Mercurial > hg > segmenter-vamp-plugin
diff armadillo-2.4.4/include/armadillo_bits/gemv.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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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/armadillo-2.4.4/include/armadillo_bits/gemv.hpp Wed Apr 11 09:27:06 2012 +0100 @@ -0,0 +1,492 @@ +// Copyright (C) 2008-2011 NICTA (www.nicta.com.au) +// Copyright (C) 2008-2011 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 gemv +//! @{ + + + +//! for tiny square matrices, size <= 4x4 +template<const bool do_trans_A=false, const bool use_alpha=false, const bool use_beta=false> +class gemv_emul_tinysq + { + public: + + + template<const uword row, const uword col> + struct pos + { + static const uword n2 = (do_trans_A == false) ? (row + col*2) : (col + row*2); + static const uword n3 = (do_trans_A == false) ? (row + col*3) : (col + row*3); + static const uword n4 = (do_trans_A == false) ? (row + col*4) : (col + row*4); + }; + + + + template<typename eT, const uword i> + arma_hot + arma_inline + static + void + assign(eT* y, const eT acc, const eT alpha, const eT beta) + { + if(use_beta == false) + { + y[i] = (use_alpha == false) ? acc : alpha*acc; + } + else + { + const eT tmp = y[i]; + + y[i] = beta*tmp + ( (use_alpha == false) ? acc : alpha*acc ); + } + } + + + + template<typename eT> + arma_hot + inline + static + void + apply( eT* y, const Mat<eT>& A, const eT* x, const eT alpha = eT(1), const eT beta = eT(0) ) + { + arma_extra_debug_sigprint(); + + const eT* Am = A.memptr(); + + switch(A.n_rows) + { + case 1: + { + const eT acc = Am[0] * x[0]; + + assign<eT, 0>(y, acc, alpha, beta); + } + break; + + + case 2: + { + const eT x0 = x[0]; + const eT x1 = x[1]; + + const eT acc0 = Am[pos<0,0>::n2]*x0 + Am[pos<0,1>::n2]*x1; + const eT acc1 = Am[pos<1,0>::n2]*x0 + Am[pos<1,1>::n2]*x1; + + assign<eT, 0>(y, acc0, alpha, beta); + assign<eT, 1>(y, acc1, alpha, beta); + } + break; + + + case 3: + { + const eT x0 = x[0]; + const eT x1 = x[1]; + const eT x2 = x[2]; + + const eT acc0 = Am[pos<0,0>::n3]*x0 + Am[pos<0,1>::n3]*x1 + Am[pos<0,2>::n3]*x2; + const eT acc1 = Am[pos<1,0>::n3]*x0 + Am[pos<1,1>::n3]*x1 + Am[pos<1,2>::n3]*x2; + const eT acc2 = Am[pos<2,0>::n3]*x0 + Am[pos<2,1>::n3]*x1 + Am[pos<2,2>::n3]*x2; + + assign<eT, 0>(y, acc0, alpha, beta); + assign<eT, 1>(y, acc1, alpha, beta); + assign<eT, 2>(y, acc2, alpha, beta); + } + break; + + + case 4: + { + const eT x0 = x[0]; + const eT x1 = x[1]; + const eT x2 = x[2]; + const eT x3 = x[3]; + + const eT acc0 = Am[pos<0,0>::n4]*x0 + Am[pos<0,1>::n4]*x1 + Am[pos<0,2>::n4]*x2 + Am[pos<0,3>::n4]*x3; + const eT acc1 = Am[pos<1,0>::n4]*x0 + Am[pos<1,1>::n4]*x1 + Am[pos<1,2>::n4]*x2 + Am[pos<1,3>::n4]*x3; + const eT acc2 = Am[pos<2,0>::n4]*x0 + Am[pos<2,1>::n4]*x1 + Am[pos<2,2>::n4]*x2 + Am[pos<2,3>::n4]*x3; + const eT acc3 = Am[pos<3,0>::n4]*x0 + Am[pos<3,1>::n4]*x1 + Am[pos<3,2>::n4]*x2 + Am[pos<3,3>::n4]*x3; + + assign<eT, 0>(y, acc0, alpha, beta); + assign<eT, 1>(y, acc1, alpha, beta); + assign<eT, 2>(y, acc2, alpha, beta); + assign<eT, 3>(y, acc3, alpha, beta); + } + break; + + + default: + ; + } + } + + }; + + + +//! \brief +//! Partial emulation of ATLAS/BLAS gemv(). +//! 'y' is assumed to have been set to the correct size (i.e. taking into account the transpose) + +template<const bool do_trans_A=false, const bool use_alpha=false, const bool use_beta=false> +class gemv_emul_large + { + public: + + template<typename eT> + arma_hot + inline + static + void + apply( eT* y, const Mat<eT>& A, const eT* x, const eT alpha = eT(1), const eT beta = eT(0) ) + { + arma_extra_debug_sigprint(); + + const uword A_n_rows = A.n_rows; + const uword A_n_cols = A.n_cols; + + if(do_trans_A == false) + { + if(A_n_rows == 1) + { + const eT acc = op_dot::direct_dot_arma(A_n_cols, A.mem, x); + + if( (use_alpha == false) && (use_beta == false) ) + { + y[0] = acc; + } + else + if( (use_alpha == true) && (use_beta == false) ) + { + y[0] = alpha * acc; + } + else + if( (use_alpha == false) && (use_beta == true) ) + { + y[0] = acc + beta*y[0]; + } + else + if( (use_alpha == true) && (use_beta == true) ) + { + y[0] = alpha*acc + beta*y[0]; + } + } + else + for(uword row=0; row < A_n_rows; ++row) + { + eT acc = eT(0); + + for(uword i=0; i < A_n_cols; ++i) + { + acc += A.at(row,i) * x[i]; + } + + if( (use_alpha == false) && (use_beta == false) ) + { + y[row] = acc; + } + else + if( (use_alpha == true) && (use_beta == false) ) + { + y[row] = alpha * acc; + } + else + if( (use_alpha == false) && (use_beta == true) ) + { + y[row] = acc + beta*y[row]; + } + else + if( (use_alpha == true) && (use_beta == true) ) + { + y[row] = alpha*acc + beta*y[row]; + } + } + } + else + if(do_trans_A == true) + { + for(uword col=0; col < A_n_cols; ++col) + { + // col is interpreted as row when storing the results in 'y' + + + // const eT* A_coldata = A.colptr(col); + // + // eT acc = eT(0); + // for(uword row=0; row < A_n_rows; ++row) + // { + // acc += A_coldata[row] * x[row]; + // } + + const eT acc = op_dot::direct_dot_arma(A_n_rows, A.colptr(col), x); + + if( (use_alpha == false) && (use_beta == false) ) + { + y[col] = acc; + } + else + if( (use_alpha == true) && (use_beta == false) ) + { + y[col] = alpha * acc; + } + else + if( (use_alpha == false) && (use_beta == true) ) + { + y[col] = acc + beta*y[col]; + } + else + if( (use_alpha == true) && (use_beta == true) ) + { + y[col] = alpha*acc + beta*y[col]; + } + + } + } + } + + }; + + + +template<const bool do_trans_A=false, const bool use_alpha=false, const bool use_beta=false> +class gemv_emul + { + public: + + template<typename eT> + arma_hot + inline + static + void + apply( eT* y, const Mat<eT>& A, const eT* x, const eT alpha = eT(1), const eT beta = eT(0), const typename arma_not_cx<eT>::result* junk = 0 ) + { + arma_extra_debug_sigprint(); + arma_ignore(junk); + + const uword A_n_rows = A.n_rows; + const uword A_n_cols = A.n_cols; + + if( (A_n_rows <= 4) && (A_n_rows == A_n_cols) ) + { + gemv_emul_tinysq<do_trans_A, use_alpha, use_beta>::apply(y, A, x, alpha, beta); + } + else + { + gemv_emul_large<do_trans_A, use_alpha, use_beta>::apply(y, A, x, alpha, beta); + } + } + + + + template<typename eT> + arma_hot + inline + static + void + apply( eT* y, const Mat<eT>& A, const eT* x, const eT alpha = eT(1), const eT beta = eT(0), const typename arma_cx_only<eT>::result* junk = 0 ) + { + arma_extra_debug_sigprint(); + + Mat<eT> tmp_A; + + if(do_trans_A) + { + op_htrans::apply_noalias(tmp_A, A); + } + + const Mat<eT>& AA = (do_trans_A == false) ? A : tmp_A; + + const uword AA_n_rows = AA.n_rows; + const uword AA_n_cols = AA.n_cols; + + if( (AA_n_rows <= 4) && (AA_n_rows == AA_n_cols) ) + { + gemv_emul_tinysq<false, use_alpha, use_beta>::apply(y, AA, x, alpha, beta); + } + else + { + gemv_emul_large<false, use_alpha, use_beta>::apply(y, AA, x, alpha, beta); + } + } + }; + + + +//! \brief +//! Wrapper for ATLAS/BLAS gemv function, using template arguments to control the arguments passed to gemv. +//! 'y' is assumed to have been set to the correct size (i.e. taking into account the transpose) + +template<const bool do_trans_A=false, const bool use_alpha=false, const bool use_beta=false> +class gemv + { + public: + + template<typename eT> + inline + static + void + apply_blas_type( eT* y, const Mat<eT>& A, const eT* x, const eT alpha = eT(1), const eT beta = eT(0) ) + { + arma_extra_debug_sigprint(); + + if(A.n_elem <= 64u) + { + gemv_emul<do_trans_A, use_alpha, use_beta>::apply(y,A,x,alpha,beta); + } + else + { + #if defined(ARMA_USE_ATLAS) + { + arma_extra_debug_print("atlas::cblas_gemv()"); + + atlas::cblas_gemv<eT> + ( + atlas::CblasColMajor, + (do_trans_A) ? ( is_complex<eT>::value ? CblasConjTrans : atlas::CblasTrans ) : atlas::CblasNoTrans, + A.n_rows, + A.n_cols, + (use_alpha) ? alpha : eT(1), + A.mem, + A.n_rows, + x, + 1, + (use_beta) ? beta : eT(0), + y, + 1 + ); + } + #elif defined(ARMA_USE_BLAS) + { + arma_extra_debug_print("blas::gemv()"); + + const char trans_A = (do_trans_A) ? ( is_complex<eT>::value ? 'C' : 'T' ) : 'N'; + const blas_int m = A.n_rows; + const blas_int n = A.n_cols; + const eT local_alpha = (use_alpha) ? alpha : eT(1); + //const blas_int lda = A.n_rows; + const blas_int inc = 1; + const eT local_beta = (use_beta) ? beta : eT(0); + + arma_extra_debug_print( arma_boost::format("blas::gemv(): trans_A = %c") % trans_A ); + + blas::gemv<eT> + ( + &trans_A, + &m, + &n, + &local_alpha, + A.mem, + &m, // lda + x, + &inc, + &local_beta, + y, + &inc + ); + } + #else + { + gemv_emul<do_trans_A, use_alpha, use_beta>::apply(y,A,x,alpha,beta); + } + #endif + } + + } + + + + template<typename eT> + arma_inline + static + void + apply( eT* y, const Mat<eT>& A, const eT* x, const eT alpha = eT(1), const eT beta = eT(0) ) + { + gemv_emul<do_trans_A, use_alpha, use_beta>::apply(y,A,x,alpha,beta); + } + + + + arma_inline + static + void + apply + ( + float* y, + const Mat<float>& A, + const float* x, + const float alpha = float(1), + const float beta = float(0) + ) + { + gemv<do_trans_A, use_alpha, use_beta>::apply_blas_type(y,A,x,alpha,beta); + } + + + + arma_inline + static + void + apply + ( + double* y, + const Mat<double>& A, + const double* x, + const double alpha = double(1), + const double beta = double(0) + ) + { + gemv<do_trans_A, use_alpha, use_beta>::apply_blas_type(y,A,x,alpha,beta); + } + + + + arma_inline + static + void + apply + ( + std::complex<float>* y, + const Mat< std::complex<float > >& A, + const std::complex<float>* x, + const std::complex<float> alpha = std::complex<float>(1), + const std::complex<float> beta = std::complex<float>(0) + ) + { + gemv<do_trans_A, use_alpha, use_beta>::apply_blas_type(y,A,x,alpha,beta); + } + + + + arma_inline + static + void + apply + ( + std::complex<double>* y, + const Mat< std::complex<double> >& A, + const std::complex<double>* x, + const std::complex<double> alpha = std::complex<double>(1), + const std::complex<double> beta = std::complex<double>(0) + ) + { + gemv<do_trans_A, use_alpha, use_beta>::apply_blas_type(y,A,x,alpha,beta); + } + + + + }; + + +//! @}