--- ray/src/cv/bsdfmesh.c 2014/03/06 00:40:37 2.18 +++ ray/src/cv/bsdfmesh.c 2014/03/12 00:39:43 2.23 @@ -1,5 +1,5 @@ #ifndef lint -static const char RCSid[] = "$Id: bsdfmesh.c,v 2.18 2014/03/06 00:40:37 greg Exp $"; +static const char RCSid[] = "$Id: bsdfmesh.c,v 2.23 2014/03/12 00:39:43 greg Exp $"; #endif /* * Create BSDF advection mesh from radial basis functions. @@ -18,6 +18,10 @@ static const char RCSid[] = "$Id: bsdfmesh.c,v 2.18 20 #include #include #include "bsdfrep.h" + +#ifndef NEIGH_FACT2 +#define NEIGH_FACT2 0.1 /* empirical neighborhood distance weight */ +#endif /* number of processes to run */ int nprocs = 1; /* number of children (-1 in child) */ @@ -135,6 +139,50 @@ run_subprocess(void) #endif /* ! _WIN32 */ +/* Compute normalized distribution scattering functions for comparison */ +static void +compute_nDSFs(const RBFNODE *rbf0, const RBFNODE *rbf1) +{ + const double nf0 = (GRIDRES*GRIDRES) / rbf0->vtotal; + const double nf1 = (GRIDRES*GRIDRES) / rbf1->vtotal; + int x, y; + FVECT dv; + + for (x = GRIDRES; x--; ) + for (y = GRIDRES; y--; ) { + ovec_from_pos(dv, x, y); /* cube root (brightness) */ + dsf_grid[x][y].val[0] = pow(nf0*eval_rbfrep(rbf0, dv), .3333); + dsf_grid[x][y].val[1] = pow(nf1*eval_rbfrep(rbf1, dv), .3333); + } +} + +/* Compute neighborhood distance-squared (dissimilarity) */ +static double +neighborhood_dist2(int x0, int y0, int x1, int y1) +{ + int rad = GRIDRES>>5; + double sum2 = 0.; + double d; + int p[4]; + int i, j; + + if ((x0 == x1) & (y0 == y1)) + return(0.); + /* check radius */ + p[0] = x0; p[1] = y0; p[2] = x1; p[3] = y1; + for (i = 4; i--; ) { + if (p[i] < rad) rad = p[i]; + if (GRIDRES-1-p[i] < rad) rad = GRIDRES-1-p[i]; + } + for (i = -rad; i <= rad; i++) + for (j = -rad; j <= rad; j++) { + d = dsf_grid[x0+i][y0+j].val[0] - + dsf_grid[x1+i][y1+j].val[1]; + sum2 += d*d; + } + return(sum2 / (4*rad*(rad+1) + 1)); +} + /* Comparison routine needed for sorting price row */ static int msrt_cmp(void *b, const void *p1, const void *p2) @@ -155,6 +203,7 @@ price_routes(PRICEMAT *pm, const RBFNODE *from_rbf, co FVECT *vto = (FVECT *)malloc(sizeof(FVECT) * to_rbf->nrbf); int i, j; + compute_nDSFs(from_rbf, to_rbf); pm->nrows = from_rbf->nrbf; pm->ncols = to_rbf->nrbf; pm->price = (float *)malloc(sizeof(float) * pm->nrows*pm->ncols); @@ -176,11 +225,15 @@ price_routes(PRICEMAT *pm, const RBFNODE *from_rbf, co pm->prow = pricerow(pm,i); srow = psortrow(pm,i); for (j = to_rbf->nrbf; j--; ) { - double d; /* quadratic cost function */ + double d; /* quadratic cost function */ d = Acos(DOT(vfrom, vto[j])); pm->prow[j] = d*d; d = R2ANG(to_rbf->rbfa[j].crad) - from_ang; - pm->prow[j] += d*d; + pm->prow[j] += d*d; + /* neighborhood difference */ + pm->prow[j] += NEIGH_FACT2 * neighborhood_dist2( + from_rbf->rbfa[i].gx, from_rbf->rbfa[i].gy, + to_rbf->rbfa[j].gx, to_rbf->rbfa[j].gy ); srow[j] = j; } qsort_r(srow, pm->ncols, sizeof(short), pm, &msrt_cmp); @@ -509,6 +562,7 @@ check_normal_incidence(void) double bestd; int n; + if (dsf_list == NULL) return; /* XXX should be error? */ near_rbf = dsf_list; @@ -553,9 +607,10 @@ check_normal_incidence(void) memcpy(mir_rbf, near_rbf, n); mir_rbf->ord = near_rbf->ord - 1; /* not used, I think */ mir_rbf->next = NULL; + mir_rbf->ejl = NULL; rev_rbf_symmetry(mir_rbf, MIRROR_X|MIRROR_Y); nprocs = 1; /* compute migration matrix */ - if (mig_list != create_migration(mir_rbf, near_rbf)) + if (create_migration(mir_rbf, near_rbf) == NULL) exit(1); /* XXX should never happen! */ /* interpolate normal dist. */ rbf = e_advect_rbf(mig_list, norm_vec, 2*near_rbf->nrbf);