triangle_group_limit_set/linalg.h
2018-10-27 14:56:46 -07:00

50 lines
1.8 KiB
C

#ifndef LINALG_H
#define LINALG_H
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <gsl/gsl_math.h>
#include <gsl/gsl_eigen.h>
#include <gsl/gsl_blas.h>
#include <gsl/gsl_linalg.h>
#include <memory.h>
#define ERROR(condition, msg, ...) if(condition){fprintf(stderr, msg, ##__VA_ARGS__); exit(1);}
#define FCMP(x, y) gsl_fcmp(x, y, 1e-10)
typedef struct _workspace {
int n;
gsl_eigen_nonsymmv_workspace *work_nonsymmv;
gsl_eigen_symmv_workspace *work_symmv;
gsl_vector *work_sv;
gsl_vector_complex *eval_complex;
gsl_matrix_complex *evec_complex;
gsl_vector *eval_real;
gsl_matrix *evec_real;
gsl_matrix *tmp;
gsl_permutation *permutation;
gsl_matrix *stack[20];
} workspace_t;
workspace_t *workspace_alloc(int n);
void workspace_free(workspace_t *workspace);
void invert(gsl_matrix *in, gsl_matrix *out, workspace_t *ws);
void conjugate(gsl_matrix *in, gsl_matrix *conjugator, gsl_matrix *out, workspace_t *ws);
void multiply(gsl_matrix *a, gsl_matrix *b, gsl_matrix *out);
void multiply_right(gsl_matrix *a, gsl_matrix *b, workspace_t *ws);
void multiply_left(gsl_matrix *a, gsl_matrix *b, workspace_t *ws);
void multiply_many(workspace_t *ws, gsl_matrix *out, int n, ...);
void cartan_calc(gsl_matrix *g, double *mu, workspace_t *ws);
void initialize(gsl_matrix *g, double *data, int x, int y);
void rotation_matrix(gsl_matrix *g, double *vector);
int jordan_calc(gsl_matrix *g, double *mu, workspace_t *ws);
double trace(gsl_matrix *g);
double determinant(gsl_matrix *g, workspace_t *ws);
int eigenvectors(gsl_matrix *g, gsl_matrix *evec, workspace_t *ws);
int real_eigenvectors(gsl_matrix *g, gsl_matrix *evec, workspace_t *ws);
void eigenvectors_symm(gsl_matrix *g, gsl_vector *eval, gsl_matrix *evec, workspace_t *ws);
int diagonalize_symmetric_form(gsl_matrix *A, gsl_matrix *cob, workspace_t *ws);
#endif