pqc/external/flint-2.4.3/fq_nmod_vec/doc/fq_nmod_vec.txt

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2014-05-18 22:03:37 +00:00
/*=============================================================================
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) 2013 Mike Hansen
******************************************************************************/
*******************************************************************************
Memory management
*******************************************************************************
fq_nmod_struct * _fq_nmod_vec_init(slong len, const fq_nmod_ctx_t ctx)
Returns an initialised vector of \code{fq_nmod}'s of given length.
void _fq_nmod_vec_clear(fq_nmod * vec, slong len, const fq_nmod_ctx_t ctx)
Clears the entries of \code{(vec, len)} and frees the space allocated
for \code{vec}.
*******************************************************************************
Randomisation
*******************************************************************************
void _fq_nmod_vec_randtest(fq_nmod_struct * f, flint_rand_t state,
slong len, const fq_nmod_ctx_t ctx)
Sets the entries of a vector of the given length to elements of
the finite field.
*******************************************************************************
Input and output
*******************************************************************************
int _fq_nmod_vec_fprint(FILE * file, const fq_nmod_struct * vec, slong len,
const fq_nmod_ctx_t ctx)
Prints the vector of given length to the stream \code{file}. The
format is the length followed by two spaces, then a space separated
list of coefficients. If the length is zero, only $0$ is printed.
In case of success, returns a positive value. In case of failure,
returns a non-positive value.
int _fq_nmod_vec_print(const fq_nmod_struct * vec, slong len,
const fq_nmod_ctx_t ctx)
Prints the vector of given length to \code{stdout}.
For further details, see \code{_fq_nmod_vec_fprint()}.
*******************************************************************************
Assignment and basic manipulation
*******************************************************************************
void _fq_nmod_vec_set(fq_nmod_struct * vec1, const fq_nmod_struct * vec2,
slong len2, const fq_nmod_ctx_t ctx)
Makes a copy of \code{(vec2, len2)} into \code{vec1}.
void _fq_nmod_vec_swap(fq_nmod_struct * vec1, fq_nmod_struct * vec2, slong len2,
const fq_nmod_ctx_t ctx)
Swaps the elements in \code{(vec1, len2)} and \code{(vec2, len2)}.
void _fq_nmod_vec_zero(fq_nmod_struct * vec, slong len, const fq_nmod_ctx_t ctx)
Zeros the entries of \code{(vec, len)}.
void _fq_nmod_vec_neg(fq_nmod_struct * vec1, const fq_nmod_struct * vec2,
slong len2, const fq_nmod_ctx_t ctx)
Negates \code{(vec2, len2)} and places it into \code{vec1}.
*******************************************************************************
Comparison
*******************************************************************************
int _fq_nmod_vec_equal(const fq_nmod_struct * vec1, const fq_nmod_struct * vec2,
slong len, const fq_nmod_ctx_t ctx)
Compares two vectors of the given length and returns $1$ if they are
equal, otherwise returns $0$.
int _fq_nmod_vec_is_zero(const fq_nmod_struct * vec, slong len, const ctx_ctx)
Returns $1$ if \code{(vec, len)} is zero, and $0$ otherwise.
*******************************************************************************
Addition and subtraction
*******************************************************************************
void _fq_nmod_vec_add(fq_nmod_struct * res, const fq_nmod_struct * vec1,
const fq_nmod_struct * vec2, slong len2,
const fq_nmod_ctx_t ctx)
Sets \code{(res, len2)} to the sum of \code{(vec1, len2)}
and \code{(vec2, len2)}.
void _fq_nmod_vec_sub(fq_nmod_struct * res, const fq_nmod_struct * vec1,
const fq_nmod_struct * vec2, slong len2,
const fq_nmod_ctx_t ctx)
Sets \code{(res, len2)} to \code{(vec1, len2)} minus \code{(vec2, len2)}.
*******************************************************************************
Scalar multiplication and division
*******************************************************************************
void _fq_nmod_vec_scalar_addmul_fq_nmod(fq_nmod_struct * vec1,
const fq_nmod_struct * vec2, slong len2,
const fq_nmod_t c,
const fq_nmod_ctx_t ctx)
Adds \code{(vec2, len2)} times $c$ to \code{(vec1, len2)}, where
$c$ is a \code{fq_nmod_t}.
void _fq_nmod_vec_scalar_submul_fq_nmod(fq_nmod_struct * vec1,
const fq_nmod_struct * vec2, slong len2,
const fq_nmod_t c,
const fq_nmod_ctx_t ctx)
Subtracts \code{(vec2, len2)} times $c$ from \code{(vec1, len2)},
where $c$ is a \code{fq_nmod_t}.
*******************************************************************************
Dot products
*******************************************************************************
void _fq_nmod_vec_dot(fq_nmod_t res, const fq_nmod_struct * vec1,
const fq_nmod_struct * vec2, slong len2,
const fq_nmod_ctx_t ctx)
Sets \code{res} to the dot product of (\code{vec1}, \code{len})
and (\code{vec2}, \code{len}).