Mercurial > hg > segmenter-vamp-plugin
view armadillo-2.4.4/include/armadillo_bits/op_max_meat.hpp @ 0:8b6102e2a9b0
Armadillo Library
| author | maxzanoni76 <max.zanoni@eecs.qmul.ac.uk> |
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| date | Wed, 11 Apr 2012 09:27:06 +0100 |
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// Copyright (C) 2008-2011 NICTA (www.nicta.com.au) // Copyright (C) 2008-2011 Conrad Sanderson // // This file is part of the Armadillo C++ library. // It is provided without any warranty of fitness // for any purpose. You can redistribute this file // and/or modify it under the terms of the GNU // Lesser General Public License (LGPL) as published // by the Free Software Foundation, either version 3 // of the License or (at your option) any later version. // (see http://www.opensource.org/licenses for more info) //! \addtogroup op_max //! @{ template<typename eT> arma_pure inline eT op_max::direct_max(const eT* const X, const uword n_elem) { arma_extra_debug_sigprint(); eT max_val = priv::most_neg<eT>(); uword i,j; for(i=0, j=1; j<n_elem; i+=2, j+=2) { const eT X_i = X[i]; const eT X_j = X[j]; if(X_i > max_val) { max_val = X_i; } if(X_j > max_val) { max_val = X_j; } } if(i < n_elem) { const eT X_i = X[i]; if(X_i > max_val) { max_val = X_i; } } return max_val; } template<typename eT> inline eT op_max::direct_max(const eT* const X, const uword n_elem, uword& index_of_max_val) { arma_extra_debug_sigprint(); eT max_val = priv::most_neg<eT>(); uword best_index = 0; uword i,j; for(i=0, j=1; j<n_elem; i+=2, j+=2) { const eT X_i = X[i]; const eT X_j = X[j]; if(X_i > max_val) { max_val = X_i; best_index = i; } if(X_j > max_val) { max_val = X_j; best_index = j; } } if(i < n_elem) { const eT X_i = X[i]; if(X_i > max_val) { max_val = X_i; best_index = i; } } index_of_max_val = best_index; return max_val; } template<typename eT> inline eT op_max::direct_max(const Mat<eT>& X, const uword row) { arma_extra_debug_sigprint(); const uword X_n_cols = X.n_cols; eT max_val = priv::most_neg<eT>(); for(uword col=0; col<X_n_cols; ++col) { const eT tmp_val = X.at(row,col); if(tmp_val > max_val) { max_val = tmp_val; } } return max_val; } template<typename eT> inline eT op_max::direct_max(const subview<eT>& X) { arma_extra_debug_sigprint(); const uword X_n_elem = X.n_elem; eT max_val = priv::most_neg<eT>(); for(uword i=0; i<X_n_elem; ++i) { eT tmp_val = X[i]; if(tmp_val > max_val) { max_val = tmp_val; } } return max_val; } template<typename eT> inline eT op_max::direct_max(const diagview<eT>& X) { arma_extra_debug_sigprint(); const uword X_n_elem = X.n_elem; eT max_val = priv::most_neg<eT>(); for(uword i=0; i<X_n_elem; ++i) { eT tmp_val = X[i]; if(tmp_val > max_val) { max_val = tmp_val; } } return max_val; } //! \brief //! For each row or for each column, find the maximum value. //! The result is stored in a dense matrix that has either one column or one row. //! The dimension, for which the maxima are found, is set via the max() function. template<typename T1> inline void op_max::apply(Mat<typename T1::elem_type>& out, const Op<T1,op_max>& in) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; const unwrap_check<T1> tmp(in.m, out); const Mat<eT>& X = tmp.M; const uword dim = in.aux_uword_a; arma_debug_check( (dim > 1), "max(): incorrect usage. dim must be 0 or 1"); const uword X_n_rows = X.n_rows; const uword X_n_cols = X.n_cols; if(dim == 0) { arma_extra_debug_print("op_max::apply(), dim = 0"); arma_debug_check( (X_n_rows == 0), "max(): given object has zero rows" ); out.set_size(1, X_n_cols); eT* out_mem = out.memptr(); for(uword col=0; col<X_n_cols; ++col) { out_mem[col] = op_max::direct_max( X.colptr(col), X_n_rows ); } } else if(dim == 1) { arma_extra_debug_print("op_max::apply(), dim = 1"); arma_debug_check( (X_n_cols == 0), "max(): given object has zero columns" ); out.set_size(X_n_rows, 1); eT* out_mem = out.memptr(); for(uword row=0; row<X_n_rows; ++row) { out_mem[row] = op_max::direct_max( X, row ); } } } template<typename T> inline std::complex<T> op_max::direct_max(const std::complex<T>* const X, const uword n_elem) { arma_extra_debug_sigprint(); uword index = 0; T max_val = priv::most_neg<T>(); for(uword i=0; i<n_elem; ++i) { const T tmp_val = std::abs(X[i]); if(tmp_val > max_val) { max_val = tmp_val; index = i; } } return X[index]; } template<typename T> inline std::complex<T> op_max::direct_max(const std::complex<T>* const X, const uword n_elem, uword& index_of_max_val) { arma_extra_debug_sigprint(); uword index = 0; T max_val = priv::most_neg<T>(); for(uword i=0; i<n_elem; ++i) { const T tmp_val = std::abs(X[i]); if(tmp_val > max_val) { max_val = tmp_val; index = i; } } index_of_max_val = index; return X[index]; } template<typename T> inline std::complex<T> op_max::direct_max(const Mat< std::complex<T> >& X, const uword row) { arma_extra_debug_sigprint(); const uword X_n_cols = X.n_cols; uword index = 0; T max_val = priv::most_neg<T>(); for(uword col=0; col<X_n_cols; ++col) { const T tmp_val = std::abs(X.at(row,col)); if(tmp_val > max_val) { max_val = tmp_val; index = col; } } return X.at(row,index); } template<typename T> inline std::complex<T> op_max::direct_max(const subview< std::complex<T> >& X) { arma_extra_debug_sigprint(); const uword X_n_elem = X.n_elem; uword index = 0; T max_val = priv::most_neg<T>(); for(uword i=0; i<X_n_elem; ++i) { const T tmp_val = std::abs(X[i]); if(tmp_val > max_val) { max_val = tmp_val; index = i; } } return X[index]; } template<typename T> inline std::complex<T> op_max::direct_max(const diagview< std::complex<T> >& X) { arma_extra_debug_sigprint(); const uword X_n_elem = X.n_elem; uword index = 0; T max_val = priv::most_neg<T>(); for(uword i=0; i<X_n_elem; ++i) { const T tmp_val = std::abs(X[i]); if(tmp_val > max_val) { max_val = tmp_val; index = i; } } return X[index]; } //! @}