diff options
author | Thomas White <taw@physics.org> | 2011-08-12 18:01:01 +0200 |
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committer | Thomas White <taw@physics.org> | 2012-02-22 15:27:36 +0100 |
commit | 14267c3aa60bf8dee81a87fd5c2aaa82cf7d525e (patch) | |
tree | c5a8e5b69fa405b7fcd018a7207f014c79a1252c | |
parent | afdc1d1e3a2e5ead0086ba249aa7aed5523ec412 (diff) |
Add centering stuff (needs work)
-rw-r--r-- | src/reax.c | 138 |
1 files changed, 125 insertions, 13 deletions
@@ -51,10 +51,17 @@ struct reax_private struct dvec *directions; int n_dir; double angular_inc; + double *fft_in; fftw_complex *fft_out; fftw_plan plan; int nel; + + fftw_complex *r_fft_in; + fftw_complex *r_fft_out; + fftw_plan r_plan; + int ch; + int cw; }; @@ -332,12 +339,22 @@ 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) + struct detector *det, struct reax_private *pr) { double ax, ay, az, ma; double bx, by, bz, mb; double cx, cy, cz, mc; double pha, phb, phc; + struct panel *p; + int i, j; + fftw_complex *r_fft_in; + fftw_complex *r_fft_out; + double m2m; + signed int aix, aiy; + signed int bix, biy; + signed int cix, ciy; + double max; + int max_i, max_j; cell_get_cartesian(cell, &ax, &ay, &az, &bx, &by, &bz, &cx, &cy, &cz); @@ -345,18 +362,101 @@ static void refine_rigid_group(struct image *image, UnitCell *cell, 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/ma, ay/ma, az/ma, image->features, nel, pmax, + fft_in, fft_out, plan, smin, smax, rg, det); + phb = get_model_phase(bx/mb, by/mb, bz/mb, image->features, nel, pmax, + fft_in, fft_out, plan, smin, smax, rg, det); + phc = get_model_phase(cx/mc, cy/mc, cz/mc, image->features, nel, pmax, + fft_in, fft_out, plan, smin, smax, rg, det); + + for ( i=0; i<det->n_panels; i++ ) { + if ( det->panels[i].rigid_group == rg ) { + p = &det->panels[i]; + break; + } + } + + r_fft_in = fftw_malloc(pr->cw*pr->ch*sizeof(fftw_complex)); + r_fft_out = fftw_malloc(pr->cw*pr->ch*sizeof(fftw_complex)); + for ( i=0; i<pr->cw; i++ ) { + for ( j=0; j<pr->ch; j++ ) { + r_fft_in[i+pr->cw*j][0] = 0.0; + r_fft_in[i+pr->cw*j][1] = 0.0; + } + } + + ma = modulus(ax, ay, 0.0); + mb = modulus(bx, by, 0.0); + mc = modulus(cx, cy, 0.0); + m2m = ma; + if ( mb > m2m ) m2m = mb; + if ( mc > m2m ) m2m = mc; + + aix = (pr->cw/2)*ax/m2m; aiy = (pr->ch/2)*ay/m2m; + bix = (pr->cw/2)*bx/m2m; biy = (pr->ch/2)*by/m2m; + cix = (pr->cw/2)*cx/m2m; ciy = (pr->ch/2)*cy/m2m; + + if ( aix < 0 ) aix += pr->cw/2; + if ( bix < 0 ) bix += pr->cw/2; + if ( cix < 0 ) cix += pr->cw/2; + + if ( aiy < 0 ) aiy += pr->ch/2; + if ( biy < 0 ) biy += pr->ch/2; + if ( ciy < 0 ) ciy += pr->ch/2; + + r_fft_in[aix + pr->cw*aiy][0] = cos(pha); + r_fft_in[aix + pr->cw*aiy][1] = sin(pha); + r_fft_in[pr->cw-aix + pr->cw*(pr->ch-aiy)][0] = cos(pha); + r_fft_in[pr->cw-aix + pr->cw*(pr->ch-aiy)][1] = -sin(pha); + + r_fft_in[bix + pr->cw*biy][0] = cos(phb); + r_fft_in[bix + pr->cw*biy][1] = sin(phb); + r_fft_in[pr->cw-bix + pr->cw*(pr->ch-biy)][0] = cos(phb); + r_fft_in[pr->cw-bix + pr->cw*(pr->ch-biy)][1] = -sin(phb); - 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); + r_fft_in[cix + pr->cw*ciy][0] = cos(phc); + r_fft_in[cix + pr->cw*ciy][1] = sin(phc); + r_fft_in[pr->cw-cix + pr->cw*(pr->ch-ciy)][0] = cos(phc); + r_fft_in[pr->cw-cix + pr->cw*(pr->ch-ciy)][1] = -sin(phc); + const int tidx = 1; + r_fft_in[tidx][0] = 1.0; + r_fft_in[tidx][1] = 0.0; +// STATUS("%i %i\n", aix, aiy); +// STATUS("%i %i\n", bix, biy); +// STATUS("%i %i\n", cix, ciy); + + fftw_execute_dft(pr->r_plan, r_fft_in, r_fft_out); + + max = 0.0; + FILE *fh = fopen("centering.dat", "w"); + for ( i=0; i<pr->cw; i++ ) { + for ( j=0; j<pr->ch; j++ ) { + + double re, im, am, ph; + + re = r_fft_out[i + pr->cw*j][0]; + im = r_fft_out[i + pr->cw*j][1]; + am = sqrt(re*re + im*im); + ph = atan2(im, re); + + if ( am > max ) { + max = am; + max_i = i; + max_j = j; + } + + fprintf(fh, "%f ", am); + + } + fprintf(fh, "\n"); + } +// STATUS("Max at %i, %i\n", max_i, max_j); + fclose(fh); + exit(1); + +// STATUS("Offsets for '%s': %.2f, %.2f pixels\n", rg, dx, dy); } @@ -364,14 +464,15 @@ 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) + struct detector *det, + struct reax_private *p) { int i; for ( i=0; i<image->det->num_rigid_groups; i++ ) { refine_rigid_group(image, cell, image->det->rigid_groups[i], nel, pmax, fft_in, fft_out, plan, smin, smax, - det); + det, p); } } @@ -522,7 +623,7 @@ void reax_index(IndexingPrivate *pp, struct image *image, UnitCell *cell) refine_all_rigid_groups(image, image->candidate_cells[0], p->nel, pmax, fft_in, fft_out, p->plan, smin, smax, - image->det); + image->det, p); map_all_peaks(image); refine_cell(image, image->candidate_cells[0], image->features); @@ -595,6 +696,14 @@ IndexingPrivate *reax_prepare() p->plan = fftw_plan_dft_r2c_1d(p->nel, p->fft_in, p->fft_out, FFTW_MEASURE); + p->cw = 128; p->ch = 128; + + /* Also not used */ + p->r_fft_in = fftw_malloc(p->cw*p->ch*sizeof(fftw_complex)); + p->r_fft_out = fftw_malloc(p->cw*p->ch*sizeof(fftw_complex)); + + p->r_plan = fftw_plan_dft_2d(p->cw, p->ch, p->r_fft_in, p->r_fft_out, + 1, FFTW_MEASURE); return (IndexingPrivate *)p; } @@ -611,6 +720,9 @@ void reax_cleanup(IndexingPrivate *pp) fftw_free(p->fft_in); fftw_free(p->fft_out); + fftw_destroy_plan(p->r_plan); + fftw_free(p->r_fft_in); + fftw_free(p->r_fft_out); free(p); } |