diff options
author | Thomas White <taw@physics.org> | 2010-10-11 18:10:22 +0200 |
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committer | Thomas White <taw@physics.org> | 2012-02-22 15:27:02 +0100 |
commit | 7dcd21fc5ebf18d39f145c92f5c2038ee6c0d0a5 (patch) | |
tree | 9844d03675f5f78e7ef7b497f2f0637de2de4928 /src/peaks.c | |
parent | 29f669dcbd11af84edaff1c2bb417a20bed2b1ba (diff) |
Add a new way of doing the peak integration
Diffstat (limited to 'src/peaks.c')
-rw-r--r-- | src/peaks.c | 223 |
1 files changed, 203 insertions, 20 deletions
diff --git a/src/peaks.c b/src/peaks.c index 313af7a9..99598fa1 100644 --- a/src/peaks.c +++ b/src/peaks.c @@ -630,40 +630,23 @@ int peak_sanity_check(struct image *image, UnitCell *cell, } -void output_intensities(struct image *image, UnitCell *cell, - pthread_mutex_t *mutex, int polar, int sa, - int use_closer, FILE *ofh, - int circular_domain, double domain_r) +static void output_header(FILE *ofh, UnitCell *cell, struct image *image) { - int i; - int n_found; - int n_indclose = 0; - int n_foundclose = 0; - int n_veto = 0; - int n_veto_second = 0; double asx, asy, asz; double bsx, bsy, bsz; double csx, csy, csz; double a, b, c, al, be, ga; - if ( image->n_hits == 0 ) { - find_projected_peaks(image, cell, circular_domain, domain_r); - } - if ( image->n_hits == 0 ) return; - - /* Get exclusive access to the output stream if necessary */ - if ( mutex != NULL ) pthread_mutex_lock(mutex); - - /* Explicit printf() used here (not normally allowed) because - * we really want to output to stdout */ fprintf(ofh, "Reflections from indexing in %s\n", image->filename); fprintf(ofh, "Orientation (wxyz): %7.5f %7.5f %7.5f %7.5f\n", image->orientation.w, image->orientation.x, image->orientation.y, image->orientation.z); + cell_get_parameters(cell, &a, &b, &c, &al, &be, &ga); fprintf(ofh, "Cell parameters %7.5f %7.5f %7.5f nm, %7.5f %7.5f %7.5f deg\n", a*1.0e9, b*1.0e9, c*1.0e9, rad2deg(al), rad2deg(be), rad2deg(ga)); + cell_get_reciprocal(cell, &asx, &asy, &asz, &bsx, &bsy, &bsz, &csx, &csy, &csz); @@ -681,6 +664,38 @@ void output_intensities(struct image *image, UnitCell *cell, fprintf(ofh, "f0 = invalid\n"); } +} + + +void output_intensities(struct image *image, UnitCell *cell, + pthread_mutex_t *mutex, int polar, int sa, + int use_closer, FILE *ofh, + int circular_domain, double domain_r) +{ + int i; + int n_found; + int n_indclose = 0; + int n_foundclose = 0; + int n_veto = 0; + int n_veto_second = 0; + double asx, asy, asz; + double bsx, bsy, bsz; + double csx, csy, csz; + + if ( image->n_hits == 0 ) { + find_projected_peaks(image, cell, circular_domain, domain_r); + } + if ( image->n_hits == 0 ) return; + + /* Get exclusive access to the output stream if necessary */ + if ( mutex != NULL ) pthread_mutex_lock(mutex); + + output_header(ofh, cell, image); + + cell_get_reciprocal(cell, &asx, &asy, &asz, + &bsx, &bsy, &bsz, + &csx, &csy, &csz); + for ( i=0; i<image->n_hits; i++ ) { float x, y, intensity; @@ -807,3 +822,171 @@ void output_intensities(struct image *image, UnitCell *cell, if ( mutex != NULL ) pthread_mutex_unlock(mutex); } + + +void output_pixels(struct image *image, UnitCell *cell, + pthread_mutex_t *mutex, int do_polar, int do_sa, + FILE *ofh, int circular_domain, double domain_r) +{ + int i; + double ax, ay, az; + double bx, by, bz; + double cx, cy, cz; + int x, y; + double aslen, bslen, cslen; + double *intensities; + double *xmom; + double *ymom; + ReflItemList *obs; + + /* Get exclusive access to the output stream if necessary */ + if ( mutex != NULL ) pthread_mutex_lock(mutex); + + output_header(ofh, cell, image); + + obs = new_items(); + intensities = new_list_intensity(); + xmom = new_list_intensity(); + ymom = new_list_intensity(); + + /* "Borrow" direction values to get reciprocal lengths */ + cell_get_reciprocal(cell, &ax, &ay, &az, &bx, &by, &bz, &cx, &cy, &cz); + aslen = modulus(ax, ay, az); + bslen = modulus(bx, by, bz); + cslen = modulus(cx, cy, cz); + + cell_get_cartesian(cell, &ax, &ay, &az, + &bx, &by, &bz, + &cx, &cy, &cz); + /* For each pixel */ + fesetround(1); /* Round towards nearest */ + for ( x=0; x<image->width; x++ ) { + for ( y=0; y<image->height; y++ ) { + + double hd, kd, ld; /* Indices with decimal places */ + double dh, dk, dl; /* Distances in h,k,l directions */ + signed int h, k, l; + struct rvec q; + double dist; + + q = get_q(image, x, y, 1, NULL, 1.0/image->lambda); + + hd = q.u * ax + q.v * ay + q.w * az; + kd = q.u * bx + q.v * by + q.w * bz; + ld = q.u * cx + q.v * cy + q.w * cz; + + h = lrint(hd); + k = lrint(kd); + l = lrint(ld); + + dh = hd - h; dk = kd - k; dl = ld - l; + + if ( circular_domain ) { + + /* Circular integration domain */ + dist = sqrt(pow(dh*aslen, 2.0) + pow(dk*bslen, 2.0) + + pow(dl*cslen, 2.0)); + + } else { + + /* "Crystallographic" integration domain */ + dist = sqrt(pow(dh, 2.0) + pow(dk, 2.0) + pow(dl, 2.0)); + } + + if ( dist < domain_r ) { + + double val; + struct panel *p; + double pix_area, Lsq, proj_area, dsq, sa; + double phi, pa, pb, pol; + float tt = 0.0; + + /* Veto if we want to integrate a bad region */ + if ( image->flags != NULL ) { + int flags; + flags = image->flags[x+image->width*y]; + if ( !(flags & 0x01) ) continue; + } + + val = image->data[x+image->width*y]; + + p = find_panel(image->det, x, y); + if ( p == NULL ) continue; + + if ( p->no_index ) continue; + + if ( do_sa ) { + + /* Area of one pixel */ + pix_area = pow(1.0/p->res, 2.0); + Lsq = pow(p->clen, 2.0); + + /* Area of pixel as seen from crystal */ + tt = get_tt(image, x, y); + proj_area = pix_area * cos(tt); + + /* Calculate distance from crystal to pixel */ + dsq = pow(((double)x - p->cx) / p->res, 2.0); + dsq += pow(((double)y - p->cy) / p->res, 2.0); + + /* Projected area of pixel / distance squared */ + sa = 1.0e7 * proj_area / (dsq + Lsq); + + val /= sa; + + } + + if ( do_polar ) { + + if ( !do_sa ) tt = get_tt(image, x, y); + + phi = atan2(y, x); + pa = pow(sin(phi)*sin(tt), 2.0); + pb = pow(cos(tt), 2.0); + pol = 1.0 - 2.0*POL*(1-pa) + POL*(1.0+pb); + + val /= pol; + + } + + /* Add value to sum */ + integrate_intensity(intensities, h, k, l, val); + + integrate_intensity(xmom, h, k, l, val*x); + integrate_intensity(ymom, h, k, l, val*y); + + if ( !find_item(obs, h, k, l) ) { + add_item(obs, h, k, l); + } + + } + + } + } + + for ( i=0; i<num_items(obs); i++ ) { + + struct refl_item *it; + double intensity, xmomv, ymomv; + double xp, yp; + + it = get_item(obs, i); + intensity = lookup_intensity(intensities, it->h, it->k, it->l); + xmomv = lookup_intensity(xmom, it->h, it->k, it->l); + ymomv = lookup_intensity(ymom, it->h, it->k, it->l); + + xp = xmomv / (double)intensity; + yp = ymomv / (double)intensity; + + fprintf(ofh, "%3i %3i %3i %6f (at %5.2f,%5.2f)\n", + image->hits[i].h, image->hits[i].k, image->hits[i].l, + intensity, xp, yp); + + } + + fprintf(ofh, "No peak statistics, because output_pixels() was used."); + /* Blank line at end */ + fprintf(ofh, "\n"); + + if ( mutex != NULL ) pthread_mutex_unlock(mutex); +} |