Mercurial > hg > segmenter-vamp-plugin
view armadillo-3.900.4/include/armadillo_bits/diagmat_proxy.hpp @ 84:55a047986812 tip
Update library URI so as not to be document-local
| author | Chris Cannam |
|---|---|
| date | Wed, 22 Apr 2020 14:21:57 +0100 |
| parents | 1ec0e2823891 |
| children |
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// Copyright (C) 2008-2012 NICTA (www.nicta.com.au) // Copyright (C) 2008-2012 Conrad Sanderson // // 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/. //! \addtogroup diagmat_proxy //! @{ template<typename T1> class diagmat_proxy_default { public: typedef typename T1::elem_type elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy_default(const T1& X) : P ( X ) , P_is_vec( (resolves_to_vector<T1>::value) || (P.get_n_rows() == 1) || (P.get_n_cols() == 1) ) , P_is_col( T1::is_col || (P.get_n_cols() == 1) ) , n_elem ( P_is_vec ? P.get_n_elem() : (std::min)(P.get_n_elem(), P.get_n_rows()) ) { arma_extra_debug_sigprint(); arma_debug_check ( (P_is_vec == false) && (P.get_n_rows() != P.get_n_cols()), "diagmat(): only vectors and square matrices are accepted" ); } arma_inline elem_type operator[](const uword i) const { if(Proxy<T1>::prefer_at_accessor == false) { return P_is_vec ? P[i] : P.at(i,i); } else { if(P_is_vec) { return (P_is_col) ? P.at(i,0) : P.at(0,i); } else { return P.at(i,i); } } } arma_inline elem_type at(const uword row, const uword col) const { if(row == col) { if(Proxy<T1>::prefer_at_accessor == false) { return (P_is_vec) ? P[row] : P.at(row,row); } else { if(P_is_vec) { return (P_is_col) ? P.at(row,0) : P.at(0,row); } else { return P.at(row,row); } } } else { return elem_type(0); } } const Proxy<T1> P; const bool P_is_vec; const bool P_is_col; const uword n_elem; }; template<typename T1> class diagmat_proxy_fixed { public: typedef typename T1::elem_type elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy_fixed(const T1& X) : P(X) { arma_extra_debug_sigprint(); arma_debug_check ( (P_is_vec == false) && (T1::n_rows != T1::n_cols), "diagmat(): only vectors and square matrices are accepted" ); } arma_inline elem_type operator[](const uword i) const { return (P_is_vec) ? P[i] : P.at(i,i); } arma_inline elem_type at(const uword row, const uword col) const { if(row == col) { return (P_is_vec) ? P[row] : P.at(row,row); } else { return elem_type(0); } } const T1& P; static const bool P_is_vec = (T1::n_rows == 1) || (T1::n_cols == 1); static const uword n_elem = P_is_vec ? T1::n_elem : ( (T1::n_elem < T1::n_rows) ? T1::n_elem : T1::n_rows ); }; template<typename T1, bool condition> struct diagmat_proxy_redirect {}; template<typename T1> struct diagmat_proxy_redirect<T1, false> { typedef diagmat_proxy_default<T1> result; }; template<typename T1> struct diagmat_proxy_redirect<T1, true> { typedef diagmat_proxy_fixed<T1> result; }; template<typename T1> class diagmat_proxy : public diagmat_proxy_redirect<T1, is_Mat_fixed<T1>::value >::result { public: inline diagmat_proxy(const T1& X) : diagmat_proxy_redirect< T1, is_Mat_fixed<T1>::value >::result(X) { } }; template<typename eT> class diagmat_proxy< Mat<eT> > { public: typedef eT elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy(const Mat<eT>& X) : P ( X ) , P_is_vec( (X.n_rows == 1) || (X.n_cols == 1) ) , n_elem ( P_is_vec ? X.n_elem : (std::min)(X.n_elem, X.n_rows) ) { arma_extra_debug_sigprint(); arma_debug_check ( (P_is_vec == false) && (P.n_rows != P.n_cols), "diagmat(): only vectors and square matrices are accepted" ); } arma_inline elem_type operator[] (const uword i) const { return P_is_vec ? P[i] : P.at(i,i); } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? ( P_is_vec ? P[row] : P.at(row,row) ) : elem_type(0); } const Mat<eT>& P; const bool P_is_vec; const uword n_elem; }; template<typename eT> class diagmat_proxy< Row<eT> > { public: typedef eT elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy(const Row<eT>& X) : P(X) , n_elem(X.n_elem) { arma_extra_debug_sigprint(); } arma_inline elem_type operator[] (const uword i) const { return P[i]; } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? P[row] : elem_type(0); } static const bool P_is_vec = true; const Row<eT>& P; const uword n_elem; }; template<typename eT> class diagmat_proxy< Col<eT> > { public: typedef eT elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy(const Col<eT>& X) : P(X) , n_elem(X.n_elem) { arma_extra_debug_sigprint(); } arma_inline elem_type operator[] (const uword i) const { return P[i]; } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? P[row] : elem_type(0); } static const bool P_is_vec = true; const Col<eT>& P; const uword n_elem; }; template<typename eT> class diagmat_proxy< subview_row<eT> > { public: typedef eT elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy(const subview_row<eT>& X) : P(X) , n_elem(X.n_elem) { arma_extra_debug_sigprint(); } arma_inline elem_type operator[] (const uword i) const { return P[i]; } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? P[row] : elem_type(0); } static const bool P_is_vec = true; const subview_row<eT>& P; const uword n_elem; }; template<typename eT> class diagmat_proxy< subview_col<eT> > { public: typedef eT elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy(const subview_col<eT>& X) : P(X) , n_elem(X.n_elem) { arma_extra_debug_sigprint(); } arma_inline elem_type operator[] (const uword i) const { return P[i]; } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? P[row] : elem_type(0); } static const bool P_is_vec = true; const subview_col<eT>& P; const uword n_elem; }; // // // template<typename T1> class diagmat_proxy_check_default { public: typedef typename T1::elem_type elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy_check_default(const T1& X, const Mat<typename T1::elem_type>&) : P(X) , P_is_vec( (resolves_to_vector<T1>::value) || (P.n_rows == 1) || (P.n_cols == 1) ) , n_elem( P_is_vec ? P.n_elem : (std::min)(P.n_elem, P.n_rows) ) { arma_extra_debug_sigprint(); arma_debug_check ( (P_is_vec == false) && (P.n_rows != P.n_cols), "diagmat(): only vectors and square matrices are accepted" ); } arma_inline elem_type operator[] (const uword i) const { return P_is_vec ? P[i] : P.at(i,i); } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? ( P_is_vec ? P[row] : P.at(row,row) ) : elem_type(0); } const Mat<elem_type> P; const bool P_is_vec; const uword n_elem; }; template<typename T1> class diagmat_proxy_check_fixed { public: typedef typename T1::elem_type eT; typedef typename T1::elem_type elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy_check_fixed(const T1& X, const Mat<eT>& out) : P( const_cast<eT*>(X.memptr()), T1::n_rows, T1::n_cols, (&X == &out), false ) { arma_extra_debug_sigprint(); arma_debug_check ( (P_is_vec == false) && (T1::n_rows != T1::n_cols), "diagmat(): only vectors and square matrices are accepted" ); } arma_inline eT operator[] (const uword i) const { return P_is_vec ? P[i] : P.at(i,i); } arma_inline eT at (const uword row, const uword col) const { return (row == col) ? ( P_is_vec ? P[row] : P.at(row,row) ) : elem_type(0); } const Mat<eT> P; // TODO: why not just store X directly as T1& ? test with fixed size vectors and matrices static const bool P_is_vec = (T1::n_rows == 1) || (T1::n_cols == 1); static const uword n_elem = P_is_vec ? T1::n_elem : ( (T1::n_elem < T1::n_rows) ? T1::n_elem : T1::n_rows ); }; template<typename T1, bool condition> struct diagmat_proxy_check_redirect {}; template<typename T1> struct diagmat_proxy_check_redirect<T1, false> { typedef diagmat_proxy_check_default<T1> result; }; template<typename T1> struct diagmat_proxy_check_redirect<T1, true> { typedef diagmat_proxy_check_fixed<T1> result; }; template<typename T1> class diagmat_proxy_check : public diagmat_proxy_check_redirect<T1, is_Mat_fixed<T1>::value >::result { public: inline diagmat_proxy_check(const T1& X, const Mat<typename T1::elem_type>& out) : diagmat_proxy_check_redirect< T1, is_Mat_fixed<T1>::value >::result(X, out) { } }; template<typename eT> class diagmat_proxy_check< Mat<eT> > { public: typedef eT elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy_check(const Mat<eT>& X, const Mat<eT>& out) : P_local ( (&X == &out) ? new Mat<eT>(X) : 0 ) , P ( (&X == &out) ? (*P_local) : X ) , P_is_vec( (P.n_rows == 1) || (P.n_cols == 1) ) , n_elem ( P_is_vec ? P.n_elem : (std::min)(P.n_elem, P.n_rows) ) { arma_extra_debug_sigprint(); arma_debug_check ( (P_is_vec == false) && (P.n_rows != P.n_cols), "diagmat(): only vectors and square matrices are accepted" ); } inline ~diagmat_proxy_check() { if(P_local) { delete P_local; } } arma_inline elem_type operator[] (const uword i) const { return P_is_vec ? P[i] : P.at(i,i); } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? ( P_is_vec ? P[row] : P.at(row,row) ) : elem_type(0); } const Mat<eT>* P_local; const Mat<eT>& P; const bool P_is_vec; const uword n_elem; }; template<typename eT> class diagmat_proxy_check< Row<eT> > { public: typedef eT elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy_check(const Row<eT>& X, const Mat<eT>& out) : P_local ( (&X == reinterpret_cast<const Row<eT>*>(&out)) ? new Row<eT>(X) : 0 ) , P ( (&X == reinterpret_cast<const Row<eT>*>(&out)) ? (*P_local) : X ) , n_elem (X.n_elem) { arma_extra_debug_sigprint(); } inline ~diagmat_proxy_check() { if(P_local) { delete P_local; } } arma_inline elem_type operator[] (const uword i) const { return P[i]; } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? P[row] : elem_type(0); } static const bool P_is_vec = true; const Row<eT>* P_local; const Row<eT>& P; const uword n_elem; }; template<typename eT> class diagmat_proxy_check< Col<eT> > { public: typedef eT elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy_check(const Col<eT>& X, const Mat<eT>& out) : P_local ( (&X == reinterpret_cast<const Col<eT>*>(&out)) ? new Col<eT>(X) : 0 ) , P ( (&X == reinterpret_cast<const Col<eT>*>(&out)) ? (*P_local) : X ) , n_elem (X.n_elem) { arma_extra_debug_sigprint(); } inline ~diagmat_proxy_check() { if(P_local) { delete P_local; } } arma_inline elem_type operator[] (const uword i) const { return P[i]; } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? P[row] : elem_type(0); } static const bool P_is_vec = true; const Col<eT>* P_local; const Col<eT>& P; const uword n_elem; }; template<typename eT> class diagmat_proxy_check< subview_row<eT> > { public: typedef eT elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy_check(const subview_row<eT>& X, const Mat<eT>&) : P ( X ) , n_elem ( X.n_elem ) { arma_extra_debug_sigprint(); } arma_inline elem_type operator[] (const uword i) const { return P[i]; } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? P[row] : elem_type(0); } static const bool P_is_vec = true; const Row<eT> P; const uword n_elem; }; template<typename eT> class diagmat_proxy_check< subview_col<eT> > { public: typedef eT elem_type; typedef typename get_pod_type<elem_type>::result pod_type; inline diagmat_proxy_check(const subview_col<eT>& X, const Mat<eT>& out) : P ( const_cast<eT*>(X.colptr(0)), X.n_rows, (&(X.m) == &out), false ) , n_elem( X.n_elem ) //, X_ref ( X ) { arma_extra_debug_sigprint(); } arma_inline elem_type operator[] (const uword i) const { return P[i]; } arma_inline elem_type at (const uword row, const uword col) const { return (row == col) ? P[row] : elem_type(0); } static const bool P_is_vec = true; const Col<eT> P; const uword n_elem; //const subview_col<eT>& X_ref; // prevents the compiler from potentially deleting X before we're done with it }; //! @}