src/util/cmbsdf.c

#ifndef lint
static const char RCSid[] = "$Id: cmbsdf.c,v 2.4 2015/08/27 04:33:31 greg Exp $";
#endif
/*
 * Load and convert BSDF into color coefficient matrix representation.
 *
 *      G. Ward
 */

#include "standard.h"
#include "cmatrix.h"
#include "paths.h"
#include "bsdf.h"
#include "bsdf_m.h"

/* Convert a BSDF to our matrix representation */
static CMATRIX *
cm_bsdf(const COLOR diffBSDF, const SDMat *bsdf)
{
        CMATRIX *cm = cm_alloc(bsdf->nout, bsdf->ninc);
        int     nbadohm = 0;
        int     nneg = 0;
        int     r, c;
                                        /* loop over incident angles */
        for (c = 0; c < cm->ncols; c++) {
                const double    dom = mBSDF_incohm(bsdf,c);
                                        /* projected solid angle */
                nbadohm += (dom <= 0);

                for (r = 0; r < cm->nrows; r++) {
                        float   f = mBSDF_value(bsdf,c,r);
                        COLORV  *mp = cm_lval(cm,r,c);
                                        /* check BSDF value */
                        if ((f <= 0) | (dom <= 0)) {
                                nneg += (f < -FTINY);
                                setcolor(mp, .0f, .0f, .0f);
                        } else if (bsdf->chroma != NULL) {
                                C_COLOR cxy;
                                c_decodeChroma(&cxy, mBSDF_chroma(bsdf,c,r));
                                ccy2rgb(&cxy, f, mp);
                        } else
                                setcolor(mp, f, f, f);
                        addcolor(mp, diffBSDF);
                        scalecolor(mp, dom);
                }
        }
        if (nneg | nbadohm) {
                sprintf(errmsg,
                    "BTDF has %d negatives and %d bad incoming solid angles",
                                nneg, nbadohm);
                error(WARNING, errmsg);
        }
        return(cm);
}

/* Convert between input and output indices for reciprocity */
static int
recip_out_from_in(const SDMat *bsdf, int in_recip)
{
        FVECT   v;

        if (!mBSDF_incvec(v, bsdf, in_recip+.5))
                return(in_recip);               /* XXX should be error! */
        v[2] = -v[2];
        return(mBSDF_outndx(bsdf, v));
}

/* Convert between output and input indices for reciprocity */
static int
recip_in_from_out(const SDMat *bsdf, int out_recip)
{
        FVECT   v;

        if (!mBSDF_outvec(v, bsdf, out_recip+.5))
                return(out_recip);              /* XXX should be error! */
        v[2] = -v[2];
        return(mBSDF_incndx(bsdf, v));
}

/* Convert a BSDF to our matrix representation, applying reciprocity */
static CMATRIX *
cm_bsdf_recip(const COLOR diffBSDF, const SDMat *bsdf)
{
        CMATRIX *cm = cm_alloc(bsdf->ninc, bsdf->nout);
        int     nbadohm = 0;
        int     nneg = 0;
        int     r, c;
                                        /* loop over incident angles */
        for (c = 0; c < cm->ncols; c++) {
                const int       ro = recip_out_from_in(bsdf,c);
                const double    dom = mBSDF_outohm(bsdf,ro);
                                        /* projected solid angle */
                nbadohm += (dom <= 0);

                for (r = 0; r < cm->nrows; r++) {
                        const int       ri = recip_in_from_out(bsdf,r);
                        float           f = mBSDF_value(bsdf,ri,ro);
                        COLORV          *mp = cm_lval(cm,r,c);
                                        /* check BSDF value */
                        if ((f <= 0) | (dom <= 0)) {
                                nneg += (f < -FTINY);
                                setcolor(mp, .0f, .0f, .0f);
                        } else if (bsdf->chroma != NULL) {
                                C_COLOR cxy;
                                c_decodeChroma(&cxy, mBSDF_chroma(bsdf,ri,ro));
                                ccy2rgb(&cxy, f, mp);
                        } else
                                setcolor(mp, f, f, f);
                        addcolor(mp, diffBSDF);
                        scalecolor(mp, dom);
                }
        }
        if (nneg | nbadohm) {
                sprintf(errmsg,
                    "BTDF has %d negatives and %d bad incoming solid angles",
                                nneg, nbadohm);
                error(WARNING, errmsg);
        }
        return(cm);
}

/* Return a Lambertian (diffuse) matrix */
static CMATRIX *
cm_bsdf_Lamb(const COLOR diffBSDF)
{
        CMATRIX *cm = cm_alloc(145, 145);       /* this is a hack */
        int     r, c;

        for (c = 0; c < cm->ncols; c++)
                for (r = 0; r < cm->nrows; r++) {
                        COLORV  *mp = cm_lval(cm,r,c);
                        copycolor(mp, diffBSDF);
                }
        return(cm);
}

/* Load and convert a matrix BTDF from the given XML file */
CMATRIX *
cm_loadBTDF(char *fname)
{
        CMATRIX         *Tmat;
        char            *fpath;
        int             recip;
        SDError         ec;
        SDData          myBSDF;
        SDSpectralDF    *tdf;
        COLOR           diffBSDF;
                                        /* find path to BSDF file */
        fpath = getpath(fname, getrlibpath(), R_OK);
        if (fpath == NULL) {
                sprintf(errmsg, "cannot find BSDF file '%s'", fname);
                error(SYSTEM, errmsg);
        }
        SDclearBSDF(&myBSDF, fname);    /* load XML and check type */
        ec = SDloadFile(&myBSDF, fpath);
        if (ec)
                error(USER, transSDError(ec));
        ccy2rgb(&myBSDF.tLamb.spec, myBSDF.tLamb.cieY/PI, diffBSDF);
        recip = (myBSDF.tb == NULL);
        tdf = recip ? myBSDF.tf : myBSDF.tb;
        if (tdf == NULL) {              /* no non-Lambertian transmission? */
                SDfreeBSDF(&myBSDF);
                return(cm_bsdf_Lamb(diffBSDF));
        }
        if (tdf->ncomp != 1 || tdf->comp[0].func != &SDhandleMtx) {
                sprintf(errmsg, "unsupported BSDF '%s'", fpath);
                error(USER, errmsg);
        }
                                        /* convert BTDF to matrix */
        Tmat = recip ? cm_bsdf_recip(diffBSDF, (SDMat *)tdf->comp[0].dist)
                        : cm_bsdf(diffBSDF, (SDMat *)tdf->comp[0].dist);
                                        /* free BSDF and return */
        SDfreeBSDF(&myBSDF);
        return(Tmat);
}
Revision:	2.5
Committed:	Tue Mar 22 03:56:17 2016 UTC (8 years, 1 month ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad5R2, rad5R1
Changes since 2.4:	+2 -2 lines
Log Message:	Made error messages more consistent when library file not found
#	User	Rev	Content
1	greg	2.1	#ifndef lint
2	greg	2.5	static const char RCSid[] = "$Id: cmbsdf.c,v 2.4 2015/08/27 04:33:31 greg Exp $";
3	greg	2.1	#endif
4			/*
5			* Load and convert BSDF into color coefficient matrix representation.
6			*
7			* G. Ward
8			*/
9
10			#include "standard.h"
11			#include "cmatrix.h"
12			#include "paths.h"
13			#include "bsdf.h"
14			#include "bsdf_m.h"
15
16			/* Convert a BSDF to our matrix representation */
17			static CMATRIX *
18	greg	2.3	cm_bsdf(const COLOR diffBSDF, const SDMat *bsdf)
19	greg	2.1	{
20			CMATRIX *cm = cm_alloc(bsdf->nout, bsdf->ninc);
21			int nbadohm = 0;
22			int nneg = 0;
23			int r, c;
24			/* loop over incident angles */
25			for (c = 0; c < cm->ncols; c++) {
26			const double dom = mBSDF_incohm(bsdf,c);
27			/* projected solid angle */
28			nbadohm += (dom <= 0);
29
30			for (r = 0; r < cm->nrows; r++) {
31			float f = mBSDF_value(bsdf,c,r);
32			COLORV *mp = cm_lval(cm,r,c);
33			/* check BSDF value */
34			if ((f <= 0) \| (dom <= 0)) {
35			nneg += (f < -FTINY);
36	greg	2.3	setcolor(mp, .0f, .0f, .0f);
37			} else if (bsdf->chroma != NULL) {
38			C_COLOR cxy;
39	greg	2.4	c_decodeChroma(&cxy, mBSDF_chroma(bsdf,c,r));
40	greg	2.3	ccy2rgb(&cxy, f, mp);
41			} else
42			setcolor(mp, f, f, f);
43	greg	2.2	addcolor(mp, diffBSDF);
44	greg	2.1	scalecolor(mp, dom);
45			}
46			}
47			if (nneg \| nbadohm) {
48			sprintf(errmsg,
49			"BTDF has %d negatives and %d bad incoming solid angles",
50			nneg, nbadohm);
51			error(WARNING, errmsg);
52			}
53			return(cm);
54			}
55
56			/* Convert between input and output indices for reciprocity */
57			static int
58			recip_out_from_in(const SDMat *bsdf, int in_recip)
59			{
60			FVECT v;
61
62			if (!mBSDF_incvec(v, bsdf, in_recip+.5))
63			return(in_recip); /* XXX should be error! */
64			v[2] = -v[2];
65			return(mBSDF_outndx(bsdf, v));
66			}
67
68			/* Convert between output and input indices for reciprocity */
69			static int
70			recip_in_from_out(const SDMat *bsdf, int out_recip)
71			{
72			FVECT v;
73
74			if (!mBSDF_outvec(v, bsdf, out_recip+.5))
75			return(out_recip); /* XXX should be error! */
76			v[2] = -v[2];
77			return(mBSDF_incndx(bsdf, v));
78			}
79
80			/* Convert a BSDF to our matrix representation, applying reciprocity */
81			static CMATRIX *
82	greg	2.3	cm_bsdf_recip(const COLOR diffBSDF, const SDMat *bsdf)
83	greg	2.1	{
84			CMATRIX *cm = cm_alloc(bsdf->ninc, bsdf->nout);
85			int nbadohm = 0;
86			int nneg = 0;
87			int r, c;
88			/* loop over incident angles */
89			for (c = 0; c < cm->ncols; c++) {
90			const int ro = recip_out_from_in(bsdf,c);
91			const double dom = mBSDF_outohm(bsdf,ro);
92			/* projected solid angle */
93			nbadohm += (dom <= 0);
94
95			for (r = 0; r < cm->nrows; r++) {
96			const int ri = recip_in_from_out(bsdf,r);
97			float f = mBSDF_value(bsdf,ri,ro);
98			COLORV *mp = cm_lval(cm,r,c);
99			/* check BSDF value */
100			if ((f <= 0) \| (dom <= 0)) {
101			nneg += (f < -FTINY);
102	greg	2.3	setcolor(mp, .0f, .0f, .0f);
103			} else if (bsdf->chroma != NULL) {
104			C_COLOR cxy;
105	greg	2.4	c_decodeChroma(&cxy, mBSDF_chroma(bsdf,ri,ro));
106	greg	2.3	ccy2rgb(&cxy, f, mp);
107			} else
108			setcolor(mp, f, f, f);
109	greg	2.2	addcolor(mp, diffBSDF);
110	greg	2.1	scalecolor(mp, dom);
111			}
112			}
113			if (nneg \| nbadohm) {
114			sprintf(errmsg,
115			"BTDF has %d negatives and %d bad incoming solid angles",
116			nneg, nbadohm);
117			error(WARNING, errmsg);
118			}
119			return(cm);
120			}
121
122	greg	2.2	/* Return a Lambertian (diffuse) matrix */
123			static CMATRIX *
124			cm_bsdf_Lamb(const COLOR diffBSDF)
125			{
126			CMATRIX cm = cm_alloc(145, 145); / this is a hack */
127			int r, c;
128
129			for (c = 0; c < cm->ncols; c++)
130			for (r = 0; r < cm->nrows; r++) {
131			COLORV *mp = cm_lval(cm,r,c);
132			copycolor(mp, diffBSDF);
133			}
134			return(cm);
135			}
136
137			/* Load and convert a matrix BTDF from the given XML file */
138	greg	2.1	CMATRIX *
139	greg	2.2	cm_loadBTDF(char *fname)
140	greg	2.1	{
141			CMATRIX *Tmat;
142			char *fpath;
143			int recip;
144			SDError ec;
145			SDData myBSDF;
146			SDSpectralDF *tdf;
147	greg	2.3	COLOR diffBSDF;
148	greg	2.1	/* find path to BSDF file */
149			fpath = getpath(fname, getrlibpath(), R_OK);
150			if (fpath == NULL) {
151			sprintf(errmsg, "cannot find BSDF file '%s'", fname);
152	greg	2.5	error(SYSTEM, errmsg);
153	greg	2.1	}
154			SDclearBSDF(&myBSDF, fname); /* load XML and check type */
155			ec = SDloadFile(&myBSDF, fpath);
156			if (ec)
157			error(USER, transSDError(ec));
158	greg	2.2	ccy2rgb(&myBSDF.tLamb.spec, myBSDF.tLamb.cieY/PI, diffBSDF);
159	greg	2.1	recip = (myBSDF.tb == NULL);
160			tdf = recip ? myBSDF.tf : myBSDF.tb;
161			if (tdf == NULL) { /* no non-Lambertian transmission? */
162			SDfreeBSDF(&myBSDF);
163	greg	2.2	return(cm_bsdf_Lamb(diffBSDF));
164	greg	2.1	}
165			if (tdf->ncomp != 1 \|\| tdf->comp[0].func != &SDhandleMtx) {
166			sprintf(errmsg, "unsupported BSDF '%s'", fpath);
167			error(USER, errmsg);
168			}
169			/* convert BTDF to matrix */
170	greg	2.3	Tmat = recip ? cm_bsdf_recip(diffBSDF, (SDMat *)tdf->comp[0].dist)
171			: cm_bsdf(diffBSDF, (SDMat *)tdf->comp[0].dist);
172	greg	2.1	/* free BSDF and return */
173			SDfreeBSDF(&myBSDF);
174			return(Tmat);
175			}