// This file is part of Eigen, a lightweight C++ template library // for linear algebra. // // Copyright (C) 2017 Gael Guennebaud <gael.guennebaud@inria.fr> // // 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/. #ifndef EIGEN_ARCH_CONJ_HELPER_H#define EIGEN_ARCH_CONJ_HELPER_H#define EIGEN_MAKE_CONJ_HELPER_CPLX_REAL(PACKET_CPLX, PACKET_REAL) \template <> \struct conj_helper<PACKET_REAL, PACKET_CPLX, false , false > { \const PACKET_REAL& x, \const PACKET_CPLX& y, \const PACKET_CPLX& c) const { \return padd(c, this->pmul(x, y)); \const PACKET_REAL& x, \const PACKET_CPLX& y) const { \return PACKET_CPLX(Eigen::internal::pmul<PACKET_REAL>(x, y.v)); \template <> \struct conj_helper<PACKET_CPLX, PACKET_REAL, false , false > { \const PACKET_CPLX& x, \const PACKET_REAL& y, \const PACKET_CPLX& c) const { \return padd(c, this->pmul(x, y)); \const PACKET_CPLX& x, \const PACKET_REAL& y) const { \return PACKET_CPLX(Eigen::internal::pmul<PACKET_REAL>(x.v, y)); \namespace Eigen {namespace internal {template <bool Conjugate> struct conj_if;template <> struct conj_if<true > {template <typename T>operator ()(const T& x) const { return numext::conj(x); }template <typename T>const T& x) const { return internal::pconj(x); }template <> struct conj_if<false > {template <typename T>const T& operator ()(const T& x) const { return x; }template <typename T>const T& pconj(const T& x) const { return x; }// Generic Implementation, assume scalars since the packet-version is // specialized below. template <typename LhsType, typename RhsType, bool ConjLhs, bool ConjRhs>struct conj_helper {typedef typename ScalarBinaryOpTraits<LhsType, RhsType>::ReturnType ResultType;const LhsType& x, const RhsType& y, const ResultType& c) const return this->pmul(x, y) + c; }const LhsType& x, const RhsType& y) const return conj_if<ConjLhs>()(x) * conj_if<ConjRhs>()(y); }template <typename LhsScalar, typename RhsScalar>struct conj_helper<LhsScalar, RhsScalar, true , true > {typedef typename ScalarBinaryOpTraits<LhsScalar,RhsScalar>::ReturnType ResultType;const LhsScalar& x, const RhsScalar& y, const ResultType& c) const return this->pmul(x, y) + c; }// We save a conjuation by using the identity conj(a)*conj(b) = conj(a*b). const LhsScalar& x, const RhsScalar& y) const return numext::conj(x * y); }// Implementation with equal type, use packet operations. template <typename Packet, bool ConjLhs, bool ConjRhs>struct conj_helper<Packet, Packet, ConjLhs, ConjRhs>typedef Packet ResultType;const Packet& x, const Packet& y, const Packet& c) const return Eigen::internal::pmadd(conj_if<ConjLhs>().pconj(x), conj_if<ConjRhs>().pconj(y), c); }const Packet& x, const Packet& ;y) const return Eigen::internal::pmul(conj_if<ConjLhs>().pconj(x), conj_if<ConjRhs>().pconj(y)); }template <typename Packet>struct conj_helper<Packet, Packet, true , true >typedef Packet ResultType;const Packet& x, const Packet& y, const Packet& c) const return Eigen::internal::pmadd(pconj(x), pconj(y), c); }// We save a conjuation by using the identity conj(a)*conj(b) = conj(a*b). const Packet& x, const Packet& ;y) const return pconj(Eigen::internal::pmul(x, y)); }// namespace internal // namespace Eigen #endif // EIGEN_ARCH_CONJ_HELPER_H quality 100%
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