/usr/include/m4rie/permutation.h is in libm4rie-dev 20140914-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* \file permutation.h
* \brief Permutation matrices.
*
* \author Martin Albrecht <martinralbrecht@googlemail.com>
*/
#ifndef M4RIE_PERMUTATION_H
#define M4RIE_PERMUTATION_H
/******************************************************************************
*
* M4RIE: Linear Algebra over GF(2^e)
*
* Copyright (C) 2011 Martin Albrecht <martinralbrecht@googlemail.com>
*
* Distributed under the terms of the GNU General Public License (GEL)
* version 2 or higher.
*
* This code 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.
*
* The full text of the GPL is available at:
*
* http://www.gnu.org/licenses/
******************************************************************************/
#include <m4ri/mzp.h>
#include <m4rie/mzed.h>
#include <m4rie/mzd_slice.h>
/**
* Apply the permutation P to A from the left.
*
* This is equivalent to row swaps walking from 0 to length-1.
*
* \param A Matrix.
* \param P Permutation.
*/
static inline void mzed_apply_p_left(mzed_t *A, mzp_t const *P) {
mzd_apply_p_left(A->x, P);
}
/**
* Apply the permutation P to A from the left but transpose P before.
*
* This is equivalent to row swaps walking from length-1 to 0.
*
* \param A Matrix.
* \param P Permutation.
*/
static inline void mzed_apply_p_left_trans(mzed_t *A, mzp_t const *P) {
mzd_apply_p_left_trans(A->x, P);
}
/**
* Apply the permutation P to A from the right.
*
* This is equivalent to column swaps walking from length-1 to 0.
*
* \param A Matrix.
* \param P Permutation.
*/
static inline void mzed_apply_p_right(mzed_t *A, mzp_t const *P) {
if(A->nrows == 0)
return;
rci_t const length = MIN(P->length, A->ncols);
for (rci_t i = length-1; i >= 0; --i) {
mzed_col_swap(A, i, P->values[i]);
}
}
/**
* Apply the permutation P to A from the right but transpose P before.
*
* This is equivalent to column swaps walking from 0 to length-1.
*
* \param A Matrix.
* \param P Permutation.
*/
static inline void mzed_apply_p_right_trans(mzed_t *A, mzp_t const *P) {
if(A->nrows == 0)
return;
rci_t const length = MIN(P->length, A->ncols);
for (rci_t i = 0; i < length; ++i) {
mzed_col_swap(A, i, P->values[i]);
}
}
/**
* Apply the permutation P to A from the left.
*
* This is equivalent to row swaps walking from 0 to length-1.
*
* \param A Matrix.
* \param P Permutation.
*/
static inline void mzd_slice_apply_p_left(mzd_slice_t *A, mzp_t const *P) {
for(int i=0; i<A->depth; i++) {
mzd_apply_p_left(A->x[i], P);
}
}
/**
* Apply the permutation P to A from the left but transpose P before.
*
* This is equivalent to row swaps walking from length-1 to 0.
*
* \param A Matrix.
* \param P Permutation.
*/
static inline void mzd_slice_apply_p_left_trans(mzd_slice_t *A, mzp_t const *P) {
for(int i=0; i<A->depth; i++) {
mzd_apply_p_left_trans(A->x[i], P);
}
}
/**
* Apply the permutation P to A from the right.
*
* This is equivalent to column swaps walking from length-1 to 0.
*
* \param A Matrix.
* \param P Permutation.
*/
static inline void mzd_slice_apply_p_right(mzd_slice_t *A, mzp_t const *P) {
for(int i=0; i<A->depth; i++) {
mzd_apply_p_right(A->x[i], P);
}
}
/**
* Apply the permutation P to A from the right but transpose P before.
*
* This is equivalent to column swaps walking from 0 to length-1.
*
* \param A Matrix.
* \param P Permutation.
*/
static inline void mzd_slice_apply_p_right_trans(mzd_slice_t *A, mzp_t const *P) {
for(int i=0; i<A->depth; i++) {
mzd_apply_p_right_trans(A->x[i], P);
}
}
/**
* Apply the permutation P to A from the right, but only on the upper
* the matrix A above the main diagonal.
*
* This is equivalent to column swaps walking from 0 to length-1 and
* is used to compress PLE to PLUQ.
*
* \param A Matrix.
* \param P Permutation.
*/
static inline void mzd_slice_apply_p_right_trans_tri(mzd_slice_t *A, mzp_t const *P) {
for(int i=0; i<A->depth; i++) {
mzd_apply_p_right_trans_tri(A->x[i], P);
}
}
#endif // M4RIE_PERMUTATION_H
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