src/util/findglare.c

/* Copyright (c) 1991 Regents of the University of California */

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

/*
 * Find glare sources in a scene or image.
 *
 *      Greg Ward       March 1991
 */

#include "glare.h"

#define FEQ(a,b)        ((a)-(b)<=FTINY&&(a)-(b)<=FTINY)
#define VEQ(v1,v2)      (FEQ((v1)[0],(v2)[0])&&FEQ((v1)[1],(v2)[1]) \
                                &&FEQ((v1)[2],(v2)[2]))

char    *rtargv[32] = {"rtrace", "-h", "-ov", "-fff"};
int     rtargc = 4;

VIEW    ourview = STDVIEW;              /* our view */
VIEW    pictview = STDVIEW;             /* picture view */
VIEW    leftview, rightview;            /* leftmost and rightmost views */

char    *picture = NULL;                /* picture file name */
char    *octree = NULL;                 /* octree file name */

int     verbose = 0;                    /* verbose reporting */
char    *progname;                      /* global argv[0] */

double  threshold = 0.;                 /* glare threshold */

int     sampdens = SAMPDENS;            /* sample density */
ANGLE   glarang[180] = {AEND};          /* glare calculation angles */
int     nglarangs = 0;
double  maxtheta;                       /* maximum angle (in radians) */
int     hsize;                          /* horizontal size */
int     hlim;                           /* central limit of horizontal */

struct illum    *indirect;              /* array of indirect illuminances */

long    npixinvw;                       /* number of pixels in view */
long    npixmiss;                       /* number of pixels missed */


main(argc, argv)
int     argc;
char    *argv[];
{
        int     combine = 1;
        int     gotview = 0;
        int     rval, i;
        char    *err;

        progname = argv[0];
                                        /* process options */
        for (i = 1; i < argc && argv[i][0] == '-'; i++) {
                rval = getviewopt(&ourview, argc-i, argv+i);
                if (rval >= 0) {
                        i += rval;
                        gotview++;
                        continue;
                }
                switch (argv[i][1]) {
                case 't':
                        threshold = atof(argv[++i]);
                        break;
                case 'r':
                        sampdens = atoi(argv[++i])/2;
                        break;
                case 'v':
                        if (argv[i][2] == '\0') {
                                verbose++;
                                break;
                        }
                        if (argv[i][2] != 'f')
                                goto userr;
                        rval = viewfile(argv[++i], &ourview, 0, 0);
                        if (rval < 0) {
                                fprintf(stderr,
                                "%s: cannot open view file \"%s\"\n",
                                                progname, argv[i]);
                                exit(1);
                        } else if (rval == 0) {
                                fprintf(stderr,
                                        "%s: bad view file \"%s\"\n",
                                                progname, argv[i]);
                                exit(1);
                        } else
                                gotview++;
                        break;
                case 'g':
                        if (argv[i][2] != 'a')
                                goto userr;
                        if (setscan(glarang, argv[++i]) < 0) {
                                fprintf(stderr, "%s: bad angle spec \"%s\"\n",
                                        progname, argv[i]);
                                exit(1);
                        }
                        break;
                case 'p':
                        picture = argv[++i];
                        break;
                case 'c':
                        combine = !combine;
                        break;
                case 'd':
                case 'l':
                        rtargv[rtargc++] = argv[i];
                        rtargv[rtargc++] = argv[++i];
                        break;
                case 'a':
                        rtargv[rtargc++] = argv[i];
                        if (argv[i][2] == 'v') {
                                rtargv[rtargc++] = argv[++i];
                                rtargv[rtargc++] = argv[++i];
                        }
                        rtargv[rtargc++] = argv[++i];
                        break;
                default:
                        goto userr;
                }
        }
                                                /* get octree */
        if (i < argc-1)
                goto userr;
        if (i == argc-1) {
                rtargv[rtargc++] = octree = argv[i];
                rtargv[rtargc] = NULL;
        }
                                                /* get view */
        if (picture != NULL) {
                rval = viewfile(picture, &pictview, 0, 0);
                if (rval < 0) {
                        fprintf(stderr, "%s: cannot open picture file \"%s\"\n",
                                        progname, picture);
                        exit(1);
                } else if (rval == 0) {
                        fprintf(stderr,
                                "%s: cannot get view from picture \"%s\"\n",
                                        progname, picture);
                        exit(1);
                }
                if (pictview.type == VT_PAR) {
                        fprintf(stderr, "%s: %s: cannot use parallel view\n",
                                        progname, picture);
                        exit(1);
                }
                if ((err = setview(&pictview)) != NULL) {
                        fprintf(stderr, "%s: %s\n", picture, err);
                        exit(1);
                }
        }
        if (!gotview) {
                if (picture == NULL) {
                        fprintf(stderr, "%s: must have view or picture\n",
                                        progname);
                        exit(1);
                }
                copystruct(&ourview, &pictview);
        } else if (picture != NULL && !VEQ(ourview.vp, pictview.vp)) {
                fprintf(stderr, "%s: picture must have same viewpoint\n",
                                progname);
                exit(1);
        }
        ourview.type = VT_HEM;
        ourview.horiz = ourview.vert = 180.0;
        ourview.hoff = ourview.voff = 0.0;
        fvsum(ourview.vdir, ourview.vdir, ourview.vup,
                        -DOT(ourview.vdir,ourview.vup));
        if ((err = setview(&ourview)) != NULL) {
                fprintf(stderr, "%s: %s\n", progname, err);
                exit(1);
        }
        if (octree == NULL && picture == NULL) {
                fprintf(stderr,
                "%s: must specify at least one of picture or octree\n",
                                progname);
                exit(1);
        }
        init();                                 /* initialize program */
        if (threshold <= FTINY)
                comp_thresh();                  /* compute glare threshold */
        analyze();                              /* analyze view */
        if (combine)
                absorb_specks();                /* eliminate tiny sources */
        cleanup();                              /* tidy up */
                                                /* print header */
        printargs(argc, argv, stdout);
        fputs(VIEWSTR, stdout);
        fprintview(&ourview, stdout);
        printf("\n");
        fputformat("ASCII", stdout);
        printf("\n");
        printsources();                         /* print glare sources */
        printillum();                           /* print illuminances */
        exit(0);
userr:
        fprintf(stderr,
"Usage: %s [view options][-ga angles][-p picture][[rtrace options] octree]\n",
                        progname);
        exit(1);
}


init()                          /* initialize global variables */
{
        double  d;
        register int    i;

        if (verbose)
                fprintf(stderr, "%s: initializing data structures...\n",
                                progname);
                                                /* set direction vectors */
        for (i = 0; glarang[i] != AEND; i++)
                ;
        if (i > 0 && (glarang[0] <= 0 || glarang[i-1] >= 180)) {
                fprintf(stderr, "%s: glare angles must be between 1 and 179\n",
                                progname);
                exit(1);
        }
        nglarangs = i;
        /* nglardirs = 2*nglarangs + 1; */
        /* vsize = sampdens - 1; */
        if (nglarangs > 0)
                maxtheta = (PI/180.)*glarang[nglarangs-1];
        else
                maxtheta = 0.0;
        hlim = sampdens*maxtheta;
        hsize = hlim + sampdens - 1;
        if (hsize > (int)(PI*sampdens))
                hsize = PI*sampdens;
        indirect = (struct illum *)calloc(nglardirs, sizeof(struct illum));
        if (indirect == NULL)
                memerr("indirect illuminances");
        npixinvw = npixmiss = 0L;
        copystruct(&leftview, &ourview);
        copystruct(&rightview, &ourview);
        spinvector(leftview.vdir, ourview.vdir, ourview.vup, maxtheta);
        spinvector(rightview.vdir, ourview.vdir, ourview.vup, -maxtheta);
        setview(&leftview);
        setview(&rightview);
        indirect[nglarangs].lcos =
        indirect[nglarangs].rcos = cos(maxtheta);
        indirect[nglarangs].rsin =
        -(indirect[nglarangs].lsin = sin(maxtheta));
        indirect[nglarangs].theta = 0.0;
        for (i = 0; i < nglarangs; i++) {
                d = (glarang[nglarangs-1] - glarang[i])*(PI/180.);
                indirect[nglarangs-i-1].lcos =
                indirect[nglarangs+i+1].rcos = cos(d);
                indirect[nglarangs+i+1].rsin =
                -(indirect[nglarangs-i-1].lsin = sin(d));
                d = (glarang[nglarangs-1] + glarang[i])*(PI/180.);
                indirect[nglarangs-i-1].rcos =
                indirect[nglarangs+i+1].lcos = cos(d);
                indirect[nglarangs-i-1].rsin =
                -(indirect[nglarangs+i+1].lsin = sin(d));
                indirect[nglarangs-i-1].theta = (PI/180.)*glarang[i];
                indirect[nglarangs+i+1].theta = -(PI/180.)*glarang[i];
        }
                                                /* open picture */
        if (picture != NULL) {
                if (verbose)
                        fprintf(stderr, "%s: opening picture file \"%s\"...\n",
                                        progname, picture);
                open_pict(picture);
        }
                                                /* start rtrace */
        if (octree != NULL) {
                if (verbose) {
                        fprintf(stderr,
                                "%s: starting luminance calculation...\n\t",
                                        progname);
                        printargs(rtargc, rtargv, stderr);
                }
                fork_rtrace(rtargv);
        }
}


cleanup()                               /* close files, wait for children */
{
        if (verbose)
                fprintf(stderr, "%s: cleaning up...        \n", progname);
        if (picture != NULL)
                close_pict();
        if (octree != NULL)
                done_rtrace();
        if (npixinvw < 100*npixmiss)
                fprintf(stderr, "%s: warning -- missing %ld%% of samples\n",
                                progname, 100L*npixmiss/npixinvw);
}


compdir(vd, x, y, se)                   /* compute direction for x,y */
FVECT   vd;
int     x, y;
SPANERR *se;
{
        FVECT   org;                    /* dummy variable */

        if (x <= -hlim)                 /* left region */
                return(viewray(org, vd, &leftview,
                                (double)(x+hlim)/(2*sampdens)+.5,
                                (double)y/(2*sampdens)+.5));
        if (x >= hlim)                  /* right region */
                return(viewray(org, vd, &rightview,
                                (double)(x-hlim)/(2*sampdens)+.5,
                                (double)y/(2*sampdens)+.5));
                                        /* central region */
        if (se != NULL) {       /* avoid over-counting of poles */
                se->err += se->prob;
                if (se->err <= 0.5)
                        return(-1);
                se->err -= 1.0;
        }
        if (viewray(org, vd, &ourview, .5, (double)y/(2*sampdens)+.5) < 0)
                return(-1);
        spinvector(vd, vd, ourview.vup, h_theta(x));
        return(0);
}


setspanerr(se, y)               /* initialize span error at y */
register SPANERR        *se;
int     y;
{
        se->err = 0.0;
        se->prob = sqrt(1.0 - (double)((long)y*y)/((long)vsize*vsize));
}


memerr(s)                       /* malloc failure */
char    *s;
{
        fprintf(stderr, "%s: out of memory for %s\n", progname, s);
        exit(1);
}


printsources()                  /* print out glare sources */
{
        register struct source  *sp;

        printf("BEGIN glare source\n");
        for (sp = donelist; sp != NULL; sp = sp->next)
                printf("\t%f %f %f\t%f\t%f\n",
                                sp->dir[0], sp->dir[1], sp->dir[2],
                                sp->dom, sp->brt);
        printf("END glare source\n");
}


printillum()                    /* print out indirect illuminances */
{
        register int    i;

        printf("BEGIN indirect illuminance\n");
        for (i = 0; i < nglardirs; i++)
                if (indirect[i].n > FTINY)
                        printf("\t%.0f\t%f\n", (180.0/PI)*indirect[i].theta,
                                        PI * indirect[i].sum / indirect[i].n);
        printf("END indirect illuminance\n");
}
Revision:	1.18
Committed:	Thu Apr 18 15:18:22 1991 UTC (33 years ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 1.17:	+3 -1 lines
Log Message:	added format information to headers
#	Content
1	/* Copyright (c) 1991 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* Find glare sources in a scene or image.
9	*
10	* Greg Ward March 1991
11	*/
12
13	#include "glare.h"
14
15	#define FEQ(a,b) ((a)-(b)<=FTINY&&(a)-(b)<=FTINY)
16	#define VEQ(v1,v2) (FEQ((v1)[0],(v2)[0])&&FEQ((v1)[1],(v2)[1]) \
17	&&FEQ((v1)[2],(v2)[2]))
18
19	char *rtargv[32] = {"rtrace", "-h", "-ov", "-fff"};
20	int rtargc = 4;
21
22	VIEW ourview = STDVIEW; /* our view */
23	VIEW pictview = STDVIEW; /* picture view */
24	VIEW leftview, rightview; /* leftmost and rightmost views */
25
26	char picture = NULL; / picture file name */
27	char octree = NULL; / octree file name */
28
29	int verbose = 0; /* verbose reporting */
30	char progname; / global argv[0] */
31
32	double threshold = 0.; /* glare threshold */
33
34	int sampdens = SAMPDENS; /* sample density */
35	ANGLE glarang[180] = {AEND}; /* glare calculation angles */
36	int nglarangs = 0;
37	double maxtheta; /* maximum angle (in radians) */
38	int hsize; /* horizontal size */
39	int hlim; /* central limit of horizontal */
40
41	struct illum indirect; / array of indirect illuminances */
42
43	long npixinvw; /* number of pixels in view */
44	long npixmiss; /* number of pixels missed */
45
46
47	main(argc, argv)
48	int argc;
49	char *argv[];
50	{
51	int combine = 1;
52	int gotview = 0;
53	int rval, i;
54	char *err;
55
56	progname = argv[0];
57	/* process options */
58	for (i = 1; i < argc && argv[i][0] == '-'; i++) {
59	rval = getviewopt(&ourview, argc-i, argv+i);
60	if (rval >= 0) {
61	i += rval;
62	gotview++;
63	continue;
64	}
65	switch (argv[i][1]) {
66	case 't':
67	threshold = atof(argv[++i]);
68	break;
69	case 'r':
70	sampdens = atoi(argv[++i])/2;
71	break;
72	case 'v':
73	if (argv[i][2] == '\0') {
74	verbose++;
75	break;
76	}
77	if (argv[i][2] != 'f')
78	goto userr;
79	rval = viewfile(argv[++i], &ourview, 0, 0);
80	if (rval < 0) {
81	fprintf(stderr,
82	"%s: cannot open view file \"%s\"\n",
83	progname, argv[i]);
84	exit(1);
85	} else if (rval == 0) {
86	fprintf(stderr,
87	"%s: bad view file \"%s\"\n",
88	progname, argv[i]);
89	exit(1);
90	} else
91	gotview++;
92	break;
93	case 'g':
94	if (argv[i][2] != 'a')
95	goto userr;
96	if (setscan(glarang, argv[++i]) < 0) {
97	fprintf(stderr, "%s: bad angle spec \"%s\"\n",
98	progname, argv[i]);
99	exit(1);
100	}
101	break;
102	case 'p':
103	picture = argv[++i];
104	break;
105	case 'c':
106	combine = !combine;
107	break;
108	case 'd':
109	case 'l':
110	rtargv[rtargc++] = argv[i];
111	rtargv[rtargc++] = argv[++i];
112	break;
113	case 'a':
114	rtargv[rtargc++] = argv[i];
115	if (argv[i][2] == 'v') {
116	rtargv[rtargc++] = argv[++i];
117	rtargv[rtargc++] = argv[++i];
118	}
119	rtargv[rtargc++] = argv[++i];
120	break;
121	default:
122	goto userr;
123	}
124	}
125	/* get octree */
126	if (i < argc-1)
127	goto userr;
128	if (i == argc-1) {
129	rtargv[rtargc++] = octree = argv[i];
130	rtargv[rtargc] = NULL;
131	}
132	/* get view */
133	if (picture != NULL) {
134	rval = viewfile(picture, &pictview, 0, 0);
135	if (rval < 0) {
136	fprintf(stderr, "%s: cannot open picture file \"%s\"\n",
137	progname, picture);
138	exit(1);
139	} else if (rval == 0) {
140	fprintf(stderr,
141	"%s: cannot get view from picture \"%s\"\n",
142	progname, picture);
143	exit(1);
144	}
145	if (pictview.type == VT_PAR) {
146	fprintf(stderr, "%s: %s: cannot use parallel view\n",
147	progname, picture);
148	exit(1);
149	}
150	if ((err = setview(&pictview)) != NULL) {
151	fprintf(stderr, "%s: %s\n", picture, err);
152	exit(1);
153	}
154	}
155	if (!gotview) {
156	if (picture == NULL) {
157	fprintf(stderr, "%s: must have view or picture\n",
158	progname);
159	exit(1);
160	}
161	copystruct(&ourview, &pictview);
162	} else if (picture != NULL && !VEQ(ourview.vp, pictview.vp)) {
163	fprintf(stderr, "%s: picture must have same viewpoint\n",
164	progname);
165	exit(1);
166	}
167	ourview.type = VT_HEM;
168	ourview.horiz = ourview.vert = 180.0;
169	ourview.hoff = ourview.voff = 0.0;
170	fvsum(ourview.vdir, ourview.vdir, ourview.vup,
171	-DOT(ourview.vdir,ourview.vup));
172	if ((err = setview(&ourview)) != NULL) {
173	fprintf(stderr, "%s: %s\n", progname, err);
174	exit(1);
175	}
176	if (octree == NULL && picture == NULL) {
177	fprintf(stderr,
178	"%s: must specify at least one of picture or octree\n",
179	progname);
180	exit(1);
181	}
182	init(); /* initialize program */
183	if (threshold <= FTINY)
184	comp_thresh(); /* compute glare threshold */
185	analyze(); /* analyze view */
186	if (combine)
187	absorb_specks(); /* eliminate tiny sources */
188	cleanup(); /* tidy up */
189	/* print header */
190	printargs(argc, argv, stdout);
191	fputs(VIEWSTR, stdout);
192	fprintview(&ourview, stdout);
193	printf("\n");
194	fputformat("ASCII", stdout);
195	printf("\n");
196	printsources(); /* print glare sources */
197	printillum(); /* print illuminances */
198	exit(0);
199	userr:
200	fprintf(stderr,
201	"Usage: %s [view options][-ga angles][-p picture][[rtrace options] octree]\n",
202	progname);
203	exit(1);
204	}
205
206
207	init() /* initialize global variables */
208	{
209	double d;
210	register int i;
211
212	if (verbose)
213	fprintf(stderr, "%s: initializing data structures...\n",
214	progname);
215	/* set direction vectors */
216	for (i = 0; glarang[i] != AEND; i++)
217	;
218	if (i > 0 && (glarang[0] <= 0 \|\| glarang[i-1] >= 180)) {
219	fprintf(stderr, "%s: glare angles must be between 1 and 179\n",
220	progname);
221	exit(1);
222	}
223	nglarangs = i;
224	/* nglardirs = 2nglarangs + 1; /
225	/* vsize = sampdens - 1; */
226	if (nglarangs > 0)
227	maxtheta = (PI/180.)*glarang[nglarangs-1];
228	else
229	maxtheta = 0.0;
230	hlim = sampdens*maxtheta;
231	hsize = hlim + sampdens - 1;
232	if (hsize > (int)(PI*sampdens))
233	hsize = PI*sampdens;
234	indirect = (struct illum *)calloc(nglardirs, sizeof(struct illum));
235	if (indirect == NULL)
236	memerr("indirect illuminances");
237	npixinvw = npixmiss = 0L;
238	copystruct(&leftview, &ourview);
239	copystruct(&rightview, &ourview);
240	spinvector(leftview.vdir, ourview.vdir, ourview.vup, maxtheta);
241	spinvector(rightview.vdir, ourview.vdir, ourview.vup, -maxtheta);
242	setview(&leftview);
243	setview(&rightview);
244	indirect[nglarangs].lcos =
245	indirect[nglarangs].rcos = cos(maxtheta);
246	indirect[nglarangs].rsin =
247	-(indirect[nglarangs].lsin = sin(maxtheta));
248	indirect[nglarangs].theta = 0.0;
249	for (i = 0; i < nglarangs; i++) {
250	d = (glarang[nglarangs-1] - glarang[i])*(PI/180.);
251	indirect[nglarangs-i-1].lcos =
252	indirect[nglarangs+i+1].rcos = cos(d);
253	indirect[nglarangs+i+1].rsin =
254	-(indirect[nglarangs-i-1].lsin = sin(d));
255	d = (glarang[nglarangs-1] + glarang[i])*(PI/180.);
256	indirect[nglarangs-i-1].rcos =
257	indirect[nglarangs+i+1].lcos = cos(d);
258	indirect[nglarangs-i-1].rsin =
259	-(indirect[nglarangs+i+1].lsin = sin(d));
260	indirect[nglarangs-i-1].theta = (PI/180.)*glarang[i];
261	indirect[nglarangs+i+1].theta = -(PI/180.)*glarang[i];
262	}
263	/* open picture */
264	if (picture != NULL) {
265	if (verbose)
266	fprintf(stderr, "%s: opening picture file \"%s\"...\n",
267	progname, picture);
268	open_pict(picture);
269	}
270	/* start rtrace */
271	if (octree != NULL) {
272	if (verbose) {
273	fprintf(stderr,
274	"%s: starting luminance calculation...\n\t",
275	progname);
276	printargs(rtargc, rtargv, stderr);
277	}
278	fork_rtrace(rtargv);
279	}
280	}
281
282
283	cleanup() /* close files, wait for children */
284	{
285	if (verbose)
286	fprintf(stderr, "%s: cleaning up... \n", progname);
287	if (picture != NULL)
288	close_pict();
289	if (octree != NULL)
290	done_rtrace();
291	if (npixinvw < 100*npixmiss)
292	fprintf(stderr, "%s: warning -- missing %ld%% of samples\n",
293	progname, 100L*npixmiss/npixinvw);
294	}
295
296
297	compdir(vd, x, y, se) /* compute direction for x,y */
298	FVECT vd;
299	int x, y;
300	SPANERR *se;
301	{
302	FVECT org; /* dummy variable */
303
304	if (x <= -hlim) /* left region */
305	return(viewray(org, vd, &leftview,
306	(double)(x+hlim)/(2*sampdens)+.5,
307	(double)y/(2*sampdens)+.5));
308	if (x >= hlim) /* right region */
309	return(viewray(org, vd, &rightview,
310	(double)(x-hlim)/(2*sampdens)+.5,
311	(double)y/(2*sampdens)+.5));
312	/* central region */
313	if (se != NULL) { /* avoid over-counting of poles */
314	se->err += se->prob;
315	if (se->err <= 0.5)
316	return(-1);
317	se->err -= 1.0;
318	}
319	if (viewray(org, vd, &ourview, .5, (double)y/(2*sampdens)+.5) < 0)
320	return(-1);
321	spinvector(vd, vd, ourview.vup, h_theta(x));
322	return(0);
323	}
324
325
326	setspanerr(se, y) /* initialize span error at y */
327	register SPANERR *se;
328	int y;
329	{
330	se->err = 0.0;
331	se->prob = sqrt(1.0 - (double)((long)yy)/((long)vsizevsize));
332	}
333
334
335	memerr(s) /* malloc failure */
336	char *s;
337	{
338	fprintf(stderr, "%s: out of memory for %s\n", progname, s);
339	exit(1);
340	}
341
342
343	printsources() /* print out glare sources */
344	{
345	register struct source *sp;
346
347	printf("BEGIN glare source\n");
348	for (sp = donelist; sp != NULL; sp = sp->next)
349	printf("\t%f %f %f\t%f\t%f\n",
350	sp->dir[0], sp->dir[1], sp->dir[2],
351	sp->dom, sp->brt);
352	printf("END glare source\n");
353	}
354
355
356	printillum() /* print out indirect illuminances */
357	{
358	register int i;
359
360	printf("BEGIN indirect illuminance\n");
361	for (i = 0; i < nglardirs; i++)
362	if (indirect[i].n > FTINY)
363	printf("\t%.0f\t%f\n", (180.0/PI)*indirect[i].theta,
364	PI * indirect[i].sum / indirect[i].n);
365	printf("END indirect illuminance\n");
366	}