Mercurial > hg > segmenter-vamp-plugin
view armadillo-2.4.4/include/armadillo_bits/fn_as_scalar.hpp @ 0:8b6102e2a9b0
Armadillo Library
| author | maxzanoni76 <max.zanoni@eecs.qmul.ac.uk> |
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| date | Wed, 11 Apr 2012 09:27:06 +0100 |
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// Copyright (C) 2010-2011 NICTA (www.nicta.com.au) // Copyright (C) 2010-2011 Conrad Sanderson // // This file is part of the Armadillo C++ library. // It is provided without any warranty of fitness // for any purpose. You can redistribute this file // and/or modify it under the terms of the GNU // Lesser General Public License (LGPL) as published // by the Free Software Foundation, either version 3 // of the License or (at your option) any later version. // (see http://www.opensource.org/licenses for more info) //! \addtogroup fn_as_scalar //! @{ template<uword N> struct as_scalar_redirect { template<typename T1> inline static typename T1::elem_type apply(const T1& X); }; template<> struct as_scalar_redirect<2> { template<typename T1, typename T2> inline static typename T1::elem_type apply(const Glue<T1,T2,glue_times>& X); }; template<> struct as_scalar_redirect<3> { template<typename T1, typename T2, typename T3> inline static typename T1::elem_type apply(const Glue< Glue<T1, T2, glue_times>, T3, glue_times>& X); }; template<uword N> template<typename T1> inline typename T1::elem_type as_scalar_redirect<N>::apply(const T1& X) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; const unwrap<T1> tmp(X); const Mat<eT>& A = tmp.M; arma_debug_check( (A.n_elem != 1), "as_scalar(): expression doesn't evaluate to exactly one element" ); return A.mem[0]; } template<typename T1, typename T2> inline typename T1::elem_type as_scalar_redirect<2>::apply(const Glue<T1, T2, glue_times>& X) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; // T1 must result in a matrix with one row // T2 must result in a matrix with one column const partial_unwrap<T1> tmp1(X.A); const partial_unwrap<T2> tmp2(X.B); const Mat<eT>& A = tmp1.M; const Mat<eT>& B = tmp2.M; const uword A_n_rows = (tmp1.do_trans == false) ? A.n_rows : A.n_cols; const uword A_n_cols = (tmp1.do_trans == false) ? A.n_cols : A.n_rows; const uword B_n_rows = (tmp2.do_trans == false) ? B.n_rows : B.n_cols; const uword B_n_cols = (tmp2.do_trans == false) ? B.n_cols : B.n_rows; const eT val = tmp1.get_val() * tmp2.get_val(); arma_debug_check( (A_n_rows != 1) || (B_n_cols != 1) || (A_n_cols != B_n_rows), "as_scalar(): incompatible dimensions" ); return val * op_dot::direct_dot(A.n_elem, A.mem, B.mem); } template<typename T1, typename T2, typename T3> inline typename T1::elem_type as_scalar_redirect<3>::apply(const Glue< Glue<T1, T2, glue_times>, T3, glue_times >& X) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; // T1 * T2 must result in a matrix with one row // T3 must result in a matrix with one column typedef typename strip_inv <T2 >::stored_type T2_stripped_1; typedef typename strip_diagmat<T2_stripped_1>::stored_type T2_stripped_2; const strip_inv <T2> strip1(X.A.B); const strip_diagmat<T2_stripped_1> strip2(strip1.M); const bool tmp2_do_inv = strip1.do_inv; const bool tmp2_do_diagmat = strip2.do_diagmat; if(tmp2_do_diagmat == false) { const Mat<eT> tmp(X); arma_debug_check( (tmp.n_elem != 1), "as_scalar(): expression doesn't evaluate to exactly one element" ); return tmp[0]; } else { const partial_unwrap<T1> tmp1(X.A.A); const partial_unwrap<T2_stripped_2> tmp2(strip2.M); const partial_unwrap<T3> tmp3(X.B); const Mat<eT>& A = tmp1.M; const Mat<eT>& B = tmp2.M; const Mat<eT>& C = tmp3.M; const uword A_n_rows = (tmp1.do_trans == false) ? A.n_rows : A.n_cols; const uword A_n_cols = (tmp1.do_trans == false) ? A.n_cols : A.n_rows; const bool B_is_vec = B.is_vec(); const uword B_n_rows = (B_is_vec == true) ? B.n_elem : ( (tmp2.do_trans == false) ? B.n_rows : B.n_cols ); const uword B_n_cols = (B_is_vec == true) ? B.n_elem : ( (tmp2.do_trans == false) ? B.n_cols : B.n_rows ); const uword C_n_rows = (tmp3.do_trans == false) ? C.n_rows : C.n_cols; const uword C_n_cols = (tmp3.do_trans == false) ? C.n_cols : C.n_rows; const eT val = tmp1.get_val() * tmp2.get_val() * tmp3.get_val(); arma_debug_check ( (A_n_rows != 1) || (C_n_cols != 1) || (A_n_cols != B_n_rows) || (B_n_cols != C_n_rows) , "as_scalar(): incompatible dimensions" ); if(B_is_vec == true) { if(tmp2_do_inv == true) { return val * op_dotext::direct_rowvec_invdiagvec_colvec(A.mem, B, C.mem); } else { return val * op_dot::direct_dot(A.n_elem, A.mem, B.mem, C.mem); } } else { if(tmp2_do_inv == true) { return val * op_dotext::direct_rowvec_invdiagmat_colvec(A.mem, B, C.mem); } else { return val * op_dotext::direct_rowvec_diagmat_colvec(A.mem, B, C.mem); } } } } template<typename T1> inline typename T1::elem_type as_scalar_diag(const Base<typename T1::elem_type,T1>& X) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; const unwrap<T1> tmp(X.get_ref()); const Mat<eT>& A = tmp.M; arma_debug_check( (A.n_elem != 1), "as_scalar(): expression doesn't evaluate to exactly one element" ); return A.mem[0]; } template<typename T1, typename T2, typename T3> inline typename T1::elem_type as_scalar_diag(const Glue< Glue<T1, T2, glue_times_diag>, T3, glue_times >& X) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; // T1 * T2 must result in a matrix with one row // T3 must result in a matrix with one column typedef typename strip_diagmat<T2>::stored_type T2_stripped; const strip_diagmat<T2> strip(X.A.B); const partial_unwrap<T1> tmp1(X.A.A); const partial_unwrap<T2_stripped> tmp2(strip.M); const partial_unwrap<T3> tmp3(X.B); const Mat<eT>& A = tmp1.M; const Mat<eT>& B = tmp2.M; const Mat<eT>& C = tmp3.M; const uword A_n_rows = (tmp1.do_trans == false) ? A.n_rows : A.n_cols; const uword A_n_cols = (tmp1.do_trans == false) ? A.n_cols : A.n_rows; const bool B_is_vec = B.is_vec(); const uword B_n_rows = (B_is_vec == true) ? B.n_elem : ( (tmp2.do_trans == false) ? B.n_rows : B.n_cols ); const uword B_n_cols = (B_is_vec == true) ? B.n_elem : ( (tmp2.do_trans == false) ? B.n_cols : B.n_rows ); const uword C_n_rows = (tmp3.do_trans == false) ? C.n_rows : C.n_cols; const uword C_n_cols = (tmp3.do_trans == false) ? C.n_cols : C.n_rows; const eT val = tmp1.get_val() * tmp2.get_val() * tmp3.get_val(); arma_debug_check ( (A_n_rows != 1) || (C_n_cols != 1) || (A_n_cols != B_n_rows) || (B_n_cols != C_n_rows) , "as_scalar(): incompatible dimensions" ); if(B_is_vec == true) { return val * op_dot::direct_dot(A.n_elem, A.mem, B.mem, C.mem); } else { return val * op_dotext::direct_rowvec_diagmat_colvec(A.mem, B, C.mem); } } template<typename T1, typename T2> arma_inline arma_warn_unused typename T1::elem_type as_scalar(const Glue<T1, T2, glue_times>& X, const typename arma_not_cx<typename T1::elem_type>::result* junk = 0) { arma_extra_debug_sigprint(); arma_ignore(junk); if(is_glue_times_diag<T1>::value == false) { const sword N_mat = 1 + depth_lhs< glue_times, Glue<T1,T2,glue_times> >::num; arma_extra_debug_print(arma_boost::format("N_mat = %d") % N_mat); return as_scalar_redirect<N_mat>::apply(X); } else { return as_scalar_diag(X); } } template<typename T1> inline arma_warn_unused typename T1::elem_type as_scalar(const Base<typename T1::elem_type,T1>& X) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; const unwrap<T1> tmp(X.get_ref()); const Mat<eT>& A = tmp.M; arma_debug_check( (A.n_elem != 1), "as_scalar(): expression doesn't evaluate to exactly one element" ); return A.mem[0]; } template<typename T1> arma_inline arma_warn_unused typename T1::elem_type as_scalar(const eOp<T1, eop_neg>& X) { arma_extra_debug_sigprint(); return -(as_scalar(X.P.Q)); } template<typename T1> inline arma_warn_unused typename T1::elem_type as_scalar(const BaseCube<typename T1::elem_type,T1>& X) { arma_extra_debug_sigprint(); typedef typename T1::elem_type eT; const unwrap_cube<T1> tmp(X.get_ref()); const Cube<eT>& A = tmp.M; arma_debug_check( (A.n_elem != 1), "as_scalar(): expression doesn't evaluate to exactly one element" ); return A.mem[0]; } template<typename T> arma_inline arma_warn_unused const typename arma_scalar_only<T>::result & as_scalar(const T& x) { return x; } //! @}