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

Comparing ray/src/hd/rhoptimize.c (file contents):
Revision 3.2 by gwlarson, Thu Nov 5 14:43:14 1998 UTC vs.
Revision 3.16 by greg, Mon Oct 20 16:01:55 2003 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1998 Silicon Graphics, Inc. */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ SGI";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5		* Optimize holodeck for quick access.
6		*
7		* 11/4/98 Greg Ward Larson
8		*/
9
10	+	#include <signal.h>
11	+	#include <string.h>
12	+
13	+	#include "rtprocess.h" /* getpid() */
14		#include "holo.h"
15	+	#include "platform.h"
16
17		#ifndef BKBSIZE
18		#define BKBSIZE 256 /* beam clump size (kilobytes) */
19		#endif
20
19	–	#define flgop(p,i,op) ((p)[(i)>>5] op (1L<<((i)&0x1f)))
20	–	#define isset(p,i) flgop(p,i,&)
21	–	#define setfl(p,i) flgop(p,i,\|=)
22	–	#define clrfl(p,i) flgop(p,i,&=~)
23	–
21		char *progname;
22	+	char tempfile[128];
23	+	int dupchecking = 0;
24
25		extern long rhinitcopy();
26
#	Line 30 \| Line 29 \| main(argc, argv)
29		int argc;
30		char *argv[];
31		{
33	–	char nambuf[128];
32		char inpname, outname;
33		int hdfd[2];
34		long nextipos, lastopos, thisopos;
35
36		progname = argv[0];
37	<	if (argc < 2 \| argc > 3) {
38	<	fprintf(stderr, "Usage: %s input.hdk [output.hdk]\n", progname);
37	>	argv++; argc--; /* duplicate checking flag? */
38	>	if (argc > 1 && !strcmp(argv[0], "-u")) {
39	>	dupchecking++;
40	>	argv++; argc--;
41	>	}
42	>	if ((argc < 1) \| (argc > 2)) {
43	>	fprintf(stderr, "Usage: %s [-u] input.hdk [output.hdk]\n",
44	>	progname);
45		exit(1);
46		}
47	<	inpname = argv[1];
48	<	if (argc == 3) /* use given output file */
49	<	outname = argv[2];
50	<	else { /* else create temporary file */
51	<	strcpy(nambuf, inpname);
52	<	if ((outname = strrchr(nambuf, '/')) != NULL)
47	>	inpname = argv[0]; /* get input file */
48	>	argv++; argc--;
49	>	if (argc == 1) /* use given output file */
50	>	outname = argv[0];
51	>	else { /* else use temporary file */
52	>	if (access(inpname, R_OK\|W_OK) < 0) { /* check permissions */
53	>	sprintf(errmsg, "cannot access \"%s\"", inpname);
54	>	error(SYSTEM, errmsg);
55	>	}
56	>	strcpy(tempfile, inpname);
57	>	if ((outname = strrchr(tempfile, '/')) != NULL)
58		outname++;
59		else
60	<	outname = nambuf;
60	>	outname = tempfile;
61		sprintf(outname, "rho%d.hdk", getpid());
62	<	outname = nambuf;
62	>	outname = tempfile;
63		}
64		/* copy holodeck file header */
65		nextipos = rhinitcopy(hdfd, inpname, outname);
66		lastopos = 0L; /* copy sections one by one */
67		while (nextipos != 0L) {
68		/* set input position; get next */
69	<	lseek(hdfd[0], nextipos, 0);
69	>	lseek(hdfd[0], (off_t)nextipos, SEEK_SET);
70		read(hdfd[0], (char *)&nextipos, sizeof(nextipos));
71		/* get output position; set last */
72	<	thisopos = lseek(hdfd[1], 0L, 2);
72	>	thisopos = lseek(hdfd[1], (off_t)0, SEEK_END);
73		if (lastopos > 0L) {
74	<	lseek(hdfd[1], lastopos, 0);
74	>	lseek(hdfd[1], (off_t)lastopos, SEEK_SET);
75		write(hdfd[1], (char *)&thisopos, sizeof(thisopos));
76	<	lseek(hdfd[1], 0L, 2);
76	>	lseek(hdfd[1], (off_t)0, SEEK_END);
77		}
78		lastopos = thisopos;
79		thisopos = 0L; /* write place holder */
#	Line 75 \| Line 84 \| *char argv[];**
84		/* clean up */
85		close(hdfd[0]);
86		close(hdfd[1]);
87	<	if (argc == 2 && rename(outname, inpname) < 0) {
87	>	if (outname == tempfile && rename(outname, inpname) < 0) {
88		sprintf(errmsg, "cannot rename \"%s\" to \"%s\"",
89		outname, inpname);
90		error(SYSTEM, errmsg);
#	Line 96 \| Line 105 \| *char infn, outfn;*
105		sprintf(errmsg, "cannot open \"%s\" for reading", infn);
106		error(SYSTEM, errmsg);
107		}
108	+	if (access(outfn, F_OK) == 0) {
109	+	sprintf(errmsg, "output file \"%s\" already exists!", outfn);
110	+	error(USER, errmsg);
111	+	}
112		if ((outfp = fopen(outfn, "w+")) == NULL) {
113		sprintf(errmsg, "cannot open \"%s\" for writing", outfn);
114		error(SYSTEM, errmsg);
115		}
116	+	/* set up signal handling */
117	+	if (signal(SIGINT, quit) == SIG_IGN) signal(SIGINT, SIG_IGN);
118	+	if (signal(SIGHUP, quit) == SIG_IGN) signal(SIGHUP, SIG_IGN);
119	+	if (signal(SIGTERM, quit) == SIG_IGN) signal(SIGTERM, SIG_IGN);
120	+	#ifdef SIGXCPU
121	+	if (signal(SIGXCPU, quit) == SIG_IGN) signal(SIGXCPU, SIG_IGN);
122	+	if (signal(SIGXFSZ, quit) == SIG_IGN) signal(SIGXFSZ, SIG_IGN);
123	+	#endif
124		/* copy and verify header */
125	<	if (checkheader(infp, HOLOFMT, outfp) < 0 \|\|
105	<	getw(infp) != HOLOMAGIC)
125	>	if (checkheader(infp, HOLOFMT, outfp) < 0 \|\| getw(infp) != HOLOMAGIC)
126		error(USER, "input not in holodeck format");
127		fputformat(HOLOFMT, outfp);
128		fputc('\n', outfp);
#	Line 115 \| Line 135 \| *char infn, outfn;*
135		fclose(infp);
136		if (fclose(outfp) == EOF)
137		error(SYSTEM, "file flushing error in rhinitcopy");
138	<	/* we flush everything manually */
139	<	hdcachesize = 0;
138	>	/* check cache size */
139	>	if (BKBSIZE10241.5 > hdcachesize)
140	>	hdcachesize = BKBSIZE10241.5;
141		/* return input position */
142		return(ifpos);
143		}
144
145
146	<	gcshifti(gc, ia, di, hp) /* shift cell row or column */
147	<	register GCOORD *gc;
148	<	int ia, di;
149	<	register HOLO *hp;
146	>	int
147	>	nuniq(rva, n) /* sort unique rays to front of beam list */
148	>	register RAYVAL *rva;
149	>	int n;
150		{
130	–	int nw;
131	–
132	–	if (di > 0) {
133	–	if (++gc->i[ia] >= hp->grid[((gc->w>>1)+1+ia)%3]) {
134	–	nw = ((gc->w&~1) + (ia<<1) + 3) % 6;
135	–	gc->i[ia] = gc->i[1-ia];
136	–	gc->i[1-ia] = gc->w&1 ? hp->grid[((nw>>1)+2-ia)%3]-1 : 0;
137	–	gc->w = nw;
138	–	}
139	–	} else if (di < 0) {
140	–	if (--gc->i[ia] < 0) {
141	–	nw = ((gc->w&~1) + (ia<<1) + 2) % 6;
142	–	gc->i[ia] = gc->i[1-ia];
143	–	gc->i[1-ia] = gc->w&1 ? hp->grid[((nw>>1)+2-ia)%3]-1 : 0;
144	–	gc->w = nw;
145	–	}
146	–	}
147	–	}
148	–
149	–
150	–	mkneighgrid(ng, hp, gc) /* compute neighborhood for grid cell */
151	–	GCOORD ng[3*3];
152	–	HOLO *hp;
153	–	GCOORD *gc;
154	–	{
155	–	GCOORD gci0;
151		register int i, j;
152	+	RAYVAL rtmp;
153
154	<	for (i = 3; i--; ) {
155	<	copystruct(&gci0, gc);
156	<	gcshifti(&gci0, 0, i-1, hp);
157	<	for (j = 3; j--; ) {
158	<	copystruct(ng+(3*i+j), &gci0);
159	<	gcshifti(ng+(3*i+j), gci0.w==gc->w, j-1, hp);
160	<	}
161	<	}
154	>	for (j = 0; j < n; j++)
155	>	for (i = j+1; i < n; i++)
156	>	if ( rva[i].d == rva[j].d &&
157	>	rva[i].r[0][0]==rva[j].r[0][0] &&
158	>	rva[i].r[0][1]==rva[j].r[0][1] &&
159	>	rva[i].r[1][0]==rva[j].r[1][0] &&
160	>	rva[i].r[1][1]==rva[j].r[1][1] ) {
161	>	n--; /* swap duplicate with end */
162	>	rtmp = *(rva+n);
163	>	(rva+n) = (rva+i);
164	>	*(rva+i) = rtmp;
165	>	i--; /* recheck one we swapped */
166	>	}
167	>	return(n);
168		}
169
170
171	<	int bneighlist[9*9-1];
170	<	int bneighrem;
171	>	static BEAMI *beamdir;
172
173	<	#define nextneigh() (bneighrem<=0 ? 0 : bneighlist[--bneighrem])
174	<
175	<	int
175	<	firstneigh(hp, b) /* initialize neighbor list and return first */
176	<	HOLO *hp;
177	<	int b;
173	>	static int
174	>	bpcmp(b1p, b2p) /* compare beam positions on disk */
175	>	int b1p, b2p;
176		{
177	<	GCOORD wg0[9], wg1[9], bgc[2];
180	<	int i, j;
177	>	register off_t pdif = beamdir[b1p].fo - beamdir[b2p].fo;
178
179	<	hdbcoord(bgc, hp, b);
180	<	mkneighgrid(wg0, hp, bgc);
184	<	mkneighgrid(wg1, hp, bgc+1);
185	<	bneighrem = 0;
186	<	for (i = 9; i--; )
187	<	for (j = 9; j--; ) {
188	<	if (i == 4 & j == 4)
189	<	continue;
190	<	if (wg0[i].w == wg1[j].w)
191	<	continue;
192	<	copystruct(bgc, wg0+i);
193	<	copystruct(bgc+1, wg1+j);
194	<	bneighlist[bneighrem++] = hdbindex(hp, bgc);
195	<	#ifdef DEBUG
196	<	if (bneighlist[bneighrem-1] <= 0)
197	<	error(CONSISTENCY, "bad beam in firstneigh");
198	<	#endif
199	<	}
200	<	return(nextneigh());
179	>	if (pdif < 0L) return(-1);
180	>	return(pdif > 0L);
181		}
182
183	+	static HOLO *hout;
184
185	<	BEAMI *beamdir;
186	<
187	<	int
188	<	bpcmp(b1p, b2p) /* compare beam positions on disk */
208	<	int b1p, b2p;
185	>	static int
186	>	xferclump(hp, bq, nb) /* transfer the given clump to hout and free */
187	>	HOLO *hp;
188	>	int *bq, nb;
189		{
190	<	register long pdif = beamdir[b1p].fo - beamdir[b2p].fo;
190	>	register int i;
191	>	register BEAM *bp;
192	>	int n;
193
194	<	if (pdif > 0) return(1);
195	<	if (pdif < 0) return(-1);
194	>	beamdir = hp->bi; /* sort based on file position */
195	>	qsort((void )bq, nb, sizeof(bq), bpcmp);
196	>	/* transfer and free each beam */
197	>	for (i = 0; i < nb; i++) {
198	>	bp = hdgetbeam(hp, bq[i]);
199	>	DCHECK(bp==NULL, CONSISTENCY, "empty beam in xferclump");
200	>	n = dupchecking ? nuniq(hdbray(bp),bp->nrm) : bp->nrm;
201	>	memcpy((void )hdnewrays(hout,bq[i],n),(void )hdbray(bp),
202	>	n*sizeof(RAYVAL));
203	>	hdfreebeam(hp, bq[i]);
204	>	}
205	>	hdfreebeam(hout, 0); /* write & free clump */
206		return(0);
207		}
208
217	–
209		copysect(ifd, ofd) /* copy holodeck section from ifd to ofd */
210		int ifd, ofd;
211		{
212	<	static short primes[] = {9431,6803,4177,2659,1609,887,587,251,47,1};
222	<	register HOLO *hinp;
223	<	HOLO *hout;
224	<	register BEAM *bp;
225	<	unsigned int4 *bflags;
226	<	int *bqueue;
227	<	int bqlen;
228	<	int4 bqtotal;
229	<	int bc, bci, bqc, myprime;
230	<	register int i;
212	>	HOLO *hinp;
213		/* load input section directory */
214		hinp = hdinit(ifd, NULL);
215		/* create output section directory */
216		hout = hdinit(ofd, (HDGRID *)hinp);
217	<	/* allocate beam queue */
218	<	bqueue = (int )malloc(nbeams(hinp)sizeof(int));
219	<	bflags = (int4 *)calloc((nbeams(hinp)>>3)+1, sizeof(int4));
238	<	if (bqueue == NULL \| bflags == NULL)
239	<	error(SYSTEM, "out of memory in copysect");
240	<	/* mark empty beams as done */
241	<	for (i = nbeams(hinp); i-- > 0; )
242	<	if (!hinp->bi[i].nrd)
243	<	setfl(bflags, i);
244	<	/* pick a good prime step size */
245	<	for (i = 0; primes[i]<<5 >= nbeams(hinp); i++)
246	<	;
247	<	while ((myprime = primes[i++]) > 1)
248	<	if (nbeams(hinp) % myprime)
249	<	break;
250	<	/* add each input beam and neighbors */
251	<	for (bc = bci = nbeams(hinp); bc > 0; bc--,
252	<	bci += bci>myprime ? -myprime : nbeams(hinp)-myprime) {
253	<	if (isset(bflags, bci))
254	<	continue;
255	<	bqueue[0] = bci; /* initialize queue */
256	<	bqlen = 1;
257	<	bqtotal = bnrays(hinp, bci);
258	<	setfl(bflags, bci);
259	<	/* run through growing queue */
260	<	for (bqc = 0; bqc < bqlen; bqc++) {
261	<	/* add neighbors until full */
262	<	for (i = firstneigh(hinp,bqueue[bqc]); i > 0;
263	<	i = nextneigh()) {
264	<	if (isset(bflags, i)) /* done already? */
265	<	continue;
266	<	bqueue[bqlen++] = i; /* add it */
267	<	bqtotal += bnrays(hinp, i);
268	<	setfl(bflags, i);
269	<	if (bqtotal >= BKBSIZE*1024/sizeof(RAYVAL))
270	<	break; /* queue full */
271	<	}
272	<	if (i > 0)
273	<	break;
274	<	}
275	<	beamdir = hinp->bi; /* sort queue */
276	<	qsort((char )bqueue, bqlen, sizeof(bqueue), bpcmp);
277	<	/* transfer each beam */
278	<	for (i = 0; i < bqlen; i++) {
279	<	bp = hdgetbeam(hinp, bqueue[i]);
280	<	bcopy((char *)hdbray(bp),
281	<	(char *)hdnewrays(hout,bqueue[i],bp->nrm),
282	<	bp->nrm*sizeof(RAYVAL));
283	<	hdfreebeam(hinp, bqueue[i]);
284	<	}
285	<	hdfreebeam(hout, 0); /* flush output block */
286	<	#ifdef DEBUG
287	<	hdsync(hout, 0);
288	<	#endif
289	<	}
290	<	/* we're done -- clean up */
291	<	free((char *)bqueue);
292	<	free((char *)bflags);
217	>	/* clump the beams */
218	>	clumpbeams(hinp, 0, BKBSIZE*1024, xferclump);
219	>	/* clean up */
220		hddone(hinp);
221		hddone(hout);
222		}
223
224
225	+	void
226		eputs(s) /* put error message to stderr */
227		register char *s;
228		{
#	Line 314 \| Line 242 \| *register char s;**
242		}
243
244
245	+	void
246		quit(code) /* exit the program gracefully */
247		int code;
248		{
249	<	hdsync(NULL, 1); /* write out any buffered data */
249	>	if (tempfile[0])
250	>	unlink(tempfile);
251		exit(code);
252		}

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Comparing ray/src/hd/rhoptimize.c (file contents): Revision 3.2 by gwlarson, Thu Nov 5 14:43:14 1998 UTC vs. Revision 3.16 by greg, Mon Oct 20 16:01:55 2003 UTC

Diff Legend

Comparing ray/src/hd/rhoptimize.c (file contents):
Revision 3.2 by gwlarson, Thu Nov 5 14:43:14 1998 UTC vs.
Revision 3.16 by greg, Mon Oct 20 16:01:55 2003 UTC