src/hd/genrhgrid.c

#ifndef lint
static const char       RCSid[] = "$Id$";
#endif
/*
 * Generate renderable grids from a holodeck file
 */

#include "holo.h"

char    *progname;              /* global argv[0] */

char    *mat, *name;            /* material and object id */
double  rad;                    /* grid line radius */


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

        progname = argv[0];
        if (argc < 5 | argc > 6)
                goto userr;
        mat = argv[1];
        name = argv[2];
        rad = atof(argv[3]);
        sect = argc==5 ? -1 : atoi(argv[5]);
        fputs("# ", stdout);
        printargs(argc, argv, stdout);
        gridsect(argv[4], sect);
        quit(0);
userr:
        fprintf(stderr, "Usage: %s mat name rad input.hdk [section]\n",
                        progname);
        exit(1);
}


gridsect(fname, sect)           /* get specified section(s) and print grids */
char    *fname;
int     sect;
{
        extern long     ftell();
        FILE    *fp;
        HOLO    hdsect;
        int     fd;
        int4    nextloc;
        int     n;
                                        /* open holodeck file */
        if ((fp = fopen(fname, "r")) == NULL) {
                sprintf(errmsg, "cannot open \"%s\"", fname);
                error(SYSTEM, errmsg);
        }
                                        /* check header and magic number */
        if (checkheader(fp, HOLOFMT, NULL) < 0 || getw(fp) != HOLOMAGIC) {
                sprintf(errmsg, "file \"%s\" not in holodeck format", fname);
                error(USER, errmsg);
        }
        fd = dup(fileno(fp));                   /* dup file handle */
        nextloc = ftell(fp);                    /* get stdio position */
        fclose(fp);                             /* done with stdio */
        for (n = 0; nextloc > 0L; n++) {        /* get the section(s) */
                lseek(fd, (off_t)nextloc, 0);
                read(fd, (char *)&nextloc, sizeof(nextloc));
                if (sect < 0 | n == sect) {
                        read(fd, (char *)&hdsect, sizeof(HDGRID));
                        hdcompgrid(&hdsect);
                        putgrid(&hdsect);       /* print grid */
                }
        }
}


putgrid(hp)                     /* run through holodeck section grid lines */
register HOLO   *hp;
{
        register int    w, i;
        int     g0, g1;
        FVECT   wp[2], mov;
        double  d;
                                        /* do each wall on this section */
        for (w = 0; w < 6; w++) {
                g0 = hdwg0[w];
                g1 = hdwg1[w];
                d = 1.0/hp->grid[g0];
                mov[0] = d * hp->xv[g0][0];
                mov[1] = d * hp->xv[g0][1];
                mov[2] = d * hp->xv[g0][2];
                if (w & 1) {
                        VSUM(wp[0], hp->orig, hp->xv[w>>1], 1.);
                        VSUM(wp[0], wp[0], mov, 1.);
                } else
                        VCOPY(wp[0], hp->orig);
                VSUM(wp[1], wp[0], hp->xv[g1], 1.);
                for (i = hp->grid[g0]; ; ) {    /* g0 lines */
                        putline(wp);
                        if (!--i) break;
                        wp[0][0] += mov[0]; wp[0][1] += mov[1];
                        wp[0][2] += mov[2]; wp[1][0] += mov[0];
                        wp[1][1] += mov[1]; wp[1][2] += mov[2];
                }
                d = 1.0/hp->grid[g1];
                mov[0] = d * hp->xv[g1][0];
                mov[1] = d * hp->xv[g1][1];
                mov[2] = d * hp->xv[g1][2];
                if (w & 1)
                        VSUM(wp[0], hp->orig, hp->xv[w>>1], 1.);
                else
                        VSUM(wp[0], hp->orig, mov, 1.);
                VSUM(wp[1], wp[0], hp->xv[g0], 1.);
                for (i = hp->grid[g1]; ; ) {    /* g1 lines */
                        putline(wp);
                        if (!--i) break;
                        wp[0][0] += mov[0]; wp[0][1] += mov[1];
                        wp[0][2] += mov[2]; wp[1][0] += mov[0];
                        wp[1][1] += mov[1]; wp[1][2] += mov[2];
                }
        }
}


putline(wp)             /* put out a line */
register FVECT  wp[2];
{
        static int      cnt = 0;

        printf("\n%s cylinder %s.%d\n0\n0\n7\n", mat, name, ++cnt);
        printf("\t%.4e %.4e %.4e\n", wp[0][0], wp[0][1], wp[0][2]);
        printf("\t%.4e %.4e %.4e\n", wp[1][0], wp[1][1], wp[1][2]);
        printf("\t%.4e\n", rad);
}
Revision:	3.2
Committed:	Sat Feb 22 02:07:24 2003 UTC (21 years, 1 month ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad3R5
Changes since 3.1:	+2 -5 lines
Log Message:	Changes and check-in for 3.5 release Includes new source files and modifications not recorded for many years See ray/doc/notes/ReleaseNotes for notes between 3.1 and 3.5 release
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id$";
3	#endif
4	/*
5	* Generate renderable grids from a holodeck file
6	*/
7
8	#include "holo.h"
9
10	char progname; / global argv[0] */
11
12	char mat, name; /* material and object id */
13	double rad; /* grid line radius */
14
15
16	main(argc, argv)
17	int argc;
18	char *argv[];
19	{
20	int sect;
21
22	progname = argv[0];
23	if (argc < 5 \| argc > 6)
24	goto userr;
25	mat = argv[1];
26	name = argv[2];
27	rad = atof(argv[3]);
28	sect = argc==5 ? -1 : atoi(argv[5]);
29	fputs("# ", stdout);
30	printargs(argc, argv, stdout);
31	gridsect(argv[4], sect);
32	quit(0);
33	userr:
34	fprintf(stderr, "Usage: %s mat name rad input.hdk [section]\n",
35	progname);
36	exit(1);
37	}
38
39
40	gridsect(fname, sect) /* get specified section(s) and print grids */
41	char *fname;
42	int sect;
43	{
44	extern long ftell();
45	FILE *fp;
46	HOLO hdsect;
47	int fd;
48	int4 nextloc;
49	int n;
50	/* open holodeck file */
51	if ((fp = fopen(fname, "r")) == NULL) {
52	sprintf(errmsg, "cannot open \"%s\"", fname);
53	error(SYSTEM, errmsg);
54	}
55	/* check header and magic number */
56	if (checkheader(fp, HOLOFMT, NULL) < 0 \|\| getw(fp) != HOLOMAGIC) {
57	sprintf(errmsg, "file \"%s\" not in holodeck format", fname);
58	error(USER, errmsg);
59	}
60	fd = dup(fileno(fp)); /* dup file handle */
61	nextloc = ftell(fp); /* get stdio position */
62	fclose(fp); /* done with stdio */
63	for (n = 0; nextloc > 0L; n++) { /* get the section(s) */
64	lseek(fd, (off_t)nextloc, 0);
65	read(fd, (char *)&nextloc, sizeof(nextloc));
66	if (sect < 0 \| n == sect) {
67	read(fd, (char *)&hdsect, sizeof(HDGRID));
68	hdcompgrid(&hdsect);
69	putgrid(&hdsect); /* print grid */
70	}
71	}
72	}
73
74
75	putgrid(hp) /* run through holodeck section grid lines */
76	register HOLO *hp;
77	{
78	register int w, i;
79	int g0, g1;
80	FVECT wp[2], mov;
81	double d;
82	/* do each wall on this section */
83	for (w = 0; w < 6; w++) {
84	g0 = hdwg0[w];
85	g1 = hdwg1[w];
86	d = 1.0/hp->grid[g0];
87	mov[0] = d * hp->xv[g0][0];
88	mov[1] = d * hp->xv[g0][1];
89	mov[2] = d * hp->xv[g0][2];
90	if (w & 1) {
91	VSUM(wp[0], hp->orig, hp->xv[w>>1], 1.);
92	VSUM(wp[0], wp[0], mov, 1.);
93	} else
94	VCOPY(wp[0], hp->orig);
95	VSUM(wp[1], wp[0], hp->xv[g1], 1.);
96	for (i = hp->grid[g0]; ; ) { /* g0 lines */
97	putline(wp);
98	if (!--i) break;
99	wp[0][0] += mov[0]; wp[0][1] += mov[1];
100	wp[0][2] += mov[2]; wp[1][0] += mov[0];
101	wp[1][1] += mov[1]; wp[1][2] += mov[2];
102	}
103	d = 1.0/hp->grid[g1];
104	mov[0] = d * hp->xv[g1][0];
105	mov[1] = d * hp->xv[g1][1];
106	mov[2] = d * hp->xv[g1][2];
107	if (w & 1)
108	VSUM(wp[0], hp->orig, hp->xv[w>>1], 1.);
109	else
110	VSUM(wp[0], hp->orig, mov, 1.);
111	VSUM(wp[1], wp[0], hp->xv[g0], 1.);
112	for (i = hp->grid[g1]; ; ) { /* g1 lines */
113	putline(wp);
114	if (!--i) break;
115	wp[0][0] += mov[0]; wp[0][1] += mov[1];
116	wp[0][2] += mov[2]; wp[1][0] += mov[0];
117	wp[1][1] += mov[1]; wp[1][2] += mov[2];
118	}
119	}
120	}
121
122
123	putline(wp) /* put out a line */
124	register FVECT wp[2];
125	{
126	static int cnt = 0;
127
128	printf("\n%s cylinder %s.%d\n0\n0\n7\n", mat, name, ++cnt);
129	printf("\t%.4e %.4e %.4e\n", wp[0][0], wp[0][1], wp[0][2]);
130	printf("\t%.4e %.4e %.4e\n", wp[1][0], wp[1][1], wp[1][2]);
131	printf("\t%.4e\n", rad);
132	}