[ViewVC] Diff of: radiance/ray/src/rt/data.c

Comparing ray/src/rt/data.c (file contents):
Revision 2.28 by schorsch, Sat Oct 23 18:55:52 2004 UTC vs.
Revision 2.41 by greg, Thu Mar 14 06:30:53 2024 UTC

#	Line 20 \| Line 20 \| static const char RCSid[] = "$Id$";
20		/* picture memory usage before warning */
21		#ifndef PSIZWARN
22		#ifdef SMLMEM
23	<	#define PSIZWARN 1500000
23	>	#define PSIZWARN 3000000
24		#else
25	<	#define PSIZWARN 5000000
25	>	#define PSIZWARN 50000000
26		#endif
27		#endif
28
29		#ifndef TABSIZ
30	<	#define TABSIZ 97 /* table size (prime) */
30	>	#define TABSIZ 997 /* table size (prime) */
31		#endif
32
33		#define hash(s) (shash(s)%TABSIZ)
#	Line 38 \| Line 38 \| *static DATARRAY dtab[TABSIZ]; /* data array list /*
38		static gethfunc headaspect;
39
40
41	<	extern DATARRAY *
41	>	DATARRAY *
42		getdata( /* get data array dname */
43		char *dname
44		)
45		{
46		char *dfname;
47		FILE *fp;
48	<	int asize;
49	<	register int i, j;
50	<	register DATARRAY *dp;
48	>	int asize=0;
49	>	int i, j;
50	>	DATARRAY *dp;
51		/* look for array in list */
52		for (dp = dtab[hash(dname)]; dp != NULL; dp = dp->next)
53		if (!strcmp(dname, dp->name))
#	Line 74 \| Line 74 \| *getdata( / get data array dname /*
74
75		if ((dfname = getpath(dname, getrlibpath(), R_OK)) == NULL) {
76		sprintf(errmsg, "cannot find data file \"%s\"", dname);
77	<	error(USER, errmsg);
77	>	error(SYSTEM, errmsg);
78		}
79		if ((fp = fopen(dfname, "r")) == NULL) {
80		sprintf(errmsg, "cannot open data file \"%s\"", dfname);
81		error(SYSTEM, errmsg);
82		}
83		/* get dimensions */
84	<	if (fgetval(fp, 'i', (char *)&asize) <= 0)
84	>	if (fgetval(fp, 'i', &asize) <= 0)
85		goto scanerr;
86		if ((asize <= 0) \| (asize > MAXDDIM)) {
87		sprintf(errmsg, "bad number of dimensions for \"%s\"", dname);
#	Line 94 \| Line 94 \| *getdata( / get data array dname /*
94		dp->nd = asize;
95		asize = 1;
96		for (i = 0; i < dp->nd; i++) {
97	<	if (fgetval(fp, DATATY, (char *)&dp->dim[i].org) <= 0)
97	>	if (fgetval(fp, DATATY, &dp->dim[i].org) <= 0)
98		goto scanerr;
99	<	if (fgetval(fp, DATATY, (char *)&dp->dim[i].siz) <= 0)
99	>	if (fgetval(fp, DATATY, &dp->dim[i].siz) <= 0)
100		goto scanerr;
101	<	if (fgetval(fp, 'i', (char *)&dp->dim[i].ne) <= 0)
101	>	if (fgetval(fp, 'i', &dp->dim[i].ne) <= 0)
102		goto scanerr;
103		if (dp->dim[i].ne < 2)
104		goto scanerr;
#	Line 109 \| Line 109 \| *getdata( / get data array dname /*
109		if (dp->dim[i].p == NULL)
110		goto memerr;
111		for (j = 0; j < dp->dim[i].ne; j++)
112	<	if (fgetval(fp, DATATY,
113	<	(char *)&dp->dim[i].p[j]) <= 0)
112	>	if (fgetval(fp, DATATY, &dp->dim[i].p[j]) <= 0)
113		goto scanerr;
114		for (j = 1; j < dp->dim[i].ne-1; j++)
115		if ((dp->dim[i].p[j-1] < dp->dim[i].p[j]) !=
#	Line 126 \| Line 125 \| *getdata( / get data array dname /*
125		goto memerr;
126
127		for (i = 0; i < asize; i++)
128	<	if (fgetval(fp, DATATY, (char *)&dp->arr.d[i]) <= 0)
128	>	if (fgetval(fp, DATATY, &dp->arr.d[i]) <= 0)
129		goto scanerr;
130		fclose(fp);
131		i = hash(dname);
132		dp->next = dtab[i];
133		return(dtab[i] = dp);
135	–
134		memerr:
135		error(SYSTEM, "out of memory in getdata");
136		scanerr:
137		sprintf(errmsg, "%s in data file \"%s\"",
138		feof(fp) ? "unexpected EOF" : "bad format", dfname);
139		error(USER, errmsg);
140	<	return NULL; /* pro forma return */
140	>	return NULL; /* pro forma return */
141		}
142
143
#	Line 149 \| Line 147 \| *headaspect( / check string for aspect ratio /*
147		void *iap
148		)
149		{
150	<	char fmt[32];
150	>	char fmt[MAXFMTLEN];
151
152		if (isaspect(s))
153		(double)iap *= aspectval(s);
154	<	else if (formatval(fmt, s) && !globmatch(PICFMT, fmt))
154	>	else if (formatval(fmt, s) && strcmp(fmt, COLRFMT))
155		(double)iap = 0.0;
156		return(0);
157		}
158
159	<
162	<	extern DATARRAY *
159	>	DATARRAY *
160		getpict( /* get picture pname */
161		char *pname
162		)
#	Line 172 \| Line 169 \| *getpict( / get picture pname /*
169		RESOLU inpres;
170		RREAL loc[2];
171		int y;
172	<	register int x, i;
173	<	register DATARRAY *pp;
172	>	int x, i;
173	>	DATARRAY *pp;
174		/* look for array in list */
175		for (pp = dtab[hash(pname)]; pp != NULL; pp = pp->next)
176		if (!strcmp(pname, pp->name))
#	Line 181 \| Line 178 \| *getpict( / get picture pname /*
178
179		if ((pfname = getpath(pname, getrlibpath(), R_OK)) == NULL) {
180		sprintf(errmsg, "cannot find picture file \"%s\"", pname);
181	<	error(USER, errmsg);
181	>	error(SYSTEM, errmsg);
182		}
183		if ((pp = (DATARRAY )malloc(3sizeof(DATARRAY))) == NULL)
184		goto memerr;
185
186		pp[0].name = savestr(pname);
187
188	<	if ((fp = fopen(pfname, "r")) == NULL) {
188	>	if ((fp = fopen(pfname, "rb")) == NULL) {
189		sprintf(errmsg, "cannot open picture file \"%s\"", pfname);
190		error(SYSTEM, errmsg);
191		}
195	–	SET_FILE_BINARY(fp);
192		/* get dimensions */
193		inpaspect = 1.0;
194		getheader(fp, headaspect, &inpaspect);
#	Line 218 \| Line 214 \| *getpict( / get picture pname /*
214		i = nsslsizeof(COLR);
215		#if PSIZWARN
216		if (i > PSIZWARN) { /* memory warning */
217	<	sprintf(errmsg, "picture file \"%s\" using %d bytes of memory",
218	<	pname, i);
217	>	sprintf(errmsg, "picture file \"%s\" using %.1f MB of memory",
218	>	pname, i(1.0/(10241024)));
219		error(WARNING, errmsg);
220		}
221		#endif
#	Line 238 \| Line 234 \| *getpict( / get picture pname /*
234		copycolr(pp[0].arr.c[i], scanin[x]);
235		}
236		}
237	<	free((void *)scanin);
237	>	free(scanin);
238		fclose(fp);
239		i = hash(pname);
240		pp[0].next = dtab[i]; /* link into picture list */
#	Line 248 \| Line 244 \| *getpict( / get picture pname /*
244		pp[1].type = GRN;
245		pp[2].type = BLU;
246		return(dtab[i] = pp);
251	–
247		memerr:
248		error(SYSTEM, "out of memory in getpict");
249		readerr:
250		sprintf(errmsg, "bad picture file \"%s\"", pfname);
251		error(USER, errmsg);
252	<	return NULL; /* pro forma return */
252	>	return NULL; /* pro forma return */
253		}
254
255
256	<	extern void
256	>	/* header info type for hyperspectral image */
257	>	typedef struct {
258	>	float wlpart[4]; /* wavelength partitions */
259	>	int nc; /* number of components */
260	>	double inpaspect; /* pixel aspect ratio */
261	>	} SPECINFO;
262	>
263	>	static int
264	>	specheadline( /* get info for spectral image */
265	>	char *s,
266	>	void *cdp
267	>	)
268	>	{
269	>	SPECINFO sip = (SPECINFO )cdp;
270	>	char fmt[MAXFMTLEN];
271	>
272	>	if (isaspect(s))
273	>	sip->inpaspect *= aspectval(s);
274	>	else if (isncomp(s))
275	>	sip->nc = ncompval(s);
276	>	else if (iswlsplit(s))
277	>	wlsplitval(sip->wlpart, s);
278	>	else if (formatval(fmt, s) && strcmp(fmt, SPECFMT))
279	>	return(-1);
280	>	return(0);
281	>	}
282	>
283	>	DATARRAY *
284	>	getspec( /* load hyperspectral image as data */
285	>	char *sname
286	>	)
287	>	{
288	>	SPECINFO si;
289	>	char *pfname;
290	>	FILE *fp;
291	>	int sl, ns;
292	>	int y, i;
293	>	DATARRAY *pp;
294	>	/* look for array in list */
295	>	for (pp = dtab[hash(sname)]; pp != NULL; pp = pp->next)
296	>	if (!strcmp(sname, pp->name))
297	>	return(pp); /* found! */
298	>
299	>	if ((pfname = getpath(sname, getrlibpath(), R_OK)) == NULL) {
300	>	sprintf(errmsg, "cannot find hyperspectral image \"%s\"", sname);
301	>	error(SYSTEM, errmsg);
302	>	}
303	>	if ((fp = fopen(pfname, "rb")) == NULL) {
304	>	sprintf(errmsg, "cannot open hyperspectral image \"%s\"", pfname);
305	>	error(SYSTEM, errmsg);
306	>	}
307	>	si.wlpart[3] = 0;
308	>	si.nc = 0;
309	>	si.inpaspect = 1.0;
310	>	if (getheader(fp, specheadline, &si) < 0 \|\|
311	>	(si.nc <= 3) \| (si.nc > MAXCSAMP) \| (si.wlpart[3] < 1) \|\|
312	>	!fscnresolu(&sl, &ns, fp))
313	>	goto readerr;
314	>
315	>	if ((pp = (DATARRAY *)malloc(sizeof(DATARRAY))) == NULL)
316	>	goto memerr;
317	>
318	>	pp->name = savestr(sname);
319	>	pp->type = SPECTY;
320	>	pp->nd = 3;
321	>	pp->dim[0].ne = ns;
322	>	pp->dim[1].ne = sl;
323	>	pp->dim[0].org =
324	>	pp->dim[1].org = 0.0;
325	>	if (sl <= ns*si.inpaspect) {
326	>	pp->dim[0].siz = si.inpaspect * (double)ns/sl;
327	>	pp->dim[1].siz = 1.0;
328	>	} else {
329	>	pp->dim[0].siz = 1.0;
330	>	pp->dim[1].siz = (double)sl/ns / si.inpaspect;
331	>	}
332	>	pp->dim[2].ne = si.nc;
333	>	pp->dim[2].siz = si.wlpart[3] - si.wlpart[0];
334	>	pp->dim[2].org = si.wlpart[0] + 0.5*pp->dim[2].siz/si.nc;
335	>	pp->dim[2].siz *= (si.nc - 1.0)/si.nc;
336	>	pp->dim[0].p = pp->dim[1].p = pp->dim[2].p = NULL;
337	>	i = nssl(si.nc+1);
338	>	#if PSIZWARN
339	>	if (i > PSIZWARN) { /* memory warning */
340	>	sprintf(errmsg, "hyperspectral image \"%s\" using %.1f MB of memory",
341	>	sname, i(1.0/(10241024)));
342	>	error(WARNING, errmsg);
343	>	}
344	>	#endif
345	>	if ((pp->arr.s = (uby8 *)malloc(i)) == NULL)
346	>	goto memerr;
347	>	for (y = 0; y < ns; y++) /* read each scanline */
348	>	if (freadscolrs(pp->arr.s + ysl(si.nc+1), si.nc, sl, fp) < 0)
349	>	goto readerr;
350	>	fclose(fp);
351	>	i = hash(sname); /* insert in hash table */
352	>	pp->next = dtab[i];
353	>	return(dtab[i] = pp);
354	>	memerr:
355	>	error(SYSTEM, "out of memory in getspec");
356	>	readerr:
357	>	sprintf(errmsg, "bad hyperspectral image \"%s\"", pfname);
358	>	error(USER, errmsg);
359	>	return NULL; /* pro forma return */
360	>	}
361	>
362	>
363	>	void
364		freedata( /* release data array reference */
365		DATARRAY *dta
366		)
367		{
368		DATARRAY head;
369		int hval, nents;
370	<	register DATARRAY dpl, dp;
371	<	register int i;
370	>	DATARRAY dpl, dp;
371	>	int i;
372
373		if (dta == NULL) { /* free all if NULL */
374		hval = 0; nents = TABSIZ;
375		} else {
376	+	if (dta->next == dta) {
377	+	free(dta); /* unlisted temp array */
378	+	return;
379	+	}
380		hval = hash(dta->name); nents = 1;
381	+	if (!dta->name) { / not a data file? */
382	+	dta->next = dtab[hval];
383	+	dtab[hval] = dta; /* ...fake position */
384	+	}
385		}
386		while (nents--) {
387		head.next = dtab[hval];
#	Line 279 \| Line 389 \| *freedata( / release data array reference /*
389		while ((dp = dpl->next) != NULL)
390		if ((dta == NULL) \| (dta == dp)) {
391		dpl->next = dp->next;
392	<	if (dp->type == DATATY)
283	<	free((void *)dp->arr.d);
284	<	else
285	<	free((void *)dp->arr.c);
392	>	free(dp->arr.p);
393		for (i = 0; i < dp->nd; i++)
394		if (dp->dim[i].p != NULL)
395	<	free((void *)dp->dim[i].p);
395	>	free(dp->dim[i].p);
396		freestr(dp->name);
397	<	free((void *)dp);
397	>	free(dp);
398		} else
399		dpl = dp;
400		dtab[hval++] = head.next;
#	Line 295 \| Line 402 \| *freedata( / release data array reference /*
402		}
403
404
405	<	extern double
406	<	datavalue( /* interpolate data value at a point */
407	<	register DATARRAY *dp,
301	<	double *pt
302	<	)
405	>	/* internal call to interpolate data value or vector */
406	>	static double
407	>	data_interp(DATARRAY dp, double pt, double coef, DATATYPE *rvec)
408		{
409	<	DATARRAY sd;
410	<	int asize;
411	<	int lower, upper;
412	<	register int i;
413	<	double x, y0, y1;
409	>	DATARRAY sd;
410	>	int stride, i;
411	>	double x, c0, c1, y0, y1;
412	>	/* unlikely, but may as well check */
413	>	if ((-FTINY <= coef) & (coef <= FTINY))
414	>	return(0.);
415		/* set up dimensions for recursion */
416		if (dp->nd > 1) {
417		sd.name = dp->name;
418		sd.type = dp->type;
419		sd.nd = dp->nd - 1;
420	<	asize = 1;
421	<	for (i = 0; i < sd.nd; i++) {
422	<	sd.dim[i].org = dp->dim[i+1].org;
423	<	sd.dim[i].siz = dp->dim[i+1].siz;
318	<	sd.dim[i].p = dp->dim[i+1].p;
319	<	asize *= sd.dim[i].ne = dp->dim[i+1].ne;
320	<	}
420	>	memcpy(sd.dim, dp->dim+1, sd.nd*sizeof(struct dadim));
421	>	stride = sd.dim[i = sd.nd-1].ne + (sd.type==SPECTY);
422	>	while (i-- > 0)
423	>	stride *= sd.dim[i].ne;
424		}
425		/* get independent variable */
426		if (dp->dim[0].p == NULL) { /* evenly spaced points */
#	Line 329 \| Line 432 \| *datavalue( / interpolate data value at a point /*
432		else if (i > dp->dim[0].ne - 2)
433		i = dp->dim[0].ne - 2;
434		} else { /* unevenly spaced points */
435	<	if (dp->dim[0].siz > 0.0) {
435	>	int lower, upper;
436	>	if (dp->dim[0].siz > 0.) {
437		lower = 0;
438		upper = dp->dim[0].ne;
439		} else {
#	Line 343 \| Line 447 \| *datavalue( / interpolate data value at a point /*
447		else
448		upper = i;
449		} while (i != (lower + upper) >> 1);
450	+
451		if (i > dp->dim[0].ne - 2)
452		i = dp->dim[0].ne - 2;
453	+
454		x = i + (pt[0] - dp->dim[0].p[i]) /
455		(dp->dim[0].p[i+1] - dp->dim[0].p[i]);
456		}
457	+	/*
458	+	* Compute interpolation coefficients:
459	+	* extrapolate as far as one division, then
460	+	* taper off harmonically to zero.
461	+	*/
462	+	if (x > i+2) {
463	+	c0 = 1./(i-1 - x);
464	+	c1 = -2.*c0;
465	+	} else if (x < i-1) {
466	+	c1 = 1./(i - x);
467	+	c0 = -2.*c1;
468	+	} else {
469	+	c0 = i+1 - x;
470	+	c1 = x - i;
471	+	}
472	+	c0 *= coef;
473	+	c1 *= coef;
474	+	/* check if vector interp */
475	+	if ((dp->nd == 2) & (rvec != NULL)) {
476	+	if (dp->type == DATATY) {
477	+	sd.arr.d = dp->arr.d + i*stride;
478	+	for (i = sd.dim[0].ne; i--; )
479	+	rvec[i] += c0*sd.arr.d[i]
480	+	+ c1*sd.arr.d[i+stride];
481	+	} else if (dp->type == SPECTY) {
482	+	double f;
483	+	sd.arr.s = dp->arr.s + i*stride;
484	+	if ((sd.arr.s[sd.dim[0].ne] > 0) & ((-FTINY>c0)\|(c0>FTINY))) {
485	+	f = ldexp(c0, (int)sd.arr.s[sd.dim[0].ne]-(COLXS+8));
486	+	for (i = sd.dim[0].ne; i--; )
487	+	rvec[i] += f*(sd.arr.s[i] + .5);
488	+	}
489	+	sd.arr.s += stride;
490	+	if ((sd.arr.s[sd.dim[0].ne] > 0) & ((-FTINY>c1)\|(c1>FTINY))) {
491	+	f = ldexp(c1, (int)sd.arr.s[sd.dim[0].ne]-(COLXS+8));
492	+	for (i = sd.dim[0].ne; i--; )
493	+	rvec[i] += f*(sd.arr.s[i] + .5);
494	+	}
495	+	} else {
496	+	sd.arr.c = dp->arr.c + i*stride;
497	+	for (i = sd.dim[0].ne; i--; )
498	+	rvec[i] += c0*colrval(sd.arr.c[i],sd.type)
499	+	+ c1*colrval(sd.arr.c[i+stride],sd.type);
500	+	}
501	+	return(0.); /* return value ignored */
502	+	}
503		/* get dependent variable */
504		if (dp->nd > 1) {
505		if (dp->type == DATATY) {
506	<	sd.arr.d = dp->arr.d + i*asize;
507	<	y0 = datavalue(&sd, pt+1);
508	<	sd.arr.d = dp->arr.d + (i+1)*asize;
509	<	y1 = datavalue(&sd, pt+1);
506	>	sd.arr.d = dp->arr.d + i*stride;
507	>	y0 = data_interp(&sd, pt+1, c0, rvec);
508	>	sd.arr.d += stride;
509	>	} else if (dp->type == SPECTY) {
510	>	sd.arr.s = dp->arr.s + i*stride;
511	>	y0 = data_interp(&sd, pt+1, c0, rvec);
512	>	sd.arr.s += stride;
513		} else {
514	<	sd.arr.c = dp->arr.c + i*asize;
515	<	y0 = datavalue(&sd, pt+1);
516	<	sd.arr.c = dp->arr.c + (i+1)*asize;
362	<	y1 = datavalue(&sd, pt+1);
514	>	sd.arr.c = dp->arr.c + i*stride;
515	>	y0 = data_interp(&sd, pt+1, c0, rvec);
516	>	sd.arr.c += stride;
517		}
518	<	} else {
518	>	y1 = data_interp(&sd, pt+1, c1, rvec);
519	>	} else { /* end of recursion */
520		if (dp->type == DATATY) {
521		y0 = dp->arr.d[i];
522		y1 = dp->arr.d[i+1];
523	+	} else if (dp->type == SPECTY) {
524	+	if (dp->arr.s[dp->dim[0].ne]) {
525	+	double f = dp->arr.s[dp->dim[0].ne]
526	+	? ldexp(1., -(COLXS+8) +
527	+	(int)dp->arr.s[dp->dim[0].ne])
528	+	: 0.;
529	+	y0 = f*(dp->arr.s[i] + 0.5);
530	+	y1 = f*(dp->arr.s[i+1] + 0.5);
531	+	} else
532	+	y0 = y1 = 0.;
533		} else {
534		y0 = colrval(dp->arr.c[i],dp->type);
535		y1 = colrval(dp->arr.c[i+1],dp->type);
536		}
537	+	y0 *= c0;
538	+	y1 *= c1;
539		}
540	<	/*
541	<	* Extrapolate as far as one division, then
375	<	* taper off harmonically to zero.
376	<	*/
377	<	if (x > i+2)
378	<	return( (2*y1-y0)/(x-(i-1)) );
540	>	return(y0 + y1); /* coefficients already applied */
541	>	}
542
380	–	if (x < i-1)
381	–	return( (2*y0-y1)/(i-x) );
543
544	<	return( y0((i+1)-x) + y1(x-i) );
544	>	double
545	>	datavalue( /* interpolate data value at a point */
546	>	DATARRAY *dp,
547	>	double *pt
548	>	)
549	>	{
550	>	return(data_interp(dp, pt, 1., NULL));
551		}
552	+
553	+
554	+	/* Interpolate final vector corresponding to last dimension in data array */
555	+	DATARRAY *
556	+	datavector(DATARRAY dp, double pt)
557	+	{
558	+	DATARRAY *newdp;
559	+
560	+	if (dp->nd < 2)
561	+	error(INTERNAL, "datavector() called with 1-D array");
562	+	/* create vector array */
563	+	newdp = (DATARRAY *)malloc(sizeof(DATARRAY) -
564	+	(MAXDDIM-1)*sizeof(struct dadim) +
565	+	sizeof(DATATYPE)*dp->dim[dp->nd-1].ne);
566	+	if (newdp == NULL)
567	+	error(SYSTEM, "out of memory in datavector");
568	+	newdp->next = newdp; /* flags us as temp vector */
569	+	newdp->name = dp->name;
570	+	newdp->type = DATATY;
571	+	newdp->nd = 1; /* vector data goes here */
572	+	newdp->dim[0] = dp->dim[dp->nd-1];
573	+	newdp->arr.d = (DATATYPE *)(newdp->dim + 1);
574	+	memset(newdp->arr.d, 0, sizeof(DATATYPE)*newdp->dim[0].ne);
575	+
576	+	(void)data_interp(dp, pt, 1., newdp->arr.d);
577	+
578	+	return(newdp); /* will be free'd using free() */
579	+	}
580	+

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Comparing ray/src/rt/data.c (file contents): Revision 2.28 by schorsch, Sat Oct 23 18:55:52 2004 UTC vs. Revision 2.41 by greg, Thu Mar 14 06:30:53 2024 UTC

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Comparing ray/src/rt/data.c (file contents):
Revision 2.28 by schorsch, Sat Oct 23 18:55:52 2004 UTC vs.
Revision 2.41 by greg, Thu Mar 14 06:30:53 2024 UTC