// Copyright (C) 2008-2015 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 subview_cube //! @{ template inline subview_cube::~subview_cube() { arma_extra_debug_sigprint(); } template arma_inline subview_cube::subview_cube ( const Cube& in_m, const uword in_row1, const uword in_col1, const uword in_slice1, const uword in_n_rows, const uword in_n_cols, const uword in_n_slices ) : m (in_m) , aux_row1 (in_row1) , aux_col1 (in_col1) , aux_slice1 (in_slice1) , n_rows (in_n_rows) , n_cols (in_n_cols) , n_elem_slice(in_n_rows * in_n_cols) , n_slices (in_n_slices) , n_elem (n_elem_slice * in_n_slices) { arma_extra_debug_sigprint(); } template inline void subview_cube::operator= (const eT val) { arma_extra_debug_sigprint(); if(n_elem != 1) { arma_debug_assert_same_size(n_rows, n_cols, n_slices, 1, 1, 1, "copy into subcube"); } Cube& Q = const_cast< Cube& >(m); Q.at(aux_row1, aux_col1, aux_slice1) = val; } template inline void subview_cube::operator+= (const eT val) { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { arrayops::inplace_plus( slice_colptr(slice,col), val, local_n_rows ); } } } template inline void subview_cube::operator-= (const eT val) { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { arrayops::inplace_minus( slice_colptr(slice,col), val, local_n_rows ); } } } template inline void subview_cube::operator*= (const eT val) { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { arrayops::inplace_mul( slice_colptr(slice,col), val, local_n_rows ); } } } template inline void subview_cube::operator/= (const eT val) { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { arrayops::inplace_div( slice_colptr(slice,col), val, local_n_rows ); } } } template template inline void subview_cube::operator= (const BaseCube& in) { arma_extra_debug_sigprint(); const unwrap_cube tmp(in.get_ref()); const Cube& x = tmp.M; subview_cube& t = *this; arma_debug_assert_same_size(t, x, "copy into subcube"); const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; for(uword slice = 0; slice < t_n_slices; ++slice) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::copy( t.slice_colptr(slice,col), x.slice_colptr(slice,col), t_n_rows ); } } } template template inline void subview_cube::operator+= (const BaseCube& in) { arma_extra_debug_sigprint(); const unwrap_cube tmp(in.get_ref()); const Cube& x = tmp.M; subview_cube& t = *this; arma_debug_assert_same_size(t, x, "addition"); const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; for(uword slice = 0; slice < t_n_slices; ++slice) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_plus( t.slice_colptr(slice,col), x.slice_colptr(slice,col), t_n_rows ); } } } template template inline void subview_cube::operator-= (const BaseCube& in) { arma_extra_debug_sigprint(); const unwrap_cube tmp(in.get_ref()); const Cube& x = tmp.M; subview_cube& t = *this; arma_debug_assert_same_size(t, x, "subtraction"); const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; for(uword slice = 0; slice < t_n_slices; ++slice) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_minus( t.slice_colptr(slice,col), x.slice_colptr(slice,col), t_n_rows ); } } } template template inline void subview_cube::operator%= (const BaseCube& in) { arma_extra_debug_sigprint(); const unwrap_cube tmp(in.get_ref()); const Cube& x = tmp.M; subview_cube& t = *this; arma_debug_assert_same_size(t, x, "element-wise multiplication"); const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; for(uword slice = 0; slice < t_n_slices; ++slice) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_mul( t.slice_colptr(slice,col), x.slice_colptr(slice,col), t_n_rows ); } } } template template inline void subview_cube::operator/= (const BaseCube& in) { arma_extra_debug_sigprint(); const unwrap_cube tmp(in.get_ref()); const Cube& x = tmp.M; subview_cube& t = *this; arma_debug_assert_same_size(t, x, "element-wise division"); const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; for(uword slice = 0; slice < t_n_slices; ++slice) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_div( t.slice_colptr(slice,col), x.slice_colptr(slice,col), t_n_rows ); } } } //! x.subcube(...) = y.subcube(...) template inline void subview_cube::operator= (const subview_cube& x) { arma_extra_debug_sigprint(); if(check_overlap(x)) { const Cube tmp(x); (*this).operator=(tmp); return; } subview_cube& t = *this; arma_debug_assert_same_size(t, x, "copy into subcube"); const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; for(uword slice = 0; slice < t_n_slices; ++slice) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::copy( t.slice_colptr(slice,col), x.slice_colptr(slice,col), t_n_rows ); } } } template inline void subview_cube::operator+= (const subview_cube& x) { arma_extra_debug_sigprint(); if(check_overlap(x)) { const Cube tmp(x); (*this).operator+=(tmp); return; } subview_cube& t = *this; arma_debug_assert_same_size(t, x, "addition"); const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; for(uword slice = 0; slice < t_n_slices; ++slice) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_plus( t.slice_colptr(slice,col), x.slice_colptr(slice,col), t_n_rows ); } } } template inline void subview_cube::operator-= (const subview_cube& x) { arma_extra_debug_sigprint(); if(check_overlap(x)) { const Cube tmp(x); (*this).operator-=(tmp); return; } subview_cube& t = *this; arma_debug_assert_same_size(t, x, "subtraction"); const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; for(uword slice = 0; slice < t_n_slices; ++slice) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_minus( t.slice_colptr(slice,col), x.slice_colptr(slice,col), t_n_rows ); } } } template inline void subview_cube::operator%= (const subview_cube& x) { arma_extra_debug_sigprint(); if(check_overlap(x)) { const Cube tmp(x); (*this).operator%=(tmp); return; } subview_cube& t = *this; arma_debug_assert_same_size(t, x, "element-wise multiplication"); const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; for(uword slice = 0; slice < t_n_slices; ++slice) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_mul( t.slice_colptr(slice,col), x.slice_colptr(slice,col), t_n_rows ); } } } template inline void subview_cube::operator/= (const subview_cube& x) { arma_extra_debug_sigprint(); if(check_overlap(x)) { const Cube tmp(x); (*this).operator/=(tmp); return; } subview_cube& t = *this; arma_debug_assert_same_size(t, x, "element-wise division"); const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; for(uword slice = 0; slice < t_n_slices; ++slice) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_div( t.slice_colptr(slice,col), x.slice_colptr(slice,col), t_n_rows ); } } } template template inline void subview_cube::operator= (const Base& in) { arma_extra_debug_sigprint(); const unwrap tmp(in.get_ref()); const Mat& x = tmp.M; subview_cube& t = *this; const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; const uword x_n_rows = x.n_rows; const uword x_n_cols = x.n_cols; if( ((x_n_rows == 1) || (x_n_cols == 1)) && (t_n_rows == 1) && (t_n_cols == 1) && (x.n_elem == t_n_slices) ) { Cube& Q = const_cast< Cube& >(t.m); const uword t_aux_row1 = t.aux_row1; const uword t_aux_col1 = t.aux_col1; const uword t_aux_slice1 = t.aux_slice1; const eT* x_mem = x.memptr(); uword i,j; for(i=0, j=1; j < t_n_slices; i+=2, j+=2) { const eT tmp_i = x_mem[i]; const eT tmp_j = x_mem[j]; Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + i) = tmp_i; Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + j) = tmp_j; } if(i < t_n_slices) { Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + i) = x_mem[i]; } } else if( (t_n_rows == x_n_rows) && (t_n_cols == x_n_cols) && (t_n_slices == 1) ) { // interpret the matrix as a cube with one slice for(uword col = 0; col < t_n_cols; ++col) { arrayops::copy( t.slice_colptr(0, col), x.colptr(col), t_n_rows ); } } else if( (t_n_rows == x_n_rows) && (t_n_cols == 1) && (t_n_slices == x_n_cols) ) { for(uword i=0; i < t_n_slices; ++i) { arrayops::copy( t.slice_colptr(i, 0), x.colptr(i), t_n_rows ); } } else if( (t_n_rows == 1) && (t_n_cols == x_n_rows) && (t_n_slices == x_n_cols) ) { Cube& Q = const_cast< Cube& >(t.m); const uword t_aux_row1 = t.aux_row1; const uword t_aux_col1 = t.aux_col1; const uword t_aux_slice1 = t.aux_slice1; for(uword slice=0; slice < t_n_slices; ++slice) { const uword mod_slice = t_aux_slice1 + slice; const eT* x_colptr = x.colptr(slice); uword i,j; for(i=0, j=1; j < t_n_cols; i+=2, j+=2) { const eT tmp_i = x_colptr[i]; const eT tmp_j = x_colptr[j]; Q.at(t_aux_row1, t_aux_col1 + i, mod_slice) = tmp_i; Q.at(t_aux_row1, t_aux_col1 + j, mod_slice) = tmp_j; } if(i < t_n_cols) { Q.at(t_aux_row1, t_aux_col1 + i, mod_slice) = x_colptr[i]; } } } else { if(arma_config::debug == true) { arma_stop( arma_incompat_size_string(t, x, "copy into subcube") ); } } } template template inline void subview_cube::operator+= (const Base& in) { arma_extra_debug_sigprint(); const unwrap tmp(in.get_ref()); const Mat& x = tmp.M; subview_cube& t = *this; const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; const uword x_n_rows = x.n_rows; const uword x_n_cols = x.n_cols; if( ((x_n_rows == 1) || (x_n_cols == 1)) && (t_n_rows == 1) && (t_n_cols == 1) && (x.n_elem == t_n_slices) ) { Cube& Q = const_cast< Cube& >(t.m); const uword t_aux_row1 = t.aux_row1; const uword t_aux_col1 = t.aux_col1; const uword t_aux_slice1 = t.aux_slice1; const eT* x_mem = x.memptr(); uword i,j; for(i=0, j=1; j < t_n_slices; i+=2, j+=2) { const eT tmp_i = x_mem[i]; const eT tmp_j = x_mem[j]; Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + i) += tmp_i; Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + j) += tmp_j; } if(i < t_n_slices) { Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + i) += x_mem[i]; } } else if( (t_n_rows == x_n_rows) && (t_n_cols == x_n_cols) && (t_n_slices == 1) ) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_plus( t.slice_colptr(0, col), x.colptr(col), t_n_rows ); } } else if( (t_n_rows == x_n_rows) && (t_n_cols == 1) && (t_n_slices == x_n_cols) ) { for(uword i=0; i < t_n_slices; ++i) { arrayops::inplace_plus( t.slice_colptr(i, 0), x.colptr(i), t_n_rows ); } } else if( (t_n_rows == 1) && (t_n_cols == x_n_rows) && (t_n_slices == x_n_cols) ) { Cube& Q = const_cast< Cube& >(t.m); const uword t_aux_row1 = t.aux_row1; const uword t_aux_col1 = t.aux_col1; const uword t_aux_slice1 = t.aux_slice1; for(uword slice=0; slice < t_n_slices; ++slice) { const uword mod_slice = t_aux_slice1 + slice; const eT* x_colptr = x.colptr(slice); uword i,j; for(i=0, j=1; j < t_n_cols; i+=2, j+=2) { const eT tmp_i = x_colptr[i]; const eT tmp_j = x_colptr[j]; Q.at(t_aux_row1, t_aux_col1 + i, mod_slice) += tmp_i; Q.at(t_aux_row1, t_aux_col1 + j, mod_slice) += tmp_j; } if(i < t_n_cols) { Q.at(t_aux_row1, t_aux_col1 + i, mod_slice) += x_colptr[i]; } } } else { if(arma_config::debug == true) { arma_stop( arma_incompat_size_string(t, x, "addition") ); } } } template template inline void subview_cube::operator-= (const Base& in) { arma_extra_debug_sigprint(); const unwrap tmp(in.get_ref()); const Mat& x = tmp.M; subview_cube& t = *this; const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; const uword x_n_rows = x.n_rows; const uword x_n_cols = x.n_cols; if( ((x_n_rows == 1) || (x_n_cols == 1)) && (t_n_rows == 1) && (t_n_cols == 1) && (x.n_elem == t_n_slices) ) { Cube& Q = const_cast< Cube& >(t.m); const uword t_aux_row1 = t.aux_row1; const uword t_aux_col1 = t.aux_col1; const uword t_aux_slice1 = t.aux_slice1; const eT* x_mem = x.memptr(); uword i,j; for(i=0, j=1; j < t_n_slices; i+=2, j+=2) { const eT tmp_i = x_mem[i]; const eT tmp_j = x_mem[j]; Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + i) -= tmp_i; Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + j) -= tmp_j; } if(i < t_n_slices) { Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + i) -= x_mem[i]; } } else if( (t_n_rows == x_n_rows) && (t_n_cols == x_n_cols) && (t_n_slices == 1) ) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_minus( t.slice_colptr(0, col), x.colptr(col), t_n_rows ); } } else if( (t_n_rows == x_n_rows) && (t_n_cols == 1) && (t_n_slices == x_n_cols) ) { for(uword i=0; i < t_n_slices; ++i) { arrayops::inplace_minus( t.slice_colptr(i, 0), x.colptr(i), t_n_rows ); } } else if( (t_n_rows == 1) && (t_n_cols == x_n_rows) && (t_n_slices == x_n_cols) ) { Cube& Q = const_cast< Cube& >(t.m); const uword t_aux_row1 = t.aux_row1; const uword t_aux_col1 = t.aux_col1; const uword t_aux_slice1 = t.aux_slice1; for(uword slice=0; slice < t_n_slices; ++slice) { const uword mod_slice = t_aux_slice1 + slice; const eT* x_colptr = x.colptr(slice); uword i,j; for(i=0, j=1; j < t_n_cols; i+=2, j+=2) { const eT tmp_i = x_colptr[i]; const eT tmp_j = x_colptr[j]; Q.at(t_aux_row1, t_aux_col1 + i, mod_slice) -= tmp_i; Q.at(t_aux_row1, t_aux_col1 + j, mod_slice) -= tmp_j; } if(i < t_n_cols) { Q.at(t_aux_row1, t_aux_col1 + i, mod_slice) -= x_colptr[i]; } } } else { if(arma_config::debug == true) { arma_stop( arma_incompat_size_string(t, x, "subtraction") ); } } } template template inline void subview_cube::operator%= (const Base& in) { arma_extra_debug_sigprint(); const unwrap tmp(in.get_ref()); const Mat& x = tmp.M; subview_cube& t = *this; const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; const uword x_n_rows = x.n_rows; const uword x_n_cols = x.n_cols; if( ((x_n_rows == 1) || (x_n_cols == 1)) && (t_n_rows == 1) && (t_n_cols == 1) && (x.n_elem == t_n_slices) ) { Cube& Q = const_cast< Cube& >(t.m); const uword t_aux_row1 = t.aux_row1; const uword t_aux_col1 = t.aux_col1; const uword t_aux_slice1 = t.aux_slice1; const eT* x_mem = x.memptr(); uword i,j; for(i=0, j=1; j < t_n_slices; i+=2, j+=2) { const eT tmp_i = x_mem[i]; const eT tmp_j = x_mem[j]; Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + i) *= tmp_i; Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + j) *= tmp_j; } if(i < t_n_slices) { Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + i) *= x_mem[i]; } } else if( (t_n_rows == x_n_rows) && (t_n_cols == x_n_cols) && (t_n_slices == 1) ) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_mul( t.slice_colptr(0, col), x.colptr(col), t_n_rows ); } } else if( (t_n_rows == x_n_rows) && (t_n_cols == 1) && (t_n_slices == x_n_cols) ) { for(uword i=0; i < t_n_slices; ++i) { arrayops::inplace_mul( t.slice_colptr(i, 0), x.colptr(i), t_n_rows ); } } else if( (t_n_rows == 1) && (t_n_cols == x_n_rows) && (t_n_slices == x_n_cols) ) { Cube& Q = const_cast< Cube& >(t.m); const uword t_aux_row1 = t.aux_row1; const uword t_aux_col1 = t.aux_col1; const uword t_aux_slice1 = t.aux_slice1; for(uword slice=0; slice < t_n_slices; ++slice) { const uword mod_slice = t_aux_slice1 + slice; const eT* x_colptr = x.colptr(slice); uword i,j; for(i=0, j=1; j < t_n_cols; i+=2, j+=2) { const eT tmp_i = x_colptr[i]; const eT tmp_j = x_colptr[j]; Q.at(t_aux_row1, t_aux_col1 + i, mod_slice) *= tmp_i; Q.at(t_aux_row1, t_aux_col1 + j, mod_slice) *= tmp_j; } if(i < t_n_cols) { Q.at(t_aux_row1, t_aux_col1 + i, mod_slice) *= x_colptr[i]; } } } else { if(arma_config::debug == true) { arma_stop( arma_incompat_size_string(t, x, "element-wise multiplication") ); } } } template template inline void subview_cube::operator/= (const Base& in) { arma_extra_debug_sigprint(); const unwrap tmp(in.get_ref()); const Mat& x = tmp.M; subview_cube& t = *this; const uword t_n_rows = t.n_rows; const uword t_n_cols = t.n_cols; const uword t_n_slices = t.n_slices; const uword x_n_rows = x.n_rows; const uword x_n_cols = x.n_cols; if( ((x_n_rows == 1) || (x_n_cols == 1)) && (t_n_rows == 1) && (t_n_cols == 1) && (x.n_elem == t_n_slices) ) { Cube& Q = const_cast< Cube& >(t.m); const uword t_aux_row1 = t.aux_row1; const uword t_aux_col1 = t.aux_col1; const uword t_aux_slice1 = t.aux_slice1; const eT* x_mem = x.memptr(); uword i,j; for(i=0, j=1; j < t_n_slices; i+=2, j+=2) { const eT tmp_i = x_mem[i]; const eT tmp_j = x_mem[j]; Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + i) /= tmp_i; Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + j) /= tmp_j; } if(i < t_n_slices) { Q.at(t_aux_row1, t_aux_col1, t_aux_slice1 + i) /= x_mem[i]; } } else if( (t_n_rows == x_n_rows) && (t_n_cols == x_n_cols) && (t_n_slices == 1) ) { for(uword col = 0; col < t_n_cols; ++col) { arrayops::inplace_div( t.slice_colptr(0, col), x.colptr(col), t_n_rows ); } } else if( (t_n_rows == x_n_rows) && (t_n_cols == 1) && (t_n_slices == x_n_cols) ) { for(uword i=0; i < t_n_slices; ++i) { arrayops::inplace_div( t.slice_colptr(i, 0), x.colptr(i), t_n_rows ); } } else if( (t_n_rows == 1) && (t_n_cols == x_n_rows) && (t_n_slices == x_n_cols) ) { Cube& Q = const_cast< Cube& >(t.m); const uword t_aux_row1 = t.aux_row1; const uword t_aux_col1 = t.aux_col1; const uword t_aux_slice1 = t.aux_slice1; for(uword slice=0; slice < t_n_slices; ++slice) { const uword mod_slice = t_aux_slice1 + slice; const eT* x_colptr = x.colptr(slice); uword i,j; for(i=0, j=1; j < t_n_cols; i+=2, j+=2) { const eT tmp_i = x_colptr[i]; const eT tmp_j = x_colptr[j]; Q.at(t_aux_row1, t_aux_col1 + i, mod_slice) /= tmp_i; Q.at(t_aux_row1, t_aux_col1 + j, mod_slice) /= tmp_j; } if(i < t_n_cols) { Q.at(t_aux_row1, t_aux_col1 + i, mod_slice) /= x_colptr[i]; } } } else { if(arma_config::debug == true) { arma_stop( arma_incompat_size_string(t, x, "element-wise division") ); } } } //! apply a functor to each element template template inline void subview_cube::for_each(functor F) { arma_extra_debug_sigprint(); Cube& Q = const_cast< Cube& >(m); const uword start_col = aux_col1; const uword start_row = aux_row1; const uword start_slice = aux_slice1; const uword end_col_plus1 = start_col + n_cols; const uword end_row_plus1 = start_row + n_rows; const uword end_slice_plus1 = start_slice + n_slices; for(uword uslice = start_slice; uslice < end_slice_plus1; ++uslice) for(uword ucol = start_col; ucol < end_col_plus1; ++ucol ) for(uword urow = start_row; urow < end_row_plus1; ++urow ) { F( Q.at(urow, ucol, uslice) ); } } template template inline void subview_cube::for_each(functor F) const { arma_extra_debug_sigprint(); const Cube& Q = m; const uword start_col = aux_col1; const uword start_row = aux_row1; const uword start_slice = aux_slice1; const uword end_col_plus1 = start_col + n_cols; const uword end_row_plus1 = start_row + n_rows; const uword end_slice_plus1 = start_slice + n_slices; for(uword uslice = start_slice; uslice < end_slice_plus1; ++uslice) for(uword ucol = start_col; ucol < end_col_plus1; ++ucol ) for(uword urow = start_row; urow < end_row_plus1; ++urow ) { F( Q.at(urow, ucol, uslice) ); } } //! transform each element in the subview using a functor template template inline void subview_cube::transform(functor F) { arma_extra_debug_sigprint(); Cube& Q = const_cast< Cube& >(m); const uword start_col = aux_col1; const uword start_row = aux_row1; const uword start_slice = aux_slice1; const uword end_col_plus1 = start_col + n_cols; const uword end_row_plus1 = start_row + n_rows; const uword end_slice_plus1 = start_slice + n_slices; for(uword uslice = start_slice; uslice < end_slice_plus1; ++uslice) for(uword ucol = start_col; ucol < end_col_plus1; ++ucol ) for(uword urow = start_row; urow < end_row_plus1; ++urow ) { Q.at(urow, ucol, uslice) = eT( F( Q.at(urow, ucol, uslice) ) ); } } //! imbue (fill) the subview with values provided by a functor template template inline void subview_cube::imbue(functor F) { arma_extra_debug_sigprint(); Cube& Q = const_cast< Cube& >(m); const uword start_col = aux_col1; const uword start_row = aux_row1; const uword start_slice = aux_slice1; const uword end_col_plus1 = start_col + n_cols; const uword end_row_plus1 = start_row + n_rows; const uword end_slice_plus1 = start_slice + n_slices; for(uword uslice = start_slice; uslice < end_slice_plus1; ++uslice) for(uword ucol = start_col; ucol < end_col_plus1; ++ucol ) for(uword urow = start_row; urow < end_row_plus1; ++urow ) { Q.at(urow, ucol, uslice) = eT( F() ); } } #if defined(ARMA_USE_CXX11) //! apply a lambda function to each slice, where each slice is interpreted as a matrix template inline void subview_cube::each_slice(const std::function< void(Mat&) >& F) { arma_extra_debug_sigprint(); Mat tmp1(n_rows, n_cols); Mat tmp2('j', tmp1.memptr(), n_rows, n_cols); for(uword slice_id=0; slice_id < n_slices; ++slice_id) { for(uword col_id=0; col_id < n_cols; ++col_id) { arrayops::copy( tmp1.colptr(col_id), slice_colptr(slice_id, col_id), n_rows ); } F(tmp2); for(uword col_id=0; col_id < n_cols; ++col_id) { arrayops::copy( slice_colptr(slice_id, col_id), tmp1.colptr(col_id), n_rows ); } } } template inline void subview_cube::each_slice(const std::function< void(const Mat&) >& F) const { arma_extra_debug_sigprint(); Mat tmp1(n_rows, n_cols); const Mat tmp2('j', tmp1.memptr(), n_rows, n_cols); for(uword slice_id=0; slice_id < n_slices; ++slice_id) { for(uword col_id=0; col_id < n_cols; ++col_id) { arrayops::copy( tmp1.colptr(col_id), slice_colptr(slice_id, col_id), n_rows ); } F(tmp2); } } #endif template inline void subview_cube::fill(const eT val) { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { arrayops::inplace_set( slice_colptr(slice,col), val, local_n_rows ); } } } template inline void subview_cube::zeros() { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { arrayops::fill_zeros( slice_colptr(slice,col), local_n_rows ); } } } template inline void subview_cube::ones() { arma_extra_debug_sigprint(); fill(eT(1)); } template inline void subview_cube::randu() { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { arma_rng::randu::fill( slice_colptr(slice,col), local_n_rows ); } } } template inline void subview_cube::randn() { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { arma_rng::randn::fill( slice_colptr(slice,col), local_n_rows ); } } } template inline arma_warn_unused bool subview_cube::is_finite() const { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { if(arrayops::is_finite(slice_colptr(slice,col), local_n_rows) == false) { return false; } } } return true; } template inline arma_warn_unused bool subview_cube::has_inf() const { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { if(arrayops::has_inf(slice_colptr(slice,col), local_n_rows)) { return true; } } } return false; } template inline arma_warn_unused bool subview_cube::has_nan() const { arma_extra_debug_sigprint(); const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; for(uword slice = 0; slice < local_n_slices; ++slice) { for(uword col = 0; col < local_n_cols; ++col) { if(arrayops::has_nan(slice_colptr(slice,col), local_n_rows)) { return true; } } } return false; } template inline arma_warn_unused eT subview_cube::min() const { arma_extra_debug_sigprint(); if(n_elem == 0) { arma_debug_check(true, "subview_cube::min(): object has no elements"); return Datum::nan; } const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; eT min_val = at(0,0,0); for(uword si=0; si < local_n_slices; ++si) for(uword ci=0; ci < local_n_cols; ++ci) { min_val = (std::min)( min_val, op_min::direct_min(slice_colptr(si,ci), local_n_rows) ); } return min_val; } template inline arma_warn_unused eT subview_cube::max() const { arma_extra_debug_sigprint(); if(n_elem == 0) { arma_debug_check(true, "subview_cube::max(): object has no elements"); return Datum::nan; } const uword local_n_rows = n_rows; const uword local_n_cols = n_cols; const uword local_n_slices = n_slices; eT max_val = at(0,0,0); for(uword si=0; si < local_n_slices; ++si) for(uword ci=0; ci < local_n_cols; ++ci) { max_val = (std::max)( max_val, op_max::direct_max(slice_colptr(si,ci), local_n_rows) ); } return max_val; } template inline eT subview_cube::at_alt(const uword i) const { return operator[](i); } template inline eT& subview_cube::operator[](const uword i) { const uword in_slice = i / n_elem_slice; const uword offset = in_slice * n_elem_slice; const uword j = i - offset; const uword in_col = j / n_rows; const uword in_row = j % n_rows; const uword index = (in_slice + aux_slice1)*m.n_elem_slice + (in_col + aux_col1)*m.n_rows + aux_row1 + in_row; return access::rw( (const_cast< Cube& >(m)).mem[index] ); } template inline eT subview_cube::operator[](const uword i) const { const uword in_slice = i / n_elem_slice; const uword offset = in_slice * n_elem_slice; const uword j = i - offset; const uword in_col = j / n_rows; const uword in_row = j % n_rows; const uword index = (in_slice + aux_slice1)*m.n_elem_slice + (in_col + aux_col1)*m.n_rows + aux_row1 + in_row; return m.mem[index]; } template inline eT& subview_cube::operator()(const uword i) { arma_debug_check( (i >= n_elem), "subview_cube::operator(): index out of bounds"); const uword in_slice = i / n_elem_slice; const uword offset = in_slice * n_elem_slice; const uword j = i - offset; const uword in_col = j / n_rows; const uword in_row = j % n_rows; const uword index = (in_slice + aux_slice1)*m.n_elem_slice + (in_col + aux_col1)*m.n_rows + aux_row1 + in_row; return access::rw( (const_cast< Cube& >(m)).mem[index] ); } template inline eT subview_cube::operator()(const uword i) const { arma_debug_check( (i >= n_elem), "subview_cube::operator(): index out of bounds"); const uword in_slice = i / n_elem_slice; const uword offset = in_slice * n_elem_slice; const uword j = i - offset; const uword in_col = j / n_rows; const uword in_row = j % n_rows; const uword index = (in_slice + aux_slice1)*m.n_elem_slice + (in_col + aux_col1)*m.n_rows + aux_row1 + in_row; return m.mem[index]; } template arma_inline eT& subview_cube::operator()(const uword in_row, const uword in_col, const uword in_slice) { arma_debug_check( ( (in_row >= n_rows) || (in_col >= n_cols) || (in_slice >= n_slices) ), "subview_cube::operator(): location out of bounds"); const uword index = (in_slice + aux_slice1)*m.n_elem_slice + (in_col + aux_col1)*m.n_rows + aux_row1 + in_row; return access::rw( (const_cast< Cube& >(m)).mem[index] ); } template arma_inline eT subview_cube::operator()(const uword in_row, const uword in_col, const uword in_slice) const { arma_debug_check( ( (in_row >= n_rows) || (in_col >= n_cols) || (in_slice >= n_slices) ), "subview_cube::operator(): location out of bounds"); const uword index = (in_slice + aux_slice1)*m.n_elem_slice + (in_col + aux_col1)*m.n_rows + aux_row1 + in_row; return m.mem[index]; } template arma_inline eT& subview_cube::at(const uword in_row, const uword in_col, const uword in_slice) { const uword index = (in_slice + aux_slice1)*m.n_elem_slice + (in_col + aux_col1)*m.n_rows + aux_row1 + in_row; return access::rw( (const_cast< Cube& >(m)).mem[index] ); } template arma_inline eT subview_cube::at(const uword in_row, const uword in_col, const uword in_slice) const { const uword index = (in_slice + aux_slice1)*m.n_elem_slice + (in_col + aux_col1)*m.n_rows + aux_row1 + in_row; return m.mem[index]; } template arma_inline eT* subview_cube::slice_colptr(const uword in_slice, const uword in_col) { return & access::rw((const_cast< Cube& >(m)).mem[ (in_slice + aux_slice1)*m.n_elem_slice + (in_col + aux_col1)*m.n_rows + aux_row1 ]); } template arma_inline const eT* subview_cube::slice_colptr(const uword in_slice, const uword in_col) const { return & m.mem[ (in_slice + aux_slice1)*m.n_elem_slice + (in_col + aux_col1)*m.n_rows + aux_row1 ]; } template inline bool subview_cube::check_overlap(const subview_cube& x) const { const subview_cube& t = *this; if(&t.m != &x.m) { return false; } else { if( (t.n_elem == 0) || (x.n_elem == 0) ) { return false; } else { const uword t_row_start = t.aux_row1; const uword t_row_end_p1 = t_row_start + t.n_rows; const uword t_col_start = t.aux_col1; const uword t_col_end_p1 = t_col_start + t.n_cols; const uword t_slice_start = t.aux_slice1; const uword t_slice_end_p1 = t_slice_start + t.n_slices; const uword x_row_start = x.aux_row1; const uword x_row_end_p1 = x_row_start + x.n_rows; const uword x_col_start = x.aux_col1; const uword x_col_end_p1 = x_col_start + x.n_cols; const uword x_slice_start = x.aux_slice1; const uword x_slice_end_p1 = x_slice_start + x.n_slices; const bool outside_rows = ( (x_row_start >= t_row_end_p1 ) || (t_row_start >= x_row_end_p1 ) ); const bool outside_cols = ( (x_col_start >= t_col_end_p1 ) || (t_col_start >= x_col_end_p1 ) ); const bool outside_slices = ( (x_slice_start >= t_slice_end_p1) || (t_slice_start >= x_slice_end_p1) ); return ( (outside_rows == false) && (outside_cols == false) && (outside_slices == false) ); } } } template inline bool subview_cube::check_overlap(const Mat& x) const { const subview_cube& t = *this; const uword t_aux_slice1 = t.aux_slice1; const uword t_aux_slice2_plus_1 = t_aux_slice1 + t.n_slices; for(uword slice = t_aux_slice1; slice < t_aux_slice2_plus_1; ++slice) { if(t.m.mat_ptrs[slice] != NULL) { const Mat& y = *(t.m.mat_ptrs[slice]); if( x.memptr() == y.memptr() ) { return true; } } } return false; } //! cube X = Y.subcube(...) template inline void subview_cube::extract(Cube& out, const subview_cube& in) { arma_extra_debug_sigprint(); // NOTE: we're assuming that the cube has already been set to the correct size and there is no aliasing; // size setting and alias checking is done by either the Cube contructor or operator=() const uword n_rows = in.n_rows; const uword n_cols = in.n_cols; const uword n_slices = in.n_slices; arma_extra_debug_print(arma_boost::format("out.n_rows = %d out.n_cols = %d out.n_slices = %d in.m.n_rows = %d in.m.n_cols = %d in.m.n_slices = %d") % out.n_rows % out.n_cols % out.n_slices % in.m.n_rows % in.m.n_cols % in.m.n_slices); for(uword slice = 0; slice < n_slices; ++slice) { for(uword col = 0; col < n_cols; ++col) { arrayops::copy( out.slice_colptr(slice,col), in.slice_colptr(slice,col), n_rows ); } } } //! cube X += Y.subcube(...) template inline void subview_cube::plus_inplace(Cube& out, const subview_cube& in) { arma_extra_debug_sigprint(); arma_debug_assert_same_size(out, in, "addition"); const uword n_rows = out.n_rows; const uword n_cols = out.n_cols; const uword n_slices = out.n_slices; for(uword slice = 0; slice inline void subview_cube::minus_inplace(Cube& out, const subview_cube& in) { arma_extra_debug_sigprint(); arma_debug_assert_same_size(out, in, "subtraction"); const uword n_rows = out.n_rows; const uword n_cols = out.n_cols; const uword n_slices = out.n_slices; for(uword slice = 0; slice inline void subview_cube::schur_inplace(Cube& out, const subview_cube& in) { arma_extra_debug_sigprint(); arma_debug_assert_same_size(out, in, "element-wise multiplication"); const uword n_rows = out.n_rows; const uword n_cols = out.n_cols; const uword n_slices = out.n_slices; for(uword slice = 0; slice inline void subview_cube::div_inplace(Cube& out, const subview_cube& in) { arma_extra_debug_sigprint(); arma_debug_assert_same_size(out, in, "element-wise division"); const uword n_rows = out.n_rows; const uword n_cols = out.n_cols; const uword n_slices = out.n_slices; for(uword slice = 0; slice inline void subview_cube::extract(Mat& out, const subview_cube& in) { arma_extra_debug_sigprint(); arma_debug_assert_cube_as_mat(out, in, "copy into matrix", false); const uword in_n_rows = in.n_rows; const uword in_n_cols = in.n_cols; const uword in_n_slices = in.n_slices; const uword out_vec_state = out.vec_state; if(in_n_slices == 1) { out.set_size(in_n_rows, in_n_cols); for(uword col=0; col < in_n_cols; ++col) { arrayops::copy( out.colptr(col), in.slice_colptr(0, col), in_n_rows ); } } else { if(out_vec_state == 0) { if(in_n_cols == 1) { out.set_size(in_n_rows, in_n_slices); for(uword i=0; i < in_n_slices; ++i) { arrayops::copy( out.colptr(i), in.slice_colptr(i, 0), in_n_rows ); } } else if(in_n_rows == 1) { const Cube& Q = in.m; const uword in_aux_row1 = in.aux_row1; const uword in_aux_col1 = in.aux_col1; const uword in_aux_slice1 = in.aux_slice1; out.set_size(in_n_cols, in_n_slices); for(uword slice=0; slice < in_n_slices; ++slice) { const uword mod_slice = in_aux_slice1 + slice; eT* out_colptr = out.colptr(slice); uword i,j; for(i=0, j=1; j < in_n_cols; i+=2, j+=2) { const eT tmp_i = Q.at(in_aux_row1, in_aux_col1 + i, mod_slice); const eT tmp_j = Q.at(in_aux_row1, in_aux_col1 + j, mod_slice); out_colptr[i] = tmp_i; out_colptr[j] = tmp_j; } if(i < in_n_cols) { out_colptr[i] = Q.at(in_aux_row1, in_aux_col1 + i, mod_slice); } } } } else { out.set_size(in_n_slices); eT* out_mem = out.memptr(); const Cube& Q = in.m; const uword in_aux_row1 = in.aux_row1; const uword in_aux_col1 = in.aux_col1; const uword in_aux_slice1 = in.aux_slice1; for(uword i=0; i inline void subview_cube::plus_inplace(Mat& out, const subview_cube& in) { arma_extra_debug_sigprint(); arma_debug_assert_cube_as_mat(out, in, "addition", true); const uword in_n_rows = in.n_rows; const uword in_n_cols = in.n_cols; const uword in_n_slices = in.n_slices; const uword out_n_rows = out.n_rows; const uword out_n_cols = out.n_cols; const uword out_vec_state = out.vec_state; if(in_n_slices == 1) { for(uword col=0; col < in_n_cols; ++col) { arrayops::inplace_plus( out.colptr(col), in.slice_colptr(0, col), in_n_rows ); } } else { if(out_vec_state == 0) { if( (in_n_rows == out_n_rows) && (in_n_cols == 1) && (in_n_slices == out_n_cols) ) { for(uword i=0; i < in_n_slices; ++i) { arrayops::inplace_plus( out.colptr(i), in.slice_colptr(i, 0), in_n_rows ); } } else if( (in_n_rows == 1) && (in_n_cols == out_n_rows) && (in_n_slices == out_n_cols) ) { const Cube& Q = in.m; const uword in_aux_row1 = in.aux_row1; const uword in_aux_col1 = in.aux_col1; const uword in_aux_slice1 = in.aux_slice1; for(uword slice=0; slice < in_n_slices; ++slice) { const uword mod_slice = in_aux_slice1 + slice; eT* out_colptr = out.colptr(slice); uword i,j; for(i=0, j=1; j < in_n_cols; i+=2, j+=2) { const eT tmp_i = Q.at(in_aux_row1, in_aux_col1 + i, mod_slice); const eT tmp_j = Q.at(in_aux_row1, in_aux_col1 + j, mod_slice); out_colptr[i] += tmp_i; out_colptr[j] += tmp_j; } if(i < in_n_cols) { out_colptr[i] += Q.at(in_aux_row1, in_aux_col1 + i, mod_slice); } } } } else { eT* out_mem = out.memptr(); const Cube& Q = in.m; const uword in_aux_row1 = in.aux_row1; const uword in_aux_col1 = in.aux_col1; const uword in_aux_slice1 = in.aux_slice1; for(uword i=0; i inline void subview_cube::minus_inplace(Mat& out, const subview_cube& in) { arma_extra_debug_sigprint(); arma_debug_assert_cube_as_mat(out, in, "subtraction", true); const uword in_n_rows = in.n_rows; const uword in_n_cols = in.n_cols; const uword in_n_slices = in.n_slices; const uword out_n_rows = out.n_rows; const uword out_n_cols = out.n_cols; const uword out_vec_state = out.vec_state; if(in_n_slices == 1) { for(uword col=0; col < in_n_cols; ++col) { arrayops::inplace_minus( out.colptr(col), in.slice_colptr(0, col), in_n_rows ); } } else { if(out_vec_state == 0) { if( (in_n_rows == out_n_rows) && (in_n_cols == 1) && (in_n_slices == out_n_cols) ) { for(uword i=0; i < in_n_slices; ++i) { arrayops::inplace_minus( out.colptr(i), in.slice_colptr(i, 0), in_n_rows ); } } else if( (in_n_rows == 1) && (in_n_cols == out_n_rows) && (in_n_slices == out_n_cols) ) { const Cube& Q = in.m; const uword in_aux_row1 = in.aux_row1; const uword in_aux_col1 = in.aux_col1; const uword in_aux_slice1 = in.aux_slice1; for(uword slice=0; slice < in_n_slices; ++slice) { const uword mod_slice = in_aux_slice1 + slice; eT* out_colptr = out.colptr(slice); uword i,j; for(i=0, j=1; j < in_n_cols; i+=2, j+=2) { const eT tmp_i = Q.at(in_aux_row1, in_aux_col1 + i, mod_slice); const eT tmp_j = Q.at(in_aux_row1, in_aux_col1 + j, mod_slice); out_colptr[i] -= tmp_i; out_colptr[j] -= tmp_j; } if(i < in_n_cols) { out_colptr[i] -= Q.at(in_aux_row1, in_aux_col1 + i, mod_slice); } } } } else { eT* out_mem = out.memptr(); const Cube& Q = in.m; const uword in_aux_row1 = in.aux_row1; const uword in_aux_col1 = in.aux_col1; const uword in_aux_slice1 = in.aux_slice1; for(uword i=0; i inline void subview_cube::schur_inplace(Mat& out, const subview_cube& in) { arma_extra_debug_sigprint(); arma_debug_assert_cube_as_mat(out, in, "element-wise multiplication", true); const uword in_n_rows = in.n_rows; const uword in_n_cols = in.n_cols; const uword in_n_slices = in.n_slices; const uword out_n_rows = out.n_rows; const uword out_n_cols = out.n_cols; const uword out_vec_state = out.vec_state; if(in_n_slices == 1) { for(uword col=0; col < in_n_cols; ++col) { arrayops::inplace_mul( out.colptr(col), in.slice_colptr(0, col), in_n_rows ); } } else { if(out_vec_state == 0) { if( (in_n_rows == out_n_rows) && (in_n_cols == 1) && (in_n_slices == out_n_cols) ) { for(uword i=0; i < in_n_slices; ++i) { arrayops::inplace_mul( out.colptr(i), in.slice_colptr(i, 0), in_n_rows ); } } else if( (in_n_rows == 1) && (in_n_cols == out_n_rows) && (in_n_slices == out_n_cols) ) { const Cube& Q = in.m; const uword in_aux_row1 = in.aux_row1; const uword in_aux_col1 = in.aux_col1; const uword in_aux_slice1 = in.aux_slice1; for(uword slice=0; slice < in_n_slices; ++slice) { const uword mod_slice = in_aux_slice1 + slice; eT* out_colptr = out.colptr(slice); uword i,j; for(i=0, j=1; j < in_n_cols; i+=2, j+=2) { const eT tmp_i = Q.at(in_aux_row1, in_aux_col1 + i, mod_slice); const eT tmp_j = Q.at(in_aux_row1, in_aux_col1 + j, mod_slice); out_colptr[i] *= tmp_i; out_colptr[j] *= tmp_j; } if(i < in_n_cols) { out_colptr[i] *= Q.at(in_aux_row1, in_aux_col1 + i, mod_slice); } } } } else { eT* out_mem = out.memptr(); const Cube& Q = in.m; const uword in_aux_row1 = in.aux_row1; const uword in_aux_col1 = in.aux_col1; const uword in_aux_slice1 = in.aux_slice1; for(uword i=0; i inline void subview_cube::div_inplace(Mat& out, const subview_cube& in) { arma_extra_debug_sigprint(); arma_debug_assert_cube_as_mat(out, in, "element-wise division", true); const uword in_n_rows = in.n_rows; const uword in_n_cols = in.n_cols; const uword in_n_slices = in.n_slices; const uword out_n_rows = out.n_rows; const uword out_n_cols = out.n_cols; const uword out_vec_state = out.vec_state; if(in_n_slices == 1) { for(uword col=0; col < in_n_cols; ++col) { arrayops::inplace_div( out.colptr(col), in.slice_colptr(0, col), in_n_rows ); } } else { if(out_vec_state == 0) { if( (in_n_rows == out_n_rows) && (in_n_cols == 1) && (in_n_slices == out_n_cols) ) { for(uword i=0; i < in_n_slices; ++i) { arrayops::inplace_div( out.colptr(i), in.slice_colptr(i, 0), in_n_rows ); } } else if( (in_n_rows == 1) && (in_n_cols == out_n_rows) && (in_n_slices == out_n_cols) ) { const Cube& Q = in.m; const uword in_aux_row1 = in.aux_row1; const uword in_aux_col1 = in.aux_col1; const uword in_aux_slice1 = in.aux_slice1; for(uword slice=0; slice < in_n_slices; ++slice) { const uword mod_slice = in_aux_slice1 + slice; eT* out_colptr = out.colptr(slice); uword i,j; for(i=0, j=1; j < in_n_cols; i+=2, j+=2) { const eT tmp_i = Q.at(in_aux_row1, in_aux_col1 + i, mod_slice); const eT tmp_j = Q.at(in_aux_row1, in_aux_col1 + j, mod_slice); out_colptr[i] /= tmp_i; out_colptr[j] /= tmp_j; } if(i < in_n_cols) { out_colptr[i] /= Q.at(in_aux_row1, in_aux_col1 + i, mod_slice); } } } } else { eT* out_mem = out.memptr(); const Cube& Q = in.m; const uword in_aux_row1 = in.aux_row1; const uword in_aux_col1 = in.aux_col1; const uword in_aux_slice1 = in.aux_slice1; for(uword i=0; i