src/hd/dircode.c

/* Copyright (c) 1997 Silicon Graphics, Inc. */

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

/*
 * Compute 4-byte direction code (assume this fits into int)
 */

#include <math.h>
#include "fvect.h"

#ifndef int4
#define int4    int
#endif

#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 |= 1<<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;
        return(dc);
}


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

        d1 = ((dc>>F1SFT & FMASK)+.5)/DCSCALE;
        d2 = ((dc>>F2SFT & FMASK)+.5)/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:	3.2
Committed:	Wed Dec 24 11:24:58 1997 UTC (27 years, 5 months ago) by gregl
Content type:	text/plain
Branch:	MAIN
Changes since 3.1:	+1 -0 lines
Log Message:	added missing definition of sqrt()!
#	User	Rev	Content
1	gregl	3.1	/* Copyright (c) 1997 Silicon Graphics, Inc. */
2
3			#ifndef lint
4			static char SCCSid[] = "$SunId$ SGI";
5			#endif
6
7			/*
8			* Compute 4-byte direction code (assume this fits into int)
9			*/
10
11	gregl	3.2	#include <math.h>
12	gregl	3.1	#include "fvect.h"
13
14			#ifndef int4
15			#define int4 int
16			#endif
17
18			#define DCSCALE 11585.2 /* (1<<13)sqrt(2) /
19			#define FXNEG 01
20			#define FYNEG 02
21			#define FZNEG 04
22			#define F1X 010
23			#define F2Z 020
24			#define F1SFT 5
25			#define F2SFT 18
26			#define FMASK 0x1fff
27
28			int4
29			encodedir(dv) /* encode a normalized direction vector */
30			FVECT dv;
31			{
32			register int4 dc = 0;
33			int cd[3], cm;
34			register int i;
35
36			for (i = 0; i < 3; i++)
37			if (dv[i] < 0.) {
38			cd[i] = dv[i] * -DCSCALE;
39			dc \|= 1<<i;
40			} else
41			cd[i] = dv[i] * DCSCALE;
42			if (cd[0] <= cd[1]) {
43			dc \|= F1X \| cd[0] << F1SFT;
44			cm = cd[1];
45			} else {
46			dc \|= cd[1] << F1SFT;
47			cm = cd[0];
48			}
49			if (cd[2] <= cm)
50			dc \|= F2Z \| cd[2] << F2SFT;
51			else
52			dc \|= cm << F2SFT;
53			return(dc);
54			}
55
56
57			decodedir(dv, dc) /* decode a normalized direction vector */
58			register FVECT dv; /* returned */
59			register int4 dc;
60			{
61			double d1, d2, der;
62
63			d1 = ((dc>>F1SFT & FMASK)+.5)/DCSCALE;
64			d2 = ((dc>>F2SFT & FMASK)+.5)/DCSCALE;
65			der = sqrt(1. - d1d1 - d2d2);
66			if (dc & F1X) {
67			dv[0] = d1;
68			if (dc & F2Z) { dv[1] = der; dv[2] = d2; }
69			else { dv[1] = d2; dv[2] = der; }
70			} else {
71			dv[1] = d1;
72			if (dc & F2Z) { dv[0] = der; dv[2] = d2; }
73			else { dv[0] = d2; dv[2] = der; }
74			}
75			if (dc & FXNEG) dv[0] = -dv[0];
76			if (dc & FYNEG) dv[1] = -dv[1];
77			if (dc & FZNEG) dv[2] = -dv[2];
78			}
79
80
81			double
82			dir2diff(dc1, dc2) /* approx. radians^2 between directions */
83			int4 dc1, dc2;
84			{
85			FVECT v1, v2;
86
87			decodedir(v1, dc1);
88			decodedir(v2, dc2);
89
90			return(2. - 2.*DOT(v1,v2));
91			}
92
93
94			double
95			fdir2diff(dc1, v2) /* approx. radians^2 between directions */
96			int4 dc1;
97			register FVECT v2;
98			{
99			FVECT v1;
100
101			decodedir(v1, dc1);
102
103			return(2. - 2.*DOT(v1,v2));
104			}