diff options
Diffstat (limited to 'extern/Eigen3/Eigen/src/SparseCore/SparseDenseProduct.h')
-rw-r--r-- | extern/Eigen3/Eigen/src/SparseCore/SparseDenseProduct.h | 417 |
1 files changed, 213 insertions, 204 deletions
diff --git a/extern/Eigen3/Eigen/src/SparseCore/SparseDenseProduct.h b/extern/Eigen3/Eigen/src/SparseCore/SparseDenseProduct.h index ccb6ae7b788..0547db59689 100644 --- a/extern/Eigen3/Eigen/src/SparseCore/SparseDenseProduct.h +++ b/extern/Eigen3/Eigen/src/SparseCore/SparseDenseProduct.h @@ -1,7 +1,7 @@ // This file is part of Eigen, a lightweight C++ template library // for linear algebra. // -// Copyright (C) 2008-2010 Gael Guennebaud <gael.guennebaud@inria.fr> +// Copyright (C) 2008-2015 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 @@ -12,196 +12,93 @@ namespace Eigen { -template<typename Lhs, typename Rhs, int InnerSize> struct SparseDenseProductReturnType -{ - typedef SparseTimeDenseProduct<Lhs,Rhs> Type; -}; - -template<typename Lhs, typename Rhs> struct SparseDenseProductReturnType<Lhs,Rhs,1> -{ - typedef typename internal::conditional< - Lhs::IsRowMajor, - SparseDenseOuterProduct<Rhs,Lhs,true>, - SparseDenseOuterProduct<Lhs,Rhs,false> >::type Type; -}; - -template<typename Lhs, typename Rhs, int InnerSize> struct DenseSparseProductReturnType -{ - typedef DenseTimeSparseProduct<Lhs,Rhs> Type; -}; - -template<typename Lhs, typename Rhs> struct DenseSparseProductReturnType<Lhs,Rhs,1> -{ - typedef typename internal::conditional< - Rhs::IsRowMajor, - SparseDenseOuterProduct<Rhs,Lhs,true>, - SparseDenseOuterProduct<Lhs,Rhs,false> >::type Type; -}; - namespace internal { -template<typename Lhs, typename Rhs, bool Tr> -struct traits<SparseDenseOuterProduct<Lhs,Rhs,Tr> > -{ - typedef Sparse StorageKind; - typedef typename scalar_product_traits<typename traits<Lhs>::Scalar, - typename traits<Rhs>::Scalar>::ReturnType Scalar; - typedef typename Lhs::Index Index; - typedef typename Lhs::Nested LhsNested; - typedef typename Rhs::Nested RhsNested; - typedef typename remove_all<LhsNested>::type _LhsNested; - typedef typename remove_all<RhsNested>::type _RhsNested; - - enum { - LhsCoeffReadCost = traits<_LhsNested>::CoeffReadCost, - RhsCoeffReadCost = traits<_RhsNested>::CoeffReadCost, - - RowsAtCompileTime = Tr ? int(traits<Rhs>::RowsAtCompileTime) : int(traits<Lhs>::RowsAtCompileTime), - ColsAtCompileTime = Tr ? int(traits<Lhs>::ColsAtCompileTime) : int(traits<Rhs>::ColsAtCompileTime), - MaxRowsAtCompileTime = Tr ? int(traits<Rhs>::MaxRowsAtCompileTime) : int(traits<Lhs>::MaxRowsAtCompileTime), - MaxColsAtCompileTime = Tr ? int(traits<Lhs>::MaxColsAtCompileTime) : int(traits<Rhs>::MaxColsAtCompileTime), - - Flags = Tr ? RowMajorBit : 0, - - CoeffReadCost = LhsCoeffReadCost + RhsCoeffReadCost + NumTraits<Scalar>::MulCost - }; -}; - -} // end namespace internal - -template<typename Lhs, typename Rhs, bool Tr> -class SparseDenseOuterProduct - : public SparseMatrixBase<SparseDenseOuterProduct<Lhs,Rhs,Tr> > -{ - public: - - typedef SparseMatrixBase<SparseDenseOuterProduct> Base; - EIGEN_DENSE_PUBLIC_INTERFACE(SparseDenseOuterProduct) - typedef internal::traits<SparseDenseOuterProduct> Traits; - - private: - - typedef typename Traits::LhsNested LhsNested; - typedef typename Traits::RhsNested RhsNested; - typedef typename Traits::_LhsNested _LhsNested; - typedef typename Traits::_RhsNested _RhsNested; - - public: - - class InnerIterator; - - EIGEN_STRONG_INLINE SparseDenseOuterProduct(const Lhs& lhs, const Rhs& rhs) - : m_lhs(lhs), m_rhs(rhs) - { - EIGEN_STATIC_ASSERT(!Tr,YOU_MADE_A_PROGRAMMING_MISTAKE); - } - - EIGEN_STRONG_INLINE SparseDenseOuterProduct(const Rhs& rhs, const Lhs& lhs) - : m_lhs(lhs), m_rhs(rhs) - { - EIGEN_STATIC_ASSERT(Tr,YOU_MADE_A_PROGRAMMING_MISTAKE); - } - - EIGEN_STRONG_INLINE Index rows() const { return Tr ? m_rhs.rows() : m_lhs.rows(); } - EIGEN_STRONG_INLINE Index cols() const { return Tr ? m_lhs.cols() : m_rhs.cols(); } - - EIGEN_STRONG_INLINE const _LhsNested& lhs() const { return m_lhs; } - EIGEN_STRONG_INLINE const _RhsNested& rhs() const { return m_rhs; } - - protected: - LhsNested m_lhs; - RhsNested m_rhs; -}; - -template<typename Lhs, typename Rhs, bool Transpose> -class SparseDenseOuterProduct<Lhs,Rhs,Transpose>::InnerIterator : public _LhsNested::InnerIterator -{ - typedef typename _LhsNested::InnerIterator Base; - typedef typename SparseDenseOuterProduct::Index Index; - public: - EIGEN_STRONG_INLINE InnerIterator(const SparseDenseOuterProduct& prod, Index outer) - : Base(prod.lhs(), 0), m_outer(outer), m_factor(get(prod.rhs(), outer, typename internal::traits<Rhs>::StorageKind() )) - { } - - inline Index outer() const { return m_outer; } - inline Index row() const { return Transpose ? m_outer : Base::index(); } - inline Index col() const { return Transpose ? Base::index() : m_outer; } - - inline Scalar value() const { return Base::value() * m_factor; } - - protected: - static Scalar get(const _RhsNested &rhs, Index outer, Dense = Dense()) - { - return rhs.coeff(outer); - } - - static Scalar get(const _RhsNested &rhs, Index outer, Sparse = Sparse()) - { - typename Traits::_RhsNested::InnerIterator it(rhs, outer); - if (it && it.index()==0) - return it.value(); - - return Scalar(0); - } - - Index m_outer; - Scalar m_factor; -}; - -namespace internal { -template<typename Lhs, typename Rhs> -struct traits<SparseTimeDenseProduct<Lhs,Rhs> > - : traits<ProductBase<SparseTimeDenseProduct<Lhs,Rhs>, Lhs, Rhs> > -{ - typedef Dense StorageKind; - typedef MatrixXpr XprKind; -}; +template <> struct product_promote_storage_type<Sparse,Dense, OuterProduct> { typedef Sparse ret; }; +template <> struct product_promote_storage_type<Dense,Sparse, OuterProduct> { typedef Sparse ret; }; template<typename SparseLhsType, typename DenseRhsType, typename DenseResType, + typename AlphaType, int LhsStorageOrder = ((SparseLhsType::Flags&RowMajorBit)==RowMajorBit) ? RowMajor : ColMajor, bool ColPerCol = ((DenseRhsType::Flags&RowMajorBit)==0) || DenseRhsType::ColsAtCompileTime==1> struct sparse_time_dense_product_impl; template<typename SparseLhsType, typename DenseRhsType, typename DenseResType> -struct sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, RowMajor, true> +struct sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, typename DenseResType::Scalar, RowMajor, true> { typedef typename internal::remove_all<SparseLhsType>::type Lhs; typedef typename internal::remove_all<DenseRhsType>::type Rhs; typedef typename internal::remove_all<DenseResType>::type Res; - typedef typename Lhs::Index Index; - typedef typename Lhs::InnerIterator LhsInnerIterator; + typedef typename evaluator<Lhs>::InnerIterator LhsInnerIterator; + typedef evaluator<Lhs> LhsEval; static void run(const SparseLhsType& lhs, const DenseRhsType& rhs, DenseResType& res, const typename Res::Scalar& alpha) { + LhsEval lhsEval(lhs); + + Index n = lhs.outerSize(); +#ifdef EIGEN_HAS_OPENMP + Eigen::initParallel(); + Index threads = Eigen::nbThreads(); +#endif + for(Index c=0; c<rhs.cols(); ++c) { - Index n = lhs.outerSize(); - for(Index j=0; j<n; ++j) +#ifdef EIGEN_HAS_OPENMP + // This 20000 threshold has been found experimentally on 2D and 3D Poisson problems. + // It basically represents the minimal amount of work to be done to be worth it. + if(threads>1 && lhsEval.nonZerosEstimate() > 20000) + { + #pragma omp parallel for schedule(dynamic,(n+threads*4-1)/(threads*4)) num_threads(threads) + for(Index i=0; i<n; ++i) + processRow(lhsEval,rhs,res,alpha,i,c); + } + else +#endif { - typename Res::Scalar tmp(0); - for(LhsInnerIterator it(lhs,j); it ;++it) - tmp += it.value() * rhs.coeff(it.index(),c); - res.coeffRef(j,c) += alpha * tmp; + for(Index i=0; i<n; ++i) + processRow(lhsEval,rhs,res,alpha,i,c); } } } + + static void processRow(const LhsEval& lhsEval, const DenseRhsType& rhs, DenseResType& res, const typename Res::Scalar& alpha, Index i, Index col) + { + typename Res::Scalar tmp(0); + for(LhsInnerIterator it(lhsEval,i); it ;++it) + tmp += it.value() * rhs.coeff(it.index(),col); + res.coeffRef(i,col) += alpha * tmp; + } + }; -template<typename SparseLhsType, typename DenseRhsType, typename DenseResType> -struct sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, ColMajor, true> +// FIXME: what is the purpose of the following specialization? Is it for the BlockedSparse format? +// -> let's disable it for now as it is conflicting with generic scalar*matrix and matrix*scalar operators +// template<typename T1, typename T2/*, int _Options, typename _StrideType*/> +// struct ScalarBinaryOpTraits<T1, Ref<T2/*, _Options, _StrideType*/> > +// { +// enum { +// Defined = 1 +// }; +// typedef typename CwiseUnaryOp<scalar_multiple2_op<T1, typename T2::Scalar>, T2>::PlainObject ReturnType; +// }; + +template<typename SparseLhsType, typename DenseRhsType, typename DenseResType, typename AlphaType> +struct sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, AlphaType, ColMajor, true> { typedef typename internal::remove_all<SparseLhsType>::type Lhs; typedef typename internal::remove_all<DenseRhsType>::type Rhs; typedef typename internal::remove_all<DenseResType>::type Res; - typedef typename Lhs::InnerIterator LhsInnerIterator; - typedef typename Lhs::Index Index; - static void run(const SparseLhsType& lhs, const DenseRhsType& rhs, DenseResType& res, const typename Res::Scalar& alpha) + typedef typename evaluator<Lhs>::InnerIterator LhsInnerIterator; + static void run(const SparseLhsType& lhs, const DenseRhsType& rhs, DenseResType& res, const AlphaType& alpha) { + evaluator<Lhs> lhsEval(lhs); for(Index c=0; c<rhs.cols(); ++c) { for(Index j=0; j<lhs.outerSize(); ++j) { - typename Res::Scalar rhs_j = alpha * rhs.coeff(j,c); - for(LhsInnerIterator it(lhs,j); it ;++it) +// typename Res::Scalar rhs_j = alpha * rhs.coeff(j,c); + typename ScalarBinaryOpTraits<AlphaType, typename Rhs::Scalar>::ReturnType rhs_j(alpha * rhs.coeff(j,c)); + for(LhsInnerIterator it(lhsEval,j); it ;++it) res.coeffRef(it.index(),c) += it.value() * rhs_j; } } @@ -209,38 +106,38 @@ struct sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, C }; template<typename SparseLhsType, typename DenseRhsType, typename DenseResType> -struct sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, RowMajor, false> +struct sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, typename DenseResType::Scalar, RowMajor, false> { typedef typename internal::remove_all<SparseLhsType>::type Lhs; typedef typename internal::remove_all<DenseRhsType>::type Rhs; typedef typename internal::remove_all<DenseResType>::type Res; - typedef typename Lhs::InnerIterator LhsInnerIterator; - typedef typename Lhs::Index Index; + typedef typename evaluator<Lhs>::InnerIterator LhsInnerIterator; static void run(const SparseLhsType& lhs, const DenseRhsType& rhs, DenseResType& res, const typename Res::Scalar& alpha) { + evaluator<Lhs> lhsEval(lhs); for(Index j=0; j<lhs.outerSize(); ++j) { typename Res::RowXpr res_j(res.row(j)); - for(LhsInnerIterator it(lhs,j); it ;++it) + for(LhsInnerIterator it(lhsEval,j); it ;++it) res_j += (alpha*it.value()) * rhs.row(it.index()); } } }; template<typename SparseLhsType, typename DenseRhsType, typename DenseResType> -struct sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, ColMajor, false> +struct sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, typename DenseResType::Scalar, ColMajor, false> { typedef typename internal::remove_all<SparseLhsType>::type Lhs; typedef typename internal::remove_all<DenseRhsType>::type Rhs; typedef typename internal::remove_all<DenseResType>::type Res; - typedef typename Lhs::InnerIterator LhsInnerIterator; - typedef typename Lhs::Index Index; + typedef typename evaluator<Lhs>::InnerIterator LhsInnerIterator; static void run(const SparseLhsType& lhs, const DenseRhsType& rhs, DenseResType& res, const typename Res::Scalar& alpha) { + evaluator<Lhs> lhsEval(lhs); for(Index j=0; j<lhs.outerSize(); ++j) { typename Rhs::ConstRowXpr rhs_j(rhs.row(j)); - for(LhsInnerIterator it(lhs,j); it ;++it) + for(LhsInnerIterator it(lhsEval,j); it ;++it) res.row(it.index()) += (alpha*it.value()) * rhs_j; } } @@ -249,63 +146,175 @@ struct sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, C template<typename SparseLhsType, typename DenseRhsType, typename DenseResType,typename AlphaType> inline void sparse_time_dense_product(const SparseLhsType& lhs, const DenseRhsType& rhs, DenseResType& res, const AlphaType& alpha) { - sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType>::run(lhs, rhs, res, alpha); + sparse_time_dense_product_impl<SparseLhsType,DenseRhsType,DenseResType, AlphaType>::run(lhs, rhs, res, alpha); } } // end namespace internal -template<typename Lhs, typename Rhs> -class SparseTimeDenseProduct - : public ProductBase<SparseTimeDenseProduct<Lhs,Rhs>, Lhs, Rhs> -{ - public: - EIGEN_PRODUCT_PUBLIC_INTERFACE(SparseTimeDenseProduct) - - SparseTimeDenseProduct(const Lhs& lhs, const Rhs& rhs) : Base(lhs,rhs) - {} - - template<typename Dest> void scaleAndAddTo(Dest& dest, const Scalar& alpha) const - { - internal::sparse_time_dense_product(m_lhs, m_rhs, dest, alpha); - } +namespace internal { - private: - SparseTimeDenseProduct& operator=(const SparseTimeDenseProduct&); +template<typename Lhs, typename Rhs, int ProductType> +struct generic_product_impl<Lhs, Rhs, SparseShape, DenseShape, ProductType> + : generic_product_impl_base<Lhs,Rhs,generic_product_impl<Lhs,Rhs,SparseShape,DenseShape,ProductType> > +{ + typedef typename Product<Lhs,Rhs>::Scalar Scalar; + + template<typename Dest> + static void scaleAndAddTo(Dest& dst, const Lhs& lhs, const Rhs& rhs, const Scalar& alpha) + { + typedef typename nested_eval<Lhs,((Rhs::Flags&RowMajorBit)==0) ? 1 : Rhs::ColsAtCompileTime>::type LhsNested; + typedef typename nested_eval<Rhs,((Lhs::Flags&RowMajorBit)==0) ? 1 : Dynamic>::type RhsNested; + LhsNested lhsNested(lhs); + RhsNested rhsNested(rhs); + internal::sparse_time_dense_product(lhsNested, rhsNested, dst, alpha); + } }; +template<typename Lhs, typename Rhs, int ProductType> +struct generic_product_impl<Lhs, Rhs, SparseTriangularShape, DenseShape, ProductType> + : generic_product_impl<Lhs, Rhs, SparseShape, DenseShape, ProductType> +{}; -// dense = dense * sparse -namespace internal { -template<typename Lhs, typename Rhs> -struct traits<DenseTimeSparseProduct<Lhs,Rhs> > - : traits<ProductBase<DenseTimeSparseProduct<Lhs,Rhs>, Lhs, Rhs> > +template<typename Lhs, typename Rhs, int ProductType> +struct generic_product_impl<Lhs, Rhs, DenseShape, SparseShape, ProductType> + : generic_product_impl_base<Lhs,Rhs,generic_product_impl<Lhs,Rhs,DenseShape,SparseShape,ProductType> > { - typedef Dense StorageKind; + typedef typename Product<Lhs,Rhs>::Scalar Scalar; + + template<typename Dst> + static void scaleAndAddTo(Dst& dst, const Lhs& lhs, const Rhs& rhs, const Scalar& alpha) + { + typedef typename nested_eval<Lhs,((Rhs::Flags&RowMajorBit)==0) ? Dynamic : 1>::type LhsNested; + typedef typename nested_eval<Rhs,((Lhs::Flags&RowMajorBit)==RowMajorBit) ? 1 : Lhs::RowsAtCompileTime>::type RhsNested; + LhsNested lhsNested(lhs); + RhsNested rhsNested(rhs); + + // transpose everything + Transpose<Dst> dstT(dst); + internal::sparse_time_dense_product(rhsNested.transpose(), lhsNested.transpose(), dstT, alpha); + } }; -} // end namespace internal -template<typename Lhs, typename Rhs> -class DenseTimeSparseProduct - : public ProductBase<DenseTimeSparseProduct<Lhs,Rhs>, Lhs, Rhs> +template<typename Lhs, typename Rhs, int ProductType> +struct generic_product_impl<Lhs, Rhs, DenseShape, SparseTriangularShape, ProductType> + : generic_product_impl<Lhs, Rhs, DenseShape, SparseShape, ProductType> +{}; + +template<typename LhsT, typename RhsT, bool NeedToTranspose> +struct sparse_dense_outer_product_evaluator { +protected: + typedef typename conditional<NeedToTranspose,RhsT,LhsT>::type Lhs1; + typedef typename conditional<NeedToTranspose,LhsT,RhsT>::type ActualRhs; + typedef Product<LhsT,RhsT,DefaultProduct> ProdXprType; + + // if the actual left-hand side is a dense vector, + // then build a sparse-view so that we can seamlessly iterate over it. + typedef typename conditional<is_same<typename internal::traits<Lhs1>::StorageKind,Sparse>::value, + Lhs1, SparseView<Lhs1> >::type ActualLhs; + typedef typename conditional<is_same<typename internal::traits<Lhs1>::StorageKind,Sparse>::value, + Lhs1 const&, SparseView<Lhs1> >::type LhsArg; + + typedef evaluator<ActualLhs> LhsEval; + typedef evaluator<ActualRhs> RhsEval; + typedef typename evaluator<ActualLhs>::InnerIterator LhsIterator; + typedef typename ProdXprType::Scalar Scalar; + +public: + enum { + Flags = NeedToTranspose ? RowMajorBit : 0, + CoeffReadCost = HugeCost + }; + + class InnerIterator : public LhsIterator + { public: - EIGEN_PRODUCT_PUBLIC_INTERFACE(DenseTimeSparseProduct) - - DenseTimeSparseProduct(const Lhs& lhs, const Rhs& rhs) : Base(lhs,rhs) + InnerIterator(const sparse_dense_outer_product_evaluator &xprEval, Index outer) + : LhsIterator(xprEval.m_lhsXprImpl, 0), + m_outer(outer), + m_empty(false), + m_factor(get(xprEval.m_rhsXprImpl, outer, typename internal::traits<ActualRhs>::StorageKind() )) {} + + EIGEN_STRONG_INLINE Index outer() const { return m_outer; } + EIGEN_STRONG_INLINE Index row() const { return NeedToTranspose ? m_outer : LhsIterator::index(); } + EIGEN_STRONG_INLINE Index col() const { return NeedToTranspose ? LhsIterator::index() : m_outer; } - template<typename Dest> void scaleAndAddTo(Dest& dest, const Scalar& alpha) const + EIGEN_STRONG_INLINE Scalar value() const { return LhsIterator::value() * m_factor; } + EIGEN_STRONG_INLINE operator bool() const { return LhsIterator::operator bool() && (!m_empty); } + + protected: + Scalar get(const RhsEval &rhs, Index outer, Dense = Dense()) const + { + return rhs.coeff(outer); + } + + Scalar get(const RhsEval &rhs, Index outer, Sparse = Sparse()) { - Transpose<const _LhsNested> lhs_t(m_lhs); - Transpose<const _RhsNested> rhs_t(m_rhs); - Transpose<Dest> dest_t(dest); - internal::sparse_time_dense_product(rhs_t, lhs_t, dest_t, alpha); + typename RhsEval::InnerIterator it(rhs, outer); + if (it && it.index()==0 && it.value()!=Scalar(0)) + return it.value(); + m_empty = true; + return Scalar(0); } + + Index m_outer; + bool m_empty; + Scalar m_factor; + }; + + sparse_dense_outer_product_evaluator(const Lhs1 &lhs, const ActualRhs &rhs) + : m_lhs(lhs), m_lhsXprImpl(m_lhs), m_rhsXprImpl(rhs) + { + EIGEN_INTERNAL_CHECK_COST_VALUE(CoeffReadCost); + } + + // transpose case + sparse_dense_outer_product_evaluator(const ActualRhs &rhs, const Lhs1 &lhs) + : m_lhs(lhs), m_lhsXprImpl(m_lhs), m_rhsXprImpl(rhs) + { + EIGEN_INTERNAL_CHECK_COST_VALUE(CoeffReadCost); + } + +protected: + const LhsArg m_lhs; + evaluator<ActualLhs> m_lhsXprImpl; + evaluator<ActualRhs> m_rhsXprImpl; +}; - private: - DenseTimeSparseProduct& operator=(const DenseTimeSparseProduct&); +// sparse * dense outer product +template<typename Lhs, typename Rhs> +struct product_evaluator<Product<Lhs, Rhs, DefaultProduct>, OuterProduct, SparseShape, DenseShape> + : sparse_dense_outer_product_evaluator<Lhs,Rhs, Lhs::IsRowMajor> +{ + typedef sparse_dense_outer_product_evaluator<Lhs,Rhs, Lhs::IsRowMajor> Base; + + typedef Product<Lhs, Rhs> XprType; + typedef typename XprType::PlainObject PlainObject; + + explicit product_evaluator(const XprType& xpr) + : Base(xpr.lhs(), xpr.rhs()) + {} + }; +template<typename Lhs, typename Rhs> +struct product_evaluator<Product<Lhs, Rhs, DefaultProduct>, OuterProduct, DenseShape, SparseShape> + : sparse_dense_outer_product_evaluator<Lhs,Rhs, Rhs::IsRowMajor> +{ + typedef sparse_dense_outer_product_evaluator<Lhs,Rhs, Rhs::IsRowMajor> Base; + + typedef Product<Lhs, Rhs> XprType; + typedef typename XprType::PlainObject PlainObject; + + explicit product_evaluator(const XprType& xpr) + : Base(xpr.lhs(), xpr.rhs()) + {} + +}; + +} // end namespace internal + } // end namespace Eigen #endif // EIGEN_SPARSEDENSEPRODUCT_H |