/usr/include/rheolef/vec.h is in librheolef-dev 6.5-1build1.
This file is owned by root:root, with mode 0o644.
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#define _RHEO_VEC_H
///
/// This file is part of Rheolef.
///
/// Copyright (C) 2000-2009 Pierre Saramito <Pierre.Saramito@imag.fr>
///
/// Rheolef 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.
///
/// Rheolef 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 Rheolef; if not, write to the Free Software
/// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
///
/// =========================================================================
# include "rheolef/array.h"
# include "boost/numeric/ublas/storage.hpp"
namespace rheolef {
// for vec[range]:
using boost::numeric::ublas::basic_range;
using boost::numeric::ublas::range;
template <class Expr> struct vec_expr;
template <class T, class M> class vec_range;
template <class T, class M> class vec_range_const;
// for vec = {x,y};
template <class T, class M> class vec_concat_value;
/*Class:vec
NAME: @code{vec} - vector in distributed environment (@PACKAGE@-@VERSION@)
SYNOPSYS:
STL-like vector container for a sequential or
distributed memory machine model.
Additional operation fom classical algebra.
EXAMPLE:
A sample usage of the class is:
@example
int main(int argc, char**argv) @{
environment distributed(argc, argv);
vec<double> x(100, 3.14);
dout << x << endl;
@}
@end example
IMPLEMENTATION NOTE:
Implementation use array<T,M>.
SEE ALSO: "array"(1)
AUTHORS: Pierre.Saramito@imag.fr
DATE: 19 november 1998
End:
*/
//<vec:
template <class T, class M = rheo_default_memory_model>
class vec : public array<T, M> {
public:
// typedef:
typedef array<T, M> base;
typedef typename base::size_type size_type;
typedef std::ptrdiff_t difference_type;
#ifdef TODO
// pb compile avec boost sur foehn:
typedef typename base::difference_type difference_type;
#endif // TODO
typedef basic_range<size_type, difference_type> range_type;
typedef typename base::reference reference;
typedef typename base::const_reference const_reference;
typedef typename base::iterator iterator;
typedef typename base::const_iterator const_iterator;
// allocator/deallocator:
vec (const distributor& ownership,
const T& init_val = std::numeric_limits<T>::max());
vec(size_type dis_size = 0,
const T& init_val = std::numeric_limits<T>::max());
void resize (
const distributor& ownership,
const T& init_val = std::numeric_limits<T>::max());
void resize (
size_type size = 0,
const T& init_val = std::numeric_limits<T>::max());
// accessors:
const_reference operator[] (size_type i) const;
reference operator[] (size_type i);
T max_abs () const;
// range:
vec(const vec_range<T,M>& vr);
vec(const vec_range_const<T,M>& vr);
vec<T,M>& operator= (const vec_range<T,M>& vr);
vec<T,M>& operator= (const vec_range_const<T,M>& vr);
vec_range_const<T,M> operator[] (const range_type& r) const;
vec_range<T,M> operator[] (const range_type& r);
// assignment to a constant:
vec<T,M>& operator= (const int& expr);
vec<T,M>& operator= (const T& expr);
// expression template:
template<typename Expr>
vec (const vec_expr<Expr>& expr);
template<typename Expr>
vec<T,M>& operator= (const vec_expr<Expr>& expr);
// initializer list (c++ 2011):
#ifdef _RHEOLEF_HAVE_STD_INITIALIZER_LIST
vec (const std::initializer_list<vec_concat_value<T,M> >& init_list);
vec<T,M>& operator= (const std::initializer_list<vec_concat_value<T,M> >& init_list);
#endif // _RHEOLEF_HAVE_STD_INITIALIZER_LIST
};
//>vec:
// ----------------------------------------------------------------------------
// inlined
// ----------------------------------------------------------------------------
template <class T, class M>
inline
vec<T,M>::vec (
const distributor& ownership,
const T& init_val)
: array<T,M>(ownership,init_val)
{
}
template <class T, class M>
inline
vec<T,M>::vec (
size_type dis_size,
const T& init_val)
: array<T,M>(dis_size,init_val)
{
}
template <class T, class M>
inline
void
vec<T,M>::resize (
const distributor& ownership,
const T& init_val)
{
base::resize (ownership, init_val);
}
template <class T, class M>
inline
void
vec<T,M>::resize (
size_type dis_size,
const T& init_val)
{
base::resize (dis_size, init_val);
}
template <class T, class M>
inline
vec<T,M>&
vec<T,M>::operator= (const int& expr)
{
std::fill (array<T,M>::begin(), array<T,M>::end(), expr);
return *this;
}
template <class T, class M>
inline
vec<T,M>&
vec<T,M>::operator= (const T& expr)
{
std::fill (array<T,M>::begin(), array<T,M>::end(), expr);
return *this;
}
template <class T, class M>
inline
vec<T,M>&
vec<T,M>::operator= (const vec_range_const<T,M>& vr)
{
distributor ownership (distributor::decide, vr._u.comm(), vr._r.size());
resize (ownership);
std::copy (vr.begin(), vr.end(), base::begin());
return *this;
}
template <class T, class M>
inline
vec<T,M>&
vec<T,M>::operator= (const vec_range<T,M>& vr)
{
operator= (vec_range_const<T,M>(vr));
return *this;
}
template <class T, class M>
inline
vec<T,M>::vec(const vec_range<T,M>& vr)
: array<T,M>()
{
operator= (vr);
}
template <class T, class M>
inline
vec<T,M>::vec(const vec_range_const<T,M>& vr)
: array<T,M>()
{
operator= (vr);
}
template <class T, class M>
inline
typename vec<T,M>::const_reference
vec<T,M>::operator[] (size_type i) const
{
return base::operator[] (i);
}
template <class T, class M>
inline
typename vec<T,M>::reference
vec<T,M>::operator[] (size_type i)
{
return base::operator[] (i);
}
template <class T, class M>
inline
vec_range<T,M>
vec<T,M>::operator[] (const range_type& r)
{
return vec_range<T,M> (*this, r);
}
template <class T, class M>
inline
vec_range_const<T,M>
vec<T,M>::operator[] (const range_type& r) const
{
return vec_range_const<T,M> (*this, r);
}
template <class T, class M>
inline
T
vec<T,M>::max_abs () const
{
T val = 0;
for (const_iterator iter = base::begin(), last = base::end(); iter != last; iter++) {
val = std::max(val, abs(*iter));
}
#ifdef _RHEOLEF_HAVE_MPI
val = mpi::all_reduce (base::comm(), val, mpi::maximum<T>());
#endif // _RHEOLEF_HAVE_MPI
return val;
}
template <class T>
inline
idiststream&
operator >> (idiststream& ips, vec<T,sequential>& x)
{
return x.get_values(ips);
}
template <class T, class M>
inline
odiststream&
operator << (odiststream& ods, const vec<T,M>& x)
{
iorheo::flag_type format = iorheo::flags(ods.os()) & iorheo::format_field;
if (format [iorheo::matlab] || format [iorheo::sparse_matlab]) {
return x.data().put_matlab (ods);
}
// default is raw output
return x.put_values(ods);
}
#ifdef _RHEOLEF_HAVE_MPI
template <class T>
inline
idiststream&
operator >> (idiststream& ips, vec<T,distributed>& x)
{
return x.get_values(ips);
}
#ifdef TO_CLEAN
template <class T>
inline
odiststream&
operator << (odiststream& ods, const vec<T,distributed>& x)
{
iorheo::flag_type format = iorheo::flags(ods.os()) & iorheo::format_field;
if (format [iorheo::matlab] || format [iorheo::sparse_matlab]) {
warning_macro ("put_matlab");
return x.put_matlab (ods);
}
// default is raw output
warning_macro ("put_default");
return x.put_values(ods);
}
#endif // TO_CLEAN
#endif // _RHEOLEF_HAVE_MPI
} // namespace rheolef
#endif // _RHEO_VEC_H
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