Beyn minor fixes, cleaner API.

Former-commit-id: 44d7147a14194a7b8e5a66552dd3855029b9e370
2019-09-10 14:54:08 +03:00 · 2019-09-10 14:54:08 +03:00 · 11aa48d2da
parent 3bc59096bc
commit 11aa48d2da
5 changed files with 32 additions and 28 deletions
--- a/qpms/beyn.c
+++ b/qpms/beyn.c
@ -284,6 +284,7 @@ static int beyn_process_matrices(BeynSolver *solver, beyn_function_M_gsl_t M_fun

  gsl_matrix_complex_free(V0);

+  // FIXME!!! make clear relation between KRetained and K in the results!
  int KRetained = 0;
  gsl_matrix_complex *Mmat = gsl_matrix_complex_alloc(m, m);
  gsl_vector_complex *MVk = gsl_vector_complex_alloc(m);
@ -319,7 +320,7 @@ static int beyn_process_matrices(BeynSolver *solver, beyn_function_M_gsl_t M_fun
 }


-int beyn_solve_gsl(beyn_result_gsl_t **result, const size_t m, const size_t l,
+beyn_result_gsl_t *beyn_solve_gsl(const size_t m, const size_t l,
    beyn_function_M_gsl_t M_function, beyn_function_M_inv_Vhat_gsl_t M_inv_Vhat_function,
    void *params, const beyn_contour_t *contour,
    double rank_tol, double res_tol)
@ -399,15 +400,17 @@ int beyn_solve_gsl(beyn_result_gsl_t **result, const size_t m, const size_t l,
  gsl_blas_zaxpy(gsl_complex_rect(-1,0), eigenvalues, eigenvalue_errors);
  // TODO Original did also fabs on the complex and real parts ^^^.

-  QPMS_CRASHING_MALLOC(*result, sizeof(beyn_result_gsl_t));
-  (*result)->eigval = solver->eigenvalues;
-  (*result)->eigval_err = solver->eigenvalue_errors;
-  (*result)->residuals = solver->residuals;
-  (*result)->eigvec = solver->eigenvectors;
+  beyn_result_gsl_t *result;
+  QPMS_CRASHING_MALLOC(result, sizeof(beyn_result_gsl_t));
+  result->eigval = solver->eigenvalues;
+  result->eigval_err = solver->eigenvalue_errors;
+  result->residuals = solver->residuals;
+  result->eigvec = solver->eigenvectors;
+  result->neig = K;

  BeynSolver_free_partial(solver);

-  return K;
+  return result;
 }

 // Wrapper of pure C array M-matrix function to GSL.
@ -440,16 +443,14 @@ static int beyn_function_M_inv_Vhat_carr2gsl(gsl_matrix_complex *target,
      (complex double *) Vhat->data, z, p->param);
 }

-int beyn_solve(beyn_result_t **result, size_t m, size_t l, beyn_function_M_t M, beyn_function_M_inv_Vhat_t M_inv_Vhat,
+beyn_result_t *beyn_solve(size_t m, size_t l, beyn_function_M_t M, beyn_function_M_inv_Vhat_t M_inv_Vhat,
    void *params, const beyn_contour_t *contour, double rank_tol, double res_tol) {
  struct beyn_function_M_carr2gsl_param p = {M, M_inv_Vhat, params};
-  QPMS_CRASHING_MALLOC(*result, sizeof(beyn_result_t));
-  struct beyn_result_gsl_t *result_gsl;
-  int retval = beyn_solve_gsl(&result_gsl, m, l, beyn_function_M_carr2gsl,
+  return beyn_result_from_beyn_result_gsl(
+    beyn_solve_gsl(m, l, beyn_function_M_carr2gsl,
      (p.M_inv_Vhat_function) ? beyn_function_M_inv_Vhat_carr2gsl : NULL, 
-      (void *) &p, contour, rank_tol, res_tol);
-  *result = beyn_result_from_beyn_result_gsl(result_gsl);
-  return retval;
+      (void *) &p, contour, rank_tol, res_tol)
+    );
 }

 beyn_result_t *beyn_result_from_beyn_result_gsl(beyn_result_gsl_t *g) {
@ -457,6 +458,7 @@ beyn_result_t *beyn_result_from_beyn_result_gsl(beyn_result_gsl_t *g) {
  QPMS_CRASHING_MALLOC(result, sizeof(beyn_result_t));
  result->gsl = g;
  result->neig = result->gsl->neig;
+  result->vlen = result->gsl->eigvec->size2;
  result->eigval = (complex double *) result->gsl->eigval->data;
  result->eigval_err = (complex double *) result->gsl->eigval_err->data;
  result->residuals = result->gsl->residuals->data;
--- a/qpms/beyn.h
+++ b/qpms/beyn.h
@ -51,6 +51,7 @@ void beyn_result_gsl_free(beyn_result_gsl_t *result);
 /// Beyn algorithm result structure (pure C array version).
 typedef struct beyn_result_t {
 	size_t neig; ///< Number of eigenvalues found.
+	size_t vlen; ///< Vector space dimension (also the leading dimension of eigvec).
 	complex double *eigval;
 	complex double *eigval_err;
 	double *residuals;
@ -69,7 +70,7 @@ beyn_result_t *beyn_result_from_beyn_result_gsl(beyn_result_gsl_t *g);

 void beyn_result_free(beyn_result_t *result);

-int beyn_solve_gsl(beyn_result_gsl_t **result,
+beyn_result_gsl_t *beyn_solve_gsl(
 		size_t m, ///< Dimension of the matrix \a M.
 		size_t l, ///< Number of columns of the random matrix  \f$ \hat V \f$ (larger than the expected number of solutions).
 		beyn_function_M_gsl_t M, ///< Function providing the matrix \f$ M(z) \f$.
@ -80,7 +81,7 @@ int beyn_solve_gsl(beyn_result_gsl_t **result,
 		double res_tol ///< (default: `0.0`) TODO DOC.
 	      );

-int beyn_solve(beyn_result_t **result,
+beyn_result_t *beyn_solve(
 		size_t m, ///< Dimension of the matrix \a M.
 		size_t l, ///< Number of columns of the random matrix  \f$ \hat V \f$ (larger than the expected number of solutions).
 		beyn_function_M_t M, ///< Function providing the matrix \f$ M(z) \f$.
--- a/qpms/qpms_cdefs.pxd
+++ b/qpms/qpms_cdefs.pxd
@ -554,6 +554,7 @@ cdef extern from "beyn.h":
        pass
    ctypedef struct beyn_result_t:
        size_t neig
+        size_t vlen
        cdouble *eigval
        cdouble *eigval_err
        double *residuals
@ -568,11 +569,11 @@ cdef extern from "beyn.h":
    void beyn_result_gsl_free(beyn_result_gsl_t *result)
    void beyn_result_free(beyn_result_t *result)

-    int beyn_solve_gsl(beyn_result_gsl_t **result, size_t m, size_t l, beyn_function_M_gsl_t M,
+    beyn_result_gsl_t *beyn_solve_gsl(size_t m, size_t l, beyn_function_M_gsl_t M,
            beyn_function_M_inv_Vhat_gsl_t M_inv_Vhat, void *params, const beyn_contour_t *contour,
            double rank_tol, double res_tol)

-    int beyn_solve(beyn_result_t **result, size_t m, size_t l, beyn_function_M_t M,
+    beyn_result_t *beyn_solve(size_t m, size_t l, beyn_function_M_t M,
            beyn_function_M_inv_Vhat_t M_inv_Vhat, void *params, const beyn_contour_t *contour,
            double rank_tol, double res_tol)

--- a/tests/tbeyn.c
+++ b/tests/tbeyn.c
@ -24,13 +24,13 @@ int main() {
  int L = 10, N = 50, dim = 400;
  beyn_contour_t *contour = beyn_contour_ellipse(z0, Rx, Ry, N);

-  beyn_result_t *result;
-  int K = beyn_solve(&result, dim, L, M_function, NULL /*M_inv_Vhat_function*/, NULL /*params*/,
+  beyn_result_t *result =
+    beyn_solve(dim, L, M_function, NULL /*M_inv_Vhat_function*/, NULL /*params*/,
      contour, 1e-4, 0);
-  printf("Found %d eigenvalues:\n", K);
-  for (int i = 0; i < K; ++i) {
+  printf("Found %zd eigenvalues:\n", result->neig);
+  for (size_t i = 0; i < result->neig; ++i) {
    complex double eig = result->eigval[i];
-    printf("%d: %g%+gj\n", i, creal(eig), cimag(eig));
+    printf("%zd: %g%+gj\n", i, creal(eig), cimag(eig));
  }
  free(contour);
  beyn_result_free(result);
--- a/tests/tbeyn_gsl.c
+++ b/tests/tbeyn_gsl.c
@ -26,13 +26,13 @@ int main() {
  int L = 10, N = 50, dim = 400;
  beyn_contour_t *contour = beyn_contour_ellipse(z0, Rx, Ry, N);

-  beyn_result_gsl_t *result;
-  int K = beyn_solve_gsl(&result, dim, L, M_function, NULL /*M_inv_Vhat_function*/, NULL /*params*/,
+  beyn_result_gsl_t *result =
+    beyn_solve_gsl(dim, L, M_function, NULL /*M_inv_Vhat_function*/, NULL /*params*/,
      contour, 1e-4, 0);
-  printf("Found %d eigenvalues:\n", K);
-  for (int i = 0; i < K; ++i) {
+  printf("Found %zd eigenvalues:\n", result->neig);
+  for (size_t i = 0; i < result->neig; ++i) {
    gsl_complex eig = gsl_vector_complex_get(result->eigval, i);
-    printf("%d: %g%+gj\n", i, GSL_REAL(eig), GSL_IMAG(eig));
+    printf("%zd: %g%+gj\n", i, GSL_REAL(eig), GSL_IMAG(eig));
  }
  free(contour);
  beyn_result_gsl_free(result);