src/gen/gensky.c

/* Copyright (c) 1986 Regents of the University of California */

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

/*
 *  gensky.c - program to generate sky functions.
 *              Our zenith is along the Z-axis, the X-axis
 *              points east, and the Y-axis points north.
 *              Radiance is in watts/steradian/sq. meter.
 *
 *     3/26/86
 */

#include  <stdio.h>

#include  <math.h>

#include  "color.h"

#ifndef atof
extern double  atof();
#endif
extern char  *strcpy(), *strcat(), *malloc();
extern double  stadj(), sdec(), sazi(), salt();

#define  PI             3.141592654

#define  DOT(v1,v2)     (v1[0]*v2[0]+v1[1]*v2[1]+v1[2]*v2[2])

double  normsc();
                                        /* sun calculation constants */
extern double  s_latitude;
extern double  s_longitude;
extern double  s_meridian;
                                        /* required values */
int  month, day;                                /* date */
double  hour;                                   /* time */
int  tsolar;                                    /* 0=standard, 1=solar */
double  altitude, azimuth;                      /* or solar angles */
                                        /* default values */
int  cloudy = 0;                                /* 1=standard, 2=uniform */
int  dosun = 1;
double  zenithbr = -1.0;
double  turbidity = 2.75;
double  gprefl = 0.2;
                                        /* computed values */
double  sundir[3];
double  groundbr;
double  F2;
double  solarbr;

char  *progname;
char  errmsg[128];


main(argc, argv)
int  argc;
char  *argv[];
{
        int  i;

        progname = argv[0];
        if (argc == 2 && !strcmp(argv[1], "-defaults")) {
                printdefaults();
                exit(0);
        }
        if (argc < 4)
                userror("arg count");
        if (!strcmp(argv[1], "-ang")) {
                altitude = atof(argv[2]) * (PI/180);
                azimuth = atof(argv[3]) * (PI/180);
                month = 0;
        } else {
                month = atoi(argv[1]);
                if (month < 1 || month > 12)
                        userror("bad month");
                day = atoi(argv[2]);
                if (day < 1 || day > 31)
                        userror("bad day");
                hour = atof(argv[3]);
                if (hour < 0 || hour >= 24)
                        userror("bad hour");
                tsolar = argv[3][0] == '+';
        }
        for (i = 4; i < argc; i++)
                if (argv[i][0] == '-' || argv[i][0] == '+')
                        switch (argv[i][1]) {
                        case 's':
                                cloudy = 0;
                                dosun = argv[i][0] == '+';
                                break;
                        case 'c':
                                cloudy = argv[i][0] == '+' ? 2 : 1;
                                dosun = 0;
                                break;
                        case 't':
                                turbidity = atof(argv[++i]);
                                break;
                        case 'b':
                                zenithbr = atof(argv[++i]);
                                break;
                        case 'g':
                                gprefl = atof(argv[++i]);
                                break;
                        case 'a':
                                s_latitude = atof(argv[++i]) * (PI/180);
                                break;
                        case 'o':
                                s_longitude = atof(argv[++i]) * (PI/180);
                                break;
                        case 'm':
                                s_meridian = atof(argv[++i]) * (PI/180);
                                break;
                        default:
                                sprintf(errmsg, "unknown option: %s", argv[i]);
                                userror(errmsg);
                        }
                else
                        userror("bad option");

        if (fabs(s_meridian-s_longitude) > 30*PI/180)
                fprintf(stderr,
        "%s: warning: %.1f hours btwn. standard meridian and longitude\n",
                        progname, (s_longitude-s_meridian)*12/PI);

        printhead(argc, argv);

        computesky();
        printsky();
}


computesky()                    /* compute sky parameters */
{
                                        /* compute solar direction */
        if (month) {                    /* from date and time */
                int  jd;
                double  sd, st;

                jd = jdate(month, day);         /* Julian date */
                sd = sdec(jd);                  /* solar declination */
                if (tsolar)                     /* solar time */
                        st = hour;
                else
                        st = hour + stadj(jd);
                altitude = salt(sd, st);
                azimuth = sazi(sd, st);
        }
        sundir[0] = -sin(azimuth)*cos(altitude);
        sundir[1] = -cos(azimuth)*cos(altitude);
        sundir[2] = sin(altitude);

                                        /* Compute zenith brightness */
        if (zenithbr <= 0.0)
                if (cloudy) {
                        zenithbr = 8.6*sundir[2] + .123;
                        zenithbr *= 1000.0/WHTEFFICACY;
                } else {
                        zenithbr = (1.376*turbidity-1.81)*tan(altitude)+0.38;
                        zenithbr *= 1000.0/SKYEFFICACY;
                }
        if (zenithbr < 0.0)
                zenithbr = 0.0;
                                        /* Compute horizontal radiance */
        if (cloudy) {
                if (cloudy == 2)
                        groundbr = zenithbr;
                else
                        groundbr = zenithbr*0.777778;
                printf("# Ground ambient level: %f\n", groundbr);
        } else {
                F2 = 0.274*(0.91 + 10.0*exp(-3.0*(PI/2.0-altitude)) +
                                0.45*sundir[2]*sundir[2]);
                groundbr = zenithbr*normsc(altitude)/F2/PI;
                printf("# Ground ambient level: %f\n", groundbr);
                if (sundir[2] > 0.0) {
                        if (sundir[2] > .16)
                                solarbr = (1.5e9/SUNEFFICACY) *
                                        (1.147 - .147/sundir[2]);
                        else
                                solarbr = 1.5e9/SUNEFFICACY*(1.147-.147/.16);
                        groundbr += solarbr*6e-5*sundir[2]/PI;
                } else
                        dosun = 0;
        }
        groundbr *= gprefl;
}


printsky()                      /* print out sky */
{
        if (dosun) {
                printf("\nvoid light solar\n");
                printf("0\n0\n");
                printf("3 %.2e %.2e %.2e\n", solarbr, solarbr, solarbr);
                printf("\nsolar source sun\n");
                printf("0\n0\n");
                printf("4 %f %f %f 0.5\n", sundir[0], sundir[1], sundir[2]);
        }
        
        printf("\nvoid brightfunc skyfunc\n");
        printf("2 skybright skybright.cal\n");
        printf("0\n");
        if (cloudy)
                printf("3 %d %.2e %.2e\n", cloudy, zenithbr, groundbr);
        else
                printf("7 -1 %.2e %.2e %.2e %f %f %f\n", zenithbr, groundbr,
                                F2, sundir[0], sundir[1], sundir[2]);
}


printdefaults()                 /* print default values */
{
        if (cloudy == 1)
                printf("-c\t\t\t\t# Cloudy sky\n");
        else if (cloudy == 2)
                printf("+c\t\t\t\t# Uniform cloudy sky\n");
        else if (dosun)
                printf("+s\t\t\t\t# Sunny sky with sun\n");
        else
                printf("-s\t\t\t\t# Sunny sky without sun\n");
        printf("-g %f\t\t\t# Ground plane reflectance\n", gprefl);
        if (zenithbr > 0.0)
                printf("-b %f\t\t\t# Zenith radiance (watts/ster/m2\n", zenithbr);
        else
                printf("-t %f\t\t\t# Atmospheric turbidity\n", turbidity);
        printf("-a %f\t\t\t# Site latitude (degrees)\n", s_latitude*(180/PI));
        printf("-o %f\t\t\t# Site longitude (degrees)\n", s_longitude*(180/PI));
        printf("-m %f\t\t\t# Standard meridian (degrees)\n", s_meridian*(180/PI));
}


userror(msg)                    /* print usage error and quit */
char  *msg;
{
        if (msg != NULL)
                fprintf(stderr, "%s: Use error - %s\n", progname, msg);
        fprintf(stderr, "Usage: %s month day hour [options]\n", progname);
        fprintf(stderr, "   Or: %s -ang altitude azimuth [options]\n", progname);
        fprintf(stderr, "   Or: %s -defaults\n", progname);
        exit(1);
}


double
normsc(theta)                   /* compute normalization factor (E0*F2/L0) */
double  theta;
{
        static double  nf[5] = {2.766521, 0.547665,
                                -0.369832, 0.009237, 0.059229};
        double  x, nsc;
        register int  i;
                                        /* polynomial approximation */
        x = (theta - PI/4.0)/(PI/4.0);
        nsc = nf[4];
        for (i = 3; i >= 0; i--)
                nsc = nsc*x + nf[i];

        return(nsc);
}


printhead(ac, av)               /* print command header */
register int  ac;
register char  **av;
{
        putchar('#');
        while (ac--) {
                putchar(' ');
                fputs(*av++, stdout);
        }
        putchar('\n');
}
Revision:	2.7
Committed:	Fri Oct 2 16:11:53 1992 UTC (31 years, 6 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.6:	+0 -1 lines
Log Message:	Removed problematic math function declarations
#	Content
1	/* Copyright (c) 1986 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* gensky.c - program to generate sky functions.
9	* Our zenith is along the Z-axis, the X-axis
10	* points east, and the Y-axis points north.
11	* Radiance is in watts/steradian/sq. meter.
12	*
13	* 3/26/86
14	*/
15
16	#include <stdio.h>
17
18	#include <math.h>
19
20	#include "color.h"
21
22	#ifndef atof
23	extern double atof();
24	#endif
25	extern char strcpy(), strcat(), *malloc();
26	extern double stadj(), sdec(), sazi(), salt();
27
28	#define PI 3.141592654
29
30	#define DOT(v1,v2) (v1[0]v2[0]+v1[1]v2[1]+v1[2]*v2[2])
31
32	double normsc();
33	/* sun calculation constants */
34	extern double s_latitude;
35	extern double s_longitude;
36	extern double s_meridian;
37	/* required values */
38	int month, day; /* date */
39	double hour; /* time */
40	int tsolar; /* 0=standard, 1=solar */
41	double altitude, azimuth; /* or solar angles */
42	/* default values */
43	int cloudy = 0; /* 1=standard, 2=uniform */
44	int dosun = 1;
45	double zenithbr = -1.0;
46	double turbidity = 2.75;
47	double gprefl = 0.2;
48	/* computed values */
49	double sundir[3];
50	double groundbr;
51	double F2;
52	double solarbr;
53
54	char *progname;
55	char errmsg[128];
56
57
58	main(argc, argv)
59	int argc;
60	char *argv[];
61	{
62	int i;
63
64	progname = argv[0];
65	if (argc == 2 && !strcmp(argv[1], "-defaults")) {
66	printdefaults();
67	exit(0);
68	}
69	if (argc < 4)
70	userror("arg count");
71	if (!strcmp(argv[1], "-ang")) {
72	altitude = atof(argv[2]) * (PI/180);
73	azimuth = atof(argv[3]) * (PI/180);
74	month = 0;
75	} else {
76	month = atoi(argv[1]);
77	if (month < 1 \|\| month > 12)
78	userror("bad month");
79	day = atoi(argv[2]);
80	if (day < 1 \|\| day > 31)
81	userror("bad day");
82	hour = atof(argv[3]);
83	if (hour < 0 \|\| hour >= 24)
84	userror("bad hour");
85	tsolar = argv[3][0] == '+';
86	}
87	for (i = 4; i < argc; i++)
88	if (argv[i][0] == '-' \|\| argv[i][0] == '+')
89	switch (argv[i][1]) {
90	case 's':
91	cloudy = 0;
92	dosun = argv[i][0] == '+';
93	break;
94	case 'c':
95	cloudy = argv[i][0] == '+' ? 2 : 1;
96	dosun = 0;
97	break;
98	case 't':
99	turbidity = atof(argv[++i]);
100	break;
101	case 'b':
102	zenithbr = atof(argv[++i]);
103	break;
104	case 'g':
105	gprefl = atof(argv[++i]);
106	break;
107	case 'a':
108	s_latitude = atof(argv[++i]) * (PI/180);
109	break;
110	case 'o':
111	s_longitude = atof(argv[++i]) * (PI/180);
112	break;
113	case 'm':
114	s_meridian = atof(argv[++i]) * (PI/180);
115	break;
116	default:
117	sprintf(errmsg, "unknown option: %s", argv[i]);
118	userror(errmsg);
119	}
120	else
121	userror("bad option");
122
123	if (fabs(s_meridian-s_longitude) > 30*PI/180)
124	fprintf(stderr,
125	"%s: warning: %.1f hours btwn. standard meridian and longitude\n",
126	progname, (s_longitude-s_meridian)*12/PI);
127
128	printhead(argc, argv);
129
130	computesky();
131	printsky();
132	}
133
134
135	computesky() /* compute sky parameters */
136	{
137	/* compute solar direction */
138	if (month) { /* from date and time */
139	int jd;
140	double sd, st;
141
142	jd = jdate(month, day); /* Julian date */
143	sd = sdec(jd); /* solar declination */
144	if (tsolar) /* solar time */
145	st = hour;
146	else
147	st = hour + stadj(jd);
148	altitude = salt(sd, st);
149	azimuth = sazi(sd, st);
150	}
151	sundir[0] = -sin(azimuth)*cos(altitude);
152	sundir[1] = -cos(azimuth)*cos(altitude);
153	sundir[2] = sin(altitude);
154
155	/* Compute zenith brightness */
156	if (zenithbr <= 0.0)
157	if (cloudy) {
158	zenithbr = 8.6*sundir[2] + .123;
159	zenithbr *= 1000.0/WHTEFFICACY;
160	} else {
161	zenithbr = (1.376turbidity-1.81)tan(altitude)+0.38;
162	zenithbr *= 1000.0/SKYEFFICACY;
163	}
164	if (zenithbr < 0.0)
165	zenithbr = 0.0;
166	/* Compute horizontal radiance */
167	if (cloudy) {
168	if (cloudy == 2)
169	groundbr = zenithbr;
170	else
171	groundbr = zenithbr*0.777778;
172	printf("# Ground ambient level: %f\n", groundbr);
173	} else {
174	F2 = 0.274(0.91 + 10.0exp(-3.0*(PI/2.0-altitude)) +
175	0.45sundir[2]sundir[2]);
176	groundbr = zenithbr*normsc(altitude)/F2/PI;
177	printf("# Ground ambient level: %f\n", groundbr);
178	if (sundir[2] > 0.0) {
179	if (sundir[2] > .16)
180	solarbr = (1.5e9/SUNEFFICACY) *
181	(1.147 - .147/sundir[2]);
182	else
183	solarbr = 1.5e9/SUNEFFICACY*(1.147-.147/.16);
184	groundbr += solarbr6e-5sundir[2]/PI;
185	} else
186	dosun = 0;
187	}
188	groundbr *= gprefl;
189	}
190
191
192	printsky() /* print out sky */
193	{
194	if (dosun) {
195	printf("\nvoid light solar\n");
196	printf("0\n0\n");
197	printf("3 %.2e %.2e %.2e\n", solarbr, solarbr, solarbr);
198	printf("\nsolar source sun\n");
199	printf("0\n0\n");
200	printf("4 %f %f %f 0.5\n", sundir[0], sundir[1], sundir[2]);
201	}
202
203	printf("\nvoid brightfunc skyfunc\n");
204	printf("2 skybright skybright.cal\n");
205	printf("0\n");
206	if (cloudy)
207	printf("3 %d %.2e %.2e\n", cloudy, zenithbr, groundbr);
208	else
209	printf("7 -1 %.2e %.2e %.2e %f %f %f\n", zenithbr, groundbr,
210	F2, sundir[0], sundir[1], sundir[2]);
211	}
212
213
214	printdefaults() /* print default values */
215	{
216	if (cloudy == 1)
217	printf("-c\t\t\t\t# Cloudy sky\n");
218	else if (cloudy == 2)
219	printf("+c\t\t\t\t# Uniform cloudy sky\n");
220	else if (dosun)
221	printf("+s\t\t\t\t# Sunny sky with sun\n");
222	else
223	printf("-s\t\t\t\t# Sunny sky without sun\n");
224	printf("-g %f\t\t\t# Ground plane reflectance\n", gprefl);
225	if (zenithbr > 0.0)
226	printf("-b %f\t\t\t# Zenith radiance (watts/ster/m2\n", zenithbr);
227	else
228	printf("-t %f\t\t\t# Atmospheric turbidity\n", turbidity);
229	printf("-a %f\t\t\t# Site latitude (degrees)\n", s_latitude*(180/PI));
230	printf("-o %f\t\t\t# Site longitude (degrees)\n", s_longitude*(180/PI));
231	printf("-m %f\t\t\t# Standard meridian (degrees)\n", s_meridian*(180/PI));
232	}
233
234
235	userror(msg) /* print usage error and quit */
236	char *msg;
237	{
238	if (msg != NULL)
239	fprintf(stderr, "%s: Use error - %s\n", progname, msg);
240	fprintf(stderr, "Usage: %s month day hour [options]\n", progname);
241	fprintf(stderr, " Or: %s -ang altitude azimuth [options]\n", progname);
242	fprintf(stderr, " Or: %s -defaults\n", progname);
243	exit(1);
244	}
245
246
247	double
248	normsc(theta) /* compute normalization factor (E0F2/L0) /
249	double theta;
250	{
251	static double nf[5] = {2.766521, 0.547665,
252	-0.369832, 0.009237, 0.059229};
253	double x, nsc;
254	register int i;
255	/* polynomial approximation */
256	x = (theta - PI/4.0)/(PI/4.0);
257	nsc = nf[4];
258	for (i = 3; i >= 0; i--)
259	nsc = nsc*x + nf[i];
260
261	return(nsc);
262	}
263
264
265	printhead(ac, av) /* print command header */
266	register int ac;
267	register char **av;
268	{
269	putchar('#');
270	while (ac--) {
271	putchar(' ');
272	fputs(*av++, stdout);
273	}
274	putchar('\n');
275	}