Mercurial > hg > segmenter-vamp-plugin
view armadillo-3.900.4/include/armadillo_bits/gemm.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 gemm //! @{ //! for tiny square matrices, size <= 4x4 template<const bool do_trans_A=false, const bool use_alpha=false, const bool use_beta=false> class gemm_emul_tinysq { public: template<typename eT, typename TA, typename TB> arma_hot inline static void apply ( Mat<eT>& C, const TA& A, const TB& B, const eT alpha = eT(1), const eT beta = eT(0) ) { arma_extra_debug_sigprint(); switch(A.n_rows) { case 4: gemv_emul_tinysq<do_trans_A, use_alpha, use_beta>::apply( C.colptr(3), A, B.colptr(3), alpha, beta ); case 3: gemv_emul_tinysq<do_trans_A, use_alpha, use_beta>::apply( C.colptr(2), A, B.colptr(2), alpha, beta ); case 2: gemv_emul_tinysq<do_trans_A, use_alpha, use_beta>::apply( C.colptr(1), A, B.colptr(1), alpha, beta ); case 1: gemv_emul_tinysq<do_trans_A, use_alpha, use_beta>::apply( C.colptr(0), A, B.colptr(0), alpha, beta ); default: ; } } }; template<const bool do_trans_A=false, const bool do_trans_B=false, const bool use_alpha=false, const bool use_beta=false> class gemm_emul_large { public: template<typename eT, typename TA, typename TB> arma_hot inline static void apply ( Mat<eT>& C, const TA& A, const TB& B, 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; const uword B_n_rows = B.n_rows; const uword B_n_cols = B.n_cols; if( (do_trans_A == false) && (do_trans_B == false) ) { arma_aligned podarray<eT> tmp(A_n_cols); eT* A_rowdata = tmp.memptr(); for(uword row_A=0; row_A < A_n_rows; ++row_A) { //tmp.copy_row(A, row_A); const eT acc0 = op_dot::dot_and_copy_row(A_rowdata, A, row_A, B.colptr(0), A_n_cols); if( (use_alpha == false) && (use_beta == false) ) { C.at(row_A,0) = acc0; } else if( (use_alpha == true) && (use_beta == false) ) { C.at(row_A,0) = alpha * acc0; } else if( (use_alpha == false) && (use_beta == true) ) { C.at(row_A,0) = acc0 + beta*C.at(row_A,0); } else if( (use_alpha == true) && (use_beta == true) ) { C.at(row_A,0) = alpha*acc0 + beta*C.at(row_A,0); } //for(uword col_B=0; col_B < B_n_cols; ++col_B) for(uword col_B=1; col_B < B_n_cols; ++col_B) { const eT acc = op_dot::direct_dot_arma(B_n_rows, A_rowdata, B.colptr(col_B)); if( (use_alpha == false) && (use_beta == false) ) { C.at(row_A,col_B) = acc; } else if( (use_alpha == true) && (use_beta == false) ) { C.at(row_A,col_B) = alpha * acc; } else if( (use_alpha == false) && (use_beta == true) ) { C.at(row_A,col_B) = acc + beta*C.at(row_A,col_B); } else if( (use_alpha == true) && (use_beta == true) ) { C.at(row_A,col_B) = alpha*acc + beta*C.at(row_A,col_B); } } } } else if( (do_trans_A == true) && (do_trans_B == false) ) { for(uword col_A=0; col_A < A_n_cols; ++col_A) { // col_A is interpreted as row_A when storing the results in matrix C const eT* A_coldata = A.colptr(col_A); for(uword col_B=0; col_B < B_n_cols; ++col_B) { const eT acc = op_dot::direct_dot_arma(B_n_rows, A_coldata, B.colptr(col_B)); if( (use_alpha == false) && (use_beta == false) ) { C.at(col_A,col_B) = acc; } else if( (use_alpha == true) && (use_beta == false) ) { C.at(col_A,col_B) = alpha * acc; } else if( (use_alpha == false) && (use_beta == true) ) { C.at(col_A,col_B) = acc + beta*C.at(col_A,col_B); } else if( (use_alpha == true) && (use_beta == true) ) { C.at(col_A,col_B) = alpha*acc + beta*C.at(col_A,col_B); } } } } else if( (do_trans_A == false) && (do_trans_B == true) ) { Mat<eT> BB; op_strans::apply_noalias(BB, B); gemm_emul_large<false, false, use_alpha, use_beta>::apply(C, A, BB, alpha, beta); } else if( (do_trans_A == true) && (do_trans_B == true) ) { // mat B_tmp = trans(B); // dgemm_arma<true, false, use_alpha, use_beta>::apply(C, A, B_tmp, alpha, beta); // By using the trans(A)*trans(B) = trans(B*A) equivalency, // transpose operations are not needed arma_aligned podarray<eT> tmp(B.n_cols); eT* B_rowdata = tmp.memptr(); for(uword row_B=0; row_B < B_n_rows; ++row_B) { tmp.copy_row(B, row_B); for(uword col_A=0; col_A < A_n_cols; ++col_A) { const eT acc = op_dot::direct_dot_arma(A_n_rows, B_rowdata, A.colptr(col_A)); if( (use_alpha == false) && (use_beta == false) ) { C.at(col_A,row_B) = acc; } else if( (use_alpha == true) && (use_beta == false) ) { C.at(col_A,row_B) = alpha * acc; } else if( (use_alpha == false) && (use_beta == true) ) { C.at(col_A,row_B) = acc + beta*C.at(col_A,row_B); } else if( (use_alpha == true) && (use_beta == true) ) { C.at(col_A,row_B) = alpha*acc + beta*C.at(col_A,row_B); } } } } } }; template<const bool do_trans_A=false, const bool do_trans_B=false, const bool use_alpha=false, const bool use_beta=false> class gemm_emul { public: template<typename eT, typename TA, typename TB> arma_hot inline static void apply ( Mat<eT>& C, const TA& A, const TB& B, 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; const uword B_n_rows = B.n_rows; const uword B_n_cols = B.n_cols; if( (A_n_rows <= 4) && (A_n_rows == A_n_cols) && (A_n_rows == B_n_rows) && (B_n_rows == B_n_cols) ) { if(do_trans_B == false) { gemm_emul_tinysq<do_trans_A, use_alpha, use_beta>::apply(C, A, B, alpha, beta); } else { Mat<eT> BB(A_n_rows, A_n_rows); op_strans::apply_noalias_tinysq(BB, B); gemm_emul_tinysq<do_trans_A, use_alpha, use_beta>::apply(C, A, BB, alpha, beta); } } else { gemm_emul_large<do_trans_A, do_trans_B, use_alpha, use_beta>::apply(C, A, B, alpha, beta); } } template<typename eT> arma_hot inline static void apply ( Mat<eT>& C, const Mat<eT>& A, const Mat<eT>& B, const eT alpha = eT(1), const eT beta = eT(0), const typename arma_cx_only<eT>::result* junk = 0 ) { arma_extra_debug_sigprint(); arma_ignore(junk); // "better than nothing" handling of hermitian transposes for complex number matrices Mat<eT> tmp_A; Mat<eT> tmp_B; if(do_trans_A) { op_htrans::apply_noalias(tmp_A, A); } if(do_trans_B) { op_htrans::apply_noalias(tmp_B, B); } const Mat<eT>& AA = (do_trans_A == false) ? A : tmp_A; const Mat<eT>& BB = (do_trans_B == false) ? B : tmp_B; const uword A_n_rows = AA.n_rows; const uword A_n_cols = AA.n_cols; const uword B_n_rows = BB.n_rows; const uword B_n_cols = BB.n_cols; if( (A_n_rows <= 4) && (A_n_rows == A_n_cols) && (A_n_rows == B_n_rows) && (B_n_rows == B_n_cols) ) { gemm_emul_tinysq<false, use_alpha, use_beta>::apply(C, AA, BB, alpha, beta); } else { gemm_emul_large<false, false, use_alpha, use_beta>::apply(C, AA, BB, alpha, beta); } } }; //! \brief //! Wrapper for ATLAS/BLAS dgemm function, using template arguments to control the arguments passed to dgemm. //! Matrix 'C' is assumed to have been set to the correct size (i.e. taking into account transposes) template<const bool do_trans_A=false, const bool do_trans_B=false, const bool use_alpha=false, const bool use_beta=false> class gemm { public: template<typename eT, typename TA, typename TB> inline static void apply_blas_type( Mat<eT>& C, const TA& A, const TB& B, const eT alpha = eT(1), const eT beta = eT(0) ) { arma_extra_debug_sigprint(); const uword threshold = (is_Mat_fixed<TA>::value && is_Mat_fixed<TB>::value) ? (is_complex<eT>::value ? 16u : 64u) : (is_complex<eT>::value ? 16u : 48u); if( (A.n_elem <= threshold) && (B.n_elem <= threshold) ) { gemm_emul<do_trans_A, do_trans_B, use_alpha, use_beta>::apply(C,A,B,alpha,beta); } else { #if defined(ARMA_USE_ATLAS) { arma_extra_debug_print("atlas::cblas_gemm()"); atlas::cblas_gemm<eT> ( atlas::CblasColMajor, (do_trans_A) ? ( is_complex<eT>::value ? CblasConjTrans : atlas::CblasTrans ) : atlas::CblasNoTrans, (do_trans_B) ? ( is_complex<eT>::value ? CblasConjTrans : atlas::CblasTrans ) : atlas::CblasNoTrans, C.n_rows, C.n_cols, (do_trans_A) ? A.n_rows : A.n_cols, (use_alpha) ? alpha : eT(1), A.mem, (do_trans_A) ? A.n_rows : C.n_rows, B.mem, (do_trans_B) ? C.n_cols : ( (do_trans_A) ? A.n_rows : A.n_cols ), (use_beta) ? beta : eT(0), C.memptr(), C.n_rows ); } #elif defined(ARMA_USE_BLAS) { arma_extra_debug_print("blas::gemm()"); const char trans_A = (do_trans_A) ? ( is_complex<eT>::value ? 'C' : 'T' ) : 'N'; const char trans_B = (do_trans_B) ? ( is_complex<eT>::value ? 'C' : 'T' ) : 'N'; const blas_int m = C.n_rows; const blas_int n = C.n_cols; const blas_int k = (do_trans_A) ? A.n_rows : A.n_cols; const eT local_alpha = (use_alpha) ? alpha : eT(1); const blas_int lda = (do_trans_A) ? k : m; const blas_int ldb = (do_trans_B) ? n : k; const eT local_beta = (use_beta) ? beta : eT(0); arma_extra_debug_print( arma_boost::format("blas::gemm(): trans_A = %c") % trans_A ); arma_extra_debug_print( arma_boost::format("blas::gemm(): trans_B = %c") % trans_B ); blas::gemm<eT> ( &trans_A, &trans_B, &m, &n, &k, &local_alpha, A.mem, &lda, B.mem, &ldb, &local_beta, C.memptr(), &m ); } #else { gemm_emul<do_trans_A, do_trans_B, use_alpha, use_beta>::apply(C,A,B,alpha,beta); } #endif } } //! immediate multiplication of matrices A and B, storing the result in C template<typename eT, typename TA, typename TB> inline static void apply( Mat<eT>& C, const TA& A, const TB& B, const eT alpha = eT(1), const eT beta = eT(0) ) { gemm_emul<do_trans_A, do_trans_B, use_alpha, use_beta>::apply(C,A,B,alpha,beta); } template<typename TA, typename TB> arma_inline static void apply ( Mat<float>& C, const TA& A, const TB& B, const float alpha = float(1), const float beta = float(0) ) { gemm<do_trans_A, do_trans_B, use_alpha, use_beta>::apply_blas_type(C,A,B,alpha,beta); } template<typename TA, typename TB> arma_inline static void apply ( Mat<double>& C, const TA& A, const TB& B, const double alpha = double(1), const double beta = double(0) ) { gemm<do_trans_A, do_trans_B, use_alpha, use_beta>::apply_blas_type(C,A,B,alpha,beta); } template<typename TA, typename TB> arma_inline static void apply ( Mat< std::complex<float> >& C, const TA& A, const TB& B, const std::complex<float> alpha = std::complex<float>(1), const std::complex<float> beta = std::complex<float>(0) ) { gemm<do_trans_A, do_trans_B, use_alpha, use_beta>::apply_blas_type(C,A,B,alpha,beta); } template<typename TA, typename TB> arma_inline static void apply ( Mat< std::complex<double> >& C, const TA& A, const TB& B, const std::complex<double> alpha = std::complex<double>(1), const std::complex<double> beta = std::complex<double>(0) ) { gemm<do_trans_A, do_trans_B, use_alpha, use_beta>::apply_blas_type(C,A,B,alpha,beta); } }; //! @}