (oldview.type == 0) { /* no old view! */
191	error(COMMAND, "no previous view");
192	return;
193	}
194	copystruct(&nv, &ourview);
195	copystruct(&ourview, &oldview);
196	copystruct(&oldview, &nv);
197	newimage();
198	}
199
200
201	saveview(s) /* save view to rad file */
202	char *s;
203	{
204	char view[64];
205	char *fname;
206	FILE *fp;
207
208	if (*atos(view, sizeof(view), s)) {
209	if (isint(view)) {
210	error(COMMAND, "cannot write view by number");
211	return;
212	}
213	s = sskip(s);
214	}
215	while (isspace(*s))
216	s++;
217	if (*s)
218	atos(rifname, sizeof(rifname), s);
219	else if (rifname[0] == '\0') {
220	error(COMMAND, "no previous rad file");
221	return;
222	}
223	if ((fname = getpath(rifname, NULL, 0)) == NULL \|\|
224	(fp = fopen(fname, "a")) == NULL) {
225	sprintf(errmsg, "cannot open \"%s\"", rifname);
226	error(COMMAND, errmsg);
227	return;
228	}
229	fputs("view= ", fp);
230	fputs(view, fp);
231	fprintview(&ourview, fp);
232	putc('\n', fp);
233	fclose(fp);
234	}
235
236
237	loadview(s) /* load view from rad file */
238	char *s;
239	{
240	char buf[512];
241	char *fname;
242	FILE *fp;
243	VIEW nv;
244
245	strcpy(buf, "rad -n -s -V -v ");
246	if (sscanf(s, "%s", buf+strlen(buf)) == 1)
247	s = sskip(s);
248	else
249	strcat(buf, "1");
250	if (*s)
251	atos(rifname, sizeof(rifname), s);
252	else if (rifname[0] == '\0') {
253	error(COMMAND, "no previous rad file");
254	return;
255	}
256	if ((fname = getpath(rifname, "", R_OK)) == NULL) {
257	sprintf(errmsg, "cannot access \"%s\"", rifname);
258	error(COMMAND, errmsg);
259	return;
260	}
261	sprintf(buf+strlen(buf), " %s", fname);
262	if ((fp = popen(buf, "r")) == NULL) {
263	error(COMMAND, "cannot run rad");
264	return;
265	}
266	buf[0] = '\0';
267	fgets(buf, sizeof(buf), fp);
268	pclose(fp);
269	copystruct(&nv, &stdview);
270	if (!sscanview(&nv, buf)) {
271	error(COMMAND, "rad error -- no such view?");
272	return;
273	}
274	newview(&nv);
275	}
276
277
278	getaim(s) /* aim camera */
279	char *s;
280	{
281	double zfact;
282	VIEW nv;
283
284	if (getinterest(s, 1, nv.vdir, &zfact) < 0)
285	return;
286	nv.type = ourview.type;
287	VCOPY(nv.vp, ourview.vp);
288	VCOPY(nv.vup, ourview.vup);
289	nv.horiz = ourview.horiz; nv.vert = ourview.vert;
290	nv.vfore = ourview.vfore; nv.vaft = ourview.vaft;
291	nv.hoff = ourview.hoff; nv.voff = ourview.voff;
292	zoomview(&nv, zfact);
293	newview(&nv);
294	}
295
296
297	getmove(s) /* move camera */
298	char *s;
299	{
300	FVECT vc;
301	double mag;
302
303	if (getinterest(s, 0, vc, &mag) < 0)
304	return;
305	moveview(0.0, 0.0, mag, vc);
306	}
307
308
309	getrotate(s) /* rotate camera */
310	char *s;
311	{
312	VIEW nv;
313	FVECT v1;
314	double angle, elev, zfact;
315
316	elev = 0.0; zfact = 1.0;
317	if (sscanf(s, "%lf %lf %lf", &angle, &elev, &zfact) < 1) {
318	error(COMMAND, "missing angle");
319	return;
320	}
321	nv.type = ourview.type;
322	VCOPY(nv.vp, ourview.vp);
323	VCOPY(nv.vup, ourview.vup);
324	nv.hoff = ourview.hoff; nv.voff = ourview.voff;
325	nv.vfore = ourview.vfore; nv.vaft = ourview.vaft;
326	spinvector(nv.vdir, ourview.vdir, ourview.vup, angle*(PI/180.));
327	if (elev != 0.0) {
328	fcross(v1, nv.vdir, ourview.vup);
329	normalize(v1);
330	spinvector(nv.vdir, nv.vdir, v1, elev*(PI/180.));
331	}
332	nv.horiz = ourview.horiz; nv.vert = ourview.vert;
333	zoomview(&nv, zfact);
334	newview(&nv);
335	}
336
337
338	getpivot(s) /* pivot viewpoint */
339	register char *s;
340	{
341	FVECT vc;
342	double angle, elev, mag;
343
344	elev = 0.0;
345	if (sscanf(s, "%lf %lf", &angle, &elev) < 1) {
346	error(COMMAND, "missing angle");
347	return;
348	}
349	if (getinterest(sskip2(s,2), 0, vc, &mag) < 0)
350	return;
351	moveview(angle, elev, mag, vc);
352	}
353
354
355	getexposure(s) /* get new exposure */
356	char *s;
357	{
358	char buf[128];
359	register char *cp;
360	RECT r;
361	int x, y;
362	register PNODE *p = &ptrunk;
363	int adapt = 0;
364	double e = 1.0;
365
366	for (cp = s; isspace(*cp); cp++)
367	;
368	if (*cp == '@') {
369	adapt++;
370	while (isspace(*++cp))
371	;
372	}
373	if (cp == '\0') { / normalize to point */
374	if (dev->getcur == NULL)
375	return;
376	(*dev->comout)("Pick point for exposure\n");
377	if ((*dev->getcur)(&x, &y) == ABORT)
378	return;
379	r.l = r.d = 0;
380	r.r = hresolu; r.u = vresolu;
381	p = findrect(x, y, &ptrunk, &r, -1);
382	} else {
383	if (cp == '=') { / absolute setting */
384	p = NULL;
385	e = 1.0/exposure;
386	for (cp++; isspace(*cp); cp++)
387	;
388	if (cp == '\0') { / interactive */
389	sprintf(buf, "exposure (%f): ", exposure);
390	(*dev->comout)(buf);
391	(*dev->comin)(buf, NULL);
392	for (cp = buf; isspace(*cp); cp++)
393	;
394	if (*cp == '\0')
395	return;
396	}
397	}
398	if (cp == '+' \|\| cp == '-') /* f-stops */
399	e *= pow(2.0, atof(cp));
400	else /* multiplier */
401	e *= atof(cp);
402	}
403	if (p != NULL) { /* relative setting */
404	if (bright(p->v) < 1e-15) {
405	error(COMMAND, "cannot normalize to zero");
406	return;
407	}
408	if (adapt)
409	e *= 106./pow(1.219+pow(luminance(p->v)/exposure,.4),2.5)/exposure;
410	else
411	e *= 0.5 / bright(p->v);
412	}
413	if (e <= FTINY \|\| fabs(1.0 - e) <= FTINY)
414	return;
415	scalepict(&ptrunk, e);
416	exposure *= e;
417	redraw();
418	}
419
420
421	getparam(str, dsc, typ, ptr) /* get variable from user */
422	char str, dsc;
423	int typ;
424	register union {int i; double d; COLOR C;} *ptr;
425	{
426	extern char *index();
427	int i0;
428	double d0, d1, d2;
429	char buf[48];
430
431	switch (typ) {
432	case 'i': /* integer */
433	if (sscanf(str, "%d", &i0) != 1) {
434	(*dev->comout)(dsc);
435	sprintf(buf, " (%d): ", ptr->i);
436	(*dev->comout)(buf);
437	(*dev->comin)(buf, NULL);
438	if (sscanf(buf, "%d", &i0) != 1)
439	return(0);
440	}
441	ptr->i = i0;
442	return(1);
443	case 'r': /* real */
444	if (sscanf(str, "%lf", &d0) != 1) {
445	(*dev->comout)(dsc);
446	sprintf(buf, " (%.6g): ", ptr->d);
447	(*dev->comout)(buf);
448	(*dev->comin)(buf, NULL);
449	if (sscanf(buf, "%lf", &d0) != 1)
450	return(0);
451	}
452	ptr->d = d0;
453	return(1);
454	case 'b': /* boolean */
455	if (sscanf(str, "%1s", buf) != 1) {
456	(*dev->comout)(dsc);
457	sprintf(buf, "? (%c): ", ptr->i ? 'y' : 'n');
458	(*dev->comout)(buf);
459	(*dev->comin)(buf, NULL);
460	if (buf[0] == '\0' \|\|
461	index("yY+1tTnN-0fF", buf[0]) == NULL)
462	return(0);
463	}
464	ptr->i = index("yY+1tT", buf[0]) != NULL;
465	return(1);
466	case 'C': /* color */
467	if (sscanf(str, "%lf %lf %lf", &d0, &d1, &d2) != 3) {
468	(*dev->comout)(dsc);
469	sprintf(buf, " (%.6g %.6g %.6g): ",
470	colval(ptr->C,RED),
471	colval(ptr->C,GRN),
472	colval(ptr->C,BLU));
473	(*dev->comout)(buf);
474	(*dev->comin)(buf, NULL);
475	if (sscanf(buf, "%lf %lf %lf", &d0, &d1, &d2) != 3)
476	return(0);
477	}
478	setcolor(ptr->C, d0, d1, d2);
479	return(1);
480	}
481	}
482
483
484	setparam(s) /* get/set program parameter */
485	register char *s;
486	{
487	extern int psample;
488	extern double maxdiff;
489	extern double minweight;
490	extern int maxdepth;
491	extern double dstrsrc;
492	extern double shadthresh;
493	extern double shadcert;
494	extern COLOR ambval;
495	extern int ambvwt;
496	extern double ambacc;
497	extern int ambres;
498	extern int ambdiv;
499	extern int ambssamp;
500	extern int ambounce;
501	extern COLOR cextinction;
502	extern COLOR salbedo;
503	extern double seccg;
504	extern double ssampdist;
505	extern int directvis;
506	extern double srcsizerat;
507	extern int do_irrad;
508	extern double specjitter;
509	extern double specthresh;
510	extern int backvis;
511	char buf[128];
512
513	if (s[0] == '\0') {
514	(*dev->comout)(
515	"aa ab ad ar as av aw b dc dv dj ds dt i lr lw me ma mg ms ps pt sj st bv: ");
516	(*dev->comin)(buf, NULL);
517	s = buf;
518	}
519	switch (s[0]) {
520	case 'l': /* limit */
521	switch (s[1]) {
522	case 'w': /* weight */
523	getparam(s+2, "limit weight", 'r', &minweight);
524	break;
525	case 'r': /* reflection */
526	getparam(s+2, "limit reflection", 'i', &maxdepth);
527	break;
528	default:
529	goto badparam;
530	}
531	break;
532	case 'd': /* direct */
533	switch (s[1]) {
534	case 'j': /* jitter */
535	getparam(s+2, "direct jitter", 'r', &dstrsrc);
536	break;
537	case 'c': /* certainty */
538	getparam(s+2, "direct certainty", 'r', &shadcert);
539	break;
540	case 't': /* threshold */
541	getparam(s+2, "direct threshold", 'r', &shadthresh);
542	break;
543	case 'v': /* visibility */
544	getparam(s+2, "direct visibility",
545	'b', &directvis);
546	break;
547	case 's': /* sampling */
548	getparam(s+2, "direct sampling", 'r', &srcsizerat);
549	break;
550	default:
551	goto badparam;
552	}
553	break;
554	case 'b': /* back faces or black and white */
555	switch (s[1]) {
556	case 'v': /* back face visibility */
557	getparam(s+2, "back face visibility", 'b', &backvis);
558	break;
559	case '\0': /* black and white */
560	case ' ':
561	case 'y': case 'Y': case 't': case 'T': case '1': case '+':
562	case 'n': case 'N': case 'f': case 'F': case '0': case '-':
563	getparam(s+1, "black and white", 'b', &greyscale);
564	break;
565	default:
566	goto badparam;
567	}
568	break;
569	case 'i': /* irradiance */
570	getparam(s+1, "irradiance", 'b', &do_irrad);
571	break;
572	case 'a': /* ambient */
573	switch (s[1]) {
574	case 'v': /* value */
575	getparam(s+2, "ambient value", 'C', (COLOR *)ambval);
576	break;
577	case 'w': /* weight */
578	getparam(s+2, "ambient value weight", 'i', &ambvwt);
579	break;
580	case 'a': /* accuracy */
581	if (getparam(s+2, "ambient accuracy", 'r', &ambacc))
582	setambacc(ambacc);
583	break;
584	case 'd': /* divisions */
585	getparam(s+2, "ambient divisions", 'i', &ambdiv);
586	break;
587	case 's': /* samples */
588	getparam(s+2, "ambient super-samples", 'i', &ambssamp);
589	break;
590	case 'b': /* bounces */
591	getparam(s+2, "ambient bounces", 'i', &ambounce);
592	break;
593	case 'r':
594	if (getparam(s+2, "ambient resolution", 'i', &ambres))
595	setambres(ambres);
596	break;
597	default:
598	goto badparam;
599	}
600	break;
601	case 'm': /* medium */
602	switch (s[1]) {
603	case 'e': /* extinction coefficient */
604	getparam(s+2, "extinction coefficient", 'C',
605	(COLOR *)cextinction);
606	break;
607	case 'a': /* scattering albedo */
608	getparam(s+2, "scattering albedo", 'C',
609	(COLOR *)salbedo);
610	break;
611	case 'g': /* scattering eccentricity */
612	getparam(s+2, "scattering eccentricity", 'r', &seccg);
613	break;
614	case 's': /* sampling distance */
615	getparam(s+2, "mist sampling distance", 'r',
616	&ssampdist);
617	break;
618	default:
619	goto badparam;
620	}
621	break;
622	case 'p': /* pixel */
623	switch (s[1]) {
624	case 's': /* sample */
625	if (getparam(s+2, "pixel sample", 'i', &psample))
626	pdepth = 0;
627	break;
628	case 't': /* threshold */
629	if (getparam(s+2, "pixel threshold", 'r', &maxdiff))
630	pdepth = 0;
631	break;
632	default:
633	goto badparam;
634	}
635	break;
636	case 's': /* specular */
637	switch (s[1]) {
638	case 'j': /* jitter */
639	getparam(s+2, "specular jitter", 'r', &specjitter);
640	break;
641	case 't': /* threshold */
642	getparam(s+2, "specular threshold", 'r', &specthresh);
643	break;
644	default:
645	goto badparam;
646	}
647	break;
648	case '\0': /* nothing */
649	break;
650	default:;
651	badparam:
652	*sskip(s) = '\0';
653	sprintf(errmsg, "%s: unknown variable", s);
654	error(COMMAND, errmsg);
655	break;
656	}
657	}
658
659
660	traceray(s) /* trace a single ray */
661	char *s;
662	{
663	char buf[128];
664	int x, y;
665	RAY thisray;
666
667	thisray.rmax = 0.0;
668
669	if (!sscanvec(s, thisray.rorg) \|\|
670	!sscanvec(sskip2(s,3), thisray.rdir)) {
671
672	if (dev->getcur == NULL)
673	return;
674	(*dev->comout)("Pick ray\n");
675	if ((*dev->getcur)(&x, &y) == ABORT)
676	return;
677
678	if ((thisray.rmax = viewray(thisray.rorg, thisray.rdir,
679	&ourview, (x+.5)/hresolu, (y+.5)/vresolu)) < -FTINY) {
680	error(COMMAND, "not on image");
681	return;
682	}
683
684	} else if (normalize(thisray.rdir) == 0.0) {
685	error(COMMAND, "zero ray direction");
686	return;
687	}
688
689	rayorigin(&thisray, NULL, PRIMARY, 1.0);
690
691	rayvalue(&thisray);
692
693	if (thisray.ro == NULL)
694	(*dev->comout)("ray hit nothing");
695	else {
696	sprintf(buf, "ray hit %s%s %s \"%s\"",
697	thisray.rod < 0.0 ? "back of " : "",
698	thisray.ro->omod == OVOID ? VOIDID :
699	objptr(thisray.ro->omod)->oname,
700	ofun[thisray.ro->otype].funame,
701	thisray.ro->oname);
702	(*dev->comout)(buf);
703	(*dev->comin)(buf, NULL);
704	if (thisray.rot >= FHUGE)
705	(*dev->comout)("at infinity");
706	else {
707	sprintf(buf, "at (%.6g %.6g %.6g) (%.6g)",
708	thisray.rop[0], thisray.rop[1],
709	thisray.rop[2], thisray.rt);
710	(*dev->comout)(buf);
711	}
712	(*dev->comin)(buf, NULL);
713	sprintf(buf, "value (%.5g %.5g %.5g) (%.1fL)",
714	colval(thisray.rcol,RED),
715	colval(thisray.rcol,GRN),
716	colval(thisray.rcol,BLU),
717	luminance(thisray.rcol));
718	(*dev->comout)(buf);
719	}
720	(*dev->comin)(buf, NULL);
721	}
722
723
724	writepict(s) /* write the picture to a file */
725	char *s;
726	{
727	static char buf[128];
728	char *fname;
729	FILE *fp;
730	COLR *scanline;
731	int y;
732
733	while (isspace(*s))
734	s++;
735	if (*s)
736	atos(buf, sizeof(buf), s);
737	else if (buf[0] == '\0') {
738	error(COMMAND, "no file");
739	return;
740	}
741	if ((fname = getpath(buf, NULL, 0)) == NULL \|\|
742	(fp = fopen(fname, "w")) == NULL) {
743	sprintf(errmsg, "cannot open \"%s\"", buf);
744	error(COMMAND, errmsg);
745	return;
746	}
747	#ifdef MSDOS
748	setmode(fileno(fp), O_BINARY);
749	#endif
750	(*dev->comout)("writing \"");
751	(*dev->comout)(fname);
752	(*dev->comout)("\"...\n");
753	/* write header */
754	newheader("RADIANCE", fp);
755	fputs(progname, fp);
756	fprintview(&ourview, fp);
757	if (octname != NULL)
758	fprintf(fp, " %s\n", octname);
759	else
760	putc('\n', fp);
761	fprintf(fp, "SOFTWARE= %s\n", VersionID);
762	if (exposure != 1.0)
763	fputexpos(exposure, fp);
764	if (dev->pixaspect != 1.0)
765	fputaspect(dev->pixaspect, fp);
766	fputformat(COLRFMT, fp);
767	putc('\n', fp);
768	fprtresolu(hresolu, vresolu, fp);
769
770	scanline = (COLR )malloc(hresolusizeof(COLR));
771	if (scanline == NULL) {
772	error(COMMAND, "not enough memory!");
773	fclose(fp);
774	unlink(fname);
775	return;
776	}
777	for (y = vresolu-1; y >= 0; y--) {
778	getpictcolrs(y, scanline, &ptrunk, hresolu, vresolu);
779	if (fwritecolrs(scanline, hresolu, fp) < 0)
780	break;
781	}
782	free((char *)scanline);
783	if (fclose(fp) < 0)
784	error(COMMAND, "write error");
785	}