Eigen/src/Core/MapBase.h - eigen - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2007-2010 Benoit Jacob <jacob.benoit.1@gmail.com>
 // Copyright (C) 2008 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_MAPBASE_H
 #define EIGEN_MAPBASE_H

 #define EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)                                                               \
   EIGEN_STATIC_ASSERT((int(internal::evaluator<Derived>::Flags) & LinearAccessBit) || Derived::IsVectorAtCompileTime, \
                       YOU_ARE_TRYING_TO_USE_AN_INDEX_BASED_ACCESSOR_ON_AN_EXPRESSION_THAT_DOES_NOT_SUPPORT_THAT)

 // IWYU pragma: private
 #include "./InternalHeaderCheck.h"

 namespace Eigen {

 /** \ingroup Core_Module
  *
  * \brief Base class for dense Map and Block expression with direct access
  *
  * This base class provides the const low-level accessors (e.g. coeff, coeffRef) of dense
  * Map and Block objects with direct access.
  * Typical users do not have to directly deal with this class.
  *
  * This class can be extended by through the macro plugin \c EIGEN_MAPBASE_PLUGIN.
  * See \link TopicCustomizing_Plugins customizing Eigen \endlink for details.
  *
  * The \c Derived class has to provide the following two methods describing the memory layout:
  *  \code Index innerStride() const; \endcode
  *  \code Index outerStride() const; \endcode
  *
  * \sa class Map, class Block
  */
 template <typename Derived>
 class MapBase<Derived, ReadOnlyAccessors> : public internal::dense_xpr_base<Derived>::type {
  public:
   typedef typename internal::dense_xpr_base<Derived>::type Base;
   enum {
     RowsAtCompileTime = internal::traits<Derived>::RowsAtCompileTime,
     ColsAtCompileTime = internal::traits<Derived>::ColsAtCompileTime,
     InnerStrideAtCompileTime = internal::traits<Derived>::InnerStrideAtCompileTime,
     SizeAtCompileTime = Base::SizeAtCompileTime
   };

   typedef typename internal::traits<Derived>::StorageKind StorageKind;
   typedef typename internal::traits<Derived>::Scalar Scalar;
   typedef typename internal::packet_traits<Scalar>::type PacketScalar;
   typedef typename NumTraits<Scalar>::Real RealScalar;
   typedef std::conditional_t<bool(internal::is_lvalue<Derived>::value), Scalar*, const Scalar*> PointerType;

   using Base::derived;
   //    using Base::RowsAtCompileTime;
   //    using Base::ColsAtCompileTime;
   //    using Base::SizeAtCompileTime;
   using Base::Flags;
   using Base::IsRowMajor;
   using Base::IsVectorAtCompileTime;
   using Base::MaxColsAtCompileTime;
   using Base::MaxRowsAtCompileTime;
   using Base::MaxSizeAtCompileTime;

   using Base::coeff;
   using Base::coeffRef;
   using Base::cols;
   using Base::eval;
   using Base::lazyAssign;
   using Base::rows;
   using Base::size;

   using Base::colStride;
   using Base::innerStride;
   using Base::outerStride;
   using Base::rowStride;

   // bug 217 - compile error on ICC 11.1
   using Base::operator=;

   typedef typename Base::CoeffReturnType CoeffReturnType;

   /** \copydoc DenseBase::rows() */
   EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index rows() const EIGEN_NOEXCEPT { return m_rows.value(); }
   /** \copydoc DenseBase::cols() */
   EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index cols() const EIGEN_NOEXCEPT { return m_cols.value(); }

   /** Returns a pointer to the first coefficient of the matrix or vector.
    *
    * \note When addressing this data, make sure to honor the strides returned by innerStride() and outerStride().
    *
    * \sa innerStride(), outerStride()
    */
   EIGEN_DEVICE_FUNC inline const Scalar* data() const { return m_data; }

   /** \copydoc PlainObjectBase::coeff(Index,Index) const */
   EIGEN_DEVICE_FUNC inline const Scalar& coeff(Index rowId, Index colId) const {
     return m_data[colId * colStride() + rowId * rowStride()];
   }

   /** \copydoc PlainObjectBase::coeff(Index) const */
   EIGEN_DEVICE_FUNC inline const Scalar& coeff(Index index) const {
     EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)
     return m_data[index * innerStride()];
   }

   /** \copydoc PlainObjectBase::coeffRef(Index,Index) const */
   EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index rowId, Index colId) const {
     return this->m_data[colId * colStride() + rowId * rowStride()];
   }

   /** \copydoc PlainObjectBase::coeffRef(Index) const */
   EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index index) const {
     EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)
     return this->m_data[index * innerStride()];
   }

   /** \internal */
   template <int LoadMode>
   inline PacketScalar packet(Index rowId, Index colId) const {
     return internal::ploadt<PacketScalar, LoadMode>(m_data + (colId * colStride() + rowId * rowStride()));
   }

   /** \internal */
   template <int LoadMode>
   inline PacketScalar packet(Index index) const {
     EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)
     return internal::ploadt<PacketScalar, LoadMode>(m_data + index * innerStride());
   }

   /** \internal Constructor for fixed size matrices or vectors */
   EIGEN_DEVICE_FUNC explicit inline MapBase(PointerType dataPtr)
       : m_data(dataPtr), m_rows(RowsAtCompileTime), m_cols(ColsAtCompileTime) {
     EIGEN_STATIC_ASSERT_FIXED_SIZE(Derived)
     checkSanity<Derived>();
   }

   /** \internal Constructor for dynamically sized vectors */
   EIGEN_DEVICE_FUNC inline MapBase(PointerType dataPtr, Index vecSize)
       : m_data(dataPtr),
         m_rows(RowsAtCompileTime == Dynamic ? vecSize : Index(RowsAtCompileTime)),
         m_cols(ColsAtCompileTime == Dynamic ? vecSize : Index(ColsAtCompileTime)) {
     EIGEN_STATIC_ASSERT_VECTOR_ONLY(Derived)
     eigen_assert(vecSize >= 0);
     eigen_assert(dataPtr == 0 || SizeAtCompileTime == Dynamic || SizeAtCompileTime == vecSize);
     checkSanity<Derived>();
   }

   /** \internal Constructor for dynamically sized matrices */
   EIGEN_DEVICE_FUNC inline MapBase(PointerType dataPtr, Index rows, Index cols)
       : m_data(dataPtr), m_rows(rows), m_cols(cols) {
     eigen_assert((dataPtr == 0) || (rows >= 0 && (RowsAtCompileTime == Dynamic || RowsAtCompileTime == rows) &&
                                     cols >= 0 && (ColsAtCompileTime == Dynamic || ColsAtCompileTime == cols)));
     checkSanity<Derived>();
   }

 #ifdef EIGEN_MAPBASE_PLUGIN
 #include EIGEN_MAPBASE_PLUGIN
 #endif

  protected:
   EIGEN_DEFAULT_COPY_CONSTRUCTOR(MapBase)
   EIGEN_DEFAULT_EMPTY_CONSTRUCTOR_AND_DESTRUCTOR(MapBase)

   template <typename T>
   EIGEN_DEVICE_FUNC void checkSanity(std::enable_if_t<(internal::traits<T>::Alignment > 0), void*> = 0) const {
 // Temporary macro to allow scalars to not be properly aligned.  This is while we sort out failures
 // in TensorFlow Lite that are currently relying on this UB.
 #ifndef EIGEN_ALLOW_UNALIGNED_SCALARS
     // Pointer must be aligned to the Scalar type, otherwise we get UB.
     eigen_assert((std::uintptr_t(m_data) % alignof(Scalar) == 0) && "data is not scalar-aligned");
 #endif
 #if EIGEN_MAX_ALIGN_BYTES > 0
     // innerStride() is not set yet when this function is called, so we optimistically assume the lowest plausible
     // value:
     const Index minInnerStride = InnerStrideAtCompileTime == Dynamic ? 1 : Index(InnerStrideAtCompileTime);
     EIGEN_ONLY_USED_FOR_DEBUG(minInnerStride);
     eigen_assert((((std::uintptr_t(m_data) % internal::traits<Derived>::Alignment) == 0) ||
                   (cols() * rows() * minInnerStride * sizeof(Scalar)) < internal::traits<Derived>::Alignment) &&
                  "data is not aligned");
 #endif
   }

   template <typename T>
   EIGEN_DEVICE_FUNC void checkSanity(std::enable_if_t<internal::traits<T>::Alignment == 0, void*> = 0) const {
 #ifndef EIGEN_ALLOW_UNALIGNED_SCALARS
     // Pointer must be aligned to the Scalar type, otherwise we get UB.
     eigen_assert((std::uintptr_t(m_data) % alignof(Scalar) == 0) && "data is not scalar-aligned");
 #endif
   }

   PointerType m_data;
   const internal::variable_if_dynamic<Index, RowsAtCompileTime> m_rows;
   const internal::variable_if_dynamic<Index, ColsAtCompileTime> m_cols;
 };

 /** \ingroup Core_Module
  *
  * \brief Base class for non-const dense Map and Block expression with direct access
  *
  * This base class provides the non-const low-level accessors (e.g. coeff and coeffRef) of
  * dense Map and Block objects with direct access.
  * It inherits MapBase<Derived, ReadOnlyAccessors> which defines the const variant for reading specific entries.
  *
  * \sa class Map, class Block
  */
 template <typename Derived>
 class MapBase<Derived, WriteAccessors> : public MapBase<Derived, ReadOnlyAccessors> {
   typedef MapBase<Derived, ReadOnlyAccessors> ReadOnlyMapBase;

  public:
   typedef MapBase<Derived, ReadOnlyAccessors> Base;

   typedef typename Base::Scalar Scalar;
   typedef typename Base::PacketScalar PacketScalar;
   typedef typename Base::StorageIndex StorageIndex;
   typedef typename Base::PointerType PointerType;

   using Base::coeff;
   using Base::coeffRef;
   using Base::cols;
   using Base::derived;
   using Base::rows;
   using Base::size;

   using Base::colStride;
   using Base::innerStride;
   using Base::outerStride;
   using Base::rowStride;

   typedef std::conditional_t<internal::is_lvalue<Derived>::value, Scalar, const Scalar> ScalarWithConstIfNotLvalue;

   EIGEN_DEVICE_FUNC inline const Scalar* data() const { return this->m_data; }
   EIGEN_DEVICE_FUNC inline ScalarWithConstIfNotLvalue* data() {
     return this->m_data;
   }  // no const-cast here so non-const-correct code will give a compile error

   EIGEN_DEVICE_FUNC inline ScalarWithConstIfNotLvalue& coeffRef(Index row, Index col) {
     return this->m_data[col * colStride() + row * rowStride()];
   }

   EIGEN_DEVICE_FUNC inline ScalarWithConstIfNotLvalue& coeffRef(Index index) {
     EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)
     return this->m_data[index * innerStride()];
   }

   template <int StoreMode>
   inline void writePacket(Index row, Index col, const PacketScalar& val) {
     internal::pstoret<Scalar, PacketScalar, StoreMode>(this->m_data + (col * colStride() + row * rowStride()), val);
   }

   template <int StoreMode>
   inline void writePacket(Index index, const PacketScalar& val) {
     EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)
     internal::pstoret<Scalar, PacketScalar, StoreMode>(this->m_data + index * innerStride(), val);
   }

   EIGEN_DEVICE_FUNC explicit inline MapBase(PointerType dataPtr) : Base(dataPtr) {}
   EIGEN_DEVICE_FUNC inline MapBase(PointerType dataPtr, Index vecSize) : Base(dataPtr, vecSize) {}
   EIGEN_DEVICE_FUNC inline MapBase(PointerType dataPtr, Index rows, Index cols) : Base(dataPtr, rows, cols) {}

   EIGEN_DEVICE_FUNC Derived& operator=(const MapBase& other) {
     ReadOnlyMapBase::Base::operator=(other);
     return derived();
   }

   // In theory we could simply refer to Base:Base::operator=, but MSVC does not like Base::Base,
   // see bugs 821 and 920.
   using ReadOnlyMapBase::Base::operator=;

  protected:
   EIGEN_DEFAULT_COPY_CONSTRUCTOR(MapBase)
   EIGEN_DEFAULT_EMPTY_CONSTRUCTOR_AND_DESTRUCTOR(MapBase)
 };

 #undef EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS

 }  // end namespace Eigen

 #endif  // EIGEN_MAPBASE_H
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2007-2010 Benoit Jacob <jacob.benoit.1@gmail.com>
	// Copyright (C) 2008 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_MAPBASE_H
	#define EIGEN_MAPBASE_H

	#define EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived) \
	EIGEN_STATIC_ASSERT((int(internal::evaluator<Derived>::Flags) & LinearAccessBit) \|\| Derived::IsVectorAtCompileTime, \
	YOU_ARE_TRYING_TO_USE_AN_INDEX_BASED_ACCESSOR_ON_AN_EXPRESSION_THAT_DOES_NOT_SUPPORT_THAT)

	// IWYU pragma: private
	#include "./InternalHeaderCheck.h"

	namespace Eigen {

	/** \ingroup Core_Module
	*
	* \brief Base class for dense Map and Block expression with direct access
	*
	* This base class provides the const low-level accessors (e.g. coeff, coeffRef) of dense
	* Map and Block objects with direct access.
	* Typical users do not have to directly deal with this class.
	*
	* This class can be extended by through the macro plugin \c EIGEN_MAPBASE_PLUGIN.
	* See \link TopicCustomizing_Plugins customizing Eigen \endlink for details.
	*
	* The \c Derived class has to provide the following two methods describing the memory layout:
	* \code Index innerStride() const; \endcode
	* \code Index outerStride() const; \endcode
	*
	* \sa class Map, class Block
	*/
	template <typename Derived>
	class MapBase<Derived, ReadOnlyAccessors> : public internal::dense_xpr_base<Derived>::type {
	public:
	typedef typename internal::dense_xpr_base<Derived>::type Base;
	enum {
	RowsAtCompileTime = internal::traits<Derived>::RowsAtCompileTime,
	ColsAtCompileTime = internal::traits<Derived>::ColsAtCompileTime,
	InnerStrideAtCompileTime = internal::traits<Derived>::InnerStrideAtCompileTime,
	SizeAtCompileTime = Base::SizeAtCompileTime
	};

	typedef typename internal::traits<Derived>::StorageKind StorageKind;
	typedef typename internal::traits<Derived>::Scalar Scalar;
	typedef typename internal::packet_traits<Scalar>::type PacketScalar;
	typedef typename NumTraits<Scalar>::Real RealScalar;
	typedef std::conditional_t<bool(internal::is_lvalue<Derived>::value), Scalar, const Scalar> PointerType;

	using Base::derived;
	// using Base::RowsAtCompileTime;
	// using Base::ColsAtCompileTime;
	// using Base::SizeAtCompileTime;
	using Base::Flags;
	using Base::IsRowMajor;
	using Base::IsVectorAtCompileTime;
	using Base::MaxColsAtCompileTime;
	using Base::MaxRowsAtCompileTime;
	using Base::MaxSizeAtCompileTime;

	using Base::coeff;
	using Base::coeffRef;
	using Base::cols;
	using Base::eval;
	using Base::lazyAssign;
	using Base::rows;
	using Base::size;

	using Base::colStride;
	using Base::innerStride;
	using Base::outerStride;
	using Base::rowStride;

	// bug 217 - compile error on ICC 11.1
	using Base::operator=;

	typedef typename Base::CoeffReturnType CoeffReturnType;

	/** \copydoc DenseBase::rows() */
	EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index rows() const EIGEN_NOEXCEPT { return m_rows.value(); }
	/** \copydoc DenseBase::cols() */
	EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index cols() const EIGEN_NOEXCEPT { return m_cols.value(); }

	/** Returns a pointer to the first coefficient of the matrix or vector.
	*
	* \note When addressing this data, make sure to honor the strides returned by innerStride() and outerStride().
	*
	* \sa innerStride(), outerStride()
	*/
	EIGEN_DEVICE_FUNC inline const Scalar* data() const { return m_data; }

	/** \copydoc PlainObjectBase::coeff(Index,Index) const */
	EIGEN_DEVICE_FUNC inline const Scalar& coeff(Index rowId, Index colId) const {
	return m_data[colId * colStride() + rowId * rowStride()];
	}

	/** \copydoc PlainObjectBase::coeff(Index) const */
	EIGEN_DEVICE_FUNC inline const Scalar& coeff(Index index) const {
	EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)
	return m_data[index * innerStride()];
	}

	/** \copydoc PlainObjectBase::coeffRef(Index,Index) const */
	EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index rowId, Index colId) const {
	return this->m_data[colId * colStride() + rowId * rowStride()];
	}

	/** \copydoc PlainObjectBase::coeffRef(Index) const */
	EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index index) const {
	EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)
	return this->m_data[index * innerStride()];
	}

	/** \internal */
	template <int LoadMode>
	inline PacketScalar packet(Index rowId, Index colId) const {
	return internal::ploadt<PacketScalar, LoadMode>(m_data + (colId * colStride() + rowId * rowStride()));
	}

	/** \internal */
	template <int LoadMode>
	inline PacketScalar packet(Index index) const {
	EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)
	return internal::ploadt<PacketScalar, LoadMode>(m_data + index * innerStride());
	}

	/** \internal Constructor for fixed size matrices or vectors */
	EIGEN_DEVICE_FUNC explicit inline MapBase(PointerType dataPtr)
	: m_data(dataPtr), m_rows(RowsAtCompileTime), m_cols(ColsAtCompileTime) {
	EIGEN_STATIC_ASSERT_FIXED_SIZE(Derived)
	checkSanity<Derived>();
	}

	/** \internal Constructor for dynamically sized vectors */
	EIGEN_DEVICE_FUNC inline MapBase(PointerType dataPtr, Index vecSize)
	: m_data(dataPtr),
	m_rows(RowsAtCompileTime == Dynamic ? vecSize : Index(RowsAtCompileTime)),
	m_cols(ColsAtCompileTime == Dynamic ? vecSize : Index(ColsAtCompileTime)) {
	EIGEN_STATIC_ASSERT_VECTOR_ONLY(Derived)
	eigen_assert(vecSize >= 0);
	eigen_assert(dataPtr == 0 \|\| SizeAtCompileTime == Dynamic \|\| SizeAtCompileTime == vecSize);
	checkSanity<Derived>();
	}

	/** \internal Constructor for dynamically sized matrices */
	EIGEN_DEVICE_FUNC inline MapBase(PointerType dataPtr, Index rows, Index cols)
	: m_data(dataPtr), m_rows(rows), m_cols(cols) {
	eigen_assert((dataPtr == 0) \|\| (rows >= 0 && (RowsAtCompileTime == Dynamic \|\| RowsAtCompileTime == rows) &&
	cols >= 0 && (ColsAtCompileTime == Dynamic \|\| ColsAtCompileTime == cols)));
	checkSanity<Derived>();
	}

	#ifdef EIGEN_MAPBASE_PLUGIN
	#include EIGEN_MAPBASE_PLUGIN
	#endif

	protected:
	EIGEN_DEFAULT_COPY_CONSTRUCTOR(MapBase)
	EIGEN_DEFAULT_EMPTY_CONSTRUCTOR_AND_DESTRUCTOR(MapBase)

	template <typename T>
	EIGEN_DEVICE_FUNC void checkSanity(std::enable_if_t<(internal::traits<T>::Alignment > 0), void*> = 0) const {
	// Temporary macro to allow scalars to not be properly aligned. This is while we sort out failures
	// in TensorFlow Lite that are currently relying on this UB.
	#ifndef EIGEN_ALLOW_UNALIGNED_SCALARS
	// Pointer must be aligned to the Scalar type, otherwise we get UB.
	eigen_assert((std::uintptr_t(m_data) % alignof(Scalar) == 0) && "data is not scalar-aligned");
	#endif
	#if EIGEN_MAX_ALIGN_BYTES > 0
	// innerStride() is not set yet when this function is called, so we optimistically assume the lowest plausible
	// value:
	const Index minInnerStride = InnerStrideAtCompileTime == Dynamic ? 1 : Index(InnerStrideAtCompileTime);
	EIGEN_ONLY_USED_FOR_DEBUG(minInnerStride);
	eigen_assert((((std::uintptr_t(m_data) % internal::traits<Derived>::Alignment) == 0) \|\|
	(cols() * rows() * minInnerStride * sizeof(Scalar)) < internal::traits<Derived>::Alignment) &&
	"data is not aligned");
	#endif
	}

	template <typename T>
	EIGEN_DEVICE_FUNC void checkSanity(std::enable_if_t<internal::traits<T>::Alignment == 0, void*> = 0) const {
	#ifndef EIGEN_ALLOW_UNALIGNED_SCALARS
	// Pointer must be aligned to the Scalar type, otherwise we get UB.
	eigen_assert((std::uintptr_t(m_data) % alignof(Scalar) == 0) && "data is not scalar-aligned");
	#endif
	}

	PointerType m_data;
	const internal::variable_if_dynamic<Index, RowsAtCompileTime> m_rows;
	const internal::variable_if_dynamic<Index, ColsAtCompileTime> m_cols;
	};

	/** \ingroup Core_Module
	*
	* \brief Base class for non-const dense Map and Block expression with direct access
	*
	* This base class provides the non-const low-level accessors (e.g. coeff and coeffRef) of
	* dense Map and Block objects with direct access.
	* It inherits MapBase<Derived, ReadOnlyAccessors> which defines the const variant for reading specific entries.
	*
	* \sa class Map, class Block
	*/
	template <typename Derived>
	class MapBase<Derived, WriteAccessors> : public MapBase<Derived, ReadOnlyAccessors> {
	typedef MapBase<Derived, ReadOnlyAccessors> ReadOnlyMapBase;

	public:
	typedef MapBase<Derived, ReadOnlyAccessors> Base;

	typedef typename Base::Scalar Scalar;
	typedef typename Base::PacketScalar PacketScalar;
	typedef typename Base::StorageIndex StorageIndex;
	typedef typename Base::PointerType PointerType;

	using Base::coeff;
	using Base::coeffRef;
	using Base::cols;
	using Base::derived;
	using Base::rows;
	using Base::size;

	using Base::colStride;
	using Base::innerStride;
	using Base::outerStride;
	using Base::rowStride;

	typedef std::conditional_t<internal::is_lvalue<Derived>::value, Scalar, const Scalar> ScalarWithConstIfNotLvalue;

	EIGEN_DEVICE_FUNC inline const Scalar* data() const { return this->m_data; }
	EIGEN_DEVICE_FUNC inline ScalarWithConstIfNotLvalue* data() {
	return this->m_data;
	} // no const-cast here so non-const-correct code will give a compile error

	EIGEN_DEVICE_FUNC inline ScalarWithConstIfNotLvalue& coeffRef(Index row, Index col) {
	return this->m_data[col * colStride() + row * rowStride()];
	}

	EIGEN_DEVICE_FUNC inline ScalarWithConstIfNotLvalue& coeffRef(Index index) {
	EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)
	return this->m_data[index * innerStride()];
	}

	template <int StoreMode>
	inline void writePacket(Index row, Index col, const PacketScalar& val) {
	internal::pstoret<Scalar, PacketScalar, StoreMode>(this->m_data + (col * colStride() + row * rowStride()), val);
	}

	template <int StoreMode>
	inline void writePacket(Index index, const PacketScalar& val) {
	EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS(Derived)
	internal::pstoret<Scalar, PacketScalar, StoreMode>(this->m_data + index * innerStride(), val);
	}

	EIGEN_DEVICE_FUNC explicit inline MapBase(PointerType dataPtr) : Base(dataPtr) {}
	EIGEN_DEVICE_FUNC inline MapBase(PointerType dataPtr, Index vecSize) : Base(dataPtr, vecSize) {}
	EIGEN_DEVICE_FUNC inline MapBase(PointerType dataPtr, Index rows, Index cols) : Base(dataPtr, rows, cols) {}

	EIGEN_DEVICE_FUNC Derived& operator=(const MapBase& other) {
	ReadOnlyMapBase::Base::operator=(other);
	return derived();
	}

	// In theory we could simply refer to Base:Base::operator=, but MSVC does not like Base::Base,
	// see bugs 821 and 920.
	using ReadOnlyMapBase::Base::operator=;

	protected:
	EIGEN_DEFAULT_COPY_CONSTRUCTOR(MapBase)
	EIGEN_DEFAULT_EMPTY_CONSTRUCTOR_AND_DESTRUCTOR(MapBase)
	};

	#undef EIGEN_STATIC_ASSERT_INDEX_BASED_ACCESS

	} // end namespace Eigen

	#endif // EIGEN_MAPBASE_H