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Diffstat (limited to 'src/3rdparty/eigen/Eigen/src/Core/functors/NullaryFunctors.h')
-rw-r--r-- | src/3rdparty/eigen/Eigen/src/Core/functors/NullaryFunctors.h | 189 |
1 files changed, 189 insertions, 0 deletions
diff --git a/src/3rdparty/eigen/Eigen/src/Core/functors/NullaryFunctors.h b/src/3rdparty/eigen/Eigen/src/Core/functors/NullaryFunctors.h new file mode 100644 index 000000000..192f225dd --- /dev/null +++ b/src/3rdparty/eigen/Eigen/src/Core/functors/NullaryFunctors.h @@ -0,0 +1,189 @@ +// This file is part of Eigen, a lightweight C++ template library +// for linear algebra. +// +// Copyright (C) 2008-2016 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_NULLARY_FUNCTORS_H +#define EIGEN_NULLARY_FUNCTORS_H + +namespace Eigen { + +namespace internal { + +template<typename Scalar> +struct scalar_constant_op { + EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE scalar_constant_op(const scalar_constant_op& other) : m_other(other.m_other) { } + EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE scalar_constant_op(const Scalar& other) : m_other(other) { } + EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const Scalar operator() () const { return m_other; } + template<typename PacketType> + EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const PacketType packetOp() const { return internal::pset1<PacketType>(m_other); } + const Scalar m_other; +}; +template<typename Scalar> +struct functor_traits<scalar_constant_op<Scalar> > +{ enum { Cost = 0 /* as the constant value should be loaded in register only once for the whole expression */, + PacketAccess = packet_traits<Scalar>::Vectorizable, IsRepeatable = true }; }; + +template<typename Scalar> struct scalar_identity_op { + EIGEN_EMPTY_STRUCT_CTOR(scalar_identity_op) + template<typename IndexType> + EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const Scalar operator() (IndexType row, IndexType col) const { return row==col ? Scalar(1) : Scalar(0); } +}; +template<typename Scalar> +struct functor_traits<scalar_identity_op<Scalar> > +{ enum { Cost = NumTraits<Scalar>::AddCost, PacketAccess = false, IsRepeatable = true }; }; + +template <typename Scalar, bool IsInteger> struct linspaced_op_impl; + +template <typename Scalar> +struct linspaced_op_impl<Scalar,/*IsInteger*/false> +{ + typedef typename NumTraits<Scalar>::Real RealScalar; + + EIGEN_DEVICE_FUNC linspaced_op_impl(const Scalar& low, const Scalar& high, Index num_steps) : + m_low(low), m_high(high), m_size1(num_steps==1 ? 1 : num_steps-1), m_step(num_steps==1 ? Scalar() : Scalar((high-low)/RealScalar(num_steps-1))), + m_flip(numext::abs(high)<numext::abs(low)) + {} + + template<typename IndexType> + EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const Scalar operator() (IndexType i) const { + if(m_flip) + return (i==0)? m_low : Scalar(m_high - RealScalar(m_size1-i)*m_step); + else + return (i==m_size1)? m_high : Scalar(m_low + RealScalar(i)*m_step); + } + + template<typename Packet, typename IndexType> + EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const Packet packetOp(IndexType i) const + { + // Principle: + // [low, ..., low] + ( [step, ..., step] * ( [i, ..., i] + [0, ..., size] ) ) + if(m_flip) + { + Packet pi = plset<Packet>(Scalar(i-m_size1)); + Packet res = padd(pset1<Packet>(m_high), pmul(pset1<Packet>(m_step), pi)); + if (EIGEN_PREDICT_TRUE(i != 0)) return res; + Packet mask = pcmp_lt(pset1<Packet>(0), plset<Packet>(0)); + return pselect<Packet>(mask, res, pset1<Packet>(m_low)); + } + else + { + Packet pi = plset<Packet>(Scalar(i)); + Packet res = padd(pset1<Packet>(m_low), pmul(pset1<Packet>(m_step), pi)); + if(EIGEN_PREDICT_TRUE(i != m_size1-unpacket_traits<Packet>::size+1)) return res; + Packet mask = pcmp_lt(plset<Packet>(0), pset1<Packet>(unpacket_traits<Packet>::size-1)); + return pselect<Packet>(mask, res, pset1<Packet>(m_high)); + } + } + + const Scalar m_low; + const Scalar m_high; + const Index m_size1; + const Scalar m_step; + const bool m_flip; +}; + +template <typename Scalar> +struct linspaced_op_impl<Scalar,/*IsInteger*/true> +{ + EIGEN_DEVICE_FUNC linspaced_op_impl(const Scalar& low, const Scalar& high, Index num_steps) : + m_low(low), + m_multiplier((high-low)/convert_index<Scalar>(num_steps<=1 ? 1 : num_steps-1)), + m_divisor(convert_index<Scalar>((high>=low?num_steps:-num_steps)+(high-low))/((numext::abs(high-low)+1)==0?1:(numext::abs(high-low)+1))), + m_use_divisor(num_steps>1 && (numext::abs(high-low)+1)<num_steps) + {} + + template<typename IndexType> + EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE + const Scalar operator() (IndexType i) const + { + if(m_use_divisor) return m_low + convert_index<Scalar>(i)/m_divisor; + else return m_low + convert_index<Scalar>(i)*m_multiplier; + } + + const Scalar m_low; + const Scalar m_multiplier; + const Scalar m_divisor; + const bool m_use_divisor; +}; + +// ----- Linspace functor ---------------------------------------------------------------- + +// Forward declaration (we default to random access which does not really give +// us a speed gain when using packet access but it allows to use the functor in +// nested expressions). +template <typename Scalar> struct linspaced_op; +template <typename Scalar> struct functor_traits< linspaced_op<Scalar> > +{ + enum + { + Cost = 1, + PacketAccess = (!NumTraits<Scalar>::IsInteger) && packet_traits<Scalar>::HasSetLinear && packet_traits<Scalar>::HasBlend, + /*&& ((!NumTraits<Scalar>::IsInteger) || packet_traits<Scalar>::HasDiv),*/ // <- vectorization for integer is currently disabled + IsRepeatable = true + }; +}; +template <typename Scalar> struct linspaced_op +{ + EIGEN_DEVICE_FUNC linspaced_op(const Scalar& low, const Scalar& high, Index num_steps) + : impl((num_steps==1 ? high : low),high,num_steps) + {} + + template<typename IndexType> + EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const Scalar operator() (IndexType i) const { return impl(i); } + + template<typename Packet,typename IndexType> + EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const Packet packetOp(IndexType i) const { return impl.template packetOp<Packet>(i); } + + // This proxy object handles the actual required temporaries and the different + // implementations (integer vs. floating point). + const linspaced_op_impl<Scalar,NumTraits<Scalar>::IsInteger> impl; +}; + +// Linear access is automatically determined from the operator() prototypes available for the given functor. +// If it exposes an operator()(i,j), then we assume the i and j coefficients are required independently +// and linear access is not possible. In all other cases, linear access is enabled. +// Users should not have to deal with this structure. +template<typename Functor> struct functor_has_linear_access { enum { ret = !has_binary_operator<Functor>::value }; }; + +// For unreliable compilers, let's specialize the has_*ary_operator +// helpers so that at least built-in nullary functors work fine. +#if !( (EIGEN_COMP_MSVC>1600) || (EIGEN_GNUC_AT_LEAST(4,8)) || (EIGEN_COMP_ICC>=1600)) +template<typename Scalar,typename IndexType> +struct has_nullary_operator<scalar_constant_op<Scalar>,IndexType> { enum { value = 1}; }; +template<typename Scalar,typename IndexType> +struct has_unary_operator<scalar_constant_op<Scalar>,IndexType> { enum { value = 0}; }; +template<typename Scalar,typename IndexType> +struct has_binary_operator<scalar_constant_op<Scalar>,IndexType> { enum { value = 0}; }; + +template<typename Scalar,typename IndexType> +struct has_nullary_operator<scalar_identity_op<Scalar>,IndexType> { enum { value = 0}; }; +template<typename Scalar,typename IndexType> +struct has_unary_operator<scalar_identity_op<Scalar>,IndexType> { enum { value = 0}; }; +template<typename Scalar,typename IndexType> +struct has_binary_operator<scalar_identity_op<Scalar>,IndexType> { enum { value = 1}; }; + +template<typename Scalar,typename IndexType> +struct has_nullary_operator<linspaced_op<Scalar>,IndexType> { enum { value = 0}; }; +template<typename Scalar,typename IndexType> +struct has_unary_operator<linspaced_op<Scalar>,IndexType> { enum { value = 1}; }; +template<typename Scalar,typename IndexType> +struct has_binary_operator<linspaced_op<Scalar>,IndexType> { enum { value = 0}; }; + +template<typename Scalar,typename IndexType> +struct has_nullary_operator<scalar_random_op<Scalar>,IndexType> { enum { value = 1}; }; +template<typename Scalar,typename IndexType> +struct has_unary_operator<scalar_random_op<Scalar>,IndexType> { enum { value = 0}; }; +template<typename Scalar,typename IndexType> +struct has_binary_operator<scalar_random_op<Scalar>,IndexType> { enum { value = 0}; }; +#endif + +} // end namespace internal + +} // end namespace Eigen + +#endif // EIGEN_NULLARY_FUNCTORS_H |