[ViewVC] Diff of: radiance/ray/src/gen/gensky.c

Comparing ray/src/gen/gensky.c (file contents):
Revision 1.1 by greg, Thu Feb 2 11:16:29 1989 UTC vs.
Revision 2.20 by greg, Sat Feb 22 02:07:23 2003 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1986 Regents of the University of California */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ LBL";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5		* gensky.c - program to generate sky functions.
6		* Our zenith is along the Z-axis, the X-axis
#	Line 15 \| Line 12 \| static char SCCSid[] = "$SunId$ LBL";
12
13		#include <stdio.h>
14
15	+	#include <stdlib.h>
16	+
17	+	#include <string.h>
18	+
19		#include <math.h>
20
21	+	#include <ctype.h>
22
23	<	extern char strcpy(), strcat(), *malloc();
22	<	extern double stadj(), sdec(), sazi(), salt();
23	>	#include "color.h"
24
25	<	#define PI 3.141592654
25	>	extern double stadj(), sdec(), sazi(), salt(), tz2mer();
26
27	+	#ifndef PI
28	+	#define PI 3.14159265358979323846
29	+	#endif
30	+
31		#define DOT(v1,v2) (v1[0]v2[0]+v1[1]v2[1]+v1[2]*v2[2])
32
33	+	#define S_CLEAR 1
34	+	#define S_OVER 2
35	+	#define S_UNIF 3
36	+	#define S_INTER 4
37	+
38	+	#define overcast (skytype==S_OVER\|skytype==S_UNIF)
39	+
40		double normsc();
41		/* sun calculation constants */
42		extern double s_latitude;
43		extern double s_longitude;
44		extern double s_meridian;
45	+
46	+	#undef toupper
47	+	#define toupper(c) ((c) & ~0x20) /* ASCII trick to convert case */
48	+
49	+	/* European and North American zones */
50	+	struct {
51	+	char zname[8]; /* time zone name (all caps) */
52	+	float zmer; /* standard meridian */
53	+	} tzone[] = {
54	+	"YST", 135, "YDT", 120,
55	+	"PST", 120, "PDT", 105,
56	+	"MST", 105, "MDT", 90,
57	+	"CST", 90, "CDT", 75,
58	+	"EST", 75, "EDT", 60,
59	+	"AST", 60, "ADT", 45,
60	+	"NST", 52.5, "NDT", 37.5,
61	+	"GMT", 0, "BST", -15,
62	+	"CET", -15, "CEST", -30,
63	+	"EET", -30, "EEST", -45,
64	+	"AST", -45, "ADT", -60,
65	+	"GST", -60, "GDT", -75,
66	+	"IST", -82.5, "IDT", -97.5,
67	+	"JST", -135, "NDT", -150,
68	+	"NZST", -180, "NZDT", -195,
69	+	"", 0
70	+	};
71		/* required values */
72	<	int month, day;
73	<	double hour;
72	>	int month, day; /* date */
73	>	double hour; /* time */
74	>	int tsolar; /* 0=standard, 1=solar */
75	>	double altitude, azimuth; /* or solar angles */
76		/* default values */
77	<	int cloudy = 0;
77	>	int skytype = S_CLEAR; /* sky type */
78		int dosun = 1;
79	<	double zenithbr = -1.0;
79	>	double zenithbr = 0.0;
80	>	int u_zenith = 0; /* -1=irradiance, 1=radiance */
81		double turbidity = 2.75;
82		double gprefl = 0.2;
83		/* computed values */
84		double sundir[3];
85		double groundbr;
86		double F2;
87	<	double solarbr;
87	>	double solarbr = 0.0;
88	>	int u_solar = 0; /* -1=irradiance, 1=radiance */
89
90		char *progname;
91		char errmsg[128];
#	Line 53 \| Line 95 \| main(argc, argv)
95		int argc;
96		char *argv[];
97		{
56	–	extern double atof();
98		int i;
99
100		progname = argv[0];
#	Line 63 \| Line 104 \| *char argv[];**
104		}
105		if (argc < 4)
106		userror("arg count");
107	<	month = atoi(argv[1]);
108	<	day = atoi(argv[2]);
109	<	hour = atof(argv[3]);
107	>	if (!strcmp(argv[1], "-ang")) {
108	>	altitude = atof(argv[2]) * (PI/180);
109	>	azimuth = atof(argv[3]) * (PI/180);
110	>	month = 0;
111	>	} else {
112	>	month = atoi(argv[1]);
113	>	if (month < 1 \|\| month > 12)
114	>	userror("bad month");
115	>	day = atoi(argv[2]);
116	>	if (day < 1 \|\| day > 31)
117	>	userror("bad day");
118	>	cvthour(argv[3]);
119	>	}
120		for (i = 4; i < argc; i++)
121		if (argv[i][0] == '-' \|\| argv[i][0] == '+')
122		switch (argv[i][1]) {
123		case 's':
124	<	cloudy = 0;
124	>	skytype = S_CLEAR;
125		dosun = argv[i][0] == '+';
126		break;
127	+	case 'r':
128	+	case 'R':
129	+	u_solar = argv[i][1]=='R' ? -1 : 1;
130	+	solarbr = atof(argv[++i]);
131	+	break;
132		case 'c':
133	<	cloudy = 1;
78	<	dosun = 0;
133	>	skytype = S_OVER;
134		break;
135	+	case 'u':
136	+	skytype = S_UNIF;
137	+	break;
138	+	case 'i':
139	+	skytype = S_INTER;
140	+	dosun = argv[i][0] == '+';
141	+	break;
142		case 't':
143		turbidity = atof(argv[++i]);
144		break;
145		case 'b':
146	+	case 'B':
147	+	u_zenith = argv[i][1]=='B' ? -1 : 1;
148		zenithbr = atof(argv[++i]);
149		break;
150		case 'g':
#	Line 102 \| Line 166 \| *char argv[];**
166		else
167		userror("bad option");
168
169	+	if (fabs(s_meridian-s_longitude) > 45*PI/180)
170	+	fprintf(stderr,
171	+	"%s: warning: %.1f hours btwn. standard meridian and longitude\n",
172	+	progname, (s_longitude-s_meridian)*12/PI);
173	+
174		printhead(argc, argv);
175
176		computesky();
177		printsky();
178	+
179	+	exit(0);
180		}
181
182
183		computesky() /* compute sky parameters */
184		{
185	<	int jd;
115	<	double sd, st;
116	<	double altitude, azimuth;
185	>	double normfactor;
186		/* compute solar direction */
187	<	jd = jdate(month, day); /* Julian date */
188	<	sd = sdec(jd); /* solar declination */
189	<	st = hour + stadj(jd); /* solar time */
190	<	altitude = salt(sd, st);
191	<	azimuth = sazi(sd, st);
187	>	if (month) { /* from date and time */
188	>	int jd;
189	>	double sd, st;
190	>
191	>	jd = jdate(month, day); /* Julian date */
192	>	sd = sdec(jd); /* solar declination */
193	>	if (tsolar) /* solar time */
194	>	st = hour;
195	>	else
196	>	st = hour + stadj(jd);
197	>	altitude = salt(sd, st);
198	>	azimuth = sazi(sd, st);
199	>	printf("# Local solar time: %.2f\n", st);
200	>	printf("# Solar altitude and azimuth: %.1f %.1f\n",
201	>	180./PIaltitude, 180./PIazimuth);
202	>	}
203	>	if (!overcast && altitude > 87.*PI/180.) {
204	>	fprintf(stderr,
205	>	"%s: warning - sun too close to zenith, reducing altitude to 87 degrees\n",
206	>	progname);
207	>	printf(
208	>	"# warning - sun too close to zenith, reducing altitude to 87 degrees\n");
209	>	altitude = 87.*PI/180.;
210	>	}
211		sundir[0] = -sin(azimuth)*cos(altitude);
212		sundir[1] = -cos(azimuth)*cos(altitude);
213		sundir[2] = sin(altitude);
214
215	+	/* Compute normalization factor */
216	+	switch (skytype) {
217	+	case S_UNIF:
218	+	normfactor = 1.0;
219	+	break;
220	+	case S_OVER:
221	+	normfactor = 0.777778;
222	+	break;
223	+	case S_CLEAR:
224	+	F2 = 0.274(0.91 + 10.0exp(-3.0*(PI/2.0-altitude)) +
225	+	0.45sundir[2]sundir[2]);
226	+	normfactor = normsc()/F2/PI;
227	+	break;
228	+	case S_INTER:
229	+	F2 = (2.739 + .9891sin(.3119+2.6altitude)) *
230	+	exp(-(PI/2.0-altitude)(.4441+1.48altitude));
231	+	normfactor = normsc()/F2/PI;
232	+	break;
233	+	}
234		/* Compute zenith brightness */
235	<	if (zenithbr <= 0.0)
236	<	if (cloudy) {
235	>	if (u_zenith == -1)
236	>	zenithbr /= normfactor*PI;
237	>	else if (u_zenith == 0) {
238	>	if (overcast)
239		zenithbr = 8.6*sundir[2] + .123;
240	<	zenithbr *= 1000.0/683.0;
132	<	} else {
240	>	else
241		zenithbr = (1.376turbidity-1.81)tan(altitude)+0.38;
242	<	zenithbr *= 1000.0/683.0;
243	<	}
244	<	/* Compute horizontal radiance */
245	<	if (cloudy) {
246	<	groundbr = zenithbr*0.777778;
247	<	printf("# Ground ambient level: %f\n", groundbr);
140	<	} else {
141	<	F2 = 0.274(0.91 + 10.0exp(-3.0*(PI/2.0-altitude)) +
142	<	0.45sundir[2]sundir[2]);
143	<	groundbr = zenithbr*normsc(PI/2.0-altitude)/F2/PI;
144	<	printf("# Ground ambient level: %f\n", groundbr);
145	<	if (sundir[2] > 0.0) {
146	<	if (sundir[2] > .16)
147	<	solarbr = 2.47e6 - 3.15e5/sundir[2];
148	<	else
149	<	solarbr = 5e5;
150	<	groundbr += solarbr6e-5sundir[2]/PI;
151	<	} else
152	<	dosun = 0;
242	>	if (skytype == S_INTER)
243	>	zenithbr = (zenithbr + 8.6*sundir[2] + .123)/2.0;
244	>	if (zenithbr < 0.0)
245	>	zenithbr = 0.0;
246	>	else
247	>	zenithbr *= 1000.0/SKYEFFICACY;
248		}
249	+	/* Compute horizontal radiance */
250	+	groundbr = zenithbr*normfactor;
251	+	printf("# Ground ambient level: %.1f\n", groundbr);
252	+	if (!overcast && sundir[2] > 0.0 && (!u_solar \|\| solarbr > 0.0)) {
253	+	if (u_solar == -1)
254	+	solarbr /= 6e-5*sundir[2];
255	+	else if (u_solar == 0) {
256	+	solarbr = 1.5e9/SUNEFFICACY *
257	+	(1.147 - .147/(sundir[2]>.16?sundir[2]:.16));
258	+	if (skytype == S_INTER)
259	+	solarbr = 0.15; / fudge factor! */
260	+	}
261	+	groundbr += 6e-5/PIsolarbrsundir[2];
262	+	} else
263	+	dosun = 0;
264		groundbr *= gprefl;
265		}
266
267
268		printsky() /* print out sky */
269		{
160	–	register int i;
161	–
270		if (dosun) {
271		printf("\nvoid light solar\n");
272		printf("0\n0\n");
273	<	printf("3 %f %f %f\n", solarbr, solarbr, solarbr);
273	>	printf("3 %.2e %.2e %.2e\n", solarbr, solarbr, solarbr);
274		printf("\nsolar source sun\n");
275		printf("0\n0\n");
276		printf("4 %f %f %f 0.5\n", sundir[0], sundir[1], sundir[2]);
277		}
278
279		printf("\nvoid brightfunc skyfunc\n");
280	<	printf("2 skybright skybright.cal\n");
280	>	printf("2 skybr skybright.cal\n");
281		printf("0\n");
282	<	if (cloudy)
283	<	printf("3 1 %f %f\n", zenithbr, groundbr);
282	>	if (overcast)
283	>	printf("3 %d %.2e %.2e\n", skytype, zenithbr, groundbr);
284		else
285	<	printf("7 -1 %f %f %f %f %f %f\n", zenithbr, groundbr, F2,
285	>	printf("7 %d %.2e %.2e %.2e %f %f %f\n",
286	>	skytype, zenithbr, groundbr, F2,
287		sundir[0], sundir[1], sundir[2]);
288		}
289
290
291		printdefaults() /* print default values */
292		{
293	<	if (cloudy)
293	>	switch (skytype) {
294	>	case S_OVER:
295		printf("-c\t\t\t\t# Cloudy sky\n");
296	<	else if (dosun)
297	<	printf("+s\t\t\t\t# Sunny sky with sun\n");
298	<	else
299	<	printf("-s\t\t\t\t# Sunny sky without sun\n");
296	>	break;
297	>	case S_UNIF:
298	>	printf("-u\t\t\t\t# Uniform cloudy sky\n");
299	>	break;
300	>	case S_INTER:
301	>	if (dosun)
302	>	printf("+i\t\t\t\t# Intermediate sky with sun\n");
303	>	else
304	>	printf("-i\t\t\t\t# Intermediate sky without sun\n");
305	>	break;
306	>	case S_CLEAR:
307	>	if (dosun)
308	>	printf("+s\t\t\t\t# Sunny sky with sun\n");
309	>	else
310	>	printf("-s\t\t\t\t# Sunny sky without sun\n");
311	>	break;
312	>	}
313		printf("-g %f\t\t\t# Ground plane reflectance\n", gprefl);
314		if (zenithbr > 0.0)
315		printf("-b %f\t\t\t# Zenith radiance (watts/ster/m2\n", zenithbr);
#	Line 204 \| Line 327 \| *char msg;**
327		if (msg != NULL)
328		fprintf(stderr, "%s: Use error - %s\n", progname, msg);
329		fprintf(stderr, "Usage: %s month day hour [options]\n", progname);
330	+	fprintf(stderr, " Or: %s -ang altitude azimuth [options]\n", progname);
331		fprintf(stderr, " Or: %s -defaults\n", progname);
332		exit(1);
333		}
334
335
336		double
337	<	normsc(theta) /* compute normalization factor (E0F2/L0) /
214	<	double theta;
337	>	normsc() /* compute normalization factor (E0F2/L0) /
338		{
339	<	static double nf[5] = {2.766521, 0.547665,
340	<	-0.369832, 0.009237, 0.059229};
339	>	static double nfc[2][5] = {
340	>	/* clear sky approx. */
341	>	{2.766521, 0.547665, -0.369832, 0.009237, 0.059229},
342	>	/* intermediate sky approx. */
343	>	{3.5556, -2.7152, -1.3081, 1.0660, 0.60227},
344	>	};
345	>	register double *nf;
346		double x, nsc;
347		register int i;
348		/* polynomial approximation */
349	<	x = (theta - PI/4.0)/(PI/4.0);
350	<	nsc = nf[4];
351	<	for (i = 3; i >= 0; i--)
349	>	nf = nfc[skytype==S_INTER];
350	>	x = (altitude - PI/4.0)/(PI/4.0);
351	>	nsc = nf[i=4];
352	>	while (i--)
353		nsc = nsc*x + nf[i];
354
355		return(nsc);
356	+	}
357	+
358	+
359	+	cvthour(hs) /* convert hour string */
360	+	char *hs;
361	+	{
362	+	register char *cp = hs;
363	+	register int i, j;
364	+
365	+	if (tsolar = cp == '+') cp++; / solar time? */
366	+	while (isdigit(*cp)) cp++;
367	+	if (*cp == ':')
368	+	hour = atoi(hs) + atoi(++cp)/60.0;
369	+	else {
370	+	hour = atof(hs);
371	+	if (*cp == '.') cp++;
372	+	}
373	+	while (isdigit(*cp)) cp++;
374	+	if (!*cp)
375	+	return;
376	+	if (tsolar \|\| !isalpha(*cp)) {
377	+	fprintf(stderr, "%s: bad time format: %s\n", progname, hs);
378	+	exit(1);
379	+	}
380	+	i = 0;
381	+	do {
382	+	for (j = 0; cp[j]; j++)
383	+	if (toupper(cp[j]) != tzone[i].zname[j])
384	+	break;
385	+	if (!cp[j] && !tzone[i].zname[j]) {
386	+	s_meridian = tzone[i].zmer * (PI/180);
387	+	return;
388	+	}
389	+	} while (tzone[i++].zname[0]);
390	+
391	+	fprintf(stderr, "%s: unknown time zone: %s\n", progname, cp);
392	+	fprintf(stderr, "Known time zones:\n\t%s", tzone[0].zname);
393	+	for (i = 1; tzone[i].zname[0]; i++)
394	+	fprintf(stderr, " %s", tzone[i].zname);
395	+	putc('\n', stderr);
396	+	exit(1);
397		}
398
399

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Comparing ray/src/gen/gensky.c (file contents): Revision 1.1 by greg, Thu Feb 2 11:16:29 1989 UTC vs. Revision 2.20 by greg, Sat Feb 22 02:07:23 2003 UTC

Diff Legend

Comparing ray/src/gen/gensky.c (file contents):
Revision 1.1 by greg, Thu Feb 2 11:16:29 1989 UTC vs.
Revision 2.20 by greg, Sat Feb 22 02:07:23 2003 UTC