// 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 SpRow //! @{ template inline SpRow::SpRow() : SpMat(arma_vec_indicator(), 2) { arma_debug_sigprint(); } template inline SpRow::SpRow(const uword in_n_elem) : SpMat(arma_vec_indicator(), 1, in_n_elem, 2) { arma_debug_sigprint(); } template inline SpRow::SpRow(const uword in_n_rows, const uword in_n_cols) : SpMat(arma_vec_indicator(), in_n_rows, in_n_cols, 2) { arma_debug_sigprint(); } template inline SpRow::SpRow(const SizeMat& s) : SpMat(arma_vec_indicator(), 0, 0, 2) { arma_debug_sigprint(); SpMat::init(s.n_rows, s.n_cols); } template inline SpRow::SpRow(const char* text) : SpMat(arma_vec_indicator(), 2) { arma_debug_sigprint(); SpMat::init(std::string(text)); } template inline SpRow& SpRow::operator=(const char* text) { arma_debug_sigprint(); SpMat::init(std::string(text)); return *this; } template inline SpRow::SpRow(const std::string& text) : SpMat(arma_vec_indicator(), 2) { arma_debug_sigprint(); SpMat::init(text); } template inline SpRow& SpRow::operator=(const std::string& text) { arma_debug_sigprint(); SpMat::init(text); return *this; } template inline SpRow& SpRow::operator=(const eT val) { arma_debug_sigprint(); SpMat::operator=(val); return *this; } template template inline SpRow::SpRow(const Base& X) : SpMat(arma_vec_indicator(), 2) { arma_debug_sigprint(); SpMat::operator=(X.get_ref()); } template inline SpRow::SpRow(const Row& X) : SpMat(arma_vec_indicator(), 2) { arma_debug_sigprint(); SpMat::operator=(X); } template template inline SpRow& SpRow::operator=(const Base& X) { arma_debug_sigprint(); SpMat::operator=(X.get_ref()); return *this; } template template inline SpRow::SpRow(const SpBase& X) : SpMat(arma_vec_indicator(), 2) { arma_debug_sigprint(); SpMat::operator=(X.get_ref()); } template template inline SpRow& SpRow::operator=(const SpBase& X) { arma_debug_sigprint(); SpMat::operator=(X.get_ref()); return *this; } template template inline SpRow::SpRow ( const SpBase::pod_type, T1>& A, const SpBase::pod_type, T2>& B ) : SpMat(arma_vec_indicator(), 2) { arma_debug_sigprint(); SpMat::init(A,B); } template inline const SpOp,spop_htrans> SpRow::t() const { return SpOp,spop_htrans>(*this); } template inline const SpOp,spop_htrans> SpRow::ht() const { return SpOp,spop_htrans>(*this); } template inline const SpOp,spop_strans> SpRow::st() const { return SpOp,spop_strans>(*this); } template inline const SpToDOp,op_sp_as_dense> SpRow::as_dense() const { return SpToDOp,op_sp_as_dense>(*this); } //! remove specified columns template inline void SpRow::shed_col(const uword col_num) { arma_debug_sigprint(); arma_conform_check_bounds( col_num >= SpMat::n_cols, "SpRow::shed_col(): out of bounds" ); shed_cols(col_num, col_num); } //! remove specified columns template inline void SpRow::shed_cols(const uword in_col1, const uword in_col2) { arma_debug_sigprint(); arma_conform_check_bounds ( (in_col1 > in_col2) || (in_col2 >= SpMat::n_cols), "SpRow::shed_cols(): indices out of bounds or incorrectly used" ); SpMat::sync_csc(); const uword diff = (in_col2 - in_col1 + 1); // This is doubleplus easy because we have all the column pointers stored. const uword start = SpMat::col_ptrs[in_col1]; const uword end = SpMat::col_ptrs[in_col2 + 1]; if(start != end) { const uword elem_diff = end - start; eT* new_values = memory::acquire (SpMat::n_nonzero - elem_diff); uword* new_row_indices = memory::acquire(SpMat::n_nonzero - elem_diff); // Copy first set of elements, if necessary. if(start > 0) { arrayops::copy(new_values, SpMat::values, start); arrayops::copy(new_row_indices, SpMat::row_indices, start); } // Copy last set of elements, if necessary. if(end != SpMat::n_nonzero) { arrayops::copy(new_values + start, SpMat::values + end, (SpMat::n_nonzero - end)); arrayops::copy(new_row_indices + start, SpMat::row_indices + end, (SpMat::n_nonzero - end)); } memory::release(SpMat::values); memory::release(SpMat::row_indices); access::rw(SpMat::values) = new_values; access::rw(SpMat::row_indices) = new_row_indices; access::rw(SpMat::n_nonzero) -= elem_diff; } // Update column pointers. uword* new_col_ptrs = memory::acquire(SpMat::n_cols - diff + 1); // Copy first part of column pointers. if(in_col1 > 0) { arrayops::copy(new_col_ptrs, SpMat::col_ptrs, in_col1); } // Copy last part of column pointers (and adjust their values as necessary). if(in_col2 < SpMat::n_cols - 1) { arrayops::copy(new_col_ptrs + in_col1, SpMat::col_ptrs + in_col2 + 1, SpMat::n_cols - in_col2); // Modify their values. arrayops::inplace_minus(new_col_ptrs + in_col1, (end - start), SpMat::n_cols - in_col2); } memory::release(SpMat::col_ptrs); access::rw(SpMat::col_ptrs) = new_col_ptrs; access::rw(SpMat::n_cols) -= diff; access::rw(SpMat::n_elem) -= diff; SpMat::invalidate_cache(); } // //! insert N cols at the specified col position, // //! optionally setting the elements of the inserted cols to zero // template // inline // void // SpRow::insert_cols(const uword col_num, const uword N, const bool set_to_zero) // { // arma_debug_sigprint(); // // // insertion at col_num == n_cols is in effect an append operation // arma_conform_check_bounds( (col_num > SpMat::n_cols), "SpRow::insert_cols(): out of bounds" ); // // arma_conform_check( (set_to_zero == false), "SpRow::insert_cols(): cannot set elements to nonzero values" ); // // uword newVal = (col_num == 0) ? 0 : SpMat::col_ptrs[col_num]; // SpMat::col_ptrs.insert(col_num, N, newVal); // uword* new_col_ptrs = memory::acquire(SpMat::n_cols + N); // // arrayops::copy(new_col_ptrs, SpMat::col_ptrs, col_num); // // uword fill_value = (col_num == 0) ? 0 : SpMat::col_ptrs[col_num - 1]; // arrayops::inplace_set(new_col_ptrs + col_num, fill_value, N); // // arrayops::copy(new_col_ptrs + col_num + N, SpMat::col_ptrs + col_num, SpMat::n_cols - col_num); // // access::rw(SpMat::n_cols) += N; // access::rw(SpMat::n_elem) += N; // } template inline typename SpRow::row_iterator SpRow::begin_row(const uword row_num) { arma_debug_sigprint(); // Since this is a row, row_num can only be 0. But the option is provided for // compatibility. arma_conform_check_bounds((row_num >= 1), "SpRow::begin_row(): index out of bounds"); return SpMat::begin(); } template inline typename SpRow::const_row_iterator SpRow::begin_row(const uword row_num) const { arma_debug_sigprint(); // Since this is a row, row_num can only be 0. But the option is provided for // compatibility. arma_conform_check_bounds((row_num >= 1), "SpRow::begin_row(): index out of bounds"); return SpMat::begin(); } template inline typename SpRow::row_iterator SpRow::end_row(const uword row_num) { arma_debug_sigprint(); // Since this is a row, row_num can only be 0. But the option is provided for // compatibility. arma_conform_check_bounds((row_num >= 1), "SpRow::end_row(): index out of bounds"); return SpMat::end(); } template inline typename SpRow::const_row_iterator SpRow::end_row(const uword row_num) const { arma_debug_sigprint(); // Since this is a row, row_num can only be 0. But the option is provided for // compatibility. arma_conform_check_bounds((row_num >= 1), "SpRow::end_row(): index out of bounds"); return SpMat::end(); } #if defined(ARMA_EXTRA_SPROW_MEAT) #include ARMA_INCFILE_WRAP(ARMA_EXTRA_SPROW_MEAT) #endif //! @}