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228 lines
8.8 KiB
228 lines
8.8 KiB
/* -*- c++ -*- (enables emacs c++ mode) */
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/*===========================================================================
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Copyright (C) 2000-2017 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_algobase.h
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@author Yves Renard <Yves.Renard@insa-lyon.fr>
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@date September 28, 2000.
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@brief Miscelleanous algorithms on containers.
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*/
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#ifndef GMM_ALGOBASE_H__
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#define GMM_ALGOBASE_H__
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#include "gmm_std.h"
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#include "gmm_except.h"
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#include <functional>
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namespace gmm {
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/* ********************************************************************* */
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/* Definitition de classes de comparaison. */
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/* retournant un int. */
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/* ********************************************************************* */
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template <class T>
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struct less : public std::binary_function<T, T, int> {
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inline int operator()(const T& x, const T& y) const
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{ return (x < y) ? -1 : ((y < x) ? 1 : 0); }
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};
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template<> struct less<int> : public std::binary_function<int, int, int>
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{ int operator()(int x, int y) const { return x-y; } };
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template<> struct less<char> : public std::binary_function<char, char, int>
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{ int operator()(char x, char y) const { return int(x-y); } };
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template<> struct less<short> : public std::binary_function<short,short,int>
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{ int operator()(short x, short y) const { return int(x-y); } };
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template<> struct less<unsigned char>
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: public std::binary_function<unsigned char, unsigned char, int> {
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int operator()(unsigned char x, unsigned char y) const
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{ return int(x)-int(y); }
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};
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template <class T>
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struct greater : public std::binary_function<T, T, int> {
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inline int operator()(const T& x, const T& y) const
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{ return (y < x) ? -1 : ((x < y) ? 1 : 0); }
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};
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template<> struct greater<int> : public std::binary_function<int, int, int>
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{ int operator()(int x, int y) const { return y-x; } };
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template<> struct greater<char> : public std::binary_function<char,char,int>
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{ int operator()(char x, char y) const { return int(y-x); } };
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template<> struct greater<short>
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: public std::binary_function<short, short, int>
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{ int operator()(short x, short y) const { return int(y-x); } };
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template<> struct greater<unsigned char>
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: public std::binary_function<unsigned char, unsigned char, int> {
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int operator()(unsigned char x, unsigned char y) const
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{ return int(y)-int(x); }
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};
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template <typename T> inline T my_abs(T a) { return (a < T(0)) ? T(-a) : a; }
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template <class T>
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struct approx_less : public std::binary_function<T, T, int> {
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double eps;
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inline int operator()(const T &x, const T &y) const
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{ if (my_abs(x - y) <= eps) return 0; if (x < y) return -1; return 1; }
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approx_less(double e = 1E-13) { eps = e; }
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};
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template <class T>
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struct approx_greater : public std::binary_function<T, T, int> {
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double eps;
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inline int operator()(const T &x, const T &y) const
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{ if (my_abs(x - y) <= eps) return 0; if (x > y) return -1; return 1; }
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approx_greater(double e = 1E-13) { eps = e; }
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};
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template<class ITER1, class ITER2, class COMP>
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int lexicographical_compare(ITER1 b1, const ITER1 &e1,
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ITER2 b2, const ITER2 &e2, const COMP &c) {
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int i;
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for ( ; b1 != e1 && b2 != e2; ++b1, ++b2)
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if ((i = c(*b1, *b2)) != 0) return i;
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if (b1 != e1) return 1;
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if (b2 != e2) return -1;
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return 0;
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}
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template<class CONT, class COMP = gmm::less<typename CONT::value_type> >
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struct lexicographical_less : public std::binary_function<CONT, CONT, int>
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{
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COMP c;
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int operator()(const CONT &x, const CONT &y) const {
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return gmm::lexicographical_compare(x.begin(), x.end(),
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y.begin(), y.end(), c);
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}
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lexicographical_less(const COMP &d = COMP()) { c = d; }
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};
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template<class CONT, class COMP = gmm::less<typename CONT::value_type> >
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struct lexicographical_greater
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: public std::binary_function<CONT, CONT, int> {
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COMP c;
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int operator()(const CONT &x, const CONT &y) const {
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return -gmm::lexicographical_compare(x.begin(), x.end(),
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y.begin(), y.end(), c);
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}
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lexicographical_greater(const COMP &d = COMP()) { c = d; }
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};
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/* ********************************************************************* */
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/* "Virtual" iterators on sequences. */
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/* The class T represent a class of sequence. */
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/* ********************************************************************* */
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template<class T> struct sequence_iterator {
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typedef T value_type;
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typedef value_type* pointer;
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typedef value_type& reference;
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typedef const value_type& const_reference;
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typedef std::forward_iterator_tag iterator_category;
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T Un;
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sequence_iterator(T U0 = T(0)) { Un = U0; }
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sequence_iterator &operator ++()
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{ ++Un; return *this; }
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sequence_iterator operator ++(int)
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{ sequence_iterator tmp = *this; (*this)++; return tmp; }
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const_reference operator *() const { return Un; }
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reference operator *() { return Un; }
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bool operator ==(const sequence_iterator &i) const { return (i.Un==Un);}
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bool operator !=(const sequence_iterator &i) const { return (i.Un!=Un);}
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};
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/* ********************************************************************* */
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/* generic algorithms. */
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/* ********************************************************************* */
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template <class ITER1, class SIZE, class ITER2>
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ITER2 copy_n(ITER1 first, SIZE count, ITER2 result) {
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for ( ; count > 0; --count, ++first, ++result) *result = *first;
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return result;
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}
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template<class ITER>
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typename std::iterator_traits<ITER>::value_type
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mean_value(ITER first, const ITER &last) {
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GMM_ASSERT2(first != last, "mean value of empty container");
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size_t n = 1;
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typename std::iterator_traits<ITER>::value_type res = *first++;
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while (first != last) { res += *first; ++first; ++n; }
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res /= float(n);
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return res;
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}
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template<class CONT>
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typename CONT::value_type
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mean_value(const CONT &c) { return mean_value(c.begin(), c.end()); }
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template<class ITER> /* hum ... */
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void minmax_box(typename std::iterator_traits<ITER>::value_type &pmin,
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typename std::iterator_traits<ITER>::value_type &pmax,
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ITER first, const ITER &last) {
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typedef typename std::iterator_traits<ITER>::value_type PT;
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if (first != last) { pmin = pmax = *first; ++first; }
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while (first != last) {
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typename PT::const_iterator b = (*first).begin(), e = (*first).end();
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typename PT::iterator b1 = pmin.begin(), b2 = pmax.begin();
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while (b != e)
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{ *b1 = std::min(*b1, *b); *b2 = std::max(*b2, *b); ++b; ++b1; ++b2; }
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}
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}
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template<typename VEC> struct sorted_indexes_aux {
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const VEC &v;
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public:
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sorted_indexes_aux(const VEC& v_) : v(v_) {}
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template <typename IDX>
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bool operator()(const IDX &ia, const IDX &ib) const
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{ return v[ia] < v[ib]; }
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};
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template<typename VEC, typename IVEC>
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void sorted_indexes(const VEC &v, IVEC &iv) {
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iv.clear(); iv.resize(v.size());
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for (size_t i=0; i < v.size(); ++i) iv[i] = i;
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std::sort(iv.begin(), iv.end(), sorted_indexes_aux<VEC>(v));
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}
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}
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#endif /* GMM_ALGOBASE_H__ */
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