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root/radiance/ray/src/common/readmesh.c
Revision: 2.3
Committed: Thu Jun 5 19:29:34 2003 UTC (20 years, 10 months ago) by schorsch
Content type: text/plain
Branch: MAIN
Changes since 2.2: +2 -4 lines
Log Message: 
Macros for setting binary file mode. Replacing MSDOS by _WIN32.

File Contents

# Content
1 #ifndef lint
2 static const char RCSid[] = "$Id: readmesh.c,v 2.2 2003/03/14 21:27:46 greg Exp $";
3 #endif
4 /*
5 * Routines for reading a compiled mesh from a file
6 */
7
8 #include "standard.h"
9 #include "octree.h"
10 #include "object.h"
11 #include "mesh.h"
12
13 static char *meshfn; /* input file name */
14 static FILE *meshfp; /* mesh file pointer */
15 static int objsize; /* sizeof(OBJECT) from writer */
16
17
18 static void
19 mesherror(etyp, msg) /* mesh read error */
20 int etyp;
21 char *msg;
22 {
23 char msgbuf[128];
24
25 sprintf(msgbuf, "(%s): %s", meshfn, msg);
26 error(etyp, msgbuf);
27 }
28
29
30 static long
31 mgetint(siz) /* get a siz-byte integer */
32 int siz;
33 {
34 register long r;
35
36 r = getint(siz, meshfp);
37 if (feof(meshfp))
38 mesherror(USER, "truncated mesh file");
39 return(r);
40 }
41
42
43 static double
44 mgetflt() /* get a floating point number */
45 {
46 double r;
47
48 r = getflt(meshfp);
49 if (feof(meshfp))
50 mesherror(USER, "truncated mesh file");
51 return(r);
52 }
53
54
55 static OCTREE
56 getfullnode() /* get a set, return fullnode */
57 {
58 OBJECT set[MAXSET+1];
59 register int i;
60
61 if ((set[0] = mgetint(objsize)) > MAXSET)
62 mesherror(USER, "bad set in getfullnode");
63 for (i = 1; i <= set[0]; i++)
64 set[i] = mgetint(objsize);
65 return(fullnode(set));
66 }
67
68
69 static OCTREE
70 gettree() /* get a pre-ordered octree */
71 {
72 register OCTREE ot;
73 register int i;
74
75 switch (getc(meshfp)) {
76 case OT_EMPTY:
77 return(EMPTY);
78 case OT_FULL:
79 return(getfullnode());
80 case OT_TREE:
81 if ((ot = octalloc()) == EMPTY)
82 mesherror(SYSTEM, "out of tree space in readmesh");
83 for (i = 0; i < 8; i++)
84 octkid(ot, i) = gettree();
85 return(ot);
86 case EOF:
87 mesherror(USER, "truncated mesh octree");
88 default:
89 mesherror(USER, "damaged mesh octree");
90 }
91 }
92
93
94 static void
95 skiptree() /* skip octree on input */
96 {
97 register int i;
98
99 switch (getc(meshfp)) {
100 case OT_EMPTY:
101 return;
102 case OT_FULL:
103 for (i = mgetint(objsize)*objsize; i-- > 0; )
104 if (getc(meshfp) == EOF)
105 mesherror(USER, "truncated mesh octree");
106 return;
107 case OT_TREE:
108 for (i = 0; i < 8; i++)
109 skiptree();
110 return;
111 case EOF:
112 mesherror(USER, "truncated mesh octree");
113 default:
114 mesherror(USER, "damaged mesh octree");
115 }
116 }
117
118
119 static void
120 getpatch(pp) /* load a mesh patch */
121 register MESHPATCH *pp;
122 {
123 int flags;
124 int i, j;
125 /* vertex flags */
126 flags = mgetint(1);
127 if (!(flags & MT_V) || flags & ~(MT_V|MT_N|MT_UV))
128 mesherror(USER, "bad patch flags");
129 /* allocate vertices */
130 pp->nverts = mgetint(2);
131 if (pp->nverts <= 0 || pp->nverts > 256)
132 mesherror(USER, "bad number of patch vertices");
133 pp->xyz = (uint4 (*)[3])malloc(pp->nverts*3*sizeof(uint4));
134 if (pp->xyz == NULL)
135 goto nomem;
136 if (flags & MT_N) {
137 pp->norm = (int4 *)calloc(pp->nverts, sizeof(int4));
138 if (pp->norm == NULL)
139 goto nomem;
140 } else
141 pp->norm = NULL;
142 if (flags & MT_UV) {
143 pp->uv = (uint4 (*)[2])calloc(pp->nverts, 2*sizeof(uint4));
144 if (pp->uv == NULL)
145 goto nomem;
146 } else
147 pp->uv = NULL;
148 /* vertex xyz locations */
149 for (i = 0; i < pp->nverts; i++)
150 for (j = 0; j < 3; j++)
151 pp->xyz[i][j] = mgetint(4);
152 /* vertex normals */
153 if (flags & MT_N)
154 for (i = 0; i < pp->nverts; i++)
155 pp->norm[i] = mgetint(4);
156 /* uv coordinates */
157 if (flags & MT_UV)
158 for (i = 0; i < pp->nverts; i++)
159 for (j = 0; j < 2; j++)
160 pp->uv[i][j] = mgetint(4);
161 /* local triangles */
162 pp->ntris = mgetint(2);
163 if (pp->ntris < 0 || pp->ntris > 512)
164 mesherror(USER, "bad number of local triangles");
165 if (pp->ntris) {
166 pp->tri = (struct PTri *)malloc(pp->ntris *
167 sizeof(struct PTri));
168 if (pp->tri == NULL)
169 goto nomem;
170 for (i = 0; i < pp->ntris; i++) {
171 pp->tri[i].v1 = mgetint(1);
172 pp->tri[i].v2 = mgetint(1);
173 pp->tri[i].v3 = mgetint(1);
174 }
175 } else
176 pp->tri = NULL;
177 /* local triangle material(s) */
178 if (mgetint(2) > 1) {
179 pp->trimat = (int2 *)malloc(pp->ntris*sizeof(int2));
180 if (pp->trimat == NULL)
181 goto nomem;
182 for (i = 0; i < pp->ntris; i++)
183 pp->trimat[i] = mgetint(2);
184 } else {
185 pp->solemat = mgetint(2);
186 pp->trimat = NULL;
187 }
188 /* joiner triangles */
189 pp->nj1tris = mgetint(2);
190 if (pp->nj1tris < 0 || pp->nj1tris > 512)
191 mesherror(USER, "bad number of joiner triangles");
192 if (pp->nj1tris) {
193 pp->j1tri = (struct PJoin1 *)malloc(pp->nj1tris *
194 sizeof(struct PJoin1));
195 if (pp->j1tri == NULL)
196 goto nomem;
197 for (i = 0; i < pp->nj1tris; i++) {
198 pp->j1tri[i].v1j = mgetint(4);
199 pp->j1tri[i].v2 = mgetint(1);
200 pp->j1tri[i].v3 = mgetint(1);
201 pp->j1tri[i].mat = mgetint(2);
202 }
203 } else
204 pp->j1tri = NULL;
205 /* double joiner triangles */
206 pp->nj2tris = mgetint(2);
207 if (pp->nj2tris < 0 || pp->nj2tris > 256)
208 mesherror(USER, "bad number of double joiner triangles");
209 if (pp->nj2tris) {
210 pp->j2tri = (struct PJoin2 *)malloc(pp->nj2tris *
211 sizeof(struct PJoin2));
212 if (pp->j2tri == NULL)
213 goto nomem;
214 for (i = 0; i < pp->nj2tris; i++) {
215 pp->j2tri[i].v1j = mgetint(4);
216 pp->j2tri[i].v2j = mgetint(4);
217 pp->j2tri[i].v3 = mgetint(1);
218 pp->j2tri[i].mat = mgetint(2);
219 }
220 } else
221 pp->j2tri = NULL;
222 return;
223 nomem:
224 error(SYSTEM, "out of mesh memory in getpatch");
225 }
226
227
228 void
229 readmesh(mp, path, flags) /* read in mesh structures */
230 MESH *mp;
231 char *path;
232 int flags;
233 {
234 char *err;
235 char sbuf[64];
236 int i;
237 /* check what's loaded */
238 flags &= (IO_INFO|IO_BOUNDS|IO_TREE|IO_SCENE) & ~mp->ldflags;
239 /* open input file */
240 if (path == NULL) {
241 meshfn = "standard input";
242 meshfp = stdin;
243 } else if ((meshfp = fopen(meshfn=path, "r")) == NULL) {
244 sprintf(errmsg, "cannot open mesh file \"%s\"", path);
245 error(SYSTEM, errmsg);
246 }
247 SET_FILE_BINARY(meshfp);
248 /* read header */
249 checkheader(meshfp, MESHFMT, flags&IO_INFO ? stdout : (FILE *)NULL);
250 /* read format number */
251 objsize = getint(2, meshfp) - MESHMAGIC;
252 if (objsize <= 0 || objsize > MAXOBJSIZ || objsize > sizeof(long))
253 mesherror(USER, "incompatible mesh format");
254 /* read boundaries */
255 if (flags & IO_BOUNDS) {
256 for (i = 0; i < 3; i++)
257 mp->mcube.cuorg[i] = atof(getstr(sbuf, meshfp));
258 mp->mcube.cusize = atof(getstr(sbuf, meshfp));
259 for (i = 0; i < 2; i++) {
260 mp->uvlim[0][i] = mgetflt();
261 mp->uvlim[1][i] = mgetflt();
262 }
263 } else {
264 for (i = 0; i < 4; i++)
265 getstr(sbuf, meshfp);
266 for (i = 0; i < 4; i++)
267 mgetflt();
268 }
269 /* read the octree */
270 if (flags & IO_TREE)
271 mp->mcube.cutree = gettree();
272 else if (flags & IO_SCENE)
273 skiptree();
274 /* read materials and patches */
275 if (flags & IO_SCENE) {
276 mp->mat0 = nobjects;
277 readscene(meshfp, objsize);
278 mp->nmats = nobjects - mp->mat0;
279 mp->npatches = mgetint(4);
280 mp->patch = (MESHPATCH *)calloc(mp->npatches,
281 sizeof(MESHPATCH));
282 if (mp->patch == NULL)
283 mesherror(SYSTEM, "out of patch memory");
284 for (i = 0; i < mp->npatches; i++)
285 getpatch(&mp->patch[i]);
286 }
287 /* clean up */
288 fclose(meshfp);
289 mp->ldflags |= flags;
290 /* verify data */
291 if ((err = checkmesh(mp)) != NULL)
292 mesherror(USER, err);
293 }