[ViewVC] Diff of: radiance/ray/src/util/eplus

Comparing ray/src/util/eplus_adduvf.c (file contents):
Revision 2.2 by greg, Sun Feb 9 22:19:30 2014 UTC vs.
Revision 2.10 by greg, Thu Feb 13 17:33:37 2014 UTC

#	Line 7 \| Line 7 \| static const char RCSid[] = "$Id$";
7		* G.Ward for LBNL
8		*/
9
10	–	#include <stdio.h>
10		#include <stdlib.h>
11	<	#include <string.h>
11	>	#include "rtio.h"
12	>	#include "rtmath.h"
13	>	#include "random.h"
14		#include "eplus_idf.h"
15		#include "triangulate.h"
16		#include "rtprocess.h"
17
18		#ifndef NSAMPLES
19	<	#define NSAMPLES 100000 /* number of samples to use */
19	>	#define NSAMPLES 80000 /* default number of samples */
20		#endif
21
22		char progname; / global argv[0] */
23
24	<	char temp_octree[128]; /* temporary octree */
24	>	int nsamps = NSAMPLES; /* number of samples to use */
25
26	+	char temp_octree[128]; /* temporary octree */
27	+
28		const char UVF_PNAME[] =
29	<	"ZoneProperty:UserViewFactor:bySurfaceName";
29	>	"ZoneProperty:UserViewFactors:bySurfaceName";
30
31		const char ADD_HEADER[] =
32	<	"!+++ User View Factors computed by Radiance +++!\n";
32	>	"\n!+++ User View Factors computed by Radiance +++!\n\n";
33
34		#define NAME_FLD 1 /* name field always first? */
35
36		typedef struct {
37	<	const char pname; / parameter type name */
37	>	const char pname; / object type name */
38		short zone_fld; /* zone field index */
39		short vert_fld; /* vertex field index */
40		} SURF_PTYPE; /* surface type we're interested in */
41
42		const SURF_PTYPE surf_type[] = {
43		{"BuildingSurface:Detailed", 4, 10},
44	+	{"Floor:Detailed", 3, 9},
45	+	{"RoofCeiling:Detailed", 3, 9},
46	+	{"Wall:Detailed", 3, 9},
47		{NULL}
48	<	};
48	>	}; /* IDF surface types */
49
50		typedef struct s_zone {
51		const char zname; / zone name */
52		struct s_zone next; / next zone in list */
53		int nsurf; /* surface count */
54	<	IDF_PARAMETER pfirst; / first matching parameter */
55	<	IDF_PARAMETER plast; / last matching parameter */
54	>	IDF_OBJECT pfirst; / first matching object */
55	>	IDF_OBJECT plast; / last matching object */
56		} ZONE; /* a list of collected zone surfaces */
57
58		ZONE zone_list = NULL; / our list of zones */
59
60		IDF_LOADED our_idf = NULL; / loaded/modified IDF */
61
62	+	typedef struct {
63	+	FVECT sdir[3]; /* UVW unit sampling vectors */
64	+	double poff; /* W-offset for plane of polygon */
65	+	double area_left; /* area left to sample */
66	+	int samp_left; /* remaining samples */
67	+	int wd; /* output file descriptor */
68	+	} POLYSAMP; /* structure for polygon sampling */
69	+
70		/* Create a new zone and push to top of our list */
71		static ZONE *
72	<	new_zone(const char zname, IDF_PARAMETER param)
72	>	new_zone(const char zname, IDF_OBJECT param)
73		{
74		ZONE znew = (ZONE )malloc(sizeof(ZONE));
75
#	Line 70 \| Line 84 \| *new_zone(const char zname, IDF_PARAMETER param)*
84
85		/* Add the detailed surface (polygon) to the named zone */
86		static ZONE *
87	<	add2zone(IDF_PARAMETER param, const char zname)
87	>	add2zone(IDF_OBJECT param, const char zname)
88		{
89		ZONE *zptr;
90
#	Line 80 \| Line 94 \| *add2zone(IDF_PARAMETER param, const char zname)*
94		if (zptr == NULL)
95		return(new_zone(zname, param));
96		/* keep surfaces together */
97	<	if (!idf_movparam(our_idf, param, zptr->plast))
97	>	if (!idf_movobject(our_idf, param, zptr->plast))
98		return(NULL);
99		zptr->plast = param;
100		zptr->nsurf++;
101		return(zptr);
102		}
103
104	<	/* Determine if a parameter is a surface in the indicated zone */
105	<	static int
106	<	in_zone(IDF_PARAMETER param, const char zname)
104	>	/* Return field for vertices in the given object */
105	>	static IDF_FIELD *
106	>	get_vlist(IDF_OBJECT param, const char zname)
107		{
108		int i = 0;
109		IDF_FIELD *fptr;
110		/* check for surface type */
111		while (strcmp(surf_type[i].pname, param->pname))
112		if (surf_type[++i].pname == NULL)
113	<	return(0);
114	<	/* get zone field */
115	<	fptr = idf_getfield(param, surf_type[i].zone_fld);
116	<	if (fptr == NULL)
117	<	return(0);
118	<	/* check for match */
119	<	if (strcmp(fptr->arg, zname))
106	<	return(0);
113	>	return(NULL);
114	>
115	>	if (zname != NULL) { /* matches specified zone? */
116	>	fptr = idf_getfield(param, surf_type[i].zone_fld);
117	>	if (fptr == NULL \|\| strcmp(fptr->val, zname))
118	>	return(NULL);
119	>	}
120		/* return field for #verts */
121	<	return(surf_type[i].vert_fld);
121	>	return(idf_getfield(param, surf_type[i].vert_fld));
122		}
123
124		/* Convert surface to Radiance with modifier based on unique name */
125		static int
126	<	rad_surface(const char zname, IDF_PARAMETER param, FILE *ofp)
126	>	rad_surface(IDF_OBJECT param, FILE ofp)
127		{
128	<	const char *sname = idf_getfield(param, NAME_FLD)->arg;
129	<	IDF_FIELD *fptr = idf_getfield(param, in_zone(param, zname));
128	>	const char *sname = idf_getfield(param,NAME_FLD)->val;
129	>	IDF_FIELD *fptr = get_vlist(param, NULL);
130		int nvert, i;
131
132	<	if (fptr == NULL \|\| (nvert = atoi(fptr->arg)) < 3) {
132	>	if (fptr == NULL \|\| (nvert = atoi(fptr->val)) < 3) {
133		fprintf(stderr, "%s: bad surface '%s'\n", progname, sname);
134		return(0);
135		}
#	Line 125 \| Line 138 \| *rad_surface(const char zname, IDF_PARAMETER param, F*
138		while (nvert--) {
139		for (i = 3; i--; ) {
140		fptr = fptr->next;
141	<	if (fptr == NULL) {
141	>	if (fptr == NULL \|\| !isflt(fptr->val)) {
142		fprintf(stderr,
143	<	"%s: missing vertex fields in surface '%s'\n",
144	<	progname, sname);
143	>	"%s: missing/bad vertex for %s '%s'\n",
144	>	progname, param->pname, sname);
145		return(0);
146		}
147		fputc('\t', ofp);
148	<	fputs(fptr->arg, ofp);
148	>	fputs(fptr->val, ofp);
149		}
150		fputc('\n', ofp);
151		}
152		return(!ferror(ofp));
153		}
154
155	<	/* Strat rcontrib process */
155	>	/* Start rcontrib process */
156		static int
157		start_rcontrib(SUBPROC pd, ZONE zp)
158		{
159	<	#define BASE_AC 3
159	>	#define BASE_AC 5
160		static char *base_av[BASE_AC] = {
161	<	"rcontrib", "-ff", "-h"
161	>	"rcontrib", "-fff", "-h", "-x", "1"
162		};
163		char cbuf[300];
164		char **av;
165		FILE *ofp;
166	<	IDF_PARAMETER *pptr;
166	>	IDF_OBJECT *pptr;
167		int i, n;
168		/* start oconv command */
169		sprintf(cbuf, "oconv - > '%s'", temp_octree);
#	Line 165 \| Line 178 \| *start_rcontrib(SUBPROC pd, ZONE zp)*
178		return(0);
179		for (i = 0; i < BASE_AC; i++)
180		av[i] = base_av[i];
181	<	sprintf(cbuf, "%d", NSAMPLES);
181	>	sprintf(cbuf, "%d", nsamps);
182		av[i++] = "-c";
183		av[i++] = cbuf; /* add modifier arguments */
184		for (n = zp->nsurf, pptr = zp->pfirst; n--; pptr = pptr->dnext) {
185	<	IDF_FIELD *fptr = idf_getfield(pptr, NAME_FLD);
186	<	if (fptr == NULL) {
185	>	IDF_FIELD *fptr = idf_getfield(pptr,NAME_FLD);
186	>	if (fptr == NULL \|\| !fptr->val[0]) {
187		fputs(progname, stderr);
188	<	fputs(": missing name for surface parameter\n", stderr);
188	>	fputs(": missing name for surface object\n", stderr);
189		return(0);
190		}
191	<	av[i++] = "-m";
179	<	av[i++] = fptr->arg;
180	<	if (!rad_surface(zp->zname, pptr, ofp))
191	>	if (!rad_surface(pptr, ofp)) /* add surface to octree */
192		return(0);
193	+	av[i++] = "-m";
194	+	av[i++] = fptr->val;
195		}
196		if (pclose(ofp) != 0) { /* finish oconv */
197		fputs(progname, stderr);
#	Line 187 \| Line 200 \| *start_rcontrib(SUBPROC pd, ZONE zp)*
200		}
201		av[i++] = temp_octree; /* add final octree argument */
202		av[i] = NULL;
203	<	if (!open_process(pd, av)) { /* start process */
203	>	if (open_process(pd, av) <= 0) { /* start process */
204		fputs(progname, stderr);
205		fputs(": cannot start rcontrib process\n", stderr);
206		return(0);
#	Line 197 \| Line 210 \| *start_rcontrib(SUBPROC pd, ZONE zp)*
210		#undef BASE_AC
211		}
212
213	+	/* Initialize polygon sampling */
214	+	static Vert2_list *
215	+	init_poly(POLYSAMP ps, IDF_FIELD f0, int nv)
216	+	{
217	+	IDF_FIELD *fptr = f0;
218	+	int i, j;
219	+	FVECT *vl3, e1, e2, vc;
220	+	Vert2_list *vl2 = polyAlloc(nv);
221	+
222	+	if (vl2 == NULL)
223	+	return(NULL);
224	+	vl2->p = ps;
225	+	/* get 3-D vertices */
226	+	vl3 = (FVECT )malloc(sizeof(FVECT)nv);
227	+	if (vl3 == NULL)
228	+	return(NULL);
229	+	for (i = nv; i--; ) /* reverse vertex ordering */
230	+	for (j = 0; j < 3; j++) {
231	+	if (fptr == NULL) {
232	+	fputs(progname, stderr);
233	+	fputs(": missing vertex in init_poly()\n", stderr);
234	+	return(NULL);
235	+	}
236	+	vl3[i][j] = atof(fptr->val);
237	+	fptr = fptr->next;
238	+	}
239	+	/* compute area and normal */
240	+	ps->sdir[2][0] = ps->sdir[2][1] = ps->sdir[2][2] = 0;
241	+	VSUB(e1, vl3[1], vl3[0]);
242	+	for (i = 2; i < nv; i++) {
243	+	VSUB(e2, vl3[i], vl3[0]);
244	+	fcross(vc, e1, e2);
245	+	ps->sdir[2][0] += vc[0];
246	+	ps->sdir[2][1] += vc[1];
247	+	ps->sdir[2][2] += vc[2];
248	+	VCOPY(e1, e2);
249	+	}
250	+	ps->area_left = .5 * normalize(ps->sdir[2]);
251	+	if (ps->area_left == .0) {
252	+	fputs(progname, stderr);
253	+	fputs(": degenerate polygon in init_poly()\n", stderr);
254	+	return(0);
255	+	}
256	+	/* create X & Y axes */
257	+	VCOPY(ps->sdir[0], e1);
258	+	normalize(ps->sdir[0]);
259	+	fcross(ps->sdir[1], ps->sdir[2], ps->sdir[0]);
260	+	/* compute plane offset */
261	+	ps->poff = DOT(vl3[0], ps->sdir[2]);
262	+	/* assign 2-D vertices */
263	+	for (i = 0; i < nv; i++) {
264	+	vl2->v[i].mX = DOT(vl3[i], ps->sdir[0]);
265	+	vl2->v[i].mY = DOT(vl3[i], ps->sdir[1]);
266	+	}
267	+	free(vl3); /* it's ready! */
268	+	return(vl2);
269	+	}
270	+
271	+	/* Generate samples on 2-D triangle */
272	+	static int
273	+	sample_triangle(const Vert2_list *vl2, int a, int b, int c)
274	+	{
275	+	POLYSAMP ps = (POLYSAMP )vl2->p;
276	+	float *samp;
277	+	FVECT orig;
278	+	FVECT ab, ac;
279	+	double area;
280	+	int i, j, ns;
281	+	/* compute sampling axes */
282	+	for (i = 3; i--; ) {
283	+	orig[i] = vl2->v[a].mX*ps->sdir[0][i] +
284	+	vl2->v[a].mY*ps->sdir[1][i] +
285	+	(ps->poff+.001)*ps->sdir[2][i];
286	+	ab[i] = (vl2->v[b].mX - vl2->v[a].mX)*ps->sdir[0][i] +
287	+	(vl2->v[b].mY - vl2->v[a].mY)*ps->sdir[1][i];
288	+	ac[i] = (vl2->v[c].mX - vl2->v[a].mX)*ps->sdir[0][i] +
289	+	(vl2->v[c].mY - vl2->v[a].mY)*ps->sdir[1][i];
290	+	}
291	+	/* compute number of samples to take */
292	+	area = .5(vl2->v[a].mXvl2->v[b].mY - vl2->v[b].mX*vl2->v[a].mY +
293	+	vl2->v[b].mXvl2->v[c].mY - vl2->v[c].mXvl2->v[b].mY +
294	+	vl2->v[c].mXvl2->v[a].mY - vl2->v[a].mXvl2->v[c].mY);
295	+	if (area < .0) {
296	+	fputs(progname, stderr);
297	+	fputs(": negative triangle area in sample_triangle()\n", stderr);
298	+	return(0);
299	+	}
300	+	if (area >= ps->area_left) {
301	+	ns = ps->samp_left;
302	+	ps->area_left = 0;
303	+	} else {
304	+	ns = (ps->samp_left*area/ps->area_left + .5);
305	+	ps->samp_left -= ns;
306	+	ps->area_left -= area;
307	+	}
308	+	if (ns <= 0) /* XXX should be error? */
309	+	return(1);
310	+	/* buffer sample rays */
311	+	samp = (float )malloc(sizeof(float)6*ns);
312	+	if (samp == NULL)
313	+	return(0);
314	+	for (i = ns; i--; ) { /* stratified Monte Carlo sampling */
315	+	double sv[4];
316	+	FVECT dv;
317	+	multisamp(sv, 4, (i+frandom())/(double)ns);
318	+	sv[0] *= sv[1] = sqrt(sv[1]);
319	+	sv[1] = 1. - sv[1];
320	+	for (j = 3; j--; )
321	+	samp[i6 + j] = orig[j] + sv[0]ab[j] + sv[1]*ac[j];
322	+	sv[2] = sqrt(sv[2]);
323	+	sv[3] = 2.PI;
324	+	dv[0] = tcos(sv[3]) * sv[2];
325	+	dv[1] = tsin(sv[3]) * sv[2];
326	+	dv[2] = sqrt(1. - sv[2]*sv[2]);
327	+	for (j = 3; j--; )
328	+	samp[i6 + 3 + j] = dv[0]ps->sdir[0][j] +
329	+	dv[1]*ps->sdir[1][j] +
330	+	dv[2]*ps->sdir[2][j] ;
331	+	}
332	+	/* send to our process */
333	+	writebuf(ps->wd, (char )samp, sizeof(float)6*ns);
334	+	free(samp); /* that's it! */
335	+	return(1);
336	+	}
337	+
338	+	/* Sample the given surface */
339	+	static int
340	+	sample_surface(IDF_OBJECT *param, int wd)
341	+	{
342	+	IDF_FIELD *fptr = get_vlist(param, NULL);
343	+	POLYSAMP psamp;
344	+	int nv;
345	+	Vert2_list *vlist2;
346	+	/* set up our polygon sampler */
347	+	if (fptr == NULL \|\| (nv = atoi(fptr->val)) < 3 \|\|
348	+	(vlist2 = init_poly(&psamp, fptr->next, nv)) == NULL) {
349	+	fprintf(stderr, "%s: bad polygon %s '%s'\n",
350	+	progname, param->pname,
351	+	idf_getfield(param,NAME_FLD)->val);
352	+	return(0);
353	+	}
354	+	psamp.samp_left = nsamps; /* assign samples & destination */
355	+	psamp.wd = wd;
356	+	/* sample each subtriangle */
357	+	if (!polyTriangulate(vlist2, &sample_triangle))
358	+	return(0);
359	+	polyFree(vlist2); /* clean up and return */
360	+	return(1);
361	+	}
362	+
363		/* Compute User View Factors using open rcontrib process */
364		static int
365	<	compute_uvfs(SUBPROC pd, ZONE sp)
365	>	compute_uvfs(SUBPROC pd, ZONE zp)
366		{
367	<
367	>	IDF_OBJECT pptr, pout, *pptr1;
368	>	float *uvfa;
369	>	char uvfbuf[24];
370	>	int n, m;
371	>	/* create output object */
372	>	pout = idf_newobject(our_idf, UVF_PNAME,
373	>	" ! computed by Radiance\n ", zp->plast);
374	>	if (pout == NULL) {
375	>	fputs(progname, stderr);
376	>	fputs(": cannot create new IDF object\n", stderr);
377	>	return(0);
378	>	}
379	>	if (!idf_addfield(pout, zp->zname,
380	>	" !- Zone Name\n ")) {
381	>	fputs(progname, stderr);
382	>	fputs(": cannot add zone name field\n", stderr);
383	>	return(0);
384	>	}
385	>	/* allocate read buffer */
386	>	uvfa = (float )malloc(sizeof(float)3*zp->nsurf);
387	>	if (uvfa == NULL)
388	>	return(0);
389	>	/* UVFs from each surface */
390	>	for (n = zp->nsurf, pptr = zp->pfirst; n--; pptr = pptr->dnext) {
391	>	double vfsum = 0;
392	>	/* send samples to rcontrib */
393	>	if (!sample_surface(pptr, pd->w))
394	>	return(0);
395	>	/* read results */
396	>	if (readbuf(pd->r, (char )uvfa, sizeof(float)3*zp->nsurf) !=
397	>	sizeof(float)3zp->nsurf) {
398	>	fputs(progname, stderr);
399	>	fputs(": read error from rcontrib process\n", stderr);
400	>	return(0);
401	>	}
402	>	/* append UVF fields */
403	>	for (m = 0, pptr1 = zp->pfirst;
404	>	m < zp->nsurf; m++, pptr1 = pptr1->dnext) {
405	>	vfsum += uvfa[3*m + 1];
406	>	if (pptr1 == pptr) {
407	>	if (uvfa[3*m + 1] > .001)
408	>	fprintf(stderr,
409	>	"%s: warning - non-zero self-VF (%.1f%%) for surface '%s'\n",
410	>	progname, 100.uvfa[3m + 1],
411	>	idf_getfield(pptr,NAME_FLD)->val);
412	>	continue; /* don't record self-factor */
413	>	}
414	>	sprintf(uvfbuf, "%.4f", uvfa[3*m + 1]);
415	>	if (!idf_addfield(pout,
416	>	idf_getfield(pptr,NAME_FLD)->val, NULL) \|\|
417	>	!idf_addfield(pout,
418	>	idf_getfield(pptr1,NAME_FLD)->val, NULL) \|\|
419	>	!idf_addfield(pout, uvfbuf,
420	>	(n \|\| m < zp->nsurf-2) ?
421	>	"\n " : "\n\n")) {
422	>	fputs(progname, stderr);
423	>	fputs(": error adding UVF fields\n", stderr);
424	>	return(0);
425	>	}
426	>	}
427	>	if (vfsum < 0.95)
428	>	fprintf(stderr,
429	>	"%s: warning - missing %.1f%% of energy from surface '%s'\n",
430	>	progname, 100.*(1.-vfsum),
431	>	idf_getfield(pptr,NAME_FLD)->val);
432	>	}
433	>	free(uvfa); /* clean up and return */
434	>	return(1);
435		}
436
437		/* Compute zone User View Factors */
#	Line 210 \| Line 440 \| compute_zones(void)
440		{
441		ZONE *zptr;
442		/* temporary octree name */
443	<	if (temp_filename(temp_octree, sizeof(temp_octree), TEMPLATE) == NULL) {
214	<	fputs(progname, stderr);
215	<	fputs(": cannot create temporary octree\n", stderr);
216	<	return(0);
217	<	}
443	>	mktemp(strcpy(temp_octree, TEMPLATE));
444		/* compute each zone */
445		for (zptr = zone_list; zptr != NULL; zptr = zptr->next) {
446		SUBPROC rcproc;
#	Line 240 \| Line 466 \| *main(int argc, char argv[])**
466		{
467		int incl_comments = 1;
468		char origIDF, revIDF;
469	<	IDF_PARAMETER *pptr;
469	>	IDF_OBJECT *pptr;
470		int i;
471
472	<	progname = argv[0];
473	<	if (argc > 2 && !strcmp(argv[1], "-c")) {
474	<	incl_comments = -1; /* output header only */
475	<	++argv; --argc;
476	<	}
477	<	if ((argc < 2) \| (argc > 3)) {
478	<	fputs("Usage: ", stderr);
479	<	fputs(progname, stderr);
480	<	fputs(" [-c] Model.idf [Revised.idf]\n", stderr);
481	<	return(1);
482	<	}
483	<	origIDF = argv[1];
484	<	revIDF = (argc == 2) ? argv[1] : argv[2];
472	>	progname = argv++; argc--; / get options if any */
473	>	while (argc > 1 && argv[0][0] == '-')
474	>	switch (argv[0][1]) {
475	>	case 'c': /* elide comments */
476	>	incl_comments = -1; /* header only */
477	>	argv++; argc--;
478	>	continue;
479	>	case 's': /* samples */
480	>	nsamps = 1000atoi(++argv);
481	>	argv++; argc -= 2;
482	>	continue;
483	>	default:
484	>	fputs(progname, stderr);
485	>	fputs(": unknown option '", stderr);
486	>	fputs(argv[0], stderr);
487	>	fputs("'\n", stderr);
488	>	goto userr;
489	>	}
490	>	if ((argc < 1) \| (argc > 2))
491	>	goto userr;
492	>	origIDF = argv[0];
493	>	revIDF = (argc == 1) ? argv[0] : argv[1];
494		/* load Input Data File */
495		our_idf = idf_load(origIDF);
496		if (our_idf == NULL) {
#	Line 266 \| Line 501 \| *main(int argc, char argv[])**
501		return(1);
502		}
503		/* remove existing UVFs */
504	<	if ((pptr = idf_getparam(our_idf, UVF_PNAME)) != NULL) {
505	<	IDF_PARAMETER *pnext;
504	>	if ((pptr = idf_getobject(our_idf, UVF_PNAME)) != NULL) {
505	>	IDF_OBJECT *pnext;
506		fputs(progname, stderr);
507		fputs(": removing previous User View Factors\n", stderr);
508		do {
509		pnext = pptr->pnext;
510	<	idf_delparam(our_idf, pptr);
510	>	idf_delobject(our_idf, pptr);
511		} while (pnext != NULL);
512		}
513		/* add to header */
#	Line 282 \| Line 517 \| *main(int argc, char argv[])**
517		idf_add2hdr(our_idf, ADD_HEADER);
518		/* gather zone surfaces */
519		for (i = 0; surf_type[i].pname != NULL; i++)
520	<	for (pptr = idf_getparam(our_idf, surf_type[i].pname);
520	>	for (pptr = idf_getobject(our_idf, surf_type[i].pname);
521		pptr != NULL; pptr = pptr->pnext) {
522		IDF_FIELD *fptr = idf_getfield(pptr,
523		surf_type[i].zone_fld);
#	Line 291 \| Line 526 \| *main(int argc, char argv[])**
526		fputs(": warning - missing zone field\n", stderr);
527		continue;
528		}
529	<	if (add2zone(pptr, fptr->arg) == NULL)
529	>	if (add2zone(pptr, fptr->val) == NULL)
530		return(1);
531		}
532		/* run rcontrib on each zone */
#	Line 306 \| Line 541 \| *main(int argc, char argv[])**
541		return(1);
542		}
543		return(0); /* finito! */
544	+	userr:
545	+	fputs("Usage: ", stderr);
546	+	fputs(progname, stderr);
547	+	fputs(" [-c][-s Ksamps] Model.idf [Revised.idf]\n", stderr);
548	+	return(1);
549		}

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Comparing ray/src/util/eplus_adduvf.c (file contents): Revision 2.2 by greg, Sun Feb 9 22:19:30 2014 UTC vs. Revision 2.10 by greg, Thu Feb 13 17:33:37 2014 UTC

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Comparing ray/src/util/eplus_adduvf.c (file contents):
Revision 2.2 by greg, Sun Feb 9 22:19:30 2014 UTC vs.
Revision 2.10 by greg, Thu Feb 13 17:33:37 2014 UTC