/* Copyright (c) 2008-2019 Jan W. Krieger (, ) This software 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 3 of the License, or (at your option) any later version. This program 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 program. If not, see . */ #ifndef JKQTPALGORITHMS_H_INCLUDED #define JKQTPALGORITHMS_H_INCLUDED #include "jkqtcommon/jkqtp_imexport.h" /*! \brief swap two elements \a l and \a r in an array \a a \ingroup jkqtptools_algorithms */ template inline void jkqtpSwap(T* a, int l, int r){ const T tmp=a[l]; a[l]=a[r]; a[r]=tmp; } /*! \brief QuickSort (recursive implementation) \ingroup jkqtptools_algorithms \internal implementation from http://www.linux-related.de/index.html?/coding/sort/sort_quick.htm */ template inline void jkqtpQuicksort(T* a, int l, int r){ if(r>l){ int i=l-1; int j=r; for(;;){ while(a[++i]a[r] && j>i); if(i>=j) break; jkqtpSwap(a, i, j); } jkqtpSwap(a, i, r); jkqtpQuicksort(a, l, i-1); jkqtpQuicksort(a, i+1, r); } } /*! \brief QuickSort (recursive implementation), sorts \a a2 alongside \a a, using \a a as sort criterion \ingroup jkqtptools_algorithms \internal implementation from http://www.linux-related.de/index.html?/coding/sort/sort_quick.htm */ template inline void jkqtpQuicksortDual(T* a, T2* a2, int l, int r){ if(r>l){ int i=l-1; int j=r; for(;;){ while(a[++i]a[r] && j>i); if(i>=j) break; jkqtpSwap(a, i, j); jkqtpSwap(a2, i, j); } jkqtpSwap(a, i, r); jkqtpSwap(a2, i, r); jkqtpQuicksortDual(a, a2, l, i-1); jkqtpQuicksortDual(a, a2, i+1, r); } } /*! \brief sort the given array and return the result in \a output (implies a copy!!!) \ingroup jkqtptools_algorithms \param input array to be sorted \param N size of the array input \param output if \c !=nullptr data is written here (the memory location pointed at by \a output has to have at least the length \a N !!!), otherwise the array input is sorted inplace. */ template inline void jkqtpQuicksort(const T* input, long long N, T* output) { if ((!input)) return ; if (N<=0) return; T* data=output; memcpy(output, input, N*sizeof(T)); jkqtpQuicksort(data, 0, N-1); } /*! \brief sort the given arrays, using \a input as sort criterion \ingroup jkqtptools_algorithms \param input array to be sorted (the sort criterion) \param input2 array to be sorted (sorted alongside \a input ) \param N size of the array input */ template inline void jkqtpQuicksortDual(T* input, T2* input2, int N) { if ((!input)) return ; if (N<=0) return; jkqtpQuicksortDual(input, input2, 0, N-1); } /*! \brief sort the given arrays, using \a input as sort criterion, returns the results in \a output and \a output2 (implied copies of the data!) \ingroup jkqtptools_algorithms \param input array to be sorted (the sort criterion) \param input2 array to be sorted (sorted alongside \a input ) \param N size of the array input \param output result is written here (the memory location pointed at by \a output has to have at least the length \a N !!!), otherwise the array input is sorted inplace. \param output2 result is written here (the memory location pointed at by \a output has to have at least the length \a N !!!), otherwise the array input is sorted inplace. */ template inline void jkqtpQuicksortDual(const T* input, const T2* input2, int N, T* output, T2* output2) { if ((!input)) return ; if (N<=0) return; T* data=output; memcpy(output, input, N*sizeof(T)); T2* data2=output2; memcpy(output2, input2, N*sizeof(T2)); jkqtpQuicksortDual(data, data2, 0, N-1); } #endif // JKQTPALGORITHMS_H_INCLUDED