[ViewVC] Diff of: radiance/ray/src/common/fvect.c

Comparing ray/src/common/fvect.c (file contents):
Revision 2.3 by greg, Fri Dec 10 09:53:30 1993 UTC vs.
Revision 2.14 by greg, Tue Apr 19 21:31:22 2011 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	<	* fvect.c - routines for float vector calculations
9	<	*
10	<	* 8/14/85
5	>	* fvect.c - routines for floating-point vector calculations
6		*/
7
8	+	#include "copyright.h"
9	+
10		#include <math.h>
11		#include "fvect.h"
12
13
14		double
15	<	fdot(v1, v2) /* return the dot product of two vectors */
16	<	register FVECT v1, v2;
15	>	fdot( /* return the dot product of two vectors */
16	>	const FVECT v1,
17	>	const FVECT v2
18	>	)
19		{
20		return(DOT(v1,v2));
21		}
22
23
24		double
25	<	dist2(p1, p2) /* return square of distance between points */
26	<	register FVECT p1, p2;
25	>	dist2( /* return square of distance between points */
26	>	const FVECT p1,
27	>	const FVECT p2
28	>	)
29		{
30	<	static FVECT delta;
30	>	FVECT delta;
31
32		delta[0] = p2[0] - p1[0];
33		delta[1] = p2[1] - p1[1];
34		delta[2] = p2[2] - p1[2];
35	+
36		return(DOT(delta, delta));
37		}
38
39
40		double
41	<	dist2line(p, ep1, ep2) /* return square of distance to line */
42	<	FVECT p; /* the point */
43	<	FVECT ep1, ep2; /* points on the line */
41	>	dist2line( /* return square of distance to line */
42	>	const FVECT p, /* the point */
43	>	const FVECT ep1,
44	>	const FVECT ep2 /* points on the line */
45	>	)
46		{
47	<	static double d, d1, d2;
47	>	double d, d1, d2;
48
49		d = dist2(ep1, ep2);
50		d1 = dist2(ep1, p);
51	<	d2 = dist2(ep2, p);
51	>	d2 = d + d1 - dist2(ep2, p);
52
53	<	return(d1 - (d+d1-d2)*(d+d1-d2)/d/4);
53	>	return(d1 - 0.25d2d2/d);
54		}
55
56
57		double
58	<	dist2lseg(p, ep1, ep2) /* return square of distance to line segment */
59	<	FVECT p; /* the point */
60	<	FVECT ep1, ep2; /* the end points */
58	>	dist2lseg( /* return square of distance to line segment */
59	>	const FVECT p, /* the point */
60	>	const FVECT ep1,
61	>	const FVECT ep2 /* the end points */
62	>	)
63		{
64	<	static double d, d1, d2;
64	>	double d, d1, d2;
65
66		d = dist2(ep1, ep2);
67		d1 = dist2(ep1, p);
#	Line 68 \| Line 74 \| *FVECT ep1, ep2; / the end points /*
74		if (d1 - d2 > d)
75		return(d2);
76		}
77	+	d2 = d + d1 - d2;
78
79	<	return(d1 - (d+d1-d2)(d+d1-d2)/d/4); / distance to line */
79	>	return(d1 - 0.25d2d2/d); /* distance to line */
80		}
81
82
83	<	fcross(vres, v1, v2) /* vres = v1 X v2 */
84	<	register FVECT vres, v1, v2;
83	>	void
84	>	fcross( /* vres = v1 X v2 */
85	>	FVECT vres,
86	>	const FVECT v1,
87	>	const FVECT v2
88	>	)
89		{
90		vres[0] = v1[1]v2[2] - v1[2]v2[1];
91		vres[1] = v1[2]v2[0] - v1[0]v2[2];
#	Line 82 \| Line 93 \| register FVECT vres, v1, v2;
93		}
94
95
96	<	fvsum(vres, v0, v1, f) /* vres = v0 + fv1 /
97	<	FVECT vres, v0, v1;
98	<	double f;
96	>	void
97	>	fvsum( /* vres = v0 + fv1 /
98	>	FVECT vres,
99	>	const FVECT v0,
100	>	const FVECT v1,
101	>	double f
102	>	)
103		{
104		vres[0] = v0[0] + f*v1[0];
105		vres[1] = v0[1] + f*v1[1];
#	Line 93 \| Line 108 \| double f;
108
109
110		double
111	<	normalize(v) /* normalize a vector, return old magnitude */
112	<	register FVECT v;
111	>	normalize( /* normalize a vector, return old magnitude */
112	>	FVECT v
113	>	)
114		{
115	<	static double len;
115	>	double len, d;
116
117	<	len = DOT(v, v);
117	>	d = DOT(v, v);
118
119	<	if (len <= 0.0)
119	>	if (d == 0.0)
120		return(0.0);
121
122	<	if (len <= 1.0+FTINY && len >= 1.0-FTINY)
123	<	len = 0.5 + 0.5len; / first order approximation */
124	<	else
125	<	len = sqrt(len);
122	>	if (d <= 1.0+FTINY && d >= 1.0-FTINY) {
123	>	len = 0.5 + 0.5d; / first order approximation */
124	>	d = 2.0 - len;
125	>	} else {
126	>	len = sqrt(d);
127	>	d = 1.0/len;
128	>	}
129	>	v[0] *= d;
130	>	v[1] *= d;
131	>	v[2] *= d;
132
111	–	v[0] /= len;
112	–	v[1] /= len;
113	–	v[2] /= len;
114	–
133		return(len);
134		}
135
136
137	<	spinvector(vres, vorig, vnorm, theta) /* rotate vector around normal */
138	<	FVECT vres, vorig, vnorm;
139	<	double theta;
137	>	int
138	>	closestapproach( /* closest approach of two rays */
139	>	RREAL t[2], /* returned distances along each ray */
140	>	const FVECT rorg0, /* first origin */
141	>	const FVECT rdir0, /* first direction (normalized) */
142	>	const FVECT rorg1, /* second origin */
143	>	const FVECT rdir1 /* second direction (normalized) */
144	>	)
145		{
146	+	double dotprod = DOT(rdir0, rdir1);
147	+	double denom = 1. - dotprod*dotprod;
148	+	double o1o2_d1;
149	+	FVECT o0o1;
150	+
151	+	if (denom <= FTINY) { /* check if lines are parallel */
152	+	t[0] = t[1] = 0.0;
153	+	return(0);
154	+	}
155	+	VSUB(o0o1, rorg0, rorg1);
156	+	o1o2_d1 = DOT(o0o1, rdir1);
157	+	t[0] = (o1o2_d1*dotprod - DOT(o0o1,rdir0)) / denom;
158	+	t[1] = o1o2_d1 + t[0]*dotprod;
159	+	return(1);
160	+	}
161	+
162	+
163	+	void
164	+	spinvector( /* rotate vector around normal */
165	+	FVECT vres, /* returned vector */
166	+	const FVECT vorig, /* original vector */
167	+	const FVECT vnorm, /* normalized vector for rotation */
168	+	double theta /* right-hand radians */
169	+	)
170	+	{
171		double sint, cost, normprod;
172		FVECT vperp;
173	<	register int i;
173	>	int i;
174
175		if (theta == 0.0) {
176		if (vres != vorig)

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Comparing ray/src/common/fvect.c (file contents): Revision 2.3 by greg, Fri Dec 10 09:53:30 1993 UTC vs. Revision 2.14 by greg, Tue Apr 19 21:31:22 2011 UTC

Diff Legend

Comparing ray/src/common/fvect.c (file contents):
Revision 2.3 by greg, Fri Dec 10 09:53:30 1993 UTC vs.
Revision 2.14 by greg, Tue Apr 19 21:31:22 2011 UTC