[ViewVC] Diff of: radiance/ray/src/util/findglare.c

Comparing ray/src/util/findglare.c (file contents):
Revision 1.4 by greg, Mon Mar 18 16:21:09 1991 UTC vs.
Revision 1.17 by greg, Fri Apr 12 10:28:40 1991 UTC

#	Line 19 \| Line 19 \| static char SCCSid[] = "$SunId$ LBL";
19		char *rtargv[32] = {"rtrace", "-h", "-ov", "-fff"};
20		int rtargc = 4;
21
22	<	VIEW ourview; /* our view */
22	>	VIEW ourview = STDVIEW; /* our view */
23		VIEW pictview = STDVIEW; /* picture view */
24		VIEW leftview, rightview; /* leftmost and rightmost views */
25
#	Line 29 \| Line 29 \| *char octree = NULL; /* octree file name /*
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;
#	Line 38 \| Line 40 \| *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;
#	Line 57 \| Line 63 \| *char argv[];**
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;
#	Line 93 \| Line 102 \| *char argv[];**
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];
#	Line 168 \| Line 180 \| *char argv[];**
180		exit(1);
181		}
182		init(); /* initialize program */
183	<	comp_thresh(); /* compute glare threshold */
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);
#	Line 198 \| Line 213 \| *init() / initialize global variables /*
213		/* set direction vectors */
214		for (i = 0; glarang[i] != AEND; i++)
215		;
216	<	if (i > 0 && glarang[0] <= 0 \|\| glarang[i-1] >= 180) {
216	>	if (i > 0 && (glarang[0] <= 0 \|\| glarang[i-1] >= 180)) {
217		fprintf(stderr, "%s: glare angles must be between 1 and 179\n",
218		progname);
219		exit(1);
220		}
221		nglarangs = i;
222		/* nglardirs = 2nglarangs + 1; /
223	<	/* vsize = sampdens; */
223	>	/* vsize = sampdens - 1; */
224		if (nglarangs > 0)
225		maxtheta = (PI/180.)*glarang[nglarangs-1];
226		else
227		maxtheta = 0.0;
228		hlim = sampdens*maxtheta;
229	<	hsize = sampdens + hlim;
229	>	hsize = hlim + sampdens - 1;
230		if (hsize > (int)(PI*sampdens))
231		hsize = PI*sampdens;
232		indirect = (struct illum *)calloc(nglardirs, sizeof(struct illum));
233		if (indirect == NULL)
234		memerr("indirect illuminances");
235	+	npixinvw = npixmiss = 0L;
236		copystruct(&leftview, &ourview);
237		copystruct(&rightview, &ourview);
238		spinvector(leftview.vdir, ourview.vdir, ourview.vup, maxtheta);
#	Line 225 \| Line 241 \| *init() / initialize global variables /*
241		setview(&rightview);
242		indirect[nglarangs].lcos =
243		indirect[nglarangs].rcos = cos(maxtheta);
244	<	indirect[nglarangs].lsin =
245	<	-(indirect[nglarangs].rsin = sin(maxtheta));
244	>	indirect[nglarangs].rsin =
245	>	-(indirect[nglarangs].lsin = sin(maxtheta));
246		indirect[nglarangs].theta = 0.0;
247		for (i = 0; i < nglarangs; i++) {
248		d = (glarang[nglarangs-1] - glarang[i])*(PI/180.);
249		indirect[nglarangs-i-1].lcos =
250		indirect[nglarangs+i+1].rcos = cos(d);
251	<	indirect[nglarangs-i-1].lsin =
252	<	-(indirect[nglarangs+i+1].rsin = sin(d));
251	>	indirect[nglarangs+i+1].rsin =
252	>	-(indirect[nglarangs-i-1].lsin = sin(d));
253		d = (glarang[nglarangs-1] + glarang[i])*(PI/180.);
254		indirect[nglarangs-i-1].rcos =
255		indirect[nglarangs+i+1].lcos = cos(d);
256	<	indirect[nglarangs+i+1].lsin =
257	<	-(indirect[nglarangs-i-1].rsin = sin(d));
258	<	indirect[nglarangs-i-1].theta = -(PI/180.)*glarang[i];
259	<	indirect[nglarangs+i+1].theta = (PI/180.)*glarang[i];
256	>	indirect[nglarangs-i-1].rsin =
257	>	-(indirect[nglarangs+i+1].lsin = sin(d));
258	>	indirect[nglarangs-i-1].theta = (PI/180.)*glarang[i];
259	>	indirect[nglarangs+i+1].theta = -(PI/180.)*glarang[i];
260		}
261		/* open picture */
262		if (picture != NULL) {
#	Line 265 \| Line 281 \| *init() / initialize global variables /*
281		cleanup() /* close files, wait for children */
282		{
283		if (verbose)
284	<	fprintf(stderr, "%s: cleaning up...\n", progname);
284	>	fprintf(stderr, "%s: cleaning up... \n", progname);
285		if (picture != NULL)
286		close_pict();
287		if (octree != NULL)
288		done_rtrace();
289	+	if (npixinvw < 100*npixmiss)
290	+	fprintf(stderr, "%s: warning -- missing %ld%% of samples\n",
291	+	progname, 100L*npixmiss/npixinvw);
292		}
293
294
295	<	compdir(vd, x, y) /* compute direction for x,y */
295	>	compdir(vd, x, y, se) /* compute direction for x,y */
296		FVECT vd;
297		int x, y;
298	+	SPANERR *se;
299		{
300		FVECT org; /* dummy variable */
301
302		if (x <= -hlim) /* left region */
303		return(viewray(org, vd, &leftview,
304	<	(x+hlim)/(2.*sampdens)+.5,
305	<	y/(2.*sampdens)+.5));
304	>	(double)(x+hlim)/(2*sampdens)+.5,
305	>	(double)y/(2*sampdens)+.5));
306		if (x >= hlim) /* right region */
307		return(viewray(org, vd, &rightview,
308	<	(x-hlim)/(2.*sampdens)+.5,
309	<	y/(2.*sampdens)+.5));
310	<	/* central region */
311	<	if (viewray(org, vd, &ourview, .5, y/(2.*sampdens)+.5) < 0)
308	>	(double)(x-hlim)/(2*sampdens)+.5,
309	>	(double)y/(2*sampdens)+.5));
310	>	/* central region */
311	>	if (se != NULL) { /* avoid over-counting of poles */
312	>	se->err += se->prob;
313	>	if (se->err <= 0.5)
314	>	return(-1);
315	>	se->err -= 1.0;
316	>	}
317	>	if (viewray(org, vd, &ourview, .5, (double)y/(2*sampdens)+.5) < 0)
318		return(-1);
319		spinvector(vd, vd, ourview.vup, h_theta(x));
320		return(0);
321		}
322
323
324	<	spinvector(vres, vorig, vnorm, theta) /* rotate vector around normal */
325	<	FVECT vres, vorig, vnorm;
326	<	double theta;
324	>	setspanerr(se, y) /* initialize span error at y */
325	>	register SPANERR *se;
326	>	int y;
327		{
328	<	extern double sin(), cos();
329	<	double sint, cost, dotp;
304	<	FVECT vperp;
305	<	register int i;
306	<
307	<	sint = sin(theta);
308	<	cost = cos(theta);
309	<	dotp = DOT(vorig, vnorm);
310	<	fcross(vperp, vnorm, vorig);
311	<	for (i = 0; i < 3; i++)
312	<	vres[i] = vnorm[i]dotp(1.-cost) +
313	<	vorig[i]cost + vperp[i]sint;
328	>	se->err = 0.0;
329	>	se->prob = sqrt(1.0 - (double)((long)yy)/((long)vsizevsize));
330		}
331
332
333		memerr(s) /* malloc failure */
334		char *s;
335		{
336	<	fprintf(stderr, "%s: out of memory for %s\n", s);
336	>	fprintf(stderr, "%s: out of memory for %s\n", progname, s);
337		exit(1);
338		}
339
#	Line 341 \| Line 357 \| *printillum() / print out indirect illuminances /*
357
358		printf("BEGIN indirect illuminance\n");
359		for (i = 0; i < nglardirs; i++)
360	<	printf("\t%.0f\t%f\n", (180.0/PI)*indirect[i].theta,
361	<	PI * indirect[i].sum / (double)indirect[i].n);
360	>	if (indirect[i].n > FTINY)
361	>	printf("\t%.0f\t%f\n", (180.0/PI)*indirect[i].theta,
362	>	PI * indirect[i].sum / indirect[i].n);
363		printf("END indirect illuminance\n");
364		}

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Comparing ray/src/util/findglare.c (file contents): Revision 1.4 by greg, Mon Mar 18 16:21:09 1991 UTC vs. Revision 1.17 by greg, Fri Apr 12 10:28:40 1991 UTC

Diff Legend

Comparing ray/src/util/findglare.c (file contents):
Revision 1.4 by greg, Mon Mar 18 16:21:09 1991 UTC vs.
Revision 1.17 by greg, Fri Apr 12 10:28:40 1991 UTC