src/hd/rhdisp2.c

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

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

/*
 * Holodeck beam tracking for display process
 */

#include "rholo.h"
#include "rhdisp.h"
#include "rhdriver.h"

extern int      *getviewcells();

typedef struct {
        int     hd;             /* holodeck section number (-1 if inactive) */
        int     i[3];           /* voxel index (may be outside section) */
} VOXL;                 /* a voxel */

static VOXL voxel[8] = {        /* current voxel list */
        {-1}, {-1}, {-1}, {-1},
        {-1}, {-1}, {-1}, {-1}
};

#define CBEAMBLK        1024    /* cbeam allocation block size */

static struct beamcomp {
        short   wants;          /* flags telling which voxels want us */
        short   hd;             /* holodeck section number */
        int     bi;             /* beam index */
} *cbeam = NULL;        /* current beam list */

static int      ncbeams = 0;    /* number of sorted beams in cbeam */
static int      xcbeams = 0;    /* extra (unregistered) beams past ncbeams */
static int      maxcbeam = 0;   /* size of cbeam array */

struct cellact {
        short   vi;             /* voxel index */
        short   add;            /* zero means delete */
};              /* action for cell */

struct beamact {
        struct cellact  ca;     /* cell action */
        GCOORD  gc;             /* grid coordinate */
};              /* beam origin and action */


int
newcbeam()              /* allocate new entry at end of cbeam array */
{
        int     i;

        if ((i = ncbeams + xcbeams++) >= maxcbeam) {    /* grow array */
                maxcbeam += CBEAMBLK;
                if (cbeam == NULL)
                        cbeam = (struct beamcomp *)malloc(
                                        maxcbeam*sizeof(struct beamcomp) );
                else
                        cbeam = (struct beamcomp *)realloc( (char *)cbeam,
                                        maxcbeam*sizeof(struct beamcomp) );
                if (cbeam == NULL)
                        error(SYSTEM, "out of memory in newcbeam");
        }
        return(i);
}


int
cbeamcmp(cb1, cb2)      /* compare two cbeam entries for sort: keep orphans */
register struct beamcomp        *cb1, *cb2;
{
        register int    c;

        if ((c = cb1->bi - cb2->bi))    /* sort on beam index first */
                return(c);
        return(cb1->hd - cb2->hd);      /* use hd to resolve matches */
}


int
cbeamcmp2(cb1, cb2)     /* compare two cbeam entries for sort: no orphans */
register struct beamcomp        *cb1, *cb2;
{
        register int    c;

        if (!cb1->wants)                /* put orphans at the end, unsorted */
                return(cb2->wants);
        if ((c = cb1->bi - cb2->bi))    /* sort on beam index first */
                return(c);
        return(cb1->hd - cb2->hd);      /* use hd to resolve matches */
}


int
findcbeam(hd, bi)       /* find the specified beam in our sorted list */
int     hd, bi;
{
        struct beamcomp cb;
        register struct beamcomp        *p;

        if (ncbeams <= 0)
                return(-1);
        cb.wants = 0; cb.hd = hd; cb.bi = bi;
        p = (struct beamcomp *)bsearch((char *)&cb, (char *)cbeam, ncbeams,
                        sizeof(struct beamcomp), cbeamcmp);
        if (p == NULL)
                return(-1);
        return(p - cbeam);
}


int
getcbeam(hd, bi)        /* get the specified beam, allocating as necessary */
register int    hd;
int     bi;
{
        register int    n;
                                /* first, look in sorted list */
        if ((n = findcbeam(hd, bi)) >= 0)
                return(n);
                                /* linear search through xcbeams to be sure */
        for (n = ncbeams+xcbeams; n-- > ncbeams; )
                if (cbeam[n].bi == bi && cbeam[n].hd == hd)
                        return(n);
                                /* check legality */
        if (hd < 0 | hd >= HDMAX || hdlist[hd] == NULL)
                error(INTERNAL, "illegal holodeck number in getcbeam");
        if (bi < 1 | bi > nbeams(hdlist[hd]))
                error(INTERNAL, "illegal beam index in getcbeam");
        n = newcbeam();         /* allocate and assign */
        cbeam[n].wants = 0; cbeam[n].hd = hd; cbeam[n].bi = bi;
        return(n);
}


cbeamsort(adopt)        /* sort our beam list, possibly turning out orphans */
int     adopt;
{
        register int    i;

        if (!(ncbeams += xcbeams))
                return;
        xcbeams = 0;
        qsort((char *)cbeam, ncbeams, sizeof(struct beamcomp),
                        adopt ? cbeamcmp : cbeamcmp2);
        if (adopt)
                return;
        for (i = ncbeams; i--; )        /* identify orphans */
                if (cbeam[i].wants)
                        break;
        xcbeams = ncbeams - ++i;        /* put orphans after ncbeams */
        ncbeams = i;
}


cbeamadd(bl, n, v, hr, vr)      /* add beams to server list */
register struct beamcomp        *bl;
int     n;
VIEW    *v;
int     hr, vr;
{
        register PACKHEAD       *pa;
        register int    i;

        if (n <= 0)
                return;
        pa = (PACKHEAD *)malloc(n*sizeof(PACKHEAD));
        if (pa == NULL)
                error(SYSTEM, "out of memory in cbeamadd");
        for (i = 0; i < n; i++)
                pa[i].nr = npixels(v, hr, vr,
                                hdlist[pa[i].hd=bl[i].hd],
                                pa[i].bi=bl[i].bi) / 8;

        serv_request(DR_ADDSET, n*sizeof(PACKHEAD), (char *)pa);
        free((char *)pa);
}


cbeamdel(bl, n)         /* delete unwanted beam requests */
register struct beamcomp        *bl;
int     n;
{
        register PACKHEAD       *pa;
        register int    i;

        if (n <= 0)
                return;
        pa = (PACKHEAD *)malloc(n*sizeof(PACKHEAD));
        if (pa == NULL)
                error(SYSTEM, "out of memory in cbeamdel");
        for (i = 0; i < n; i++) {
                pa[i].hd = bl[i].hd;
                pa[i].bi = bl[i].bi;
                pa[i].nr = 0;           /* removes any request */
        }
        serv_request(DR_DELSET, n*sizeof(PACKHEAD), (char *)pa);
        free((char *)pa);
}


int
set_voxels(vl, n)       /* set new voxel array */
VOXL    vl[8];
int     n;
{
        short   wmap[256];
        int     vmap[8];
        int     comn = 0;
        int     no;
        register int    i, j;
                                        /* find common voxels */
        for (j = 0; j < 8 && voxel[j].hd >= 0; j++) {
                vmap[j] = -1;
                for (i = n; i--; )
                        if (!bcmp((char *)(vl+i), (char *)(voxel+j),
                                        sizeof(VOXL))) {
                                vmap[j] = i;
                                comn |= 1<<i;
                                break;
                        }
        }
        no = comn ? j : 0;              /* compute flag mapping */
        for (i = 256; i--; ) {
                wmap[i] = 0;
                for (j = no; j--; )
                        if (vmap[j] >= 0 && i & 1<<j)
                                wmap[i] |= 1<<vmap[j];
        }
                                        /* fix cbeam flags */
        for (i = ncbeams; i--; )
                cbeam[i].wants = wmap[cbeam[i].wants];
                                        /* update our voxel list */
        bcopy((char *)vl, (char *)voxel, n*sizeof(VOXL));
        for (j = n; j < 8; j++)
                voxel[j].hd = -1;
        return(comn);                   /* return bit array of common voxels */
}


int
get_voxels(vl, vp)      /* find voxels corresponding to view point */
VOXL    vl[8];
FVECT   vp;
{
        int     n = 0;
        FVECT   gp;
        double  d;
        int     dist, bestd = 0x7fff;
        VOXL    vox;
        register int    i, j, k;
                                        /* find closest voxels */
        for (i = 0; n < 8 && hdlist[i]; i++) {
                hdgrid(gp, hdlist[i], vp);
                for (j = 0; n < 8 && j < 8; j++) {
                        dist = 0;
                        for (k = 0; k < 3; k++) {
                                d = gp[k] - .5 + (j>>k & 1);
                                if (d < 0.)
                                        dist += -(vox.i[k] = (int)d - 1);
                                else if ((vox.i[k] = d) >= hdlist[i]->grid[k])
                                        dist += vox.i[k] -
                                                        hdlist[i]->grid[k] + 1;
                        }
                        if (dist > bestd)       /* others were closer */
                                continue;
                        if (dist < bestd) {     /* start closer list */
                                n = 0;
                                bestd = dist;
                        }
                        vox.hd = i;             /* add this voxel */
                        copystruct(&vl[n], &vox);
                        n++;
                }
        }
        return(n);
}


int
dobeam(gcp, bp)         /* express interest or disintrest in a beam */
GCOORD  *gcp;
register struct beamact *bp;
{
        GCOORD  gc[2];
        int     bi, i;
                                        /* compute beam index */
        copystruct(gc, gcp);
        copystruct(gc+1, &bp->gc);
        if ((bi = hdbindex(hdlist[voxel[bp->ca.vi].hd], gc)) <= 0)
                error(CONSISTENCY, "bad grid coordinate in dobeam");
        if (bp->ca.add) {               /* add it in */
                i = getcbeam(voxel[bp->ca.vi].hd, bi);
                cbeam[i].wants |= 1<<bp->ca.vi; /* say we want it */
                return(i == ncbeams+xcbeams-1); /* return 1 if totally new */
        }
                                        /* else delete it */
        i = findcbeam(voxel[bp->ca.vi].hd, bi);
        if (i >= 0 && cbeam[i].wants & 1<<bp->ca.vi) {
                cbeam[i].wants &= ~(1<<bp->ca.vi);      /* we don't want it */
                return(1);                      /* indicate change */
        }
        return(0);
}


int
docell(gcp, cap)        /* find beams corresponding to cell and voxel */
GCOORD  *gcp;
register struct cellact *cap;
{
        FVECT   org, dir[4];
        FVECT   gp, cv[4], vc;
        struct beamact  bo;
        register int    i;
                                /* compute cell vertices */
        hdcell(cv, hdlist[voxel[cap->vi].hd], gcp);
                                /* compute cell and voxel centers */
        for (i = 0; i < 3; i++) {
                org[i] = 0.5*(cv[0][i] + cv[2][i]);
                gp[i] = voxel[cap->vi].i[i] + 0.5;
        }
        hdworld(vc, hdlist[voxel[cap->vi].hd], gp);
                                /* compute voxel pyramid using vector trick */
        for (i = 0; i < 3; i++) {
                dir[0][i] = vc[i] - cv[0][i];           /* to 3 */
                dir[2][i] = vc[i] - cv[3][i];           /* to 0 */
                if (gcp->w & 1) {       /* watch vertex order! */
                        dir[1][i] = vc[i] - cv[2][i];   /* to 1 */
                        dir[3][i] = vc[i] - cv[1][i];   /* to 2 */
                } else {
                        dir[1][i] = vc[i] - cv[1][i];   /* to 2 */
                        dir[3][i] = vc[i] - cv[2][i];   /* to 1 */
                }
        }
                                /* visit beams for opposite cells */
        copystruct(&bo.ca, cap);
        copystruct(&bo.gc, gcp);
        return(visit_cells(org, dir, hdlist[voxel[cap->vi].hd], dobeam, &bo));
}


int
doview(cap, vp)                 /* visit cells for a given view */
struct cellact  *cap;
VIEW    *vp;
{
        FVECT   org, dir[4];
                                        /* compute view pyramid */
        if (vp->type == VT_PAR) goto viewerr;
        if (viewray(org, dir[0], vp, 0., 0.) < -FTINY) goto viewerr;
        if (viewray(org, dir[1], vp, 0., 1.) < -FTINY) goto viewerr;
        if (viewray(org, dir[2], vp, 1., 1.) < -FTINY) goto viewerr;
        if (viewray(org, dir[3], vp, 1., 0.) < -FTINY) goto viewerr;
                                        /* visit cells within pyramid */
        return(visit_cells(org, dir, hdlist[voxel[cap->vi].hd], docell, cap));
viewerr:
        error(INTERNAL, "unusable view in doview");
}


mvview(voxi, vold, vnew)        /* move view for a voxel */
int     voxi;
VIEW    *vold, *vnew;
{
        int     netchange = 0;
        int     *ocl, *ncl;
        struct cellact  ca;
        int     ocnt, ncnt;
        int     c;
        register GCOORD *ogcp, *ngcp;
                                /* get old and new cell lists */
        ocl = getviewcells(hdlist[voxel[voxi].hd], vold);
        ncl = getviewcells(hdlist[voxel[voxi].hd], vnew);
        if (ocl != NULL) {
                ocnt = *ocl; ogcp = (GCOORD *)(ocl+1);
        } else {
                ocnt = 0; ogcp = NULL;
        }
        if (ncl != NULL) {
                ncnt = *ncl; ngcp = (GCOORD *)(ncl+1);
        } else {
                ncnt = 0; ngcp = NULL;
        }
        ca.vi = voxi;           /* add and delete cells */
        while (ocnt > 0 & ncnt > 0)
                if ((c = cellcmp(ogcp, ngcp)) > 0) {
                        ca.add = 1;             /* new cell */
                        netchange += docell(ngcp++, &ca);
                        ncnt--;
                } else if (c < 0) {
                        ca.add = 0;             /* obsolete cell */
                        netchange -= docell(ogcp++, &ca);
                        ocnt--;
                } else {
                        ogcp++; ocnt--;         /* unchanged cell */
                        ngcp++; ncnt--;
                }
                                /* take care of list tails */
        for (ca.add = 1; ncnt > 0; ncnt--)
                netchange += docell(ngcp++, &ca);
        for (ca.add = 0; ocnt > 0; ocnt--)
                netchange -= docell(ogcp++, &ca);
                                /* clean up */
        if (ocl != NULL) free((char *)ocl);
        if (ncl != NULL) free((char *)ncl);
        return(netchange);
}


beam_view(vo, vn)       /* change beam view */
VIEW    *vo, *vn;
{
        struct cellact  ca;
        VOXL    vlnew[8];
        int     n, comn;

        if (!vn->type) {                /* clear our beam list */
                set_voxels(vlnew, 0);
                cbeamdel(cbeam, ncbeams);
                ncbeams = 0;
                return;
        }
                                        /* find our new voxels */
        n = get_voxels(vlnew, vn->vp);
                                        /* set the new voxels */
        comn = set_voxels(vlnew, n);
        if (!vo->type)
                comn = 0;
        ca.add = 1;                     /* update our beam list */
        for (ca.vi = n; ca.vi--; )
                if (comn & 1<<ca.vi)    /* change which cells we see */
                        mvview(ca.vi, vo, vn);
                else                    /* else add all new cells */
                        doview(&ca, vn);
                                        /* inform server of new beams */
        cbeamadd(cbeam+ncbeams, xcbeams, vn, odev.hres, odev.vres);
                                        /* sort list to put orphans at end */
        cbeamsort(0);
                                        /* tell server to delete orphans */
        cbeamdel(cbeam+ncbeams, xcbeams);
        xcbeams = 0;                    /* truncate our list */
}
Revision:	3.2
Committed:	Thu Nov 20 14:46:07 1997 UTC (26 years, 5 months ago) by gregl
Content type:	text/plain
Branch:	MAIN
Changes since 3.1:	+5 -7 lines
Log Message:	added consistency check
#	Content
1	/* Copyright (c) 1997 Silicon Graphics, Inc. */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ SGI";
5	#endif
6
7	/*
8	* Holodeck beam tracking for display process
9	*/
10
11	#include "rholo.h"
12	#include "rhdisp.h"
13	#include "rhdriver.h"
14
15	extern int *getviewcells();
16
17	typedef struct {
18	int hd; /* holodeck section number (-1 if inactive) */
19	int i[3]; /* voxel index (may be outside section) */
20	} VOXL; /* a voxel */
21
22	static VOXL voxel[8] = { /* current voxel list */
23	{-1}, {-1}, {-1}, {-1},
24	{-1}, {-1}, {-1}, {-1}
25	};
26
27	#define CBEAMBLK 1024 /* cbeam allocation block size */
28
29	static struct beamcomp {
30	short wants; /* flags telling which voxels want us */
31	short hd; /* holodeck section number */
32	int bi; /* beam index */
33	} cbeam = NULL; / current beam list */
34
35	static int ncbeams = 0; /* number of sorted beams in cbeam */
36	static int xcbeams = 0; /* extra (unregistered) beams past ncbeams */
37	static int maxcbeam = 0; /* size of cbeam array */
38
39	struct cellact {
40	short vi; /* voxel index */
41	short add; /* zero means delete */
42	}; /* action for cell */
43
44	struct beamact {
45	struct cellact ca; /* cell action */
46	GCOORD gc; /* grid coordinate */
47	}; /* beam origin and action */
48
49
50	int
51	newcbeam() /* allocate new entry at end of cbeam array */
52	{
53	int i;
54
55	if ((i = ncbeams + xcbeams++) >= maxcbeam) { /* grow array */
56	maxcbeam += CBEAMBLK;
57	if (cbeam == NULL)
58	cbeam = (struct beamcomp *)malloc(
59	maxcbeam*sizeof(struct beamcomp) );
60	else
61	cbeam = (struct beamcomp )realloc( (char )cbeam,
62	maxcbeam*sizeof(struct beamcomp) );
63	if (cbeam == NULL)
64	error(SYSTEM, "out of memory in newcbeam");
65	}
66	return(i);
67	}
68
69
70	int
71	cbeamcmp(cb1, cb2) /* compare two cbeam entries for sort: keep orphans */
72	register struct beamcomp cb1, cb2;
73	{
74	register int c;
75
76	if ((c = cb1->bi - cb2->bi)) /* sort on beam index first */
77	return(c);
78	return(cb1->hd - cb2->hd); /* use hd to resolve matches */
79	}
80
81
82	int
83	cbeamcmp2(cb1, cb2) /* compare two cbeam entries for sort: no orphans */
84	register struct beamcomp cb1, cb2;
85	{
86	register int c;
87
88	if (!cb1->wants) /* put orphans at the end, unsorted */
89	return(cb2->wants);
90	if ((c = cb1->bi - cb2->bi)) /* sort on beam index first */
91	return(c);
92	return(cb1->hd - cb2->hd); /* use hd to resolve matches */
93	}
94
95
96	int
97	findcbeam(hd, bi) /* find the specified beam in our sorted list */
98	int hd, bi;
99	{
100	struct beamcomp cb;
101	register struct beamcomp *p;
102
103	if (ncbeams <= 0)
104	return(-1);
105	cb.wants = 0; cb.hd = hd; cb.bi = bi;
106	p = (struct beamcomp )bsearch((char )&cb, (char *)cbeam, ncbeams,
107	sizeof(struct beamcomp), cbeamcmp);
108	if (p == NULL)
109	return(-1);
110	return(p - cbeam);
111	}
112
113
114	int
115	getcbeam(hd, bi) /* get the specified beam, allocating as necessary */
116	register int hd;
117	int bi;
118	{
119	register int n;
120	/* first, look in sorted list */
121	if ((n = findcbeam(hd, bi)) >= 0)
122	return(n);
123	/* linear search through xcbeams to be sure */
124	for (n = ncbeams+xcbeams; n-- > ncbeams; )
125	if (cbeam[n].bi == bi && cbeam[n].hd == hd)
126	return(n);
127	/* check legality */
128	if (hd < 0 \| hd >= HDMAX \|\| hdlist[hd] == NULL)
129	error(INTERNAL, "illegal holodeck number in getcbeam");
130	if (bi < 1 \| bi > nbeams(hdlist[hd]))
131	error(INTERNAL, "illegal beam index in getcbeam");
132	n = newcbeam(); /* allocate and assign */
133	cbeam[n].wants = 0; cbeam[n].hd = hd; cbeam[n].bi = bi;
134	return(n);
135	}
136
137
138	cbeamsort(adopt) /* sort our beam list, possibly turning out orphans */
139	int adopt;
140	{
141	register int i;
142
143	if (!(ncbeams += xcbeams))
144	return;
145	xcbeams = 0;
146	qsort((char *)cbeam, ncbeams, sizeof(struct beamcomp),
147	adopt ? cbeamcmp : cbeamcmp2);
148	if (adopt)
149	return;
150	for (i = ncbeams; i--; ) /* identify orphans */
151	if (cbeam[i].wants)
152	break;
153	xcbeams = ncbeams - ++i; /* put orphans after ncbeams */
154	ncbeams = i;
155	}
156
157
158	cbeamadd(bl, n, v, hr, vr) /* add beams to server list */
159	register struct beamcomp *bl;
160	int n;
161	VIEW *v;
162	int hr, vr;
163	{
164	register PACKHEAD *pa;
165	register int i;
166
167	if (n <= 0)
168	return;
169	pa = (PACKHEAD )malloc(nsizeof(PACKHEAD));
170	if (pa == NULL)
171	error(SYSTEM, "out of memory in cbeamadd");
172	for (i = 0; i < n; i++)
173	pa[i].nr = npixels(v, hr, vr,
174	hdlist[pa[i].hd=bl[i].hd],
175	pa[i].bi=bl[i].bi) / 8;
176
177	serv_request(DR_ADDSET, nsizeof(PACKHEAD), (char )pa);
178	free((char *)pa);
179	}
180
181
182	cbeamdel(bl, n) /* delete unwanted beam requests */
183	register struct beamcomp *bl;
184	int n;
185	{
186	register PACKHEAD *pa;
187	register int i;
188
189	if (n <= 0)
190	return;
191	pa = (PACKHEAD )malloc(nsizeof(PACKHEAD));
192	if (pa == NULL)
193	error(SYSTEM, "out of memory in cbeamdel");
194	for (i = 0; i < n; i++) {
195	pa[i].hd = bl[i].hd;
196	pa[i].bi = bl[i].bi;
197	pa[i].nr = 0; /* removes any request */
198	}
199	serv_request(DR_DELSET, nsizeof(PACKHEAD), (char )pa);
200	free((char *)pa);
201	}
202
203
204	int
205	set_voxels(vl, n) /* set new voxel array */
206	VOXL vl[8];
207	int n;
208	{
209	short wmap[256];
210	int vmap[8];
211	int comn = 0;
212	int no;
213	register int i, j;
214	/* find common voxels */
215	for (j = 0; j < 8 && voxel[j].hd >= 0; j++) {
216	vmap[j] = -1;
217	for (i = n; i--; )
218	if (!bcmp((char )(vl+i), (char )(voxel+j),
219	sizeof(VOXL))) {
220	vmap[j] = i;
221	comn \|= 1<<i;
222	break;
223	}
224	}
225	no = comn ? j : 0; /* compute flag mapping */
226	for (i = 256; i--; ) {
227	wmap[i] = 0;
228	for (j = no; j--; )
229	if (vmap[j] >= 0 && i & 1<<j)
230	wmap[i] \|= 1<<vmap[j];
231	}
232	/* fix cbeam flags */
233	for (i = ncbeams; i--; )
234	cbeam[i].wants = wmap[cbeam[i].wants];
235	/* update our voxel list */
236	bcopy((char )vl, (char )voxel, n*sizeof(VOXL));
237	for (j = n; j < 8; j++)
238	voxel[j].hd = -1;
239	return(comn); /* return bit array of common voxels */
240	}
241
242
243	int
244	get_voxels(vl, vp) /* find voxels corresponding to view point */
245	VOXL vl[8];
246	FVECT vp;
247	{
248	int n = 0;
249	FVECT gp;
250	double d;
251	int dist, bestd = 0x7fff;
252	VOXL vox;
253	register int i, j, k;
254	/* find closest voxels */
255	for (i = 0; n < 8 && hdlist[i]; i++) {
256	hdgrid(gp, hdlist[i], vp);
257	for (j = 0; n < 8 && j < 8; j++) {
258	dist = 0;
259	for (k = 0; k < 3; k++) {
260	d = gp[k] - .5 + (j>>k & 1);
261	if (d < 0.)
262	dist += -(vox.i[k] = (int)d - 1);
263	else if ((vox.i[k] = d) >= hdlist[i]->grid[k])
264	dist += vox.i[k] -
265	hdlist[i]->grid[k] + 1;
266	}
267	if (dist > bestd) /* others were closer */
268	continue;
269	if (dist < bestd) { /* start closer list */
270	n = 0;
271	bestd = dist;
272	}
273	vox.hd = i; /* add this voxel */
274	copystruct(&vl[n], &vox);
275	n++;
276	}
277	}
278	return(n);
279	}
280
281
282	int
283	dobeam(gcp, bp) /* express interest or disintrest in a beam */
284	GCOORD *gcp;
285	register struct beamact *bp;
286	{
287	GCOORD gc[2];
288	int bi, i;
289	/* compute beam index */
290	copystruct(gc, gcp);
291	copystruct(gc+1, &bp->gc);
292	if ((bi = hdbindex(hdlist[voxel[bp->ca.vi].hd], gc)) <= 0)
293	error(CONSISTENCY, "bad grid coordinate in dobeam");
294	if (bp->ca.add) { /* add it in */
295	i = getcbeam(voxel[bp->ca.vi].hd, bi);
296	cbeam[i].wants \|= 1<<bp->ca.vi; /* say we want it */
297	return(i == ncbeams+xcbeams-1); /* return 1 if totally new */
298	}
299	/* else delete it */
300	i = findcbeam(voxel[bp->ca.vi].hd, bi);
301	if (i >= 0 && cbeam[i].wants & 1<<bp->ca.vi) {
302	cbeam[i].wants &= ~(1<<bp->ca.vi); /* we don't want it */
303	return(1); /* indicate change */
304	}
305	return(0);
306	}
307
308
309
310	int
311	docell(gcp, cap) /* find beams corresponding to cell and voxel */
312	GCOORD *gcp;
313	register struct cellact *cap;
314	{
315	FVECT org, dir[4];
316	FVECT gp, cv[4], vc;
317	struct beamact bo;
318	register int i;
319	/* compute cell vertices */
320	hdcell(cv, hdlist[voxel[cap->vi].hd], gcp);
321	/* compute cell and voxel centers */
322	for (i = 0; i < 3; i++) {
323	org[i] = 0.5*(cv[0][i] + cv[2][i]);
324	gp[i] = voxel[cap->vi].i[i] + 0.5;
325	}
326	hdworld(vc, hdlist[voxel[cap->vi].hd], gp);
327	/* compute voxel pyramid using vector trick */
328	for (i = 0; i < 3; i++) {
329	dir[0][i] = vc[i] - cv[0][i]; /* to 3 */
330	dir[2][i] = vc[i] - cv[3][i]; /* to 0 */
331	if (gcp->w & 1) { /* watch vertex order! */
332	dir[1][i] = vc[i] - cv[2][i]; /* to 1 */
333	dir[3][i] = vc[i] - cv[1][i]; /* to 2 */
334	} else {
335	dir[1][i] = vc[i] - cv[1][i]; /* to 2 */
336	dir[3][i] = vc[i] - cv[2][i]; /* to 1 */
337	}
338	}
339	/* visit beams for opposite cells */
340	copystruct(&bo.ca, cap);
341	copystruct(&bo.gc, gcp);
342	return(visit_cells(org, dir, hdlist[voxel[cap->vi].hd], dobeam, &bo));
343	}
344
345
346	int
347	doview(cap, vp) /* visit cells for a given view */
348	struct cellact *cap;
349	VIEW *vp;
350	{
351	FVECT org, dir[4];
352	/* compute view pyramid */
353	if (vp->type == VT_PAR) goto viewerr;
354	if (viewray(org, dir[0], vp, 0., 0.) < -FTINY) goto viewerr;
355	if (viewray(org, dir[1], vp, 0., 1.) < -FTINY) goto viewerr;
356	if (viewray(org, dir[2], vp, 1., 1.) < -FTINY) goto viewerr;
357	if (viewray(org, dir[3], vp, 1., 0.) < -FTINY) goto viewerr;
358	/* visit cells within pyramid */
359	return(visit_cells(org, dir, hdlist[voxel[cap->vi].hd], docell, cap));
360	viewerr:
361	error(INTERNAL, "unusable view in doview");
362	}
363
364
365	mvview(voxi, vold, vnew) /* move view for a voxel */
366	int voxi;
367	VIEW vold, vnew;
368	{
369	int netchange = 0;
370	int ocl, ncl;
371	struct cellact ca;
372	int ocnt, ncnt;
373	int c;
374	register GCOORD ogcp, ngcp;
375	/* get old and new cell lists */
376	ocl = getviewcells(hdlist[voxel[voxi].hd], vold);
377	ncl = getviewcells(hdlist[voxel[voxi].hd], vnew);
378	if (ocl != NULL) {
379	ocnt = ocl; ogcp = (GCOORD )(ocl+1);
380	} else {
381	ocnt = 0; ogcp = NULL;
382	}
383	if (ncl != NULL) {
384	ncnt = ncl; ngcp = (GCOORD )(ncl+1);
385	} else {
386	ncnt = 0; ngcp = NULL;
387	}
388	ca.vi = voxi; /* add and delete cells */
389	while (ocnt > 0 & ncnt > 0)
390	if ((c = cellcmp(ogcp, ngcp)) > 0) {
391	ca.add = 1; /* new cell */
392	netchange += docell(ngcp++, &ca);
393	ncnt--;
394	} else if (c < 0) {
395	ca.add = 0; /* obsolete cell */
396	netchange -= docell(ogcp++, &ca);
397	ocnt--;
398	} else {
399	ogcp++; ocnt--; /* unchanged cell */
400	ngcp++; ncnt--;
401	}
402	/* take care of list tails */
403	for (ca.add = 1; ncnt > 0; ncnt--)
404	netchange += docell(ngcp++, &ca);
405	for (ca.add = 0; ocnt > 0; ocnt--)
406	netchange -= docell(ogcp++, &ca);
407	/* clean up */
408	if (ocl != NULL) free((char *)ocl);
409	if (ncl != NULL) free((char *)ncl);
410	return(netchange);
411	}
412
413
414	beam_view(vo, vn) /* change beam view */
415	VIEW vo, vn;
416	{
417	struct cellact ca;
418	VOXL vlnew[8];
419	int n, comn;
420
421	if (!vn->type) { /* clear our beam list */
422	set_voxels(vlnew, 0);
423	cbeamdel(cbeam, ncbeams);
424	ncbeams = 0;
425	return;
426	}
427	/* find our new voxels */
428	n = get_voxels(vlnew, vn->vp);
429	/* set the new voxels */
430	comn = set_voxels(vlnew, n);
431	if (!vo->type)
432	comn = 0;
433	ca.add = 1; /* update our beam list */
434	for (ca.vi = n; ca.vi--; )
435	if (comn & 1<<ca.vi) /* change which cells we see */
436	mvview(ca.vi, vo, vn);
437	else /* else add all new cells */
438	doview(&ca, vn);
439	/* inform server of new beams */
440	cbeamadd(cbeam+ncbeams, xcbeams, vn, odev.hres, odev.vres);
441	/* sort list to put orphans at end */
442	cbeamsort(0);
443	/* tell server to delete orphans */
444	cbeamdel(cbeam+ncbeams, xcbeams);
445	xcbeams = 0; /* truncate our list */
446	}