/*============================================================================= This file is part of FLINT. FLINT 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. FLINT 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 FLINT; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA =============================================================================*/ /****************************************************************************** Copyright (C) 2011 Fredrik Johansson ******************************************************************************/ #ifndef FMPQ_MAT_H #define FMPQ_MAT_H #include #include "flint.h" #include "fmpz.h" #include "fmpz_mat.h" #include "fmpq.h" #ifdef __cplusplus extern "C" { #endif typedef struct { fmpq * entries; slong r; slong c; fmpq ** rows; } fmpq_mat_struct; typedef fmpq_mat_struct fmpq_mat_t[1]; #define fmpq_mat_entry(mat,i,j) ((mat)->rows[(i)] + (j)) #define fmpq_mat_entry_num(mat,i,j) ((fmpz *)(&((*fmpq_mat_entry(mat,i,j)).num))) #define fmpq_mat_entry_den(mat,i,j) ((fmpz *)(&((*fmpq_mat_entry(mat,i,j)).den))) #define fmpq_mat_nrows(mat) ((mat)->r) #define fmpq_mat_ncols(mat) ((mat)->c) void fmpq_mat_init(fmpq_mat_t mat, slong rows, slong cols); void fmpq_mat_clear(fmpq_mat_t mat); void fmpq_mat_print(const fmpq_mat_t mat); /* Random matrix generation **************************************************/ void fmpq_mat_randbits(fmpq_mat_t mat, flint_rand_t state, mp_bitcnt_t bits); void fmpq_mat_randtest(fmpq_mat_t mat, flint_rand_t state, mp_bitcnt_t bits); /* Special matrices **********************************************************/ void fmpq_mat_hilbert_matrix(fmpq_mat_t mat); /* Basic assignment **********************************************************/ void fmpq_mat_set(fmpq_mat_t dest, const fmpq_mat_t src); void fmpq_mat_zero(fmpq_mat_t mat); void fmpq_mat_one(fmpq_mat_t mat); void fmpq_mat_transpose(fmpq_mat_t rop, const fmpq_mat_t op); /* Addition, scalar multiplication ******************************************/ void fmpq_mat_add(fmpq_mat_t mat, const fmpq_mat_t mat1, const fmpq_mat_t mat2); void fmpq_mat_sub(fmpq_mat_t mat, const fmpq_mat_t mat1, const fmpq_mat_t mat2); void fmpq_mat_neg(fmpq_mat_t rop, const fmpq_mat_t op); void fmpq_mat_scalar_mul_fmpz(fmpq_mat_t rop, const fmpq_mat_t op, const fmpz_t x); void fmpq_mat_scalar_div_fmpz(fmpq_mat_t rop, const fmpq_mat_t op, const fmpz_t x); /* Basic comparison and properties *******************************************/ int fmpq_mat_equal(const fmpq_mat_t mat1, const fmpq_mat_t mat2); int fmpq_mat_is_integral(const fmpq_mat_t mat); int fmpq_mat_is_zero(const fmpq_mat_t mat); static __inline__ int fmpq_mat_is_empty(const fmpq_mat_t mat) { return (mat->r == 0) || (mat->c == 0); } static __inline__ int fmpq_mat_is_square(const fmpq_mat_t mat) { return (mat->r == mat->c); } /* Integer matrix conversion *************************************************/ int fmpq_mat_get_fmpz_mat(fmpz_mat_t dest, const fmpq_mat_t mat); void fmpq_mat_get_fmpz_mat_entrywise(fmpz_mat_t num, fmpz_mat_t den, const fmpq_mat_t mat); void fmpq_mat_get_fmpz_mat_matwise(fmpz_mat_t num, fmpz_t den, const fmpq_mat_t mat); void fmpq_mat_get_fmpz_mat_rowwise(fmpz_mat_t num, fmpz * den, const fmpq_mat_t mat); void fmpq_mat_get_fmpz_mat_colwise(fmpz_mat_t num, fmpz * den, const fmpq_mat_t mat); void fmpq_mat_get_fmpz_mat_rowwise_2(fmpz_mat_t num, fmpz_mat_t num2, fmpz * den, const fmpq_mat_t mat, const fmpq_mat_t mat2); void fmpq_mat_get_fmpz_mat_mod_fmpz(fmpz_mat_t dest, const fmpq_mat_t mat, const fmpz_t mod); void fmpq_mat_set_fmpz_mat(fmpq_mat_t dest, const fmpz_mat_t src); void fmpq_mat_set_fmpz_mat_div_fmpz(fmpq_mat_t X, const fmpz_mat_t Xmod, const fmpz_t div); int fmpq_mat_set_fmpz_mat_mod_fmpz(fmpq_mat_t X, const fmpz_mat_t Xmod, const fmpz_t mod); /* Matrix multiplication *****************************************************/ void fmpq_mat_mul_direct(fmpq_mat_t C, const fmpq_mat_t A, const fmpq_mat_t B); void fmpq_mat_mul_cleared(fmpq_mat_t C, const fmpq_mat_t A, const fmpq_mat_t B); void fmpq_mat_mul(fmpq_mat_t C, const fmpq_mat_t A, const fmpq_mat_t B); void fmpq_mat_mul_fmpz_mat(fmpq_mat_t C, const fmpq_mat_t A, const fmpz_mat_t B); void fmpq_mat_mul_r_fmpz_mat(fmpq_mat_t C, const fmpz_mat_t A, const fmpq_mat_t B); /* Trace *********************************************************************/ void fmpq_mat_trace(fmpq_t trace, const fmpq_mat_t mat); /* Determinant ***************************************************************/ void fmpq_mat_det(fmpq_t det, const fmpq_mat_t mat); /* Nonsingular solving *******************************************************/ int fmpq_mat_solve_fraction_free(fmpq_mat_t X, const fmpq_mat_t A, const fmpq_mat_t B); int fmpq_mat_solve_dixon(fmpq_mat_t X, const fmpq_mat_t A, const fmpq_mat_t B); /* Inverse *******************************************************************/ int fmpq_mat_inv(fmpq_mat_t B, const fmpq_mat_t A); /* Echelon form **************************************************************/ int fmpq_mat_pivot(slong * perm, fmpq_mat_t mat, slong r, slong c); slong fmpq_mat_rref_classical(fmpq_mat_t B, const fmpq_mat_t A); slong fmpq_mat_rref_fraction_free(fmpq_mat_t B, const fmpq_mat_t A); slong fmpq_mat_rref(fmpq_mat_t B, const fmpq_mat_t A); #ifdef __cplusplus } #endif #endif