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

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2009-2010 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_ARRAYWRAPPER_H
 #define EIGEN_ARRAYWRAPPER_H

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

 namespace Eigen {

 /** \class ArrayWrapper
  * \ingroup Core_Module
  *
  * \brief Expression of a mathematical vector or matrix as an array object
  *
  * This class is the return type of MatrixBase::array(), and most of the time
  * this is the only way it is use.
  *
  * \sa MatrixBase::array(), class MatrixWrapper
  */

 namespace internal {
 template <typename ExpressionType>
 struct traits<ArrayWrapper<ExpressionType> > : public traits<remove_all_t<typename ExpressionType::Nested> > {
   typedef ArrayXpr XprKind;
   // Let's remove NestByRefBit
   enum {
     Flags0 = traits<remove_all_t<typename ExpressionType::Nested> >::Flags,
     LvalueBitFlag = is_lvalue<ExpressionType>::value ? LvalueBit : 0,
     Flags = (Flags0 & ~(NestByRefBit | LvalueBit)) | LvalueBitFlag
   };
 };
 }  // namespace internal

 template <typename ExpressionType>
 class ArrayWrapper : public ArrayBase<ArrayWrapper<ExpressionType> > {
  public:
   typedef ArrayBase<ArrayWrapper> Base;
   EIGEN_DENSE_PUBLIC_INTERFACE(ArrayWrapper)
   EIGEN_INHERIT_ASSIGNMENT_OPERATORS(ArrayWrapper)
   typedef internal::remove_all_t<ExpressionType> NestedExpression;

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

   typedef typename internal::ref_selector<ExpressionType>::non_const_type NestedExpressionType;

   using Base::coeffRef;

   EIGEN_DEVICE_FUNC explicit EIGEN_STRONG_INLINE ArrayWrapper(ExpressionType& matrix) : m_expression(matrix) {}

   EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index rows() const EIGEN_NOEXCEPT { return m_expression.rows(); }
   EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index cols() const EIGEN_NOEXCEPT { return m_expression.cols(); }
   EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index outerStride() const EIGEN_NOEXCEPT {
     return m_expression.outerStride();
   }
   EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index innerStride() const EIGEN_NOEXCEPT {
     return m_expression.innerStride();
   }

   EIGEN_DEVICE_FUNC constexpr ScalarWithConstIfNotLvalue* data() { return m_expression.data(); }
   EIGEN_DEVICE_FUNC constexpr const Scalar* data() const { return m_expression.data(); }

   EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index rowId, Index colId) const {
     return m_expression.coeffRef(rowId, colId);
   }

   EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index index) const { return m_expression.coeffRef(index); }

   template <typename Dest>
   EIGEN_DEVICE_FUNC inline void evalTo(Dest& dst) const {
     dst = m_expression;
   }

   EIGEN_DEVICE_FUNC const internal::remove_all_t<NestedExpressionType>& nestedExpression() const {
     return m_expression;
   }

   /** Forwards the resizing request to the nested expression
    * \sa DenseBase::resize(Index)  */
   EIGEN_DEVICE_FUNC void resize(Index newSize) { m_expression.resize(newSize); }
   /** Forwards the resizing request to the nested expression
    * \sa DenseBase::resize(Index,Index)*/
   EIGEN_DEVICE_FUNC void resize(Index rows, Index cols) { m_expression.resize(rows, cols); }

  protected:
   NestedExpressionType m_expression;
 };

 /** \class MatrixWrapper
  * \ingroup Core_Module
  *
  * \brief Expression of an array as a mathematical vector or matrix
  *
  * This class is the return type of ArrayBase::matrix(), and most of the time
  * this is the only way it is use.
  *
  * \sa MatrixBase::matrix(), class ArrayWrapper
  */

 namespace internal {
 template <typename ExpressionType>
 struct traits<MatrixWrapper<ExpressionType> > : public traits<remove_all_t<typename ExpressionType::Nested> > {
   typedef MatrixXpr XprKind;
   // Let's remove NestByRefBit
   enum {
     Flags0 = traits<remove_all_t<typename ExpressionType::Nested> >::Flags,
     LvalueBitFlag = is_lvalue<ExpressionType>::value ? LvalueBit : 0,
     Flags = (Flags0 & ~(NestByRefBit | LvalueBit)) | LvalueBitFlag
   };
 };
 }  // namespace internal

 template <typename ExpressionType>
 class MatrixWrapper : public MatrixBase<MatrixWrapper<ExpressionType> > {
  public:
   typedef MatrixBase<MatrixWrapper<ExpressionType> > Base;
   EIGEN_DENSE_PUBLIC_INTERFACE(MatrixWrapper)
   EIGEN_INHERIT_ASSIGNMENT_OPERATORS(MatrixWrapper)
   typedef internal::remove_all_t<ExpressionType> NestedExpression;

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

   typedef typename internal::ref_selector<ExpressionType>::non_const_type NestedExpressionType;

   using Base::coeffRef;

   EIGEN_DEVICE_FUNC explicit inline MatrixWrapper(ExpressionType& matrix) : m_expression(matrix) {}

   EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index rows() const EIGEN_NOEXCEPT { return m_expression.rows(); }
   EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index cols() const EIGEN_NOEXCEPT { return m_expression.cols(); }
   EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index outerStride() const EIGEN_NOEXCEPT {
     return m_expression.outerStride();
   }
   EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index innerStride() const EIGEN_NOEXCEPT {
     return m_expression.innerStride();
   }

   EIGEN_DEVICE_FUNC constexpr ScalarWithConstIfNotLvalue* data() { return m_expression.data(); }
   EIGEN_DEVICE_FUNC constexpr const Scalar* data() const { return m_expression.data(); }

   EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index rowId, Index colId) const {
     return m_expression.derived().coeffRef(rowId, colId);
   }

   EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index index) const { return m_expression.coeffRef(index); }

   EIGEN_DEVICE_FUNC const internal::remove_all_t<NestedExpressionType>& nestedExpression() const {
     return m_expression;
   }

   /** Forwards the resizing request to the nested expression
    * \sa DenseBase::resize(Index)  */
   EIGEN_DEVICE_FUNC void resize(Index newSize) { m_expression.resize(newSize); }
   /** Forwards the resizing request to the nested expression
    * \sa DenseBase::resize(Index,Index)*/
   EIGEN_DEVICE_FUNC void resize(Index rows, Index cols) { m_expression.resize(rows, cols); }

  protected:
   NestedExpressionType m_expression;
 };

 }  // end namespace Eigen

 #endif  // EIGEN_ARRAYWRAPPER_H
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2009-2010 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_ARRAYWRAPPER_H
	#define EIGEN_ARRAYWRAPPER_H

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

	namespace Eigen {

	/** \class ArrayWrapper
	* \ingroup Core_Module
	*
	* \brief Expression of a mathematical vector or matrix as an array object
	*
	* This class is the return type of MatrixBase::array(), and most of the time
	* this is the only way it is use.
	*
	* \sa MatrixBase::array(), class MatrixWrapper
	*/

	namespace internal {
	template <typename ExpressionType>
	struct traits<ArrayWrapper<ExpressionType> > : public traits<remove_all_t<typename ExpressionType::Nested> > {
	typedef ArrayXpr XprKind;
	// Let's remove NestByRefBit
	enum {
	Flags0 = traits<remove_all_t<typename ExpressionType::Nested> >::Flags,
	LvalueBitFlag = is_lvalue<ExpressionType>::value ? LvalueBit : 0,
	Flags = (Flags0 & ~(NestByRefBit \| LvalueBit)) \| LvalueBitFlag
	};
	};
	} // namespace internal

	template <typename ExpressionType>
	class ArrayWrapper : public ArrayBase<ArrayWrapper<ExpressionType> > {
	public:
	typedef ArrayBase<ArrayWrapper> Base;
	EIGEN_DENSE_PUBLIC_INTERFACE(ArrayWrapper)
	EIGEN_INHERIT_ASSIGNMENT_OPERATORS(ArrayWrapper)
	typedef internal::remove_all_t<ExpressionType> NestedExpression;

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

	typedef typename internal::ref_selector<ExpressionType>::non_const_type NestedExpressionType;

	using Base::coeffRef;

	EIGEN_DEVICE_FUNC explicit EIGEN_STRONG_INLINE ArrayWrapper(ExpressionType& matrix) : m_expression(matrix) {}

	EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index rows() const EIGEN_NOEXCEPT { return m_expression.rows(); }
	EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index cols() const EIGEN_NOEXCEPT { return m_expression.cols(); }
	EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index outerStride() const EIGEN_NOEXCEPT {
	return m_expression.outerStride();
	}
	EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index innerStride() const EIGEN_NOEXCEPT {
	return m_expression.innerStride();
	}

	EIGEN_DEVICE_FUNC constexpr ScalarWithConstIfNotLvalue* data() { return m_expression.data(); }
	EIGEN_DEVICE_FUNC constexpr const Scalar* data() const { return m_expression.data(); }

	EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index rowId, Index colId) const {
	return m_expression.coeffRef(rowId, colId);
	}

	EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index index) const { return m_expression.coeffRef(index); }

	template <typename Dest>
	EIGEN_DEVICE_FUNC inline void evalTo(Dest& dst) const {
	dst = m_expression;
	}

	EIGEN_DEVICE_FUNC const internal::remove_all_t<NestedExpressionType>& nestedExpression() const {
	return m_expression;
	}

	/** Forwards the resizing request to the nested expression
	* \sa DenseBase::resize(Index) */
	EIGEN_DEVICE_FUNC void resize(Index newSize) { m_expression.resize(newSize); }
	/** Forwards the resizing request to the nested expression
	* \sa DenseBase::resize(Index,Index)*/
	EIGEN_DEVICE_FUNC void resize(Index rows, Index cols) { m_expression.resize(rows, cols); }

	protected:
	NestedExpressionType m_expression;
	};

	/** \class MatrixWrapper
	* \ingroup Core_Module
	*
	* \brief Expression of an array as a mathematical vector or matrix
	*
	* This class is the return type of ArrayBase::matrix(), and most of the time
	* this is the only way it is use.
	*
	* \sa MatrixBase::matrix(), class ArrayWrapper
	*/

	namespace internal {
	template <typename ExpressionType>
	struct traits<MatrixWrapper<ExpressionType> > : public traits<remove_all_t<typename ExpressionType::Nested> > {
	typedef MatrixXpr XprKind;
	// Let's remove NestByRefBit
	enum {
	Flags0 = traits<remove_all_t<typename ExpressionType::Nested> >::Flags,
	LvalueBitFlag = is_lvalue<ExpressionType>::value ? LvalueBit : 0,
	Flags = (Flags0 & ~(NestByRefBit \| LvalueBit)) \| LvalueBitFlag
	};
	};
	} // namespace internal

	template <typename ExpressionType>
	class MatrixWrapper : public MatrixBase<MatrixWrapper<ExpressionType> > {
	public:
	typedef MatrixBase<MatrixWrapper<ExpressionType> > Base;
	EIGEN_DENSE_PUBLIC_INTERFACE(MatrixWrapper)
	EIGEN_INHERIT_ASSIGNMENT_OPERATORS(MatrixWrapper)
	typedef internal::remove_all_t<ExpressionType> NestedExpression;

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

	typedef typename internal::ref_selector<ExpressionType>::non_const_type NestedExpressionType;

	using Base::coeffRef;

	EIGEN_DEVICE_FUNC explicit inline MatrixWrapper(ExpressionType& matrix) : m_expression(matrix) {}

	EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index rows() const EIGEN_NOEXCEPT { return m_expression.rows(); }
	EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index cols() const EIGEN_NOEXCEPT { return m_expression.cols(); }
	EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index outerStride() const EIGEN_NOEXCEPT {
	return m_expression.outerStride();
	}
	EIGEN_DEVICE_FUNC EIGEN_CONSTEXPR inline Index innerStride() const EIGEN_NOEXCEPT {
	return m_expression.innerStride();
	}

	EIGEN_DEVICE_FUNC constexpr ScalarWithConstIfNotLvalue* data() { return m_expression.data(); }
	EIGEN_DEVICE_FUNC constexpr const Scalar* data() const { return m_expression.data(); }

	EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index rowId, Index colId) const {
	return m_expression.derived().coeffRef(rowId, colId);
	}

	EIGEN_DEVICE_FUNC inline const Scalar& coeffRef(Index index) const { return m_expression.coeffRef(index); }

	EIGEN_DEVICE_FUNC const internal::remove_all_t<NestedExpressionType>& nestedExpression() const {
	return m_expression;
	}

	/** Forwards the resizing request to the nested expression
	* \sa DenseBase::resize(Index) */
	EIGEN_DEVICE_FUNC void resize(Index newSize) { m_expression.resize(newSize); }
	/** Forwards the resizing request to the nested expression
	* \sa DenseBase::resize(Index,Index)*/
	EIGEN_DEVICE_FUNC void resize(Index rows, Index cols) { m_expression.resize(rows, cols); }

	protected:
	NestedExpressionType m_expression;
	};

	} // end namespace Eigen

	#endif // EIGEN_ARRAYWRAPPER_H