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

Comparing ray/src/hd/rhcopy.c (file contents):
Revision 3.10 by gwlarson, Mon Nov 9 17:11:40 1998 UTC vs.
Revision 3.34 by greg, Wed Nov 16 00:12:49 2022 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		* Copy data into a holodeck file
6		*/
7
8	+	#include "platform.h"
9	+	#include "rterror.h"
10		#include "holo.h"
11		#include "view.h"
13	–	#include "resolu.h"
12
13		#ifndef BKBSIZE
14		#define BKBSIZE 256 /* beam clump size (kilobytes) */
15		#endif
16	+	/* possible operations */
17	+	#define FROM_HOLO 1 /* copy between holodecks */
18	+	#define FROM_PICZ 2 /* copy from HDR + depth to holodeck */
19	+	#define FROM_STDIN 3 /* copy from stdin to holodeck */
20	+	#define TO_STDOUT 4 /* copy rays from holodeck to stdout */
21
22	<	int checkdepth = 1; /* check depth (!-f option)? */
23	<	int checkrepeats = 0; /* check for repeats (-c option)? */
24	<	int frompicz; /* input from pictures & depth-buffers? */
25	<	int noutsects; /* number of output sections */
26	<	char obstr, unobstr; /* flag pointer values */
22	>	int operation = 0; /* what we are doing */
23	>	char rspec = ""; / ray details for i/o */
24	>	int checkdepth = 1; /* check depth (!-d option)? */
25	>	int checkrepeats = 0; /* check for repeats (-u option)? */
26	>	int nholosects; /* number of original holodeck sections */
27	>	int iofmt = 'a'; /* input/output format for rays */
28
29	+	/* holodeck flags */
30	+	#define H_BADF 01 /* bad format */
31	+	#define H_OBST 02 /* OBSTRUCTIONS= True */
32	+	#define H_OBSF 04 /* OBSTRUCTIONS= False */
33	+	#define H_VDST 010 /* VDISTANCE= True */
34	+	#define H_SWAP 020 /* byte order is different */
35	+
36		char progname; / global argv[0] */
37
38	+	struct phead {
39	+	VIEW vw;
40	+	double expos;
41	+	short gotview;
42	+	short badfmt;
43	+	short altprims;
44	+	};
45
46	<	main(argc, argv)
47	<	int argc;
48	<	char *argv[];
46	>	typedef struct {
47	>	FVECT ro;
48	>	FVECT rd;
49	>	RREAL d;
50	>	COLR cv;
51	>	} RAYPAR;
52	>
53	>	static int openholo(char *fname, int append);
54	>	static void addray(RAYPAR *rp);
55	>	static int readval(RREAL v, int n, FILE fp);
56	>	static void readrays(FILE *fp);
57	>	static int writeval(RREAL v, int n, FILE fp);
58	>	static int write_ray(RAYPAR rp, FILE fp);
59	>	static void writerays(FILE *fp);
60	>	static gethfunc holheadline;
61	>	static int bpcmp(const void b1p, const void b2p);
62	>	static int addclump(HOLO hp, int bq, int nb);
63	>	static void addholo(char *hdf);
64	>	static gethfunc picheadline;
65	>	static void addpicz(char pcf, char zbf);
66	>
67	>
68	>	int
69	>	main(
70	>	int argc,
71	>	char *argv[]
72	>	)
73		{
74		int i;
75
76		progname = argv[0];
35	–	frompicz = -1;
77		for (i = 2; i < argc && argv[i][0] == '-'; i++)
78		switch (argv[i][1]) {
79		case 'u':
#	Line 41 \| Line 82 \| *char argv[];**
82		case 'd':
83		checkdepth = 0;
84		break;
85	+	case 'f':
86	+	iofmt = argv[i][2];
87	+	if (!strchr("afd", iofmt))
88	+	error(USER, "-f? i/o format must be 'a', 'f', or 'd'");
89	+	break;
90		case 'h':
91	<	frompicz = 0;
91	>	operation = FROM_HOLO;
92		break;
93		case 'p':
94	<	frompicz = 1;
94	>	operation = FROM_PICZ;
95		break;
96	+	case 'i':
97	+	operation = FROM_STDIN;
98	+	rspec = argv[i]+2;
99	+	break;
100	+	case 'o':
101	+	operation = TO_STDOUT;
102	+	rspec = argv[i]+2;
103	+	break;
104		default:
105		goto userr;
106		}
107	<	if (i >= argc \|\| frompicz < 0)
107	>	if (!operation \| (i > argc-((operation==FROM_HOLO)\|(operation==FROM_PICZ))))
108		goto userr;
109	<	if (frompicz && (argc-i)%2)
109	>	if (operation == FROM_PICZ && (argc-i)%2)
110		goto userr;
111	<	noutsects = openholo(argv[1], 1);
112	<	if (frompicz) {
111	>	nholosects = openholo(argv[1], (operation != TO_STDOUT));
112	>	/* check requested i/o is compatible */
113	>	if (strchr(rspec, 'l') && !((int )hdlist[0]->priv & H_VDST))
114	>	error(USER, "i/o parameter 'l' incompatible with VDISTANCE=False");
115	>	if (strchr(rspec, 'L') && (int )hdlist[0]->priv & H_VDST)
116	>	error(USER, "i/o parameter 'L' incompatible with VDISTANCE=True");
117	>
118	>	switch (operation) { /* perform requested operation */
119	>	case FROM_PICZ:
120		for ( ; i < argc; i += 2)
121		addpicz(argv[i], argv[i+1]);
122	<	} else {
122	>	break;
123	>	case FROM_HOLO:
124		if (BKBSIZE10241.5 > hdcachesize)
125		hdcachesize = BKBSIZE10241.5;
126		for ( ; i < argc; i++)
127		addholo(argv[i]);
128	+	break;
129	+	case FROM_STDIN:
130	+	readrays(stdin);
131	+	break;
132	+	case TO_STDOUT:
133	+	writerays(stdout);
134	+	break;
135		}
136		quit(0);
137		userr:
138	<	fprintf(stderr, "Usage: %s output.hdk [-u][-d] -h inp1.hdk ..\n",
138	>	fprintf(stderr, "Usage: %s dest.hdk [-u][-d] -h inp1.hdk ..\n",
139		progname);
140	<	fprintf(stderr, " Or: %s output.hdk [-u][-d] -p inp1.pic inp1.zbf ..\n",
140	>	fprintf(stderr, " Or: %s dest.hdk [-u][-d] -p inp1.hdr inp1.zbf ..\n",
141		progname);
142	+	fprintf(stderr, " Or: %s dest.hdk [-f{a\|f\|d}][-u][-d] -i[odplLv]\n",
143	+	progname);
144	+	fprintf(stderr, " Or: %s src.hdk [-f{a\|f\|d}] -o[odplLv] ..\n",
145	+	progname);
146		exit(1);
147		}
148
149	<
150	<	#define H_BADF 01
151	<	#define H_OBST 02
152	<	#define H_OBSF 04
153	<
81	<	int
82	<	holheadline(s, hf) /* check holodeck header line */
83	<	register char *s;
84	<	int *hf;
149	>	static int
150	>	holheadline( /* check holodeck header line */
151	>	char *s,
152	>	void *vhf
153	>	)
154		{
155	<	char fmt[32];
155	>	int be;
156	>	char fmt[MAXFMTLEN];
157	>	int hf = (int )vhf;
158
159		if (formatval(fmt, s)) {
160		if (strcmp(fmt, HOLOFMT))
#	Line 95 \| Line 166 \| *int hf;**
166		if (!strncmp(s, "OBSTRUCTIONS=", 13)) {
167		s += 13;
168		while (*s == ' ') s++;
169	<	if (s == 't' \| s == 'T')
169	>	if ((s == 't') \| (s == 'T'))
170		*hf \|= H_OBST;
171	<	else if (s == 'f' \| s == 'F')
171	>	else if ((s == 'f') \| (s == 'F'))
172		*hf \|= H_OBSF;
173		else
174		error(WARNING, "bad OBSTRUCTIONS value in holodeck");
175		return(0);
176		}
177	+	if (!strncmp(s, "VDISTANCE=", 10)) {
178	+	s += 10;
179	+	while (*s == ' ') s++;
180	+	if ((s == 't') \| (s == 'T'))
181	+	*hf \|= H_VDST;
182	+	else if ((s != 'f') % (s != 'F'))
183	+	error(WARNING, "bad VDISTANCE value in holodeck");
184	+	return(0);
185	+	}
186	+	if ((be = isbigendian(s)) >= 0) {
187	+	if (be != nativebigendian())
188	+	*hf \|= H_SWAP;
189	+	return(0);
190	+	}
191		return(0);
192		}
193
194		int
195	<	openholo(fname, append) /* open existing holodeck file for i/o */
196	<	char *fname;
197	<	int append;
195	>	openholo( /* open existing holodeck file for i/o */
196	>	char *fname,
197	>	int append
198	>	)
199		{
114	–	extern long ftell();
200		FILE *fp;
201		int fd;
202		int hflags = 0;
203	<	long nextloc;
203	>	int *hfstore;
204	>	off_t nextloc;
205		int n;
206		/* open holodeck file */
207	<	if ((fp = fopen(fname, append ? "r+" : "r")) == NULL) {
207	>	if ((fp = fopen(fname, append ? "rb+" : "rb")) == NULL) {
208		sprintf(errmsg, "cannot open \"%s\" for %s", fname,
209		append ? "appending" : "reading");
210		error(SYSTEM, errmsg);
211		}
212		/* check header and magic number */
213		if (getheader(fp, holheadline, &hflags) < 0 \|\|
214	<	hflags&H_BADF \|\| getw(fp) != HOLOMAGIC) {
215	<	sprintf(errmsg, "file \"%s\" not in holodeck format", fname);
214	>	hflags&(H_BADF\|H_SWAP) \|\| getw(fp) != HOLOMAGIC) {
215	>	sprintf(errmsg, "holodeck \"%s\" not in expected format", fname);
216		error(USER, errmsg);
217		}
218		fd = dup(fileno(fp)); /* dup file handle */
219		nextloc = ftell(fp); /* get stdio position */
220		fclose(fp); /* done with stdio */
221	+	hfstore = (int )malloc(sizeof(int)); / tiny memory leak but who cares? */
222	+	*hfstore = hflags;
223		for (n = 0; nextloc > 0L; n++) { /* initialize each section */
224	<	lseek(fd, nextloc, 0);
224	>	lseek(fd, nextloc, SEEK_SET);
225		read(fd, (char *)&nextloc, sizeof(nextloc));
226	<	hdinit(fd, NULL)->priv = hflags&H_OBST ? &obstr :
139	<	hflags&H_OBSF ? &unobstr : (char *)NULL;
226	>	hdinit(fd, NULL)->priv = hfstore;
227		}
228		return(n);
229		}
230
231	<	#undef H_BADF
232	<	#undef H_OBST
233	<	#undef H_OBSF
234	<
148	<
149	<	addray(ro, rd, d, cv) /* add a ray to our output holodeck */
150	<	FVECT ro, rd;
151	<	double d;
152	<	COLR cv;
231	>	void
232	>	addray( /* add a ray to our output holodeck */
233	>	RAYPAR *rp
234	>	)
235		{
236		int sn, bi, n;
237	<	register HOLO *hp;
237	>	HOLO *hp;
238		GCOORD gc[2];
239	<	BYTE rr[2][2];
239	>	uby8 rr[2][2];
240		BEAM *bp;
241		double d0, d1;
242		unsigned dc;
243	<	register RAYVAL *rv;
243	>	RAYVAL *rv;
244		/* check each output section */
245	<	for (sn = noutsects; sn--; ) {
245	>	for (sn = nholosects; sn--; ) {
246		hp = hdlist[sn];
247	<	d0 = hdinter(gc, rr, &d1, hp, ro, rd);
248	<	if (d <= d0 \|\| d1 < -0.001)
247	>	d0 = hdinter(gc, rr, &d1, hp, rp->ro, rp->rd);
248	>	if (rp->d <= d0 \|\| d1 < -0.001)
249		continue; /* missed section */
250		if (checkdepth) { /* check depth */
251	<	if (hp->priv == &obstr && d0 < -0.001)
251	>	if ((int )hp->priv & H_OBST && d0 < -0.001)
252		continue; /* ray starts too late */
253	<	if (hp->priv == &unobstr && d < 0.999*d1)
253	>	if ((int )hp->priv & H_OBSF && rp->d < 0.999*d1)
254		continue; /* ray ends too soon */
255		}
256	<	dc = hdcode(hp, d-d0);
256	>	dc = hdcode(hp, rp->d-d0);
257		bi = hdbindex(hp, gc); /* check for duplicates */
258		if (checkrepeats && (bp = hdgetbeam(hp, bi)) != NULL) {
259		for (n = bp->nrm, rv = hdbray(bp); n--; rv++)
260	<	if (rv->d == dc &&
260	>	if ((rv->d == dc \|\| (int )hp->priv & (H_OBST\|H_OBSF)) &&
261		rv->r[0][0] == rr[0][0] &&
262		rv->r[0][1] == rr[0][1] &&
263		rv->r[1][0] == rr[1][0] &&
#	Line 188 \| Line 270 \| COLR cv;
270		rv->d = dc;
271		rv->r[0][0] = rr[0][0]; rv->r[0][1] = rr[0][1];
272		rv->r[1][0] = rr[1][0]; rv->r[1][1] = rr[1][1];
273	<	copycolr(rv->v, cv);
273	>	copycolr(rv->v, rp->cv);
274		}
275		}
276
277	+	/* Read n-vector from file stream */
278	+	static int
279	+	readval(RREAL v, int n, FILE fp)
280	+	{
281	+	int i;
282	+	#ifdef SMLFLT
283	+	double vd[3];
284	+	switch (iofmt) {
285	+	case 'f':
286	+	return getbinary(v, sizeof(float), n, fp);
287	+	case 'd':
288	+	n = getbinary(vd, sizeof(double), n, fp);
289	+	for (i = n; i-- > 0; ) v[i] = vd[i];
290	+	return n;
291	+	case 'a':
292	+	for (i = 0; i < n; i++)
293	+	if (fscanf(fp, "%f ", &v[i]) != 1)
294	+	break;
295	+	return i;
296	+	}
297	+	#else
298	+	float vf[3];
299	+	switch (iofmt) {
300	+	case 'd':
301	+	return getbinary(v, sizeof(double), n, fp);
302	+	case 'f':
303	+	n = getbinary(vf, sizeof(float), n, fp);
304	+	for (i = n; i-- > 0; ) v[i] = vf[i];
305	+	return n;
306	+	case 'a':
307	+	for (i = 0; i < n; i++)
308	+	if (fscanf(fp, "%lf ", &v[i]) != 1)
309	+	break;
310	+	return i;
311	+	}
312	+	#endif
313	+	return -1;
314	+	}
315
316	<	addbeam(bp, hb) /* add a beam to our output holodeck */
317	<	register BEAM *bp;
318	<	register HDBEAMI *hb;
316	>	#define GOT_ORG 0x01
317	>	#define GOT_DIR 0x02
318	>	#define GOT_LEN 0x04
319	>	#define GOT_VAL 0x10
320	>	#define ALSO_POS 0x20
321	>	#define BAD_DIR 0x40
322	>	#define BAD_LEN 0x80
323	>
324	>	/* Read rays from stream and add to holodeck */
325	>	static void
326	>	readrays(FILE *fp)
327		{
328	+	if (iofmt != 'a')
329	+	SET_FILE_BINARY(fp);
330	+	#ifdef getc_unlocked
331	+	flockfile(fp);
332	+	#endif
333	+	while (!feof(fp)) { /* read entirety of input */
334	+	RAYPAR ryp;
335	+	FVECT pos;
336	+	FVECT col;
337	+	int flags = 0;
338	+	int i;
339	+	for (i = 0; rspec[i]; i++) {
340	+	switch (rspec[i]) {
341	+	case 'o': /* ray origin */
342	+	if (readval(ryp.ro, 3, fp) < 3)
343	+	break;
344	+	flags \|= GOT_ORG;
345	+	continue;
346	+	case 'd': /* ray direction */
347	+	if (readval(ryp.rd, 3, fp) < 3)
348	+	break;
349	+	if (normalize(ryp.rd) == 0)
350	+	flags \|= BAD_DIR;
351	+	else
352	+	flags \|= GOT_DIR;
353	+	continue;
354	+	case 'p': /* ray intersection */
355	+	if (readval(pos, 3, fp) < 3)
356	+	break;
357	+	flags \|= ALSO_POS;
358	+	continue;
359	+	case 'L': /* ray first length */
360	+	case 'l': /* ray virtual length */
361	+	if (readval(&ryp.d, 1, fp) < 1)
362	+	break;
363	+	if (ryp.d <= FTINY)
364	+	flags \|= BAD_LEN;
365	+	else
366	+	flags \|= GOT_LEN;
367	+	continue;
368	+	case 'v': /* ray value */
369	+	if (readval(col, 3, fp) < 3)
370	+	break;
371	+	setcolr(ryp.cv, col[0], col[1], col[2]);
372	+	flags \|= GOT_VAL;
373	+	continue;
374	+	default:
375	+	sprintf(errmsg, "unsupported parameter '%c' in -i%s",
376	+	rspec[i], rspec);
377	+	error(USER, errmsg);
378	+	}
379	+	if (!flags) /* got nothing, so may be normal EOF */
380	+	return;
381	+	}
382	+	if (flags & (BAD_DIR\|BAD_LEN))
383	+	continue; /* just a bad ray is all -- skip */
384	+	if (!(flags & GOT_VAL))
385	+	goto missingData;
386	+	if ((flags & (GOT_ORG\|GOT_DIR\|GOT_LEN)) != (GOT_ORG\|GOT_DIR\|GOT_LEN)) {
387	+	if (!(flags & ALSO_POS))
388	+	goto missingData;
389	+	if (flags & GOT_ORG) {
390	+	VSUB(ryp.rd, pos, ryp.ro);
391	+	ryp.d = normalize(ryp.rd);
392	+	if (ryp.d == 0)
393	+	continue;
394	+	} else if ((flags & (GOT_DIR\|GOT_LEN)) == (GOT_DIR\|GOT_LEN)) {
395	+	VSUM(ryp.ro, pos, ryp.rd, -ryp.d);
396	+	} else
397	+	goto missingData;
398	+	}
399	+	addray(&ryp); /* add our ray to holodeck */
400	+	}
401	+	return;
402	+	missingData:
403	+	sprintf(errmsg, "insufficient data in -i%s", rspec);
404	+	error(USER, errmsg);
405	+	}
406	+
407	+	/* Write vector value to file stream */
408	+	static int
409	+	writeval(RREAL v, int n, FILE fp)
410	+	{
411	+	int i;
412	+
413	+	if (iofmt == 'a') {
414	+	for (i = 0; i < n; i++)
415	+	if (fprintf(fp, "\t%.4e", v[i]) < 0)
416	+	break;
417	+	return i;
418	+	}
419	+	#ifdef SMLFLT
420	+	if (iofmt == 'd') {
421	+	double vd[3];
422	+	for (i = n; i--; ) vd[i] = v[i];
423	+	return putbinary(vd, sizeof(double), n, fp);
424	+	}
425	+	#else
426	+	if (iofmt == 'f') {
427	+	float vf[3];
428	+	for (i = n; i--; ) vf[i] = v[i];
429	+	return putbinary(vf, sizeof(float), n, fp);
430	+	}
431	+	#endif
432	+	return putbinary(v, sizeof(*v), n, fp);
433	+	}
434	+
435	+	/* Write out an individual ray as requested */
436	+	static int
437	+	write_ray(RAYPAR rp, FILE fp)
438	+	{
439	+	COLOR cval;
440	+	FVECT v3;
441	+	char *typ = rspec;
442	+
443	+	for ( ; ; ) {
444	+	switch (*typ++) {
445	+	case 'o': /* ray origin */
446	+	if (writeval(rp->ro, 3, fp) < 3)
447	+	break;
448	+	continue;
449	+	case 'd': /* ray direction */
450	+	if (writeval(rp->rd, 3, fp) < 3)
451	+	break;
452	+	continue;
453	+	case 'p': /* ray intersection */
454	+	VSUM(v3, rp->ro, rp->rd, rp->d);
455	+	if (writeval(v3, 3, fp) < 3)
456	+	break;
457	+	continue;
458	+	case 'L': /* ray first length */
459	+	case 'l': /* ray virtual length */
460	+	if (writeval(&rp->d, 1, fp) < 1)
461	+	break;
462	+	continue;
463	+	case 'v': /* ray value */
464	+	colr_color(cval, rp->cv);
465	+	VCOPY(v3, cval);
466	+	if (writeval(v3, 3, fp) < 3)
467	+	break;
468	+	continue;
469	+	case '\0': /* end of spec -- success */
470	+	if (iofmt == 'a')
471	+	fputc('\n', fp);
472	+	return(1);
473	+	default:
474	+	sprintf(errmsg, "unsupported parameter '%c' in -o%s", typ[-1], rspec);
475	+	}
476	+	break; /* land here on error */
477	+	}
478	+	return 0; /* write error? */
479	+	}
480	+
481	+	/* Write all rays from holodeck to stream */
482	+	static void
483	+	writerays(FILE *fp)
484	+	{
485	+	int sn, bi, k;
486		GCOORD gc[2];
487	<	FVECT ro, rd;
488	<	double d;
489	<	register int k;
490	<	/* get beam coordinates */
491	<	hdbcoord(gc, hb->h, hb->b);
492	<	/* add each ray to output */
207	<	for (k = bp->nrm; k--; ) {
208	<	d = hdray(ro, rd, hb->h, gc, hdbray(bp)[k].r);
209	<	if (hb->h->priv == &unobstr)
210	<	VSUM(ro, ro, rd, d);
211	<	else
212	<	d = 0.;
213	<	d = hddepth(hb->h, hdbray(bp)[k].d) - d;
214	<	addray(ro, rd, d, hdbray(bp)[k].v);
487	>	RAYVAL *rv;
488	>	RAYPAR ryp;
489	>
490	>	if (!*rspec) {
491	>	error(WARNING, "empty -o* output spec, quitting");
492	>	return;
493		}
494	<	hdfreebeam(hb->h, hb->b); /* free the beam */
494	>	if (iofmt != 'a')
495	>	SET_FILE_BINARY(fp);
496	>	#ifdef getc_unlocked
497	>	flockfile(fp);
498	>	#endif
499	>	for (sn = 0; sn < nholosects; sn++) { /* write each holodeck section */
500	>	HOLO *hp = hdlist[sn];
501	>	for (bi = nbeams(hp); bi > 0; bi--) {
502	>	BEAM *bp = hdgetbeam(hp, bi);
503	>	if (!bp) /* empty beam? */
504	>	continue;
505	>	hdbcoord(gc, hp, bi); /* else write rays */
506	>	rv = hdbray(bp);
507	>	for (k = bp->nrm; k--; rv++) {
508	>	ryp.d = hdray(ryp.ro, ryp.rd, hp, gc, rv->r);
509	>	if ((int )hp->priv & H_OBSF)
510	>	VSUM(ryp.ro, ryp.ro, ryp.rd, ryp.d);
511	>	else
512	>	ryp.d = 0.;
513	>	ryp.d = hddepth(hp, rv->d) - ryp.d;
514	>	copycolr(ryp.cv, rv->v);
515	>	if (!write_ray(&ryp, fp))
516	>	goto writError;
517	>	}
518	>	hdfreebeam(hp, bi);
519	>	}
520	>	}
521	>	if (fflush(fp) != EOF)
522	>	return;
523	>	writError:
524	>	error(SYSTEM, "error writing holodeck rays");
525		}
526
527	+	static BEAMI *beamdir;
528
529	<	addholo(hdf) /* add a holodeck file */
530	<	char *hdf;
529	>	static int
530	>	bpcmp( /* compare beam positions on disk */
531	>	const void *b1p,
532	>	const void *b2p
533	>	)
534		{
535	+	off_t pdif = beamdir[(int)b1p].fo - beamdir[(int)b2p].fo;
536	+
537	+	if (pdif > 0L) return(1);
538	+	if (pdif < 0L) return(-1);
539	+	return(0);
540	+	}
541	+
542	+	static int
543	+	addclump( /* transfer the given clump and free */
544	+	HOLO *hp,
545	+	int *bq,
546	+	int nb
547	+	)
548	+	{
549	+	GCOORD gc[2];
550	+	RAYPAR ryp;
551	+	RAYVAL *rv;
552	+	int i;
553	+	int k;
554	+	BEAM *bp;
555	+	/* sort based on file position */
556	+	beamdir = hp->bi;
557	+	qsort((char )bq, nb, sizeof(bq), bpcmp);
558	+	/* transfer each beam */
559	+	for (i = 0; i < nb; i++) {
560	+	bp = hdgetbeam(hp, bq[i]);
561	+	hdbcoord(gc, hp, bq[i]);
562	+	rv = hdbray(bp); /* add each ray to output */
563	+	for (k = bp->nrm; k--; rv++) {
564	+	ryp.d = hdray(ryp.ro, ryp.rd, hp, gc, rv->r);
565	+	if ((int )hp->priv & H_OBSF)
566	+	VSUM(ryp.ro, ryp.ro, ryp.rd, ryp.d);
567	+	else
568	+	ryp.d = 0.;
569	+	ryp.d = hddepth(hp, rv->d) - ryp.d;
570	+	copycolr(ryp.cv, rv->v);
571	+	addray(&ryp);
572	+	}
573	+	hdfreebeam(hp, bq[i]); /* free the beam */
574	+	}
575	+	return(0);
576	+	}
577	+
578	+
579	+	void
580	+	addholo( /* add a holodeck file */
581	+	char *hdf
582	+	)
583	+	{
584		int fd;
585		/* open the holodeck for reading */
586		openholo(hdf, 0);
587	<	fd = hdlist[noutsects]->fd; /* remember the file handle */
588	<	while (hdlist[noutsects] != NULL) { /* load each section */
587	>	fd = hdlist[nholosects]->fd; /* remember the file handle */
588	>	while (hdlist[nholosects] != NULL) { /* load each section */
589		/* clump the beams */
590	<	clumpbeams(hdlist[noutsects], 0, BKBSIZE*1024, addbeam);
591	<	hddone(hdlist[noutsects]); /* free the section */
590	>	clumpbeams(hdlist[nholosects], 0, BKBSIZE*1024, addclump);
591	>	hddone(hdlist[nholosects]); /* free the section */
592		}
593		close(fd); /* close input file */
594	+	hdflush(NULL); /* flush output */
595		}
596
597
236	–	struct phead {
237	–	VIEW vw;
238	–	double expos;
239	–	short gotview;
240	–	short badfmt;
241	–	short altprims;
242	–	};
598
599	<
600	<	int
601	<	picheadline(s, ph) /* process picture header line */
602	<	char *s;
603	<	struct phead *ph;
599	>	static int
600	>	picheadline( /* process picture header line */
601	>	char *s,
602	>	void *vph
603	>	)
604		{
605		char fmt[32];
606	+	struct phead ph = (struct phead )vph;
607
608		if (formatval(fmt, s)) {
609		ph->badfmt = strcmp(fmt, COLRFMT);
#	Line 269 \| Line 625 \| *struct phead ph;**
625		}
626
627
628	<	addpicz(pcf, zbf) /* add a picture + depth-buffer */
629	<	char pcf, zbf;
628	>	void
629	>	addpicz( /* add a picture + depth-buffer */
630	>	char *pcf,
631	>	char *zbf
632	>	)
633		{
634		FILE *pfp;
635		int zfd;
#	Line 280 \| Line 639 \| *char pcf, zbf;*
639		int eshft;
640		double emult;
641		RESOLU prs;
642	<	FLOAT vl[2];
643	<	FVECT ro, rd;
642	>	RREAL vl[2];
643	>	RAYPAR ryp;
644		double aftd;
645	<	COLOR ctmp;
646	<	int j;
647	<	register int i;
289	<	/* open files */
290	<	if ((pfp = fopen(pcf, "r")) == NULL) {
645	>	int j, i;
646	>	/* open picture & get header */
647	>	if ((pfp = fopen(pcf, "rb")) == NULL) {
648		sprintf(errmsg, "cannot open picture file \"%s\"", pcf);
649		error(SYSTEM, pcf);
650		}
651	<	if ((zfd = open(zbf, O_RDONLY)) < 0) {
295	<	sprintf(errmsg, "cannot open depth file \"%s\"", zbf);
296	<	error(SYSTEM, pcf);
297	<	}
298	<	/* load picture header */
299	<	copystruct(&phd.vw, &stdview);
651	>	phd.vw = stdview;
652		phd.expos = 1.0;
653		phd.badfmt = phd.gotview = phd.altprims = 0;
654		if (getheader(pfp, picheadline, &phd) < 0 \|\|
#	Line 310 \| Line 662 \| *char pcf, zbf;*
662		error(USER, errmsg);
663		}
664		if (phd.altprims) {
665	<	sprintf(errmsg, "ignoring primary values in picture \"%s\"",
665	>	sprintf(errmsg, "ignoring color primaries in picture \"%s\"",
666		pcf);
667		error(WARNING, errmsg);
668		}
669	+	/* open depth buffer */
670	+	if ((zfd = open_float_depth(zbf, prs.xr*prs.yr)) < 0)
671	+	quit(1);
672		/* figure out what to do about exposure */
673	<	if (phd.expos < 0.99 \| phd.expos > 1.01) {
673	>	if ((phd.expos < 0.99) \| (phd.expos > 1.01)) {
674		emult = -log(phd.expos)/log(2.);
675		eshft = emult >= 0. ? emult+.5 : emult-.5;
676		emult -= (double)eshft;
677	<	if (emult <= 0.01 & emult >= -0.01)
677	>	if ((emult <= 0.01) & (emult >= -0.01))
678		emult = -1.;
679		else {
680		emult = 1./phd.expos;
#	Line 332 \| Line 687 \| *char pcf, zbf;*
687		/* allocate buffers */
688		cscn = (COLR )malloc(scanlen(&prs)sizeof(COLR));
689		zscn = (float )malloc(scanlen(&prs)sizeof(float));
690	<	if (cscn == NULL \| zscn == NULL)
690	>	if ((cscn == NULL) \| (zscn == NULL))
691		error(SYSTEM, "out of memory in addpicz");
692		/* read and process each scanline */
693		for (j = 0; j < numscans(&prs); j++) {
#	Line 343 \| Line 698 \| *char pcf, zbf;*
698		}
699		if (eshft) /* shift exposure */
700		shiftcolrs(cscn, i, eshft);
701	<	i = sizeof(float); / read depth */
702	<	if (read(zfd, (char *)zscn, i) != i) {
701	>	/* read depth */
702	>	if (read(zfd, zscn, isizeof(float)) != isizeof(float)) {
703		sprintf(errmsg, "error reading depth file \"%s\"", zbf);
704		error(USER, errmsg);
705		}
706	<	for (i = scanlen(&prs); i--; ) { /* do each pixel */
706	>	while (i--) { /* process each pixel */
707	>	if (zscn[i] <= 0.0)
708	>	continue; /* illegal depth */
709		pix2loc(vl, &prs, i, j);
710	<	aftd = viewray(ro, rd, &phd.vw, vl[0], vl[1]);
710	>	aftd = viewray(ryp.ro, ryp.rd, &phd.vw, vl[0], vl[1]);
711		if (aftd < -FTINY)
712		continue; /* off view */
713		if (aftd > FTINY && zscn[i] > aftd)
714		continue; /* aft clipped */
715	+	ryp.d = (RREAL)zscn[i];
716	+	copycolr(ryp.cv, cscn[i]);
717		if (emult > 0.) { /* whatta pain */
718	<	colr_color(ctmp, cscn[i]);
718	>	COLOR ctmp;
719	>	colr_color(ctmp, ryp.cv);
720		scalecolor(ctmp, emult);
721	<	setcolr(cscn[i], colval(ctmp,RED),
721	>	setcolr(ryp.cv, colval(ctmp,RED),
722		colval(ctmp,GRN), colval(ctmp,BLU));
723		}
724	<	addray(ro, rd, (double)zscn[i], cscn[i]);
724	>	addray(&ryp);
725		}
726		}
727	<	/* write output */
728	<	hdsync(NULL, 1);
727	>	/* write output and free beams */
728	>	hdflush(NULL);
729		/* clean up */
730	<	free((char *)cscn);
731	<	free((char *)zscn);
730	>	free((void *)cscn);
731	>	free((void *)zscn);
732		fclose(pfp);
733		close(zfd);
734		}
735
736
737	<	eputs(s) /* put error message to stderr */
738	<	register char *s;
737	>	void
738	>	eputs( /* put error message to stderr */
739	>	char *s
740	>	)
741		{
742		static int midline = 0;
743
#	Line 393 \| Line 755 \| *register char s;**
755		}
756
757
758	<	quit(code) /* exit the program gracefully */
759	<	int code;
758	>	void
759	>	quit( /* exit the program gracefully */
760	>	int code
761	>	)
762		{
763		hdsync(NULL, 1); /* write out any buffered data */
764		exit(code);

Diff Legend

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Comparing ray/src/hd/rhcopy.c (file contents): Revision 3.10 by gwlarson, Mon Nov 9 17:11:40 1998 UTC vs. Revision 3.34 by greg, Wed Nov 16 00:12:49 2022 UTC

Diff Legend

Comparing ray/src/hd/rhcopy.c (file contents):
Revision 3.10 by gwlarson, Mon Nov 9 17:11:40 1998 UTC vs.
Revision 3.34 by greg, Wed Nov 16 00:12:49 2022 UTC