src/ot/writemesh.c

#ifndef lint
static const char RCSid[] = "$Id$";
#endif
/*
 *  Routines for writing compiled mesh to a file stream
 */

#include  "standard.h"
#include  "octree.h"
#include  "object.h"
#include  "mesh.h"


static void
putfullnode(fn, fp)             /* write out a full node */
OCTREE  fn;
FILE    *fp;
{
        OBJECT  oset[MAXSET+1];
        register int  i;

        objset(oset, fn);
        for (i = 0; i <= oset[0]; i++)
                putint((long)oset[i], sizeof(OBJECT), fp);
}


static void
puttree(ot, fp)                 /* write octree to fp in pre-order form */
register OCTREE ot;
FILE            *fp;
{
        
        if (istree(ot)) {
                register int    i;
                putc(OT_TREE, fp);              /* indicate tree */
                for (i = 0; i < 8; i++)         /* write tree */
                        puttree(octkid(ot, i), fp);
                return;
        }
        if (isfull(ot)) {
                putc(OT_FULL, fp);              /* indicate fullnode */
                putfullnode(ot, fp);            /* write fullnode */
                return;
        }
        putc(OT_EMPTY, fp);                     /* indicate empty */
}


static void
putpatch(pp, fp)                        /* write out a mesh patch */
register MESHPATCH      *pp;
FILE                    *fp;
{
        int     flags = MT_V;
        int     i, j;
                                        /* vertex flags */
        if (pp->norm != NULL)
                flags |= MT_N;
        if (pp->uv != NULL)
                flags |= MT_UV;
        putint((long)flags, 1, fp);
                                        /* number of vertices */
        putint((long)pp->nverts, 2, fp);
                                        /* vertex xyz locations */
        for (i = 0; i < pp->nverts; i++)
                for (j = 0; j < 3; j++)
                        putint((long)pp->xyz[i][j], 4, fp);
                                        /* vertex normals */
        if (flags & MT_N)
                for (i = 0; i < pp->nverts; i++)
                        putint((long)pp->norm[i], 4, fp);
                                        /* uv coordinates */
        if (flags & MT_UV)
                for (i = 0; i < pp->nverts; i++)
                        for (j = 0; j < 2; j++)
                                putint((long)pp->uv[i][j], 4, fp);
                                        /* local triangles */
        putint((long)pp->ntris, 2, fp);
        for (i = 0; i < pp->ntris; i++) {
                putint((long)pp->tri[i].v1, 1, fp);
                putint((long)pp->tri[i].v2, 1, fp);
                putint((long)pp->tri[i].v3, 1, fp);
        }
                                        /* local triangle material(s) */
        if (pp->trimat == NULL) {
                putint(1L, 2, fp);
                putint((long)pp->solemat, 2, fp);
        } else {
                putint((long)pp->ntris, 2, fp);
                for (i = 0; i < pp->ntris; i++)
                        putint((long)pp->trimat[i], 2, fp);
        }
                                        /* joiner triangles */
        putint((long)pp->nj1tris, 2, fp);
        for (i = 0; i < pp->nj1tris; i++) {
                putint((long)pp->j1tri[i].v1j, 4, fp);
                putint((long)pp->j1tri[i].v2, 1, fp);
                putint((long)pp->j1tri[i].v3, 1, fp);
                putint((long)pp->j1tri[i].mat, 2, fp);
        }
                                        /* double joiner triangles */
        putint((long)pp->nj2tris, 2, fp);
        for (i = 0; i < pp->nj2tris; i++) {
                putint((long)pp->j2tri[i].v1j, 4, fp);
                putint((long)pp->j2tri[i].v2j, 4, fp);
                putint((long)pp->j2tri[i].v3, 1, fp);
                putint((long)pp->j2tri[i].mat, 2, fp);
        }
}


void
writemesh(mp, fp)                       /* write mesh structures to fp */
MESH    *mp;
FILE    *fp;
{
        char    *err;
        char    sbuf[64];
        int     i;
                                        /* do we have everything? */
        if ((mp->ldflags & (IO_SCENE|IO_TREE|IO_BOUNDS)) !=
                        (IO_SCENE|IO_TREE|IO_BOUNDS))
                error(INTERNAL, "missing data in writemesh");
                                        /* validate mesh data */
        if ((err = checkmesh(mp)) != NULL)
                error(USER, err);
                                        /* write format number */
        putint((long)(MESHMAGIC+sizeof(OBJECT)), 2, fp);
                                        /* write boundaries */
        for (i = 0; i < 3; i++) {
                sprintf(sbuf, "%.12g", mp->mcube.cuorg[i]);
                putstr(sbuf, fp);
        }
        sprintf(sbuf, "%.12g", mp->mcube.cusize);
        putstr(sbuf, fp);
        for (i = 0; i < 2; i++) {
                putflt(mp->uvlim[0][i], fp);
                putflt(mp->uvlim[1][i], fp);
        }
                                        /* write the octree */
        puttree(mp->mcube.cutree, fp);
                                        /* write the materials */
        writescene(mp->mat0, mp->nmats, fp);
                                        /* write the patches */
        putint((long)mp->npatches, 4, fp);
        for (i = 0; i < mp->npatches; i++)
                putpatch(&mp->patch[i], fp);
        if (ferror(fp))
                error(SYSTEM, "write error in writemesh");
}
Revision:	2.2
Committed:	Fri Mar 14 21:27:46 2003 UTC (22 years, 7 months ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad3R5
Changes since 2.1:	+18 -1 lines
Log Message:	Added -a option to obj2mesh to incorporate materials in mesh
#	User	Rev	Content
1	greg	2.1	#ifndef lint
2			static const char RCSid[] = "$Id$";
3			#endif
4			/*
5			* Routines for writing compiled mesh to a file stream
6			*/
7
8			#include "standard.h"
9			#include "octree.h"
10			#include "object.h"
11			#include "mesh.h"
12
13
14			static void
15			putfullnode(fn, fp) /* write out a full node */
16			OCTREE fn;
17			FILE *fp;
18			{
19			OBJECT oset[MAXSET+1];
20			register int i;
21
22			objset(oset, fn);
23			for (i = 0; i <= oset[0]; i++)
24			putint((long)oset[i], sizeof(OBJECT), fp);
25			}
26
27
28			static void
29			puttree(ot, fp) /* write octree to fp in pre-order form */
30			register OCTREE ot;
31			FILE *fp;
32			{
33
34			if (istree(ot)) {
35			register int i;
36			putc(OT_TREE, fp); /* indicate tree */
37			for (i = 0; i < 8; i++) /* write tree */
38			puttree(octkid(ot, i), fp);
39			return;
40			}
41			if (isfull(ot)) {
42			putc(OT_FULL, fp); /* indicate fullnode */
43			putfullnode(ot, fp); /* write fullnode */
44			return;
45			}
46			putc(OT_EMPTY, fp); /* indicate empty */
47			}
48
49
50			static void
51			putpatch(pp, fp) /* write out a mesh patch */
52			register MESHPATCH *pp;
53			FILE *fp;
54			{
55			int flags = MT_V;
56			int i, j;
57			/* vertex flags */
58			if (pp->norm != NULL)
59			flags \|= MT_N;
60			if (pp->uv != NULL)
61			flags \|= MT_UV;
62			putint((long)flags, 1, fp);
63			/* number of vertices */
64			putint((long)pp->nverts, 2, fp);
65			/* vertex xyz locations */
66			for (i = 0; i < pp->nverts; i++)
67			for (j = 0; j < 3; j++)
68			putint((long)pp->xyz[i][j], 4, fp);
69			/* vertex normals */
70			if (flags & MT_N)
71			for (i = 0; i < pp->nverts; i++)
72			putint((long)pp->norm[i], 4, fp);
73			/* uv coordinates */
74			if (flags & MT_UV)
75			for (i = 0; i < pp->nverts; i++)
76			for (j = 0; j < 2; j++)
77			putint((long)pp->uv[i][j], 4, fp);
78			/* local triangles */
79			putint((long)pp->ntris, 2, fp);
80			for (i = 0; i < pp->ntris; i++) {
81			putint((long)pp->tri[i].v1, 1, fp);
82			putint((long)pp->tri[i].v2, 1, fp);
83			putint((long)pp->tri[i].v3, 1, fp);
84			}
85	greg	2.2	/* local triangle material(s) */
86			if (pp->trimat == NULL) {
87			putint(1L, 2, fp);
88			putint((long)pp->solemat, 2, fp);
89			} else {
90			putint((long)pp->ntris, 2, fp);
91			for (i = 0; i < pp->ntris; i++)
92			putint((long)pp->trimat[i], 2, fp);
93			}
94	greg	2.1	/* joiner triangles */
95			putint((long)pp->nj1tris, 2, fp);
96			for (i = 0; i < pp->nj1tris; i++) {
97			putint((long)pp->j1tri[i].v1j, 4, fp);
98			putint((long)pp->j1tri[i].v2, 1, fp);
99			putint((long)pp->j1tri[i].v3, 1, fp);
100	greg	2.2	putint((long)pp->j1tri[i].mat, 2, fp);
101	greg	2.1	}
102			/* double joiner triangles */
103			putint((long)pp->nj2tris, 2, fp);
104			for (i = 0; i < pp->nj2tris; i++) {
105			putint((long)pp->j2tri[i].v1j, 4, fp);
106			putint((long)pp->j2tri[i].v2j, 4, fp);
107			putint((long)pp->j2tri[i].v3, 1, fp);
108	greg	2.2	putint((long)pp->j2tri[i].mat, 2, fp);
109	greg	2.1	}
110			}
111
112
113			void
114			writemesh(mp, fp) /* write mesh structures to fp */
115			MESH *mp;
116			FILE *fp;
117			{
118	greg	2.2	char *err;
119	greg	2.1	char sbuf[64];
120			int i;
121	greg	2.2	/* do we have everything? */
122	greg	2.1	if ((mp->ldflags & (IO_SCENE\|IO_TREE\|IO_BOUNDS)) !=
123			(IO_SCENE\|IO_TREE\|IO_BOUNDS))
124			error(INTERNAL, "missing data in writemesh");
125	greg	2.2	/* validate mesh data */
126			if ((err = checkmesh(mp)) != NULL)
127			error(USER, err);
128	greg	2.1	/* write format number */
129			putint((long)(MESHMAGIC+sizeof(OBJECT)), 2, fp);
130			/* write boundaries */
131			for (i = 0; i < 3; i++) {
132			sprintf(sbuf, "%.12g", mp->mcube.cuorg[i]);
133			putstr(sbuf, fp);
134			}
135			sprintf(sbuf, "%.12g", mp->mcube.cusize);
136			putstr(sbuf, fp);
137			for (i = 0; i < 2; i++) {
138			putflt(mp->uvlim[0][i], fp);
139			putflt(mp->uvlim[1][i], fp);
140			}
141			/* write the octree */
142			puttree(mp->mcube.cutree, fp);
143	greg	2.2	/* write the materials */
144			writescene(mp->mat0, mp->nmats, fp);
145	greg	2.1	/* write the patches */
146			putint((long)mp->npatches, 4, fp);
147			for (i = 0; i < mp->npatches; i++)
148			putpatch(&mp->patch[i], fp);
149			if (ferror(fp))
150			error(SYSTEM, "write error in writemesh");
151			}