// SPDX-License-Identifier: Apache-2.0 // // Copyright 2008-2016 Conrad Sanderson (https://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 // https://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 Row //! @{ //! construct an empty row vector template inline Row::Row() : Mat(arma_vec_indicator(), 2) { arma_debug_sigprint(); } template inline Row::Row(const Row& X) : Mat(arma_vec_indicator(), 1, X.n_elem, 2) { arma_debug_sigprint(); arrayops::copy((*this).memptr(), X.memptr(), X.n_elem); } //! construct a row vector with the specified number of n_elem template inline Row::Row(const uword in_n_elem) : Mat(arma_vec_indicator(), 1, in_n_elem, 2) { arma_debug_sigprint(); arma_debug_print("Row::constructor: zeroing memory"); arrayops::fill_zeros(Mat::memptr(), Mat::n_elem); } template inline Row::Row(const uword in_n_rows, const uword in_n_cols) : Mat(arma_vec_indicator(), 0, 0, 2) { arma_debug_sigprint(); Mat::init_warm(in_n_rows, in_n_cols); arma_debug_print("Row::constructor: zeroing memory"); arrayops::fill_zeros(Mat::memptr(), Mat::n_elem); } template inline Row::Row(const SizeMat& s) : Mat(arma_vec_indicator(), 0, 0, 2) { arma_debug_sigprint(); Mat::init_warm(s.n_rows, s.n_cols); arma_debug_print("Row::constructor: zeroing memory"); arrayops::fill_zeros(Mat::memptr(), Mat::n_elem); } //! internal use only template template inline Row::Row(const uword in_n_elem, const arma_initmode_indicator&) : Mat(arma_vec_indicator(), 1, in_n_elem, 2) { arma_debug_sigprint(); if(do_zeros) { arma_debug_print("Row::constructor: zeroing memory"); arrayops::fill_zeros(Mat::memptr(), Mat::n_elem); } else { arma_debug_print("Row::constructor: not zeroing memory"); } } //! internal use only template template inline Row::Row(const uword in_n_rows, const uword in_n_cols, const arma_initmode_indicator&) : Mat(arma_vec_indicator(), 0, 0, 2) { arma_debug_sigprint(); Mat::init_warm(in_n_rows, in_n_cols); if(do_zeros) { arma_debug_print("Row::constructor: zeroing memory"); arrayops::fill_zeros(Mat::memptr(), Mat::n_elem); } else { arma_debug_print("Row::constructor: not zeroing memory"); } } //! internal use only template template inline Row::Row(const SizeMat& s, const arma_initmode_indicator&) : Mat(arma_vec_indicator(), 0, 0, 2) { arma_debug_sigprint(); Mat::init_warm(s.n_rows, s.n_cols); if(do_zeros) { arma_debug_print("Row::constructor: zeroing memory"); arrayops::fill_zeros(Mat::memptr(), Mat::n_elem); } else { arma_debug_print("Row::constructor: not zeroing memory"); } } template template inline Row::Row(const uword in_n_elem, const fill::fill_class& f) : Mat(arma_vec_indicator(), 1, in_n_elem, 2) { arma_debug_sigprint(); (*this).fill(f); } template template inline Row::Row(const uword in_n_rows, const uword in_n_cols, const fill::fill_class& f) : Mat(arma_vec_indicator(), 0, 0, 2) { arma_debug_sigprint(); Mat::init_warm(in_n_rows, in_n_cols); (*this).fill(f); } template template inline Row::Row(const SizeMat& s, const fill::fill_class& f) : Mat(arma_vec_indicator(), 0, 0, 2) { arma_debug_sigprint(); Mat::init_warm(s.n_rows, s.n_cols); (*this).fill(f); } template inline Row::Row(const uword in_n_elem, const fill::scalar_holder f) : Mat(arma_vec_indicator(), 1, in_n_elem, 2) { arma_debug_sigprint(); (*this).fill(f.scalar); } template inline Row::Row(const uword in_n_rows, const uword in_n_cols, const fill::scalar_holder f) : Mat(arma_vec_indicator(), 0, 0, 2) { arma_debug_sigprint(); Mat::init_warm(in_n_rows, in_n_cols); (*this).fill(f.scalar); } template inline Row::Row(const SizeMat& s, const fill::scalar_holder f) : Mat(arma_vec_indicator(), 0, 0, 2) { arma_debug_sigprint(); Mat::init_warm(s.n_rows, s.n_cols); (*this).fill(f.scalar); } template inline Row::Row(const char* text) : Mat(arma_vec_indicator(), 2) { arma_debug_sigprint(); (*this).operator=(text); } template inline Row& Row::operator=(const char* text) { arma_debug_sigprint(); Mat tmp(text); arma_conform_check( ((tmp.n_elem > 0) && (tmp.is_vec() == false)), "Mat::init(): requested size is not compatible with row vector layout" ); access::rw(tmp.n_rows) = 1; access::rw(tmp.n_cols) = tmp.n_elem; (*this).steal_mem(tmp); return *this; } template inline Row::Row(const std::string& text) : Mat(arma_vec_indicator(), 2) { arma_debug_sigprint(); (*this).operator=(text); } template inline Row& Row::operator=(const std::string& text) { arma_debug_sigprint(); Mat tmp(text); arma_conform_check( ((tmp.n_elem > 0) && (tmp.is_vec() == false)), "Mat::init(): requested size is not compatible with row vector layout" ); access::rw(tmp.n_rows) = 1; access::rw(tmp.n_cols) = tmp.n_elem; (*this).steal_mem(tmp); return *this; } //! create a row vector from std::vector template inline Row::Row(const std::vector& x) : Mat(arma_vec_indicator(), 1, uword(x.size()), 2) { arma_debug_sigprint_this(this); const uword N = uword(x.size()); if(N > 0) { arrayops::copy( Mat::memptr(), &(x[0]), N ); } } //! create a row vector from std::vector template inline Row& Row::operator=(const std::vector& x) { arma_debug_sigprint(); const uword N = uword(x.size()); Mat::init_warm(1, N); if(N > 0) { arrayops::copy( Mat::memptr(), &(x[0]), N ); } return *this; } template inline Row::Row(const std::initializer_list& list) : Mat(arma_vec_indicator(), 1, uword(list.size()), 2) { arma_debug_sigprint_this(this); const uword N = uword(list.size()); if(N > 0) { arrayops::copy( Mat::memptr(), list.begin(), N ); } } template inline Row& Row::operator=(const std::initializer_list& list) { arma_debug_sigprint(); const uword N = uword(list.size()); Mat::init_warm(1, N); if(N > 0) { arrayops::copy( Mat::memptr(), list.begin(), N ); } return *this; } template inline Row::Row(Row&& X) : Mat(arma_vec_indicator(), 2) { arma_debug_sigprint(arma_str::format("this: %x; X: %x") % this % &X); access::rw(Mat::n_rows) = 1; access::rw(Mat::n_cols) = X.n_cols; access::rw(Mat::n_elem) = X.n_elem; access::rw(Mat::n_alloc) = X.n_alloc; if( (X.n_alloc > arma_config::mat_prealloc) || (X.mem_state == 1) || (X.mem_state == 2) ) { access::rw(Mat::mem_state) = X.mem_state; access::rw(Mat::mem) = X.mem; access::rw(X.n_rows) = 1; access::rw(X.n_cols) = 0; access::rw(X.n_elem) = 0; access::rw(X.n_alloc) = 0; access::rw(X.mem_state) = 0; access::rw(X.mem) = nullptr; } else // condition: (X.n_alloc <= arma_config::mat_prealloc) || (X.mem_state == 0) || (X.mem_state == 3) { (*this).init_cold(); arrayops::copy( (*this).memptr(), X.mem, X.n_elem ); if( (X.mem_state == 0) && (X.n_alloc <= arma_config::mat_prealloc) ) { access::rw(X.n_rows) = 1; access::rw(X.n_cols) = 0; access::rw(X.n_elem) = 0; access::rw(X.mem) = nullptr; } } } template inline Row& Row::operator=(Row&& X) { arma_debug_sigprint(arma_str::format("this: %x; X: %x") % this % &X); (*this).steal_mem(X, true); return *this; } // template // inline // Row::Row(Mat&& X) // : Mat(arma_vec_indicator(), 2) // { // arma_debug_sigprint(arma_str::format("this: %x; X: %x") % this % &X); // // if(X.n_rows != 1) { const Mat& XX = X; Mat::operator=(XX); return; } // // access::rw(Mat::n_rows) = 1; // access::rw(Mat::n_cols) = X.n_cols; // access::rw(Mat::n_elem) = X.n_elem; // access::rw(Mat::n_alloc) = X.n_alloc; // // if( (X.n_alloc > arma_config::mat_prealloc) || (X.mem_state == 1) || (X.mem_state == 2) ) // { // access::rw(Mat::mem_state) = X.mem_state; // access::rw(Mat::mem) = X.mem; // // access::rw(X.n_cols) = 0; // access::rw(X.n_elem) = 0; // access::rw(X.n_alloc) = 0; // access::rw(X.mem_state) = 0; // access::rw(X.mem) = nullptr; // } // else // condition: (X.n_alloc <= arma_config::mat_prealloc) || (X.mem_state == 0) || (X.mem_state == 3) // { // (*this).init_cold(); // // arrayops::copy( (*this).memptr(), X.mem, X.n_elem ); // // if( (X.mem_state == 0) && (X.n_alloc <= arma_config::mat_prealloc) ) // { // access::rw(X.n_cols) = 0; // access::rw(X.n_elem) = 0; // access::rw(X.mem) = nullptr; // } // } // } // // // // template // inline // Row& // Row::operator=(Mat&& X) // { // arma_debug_sigprint(arma_str::format("this: %x; X: %x") % this % &X); // // if(X.n_rows != 1) { const Mat& XX = X; Mat::operator=(XX); return *this; } // // (*this).steal_mem(X, true); // // return *this; // } template inline Row& Row::operator=(const eT val) { arma_debug_sigprint(); Mat::operator=(val); return *this; } template inline Row& Row::operator=(const Row& X) { arma_debug_sigprint(); Mat::operator=(X); return *this; } template template inline Row::Row(const Base& X) : Mat(X.get_ref(), arma_vec_indicator(), 2) { arma_debug_sigprint_this(this); } template template inline Row& Row::operator=(const Base& X) { arma_debug_sigprint(); Mat::operator=(X.get_ref()); return *this; } template template inline Row::Row(const SpBase& X) : Mat(X.get_ref(), arma_vec_indicator(), 2) { arma_debug_sigprint_this(this); } template template inline Row& Row::operator=(const SpBase& X) { arma_debug_sigprint(); Mat::operator=(X.get_ref()); return *this; } //! construct a row vector from a given auxiliary array template inline Row::Row(eT* aux_mem, const uword aux_length, const bool copy_aux_mem, const bool strict) : Mat(aux_mem, 1, aux_length, copy_aux_mem, strict) { arma_debug_sigprint(); access::rw(Mat::vec_state) = 2; } //! construct a row vector from a given auxiliary array template inline Row::Row(const eT* aux_mem, const uword aux_length) : Mat(aux_mem, 1, aux_length) { arma_debug_sigprint(); access::rw(Mat::vec_state) = 2; } template template inline Row::Row ( const Base::pod_type, T1>& A, const Base::pod_type, T2>& B ) : Mat(A.get_ref(), B.get_ref(), arma_vec_indicator(), 2) { arma_debug_sigprint_this(this); } template template inline Row::Row(const BaseCube& X) : Mat(X.get_ref(), arma_vec_indicator(), 2) { arma_debug_sigprint_this(this); } template template inline Row& Row::operator=(const BaseCube& X) { arma_debug_sigprint(); Mat::operator=(X); return *this; } template inline Row::Row(const subview_cube& X) : Mat(X, arma_vec_indicator(), 2) { arma_debug_sigprint_this(this); } template inline Row& Row::operator=(const subview_cube& X) { arma_debug_sigprint(); Mat::operator=(X); return *this; } template inline mat_injector< Row > Row::operator<<(const eT val) { return mat_injector< Row >(*this, val); } template arma_inline const Op,op_htrans> Row::t() const { return Op,op_htrans>(*this); } template arma_inline const Op,op_htrans> Row::ht() const { return Op,op_htrans>(*this); } template arma_inline const Op,op_strans> Row::st() const { return Op,op_strans>(*this); } template arma_inline const Op,op_strans> Row::as_col() const { return Op,op_strans>(*this); } template arma_inline subview_row Row::col(const uword in_col1) { arma_debug_sigprint(); arma_conform_check_bounds( (in_col1 >= Mat::n_cols), "Row::col(): indices out of bounds or incorrectly used" ); return subview_row(*this, 0, in_col1, 1); } template arma_inline const subview_row Row::col(const uword in_col1) const { arma_debug_sigprint(); arma_conform_check_bounds( (in_col1 >= Mat::n_cols), "Row::col(): indices out of bounds or incorrectly used" ); return subview_row(*this, 0, in_col1, 1); } template arma_inline subview_row Row::cols(const uword in_col1, const uword in_col2) { arma_debug_sigprint(); arma_conform_check_bounds( ( (in_col1 > in_col2) || (in_col2 >= Mat::n_cols) ), "Row::cols(): indices out of bounds or incorrectly used" ); const uword subview_n_cols = in_col2 - in_col1 + 1; return subview_row(*this, 0, in_col1, subview_n_cols); } template arma_inline const subview_row Row::cols(const uword in_col1, const uword in_col2) const { arma_debug_sigprint(); arma_conform_check_bounds( ( (in_col1 > in_col2) || (in_col2 >= Mat::n_cols) ), "Row::cols(): indices out of bounds or incorrectly used" ); const uword subview_n_cols = in_col2 - in_col1 + 1; return subview_row(*this, 0, in_col1, subview_n_cols); } template arma_inline subview_row Row::subvec(const uword in_col1, const uword in_col2) { arma_debug_sigprint(); arma_conform_check_bounds( ( (in_col1 > in_col2) || (in_col2 >= Mat::n_cols) ), "Row::subvec(): indices out of bounds or incorrectly used" ); const uword subview_n_cols = in_col2 - in_col1 + 1; return subview_row(*this, 0, in_col1, subview_n_cols); } template arma_inline const subview_row Row::subvec(const uword in_col1, const uword in_col2) const { arma_debug_sigprint(); arma_conform_check_bounds( ( (in_col1 > in_col2) || (in_col2 >= Mat::n_cols) ), "Row::subvec(): indices out of bounds or incorrectly used" ); const uword subview_n_cols = in_col2 - in_col1 + 1; return subview_row(*this, 0, in_col1, subview_n_cols); } template arma_inline subview_row Row::cols(const span& col_span) { arma_debug_sigprint(); return subvec(col_span); } template arma_inline const subview_row Row::cols(const span& col_span) const { arma_debug_sigprint(); return subvec(col_span); } template arma_inline subview_row Row::subvec(const span& col_span) { arma_debug_sigprint(); const bool col_all = col_span.whole; const uword local_n_cols = Mat::n_cols; const uword in_col1 = col_all ? 0 : col_span.a; const uword in_col2 = col_span.b; const uword subvec_n_cols = col_all ? local_n_cols : in_col2 - in_col1 + 1; arma_conform_check_bounds( ( col_all ? false : ((in_col1 > in_col2) || (in_col2 >= local_n_cols)) ), "Row::subvec(): indices out of bounds or incorrectly used" ); return subview_row(*this, 0, in_col1, subvec_n_cols); } template arma_inline const subview_row Row::subvec(const span& col_span) const { arma_debug_sigprint(); const bool col_all = col_span.whole; const uword local_n_cols = Mat::n_cols; const uword in_col1 = col_all ? 0 : col_span.a; const uword in_col2 = col_span.b; const uword subvec_n_cols = col_all ? local_n_cols : in_col2 - in_col1 + 1; arma_conform_check_bounds( ( col_all ? false : ((in_col1 > in_col2) || (in_col2 >= local_n_cols)) ), "Row::subvec(): indices out of bounds or incorrectly used" ); return subview_row(*this, 0, in_col1, subvec_n_cols); } template arma_inline subview_row Row::operator()(const span& col_span) { arma_debug_sigprint(); return subvec(col_span); } template arma_inline const subview_row Row::operator()(const span& col_span) const { arma_debug_sigprint(); return subvec(col_span); } template arma_inline subview_row Row::subvec(const uword start_col, const SizeMat& s) { arma_debug_sigprint(); arma_conform_check( (s.n_rows != 1), "Row::subvec(): given size does not specify a row vector" ); arma_conform_check_bounds( ( (start_col >= Mat::n_cols) || ((start_col + s.n_cols) > Mat::n_cols) ), "Row::subvec(): size out of bounds" ); return subview_row(*this, 0, start_col, s.n_cols); } template arma_inline const subview_row Row::subvec(const uword start_col, const SizeMat& s) const { arma_debug_sigprint(); arma_conform_check( (s.n_rows != 1), "Row::subvec(): given size does not specify a row vector" ); arma_conform_check_bounds( ( (start_col >= Mat::n_cols) || ((start_col + s.n_cols) > Mat::n_cols) ), "Row::subvec(): size out of bounds" ); return subview_row(*this, 0, start_col, s.n_cols); } template arma_inline subview_row Row::head(const uword N) { arma_debug_sigprint(); arma_conform_check_bounds( (N > Mat::n_cols), "Row::head(): size out of bounds" ); return subview_row(*this, 0, 0, N); } template arma_inline const subview_row Row::head(const uword N) const { arma_debug_sigprint(); arma_conform_check_bounds( (N > Mat::n_cols), "Row::head(): size out of bounds" ); return subview_row(*this, 0, 0, N); } template arma_inline subview_row Row::tail(const uword N) { arma_debug_sigprint(); arma_conform_check_bounds( (N > Mat::n_cols), "Row::tail(): size out of bounds" ); const uword start_col = Mat::n_cols - N; return subview_row(*this, 0, start_col, N); } template arma_inline const subview_row Row::tail(const uword N) const { arma_debug_sigprint(); arma_conform_check_bounds( (N > Mat::n_cols), "Row::tail(): size out of bounds" ); const uword start_col = Mat::n_cols - N; return subview_row(*this, 0, start_col, N); } template arma_inline subview_row Row::head_cols(const uword N) { arma_debug_sigprint(); return (*this).head(N); } template arma_inline const subview_row Row::head_cols(const uword N) const { arma_debug_sigprint(); return (*this).head(N); } template arma_inline subview_row Row::tail_cols(const uword N) { arma_debug_sigprint(); return (*this).tail(N); } template arma_inline const subview_row Row::tail_cols(const uword N) const { arma_debug_sigprint(); return (*this).tail(N); } //! remove specified columns template inline void Row::shed_col(const uword col_num) { arma_debug_sigprint(); arma_conform_check_bounds( col_num >= Mat::n_cols, "Row::shed_col(): index out of bounds" ); shed_cols(col_num, col_num); } //! remove specified columns template inline void Row::shed_cols(const uword in_col1, const uword in_col2) { arma_debug_sigprint(); arma_conform_check_bounds ( (in_col1 > in_col2) || (in_col2 >= Mat::n_cols), "Row::shed_cols(): indices out of bounds or incorrectly used" ); const uword n_keep_front = in_col1; const uword n_keep_back = Mat::n_cols - (in_col2 + 1); Row X(n_keep_front + n_keep_back, arma_nozeros_indicator()); eT* X_mem = X.memptr(); const eT* t_mem = (*this).memptr(); if(n_keep_front > 0) { arrayops::copy( X_mem, t_mem, n_keep_front ); } if(n_keep_back > 0) { arrayops::copy( &(X_mem[n_keep_front]), &(t_mem[in_col2+1]), n_keep_back); } Mat::steal_mem(X); } //! remove specified columns template template inline void Row::shed_cols(const Base& indices) { arma_debug_sigprint(); Mat::shed_cols(indices); } template inline void Row::insert_cols(const uword col_num, const uword N, const bool set_to_zero) { arma_debug_sigprint(); arma_ignore(set_to_zero); (*this).insert_cols(col_num, N); } template inline void Row::insert_cols(const uword col_num, const uword N) { arma_debug_sigprint(); const uword t_n_cols = Mat::n_cols; const uword A_n_cols = col_num; const uword B_n_cols = t_n_cols - col_num; // insertion at col_num == n_cols is in effect an append operation arma_conform_check_bounds( (col_num > t_n_cols), "Row::insert_cols(): index out of bounds" ); if(N == 0) { return; } Row out(t_n_cols + N, arma_nozeros_indicator()); eT* out_mem = out.memptr(); const eT* t_mem = (*this).memptr(); if(A_n_cols > 0) { arrayops::copy( out_mem, t_mem, A_n_cols ); } if(B_n_cols > 0) { arrayops::copy( &(out_mem[col_num + N]), &(t_mem[col_num]), B_n_cols ); } arrayops::fill_zeros( &(out_mem[col_num]), N ); Mat::steal_mem(out); } //! insert the given object at the specified col position; //! the given object must have one row template template inline void Row::insert_cols(const uword col_num, const Base& X) { arma_debug_sigprint(); Mat::insert_cols(col_num, X); } template arma_inline eT& Row::at(const uword i) { return access::rw(Mat::mem[i]); } template arma_inline const eT& Row::at(const uword i) const { return Mat::mem[i]; } template arma_inline eT& Row::at(const uword, const uword in_col) { return access::rw( Mat::mem[in_col] ); } template arma_inline const eT& Row::at(const uword, const uword in_col) const { return Mat::mem[in_col]; } template inline typename Row::row_iterator Row::begin_row(const uword row_num) { arma_debug_sigprint(); arma_conform_check_bounds( (row_num >= Mat::n_rows), "Row::begin_row(): index out of bounds" ); return Mat::memptr(); } template inline typename Row::const_row_iterator Row::begin_row(const uword row_num) const { arma_debug_sigprint(); arma_conform_check_bounds( (row_num >= Mat::n_rows), "Row::begin_row(): index out of bounds" ); return Mat::memptr(); } template inline typename Row::row_iterator Row::end_row(const uword row_num) { arma_debug_sigprint(); arma_conform_check_bounds( (row_num >= Mat::n_rows), "Row::end_row(): index out of bounds" ); return Mat::memptr() + Mat::n_cols; } template inline typename Row::const_row_iterator Row::end_row(const uword row_num) const { arma_debug_sigprint(); arma_conform_check_bounds( (row_num >= Mat::n_rows), "Row::end_row(): index out of bounds" ); return Mat::memptr() + Mat::n_cols; } template inline Row::Row(const subview& X, const bool reuse_mem) : Mat(X, reuse_mem) { arma_debug_sigprint_this(this); } // template template arma_inline Row::fixed::fixed() : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); arma_debug_print("Row::fixed::constructor: zeroing memory"); eT* mem_use = (use_extra) ? &(mem_local_extra[0]) : &(Mat::mem_local[0]); arrayops::inplace_set_fixed( mem_use, eT(0) ); } template template arma_inline Row::fixed::fixed(const fixed& X) : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); eT* dest = (use_extra) ? mem_local_extra : Mat::mem_local; const eT* src = (use_extra) ? X.mem_local_extra : X.mem_local; arrayops::copy( dest, src, fixed_n_elem ); } template template arma_inline Row::fixed::fixed(const subview_cube& X) : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); Row::operator=(X); } template template inline Row::fixed::fixed(const fill::scalar_holder f) : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); (*this).fill(f.scalar); } template template template inline Row::fixed::fixed(const fill::fill_class&) : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); if(is_same_type::yes) { (*this).zeros(); } if(is_same_type::yes) { (*this).ones(); } if(is_same_type::yes) { Mat::eye(); } if(is_same_type::yes) { Mat::randu(); } if(is_same_type::yes) { Mat::randn(); } if(is_same_type::yes) { (*this).fill( priv::Datum_helper::nan () ); } if(is_same_type::yes) { (*this).fill( priv::Datum_helper::pos_inf() ); } if(is_same_type::yes) { (*this).fill( priv::Datum_helper::neg_inf() ); } } template template template arma_inline Row::fixed::fixed(const Base& A) : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); Row::operator=(A.get_ref()); } template template template arma_inline Row::fixed::fixed(const Base& A, const Base& B) : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); Row::init(A,B); } template template inline Row::fixed::fixed(const eT* aux_mem) : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); eT* dest = (use_extra) ? mem_local_extra : Mat::mem_local; arrayops::copy( dest, aux_mem, fixed_n_elem ); } template template inline Row::fixed::fixed(const char* text) : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); Row::operator=(text); } template template inline Row::fixed::fixed(const std::string& text) : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); Row::operator=(text); } template template template Row& Row::fixed::operator=(const Base& A) { arma_debug_sigprint(); Row::operator=(A.get_ref()); return *this; } template template Row& Row::fixed::operator=(const eT val) { arma_debug_sigprint(); Row::operator=(val); return *this; } template template Row& Row::fixed::operator=(const char* text) { arma_debug_sigprint(); Row::operator=(text); return *this; } template template Row& Row::fixed::operator=(const std::string& text) { arma_debug_sigprint(); Row::operator=(text); return *this; } template template Row& Row::fixed::operator=(const subview_cube& X) { arma_debug_sigprint(); Row::operator=(X); return *this; } template template inline Row::fixed::fixed(const std::initializer_list& list) : Row( arma_fixed_indicator(), fixed_n_elem, ((use_extra) ? mem_local_extra : Mat::mem_local) ) { arma_debug_sigprint_this(this); (*this).operator=(list); } template template inline Row& Row::fixed::operator=(const std::initializer_list& list) { arma_debug_sigprint(); const uword N = uword(list.size()); arma_conform_check( (N > fixed_n_elem), "Row::fixed: initialiser list is too long" ); eT* this_mem = (*this).memptr(); arrayops::copy( this_mem, list.begin(), N ); for(uword iq=N; iq < fixed_n_elem; ++iq) { this_mem[iq] = eT(0); } return *this; } template template arma_inline Row& Row::fixed::operator=(const fixed& X) { arma_debug_sigprint(); if(this != &X) { eT* dest = (use_extra) ? mem_local_extra : Mat::mem_local; const eT* src = (use_extra) ? X.mem_local_extra : X.mem_local; arrayops::copy( dest, src, fixed_n_elem ); } return *this; } #if defined(ARMA_GOOD_COMPILER) template template template inline Row& Row::fixed::operator=(const eOp& X) { arma_debug_sigprint(); arma_type_check(( is_same_type< eT, typename T1::elem_type >::no )); const bool bad_alias = (eOp::proxy_type::has_subview && X.P.is_alias(*this)); if(bad_alias == false) { arma_conform_assert_same_size(uword(1), fixed_n_elem, X.get_n_rows(), X.get_n_cols(), "Row::fixed::operator="); eop_type::apply(*this, X); } else { arma_debug_print("bad_alias = true"); Row tmp(X); (*this) = tmp; } return *this; } template template template inline Row& Row::fixed::operator=(const eGlue& X) { arma_debug_sigprint(); arma_type_check(( is_same_type< eT, typename T1::elem_type >::no )); arma_type_check(( is_same_type< eT, typename T2::elem_type >::no )); const bool bad_alias = ( (eGlue::proxy1_type::has_subview && X.P1.is_alias(*this)) || (eGlue::proxy2_type::has_subview && X.P2.is_alias(*this)) ); if(bad_alias == false) { arma_conform_assert_same_size(uword(1), fixed_n_elem, X.get_n_rows(), X.get_n_cols(), "Row::fixed::operator="); eglue_type::apply(*this, X); } else { arma_debug_print("bad_alias = true"); Row tmp(X); (*this) = tmp; } return *this; } #endif template template arma_inline const Op< typename Row::template fixed::Row_fixed_type, op_htrans > Row::fixed::t() const { return Op< typename Row::template fixed::Row_fixed_type, op_htrans >(*this); } template template arma_inline const Op< typename Row::template fixed::Row_fixed_type, op_htrans > Row::fixed::ht() const { return Op< typename Row::template fixed::Row_fixed_type, op_htrans >(*this); } template template arma_inline const Op< typename Row::template fixed::Row_fixed_type, op_strans > Row::fixed::st() const { return Op< typename Row::template fixed::Row_fixed_type, op_strans >(*this); } template template arma_inline const eT& Row::fixed::at_alt(const uword ii) const { #if defined(ARMA_HAVE_ALIGNED_ATTRIBUTE) return (use_extra) ? mem_local_extra[ii] : Mat::mem_local[ii]; #else const eT* mem_aligned = (use_extra) ? mem_local_extra : Mat::mem_local; memory::mark_as_aligned(mem_aligned); return mem_aligned[ii]; #endif } template template arma_inline eT& Row::fixed::operator[] (const uword ii) { return (use_extra) ? mem_local_extra[ii] : Mat::mem_local[ii]; } template template arma_inline const eT& Row::fixed::operator[] (const uword ii) const { return (use_extra) ? mem_local_extra[ii] : Mat::mem_local[ii]; } template template arma_inline eT& Row::fixed::at(const uword ii) { return (use_extra) ? mem_local_extra[ii] : Mat::mem_local[ii]; } template template arma_inline const eT& Row::fixed::at(const uword ii) const { return (use_extra) ? mem_local_extra[ii] : Mat::mem_local[ii]; } template template arma_inline eT& Row::fixed::operator() (const uword ii) { arma_conform_check_bounds( (ii >= fixed_n_elem), "Row::operator(): index out of bounds" ); return (use_extra) ? mem_local_extra[ii] : Mat::mem_local[ii]; } template template arma_inline const eT& Row::fixed::operator() (const uword ii) const { arma_conform_check_bounds( (ii >= fixed_n_elem), "Row::operator(): index out of bounds" ); return (use_extra) ? mem_local_extra[ii] : Mat::mem_local[ii]; } template template arma_inline eT& Row::fixed::at(const uword, const uword in_col) { return (use_extra) ? mem_local_extra[in_col] : Mat::mem_local[in_col]; } template template arma_inline const eT& Row::fixed::at(const uword, const uword in_col) const { return (use_extra) ? mem_local_extra[in_col] : Mat::mem_local[in_col]; } template template arma_inline eT& Row::fixed::operator() (const uword in_row, const uword in_col) { arma_conform_check_bounds( ((in_row > 0) || (in_col >= fixed_n_elem)), "Row::operator(): index out of bounds" ); return (use_extra) ? mem_local_extra[in_col] : Mat::mem_local[in_col]; } template template arma_inline const eT& Row::fixed::operator() (const uword in_row, const uword in_col) const { arma_conform_check_bounds( ((in_row > 0) || (in_col >= fixed_n_elem)), "Row::operator(): index out of bounds" ); return (use_extra) ? mem_local_extra[in_col] : Mat::mem_local[in_col]; } template template arma_inline eT* Row::fixed::memptr() { return (use_extra) ? mem_local_extra : Mat::mem_local; } template template arma_inline const eT* Row::fixed::memptr() const { return (use_extra) ? mem_local_extra : Mat::mem_local; } template template inline const Row& Row::fixed::fill(const eT val) { arma_debug_sigprint(); eT* mem_use = (use_extra) ? &(mem_local_extra[0]) : &(Mat::mem_local[0]); arrayops::inplace_set_fixed( mem_use, val ); return *this; } template template inline const Row& Row::fixed::zeros() { arma_debug_sigprint(); eT* mem_use = (use_extra) ? &(mem_local_extra[0]) : &(Mat::mem_local[0]); arrayops::inplace_set_fixed( mem_use, eT(0) ); return *this; } template template inline const Row& Row::fixed::ones() { arma_debug_sigprint(); eT* mem_use = (use_extra) ? &(mem_local_extra[0]) : &(Mat::mem_local[0]); arrayops::inplace_set_fixed( mem_use, eT(1) ); return *this; } // template inline Row::Row(const arma_fixed_indicator&, const uword in_n_elem, const eT* in_mem) : Mat(arma_fixed_indicator(), 1, in_n_elem, 2, in_mem) { arma_debug_sigprint_this(this); } #if defined(ARMA_EXTRA_ROW_MEAT) #include ARMA_INCFILE_WRAP(ARMA_EXTRA_ROW_MEAT) #endif //! @}