src/cv/ies2rad.c

/* Copyright (c) 1990 Regents of the University of California */

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

/*
 * Convert IES luminaire data to Radiance description
 *
 *      07Apr90         Greg Ward
 */

#include <stdio.h>
#include <ctype.h>
#include "color.h"

#define PI              3.14159265358979323846
                                        /* floating comparisons */
#define FTINY           1e-6
#define FEQ(a,b)        ((a)<=(b)+FTINY&&(a)>=(b)-FTINY)
                                        /* tilt specs */
#define TLTSTR          "TILT="
#define TLTSTRLEN       5
#define TLTNONE         "NONE"
#define TLTINCL         "INCLUDE"
#define TLT_VERT        1
#define TLT_H0          2
#define TLT_H90         3
                                        /* photometric types */
#define PM_C            1
#define PM_B            2
                                        /* unit types */
#define U_FEET          1
#define U_METERS        2
                                        /* string lengths */
#define MAXLINE         132
#define MAXWORD         76
#define MAXPATH         128
                                        /* file types */
#define T_RAD           ".rad"
#define T_DST           ".dat"
#define T_TLT           "+.dat"
                                        /* shape types */
#define RECT            1
#define DISK            2
#define SPHERE          3

#define MINDIM          .001            /* minimum dimension (point source) */

#define F_M             .3048           /* feet to meters */

#define abspath(p)      ((p)[0] == '/' || (p)[0] == '.')

static char     default_name[] = "default";

char    *libdir = NULL;                 /* library directory location */
char    *prefdir = NULL;                /* subdirectory */
char    *lampdat = "lamp.tab";          /* lamp data file */

double  meters2out = 1.0;               /* conversion from meters to output */
char    *lamptype = NULL;               /* selected lamp type */
char    *deflamp = NULL;                /* default lamp type */
float   defcolor[3] = {1.,1.,1.};       /* default lamp color */
float   *lampcolor = defcolor;          /* pointer to current lamp color */
double  multiplier = 1.0;               /* multiplier for all light sources */
char    units[64] = "meters";           /* output units */
double  minaspect = 0.0;                /* minimum allowed aspect ratio */
int     maxemitters = 1;                /* maximum emitters per hemisphere */
double  illumrad = 0.0;                 /* radius for illum sphere */

typedef struct {
        int     type;                           /* RECT, DISK, SPHERE */
        double  w, l, h;                        /* width, length, height */
        double  area;                           /* effective radiating area */
} SHAPE;                                /* a source shape */

int     gargc;                          /* global argc (minus filenames) */
char    **gargv;                        /* global argv */

extern char     *strcpy(), *strcat(), *stradd(), *tailtrunc(), *filetrunc(),
                *filename(), *libname(), *fullname(), *malloc();
extern double   atof();
extern float    *matchlamp();


main(argc, argv)
int     argc;
char    *argv[];
{
        char    *outfile = NULL;
        int     status;
        char    outname[MAXWORD];
        double  d1;
        int     i;
        
        for (i = 1; i < argc && argv[i][0] == '-'; i++)
                switch (argv[i][1]) {
                case 'd':               /* dimensions */
                        if (argv[i][2] == '\0')
                                goto badopt;
                        if (argv[i][3] == '\0')
                                d1 = 1.0;
                        else if (argv[i][3] == '/') {
                                d1 = atof(argv[i]+4);
                                if (d1 <= FTINY)
                                        goto badopt;
                        } else
                                goto badopt;
                        switch (argv[i][2]) {
                        case 'c':               /* centimeters */
                                if (FEQ(d1,10.))
                                        strcpy(units,"millimeters");
                                else {
                                        strcpy(units,"centimeters");
                                        strcat(units,argv[i]+3);
                                }
                                meters2out = 100.*d1;
                                break;
                        case 'm':               /* meters */
                                if (FEQ(d1,1000.))
                                        strcpy(units,"millimeters");
                                else if (FEQ(d1,100.))
                                        strcpy(units,"centimeters");
                                else {
                                        strcpy(units,"meters");
                                        strcat(units,argv[i]+3);
                                }
                                meters2out = d1;
                                break;
                        case 'i':               /* inches */
                                strcpy(units,"inches");
                                strcat(units,argv[i]+3);
                                meters2out = d1*(12./F_M);
                                break;
                        case 'f':               /* feet */
                                if (FEQ(d1,12.))
                                        strcpy(units,"inches");
                                else {
                                        strcpy(units,"feet");
                                        strcat(units,argv[i]+3);
                                }
                                meters2out = d1/F_M;
                                break;
                        default:
                                goto badopt;
                        }
                        break;
                case 'l':               /* library directory */
                        libdir = argv[++i];
                        break;
                case 'p':               /* prefix subdirectory */
                        prefdir = argv[++i];
                        break;
                case 'f':               /* lamp data file */
                        lampdat = argv[++i];
                        break;
                case 'o':               /* output file name */
                        outfile = argv[++i];
                        break;
                case 's':               /* square emitters */
                        minaspect = .6;
                        if (argv[i][2] == '/') {
                                maxemitters = atoi(argv[i]+3);
                                if (maxemitters < 1)
                                        goto badopt;
                        }
                        break;
                case 'i':               /* illum */
                        illumrad = atof(argv[++i]);
                        if (illumrad < MINDIM)
                                illumrad = MINDIM;
                        break;
                case 't':               /* override lamp type */
                        lamptype = argv[++i];
                        break;
                case 'u':               /* default lamp type */
                        deflamp = argv[++i];
                        break;
                case 'c':               /* default lamp color */
                        defcolor[0] = atof(argv[++i]);
                        defcolor[1] = atof(argv[++i]);
                        defcolor[2] = atof(argv[++i]);
                        break;
                case 'm':               /* multiplier */
                        multiplier = atof(argv[++i]);
                        break;
                default:
                badopt:
                        fprintf(stderr, "%s: bad option: %s\n",
                                        argv[0], argv[i]);
                        exit(1);
                }
        gargc = i;
        gargv = argv;
        initlamps();                    /* get lamp data (if needed) */
                                        /* convert ies file(s) */
        if (outfile != NULL) {
                if (i == argc)
                        exit(ies2rad(NULL, outfile) == 0 ? 0 : 1);
                else if (i == argc-1)
                        exit(ies2rad(argv[i], outfile) == 0 ? 0 : 1);
                else {
                        fprintf(stderr, "%s: single input file required\n",
                                        argv[0]);
                        exit(1);
                }
        } else if (i >= argc) {
                fprintf(stderr, "%s: missing output file specification\n",
                                argv[0]);
                exit(1);
        }
        status = 0;
        for ( ; i < argc; i++) {
                tailtrunc(strcpy(outname,filename(argv[i])));
                if (ies2rad(argv[i], outname) != 0)
                        status = 1;
        }
        exit(status);
}


initlamps()                             /* set up lamps */
{
        float   *lcol;
        int     status;

        if (lamptype != NULL && !strcmp(lamptype, default_name) &&
                        deflamp == NULL)
                return;                         /* no need for data */
                                                /* else load file */
        if ((status = loadlamps(lampdat)) < 0)
                exit(1);
        if (status == 0) {
                fprintf(stderr, "%s: warning - no lamp data\n", lampdat);
                lamptype = default_name;
                return;
        }
        if (deflamp != NULL) {                  /* match default type */
                if ((lcol = matchlamp(deflamp)) == NULL)
                        fprintf(stderr,
                                "%s: warning - unknown default lamp type\n",
                                        deflamp);
                else
                        copycolor(defcolor, lcol);
        }
        if (lamptype != NULL) {                 /* match selected type */
                if (strcmp(lamptype, default_name)) {
                        if ((lcol = matchlamp(lamptype)) == NULL) {
                                fprintf(stderr,
                                        "%s: warning - unknown lamp type\n",
                                                lamptype);
                                lamptype = default_name;
                        } else
                                copycolor(defcolor, lcol);
                }
                freelamps();                    /* all done with data */
        }
                                                /* else keep lamp data */
}


char *
stradd(dst, src, sep)                   /* add a string at dst */
register char   *dst, *src;
int     sep;
{
        if (src && *src) {
                do
                        *dst++ = *src++;
                while (*src);
                if (sep && dst[-1] != sep)
                        *dst++ = sep;
        }
        *dst = '\0';
        return(dst);
}


char *
fullname(path, fname, suffix)           /* return full path name */
char    *path, *fname, *suffix;
{
        if (prefdir != NULL && abspath(prefdir))
                libname(path, fname, suffix);
        else if (abspath(fname))
                strcpy(stradd(path, fname, 0), suffix);
        else
                libname(stradd(path, libdir, '/'), fname, suffix);

        return(path);
}


char *
libname(path, fname, suffix)            /* return library relative name */
char    *path, *fname, *suffix;
{
        if (abspath(fname))
                strcpy(stradd(path, fname, 0), suffix);
        else
                strcpy(stradd(stradd(path, prefdir, '/'), fname, 0), suffix);

        return(path);
}


char *
filename(path)                  /* get final component of pathname */
register char   *path;
{
        register char   *cp;

        for (cp = path; *path; path++)
                if (*path == '/')
                        cp = path+1;
        return(cp);
}


char *
filetrunc(path)                         /* truncate filename at end of path */
char    *path;
{
        register char   *p1, *p2;

        for (p1 = p2 = path; *p2; p2++)
                if (*p2 == '/')
                        p1 = p2;
        *p1 = '\0';
        return(path);
}


char *
tailtrunc(name)                         /* truncate tail of filename */
char    *name;
{
        register char   *p1, *p2;

        for (p1 = filename(name); *p1 == '.'; p1++)
                ;
        p2 = NULL;
        for ( ; *p1; p1++)
                if (*p1 == '.')
                        p2 = p1;
        if (p2 != NULL)
                *p2 = '\0';
        return(name);
}


blanktrunc(s)                           /* truncate spaces at end of line */
char    *s;
{
        register char   *cp;

        for (cp = s; *cp; cp++)
                ;
        while (cp-- > s && isspace(*cp))
                ;
        *++cp = '\0';
}


putheader(out)                          /* print header */
FILE    *out;
{
        register int    i;
        
        putc('#', out);
        for (i = 0; i < gargc; i++) {
                putc(' ', out);
                fputs(gargv[i], out);
        }
        fputs("\n# Dimensions in ", out);
        fputs(units, out);
        putc('\n', out);
}


ies2rad(inpname, outname)               /* convert IES file */
char    *inpname, *outname;
{
        char    buf[MAXLINE], tltid[MAXWORD];
        FILE    *inpfp, *outfp;

        if (inpname == NULL) {
                inpname = "<stdin>";
                inpfp = stdin;
        } else if ((inpfp = fopen(inpname, "r")) == NULL) {
                perror(inpname);
                return(-1);
        }
        if ((outfp = fopen(fullname(buf,outname,T_RAD), "w")) == NULL) {
                perror(buf);
                fclose(inpfp);
                return(-1);
        }
        putheader(outfp);
        if (lamptype == NULL)
                lampcolor = NULL;
        while (fgets(buf,sizeof(buf),inpfp) != NULL
                        && strncmp(buf,TLTSTR,TLTSTRLEN)) {
                blanktrunc(buf);
                if (!buf[0])
                        continue;
                fputs("#<", outfp);
                fputs(buf, outfp);
                putc('\n', outfp);
                if (lampcolor == NULL)
                        lampcolor = matchlamp(buf);
        }
        if (lampcolor == NULL) {
                fprintf(stderr, "%s: warning - no lamp type\n", inpname);
                lampcolor = defcolor;
        }
        if (feof(inpfp)) {
                fprintf(stderr, "%s: not in IES format\n", inpname);
                goto readerr;
        }
        sscanf(buf+TLTSTRLEN, "%s", tltid);
        if (inpfp == stdin)
                buf[0] = '\0';
        else
                filetrunc(strcpy(buf, inpname));
        if (dotilt(inpfp, outfp, buf, tltid, outname, tltid) != 0) {
                fprintf(stderr, "%s: bad tilt data\n", inpname);
                goto readerr;
        }
        if (dosource(inpfp, outfp, tltid, outname) != 0) {
                fprintf(stderr, "%s: bad luminaire data\n", inpname);
                goto readerr;
        }
        fclose(outfp);
        fclose(inpfp);
        return(0);
readerr:
        fclose(outfp);
        fclose(inpfp);
        unlink(fullname(buf,outname,T_RAD));
        return(-1);
}


dotilt(in, out, dir, tltspec, dfltname, tltid)  /* convert tilt data */
FILE    *in, *out;
char    *dir, *tltspec, *dfltname, *tltid;
{
        int     nangles, tlt_type;
        double  minmax[2];
        char    buf[MAXPATH], tltname[MAXWORD];
        FILE    *datin, *datout;

        if (!strcmp(tltspec, TLTNONE)) {
                datin = NULL;
                strcpy(tltid, "void");
        } else if (!strcmp(tltspec, TLTINCL)) {
                datin = in;
                strcpy(tltname, dfltname);
        } else {
                if (tltspec[0] == '/')
                        strcpy(buf, tltspec);
                else
                        strcpy(stradd(buf, dir, '/'), tltspec);
                if ((datin = fopen(buf, "r")) == NULL) {
                        perror(buf);
                        return(-1);
                }
                tailtrunc(strcpy(tltname,filename(tltspec)));
        }
        if (datin != NULL) {
                if ((datout = fopen(fullname(buf,tltname,T_TLT),"w")) == NULL) {
                        perror(buf);
                        if (datin != in)
                                fclose(datin);
                        return(-1);
                }
                if (fscanf(datin, "%d %d", &tlt_type, &nangles) != 2
                        || cvdata(datin,datout,1,&nangles,1.,minmax) != 0) {
                        fprintf(stderr, "%s: data format error\n", tltspec);
                        fclose(datout);
                        if (datin != in)
                                fclose(datin);
                        unlink(fullname(buf,tltname,T_TLT));
                        return(-1);
                }
                fclose(datout);
                if (datin != in)
                        fclose(datin);
                strcat(strcpy(tltid, filename(tltname)), "_tilt");
                fprintf(out, "\nvoid brightdata %s\n", tltid);
                libname(buf,tltname,T_TLT);
                switch (tlt_type) {
                case TLT_VERT:                  /* vertical */
                        fprintf(out, "4 noop %s tilt.cal %s\n", buf,
                                minmax[1]>90.+FTINY ? "tilt_ang" : "tilt_ang2");
                        break;
                case TLT_H0:                    /* horiz. in 0 deg. plane */
                        fprintf(out, "6 noop %s tilt.cal %s -rz 90\n", buf,
                        minmax[1]>90.+FTINY ? "tilt_xang" : "tilt_xang2");
                        break;
                case TLT_H90:
                        fprintf(out, "4 noop %s tilt.cal %s\n", buf,
                        minmax[1]>90.+FTINY ? "tilt_xang" : "tilt_xang2");
                        break;
                default:
                        fprintf(stderr,
                                "%s: illegal lamp to luminaire geometry (%d)\n",
                                tltspec, tlt_type);
                        return(-1);
                }
                fprintf(out, "0\n0\n");
        }
        return(0);
}


dosource(in, out, mod, name)            /* create source and distribution */
FILE    *in, *out;
char    *mod, *name;
{
        SHAPE   srcshape;
        char    buf[MAXPATH], id[MAXWORD];
        FILE    *datout;
        double  mult, bfactor, pfactor, width, length, height, wattage;
        double  bounds[2][2];
        int     nangles[2], pmtype, unitype;
        double  d1;

        if (fscanf(in, "%*d %*f %lf %d %d %d %d %lf %lf %lf %lf %lf %lf",
                        &mult, &nangles[0], &nangles[1], &pmtype, &unitype,
                        &width, &length, &height, &bfactor, &pfactor,
                        &wattage) != 11) {
                fprintf(stderr, "dosource: bad lamp specification\n");
                return(-1);
        }
        if (nangles[0] < 2 || nangles[1] < 1) {
                fprintf(stderr, "dosource: too few measured angles\n");
                return(-1);
        }
        if (unitype == U_FEET) {
                width *= F_M;
                length *= F_M;
                height *= F_M;
        }
        if (makeshape(&srcshape, width, length, height) != 0) {
                fprintf(stderr, "dosource: illegal source dimensions");
                return(-1);
        }
        if ((datout = fopen(fullname(buf,name,T_DST), "w")) == NULL) {
                perror(buf);
                return(-1);
        }
        if (cvdata(in, datout, 2, nangles, 1./683., bounds) != 0) {
                fprintf(stderr, "dosource: bad distribution data\n");
                fclose(datout);
                unlink(fullname(buf,name,T_DST));
                return(-1);
        }
        fclose(datout);
        fprintf(out, "# %g watt luminaire, lamp*ballast factor = %g\n",
                        wattage, bfactor*pfactor);
        strcat(strcpy(id, filename(name)), "_dist");
        fprintf(out, "\n%s brightdata %s\n", mod, id);
        if (nangles[1] < 2)
                fprintf(out, "4 ");
        else if (pmtype == PM_B)
                fprintf(out, "5 ");
        else if (FEQ(bounds[1][0],90.) && FEQ(bounds[1][1],270.))
                fprintf(out, "8 ");
        else
                fprintf(out, "6 ");
        fprintf(out, "%s %s source.cal ",
                        srcshape.type==SPHERE ? "corr" : "flatcorr",
                        libname(buf,name,T_DST));
        if (pmtype == PM_B) {
                if (FEQ(bounds[1][0],0.))
                        fprintf(out, "srcB_horiz2 ");
                else
                        fprintf(out, "srcB_horiz ");
                fprintf(out, "srcB_vert ");
        } else {
                if (nangles[1] >= 2) {
                        d1 = bounds[1][1] - bounds[1][0];
                        if (d1 <= 90.+FTINY)
                                fprintf(out, "src_phi4 ");
                        else if (d1 <= 180.+FTINY)
                                fprintf(out, "src_phi2 ");
                        else
                                fprintf(out, "src_phi ");
                        fprintf(out, "src_theta -my ");
                        if (FEQ(bounds[1][0],90.) && FEQ(bounds[1][1],270.))
                                fprintf(out, "-rz -90 ");
                } else
                        fprintf(out, "src_theta ");
        }
        fprintf(out, "\n0\n1 %g\n", multiplier*mult*bfactor*pfactor);
        if (putsource(&srcshape, out, id, filename(name),
                        bounds[0][0]<90., bounds[0][1]>90.) != 0)
                return(-1);
        return(0);
}


putsource(shp, fp, mod, name, dolower, doupper)         /* put out source */
SHAPE   *shp;
FILE    *fp;
char    *mod, *name;
int     dolower, doupper;
{
        char    buf[MAXWORD];
        
        fprintf(fp, "\n%s %s %s_light\n", mod,
                        illumrad>=MINDIM/2. ? "illum" : "light",
                        name);
        fprintf(fp, "0\n0\n3 %g %g %g\n",
                        lampcolor[0]/shp->area,
                        lampcolor[1]/shp->area,
                        lampcolor[2]/shp->area);
        if (doupper && dolower && shp->type != SPHERE && shp->h > MINDIM) {
                fprintf(fp, "\n%s glow %s_glow\n", mod, name);
                fprintf(fp, "0\n0\n4 %g %g %g 0\n",
                                lampcolor[0]/shp->area,
                                lampcolor[1]/shp->area,
                                lampcolor[2]/shp->area);
        }
        switch (shp->type) {
        case RECT:
                strcat(strcpy(buf, name), "_light");
                if (dolower)
                        putrectsrc(shp, fp, buf, name, 0);
                if (doupper)
                        putrectsrc(shp, fp, buf, name, 1);
                if (doupper && dolower && shp->h > MINDIM) {
                        strcat(strcpy(buf, name), "_glow");
                        putsides(shp, fp, buf, name);
                }
                break;
        case DISK:
                strcat(strcpy(buf, name), "_light");
                if (dolower)
                        putdisksrc(shp, fp, buf, name, 0);
                if (doupper)
                        putdisksrc(shp, fp, buf, name, 1);
                if (doupper && dolower && shp->h > MINDIM) {
                        strcat(strcpy(buf, name), "_glow");
                        putcyl(shp, fp, buf, name);
                }
                break;
        case SPHERE:
                strcat(strcpy(buf, name), "_light");
                putspheresrc(shp, fp, buf, name);
                break;
        }
        return(0);
}


makeshape(shp, width, length, height)           /* make source shape */
register SHAPE  *shp;
double  width, length, height;
{
        if (illumrad >= MINDIM/2.) {
                shp->type = SPHERE;
                shp->w = shp->l = shp->h = 2.*illumrad;
        } else if (width < MINDIM) {
                width = -width;
                if (width < MINDIM) {
                        shp->type = SPHERE;
                        shp->w = shp->l = shp->h = MINDIM;
                } else if (height < .5*width) {
                        shp->type = DISK;
                        shp->w = shp->l = width;
                        if (height >= MINDIM)
                                shp->h = height;
                        else
                                shp->h = .5*MINDIM;
                } else {
                        shp->type = SPHERE;
                        shp->w = shp->l = shp->h = width;
                }
        } else {
                shp->type = RECT;
                shp->w = width;
                if (length >= MINDIM)
                        shp->l = length;
                else
                        shp->l = MINDIM;
                if (height >= MINDIM)
                        shp->h = height;
                else
                        shp->h = .5*MINDIM;
        }
        switch (shp->type) {
        case RECT:
                shp->area = shp->w * shp->l;
                break;
        case DISK:
                shp->area = PI/4. * shp->w * shp->w;
                break;
        case SPHERE:
                shp->area = PI * shp->w * shp->w;
                break;
        }
        return(0);
}


putrectsrc(shp, fp, mod, name, up)              /* rectangular source */
SHAPE   *shp;
FILE    *fp;
char    *mod, *name;
int     up;
{
        if (up)
                putrect(shp, fp, mod, name, ".u", 4, 5, 7, 6);
        else
                putrect(shp, fp, mod, name, ".d", 0, 2, 3, 1);
}


putsides(shp, fp, mod, name)                    /* put out sides of box */
register SHAPE  *shp;
FILE    *fp;
char    *mod, *name;
{
        putrect(shp, fp, mod, name, ".1", 0, 1, 5, 4);
        putrect(shp, fp, mod, name, ".2", 1, 3, 7, 5);
        putrect(shp, fp, mod, name, ".3", 3, 2, 6, 7);
        putrect(shp, fp, mod, name, ".4", 2, 0, 4, 6);
}
        

putrect(shp, fp, mod, name, suffix, a, b, c, d) /* put out a rectangle */
SHAPE   *shp;
FILE    *fp;
char    *mod, *name, *suffix;
int     a, b, c, d;
{
        fprintf(fp, "\n%s polygon %s%s\n0\n0\n12\n", mod, name, suffix);
        putpoint(shp, fp, a);
        putpoint(shp, fp, b);
        putpoint(shp, fp, c);
        putpoint(shp, fp, d);
}


putpoint(shp, fp, p)                            /* put out a point */
register SHAPE  *shp;
FILE    *fp;
int     p;
{
        static double   mult[2] = {-.5, .5};

        fprintf(fp, "\t%g\t%g\t%g\n",
                        mult[p&1]*shp->l*meters2out,
                        mult[p>>1&1]*shp->w*meters2out,
                        mult[p>>2]*shp->h*meters2out);
}


putdisksrc(shp, fp, mod, name, up)              /* put out a disk source */
register SHAPE  *shp;
FILE    *fp;
char    *mod, *name;
int     up;
{
        if (up) {
                fprintf(fp, "\n%s ring %s.u\n", mod, name);
                fprintf(fp, "0\n0\n8\n");
                fprintf(fp, "\t0 0 %g\n", .5*shp->h*meters2out);
                fprintf(fp, "\t0 0 1\n");
                fprintf(fp, "\t0 %g\n", .5*shp->w*meters2out);
        } else {
                fprintf(fp, "\n%s ring %s.d\n", mod, name);
                fprintf(fp, "0\n0\n8\n");
                fprintf(fp, "\t0 0 %g\n", -.5*shp->h*meters2out);
                fprintf(fp, "\t0 0 -1\n");
                fprintf(fp, "\t0 %g\n", .5*shp->w*meters2out);
        }
}


putcyl(shp, fp, mod, name)                      /* put out a cylinder */
register SHAPE  *shp;
FILE    *fp;
char    *mod, *name;
{
        fprintf(fp, "\n%s cylinder %s.c\n", mod, name);
        fprintf(fp, "0\n0\n7\n");
        fprintf(fp, "\t0 0 %g\n", .5*shp->h*meters2out);
        fprintf(fp, "\t0 0 %g\n", -.5*shp->h*meters2out);
        fprintf(fp, "\t%g\n", .5*shp->w*meters2out);
}


putspheresrc(shp, fp, mod, name)                /* put out a sphere source */
SHAPE   *shp;
FILE    *fp;
char    *mod, *name;
{
        fprintf(fp, "\n%s sphere %s.s\n", mod, name);
        fprintf(fp, "0\n0\n4 0 0 0 %g\n", .5*shp->w*meters2out);
}


cvdata(in, out, ndim, npts, mult, lim)          /* convert data */
FILE    *in, *out;
int     ndim, npts[];
double  mult, lim[][2];
{
        register double *pt[4];
        register int    i, j;
        double  val;
        int     total;

        total = 1; j = 0;
        for (i = 0; i < ndim; i++)
                if (npts[i] > 1) {
                        total *= npts[i];
                        j++;
                }
        fprintf(out, "%d\n", j);
                                        /* get coordinates */
        for (i = 0; i < ndim; i++) {
                pt[i] = (double *)malloc(npts[i]*sizeof(double));
                for (j = 0; j < npts[i]; j++)
                        fscanf(in, "%lf", &pt[i][j]);
                if (lim != NULL) {
                        lim[i][0] = pt[i][0];
                        lim[i][1] = pt[i][npts[i]-1];
                }
        }
                                        /* write out in reverse */
        for (i = ndim-1; i >= 0; i--) {
                if (npts[i] > 1) {
                        for (j = 1; j < npts[i]-1; j++)
                                if (!FEQ(pt[i][j]-pt[i][j-1],
                                                pt[i][j+1]-pt[i][j]))
                                        break;
                        if (j == npts[i]-1)
                                fprintf(out, "%g %g %d\n", pt[i][0], pt[i][j],
                                                npts[i]);
                        else {
                                fprintf(out, "0 0 %d", npts[i]);
                                for (j = 0; j < npts[i]; j++) {
                                        if (j%4 == 0)
                                                putc('\n', out);
                                        fprintf(out, "\t%g", pt[i][j]);
                                }
                                putc('\n', out);
                        }
                }
                free((char *)pt[i]);
        }
        for (i = 0; i < total; i++) {
                if (i%4 == 0)
                        putc('\n', out);
                if (fscanf(in, "%lf", &val) != 1)
                        return(-1);
                fprintf(out, "\t%g", val*mult);
        }
        putc('\n', out);
        return(0);
}
Revision:	1.2
Committed:	Fri Dec 14 14:41:14 1990 UTC (34 years, 10 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 1.1:	+50 -10 lines
Log Message:	improved use of lamp data
#	Content
1	/* Copyright (c) 1990 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* Convert IES luminaire data to Radiance description
9	*
10	* 07Apr90 Greg Ward
11	*/
12
13	#include <stdio.h>
14	#include <ctype.h>
15	#include "color.h"
16
17	#define PI 3.14159265358979323846
18	/* floating comparisons */
19	#define FTINY 1e-6
20	#define FEQ(a,b) ((a)<=(b)+FTINY&&(a)>=(b)-FTINY)
21	/* tilt specs */
22	#define TLTSTR "TILT="
23	#define TLTSTRLEN 5
24	#define TLTNONE "NONE"
25	#define TLTINCL "INCLUDE"
26	#define TLT_VERT 1
27	#define TLT_H0 2
28	#define TLT_H90 3
29	/* photometric types */
30	#define PM_C 1
31	#define PM_B 2
32	/* unit types */
33	#define U_FEET 1
34	#define U_METERS 2
35	/* string lengths */
36	#define MAXLINE 132
37	#define MAXWORD 76
38	#define MAXPATH 128
39	/* file types */
40	#define T_RAD ".rad"
41	#define T_DST ".dat"
42	#define T_TLT "+.dat"
43	/* shape types */
44	#define RECT 1
45	#define DISK 2
46	#define SPHERE 3
47
48	#define MINDIM .001 /* minimum dimension (point source) */
49
50	#define F_M .3048 /* feet to meters */
51
52	#define abspath(p) ((p)[0] == '/' \|\| (p)[0] == '.')
53
54	static char default_name[] = "default";
55
56	char libdir = NULL; / library directory location */
57	char prefdir = NULL; / subdirectory */
58	char lampdat = "lamp.tab"; / lamp data file */
59
60	double meters2out = 1.0; /* conversion from meters to output */
61	char lamptype = NULL; / selected lamp type */
62	char deflamp = NULL; / default lamp type */
63	float defcolor[3] = {1.,1.,1.}; /* default lamp color */
64	float lampcolor = defcolor; / pointer to current lamp color */
65	double multiplier = 1.0; /* multiplier for all light sources */
66	char units[64] = "meters"; /* output units */
67	double minaspect = 0.0; /* minimum allowed aspect ratio */
68	int maxemitters = 1; /* maximum emitters per hemisphere */
69	double illumrad = 0.0; /* radius for illum sphere */
70
71	typedef struct {
72	int type; /* RECT, DISK, SPHERE */
73	double w, l, h; /* width, length, height */
74	double area; /* effective radiating area */
75	} SHAPE; /* a source shape */
76
77	int gargc; /* global argc (minus filenames) */
78	char *gargv; / global argv */
79
80	extern char strcpy(), strcat(), stradd(), tailtrunc(), *filetrunc(),
81	filename(), libname(), fullname(), malloc();
82	extern double atof();
83	extern float *matchlamp();
84
85
86	main(argc, argv)
87	int argc;
88	char *argv[];
89	{
90	char *outfile = NULL;
91	int status;
92	char outname[MAXWORD];
93	double d1;
94	int i;
95
96	for (i = 1; i < argc && argv[i][0] == '-'; i++)
97	switch (argv[i][1]) {
98	case 'd': /* dimensions */
99	if (argv[i][2] == '\0')
100	goto badopt;
101	if (argv[i][3] == '\0')
102	d1 = 1.0;
103	else if (argv[i][3] == '/') {
104	d1 = atof(argv[i]+4);
105	if (d1 <= FTINY)
106	goto badopt;
107	} else
108	goto badopt;
109	switch (argv[i][2]) {
110	case 'c': /* centimeters */
111	if (FEQ(d1,10.))
112	strcpy(units,"millimeters");
113	else {
114	strcpy(units,"centimeters");
115	strcat(units,argv[i]+3);
116	}
117	meters2out = 100.*d1;
118	break;
119	case 'm': /* meters */
120	if (FEQ(d1,1000.))
121	strcpy(units,"millimeters");
122	else if (FEQ(d1,100.))
123	strcpy(units,"centimeters");
124	else {
125	strcpy(units,"meters");
126	strcat(units,argv[i]+3);
127	}
128	meters2out = d1;
129	break;
130	case 'i': /* inches */
131	strcpy(units,"inches");
132	strcat(units,argv[i]+3);
133	meters2out = d1*(12./F_M);
134	break;
135	case 'f': /* feet */
136	if (FEQ(d1,12.))
137	strcpy(units,"inches");
138	else {
139	strcpy(units,"feet");
140	strcat(units,argv[i]+3);
141	}
142	meters2out = d1/F_M;
143	break;
144	default:
145	goto badopt;
146	}
147	break;
148	case 'l': /* library directory */
149	libdir = argv[++i];
150	break;
151	case 'p': /* prefix subdirectory */
152	prefdir = argv[++i];
153	break;
154	case 'f': /* lamp data file */
155	lampdat = argv[++i];
156	break;
157	case 'o': /* output file name */
158	outfile = argv[++i];
159	break;
160	case 's': /* square emitters */
161	minaspect = .6;
162	if (argv[i][2] == '/') {
163	maxemitters = atoi(argv[i]+3);
164	if (maxemitters < 1)
165	goto badopt;
166	}
167	break;
168	case 'i': /* illum */
169	illumrad = atof(argv[++i]);
170	if (illumrad < MINDIM)
171	illumrad = MINDIM;
172	break;
173	case 't': /* override lamp type */
174	lamptype = argv[++i];
175	break;
176	case 'u': /* default lamp type */
177	deflamp = argv[++i];
178	break;
179	case 'c': /* default lamp color */
180	defcolor[0] = atof(argv[++i]);
181	defcolor[1] = atof(argv[++i]);
182	defcolor[2] = atof(argv[++i]);
183	break;
184	case 'm': /* multiplier */
185	multiplier = atof(argv[++i]);
186	break;
187	default:
188	badopt:
189	fprintf(stderr, "%s: bad option: %s\n",
190	argv[0], argv[i]);
191	exit(1);
192	}
193	gargc = i;
194	gargv = argv;
195	initlamps(); /* get lamp data (if needed) */
196	/* convert ies file(s) */
197	if (outfile != NULL) {
198	if (i == argc)
199	exit(ies2rad(NULL, outfile) == 0 ? 0 : 1);
200	else if (i == argc-1)
201	exit(ies2rad(argv[i], outfile) == 0 ? 0 : 1);
202	else {
203	fprintf(stderr, "%s: single input file required\n",
204	argv[0]);
205	exit(1);
206	}
207	} else if (i >= argc) {
208	fprintf(stderr, "%s: missing output file specification\n",
209	argv[0]);
210	exit(1);
211	}
212	status = 0;
213	for ( ; i < argc; i++) {
214	tailtrunc(strcpy(outname,filename(argv[i])));
215	if (ies2rad(argv[i], outname) != 0)
216	status = 1;
217	}
218	exit(status);
219	}
220
221
222	initlamps() /* set up lamps */
223	{
224	float *lcol;
225	int status;
226
227	if (lamptype != NULL && !strcmp(lamptype, default_name) &&
228	deflamp == NULL)
229	return; /* no need for data */
230	/* else load file */
231	if ((status = loadlamps(lampdat)) < 0)
232	exit(1);
233	if (status == 0) {
234	fprintf(stderr, "%s: warning - no lamp data\n", lampdat);
235	lamptype = default_name;
236	return;
237	}
238	if (deflamp != NULL) { /* match default type */
239	if ((lcol = matchlamp(deflamp)) == NULL)
240	fprintf(stderr,
241	"%s: warning - unknown default lamp type\n",
242	deflamp);
243	else
244	copycolor(defcolor, lcol);
245	}
246	if (lamptype != NULL) { /* match selected type */
247	if (strcmp(lamptype, default_name)) {
248	if ((lcol = matchlamp(lamptype)) == NULL) {
249	fprintf(stderr,
250	"%s: warning - unknown lamp type\n",
251	lamptype);
252	lamptype = default_name;
253	} else
254	copycolor(defcolor, lcol);
255	}
256	freelamps(); /* all done with data */
257	}
258	/* else keep lamp data */
259	}
260
261
262	char *
263	stradd(dst, src, sep) /* add a string at dst */
264	register char dst, src;
265	int sep;
266	{
267	if (src && *src) {
268	do
269	dst++ = src++;
270	while (*src);
271	if (sep && dst[-1] != sep)
272	*dst++ = sep;
273	}
274	*dst = '\0';
275	return(dst);
276	}
277
278
279	char *
280	fullname(path, fname, suffix) /* return full path name */
281	char path, fname, *suffix;
282	{
283	if (prefdir != NULL && abspath(prefdir))
284	libname(path, fname, suffix);
285	else if (abspath(fname))
286	strcpy(stradd(path, fname, 0), suffix);
287	else
288	libname(stradd(path, libdir, '/'), fname, suffix);
289
290	return(path);
291	}
292
293
294	char *
295	libname(path, fname, suffix) /* return library relative name */
296	char path, fname, *suffix;
297	{
298	if (abspath(fname))
299	strcpy(stradd(path, fname, 0), suffix);
300	else
301	strcpy(stradd(stradd(path, prefdir, '/'), fname, 0), suffix);
302
303	return(path);
304	}
305
306
307	char *
308	filename(path) /* get final component of pathname */
309	register char *path;
310	{
311	register char *cp;
312
313	for (cp = path; *path; path++)
314	if (*path == '/')
315	cp = path+1;
316	return(cp);
317	}
318
319
320	char *
321	filetrunc(path) /* truncate filename at end of path */
322	char *path;
323	{
324	register char p1, p2;
325
326	for (p1 = p2 = path; *p2; p2++)
327	if (*p2 == '/')
328	p1 = p2;
329	*p1 = '\0';
330	return(path);
331	}
332
333
334	char *
335	tailtrunc(name) /* truncate tail of filename */
336	char *name;
337	{
338	register char p1, p2;
339
340	for (p1 = filename(name); *p1 == '.'; p1++)
341	;
342	p2 = NULL;
343	for ( ; *p1; p1++)
344	if (*p1 == '.')
345	p2 = p1;
346	if (p2 != NULL)
347	*p2 = '\0';
348	return(name);
349	}
350
351
352	blanktrunc(s) /* truncate spaces at end of line */
353	char *s;
354	{
355	register char *cp;
356
357	for (cp = s; *cp; cp++)
358	;
359	while (cp-- > s && isspace(*cp))
360	;
361	*++cp = '\0';
362	}
363
364
365	putheader(out) /* print header */
366	FILE *out;
367	{
368	register int i;
369
370	putc('#', out);
371	for (i = 0; i < gargc; i++) {
372	putc(' ', out);
373	fputs(gargv[i], out);
374	}
375	fputs("\n# Dimensions in ", out);
376	fputs(units, out);
377	putc('\n', out);
378	}
379
380
381	ies2rad(inpname, outname) /* convert IES file */
382	char inpname, outname;
383	{
384	char buf[MAXLINE], tltid[MAXWORD];
385	FILE inpfp, outfp;
386
387	if (inpname == NULL) {
388	inpname = "<stdin>";
389	inpfp = stdin;
390	} else if ((inpfp = fopen(inpname, "r")) == NULL) {
391	perror(inpname);
392	return(-1);
393	}
394	if ((outfp = fopen(fullname(buf,outname,T_RAD), "w")) == NULL) {
395	perror(buf);
396	fclose(inpfp);
397	return(-1);
398	}
399	putheader(outfp);
400	if (lamptype == NULL)
401	lampcolor = NULL;
402	while (fgets(buf,sizeof(buf),inpfp) != NULL
403	&& strncmp(buf,TLTSTR,TLTSTRLEN)) {
404	blanktrunc(buf);
405	if (!buf[0])
406	continue;
407	fputs("#<", outfp);
408	fputs(buf, outfp);
409	putc('\n', outfp);
410	if (lampcolor == NULL)
411	lampcolor = matchlamp(buf);
412	}
413	if (lampcolor == NULL) {
414	fprintf(stderr, "%s: warning - no lamp type\n", inpname);
415	lampcolor = defcolor;
416	}
417	if (feof(inpfp)) {
418	fprintf(stderr, "%s: not in IES format\n", inpname);
419	goto readerr;
420	}
421	sscanf(buf+TLTSTRLEN, "%s", tltid);
422	if (inpfp == stdin)
423	buf[0] = '\0';
424	else
425	filetrunc(strcpy(buf, inpname));
426	if (dotilt(inpfp, outfp, buf, tltid, outname, tltid) != 0) {
427	fprintf(stderr, "%s: bad tilt data\n", inpname);
428	goto readerr;
429	}
430	if (dosource(inpfp, outfp, tltid, outname) != 0) {
431	fprintf(stderr, "%s: bad luminaire data\n", inpname);
432	goto readerr;
433	}
434	fclose(outfp);
435	fclose(inpfp);
436	return(0);
437	readerr:
438	fclose(outfp);
439	fclose(inpfp);
440	unlink(fullname(buf,outname,T_RAD));
441	return(-1);
442	}
443
444
445	dotilt(in, out, dir, tltspec, dfltname, tltid) /* convert tilt data */
446	FILE in, out;
447	char dir, tltspec, dfltname, tltid;
448	{
449	int nangles, tlt_type;
450	double minmax[2];
451	char buf[MAXPATH], tltname[MAXWORD];
452	FILE datin, datout;
453
454	if (!strcmp(tltspec, TLTNONE)) {
455	datin = NULL;
456	strcpy(tltid, "void");
457	} else if (!strcmp(tltspec, TLTINCL)) {
458	datin = in;
459	strcpy(tltname, dfltname);
460	} else {
461	if (tltspec[0] == '/')
462	strcpy(buf, tltspec);
463	else
464	strcpy(stradd(buf, dir, '/'), tltspec);
465	if ((datin = fopen(buf, "r")) == NULL) {
466	perror(buf);
467	return(-1);
468	}
469	tailtrunc(strcpy(tltname,filename(tltspec)));
470	}
471	if (datin != NULL) {
472	if ((datout = fopen(fullname(buf,tltname,T_TLT),"w")) == NULL) {
473	perror(buf);
474	if (datin != in)
475	fclose(datin);
476	return(-1);
477	}
478	if (fscanf(datin, "%d %d", &tlt_type, &nangles) != 2
479	\|\| cvdata(datin,datout,1,&nangles,1.,minmax) != 0) {
480	fprintf(stderr, "%s: data format error\n", tltspec);
481	fclose(datout);
482	if (datin != in)
483	fclose(datin);
484	unlink(fullname(buf,tltname,T_TLT));
485	return(-1);
486	}
487	fclose(datout);
488	if (datin != in)
489	fclose(datin);
490	strcat(strcpy(tltid, filename(tltname)), "_tilt");
491	fprintf(out, "\nvoid brightdata %s\n", tltid);
492	libname(buf,tltname,T_TLT);
493	switch (tlt_type) {
494	case TLT_VERT: /* vertical */
495	fprintf(out, "4 noop %s tilt.cal %s\n", buf,
496	minmax[1]>90.+FTINY ? "tilt_ang" : "tilt_ang2");
497	break;
498	case TLT_H0: /* horiz. in 0 deg. plane */
499	fprintf(out, "6 noop %s tilt.cal %s -rz 90\n", buf,
500	minmax[1]>90.+FTINY ? "tilt_xang" : "tilt_xang2");
501	break;
502	case TLT_H90:
503	fprintf(out, "4 noop %s tilt.cal %s\n", buf,
504	minmax[1]>90.+FTINY ? "tilt_xang" : "tilt_xang2");
505	break;
506	default:
507	fprintf(stderr,
508	"%s: illegal lamp to luminaire geometry (%d)\n",
509	tltspec, tlt_type);
510	return(-1);
511	}
512	fprintf(out, "0\n0\n");
513	}
514	return(0);
515	}
516
517
518	dosource(in, out, mod, name) /* create source and distribution */
519	FILE in, out;
520	char mod, name;
521	{
522	SHAPE srcshape;
523	char buf[MAXPATH], id[MAXWORD];
524	FILE *datout;
525	double mult, bfactor, pfactor, width, length, height, wattage;
526	double bounds[2][2];
527	int nangles[2], pmtype, unitype;
528	double d1;
529
530	if (fscanf(in, "%d %f %lf %d %d %d %d %lf %lf %lf %lf %lf %lf",
531	&mult, &nangles[0], &nangles[1], &pmtype, &unitype,
532	&width, &length, &height, &bfactor, &pfactor,
533	&wattage) != 11) {
534	fprintf(stderr, "dosource: bad lamp specification\n");
535	return(-1);
536	}
537	if (nangles[0] < 2 \|\| nangles[1] < 1) {
538	fprintf(stderr, "dosource: too few measured angles\n");
539	return(-1);
540	}
541	if (unitype == U_FEET) {
542	width *= F_M;
543	length *= F_M;
544	height *= F_M;
545	}
546	if (makeshape(&srcshape, width, length, height) != 0) {
547	fprintf(stderr, "dosource: illegal source dimensions");
548	return(-1);
549	}
550	if ((datout = fopen(fullname(buf,name,T_DST), "w")) == NULL) {
551	perror(buf);
552	return(-1);
553	}
554	if (cvdata(in, datout, 2, nangles, 1./683., bounds) != 0) {
555	fprintf(stderr, "dosource: bad distribution data\n");
556	fclose(datout);
557	unlink(fullname(buf,name,T_DST));
558	return(-1);
559	}
560	fclose(datout);
561	fprintf(out, "# %g watt luminaire, lamp*ballast factor = %g\n",
562	wattage, bfactor*pfactor);
563	strcat(strcpy(id, filename(name)), "_dist");
564	fprintf(out, "\n%s brightdata %s\n", mod, id);
565	if (nangles[1] < 2)
566	fprintf(out, "4 ");
567	else if (pmtype == PM_B)
568	fprintf(out, "5 ");
569	else if (FEQ(bounds[1][0],90.) && FEQ(bounds[1][1],270.))
570	fprintf(out, "8 ");
571	else
572	fprintf(out, "6 ");
573	fprintf(out, "%s %s source.cal ",
574	srcshape.type==SPHERE ? "corr" : "flatcorr",
575	libname(buf,name,T_DST));
576	if (pmtype == PM_B) {
577	if (FEQ(bounds[1][0],0.))
578	fprintf(out, "srcB_horiz2 ");
579	else
580	fprintf(out, "srcB_horiz ");
581	fprintf(out, "srcB_vert ");
582	} else {
583	if (nangles[1] >= 2) {
584	d1 = bounds[1][1] - bounds[1][0];
585	if (d1 <= 90.+FTINY)
586	fprintf(out, "src_phi4 ");
587	else if (d1 <= 180.+FTINY)
588	fprintf(out, "src_phi2 ");
589	else
590	fprintf(out, "src_phi ");
591	fprintf(out, "src_theta -my ");
592	if (FEQ(bounds[1][0],90.) && FEQ(bounds[1][1],270.))
593	fprintf(out, "-rz -90 ");
594	} else
595	fprintf(out, "src_theta ");
596	}
597	fprintf(out, "\n0\n1 %g\n", multipliermultbfactor*pfactor);
598	if (putsource(&srcshape, out, id, filename(name),
599	bounds[0][0]<90., bounds[0][1]>90.) != 0)
600	return(-1);
601	return(0);
602	}
603
604
605	putsource(shp, fp, mod, name, dolower, doupper) /* put out source */
606	SHAPE *shp;
607	FILE *fp;
608	char mod, name;
609	int dolower, doupper;
610	{
611	char buf[MAXWORD];
612
613	fprintf(fp, "\n%s %s %s_light\n", mod,
614	illumrad>=MINDIM/2. ? "illum" : "light",
615	name);
616	fprintf(fp, "0\n0\n3 %g %g %g\n",
617	lampcolor[0]/shp->area,
618	lampcolor[1]/shp->area,
619	lampcolor[2]/shp->area);
620	if (doupper && dolower && shp->type != SPHERE && shp->h > MINDIM) {
621	fprintf(fp, "\n%s glow %s_glow\n", mod, name);
622	fprintf(fp, "0\n0\n4 %g %g %g 0\n",
623	lampcolor[0]/shp->area,
624	lampcolor[1]/shp->area,
625	lampcolor[2]/shp->area);
626	}
627	switch (shp->type) {
628	case RECT:
629	strcat(strcpy(buf, name), "_light");
630	if (dolower)
631	putrectsrc(shp, fp, buf, name, 0);
632	if (doupper)
633	putrectsrc(shp, fp, buf, name, 1);
634	if (doupper && dolower && shp->h > MINDIM) {
635	strcat(strcpy(buf, name), "_glow");
636	putsides(shp, fp, buf, name);
637	}
638	break;
639	case DISK:
640	strcat(strcpy(buf, name), "_light");
641	if (dolower)
642	putdisksrc(shp, fp, buf, name, 0);
643	if (doupper)
644	putdisksrc(shp, fp, buf, name, 1);
645	if (doupper && dolower && shp->h > MINDIM) {
646	strcat(strcpy(buf, name), "_glow");
647	putcyl(shp, fp, buf, name);
648	}
649	break;
650	case SPHERE:
651	strcat(strcpy(buf, name), "_light");
652	putspheresrc(shp, fp, buf, name);
653	break;
654	}
655	return(0);
656	}
657
658
659	makeshape(shp, width, length, height) /* make source shape */
660	register SHAPE *shp;
661	double width, length, height;
662	{
663	if (illumrad >= MINDIM/2.) {
664	shp->type = SPHERE;
665	shp->w = shp->l = shp->h = 2.*illumrad;
666	} else if (width < MINDIM) {
667	width = -width;
668	if (width < MINDIM) {
669	shp->type = SPHERE;
670	shp->w = shp->l = shp->h = MINDIM;
671	} else if (height < .5*width) {
672	shp->type = DISK;
673	shp->w = shp->l = width;
674	if (height >= MINDIM)
675	shp->h = height;
676	else
677	shp->h = .5*MINDIM;
678	} else {
679	shp->type = SPHERE;
680	shp->w = shp->l = shp->h = width;
681	}
682	} else {
683	shp->type = RECT;
684	shp->w = width;
685	if (length >= MINDIM)
686	shp->l = length;
687	else
688	shp->l = MINDIM;
689	if (height >= MINDIM)
690	shp->h = height;
691	else
692	shp->h = .5*MINDIM;
693	}
694	switch (shp->type) {
695	case RECT:
696	shp->area = shp->w * shp->l;
697	break;
698	case DISK:
699	shp->area = PI/4. * shp->w * shp->w;
700	break;
701	case SPHERE:
702	shp->area = PI * shp->w * shp->w;
703	break;
704	}
705	return(0);
706	}
707
708
709	putrectsrc(shp, fp, mod, name, up) /* rectangular source */
710	SHAPE *shp;
711	FILE *fp;
712	char mod, name;
713	int up;
714	{
715	if (up)
716	putrect(shp, fp, mod, name, ".u", 4, 5, 7, 6);
717	else
718	putrect(shp, fp, mod, name, ".d", 0, 2, 3, 1);
719	}
720
721
722	putsides(shp, fp, mod, name) /* put out sides of box */
723	register SHAPE *shp;
724	FILE *fp;
725	char mod, name;
726	{
727	putrect(shp, fp, mod, name, ".1", 0, 1, 5, 4);
728	putrect(shp, fp, mod, name, ".2", 1, 3, 7, 5);
729	putrect(shp, fp, mod, name, ".3", 3, 2, 6, 7);
730	putrect(shp, fp, mod, name, ".4", 2, 0, 4, 6);
731	}
732
733
734	putrect(shp, fp, mod, name, suffix, a, b, c, d) /* put out a rectangle */
735	SHAPE *shp;
736	FILE *fp;
737	char mod, name, *suffix;
738	int a, b, c, d;
739	{
740	fprintf(fp, "\n%s polygon %s%s\n0\n0\n12\n", mod, name, suffix);
741	putpoint(shp, fp, a);
742	putpoint(shp, fp, b);
743	putpoint(shp, fp, c);
744	putpoint(shp, fp, d);
745	}
746
747
748	putpoint(shp, fp, p) /* put out a point */
749	register SHAPE *shp;
750	FILE *fp;
751	int p;
752	{
753	static double mult[2] = {-.5, .5};
754
755	fprintf(fp, "\t%g\t%g\t%g\n",
756	mult[p&1]shp->lmeters2out,
757	mult[p>>1&1]shp->wmeters2out,
758	mult[p>>2]shp->hmeters2out);
759	}
760
761
762	putdisksrc(shp, fp, mod, name, up) /* put out a disk source */
763	register SHAPE *shp;
764	FILE *fp;
765	char mod, name;
766	int up;
767	{
768	if (up) {
769	fprintf(fp, "\n%s ring %s.u\n", mod, name);
770	fprintf(fp, "0\n0\n8\n");
771	fprintf(fp, "\t0 0 %g\n", .5shp->hmeters2out);
772	fprintf(fp, "\t0 0 1\n");
773	fprintf(fp, "\t0 %g\n", .5shp->wmeters2out);
774	} else {
775	fprintf(fp, "\n%s ring %s.d\n", mod, name);
776	fprintf(fp, "0\n0\n8\n");
777	fprintf(fp, "\t0 0 %g\n", -.5shp->hmeters2out);
778	fprintf(fp, "\t0 0 -1\n");
779	fprintf(fp, "\t0 %g\n", .5shp->wmeters2out);
780	}
781	}
782
783
784	putcyl(shp, fp, mod, name) /* put out a cylinder */
785	register SHAPE *shp;
786	FILE *fp;
787	char mod, name;
788	{
789	fprintf(fp, "\n%s cylinder %s.c\n", mod, name);
790	fprintf(fp, "0\n0\n7\n");
791	fprintf(fp, "\t0 0 %g\n", .5shp->hmeters2out);
792	fprintf(fp, "\t0 0 %g\n", -.5shp->hmeters2out);
793	fprintf(fp, "\t%g\n", .5shp->wmeters2out);
794	}
795
796
797	putspheresrc(shp, fp, mod, name) /* put out a sphere source */
798	SHAPE *shp;
799	FILE *fp;
800	char mod, name;
801	{
802	fprintf(fp, "\n%s sphere %s.s\n", mod, name);
803	fprintf(fp, "0\n0\n4 0 0 0 %g\n", .5shp->wmeters2out);
804	}
805
806
807	cvdata(in, out, ndim, npts, mult, lim) /* convert data */
808	FILE in, out;
809	int ndim, npts[];
810	double mult, lim[][2];
811	{
812	register double *pt[4];
813	register int i, j;
814	double val;
815	int total;
816
817	total = 1; j = 0;
818	for (i = 0; i < ndim; i++)
819	if (npts[i] > 1) {
820	total *= npts[i];
821	j++;
822	}
823	fprintf(out, "%d\n", j);
824	/* get coordinates */
825	for (i = 0; i < ndim; i++) {
826	pt[i] = (double )malloc(npts[i]sizeof(double));
827	for (j = 0; j < npts[i]; j++)
828	fscanf(in, "%lf", &pt[i][j]);
829	if (lim != NULL) {
830	lim[i][0] = pt[i][0];
831	lim[i][1] = pt[i][npts[i]-1];
832	}
833	}
834	/* write out in reverse */
835	for (i = ndim-1; i >= 0; i--) {
836	if (npts[i] > 1) {
837	for (j = 1; j < npts[i]-1; j++)
838	if (!FEQ(pt[i][j]-pt[i][j-1],
839	pt[i][j+1]-pt[i][j]))
840	break;
841	if (j == npts[i]-1)
842	fprintf(out, "%g %g %d\n", pt[i][0], pt[i][j],
843	npts[i]);
844	else {
845	fprintf(out, "0 0 %d", npts[i]);
846	for (j = 0; j < npts[i]; j++) {
847	if (j%4 == 0)
848	putc('\n', out);
849	fprintf(out, "\t%g", pt[i][j]);
850	}
851	putc('\n', out);
852	}
853	}
854	free((char *)pt[i]);
855	}
856	for (i = 0; i < total; i++) {
857	if (i%4 == 0)
858	putc('\n', out);
859	if (fscanf(in, "%lf", &val) != 1)
860	return(-1);
861	fprintf(out, "\t%g", val*mult);
862	}
863	putc('\n', out);
864	return(0);
865	}