src/cv/bsdf2rado.c

#ifndef lint
static const char RCSid[] = "$Id: bsdf2rado.c,v 2.5 2021/12/07 23:55:02 greg Exp $";
#endif
/*
 *  Plot 3-D BSDF output based on scattering interpolant or XML representation
 */

#define _USE_MATH_DEFINES
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <math.h>
#include "rtprocess.h"
#include "bsdfrep.h"

const float     colarr[6][3] = {
                .7, 1., .7,
                1., .7, .7,
                .7, .7, 1.,
                1., .5, 1.,
                1., 1., .5,
                .5, 1., 1.
        };

#if defined(_WIN32) || defined(_WIN64)
char    validf[] = "-e \"valid(s,t)=X`SYS(s,t)^2+Y`SYS(s,t)^2+Z`SYS(s,t)^2-1e-7\"";
#else
char    validf[] = "-e 'valid(s,t)=X`SYS(s,t)^2+Y`SYS(s,t)^2+Z`SYS(s,t)^2-1e-7'";
#endif

/* Produce a Radiance model plotting the indicated incident direction(s) */
int
main(int argc, char *argv[])
{
        int     showPeaks = 0;
        int     doTrans = 0;
        int     inpXML = -1;
        RBFNODE *rbf = NULL;
        FILE    *fp;
        char    buf[128];
        SDData  myBSDF;
        double  bsdf, min_log;
        FVECT   idir, odir;
        int     i, j, n;
                                                /* check arguments */
        fixargv0(argv[0]);
        if (argc > 1 && !strcmp(argv[1], "-p")) {
                ++showPeaks;
                ++argv; --argc;
        }
        if (argc > 1 && !strcmp(argv[1], "-t")) {
                ++doTrans;
                ++argv; --argc;
        }
        if (argc >= 4 && (n = strlen(argv[1])-4) > 0) {
                if (!strcasecmp(argv[1]+n, ".xml"))
                        inpXML = 1;
                else if (!strcasecmp(argv[1]+n, ".sir"))
                        inpXML = 0;
        }
        if (inpXML < 0) {
                fprintf(stderr, "Usage: %s [-p] bsdf.sir theta1 phi1 .. > output.rad\n", progname);
                fprintf(stderr, "   Or: %s [-t] bsdf.xml theta1 phi1 .. > output.rad\n", progname);
                return(1);
        }
                                                /* load input */
        if (inpXML) {
                SDclearBSDF(&myBSDF, argv[1]);
                if (SDreportError(SDloadFile(&myBSDF, argv[1]), stderr))
                        return(1);
                bsdf_min = 1./M_PI;
                if (myBSDF.rf != NULL && myBSDF.rLambFront.cieY < bsdf_min*M_PI)
                        bsdf_min = myBSDF.rLambFront.cieY/M_PI;
                if (myBSDF.rb != NULL && myBSDF.rLambBack.cieY < bsdf_min*M_PI)
                        bsdf_min = myBSDF.rLambBack.cieY/M_PI;
                if (myBSDF.tf != NULL && myBSDF.tLambFront.cieY < bsdf_min*M_PI)
                        bsdf_min = myBSDF.tLambFront.cieY/M_PI;
                if (myBSDF.tb != NULL && myBSDF.tLambBack.cieY < bsdf_min*M_PI)
                        bsdf_min = myBSDF.tLambBack.cieY/M_PI;
                if (doTrans && (myBSDF.tf == NULL) & (myBSDF.tb == NULL)) {
                        fprintf(stderr, "%s: no transmitted component in '%s'\n",
                                        progname, argv[1]);
                        return(1);
                }
        } else {
                fp = fopen(argv[1], "rb");
                if (fp == NULL) {
                        fprintf(stderr, "%s: cannot open BSDF interpolant '%s'\n",
                                        progname, argv[1]);
                        return(1);
                }
                if (!load_bsdf_rep(fp))
                        return(1);
                fclose(fp);
        }
#ifdef DEBUG
        fprintf(stderr, "Minimum BSDF set to %.4g\n", bsdf_min);
#endif
        min_log = log(bsdf_min*.5 + 1e-6);
                                                /* output BSDF rep. */
        for (n = 0; (n < 6) & (2*n+3 < argc); n++) {
                double  theta = (M_PI/180.)*atof(argv[2*n+2]);
                double  phi = (M_PI/180.)*atof(argv[2*n+3]);
                if (theta < -FTINY) {
                        fprintf(stderr, "%s: theta values must be positive\n",
                                        progname);
                        return(1);
                }
                if (inpXML) {
                        input_orient = (theta <= M_PI/2.) ? 1 : -1;
                        output_orient = doTrans ? -input_orient : input_orient;
                }
                idir[2] = sin(theta);
                idir[0] = idir[2] * cos(phi);
                idir[1] = idir[2] * sin(phi);
                idir[2] = input_orient * sqrt(1. - idir[2]*idir[2]);
#ifdef DEBUG
                fprintf(stderr, "Computing BSDF for incident direction (%.2f,%.2f)\n",
                                get_theta180(idir), get_phi360(idir));
#endif
                if (!inpXML)
                        rbf = advect_rbf(idir, 15000);
#ifdef DEBUG
                if (inpXML)
                        fprintf(stderr, "Hemispherical %s: %.4f\n",
                                (output_orient > 0 ^ input_orient > 0 ?
                                        "transmission" : "reflection"),
                                SDdirectHemi(idir, SDsampSp|SDsampDf |
                                        (output_orient > 0 ^ input_orient > 0 ?
                                                 SDsampT : SDsampR), &myBSDF));
                else if (rbf == NULL)
                        fputs("Empty RBF\n", stderr);
                else
                        fprintf(stderr, "Hemispherical %s: %.4f\n",
                                (output_orient > 0 ^ input_orient > 0 ?
                                        "transmission" : "reflection"),
                                rbf->vtotal);
#endif
                printf("# Incident direction (theta,phi) = (%.2f,%.2f) deg.\n\n",
                                (180./M_PI)*theta, (180./M_PI)*phi);
                printf("void trans tmat\n0\n0\n7 %f %f %f .04 .04 .9 1\n",
                                colarr[n][0], colarr[n][1], colarr[n][2]);
                if (showPeaks && rbf != NULL) {
                        printf("void plastic pmat\n0\n0\n5 %f %f %f .04 .08\n",
                                1.-colarr[n][0], 1.-colarr[n][1], 1.-colarr[n][2]);
                        for (i = 0; i < rbf->nrbf; i++) {
                                ovec_from_pos(odir, rbf->rbfa[i].gx, rbf->rbfa[i].gy);
                                bsdf = eval_rbfrep(rbf, odir);
                                bsdf = log(bsdf + 1e-5) - min_log;
                                printf("pmat sphere p%d\n0\n0\n4 %f %f %f %f\n",
                                        i+1, odir[0]*bsdf, odir[1]*bsdf, odir[2]*bsdf,
                                                .007*bsdf);
                        }
                }
                fflush(stdout);
                sprintf(buf, "gensurf tmat bsdf%d - - - %d %d %s", n+1,
                                                grid_res-1, grid_res-1, validf);
                fp = popen(buf, "w");
                if (fp == NULL) {
                        fprintf(stderr, "%s: cannot open '| %s'\n", progname, buf);
                        return(1);
                }
                for (i = 0; i < grid_res; i++)
                    for (j = 0; j < grid_res; j++) {
                        ovec_from_pos(odir, i, j);
                        if (inpXML) {
                                SDValue sval;
                                if (SDreportError(SDevalBSDF(&sval, idir,
                                                        odir, &myBSDF), stderr))
                                        return(1);
                                bsdf = sval.cieY;
                        } else
                                bsdf = eval_rbfrep(rbf, odir);
                        bsdf = log(bsdf + 1e-6) - min_log;
                        fprintf(fp, "%.8e %.8e %.8e\n",
                                        odir[0]*bsdf, odir[1]*bsdf, odir[2]*bsdf);
                    }
                if (rbf != NULL)
                        free(rbf);
                if (pclose(fp))
                        return(1);
        }
        return(0);
}
Revision:	2.6
Committed:	Thu Jun 5 19:10:31 2025 UTC (46 hours, 20 minutes ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	HEAD
Changes since 2.5:	+2 -4 lines
Log Message:	refactor: Made progname declarations more consistent
#	User	Rev	Content
1	greg	2.1	#ifndef lint
2	greg	2.6	static const char RCSid[] = "$Id: bsdf2rado.c,v 2.5 2021/12/07 23:55:02 greg Exp $";
3	greg	2.1	#endif
4			/*
5			* Plot 3-D BSDF output based on scattering interpolant or XML representation
6			*/
7
8			#define _USE_MATH_DEFINES
9			#include <stdio.h>
10			#include <string.h>
11			#include <stdlib.h>
12			#include <math.h>
13			#include "rtprocess.h"
14			#include "bsdfrep.h"
15
16			const float colarr[6][3] = {
17			.7, 1., .7,
18			1., .7, .7,
19			.7, .7, 1.,
20			1., .5, 1.,
21			1., 1., .5,
22			.5, 1., 1.
23			};
24
25			#if defined(_WIN32) \|\| defined(_WIN64)
26			char validf[] = "-e \"valid(s,t)=X`SYS(s,t)^2+Y`SYS(s,t)^2+Z`SYS(s,t)^2-1e-7\"";
27			#else
28			char validf[] = "-e 'valid(s,t)=X`SYS(s,t)^2+Y`SYS(s,t)^2+Z`SYS(s,t)^2-1e-7'";
29			#endif
30
31			/* Produce a Radiance model plotting the indicated incident direction(s) */
32			int
33			main(int argc, char *argv[])
34			{
35			int showPeaks = 0;
36			int doTrans = 0;
37			int inpXML = -1;
38			RBFNODE *rbf = NULL;
39			FILE *fp;
40			char buf[128];
41			SDData myBSDF;
42			double bsdf, min_log;
43			FVECT idir, odir;
44			int i, j, n;
45			/* check arguments */
46	greg	2.6	fixargv0(argv[0]);
47	greg	2.1	if (argc > 1 && !strcmp(argv[1], "-p")) {
48			++showPeaks;
49			++argv; --argc;
50			}
51			if (argc > 1 && !strcmp(argv[1], "-t")) {
52			++doTrans;
53			++argv; --argc;
54			}
55			if (argc >= 4 && (n = strlen(argv[1])-4) > 0) {
56			if (!strcasecmp(argv[1]+n, ".xml"))
57			inpXML = 1;
58			else if (!strcasecmp(argv[1]+n, ".sir"))
59			inpXML = 0;
60			}
61			if (inpXML < 0) {
62			fprintf(stderr, "Usage: %s [-p] bsdf.sir theta1 phi1 .. > output.rad\n", progname);
63			fprintf(stderr, " Or: %s [-t] bsdf.xml theta1 phi1 .. > output.rad\n", progname);
64			return(1);
65			}
66			/* load input */
67			if (inpXML) {
68			SDclearBSDF(&myBSDF, argv[1]);
69			if (SDreportError(SDloadFile(&myBSDF, argv[1]), stderr))
70			return(1);
71			bsdf_min = 1./M_PI;
72			if (myBSDF.rf != NULL && myBSDF.rLambFront.cieY < bsdf_min*M_PI)
73			bsdf_min = myBSDF.rLambFront.cieY/M_PI;
74			if (myBSDF.rb != NULL && myBSDF.rLambBack.cieY < bsdf_min*M_PI)
75			bsdf_min = myBSDF.rLambBack.cieY/M_PI;
76	greg	2.2	if (myBSDF.tf != NULL && myBSDF.tLambFront.cieY < bsdf_min*M_PI)
77			bsdf_min = myBSDF.tLambFront.cieY/M_PI;
78			if (myBSDF.tb != NULL && myBSDF.tLambBack.cieY < bsdf_min*M_PI)
79			bsdf_min = myBSDF.tLambBack.cieY/M_PI;
80	greg	2.1	if (doTrans && (myBSDF.tf == NULL) & (myBSDF.tb == NULL)) {
81			fprintf(stderr, "%s: no transmitted component in '%s'\n",
82			progname, argv[1]);
83			return(1);
84			}
85			} else {
86			fp = fopen(argv[1], "rb");
87			if (fp == NULL) {
88			fprintf(stderr, "%s: cannot open BSDF interpolant '%s'\n",
89			progname, argv[1]);
90			return(1);
91			}
92			if (!load_bsdf_rep(fp))
93			return(1);
94			fclose(fp);
95			}
96			#ifdef DEBUG
97	greg	2.3	fprintf(stderr, "Minimum BSDF set to %.4g\n", bsdf_min);
98	greg	2.1	#endif
99	greg	2.3	min_log = log(bsdf_min*.5 + 1e-6);
100	greg	2.1	/* output BSDF rep. */
101			for (n = 0; (n < 6) & (2*n+3 < argc); n++) {
102			double theta = (M_PI/180.)atof(argv[2n+2]);
103			double phi = (M_PI/180.)atof(argv[2n+3]);
104			if (theta < -FTINY) {
105			fprintf(stderr, "%s: theta values must be positive\n",
106			progname);
107			return(1);
108			}
109			if (inpXML) {
110			input_orient = (theta <= M_PI/2.) ? 1 : -1;
111			output_orient = doTrans ? -input_orient : input_orient;
112			}
113			idir[2] = sin(theta);
114			idir[0] = idir[2] * cos(phi);
115			idir[1] = idir[2] * sin(phi);
116			idir[2] = input_orient * sqrt(1. - idir[2]*idir[2]);
117			#ifdef DEBUG
118	greg	2.4	fprintf(stderr, "Computing BSDF for incident direction (%.2f,%.2f)\n",
119	greg	2.1	get_theta180(idir), get_phi360(idir));
120			#endif
121			if (!inpXML)
122			rbf = advect_rbf(idir, 15000);
123			#ifdef DEBUG
124			if (inpXML)
125	greg	2.3	fprintf(stderr, "Hemispherical %s: %.4f\n",
126	greg	2.1	(output_orient > 0 ^ input_orient > 0 ?
127			"transmission" : "reflection"),
128			SDdirectHemi(idir, SDsampSp\|SDsampDf \|
129			(output_orient > 0 ^ input_orient > 0 ?
130			SDsampT : SDsampR), &myBSDF));
131			else if (rbf == NULL)
132			fputs("Empty RBF\n", stderr);
133			else
134	greg	2.3	fprintf(stderr, "Hemispherical %s: %.4f\n",
135	greg	2.1	(output_orient > 0 ^ input_orient > 0 ?
136			"transmission" : "reflection"),
137			rbf->vtotal);
138			#endif
139			printf("# Incident direction (theta,phi) = (%.2f,%.2f) deg.\n\n",
140			(180./M_PI)theta, (180./M_PI)phi);
141			printf("void trans tmat\n0\n0\n7 %f %f %f .04 .04 .9 1\n",
142			colarr[n][0], colarr[n][1], colarr[n][2]);
143			if (showPeaks && rbf != NULL) {
144			printf("void plastic pmat\n0\n0\n5 %f %f %f .04 .08\n",
145			1.-colarr[n][0], 1.-colarr[n][1], 1.-colarr[n][2]);
146			for (i = 0; i < rbf->nrbf; i++) {
147			ovec_from_pos(odir, rbf->rbfa[i].gx, rbf->rbfa[i].gy);
148			bsdf = eval_rbfrep(rbf, odir);
149			bsdf = log(bsdf + 1e-5) - min_log;
150			printf("pmat sphere p%d\n0\n0\n4 %f %f %f %f\n",
151			i+1, odir[0]bsdf, odir[1]bsdf, odir[2]*bsdf,
152			.007*bsdf);
153			}
154			}
155			fflush(stdout);
156			sprintf(buf, "gensurf tmat bsdf%d - - - %d %d %s", n+1,
157	greg	2.4	grid_res-1, grid_res-1, validf);
158	greg	2.1	fp = popen(buf, "w");
159			if (fp == NULL) {
160			fprintf(stderr, "%s: cannot open '\| %s'\n", progname, buf);
161			return(1);
162			}
163	greg	2.4	for (i = 0; i < grid_res; i++)
164			for (j = 0; j < grid_res; j++) {
165	greg	2.1	ovec_from_pos(odir, i, j);
166			if (inpXML) {
167			SDValue sval;
168	greg	2.5	if (SDreportError(SDevalBSDF(&sval, idir,
169			odir, &myBSDF), stderr))
170	greg	2.1	return(1);
171			bsdf = sval.cieY;
172			} else
173			bsdf = eval_rbfrep(rbf, odir);
174	greg	2.3	bsdf = log(bsdf + 1e-6) - min_log;
175	greg	2.1	fprintf(fp, "%.8e %.8e %.8e\n",
176			odir[0]bsdf, odir[1]bsdf, odir[2]*bsdf);
177			}
178			if (rbf != NULL)
179			free(rbf);
180			if (pclose(fp))
181			return(1);
182			}
183			return(0);
184			}