// SPDX-License-Identifier: Apache-2.0 // // Copyright 2008-2016 Conrad Sanderson (http://conradsanderson.id.au) // Copyright 2008-2016 National ICT Australia (NICTA) // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // ------------------------------------------------------------------------ //! \addtogroup spop_min //! @{ template inline void spop_min::apply(SpMat& out, const SpOp& in) { arma_extra_debug_sigprint(); const uword dim = in.aux_uword_a; arma_debug_check( (dim > 1), "min(): parameter 'dim' must be 0 or 1" ); const SpProxy p(in.m); const uword p_n_rows = p.get_n_rows(); const uword p_n_cols = p.get_n_cols(); if( (p_n_rows == 0) || (p_n_cols == 0) || (p.get_n_nonzero() == 0) ) { if(dim == 0) { out.zeros((p_n_rows > 0) ? 1 : 0, p_n_cols); } if(dim == 1) { out.zeros(p_n_rows, (p_n_cols > 0) ? 1 : 0); } return; } spop_min::apply_proxy(out, p, dim); } template inline void spop_min::apply_proxy ( SpMat& out, const SpProxy& p, const uword dim, const typename arma_not_cx::result* junk ) { arma_extra_debug_sigprint(); arma_ignore(junk); typedef typename T1::elem_type eT; typename SpProxy::const_iterator_type it = p.begin(); typename SpProxy::const_iterator_type it_end = p.end(); const uword p_n_cols = p.get_n_cols(); const uword p_n_rows = p.get_n_rows(); if(dim == 0) // find the minimum in each column { Row value(p_n_cols, arma_zeros_indicator()); urowvec count(p_n_cols, arma_zeros_indicator()); while(it != it_end) { const uword col = it.col(); value[col] = (count[col] == 0) ? (*it) : (std::min)(value[col], (*it)); count[col]++; ++it; } for(uword col=0; col value(p_n_rows, arma_zeros_indicator()); ucolvec count(p_n_rows, arma_zeros_indicator()); while(it != it_end) { const uword row = it.row(); value[row] = (count[row] == 0) ? (*it) : (std::min)(value[row], (*it)); count[row]++; ++it; } for(uword row=0; row inline typename T1::elem_type spop_min::vector_min ( const T1& x, const typename arma_not_cx::result* junk ) { arma_extra_debug_sigprint(); arma_ignore(junk); typedef typename T1::elem_type eT; const SpProxy p(x); if(p.get_n_elem() == 0) { arma_debug_check(true, "min(): object has no elements"); return Datum::nan; } if(p.get_n_nonzero() == 0) { return eT(0); } if(SpProxy::use_iterator == false) { // direct access of values if(p.get_n_nonzero() == p.get_n_elem()) { return op_min::direct_min(p.get_values(), p.get_n_nonzero()); } else { return (std::min)(eT(0), op_min::direct_min(p.get_values(), p.get_n_nonzero())); } } else { // use iterator typename SpProxy::const_iterator_type it = p.begin(); typename SpProxy::const_iterator_type it_end = p.end(); eT result = (*it); ++it; while(it != it_end) { if((*it) < result) { result = (*it); } ++it; } if(p.get_n_nonzero() == p.get_n_elem()) { return result; } else { return (std::min)(eT(0), result); } } } template inline typename arma_not_cx::result spop_min::min(const SpBase& X) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; const SpProxy P(X.get_ref()); const uword n_elem = P.get_n_elem(); const uword n_nonzero = P.get_n_nonzero(); if(n_elem == 0) { arma_debug_check(true, "min(): object has no elements"); return Datum::nan; } eT min_val = priv::most_pos(); if(SpProxy::use_iterator) { // We have to iterate over the elements. typedef typename SpProxy::const_iterator_type it_type; it_type it = P.begin(); it_type it_end = P.end(); while(it != it_end) { if((*it) < min_val) { min_val = *it; } ++it; } } else { // We can do direct access of the values, row_indices, and col_ptrs. // We don't need the location of the min value, so we can just call out to // other functions... min_val = op_min::direct_min(P.get_values(), n_nonzero); } if(n_elem == n_nonzero) { return min_val; } else { return (std::min)(eT(0), min_val); } } template inline typename arma_not_cx::result spop_min::min_with_index(const SpProxy& P, uword& index_of_min_val) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; const uword n_elem = P.get_n_elem(); const uword n_nonzero = P.get_n_nonzero(); const uword n_rows = P.get_n_rows(); if(n_elem == 0) { arma_debug_check(true, "min(): object has no elements"); index_of_min_val = uword(0); return Datum::nan; } eT min_val = priv::most_pos(); if(SpProxy::use_iterator) { // We have to iterate over the elements. typedef typename SpProxy::const_iterator_type it_type; it_type it = P.begin(); it_type it_end = P.end(); while(it != it_end) { if((*it) < min_val) { min_val = *it; index_of_min_val = it.row() + it.col() * n_rows; } ++it; } } else { // We can do direct access. min_val = op_min::direct_min(P.get_values(), n_nonzero, index_of_min_val); // Convert to actual position in matrix. const uword row = P.get_row_indices()[index_of_min_val]; uword col = 0; while(P.get_col_ptrs()[++col] < index_of_min_val + 1) { } index_of_min_val = (col - 1) * n_rows + row; } if(n_elem != n_nonzero) { min_val = (std::min)(eT(0), min_val); // If the min_val is a nonzero element, we need its actual position in the matrix. if(min_val == eT(0)) { // Find first zero element. uword last_row = 0; uword last_col = 0; typedef typename SpProxy::const_iterator_type it_type; it_type it = P.begin(); it_type it_end = P.end(); while(it != it_end) { // Have we moved more than one position from the last place? if((it.col() == last_col) && (it.row() - last_row > 1)) { index_of_min_val = it.col() * n_rows + last_row + 1; break; } else if((it.col() >= last_col + 1) && (last_row < n_rows - 1)) { index_of_min_val = last_col * n_rows + last_row + 1; break; } else if((it.col() == last_col + 1) && (it.row() > 0)) { index_of_min_val = it.col() * n_rows; break; } else if(it.col() > last_col + 1) { index_of_min_val = (last_col + 1) * n_rows; break; } last_row = it.row(); last_col = it.col(); ++it; } } } return min_val; } template inline void spop_min::apply_proxy ( SpMat& out, const SpProxy& p, const uword dim, const typename arma_cx_only::result* junk ) { arma_extra_debug_sigprint(); arma_ignore(junk); typedef typename T1::elem_type eT; typedef typename get_pod_type::result T; typename SpProxy::const_iterator_type it = p.begin(); typename SpProxy::const_iterator_type it_end = p.end(); const uword p_n_cols = p.get_n_cols(); const uword p_n_rows = p.get_n_rows(); if(dim == 0) // find the minimum in each column { Row rawval(p_n_cols, arma_zeros_indicator()); Row< T> absval(p_n_cols, arma_zeros_indicator()); urowvec count(p_n_cols, arma_zeros_indicator()); while(it != it_end) { const uword col = it.col(); const eT& v = (*it); const T a = std::abs(v); if(count[col] == 0) { absval[col] = a; rawval[col] = v; } else { if(a < absval[col]) { absval[col] = a; rawval[col] = v; } } count[col]++; ++it; } for(uword col=0; col < p_n_cols; ++col) { if(count[col] < p_n_rows) { if(T(0) < absval[col]) { rawval[col] = eT(0); } } } out = rawval; } else if(dim == 1) // find the minimum in each row { Col rawval(p_n_rows, arma_zeros_indicator()); Col< T> absval(p_n_rows, arma_zeros_indicator()); ucolvec count(p_n_rows, arma_zeros_indicator()); while(it != it_end) { const uword row = it.row(); const eT& v = (*it); const T a = std::abs(v); if(count[row] == 0) { absval[row] = a; rawval[row] = v; } else { if(a < absval[row]) { absval[row] = a; rawval[row] = v; } } count[row]++; ++it; } for(uword row=0; row < p_n_rows; ++row) { if(count[row] < p_n_cols) { if(T(0) < absval[row]) { rawval[row] = eT(0); } } } out = rawval; } } template inline typename T1::elem_type spop_min::vector_min ( const T1& x, const typename arma_cx_only::result* junk ) { arma_extra_debug_sigprint(); arma_ignore(junk); typedef typename T1::elem_type eT; typedef typename get_pod_type::result T; const SpProxy p(x); if(p.get_n_elem() == 0) { arma_debug_check(true, "min(): object has no elements"); return Datum::nan; } if(p.get_n_nonzero() == 0) { return eT(0); } if(SpProxy::use_iterator == false) { // direct access of values if(p.get_n_nonzero() == p.get_n_elem()) { return op_min::direct_min(p.get_values(), p.get_n_nonzero()); } else { const eT val1 = eT(0); const eT val2 = op_min::direct_min(p.get_values(), p.get_n_nonzero()); return ( std::abs(val1) < std::abs(val2) ) ? val1 : val2; } } else { // use iterator typename SpProxy::const_iterator_type it = p.begin(); typename SpProxy::const_iterator_type it_end = p.end(); eT best_val_orig = *it; T best_val_abs = std::abs(best_val_orig); ++it; while(it != it_end) { eT val_orig = *it; T val_abs = std::abs(val_orig); if(val_abs < best_val_abs) { best_val_abs = val_abs; best_val_orig = val_orig; } ++it; } if(p.get_n_nonzero() == p.get_n_elem()) { return best_val_orig; } else { const eT val1 = eT(0); return ( std::abs(val1) < best_val_abs ) ? val1 : best_val_orig; } } } template inline typename arma_cx_only::result spop_min::min(const SpBase& X) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; typedef typename get_pod_type::result T; const SpProxy P(X.get_ref()); const uword n_elem = P.get_n_elem(); const uword n_nonzero = P.get_n_nonzero(); if(n_elem == 0) { arma_debug_check(true, "min(): object has no elements"); return Datum::nan; } T min_val = priv::most_pos(); eT ret_val; if(SpProxy::use_iterator) { // We have to iterate over the elements. typedef typename SpProxy::const_iterator_type it_type; it_type it = P.begin(); it_type it_end = P.end(); while(it != it_end) { const T tmp_val = std::abs(*it); if(tmp_val < min_val) { min_val = tmp_val; ret_val = *it; } ++it; } } else { // We can do direct access of the values, row_indices, and col_ptrs. // We don't need the location of the min value, so we can just call out to // other functions... ret_val = op_min::direct_min(P.get_values(), n_nonzero); min_val = std::abs(ret_val); } if(n_elem == n_nonzero) { return ret_val; } else { return (T(0) < min_val) ? eT(0) : ret_val; } } template inline typename arma_cx_only::result spop_min::min_with_index(const SpProxy& P, uword& index_of_min_val) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; typedef typename get_pod_type::result T; const uword n_elem = P.get_n_elem(); const uword n_nonzero = P.get_n_nonzero(); const uword n_rows = P.get_n_rows(); if(n_elem == 0) { arma_debug_check(true, "min(): object has no elements"); index_of_min_val = uword(0); return Datum::nan; } T min_val = priv::most_pos(); if(SpProxy::use_iterator) { // We have to iterate over the elements. typedef typename SpProxy::const_iterator_type it_type; it_type it = P.begin(); it_type it_end = P.end(); while(it != it_end) { const T tmp_val = std::abs(*it); if(tmp_val < min_val) { min_val = tmp_val; index_of_min_val = it.row() + it.col() * n_rows; } ++it; } } else { // We can do direct access. min_val = std::abs(op_min::direct_min(P.get_values(), n_nonzero, index_of_min_val)); // Convert to actual position in matrix. const uword row = P.get_row_indices()[index_of_min_val]; uword col = 0; while(P.get_col_ptrs()[++col] < index_of_min_val + 1) { } index_of_min_val = (col - 1) * n_rows + row; } if(n_elem != n_nonzero) { min_val = (std::min)(T(0), min_val); // If the min_val is a nonzero element, we need its actual position in the matrix. if(min_val == T(0)) { // Find first zero element. uword last_row = 0; uword last_col = 0; typedef typename SpProxy::const_iterator_type it_type; it_type it = P.begin(); it_type it_end = P.end(); while(it != it_end) { // Have we moved more than one position from the last place? if((it.col() == last_col) && (it.row() - last_row > 1)) { index_of_min_val = it.col() * n_rows + last_row + 1; break; } else if((it.col() >= last_col + 1) && (last_row < n_rows - 1)) { index_of_min_val = last_col * n_rows + last_row + 1; break; } else if((it.col() == last_col + 1) && (it.row() > 0)) { index_of_min_val = it.col() * n_rows; break; } else if(it.col() > last_col + 1) { index_of_min_val = (last_col + 1) * n_rows; break; } last_row = it.row(); last_col = it.col(); ++it; } } } return P[index_of_min_val]; } //! @}