Mercurial > hg > segmenter-vamp-plugin
view armadillo-3.900.4/include/armadillo_bits/diagview_meat.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) 2008-2013 NICTA (www.nicta.com.au) // Copyright (C) 2008-2013 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 diagview //! @{ template<typename eT> inline diagview<eT>::~diagview() { arma_extra_debug_sigprint(); } template<typename eT> arma_inline diagview<eT>::diagview(const Mat<eT>& in_m, const uword in_row_offset, const uword in_col_offset, const uword in_len) : m(in_m) , row_offset(in_row_offset) , col_offset(in_col_offset) , n_rows(in_len) , n_elem(in_len) { arma_extra_debug_sigprint(); } //! set a diagonal of our matrix using a diagonal from a foreign matrix template<typename eT> inline void diagview<eT>::operator= (const diagview<eT>& x) { arma_extra_debug_sigprint(); diagview<eT>& d = *this; arma_debug_check( (d.n_elem != x.n_elem), "diagview: diagonals have incompatible lengths"); Mat<eT>& d_m = const_cast< Mat<eT>& >(d.m); const Mat<eT>& x_m = x.m; if(&d_m != &x_m) { const uword d_n_elem = d.n_elem; const uword d_row_offset = d.row_offset; const uword d_col_offset = d.col_offset; const uword x_row_offset = x.row_offset; const uword x_col_offset = x.col_offset; uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = x_m.at(ii + x_row_offset, ii + x_col_offset); const eT tmp_j = x_m.at(jj + x_row_offset, jj + x_col_offset); d_m.at(ii + d_row_offset, ii + d_col_offset) = tmp_i; d_m.at(jj + d_row_offset, jj + d_col_offset) = tmp_j; } if(ii < d_n_elem) { d_m.at(ii + d_row_offset, ii + d_col_offset) = x_m.at(ii + x_row_offset, ii + x_col_offset); } } else { const Mat<eT> tmp = x; (*this).operator=(tmp); } } template<typename eT> inline void diagview<eT>::operator+=(const eT val) { arma_extra_debug_sigprint(); Mat<eT>& t_m = const_cast< Mat<eT>& >(m); const uword t_n_elem = n_elem; const uword t_row_offset = row_offset; const uword t_col_offset = col_offset; for(uword ii=0; ii < t_n_elem; ++ii) { t_m.at( ii + t_row_offset, ii + t_col_offset) += val; } } template<typename eT> inline void diagview<eT>::operator-=(const eT val) { arma_extra_debug_sigprint(); Mat<eT>& t_m = const_cast< Mat<eT>& >(m); const uword t_n_elem = n_elem; const uword t_row_offset = row_offset; const uword t_col_offset = col_offset; for(uword ii=0; ii < t_n_elem; ++ii) { t_m.at( ii + t_row_offset, ii + t_col_offset) -= val; } } template<typename eT> inline void diagview<eT>::operator*=(const eT val) { arma_extra_debug_sigprint(); Mat<eT>& t_m = const_cast< Mat<eT>& >(m); const uword t_n_elem = n_elem; const uword t_row_offset = row_offset; const uword t_col_offset = col_offset; for(uword ii=0; ii < t_n_elem; ++ii) { t_m.at( ii + t_row_offset, ii + t_col_offset) *= val; } } template<typename eT> inline void diagview<eT>::operator/=(const eT val) { arma_extra_debug_sigprint(); Mat<eT>& t_m = const_cast< Mat<eT>& >(m); const uword t_n_elem = n_elem; const uword t_row_offset = row_offset; const uword t_col_offset = col_offset; for(uword ii=0; ii < t_n_elem; ++ii) { t_m.at( ii + t_row_offset, ii + t_col_offset) /= val; } } //! set a diagonal of our matrix using data from a foreign object template<typename eT> template<typename T1> inline void diagview<eT>::operator= (const Base<eT,T1>& o) { arma_extra_debug_sigprint(); diagview<eT>& d = *this; Mat<eT>& d_m = const_cast< Mat<eT>& >(d.m); const uword d_n_elem = d.n_elem; const uword d_row_offset = d.row_offset; const uword d_col_offset = d.col_offset; const Proxy<T1> P( o.get_ref() ); arma_debug_check ( ( (d.n_elem != P.get_n_elem()) || ((P.get_n_rows() != 1) && (P.get_n_cols() != 1)) ), "diagview: given object has incompatible size" ); const bool is_alias = P.is_alias(d_m); arma_extra_debug_warn(is_alias, "aliasing detected"); if( (is_Mat<typename Proxy<T1>::stored_type>::value == true) || (Proxy<T1>::prefer_at_accessor == true) || (is_alias == true) ) { const unwrap_check<typename Proxy<T1>::stored_type> tmp(P.Q, is_alias); const Mat<eT>& x = tmp.M; const eT* x_mem = x.memptr(); uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = x_mem[ii]; const eT tmp_j = x_mem[jj]; d_m.at( ii + d_row_offset, ii + d_col_offset) = tmp_i; d_m.at( jj + d_row_offset, jj + d_col_offset) = tmp_j; } if(ii < d_n_elem) { d_m.at( ii + d_row_offset, ii + d_col_offset) = x_mem[ii]; } } else { typename Proxy<T1>::ea_type Pea = P.get_ea(); uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = Pea[ii]; const eT tmp_j = Pea[jj]; d_m.at( ii + d_row_offset, ii + d_col_offset) = tmp_i; d_m.at( jj + d_row_offset, jj + d_col_offset) = tmp_j; } if(ii < d_n_elem) { d_m.at( ii + d_row_offset, ii + d_col_offset) = Pea[ii]; } } } template<typename eT> template<typename T1> inline void diagview<eT>::operator+=(const Base<eT,T1>& o) { arma_extra_debug_sigprint(); diagview<eT>& d = *this; Mat<eT>& d_m = const_cast< Mat<eT>& >(d.m); const uword d_n_elem = d.n_elem; const uword d_row_offset = d.row_offset; const uword d_col_offset = d.col_offset; const Proxy<T1> P( o.get_ref() ); arma_debug_check ( ( (d.n_elem != P.get_n_elem()) || ((P.get_n_rows() != 1) && (P.get_n_cols() != 1)) ), "diagview: given object has incompatible size" ); const bool is_alias = P.is_alias(d_m); arma_extra_debug_warn(is_alias, "aliasing detected"); if( (is_Mat<typename Proxy<T1>::stored_type>::value == true) || (Proxy<T1>::prefer_at_accessor == true) || (is_alias == true) ) { const unwrap_check<typename Proxy<T1>::stored_type> tmp(P.Q, is_alias); const Mat<eT>& x = tmp.M; const eT* x_mem = x.memptr(); uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = x_mem[ii]; const eT tmp_j = x_mem[jj]; d_m.at( ii + d_row_offset, ii + d_col_offset) += tmp_i; d_m.at( jj + d_row_offset, jj + d_col_offset) += tmp_j; } if(ii < d_n_elem) { d_m.at( ii + d_row_offset, ii + d_col_offset) += x_mem[ii]; } } else { typename Proxy<T1>::ea_type Pea = P.get_ea(); uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = Pea[ii]; const eT tmp_j = Pea[jj]; d_m.at( ii + d_row_offset, ii + d_col_offset) += tmp_i; d_m.at( jj + d_row_offset, jj + d_col_offset) += tmp_j; } if(ii < d_n_elem) { d_m.at( ii + d_row_offset, ii + d_col_offset) += Pea[ii]; } } } template<typename eT> template<typename T1> inline void diagview<eT>::operator-=(const Base<eT,T1>& o) { arma_extra_debug_sigprint(); diagview<eT>& d = *this; Mat<eT>& d_m = const_cast< Mat<eT>& >(d.m); const uword d_n_elem = d.n_elem; const uword d_row_offset = d.row_offset; const uword d_col_offset = d.col_offset; const Proxy<T1> P( o.get_ref() ); arma_debug_check ( ( (d.n_elem != P.get_n_elem()) || ((P.get_n_rows() != 1) && (P.get_n_cols() != 1)) ), "diagview: given object has incompatible size" ); const bool is_alias = P.is_alias(d_m); arma_extra_debug_warn(is_alias, "aliasing detected"); if( (is_Mat<typename Proxy<T1>::stored_type>::value == true) || (Proxy<T1>::prefer_at_accessor == true) || (is_alias == true) ) { const unwrap_check<typename Proxy<T1>::stored_type> tmp(P.Q, is_alias); const Mat<eT>& x = tmp.M; const eT* x_mem = x.memptr(); uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = x_mem[ii]; const eT tmp_j = x_mem[jj]; d_m.at( ii + d_row_offset, ii + d_col_offset) -= tmp_i; d_m.at( jj + d_row_offset, jj + d_col_offset) -= tmp_j; } if(ii < d_n_elem) { d_m.at( ii + d_row_offset, ii + d_col_offset) -= x_mem[ii]; } } else { typename Proxy<T1>::ea_type Pea = P.get_ea(); uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = Pea[ii]; const eT tmp_j = Pea[jj]; d_m.at( ii + d_row_offset, ii + d_col_offset) -= tmp_i; d_m.at( jj + d_row_offset, jj + d_col_offset) -= tmp_j; } if(ii < d_n_elem) { d_m.at( ii + d_row_offset, ii + d_col_offset) -= Pea[ii]; } } } template<typename eT> template<typename T1> inline void diagview<eT>::operator%=(const Base<eT,T1>& o) { arma_extra_debug_sigprint(); diagview<eT>& d = *this; Mat<eT>& d_m = const_cast< Mat<eT>& >(d.m); const uword d_n_elem = d.n_elem; const uword d_row_offset = d.row_offset; const uword d_col_offset = d.col_offset; const Proxy<T1> P( o.get_ref() ); arma_debug_check ( ( (d.n_elem != P.get_n_elem()) || ((P.get_n_rows() != 1) && (P.get_n_cols() != 1)) ), "diagview: given object has incompatible size" ); const bool is_alias = P.is_alias(d_m); arma_extra_debug_warn(is_alias, "aliasing detected"); if( (is_Mat<typename Proxy<T1>::stored_type>::value == true) || (Proxy<T1>::prefer_at_accessor == true) || (is_alias == true) ) { const unwrap_check<typename Proxy<T1>::stored_type> tmp(P.Q, is_alias); const Mat<eT>& x = tmp.M; const eT* x_mem = x.memptr(); uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = x_mem[ii]; const eT tmp_j = x_mem[jj]; d_m.at( ii + d_row_offset, ii + d_col_offset) *= tmp_i; d_m.at( jj + d_row_offset, jj + d_col_offset) *= tmp_j; } if(ii < d_n_elem) { d_m.at( ii + d_row_offset, ii + d_col_offset) *= x_mem[ii]; } } else { typename Proxy<T1>::ea_type Pea = P.get_ea(); uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = Pea[ii]; const eT tmp_j = Pea[jj]; d_m.at( ii + d_row_offset, ii + d_col_offset) *= tmp_i; d_m.at( jj + d_row_offset, jj + d_col_offset) *= tmp_j; } if(ii < d_n_elem) { d_m.at( ii + d_row_offset, ii + d_col_offset) *= Pea[ii]; } } } template<typename eT> template<typename T1> inline void diagview<eT>::operator/=(const Base<eT,T1>& o) { arma_extra_debug_sigprint(); diagview<eT>& d = *this; Mat<eT>& d_m = const_cast< Mat<eT>& >(d.m); const uword d_n_elem = d.n_elem; const uword d_row_offset = d.row_offset; const uword d_col_offset = d.col_offset; const Proxy<T1> P( o.get_ref() ); arma_debug_check ( ( (d.n_elem != P.get_n_elem()) || ((P.get_n_rows() != 1) && (P.get_n_cols() != 1)) ), "diagview: given object has incompatible size" ); const bool is_alias = P.is_alias(d_m); arma_extra_debug_warn(is_alias, "aliasing detected"); if( (is_Mat<typename Proxy<T1>::stored_type>::value == true) || (Proxy<T1>::prefer_at_accessor == true) || (is_alias == true) ) { const unwrap_check<typename Proxy<T1>::stored_type> tmp(P.Q, is_alias); const Mat<eT>& x = tmp.M; const eT* x_mem = x.memptr(); uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = x_mem[ii]; const eT tmp_j = x_mem[jj]; d_m.at( ii + d_row_offset, ii + d_col_offset) /= tmp_i; d_m.at( jj + d_row_offset, jj + d_col_offset) /= tmp_j; } if(ii < d_n_elem) { d_m.at( ii + d_row_offset, ii + d_col_offset) /= x_mem[ii]; } } else { typename Proxy<T1>::ea_type Pea = P.get_ea(); uword ii,jj; for(ii=0, jj=1; jj < d_n_elem; ii+=2, jj+=2) { const eT tmp_i = Pea[ii]; const eT tmp_j = Pea[jj]; d_m.at( ii + d_row_offset, ii + d_col_offset) /= tmp_i; d_m.at( jj + d_row_offset, jj + d_col_offset) /= tmp_j; } if(ii < d_n_elem) { d_m.at( ii + d_row_offset, ii + d_col_offset) /= Pea[ii]; } } } //! extract a diagonal and store it as a column vector template<typename eT> inline void diagview<eT>::extract(Mat<eT>& out, const diagview<eT>& in) { arma_extra_debug_sigprint(); // NOTE: we're assuming that the matrix has already been set to the correct size and there is no aliasing; // size setting and alias checking is done by either the Mat contructor or operator=() const Mat<eT>& in_m = in.m; const uword in_n_elem = in.n_elem; const uword in_row_offset = in.row_offset; const uword in_col_offset = in.col_offset; eT* out_mem = out.memptr(); uword i,j; for(i=0, j=1; j < in_n_elem; i+=2, j+=2) { const eT tmp_i = in_m.at( i + in_row_offset, i + in_col_offset ); const eT tmp_j = in_m.at( j + in_row_offset, j + in_col_offset ); out_mem[i] = tmp_i; out_mem[j] = tmp_j; } if(i < in_n_elem) { out_mem[i] = in_m.at( i + in_row_offset, i + in_col_offset ); } } //! X += Y.diag() template<typename eT> inline void diagview<eT>::plus_inplace(Mat<eT>& out, const diagview<eT>& in) { arma_extra_debug_sigprint(); arma_debug_assert_same_size(out.n_rows, out.n_cols, in.n_rows, in.n_cols, "addition"); const Mat<eT>& in_m = in.m; const uword in_n_elem = in.n_elem; const uword in_row_offset = in.row_offset; const uword in_col_offset = in.col_offset; eT* out_mem = out.memptr(); uword i,j; for(i=0, j=1; j < in_n_elem; i+=2, j+=2) { const eT tmp_i = in_m.at( i + in_row_offset, i + in_col_offset ); const eT tmp_j = in_m.at( j + in_row_offset, j + in_col_offset ); out_mem[i] += tmp_i; out_mem[j] += tmp_j; } if(i < in_n_elem) { out_mem[i] += in_m.at( i + in_row_offset, i + in_col_offset ); } } //! X -= Y.diag() template<typename eT> inline void diagview<eT>::minus_inplace(Mat<eT>& out, const diagview<eT>& in) { arma_extra_debug_sigprint(); arma_debug_assert_same_size(out.n_rows, out.n_cols, in.n_rows, in.n_cols, "subtraction"); const Mat<eT>& in_m = in.m; const uword in_n_elem = in.n_elem; const uword in_row_offset = in.row_offset; const uword in_col_offset = in.col_offset; eT* out_mem = out.memptr(); uword i,j; for(i=0, j=1; j < in_n_elem; i+=2, j+=2) { const eT tmp_i = in_m.at( i + in_row_offset, i + in_col_offset ); const eT tmp_j = in_m.at( j + in_row_offset, j + in_col_offset ); out_mem[i] -= tmp_i; out_mem[j] -= tmp_j; } if(i < in_n_elem) { out_mem[i] -= in_m.at( i + in_row_offset, i + in_col_offset ); } } //! X %= Y.diag() template<typename eT> inline void diagview<eT>::schur_inplace(Mat<eT>& out, const diagview<eT>& in) { arma_extra_debug_sigprint(); arma_debug_assert_same_size(out.n_rows, out.n_cols, in.n_rows, in.n_cols, "element-wise multiplication"); const Mat<eT>& in_m = in.m; const uword in_n_elem = in.n_elem; const uword in_row_offset = in.row_offset; const uword in_col_offset = in.col_offset; eT* out_mem = out.memptr(); uword i,j; for(i=0, j=1; j < in_n_elem; i+=2, j+=2) { const eT tmp_i = in_m.at( i + in_row_offset, i + in_col_offset ); const eT tmp_j = in_m.at( j + in_row_offset, j + in_col_offset ); out_mem[i] *= tmp_i; out_mem[j] *= tmp_j; } if(i < in_n_elem) { out_mem[i] *= in_m.at( i + in_row_offset, i + in_col_offset ); } } //! X /= Y.diag() template<typename eT> inline void diagview<eT>::div_inplace(Mat<eT>& out, const diagview<eT>& in) { arma_extra_debug_sigprint(); arma_debug_assert_same_size(out.n_rows, out.n_cols, in.n_rows, in.n_cols, "element-wise division"); const Mat<eT>& in_m = in.m; const uword in_n_elem = in.n_elem; const uword in_row_offset = in.row_offset; const uword in_col_offset = in.col_offset; eT* out_mem = out.memptr(); uword i,j; for(i=0, j=1; j < in_n_elem; i+=2, j+=2) { const eT tmp_i = in_m.at( i + in_row_offset, i + in_col_offset ); const eT tmp_j = in_m.at( j + in_row_offset, j + in_col_offset ); out_mem[i] /= tmp_i; out_mem[j] /= tmp_j; } if(i < in_n_elem) { out_mem[i] /= in_m.at( i + in_row_offset, i + in_col_offset ); } } template<typename eT> arma_inline eT diagview<eT>::at_alt(const uword ii) const { return m.at(ii+row_offset, ii+col_offset); } template<typename eT> arma_inline eT& diagview<eT>::operator[](const uword ii) { return (const_cast< Mat<eT>& >(m)).at(ii+row_offset, ii+col_offset); } template<typename eT> arma_inline eT diagview<eT>::operator[](const uword ii) const { return m.at(ii+row_offset, ii+col_offset); } template<typename eT> arma_inline eT& diagview<eT>::at(const uword ii) { return (const_cast< Mat<eT>& >(m)).at(ii+row_offset, ii+col_offset); } template<typename eT> arma_inline eT diagview<eT>::at(const uword ii) const { return m.at(ii+row_offset, ii+col_offset); } template<typename eT> arma_inline eT& diagview<eT>::operator()(const uword ii) { arma_debug_check( (ii >= n_elem), "diagview::operator(): out of bounds" ); return (const_cast< Mat<eT>& >(m)).at(ii+row_offset, ii+col_offset); } template<typename eT> arma_inline eT diagview<eT>::operator()(const uword ii) const { arma_debug_check( (ii >= n_elem), "diagview::operator(): out of bounds" ); return m.at(ii+row_offset, ii+col_offset); } template<typename eT> arma_inline eT& diagview<eT>::at(const uword row, const uword) { return (const_cast< Mat<eT>& >(m)).at(row+row_offset, row+col_offset); } template<typename eT> arma_inline eT diagview<eT>::at(const uword row, const uword) const { return m.at(row+row_offset, row+col_offset); } template<typename eT> arma_inline eT& diagview<eT>::operator()(const uword row, const uword col) { arma_debug_check( ((row >= n_elem) || (col > 0)), "diagview::operator(): out of bounds" ); return (const_cast< Mat<eT>& >(m)).at(row+row_offset, row+col_offset); } template<typename eT> arma_inline eT diagview<eT>::operator()(const uword row, const uword col) const { arma_debug_check( ((row >= n_elem) || (col > 0)), "diagview::operator(): out of bounds" ); return m.at(row+row_offset, row+col_offset); } template<typename eT> arma_inline const Op<diagview<eT>,op_htrans> diagview<eT>::t() const { return Op<diagview<eT>,op_htrans>(*this); } template<typename eT> arma_inline const Op<diagview<eT>,op_htrans> diagview<eT>::ht() const { return Op<diagview<eT>,op_htrans>(*this); } template<typename eT> arma_inline const Op<diagview<eT>,op_strans> diagview<eT>::st() const { return Op<diagview<eT>,op_strans>(*this); } template<typename eT> inline void diagview<eT>::fill(const eT val) { arma_extra_debug_sigprint(); Mat<eT>& x = const_cast< Mat<eT>& >(m); for(uword ii=0; ii < n_elem; ++ii) { x.at(ii+row_offset, ii+col_offset) = val; } } template<typename eT> inline void diagview<eT>::zeros() { arma_extra_debug_sigprint(); (*this).fill(eT(0)); } template<typename eT> inline void diagview<eT>::ones() { arma_extra_debug_sigprint(); (*this).fill(eT(1)); } //! @}