/* matrix/gsl_matrix_complex_double.h * * Copyright (C) 1996, 1997, 1998, 1999, 2000 Gerard Jungman, Brian Gough * * 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 2 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_MATRIX_COMPLEX_DOUBLE_H__ #define __GSL_MATRIX_COMPLEX_DOUBLE_H__ #include #include #include #include #include #include #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_DECLS typedef struct { size_t size1; size_t size2; size_t tda; double * data; gsl_block_complex * block; int owner; } gsl_matrix_complex ; typedef struct { gsl_matrix_complex matrix; } _gsl_matrix_complex_view; typedef _gsl_matrix_complex_view gsl_matrix_complex_view; typedef struct { gsl_matrix_complex matrix; } _gsl_matrix_complex_const_view; typedef const _gsl_matrix_complex_const_view gsl_matrix_complex_const_view; /* Allocation */ gsl_matrix_complex * gsl_matrix_complex_alloc (const size_t n1, const size_t n2); gsl_matrix_complex * gsl_matrix_complex_calloc (const size_t n1, const size_t n2); gsl_matrix_complex * gsl_matrix_complex_alloc_from_block (gsl_block_complex * b, const size_t offset, const size_t n1, const size_t n2, const size_t d2); gsl_matrix_complex * gsl_matrix_complex_alloc_from_matrix (gsl_matrix_complex * b, const size_t k1, const size_t k2, const size_t n1, const size_t n2); gsl_vector_complex * gsl_vector_complex_alloc_row_from_matrix (gsl_matrix_complex * m, const size_t i); gsl_vector_complex * gsl_vector_complex_alloc_col_from_matrix (gsl_matrix_complex * m, const size_t j); void gsl_matrix_complex_free (gsl_matrix_complex * m); /* Views */ _gsl_matrix_complex_view gsl_matrix_complex_submatrix (gsl_matrix_complex * m, const size_t i, const size_t j, const size_t n1, const size_t n2); _gsl_vector_complex_view gsl_matrix_complex_row (gsl_matrix_complex * m, const size_t i); _gsl_vector_complex_view gsl_matrix_complex_column (gsl_matrix_complex * m, const size_t j); _gsl_vector_complex_view gsl_matrix_complex_diagonal (gsl_matrix_complex * m); _gsl_vector_complex_view gsl_matrix_complex_subdiagonal (gsl_matrix_complex * m, const size_t k); _gsl_vector_complex_view gsl_matrix_complex_superdiagonal (gsl_matrix_complex * m, const size_t k); _gsl_matrix_complex_view gsl_matrix_complex_view_array (double * base, const size_t n1, const size_t n2); _gsl_matrix_complex_view gsl_matrix_complex_view_array_with_tda (double * base, const size_t n1, const size_t n2, const size_t tda); _gsl_matrix_complex_view gsl_matrix_complex_view_vector (gsl_vector_complex * v, const size_t n1, const size_t n2); _gsl_matrix_complex_view gsl_matrix_complex_view_vector_with_tda (gsl_vector_complex * v, const size_t n1, const size_t n2, const size_t tda); _gsl_matrix_complex_const_view gsl_matrix_complex_const_submatrix (const gsl_matrix_complex * m, const size_t i, const size_t j, const size_t n1, const size_t n2); _gsl_vector_complex_const_view gsl_matrix_complex_const_row (const gsl_matrix_complex * m, const size_t i); _gsl_vector_complex_const_view gsl_matrix_complex_const_column (const gsl_matrix_complex * m, const size_t j); _gsl_vector_complex_const_view gsl_matrix_complex_const_diagonal (const gsl_matrix_complex * m); _gsl_vector_complex_const_view gsl_matrix_complex_const_subdiagonal (const gsl_matrix_complex * m, const size_t k); _gsl_vector_complex_const_view gsl_matrix_complex_const_superdiagonal (const gsl_matrix_complex * m, const size_t k); _gsl_matrix_complex_const_view gsl_matrix_complex_const_view_array (const double * base, const size_t n1, const size_t n2); _gsl_matrix_complex_const_view gsl_matrix_complex_const_view_array_with_tda (const double * base, const size_t n1, const size_t n2, const size_t tda); _gsl_matrix_complex_const_view gsl_matrix_complex_const_view_vector (const gsl_vector_complex * v, const size_t n1, const size_t n2); _gsl_matrix_complex_const_view gsl_matrix_complex_const_view_vector_with_tda (const gsl_vector_complex * v, const size_t n1, const size_t n2, const size_t tda); /* Operations */ gsl_complex gsl_matrix_complex_get(const gsl_matrix_complex * m, const size_t i, const size_t j); void gsl_matrix_complex_set(gsl_matrix_complex * m, const size_t i, const size_t j, const gsl_complex x); gsl_complex * gsl_matrix_complex_ptr(gsl_matrix_complex * m, const size_t i, const size_t j); const gsl_complex * gsl_matrix_complex_const_ptr(const gsl_matrix_complex * m, const size_t i, const size_t j); void gsl_matrix_complex_set_zero (gsl_matrix_complex * m); void gsl_matrix_complex_set_identity (gsl_matrix_complex * m); void gsl_matrix_complex_set_all (gsl_matrix_complex * m, gsl_complex x); int gsl_matrix_complex_fread (FILE * stream, gsl_matrix_complex * m) ; int gsl_matrix_complex_fwrite (FILE * stream, const gsl_matrix_complex * m) ; int gsl_matrix_complex_fscanf (FILE * stream, gsl_matrix_complex * m); int gsl_matrix_complex_fprintf (FILE * stream, const gsl_matrix_complex * m, const char * format); int gsl_matrix_complex_memcpy(gsl_matrix_complex * dest, const gsl_matrix_complex * src); int gsl_matrix_complex_swap(gsl_matrix_complex * m1, gsl_matrix_complex * m2); int gsl_matrix_complex_swap_rows(gsl_matrix_complex * m, const size_t i, const size_t j); int gsl_matrix_complex_swap_columns(gsl_matrix_complex * m, const size_t i, const size_t j); int gsl_matrix_complex_swap_rowcol(gsl_matrix_complex * m, const size_t i, const size_t j); int gsl_matrix_complex_transpose (gsl_matrix_complex * m); int gsl_matrix_complex_transpose_memcpy (gsl_matrix_complex * dest, const gsl_matrix_complex * src); int gsl_matrix_complex_isnull (const gsl_matrix_complex * m); int gsl_matrix_complex_add (gsl_matrix_complex * a, const gsl_matrix_complex * b); int gsl_matrix_complex_sub (gsl_matrix_complex * a, const gsl_matrix_complex * b); int gsl_matrix_complex_mul_elements (gsl_matrix_complex * a, const gsl_matrix_complex * b); int gsl_matrix_complex_div_elements (gsl_matrix_complex * a, const gsl_matrix_complex * b); int gsl_matrix_complex_scale (gsl_matrix_complex * a, const gsl_complex x); int gsl_matrix_complex_add_constant (gsl_matrix_complex * a, const gsl_complex x); int gsl_matrix_complex_add_diagonal (gsl_matrix_complex * a, const gsl_complex x); /***********************************************************************/ /* The functions below are obsolete */ /***********************************************************************/ int gsl_matrix_complex_get_row(gsl_vector_complex * v, const gsl_matrix_complex * m, const size_t i); int gsl_matrix_complex_get_col(gsl_vector_complex * v, const gsl_matrix_complex * m, const size_t j); int gsl_matrix_complex_set_row(gsl_matrix_complex * m, const size_t i, const gsl_vector_complex * v); int gsl_matrix_complex_set_col(gsl_matrix_complex * m, const size_t j, const gsl_vector_complex * v); #ifdef HAVE_INLINE extern inline gsl_complex gsl_matrix_complex_get(const gsl_matrix_complex * m, const size_t i, const size_t j) { #if GSL_RANGE_CHECK gsl_complex zero = {{0,0}}; if (i >= m->size1) { GSL_ERROR_VAL("first index out of range", GSL_EINVAL, zero) ; } else if (j >= m->size2) { GSL_ERROR_VAL("second index out of range", GSL_EINVAL, zero) ; } #endif return *(gsl_complex *)(m->data + 2*(i * m->tda + j)) ; } extern inline void gsl_matrix_complex_set(gsl_matrix_complex * m, const size_t i, const size_t j, const gsl_complex x) { #if GSL_RANGE_CHECK if (i >= m->size1) { GSL_ERROR_VOID("first index out of range", GSL_EINVAL) ; } else if (j >= m->size2) { GSL_ERROR_VOID("second index out of range", GSL_EINVAL) ; } #endif *(gsl_complex *)(m->data + 2*(i * m->tda + j)) = x ; } extern inline gsl_complex * gsl_matrix_complex_ptr(gsl_matrix_complex * m, const size_t i, const size_t j) { #if GSL_RANGE_CHECK if (i >= m->size1) { GSL_ERROR_NULL("first index out of range", GSL_EINVAL) ; } else if (j >= m->size2) { GSL_ERROR_NULL("second index out of range", GSL_EINVAL) ; } #endif return (gsl_complex *)(m->data + 2*(i * m->tda + j)) ; } extern inline const gsl_complex * gsl_matrix_complex_const_ptr(const gsl_matrix_complex * m, const size_t i, const size_t j) { #if GSL_RANGE_CHECK if (i >= m->size1) { GSL_ERROR_NULL("first index out of range", GSL_EINVAL) ; } else if (j >= m->size2) { GSL_ERROR_NULL("second index out of range", GSL_EINVAL) ; } #endif return (const gsl_complex *)(m->data + 2*(i * m->tda + j)) ; } #endif /* HAVE_INLINE */ __END_DECLS #endif /* __GSL_MATRIX_COMPLEX_DOUBLE_H__ */