// Copyright (C) 2008-2015 National ICT Australia (NICTA) // // 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/. // ------------------------------------------------------------------- // // Written by Conrad Sanderson - http://conradsanderson.id.au #ifdef ARMA_USE_ATLAS //! \namespace atlas namespace for ATLAS functions (imported from the global namespace) namespace atlas { template inline static const eT& tmp_real(const eT& X) { return X; } template inline static const T tmp_real(const std::complex& X) { return X.real(); } template arma_inline eT cblas_asum(const int N, const eT* X) { arma_type_check((is_supported_blas_type::value == false)); if(is_float::value) { typedef float T; return eT( arma_wrapper(cblas_sasum)(N, (const T*)X, 1) ); } else if(is_double::value) { typedef double T; return eT( arma_wrapper(cblas_dasum)(N, (const T*)X, 1) ); } else { return eT(0); } } template arma_inline eT cblas_nrm2(const int N, const eT* X) { arma_type_check((is_supported_blas_type::value == false)); if(is_float::value) { typedef float T; return eT( arma_wrapper(cblas_snrm2)(N, (const T*)X, 1) ); } else if(is_double::value) { typedef double T; return eT( arma_wrapper(cblas_dnrm2)(N, (const T*)X, 1) ); } else { return eT(0); } } template arma_inline eT cblas_dot(const int N, const eT* X, const eT* Y) { arma_type_check((is_supported_blas_type::value == false)); if(is_float::value) { typedef float T; return eT( arma_wrapper(cblas_sdot)(N, (const T*)X, 1, (const T*)Y, 1) ); } else if(is_double::value) { typedef double T; return eT( arma_wrapper(cblas_ddot)(N, (const T*)X, 1, (const T*)Y, 1) ); } else { return eT(0); } } template arma_inline eT cblas_cx_dot(const int N, const eT* X, const eT* Y) { arma_type_check((is_supported_blas_type::value == false)); if(is_supported_complex_float::value) { typedef typename std::complex T; T out; arma_wrapper(cblas_cdotu_sub)(N, (const T*)X, 1, (const T*)Y, 1, &out); return eT(out); } else if(is_supported_complex_double::value) { typedef typename std::complex T; T out; arma_wrapper(cblas_zdotu_sub)(N, (const T*)X, 1, (const T*)Y, 1, &out); return eT(out); } else { return eT(0); } } template inline void cblas_gemv ( const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA, const int M, const int N, const eT alpha, const eT *A, const int lda, const eT *X, const int incX, const eT beta, eT *Y, const int incY ) { arma_type_check((is_supported_blas_type::value == false)); if(is_float::value) { typedef float T; arma_wrapper(cblas_sgemv)(Order, TransA, M, N, (const T)tmp_real(alpha), (const T*)A, lda, (const T*)X, incX, (const T)tmp_real(beta), (T*)Y, incY); } else if(is_double::value) { typedef double T; arma_wrapper(cblas_dgemv)(Order, TransA, M, N, (const T)tmp_real(alpha), (const T*)A, lda, (const T*)X, incX, (const T)tmp_real(beta), (T*)Y, incY); } else if(is_supported_complex_float::value) { typedef std::complex T; arma_wrapper(cblas_cgemv)(Order, TransA, M, N, (const T*)&alpha, (const T*)A, lda, (const T*)X, incX, (const T*)&beta, (T*)Y, incY); } else if(is_supported_complex_double::value) { typedef std::complex T; arma_wrapper(cblas_zgemv)(Order, TransA, M, N, (const T*)&alpha, (const T*)A, lda, (const T*)X, incX, (const T*)&beta, (T*)Y, incY); } } template inline void cblas_gemm ( const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA, const enum CBLAS_TRANSPOSE TransB, const int M, const int N, const int K, const eT alpha, const eT *A, const int lda, const eT *B, const int ldb, const eT beta, eT *C, const int ldc ) { arma_type_check((is_supported_blas_type::value == false)); if(is_float::value) { typedef float T; arma_wrapper(cblas_sgemm)(Order, TransA, TransB, M, N, K, (const T)tmp_real(alpha), (const T*)A, lda, (const T*)B, ldb, (const T)tmp_real(beta), (T*)C, ldc); } else if(is_double::value) { typedef double T; arma_wrapper(cblas_dgemm)(Order, TransA, TransB, M, N, K, (const T)tmp_real(alpha), (const T*)A, lda, (const T*)B, ldb, (const T)tmp_real(beta), (T*)C, ldc); } else if(is_supported_complex_float::value) { typedef std::complex T; arma_wrapper(cblas_cgemm)(Order, TransA, TransB, M, N, K, (const T*)&alpha, (const T*)A, lda, (const T*)B, ldb, (const T*)&beta, (T*)C, ldc); } else if(is_supported_complex_double::value) { typedef std::complex T; arma_wrapper(cblas_zgemm)(Order, TransA, TransB, M, N, K, (const T*)&alpha, (const T*)A, lda, (const T*)B, ldb, (const T*)&beta, (T*)C, ldc); } } template inline void cblas_syrk ( const enum CBLAS_ORDER Order, const enum CBLAS_UPLO Uplo, const enum CBLAS_TRANSPOSE Trans, const int N, const int K, const eT alpha, const eT* A, const int lda, const eT beta, eT* C, const int ldc ) { arma_type_check((is_supported_blas_type::value == false)); if(is_float::value) { typedef float T; arma_wrapper(cblas_ssyrk)(Order, Uplo, Trans, N, K, (const T)alpha, (const T*)A, lda, (const T)beta, (T*)C, ldc); } else if(is_double::value) { typedef double T; arma_wrapper(cblas_dsyrk)(Order, Uplo, Trans, N, K, (const T)alpha, (const T*)A, lda, (const T)beta, (T*)C, ldc); } } template inline void cblas_herk ( const enum CBLAS_ORDER Order, const enum CBLAS_UPLO Uplo, const enum CBLAS_TRANSPOSE Trans, const int N, const int K, const T alpha, const std::complex* A, const int lda, const T beta, std::complex* C, const int ldc ) { arma_type_check((is_supported_blas_type::value == false)); if(is_float::value) { typedef float TT; typedef std::complex cx_TT; arma_wrapper(cblas_cherk)(Order, Uplo, Trans, N, K, (const TT)alpha, (const cx_TT*)A, lda, (const TT)beta, (cx_TT*)C, ldc); } else if(is_double::value) { typedef double TT; typedef std::complex cx_TT; arma_wrapper(cblas_zherk)(Order, Uplo, Trans, N, K, (const TT)alpha, (const cx_TT*)A, lda, (const TT)beta, (cx_TT*)C, ldc); } } template inline int clapack_getrf ( const enum CBLAS_ORDER Order, const int M, const int N, eT *A, const int lda, int *ipiv ) { arma_type_check((is_supported_blas_type::value == false)); if(is_float::value) { typedef float T; return arma_wrapper(clapack_sgetrf)(Order, M, N, (T*)A, lda, ipiv); } else if(is_double::value) { typedef double T; return arma_wrapper(clapack_dgetrf)(Order, M, N, (T*)A, lda, ipiv); } else if(is_supported_complex_float::value) { typedef std::complex T; return arma_wrapper(clapack_cgetrf)(Order, M, N, (T*)A, lda, ipiv); } else if(is_supported_complex_double::value) { typedef std::complex T; return arma_wrapper(clapack_zgetrf)(Order, M, N, (T*)A, lda, ipiv); } else { return -1; } } template inline int clapack_getri ( const enum CBLAS_ORDER Order, const int N, eT *A, const int lda, const int *ipiv ) { arma_type_check((is_supported_blas_type::value == false)); if(is_float::value) { typedef float T; return arma_wrapper(clapack_sgetri)(Order, N, (T*)A, lda, ipiv); } else if(is_double::value) { typedef double T; return arma_wrapper(clapack_dgetri)(Order, N, (T*)A, lda, ipiv); } else if(is_supported_complex_float::value) { typedef std::complex T; return arma_wrapper(clapack_cgetri)(Order, N, (T*)A, lda, ipiv); } else if(is_supported_complex_double::value) { typedef std::complex T; return arma_wrapper(clapack_zgetri)(Order, N, (T*)A, lda, ipiv); } else { return -1; } } template inline int clapack_gesv ( const enum CBLAS_ORDER Order, const int N, const int NRHS, eT* A, const int lda, int* ipiv, eT* B, const int ldb ) { arma_type_check((is_supported_blas_type::value == false)); if(is_float::value) { typedef float T; return arma_wrapper(clapack_sgesv)(Order, N, NRHS, (T*)A, lda, ipiv, (T*)B, ldb); } else if(is_double::value) { typedef double T; return arma_wrapper(clapack_dgesv)(Order, N, NRHS, (T*)A, lda, ipiv, (T*)B, ldb); } else if(is_supported_complex_float::value) { typedef std::complex T; return arma_wrapper(clapack_cgesv)(Order, N, NRHS, (T*)A, lda, ipiv, (T*)B, ldb); } else if(is_supported_complex_double::value) { typedef std::complex T; return arma_wrapper(clapack_zgesv)(Order, N, NRHS, (T*)A, lda, ipiv, (T*)B, ldb); } else { return -1; } } } #endif