gsl_eigen.h

来自「math library from gnu」· C头文件 代码 · 共 346 行

H
346
字号 
/* eigen/gsl_eigen.h *  * Copyright (C) 1996, 1997, 1998, 1999, 2000, 2006, 2007 Gerard Jungman, Brian Gough, Patrick Alken *  * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or (at * your option) any later version. *  * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU * General Public License for more details. *  * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */#ifndef __GSL_EIGEN_H__#define __GSL_EIGEN_H__#include <gsl/gsl_vector.h>#include <gsl/gsl_matrix.h>#undef __BEGIN_DECLS#undef __END_DECLS#ifdef __cplusplus# define __BEGIN_DECLS extern "C" {# define __END_DECLS }#else# define __BEGIN_DECLS /* empty */# define __END_DECLS /* empty */#endif__BEGIN_DECLStypedef struct {  size_t size;  double * d;  double * sd;} gsl_eigen_symm_workspace;gsl_eigen_symm_workspace * gsl_eigen_symm_alloc (const size_t n);void gsl_eigen_symm_free (gsl_eigen_symm_workspace * w);int gsl_eigen_symm (gsl_matrix * A, gsl_vector * eval, gsl_eigen_symm_workspace * w);typedef struct {  size_t size;  double * d;  double * sd;  double * gc;  double * gs;} gsl_eigen_symmv_workspace;gsl_eigen_symmv_workspace * gsl_eigen_symmv_alloc (const size_t n);void gsl_eigen_symmv_free (gsl_eigen_symmv_workspace * w);int gsl_eigen_symmv (gsl_matrix * A, gsl_vector * eval, gsl_matrix * evec, gsl_eigen_symmv_workspace * w);typedef struct {  size_t size;  double * d;  double * sd;  double * tau;} gsl_eigen_herm_workspace;gsl_eigen_herm_workspace * gsl_eigen_herm_alloc (const size_t n);void gsl_eigen_herm_free (gsl_eigen_herm_workspace * w);int gsl_eigen_herm (gsl_matrix_complex * A, gsl_vector * eval,                         gsl_eigen_herm_workspace * w);typedef struct {  size_t size;  double * d;  double * sd;  double * tau;  double * gc;  double * gs;} gsl_eigen_hermv_workspace;gsl_eigen_hermv_workspace * gsl_eigen_hermv_alloc (const size_t n);void gsl_eigen_hermv_free (gsl_eigen_hermv_workspace * w);int gsl_eigen_hermv (gsl_matrix_complex * A, gsl_vector * eval,                            gsl_matrix_complex * evec,                           gsl_eigen_hermv_workspace * w);typedef struct {  size_t size;           /* matrix size */  size_t max_iterations; /* max iterations since last eigenvalue found */  size_t n_iter;         /* number of iterations since last eigenvalue found */  size_t n_evals;        /* number of eigenvalues found so far */  int compute_t;         /* compute Schur form T = Z^t A Z */  gsl_matrix *H;         /* pointer to Hessenberg matrix */  gsl_matrix *Z;         /* pointer to Schur vector matrix */} gsl_eigen_francis_workspace;gsl_eigen_francis_workspace * gsl_eigen_francis_alloc (void);void gsl_eigen_francis_free (gsl_eigen_francis_workspace * w);void gsl_eigen_francis_T (const int compute_t,                          gsl_eigen_francis_workspace * w);int gsl_eigen_francis (gsl_matrix * H, gsl_vector_complex * eval,                       gsl_eigen_francis_workspace * w);int gsl_eigen_francis_Z (gsl_matrix * H, gsl_vector_complex * eval,                         gsl_matrix * Z,                         gsl_eigen_francis_workspace * w);typedef struct {  size_t size;                 /* size of matrices */  gsl_vector *diag;            /* diagonal matrix elements from balancing */  gsl_vector *tau;             /* Householder coefficients */  gsl_matrix *Z;               /* pointer to Z matrix */  int do_balance;              /* perform balancing transformation? */  size_t n_evals;              /* number of eigenvalues found */  gsl_eigen_francis_workspace *francis_workspace_p;} gsl_eigen_nonsymm_workspace;gsl_eigen_nonsymm_workspace * gsl_eigen_nonsymm_alloc (const size_t n);void gsl_eigen_nonsymm_free (gsl_eigen_nonsymm_workspace * w);void gsl_eigen_nonsymm_params (const int compute_t, const int balance,                               gsl_eigen_nonsymm_workspace *w);int gsl_eigen_nonsymm (gsl_matrix * A, gsl_vector_complex * eval,                       gsl_eigen_nonsymm_workspace * w);int gsl_eigen_nonsymm_Z (gsl_matrix * A, gsl_vector_complex * eval,                         gsl_matrix * Z, gsl_eigen_nonsymm_workspace * w);typedef struct {  size_t size;                 /* size of matrices */  gsl_vector *work;            /* scratch workspace */  gsl_vector *work2;           /* scratch workspace */  gsl_vector *work3;           /* scratch workspace */  gsl_matrix *Z;               /* pointer to Schur vectors */  gsl_eigen_nonsymm_workspace *nonsymm_workspace_p;} gsl_eigen_nonsymmv_workspace;gsl_eigen_nonsymmv_workspace * gsl_eigen_nonsymmv_alloc (const size_t n);void gsl_eigen_nonsymmv_free (gsl_eigen_nonsymmv_workspace * w);int gsl_eigen_nonsymmv (gsl_matrix * A, gsl_vector_complex * eval,                        gsl_matrix_complex * evec,                        gsl_eigen_nonsymmv_workspace * w);int gsl_eigen_nonsymmv_Z (gsl_matrix * A, gsl_vector_complex * eval,                          gsl_matrix_complex * evec, gsl_matrix * Z,                          gsl_eigen_nonsymmv_workspace * w);typedef struct {  size_t size;            /* size of matrices */  gsl_eigen_symm_workspace *symm_workspace_p;} gsl_eigen_gensymm_workspace;gsl_eigen_gensymm_workspace * gsl_eigen_gensymm_alloc (const size_t n);void gsl_eigen_gensymm_free (gsl_eigen_gensymm_workspace * w);int gsl_eigen_gensymm (gsl_matrix * A, gsl_matrix * B,                       gsl_vector * eval, gsl_eigen_gensymm_workspace * w);int gsl_eigen_gensymm_standardize (gsl_matrix * A, const gsl_matrix * B);typedef struct {  size_t size;            /* size of matrices */  gsl_eigen_symmv_workspace *symmv_workspace_p;} gsl_eigen_gensymmv_workspace;gsl_eigen_gensymmv_workspace * gsl_eigen_gensymmv_alloc (const size_t n);void gsl_eigen_gensymmv_free (gsl_eigen_gensymmv_workspace * w);int gsl_eigen_gensymmv (gsl_matrix * A, gsl_matrix * B,                        gsl_vector * eval, gsl_matrix * evec,                        gsl_eigen_gensymmv_workspace * w);typedef struct {  size_t size;            /* size of matrices */  gsl_eigen_herm_workspace *herm_workspace_p;} gsl_eigen_genherm_workspace;gsl_eigen_genherm_workspace * gsl_eigen_genherm_alloc (const size_t n);void gsl_eigen_genherm_free (gsl_eigen_genherm_workspace * w);int gsl_eigen_genherm (gsl_matrix_complex * A, gsl_matrix_complex * B,                       gsl_vector * eval, gsl_eigen_genherm_workspace * w);int gsl_eigen_genherm_standardize (gsl_matrix_complex * A,                                   const gsl_matrix_complex * B);typedef struct {  size_t size;            /* size of matrices */  gsl_eigen_hermv_workspace *hermv_workspace_p;} gsl_eigen_genhermv_workspace;gsl_eigen_genhermv_workspace * gsl_eigen_genhermv_alloc (const size_t n);void gsl_eigen_genhermv_free (gsl_eigen_genhermv_workspace * w);int gsl_eigen_genhermv (gsl_matrix_complex * A, gsl_matrix_complex * B,                        gsl_vector * eval, gsl_matrix_complex * evec,                        gsl_eigen_genhermv_workspace * w);typedef struct {  size_t size;            /* size of matrices */  gsl_vector *work;       /* scratch workspace */  size_t n_evals;         /* number of eigenvalues found */  size_t max_iterations;  /* maximum QZ iterations allowed */  size_t n_iter;          /* number of iterations since last eigenvalue found */  double eshift;          /* exceptional shift counter */  int needtop;            /* need to compute top index? */  double atol;            /* tolerance for splitting A matrix */  double btol;            /* tolerance for splitting B matrix */  double ascale;          /* scaling factor for shifts */  double bscale;          /* scaling factor for shifts */  gsl_matrix *H;          /* pointer to hessenberg matrix */  gsl_matrix *R;          /* pointer to upper triangular matrix */  int compute_s;          /* compute generalized Schur form S */  int compute_t;          /* compute generalized Schur form T */  gsl_matrix *Q;          /* pointer to left Schur vectors */  gsl_matrix *Z;          /* pointer to right Schur vectors */} gsl_eigen_gen_workspace;gsl_eigen_gen_workspace * gsl_eigen_gen_alloc (const size_t n);void gsl_eigen_gen_free (gsl_eigen_gen_workspace * w);void gsl_eigen_gen_params (const int compute_s, const int compute_t,                           const int balance, gsl_eigen_gen_workspace * w);int gsl_eigen_gen (gsl_matrix * A, gsl_matrix * B,                   gsl_vector_complex * alpha, gsl_vector * beta,                   gsl_eigen_gen_workspace * w);int gsl_eigen_gen_QZ (gsl_matrix * A, gsl_matrix * B,                      gsl_vector_complex * alpha, gsl_vector * beta,                      gsl_matrix * Q, gsl_matrix * Z,                      gsl_eigen_gen_workspace * w);typedef struct {  size_t size;            /* size of matrices */  gsl_vector *work1;      /* 1-norm of columns of A */  gsl_vector *work2;      /* 1-norm of columns of B */  gsl_vector *work3;      /* real part of eigenvector */  gsl_vector *work4;      /* imag part of eigenvector */  gsl_vector *work5;      /* real part of back-transformed eigenvector */  gsl_vector *work6;      /* imag part of back-transformed eigenvector */  gsl_matrix *Q;          /* pointer to left Schur vectors */  gsl_matrix *Z;          /* pointer to right Schur vectors */  gsl_eigen_gen_workspace *gen_workspace_p;} gsl_eigen_genv_workspace;gsl_eigen_genv_workspace * gsl_eigen_genv_alloc (const size_t n);void gsl_eigen_genv_free (gsl_eigen_genv_workspace * w);int gsl_eigen_genv (gsl_matrix * A, gsl_matrix * B,                    gsl_vector_complex * alpha, gsl_vector * beta,                    gsl_matrix_complex * evec,                    gsl_eigen_genv_workspace * w);int gsl_eigen_genv_QZ (gsl_matrix * A, gsl_matrix * B,                       gsl_vector_complex * alpha, gsl_vector * beta,                       gsl_matrix_complex * evec,                       gsl_matrix * Q, gsl_matrix * Z,                       gsl_eigen_genv_workspace * w);typedef enum {  GSL_EIGEN_SORT_VAL_ASC,  GSL_EIGEN_SORT_VAL_DESC,  GSL_EIGEN_SORT_ABS_ASC,  GSL_EIGEN_SORT_ABS_DESC}gsl_eigen_sort_t;/* Sort eigensystem results based on eigenvalues. * Sorts in order of increasing value or increasing * absolute value. * * exceptions: GSL_EBADLEN */int gsl_eigen_symmv_sort(gsl_vector * eval, gsl_matrix * evec,                         gsl_eigen_sort_t sort_type);int gsl_eigen_hermv_sort(gsl_vector * eval, gsl_matrix_complex * evec,                         gsl_eigen_sort_t sort_type);int gsl_eigen_nonsymmv_sort(gsl_vector_complex * eval,                            gsl_matrix_complex * evec,                            gsl_eigen_sort_t sort_type);int gsl_eigen_gensymmv_sort (gsl_vector * eval, gsl_matrix * evec,                              gsl_eigen_sort_t sort_type);int gsl_eigen_genhermv_sort (gsl_vector * eval, gsl_matrix_complex * evec,                              gsl_eigen_sort_t sort_type);int gsl_eigen_genv_sort (gsl_vector_complex * alpha, gsl_vector * beta,                         gsl_matrix_complex * evec,                         gsl_eigen_sort_t sort_type);/* Prototypes for the schur module */int gsl_schur_gen_eigvals(const gsl_matrix *A, const gsl_matrix *B,                          double *wr1, double *wr2, double *wi,                          double *scale1, double *scale2);int gsl_schur_solve_equation(double ca, const gsl_matrix *A, double z,                             double d1, double d2, const gsl_vector *b,                             gsl_vector *x, double *s, double *xnorm,                             double smin);int gsl_schur_solve_equation_z(double ca, const gsl_matrix *A,                               gsl_complex *z, double d1, double d2,                               const gsl_vector_complex *b,                               gsl_vector_complex *x, double *s,                               double *xnorm, double smin);/* The following functions are obsolete: *//* Eigensolve by Jacobi Method * * The data in the matrix input is destroyed. * * exceptions:  */intgsl_eigen_jacobi(gsl_matrix * matrix,                      gsl_vector * eval,                      gsl_matrix * evec,                      unsigned int max_rot,                       unsigned int * nrot);/* Invert by Jacobi Method * * exceptions:  */intgsl_eigen_invert_jacobi(const gsl_matrix * matrix,                             gsl_matrix * ainv,                             unsigned int max_rot);__END_DECLS#endif /* __GSL_EIGEN_H__ */

gsl_eigen.h - 源码说明

本页面展示了「math library from gnu」中的 gsl_eigen.h 源码文件,采用 C头文件 编程语言编写,共 346 行代码。您可以在线阅读完整代码内容,也可以返回资源详情页下载完整源码包进行本地学习和开发。

虫虫下载站收录了大量与GNU相关的技术资源,包括源代码、技术文档、电路图等,是电子工程师和嵌入式开发者的专业学习平台。

⌨️ 快捷键说明

复制代码Ctrl + C
搜索代码Ctrl + F
全屏模式F11
增大字号Ctrl + =
减小字号Ctrl + -
显示快捷键?