src/common/readoct.c

#ifndef lint
static const char       RCSid[] = "$Id: readoct.c,v 2.16 2003/06/05 19:29:34 schorsch Exp $";
#endif
/*
 *  readoct.c - routines to read octree information.
 */

#include "copyright.h"

#include  <stdio.h>
#ifdef _WIN32
 #define popen _popen
 #define pclose _pclose
#endif

#include  "standard.h"
#include  "octree.h"
#include  "object.h"
#include  "otypes.h"
#include  "resolu.h"

static double  ogetflt();
static long  ogetint();
static char  *ogetstr();
static int  nonsurfinset();
static void  octerror(int  etyp, char  *msg);
static void  skiptree(void);
static OCTREE  getfullnode(), gettree();

static char  *infn;                     /* input file specification */
static FILE  *infp;                     /* input file stream */
static int  objsize;                    /* size of stored OBJECT's */
static OBJECT  objorig;                 /* zeroeth object */
static OBJECT  fnobjects;               /* number of objects in this file */


int
readoct(inpspec, load, scene, ofn)      /* read in octree file or stream */
char  *inpspec;
int  load;
CUBE  *scene;
char  *ofn[];
{
        char  sbuf[512];
        int  nf;
        int  i;
        long  m;
        
        if (inpspec == NULL) {
                infn = "standard input";
                infp = stdin;
        } else if (inpspec[0] == '!') {
                infn = inpspec;
                if ((infp = popen(inpspec+1, "r")) == NULL) {
                        sprintf(errmsg, "cannot execute \"%s\"", inpspec);
                        error(SYSTEM, errmsg);
                }
        } else {
                infn = inpspec;
                if ((infp = fopen(inpspec, "r")) == NULL) {
                        sprintf(errmsg, "cannot open octree file \"%s\"",
                                        inpspec);
                        error(SYSTEM, errmsg);
                }
        }
        SET_FILE_BINARY(infp);
                                        /* get header */
        if (checkheader(infp, OCTFMT, load&IO_INFO ? stdout : (FILE *)NULL) < 0)
                octerror(USER, "not an octree");
                                        /* check format */
        if ((objsize = ogetint(2)-OCTMAGIC) <= 0 ||
                        objsize > MAXOBJSIZ || objsize > sizeof(long))
                octerror(USER, "incompatible octree format");
                                        /* get boundaries */
        if (load & IO_BOUNDS) {
                for (i = 0; i < 3; i++)
                        scene->cuorg[i] = atof(ogetstr(sbuf));
                scene->cusize = atof(ogetstr(sbuf));
        } else {
                for (i = 0; i < 4; i++)
                        ogetstr(sbuf);
        }
        objorig = nobjects;             /* set object offset */
        nf = 0;                         /* get object files */
        while (*ogetstr(sbuf)) {
                if (load & IO_SCENE)
                        readobj(sbuf);
                if (load & IO_FILES)
                        ofn[nf] = savqstr(sbuf);
                nf++;
        }
        if (load & IO_FILES)
                ofn[nf] = NULL;
                                        /* get number of objects */
        fnobjects = m = ogetint(objsize);
        if (fnobjects != m)
                octerror(USER, "too many objects");

        if (load & IO_TREE)             /* get the octree */
                scene->cutree = gettree();
        else if (load & IO_SCENE && nf == 0)
                skiptree();
                
        if (load & IO_SCENE)            /* get the scene */
            if (nf == 0) {
                                        /* load binary scene data */
                readscene(infp, objsize);

            } else {                    /* consistency checks */
                                /* check object count */
                if (nobjects != objorig+fnobjects)
                        octerror(USER, "bad object count; octree stale?");
                                /* check for non-surfaces */
                if (dosets(nonsurfinset))
                        octerror(USER, "modifier in tree; octree stale?");
            }
                                /* close the input */
        if (infn[0] == '!')
                pclose(infp);
        else
                fclose(infp);
        return(nf);
}


static char *
ogetstr(s)                      /* get null-terminated string */
char  *s;
{
        extern char  *getstr();

        if (getstr(s, infp) == NULL)
                octerror(USER, "truncated octree");
        return(s);
}


static OCTREE
getfullnode()                   /* get a set, return fullnode */
{
        OBJECT  set[MAXSET+1];
        register int  i;
        register long  m;

        if ((set[0] = ogetint(objsize)) > MAXSET)
                octerror(USER, "bad set in getfullnode");
        for (i = 1; i <= set[0]; i++) {
                m = ogetint(objsize) + objorig;
                if ((set[i] = m) != m)
                        octerror(USER, "too many objects");
        }
        return(fullnode(set));
}       


static long
ogetint(siz)                    /* get a siz-byte integer */
int  siz;
{
        extern long  getint();
        register long  r;

        r = getint(siz, infp);
        if (feof(infp))
                octerror(USER, "truncated octree");
        return(r);
}


static double
ogetflt()                       /* get a floating point number */
{
        extern double  getflt();
        double  r;

        r = getflt(infp);
        if (feof(infp))
                octerror(USER, "truncated octree");
        return(r);
}
        

static OCTREE
gettree()                       /* get a pre-ordered octree */
{
        register OCTREE  ot;
        register int  i;
        
        switch (getc(infp)) {
        case OT_EMPTY:
                return(EMPTY);
        case OT_FULL:
                return(getfullnode());
        case OT_TREE:
                if ((ot = octalloc()) == EMPTY)
                        octerror(SYSTEM, "out of tree space in gettree");
                for (i = 0; i < 8; i++)
                        octkid(ot, i) = gettree();
                return(ot);
        case EOF:
                octerror(USER, "truncated octree");
        default:
                octerror(USER, "damaged octree");
        }
        return NULL; /* pro forma return */
}


static int
nonsurfinset(os)                        /* check set for modifier */
register OBJECT  *os;
{
        register OBJECT  s;
        register int  i;

        for (i = *os; i-- > 0; )
                if ((s = *++os) >= objorig && s < objorig+fnobjects &&
                                ismodifier(objptr(s)->otype))
                        return(1);
        return(0);
}


static void
skiptree(void)                          /* skip octree on input */
{
        register int  i;
        
        switch (getc(infp)) {
        case OT_EMPTY:
                return;
        case OT_FULL:
                for (i = ogetint(objsize)*objsize; i-- > 0; )
                        if (getc(infp) == EOF)
                                octerror(USER, "truncated octree");
                return;
        case OT_TREE:
                for (i = 0; i < 8; i++)
                        skiptree();
                return;
        case EOF:
                octerror(USER, "truncated octree");
        default:
                octerror(USER, "damaged octree");
        }
}


static void
octerror(etyp, msg)                     /* octree error */
int  etyp;
char  *msg;
{
        char  msgbuf[128];

        sprintf(msgbuf, "(%s): %s", infn, msg);
        error(etyp, msgbuf);
}
Revision:	2.17
Committed:	Sat Jun 7 12:50:20 2003 UTC (20 years, 10 months ago) by schorsch
Content type:	text/plain
Branch:	MAIN
Changes since 2.16:	+14 -8 lines
Log Message:	Various small changes to reduce compile warnings/errors on Windows.
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: readoct.c,v 2.16 2003/06/05 19:29:34 schorsch Exp $";
3	#endif
4	/*
5	* readoct.c - routines to read octree information.
6	*/
7
8	#include "copyright.h"
9
10	#include <stdio.h>
11	#ifdef _WIN32
12	#define popen _popen
13	#define pclose _pclose
14	#endif
15
16	#include "standard.h"
17	#include "octree.h"
18	#include "object.h"
19	#include "otypes.h"
20	#include "resolu.h"
21
22	static double ogetflt();
23	static long ogetint();
24	static char *ogetstr();
25	static int nonsurfinset();
26	static void octerror(int etyp, char *msg);
27	static void skiptree(void);
28	static OCTREE getfullnode(), gettree();
29
30	static char infn; / input file specification */
31	static FILE infp; / input file stream */
32	static int objsize; /* size of stored OBJECT's */
33	static OBJECT objorig; /* zeroeth object */
34	static OBJECT fnobjects; /* number of objects in this file */
35
36
37	int
38	readoct(inpspec, load, scene, ofn) /* read in octree file or stream */
39	char *inpspec;
40	int load;
41	CUBE *scene;
42	char *ofn[];
43	{
44	char sbuf[512];
45	int nf;
46	int i;
47	long m;
48
49	if (inpspec == NULL) {
50	infn = "standard input";
51	infp = stdin;
52	} else if (inpspec[0] == '!') {
53	infn = inpspec;
54	if ((infp = popen(inpspec+1, "r")) == NULL) {
55	sprintf(errmsg, "cannot execute \"%s\"", inpspec);
56	error(SYSTEM, errmsg);
57	}
58	} else {
59	infn = inpspec;
60	if ((infp = fopen(inpspec, "r")) == NULL) {
61	sprintf(errmsg, "cannot open octree file \"%s\"",
62	inpspec);
63	error(SYSTEM, errmsg);
64	}
65	}
66	SET_FILE_BINARY(infp);
67	/* get header */
68	if (checkheader(infp, OCTFMT, load&IO_INFO ? stdout : (FILE *)NULL) < 0)
69	octerror(USER, "not an octree");
70	/* check format */
71	if ((objsize = ogetint(2)-OCTMAGIC) <= 0 \|\|
72	objsize > MAXOBJSIZ \|\| objsize > sizeof(long))
73	octerror(USER, "incompatible octree format");
74	/* get boundaries */
75	if (load & IO_BOUNDS) {
76	for (i = 0; i < 3; i++)
77	scene->cuorg[i] = atof(ogetstr(sbuf));
78	scene->cusize = atof(ogetstr(sbuf));
79	} else {
80	for (i = 0; i < 4; i++)
81	ogetstr(sbuf);
82	}
83	objorig = nobjects; /* set object offset */
84	nf = 0; /* get object files */
85	while (*ogetstr(sbuf)) {
86	if (load & IO_SCENE)
87	readobj(sbuf);
88	if (load & IO_FILES)
89	ofn[nf] = savqstr(sbuf);
90	nf++;
91	}
92	if (load & IO_FILES)
93	ofn[nf] = NULL;
94	/* get number of objects */
95	fnobjects = m = ogetint(objsize);
96	if (fnobjects != m)
97	octerror(USER, "too many objects");
98
99	if (load & IO_TREE) /* get the octree */
100	scene->cutree = gettree();
101	else if (load & IO_SCENE && nf == 0)
102	skiptree();
103
104	if (load & IO_SCENE) /* get the scene */
105	if (nf == 0) {
106	/* load binary scene data */
107	readscene(infp, objsize);
108
109	} else { /* consistency checks */
110	/* check object count */
111	if (nobjects != objorig+fnobjects)
112	octerror(USER, "bad object count; octree stale?");
113	/* check for non-surfaces */
114	if (dosets(nonsurfinset))
115	octerror(USER, "modifier in tree; octree stale?");
116	}
117	/* close the input */
118	if (infn[0] == '!')
119	pclose(infp);
120	else
121	fclose(infp);
122	return(nf);
123	}
124
125
126	static char *
127	ogetstr(s) /* get null-terminated string */
128	char *s;
129	{
130	extern char *getstr();
131
132	if (getstr(s, infp) == NULL)
133	octerror(USER, "truncated octree");
134	return(s);
135	}
136
137
138	static OCTREE
139	getfullnode() /* get a set, return fullnode */
140	{
141	OBJECT set[MAXSET+1];
142	register int i;
143	register long m;
144
145	if ((set[0] = ogetint(objsize)) > MAXSET)
146	octerror(USER, "bad set in getfullnode");
147	for (i = 1; i <= set[0]; i++) {
148	m = ogetint(objsize) + objorig;
149	if ((set[i] = m) != m)
150	octerror(USER, "too many objects");
151	}
152	return(fullnode(set));
153	}
154
155
156	static long
157	ogetint(siz) /* get a siz-byte integer */
158	int siz;
159	{
160	extern long getint();
161	register long r;
162
163	r = getint(siz, infp);
164	if (feof(infp))
165	octerror(USER, "truncated octree");
166	return(r);
167	}
168
169
170	static double
171	ogetflt() /* get a floating point number */
172	{
173	extern double getflt();
174	double r;
175
176	r = getflt(infp);
177	if (feof(infp))
178	octerror(USER, "truncated octree");
179	return(r);
180	}
181
182
183	static OCTREE
184	gettree() /* get a pre-ordered octree */
185	{
186	register OCTREE ot;
187	register int i;
188
189	switch (getc(infp)) {
190	case OT_EMPTY:
191	return(EMPTY);
192	case OT_FULL:
193	return(getfullnode());
194	case OT_TREE:
195	if ((ot = octalloc()) == EMPTY)
196	octerror(SYSTEM, "out of tree space in gettree");
197	for (i = 0; i < 8; i++)
198	octkid(ot, i) = gettree();
199	return(ot);
200	case EOF:
201	octerror(USER, "truncated octree");
202	default:
203	octerror(USER, "damaged octree");
204	}
205	return NULL; /* pro forma return */
206	}
207
208
209	static int
210	nonsurfinset(os) /* check set for modifier */
211	register OBJECT *os;
212	{
213	register OBJECT s;
214	register int i;
215
216	for (i = *os; i-- > 0; )
217	if ((s = *++os) >= objorig && s < objorig+fnobjects &&
218	ismodifier(objptr(s)->otype))
219	return(1);
220	return(0);
221	}
222
223
224	static void
225	skiptree(void) /* skip octree on input */
226	{
227	register int i;
228
229	switch (getc(infp)) {
230	case OT_EMPTY:
231	return;
232	case OT_FULL:
233	for (i = ogetint(objsize)*objsize; i-- > 0; )
234	if (getc(infp) == EOF)
235	octerror(USER, "truncated octree");
236	return;
237	case OT_TREE:
238	for (i = 0; i < 8; i++)
239	skiptree();
240	return;
241	case EOF:
242	octerror(USER, "truncated octree");
243	default:
244	octerror(USER, "damaged octree");
245	}
246	}
247
248
249	static void
250	octerror(etyp, msg) /* octree error */
251	int etyp;
252	char *msg;
253	{
254	char msgbuf[128];
255
256	sprintf(msgbuf, "(%s): %s", infn, msg);
257	error(etyp, msgbuf);
258	}