// Copyright (c) 2010-2023, Lawrence Livermore National Security, LLC. Produced // at the Lawrence Livermore National Laboratory. All Rights reserved. See files // LICENSE and NOTICE for details. LLNL-CODE-806117. // // This file is part of the MFEM library. For more information and source code // availability visit https://mfem.org. // // MFEM is free software; you can redistribute it and/or modify it under the // terms of the BSD-3 license. We welcome feedback and contributions, see file // CONTRIBUTING.md for details. #ifndef MFEM_SIMD_M128_HPP #define MFEM_SIMD_M128_HPP #ifdef __SSE2__ #include "../../config/tconfig.hpp" #if defined(__x86_64__) #include #else // assuming MSVC with _M_X64 or _M_IX86 #include #endif namespace mfem { template struct AutoSIMD; template <> struct AutoSIMD { typedef double scalar_type; static constexpr int size = 2; static constexpr int align_bytes = 16; union { __m128d m128d; double vec[size]; }; AutoSIMD() = default; AutoSIMD(const AutoSIMD &) = default; inline MFEM_ALWAYS_INLINE double &operator[](int i) { return vec[i]; } inline MFEM_ALWAYS_INLINE const double &operator[](int i) const { return vec[i]; } inline MFEM_ALWAYS_INLINE AutoSIMD &operator=(const AutoSIMD &v) { m128d = v.m128d; return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &operator=(const double &e) { m128d = _mm_set1_pd(e); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &operator+=(const AutoSIMD &v) { m128d = _mm_add_pd(m128d,v.m128d); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &operator+=(const double &e) { m128d = _mm_add_pd(m128d,_mm_set1_pd(e)); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &operator-=(const AutoSIMD &v) { m128d = _mm_sub_pd(m128d,v.m128d); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &operator-=(const double &e) { m128d = _mm_sub_pd(m128d,_mm_set1_pd(e)); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &operator*=(const AutoSIMD &v) { m128d = _mm_mul_pd(m128d,v.m128d); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &operator*=(const double &e) { m128d = _mm_mul_pd(m128d,_mm_set1_pd(e)); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &operator/=(const AutoSIMD &v) { m128d = _mm_div_pd(m128d,v.m128d); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &operator/=(const double &e) { m128d = _mm_div_pd(m128d,_mm_set1_pd(e)); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD operator-() const { AutoSIMD r; r.m128d = _mm_xor_pd(_mm_set1_pd(-0.0), m128d); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator+() const { return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD operator+(const AutoSIMD &v) const { AutoSIMD r; r.m128d = _mm_add_pd(m128d,v.m128d); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator+(const double &e) const { AutoSIMD r; r.m128d = _mm_add_pd(m128d, _mm_set1_pd(e)); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator-(const AutoSIMD &v) const { AutoSIMD r; r.m128d = _mm_sub_pd(m128d,v.m128d); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator-(const double &e) const { AutoSIMD r; r.m128d = _mm_sub_pd(m128d, _mm_set1_pd(e)); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator*(const AutoSIMD &v) const { AutoSIMD r; r.m128d = _mm_mul_pd(m128d,v.m128d); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator*(const double &e) const { AutoSIMD r; r.m128d = _mm_mul_pd(m128d, _mm_set1_pd(e)); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator/(const AutoSIMD &v) const { AutoSIMD r; r.m128d = _mm_div_pd(m128d,v.m128d); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator/(const double &e) const { AutoSIMD r; r.m128d = _mm_div_pd(m128d, _mm_set1_pd(e)); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD &fma(const AutoSIMD &v, const AutoSIMD &w) { m128d = _mm_add_pd(_mm_mul_pd(w.m128d,v.m128d),m128d); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &fma(const AutoSIMD &v, const double &e) { m128d = _mm_add_pd(_mm_mul_pd(_mm_set1_pd(e),v.m128d),m128d); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &fma(const double &e, const AutoSIMD &v) { m128d = _mm_add_pd(_mm_mul_pd(v.m128d,_mm_set1_pd(e)),m128d); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &mul(const AutoSIMD &v, const AutoSIMD &w) { m128d = _mm_mul_pd(v.m128d,w.m128d); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &mul(const AutoSIMD &v, const double &e) { m128d = _mm_mul_pd(v.m128d,_mm_set1_pd(e)); return *this; } inline MFEM_ALWAYS_INLINE AutoSIMD &mul(const double &e, const AutoSIMD &v) { m128d = _mm_mul_pd(_mm_set1_pd(e),v.m128d); return *this; } }; inline MFEM_ALWAYS_INLINE AutoSIMD operator+(const double &e, const AutoSIMD &v) { AutoSIMD r; r.m128d = _mm_add_pd(_mm_set1_pd(e),v.m128d); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator-(const double &e, const AutoSIMD &v) { AutoSIMD r; r.m128d = _mm_sub_pd(_mm_set1_pd(e),v.m128d); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator*(const double &e, const AutoSIMD &v) { AutoSIMD r; r.m128d = _mm_mul_pd(_mm_set1_pd(e),v.m128d); return r; } inline MFEM_ALWAYS_INLINE AutoSIMD operator/(const double &e, const AutoSIMD &v) { AutoSIMD r; r.m128d = _mm_div_pd(_mm_set1_pd(e),v.m128d); return r; } } // namespace mfem #endif // __SSE2__ #endif // MFEM_SIMD_M128_HPP