diff options
| author | Thomas White <taw@physics.org> | 2011-06-22 11:59:25 +0200 |
|---|---|---|
| committer | Thomas White <taw@physics.org> | 2012-02-22 15:27:29 +0100 |
| commit | 93fd0cbb09b71179ff0407a9d04c05882d70c385 (patch) | |
| tree | 8cff8f5b1e0e4276c68a5bb43276f3f3a9e2669e /src/post-refinement.c | |
| parent | a1e023343b085f727f368720fc7cda8e0e4a2724 (diff) | |
Use SVD for matrix solution
It's identical to the previous eigenvalue filtration thing
Diffstat (limited to 'src/post-refinement.c')
| -rw-r--r-- | src/post-refinement.c | 70 |
1 files changed, 18 insertions, 52 deletions
diff --git a/src/post-refinement.c b/src/post-refinement.c index 64704598..c1bc9314 100644 --- a/src/post-refinement.c +++ b/src/post-refinement.c @@ -216,57 +216,22 @@ static void apply_shift(struct image *image, int k, double shift) } -/* NB This is DIFFERENT to the solve_by_eigenvalue_filtration routing in - * hrs-scaling.c */ -static gsl_vector *solve_by_eigenvalue_filtration(gsl_vector *v, gsl_matrix *M) +static void show_eigen(gsl_vector *e_val) { - gsl_eigen_symmv_workspace *work; - gsl_vector *e_val; - gsl_matrix *e_vec; - int val, n, frame; - gsl_vector *shifts; - - n = v->size; - if ( v->size != M->size1 ) return NULL; - if ( v->size != M->size2 ) return NULL; - - /* Diagonalise */ - work = gsl_eigen_symmv_alloc(n); - e_val = gsl_vector_alloc(n); - e_vec = gsl_matrix_alloc(n, n); - val = gsl_eigen_symmv(M, e_val, e_vec, work); - if ( val ) { - ERROR("Couldn't diagonalise matrix.\n"); - return NULL; - } - gsl_eigen_symmv_free(work); - val = gsl_eigen_symmv_sort(e_val, e_vec, GSL_EIGEN_SORT_ABS_DESC); - - /* Rotate the "solution vector" */ - gsl_vector *rprime; - rprime = gsl_vector_alloc(n); - val = gsl_blas_dgemv(CblasTrans, 1.0, e_vec, v, 0.0, rprime); - - /* Solve (now easy) */ - gsl_vector *sprime; - sprime = gsl_vector_alloc(n); - for ( frame=0; frame<n; frame++ ) { - double num, den; - num = gsl_vector_get(rprime, frame); - den = gsl_vector_get(e_val, frame); - gsl_vector_set(sprime, frame, num/den); + int i; + double vmax, vmin; + const int n = e_val->size; + + STATUS("Eigenvalues:\n"); + vmin = +INFINITY; + vmax = 0.0; + for ( i=0; i<n; i++ ) { + double val = gsl_vector_get(e_val, i); + STATUS("%i: %e\n", i, val); + if ( val > vmax ) vmax = val; + if ( val < vmin ) vmin = val; } - - /* Rotate back */ - shifts = gsl_vector_alloc(n); - val = gsl_blas_dgemv(CblasNoTrans, 1.0, e_vec, sprime, 0.0, shifts); - - gsl_vector_free(sprime); - gsl_vector_free(rprime); - gsl_matrix_free(e_vec); - gsl_vector_free(e_val); - - return shifts; + STATUS("Condition number: %e / %e = %e\n", vmin, vmax, vmin/vmax); } @@ -293,6 +258,8 @@ static gsl_vector *solve_svd(gsl_vector *v, gsl_matrix *M) } /* "M" is now "U" */ + show_eigen(s_val); + shifts = gsl_vector_calloc(n); err = gsl_linalg_SV_solve(M, s_vec, s_val, v, shifts); if ( err ) { @@ -425,9 +392,8 @@ static double pr_iterate(struct image *image, const RefList *full, } max_shift = 0.0; - //shifts = solve_by_eigenvalue_filtration(v, M); - shifts = solve_householder(v, M); - //shifts = solve_svd(v, M); + //shifts = solve_householder(v, M); + shifts = solve_svd(v, M); if ( shifts != NULL ) { for ( param=0; param<NUM_PARAMS; param++ ) { |