[ViewVC] Diff of: radiance/ray/src/hd/holo.c

Comparing ray/src/hd/holo.c (file contents):
Revision 3.1 by gregl, Fri Oct 31 10:23:29 1997 UTC vs.
Revision 3.6 by gregl, Tue Nov 11 17:03:28 1997 UTC

#	Line 16 \| Line 16 \| float hd_depthmap[DCINF-DCLIN];
16
17		static double logstep;
18
19	+	static int wg0[6] = {1,1,2,2,0,0};
20	+	static int wg1[6] = {2,2,0,0,1,1};
21
22	+
23		hdcompgrid(hp) /* compute derived grid vector and index */
24		register HOLO *hp;
25		{
23	–	FVECT AxB;
26		double d;
25	–	register FLOAT *v;
27		register int i, j;
28		/* initialize depth map */
29		if (hd_depthmap[0] < 1.) {
#	Line 35 \| Line 36 \| *register HOLO hp;**
36		}
37		/* compute grid coordinate vectors */
38		for (i = 0; i < 3; i++) {
39	<	fcross(AxB, hp->xv[(i+1)%3], v=hp->xv[(i+2)%3]);
39	<	VCOPY(hp->wn[i], AxB);
39	>	fcross(hp->wn[i], hp->xv[(i+1)%3], hp->xv[(i+2)%3]);
40		if (normalize(hp->wn[i]) == 0.)
41		error(USER, "degenerate holodeck section");
42		hp->wo[i<<1] = DOT(hp->wn[i],hp->orig);
43	<	hp->wo[i<<1\|1] = hp->wo[i<<1] + DOT(hp->wn[i],hp->xv[i]);
44	<	fcross(hp->gv[i][0], v, AxB);
45	<	d = DOT(v,v) / DOT(hp->gv[i][0],hp->gv[i][0]) *
46	<	hp->grid[(i+1)%3];
47	<	for (j = 0; j < 3; j++)
48	<	hp->gv[i][0][j] *= d;
49	<	fcross(hp->gv[i][1], AxB, v=hp->xv[(i+1)%3]);
50	<	d = DOT(v,v) / DOT(hp->gv[i][1],hp->gv[i][1]) *
51	<	hp->grid[(i+2)%3];
52	<	for (j = 0; j < 3; j++)
53	<	hp->gv[i][1][j] *= d;
43	>	d = DOT(hp->wn[i],hp->xv[i]);
44	>	hp->wo[i<<1\|1] = hp->wo[i<<1] + d;
45	>	hp->wg[i] = (double)hp->grid[i] / d;
46		}
47		/* compute linear depth range */
48		hp->tlin = VLEN(hp->xv[0]) + VLEN(hp->xv[1]) + VLEN(hp->xv[2]);
#	Line 59 \| Line 51 \| *register HOLO hp;**
51		for (i = 1; i < 6; i++) {
52		hp->wi[i] = 0;
53		for (j = i; j < 6; j++)
54	<	hp->wi[i] += hp->grid[((j>>1)+1)%3] *
55	<	hp->grid[((j>>1)+2)%3];
64	<	hp->wi[i] = hp->grid[(((i-1)>>1)+1)%3]
65	<	hp->grid[(((i-1)>>1)+2)%3];
54	>	hp->wi[i] += hp->grid[wg0[j]] * hp->grid[wg1[j]];
55	>	hp->wi[i] = hp->grid[wg0[i-1]] hp->grid[wg1[i-1]];
56		hp->wi[i] += hp->wi[i-1];
57		}
58		}
#	Line 103 \| Line 93 \| *HDGRID hproto;**
93
94
95		hdbcoord(gc, hp, i) /* compute beam coordinates from index */
96	<	BCOORD gc; /* returned */
96	>	GCOORD gc[2]; /* returned */
97		register HOLO *hp;
98		register int i;
99		{
100		register int j, n;
101		int n2, reverse;
102	<	BCOORD g2;
102	>	GCOORD g2[2];
103		/* check range */
104		if (i < 1 \| i > nbeams(hp))
105		return(0);
#	Line 120 \| Line 110 \| register int i;
110		break;
111		i -= hp->wi[gc[0].w=j];
112		/* find w1 */
113	<	n2 = hp->grid[((j>>1)+1)%3] * hp->grid[((j>>1)+2)%3];
113	>	n2 = hp->grid[wg0[j]] * hp->grid[wg1[j]];
114		while (++j < 5) {
115	<	n = n2 * hp->grid[((j>>1)+1)%3] * hp->grid[((j>>1)+2)%3];
115	>	n = n2 * hp->grid[wg0[j]] * hp->grid[wg1[j]];
116		if (n > i)
117		break;
118		i -= n;
119		}
120		gc[1].w = j;
121		/* find position on w0 */
122	<	n2 = hp->grid[((j>>1)+1)%3] * hp->grid[((j>>1)+2)%3];
122	>	n2 = hp->grid[wg0[j]] * hp->grid[wg1[j]];
123		n = i / n2;
124	<	gc[0].i[1] = n / hp->grid[((gc[0].w>>1)+1)%3];
125	<	gc[0].i[0] = n - gc[0].i[1]*hp->grid[((gc[0].w>>1)+1)%3];
124	>	gc[0].i[1] = n / hp->grid[wg0[gc[0].w]];
125	>	gc[0].i[0] = n - gc[0].i[1]*hp->grid[wg0[gc[0].w]];
126		i -= n*n2;
127		/* find position on w1 */
128	<	gc[1].i[1] = i / hp->grid[((gc[1].w>>1)+1)%3];
129	<	gc[1].i[0] = i - gc[1].i[1]*hp->grid[((gc[1].w>>1)+1)%3];
128	>	gc[1].i[1] = i / hp->grid[wg0[gc[1].w]];
129	>	gc[1].i[0] = i - gc[1].i[1]*hp->grid[wg0[gc[1].w]];
130		if (reverse) {
131		copystruct(g2, gc+1);
132		copystruct(gc+1, gc);
#	Line 149 \| Line 139 \| register int i;
139		int
140		hdbindex(hp, gc) /* compute index from beam coordinates */
141		register HOLO *hp;
142	<	register BCOORD gc;
142	>	register GCOORD gc[2];
143		{
144	<	BCOORD g2;
144	>	GCOORD g2[2];
145		int reverse;
146		register int i, j;
147		/* check ordering and limits */
#	Line 165 \| Line 155 \| register BCOORD gc;
155		return(0);
156		i = 0; /* compute index */
157		for (j = gc[0].w+1; j < gc[1].w; j++)
158	<	i += hp->grid[((j>>1)+1)%3] * hp->grid[((j>>1)+2)%3];
159	<	i = hp->grid[((gc[0].w>>1)+1)%3] hp->grid[((gc[0].w>>1)+2)%3];
158	>	i += hp->grid[wg0[j]] * hp->grid[wg1[j]];
159	>	i = hp->grid[wg0[gc[0].w]] hp->grid[wg1[gc[0].w]];
160		i += hp->wi[gc[0].w];
161	<	i += (hp->grid[((gc[0].w>>1)+1)%3]gc[0].i[1] + gc[0].i[0])
162	<	hp->grid[((gc[1].w>>1)+1)%3] *
163	<	hp->grid[((gc[1].w>>1)+2)%3] ;
174	<	i += hp->grid[((gc[1].w>>1)+1)%3]*gc[1].i[1] + gc[1].i[0];
161	>	i += (hp->grid[wg0[gc[0].w]]gc[0].i[1] + gc[0].i[0])
162	>	hp->grid[wg0[gc[1].w]] * hp->grid[wg1[gc[1].w]] ;
163	>	i += hp->grid[wg0[gc[1].w]]*gc[1].i[1] + gc[1].i[0];
164		if (reverse)
165		i += hp->wi[5] - 1;
166		return(i);
167		}
168
169
170	+	hdcell(cp, hp, gc) /* compute cell coordinates */
171	+	register FVECT cp[4]; /* returned (may be passed as FVECT cp[2][2]) */
172	+	register HOLO *hp;
173	+	register GCOORD *gc;
174	+	{
175	+	register FLOAT *v;
176	+	double d;
177	+	/* compute common component */
178	+	VCOPY(cp[0], hp->orig);
179	+	if (gc->w & 1) {
180	+	v = hp->xv[gc->w>>1];
181	+	cp[0][0] += v[0]; cp[0][1] += v[1]; cp[0][2] += v[2];
182	+	}
183	+	v = hp->xv[wg0[gc->w]];
184	+	d = (double)gc->i[0] / hp->grid[wg0[gc->w]];
185	+	VSUM(cp[0], cp[0], v, d);
186	+	v = hp->xv[wg1[gc->w]];
187	+	d = (double)gc->i[1] / hp->grid[wg1[gc->w]];
188	+	VSUM(cp[0], cp[0], v, d);
189	+	/* compute x1 sums */
190	+	v = hp->xv[wg0[gc->w]];
191	+	d = 1.0 / hp->grid[wg0[gc->w]];
192	+	VSUM(cp[1], cp[0], v, d);
193	+	VSUM(cp[3], cp[0], v, d);
194	+	/* compute y1 sums */
195	+	v = hp->xv[wg1[gc->w]];
196	+	d = 1.0 / hp->grid[wg1[gc->w]];
197	+	VSUM(cp[2], cp[0], v, d);
198	+	VSUM(cp[3], cp[3], v, d);
199	+	}
200	+
201	+
202		hdlseg(lseg, hp, i) /* compute line segment for beam */
203	<	int lseg[2][3];
203	>	register int lseg[2][3];
204		register HOLO *hp;
205		int i;
206		{
207	<	BCOORD gc;
207	>	GCOORD gc[2];
208		register int k;
209
210	<	if (!hdbcoord(gc, hp, i))
210	>	if (!hdbcoord(gc, hp, i)) /* compute grid coordinates */
211		return(0);
212	<	for (k = 0; k < 2; k++) /* compute line segment */
213	<	switch (gc[k].w>>1) {
214	<	case 0:
215	<	lseg[k][0] = (gc[k].w & 1) * (hp->grid[0]-1);
216	<	lseg[k][1] = gc[k].i[0];
196	<	lseg[k][2] = gc[k].i[1];
197	<	break;
198	<	case 1:
199	<	lseg[k][0] = gc[k].i[1];
200	<	lseg[k][1] = (gc[k].w & 1) * (hp->grid[1]-1);
201	<	lseg[k][2] = gc[k].i[0];
202	<	break;
203	<	case 2:
204	<	lseg[k][0] = gc[k].i[0];
205	<	lseg[k][1] = gc[k].i[1];
206	<	lseg[k][2] = (gc[k].w & 1) * (hp->grid[2]-1);
207	<	break;
208	<	}
212	>	for (k = 0; k < 2; k++) { /* compute end points */
213	>	lseg[k][gc[k].w>>1] = gc[k].w&1 ? hp->grid[gc[k].w>>1]-1 : 0 ;
214	>	lseg[k][wg0[gc[k].w]] = gc[k].i[0];
215	>	lseg[k][wg1[gc[k].w]] = gc[k].i[1];
216	>	}
217		return(1);
218		}
219
#	Line 229 \| Line 237 \| double d;
237		}
238
239
240	+	hdgrid(gp, hp, wp) /* compute grid coordinates */
241	+	FVECT gp; /* returned */
242	+	register HOLO *hp;
243	+	FVECT wp;
244	+	{
245	+	FVECT vt;
246	+
247	+	vt[0] = wp[0] - hp->orig[0];
248	+	vt[1] = wp[1] - hp->orig[1];
249	+	vt[2] = wp[2] - hp->orig[2];
250	+	gp[0] = DOT(vt, hp->wn[0]) * hp->wg[0];
251	+	gp[1] = DOT(vt, hp->wn[1]) * hp->wg[1];
252	+	gp[2] = DOT(vt, hp->wn[2]) * hp->wg[2];
253	+	}
254	+
255	+
256		double
257		hdray(ro, rd, hp, gc, r) /* compute ray within a beam */
258		FVECT ro, rd; /* returned */
259	<	register HOLO *hp;
260	<	register BCOORD gc;
259	>	HOLO *hp;
260	>	GCOORD gc[2];
261		BYTE r[2][2];
262		{
263	<	FVECT p[2];
264	<	register int i;
265	<	register FLOAT *v;
242	<	double d;
263	>	FVECT cp[4], p[2];
264	>	register int i, j;
265	>	double d0, d1;
266		/* compute entry and exit points */
267		for (i = 0; i < 2; i++) {
268	<	VCOPY(p[i], hp->orig);
269	<	if (gc[i].w & 1) {
270	<	v = hp->xv[gc[i].w>>1];
271	<	p[i][0] += v++; p[i][1] += v++; p[i][2] += *v;
272	<	}
273	<	d = ( gc[i].i[0] + (1./256.)*(r[i][0]+.5) ) /
251	<	hp->grid[((gc[i].w>>1)+1)%3];
252	<	v = hp->xv[((gc[i].w>>1)+1)%3];
253	<	p[i][0] += d * v++; p[i][1] += d v++; p[i][2] += d *v;
254	<	d = (gc[i].i[1] + (1./256.)*(r[i][1]+.5)) /
255	<	hp->grid[((gc[i].w>>1)+2)%3];
256	<	v = hp->xv[((gc[i].w>>1)+2)%3];
257	<	p[i][0] += d * v++; p[i][1] += d v++; p[i][2] += d *v;
268	>	hdcell(cp, hp, gc+i);
269	>	d0 = (1./256.)*(r[i][0]+.5);
270	>	d1 = (1./256.)*(r[i][1]+.5);
271	>	for (j = 0; j < 3; j++)
272	>	p[i][j] = (1.-d0-d1)*cp[0][j] +
273	>	d0cp[1][j] + d1cp[2][j];
274		}
275		VCOPY(ro, p[0]); /* assign ray origin and direction */
276		rd[0] = p[1][0] - p[0][0];
#	Line 266 \| Line 282 \| BYTE r[2][2];
282
283		double
284		hdinter(gc, r, hp, ro, rd) /* compute ray intersection with section */
285	<	register BCOORD gc; /* returned */
285	>	register GCOORD gc[2]; /* returned */
286		BYTE r[2][2]; /* returned */
287		register HOLO *hp;
288		FVECT ro, rd; /* rd should be normalized */
#	Line 317 \| Line 333 \| *FVECT ro, rd; / rd should be normalized /*
333		vt[0] = p[i][0] - hp->orig[0];
334		vt[1] = p[i][1] - hp->orig[1];
335		vt[2] = p[i][2] - hp->orig[2];
336	<	if (gc[i].w & 1) {
337	<	v = hp->xv[gc[i].w>>1];
338	<	vt[0] -= v++; vt[1] -= v++; vt[2] -= *v;
323	<	}
324	<	v = hp->gv[gc[i].w>>1][0];
325	<	d = DOT(vt, v);
326	<	if (d < 0. \|\| (gc[i].i[0] = d) >= hp->grid[((gc[i].w>>1)+1)%3])
336	>	v = hp->wn[wg0[gc[i].w]];
337	>	d = DOT(vt, v) * hp->wg[wg0[gc[i].w]];
338	>	if (d < 0. \|\| (gc[i].i[0] = d) >= hp->grid[wg0[gc[i].w]])
339		return(FHUGE); /* outside wall */
340		r[i][0] = 256. * (d - gc[i].i[0]);
341	<	v = hp->gv[gc[i].w>>1][1];
342	<	d = DOT(vt, v);
343	<	if (d < 0. \|\| (gc[i].i[1] = d) >= hp->grid[((gc[i].w>>1)+2)%3])
341	>	v = hp->wn[wg1[gc[i].w]];
342	>	d = DOT(vt, v) * hp->wg[wg1[gc[i].w]];
343	>	if (d < 0. \|\| (gc[i].i[1] = d) >= hp->grid[wg1[gc[i].w]])
344		return(FHUGE); /* outside wall */
345		r[i][1] = 256. * (d - gc[i].i[1]);
346		}

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Comparing ray/src/hd/holo.c (file contents): Revision 3.1 by gregl, Fri Oct 31 10:23:29 1997 UTC vs. Revision 3.6 by gregl, Tue Nov 11 17:03:28 1997 UTC

Diff Legend

Comparing ray/src/hd/holo.c (file contents):
Revision 3.1 by gregl, Fri Oct 31 10:23:29 1997 UTC vs.
Revision 3.6 by gregl, Tue Nov 11 17:03:28 1997 UTC