[ViewVC] Diff of: radiance/ray/src/hd/rhpict2.c

Comparing ray/src/hd/rhpict2.c (file contents):
Revision 3.2 by gwlarson, Fri Mar 5 17:03:38 1999 UTC vs.
Revision 3.14 by schorsch, Sun Jul 27 22:12:02 2003 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1999 Silicon Graphics, Inc. */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ SGI";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5		* Rendering routines for rhpict.
6		*/
7
8	+	#include <string.h>
9	+
10		#include "holo.h"
11		#include "view.h"
12	+	#include "random.h"
13
14		#ifndef DEPS
15	<	#define DEPS 0.01 /* depth epsilon */
15	>	#define DEPS 0.02 /* depth epsilon */
16		#endif
17	+	#ifndef PEPS
18	+	#define PEPS 0.04 /* pixel value epsilon */
19	+	#endif
20		#ifndef MAXRAD
21		#define MAXRAD 64 /* maximum kernel radius */
22		#endif
23		#ifndef NNEIGH
24	<	#define NNEIGH 7 /* find this many neighbors */
24	>	#define NNEIGH 5 /* find this many neighbors */
25		#endif
26
27		#define NINF 16382
#	Line 34 \| Line 37 \| static char SCCSid[] = "$SunId$ SGI";
37		#define CLR4(f,i) FL4OP(f,i,&=~)
38		#define TGL4(f,i) FL4OP(f,i,^=)
39		#define FL4NELS(n) (((n)+0x1f)>>5)
40	<	#define CLR4ALL(f,n) bzero((char )(f),FL4NELS(n)sizeof(int4))
40	>	#define CLR4ALL(f,n) memset((char )(f),'\0',FL4NELS(n)sizeof(int32))
41		#endif
42
43	<	static int4 pixFlags; / pixel occupancy flags */
43	>	static int32 pixFlags; / pixel occupancy flags */
44		static float pixWeight[MAXRAD2]; /* pixel weighting function */
45	+	static short isqrttab[MAXRAD2]; /* integer square root table */
46
47	+	#define isqrt(i2) (isqrttab[i2])
48	+
49		extern VIEW myview; /* current output view */
50		extern COLOR mypixel; / pixels being rendered */
51		extern float myweight; / weights (used to compute final pixels) */
#	Line 47 \| Line 53 \| *extern float mydepth; /* depth values (visibility cul**
53		extern int hres, vres; /* current horizontal and vertical res. */
54
55
56	+	void
57		pixBeam(bp, hb) /* render a particular beam */
58		BEAM *bp;
59		register HDBEAMI *hb;
#	Line 57 \| Line 64 \| *register HDBEAMI hb;**
64		double d, prox;
65		COLOR col;
66		int n;
67	<	register int4 p;
67	>	register int32 p;
68
69		if (!hdbcoord(gc, hb->h, hb->b))
70		error(CONSISTENCY, "bad beam in render_beam");
#	Line 105 \| Line 112 \| *register HDBEAMI hb;**
112
113
114		int
115	<	kill_occl(h, v, nl, n) /* check for occlusion errors */
115	>	kill_occl(h, v, nl, nd, n) /* check for occlusion errors */
116		int h, v;
117	<	short nl[NNEIGH][2];
117	>	register short nl[NNEIGH][2];
118	>	int nd[NNEIGH];
119		int n;
120		{
121		short forequad[2][2];
122		int d;
123	<	register int4 i;
123	>	register int i;
124	>	register int32 p;
125
126	<	if (n <= 0)
126	>	if (n <= 0) {
127	>	#ifdef DEBUG
128	>	error(WARNING, "neighborless sample in kill_occl");
129	>	#endif
130		return(1);
131	+	}
132	+	p = v*hres + h;
133		forequad[0][0] = forequad[0][1] = forequad[1][0] = forequad[1][1] = 0;
134		for (i = n; i--; ) {
135	<	d = (h-nl[i][0])(h-nl[i][0]) + (v-nl[i][1])(v-nl[i][1]);
136	<	if (mydepth[nl[i][1]*hres+nl[i][0]] <
123	<	mydepth[vhres+h](1.-DEPS*d))
135	>	d = isqrt(nd[i]);
136	>	if (mydepth[nl[i][1]hres+nl[i][0]](1.+DEPS*d) < mydepth[p])
137		forequad[nl[i][0]<h][nl[i][1]<v] = 1;
138		}
139	<	if (forequad[0][0]+forequad[0][1]+forequad[1][0]+forequad[1][1] > 1) {
140	<	i = v*hres + h;
141	<	setcolor(mypixel[i], 0., 0., 0.);
129	<	myweight[i] = 0.; /* occupancy reset afterwards */
139	>	if (forequad[0][0]+forequad[0][1]+forequad[1][0]+forequad[1][1] > 2) {
140	>	setcolor(mypixel[p], 0., 0., 0.);
141	>	myweight[p] = 0.; /* occupancy reset afterwards */
142		}
143		return(1);
144		}
145
146
147		int
148	<	grow_samp(h, v, nl, n) /* grow sample point appropriately */
148	>	smooth_samp(h, v, nl, nd, n) /* grow sample point smoothly */
149		int h, v;
150		register short nl[NNEIGH][2];
151	+	int nd[NNEIGH];
152		int n;
153		{
154	+	int dis[NNEIGH], ndis;
155		COLOR mykern[MAXRAD2];
156	<	float mykw[MAXRAD2];
157	<	int4 maxr2;
158	<	double w;
159	<	register int4 p, r2;
160	<	int maxr, h2, v2;
156	>	int maxr2;
157	>	double d;
158	>	register int32 p;
159	>	register int r2;
160	>	int i, r, maxr, h2, v2;
161
162		if (n <= 0)
163		return(1);
164		p = vhres + h; / build kernel values */
165	<	maxr2 = (h-nl[n-1][0])(h-nl[n-1][0]) + (v-nl[n-1][1])(v-nl[n-1][1]);
165	>	maxr2 = nd[n-1];
166		DCHECK(maxr2>=MAXRAD2, CONSISTENCY, "out of range neighbor");
167	<	for (r2 = maxr2+1; --r2; ) {
168	<	copycolor(mykern[r2], mypixel[p]);
169	<	mykw[r2] = pixWeight[r2];
170	<	if (2r2 >= maxr2) / soften skirt */
171	<	mykw[r2] = (2(maxr2-r2)+1.0)/maxr2;
172	<	scalecolor(mykern[r2], mykw[r2]);
167	>	maxr = isqrt(maxr2);
168	>	for (v2 = 1; v2 <= maxr; v2++)
169	>	for (h2 = 0; h2 <= v2; h2++) {
170	>	r2 = h2h2 + v2v2;
171	>	if (r2 > maxr2) break;
172	>	copycolor(mykern[r2], mypixel[p]);
173	>	scalecolor(mykern[r2], pixWeight[r2]);
174	>	}
175	>	ndis = 0; /* find discontinuities */
176	>	for (i = n; i--; ) {
177	>	r = isqrt(nd[i]);
178	>	d = mydepth[nl[i][1]*hres+nl[i][0]] / mydepth[p];
179	>	d = d>=1. ? d-1. : 1.-d;
180	>	if (d > r*DEPS \|\| bigdiff(mypixel[p],
181	>	mypixel[nl[i][1]hres+nl[i][0]], rPEPS))
182	>	dis[ndis++] = i;
183		}
184	<	maxr = sqrt((double)maxr2) + .99; /* stamp out that kernel */
184	>	/* stamp out that kernel */
185		for (v2 = v-maxr; v2 <= v+maxr; v2++) {
186	<	if (v2 < 0) continue;
187	<	if (v2 >= vres) break;
186	>	if (v2 < 0) v2 = 0;
187	>	else if (v2 >= vres) break;
188		for (h2 = h-maxr; h2 <= h+maxr; h2++) {
189	<	if (h2 < 0) continue;
190	<	if (h2 >= hres) break;
191	<	r2 = (v2-v)(v2-v) + (h2-h)(h2-h);
189	>	if (h2 < 0) h2 = 0;
190	>	else if (h2 >= hres) break;
191	>	r2 = (h2-h)(h2-h) + (v2-v)(v2-v);
192		if (r2 > maxr2) continue;
193		if (CHK4(pixFlags, v2*hres+h2))
194		continue; /* occupied */
195	+	for (i = ndis; i--; ) {
196	+	r = (h2-nl[dis[i]][0])*(h2-nl[dis[i]][0]) +
197	+	(v2-nl[dis[i]][1])*(v2-nl[dis[i]][1]);
198	+	if (r < r2) break;
199	+	}
200	+	if (i >= 0) continue; /* outside edge */
201		addcolor(mypixel[v2*hres+h2], mykern[r2]);
202	<	myweight[v2hres+h2] += mykw[r2]myweight[v*hres+h];
202	>	myweight[v2hres+h2] += pixWeight[r2] myweight[p];
203		}
204		}
205		return(1);
206		}
207
208
209	<	pixFlush() /* done with beams -- flush pixel values */
209	>	int
210	>	random_samp(h, v, nl, nd, n, rf) /* gather samples randomly */
211	>	int h, v;
212	>	register short nl[NNEIGH][2];
213	>	int nd[NNEIGH];
214	>	int n;
215	>	double *rf;
216		{
217	+	float rnt[NNEIGH];
218	+	double rvar;
219	+	register int32 p, pn;
220	+	register int ni;
221	+
222	+	if (n <= 0)
223	+	return(1);
224	+	p = v*hres + h;
225	+	if (rf <= FTINY) / straight Voronoi regions */
226	+	ni = 0;
227	+	else { /* weighted choice */
228	+	DCHECK(nd[n-1]>=MAXRAD2, CONSISTENCY, "out of range neighbor");
229	+	rnt[0] = pixWeight[nd[0]];
230	+	for (ni = 1; ni < n; ni++)
231	+	rnt[ni] = rnt[ni-1] + pixWeight[nd[ni]];
232	+	rvar = rnt[n-1]pow(frandom(), 1. / rf);
233	+	for (ni = 0; rvar > rnt[ni]+FTINY; ni++)
234	+	;
235	+	}
236	+	pn = nl[ni][1]*hres + nl[ni][0];
237	+	addcolor(mypixel[p], mypixel[pn]);
238	+	myweight[p] += myweight[pn];
239	+	return(1);
240	+	}
241	+
242	+
243	+	pixFinish(ransamp) /* done with beams -- compute pixel values */
244	+	double ransamp;
245	+	{
246	+	if (pixWeight[0] <= FTINY)
247	+	init_wfunc(); /* initialize weighting function */
248		reset_flags(); /* set occupancy flags */
249	<	meet_neighbors(kill_occl); /* eliminate occlusion errors */
249	>	meet_neighbors(1,kill_occl,NULL); /* identify occlusion errors */
250		reset_flags(); /* reset occupancy flags */
251	<	if (pixWeight[0] <= FTINY) { /* initialize weighting function */
252	<	register int r;
253	<	for (r = MAXRAD2; --r; )
254	<	pixWeight[r] = G0NORM/sqrt((double)r);
255	<	pixWeight[0] = 1.;
189	<	}
190	<	meet_neighbors(grow_samp); /* grow valid samples over image */
191	<	free((char )pixFlags); / free pixel flags */
251	>	if (ransamp >= 0.) /* spread samples over image */
252	>	meet_neighbors(0,random_samp,&ransamp);
253	>	else
254	>	meet_neighbors(1,smooth_samp,NULL);
255	>	free((void )pixFlags); / free pixel flags */
256		pixFlags = NULL;
257		}
258
259
260		reset_flags() /* allocate/set/reset occupancy flags */
261		{
262	<	register int p;
262	>	register int32 p;
263
264		if (pixFlags == NULL) {
265	<	pixFlags = (int4 )calloc(FL4NELS(hresvres), sizeof(int4));
265	>	pixFlags = (int32 )calloc(FL4NELS(hresvres), sizeof(int32));
266		CHECK(pixFlags==NULL, SYSTEM, "out of memory in reset_flags");
267		} else
268		CLR4ALL(pixFlags, hres*vres);
#	Line 208 \| Line 272 \| *reset_flags() / allocate/set/reset occupancy flags**
272		}
273
274
275	+	init_wfunc() /* initialize weighting function */
276	+	{
277	+	register int r2;
278	+	register double d;
279	+
280	+	for (r2 = MAXRAD2; --r2; ) {
281	+	d = sqrt((double)r2);
282	+	pixWeight[r2] = G0NORM/d;
283	+	isqrttab[r2] = d + 0.99;
284	+	}
285	+	pixWeight[0] = 1.;
286	+	isqrttab[0] = 0;
287	+	}
288	+
289	+
290		int
291	<	findneigh(nl, h, v, rnl) /* find NNEIGH neighbors for pixel */
291	>	findneigh(nl, nd, h, v, rnl) /* find NNEIGH neighbors for pixel */
292		short nl[NNEIGH][2];
293	+	int nd[NNEIGH];
294		int h, v;
295		register short (*rnl)[NNEIGH];
296		{
297		int nn = 0;
298	<	int4 d, ld, nd[NNEIGH+1];
219	<	int n, hoff;
298	>	int d, n, hoff;
299		register int h2, n2;
300
301	<	ld = MAXRAD2;
302	<	for (hoff = 1; hoff < hres; hoff = (hoff<0) - hoff) {
301	>	nd[NNEIGH-1] = MAXRAD2;
302	>	for (hoff = 0; hoff < hres; hoff = (hoff<=0) - hoff) {
303		h2 = h + hoff;
304	<	if (h2 < 0 \| h2 >= hres)
304	>	if ((h2 < 0) \| (h2 >= hres))
305		continue;
306	<	if ((h2-h)*(h2-h) >= ld)
306	>	if ((h2-h)*(h2-h) >= nd[NNEIGH-1])
307		break;
308		for (n = 0; n < NNEIGH && rnl[h2][n] < NINF; n++) {
309		d = (h2-h)(h2-h) + (v-rnl[h2][n])(v-rnl[h2][n]);
310	<	if (d >= ld)
310	>	if ((d == 0) \| (d >= nd[NNEIGH-1]))
311		continue;
312	<	for (n2 = nn; ; n2--) { /* insert neighbor */
312	>	if (nn < NNEIGH) /* insert neighbor */
313	>	nn++;
314	>	for (n2 = nn; n2--; ) {
315		if (!n2 \|\| d >= nd[n2-1]) {
316		nd[n2] = d;
317		nl[n2][0] = h2;
#	Line 241 \| Line 322 \| *register short (rnl)[NNEIGH];**
322		nl[n2][0] = nl[n2-1][0];
323		nl[n2][1] = nl[n2-1][1];
324		}
244	–	if (nn < NNEIGH)
245	–	nn++;
246	–	else
247	–	ld = nd[NNEIGH-1];
325		}
326		}
327		return(nn);
328		}
329
330
331	<	meet_neighbors(nf) /* run through samples and their neighbors */
331	>	meet_neighbors(occ, nf, dp) /* run through samples and their neighbors */
332	>	int occ;
333		int (*nf)();
334	+	char *dp;
335		{
336		short ln[NNEIGH][2];
337	+	int nd[NNEIGH];
338		int h, v, n, v2;
339		register short (*rnl)[NNEIGH];
340		/* initialize bottom row list */
#	Line 273 \| Line 353 \| *int (nf)();**
353		v = 0; /* do each row */
354		for ( ; ; ) {
355		for (h = 0; h < hres; h++) {
356	<	if (!CHK4(pixFlags, v*hres+h))
357	<	continue; /* no one home */
358	<	n = findneigh(ln, h, v, rnl);
359	<	(nf)(h, v, ln, n); / call on neighbors */
356	>	if (!CHK4(pixFlags, v*hres+h) != !occ)
357	>	continue; /* occupancy mismatch */
358	>	/* find neighbors */
359	>	n = findneigh(ln, nd, h, v, rnl);
360	>	/* call on neighbors */
361	>	(*nf)(h, v, ln, nd, n, dp);
362		}
363		if (++v >= vres) /* reinitialize row list */
364		break;
#	Line 291 \| Line 373 \| *int (nf)();**
373		}
374		}
375		}
376	<	free((char )rnl); / free row list */
376	>	free((void )rnl); / free row list */
377		}

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Comparing ray/src/hd/rhpict2.c (file contents): Revision 3.2 by gwlarson, Fri Mar 5 17:03:38 1999 UTC vs. Revision 3.14 by schorsch, Sun Jul 27 22:12:02 2003 UTC

Diff Legend

Comparing ray/src/hd/rhpict2.c (file contents):
Revision 3.2 by gwlarson, Fri Mar 5 17:03:38 1999 UTC vs.
Revision 3.14 by schorsch, Sun Jul 27 22:12:02 2003 UTC