Eigen/src/SparseCore/SparseCwiseBinaryOp.h - mirror - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2008-2014 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_SPARSE_CWISE_BINARY_OP_H
 #define EIGEN_SPARSE_CWISE_BINARY_OP_H

 namespace Eigen {

 // Here we have to handle 3 cases:
 //  1 - sparse op dense
 //  2 - dense op sparse
 //  3 - sparse op sparse
 // We also need to implement a 4th iterator for:
 //  4 - dense op dense
 // Finally, we also need to distinguish between the product and other operations :
 //                configuration      returned mode
 //  1 - sparse op dense    product      sparse
 //                         generic      dense
 //  2 - dense op sparse    product      sparse
 //                         generic      dense
 //  3 - sparse op sparse   product      sparse
 //                         generic      sparse
 //  4 - dense op dense     product      dense
 //                         generic      dense

 namespace internal {

 template<typename BinaryOp, typename Lhs, typename Rhs, typename Derived,
   typename _LhsStorageMode = typename traits<Lhs>::StorageKind,
   typename _RhsStorageMode = typename traits<Rhs>::StorageKind>
 class sparse_cwise_binary_op_inner_iterator_selector;

 } // end namespace internal

 namespace internal {


 // Generic "sparse OP sparse"
 template<typename BinaryOp, typename Lhs, typename Rhs>
 struct binary_evaluator<CwiseBinaryOp<BinaryOp, Lhs, Rhs>, IteratorBased, IteratorBased>
   : evaluator_base<CwiseBinaryOp<BinaryOp, Lhs, Rhs> >
 {
 protected:
   typedef typename evaluator<Lhs>::InnerIterator  LhsIterator;
   typedef typename evaluator<Rhs>::InnerIterator  RhsIterator;
 public:
   typedef CwiseBinaryOp<BinaryOp, Lhs, Rhs> XprType;

   class ReverseInnerIterator;
   class InnerIterator
   {
     typedef typename traits<XprType>::Scalar Scalar;
     typedef typename XprType::Index Index;

   public:

     EIGEN_STRONG_INLINE InnerIterator(const binary_evaluator& aEval, Index outer)
       : m_lhsIter(aEval.m_lhsImpl,outer), m_rhsIter(aEval.m_rhsImpl,outer), m_functor(aEval.m_functor)
     {
       this->operator++();
     }

     EIGEN_STRONG_INLINE InnerIterator& operator++()
     {
       if (m_lhsIter && m_rhsIter && (m_lhsIter.index() == m_rhsIter.index()))
       {
         m_id = m_lhsIter.index();
         m_value = m_functor(m_lhsIter.value(), m_rhsIter.value());
         ++m_lhsIter;
         ++m_rhsIter;
       }
       else if (m_lhsIter && (!m_rhsIter || (m_lhsIter.index() < m_rhsIter.index())))
       {
         m_id = m_lhsIter.index();
         m_value = m_functor(m_lhsIter.value(), Scalar(0));
         ++m_lhsIter;
       }
       else if (m_rhsIter && (!m_lhsIter || (m_lhsIter.index() > m_rhsIter.index())))
       {
         m_id = m_rhsIter.index();
         m_value = m_functor(Scalar(0), m_rhsIter.value());
         ++m_rhsIter;
       }
       else
       {
         m_value = 0; // this is to avoid a compilation warning
         m_id = -1;
       }
       return *this;
     }

     EIGEN_STRONG_INLINE Scalar value() const { return m_value; }

     EIGEN_STRONG_INLINE Index index() const { return m_id; }
     EIGEN_STRONG_INLINE Index row() const { return Lhs::IsRowMajor ? m_lhsIter.row() : index(); }
     EIGEN_STRONG_INLINE Index col() const { return Lhs::IsRowMajor ? index() : m_lhsIter.col(); }

     EIGEN_STRONG_INLINE operator bool() const { return m_id>=0; }

   protected:
     LhsIterator m_lhsIter;
     RhsIterator m_rhsIter;
     const BinaryOp& m_functor;
     Scalar m_value;
     Index m_id;
   };


   enum {
     CoeffReadCost = evaluator<Lhs>::CoeffReadCost + evaluator<Rhs>::CoeffReadCost + functor_traits<BinaryOp>::Cost,
     Flags = XprType::Flags
   };

   explicit binary_evaluator(const XprType& xpr)
     : m_functor(xpr.functor()),
       m_lhsImpl(xpr.lhs()),
       m_rhsImpl(xpr.rhs())
   { }

 protected:
   const BinaryOp m_functor;
   typename evaluator<Lhs>::nestedType m_lhsImpl;
   typename evaluator<Rhs>::nestedType m_rhsImpl;
 };

 // "sparse .* sparse"
 template<typename T, typename Lhs, typename Rhs>
 struct binary_evaluator<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs>, IteratorBased, IteratorBased>
   : evaluator_base<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs> >
 {
 protected:
   typedef scalar_product_op<T> BinaryOp;
   typedef typename evaluator<Lhs>::InnerIterator  LhsIterator;
   typedef typename evaluator<Rhs>::InnerIterator  RhsIterator;
 public:
   typedef CwiseBinaryOp<BinaryOp, Lhs, Rhs> XprType;

   class ReverseInnerIterator;
   class InnerIterator
   {
     typedef typename traits<XprType>::Scalar Scalar;
     typedef typename XprType::Index Index;

   public:

     EIGEN_STRONG_INLINE InnerIterator(const binary_evaluator& aEval, Index outer)
       : m_lhsIter(aEval.m_lhsImpl,outer), m_rhsIter(aEval.m_rhsImpl,outer), m_functor(aEval.m_functor)
     {
       while (m_lhsIter && m_rhsIter && (m_lhsIter.index() != m_rhsIter.index()))
       {
         if (m_lhsIter.index() < m_rhsIter.index())
           ++m_lhsIter;
         else
           ++m_rhsIter;
       }
     }

     EIGEN_STRONG_INLINE InnerIterator& operator++()
     {
       ++m_lhsIter;
       ++m_rhsIter;
       while (m_lhsIter && m_rhsIter && (m_lhsIter.index() != m_rhsIter.index()))
       {
         if (m_lhsIter.index() < m_rhsIter.index())
           ++m_lhsIter;
         else
           ++m_rhsIter;
       }
       return *this;
     }

     EIGEN_STRONG_INLINE Scalar value() const { return m_functor(m_lhsIter.value(), m_rhsIter.value()); }

     EIGEN_STRONG_INLINE Index index() const { return m_lhsIter.index(); }
     EIGEN_STRONG_INLINE Index row() const { return m_lhsIter.row(); }
     EIGEN_STRONG_INLINE Index col() const { return m_lhsIter.col(); }

     EIGEN_STRONG_INLINE operator bool() const { return (m_lhsIter && m_rhsIter); }

   protected:
     LhsIterator m_lhsIter;
     RhsIterator m_rhsIter;
     const BinaryOp& m_functor;
   };


   enum {
     CoeffReadCost = evaluator<Lhs>::CoeffReadCost + evaluator<Rhs>::CoeffReadCost + functor_traits<BinaryOp>::Cost,
     Flags = XprType::Flags
   };

   explicit binary_evaluator(const XprType& xpr)
     : m_functor(xpr.functor()),
       m_lhsImpl(xpr.lhs()),
       m_rhsImpl(xpr.rhs())
   { }

 protected:
   const BinaryOp m_functor;
   typename evaluator<Lhs>::nestedType m_lhsImpl;
   typename evaluator<Rhs>::nestedType m_rhsImpl;
 };

 // "dense .* sparse"
 template<typename T, typename Lhs, typename Rhs>
 struct binary_evaluator<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs>, IndexBased, IteratorBased>
   : evaluator_base<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs> >
 {
 protected:
   typedef scalar_product_op<T> BinaryOp;
   typedef typename evaluator<Lhs>::type  LhsEvaluator;
   typedef typename evaluator<Rhs>::InnerIterator  RhsIterator;
 public:
   typedef CwiseBinaryOp<BinaryOp, Lhs, Rhs> XprType;

   class ReverseInnerIterator;
   class InnerIterator
   {
     typedef typename traits<XprType>::Scalar Scalar;
     typedef typename XprType::Index Index;
     enum { IsRowMajor = (int(Rhs::Flags)&RowMajorBit)==RowMajorBit };

   public:

     EIGEN_STRONG_INLINE InnerIterator(const binary_evaluator& aEval, Index outer)
       : m_lhsEval(aEval.m_lhsImpl), m_rhsIter(aEval.m_rhsImpl,outer), m_functor(aEval.m_functor), m_outer(outer)
     {}

     EIGEN_STRONG_INLINE InnerIterator& operator++()
     {
       ++m_rhsIter;
       return *this;
     }

     EIGEN_STRONG_INLINE Scalar value() const
     { return m_functor(m_lhsEval.coeff(IsRowMajor?m_outer:m_rhsIter.index(),IsRowMajor?m_rhsIter.index():m_outer), m_rhsIter.value()); }

     EIGEN_STRONG_INLINE Index index() const { return m_rhsIter.index(); }
     EIGEN_STRONG_INLINE Index row() const { return m_rhsIter.row(); }
     EIGEN_STRONG_INLINE Index col() const { return m_rhsIter.col(); }

     EIGEN_STRONG_INLINE operator bool() const { return m_rhsIter; }

   protected:
     const LhsEvaluator &m_lhsEval;
     RhsIterator m_rhsIter;
     const BinaryOp& m_functor;
     const Index m_outer;
   };


   enum {
     CoeffReadCost = evaluator<Lhs>::CoeffReadCost + evaluator<Rhs>::CoeffReadCost + functor_traits<BinaryOp>::Cost,
     Flags = XprType::Flags
   };

   explicit binary_evaluator(const XprType& xpr)
     : m_functor(xpr.functor()),
       m_lhsImpl(xpr.lhs()),
       m_rhsImpl(xpr.rhs())
   { }

 protected:
   const BinaryOp m_functor;
   typename evaluator<Lhs>::nestedType m_lhsImpl;
   typename evaluator<Rhs>::nestedType m_rhsImpl;
 };

 // "sparse .* dense"
 template<typename T, typename Lhs, typename Rhs>
 struct binary_evaluator<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs>, IteratorBased, IndexBased>
   : evaluator_base<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs> >
 {
 protected:
   typedef scalar_product_op<T> BinaryOp;
   typedef typename evaluator<Lhs>::InnerIterator  LhsIterator;
   typedef typename evaluator<Rhs>::type  RhsEvaluator;
 public:
   typedef CwiseBinaryOp<BinaryOp, Lhs, Rhs> XprType;

   class ReverseInnerIterator;
   class InnerIterator
   {
     typedef typename traits<XprType>::Scalar Scalar;
     typedef typename XprType::Index Index;
     enum { IsRowMajor = (int(Lhs::Flags)&RowMajorBit)==RowMajorBit };

   public:

     EIGEN_STRONG_INLINE InnerIterator(const binary_evaluator& aEval, Index outer)
       : m_lhsIter(aEval.m_lhsImpl,outer), m_rhsEval(aEval.m_rhsImpl), m_functor(aEval.m_functor), m_outer(outer)
     {}

     EIGEN_STRONG_INLINE InnerIterator& operator++()
     {
       ++m_lhsIter;
       return *this;
     }

     EIGEN_STRONG_INLINE Scalar value() const
     { return m_functor(m_lhsIter.value(),
                        m_rhsEval.coeff(IsRowMajor?m_outer:m_lhsIter.index(),IsRowMajor?m_lhsIter.index():m_outer)); }

     EIGEN_STRONG_INLINE Index index() const { return m_lhsIter.index(); }
     EIGEN_STRONG_INLINE Index row() const { return m_lhsIter.row(); }
     EIGEN_STRONG_INLINE Index col() const { return m_lhsIter.col(); }

     EIGEN_STRONG_INLINE operator bool() const { return m_lhsIter; }

   protected:
     LhsIterator m_lhsIter;
     const RhsEvaluator &m_rhsEval;
     const BinaryOp& m_functor;
     const Index m_outer;
   };


   enum {
     CoeffReadCost = evaluator<Lhs>::CoeffReadCost + evaluator<Rhs>::CoeffReadCost + functor_traits<BinaryOp>::Cost,
     Flags = XprType::Flags
   };

   explicit binary_evaluator(const XprType& xpr)
     : m_functor(xpr.functor()),
       m_lhsImpl(xpr.lhs()),
       m_rhsImpl(xpr.rhs())
   { }

 protected:
   const BinaryOp m_functor;
   typename evaluator<Lhs>::nestedType m_lhsImpl;
   typename evaluator<Rhs>::nestedType m_rhsImpl;
 };

 }

 /***************************************************************************
 * Implementation of SparseMatrixBase and SparseCwise functions/operators
 ***************************************************************************/

 template<typename Derived>
 template<typename OtherDerived>
 EIGEN_STRONG_INLINE Derived &
 SparseMatrixBase<Derived>::operator-=(const SparseMatrixBase<OtherDerived> &other)
 {
   return derived() = derived() - other.derived();
 }

 template<typename Derived>
 template<typename OtherDerived>
 EIGEN_STRONG_INLINE Derived &
 SparseMatrixBase<Derived>::operator+=(const SparseMatrixBase<OtherDerived>& other)
 {
   return derived() = derived() + other.derived();
 }

 template<typename Derived>
 template<typename OtherDerived>
 EIGEN_STRONG_INLINE const EIGEN_SPARSE_CWISE_PRODUCT_RETURN_TYPE
 SparseMatrixBase<Derived>::cwiseProduct(const MatrixBase<OtherDerived> &other) const
 {
   return EIGEN_SPARSE_CWISE_PRODUCT_RETURN_TYPE(derived(), other.derived());
 }

 } // end namespace Eigen

 #endif // EIGEN_SPARSE_CWISE_BINARY_OP_H
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2008-2014 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_SPARSE_CWISE_BINARY_OP_H
	#define EIGEN_SPARSE_CWISE_BINARY_OP_H

	namespace Eigen {

	// Here we have to handle 3 cases:
	// 1 - sparse op dense
	// 2 - dense op sparse
	// 3 - sparse op sparse
	// We also need to implement a 4th iterator for:
	// 4 - dense op dense
	// Finally, we also need to distinguish between the product and other operations :
	// configuration returned mode
	// 1 - sparse op dense product sparse
	// generic dense
	// 2 - dense op sparse product sparse
	// generic dense
	// 3 - sparse op sparse product sparse
	// generic sparse
	// 4 - dense op dense product dense
	// generic dense

	namespace internal {

	template<typename BinaryOp, typename Lhs, typename Rhs, typename Derived,
	typename _LhsStorageMode = typename traits<Lhs>::StorageKind,
	typename _RhsStorageMode = typename traits<Rhs>::StorageKind>
	class sparse_cwise_binary_op_inner_iterator_selector;

	} // end namespace internal

	namespace internal {


	// Generic "sparse OP sparse"
	template<typename BinaryOp, typename Lhs, typename Rhs>
	struct binary_evaluator<CwiseBinaryOp<BinaryOp, Lhs, Rhs>, IteratorBased, IteratorBased>
	: evaluator_base<CwiseBinaryOp<BinaryOp, Lhs, Rhs> >
	{
	protected:
	typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
	typedef typename evaluator<Rhs>::InnerIterator RhsIterator;
	public:
	typedef CwiseBinaryOp<BinaryOp, Lhs, Rhs> XprType;

	class ReverseInnerIterator;
	class InnerIterator
	{
	typedef typename traits<XprType>::Scalar Scalar;
	typedef typename XprType::Index Index;

	public:

	EIGEN_STRONG_INLINE InnerIterator(const binary_evaluator& aEval, Index outer)
	: m_lhsIter(aEval.m_lhsImpl,outer), m_rhsIter(aEval.m_rhsImpl,outer), m_functor(aEval.m_functor)
	{
	this->operator++();
	}

	EIGEN_STRONG_INLINE InnerIterator& operator++()
	{
	if (m_lhsIter && m_rhsIter && (m_lhsIter.index() == m_rhsIter.index()))
	{
	m_id = m_lhsIter.index();
	m_value = m_functor(m_lhsIter.value(), m_rhsIter.value());
	++m_lhsIter;
	++m_rhsIter;
	}
	else if (m_lhsIter && (!m_rhsIter \|\| (m_lhsIter.index() < m_rhsIter.index())))
	{
	m_id = m_lhsIter.index();
	m_value = m_functor(m_lhsIter.value(), Scalar(0));
	++m_lhsIter;
	}
	else if (m_rhsIter && (!m_lhsIter \|\| (m_lhsIter.index() > m_rhsIter.index())))
	{
	m_id = m_rhsIter.index();
	m_value = m_functor(Scalar(0), m_rhsIter.value());
	++m_rhsIter;
	}
	else
	{
	m_value = 0; // this is to avoid a compilation warning
	m_id = -1;
	}
	return *this;
	}

	EIGEN_STRONG_INLINE Scalar value() const { return m_value; }

	EIGEN_STRONG_INLINE Index index() const { return m_id; }
	EIGEN_STRONG_INLINE Index row() const { return Lhs::IsRowMajor ? m_lhsIter.row() : index(); }
	EIGEN_STRONG_INLINE Index col() const { return Lhs::IsRowMajor ? index() : m_lhsIter.col(); }

	EIGEN_STRONG_INLINE operator bool() const { return m_id>=0; }

	protected:
	LhsIterator m_lhsIter;
	RhsIterator m_rhsIter;
	const BinaryOp& m_functor;
	Scalar m_value;
	Index m_id;
	};


	enum {
	CoeffReadCost = evaluator<Lhs>::CoeffReadCost + evaluator<Rhs>::CoeffReadCost + functor_traits<BinaryOp>::Cost,
	Flags = XprType::Flags
	};

	explicit binary_evaluator(const XprType& xpr)
	: m_functor(xpr.functor()),
	m_lhsImpl(xpr.lhs()),
	m_rhsImpl(xpr.rhs())
	{ }

	protected:
	const BinaryOp m_functor;
	typename evaluator<Lhs>::nestedType m_lhsImpl;
	typename evaluator<Rhs>::nestedType m_rhsImpl;
	};

	// "sparse .* sparse"
	template<typename T, typename Lhs, typename Rhs>
	struct binary_evaluator<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs>, IteratorBased, IteratorBased>
	: evaluator_base<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs> >
	{
	protected:
	typedef scalar_product_op<T> BinaryOp;
	typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
	typedef typename evaluator<Rhs>::InnerIterator RhsIterator;
	public:
	typedef CwiseBinaryOp<BinaryOp, Lhs, Rhs> XprType;

	class ReverseInnerIterator;
	class InnerIterator
	{
	typedef typename traits<XprType>::Scalar Scalar;
	typedef typename XprType::Index Index;

	public:

	EIGEN_STRONG_INLINE InnerIterator(const binary_evaluator& aEval, Index outer)
	: m_lhsIter(aEval.m_lhsImpl,outer), m_rhsIter(aEval.m_rhsImpl,outer), m_functor(aEval.m_functor)
	{
	while (m_lhsIter && m_rhsIter && (m_lhsIter.index() != m_rhsIter.index()))
	{
	if (m_lhsIter.index() < m_rhsIter.index())
	++m_lhsIter;
	else
	++m_rhsIter;
	}
	}

	EIGEN_STRONG_INLINE InnerIterator& operator++()
	{
	++m_lhsIter;
	++m_rhsIter;
	while (m_lhsIter && m_rhsIter && (m_lhsIter.index() != m_rhsIter.index()))
	{
	if (m_lhsIter.index() < m_rhsIter.index())
	++m_lhsIter;
	else
	++m_rhsIter;
	}
	return *this;
	}

	EIGEN_STRONG_INLINE Scalar value() const { return m_functor(m_lhsIter.value(), m_rhsIter.value()); }

	EIGEN_STRONG_INLINE Index index() const { return m_lhsIter.index(); }
	EIGEN_STRONG_INLINE Index row() const { return m_lhsIter.row(); }
	EIGEN_STRONG_INLINE Index col() const { return m_lhsIter.col(); }

	EIGEN_STRONG_INLINE operator bool() const { return (m_lhsIter && m_rhsIter); }

	protected:
	LhsIterator m_lhsIter;
	RhsIterator m_rhsIter;
	const BinaryOp& m_functor;
	};


	enum {
	CoeffReadCost = evaluator<Lhs>::CoeffReadCost + evaluator<Rhs>::CoeffReadCost + functor_traits<BinaryOp>::Cost,
	Flags = XprType::Flags
	};

	explicit binary_evaluator(const XprType& xpr)
	: m_functor(xpr.functor()),
	m_lhsImpl(xpr.lhs()),
	m_rhsImpl(xpr.rhs())
	{ }

	protected:
	const BinaryOp m_functor;
	typename evaluator<Lhs>::nestedType m_lhsImpl;
	typename evaluator<Rhs>::nestedType m_rhsImpl;
	};

	// "dense .* sparse"
	template<typename T, typename Lhs, typename Rhs>
	struct binary_evaluator<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs>, IndexBased, IteratorBased>
	: evaluator_base<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs> >
	{
	protected:
	typedef scalar_product_op<T> BinaryOp;
	typedef typename evaluator<Lhs>::type LhsEvaluator;
	typedef typename evaluator<Rhs>::InnerIterator RhsIterator;
	public:
	typedef CwiseBinaryOp<BinaryOp, Lhs, Rhs> XprType;

	class ReverseInnerIterator;
	class InnerIterator
	{
	typedef typename traits<XprType>::Scalar Scalar;
	typedef typename XprType::Index Index;
	enum { IsRowMajor = (int(Rhs::Flags)&RowMajorBit)==RowMajorBit };

	public:

	EIGEN_STRONG_INLINE InnerIterator(const binary_evaluator& aEval, Index outer)
	: m_lhsEval(aEval.m_lhsImpl), m_rhsIter(aEval.m_rhsImpl,outer), m_functor(aEval.m_functor), m_outer(outer)
	{}

	EIGEN_STRONG_INLINE InnerIterator& operator++()
	{
	++m_rhsIter;
	return *this;
	}

	EIGEN_STRONG_INLINE Scalar value() const
	{ return m_functor(m_lhsEval.coeff(IsRowMajor?m_outer:m_rhsIter.index(),IsRowMajor?m_rhsIter.index():m_outer), m_rhsIter.value()); }

	EIGEN_STRONG_INLINE Index index() const { return m_rhsIter.index(); }
	EIGEN_STRONG_INLINE Index row() const { return m_rhsIter.row(); }
	EIGEN_STRONG_INLINE Index col() const { return m_rhsIter.col(); }

	EIGEN_STRONG_INLINE operator bool() const { return m_rhsIter; }

	protected:
	const LhsEvaluator &m_lhsEval;
	RhsIterator m_rhsIter;
	const BinaryOp& m_functor;
	const Index m_outer;
	};


	enum {
	CoeffReadCost = evaluator<Lhs>::CoeffReadCost + evaluator<Rhs>::CoeffReadCost + functor_traits<BinaryOp>::Cost,
	Flags = XprType::Flags
	};

	explicit binary_evaluator(const XprType& xpr)
	: m_functor(xpr.functor()),
	m_lhsImpl(xpr.lhs()),
	m_rhsImpl(xpr.rhs())
	{ }

	protected:
	const BinaryOp m_functor;
	typename evaluator<Lhs>::nestedType m_lhsImpl;
	typename evaluator<Rhs>::nestedType m_rhsImpl;
	};

	// "sparse .* dense"
	template<typename T, typename Lhs, typename Rhs>
	struct binary_evaluator<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs>, IteratorBased, IndexBased>
	: evaluator_base<CwiseBinaryOp<scalar_product_op<T>, Lhs, Rhs> >
	{
	protected:
	typedef scalar_product_op<T> BinaryOp;
	typedef typename evaluator<Lhs>::InnerIterator LhsIterator;
	typedef typename evaluator<Rhs>::type RhsEvaluator;
	public:
	typedef CwiseBinaryOp<BinaryOp, Lhs, Rhs> XprType;

	class ReverseInnerIterator;
	class InnerIterator
	{
	typedef typename traits<XprType>::Scalar Scalar;
	typedef typename XprType::Index Index;
	enum { IsRowMajor = (int(Lhs::Flags)&RowMajorBit)==RowMajorBit };

	public:

	EIGEN_STRONG_INLINE InnerIterator(const binary_evaluator& aEval, Index outer)
	: m_lhsIter(aEval.m_lhsImpl,outer), m_rhsEval(aEval.m_rhsImpl), m_functor(aEval.m_functor), m_outer(outer)
	{}

	EIGEN_STRONG_INLINE InnerIterator& operator++()
	{
	++m_lhsIter;
	return *this;
	}

	EIGEN_STRONG_INLINE Scalar value() const
	{ return m_functor(m_lhsIter.value(),
	m_rhsEval.coeff(IsRowMajor?m_outer:m_lhsIter.index(),IsRowMajor?m_lhsIter.index():m_outer)); }

	EIGEN_STRONG_INLINE Index index() const { return m_lhsIter.index(); }
	EIGEN_STRONG_INLINE Index row() const { return m_lhsIter.row(); }
	EIGEN_STRONG_INLINE Index col() const { return m_lhsIter.col(); }

	EIGEN_STRONG_INLINE operator bool() const { return m_lhsIter; }

	protected:
	LhsIterator m_lhsIter;
	const RhsEvaluator &m_rhsEval;
	const BinaryOp& m_functor;
	const Index m_outer;
	};


	enum {
	CoeffReadCost = evaluator<Lhs>::CoeffReadCost + evaluator<Rhs>::CoeffReadCost + functor_traits<BinaryOp>::Cost,
	Flags = XprType::Flags
	};

	explicit binary_evaluator(const XprType& xpr)
	: m_functor(xpr.functor()),
	m_lhsImpl(xpr.lhs()),
	m_rhsImpl(xpr.rhs())
	{ }

	protected:
	const BinaryOp m_functor;
	typename evaluator<Lhs>::nestedType m_lhsImpl;
	typename evaluator<Rhs>::nestedType m_rhsImpl;
	};

	}

	/***************************************************************************
	* Implementation of SparseMatrixBase and SparseCwise functions/operators
	***************************************************************************/

	template<typename Derived>
	template<typename OtherDerived>
	EIGEN_STRONG_INLINE Derived &
	SparseMatrixBase<Derived>::operator-=(const SparseMatrixBase<OtherDerived> &other)
	{
	return derived() = derived() - other.derived();
	}

	template<typename Derived>
	template<typename OtherDerived>
	EIGEN_STRONG_INLINE Derived &
	SparseMatrixBase<Derived>::operator+=(const SparseMatrixBase<OtherDerived>& other)
	{
	return derived() = derived() + other.derived();
	}

	template<typename Derived>
	template<typename OtherDerived>
	EIGEN_STRONG_INLINE const EIGEN_SPARSE_CWISE_PRODUCT_RETURN_TYPE
	SparseMatrixBase<Derived>::cwiseProduct(const MatrixBase<OtherDerived> &other) const
	{
	return EIGEN_SPARSE_CWISE_PRODUCT_RETURN_TYPE(derived(), other.derived());
	}

	} // end namespace Eigen

	#endif // EIGEN_SPARSE_CWISE_BINARY_OP_H