Eigen/src/Core/Assign.h - mirror - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra. Eigen itself is part of the KDE project.
 //
 // Copyright (C) 2007 Michael Olbrich <michael.olbrich@gmx.net>
 // Copyright (C) 2006-2008 Benoit Jacob <jacob@math.jussieu.fr>
 // Copyright (C) 2008 Gael Guennebaud <g.gael@free.fr>
 //
 // Eigen is free software; you can redistribute it and/or
 // modify it under the terms of the GNU Lesser General Public
 // License as published by the Free Software Foundation; either
 // version 3 of the License, or (at your option) any later version.
 //
 // Alternatively, you can redistribute it and/or
 // modify it under the terms of the GNU General Public License as
 // published by the Free Software Foundation; either version 2 of
 // the License, or (at your option) any later version.
 //
 // Eigen is distributed in the hope that it will be useful, but WITHOUT ANY
 // WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
 // FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License or the
 // GNU General Public License for more details.
 //
 // You should have received a copy of the GNU Lesser General Public
 // License and a copy of the GNU General Public License along with
 // Eigen. If not, see <http://www.gnu.org/licenses/>.

 #ifndef EIGEN_ASSIGN_H
 #define EIGEN_ASSIGN_H

 /***************************************************************************
 * Part 1 : the logic deciding a strategy for vectorization and unrolling
 ***************************************************************************/

 template <typename Derived, typename OtherDerived>
 struct ei_assign_traits
 {
 private:
   enum {
     InnerSize = int(Derived::Flags)&RowMajorBit
               ? Derived::ColsAtCompileTime
               : Derived::RowsAtCompileTime,
     InnerMaxSize = int(Derived::Flags)&RowMajorBit
               ? Derived::MaxColsAtCompileTime
               : Derived::MaxRowsAtCompileTime,
     PacketSize = ei_packet_traits<typename Derived::Scalar>::size
   };

   enum {
     MightVectorize = (int(Derived::Flags) & int(OtherDerived::Flags) & ActualPacketAccessBit)
              && ((int(Derived::Flags)&RowMajorBit)==(int(OtherDerived::Flags)&RowMajorBit)),
     MayInnerVectorize = MightVectorize && InnerSize!=Dynamic && int(InnerSize)%int(PacketSize)==0,
     MayLinearVectorize = MightVectorize && (int(Derived::Flags) & int(OtherDerived::Flags) & LinearAccessBit),
     MaySliceVectorize = MightVectorize && InnerMaxSize==Dynamic /* slice vectorization can be slow, so we only
       want it if the slices are big, which is indicated by InnerMaxSize rather than InnerSize, think of the case
       of a dynamic block in a fixed-size matrix */
   };

 public:
   enum {
     Vectorization = MayInnerVectorize  ? InnerVectorization
                   : MayLinearVectorize ? LinearVectorization
                   : MaySliceVectorize ? SliceVectorization
                                        : NoVectorization
   };

 private:
   enum {
     UnrollingLimit      = EIGEN_UNROLLING_LIMIT * (int(Vectorization) == int(NoVectorization) ? 1 : int(PacketSize)),
     MayUnrollCompletely = int(Derived::SizeAtCompileTime) * int(OtherDerived::CoeffReadCost) <= int(UnrollingLimit),
     MayUnrollInner      = int(InnerSize * OtherDerived::CoeffReadCost) <= int(UnrollingLimit)
   };

 public:
   enum {
     Unrolling = (int(Vectorization) == int(InnerVectorization) || int(Vectorization) == int(NoVectorization))
               ? (
                    MayUnrollCompletely ? CompleteUnrolling
                  : MayUnrollInner      ? InnerUnrolling
                                        : NoUnrolling
                 )
               : int(Vectorization) == int(LinearVectorization)
               ? ( MayUnrollCompletely ? CompleteUnrolling : NoUnrolling )
               : NoUnrolling
   };
 };

 /***************************************************************************
 * Part 2 : meta-unrollers
 ***************************************************************************/

 /***********************
 *** No vectorization ***
 ***********************/

 template<typename Derived1, typename Derived2, int Index, int Stop>
 struct ei_assign_novec_CompleteUnrolling
 {
   enum {
     row = int(Derived1::Flags)&RowMajorBit
         ? Index / int(Derived1::ColsAtCompileTime)
         : Index % Derived1::RowsAtCompileTime,
     col = int(Derived1::Flags)&RowMajorBit
         ? Index % int(Derived1::ColsAtCompileTime)
         : Index / Derived1::RowsAtCompileTime
   };

   inline static void run(Derived1 &dst, const Derived2 &src)
   {
     dst.coeffRef(row, col) = src.coeff(row, col);
     ei_assign_novec_CompleteUnrolling<Derived1, Derived2, Index+1, Stop>::run(dst, src);
   }
 };

 template<typename Derived1, typename Derived2, int Stop>
 struct ei_assign_novec_CompleteUnrolling<Derived1, Derived2, Stop, Stop>
 {
   inline static void run(Derived1 &, const Derived2 &) {}
 };

 template<typename Derived1, typename Derived2, int Index, int Stop>
 struct ei_assign_novec_InnerUnrolling
 {
   inline static void run(Derived1 &dst, const Derived2 &src, int row_or_col)
   {
     const bool rowMajor = int(Derived1::Flags)&RowMajorBit;
     const int row = rowMajor ? row_or_col : Index;
     const int col = rowMajor ? Index : row_or_col;
     dst.coeffRef(row, col) = src.coeff(row, col);
     ei_assign_novec_InnerUnrolling<Derived1, Derived2, Index+1, Stop>::run(dst, src, row_or_col);
   }
 };

 template<typename Derived1, typename Derived2, int Stop>
 struct ei_assign_novec_InnerUnrolling<Derived1, Derived2, Stop, Stop>
 {
   inline static void run(Derived1 &, const Derived2 &, int) {}
 };

 /**************************
 *** Inner vectorization ***
 **************************/

 template<typename Derived1, typename Derived2, int Index, int Stop>
 struct ei_assign_innervec_CompleteUnrolling
 {
   enum {
     row = int(Derived1::Flags)&RowMajorBit
         ? Index / int(Derived1::ColsAtCompileTime)
         : Index % Derived1::RowsAtCompileTime,
     col = int(Derived1::Flags)&RowMajorBit
         ? Index % int(Derived1::ColsAtCompileTime)
         : Index / Derived1::RowsAtCompileTime
   };

   inline static void run(Derived1 &dst, const Derived2 &src)
   {
     dst.template writePacket<Aligned>(row, col, src.template packet<Aligned>(row, col));
     ei_assign_innervec_CompleteUnrolling<Derived1, Derived2,
       Index+ei_packet_traits<typename Derived1::Scalar>::size, Stop>::run(dst, src);
   }
 };

 template<typename Derived1, typename Derived2, int Stop>
 struct ei_assign_innervec_CompleteUnrolling<Derived1, Derived2, Stop, Stop>
 {
   inline static void run(Derived1 &, const Derived2 &) {}
 };

 template<typename Derived1, typename Derived2, int Index, int Stop>
 struct ei_assign_innervec_InnerUnrolling
 {
   inline static void run(Derived1 &dst, const Derived2 &src, int row_or_col)
   {
     const int row = int(Derived1::Flags)&RowMajorBit ? row_or_col : Index;
     const int col = int(Derived1::Flags)&RowMajorBit ? Index : row_or_col;
     dst.template writePacket<Aligned>(row, col, src.template packet<Aligned>(row, col));
     ei_assign_innervec_InnerUnrolling<Derived1, Derived2,
       Index+ei_packet_traits<typename Derived1::Scalar>::size, Stop>::run(dst, src, row_or_col);
   }
 };

 template<typename Derived1, typename Derived2, int Stop>
 struct ei_assign_innervec_InnerUnrolling<Derived1, Derived2, Stop, Stop>
 {
   inline static void run(Derived1 &, const Derived2 &, int) {}
 };

 /***************************************************************************
 * Part 3 : implementation of all cases
 ***************************************************************************/

 template<typename Derived1, typename Derived2,
          int Vectorization = ei_assign_traits<Derived1, Derived2>::Vectorization,
          int Unrolling = ei_assign_traits<Derived1, Derived2>::Unrolling>
 struct ei_assign_impl;

 /***********************
 *** No vectorization ***
 ***********************/

 template<typename Derived1, typename Derived2>
 struct ei_assign_impl<Derived1, Derived2, NoVectorization, NoUnrolling>
 {
   static void run(Derived1 &dst, const Derived2 &src)
   {
     const bool rowMajor = int(Derived1::Flags)&RowMajorBit;
     const int innerSize = dst.innerSize();
     const int outerSize = dst.outerSize();
     for(int j = 0; j < outerSize; j++)
       for(int i = 0; i < innerSize; i++)
       {
         const int row = rowMajor ? j : i;
         const int col = rowMajor ? i : j;
         dst.coeffRef(row, col) = src.coeff(row, col);
       }
   }
 };

 template<typename Derived1, typename Derived2>
 struct ei_assign_impl<Derived1, Derived2, NoVectorization, CompleteUnrolling>
 {
   inline static void run(Derived1 &dst, const Derived2 &src)
   {
     ei_assign_novec_CompleteUnrolling<Derived1, Derived2, 0, Derived1::SizeAtCompileTime>
       ::run(dst, src);
   }
 };

 template<typename Derived1, typename Derived2>
 struct ei_assign_impl<Derived1, Derived2, NoVectorization, InnerUnrolling>
 {
   static void run(Derived1 &dst, const Derived2 &src)
   {
     const bool rowMajor = int(Derived1::Flags)&RowMajorBit;
     const int innerSize = rowMajor ? Derived1::ColsAtCompileTime : Derived1::RowsAtCompileTime;
     const int outerSize = dst.outerSize();
     for(int j = 0; j < outerSize; j++)
       ei_assign_novec_InnerUnrolling<Derived1, Derived2, 0, innerSize>
         ::run(dst, src, j);
   }
 };

 /**************************
 *** Inner vectorization ***
 **************************/

 template<typename Derived1, typename Derived2>
 struct ei_assign_impl<Derived1, Derived2, InnerVectorization, NoUnrolling>
 {
   static void run(Derived1 &dst, const Derived2 &src)
   {
     const bool rowMajor = int(Derived1::Flags)&RowMajorBit;
     const int innerSize = dst.innerSize();
     const int outerSize = dst.outerSize();
     const int packetSize = ei_packet_traits<typename Derived1::Scalar>::size;
     for(int j = 0; j < outerSize; j++)
     {
       for(int i = 0; i < innerSize; i+=packetSize)
       {
         const int row = rowMajor ? j : i;
         const int col = rowMajor ? i : j;
         dst.template writePacket<Aligned>(row, col, src.template packet<Aligned>(row, col));
       }
     }
   }
 };

 template<typename Derived1, typename Derived2>
 struct ei_assign_impl<Derived1, Derived2, InnerVectorization, CompleteUnrolling>
 {
   inline static void run(Derived1 &dst, const Derived2 &src)
   {
     ei_assign_innervec_CompleteUnrolling<Derived1, Derived2, 0, Derived1::SizeAtCompileTime>
       ::run(dst, src);
   }
 };

 template<typename Derived1, typename Derived2>
 struct ei_assign_impl<Derived1, Derived2, InnerVectorization, InnerUnrolling>
 {
   static void run(Derived1 &dst, const Derived2 &src)
   {
     const bool rowMajor = int(Derived1::Flags)&RowMajorBit;
     const int innerSize = rowMajor ? Derived1::ColsAtCompileTime : Derived1::RowsAtCompileTime;
     const int outerSize = dst.outerSize();
     for(int j = 0; j < outerSize; j++)
       ei_assign_innervec_InnerUnrolling<Derived1, Derived2, 0, innerSize>
         ::run(dst, src, j);
   }
 };

 /***************************
 *** Linear vectorization ***
 ***************************/

 template<typename Derived1, typename Derived2>
 struct ei_assign_impl<Derived1, Derived2, LinearVectorization, NoUnrolling>
 {
   static void run(Derived1 &dst, const Derived2 &src)
   {
     const int size = dst.size();
     const int packetSize = ei_packet_traits<typename Derived1::Scalar>::size;
     const int alignedSize = (size/packetSize)*packetSize;

     for(int index = 0; index < alignedSize; index += packetSize)
     {
       dst.template writePacket<Aligned>(index, src.template packet<Aligned>(index));
     }

     for(int index = alignedSize; index < size; index++)
       dst.coeffRef(index) = src.coeff(index);
   }
 };

 template<typename Derived1, typename Derived2>
 struct ei_assign_impl<Derived1, Derived2, LinearVectorization, CompleteUnrolling>
 {
   static void run(Derived1 &dst, const Derived2 &src)
   {
     const int size = Derived1::SizeAtCompileTime;
     const int packetSize = ei_packet_traits<typename Derived1::Scalar>::size;
     const int alignedSize = (size/packetSize)*packetSize;

     ei_assign_innervec_CompleteUnrolling<Derived1, Derived2, 0, alignedSize>::run(dst, src);
     ei_assign_novec_CompleteUnrolling<Derived1, Derived2, alignedSize, size>::run(dst, src);
   }
 };

 /**************************
 *** Slice vectorization ***
 ***************************/

 template<typename Derived1, typename Derived2>
 struct ei_assign_impl<Derived1, Derived2, SliceVectorization, NoUnrolling>
 {
   static void run(Derived1 &dst, const Derived2 &src)
   {
     const int packetSize = ei_packet_traits<typename Derived1::Scalar>::size;
     const bool rowMajor = Derived1::Flags&RowMajorBit;
     const int innerSize = dst.innerSize();
     const int outerSize = dst.outerSize();
     const int alignedInnerSize = (innerSize/packetSize)*packetSize;

     for(int i = 0; i < outerSize; i++)
     {
       // do the vectorizable part of the assignment
       for (int index = 0; index<alignedInnerSize ; index+=packetSize)
       {
         const int row = rowMajor ? i : index;
         const int col = rowMajor ? index : i;
         dst.template writePacket<Unaligned>(row, col, src.template packet<Unaligned>(row, col));
       }

       // do the non-vectorizable part of the assignment
       for (int index = alignedInnerSize; index<innerSize ; index++)
       {
         const int row = rowMajor ? i : index;
         const int col = rowMajor ? index : i;
         dst.coeffRef(row, col) = src.coeff(row, col);
       }
     }
   }
 };

 /***************************************************************************
 * Part 4 : implementation of MatrixBase methods
 ***************************************************************************/

 template<typename Derived>
 template<typename OtherDerived>
 inline Derived& MatrixBase<Derived>
   ::lazyAssign(const MatrixBase<OtherDerived>& other)
 {
   EIGEN_STATIC_ASSERT_SAME_MATRIX_SIZE(Derived,OtherDerived);
   ei_assert(rows() == other.rows() && cols() == other.cols());
   ei_assign_impl<Derived, OtherDerived>::run(derived(),other.derived());
   return derived();
 }

 template<typename Derived, typename OtherDerived,
          bool EvalBeforeAssigning = int(OtherDerived::Flags) & EvalBeforeAssigningBit,
          bool NeedToTranspose = Derived::IsVectorAtCompileTime
                 && OtherDerived::IsVectorAtCompileTime
                 && int(Derived::RowsAtCompileTime) == int(OtherDerived::ColsAtCompileTime)
                 && int(Derived::ColsAtCompileTime) == int(OtherDerived::RowsAtCompileTime)
                 && int(Derived::SizeAtCompileTime) != 1>
 struct ei_assign_selector;

 template<typename Derived, typename OtherDerived>
 struct ei_assign_selector<Derived,OtherDerived,false,false> {
   static Derived& run(Derived& dst, const OtherDerived& other) { return dst.lazyAssign(other.derived()); }
 };
 template<typename Derived, typename OtherDerived>
 struct ei_assign_selector<Derived,OtherDerived,true,false> {
   static Derived& run(Derived& dst, const OtherDerived& other) { return dst.lazyAssign(other.eval()); }
 };
 template<typename Derived, typename OtherDerived>
 struct ei_assign_selector<Derived,OtherDerived,false,true> {
   static Derived& run(Derived& dst, const OtherDerived& other) { return dst.lazyAssign(other.transpose()); }
 };
 template<typename Derived, typename OtherDerived>
 struct ei_assign_selector<Derived,OtherDerived,true,true> {
   static Derived& run(Derived& dst, const OtherDerived& other) { return dst.lazyAssign(other.transpose().eval()); }
 };

 template<typename Derived>
 template<typename OtherDerived>
 inline Derived& MatrixBase<Derived>
   ::operator=(const MatrixBase<OtherDerived>& other)
 {
   return ei_assign_selector<Derived,OtherDerived>::run(derived(), other.derived());
 }

 #endif // EIGEN_ASSIGN_H
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra. Eigen itself is part of the KDE project.
	//
	// Copyright (C) 2007 Michael Olbrich <michael.olbrich@gmx.net>
	// Copyright (C) 2006-2008 Benoit Jacob <jacob@math.jussieu.fr>
	// Copyright (C) 2008 Gael Guennebaud <g.gael@free.fr>
	//
	// Eigen is free software; you can redistribute it and/or
	// modify it under the terms of the GNU Lesser General Public
	// License as published by the Free Software Foundation; either
	// version 3 of the License, or (at your option) any later version.
	//
	// Alternatively, you can redistribute it and/or
	// modify it under the terms of the GNU General Public License as
	// published by the Free Software Foundation; either version 2 of
	// the License, or (at your option) any later version.
	//
	// Eigen is distributed in the hope that it will be useful, but WITHOUT ANY
	// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
	// FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License or the
	// GNU General Public License for more details.
	//
	// You should have received a copy of the GNU Lesser General Public
	// License and a copy of the GNU General Public License along with
	// Eigen. If not, see <http://www.gnu.org/licenses/>.

	#ifndef EIGEN_ASSIGN_H
	#define EIGEN_ASSIGN_H

	/***************************************************************************
	* Part 1 : the logic deciding a strategy for vectorization and unrolling
	***************************************************************************/

	template <typename Derived, typename OtherDerived>
	struct ei_assign_traits
	{
	private:
	enum {
	InnerSize = int(Derived::Flags)&RowMajorBit
	? Derived::ColsAtCompileTime
	: Derived::RowsAtCompileTime,
	InnerMaxSize = int(Derived::Flags)&RowMajorBit
	? Derived::MaxColsAtCompileTime
	: Derived::MaxRowsAtCompileTime,
	PacketSize = ei_packet_traits<typename Derived::Scalar>::size
	};

	enum {
	MightVectorize = (int(Derived::Flags) & int(OtherDerived::Flags) & ActualPacketAccessBit)
	&& ((int(Derived::Flags)&RowMajorBit)==(int(OtherDerived::Flags)&RowMajorBit)),
	MayInnerVectorize = MightVectorize && InnerSize!=Dynamic && int(InnerSize)%int(PacketSize)==0,
	MayLinearVectorize = MightVectorize && (int(Derived::Flags) & int(OtherDerived::Flags) & LinearAccessBit),
	MaySliceVectorize = MightVectorize && InnerMaxSize==Dynamic /* slice vectorization can be slow, so we only
	want it if the slices are big, which is indicated by InnerMaxSize rather than InnerSize, think of the case
	of a dynamic block in a fixed-size matrix */
	};

	public:
	enum {
	Vectorization = MayInnerVectorize ? InnerVectorization
	: MayLinearVectorize ? LinearVectorization
	: MaySliceVectorize ? SliceVectorization
	: NoVectorization
	};

	private:
	enum {
	UnrollingLimit = EIGEN_UNROLLING_LIMIT * (int(Vectorization) == int(NoVectorization) ? 1 : int(PacketSize)),
	MayUnrollCompletely = int(Derived::SizeAtCompileTime) * int(OtherDerived::CoeffReadCost) <= int(UnrollingLimit),
	MayUnrollInner = int(InnerSize * OtherDerived::CoeffReadCost) <= int(UnrollingLimit)
	};

	public:
	enum {
	Unrolling = (int(Vectorization) == int(InnerVectorization) \|\| int(Vectorization) == int(NoVectorization))
	? (
	MayUnrollCompletely ? CompleteUnrolling
	: MayUnrollInner ? InnerUnrolling
	: NoUnrolling
	)
	: int(Vectorization) == int(LinearVectorization)
	? ( MayUnrollCompletely ? CompleteUnrolling : NoUnrolling )
	: NoUnrolling
	};
	};

	/***************************************************************************
	* Part 2 : meta-unrollers
	***************************************************************************/

	/***********************
	* No vectorization *
	***********************/

	template<typename Derived1, typename Derived2, int Index, int Stop>
	struct ei_assign_novec_CompleteUnrolling
	{
	enum {
	row = int(Derived1::Flags)&RowMajorBit
	? Index / int(Derived1::ColsAtCompileTime)
	: Index % Derived1::RowsAtCompileTime,
	col = int(Derived1::Flags)&RowMajorBit
	? Index % int(Derived1::ColsAtCompileTime)
	: Index / Derived1::RowsAtCompileTime
	};

	inline static void run(Derived1 &dst, const Derived2 &src)
	{
	dst.coeffRef(row, col) = src.coeff(row, col);
	ei_assign_novec_CompleteUnrolling<Derived1, Derived2, Index+1, Stop>::run(dst, src);
	}
	};

	template<typename Derived1, typename Derived2, int Stop>
	struct ei_assign_novec_CompleteUnrolling<Derived1, Derived2, Stop, Stop>
	{
	inline static void run(Derived1 &, const Derived2 &) {}
	};

	template<typename Derived1, typename Derived2, int Index, int Stop>
	struct ei_assign_novec_InnerUnrolling
	{
	inline static void run(Derived1 &dst, const Derived2 &src, int row_or_col)
	{
	const bool rowMajor = int(Derived1::Flags)&RowMajorBit;
	const int row = rowMajor ? row_or_col : Index;
	const int col = rowMajor ? Index : row_or_col;
	dst.coeffRef(row, col) = src.coeff(row, col);
	ei_assign_novec_InnerUnrolling<Derived1, Derived2, Index+1, Stop>::run(dst, src, row_or_col);
	}
	};

	template<typename Derived1, typename Derived2, int Stop>
	struct ei_assign_novec_InnerUnrolling<Derived1, Derived2, Stop, Stop>
	{
	inline static void run(Derived1 &, const Derived2 &, int) {}
	};

	/**************************
	* Inner vectorization *
	**************************/

	template<typename Derived1, typename Derived2, int Index, int Stop>
	struct ei_assign_innervec_CompleteUnrolling
	{
	enum {
	row = int(Derived1::Flags)&RowMajorBit
	? Index / int(Derived1::ColsAtCompileTime)
	: Index % Derived1::RowsAtCompileTime,
	col = int(Derived1::Flags)&RowMajorBit
	? Index % int(Derived1::ColsAtCompileTime)
	: Index / Derived1::RowsAtCompileTime
	};

	inline static void run(Derived1 &dst, const Derived2 &src)
	{
	dst.template writePacket<Aligned>(row, col, src.template packet<Aligned>(row, col));
	ei_assign_innervec_CompleteUnrolling<Derived1, Derived2,
	Index+ei_packet_traits<typename Derived1::Scalar>::size, Stop>::run(dst, src);
	}
	};

	template<typename Derived1, typename Derived2, int Stop>
	struct ei_assign_innervec_CompleteUnrolling<Derived1, Derived2, Stop, Stop>
	{
	inline static void run(Derived1 &, const Derived2 &) {}
	};

	template<typename Derived1, typename Derived2, int Index, int Stop>
	struct ei_assign_innervec_InnerUnrolling
	{
	inline static void run(Derived1 &dst, const Derived2 &src, int row_or_col)
	{
	const int row = int(Derived1::Flags)&RowMajorBit ? row_or_col : Index;
	const int col = int(Derived1::Flags)&RowMajorBit ? Index : row_or_col;
	dst.template writePacket<Aligned>(row, col, src.template packet<Aligned>(row, col));
	ei_assign_innervec_InnerUnrolling<Derived1, Derived2,
	Index+ei_packet_traits<typename Derived1::Scalar>::size, Stop>::run(dst, src, row_or_col);
	}
	};

	template<typename Derived1, typename Derived2, int Stop>
	struct ei_assign_innervec_InnerUnrolling<Derived1, Derived2, Stop, Stop>
	{
	inline static void run(Derived1 &, const Derived2 &, int) {}
	};

	/***************************************************************************
	* Part 3 : implementation of all cases
	***************************************************************************/

	template<typename Derived1, typename Derived2,
	int Vectorization = ei_assign_traits<Derived1, Derived2>::Vectorization,
	int Unrolling = ei_assign_traits<Derived1, Derived2>::Unrolling>
	struct ei_assign_impl;

	/***********************
	* No vectorization *
	***********************/

	template<typename Derived1, typename Derived2>
	struct ei_assign_impl<Derived1, Derived2, NoVectorization, NoUnrolling>
	{
	static void run(Derived1 &dst, const Derived2 &src)
	{
	const bool rowMajor = int(Derived1::Flags)&RowMajorBit;
	const int innerSize = dst.innerSize();
	const int outerSize = dst.outerSize();
	for(int j = 0; j < outerSize; j++)
	for(int i = 0; i < innerSize; i++)
	{
	const int row = rowMajor ? j : i;
	const int col = rowMajor ? i : j;
	dst.coeffRef(row, col) = src.coeff(row, col);
	}
	}
	};

	template<typename Derived1, typename Derived2>
	struct ei_assign_impl<Derived1, Derived2, NoVectorization, CompleteUnrolling>
	{
	inline static void run(Derived1 &dst, const Derived2 &src)
	{
	ei_assign_novec_CompleteUnrolling<Derived1, Derived2, 0, Derived1::SizeAtCompileTime>
	::run(dst, src);
	}
	};

	template<typename Derived1, typename Derived2>
	struct ei_assign_impl<Derived1, Derived2, NoVectorization, InnerUnrolling>
	{
	static void run(Derived1 &dst, const Derived2 &src)
	{
	const bool rowMajor = int(Derived1::Flags)&RowMajorBit;
	const int innerSize = rowMajor ? Derived1::ColsAtCompileTime : Derived1::RowsAtCompileTime;
	const int outerSize = dst.outerSize();
	for(int j = 0; j < outerSize; j++)
	ei_assign_novec_InnerUnrolling<Derived1, Derived2, 0, innerSize>
	::run(dst, src, j);
	}
	};

	/**************************
	* Inner vectorization *
	**************************/

	template<typename Derived1, typename Derived2>
	struct ei_assign_impl<Derived1, Derived2, InnerVectorization, NoUnrolling>
	{
	static void run(Derived1 &dst, const Derived2 &src)
	{
	const bool rowMajor = int(Derived1::Flags)&RowMajorBit;
	const int innerSize = dst.innerSize();
	const int outerSize = dst.outerSize();
	const int packetSize = ei_packet_traits<typename Derived1::Scalar>::size;
	for(int j = 0; j < outerSize; j++)
	{
	for(int i = 0; i < innerSize; i+=packetSize)
	{
	const int row = rowMajor ? j : i;
	const int col = rowMajor ? i : j;
	dst.template writePacket<Aligned>(row, col, src.template packet<Aligned>(row, col));
	}
	}
	}
	};

	template<typename Derived1, typename Derived2>
	struct ei_assign_impl<Derived1, Derived2, InnerVectorization, CompleteUnrolling>
	{
	inline static void run(Derived1 &dst, const Derived2 &src)
	{
	ei_assign_innervec_CompleteUnrolling<Derived1, Derived2, 0, Derived1::SizeAtCompileTime>
	::run(dst, src);
	}
	};

	template<typename Derived1, typename Derived2>
	struct ei_assign_impl<Derived1, Derived2, InnerVectorization, InnerUnrolling>
	{
	static void run(Derived1 &dst, const Derived2 &src)
	{
	const bool rowMajor = int(Derived1::Flags)&RowMajorBit;
	const int innerSize = rowMajor ? Derived1::ColsAtCompileTime : Derived1::RowsAtCompileTime;
	const int outerSize = dst.outerSize();
	for(int j = 0; j < outerSize; j++)
	ei_assign_innervec_InnerUnrolling<Derived1, Derived2, 0, innerSize>
	::run(dst, src, j);
	}
	};

	/***************************
	* Linear vectorization *
	***************************/

	template<typename Derived1, typename Derived2>
	struct ei_assign_impl<Derived1, Derived2, LinearVectorization, NoUnrolling>
	{
	static void run(Derived1 &dst, const Derived2 &src)
	{
	const int size = dst.size();
	const int packetSize = ei_packet_traits<typename Derived1::Scalar>::size;
	const int alignedSize = (size/packetSize)*packetSize;

	for(int index = 0; index < alignedSize; index += packetSize)
	{
	dst.template writePacket<Aligned>(index, src.template packet<Aligned>(index));
	}

	for(int index = alignedSize; index < size; index++)
	dst.coeffRef(index) = src.coeff(index);
	}
	};

	template<typename Derived1, typename Derived2>
	struct ei_assign_impl<Derived1, Derived2, LinearVectorization, CompleteUnrolling>
	{
	static void run(Derived1 &dst, const Derived2 &src)
	{
	const int size = Derived1::SizeAtCompileTime;
	const int packetSize = ei_packet_traits<typename Derived1::Scalar>::size;
	const int alignedSize = (size/packetSize)*packetSize;

	ei_assign_innervec_CompleteUnrolling<Derived1, Derived2, 0, alignedSize>::run(dst, src);
	ei_assign_novec_CompleteUnrolling<Derived1, Derived2, alignedSize, size>::run(dst, src);
	}
	};

	/**************************
	* Slice vectorization *
	***************************/

	template<typename Derived1, typename Derived2>
	struct ei_assign_impl<Derived1, Derived2, SliceVectorization, NoUnrolling>
	{
	static void run(Derived1 &dst, const Derived2 &src)
	{
	const int packetSize = ei_packet_traits<typename Derived1::Scalar>::size;
	const bool rowMajor = Derived1::Flags&RowMajorBit;
	const int innerSize = dst.innerSize();
	const int outerSize = dst.outerSize();
	const int alignedInnerSize = (innerSize/packetSize)*packetSize;

	for(int i = 0; i < outerSize; i++)
	{
	// do the vectorizable part of the assignment
	for (int index = 0; index<alignedInnerSize ; index+=packetSize)
	{
	const int row = rowMajor ? i : index;
	const int col = rowMajor ? index : i;
	dst.template writePacket<Unaligned>(row, col, src.template packet<Unaligned>(row, col));
	}

	// do the non-vectorizable part of the assignment
	for (int index = alignedInnerSize; index<innerSize ; index++)
	{
	const int row = rowMajor ? i : index;
	const int col = rowMajor ? index : i;
	dst.coeffRef(row, col) = src.coeff(row, col);
	}
	}
	}
	};

	/***************************************************************************
	* Part 4 : implementation of MatrixBase methods
	***************************************************************************/

	template<typename Derived>
	template<typename OtherDerived>
	inline Derived& MatrixBase<Derived>
	::lazyAssign(const MatrixBase<OtherDerived>& other)
	{
	EIGEN_STATIC_ASSERT_SAME_MATRIX_SIZE(Derived,OtherDerived);
	ei_assert(rows() == other.rows() && cols() == other.cols());
	ei_assign_impl<Derived, OtherDerived>::run(derived(),other.derived());
	return derived();
	}

	template<typename Derived, typename OtherDerived,
	bool EvalBeforeAssigning = int(OtherDerived::Flags) & EvalBeforeAssigningBit,
	bool NeedToTranspose = Derived::IsVectorAtCompileTime
	&& OtherDerived::IsVectorAtCompileTime
	&& int(Derived::RowsAtCompileTime) == int(OtherDerived::ColsAtCompileTime)
	&& int(Derived::ColsAtCompileTime) == int(OtherDerived::RowsAtCompileTime)
	&& int(Derived::SizeAtCompileTime) != 1>
	struct ei_assign_selector;

	template<typename Derived, typename OtherDerived>
	struct ei_assign_selector<Derived,OtherDerived,false,false> {
	static Derived& run(Derived& dst, const OtherDerived& other) { return dst.lazyAssign(other.derived()); }
	};
	template<typename Derived, typename OtherDerived>
	struct ei_assign_selector<Derived,OtherDerived,true,false> {
	static Derived& run(Derived& dst, const OtherDerived& other) { return dst.lazyAssign(other.eval()); }
	};
	template<typename Derived, typename OtherDerived>
	struct ei_assign_selector<Derived,OtherDerived,false,true> {
	static Derived& run(Derived& dst, const OtherDerived& other) { return dst.lazyAssign(other.transpose()); }
	};
	template<typename Derived, typename OtherDerived>
	struct ei_assign_selector<Derived,OtherDerived,true,true> {
	static Derived& run(Derived& dst, const OtherDerived& other) { return dst.lazyAssign(other.transpose().eval()); }
	};

	template<typename Derived>
	template<typename OtherDerived>
	inline Derived& MatrixBase<Derived>
	::operator=(const MatrixBase<OtherDerived>& other)
	{
	return ei_assign_selector<Derived,OtherDerived>::run(derived(), other.derived());
	}

	#endif // EIGEN_ASSIGN_H