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605 lines
26 KiB
605 lines
26 KiB
/* -*- c++ -*- (enables emacs c++ mode) */
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/*===========================================================================
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Copyright (C) 2003-2017 Yves Renard
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This file is a part of GetFEM++
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GetFEM++ is free software; you can redistribute it and/or modify it
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under the terms of the GNU Lesser General Public License as published
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by the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version along with the GCC Runtime Library
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Exception either version 3.1 or (at your option) any later version.
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This program is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
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License and GCC Runtime Library Exception for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with this program; if not, write to the Free Software Foundation,
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Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA.
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As a special exception, you may use this file as it is a part of a free
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software library without restriction. Specifically, if other files
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instantiate templates or use macros or inline functions from this file,
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or you compile this file and link it with other files to produce an
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executable, this file does not by itself cause the resulting executable
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to be covered by the GNU Lesser General Public License. This exception
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does not however invalidate any other reasons why the executable file
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might be covered by the GNU Lesser General Public License.
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===========================================================================*/
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/**@file gmm_real_part.h
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@author Yves Renard <Yves.Renard@insa-lyon.fr>
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@date September 18, 2003.
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@brief extract the real/imaginary part of vectors/matrices
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*/
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#ifndef GMM_REAL_PART_H
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#define GMM_REAL_PART_H
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#include "gmm_def.h"
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#include "gmm_vector.h"
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namespace gmm {
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struct linalg_real_part {};
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struct linalg_imag_part {};
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template <typename R, typename PART> struct which_part {};
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template <typename C> typename number_traits<C>::magnitude_type
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real_or_imag_part(C x, linalg_real_part) { return gmm::real(x); }
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template <typename C> typename number_traits<C>::magnitude_type
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real_or_imag_part(C x, linalg_imag_part) { return gmm::imag(x); }
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template <typename T, typename C, typename OP> C
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complex_from(T x, C y, OP op, linalg_real_part) { return std::complex<T>(op(std::real(y), x), std::imag(y)); }
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template <typename T, typename C, typename OP> C
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complex_from(T x, C y, OP op,linalg_imag_part) { return std::complex<T>(std::real(y), op(std::imag(y), x)); }
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template<typename T> struct project2nd {
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T operator()(T , T b) const { return b; }
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};
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template<typename T, typename R, typename PART> class ref_elt_vector<T, which_part<R, PART> > {
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R r;
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public :
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operator T() const { return real_or_imag_part(std::complex<T>(r), PART()); }
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ref_elt_vector(R r_) : r(r_) {}
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inline ref_elt_vector &operator =(T v)
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{ r = complex_from(v, std::complex<T>(r), gmm::project2nd<T>(), PART()); return *this; }
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inline bool operator ==(T v) const { return (r == v); }
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inline bool operator !=(T v) const { return (r != v); }
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inline ref_elt_vector &operator +=(T v)
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{ r = complex_from(v, std::complex<T>(r), std::plus<T>(), PART()); return *this; }
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inline ref_elt_vector &operator -=(T v)
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{ r = complex_from(v, std::complex<T>(r), std::minus<T>(), PART()); return *this; }
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inline ref_elt_vector &operator /=(T v)
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{ r = complex_from(v, std::complex<T>(r), std::divides<T>(), PART()); return *this; }
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inline ref_elt_vector &operator *=(T v)
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{ r = complex_from(v, std::complex<T>(r), std::multiplies<T>(), PART()); return *this; }
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inline ref_elt_vector &operator =(const ref_elt_vector &re)
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{ *this = T(re); return *this; }
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T operator +() { return T(*this); } // necessary for unknow reason
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T operator -() { return -T(*this); } // necessary for unknow reason
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T operator +(T v) { return T(*this)+ v; } // necessary for unknow reason
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T operator -(T v) { return T(*this)- v; } // necessary for unknow reason
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T operator *(T v) { return T(*this)* v; } // necessary for unknow reason
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T operator /(T v) { return T(*this)/ v; } // necessary for unknow reason
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};
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template<typename reference> struct ref_or_value_type {
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template <typename T, typename W>
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static W r(const T &x, linalg_real_part, W) {
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return gmm::real(x);
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}
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template <typename T, typename W>
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static W r(const T &x, linalg_imag_part, W) {
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return gmm::imag(x);
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}
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};
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template<typename U, typename R, typename PART>
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struct ref_or_value_type<ref_elt_vector<U, which_part<R, PART> > > {
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template<typename T , typename W>
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static const T &r(const T &x, linalg_real_part, W)
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{ return x; }
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template<typename T, typename W>
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static const T &r(const T &x, linalg_imag_part, W) {
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return x;
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}
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template<typename T , typename W>
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static T &r(T &x, linalg_real_part, W)
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{ return x; }
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template<typename T, typename W>
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static T &r(T &x, linalg_imag_part, W) {
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return x;
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}
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};
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/* ********************************************************************* */
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/* Reference to the real part of (complex) vectors */
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/* ********************************************************************* */
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template <typename IT, typename MIT, typename PART>
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struct part_vector_iterator {
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typedef typename std::iterator_traits<IT>::value_type vtype;
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typedef typename gmm::number_traits<vtype>::magnitude_type value_type;
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typedef value_type *pointer;
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typedef ref_elt_vector<value_type, which_part<typename std::iterator_traits<IT>::reference, PART> > reference;
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typedef typename std::iterator_traits<IT>::difference_type difference_type;
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typedef typename std::iterator_traits<IT>::iterator_category
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iterator_category;
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IT it;
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part_vector_iterator(void) {}
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explicit part_vector_iterator(const IT &i) : it(i) {}
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part_vector_iterator(const part_vector_iterator<MIT, MIT, PART> &i) : it(i.it) {}
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size_type index(void) const { return it.index(); }
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part_vector_iterator operator ++(int)
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{ part_vector_iterator tmp = *this; ++it; return tmp; }
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part_vector_iterator operator --(int)
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{ part_vector_iterator tmp = *this; --it; return tmp; }
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part_vector_iterator &operator ++() { ++it; return *this; }
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part_vector_iterator &operator --() { --it; return *this; }
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part_vector_iterator &operator +=(difference_type i)
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{ it += i; return *this; }
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part_vector_iterator &operator -=(difference_type i)
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{ it -= i; return *this; }
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part_vector_iterator operator +(difference_type i) const
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{ part_vector_iterator itb = *this; return (itb += i); }
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part_vector_iterator operator -(difference_type i) const
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{ part_vector_iterator itb = *this; return (itb -= i); }
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difference_type operator -(const part_vector_iterator &i) const
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{ return difference_type(it - i.it); }
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reference operator *() const { return reference(*it); }
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reference operator [](size_type ii) const { return reference(it[ii]); }
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bool operator ==(const part_vector_iterator &i) const
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{ return (i.it == it); }
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bool operator !=(const part_vector_iterator &i) const
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{ return (i.it != it); }
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bool operator < (const part_vector_iterator &i) const
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{ return (it < i.it); }
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};
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template <typename PT, typename PART> struct part_vector {
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typedef part_vector<PT, PART> this_type;
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typedef typename std::iterator_traits<PT>::value_type V;
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typedef V * CPT;
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typedef typename select_ref<typename linalg_traits<V>::const_iterator,
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typename linalg_traits<V>::iterator, PT>::ref_type iterator;
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typedef typename linalg_traits<this_type>::reference reference;
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typedef typename linalg_traits<this_type>::value_type value_type;
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typedef typename linalg_traits<this_type>::porigin_type porigin_type;
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iterator begin_, end_;
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porigin_type origin;
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size_type size_;
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size_type size(void) const { return size_; }
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reference operator[](size_type i) const {
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return reference(ref_or_value_type<reference>::r(
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linalg_traits<V>::access(origin, begin_, end_, i),
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PART(), value_type()));
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}
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part_vector(V &v)
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: begin_(vect_begin(v)), end_(vect_end(v)),
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origin(linalg_origin(v)), size_(gmm::vect_size(v)) {}
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part_vector(const V &v)
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: begin_(vect_begin(const_cast<V &>(v))),
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end_(vect_end(const_cast<V &>(v))),
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origin(linalg_origin(const_cast<V &>(v))), size_(gmm::vect_size(v)) {}
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part_vector() {}
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part_vector(const part_vector<CPT, PART> &cr)
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: begin_(cr.begin_),end_(cr.end_),origin(cr.origin), size_(cr.size_) {}
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};
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template <typename IT, typename MIT, typename ORG, typename PT,
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typename PART> inline
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void set_to_begin(part_vector_iterator<IT, MIT, PART> &it,
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ORG o, part_vector<PT, PART> *, linalg_modifiable) {
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typedef part_vector<PT, PART> VECT;
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typedef typename linalg_traits<VECT>::V_reference ref_t;
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set_to_begin(it.it, o, typename linalg_traits<VECT>::pV(), ref_t());
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}
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template <typename IT, typename MIT, typename ORG, typename PT,
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typename PART> inline
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void set_to_begin(part_vector_iterator<IT, MIT, PART> &it,
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ORG o, const part_vector<PT, PART> *, linalg_modifiable) {
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typedef part_vector<PT, PART> VECT;
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typedef typename linalg_traits<VECT>::V_reference ref_t;
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set_to_begin(it.it, o, typename linalg_traits<VECT>::pV(), ref_t());
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}
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template <typename IT, typename MIT, typename ORG, typename PT,
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typename PART> inline
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void set_to_end(part_vector_iterator<IT, MIT, PART> &it,
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ORG o, part_vector<PT, PART> *, linalg_modifiable) {
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typedef part_vector<PT, PART> VECT;
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typedef typename linalg_traits<VECT>::V_reference ref_t;
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set_to_end(it.it, o, typename linalg_traits<VECT>::pV(), ref_t());
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}
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template <typename IT, typename MIT, typename ORG,
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typename PT, typename PART> inline
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void set_to_end(part_vector_iterator<IT, MIT, PART> &it,
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ORG o, const part_vector<PT, PART> *,
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linalg_modifiable) {
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typedef part_vector<PT, PART> VECT;
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typedef typename linalg_traits<VECT>::V_reference ref_t;
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set_to_end(it.it, o, typename linalg_traits<VECT>::pV(), ref_t());
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}
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template <typename PT, typename PART> std::ostream &operator <<
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(std::ostream &o, const part_vector<PT, PART>& m)
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{ gmm::write(o,m); return o; }
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/* ********************************************************************* */
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/* Reference to the real or imaginary part of (complex) matrices */
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/* ********************************************************************* */
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template <typename PT, typename PART> struct part_row_ref {
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typedef part_row_ref<PT, PART> this_type;
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typedef typename std::iterator_traits<PT>::value_type M;
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typedef M * CPT;
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typedef typename std::iterator_traits<PT>::reference ref_M;
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typedef typename select_ref<typename linalg_traits<this_type>
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::const_row_iterator, typename linalg_traits<this_type>
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::row_iterator, PT>::ref_type iterator;
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typedef typename linalg_traits<this_type>::value_type value_type;
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typedef typename linalg_traits<this_type>::reference reference;
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typedef typename linalg_traits<this_type>::porigin_type porigin_type;
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iterator begin_, end_;
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porigin_type origin;
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size_type nr, nc;
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part_row_ref(ref_M m)
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: begin_(mat_row_begin(m)), end_(mat_row_end(m)),
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origin(linalg_origin(m)), nr(mat_nrows(m)), nc(mat_ncols(m)) {}
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part_row_ref(const part_row_ref<CPT, PART> &cr) :
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begin_(cr.begin_),end_(cr.end_), origin(cr.origin),nr(cr.nr),nc(cr.nc) {}
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reference operator()(size_type i, size_type j) const {
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return reference(ref_or_value_type<reference>::r(
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linalg_traits<M>::access(begin_+i, j),
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PART(), value_type()));
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}
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};
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template<typename PT, typename PART> std::ostream &operator <<
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(std::ostream &o, const part_row_ref<PT, PART>& m)
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{ gmm::write(o,m); return o; }
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template <typename PT, typename PART> struct part_col_ref {
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typedef part_col_ref<PT, PART> this_type;
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typedef typename std::iterator_traits<PT>::value_type M;
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typedef M * CPT;
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typedef typename std::iterator_traits<PT>::reference ref_M;
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typedef typename select_ref<typename linalg_traits<this_type>
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::const_col_iterator, typename linalg_traits<this_type>
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::col_iterator, PT>::ref_type iterator;
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typedef typename linalg_traits<this_type>::value_type value_type;
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typedef typename linalg_traits<this_type>::reference reference;
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typedef typename linalg_traits<this_type>::porigin_type porigin_type;
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iterator begin_, end_;
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porigin_type origin;
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size_type nr, nc;
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part_col_ref(ref_M m)
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: begin_(mat_col_begin(m)), end_(mat_col_end(m)),
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origin(linalg_origin(m)), nr(mat_nrows(m)), nc(mat_ncols(m)) {}
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part_col_ref(const part_col_ref<CPT, PART> &cr) :
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begin_(cr.begin_),end_(cr.end_), origin(cr.origin),nr(cr.nr),nc(cr.nc) {}
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reference operator()(size_type i, size_type j) const {
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return reference(ref_or_value_type<reference>::r(
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linalg_traits<M>::access(begin_+j, i),
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PART(), value_type()));
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}
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};
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template<typename PT, typename PART> std::ostream &operator <<
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(std::ostream &o, const part_col_ref<PT, PART>& m)
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{ gmm::write(o,m); return o; }
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template <typename TYPE, typename PART, typename PT>
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struct part_return_ {
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typedef abstract_null_type return_type;
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};
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template <typename PT, typename PART>
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struct part_return_<row_major, PART, PT> {
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typedef typename std::iterator_traits<PT>::value_type L;
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typedef typename select_return<part_row_ref<const L *, PART>,
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part_row_ref< L *, PART>, PT>::return_type return_type;
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};
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template <typename PT, typename PART>
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struct part_return_<col_major, PART, PT> {
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typedef typename std::iterator_traits<PT>::value_type L;
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typedef typename select_return<part_col_ref<const L *, PART>,
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part_col_ref<L *, PART>, PT>::return_type return_type;
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};
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template <typename PT, typename PART, typename LT> struct part_return__{
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typedef abstract_null_type return_type;
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};
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template <typename PT, typename PART>
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struct part_return__<PT, PART, abstract_matrix> {
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typedef typename std::iterator_traits<PT>::value_type L;
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typedef typename part_return_<typename principal_orientation_type<
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typename linalg_traits<L>::sub_orientation>::potype, PART,
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PT>::return_type return_type;
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};
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template <typename PT, typename PART>
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struct part_return__<PT, PART, abstract_vector> {
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typedef typename std::iterator_traits<PT>::value_type L;
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typedef typename select_return<part_vector<const L *, PART>,
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part_vector<L *, PART>, PT>::return_type return_type;
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};
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template <typename PT, typename PART> struct part_return {
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typedef typename std::iterator_traits<PT>::value_type L;
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typedef typename part_return__<PT, PART,
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typename linalg_traits<L>::linalg_type>::return_type return_type;
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};
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template <typename L> inline
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typename part_return<const L *, linalg_real_part>::return_type
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real_part(const L &l) {
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return typename part_return<const L *, linalg_real_part>::return_type
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(linalg_cast(const_cast<L &>(l)));
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}
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template <typename L> inline
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typename part_return<L *, linalg_real_part>::return_type
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real_part(L &l) {
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return typename part_return<L *, linalg_real_part>::return_type(linalg_cast(l));
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}
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template <typename L> inline
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typename part_return<const L *, linalg_imag_part>::return_type
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imag_part(const L &l) {
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return typename part_return<const L *, linalg_imag_part>::return_type
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(linalg_cast(const_cast<L &>(l)));
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}
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template <typename L> inline
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typename part_return<L *, linalg_imag_part>::return_type
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imag_part(L &l) {
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return typename part_return<L *, linalg_imag_part>::return_type(linalg_cast(l));
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}
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template <typename PT, typename PART>
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struct linalg_traits<part_vector<PT, PART> > {
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typedef part_vector<PT, PART> this_type;
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typedef this_type * pthis_type;
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typedef PT pV;
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typedef typename std::iterator_traits<PT>::value_type V;
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typedef typename linalg_traits<V>::index_sorted index_sorted;
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typedef typename linalg_traits<V>::is_reference V_reference;
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typedef typename linalg_traits<V>::origin_type origin_type;
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typedef typename select_ref<const origin_type *, origin_type *,
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PT>::ref_type porigin_type;
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typedef typename which_reference<PT>::is_reference is_reference;
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typedef abstract_vector linalg_type;
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typedef typename linalg_traits<V>::value_type vtype;
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typedef typename number_traits<vtype>::magnitude_type value_type;
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typedef typename select_ref<value_type, ref_elt_vector<value_type,
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which_part<typename linalg_traits<V>::reference,
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PART> >, PT>::ref_type reference;
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typedef typename select_ref<typename linalg_traits<V>::const_iterator,
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typename linalg_traits<V>::iterator, PT>::ref_type pre_iterator;
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typedef typename select_ref<abstract_null_type,
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part_vector_iterator<pre_iterator, pre_iterator, PART>,
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PT>::ref_type iterator;
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typedef part_vector_iterator<typename linalg_traits<V>::const_iterator,
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pre_iterator, PART> const_iterator;
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typedef typename linalg_traits<V>::storage_type storage_type;
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static size_type size(const this_type &v) { return v.size(); }
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static iterator begin(this_type &v) {
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iterator it; it.it = v.begin_;
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if (!is_const_reference(is_reference()) && is_sparse(storage_type()))
|
|
set_to_begin(it, v.origin, pthis_type(), is_reference());
|
|
return it;
|
|
}
|
|
static const_iterator begin(const this_type &v) {
|
|
const_iterator it(v.begin_);
|
|
if (!is_const_reference(is_reference()) && is_sparse(storage_type()))
|
|
{ set_to_begin(it, v.origin, pthis_type(), is_reference()); }
|
|
return it;
|
|
}
|
|
static iterator end(this_type &v) {
|
|
iterator it(v.end_);
|
|
if (!is_const_reference(is_reference()) && is_sparse(storage_type()))
|
|
set_to_end(it, v.origin, pthis_type(), is_reference());
|
|
return it;
|
|
}
|
|
static const_iterator end(const this_type &v) {
|
|
const_iterator it(v.end_);
|
|
if (!is_const_reference(is_reference()) && is_sparse(storage_type()))
|
|
set_to_end(it, v.origin, pthis_type(), is_reference());
|
|
return it;
|
|
}
|
|
static origin_type* origin(this_type &v) { return v.origin; }
|
|
static const origin_type* origin(const this_type &v) { return v.origin; }
|
|
|
|
static void clear(origin_type* o, const iterator &begin_,
|
|
const iterator &end_, abstract_sparse) {
|
|
std::deque<size_type> ind;
|
|
iterator it = begin_;
|
|
for (; it != end_; ++it) ind.push_front(it.index());
|
|
for (; !(ind.empty()); ind.pop_back())
|
|
access(o, begin_, end_, ind.back()) = value_type(0);
|
|
}
|
|
static void clear(origin_type* o, const iterator &begin_,
|
|
const iterator &end_, abstract_skyline) {
|
|
clear(o, begin_, end_, abstract_sparse());
|
|
}
|
|
static void clear(origin_type* o, const iterator &begin_,
|
|
const iterator &end_, abstract_dense) {
|
|
for (iterator it = begin_; it != end_; ++it) *it = value_type(0);
|
|
}
|
|
|
|
static void clear(origin_type* o, const iterator &begin_,
|
|
const iterator &end_)
|
|
{ clear(o, begin_, end_, storage_type()); }
|
|
static void do_clear(this_type &v) { clear(v.origin, begin(v), end(v)); }
|
|
static value_type access(const origin_type *o, const const_iterator &it,
|
|
const const_iterator &ite, size_type i) {
|
|
return real_or_imag_part(linalg_traits<V>::access(o, it.it, ite.it,i),
|
|
PART());
|
|
}
|
|
static reference access(origin_type *o, const iterator &it,
|
|
const iterator &ite, size_type i)
|
|
{ return reference(linalg_traits<V>::access(o, it.it, ite.it,i)); }
|
|
};
|
|
|
|
template <typename PT, typename PART>
|
|
struct linalg_traits<part_row_ref<PT, PART> > {
|
|
typedef part_row_ref<PT, PART> this_type;
|
|
typedef typename std::iterator_traits<PT>::value_type M;
|
|
typedef typename linalg_traits<M>::origin_type origin_type;
|
|
typedef typename select_ref<const origin_type *, origin_type *,
|
|
PT>::ref_type porigin_type;
|
|
typedef typename which_reference<PT>::is_reference is_reference;
|
|
typedef abstract_matrix linalg_type;
|
|
typedef typename linalg_traits<M>::value_type vtype;
|
|
typedef typename number_traits<vtype>::magnitude_type value_type;
|
|
typedef typename linalg_traits<M>::storage_type storage_type;
|
|
typedef abstract_null_type sub_col_type;
|
|
typedef abstract_null_type const_sub_col_type;
|
|
typedef abstract_null_type col_iterator;
|
|
typedef abstract_null_type const_col_iterator;
|
|
typedef typename org_type<typename linalg_traits<M>::const_sub_row_type>::t
|
|
pre_const_sub_row_type;
|
|
typedef typename org_type<typename linalg_traits<M>::sub_row_type>::t pre_sub_row_type;
|
|
typedef part_vector<const pre_const_sub_row_type *, PART>
|
|
const_sub_row_type;
|
|
typedef typename select_ref<abstract_null_type,
|
|
part_vector<pre_sub_row_type *, PART>, PT>::ref_type sub_row_type;
|
|
typedef typename linalg_traits<M>::const_row_iterator const_row_iterator;
|
|
typedef typename select_ref<abstract_null_type, typename
|
|
linalg_traits<M>::row_iterator, PT>::ref_type row_iterator;
|
|
typedef typename select_ref<
|
|
typename linalg_traits<const_sub_row_type>::reference,
|
|
typename linalg_traits<sub_row_type>::reference,
|
|
PT>::ref_type reference;
|
|
typedef row_major sub_orientation;
|
|
typedef typename linalg_traits<M>::index_sorted index_sorted;
|
|
static size_type ncols(const this_type &v) { return v.nc; }
|
|
static size_type nrows(const this_type &v) { return v.nr; }
|
|
static const_sub_row_type row(const const_row_iterator &it)
|
|
{ return const_sub_row_type(linalg_traits<M>::row(it)); }
|
|
static sub_row_type row(const row_iterator &it)
|
|
{ return sub_row_type(linalg_traits<M>::row(it)); }
|
|
static row_iterator row_begin(this_type &m) { return m.begin_; }
|
|
static row_iterator row_end(this_type &m) { return m.end_; }
|
|
static const_row_iterator row_begin(const this_type &m)
|
|
{ return m.begin_; }
|
|
static const_row_iterator row_end(const this_type &m) { return m.end_; }
|
|
static origin_type* origin(this_type &v) { return v.origin; }
|
|
static const origin_type* origin(const this_type &v) { return v.origin; }
|
|
static void do_clear(this_type &v);
|
|
static value_type access(const const_row_iterator &itrow, size_type i)
|
|
{ return real_or_imag_part(linalg_traits<M>::access(itrow, i), PART()); }
|
|
static reference access(const row_iterator &itrow, size_type i) {
|
|
return reference(ref_or_value_type<reference>::r(
|
|
linalg_traits<M>::access(itrow, i),
|
|
PART(), value_type()));
|
|
}
|
|
};
|
|
|
|
template <typename PT, typename PART>
|
|
struct linalg_traits<part_col_ref<PT, PART> > {
|
|
typedef part_col_ref<PT, PART> this_type;
|
|
typedef typename std::iterator_traits<PT>::value_type M;
|
|
typedef typename linalg_traits<M>::origin_type origin_type;
|
|
typedef typename select_ref<const origin_type *, origin_type *,
|
|
PT>::ref_type porigin_type;
|
|
typedef typename which_reference<PT>::is_reference is_reference;
|
|
typedef abstract_matrix linalg_type;
|
|
typedef typename linalg_traits<M>::value_type vtype;
|
|
typedef typename number_traits<vtype>::magnitude_type value_type;
|
|
typedef typename linalg_traits<M>::storage_type storage_type;
|
|
typedef abstract_null_type sub_row_type;
|
|
typedef abstract_null_type const_sub_row_type;
|
|
typedef abstract_null_type row_iterator;
|
|
typedef abstract_null_type const_row_iterator;
|
|
typedef typename org_type<typename linalg_traits<M>::const_sub_col_type>::t
|
|
pre_const_sub_col_type;
|
|
typedef typename org_type<typename linalg_traits<M>::sub_col_type>::t pre_sub_col_type;
|
|
typedef part_vector<const pre_const_sub_col_type *, PART>
|
|
const_sub_col_type;
|
|
typedef typename select_ref<abstract_null_type,
|
|
part_vector<pre_sub_col_type *, PART>, PT>::ref_type sub_col_type;
|
|
typedef typename linalg_traits<M>::const_col_iterator const_col_iterator;
|
|
typedef typename select_ref<abstract_null_type, typename
|
|
linalg_traits<M>::col_iterator, PT>::ref_type col_iterator;
|
|
typedef typename select_ref<
|
|
typename linalg_traits<const_sub_col_type>::reference,
|
|
typename linalg_traits<sub_col_type>::reference,
|
|
PT>::ref_type reference;
|
|
typedef col_major sub_orientation;
|
|
typedef typename linalg_traits<M>::index_sorted index_sorted;
|
|
static size_type nrows(const this_type &v) { return v.nr; }
|
|
static size_type ncols(const this_type &v) { return v.nc; }
|
|
static const_sub_col_type col(const const_col_iterator &it)
|
|
{ return const_sub_col_type(linalg_traits<M>::col(it)); }
|
|
static sub_col_type col(const col_iterator &it)
|
|
{ return sub_col_type(linalg_traits<M>::col(it)); }
|
|
static col_iterator col_begin(this_type &m) { return m.begin_; }
|
|
static col_iterator col_end(this_type &m) { return m.end_; }
|
|
static const_col_iterator col_begin(const this_type &m)
|
|
{ return m.begin_; }
|
|
static const_col_iterator col_end(const this_type &m) { return m.end_; }
|
|
static origin_type* origin(this_type &v) { return v.origin; }
|
|
static const origin_type* origin(const this_type &v) { return v.origin; }
|
|
static void do_clear(this_type &v);
|
|
static value_type access(const const_col_iterator &itcol, size_type i)
|
|
{ return real_or_imag_part(linalg_traits<M>::access(itcol, i), PART()); }
|
|
static reference access(const col_iterator &itcol, size_type i) {
|
|
return reference(ref_or_value_type<reference>::r(
|
|
linalg_traits<M>::access(itcol, i),
|
|
PART(), value_type()));
|
|
}
|
|
};
|
|
|
|
template <typename PT, typename PART>
|
|
void linalg_traits<part_col_ref<PT, PART> >::do_clear(this_type &v) {
|
|
col_iterator it = mat_col_begin(v), ite = mat_col_end(v);
|
|
for (; it != ite; ++it) clear(col(it));
|
|
}
|
|
|
|
template <typename PT, typename PART>
|
|
void linalg_traits<part_row_ref<PT, PART> >::do_clear(this_type &v) {
|
|
row_iterator it = mat_row_begin(v), ite = mat_row_end(v);
|
|
for (; it != ite; ++it) clear(row(it));
|
|
}
|
|
}
|
|
|
|
#endif // GMM_REAL_PART_H
|