AnalysisSystemForRadionucli.../include/armadillo_bits/Op_bones.hpp

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// 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 Op
//! @{
//! Class for storing data required for delayed unary operations,
//! such as the operand (e.g. the matrix to which the operation is to be applied) and the unary operator (e.g. inverse).
//! The operand is stored as a reference (which can be optimised away),
//! while the operator is "stored" through the template definition (op_type).
//! The operands can be 'Mat', 'Row', 'Col', 'Op', and 'Glue'.
//! Note that as 'Glue' can be one of the operands, more than one matrix can be stored.
//!
//! For example, we could have:
//! Op< Glue< Mat, Mat, glue_times >, op_htrans >
template<typename T1, typename op_type>
class Op : public Base<typename T1::elem_type, Op<T1, op_type> >
{
public:
typedef typename T1::elem_type elem_type;
typedef typename get_pod_type<elem_type>::result pod_type;
inline explicit Op(const T1& in_m);
inline Op(const T1& in_m, const elem_type in_aux);
inline Op(const T1& in_m, const elem_type in_aux, const uword in_aux_uword_a, const uword in_aux_uword_b);
inline Op(const T1& in_m, const uword in_aux_uword_a, const uword in_aux_uword_b);
inline Op(const T1& in_m, const uword in_aux_uword_a, const uword in_aux_uword_b, const uword in_aux_uword_c, const char junk);
inline ~Op();
arma_aligned const T1& m; //!< storage of reference to the operand (eg. a matrix)
arma_aligned elem_type aux; //!< storage of auxiliary data, user defined format
arma_aligned uword aux_uword_a; //!< storage of auxiliary data, uword format
arma_aligned uword aux_uword_b; //!< storage of auxiliary data, uword format
arma_aligned uword aux_uword_c; //!< storage of auxiliary data, uword format
static const bool is_row = \
(
// operations which result in a row vector if the input is a row vector
T1::is_row &&
(
is_same_type<op_type, op_sort_default>::yes
|| is_same_type<op_type, op_shuffle_default>::yes
|| is_same_type<op_type, op_cumsum_default>::yes
|| is_same_type<op_type, op_cumprod_default>::yes
|| is_same_type<op_type, op_flipud>::yes
|| is_same_type<op_type, op_fliplr>::yes
|| is_same_type<op_type, op_unique>::yes
|| is_same_type<op_type, op_diff_default>::yes
|| is_same_type<op_type, op_normalise_vec>::yes
)
)
||
(
// operations which result in a row vector if the input is a column vector
T1::is_col &&
(
is_same_type<op_type, op_strans>::yes
|| is_same_type<op_type, op_htrans>::yes
|| is_same_type<op_type, op_htrans2>::yes
)
)
;
static const bool is_col = \
(
// operations which always result in a column vector
is_same_type<op_type, op_diagvec>::yes
|| is_same_type<op_type, op_vectorise_col>::yes
|| is_same_type<op_type, op_nonzeros>::yes
)
||
(
// operations which result in a column vector if the input is a column vector
T1::is_col &&
(
is_same_type<op_type, op_sort_default>::yes
|| is_same_type<op_type, op_shuffle_default>::yes
|| is_same_type<op_type, op_cumsum_default>::yes
|| is_same_type<op_type, op_cumprod_default>::yes
|| is_same_type<op_type, op_flipud>::yes
|| is_same_type<op_type, op_fliplr>::yes
|| is_same_type<op_type, op_unique>::yes
|| is_same_type<op_type, op_diff_default>::yes
|| is_same_type<op_type, op_normalise_vec>::yes
)
)
||
(
// operations which result in a column vector if the input is a row vector
T1::is_row &&
(
is_same_type<op_type, op_strans>::yes
|| is_same_type<op_type, op_htrans>::yes
|| is_same_type<op_type, op_htrans2>::yes
)
)
;
};
//! @}