diff options
Diffstat (limited to 'libcrystfel/src')
-rw-r--r-- | libcrystfel/src/peaks.c | 24 | ||||
-rw-r--r-- | libcrystfel/src/peaks.h | 5 | ||||
-rw-r--r-- | libcrystfel/src/reax.c | 165 |
3 files changed, 162 insertions, 32 deletions
diff --git a/libcrystfel/src/peaks.c b/libcrystfel/src/peaks.c index 0cbce55f..713dd0a6 100644 --- a/libcrystfel/src/peaks.c +++ b/libcrystfel/src/peaks.c @@ -473,9 +473,8 @@ void search_peaks(struct image *image, float threshold, float min_gradient, } -int peak_sanity_check(struct image *image) +double peak_lattice_agreement(struct image *image, UnitCell *cell, double *pst) { - int i; int n_feat = 0; int n_sane = 0; @@ -483,14 +482,13 @@ int peak_sanity_check(struct image *image) double bx, by, bz; double cx, cy, cz; double min_dist = 0.25; + double stot = 0.0; /* Round towards nearest */ fesetround(1); /* Cell basis vectors for this image */ - cell_get_cartesian(image->indexed_cell, &ax, &ay, &az, - &bx, &by, &bz, - &cx, &cy, &cz); + cell_get_cartesian(cell, &ax, &ay, &az, &bx, &by, &bz, &cx, &cy, &cz); /* Loop over peaks, checking proximity to nearest reflection */ for ( i=0; i<image_feature_count(image->features); i++ ) { @@ -520,17 +518,25 @@ int peak_sanity_check(struct image *image) if ( (fabs(h - hd) < min_dist) && (fabs(k - kd) < min_dist) && (fabs(l - ld) < min_dist) ) { + double sval; n_sane++; + sval = pow(h-hd, 2.0) + pow(k-kd, 2.0) + pow(l-ld, 2.0); + stot += 1.0 - sval; continue; } } - /* return 0 means fail test, return 1 means pass test */ - // printf("%d out of %d peaks are \"sane\"\n",n_sane,n_feat); - if ( (float)n_sane / (float)n_feat < 0.5 ) return 0; + *pst = stot; + return (double)n_sane / (float)n_feat; +} + - return 1; +int peak_sanity_check(struct image *image) +{ + double stot; + /* 0 means failed test, 1 means passed test */ + return peak_lattice_agreement(image, image->indexed_cell, &stot) >= 0.5; } diff --git a/libcrystfel/src/peaks.h b/libcrystfel/src/peaks.h index d52c75e4..ffeb896b 100644 --- a/libcrystfel/src/peaks.h +++ b/libcrystfel/src/peaks.h @@ -28,7 +28,10 @@ extern void integrate_reflections(struct image *image, int polar, int use_closer, int bgsub, double min_snr); -extern int peak_sanity_check(struct image * image); +extern double peak_lattice_agreement(struct image *image, UnitCell *cell, + double *pst); + +extern int peak_sanity_check(struct image *image); /* Exported so it can be poked by integration_check */ extern int integrate_peak(struct image *image, int cfs, int css, diff --git a/libcrystfel/src/reax.c b/libcrystfel/src/reax.c index 80353a2c..ea8f143a 100644 --- a/libcrystfel/src/reax.c +++ b/libcrystfel/src/reax.c @@ -838,35 +838,97 @@ static int right_handed(struct rvec a, struct rvec b, struct rvec c) } -static int check_twinning(UnitCell *c1, UnitCell *c2) +struct cell_candidate +{ + UnitCell *cell; + double fom; +}; + + +struct cell_candidate_list +{ + struct cell_candidate *cand; + int n_cand; +}; + + +static int check_twinning(UnitCell *c1, UnitCell *c2, int verbose) { int i; + int n_dup; + const int n_trials = 40; double asx, asy, asz; double bsx, bsy, bsz; double csx, csy, csz; + double ax, ay, az; + double bx, by, bz; + double cx, cy, cz; + + cell_get_reciprocal(c1, &asx, &asy, &asz, + &bsx, &bsy, &bsz, + &csx, &csy, &csz); + cell_get_cartesian(c2, &ax, &ay, &az, &bx, &by, &bz, &cx, &cy, &cz); + + n_dup = 0; + for ( i=0; i<n_trials; i++ ) { - for ( i=0; i<100; i++ ) { signed int h, k, l; + double h2, k2, l2; + double rx, ry, rz; + double dev; + signed int h2i, k2i, l2i; h = flat_noise(0, 10); k = flat_noise(0, 10); l = flat_noise(0, 10); + /* Position of this (randomly selected) + * reciprocal lattice point */ + rx = h*asx + k*bsx + l*csx; + ry = h*asy + k*bsy + l*csy; + rz = h*asz + k*bsz + l*csz; + + /* Indices of this point in the basis of the other cell */ + h2 = rx*ax + ry*ay + rz*az; + k2 = rx*bx + ry*by + rz*bz; + l2 = rx*cx + ry*cy + rz*cz; + + h2i = lrint(h2); + k2i = lrint(k2); + l2i = lrint(l2); + + dev = pow(h2i-h2, 2.0) + pow(k2i-k2, 2.0) + pow(l2i-l2, 2.0); + + if ( verbose ) { + STATUS("%3i %3i %3i -> %5.2f %5.2f %5.2f -> " + "%3i %3i %3i -> %5.2f\n", h, k, l, + h2, k2, l2, h2i, k2i, l2i, dev); + } + + if ( dev < 0.1 ) { + n_dup++; + } + + } + + if ( verbose ) { + STATUS("%i duplicates.\n", n_dup); } + if ( n_dup > 10 ) return 1; return 0; } /* Return true if "cnew" accounts for more than 25% of the peaks predicted by * any of the "ncells" cells in "cells". */ -static int twinned(UnitCell *cnew, UnitCell **cells, int ncells) +static int twinned(UnitCell *cnew, struct cell_candidate_list *cl) { int i; - for ( i=0; i<ncells; i++ ) { - if ( check_twinning(cnew, cells[i]) ) return 1; + for ( i=0; i<cl->n_cand; i++ ) { + if ( check_twinning(cnew, cl->cand[i].cell, 0) ) return 1; } return 0; @@ -885,26 +947,64 @@ static int check_vector_combination(struct dvec *vi, struct dvec *vj, ang = angle_between(vi->x, vi->y, vi->z, vj->x, vj->y, vj->z); if ( fabs(ang-ga) > angtol ) return 0; - ang = angle_between(vi->x, vi->y, vi->z, - vk->x, vk->y, vk->z); + ang = angle_between(vi->x, vi->y, vi->z, vk->x, vk->y, vk->z); if ( fabs(ang-be) > angtol ) return 0; - ang = angle_between(vj->x, vj->y, vj->z, - vk->x, vk->y, vk->z); + ang = angle_between(vj->x, vj->y, vj->z, vk->x, vk->y, vk->z); if ( fabs(ang-al) > angtol ) return 0; return 1; } +static void add_cell_candidate(struct cell_candidate_list *cl, UnitCell *cnew, + double fom) +{ + struct cell_candidate cshift; + int i, cpos; + + cpos = cl->n_cand; + for ( i=0; i<cl->n_cand; i++ ) { + if ( fom > cl->cand[i].fom ) { + cpos = i; + break; + } + } + + cshift.cell = cnew; + cshift.fom = fom; + + for ( i=cpos; i<cl->n_cand; i++ ) { + + struct cell_candidate cshift2; + cshift2 = cl->cand[i]; + cl->cand[i] = cshift; + cshift = cshift2; + + } + + if ( cl->n_cand >= MAX_CELL_CANDIDATES ) { + /* "cshift" just fell off the end of the list */ + } else { + cl->cand[cl->n_cand++] = cshift; + } +} + + static void assemble_cells_from_candidates(struct image *image, struct reax_search *s, UnitCell *cell) { int i, j, k; signed int ti, tj, tk; - UnitCell *cells[MAX_CELL_CANDIDATES]; - int ncells = 0; + struct cell_candidate_list cl; + + cl.cand = calloc(MAX_CELL_CANDIDATES, sizeof(struct cell_candidate)); + if ( cl.cand == NULL ) { + ERROR("Failed to allocate cell candidate list.\n"); + return; + } + cl.n_cand = 0; /* Find candidates for axes 0 and 1 which have the right angle */ for ( i=0; i<s->search[0].n_cand; i++ ) { @@ -917,6 +1017,7 @@ static void assemble_cells_from_candidates(struct image *image, struct dvec vi, vj, vk; struct rvec ai, bi, ci; UnitCell *cnew; + double fom; vi = s->search[0].cand[i].v; vj = s->search[1].cand[j].v; @@ -937,17 +1038,15 @@ static void assemble_cells_from_candidates(struct image *image, /* We have three vectors with the right angles */ cnew = cell_new_from_direct_axes(ai, bi, ci); - if ( twinned(cnew, cells, ncells) ) { + refine_cell(image, cnew, image->features); + + if ( twinned(cnew, &cl) ) { cell_free(cnew); continue; } - refine_cell(image, cnew, image->features); - - /* FIXME: Rank according to quality of prediction */ - if ( ncells < MAX_CELL_CANDIDATES ) { - cells[ncells++] = cnew; - } + peak_lattice_agreement(image, cnew, &fom); + add_cell_candidate(&cl, cnew, fom); } } @@ -956,11 +1055,33 @@ static void assemble_cells_from_candidates(struct image *image, } } - image->ncells = ncells; - assert(ncells <= MAX_CELL_CANDIDATES); - for ( i=0; i<ncells; i++ ) { - image->candidate_cells[i] = cells[i]; + for ( i=0; i<cl.n_cand; i++ ) { + double a, b, c, al, be, ga; + double aA, bA, cA, alA, beA, gaA; + int w = 0; +// STATUS("%i: %f\n", i, cl.cand[i].fom); + cell_get_parameters(cl.cand[i].cell, &a, &b, &c, &al, &be, &ga); + cell_get_parameters(cl.cand[i].cell, &aA, &bA, &cA, + &alA, &beA, &gaA); + if ( (a - aA) > aA/10.0 ) w = 1; + if ( (b - bA) > bA/10.0 ) w = 1; + if ( (c - cA) > cA/10.0 ) w = 1; + if ( (al - alA) > deg2rad(5.0) ) w = 1; + if ( (be - beA) > deg2rad(5.0) ) w = 1; + if ( (ga - gaA) > deg2rad(5.0) ) w = 1; + if ( w ) { + STATUS("This cell is a long way from that sought:\n"); + cell_print(cl.cand[i].cell); + } } + + image->ncells = cl.n_cand; + assert(image->ncells <= MAX_CELL_CANDIDATES); + for ( i=0; i<cl.n_cand; i++ ) { + image->candidate_cells[i] = cl.cand[i].cell; + } + + free(cl.cand); } |