// Copyright (C) 2015 National ICT Australia (NICTA) // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this // file, You can obtain one at http://mozilla.org/MPL/2.0/. // ------------------------------------------------------------------- // // Written by Conrad Sanderson - http://conradsanderson.id.au //! \addtogroup fn_interp1 //! @{ template inline void interp1_helper_nearest(const Mat& XG, const Mat& YG, const Mat& XI, Mat& YI, const eT extrap_val) { arma_extra_debug_sigprint(); const eT XG_min = XG.min(); const eT XG_max = XG.max(); YI.copy_size(XI); const eT* XG_mem = XG.memptr(); const eT* YG_mem = YG.memptr(); const eT* XI_mem = XI.memptr(); eT* YI_mem = YI.memptr(); const uword NG = XG.n_elem; const uword NI = XI.n_elem; uword best_j = 0; for(uword i=0; i::inf; const eT XI_val = XI_mem[i]; if((XI_val < XG_min) || (XI_val > XG_max)) { YI_mem[i] = extrap_val; } else { // XG and XI are guaranteed to be sorted in ascending manner, // so start searching XG from last known optimum position for(uword j=best_j; j= eT(0)) ? tmp : -tmp; if(err >= best_err) { // error is going up, so we have found the optimum position break; } else { best_err = err; best_j = j; // remember the optimum position } } YI_mem[i] = YG_mem[best_j]; } } } template inline void interp1_helper_linear(const Mat& XG, const Mat& YG, const Mat& XI, Mat& YI, const eT extrap_val) { arma_extra_debug_sigprint(); const eT XG_min = XG.min(); const eT XG_max = XG.max(); YI.copy_size(XI); const eT* XG_mem = XG.memptr(); const eT* YG_mem = YG.memptr(); const eT* XI_mem = XI.memptr(); eT* YI_mem = YI.memptr(); const uword NG = XG.n_elem; const uword NI = XI.n_elem; uword a_best_j = 0; uword b_best_j = 0; for(uword i=0; i XG_max)) { YI_mem[i] = extrap_val; } else { // XG and XI are guaranteed to be sorted in ascending manner, // so start searching XG from last known optimum position eT a_best_err = Datum::inf; eT b_best_err = Datum::inf; for(uword j=a_best_j; j= eT(0)) ? tmp : -tmp; if(err >= a_best_err) { break; } else { a_best_err = err; a_best_j = j; } } if( (XG_mem[a_best_j] - XI_val) <= eT(0) ) { // a_best_j is to the left of the interpolated position b_best_j = ( (a_best_j+1) < NG) ? (a_best_j+1) : a_best_j; } else { // a_best_j is to the right of the interpolated position b_best_j = (a_best_j >= 1) ? (a_best_j-1) : a_best_j; } b_best_err = std::abs( XG_mem[b_best_j] - XI_val ); if(a_best_j > b_best_j) { std::swap(a_best_j, b_best_j ); std::swap(a_best_err, b_best_err); } const eT weight = (a_best_err > eT(0)) ? (a_best_err / (a_best_err + b_best_err)) : eT(0); YI_mem[i] = (eT(1) - weight)*YG_mem[a_best_j] + (weight)*YG_mem[b_best_j]; } } } template inline void interp1_helper(const Mat& X, const Mat& Y, const Mat& XI, Mat& YI, const uword sig, const eT extrap_val) { arma_extra_debug_sigprint(); arma_debug_check( ((X.is_vec() == false) || (Y.is_vec() == false) || (XI.is_vec() == false)), "interp1(): currently only vectors are supported" ); arma_debug_check( (X.n_elem != Y.n_elem), "interp1(): X and Y must have the same number of elements" ); arma_debug_check( (X.n_elem < 2), "interp1(): X must have at least two unique elements" ); // sig = 10: nearest neighbour // sig = 11: nearest neighbour, assume monotonic increase in X and XI // // sig = 20: linear // sig = 21: linear, assume monotonic increase in X and XI if(sig == 11) { interp1_helper_nearest(X, Y, XI, YI, extrap_val); return; } if(sig == 21) { interp1_helper_linear (X, Y, XI, YI, extrap_val); return; } uvec X_indices; try { X_indices = find_unique(X,false); } catch(...) { } // NOTE: find_unique(X,false) provides indices of elements sorted in ascending order // NOTE: find_unique(X,false) will reset X_indices if X has NaN const uword N_subset = X_indices.n_elem; arma_debug_check( (N_subset < 2), "interp1(): X must have at least two unique elements" ); Mat X_sanitised(N_subset,1); Mat Y_sanitised(N_subset,1); eT* X_sanitised_mem = X_sanitised.memptr(); eT* Y_sanitised_mem = Y_sanitised.memptr(); const eT* X_mem = X.memptr(); const eT* Y_mem = Y.memptr(); const uword* X_indices_mem = X_indices.memptr(); for(uword i=0; i XI_tmp; uvec XI_indices; const bool XI_is_sorted = XI.is_sorted(); if(XI_is_sorted == false) { XI_indices = sort_index(XI); const uword N = XI.n_elem; XI_tmp.copy_size(XI); const uword* XI_indices_mem = XI_indices.memptr(); const eT* XI_mem = XI.memptr(); eT* XI_tmp_mem = XI_tmp.memptr(); for(uword i=0; i& XI_sorted = (XI_is_sorted) ? XI : XI_tmp; if(sig == 10) { interp1_helper_nearest(X_sanitised, Y_sanitised, XI_sorted, YI, extrap_val); } else if(sig == 20) { interp1_helper_linear (X_sanitised, Y_sanitised, XI_sorted, YI, extrap_val); } if( (XI_is_sorted == false) && (YI.n_elem > 0) ) { Mat YI_unsorted; YI_unsorted.copy_size(YI); const eT* YI_mem = YI.memptr(); eT* YI_unsorted_mem = YI_unsorted.memptr(); const uword N = XI_sorted.n_elem; const uword* XI_indices_mem = XI_indices.memptr(); for(uword i=0; i inline typename enable_if2 < is_real::value, void >::result interp1 ( const Base& X, const Base& Y, const Base& XI, Mat& YI, const char* method = "linear", const typename T1::elem_type extrap_val = Datum::nan ) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; uword sig = 0; if(method != NULL ) if(method[0] != char(0)) if(method[1] != char(0)) { const char c1 = method[0]; const char c2 = method[1]; if(c1 == 'n') { sig = 10; } // nearest neighbour else if(c1 == 'l') { sig = 20; } // linear else { if( (c1 == '*') && (c2 == 'n') ) { sig = 11; } // nearest neighour, assume monotonic increase in X and XI if( (c1 == '*') && (c2 == 'l') ) { sig = 21; } // linear, assume monotonic increase in X and XI } } arma_debug_check( (sig == 0), "interp1(): unsupported interpolation type" ); const quasi_unwrap X_tmp( X.get_ref()); const quasi_unwrap Y_tmp( Y.get_ref()); const quasi_unwrap XI_tmp(XI.get_ref()); if( X_tmp.is_alias(YI) || Y_tmp.is_alias(YI) || XI_tmp.is_alias(YI) ) { Mat tmp; interp1_helper(X_tmp.M, Y_tmp.M, XI_tmp.M, tmp, sig, extrap_val); YI.steal_mem(tmp); } else { interp1_helper(X_tmp.M, Y_tmp.M, XI_tmp.M, YI, sig, extrap_val); } } //! @}