[ViewVC] Diff of: radiance/ray/src/common/readoct.c

Comparing ray/src/common/readoct.c (file contents):
Revision 1.5 by greg, Sun Apr 23 19:38:51 1989 UTC vs.
Revision 2.27 by greg, Wed Dec 15 22:02:04 2004 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1986 Regents of the University of California */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ LBL";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5		* readoct.c - routines to read octree information.
9	–	*
10	–	* 7/30/85
6		*/
7
8	<	#include "standard.h"
8	>	#include "copyright.h"
9
10	<	#include "octree.h"
10	>	#include <stdio.h>
11	>	#include <time.h>
12
13	+	#include "platform.h"
14	+	#include "rtprocess.h"
15	+	#include "standard.h"
16	+	#include "octree.h"
17		#include "object.h"
18	–
18		#include "otypes.h"
19	+	#include "resolu.h"
20
21	<	double atof();
22	<	double getflt();
23	<	long getint();
24	<	char *getstr();
25	<	OCTREE getfullnode(), gettree();
21	>	#ifdef getc_unlocked /* avoid horrendous overhead of flockfile */
22	>	#undef getc
23	>	#define getc getc_unlocked
24	>	#endif
25
26	<	static char infn; / input file name */
26	>	static double ogetflt(void);
27	>	static long ogetint(int);
28	>	static char ogetstr(char );
29	>	static int nonsurfintree(OCTREE ot);
30	>	static void octerror(int etyp, char *msg);
31	>	static void skiptree(void);
32	>	static OCTREE getfullnode(void), gettree(void);
33	>
34	>	static char infn; / input file specification */
35		static FILE infp; / input file stream */
36	+	static int objsize; /* size of stored OBJECT's */
37		static OBJECT objorig; /* zeroeth object */
38	<	static short otypmap[NUMOTYPE+8]; /* object type map */
38	>	static OBJECT fnobjects; /* number of objects in this file */
39
40
41		int
42	<	readoct(fname, load, scene, ofn) /* read in octree from file */
43	<	char *fname;
44	<	int load;
45	<	CUBE *scene;
46	<	char *ofn[];
42	>	readoct( /* read in octree file or stream */
43	>	char *inpspec,
44	>	int load,
45	>	CUBE *scene,
46	>	char *ofn[]
47	>	)
48		{
49	<	char sbuf[128];
49	>	char sbuf[512];
50		int nf;
51	<	register int i;
51	>	int i;
52	>	long m;
53
54	<	if (fname == NULL) {
54	>	if (inpspec == NULL) {
55		infn = "standard input";
56		infp = stdin;
57	+	} else if (inpspec[0] == '!') {
58	+	infn = inpspec;
59	+	if ((infp = popen(inpspec+1, "r")) == NULL) {
60	+	sprintf(errmsg, "cannot execute \"%s\"", inpspec);
61	+	error(SYSTEM, errmsg);
62	+	}
63		} else {
64	<	infn = fname;
65	<	if ((infp = fopen(fname, "r")) == NULL) {
64	>	infn = inpspec;
65	>	if ((infp = fopen(inpspec, "r")) == NULL) {
66		sprintf(errmsg, "cannot open octree file \"%s\"",
67	<	fname);
67	>	inpspec);
68		error(SYSTEM, errmsg);
69		}
70		}
71	+	SET_FILE_BINARY(infp);
72		/* get header */
73	<	if (load & IO_INFO)
74	<	copyheader(infp, stdout);
58	<	else
59	<	getheader(infp, NULL);
73	>	if (checkheader(infp, OCTFMT, load&IO_INFO ? stdout : (FILE *)NULL) < 0)
74	>	octerror(USER, "not an octree");
75		/* check format */
76	<	if (getint(2) != OCTMAGIC)
77	<	octerror(USER, "invalid octree format");
76	>	if ((objsize = ogetint(2)-OCTMAGIC) <= 0 \|\|
77	>	objsize > MAXOBJSIZ \|\| objsize > sizeof(long))
78	>	octerror(USER, "incompatible octree format");
79		/* get boundaries */
80		if (load & IO_BOUNDS) {
81		for (i = 0; i < 3; i++)
82	<	scene->cuorg[i] = atof(getstr(sbuf));
83	<	scene->cusize = atof(getstr(sbuf));
82	>	scene->cuorg[i] = atof(ogetstr(sbuf));
83	>	scene->cusize = atof(ogetstr(sbuf));
84		} else {
85		for (i = 0; i < 4; i++)
86	<	getstr(sbuf);
86	>	ogetstr(sbuf);
87		}
88		objorig = nobjects; /* set object offset */
89		nf = 0; /* get object files */
90	<	while (*getstr(sbuf)) {
90	>	while (*ogetstr(sbuf)) {
91		if (load & IO_SCENE)
92		readobj(sbuf);
93		if (load & IO_FILES)
#	Line 80 \| Line 96 \| *char ofn[];**
96		}
97		if (load & IO_FILES)
98		ofn[nf] = NULL;
99	+	/* get number of objects */
100	+	fnobjects = m = ogetint(objsize);
101	+	if (fnobjects != m)
102	+	octerror(USER, "too many objects");
103
104	<	if (load & IO_TREE) {
85	<	/* get the octree */
104	>	if (load & IO_TREE) /* get the octree */
105		scene->cutree = gettree();
106	<	/* get the scene */
107	<	if (nf == 0 && load & IO_SCENE) {
108	<	for (i = 0; *getstr(sbuf); i++)
109	<	if ((otypmap[i] = otype(sbuf)) < 0) {
110	<	sprintf(errmsg, "unknown type \"%s\"",
111	<	sbuf);
112	<	octerror(WARNING, errmsg);
113	<	}
114	<	while (getobj() != OVOID)
115	<	;
116	<	}
106	>	else if (load & IO_SCENE && nf == 0)
107	>	skiptree();
108	>
109	>	if (load & IO_SCENE) { /* get the scene */
110	>	if (nf == 0) {
111	>	/* load binary scene data */
112	>	readscene(infp, objsize);
113	>
114	>	} else { /* consistency checks */
115	>	/* check object count */
116	>	if (nobjects != objorig+fnobjects)
117	>	octerror(USER, "bad object count; octree stale?");
118	>	/* check for non-surfaces */
119	>	if (nonsurfintree(scene->cutree))
120	>	octerror(USER, "modifier in tree; octree stale?");
121	>	}
122		}
123	<	fclose(infp);
123	>	/* close the input */
124	>	if (infn[0] == '!')
125	>	pclose(infp);
126	>	else
127	>	fclose(infp);
128		return(nf);
129		}
130
131
132		static char *
133	<	getstr(s) /* get null-terminated string */
106	<	char *s;
133	>	ogetstr(char s) / get null-terminated string */
134		{
135	<	register char *cp;
109	<	register int c;
135	>	extern char *getstr();
136
137	<	cp = s;
138	<	while ((c = getc(infp)) != EOF)
139	<	if ((*cp++ = c) == '\0')
114	<	return(s);
115	<
116	<	octerror(USER, "truncated octree");
137	>	if (getstr(s, infp) == NULL)
138	>	octerror(USER, "truncated octree");
139	>	return(s);
140		}
141
142
143		static OCTREE
144		getfullnode() /* get a set, return fullnode */
145		{
146	<	OBJECT set[MAXSET+1];
146	>	OBJECT set[MAXSET+1];
147		register int i;
148	+	register long m;
149
150	<	set[0] = getint(sizeof(OBJECT));
127	<	if (set[0] > MAXSET)
150	>	if ((set[0] = ogetint(objsize)) > MAXSET)
151		octerror(USER, "bad set in getfullnode");
152	<	for (i = 1; i <= set[0]; i++)
153	<	set[i] = getint(sizeof(OBJECT)) + objorig;
152	>	for (i = 1; i <= set[0]; i++) {
153	>	m = ogetint(objsize) + objorig;
154	>	if ((set[i] = m) != m)
155	>	octerror(USER, "too many objects");
156	>	}
157		return(fullnode(set));
158		}
159
160
161		static long
162	<	getint(siz) /* get a siz-byte integer */
137	<	register int siz;
162	>	ogetint(int siz) /* get a siz-byte integer */
163		{
164	<	register int c;
164	>	extern long getint();
165		register long r;
166
167	<	c = getc(infp);
168	<	r = c&0x80 ? -1L : 0L; /* sign extend */
169	<	ungetc(c, infp);
145	<	while (siz--) {
146	<	if ((c = getc(infp)) == EOF)
147	<	octerror(USER, "truncated octree");
148	<	r <<= 8;
149	<	r \|= c;
150	<	}
167	>	r = getint(siz, infp);
168	>	if (feof(infp))
169	>	octerror(USER, "truncated octree");
170		return(r);
171		}
172
173
174		static double
175	<	getflt() /* get a floating point number */
175	>	ogetflt() /* get a floating point number */
176		{
177	<	extern double ldexp();
178	<	double d;
177	>	extern double getflt();
178	>	double r;
179
180	<	d = (double)getint(4)/0x7fffffff;
181	<	return(ldexp(d, getint(1)));
180	>	r = getflt(infp);
181	>	if (feof(infp))
182	>	octerror(USER, "truncated octree");
183	>	return(r);
184		}
185
186
187		static OCTREE
188		gettree() /* get a pre-ordered octree */
189		{
190	<	register OCTREE ot;
190	>	register OCTREE ot;
191		register int i;
192
193		switch (getc(infp)) {
#	Line 185 \| Line 206 \| *gettree() / get a pre-ordered octree /*
206		default:
207		octerror(USER, "damaged octree");
208		}
209	+	return EMPTY; /* pro forma return */
210		}
211
212
213	<	static
214	<	getobj() /* get next object */
213	>	static int
214	>	nonsurfintree(OCTREE ot) /* check tree for modifiers */
215		{
216	<	char sbuf[MAXSTR];
195	<	int obj;
216	>	OBJECT set[MAXSET+1];
217		register int i;
197	–	register OBJREC *objp;
218
219	<	i = getint(1);
220	<	if (i == -1)
221	<	return(OVOID); /* terminator */
222	<	if ((obj = newobject()) == OVOID)
223	<	error(SYSTEM, "out of object space");
224	<	objp = objptr(obj);
225	<	if ((objp->otype = otypmap[i]) < 0)
226	<	octerror(USER, "reference to unknown type");
227	<	if ((objp->omod = getint(sizeof(OBJECT))) != OVOID)
228	<	objp->omod += objorig;
229	<	objp->oname = savqstr(getstr(sbuf));
230	<	if (objp->oargs.nsargs = getint(2)) {
231	<	objp->oargs.sarg = (char **)bmalloc
212	<	(objp->oargs.nsargssizeof(char ));
213	<	if (objp->oargs.sarg == NULL)
214	<	goto memerr;
215	<	for (i = 0; i < objp->oargs.nsargs; i++)
216	<	objp->oargs.sarg[i] = savestr(getstr(sbuf));
217	<	} else
218	<	objp->oargs.sarg = NULL;
219	<	#ifdef IARGS
220	<	if (objp->oargs.niargs = getint(2)) {
221	<	objp->oargs.iarg = (long *)bmalloc
222	<	(objp->oargs.niargs*sizeof(long));
223	<	if (objp->oargs.iarg == NULL)
224	<	goto memerr;
225	<	for (i = 0; i < objp->oargs.niargs; i++)
226	<	objp->oargs.iarg[i] = getint(4);
227	<	} else
228	<	objp->oargs.iarg = NULL;
229	<	#endif
230	<	if (objp->oargs.nfargs = getint(2)) {
231	<	objp->oargs.farg = (double *)bmalloc
232	<	(objp->oargs.nfargs*sizeof(double));
233	<	if (objp->oargs.farg == NULL)
234	<	goto memerr;
235	<	for (i = 0; i < objp->oargs.nfargs; i++)
236	<	objp->oargs.farg[i] = getflt();
237	<	} else
238	<	objp->oargs.farg = NULL;
239	<	/* initialize */
240	<	objp->os = NULL;
241	<	objp->lastrno = -1;
242	<	/* insert */
243	<	insertobject(obj);
244	<	return(obj);
245	<	memerr:
246	<	error(SYSTEM, "out of memory in getobj");
219	>	if (isempty(ot))
220	>	return(0);
221	>	if (istree(ot)) {
222	>	for (i = 0; i < 8; i++)
223	>	if (nonsurfintree(octkid(ot, i)))
224	>	return(1);
225	>	return(0);
226	>	}
227	>	objset(set, ot);
228	>	for (i = set[0]; i-- > 0; )
229	>	if (ismodifier(objptr(set[i])->otype))
230	>	return(1);
231	>	return(0);
232		}
233
234
235	<	static
236	<	octerror(etyp, msg) /* octree error */
237	<	int etyp;
238	<	char *msg;
235	>	static void
236	>	skiptree(void) /* skip octree on input */
237	>	{
238	>	register int i;
239	>
240	>	switch (getc(infp)) {
241	>	case OT_EMPTY:
242	>	return;
243	>	case OT_FULL:
244	>	for (i = ogetint(objsize)*objsize; i-- > 0; )
245	>	if (getc(infp) == EOF)
246	>	octerror(USER, "truncated octree");
247	>	return;
248	>	case OT_TREE:
249	>	for (i = 0; i < 8; i++)
250	>	skiptree();
251	>	return;
252	>	case EOF:
253	>	octerror(USER, "truncated octree");
254	>	default:
255	>	octerror(USER, "damaged octree");
256	>	}
257	>	}
258	>
259	>
260	>	static void
261	>	octerror(int etyp, char msg) / octree error */
262		{
263		char msgbuf[128];
264

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Comparing ray/src/common/readoct.c (file contents): Revision 1.5 by greg, Sun Apr 23 19:38:51 1989 UTC vs. Revision 2.27 by greg, Wed Dec 15 22:02:04 2004 UTC

Diff Legend

Comparing ray/src/common/readoct.c (file contents):
Revision 1.5 by greg, Sun Apr 23 19:38:51 1989 UTC vs.
Revision 2.27 by greg, Wed Dec 15 22:02:04 2004 UTC