//! More...
Classes | |
class | op_repmat |
Functions | |
template<typename T1 > | |
static void | op_repmat::apply (Mat< typename T1::elem_type > &out, const Op< T1, op_repmat > &in) |
//! implementation of the 'repeat matrix' operation, used for constructing matrices |
//!
void op_repmat::apply | ( | Mat< typename T1::elem_type > & | out, | |
const Op< T1, op_repmat > & | in | |||
) | [inline, static, inherited] |
//! implementation of the 'repeat matrix' operation, used for constructing matrices
Definition at line 29 of file op_repmat_meat.hpp.
References Op< T1, op_type >::aux_u32_a, Op< T1, op_type >::aux_u32_b, unwrap_check< T1 >::M, Op< T1, op_type >::m, Mat< eT >::n_cols, Mat< eT >::n_elem, Mat< eT >::n_rows, Mat< eT >::set_size(), and Mat< eT >::submat().
{ arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; const unwrap_check<T1> tmp(in.m, out); const Mat<eT>& X = tmp.M; arma_debug_check( (X.n_elem == 0), "op_repmat::apply(): given object has no elements" ); const u32 copies_per_row = in.aux_u32_a; const u32 copies_per_col = in.aux_u32_b; out.set_size(X.n_rows * copies_per_row, X.n_cols * copies_per_col); for(u32 col = 0; col < out.n_cols; col += X.n_cols) { for(u32 row = 0; row < out.n_rows; row += X.n_rows) { out.submat(row, col, row+X.n_rows-1, col+X.n_cols-1) = X; } } }