diff options
author | Thomas White <taw@physics.org> | 2011-02-01 12:02:43 +0100 |
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committer | Thomas White <taw@physics.org> | 2012-02-22 15:27:12 +0100 |
commit | 93af08221a99887a4fc8bfab4ded0d04d2ce4d19 (patch) | |
tree | 711d67f8eef8b1d54001551e80d28e960140e763 /src/hrs-scaling.c | |
parent | b70749514f280e038ebf734a2deb0fbbc84a063a (diff) |
Remove row-crossing stuff (doesn't work anyway) and start on eigenvalue method
Diffstat (limited to 'src/hrs-scaling.c')
-rw-r--r-- | src/hrs-scaling.c | 54 |
1 files changed, 24 insertions, 30 deletions
diff --git a/src/hrs-scaling.c b/src/hrs-scaling.c index 4a91adc2..26b19810 100644 --- a/src/hrs-scaling.c +++ b/src/hrs-scaling.c @@ -178,25 +178,19 @@ static double iterate_scale(struct image *images, int n, gsl_vector *shifts; int a; double max_shift; - int crossed = 0; int n_ref; - M = gsl_matrix_calloc(n-1, n-1); - v = gsl_vector_calloc(n-1); + M = gsl_matrix_calloc(n, n); + v = gsl_vector_calloc(n); n_ref = num_items(obs); for ( a=0; a<n; a++ ) { /* "Equation number": one equation per frame */ int b; /* Frame (scale factor) number */ int h; /* Reflection index */ - int acomp; double vc_tot = 0.0; struct image *image_a = &images[a]; - if ( a == crossed ) continue; - acomp = a; - if ( a > crossed ) acomp--; - for ( h=0; h<n_ref; h++ ) { double vc, Ih, uh, rha, vha, uha; @@ -219,14 +213,10 @@ static double iterate_scale(struct image *images, int n, double mc = 0.0; double tval, rhb, vhb, uhb; - int bcomp; struct image *image_b = &images[b]; /* Matrix is symmetric */ if ( b > a ) continue; - if ( b == crossed ) continue; - bcomp = b; - if ( b > crossed ) bcomp--; vhb = s_vha(h, k, l, images, n, sym, b); uhb = s_uha(h, k, l, images, n, sym, b); @@ -238,21 +228,21 @@ static double iterate_scale(struct image *images, int n, mc += pow(Ih, 2.0) * uha; } - tval = gsl_matrix_get(M, acomp, bcomp); - gsl_matrix_set(M, acomp, bcomp, tval+mc); - gsl_matrix_set(M, bcomp, acomp, tval+mc); + tval = gsl_matrix_get(M, a, b); + gsl_matrix_set(M, a, b, tval+mc); + gsl_matrix_set(M, b, a, tval+mc); } } - gsl_vector_set(v, acomp, vc_tot); + gsl_vector_set(v, a, vc_tot); } - show_matrix_eqn(M, v, n-1); + show_matrix_eqn(M, v, n); -#if 0 /* Fox and Holmes method */ + /* Fox and Holmes method */ gsl_eigen_symmv_workspace *work; gsl_vector *e_val; gsl_matrix *e_vec; @@ -266,23 +256,19 @@ static double iterate_scale(struct image *images, int n, gsl_eigen_symmv_free(work); show_eigen(e_vec, e_val, n); -#endif - shifts = gsl_vector_alloc(n-1); +#if 0 + shifts = gsl_vector_alloc(n); gsl_linalg_HH_solve(M, v, shifts); max_shift = 0.0; STATUS("Shifts:\n"); - for ( a=0; a<n-1; a++ ) { + for ( a=0; a<n; a++ ) { double shift = gsl_vector_get(shifts, a); - int aimg; - aimg = a; - if ( aimg >= crossed ) aimg++; - - STATUS("%3i: %5.2f\n", aimg, shift); - images[aimg].osf += shift; + STATUS("%3i: %5.2f\n", a, shift); + images[a].osf += shift; if ( fabs(shift) > fabs(max_shift) ) { max_shift = fabs(shift); @@ -290,11 +276,12 @@ static double iterate_scale(struct image *images, int n, } gsl_vector_free(shifts); +#endif gsl_matrix_free(M); gsl_vector_free(v); - return max_shift; + return 0.0;//max_shift; } @@ -364,12 +351,14 @@ static void normalise_osfs(struct image *images, int n) double tot = 0.0; double norm; - for ( m=0; m<n; m++ ) { + images[0].osf = 1.0; + + for ( m=1; m<n; m++ ) { tot += images[m].osf; } norm = n / tot; - for ( m=0; m<n; m++ ) { + for ( m=1; m<n; m++ ) { images[m].osf *= norm; } } @@ -406,10 +395,15 @@ double *scale_intensities(struct image *images, int n, const char *sym, i = 0; do { + int j; max_shift = iterate_scale(images, n, obs, sym); STATUS("Iteration %2i: max shift = %5.2f\n", i, max_shift); i++; + STATUS("Before normalising:\n"); + for ( j=0; j<n; j++ ) STATUS("%3i %5.2f\n", j, images[j].osf); normalise_osfs(images, n); + STATUS("After normalising:\n"); + for ( j=0; j<n; j++ ) STATUS("%3i %5.2f\n", j, images[j].osf); } while ( (max_shift > 0.01) && (i < MAX_CYCLES) ); |