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author | Harpreet | 2016-08-04 15:25:44 +0530 |
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committer | Harpreet | 2016-08-04 15:25:44 +0530 |
commit | 9fd2976931c088dc523974afb901e96bad20f73c (patch) | |
tree | 22502de6e6988d5cd595290d11266f8432ad825b /build/Bonmin/include/coin/CoinSort.hpp | |
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Diffstat (limited to 'build/Bonmin/include/coin/CoinSort.hpp')
-rw-r--r-- | build/Bonmin/include/coin/CoinSort.hpp | 678 |
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diff --git a/build/Bonmin/include/coin/CoinSort.hpp b/build/Bonmin/include/coin/CoinSort.hpp new file mode 100644 index 0000000..259fb35 --- /dev/null +++ b/build/Bonmin/include/coin/CoinSort.hpp @@ -0,0 +1,678 @@ +/* $Id: CoinSort.hpp 1594 2013-04-19 14:33:00Z forrest $ */ +// Copyright (C) 2000, International Business Machines +// Corporation and others. All Rights Reserved. +// This code is licensed under the terms of the Eclipse Public License (EPL). + +#ifndef CoinSort_H +#define CoinSort_H + +#include <functional> +#include <new> +#include <algorithm> +#include "CoinDistance.hpp" + +// Uncomment the next three lines to get thorough initialisation of memory. +// #ifndef ZEROFAULT +// #define ZEROFAULT +// #endif + +#ifdef COIN_FAST_CODE +#ifndef COIN_USE_EKK_SORT +#define COIN_USE_EKK_SORT +#endif +#endif + +//############################################################################# + +/** An ordered pair. It's the same as std::pair, just this way it'll have the + same look as the triple sorting. */ +template <class S, class T> +struct CoinPair { +public: + /// First member of pair + S first; + /// Second member of pair + T second; +public: + /// Construct from ordered pair + CoinPair(const S& s, const T& t) : first(s), second(t) {} +}; + +//############################################################################# + +/**@name Comparisons on first element of two ordered pairs */ +//@{ +/** Function operator. + Returns true if t1.first < t2.first (i.e., increasing). */ +template < class S, class T> +class CoinFirstLess_2 { +public: + /// Compare function + inline bool operator()(const CoinPair<S,T>& t1, + const CoinPair<S,T>& t2) const + { return t1.first < t2.first; } +}; +//----------------------------------------------------------------------------- +/** Function operator. + Returns true if t1.first > t2.first (i.e, decreasing). */ +template < class S, class T> +class CoinFirstGreater_2 { +public: + /// Compare function + inline bool operator()(const CoinPair<S,T>& t1, + const CoinPair<S,T>& t2) const + { return t1.first > t2.first; } +}; +//----------------------------------------------------------------------------- +/** Function operator. + Returns true if abs(t1.first) < abs(t2.first) (i.e., increasing). */ +template < class S, class T> +class CoinFirstAbsLess_2 { +public: + /// Compare function + inline bool operator()(const CoinPair<S,T>& t1, + const CoinPair<S,T>& t2) const + { + const T t1Abs = t1.first < static_cast<T>(0) ? -t1.first : t1.first; + const T t2Abs = t2.first < static_cast<T>(0) ? -t2.first : t2.first; + return t1Abs < t2Abs; + } +}; +//----------------------------------------------------------------------------- +/** Function operator. + Returns true if abs(t1.first) > abs(t2.first) (i.e., decreasing). */ +template < class S, class T> +class CoinFirstAbsGreater_2 { +public: + /// Compare function + inline bool operator()(CoinPair<S,T> t1, CoinPair<S,T> t2) const + { + const T t1Abs = t1.first < static_cast<T>(0) ? -t1.first : t1.first; + const T t2Abs = t2.first < static_cast<T>(0) ? -t2.first : t2.first; + return t1Abs > t2Abs; + } +}; +//----------------------------------------------------------------------------- +/** Function operator. + Compare based on the entries of an external vector, i.e., returns true if + vec[t1.first < vec[t2.first] (i.e., increasing wrt. vec). Note that to + use this comparison operator .first must be a data type automatically + convertible to int. */ +template < class S, class T, class V> +class CoinExternalVectorFirstLess_2 { +private: + CoinExternalVectorFirstLess_2(); +private: + const V* vec_; +public: + inline bool operator()(const CoinPair<S,T>& t1, + const CoinPair<S,T>& t2) const + { return vec_[t1.first] < vec_[t2.first]; } + CoinExternalVectorFirstLess_2(const V* v) : vec_(v) {} +}; +//----------------------------------------------------------------------------- +/** Function operator. + Compare based on the entries of an external vector, i.e., returns true if + vec[t1.first > vec[t2.first] (i.e., decreasing wrt. vec). Note that to + use this comparison operator .first must be a data type automatically + convertible to int. */ +template < class S, class T, class V> +class CoinExternalVectorFirstGreater_2 { +private: + CoinExternalVectorFirstGreater_2(); +private: + const V* vec_; +public: + inline bool operator()(const CoinPair<S,T>& t1, + const CoinPair<S,T>& t2) const + { return vec_[t1.first] > vec_[t2.first]; } + CoinExternalVectorFirstGreater_2(const V* v) : vec_(v) {} +}; +//@} + +//############################################################################# + +/** Sort a pair of containers.<br> + + Iter_S - iterator for first container<br> + Iter_T - iterator for 2nd container<br> + CoinCompare2 - class comparing CoinPairs<br> +*/ + +#ifdef COIN_SORT_ARBITRARY_CONTAINERS +template <class Iter_S, class Iter_T, class CoinCompare2> void +CoinSort_2(Iter_S sfirst, Iter_S slast, Iter_T tfirst, const CoinCompare2& pc) +{ + typedef typename std::iterator_traits<Iter_S>::value_type S; + typedef typename std::iterator_traits<Iter_T>::value_type T; + const size_t len = coinDistance(sfirst, slast); + if (len <= 1) + return; + + typedef CoinPair<S,T> ST_pair; + ST_pair* x = static_cast<ST_pair*>(::operator new(len * sizeof(ST_pair))); +# ifdef ZEROFAULT + memset(x,0,(len*sizeof(ST_pair))) ; +# endif + + int i = 0; + Iter_S scurrent = sfirst; + Iter_T tcurrent = tfirst; + while (scurrent != slast) { + new (x+i++) ST_pair(*scurrent++, *tcurrent++); + } + + std::sort(x.begin(), x.end(), pc); + + scurrent = sfirst; + tcurrent = tfirst; + for (i = 0; i < len; ++i) { + *scurrent++ = x[i].first; + *tcurrent++ = x[i].second; + } + + ::operator delete(x); +} +//----------------------------------------------------------------------------- +template <class Iter_S, class Iter_T> void +CoinSort_2(Iter_S sfirst, Iter_S slast, Iter_T tfirst) +{ + typedef typename std::iterator_traits<Iter_S>::value_type S; + typedef typename std::iterator_traits<Iter_T>::value_type T; + CoinSort_2(sfirst, slast, tfirst, CoinFirstLess_2<S,T>()); +} + +#else //======================================================================= + +template <class S, class T, class CoinCompare2> void +CoinSort_2(S* sfirst, S* slast, T* tfirst, const CoinCompare2& pc) +{ + const size_t len = coinDistance(sfirst, slast); + if (len <= 1) + return; + + typedef CoinPair<S,T> ST_pair; + ST_pair* x = static_cast<ST_pair*>(::operator new(len * sizeof(ST_pair))); +# ifdef ZEROFAULT + // Can show RUI errors on some systems due to copy of ST_pair with gaps. + // E.g., <int, double> has 4 byte alignment gap on Solaris/SUNWspro. + memset(x,0,(len*sizeof(ST_pair))) ; +# endif + + size_t i = 0; + S* scurrent = sfirst; + T* tcurrent = tfirst; + while (scurrent != slast) { + new (x+i++) ST_pair(*scurrent++, *tcurrent++); + } + + std::sort(x, x + len, pc); + + scurrent = sfirst; + tcurrent = tfirst; + for (i = 0; i < len; ++i) { + *scurrent++ = x[i].first; + *tcurrent++ = x[i].second; + } + + ::operator delete(x); +} +template <class S, class T> void +// This Always uses std::sort +CoinSort_2Std(S* sfirst, S* slast, T* tfirst) +{ + CoinSort_2(sfirst, slast, tfirst, CoinFirstLess_2<S,T>()); +} +#ifndef COIN_USE_EKK_SORT +//----------------------------------------------------------------------------- +template <class S, class T> void +CoinSort_2(S* sfirst, S* slast, T* tfirst) +{ + CoinSort_2(sfirst, slast, tfirst, CoinFirstLess_2<S,T>()); +} +#else +//----------------------------------------------------------------------------- +extern int boundary_sort; +extern int boundary_sort2; +extern int boundary_sort3; +/// Sort without new and delete +template <class S, class T> void +CoinSort_2(S* key, S* lastKey, T* array2) +{ + const size_t number = coinDistance(key, lastKey); + if (number <= 1) { + return; + } else if (number>10000) { + CoinSort_2Std(key, lastKey, array2); + return; + } +#if 0 + if (number==boundary_sort3) { + printf("before sort %d entries\n",number); + for (int j=0;j<number;j++) { + std::cout<<" ( "<<key[j]<<","<<array2[j]<<")"; + } + std::cout<<std::endl; + } +#endif + int minsize=10; + int n = static_cast<int>(number); + int sp; + S *v = key; + S *m, t; + S * ls[32] , * rs[32]; + S *l , *r , c; + T it; + int j; + /*check already sorted */ + S last=key[0]; + for (j=1;j<n;j++) { + if (key[j]>=last) { + last=key[j]; + } else { + break; + } /* endif */ + } /* endfor */ + if (j==n) { + return; + } /* endif */ + sp = 0 ; ls[sp] = v ; rs[sp] = v + (n-1) ; + while( sp >= 0 ) + { + if ( rs[sp] - ls[sp] > minsize ) + { + l = ls[sp] ; r = rs[sp] ; m = l + (r-l)/2 ; + if ( *l > *m ) + { + t = *l ; *l = *m ; *m = t ; + it = array2[l-v] ; array2[l-v] = array2[m-v] ; array2[m-v] = it ; + } + if ( *m > *r ) + { + t = *m ; *m = *r ; *r = t ; + it = array2[m-v] ; array2[m-v] = array2[r-v] ; array2[r-v] = it ; + if ( *l > *m ) + { + t = *l ; *l = *m ; *m = t ; + it = array2[l-v] ; array2[l-v] = array2[m-v] ; array2[m-v] = it ; + } + } + c = *m ; + while ( r - l > 1 ) + { + while ( *(++l) < c ) ; + while ( *(--r) > c ) ; + t = *l ; *l = *r ; *r = t ; + it = array2[l-v] ; array2[l-v] = array2[r-v] ; array2[r-v] = it ; + } + l = r - 1 ; + if ( l < m ) + { ls[sp+1] = ls[sp] ; + rs[sp+1] = l ; + ls[sp ] = r ; + } + else + { ls[sp+1] = r ; + rs[sp+1] = rs[sp] ; + rs[sp ] = l ; + } + sp++ ; + } + else sp-- ; + } + for ( l = v , m = v + (n-1) ; l < m ; l++ ) + { if ( *l > *(l+1) ) + { + c = *(l+1) ; + it = array2[(l-v)+1] ; + for ( r = l ; r >= v && *r > c ; r-- ) + { + *(r+1) = *r ; + array2[(r-v)+1] = array2[(r-v)] ; + } + *(r+1) = c ; + array2[(r-v)+1] = it ; + } + } +#if 0 + if (number==boundary_sort3) { + printf("after sort %d entries\n",number); + for (int j=0;j<number;j++) { + std::cout<<" ( "<<key[j]<<","<<array2[j]<<")"; + } + std::cout<<std::endl; + CoinSort_2Many(key, lastKey, array2); + printf("after2 sort %d entries\n",number); + for (int j=0;j<number;j++) { + std::cout<<" ( "<<key[j]<<","<<array2[j]<<")"; + } + std::cout<<std::endl; + } +#endif +} +#endif +#endif +/// Sort without new and delete +template <class S, class T> void +CoinShortSort_2(S* key, S* lastKey, T* array2) +{ + const size_t number = coinDistance(key, lastKey); + if (number <= 2) { + if (number == 2 && key[0] > key[1]) { + S tempS = key[0]; + T tempT = array2[0]; + key[0] = key[1]; + array2[0] = array2[1]; + key[1] = tempS; + array2[1] = tempT; + } + return; + } else if (number>10000) { + CoinSort_2Std(key, lastKey, array2); + return; + } + int minsize=10; + size_t n = number; + int sp; + S *v = key; + S *m, t; + S * ls[32] , * rs[32]; + S *l , *r , c; + T it; + size_t j; + /*check already sorted */ + S last=key[0]; + for (j=1;j<n;j++) { + if (key[j]>=last) { + last=key[j]; + } else { + break; + } /* endif */ + } /* endfor */ + if (j==n) { + return; + } /* endif */ + sp = 0 ; ls[sp] = v ; rs[sp] = v + (n-1) ; + while( sp >= 0 ) + { + if ( rs[sp] - ls[sp] > minsize ) + { + l = ls[sp] ; r = rs[sp] ; m = l + (r-l)/2 ; + if ( *l > *m ) + { + t = *l ; *l = *m ; *m = t ; + it = array2[l-v] ; array2[l-v] = array2[m-v] ; array2[m-v] = it ; + } + if ( *m > *r ) + { + t = *m ; *m = *r ; *r = t ; + it = array2[m-v] ; array2[m-v] = array2[r-v] ; array2[r-v] = it ; + if ( *l > *m ) + { + t = *l ; *l = *m ; *m = t ; + it = array2[l-v] ; array2[l-v] = array2[m-v] ; array2[m-v] = it ; + } + } + c = *m ; + while ( r - l > 1 ) + { + while ( *(++l) < c ) ; + while ( *(--r) > c ) ; + t = *l ; *l = *r ; *r = t ; + it = array2[l-v] ; array2[l-v] = array2[r-v] ; array2[r-v] = it ; + } + l = r - 1 ; + if ( l < m ) + { ls[sp+1] = ls[sp] ; + rs[sp+1] = l ; + ls[sp ] = r ; + } + else + { ls[sp+1] = r ; + rs[sp+1] = rs[sp] ; + rs[sp ] = l ; + } + sp++ ; + } + else sp-- ; + } + for ( l = v , m = v + (n-1) ; l < m ; l++ ) + { if ( *l > *(l+1) ) + { + c = *(l+1) ; + it = array2[(l-v)+1] ; + for ( r = l ; r >= v && *r > c ; r-- ) + { + *(r+1) = *r ; + array2[(r-v)+1] = array2[(r-v)] ; + } + *(r+1) = c ; + array2[(r-v)+1] = it ; + } + } +} +//############################################################################# +//############################################################################# + +/**@name Ordered Triple Struct */ +template <class S, class T, class U> +class CoinTriple { +public: + /// First member of triple + S first; + /// Second member of triple + T second; + /// Third member of triple + U third; +public: + /// Construct from ordered triple + CoinTriple(const S& s, const T& t, const U& u):first(s),second(t),third(u) {} +}; + +//############################################################################# +/**@name Comparisons on first element of two ordered triples */ +//@{ +/** Function operator. + Returns true if t1.first < t2.first (i.e., increasing). */ +template < class S, class T, class U > +class CoinFirstLess_3 { +public: + /// Compare function + inline bool operator()(const CoinTriple<S,T,U>& t1, + const CoinTriple<S,T,U>& t2) const + { return t1.first < t2.first; } +}; +//----------------------------------------------------------------------------- +/** Function operator. + Returns true if t1.first > t2.first (i.e, decreasing). */ +template < class S, class T, class U > +class CoinFirstGreater_3 { +public: + /// Compare function + inline bool operator()(const CoinTriple<S,T,U>& t1, + const CoinTriple<S,T,U>& t2) const + { return t1.first>t2.first; } +}; +//----------------------------------------------------------------------------- +/** Function operator. + Returns true if abs(t1.first) < abs(t2.first) (i.e., increasing). */ +template < class S, class T, class U > +class CoinFirstAbsLess_3 { +public: + /// Compare function + inline bool operator()(const CoinTriple<S,T,U>& t1, + const CoinTriple<S,T,U>& t2) const + { + const T t1Abs = t1.first < static_cast<T>(0) ? -t1.first : t1.first; + const T t2Abs = t2.first < static_cast<T>(0) ? -t2.first : t2.first; + return t1Abs < t2Abs; + } +}; +//----------------------------------------------------------------------------- +/** Function operator. + Returns true if abs(t1.first) > abs(t2.first) (i.e., decreasing). */ +template < class S, class T, class U > +class CoinFirstAbsGreater_3 { +public: + /// Compare function + inline bool operator()(const CoinTriple<S,T,U>& t1, + const CoinTriple<S,T,U>& t2) const + { + const T t1Abs = t1.first < static_cast<T>(0) ? -t1.first : t1.first; + const T t2Abs = t2.first < static_cast<T>(0) ? -t2.first : t2.first; + return t1Abs > t2Abs; + } +}; +//----------------------------------------------------------------------------- +/** Function operator. + Compare based on the entries of an external vector, i.e., returns true if + vec[t1.first < vec[t2.first] (i.e., increasing wrt. vec). Note that to + use this comparison operator .first must be a data type automatically + convertible to int. */ +template < class S, class T, class U, class V> +class CoinExternalVectorFirstLess_3 { +private: + CoinExternalVectorFirstLess_3(); +private: + const V* vec_; +public: + inline bool operator()(const CoinTriple<S,T,U>& t1, + const CoinTriple<S,T,U>& t2) const + { return vec_[t1.first] < vec_[t2.first]; } + CoinExternalVectorFirstLess_3(const V* v) : vec_(v) {} +}; +//----------------------------------------------------------------------------- +/** Function operator. + Compare based on the entries of an external vector, i.e., returns true if + vec[t1.first > vec[t2.first] (i.e., decreasing wrt. vec). Note that to + use this comparison operator .first must be a data type automatically + convertible to int. */ +template < class S, class T, class U, class V> +class CoinExternalVectorFirstGreater_3 { +private: + CoinExternalVectorFirstGreater_3(); +private: + const V* vec_; +public: + inline bool operator()(const CoinTriple<S,T,U>& t1, + const CoinTriple<S,T,U>& t2) const + { return vec_[t1.first] > vec_[t2.first]; } + CoinExternalVectorFirstGreater_3(const V* v) : vec_(v) {} +}; +//@} + +//############################################################################# + +/**@name Typedefs for sorting the entries of a packed vector based on an + external vector. */ +//@{ +/// Sort packed vector in increasing order of the external vector +typedef CoinExternalVectorFirstLess_3<int, int, double, double> +CoinIncrSolutionOrdered; +/// Sort packed vector in decreasing order of the external vector +typedef CoinExternalVectorFirstGreater_3<int, int, double, double> +CoinDecrSolutionOrdered; +//@} + +//############################################################################# + +/** Sort a triple of containers.<br> + + Iter_S - iterator for first container<br> + Iter_T - iterator for 2nd container<br> + Iter_U - iterator for 3rd container<br> + CoinCompare3 - class comparing CoinTriples<br> +*/ +#ifdef COIN_SORT_ARBITRARY_CONTAINERS +template <class Iter_S, class Iter_T, class Iter_U, class CoinCompare3> void +CoinSort_3(Iter_S sfirst, Iter_S slast, Iter_T tfirst, Iter_U, ufirst, + const CoinCompare3& tc) +{ + typedef typename std::iterator_traits<Iter_S>::value_type S; + typedef typename std::iterator_traits<Iter_T>::value_type T; + typedef typename std::iterator_traits<Iter_U>::value_type U; + const size_t len = coinDistance(sfirst, slast); + if (len <= 1) + return; + + typedef CoinTriple<S,T,U> STU_triple; + STU_triple* x = + static_cast<STU_triple*>(::operator new(len * sizeof(STU_triple))); + + int i = 0; + Iter_S scurrent = sfirst; + Iter_T tcurrent = tfirst; + Iter_U ucurrent = ufirst; + while (scurrent != slast) { + new (x+i++) STU_triple(*scurrent++, *tcurrent++, *ucurrent++); + } + + std::sort(x, x+len, tc); + + scurrent = sfirst; + tcurrent = tfirst; + ucurrent = ufirst; + for (i = 0; i < len; ++i) { + *scurrent++ = x[i].first; + *tcurrent++ = x[i].second; + *ucurrent++ = x[i].third; + } + + ::operator delete(x); +} +//----------------------------------------------------------------------------- +template <class Iter_S, class Iter_T, class Iter_U> void +CoinSort_3(Iter_S sfirst, Iter_S slast, Iter_T tfirst, Iter_U, ufirst) +{ + typedef typename std::iterator_traits<Iter_S>::value_type S; + typedef typename std::iterator_traits<Iter_T>::value_type T; + typedef typename std::iterator_traits<Iter_U>::value_type U; + CoinSort_3(sfirts, slast, tfirst, ufirst, CoinFirstLess_3<S,T,U>()); +} + +#else //======================================================================= + +template <class S, class T, class U, class CoinCompare3> void +CoinSort_3(S* sfirst, S* slast, T* tfirst, U* ufirst, const CoinCompare3& tc) +{ + const size_t len = coinDistance(sfirst,slast); + if (len <= 1) + return; + + typedef CoinTriple<S,T,U> STU_triple; + STU_triple* x = + static_cast<STU_triple*>(::operator new(len * sizeof(STU_triple))); + + size_t i = 0; + S* scurrent = sfirst; + T* tcurrent = tfirst; + U* ucurrent = ufirst; + while (scurrent != slast) { + new (x+i++) STU_triple(*scurrent++, *tcurrent++, *ucurrent++); + } + + std::sort(x, x+len, tc); + + scurrent = sfirst; + tcurrent = tfirst; + ucurrent = ufirst; + for (i = 0; i < len; ++i) { + *scurrent++ = x[i].first; + *tcurrent++ = x[i].second; + *ucurrent++ = x[i].third; + } + + ::operator delete(x); +} +//----------------------------------------------------------------------------- +template <class S, class T, class U> void +CoinSort_3(S* sfirst, S* slast, T* tfirst, U* ufirst) +{ + CoinSort_3(sfirst, slast, tfirst, ufirst, CoinFirstLess_3<S,T,U>()); +} + +#endif + +//############################################################################# + +#endif |