src/common/clip.c

/* Copyright (c) 1993 Regents of the University of California */

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

/*
 *  clip.c - routine to clip 3D line segments to a box.
 *
 *     8/28/85
 */

#include  "fvect.h"

#include  "plocate.h"

#define MAXITER         6       /* maximum possible number of iterations */


clip(ep1, ep2, min, max)        /* clip a line segment to a box */
FLOAT  *ep1, *ep2;
FVECT  min, max;
{
        int  itlim = MAXITER;
        int  loc1, loc2;
        int  accept;
        FLOAT  *dp;
        double  d;
        register int  i, j;

        /*
         *      The Cohen-Sutherland algorithm is used to determine
         *  what part (if any) of the given line segment is contained
         *  in the box specified by the min and max vectors.
         *      The routine returns non-zero if any segment is left.
         */
        
        loc1 = plocate(ep1, min, max);
        loc2 = plocate(ep2, min, max);

                        /* check for trivial accept and reject */
                        /* trivial accept is both points inside */
                        /* trivial reject is both points to one side */
        
        while (!((accept = !(loc1 | loc2)) || (loc1 & loc2))) {
        
                if (itlim-- <= 0)       /* past theoretical limit? */
                        return(0);      /* quit fooling around */

                if (!loc1) {            /* make sure first point is outside */
                        dp = ep1; ep1 = ep2; ep2 = dp;
                        i = loc1; loc1 = loc2; loc2 = i;
                }
                
                for (i = 0; i < 3; i++) {               /* chop segment */
                        
                        if (loc1 & position(i) & BELOW) {
                                d = (min[i] - ep1[i])/(ep2[i] - ep1[i]);
                                ep1[i] = min[i];
                        } else if (loc1 & position(i) & ABOVE) {
                                d = (max[i] - ep1[i])/(ep2[i] - ep1[i]);
                                ep1[i] = max[i];
                        } else
                                continue;
                        
                        for (j = 0; j < 3; j++)
                                if (j != i)
                                        ep1[j] += (ep2[j] - ep1[j])*d;
                        break;
                }
                loc1 = plocate(ep1, min, max);
        }
        return(accept);
}
Revision:	2.2
Committed:	Sun Dec 19 22:49:28 1993 UTC (31 years, 10 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.1:	+7 -1 lines
Log Message:	fixed 1 in 1e9 bug caused by point on boundary of cube
#	User	Rev	Content
1	greg	2.2	/* Copyright (c) 1993 Regents of the University of California */
2	greg	1.1
3			#ifndef lint
4			static char SCCSid[] = "$SunId$ LBL";
5			#endif
6
7			/*
8			* clip.c - routine to clip 3D line segments to a box.
9			*
10			* 8/28/85
11			*/
12
13	greg	1.2	#include "fvect.h"
14
15	greg	1.1	#include "plocate.h"
16
17	greg	2.2	#define MAXITER 6 /* maximum possible number of iterations */
18	greg	1.1
19	greg	2.2
20	greg	1.1	clip(ep1, ep2, min, max) /* clip a line segment to a box */
21	greg	1.2	FLOAT ep1, ep2;
22			FVECT min, max;
23	greg	1.1	{
24	greg	2.2	int itlim = MAXITER;
25	greg	1.1	int loc1, loc2;
26			int accept;
27	greg	1.2	FLOAT *dp;
28	greg	1.1	double d;
29			register int i, j;
30
31			/*
32			* The Cohen-Sutherland algorithm is used to determine
33			* what part (if any) of the given line segment is contained
34			* in the box specified by the min and max vectors.
35			* The routine returns non-zero if any segment is left.
36			*/
37
38			loc1 = plocate(ep1, min, max);
39			loc2 = plocate(ep2, min, max);
40
41			/* check for trivial accept and reject */
42			/* trivial accept is both points inside */
43			/* trivial reject is both points to one side */
44
45			while (!((accept = !(loc1 \| loc2)) \|\| (loc1 & loc2))) {
46
47	greg	2.2	if (itlim-- <= 0) /* past theoretical limit? */
48			return(0); /* quit fooling around */
49
50	greg	1.1	if (!loc1) { /* make sure first point is outside */
51			dp = ep1; ep1 = ep2; ep2 = dp;
52			i = loc1; loc1 = loc2; loc2 = i;
53			}
54
55			for (i = 0; i < 3; i++) { /* chop segment */
56
57			if (loc1 & position(i) & BELOW) {
58			d = (min[i] - ep1[i])/(ep2[i] - ep1[i]);
59			ep1[i] = min[i];
60			} else if (loc1 & position(i) & ABOVE) {
61			d = (max[i] - ep1[i])/(ep2[i] - ep1[i]);
62			ep1[i] = max[i];
63			} else
64			continue;
65
66			for (j = 0; j < 3; j++)
67			if (j != i)
68			ep1[j] += (ep2[j] - ep1[j])*d;
69			break;
70			}
71			loc1 = plocate(ep1, min, max);
72			}
73			return(accept);
74			}