diff options
author | Rick Kirian <rkirian@asu.edu> | 2011-03-30 18:57:36 +0200 |
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committer | Thomas White <taw@physics.org> | 2012-02-22 15:27:23 +0100 |
commit | 21f84f2f2ec89679156911b6ce039533473173e8 (patch) | |
tree | c97a5a577de9ab903ca84539434cb1dd8927ecd1 | |
parent | ce3e73de7ad45a268cce2cd7951a1a70b885aec4 (diff) |
tidy up calibrate_detector.c
-rw-r--r-- | src/calibrate_detector.c | 213 |
1 files changed, 109 insertions, 104 deletions
diff --git a/src/calibrate_detector.c b/src/calibrate_detector.c index 25d7a3c8..54472b04 100644 --- a/src/calibrate_detector.c +++ b/src/calibrate_detector.c @@ -51,6 +51,103 @@ static void show_help(const char *s) "\n"); } +//FIXME: should this function be in detector.h? +int calculate_projected_peak(struct panel *panel, struct rvec q, + double kk, double *fs, double *ss) +{ + + if (panel == NULL) return 1; + + double xd, yd, cl; + double plx, ply; + + const double den = kk + q.w; + + /* Camera length for this panel */ + cl = panel->clen; + + /* Coordinates of peak relative to central beam, in m */ + xd = cl * q.u / den; + yd = cl * q.v / den; + + /* Convert to pixels */ + xd *= panel->res; + yd *= panel->res; + + /* Convert to relative to the panel corner */ + plx = xd - panel->cnx; + ply = yd - panel->cny; + + *fs = panel->xfs*plx + panel->yfs*ply; + *ss = panel->xss*plx + panel->yss*ply; + + *fs += panel->min_fs; + *ss += panel->min_ss; + + /* Now, is this on this panel? */ + if ( *fs < panel->min_fs ) return 3; + if ( *fs > panel->max_fs ) return 3; + if ( *ss < panel->min_ss ) return 3; + if ( *ss > panel->max_ss ) return 3; + + return 0; + +} + +//FIXME: should this function be in detector.h? +struct rvec nearest_bragg(struct image image, struct rvec q) +{ + + struct rvec g; + double ax, ay, az; + double bx, by, bz; + double cx, cy, cz; + double hd, kd, ld; + double h, k, l; + + /* miller indices of nearest Bragg reflection */ + cell_get_cartesian(image.indexed_cell, &ax, &ay, &az, + &bx, &by, &bz, + &cx, &cy, &cz); + + 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); + + /* now get scattering vector for reflectin [hkl] + * this means solving the equation U*q = h */ + double U[] = {ax, ay, az, + bx, by, bz, + cx, cy, cz}; + + double hvec[] = {h,k,l}; + + gsl_matrix_view m + = gsl_matrix_view_array (U, 3, 3); + + gsl_vector_view b + = gsl_vector_view_array (hvec, 3); + + gsl_vector *x = gsl_vector_alloc (3); + + int s; + + gsl_permutation * perm = gsl_permutation_alloc (3); + gsl_linalg_LU_decomp (&m.matrix, perm, &s); + gsl_linalg_LU_solve (&m.matrix, perm, &b.vector, x); + + /* outgoing wavevector for [hkl] */ + g.u = x->data[0]; + g.v = x->data[1]; + g.w = x->data[2]; + + return g; + +} int main(int argc, char *argv[]) @@ -214,13 +311,9 @@ int main(int argc, char *argv[]) struct panel * p; struct imagefeature * thisFeature; - double ax, ay, az; - double bx, by, bz; - double cx, cy, cz; - double hd, kd, ld; /* Indices with decimal places */ - signed int h, k, l; struct rvec q; double twotheta; + struct rvec g; double fs, ss; /* observed peaks */ double pfs, pss; /* predicted peaks */ double dfs, dss; /* observed - predicted */ @@ -243,90 +336,19 @@ int main(int argc, char *argv[]) } if ( p->no_index ) continue; - - /* now determine the predicted peak position */ /* scattering vector of this peak */ q = get_q(&image, fs, ss, &twotheta, 1.0/image.lambda); - //fail = calculate_projected_peak(); + /* scattering vector of nearest bragg peak */ + g = nearest_bragg(image, q); - /* miller indices of nearest Bragg reflection */ - cell_get_cartesian(image.indexed_cell, &ax, &ay, &az, - &bx, &by, &bz, - &cx, &cy, &cz); - - 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); - - /* now get scattering vector for reflectin [hkl] - * this means solving the equation U*q = h */ - - double U[] = {ax, ay, az, - bx, by, bz, - cx, cy, cz}; - - double hvec[] = {h,k,l}; - - gsl_matrix_view m - = gsl_matrix_view_array (U, 3, 3); - - gsl_vector_view b - = gsl_vector_view_array (hvec, 3); - - gsl_vector *x = gsl_vector_alloc (3); - - int s; - - gsl_permutation * perm = gsl_permutation_alloc (3); - gsl_linalg_LU_decomp (&m.matrix, perm, &s); - gsl_linalg_LU_solve (&m.matrix, perm, &b.vector, x); - - - /* outgoing wavevector for [hkl] */ - double gx = x->data[0]; - double gy = x->data[1]; - double gz = x->data[2]; - - double kk; - double xd, yd, cl; - double plx, ply; - - kk = 1/image.lambda; - const double den = kk + gz; - - /* Camera length for this panel */ - cl = p->clen; - - /* Coordinates of peak relative to central beam, in m */ - xd = cl * gx / den; - yd = cl * gy / den; - - /* Convert to pixels */ - xd *= p->res; - yd *= p->res; - - /* Convert to relative to the panel corner */ - plx = xd - p->cnx; - ply = yd - p->cny; - - pfs = p->xfs*plx + p->yfs*ply; - pss = p->xss*plx + p->yss*ply; - - pfs += p->min_fs; - pss += p->min_ss; - - /* Now, is this on this panel? */ - if ( fs < p->min_fs ) continue; - if ( fs > p->max_fs ) continue; - if ( ss < p->min_ss ) continue; - if ( ss > p->max_ss ) continue; + /* coordinate of this predicted peak */ + fail = calculate_projected_peak(p,g,1/image.lambda,&pfs,&pss); + + /* check for error, e.g. out of panel */ + if ( fail != 0 ) continue; /* Finally, we have the shift in position of this peak */ dfs = pfs - fs; @@ -344,16 +366,13 @@ int main(int argc, char *argv[]) } /* end loop through stream chunks */ - - /* calculate weighted average shift in peak positions */ for (pi=0; pi < image.det->n_panels; pi++) { meanShiftFS[pi] = weightedSumFS[pi]/summedWeights[pi]; meanShiftSS[pi] = weightedSumSS[pi]/summedWeights[pi]; } - /* now generate a new geometry file */ - /* first populate the image structure with new geometry */ + /* first populate the image structure with new geometry info */ for (pi=0; pi < image.det->n_panels; pi++) { p = image.det->panels[pi]; @@ -363,8 +382,6 @@ int main(int argc, char *argv[]) if ( peaksFound[pi] >= minpeaks ) { - //printf("meanShift: %f %f\n",meanShiftFS[pi],meanShiftSS[pi]); - /* convert shifts from raw coords to lab frame */ xsh = meanShiftFS[pi]*p.fsx + meanShiftSS[pi]*p.ssx; ysh = meanShiftFS[pi]*p.fsy + meanShiftSS[pi]*p.ssy; @@ -373,30 +390,21 @@ int main(int argc, char *argv[]) cnx = p.cnx + xsh; cny = p.cny + ysh; - //printf("new panel shift: %f %f\n",cnx,cny); - - } else { - - /* not refined: use original coordinates */ + /* not refined? use original coordinates */ cnx = p.cnx; cny = p.cny; - } - /* now dump this refined panel goemetry into a file */ - image.det->panels[pi].cnx = cnx; image.det->panels[pi].cny = cny; if ( peaksFound[pi] < minpeaks) image.det->panels[pi].no_index = 1; printf("panel %s, # peaks: %10d, mean shifts: %f %f\n",p.name, peaksFound[pi],xsh,ysh); - //fprintf_panel(outfh,&p); - //fprintf(outfh,"\n"); - } + /* write the new geometry file */ print_detector_geometry(outfh,&image); } else { @@ -406,11 +414,8 @@ int main(int argc, char *argv[]) } - if ( !(outputfile == NULL) ) { - fclose(outfh); - } - + fclose(outfh); printf("Done!\n"); |