src/common/dircode.c

#ifndef lint
static const char RCSid[] = "$Id$";
#endif
/*
 * Compute 4-byte direction code (assume this fits into int)
 */

#include "standard.h"

#define DCSCALE         11585.2         /* (1<<13)*sqrt(2) */
#define FXNEG           01
#define FYNEG           02
#define FZNEG           04
#define F1X             010
#define F2Z             020
#define F1SFT           5
#define F2SFT           18
#define FMASK           0x1fff

int4
encodedir(dv)           /* encode a normalized direction vector */
FVECT   dv;
{
        register int4   dc = 0;
        int     cd[3], cm;
        register int    i;

        for (i = 0; i < 3; i++)
                if (dv[i] < 0.) {
                        cd[i] = dv[i] * -DCSCALE;
                        dc |= FXNEG<<i;
                } else
                        cd[i] = dv[i] * DCSCALE;
        if (cd[0] <= cd[1]) {
                dc |= F1X | cd[0] << F1SFT;
                cm = cd[1];
        } else {
                dc |= cd[1] << F1SFT;
                cm = cd[0];
        }
        if (cd[2] <= cm)
                dc |= F2Z | cd[2] << F2SFT;
        else
                dc |= cm << F2SFT;
        if (!dc)        /* don't generate 0 code */
                dc = F1X;
        return(dc);
}


void
decodedir(dv, dc)       /* decode a normalized direction vector */
register FVECT  dv;     /* returned */
register int4   dc;
{
        double  d1, d2, der;

        d1 = ((dc>>F1SFT & FMASK)+.5)*(1./DCSCALE);
        d2 = ((dc>>F2SFT & FMASK)+.5)*(1./DCSCALE);
        der = sqrt(1. - d1*d1 - d2*d2);
        if (dc & F1X) {
                dv[0] = d1;
                if (dc & F2Z) { dv[1] = der; dv[2] = d2; }
                else { dv[1] = d2; dv[2] = der; }
        } else {
                dv[1] = d1;
                if (dc & F2Z) { dv[0] = der; dv[2] = d2; }
                else { dv[0] = d2; dv[2] = der; }
        }
        if (dc & FXNEG) dv[0] = -dv[0];
        if (dc & FYNEG) dv[1] = -dv[1];
        if (dc & FZNEG) dv[2] = -dv[2];
}


double
dir2diff(dc1, dc2)              /* approx. radians^2 between directions */
int4    dc1, dc2;
{
        FVECT   v1, v2;

        decodedir(v1, dc1);
        decodedir(v2, dc2);

        return(2. - 2.*DOT(v1,v2));
}


double
fdir2diff(dc1, v2)              /* approx. radians^2 between directions */
int4    dc1;
register FVECT  v2;
{
        FVECT   v1;

        decodedir(v1, dc1);

        return(2. - 2.*DOT(v1,v2));
}
Revision:	2.2
Committed:	Tue Mar 4 19:02:47 2003 UTC (22 years, 7 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.1:	+3 -1 lines
Log Message:	Changed encodedir() so it never generates 0
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id$";
3	#endif
4	/*
5	* Compute 4-byte direction code (assume this fits into int)
6	*/
7
8	#include "standard.h"
9
10	#define DCSCALE 11585.2 /* (1<<13)sqrt(2) /
11	#define FXNEG 01
12	#define FYNEG 02
13	#define FZNEG 04
14	#define F1X 010
15	#define F2Z 020
16	#define F1SFT 5
17	#define F2SFT 18
18	#define FMASK 0x1fff
19
20	int4
21	encodedir(dv) /* encode a normalized direction vector */
22	FVECT dv;
23	{
24	register int4 dc = 0;
25	int cd[3], cm;
26	register int i;
27
28	for (i = 0; i < 3; i++)
29	if (dv[i] < 0.) {
30	cd[i] = dv[i] * -DCSCALE;
31	dc \|= FXNEG<<i;
32	} else
33	cd[i] = dv[i] * DCSCALE;
34	if (cd[0] <= cd[1]) {
35	dc \|= F1X \| cd[0] << F1SFT;
36	cm = cd[1];
37	} else {
38	dc \|= cd[1] << F1SFT;
39	cm = cd[0];
40	}
41	if (cd[2] <= cm)
42	dc \|= F2Z \| cd[2] << F2SFT;
43	else
44	dc \|= cm << F2SFT;
45	if (!dc) /* don't generate 0 code */
46	dc = F1X;
47	return(dc);
48	}
49
50
51	void
52	decodedir(dv, dc) /* decode a normalized direction vector */
53	register FVECT dv; /* returned */
54	register int4 dc;
55	{
56	double d1, d2, der;
57
58	d1 = ((dc>>F1SFT & FMASK)+.5)*(1./DCSCALE);
59	d2 = ((dc>>F2SFT & FMASK)+.5)*(1./DCSCALE);
60	der = sqrt(1. - d1d1 - d2d2);
61	if (dc & F1X) {
62	dv[0] = d1;
63	if (dc & F2Z) { dv[1] = der; dv[2] = d2; }
64	else { dv[1] = d2; dv[2] = der; }
65	} else {
66	dv[1] = d1;
67	if (dc & F2Z) { dv[0] = der; dv[2] = d2; }
68	else { dv[0] = d2; dv[2] = der; }
69	}
70	if (dc & FXNEG) dv[0] = -dv[0];
71	if (dc & FYNEG) dv[1] = -dv[1];
72	if (dc & FZNEG) dv[2] = -dv[2];
73	}
74
75
76	double
77	dir2diff(dc1, dc2) /* approx. radians^2 between directions */
78	int4 dc1, dc2;
79	{
80	FVECT v1, v2;
81
82	decodedir(v1, dc1);
83	decodedir(v2, dc2);
84
85	return(2. - 2.*DOT(v1,v2));
86	}
87
88
89	double
90	fdir2diff(dc1, v2) /* approx. radians^2 between directions */
91	int4 dc1;
92	register FVECT v2;
93	{
94	FVECT v1;
95
96	decodedir(v1, dc1);
97
98	return(2. - 2.*DOT(v1,v2));
99	}