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399 lines
16 KiB
C++
399 lines
16 KiB
C++
// This file is part of Eigen, a lightweight C++ template library
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// for linear algebra.
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//
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// Copyright (C) 2008-2017 Gael Guennebaud <gael.guennebaud@inria.fr>
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// Copyright (C) 2014 yoco <peter.xiau@gmail.com>
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//
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// This Source Code Form is subject to the terms of the Mozilla
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// Public License v. 2.0. If a copy of the MPL was not distributed
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// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
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#ifndef EIGEN_RESHAPED_H
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#define EIGEN_RESHAPED_H
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// IWYU pragma: private
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#include "./InternalHeaderCheck.h"
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namespace Eigen {
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/** \class Reshaped
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* \ingroup Core_Module
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*
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* \brief Expression of a fixed-size or dynamic-size reshape
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*
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* \tparam XprType the type of the expression in which we are taking a reshape
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* \tparam Rows the number of rows of the reshape we are taking at compile time (optional)
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* \tparam Cols the number of columns of the reshape we are taking at compile time (optional)
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* \tparam Order can be ColMajor or RowMajor, default is ColMajor.
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*
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* This class represents an expression of either a fixed-size or dynamic-size reshape.
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* It is the return type of DenseBase::reshaped(NRowsType,NColsType) and
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* most of the time this is the only way it is used.
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*
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* If you want to directly manipulate reshaped expressions,
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* for instance if you want to write a function returning such an expression,
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* it is advised to use the \em auto keyword for such use cases.
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*
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* Here is an example illustrating the dynamic case:
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* \include class_Reshaped.cpp
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* Output: \verbinclude class_Reshaped.out
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*
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* Here is an example illustrating the fixed-size case:
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* \include class_FixedReshaped.cpp
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* Output: \verbinclude class_FixedReshaped.out
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*
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* \sa DenseBase::reshaped(NRowsType,NColsType)
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*/
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namespace internal {
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template <typename XprType, int Rows, int Cols, int Order>
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struct traits<Reshaped<XprType, Rows, Cols, Order> > : traits<XprType> {
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typedef typename traits<XprType>::Scalar Scalar;
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typedef typename traits<XprType>::StorageKind StorageKind;
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typedef typename traits<XprType>::XprKind XprKind;
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enum {
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MatrixRows = traits<XprType>::RowsAtCompileTime,
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MatrixCols = traits<XprType>::ColsAtCompileTime,
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RowsAtCompileTime = Rows,
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ColsAtCompileTime = Cols,
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MaxRowsAtCompileTime = Rows,
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MaxColsAtCompileTime = Cols,
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XpxStorageOrder = ((int(traits<XprType>::Flags) & RowMajorBit) == RowMajorBit) ? RowMajor : ColMajor,
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ReshapedStorageOrder = (RowsAtCompileTime == 1 && ColsAtCompileTime != 1) ? RowMajor
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: (ColsAtCompileTime == 1 && RowsAtCompileTime != 1) ? ColMajor
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: XpxStorageOrder,
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HasSameStorageOrderAsXprType = (ReshapedStorageOrder == XpxStorageOrder),
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InnerSize = (ReshapedStorageOrder == int(RowMajor)) ? int(ColsAtCompileTime) : int(RowsAtCompileTime),
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InnerStrideAtCompileTime = HasSameStorageOrderAsXprType ? int(inner_stride_at_compile_time<XprType>::ret) : Dynamic,
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OuterStrideAtCompileTime = Dynamic,
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HasDirectAccess = internal::has_direct_access<XprType>::ret && (Order == int(XpxStorageOrder)) &&
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((evaluator<XprType>::Flags & LinearAccessBit) == LinearAccessBit),
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MaskPacketAccessBit =
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(InnerSize == Dynamic || (InnerSize % packet_traits<Scalar>::size) == 0) && (InnerStrideAtCompileTime == 1)
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? PacketAccessBit
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: 0,
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// MaskAlignedBit = ((OuterStrideAtCompileTime!=Dynamic) && (((OuterStrideAtCompileTime * int(sizeof(Scalar))) % 16)
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// == 0)) ? AlignedBit : 0,
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FlagsLinearAccessBit = (RowsAtCompileTime == 1 || ColsAtCompileTime == 1) ? LinearAccessBit : 0,
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FlagsLvalueBit = is_lvalue<XprType>::value ? LvalueBit : 0,
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FlagsRowMajorBit = (ReshapedStorageOrder == int(RowMajor)) ? RowMajorBit : 0,
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FlagsDirectAccessBit = HasDirectAccess ? DirectAccessBit : 0,
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Flags0 = traits<XprType>::Flags & ((HereditaryBits & ~RowMajorBit) | MaskPacketAccessBit),
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Flags = (Flags0 | FlagsLinearAccessBit | FlagsLvalueBit | FlagsRowMajorBit | FlagsDirectAccessBit)
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};
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};
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template <typename XprType, int Rows, int Cols, int Order, bool HasDirectAccess>
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class ReshapedImpl_dense;
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} // end namespace internal
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template <typename XprType, int Rows, int Cols, int Order, typename StorageKind>
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class ReshapedImpl;
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template <typename XprType, int Rows, int Cols, int Order>
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class Reshaped : public ReshapedImpl<XprType, Rows, Cols, Order, typename internal::traits<XprType>::StorageKind> {
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typedef ReshapedImpl<XprType, Rows, Cols, Order, typename internal::traits<XprType>::StorageKind> Impl;
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public:
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// typedef typename Impl::Base Base;
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typedef Impl Base;
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EIGEN_GENERIC_PUBLIC_INTERFACE(Reshaped)
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EIGEN_INHERIT_ASSIGNMENT_OPERATORS(Reshaped)
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/** Fixed-size constructor
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*/
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EIGEN_DEVICE_FUNC inline Reshaped(XprType& xpr) : Impl(xpr) {
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EIGEN_STATIC_ASSERT(RowsAtCompileTime != Dynamic && ColsAtCompileTime != Dynamic,
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THIS_METHOD_IS_ONLY_FOR_FIXED_SIZE)
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eigen_assert(Rows * Cols == xpr.rows() * xpr.cols());
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}
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/** Dynamic-size constructor
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*/
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EIGEN_DEVICE_FUNC inline Reshaped(XprType& xpr, Index reshapeRows, Index reshapeCols)
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: Impl(xpr, reshapeRows, reshapeCols) {
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eigen_assert((RowsAtCompileTime == Dynamic || RowsAtCompileTime == reshapeRows) &&
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(ColsAtCompileTime == Dynamic || ColsAtCompileTime == reshapeCols));
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eigen_assert(reshapeRows * reshapeCols == xpr.rows() * xpr.cols());
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}
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};
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// The generic default implementation for dense reshape simply forward to the internal::ReshapedImpl_dense
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// that must be specialized for direct and non-direct access...
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template <typename XprType, int Rows, int Cols, int Order>
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class ReshapedImpl<XprType, Rows, Cols, Order, Dense>
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: public internal::ReshapedImpl_dense<XprType, Rows, Cols, Order,
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internal::traits<Reshaped<XprType, Rows, Cols, Order> >::HasDirectAccess> {
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typedef internal::ReshapedImpl_dense<XprType, Rows, Cols, Order,
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internal::traits<Reshaped<XprType, Rows, Cols, Order> >::HasDirectAccess>
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Impl;
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public:
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typedef Impl Base;
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EIGEN_INHERIT_ASSIGNMENT_OPERATORS(ReshapedImpl)
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EIGEN_DEVICE_FUNC inline ReshapedImpl(XprType& xpr) : Impl(xpr) {}
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EIGEN_DEVICE_FUNC inline ReshapedImpl(XprType& xpr, Index reshapeRows, Index reshapeCols)
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: Impl(xpr, reshapeRows, reshapeCols) {}
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};
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namespace internal {
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/** \internal Internal implementation of dense Reshaped in the general case. */
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template <typename XprType, int Rows, int Cols, int Order>
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class ReshapedImpl_dense<XprType, Rows, Cols, Order, false>
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: public internal::dense_xpr_base<Reshaped<XprType, Rows, Cols, Order> >::type {
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typedef Reshaped<XprType, Rows, Cols, Order> ReshapedType;
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public:
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typedef typename internal::dense_xpr_base<ReshapedType>::type Base;
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EIGEN_DENSE_PUBLIC_INTERFACE(ReshapedType)
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EIGEN_INHERIT_ASSIGNMENT_OPERATORS(ReshapedImpl_dense)
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typedef typename internal::ref_selector<XprType>::non_const_type MatrixTypeNested;
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typedef internal::remove_all_t<XprType> NestedExpression;
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class InnerIterator;
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/** Fixed-size constructor
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*/
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EIGEN_DEVICE_FUNC inline ReshapedImpl_dense(XprType& xpr) : m_xpr(xpr), m_rows(Rows), m_cols(Cols) {}
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/** Dynamic-size constructor
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*/
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EIGEN_DEVICE_FUNC inline ReshapedImpl_dense(XprType& xpr, Index nRows, Index nCols)
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: m_xpr(xpr), m_rows(nRows), m_cols(nCols) {}
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EIGEN_DEVICE_FUNC Index rows() const { return m_rows; }
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EIGEN_DEVICE_FUNC Index cols() const { return m_cols; }
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#ifdef EIGEN_PARSED_BY_DOXYGEN
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/** \sa MapBase::data() */
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EIGEN_DEVICE_FUNC constexpr const Scalar* data() const;
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EIGEN_DEVICE_FUNC inline Index innerStride() const;
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EIGEN_DEVICE_FUNC inline Index outerStride() const;
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#endif
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/** \returns the nested expression */
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EIGEN_DEVICE_FUNC const internal::remove_all_t<XprType>& nestedExpression() const { return m_xpr; }
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/** \returns the nested expression */
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EIGEN_DEVICE_FUNC std::remove_reference_t<XprType>& nestedExpression() { return m_xpr; }
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protected:
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MatrixTypeNested m_xpr;
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const internal::variable_if_dynamic<Index, Rows> m_rows;
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const internal::variable_if_dynamic<Index, Cols> m_cols;
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};
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/** \internal Internal implementation of dense Reshaped in the direct access case. */
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template <typename XprType, int Rows, int Cols, int Order>
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class ReshapedImpl_dense<XprType, Rows, Cols, Order, true> : public MapBase<Reshaped<XprType, Rows, Cols, Order> > {
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typedef Reshaped<XprType, Rows, Cols, Order> ReshapedType;
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typedef typename internal::ref_selector<XprType>::non_const_type XprTypeNested;
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public:
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typedef MapBase<ReshapedType> Base;
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EIGEN_DENSE_PUBLIC_INTERFACE(ReshapedType)
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EIGEN_INHERIT_ASSIGNMENT_OPERATORS(ReshapedImpl_dense)
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/** Fixed-size constructor
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*/
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EIGEN_DEVICE_FUNC inline ReshapedImpl_dense(XprType& xpr) : Base(xpr.data()), m_xpr(xpr) {}
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/** Dynamic-size constructor
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*/
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EIGEN_DEVICE_FUNC inline ReshapedImpl_dense(XprType& xpr, Index nRows, Index nCols)
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: Base(xpr.data(), nRows, nCols), m_xpr(xpr) {}
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EIGEN_DEVICE_FUNC const internal::remove_all_t<XprTypeNested>& nestedExpression() const { return m_xpr; }
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EIGEN_DEVICE_FUNC XprType& nestedExpression() { return m_xpr; }
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/** \sa MapBase::innerStride() */
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EIGEN_DEVICE_FUNC constexpr Index innerStride() const { return m_xpr.innerStride(); }
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/** \sa MapBase::outerStride() */
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EIGEN_DEVICE_FUNC constexpr Index outerStride() const {
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return (((Flags & RowMajorBit) == RowMajorBit) ? this->cols() : this->rows()) * m_xpr.innerStride();
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}
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protected:
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XprTypeNested m_xpr;
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};
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// Evaluators
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template <typename ArgType, int Rows, int Cols, int Order, bool HasDirectAccess>
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struct reshaped_evaluator;
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template <typename ArgType, int Rows, int Cols, int Order>
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struct evaluator<Reshaped<ArgType, Rows, Cols, Order> >
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: reshaped_evaluator<ArgType, Rows, Cols, Order, traits<Reshaped<ArgType, Rows, Cols, Order> >::HasDirectAccess> {
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typedef Reshaped<ArgType, Rows, Cols, Order> XprType;
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typedef typename XprType::Scalar Scalar;
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// TODO: should check for smaller packet types
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typedef typename packet_traits<Scalar>::type PacketScalar;
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enum {
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CoeffReadCost = evaluator<ArgType>::CoeffReadCost,
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HasDirectAccess = traits<XprType>::HasDirectAccess,
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// RowsAtCompileTime = traits<XprType>::RowsAtCompileTime,
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// ColsAtCompileTime = traits<XprType>::ColsAtCompileTime,
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// MaxRowsAtCompileTime = traits<XprType>::MaxRowsAtCompileTime,
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// MaxColsAtCompileTime = traits<XprType>::MaxColsAtCompileTime,
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//
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// InnerStrideAtCompileTime = traits<XprType>::HasSameStorageOrderAsXprType
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// ? int(inner_stride_at_compile_time<ArgType>::ret)
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// : Dynamic,
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// OuterStrideAtCompileTime = Dynamic,
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FlagsLinearAccessBit =
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(traits<XprType>::RowsAtCompileTime == 1 || traits<XprType>::ColsAtCompileTime == 1 || HasDirectAccess)
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? LinearAccessBit
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: 0,
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FlagsRowMajorBit = (traits<XprType>::ReshapedStorageOrder == int(RowMajor)) ? RowMajorBit : 0,
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FlagsDirectAccessBit = HasDirectAccess ? DirectAccessBit : 0,
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Flags0 = evaluator<ArgType>::Flags & (HereditaryBits & ~RowMajorBit),
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Flags = Flags0 | FlagsLinearAccessBit | FlagsRowMajorBit | FlagsDirectAccessBit,
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PacketAlignment = unpacket_traits<PacketScalar>::alignment,
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Alignment = evaluator<ArgType>::Alignment
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};
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typedef reshaped_evaluator<ArgType, Rows, Cols, Order, HasDirectAccess> reshaped_evaluator_type;
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EIGEN_DEVICE_FUNC explicit evaluator(const XprType& xpr) : reshaped_evaluator_type(xpr) {
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EIGEN_INTERNAL_CHECK_COST_VALUE(CoeffReadCost);
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}
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};
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template <typename ArgType, int Rows, int Cols, int Order>
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struct reshaped_evaluator<ArgType, Rows, Cols, Order, /* HasDirectAccess */ false>
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: evaluator_base<Reshaped<ArgType, Rows, Cols, Order> > {
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typedef Reshaped<ArgType, Rows, Cols, Order> XprType;
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enum {
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CoeffReadCost = evaluator<ArgType>::CoeffReadCost /* TODO + cost of index computations */,
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Flags = (evaluator<ArgType>::Flags & (HereditaryBits /*| LinearAccessBit | DirectAccessBit*/)),
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Alignment = 0
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};
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EIGEN_DEVICE_FUNC explicit reshaped_evaluator(const XprType& xpr) : m_argImpl(xpr.nestedExpression()), m_xpr(xpr) {
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EIGEN_INTERNAL_CHECK_COST_VALUE(CoeffReadCost);
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}
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typedef typename XprType::Scalar Scalar;
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typedef typename XprType::CoeffReturnType CoeffReturnType;
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typedef std::pair<Index, Index> RowCol;
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EIGEN_DEVICE_FUNC inline RowCol index_remap(Index rowId, Index colId) const {
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if (Order == ColMajor) {
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const Index nth_elem_idx = colId * m_xpr.rows() + rowId;
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return RowCol(nth_elem_idx % m_xpr.nestedExpression().rows(), nth_elem_idx / m_xpr.nestedExpression().rows());
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} else {
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const Index nth_elem_idx = colId + rowId * m_xpr.cols();
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return RowCol(nth_elem_idx / m_xpr.nestedExpression().cols(), nth_elem_idx % m_xpr.nestedExpression().cols());
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}
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}
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EIGEN_DEVICE_FUNC inline Scalar& coeffRef(Index rowId, Index colId) {
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EIGEN_STATIC_ASSERT_LVALUE(XprType)
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const RowCol row_col = index_remap(rowId, colId);
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return m_argImpl.coeffRef(row_col.first, row_col.second);
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}
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EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index rowId, Index colId) const {
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const RowCol row_col = index_remap(rowId, colId);
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return m_argImpl.coeffRef(row_col.first, row_col.second);
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}
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EIGEN_DEVICE_FUNC EIGEN_STRONG_INLINE const CoeffReturnType coeff(Index rowId, Index colId) const {
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const RowCol row_col = index_remap(rowId, colId);
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return m_argImpl.coeff(row_col.first, row_col.second);
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}
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EIGEN_DEVICE_FUNC inline Scalar& coeffRef(Index index) {
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EIGEN_STATIC_ASSERT_LVALUE(XprType)
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const RowCol row_col = index_remap(Rows == 1 ? 0 : index, Rows == 1 ? index : 0);
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return m_argImpl.coeffRef(row_col.first, row_col.second);
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}
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EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index index) const {
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const RowCol row_col = index_remap(Rows == 1 ? 0 : index, Rows == 1 ? index : 0);
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return m_argImpl.coeffRef(row_col.first, row_col.second);
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}
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EIGEN_DEVICE_FUNC inline const CoeffReturnType coeff(Index index) const {
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const RowCol row_col = index_remap(Rows == 1 ? 0 : index, Rows == 1 ? index : 0);
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return m_argImpl.coeff(row_col.first, row_col.second);
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}
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#if 0
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EIGEN_DEVICE_FUNC
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template<int LoadMode>
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inline PacketScalar packet(Index rowId, Index colId) const
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{
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const RowCol row_col = index_remap(rowId, colId);
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return m_argImpl.template packet<Unaligned>(row_col.first, row_col.second);
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}
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template<int LoadMode>
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EIGEN_DEVICE_FUNC
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inline void writePacket(Index rowId, Index colId, const PacketScalar& val)
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{
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const RowCol row_col = index_remap(rowId, colId);
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m_argImpl.const_cast_derived().template writePacket<Unaligned>
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(row_col.first, row_col.second, val);
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}
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template<int LoadMode>
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EIGEN_DEVICE_FUNC
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inline PacketScalar packet(Index index) const
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{
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const RowCol row_col = index_remap(RowsAtCompileTime == 1 ? 0 : index,
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RowsAtCompileTime == 1 ? index : 0);
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return m_argImpl.template packet<Unaligned>(row_col.first, row_col.second);
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}
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template<int LoadMode>
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EIGEN_DEVICE_FUNC
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inline void writePacket(Index index, const PacketScalar& val)
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{
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const RowCol row_col = index_remap(RowsAtCompileTime == 1 ? 0 : index,
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RowsAtCompileTime == 1 ? index : 0);
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return m_argImpl.template packet<Unaligned>(row_col.first, row_col.second, val);
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}
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#endif
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protected:
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evaluator<ArgType> m_argImpl;
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const XprType& m_xpr;
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};
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template <typename ArgType, int Rows, int Cols, int Order>
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struct reshaped_evaluator<ArgType, Rows, Cols, Order, /* HasDirectAccess */ true>
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: mapbase_evaluator<Reshaped<ArgType, Rows, Cols, Order>,
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typename Reshaped<ArgType, Rows, Cols, Order>::PlainObject> {
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typedef Reshaped<ArgType, Rows, Cols, Order> XprType;
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typedef typename XprType::Scalar Scalar;
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EIGEN_DEVICE_FUNC explicit reshaped_evaluator(const XprType& xpr)
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: mapbase_evaluator<XprType, typename XprType::PlainObject>(xpr) {
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// TODO: for the 3.4 release, this should be turned to an internal assertion, but let's keep it as is for the beta
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// lifetime
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eigen_assert(((std::uintptr_t(xpr.data()) % plain_enum_max(1, evaluator<XprType>::Alignment)) == 0) &&
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"data is not aligned");
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}
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};
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} // end namespace internal
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} // end namespace Eigen
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#endif // EIGEN_RESHAPED_H
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