src/rt/ashikhmin.c

#ifndef lint
static const char RCSid[] = "$Id: ashikhmin.c,v 2.5 2015/05/21 05:54:54 greg Exp $";
#endif
/*
 *  Shading functions for Ashikhmin-Shirley anisotropic materials.
 */

#include "copyright.h"

#include  "ray.h"
#include  "ambient.h"
#include  "otypes.h"
#include  "rtotypes.h"
#include  "source.h"
#include  "func.h"
#include  "random.h"
#include  "pmapmat.h"

#ifndef  MAXITER
#define  MAXITER        10              /* maximum # specular ray attempts */
#endif

/*
 *  Ashikhmin-Shirley model
 *
 *  Arguments for MAT_ASHIKHMIN are:
 *  4+ ux uy uz funcfile [transform...]
 *  0
 *  8  dred dgrn dblu sred sgrn sblu u-power v-power
 */

                                /* specularity flags */
#define  SPA_REFL       01              /* has reflected specular component */
#define  SPA_FLAT       02              /* reflecting surface is flat */
#define  SPA_RBLT       010             /* reflection below sample threshold */

typedef struct {
        OBJREC  *mp;            /* material pointer */
        RAY  *rp;               /* ray pointer */
        short  specfl;          /* specularity flags, defined above */
        COLOR  mcolor;          /* color of this material */
        COLOR  scolor;          /* color of specular component */
        FVECT  u, v;            /* u and v vectors orienting anisotropy */
        double  u_power;        /* u power */
        double  v_power;        /* v power */
        FVECT  pnorm;           /* perturbed surface normal */
        double  pdot;           /* perturbed dot product */
}  ASHIKDAT;            /* anisotropic material data */

static void getacoords_as(ASHIKDAT *np);
static void ashiksamp(ASHIKDAT *np);

#undef MAX
#define MAX(a,b)        ((a)>(b) ? (a) : (b))


static double
schlick_fres(double dprod)
{
        double  pf = 1. - dprod;

        return(pf*pf*pf*pf*pf);
}


static void
dirashik(               /* compute source contribution */
        COLOR  cval,            /* returned coefficient */
        void  *nnp,             /* material data */
        FVECT  ldir,            /* light source direction */
        double  omega           /* light source size */
)
{
        ASHIKDAT *np = nnp;
        double  ldot;
        double  dtmp, dtmp1, dtmp2;
        FVECT  h;
        COLOR  ctmp;

        setcolor(cval, 0.0, 0.0, 0.0);

        ldot = DOT(np->pnorm, ldir);

        if (ldot < 0.0)
                return;         /* wrong side */

        /*
         *  Compute and add diffuse reflected component to returned
         *  color.
         */
        copycolor(ctmp, np->mcolor);
        dtmp = ldot * omega * (1.0/PI) * (1. - schlick_fres(ldot));
        scalecolor(ctmp, dtmp);         
        addcolor(cval, ctmp);

        if (!(np->specfl & SPA_REFL) || ambRayInPmap(np->rp))
                return;
        /*
         *  Compute specular reflection coefficient
         */
                                        /* half vector */
        VSUB(h, ldir, np->rp->rdir);
        normalize(h);
                                        /* ellipse */
        dtmp1 = DOT(np->u, h);
        dtmp1 *= dtmp1 * np->u_power;
        dtmp2 = DOT(np->v, h);
        dtmp2 *= dtmp2 * np->v_power;
                                        /* Ashikhmin-Shirley model*/
        dtmp = DOT(np->pnorm, h);
        dtmp = pow(dtmp, (dtmp1+dtmp2)/(1.-dtmp*dtmp));
        dtmp *= sqrt((np->u_power+1.)*(np->v_power+1.));
        dtmp /= 8.*PI * DOT(ldir,h) * MAX(ldot,np->pdot);
                                        /* worth using? */
        if (dtmp > FTINY) {
                copycolor(ctmp, np->scolor);
                dtmp *= ldot * omega;
                scalecolor(ctmp, dtmp);
                addcolor(cval, ctmp);
        }
}


int
m_ashikhmin(                    /* shade ray that hit something anisotropic */
        OBJREC  *m,
        RAY  *r
)
{
        ASHIKDAT  nd;
        COLOR  ctmp;
        double  fres;
        int  i;
                                                /* easy shadow test */
        if (r->crtype & SHADOW)
                return(1);

        if (m->oargs.nfargs != 8)
                objerror(m, USER, "bad number of real arguments");
                                                /* check for back side */
        if (r->rod < 0.0) {
                if (!backvis) {
                        raytrans(r);
                        return(1);
                }
                raytexture(r, m->omod);
                flipsurface(r);                 /* reorient if backvis */
        } else
                raytexture(r, m->omod);
                                                /* get material color */
        nd.mp = m;
        nd.rp = r;
        setcolor(nd.mcolor, m->oargs.farg[0],
                           m->oargs.farg[1],
                           m->oargs.farg[2]);
        setcolor(nd.scolor, m->oargs.farg[3],
                           m->oargs.farg[4],
                           m->oargs.farg[5]);
                                                /* get specular power */
        nd.specfl = 0;
        nd.u_power = m->oargs.farg[6];
        nd.v_power = m->oargs.farg[7];

        nd.pdot = raynormal(nd.pnorm, r);       /* perturb normal */
        if (nd.pdot < .001)
                nd.pdot = .001;                 /* non-zero for dirashik() */
        multcolor(nd.mcolor, r->pcol);          /* modify diffuse color */

        if (bright(nd.scolor) > FTINY) {        /* adjust specular color */
                nd.specfl |= SPA_REFL;
                                                /* check threshold */
                if (specthresh >= bright(nd.scolor)-FTINY)
                        nd.specfl |= SPA_RBLT;
                fres = schlick_fres(nd.pdot);   /* Schick's Fresnel approx */
                for (i = 0; i < 3; i++)
                        colval(nd.scolor,i) += (1.-colval(nd.scolor,i))*fres;
        }
        if (r->ro != NULL && isflat(r->ro->otype))
                nd.specfl |= SPA_FLAT;
                                                /* set up coordinates */
        getacoords_as(&nd);
                                                /* specular sampling? */
        if ((nd.specfl & (SPA_REFL|SPA_RBLT)) == SPA_REFL)
                ashiksamp(&nd);
                                                /* diffuse interreflection */
        if (bright(nd.mcolor) > FTINY) {
                copycolor(ctmp, nd.mcolor);     /* modified by material color */                
                if (nd.specfl & SPA_RBLT)       /* add in specular as well? */
                        addcolor(ctmp, nd.scolor);
                multambient(ctmp, r, nd.pnorm);
                addcolor(r->rcol, ctmp);        /* add to returned color */
        }
        direct(r, dirashik, &nd);               /* add direct component */

        return(1);
}


static void
getacoords_as(          /* set up coordinate system */
        ASHIKDAT  *np
)
{
        MFUNC  *mf;
        int  i;

        mf = getfunc(np->mp, 3, 0x7, 1);
        setfunc(np->mp, np->rp);
        errno = 0;
        for (i = 0; i < 3; i++)
                np->u[i] = evalue(mf->ep[i]);
        if ((errno == EDOM) | (errno == ERANGE))
                np->u[0] = np->u[1] = np->u[2] = 0.0;
        if (mf->fxp != &unitxf)
                multv3(np->u, np->u, mf->fxp->xfm);
        fcross(np->v, np->pnorm, np->u);
        if (normalize(np->v) == 0.0) {
                if (fabs(np->u_power - np->v_power) > 0.1)
                        objerror(np->mp, WARNING, "bad orientation vector");
                getperpendicular(np->u, np->pnorm, 1);  /* punting */
                fcross(np->v, np->pnorm, np->u);
                np->u_power = np->v_power =
                        2./(1./(np->u_power+1e-5) + 1./(np->v_power+1e-5));
        } else
                fcross(np->u, np->v, np->pnorm);
}


static void
ashiksamp(              /* sample anisotropic Ashikhmin-Shirley specular */
        ASHIKDAT  *np
)
{
        RAY  sr;
        FVECT  h;
        double  rv[2], dtmp;
        double  cosph, sinph, costh, sinth;
        int  maxiter, ntrials, nstarget, nstaken;
        int  i;

        if (rayorigin(&sr, SPECULAR, np->rp, np->scolor) < 0)
                return;

        nstarget = 1;
        if (specjitter > 1.5) {                 /* multiple samples? */
                nstarget = specjitter*np->rp->rweight + .5;
                if (sr.rweight <= minweight*nstarget)
                        nstarget = sr.rweight/minweight;
                if (nstarget > 1) {
                        dtmp = 1./nstarget;
                        scalecolor(sr.rcoef, dtmp);
                        sr.rweight *= dtmp;
                } else
                        nstarget = 1;
        }
        dimlist[ndims++] = (int)(size_t)np->mp;
        maxiter = MAXITER*nstarget;
        for (nstaken = ntrials = 0; nstaken < nstarget &&
                                        ntrials < maxiter; ntrials++) {
                if (ntrials)
                        dtmp = frandom();
                else
                        dtmp = urand(ilhash(dimlist,ndims)+647+samplendx);
                multisamp(rv, 2, dtmp);
                dtmp = 2.*PI * rv[0];
                cosph = sqrt(np->v_power + 1.) * tcos(dtmp);
                sinph = sqrt(np->u_power + 1.) * tsin(dtmp);
                dtmp = 1./sqrt(cosph*cosph + sinph*sinph);
                cosph *= dtmp;
                sinph *= dtmp;
                costh = pow(rv[1], 1./(np->u_power*cosph*cosph+np->v_power*sinph*sinph+1.));
                if (costh <= FTINY)
                        continue;
                sinth = sqrt(1. - costh*costh);
                for (i = 0; i < 3; i++)
                        h[i] = cosph*sinth*np->u[i] + sinph*sinth*np->v[i] + costh*np->pnorm[i];

                if (nstaken)
                        rayclear(&sr);
                dtmp = -2.*DOT(h, np->rp->rdir);
                VSUM(sr.rdir, np->rp->rdir, h, dtmp);                           
                                                /* sample rejection test */
                if (DOT(sr.rdir, np->rp->ron) <= FTINY)
                        continue;
                checknorm(sr.rdir);
                rayvalue(&sr);
                multcolor(sr.rcol, sr.rcoef);
                addcolor(np->rp->rcol, sr.rcol);
                ++nstaken;
        }
        ndims--;
}
Revision:	2.6
Committed:	Wed Sep 2 18:59:01 2015 UTC (10 years, 1 month ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad5R4, rad5R2, rad5R3, rad5R0, rad5R1
Changes since 2.5:	+3 -2 lines
Log Message:	Had to reinstate ambRayInPmap() macro to avoid over-counting bug
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: ashikhmin.c,v 2.5 2015/05/21 05:54:54 greg Exp $";
3	#endif
4	/*
5	* Shading functions for Ashikhmin-Shirley anisotropic materials.
6	*/
7
8	#include "copyright.h"
9
10	#include "ray.h"
11	#include "ambient.h"
12	#include "otypes.h"
13	#include "rtotypes.h"
14	#include "source.h"
15	#include "func.h"
16	#include "random.h"
17	#include "pmapmat.h"
18
19	#ifndef MAXITER
20	#define MAXITER 10 /* maximum # specular ray attempts */
21	#endif
22
23	/*
24	* Ashikhmin-Shirley model
25	*
26	* Arguments for MAT_ASHIKHMIN are:
27	* 4+ ux uy uz funcfile [transform...]
28	* 0
29	* 8 dred dgrn dblu sred sgrn sblu u-power v-power
30	*/
31
32	/* specularity flags */
33	#define SPA_REFL 01 /* has reflected specular component */
34	#define SPA_FLAT 02 /* reflecting surface is flat */
35	#define SPA_RBLT 010 /* reflection below sample threshold */
36
37	typedef struct {
38	OBJREC mp; / material pointer */
39	RAY rp; / ray pointer */
40	short specfl; /* specularity flags, defined above */
41	COLOR mcolor; /* color of this material */
42	COLOR scolor; /* color of specular component */
43	FVECT u, v; /* u and v vectors orienting anisotropy */
44	double u_power; /* u power */
45	double v_power; /* v power */
46	FVECT pnorm; /* perturbed surface normal */
47	double pdot; /* perturbed dot product */
48	} ASHIKDAT; /* anisotropic material data */
49
50	static void getacoords_as(ASHIKDAT *np);
51	static void ashiksamp(ASHIKDAT *np);
52
53	#undef MAX
54	#define MAX(a,b) ((a)>(b) ? (a) : (b))
55
56
57	static double
58	schlick_fres(double dprod)
59	{
60	double pf = 1. - dprod;
61
62	return(pfpfpfpfpf);
63	}
64
65
66	static void
67	dirashik( /* compute source contribution */
68	COLOR cval, /* returned coefficient */
69	void nnp, / material data */
70	FVECT ldir, /* light source direction */
71	double omega /* light source size */
72	)
73	{
74	ASHIKDAT *np = nnp;
75	double ldot;
76	double dtmp, dtmp1, dtmp2;
77	FVECT h;
78	COLOR ctmp;
79
80	setcolor(cval, 0.0, 0.0, 0.0);
81
82	ldot = DOT(np->pnorm, ldir);
83
84	if (ldot < 0.0)
85	return; /* wrong side */
86
87	/*
88	* Compute and add diffuse reflected component to returned
89	* color.
90	*/
91	copycolor(ctmp, np->mcolor);
92	dtmp = ldot * omega * (1.0/PI) * (1. - schlick_fres(ldot));
93	scalecolor(ctmp, dtmp);
94	addcolor(cval, ctmp);
95
96	if (!(np->specfl & SPA_REFL) \|\| ambRayInPmap(np->rp))
97	return;
98	/*
99	* Compute specular reflection coefficient
100	*/
101	/* half vector */
102	VSUB(h, ldir, np->rp->rdir);
103	normalize(h);
104	/* ellipse */
105	dtmp1 = DOT(np->u, h);
106	dtmp1 = dtmp1 np->u_power;
107	dtmp2 = DOT(np->v, h);
108	dtmp2 = dtmp2 np->v_power;
109	/* Ashikhmin-Shirley model*/
110	dtmp = DOT(np->pnorm, h);
111	dtmp = pow(dtmp, (dtmp1+dtmp2)/(1.-dtmp*dtmp));
112	dtmp = sqrt((np->u_power+1.)(np->v_power+1.));
113	dtmp /= 8.PI DOT(ldir,h) * MAX(ldot,np->pdot);
114	/* worth using? */
115	if (dtmp > FTINY) {
116	copycolor(ctmp, np->scolor);
117	dtmp = ldot omega;
118	scalecolor(ctmp, dtmp);
119	addcolor(cval, ctmp);
120	}
121	}
122
123
124	int
125	m_ashikhmin( /* shade ray that hit something anisotropic */
126	OBJREC *m,
127	RAY *r
128	)
129	{
130	ASHIKDAT nd;
131	COLOR ctmp;
132	double fres;
133	int i;
134	/* easy shadow test */
135	if (r->crtype & SHADOW)
136	return(1);
137
138	if (m->oargs.nfargs != 8)
139	objerror(m, USER, "bad number of real arguments");
140	/* check for back side */
141	if (r->rod < 0.0) {
142	if (!backvis) {
143	raytrans(r);
144	return(1);
145	}
146	raytexture(r, m->omod);
147	flipsurface(r); /* reorient if backvis */
148	} else
149	raytexture(r, m->omod);
150	/* get material color */
151	nd.mp = m;
152	nd.rp = r;
153	setcolor(nd.mcolor, m->oargs.farg[0],
154	m->oargs.farg[1],
155	m->oargs.farg[2]);
156	setcolor(nd.scolor, m->oargs.farg[3],
157	m->oargs.farg[4],
158	m->oargs.farg[5]);
159	/* get specular power */
160	nd.specfl = 0;
161	nd.u_power = m->oargs.farg[6];
162	nd.v_power = m->oargs.farg[7];
163
164	nd.pdot = raynormal(nd.pnorm, r); /* perturb normal */
165	if (nd.pdot < .001)
166	nd.pdot = .001; /* non-zero for dirashik() */
167	multcolor(nd.mcolor, r->pcol); /* modify diffuse color */
168
169	if (bright(nd.scolor) > FTINY) { /* adjust specular color */
170	nd.specfl \|= SPA_REFL;
171	/* check threshold */
172	if (specthresh >= bright(nd.scolor)-FTINY)
173	nd.specfl \|= SPA_RBLT;
174	fres = schlick_fres(nd.pdot); /* Schick's Fresnel approx */
175	for (i = 0; i < 3; i++)
176	colval(nd.scolor,i) += (1.-colval(nd.scolor,i))*fres;
177	}
178	if (r->ro != NULL && isflat(r->ro->otype))
179	nd.specfl \|= SPA_FLAT;
180	/* set up coordinates */
181	getacoords_as(&nd);
182	/* specular sampling? */
183	if ((nd.specfl & (SPA_REFL\|SPA_RBLT)) == SPA_REFL)
184	ashiksamp(&nd);
185	/* diffuse interreflection */
186	if (bright(nd.mcolor) > FTINY) {
187	copycolor(ctmp, nd.mcolor); /* modified by material color */
188	if (nd.specfl & SPA_RBLT) /* add in specular as well? */
189	addcolor(ctmp, nd.scolor);
190	multambient(ctmp, r, nd.pnorm);
191	addcolor(r->rcol, ctmp); /* add to returned color */
192	}
193	direct(r, dirashik, &nd); /* add direct component */
194
195	return(1);
196	}
197
198
199	static void
200	getacoords_as( /* set up coordinate system */
201	ASHIKDAT *np
202	)
203	{
204	MFUNC *mf;
205	int i;
206
207	mf = getfunc(np->mp, 3, 0x7, 1);
208	setfunc(np->mp, np->rp);
209	errno = 0;
210	for (i = 0; i < 3; i++)
211	np->u[i] = evalue(mf->ep[i]);
212	if ((errno == EDOM) \| (errno == ERANGE))
213	np->u[0] = np->u[1] = np->u[2] = 0.0;
214	if (mf->fxp != &unitxf)
215	multv3(np->u, np->u, mf->fxp->xfm);
216	fcross(np->v, np->pnorm, np->u);
217	if (normalize(np->v) == 0.0) {
218	if (fabs(np->u_power - np->v_power) > 0.1)
219	objerror(np->mp, WARNING, "bad orientation vector");
220	getperpendicular(np->u, np->pnorm, 1); /* punting */
221	fcross(np->v, np->pnorm, np->u);
222	np->u_power = np->v_power =
223	2./(1./(np->u_power+1e-5) + 1./(np->v_power+1e-5));
224	} else
225	fcross(np->u, np->v, np->pnorm);
226	}
227
228
229	static void
230	ashiksamp( /* sample anisotropic Ashikhmin-Shirley specular */
231	ASHIKDAT *np
232	)
233	{
234	RAY sr;
235	FVECT h;
236	double rv[2], dtmp;
237	double cosph, sinph, costh, sinth;
238	int maxiter, ntrials, nstarget, nstaken;
239	int i;
240
241	if (rayorigin(&sr, SPECULAR, np->rp, np->scolor) < 0)
242	return;
243
244	nstarget = 1;
245	if (specjitter > 1.5) { /* multiple samples? */
246	nstarget = specjitter*np->rp->rweight + .5;
247	if (sr.rweight <= minweight*nstarget)
248	nstarget = sr.rweight/minweight;
249	if (nstarget > 1) {
250	dtmp = 1./nstarget;
251	scalecolor(sr.rcoef, dtmp);
252	sr.rweight *= dtmp;
253	} else
254	nstarget = 1;
255	}
256	dimlist[ndims++] = (int)(size_t)np->mp;
257	maxiter = MAXITER*nstarget;
258	for (nstaken = ntrials = 0; nstaken < nstarget &&
259	ntrials < maxiter; ntrials++) {
260	if (ntrials)
261	dtmp = frandom();
262	else
263	dtmp = urand(ilhash(dimlist,ndims)+647+samplendx);
264	multisamp(rv, 2, dtmp);
265	dtmp = 2.PI rv[0];
266	cosph = sqrt(np->v_power + 1.) * tcos(dtmp);
267	sinph = sqrt(np->u_power + 1.) * tsin(dtmp);
268	dtmp = 1./sqrt(cosphcosph + sinphsinph);
269	cosph *= dtmp;
270	sinph *= dtmp;
271	costh = pow(rv[1], 1./(np->u_powercosphcosph+np->v_powersinphsinph+1.));
272	if (costh <= FTINY)
273	continue;
274	sinth = sqrt(1. - costh*costh);
275	for (i = 0; i < 3; i++)
276	h[i] = cosphsinthnp->u[i] + sinphsinthnp->v[i] + costh*np->pnorm[i];
277
278	if (nstaken)
279	rayclear(&sr);
280	dtmp = -2.*DOT(h, np->rp->rdir);
281	VSUM(sr.rdir, np->rp->rdir, h, dtmp);
282	/* sample rejection test */
283	if (DOT(sr.rdir, np->rp->ron) <= FTINY)
284	continue;
285	checknorm(sr.rdir);
286	rayvalue(&sr);
287	multcolor(sr.rcol, sr.rcoef);
288	addcolor(np->rp->rcol, sr.rcol);
289	++nstaken;
290	}
291	ndims--;
292	}