src/common/rglmat.c

#ifndef lint
static const char       RCSid[] = "$Id: rglmat.c,v 3.6 2003/11/14 17:22:06 schorsch Exp $";
#endif
/*
 * Routines for Radiance -> OpenGL materials.
 */

#include "copyright.h"

#include "radogl.h"

int     domats = 1;                     /* are we doing materials? */

extern lut_free_t       freemtl;

LUTAB   mtab = LU_SINIT(free,freemtl);


void
rgl_matclear(void)                      /* clean up materials */
{
        lu_done(&mtab);
        domats = 1;
}


MATREC *
getmatp(                        /* find material record for modifier name */
        char    *nam
)
{
        register LUENT  *lup;

        if (nam == NULL)
                return(NULL);
        if ((lup = lu_find(&mtab, nam)) == NULL)
                return(NULL);
        return((MATREC *)lup->data);
}


int
o_default(                      /* default object is non-material modifier */
        register OBJREC *o
)
{
        register LUENT  *lup;
#ifdef DEBUG
        if (o->otype >= 0 && !ismodifier(o->otype))
                error(CONSISTENCY, "o_default handed non-modifier");
#endif
                                        /* find name in lookup table */
        if ((lup = lu_find(&mtab, o->oname)) == NULL)
                goto memerr;
        if (lup->key == NULL) {         /* new entry? */
                lup->key = (char *)malloc(strlen(o->oname)+1);
                if (lup->key == NULL)
                        goto memerr;
                strcpy(lup->key, o->oname);
        } else if (lup->data != NULL)
                freemtl(lup->data);
        if ((lup->data = o->os) != NULL)        /* make material reference */
                ((MATREC *)lup->data)->nlinks++;
        return(0);
memerr:
        error(SYSTEM, "out of memory in o_default");
        return(0);
}


int
o_unsupported(          /* unsupported object primitive */
        OBJREC  *o
)
{
        objerror(o, WARNING, "unsupported type");
        return(0);
}


MATREC *
newmaterial(            /* get an entry for a new material */
        char    *nam
)
{
        register LUENT  *lup;
                                        /* look it up (assign entry) */
        if ((lup = lu_find(&mtab, nam)) == NULL)
                goto memerr;
        if (lup->key == NULL) {         /* new entry? */
                lup->key = (char *)malloc(strlen(nam)+1);
                if (lup->key == NULL)
                        goto memerr;
                strcpy(lup->key, nam);
        } else if (lup->data != NULL)
                freemtl(lup->data);
        lup->data = (char *)malloc(sizeof(MATREC));
        if (lup->data == NULL)
                goto memerr;
        ((MATREC *)lup->data)->nlinks = 1;
        return((MATREC *)lup->data);
memerr:
        error(SYSTEM, "out of memory in newmaterial");
        return NULL; /* pro forma return */
}


void
freemtl(void *p)                /* free a material */
{
        register MATREC *mp = (MATREC *)p;

        if (!--mp->nlinks)
                free((void *)mp);
}


int
m_normal(                       /* compute normal material parameters */
        register OBJREC *o
)
{
        register MATREC *m;
                                        /* check arguments */
        if (o->oargs.nfargs != (o->otype == MAT_TRANS ? 7 : 5))
                objerror(o, USER, "bad # of real arguments");
                                        /* allocate/insert material */
        m = newmaterial(o->oname);
                                        /* assign parameters */
        setcolor(m->u.m.ambdiff, o->oargs.farg[0],
                        o->oargs.farg[1], o->oargs.farg[2]);
        if ((m->type = o->otype) == MAT_METAL)
                copycolor(m->u.m.specular, m->u.m.ambdiff);
        else
                setcolor(m->u.m.specular, 1., 1., 1.);
        scalecolor(m->u.m.specular, o->oargs.farg[3]);
        scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[3]);
        if (m->type == MAT_TRANS) {
                scalecolor(m->u.m.specular, 1.-o->oargs.farg[5]);
                scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[5]);
        }
        if (o->oargs.farg[4] <= FTINY)
                m->u.m.specexp = MAXSPECEXP;
        else
                m->u.m.specexp = 2./(o->oargs.farg[4]*o->oargs.farg[4]);
        if (m->u.m.specexp > MAXSPECEXP)
                m->u.m.specexp = MAXSPECEXP;
        return(0);
}


int
m_aniso(                        /* anisotropic material */
        register OBJREC *o
)
{
        register MATREC *m;
                                        /* check arguments */
        if (o->oargs.nfargs < (o->otype == MAT_TRANS2 ? 8 : 6))
                objerror(o, USER, "bad # of real arguments");
                                        /* allocate/insert material */
        m = newmaterial(o->oname);
                                        /* assign parameters */
        setcolor(m->u.m.ambdiff, o->oargs.farg[0],
                        o->oargs.farg[1], o->oargs.farg[2]);
        if ((m->type = o->otype) == MAT_METAL2)
                copycolor(m->u.m.specular, m->u.m.ambdiff);
        else
                setcolor(m->u.m.specular, 1., 1., 1.);
        scalecolor(m->u.m.specular, o->oargs.farg[3]);
        scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[3]);
        if (m->type == MAT_TRANS2) {
                scalecolor(m->u.m.specular, 1.-o->oargs.farg[6]);
                scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[6]);
        }
        if (o->oargs.farg[4]*o->oargs.farg[5] <= FTINY*FTINY)
                m->u.m.specexp = MAXSPECEXP;
        else
                m->u.m.specexp = 2./(o->oargs.farg[4]*o->oargs.farg[5]);
        if (m->u.m.specexp > MAXSPECEXP)
                m->u.m.specexp = MAXSPECEXP;
        return(0);
}


int
m_glass(                        /* glass material (hopeless) */
        OBJREC  *o
)
{
        register MATREC *m;

        m = newmaterial(o->oname);
        m->type = o->otype;
        setcolor(m->u.m.ambdiff, 0., 0., 0.);
        setcolor(m->u.m.specular, .08, .08, .08);
        m->u.m.specexp = MAXSPECEXP;
        return(0);
}


int
m_brdf(o)                       /* convert functional material */
register OBJREC *o;
{
        register MATREC *m;
                                        /* check arguments */
        if (o->oargs.nfargs < (o->otype == MAT_TFUNC ? 6 : 4))
                objerror(o, USER, "bad # of real arguments");
                                        /* allocate/insert material */
        m = newmaterial(o->oname);
                                        /* assign parameters */
        setcolor(m->u.m.ambdiff, o->oargs.farg[0],
                        o->oargs.farg[1], o->oargs.farg[2]);
        if ((m->type = o->otype) == MAT_MFUNC)
                copycolor(m->u.m.specular, m->u.m.ambdiff);
        else
                setcolor(m->u.m.specular, 1., 1., 1.);
        scalecolor(m->u.m.specular, o->oargs.farg[3]);
        scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[3]);
        if (m->type == MAT_TFUNC) {
                scalecolor(m->u.m.specular, 1.-o->oargs.farg[4]);
                scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[4]);
        }
        m->u.m.specexp = UNKSPECEXP;
        return(0);
}


int
m_brdf2(o)                      /* convert advanced functional material */
register OBJREC *o;
{
        register MATREC *m;

        if (o->oargs.nfargs < 9)
                objerror(o, USER, "bad # of real arguments");
        m = newmaterial(o->oname);
        m->type = o->otype;
                                        /* assign average diffuse front+back */
        setcolor(m->u.m.ambdiff, (o->oargs.farg[0]+o->oargs.farg[3])*.5,
                                 (o->oargs.farg[1]+o->oargs.farg[4])*.5,
                                 (o->oargs.farg[2]+o->oargs.farg[5])*.5);
                                        /* guess the rest */
        setcolor(m->u.m.specular, .1, .1, .1);
        m->u.m.specexp = UNKSPECEXP;
        return(0);
}


int
m_light(o)                      /* convert light type */
register OBJREC *o;
{
        FVECT   v;
        register MATREC *m;

        if (o->oargs.nfargs < (o->otype == MAT_SPOT ? 7 : 3))
                objerror(o, USER, "bad # of real arguments");
        m = newmaterial(o->oname);
        setcolor(m->u.l.emission, o->oargs.farg[0],
                        o->oargs.farg[1], o->oargs.farg[2]);
        if ((m->type = o->otype) == MAT_SPOT) {
                if ((m->u.l.spotang = o->oargs.farg[3]/2.) > 90.)
                        m->u.l.spotang = 180.;
                v[0] = o->oargs.farg[4];
                v[1] = o->oargs.farg[5];
                v[2] = o->oargs.farg[6];
                if (normalize(v) == 0.)
                        objerror(o, USER, "illegal direction");
                VCOPY(m->u.l.spotdir, v);
        } else {
                m->u.l.spotang = 180.;
                m->u.l.spotdir[0] = m->u.l.spotdir[1] = 0.;
                m->u.l.spotdir[2] = -1.;
        }
        return(0);
}


int
m_mirror(o)                     /* convert mirror type */
register OBJREC *o;
{
        register MATREC *m;

        if (o->oargs.nfargs != 3)
                objerror(o, USER, "bad # real arguments");
        m = newmaterial(o->oname);
        m->type = o->otype;
        setcolor(m->u.m.ambdiff, 0., 0., 0.);
        setcolor(m->u.m.specular, o->oargs.farg[0],
                        o->oargs.farg[1], o->oargs.farg[2]);
        m->u.m.specexp = MAXSPECEXP;
        return(0);
}


int
m_prism(o)                      /* convert prism type */
register OBJREC *o;
{
        register MATREC *m;
                                        /* can't really deal with this type */
        m = newmaterial(o->oname);
        m->type = o->otype;
        setcolor(m->u.m.ambdiff, 0.2, 0.2, 0.2);
        setcolor(m->u.m.specular, 0.1, 0.1, 0.1);
        m->u.m.specexp = UNKSPECEXP;
        return(0);
}
Revision:	3.7
Committed:	Fri Feb 18 00:40:25 2011 UTC (14 years, 8 months ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad5R4, rad5R2, rad5R3, rad5R0, rad5R1, rad4R2, rad6R0, rad4R1, rad4R2P1, rad4R2P2, HEAD
Changes since 3.6:	+26 -18 lines
Log Message:	Major code reorg, moving mgflib to common and introducing BSDF material
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: rglmat.c,v 3.6 2003/11/14 17:22:06 schorsch Exp $";
3	#endif
4	/*
5	* Routines for Radiance -> OpenGL materials.
6	*/
7
8	#include "copyright.h"
9
10	#include "radogl.h"
11
12	int domats = 1; /* are we doing materials? */
13
14	extern lut_free_t freemtl;
15
16	LUTAB mtab = LU_SINIT(free,freemtl);
17
18
19	void
20	rgl_matclear(void) /* clean up materials */
21	{
22	lu_done(&mtab);
23	domats = 1;
24	}
25
26
27	MATREC *
28	getmatp( /* find material record for modifier name */
29	char *nam
30	)
31	{
32	register LUENT *lup;
33
34	if (nam == NULL)
35	return(NULL);
36	if ((lup = lu_find(&mtab, nam)) == NULL)
37	return(NULL);
38	return((MATREC *)lup->data);
39	}
40
41
42	int
43	o_default( /* default object is non-material modifier */
44	register OBJREC *o
45	)
46	{
47	register LUENT *lup;
48	#ifdef DEBUG
49	if (o->otype >= 0 && !ismodifier(o->otype))
50	error(CONSISTENCY, "o_default handed non-modifier");
51	#endif
52	/* find name in lookup table */
53	if ((lup = lu_find(&mtab, o->oname)) == NULL)
54	goto memerr;
55	if (lup->key == NULL) { /* new entry? */
56	lup->key = (char *)malloc(strlen(o->oname)+1);
57	if (lup->key == NULL)
58	goto memerr;
59	strcpy(lup->key, o->oname);
60	} else if (lup->data != NULL)
61	freemtl(lup->data);
62	if ((lup->data = o->os) != NULL) /* make material reference */
63	((MATREC *)lup->data)->nlinks++;
64	return(0);
65	memerr:
66	error(SYSTEM, "out of memory in o_default");
67	return(0);
68	}
69
70
71	int
72	o_unsupported( /* unsupported object primitive */
73	OBJREC *o
74	)
75	{
76	objerror(o, WARNING, "unsupported type");
77	return(0);
78	}
79
80
81	MATREC *
82	newmaterial( /* get an entry for a new material */
83	char *nam
84	)
85	{
86	register LUENT *lup;
87	/* look it up (assign entry) */
88	if ((lup = lu_find(&mtab, nam)) == NULL)
89	goto memerr;
90	if (lup->key == NULL) { /* new entry? */
91	lup->key = (char *)malloc(strlen(nam)+1);
92	if (lup->key == NULL)
93	goto memerr;
94	strcpy(lup->key, nam);
95	} else if (lup->data != NULL)
96	freemtl(lup->data);
97	lup->data = (char *)malloc(sizeof(MATREC));
98	if (lup->data == NULL)
99	goto memerr;
100	((MATREC *)lup->data)->nlinks = 1;
101	return((MATREC *)lup->data);
102	memerr:
103	error(SYSTEM, "out of memory in newmaterial");
104	return NULL; /* pro forma return */
105	}
106
107
108	void
109	freemtl(void p) / free a material */
110	{
111	register MATREC mp = (MATREC )p;
112
113	if (!--mp->nlinks)
114	free((void *)mp);
115	}
116
117
118	int
119	m_normal( /* compute normal material parameters */
120	register OBJREC *o
121	)
122	{
123	register MATREC *m;
124	/* check arguments */
125	if (o->oargs.nfargs != (o->otype == MAT_TRANS ? 7 : 5))
126	objerror(o, USER, "bad # of real arguments");
127	/* allocate/insert material */
128	m = newmaterial(o->oname);
129	/* assign parameters */
130	setcolor(m->u.m.ambdiff, o->oargs.farg[0],
131	o->oargs.farg[1], o->oargs.farg[2]);
132	if ((m->type = o->otype) == MAT_METAL)
133	copycolor(m->u.m.specular, m->u.m.ambdiff);
134	else
135	setcolor(m->u.m.specular, 1., 1., 1.);
136	scalecolor(m->u.m.specular, o->oargs.farg[3]);
137	scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[3]);
138	if (m->type == MAT_TRANS) {
139	scalecolor(m->u.m.specular, 1.-o->oargs.farg[5]);
140	scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[5]);
141	}
142	if (o->oargs.farg[4] <= FTINY)
143	m->u.m.specexp = MAXSPECEXP;
144	else
145	m->u.m.specexp = 2./(o->oargs.farg[4]*o->oargs.farg[4]);
146	if (m->u.m.specexp > MAXSPECEXP)
147	m->u.m.specexp = MAXSPECEXP;
148	return(0);
149	}
150
151
152	int
153	m_aniso( /* anisotropic material */
154	register OBJREC *o
155	)
156	{
157	register MATREC *m;
158	/* check arguments */
159	if (o->oargs.nfargs < (o->otype == MAT_TRANS2 ? 8 : 6))
160	objerror(o, USER, "bad # of real arguments");
161	/* allocate/insert material */
162	m = newmaterial(o->oname);
163	/* assign parameters */
164	setcolor(m->u.m.ambdiff, o->oargs.farg[0],
165	o->oargs.farg[1], o->oargs.farg[2]);
166	if ((m->type = o->otype) == MAT_METAL2)
167	copycolor(m->u.m.specular, m->u.m.ambdiff);
168	else
169	setcolor(m->u.m.specular, 1., 1., 1.);
170	scalecolor(m->u.m.specular, o->oargs.farg[3]);
171	scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[3]);
172	if (m->type == MAT_TRANS2) {
173	scalecolor(m->u.m.specular, 1.-o->oargs.farg[6]);
174	scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[6]);
175	}
176	if (o->oargs.farg[4]o->oargs.farg[5] <= FTINYFTINY)
177	m->u.m.specexp = MAXSPECEXP;
178	else
179	m->u.m.specexp = 2./(o->oargs.farg[4]*o->oargs.farg[5]);
180	if (m->u.m.specexp > MAXSPECEXP)
181	m->u.m.specexp = MAXSPECEXP;
182	return(0);
183	}
184
185
186	int
187	m_glass( /* glass material (hopeless) */
188	OBJREC *o
189	)
190	{
191	register MATREC *m;
192
193	m = newmaterial(o->oname);
194	m->type = o->otype;
195	setcolor(m->u.m.ambdiff, 0., 0., 0.);
196	setcolor(m->u.m.specular, .08, .08, .08);
197	m->u.m.specexp = MAXSPECEXP;
198	return(0);
199	}
200
201
202	int
203	m_brdf(o) /* convert functional material */
204	register OBJREC *o;
205	{
206	register MATREC *m;
207	/* check arguments */
208	if (o->oargs.nfargs < (o->otype == MAT_TFUNC ? 6 : 4))
209	objerror(o, USER, "bad # of real arguments");
210	/* allocate/insert material */
211	m = newmaterial(o->oname);
212	/* assign parameters */
213	setcolor(m->u.m.ambdiff, o->oargs.farg[0],
214	o->oargs.farg[1], o->oargs.farg[2]);
215	if ((m->type = o->otype) == MAT_MFUNC)
216	copycolor(m->u.m.specular, m->u.m.ambdiff);
217	else
218	setcolor(m->u.m.specular, 1., 1., 1.);
219	scalecolor(m->u.m.specular, o->oargs.farg[3]);
220	scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[3]);
221	if (m->type == MAT_TFUNC) {
222	scalecolor(m->u.m.specular, 1.-o->oargs.farg[4]);
223	scalecolor(m->u.m.ambdiff, 1.-o->oargs.farg[4]);
224	}
225	m->u.m.specexp = UNKSPECEXP;
226	return(0);
227	}
228
229
230	int
231	m_brdf2(o) /* convert advanced functional material */
232	register OBJREC *o;
233	{
234	register MATREC *m;
235
236	if (o->oargs.nfargs < 9)
237	objerror(o, USER, "bad # of real arguments");
238	m = newmaterial(o->oname);
239	m->type = o->otype;
240	/* assign average diffuse front+back */
241	setcolor(m->u.m.ambdiff, (o->oargs.farg[0]+o->oargs.farg[3])*.5,
242	(o->oargs.farg[1]+o->oargs.farg[4])*.5,
243	(o->oargs.farg[2]+o->oargs.farg[5])*.5);
244	/* guess the rest */
245	setcolor(m->u.m.specular, .1, .1, .1);
246	m->u.m.specexp = UNKSPECEXP;
247	return(0);
248	}
249
250
251	int
252	m_light(o) /* convert light type */
253	register OBJREC *o;
254	{
255	FVECT v;
256	register MATREC *m;
257
258	if (o->oargs.nfargs < (o->otype == MAT_SPOT ? 7 : 3))
259	objerror(o, USER, "bad # of real arguments");
260	m = newmaterial(o->oname);
261	setcolor(m->u.l.emission, o->oargs.farg[0],
262	o->oargs.farg[1], o->oargs.farg[2]);
263	if ((m->type = o->otype) == MAT_SPOT) {
264	if ((m->u.l.spotang = o->oargs.farg[3]/2.) > 90.)
265	m->u.l.spotang = 180.;
266	v[0] = o->oargs.farg[4];
267	v[1] = o->oargs.farg[5];
268	v[2] = o->oargs.farg[6];
269	if (normalize(v) == 0.)
270	objerror(o, USER, "illegal direction");
271	VCOPY(m->u.l.spotdir, v);
272	} else {
273	m->u.l.spotang = 180.;
274	m->u.l.spotdir[0] = m->u.l.spotdir[1] = 0.;
275	m->u.l.spotdir[2] = -1.;
276	}
277	return(0);
278	}
279
280
281	int
282	m_mirror(o) /* convert mirror type */
283	register OBJREC *o;
284	{
285	register MATREC *m;
286
287	if (o->oargs.nfargs != 3)
288	objerror(o, USER, "bad # real arguments");
289	m = newmaterial(o->oname);
290	m->type = o->otype;
291	setcolor(m->u.m.ambdiff, 0., 0., 0.);
292	setcolor(m->u.m.specular, o->oargs.farg[0],
293	o->oargs.farg[1], o->oargs.farg[2]);
294	m->u.m.specexp = MAXSPECEXP;
295	return(0);
296	}
297
298
299	int
300	m_prism(o) /* convert prism type */
301	register OBJREC *o;
302	{
303	register MATREC *m;
304	/* can't really deal with this type */
305	m = newmaterial(o->oname);
306	m->type = o->otype;
307	setcolor(m->u.m.ambdiff, 0.2, 0.2, 0.2);
308	setcolor(m->u.m.specular, 0.1, 0.1, 0.1);
309	m->u.m.specexp = UNKSPECEXP;
310	return(0);
311	}