diff options
author | Thomas White <taw@bitwiz.org.uk> | 2010-06-12 19:57:08 -0700 |
---|---|---|
committer | Thomas White <taw@bitwiz.org.uk> | 2010-06-12 19:57:08 -0700 |
commit | ade886b3af986d23a9880c3f244ca53721c0a942 (patch) | |
tree | 4d9cc5c36fe16d7acfeccbf8cae9099118d71527 | |
parent | 27c2c0ea1cfe3ddd5e979da16d9411bf1b47081b (diff) |
Bypass SA correction (hence need for detector geometry) during initial peak search
-rw-r--r-- | src/peaks.c | 60 |
1 files changed, 37 insertions, 23 deletions
diff --git a/src/peaks.c b/src/peaks.c index bcd1fd12..9e986431 100644 --- a/src/peaks.c +++ b/src/peaks.c @@ -137,7 +137,7 @@ static void cull_peaks(struct image *image) * i.e. don't use result if return value is not zero. */ static int integrate_peak(struct image *image, int xp, int yp, float *xc, float *yc, float *intensity, - int do_polar) + int do_polar, int do_sa) { signed int x, y; const int lim = INTEGRATION_RADIUS * INTEGRATION_RADIUS; @@ -150,7 +150,7 @@ static int integrate_peak(struct image *image, int xp, int yp, struct panel *p; double val, sa, pix_area, Lsq, dsq, proj_area; - float tt; + float tt = 0.0; double phi, pa, pb, pol; uint16_t flags; @@ -166,34 +166,48 @@ static int integrate_peak(struct image *image, int xp, int yp, if ( !((flags & 0x01) && (flags & 0x04)) ) return 1; } - p = find_panel(image->det, x+xp, y+yp); - if ( p == NULL ) return 1; + val = image->data[(x+xp)+image->width*(y+yp)]; - /* Area of one pixel */ - pix_area = pow(1.0/p->res, 2.0); - Lsq = pow(p->clen, 2.0); + if ( do_sa || do_polar ) { - /* Area of pixel as seen from crystal (approximate) */ - tt = get_tt(image, x+xp, y+yp); - proj_area = pix_area * cos(tt); + p = find_panel(image->det, x+xp, y+yp); + if ( p == NULL ) return 1; - /* Calculate distance from crystal to pixel */ - dsq = pow(((double)(x+xp) - p->cx) / p->res, 2.0); - dsq += pow(((double)(y+yp) - p->cy) / p->res, 2.0); + } + + 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 (approximate) */ + tt = get_tt(image, x+xp, y+yp); + proj_area = pix_area * cos(tt); + + /* Calculate distance from crystal to pixel */ + dsq = pow(((double)(x+xp) - p->cx) / p->res, 2.0); + dsq += pow(((double)(y+yp) - p->cy) / p->res, 2.0); + + /* Projected area of pixel divided by distance squared */ + sa = 1.0e7 * proj_area / (dsq + Lsq); + + val /= sa; - /* Projected area of pixel divided by distance squared */ - sa = 1.0e7 * proj_area / (dsq + Lsq); + } if ( do_polar ) { + + if ( !do_sa ) tt = get_tt(image, x+xp, y+yp); + phi = atan2(y+yp, x+xp); 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); - } else { - pol = 1.0; - } - val = image->data[(x+xp)+image->width*(y+yp)] / (sa*pol); + val /= pol; + + } total += val; @@ -325,10 +339,10 @@ void search_peaks(struct image *image) } /* Centroid peak and get better coordinates. - * Don't bother doing polarisation correction, because the + * Don't bother doing polarisation/SA correction, because the * intensity of this peak is only an estimate at this stage. */ r = integrate_peak(image, mask_x, mask_y, - &fx, &fy, &intensity, 0); + &fx, &fy, &intensity, 0, 0); if ( r ) { /* Bad region - don't detect peak */ nrej_bad++; @@ -578,7 +592,7 @@ void output_intensities(struct image *image, UnitCell *cell, * so instead re-integrate using old coordinates. * This will produce further revised coordinates. */ r = integrate_peak(image, f->x, f->y, &x, &y, - &intensity, !unpolar); + &intensity, !unpolar, 1); if ( r ) { /* The original peak (which also went through * integrate_peak(), but with the mangled @@ -596,7 +610,7 @@ void output_intensities(struct image *image, UnitCell *cell, r = integrate_peak(image, image->hits[i].x,image->hits[i].y, - &x, &y, &intensity, !unpolar); + &x, &y, &intensity, !unpolar, 1); if ( r ) { /* Plain old ordinary peak veto */ n_veto++; |