From afdc1d1e3a2e5ead0086ba249aa7aed5523ec412 Mon Sep 17 00:00:00 2001 From: Thomas White Date: Fri, 12 Aug 2011 14:14:33 +0200 Subject: Put ReAx cell through reduction, and add initial panel refinement stuff --- src/reax.c | 125 +++++++++++++++++++++++++++++++++++++++++++++++++++++++------ 1 file changed, 114 insertions(+), 11 deletions(-) diff --git a/src/reax.c b/src/reax.c index eafb1225..0af735ac 100644 --- a/src/reax.c +++ b/src/reax.c @@ -61,7 +61,8 @@ struct reax_private static double check_dir(struct dvec *dir, ImageFeatureList *flist, int nel, double pmax, double *fft_in, fftw_complex *fft_out, fftw_plan plan, - int smin, int smax) + int smin, int smax, + const char *rg, struct detector *det) { int n, i; double tot; @@ -80,6 +81,17 @@ static double check_dir(struct dvec *dir, ImageFeatureList *flist, f = image_get_feature(flist, i); if ( f == NULL ) continue; + if ( rg != NULL ) { + + struct panel *p; + + p = find_panel(det, f->fs, f->ss); + assert(p != NULL); + + if ( p->rigid_group != rg ) continue; + + } + val = f->rx*dir->x + f->ry*dir->y + f->rz*dir->z; idx = nel/2 + nel*val/(2.0*pmax); @@ -245,7 +257,7 @@ static void fine_search(struct reax_private *p, ImageFeatureList *flist, dir.z = cos(th); new_fom = check_dir(&dir, flist, nel, pmax, fft_in, fft_out, - plan, smin, smax); + plan, smin, smax, NULL, NULL); if ( new_fom > fom ) { fom = new_fom; @@ -277,6 +289,93 @@ static void fine_search(struct reax_private *p, ImageFeatureList *flist, } +static double get_model_phase(double x, double y, double z, ImageFeatureList *f, + int nel, double pmax, double *fft_in, + fftw_complex *fft_out, fftw_plan plan, + int smin, int smax, const char *rg, + struct detector *det) +{ + struct dvec dir; + int s, i; + double max; + double re, im; + + dir.x = x; dir.y = y; dir.z = z; + + check_dir(&dir, f, nel, pmax, fft_in,fft_out, plan, smin, smax, + rg, det); + + s = -1; + max = 0.0; + for ( i=smin; i<=smax; i++ ) { + + double re, im, m; + + re = fft_out[i][0]; + im = fft_out[i][1]; + m = sqrt(re*re + im*im); + if ( m > max ) { + max = m; + s = i; + } + + } + + re = fft_out[s][0]; + im = fft_out[s][1]; + + return atan2(im, re); +} + + +static void refine_rigid_group(struct image *image, UnitCell *cell, + const char *rg, int nel, double pmax, + double *fft_in, fftw_complex *fft_out, + fftw_plan plan, int smin, int smax, + struct detector *det) +{ + double ax, ay, az, ma; + double bx, by, bz, mb; + double cx, cy, cz, mc; + double pha, phb, phc; + + cell_get_cartesian(cell, &ax, &ay, &az, &bx, &by, &bz, &cx, &cy, &cz); + + ma = modulus(ax, ay, az); + mb = modulus(bx, by, bz); + mc = modulus(cx, cy, cz); + + ax /= ma; ay /= ma; az /= ma; + bx /= mb; by /= mb; bz /= mb; + cx /= mc; cy /= mc; cz /= mc; + + pha = get_model_phase(ax, ay, az, image->features, nel, pmax, fft_in, + fft_out, plan, smin, smax, rg, det); + phb = get_model_phase(bx, by, bz, image->features, nel, pmax, fft_in, + fft_out, plan, smin, smax, rg, det); + phc = get_model_phase(cx, cy, cz, image->features, nel, pmax, fft_in, + fft_out, plan, smin, smax, rg, det); + + +} + + +static void refine_all_rigid_groups(struct image *image, UnitCell *cell, + int nel, double pmax, + double *fft_in, fftw_complex *fft_out, + fftw_plan plan, int smin, int smax, + struct detector *det) +{ + int i; + + for ( i=0; idet->num_rigid_groups; i++ ) { + refine_rigid_group(image, cell, image->det->rigid_groups[i], + nel, pmax, fft_in, fft_out, plan, smin, smax, + det); + } +} + + void reax_index(IndexingPrivate *pp, struct image *image, UnitCell *cell) { int i; @@ -352,7 +451,7 @@ void reax_index(IndexingPrivate *pp, struct image *image, UnitCell *cell) new_fom = check_dir(&p->directions[i], image->features, p->nel, pmax, fft_in, fft_out, p->plan, - smin, smax); + smin, smax, NULL, NULL); if ( new_fom > fom ) { fom = new_fom; th = p->directions[i].th; @@ -377,7 +476,7 @@ void reax_index(IndexingPrivate *pp, struct image *image, UnitCell *cell) new_fom = check_dir(&p->directions[i], image->features, p->nel, pmax, fft_in, fft_out, p->plan, - smin, smax); + smin, smax, NULL, NULL); if ( new_fom > fom ) { fom = new_fom; th = p->directions[i].th; @@ -406,7 +505,7 @@ void reax_index(IndexingPrivate *pp, struct image *image, UnitCell *cell) new_fom = check_dir(&p->directions[i], image->features, p->nel, pmax, fft_in, fft_out, p->plan, - smin, smax); + smin, smax, NULL, NULL); if ( new_fom > fom ) { fom = new_fom; th = p->directions[i].th; @@ -417,16 +516,20 @@ void reax_index(IndexingPrivate *pp, struct image *image, UnitCell *cell) fine_search(p, image->features, p->nel, pmax, fft_in, fft_out, p->plan, smin, smax, th, ph, &cx, &cy, &cz); - image->indexed_cell = cell_new(); - cell_set_cartesian(image->indexed_cell, ax, ay, az, - bx, by, bz, cx, cy, cz); - refine_cell(image, image->indexed_cell, image->features); + image->candidate_cells[0] = cell_new(); + cell_set_cartesian(image->candidate_cells[0], + ax, ay, az, bx, by, bz, cx, cy, cz); + + refine_all_rigid_groups(image, image->candidate_cells[0], p->nel, pmax, + fft_in, fft_out, p->plan, smin, smax, + image->det); + map_all_peaks(image); + refine_cell(image, image->candidate_cells[0], image->features); fftw_free(fft_in); fftw_free(fft_out); - /* We fill in indexed_cell but none of the candidate_cells, which - * bypasses any cell reduction which is selected. */ + image->ncells = 1; } -- cgit v1.2.3