/usr/include/linbox/field/Modular/modular-int64.h is in liblinbox-dev 1.3.2-1.1.
This file is owned by root:root, with mode 0o644.
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* Adapted by B Boyer <brice.boyer@imag.fr>
* (from other modular-balanced* files)
*
*
* ========LICENCE========
* This file is part of the library LinBox.
*
* LinBox is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
* ========LICENCE========
*/
/*! @file field/Modular/modular-int64.h
* @ingroup field
* @brief representation of <code>Z/mZ</code> over \c int64_t .
*/
#ifndef __LINBOX_modular_int64_H
#define __LINBOX_modular_int64_H
#include <math.h>
#include "linbox/linbox-config.h"
#include "linbox/integer.h"
#include "linbox/vector/vector-domain.h"
#include "linbox/field/field-interface.h"
#include "linbox/field/field-traits.h"
#include "linbox/util/debug.h"
#include "linbox/field/field-traits.h"
#include <fflas-ffpack/field/modular-int64.h>
#ifndef LINBOX_MAX_INT64 /* 18446744073709551615L(L) is UINT64_MAX*/
#ifdef __x86_64__
#define LINBOX_MAX_INT64 INT64_MAX
#else
#define LINBOX_MAX_INT64 INT64_MAX
#endif
#endif
// Namespace in which all LinBox code resides
namespace LinBox
{
template< class Element >
class Modular;
template< class Element >
class ModularRandIter;
template<class Field>
class DotProductDomain;
template<class Field>
class FieldAXPY;
template<class Field>
class MVProductDomain;
template <class Ring>
struct ClassifyRing;
template <class Element>
struct ClassifyRing<Modular<Element> >;
template <>
struct ClassifyRing<Modular<int64_t> > {
typedef RingCategories::ModularTag categoryTag;
};
/** \brief Specialization of Modular to int64_t element type with efficient dot product.
*
* Efficient element operations for dot product, mul, axpy, by using floating point
* inverse of modulus (borrowed from NTL) and some use of non-normalized intermediate values.
*
* For some uses this is the most efficient field for primes in the range from half word
* to 2^62.
*
* Requires: Modulus < 2^62.
* Intended use: 2^30 < prime modulus < 2^62.
\ingroup field
*/
template <>
class Modular<int64_t> : public FieldInterface,
public FFPACK::Modular<int64_t> {
public:
typedef int64_t Element;
typedef FFPACK::Modular<int64_t> Father_t
friend class FieldAXPY<Modular<int64_t> >;
friend class DotProductDomain<Modular<int64_t> >;
friend class MVProductDomain<Modular<int64_t> >;
typedef ModularRandIter<int64_t> RandIter;
using Father_t ::cardinality;
inline integer &cardinality (integer &c) const
{
return c = modulus;
}
using Father_t ::characteristic;
inline integer &characteristic (integer &c) const
{
return c = modulus;
}
inline integer characteristic () const
{
return modulus;
}
using Father_t ::convert;
inline integer &convert (integer &x, const Element &y) const
{
return x = y;
}
using Father_t ::init;
inline Element &init (Element &x, const integer &y) const
{
x = Element (y % lmodulus);
if (x < 0) x += modulus;
return x;
}
private:
};
template <>
class FieldAXPY<Modular<int64_t> > {
public:
typedef int64_t Element;
typedef Modular<int64_t> Field;
FieldAXPY (const Field &F) :
_field (F),_y(0)
{}
FieldAXPY (const FieldAXPY &faxpy) :
_field (faxpy._field), _y (0)
{}
FieldAXPY<Modular<int64_t> > &operator = (const FieldAXPY &faxpy)
{
_field = faxpy._field;
_y = faxpy._y;
return *this;
}
inline uint64_t& mulacc (const Element &a, const Element &x)
{
uint64_t t = (uint64_t) a * (uint64_t) x;
_y += t;
if (_y < t)
return _y += _field._two64;
else
return _y;
}
inline uint64_t& accumulate (const Element &t)
{
_y += t;
if (_y < (uint64_t)t)
return _y += _field._two64;
else
return _y;
}
inline Element& get (Element &y)
{
y =_y % (uint64_t) _field.modulus;
return y;
}
inline FieldAXPY &assign (const Element y)
{
_y = y;
return *this;
}
inline void reset()
{
_y = 0;
}
protected:
Field _field;
uint64_t _y;
};
template <>
class DotProductDomain<Modular<int64_t> > : private virtual VectorDomainBase<Modular<int64_t> > {
public:
typedef int64_t Element;
DotProductDomain (const Modular<int64_t> &F) :
VectorDomainBase<Modular<int64_t> > (F)
{}
protected:
template <class Vector1, class Vector2>
inline Element &dotSpecializedDD (Element &res, const Vector1 &v1, const Vector2 &v2) const
{
typename Vector1::const_iterator i;
typename Vector2::const_iterator j;
uint64_t y = 0;
uint64_t t;
for (i = v1.begin (), j = v2.begin (); i < v1.end (); ++i, ++j)
{
t = ( (uint64_t) *i ) * ( (uint64_t) *j );
y += t;
if (y < t)
y += _field._two64;
}
y %= (uint64_t) _field.modulus;
return res = y;
}
template <class Vector1, class Vector2>
inline Element &dotSpecializedDSP (Element &res, const Vector1 &v1, const Vector2 &v2) const
{
typename Vector1::first_type::const_iterator i_idx;
typename Vector1::second_type::const_iterator i_elt;
uint64_t y = 0;
uint64_t t;
for (i_idx = v1.first.begin (), i_elt = v1.second.begin (); i_idx != v1.first.end (); ++i_idx, ++i_elt)
{
t = ( (uint64_t) *i_elt ) * ( (uint64_t) v2[*i_idx] );
y += t;
if (y < t)
y += _field._two64;
}
y %= (uint64_t) _field.modulus;
return res = y;
}
};
// Specialization of MVProductDomain for int64_t modular field
template <>
class MVProductDomain<Modular<int64_t> > {
public:
typedef int64_t Element;
protected:
template <class Vector1, class Matrix, class Vector2>
inline Vector1 &mulColDense
(const VectorDomain<Modular<int64_t> > &VD, Vector1 &w, const Matrix &A, const Vector2 &v) const
{
return mulColDenseSpecialized
(VD, w, A, v, typename VectorTraits<typename Matrix::Column>::VectorCategory ());
}
private:
template <class Vector1, class Matrix, class Vector2>
Vector1 &mulColDenseSpecialized
(const VectorDomain<Modular<int64_t> > &VD, Vector1 &w, const Matrix &A, const Vector2 &v,
VectorCategories::DenseVectorTag) const;
template <class Vector1, class Matrix, class Vector2>
Vector1 &mulColDenseSpecialized
(const VectorDomain<Modular<int64_t> > &VD, Vector1 &w, const Matrix &A, const Vector2 &v,
VectorCategories::SparseSequenceVectorTag) const;
template <class Vector1, class Matrix, class Vector2>
Vector1 &mulColDenseSpecialized
(const VectorDomain<Modular<int64_t> > &VD, Vector1 &w, const Matrix &A, const Vector2 &v,
VectorCategories::SparseAssociativeVectorTag) const;
template <class Vector1, class Matrix, class Vector2>
Vector1 &mulColDenseSpecialized
(const VectorDomain<Modular<int64_t> > &VD, Vector1 &w, const Matrix &A, const Vector2 &v,
VectorCategories::SparseParallelVectorTag) const;
mutable std::vector<uint64_t> _tmp;
};
template <class Vector1, class Matrix, class Vector2>
Vector1 & MVProductDomain<Modular<int64_t> >::
mulColDenseSpecialized (const VectorDomain<Modular<int64_t> > &VD,
Vector1 &w,
const Matrix &A,
const Vector2 &v,
VectorCategories::DenseVectorTag) const
{
linbox_check (A.coldim () == v.size ());
linbox_check (A.rowdim () == w.size ());
typename Matrix::ConstColIterator i = A.colBegin ();
typename Vector2::const_iterator j;
typename Matrix::Column::const_iterator k;
std::vector<uint64_t>::iterator l;
uint64_t t;
if (_tmp.size () < w.size ())
_tmp.resize (w.size ());
std::fill (_tmp.begin (), _tmp.begin () + w.size (), 0);
for (j = v.begin (); j != v.end (); ++j, ++i)
{
for (k = i->begin (), l = _tmp.begin (); k != i->end (); ++k, ++l)
{
t = ((uint64_t) *k) * ((uint64_t) *j);
*l += t;
if (*l < t)
*l += VD.field ()._two64;
}
}
typename Vector1::iterator w_j;
for (w_j = w.begin (), l = _tmp.begin (); w_j != w.end (); ++w_j, ++l)
*w_j = *l % VD.field ().modulus;
return w;
}
template <class Vector1, class Matrix, class Vector2>
Vector1 &MVProductDomain<Modular<int64_t> >::
mulColDenseSpecialized (const VectorDomain<Modular<int64_t> > &VD,
Vector1 &w,
const Matrix &A,
const Vector2 &v,
VectorCategories::SparseSequenceVectorTag) const
{
linbox_check (A.coldim () == v.size ());
linbox_check (A.rowdim () == w.size ());
typename Matrix::ConstColIterator i = A.colBegin ();
typename Vector2::const_iterator j;
typename Matrix::Column::const_iterator k;
std::vector<uint64_t>::iterator l;
uint64_t t;
if (_tmp.size () < w.size ())
_tmp.resize (w.size ());
std::fill (_tmp.begin (), _tmp.begin () + w.size (), 0);
for (j = v.begin (); j != v.end (); ++j, ++i)
{
for (k = i->begin (), l = _tmp.begin (); k != i->end (); ++k, ++l)
{
t = ((uint64_t) k->second) * ((uint64_t) *j);
_tmp[k->first] += t;
if (_tmp[k->first] < t)
_tmp[k->first] += VD.field ()._two64;
}
}
typename Vector1::iterator w_j;
for (w_j = w.begin (), l = _tmp.begin (); w_j != w.end (); ++w_j, ++l)
*w_j = *l % VD.field ().modulus;
return w;
}
template <class Vector1, class Matrix, class Vector2>
Vector1 &MVProductDomain<Modular<int64_t> > ::
mulColDenseSpecialized(const VectorDomain<Modular<int64_t> > &VD,
Vector1 &w,
const Matrix &A,
const Vector2 &v,
VectorCategories::SparseAssociativeVectorTag) const
{
linbox_check (A.coldim () == v.size ());
linbox_check (A.rowdim () == w.size ());
typename Matrix::ConstColIterator i = A.colBegin ();
typename Vector2::const_iterator j;
typename Matrix::Column::const_iterator k;
std::vector<uint64_t>::iterator l;
uint64_t t;
if (_tmp.size () < w.size ())
_tmp.resize (w.size ());
std::fill (_tmp.begin (), _tmp.begin () + w.size (), 0);
for (j = v.begin (); j != v.end (); ++j, ++i)
{
for (k = i->begin (), l = _tmp.begin (); k != i->end (); ++k, ++l)
{
t = ((uint64_t) k->second) * ((uint64_t) *j);
_tmp[k->first] += t;
if (_tmp[k->first] < t)
_tmp[k->first] += VD.field ()._two64;
}
}
typename Vector1::iterator w_j;
for (w_j = w.begin (), l = _tmp.begin (); w_j != w.end (); ++w_j, ++l)
*w_j = *l % VD.field ().modulus;
return w;
}
template <class Vector1, class Matrix, class Vector2>
Vector1 &MVProductDomain<Modular<int64_t> > ::
mulColDenseSpecialized (const VectorDomain<Modular<int64_t> > &VD,
Vector1 &w,
const Matrix &A,
const Vector2 &v,
VectorCategories::SparseParallelVectorTag) const
{
linbox_check (A.coldim () == v.size ());
linbox_check (A.rowdim () == w.size ());
typename Matrix::ConstColIterator i = A.colBegin ();
typename Vector2::const_iterator j;
typename Matrix::Column::first_type::const_iterator k_idx;
typename Matrix::Column::second_type::const_iterator k_elt;
std::vector<uint64_t>::iterator l;
uint64_t t;
if (_tmp.size () < w.size ())
_tmp.resize (w.size ());
std::fill (_tmp.begin (), _tmp.begin () + w.size (), 0);
for (j = v.begin (); j != v.end (); ++j, ++i)
{
for (k_idx = i->first.begin (), k_elt = i->second.begin (), l = _tmp.begin ();
k_idx != i->first.end ();
++k_idx, ++k_elt, ++l)
{
t = ((uint64_t) *k_elt) * ((uint64_t) *j);
_tmp[*k_idx] += t;
if (_tmp[*k_idx] < t)
_tmp[*k_idx] += VD.field ()._two64;
}
}
typename Vector1::iterator w_j;
for (w_j = w.begin (), l = _tmp.begin (); w_j != w.end (); ++w_j, ++l)
*w_j = *l % VD.field ().modulus;
return w;
}
}
#undef LINBOX_MAX_INT64
#include "linbox/randiter/modular.h"
#endif //__LINBOX_modular_int64_H
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