Eigen/src/Core/Visitor.h - eigen/fuchsia - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // 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_VISITOR_H
 #define EIGEN_VISITOR_H

 namespace Eigen {

 namespace internal {

 template<typename Visitor, typename Derived, int UnrollCount>
 struct visitor_impl
 {
   enum {
     col = (UnrollCount-1) / Derived::RowsAtCompileTime,
     row = (UnrollCount-1) % Derived::RowsAtCompileTime
   };

   EIGEN_DEVICE_FUNC
   static inline void run(const Derived &mat, Visitor& visitor)
   {
     visitor_impl<Visitor, Derived, UnrollCount-1>::run(mat, visitor);
     visitor(mat.coeff(row, col), row, col);
   }
 };

 template<typename Visitor, typename Derived>
 struct visitor_impl<Visitor, Derived, 1>
 {
   EIGEN_DEVICE_FUNC
   static inline void run(const Derived &mat, Visitor& visitor)
   {
     return visitor.init(mat.coeff(0, 0), 0, 0);
   }
 };

 template<typename Visitor, typename Derived>
 struct visitor_impl<Visitor, Derived, Dynamic>
 {
   EIGEN_DEVICE_FUNC
   static inline void run(const Derived& mat, Visitor& visitor)
   {
     visitor.init(mat.coeff(0,0), 0, 0);
     for(Index i = 1; i < mat.rows(); ++i)
       visitor(mat.coeff(i, 0), i, 0);
     for(Index j = 1; j < mat.cols(); ++j)
       for(Index i = 0; i < mat.rows(); ++i)
         visitor(mat.coeff(i, j), i, j);
   }
 };

 // evaluator adaptor
 template<typename XprType>
 class visitor_evaluator
 {
 public:
   EIGEN_DEVICE_FUNC
   explicit visitor_evaluator(const XprType &xpr) : m_evaluator(xpr), m_xpr(xpr) {}

   typedef typename XprType::Scalar Scalar;
   typedef typename XprType::CoeffReturnType CoeffReturnType;

   enum {
     RowsAtCompileTime = XprType::RowsAtCompileTime,
     CoeffReadCost = internal::evaluator<XprType>::CoeffReadCost
   };

   EIGEN_DEVICE_FUNC Index rows() const { return m_xpr.rows(); }
   EIGEN_DEVICE_FUNC Index cols() const { return m_xpr.cols(); }
   EIGEN_DEVICE_FUNC Index size() const { return m_xpr.size(); }

   EIGEN_DEVICE_FUNC CoeffReturnType coeff(Index row, Index col) const
   { return m_evaluator.coeff(row, col); }

 protected:
   internal::evaluator<XprType> m_evaluator;
   const XprType &m_xpr;
 };
 } // end namespace internal

 /** Applies the visitor \a visitor to the whole coefficients of the matrix or vector.
   *
   * The template parameter \a Visitor is the type of the visitor and provides the following interface:
   * \code
   * struct MyVisitor {
   *   // called for the first coefficient
   *   void init(const Scalar& value, Index i, Index j);
   *   // called for all other coefficients
   *   void operator() (const Scalar& value, Index i, Index j);
   * };
   * \endcode
   *
   * \note compared to one or two \em for \em loops, visitors offer automatic
   * unrolling for small fixed size matrix.
   *
   * \sa minCoeff(Index*,Index*), maxCoeff(Index*,Index*), DenseBase::redux()
   */
 template<typename Derived>
 template<typename Visitor>
 EIGEN_DEVICE_FUNC
 void DenseBase<Derived>::visit(Visitor& visitor) const
 {
   typedef typename internal::visitor_evaluator<Derived> ThisEvaluator;
   ThisEvaluator thisEval(derived());

   enum {
     unroll =  SizeAtCompileTime != Dynamic
            && SizeAtCompileTime * ThisEvaluator::CoeffReadCost + (SizeAtCompileTime-1) * internal::functor_traits<Visitor>::Cost <= EIGEN_UNROLLING_LIMIT
   };
   return internal::visitor_impl<Visitor, ThisEvaluator, unroll ? int(SizeAtCompileTime) : Dynamic>::run(thisEval, visitor);
 }

 namespace internal {

 /** \internal
   * \brief Base class to implement min and max visitors
   */
 template <typename Derived>
 struct coeff_visitor
 {
   typedef typename Derived::Scalar Scalar;
   Index row, col;
   Scalar res;
   EIGEN_DEVICE_FUNC
   inline void init(const Scalar& value, Index i, Index j)
   {
     res = value;
     row = i;
     col = j;
   }
 };

 /** \internal
   * \brief Visitor computing the min coefficient with its value and coordinates
   *
   * \sa DenseBase::minCoeff(Index*, Index*)
   */
 template <typename Derived>
 struct min_coeff_visitor : coeff_visitor<Derived>
 {
   typedef typename Derived::Scalar Scalar;
   EIGEN_DEVICE_FUNC
   void operator() (const Scalar& value, Index i, Index j)
   {
     if(value < this->res)
     {
       this->res = value;
       this->row = i;
       this->col = j;
     }
   }
 };

 template<typename Scalar>
 struct functor_traits<min_coeff_visitor<Scalar> > {
   enum {
     Cost = NumTraits<Scalar>::AddCost
   };
 };

 /** \internal
   * \brief Visitor computing the max coefficient with its value and coordinates
   *
   * \sa DenseBase::maxCoeff(Index*, Index*)
   */
 template <typename Derived>
 struct max_coeff_visitor : coeff_visitor<Derived>
 {
   typedef typename Derived::Scalar Scalar;
   EIGEN_DEVICE_FUNC
   void operator() (const Scalar& value, Index i, Index j)
   {
     if(value > this->res)
     {
       this->res = value;
       this->row = i;
       this->col = j;
     }
   }
 };

 template<typename Scalar>
 struct functor_traits<max_coeff_visitor<Scalar> > {
   enum {
     Cost = NumTraits<Scalar>::AddCost
   };
 };

 } // end namespace internal

 /** \fn DenseBase<Derived>::minCoeff(IndexType* rowId, IndexType* colId) const
   * \returns the minimum of all coefficients of *this and puts in *row and *col its location.
   * \warning the result is undefined if \c *this contains NaN.
   *
   * \sa DenseBase::minCoeff(Index*), DenseBase::maxCoeff(Index*,Index*), DenseBase::visit(), DenseBase::minCoeff()
   */
 template<typename Derived>
 template<typename IndexType>
 EIGEN_DEVICE_FUNC
 typename internal::traits<Derived>::Scalar
 DenseBase<Derived>::minCoeff(IndexType* rowId, IndexType* colId) const
 {
   internal::min_coeff_visitor<Derived> minVisitor;
   this->visit(minVisitor);
   *rowId = minVisitor.row;
   if (colId) *colId = minVisitor.col;
   return minVisitor.res;
 }

 /** \returns the minimum of all coefficients of *this and puts in *index its location.
   * \warning the result is undefined if \c *this contains NaN.
   *
   * \sa DenseBase::minCoeff(IndexType*,IndexType*), DenseBase::maxCoeff(IndexType*,IndexType*), DenseBase::visit(), DenseBase::minCoeff()
   */
 template<typename Derived>
 template<typename IndexType>
 EIGEN_DEVICE_FUNC
 typename internal::traits<Derived>::Scalar
 DenseBase<Derived>::minCoeff(IndexType* index) const
 {
   EIGEN_STATIC_ASSERT_VECTOR_ONLY(Derived)
   internal::min_coeff_visitor<Derived> minVisitor;
   this->visit(minVisitor);
   *index = IndexType((RowsAtCompileTime==1) ? minVisitor.col : minVisitor.row);
   return minVisitor.res;
 }

 /** \fn DenseBase<Derived>::maxCoeff(IndexType* rowId, IndexType* colId) const
   * \returns the maximum of all coefficients of *this and puts in *row and *col its location.
   * \warning the result is undefined if \c *this contains NaN.
   *
   * \sa DenseBase::minCoeff(IndexType*,IndexType*), DenseBase::visit(), DenseBase::maxCoeff()
   */
 template<typename Derived>
 template<typename IndexType>
 EIGEN_DEVICE_FUNC
 typename internal::traits<Derived>::Scalar
 DenseBase<Derived>::maxCoeff(IndexType* rowPtr, IndexType* colPtr) const
 {
   internal::max_coeff_visitor<Derived> maxVisitor;
   this->visit(maxVisitor);
   *rowPtr = maxVisitor.row;
   if (colPtr) *colPtr = maxVisitor.col;
   return maxVisitor.res;
 }

 /** \returns the maximum of all coefficients of *this and puts in *index its location.
   * \warning the result is undefined if \c *this contains NaN.
   *
   * \sa DenseBase::maxCoeff(IndexType*,IndexType*), DenseBase::minCoeff(IndexType*,IndexType*), DenseBase::visitor(), DenseBase::maxCoeff()
   */
 template<typename Derived>
 template<typename IndexType>
 EIGEN_DEVICE_FUNC
 typename internal::traits<Derived>::Scalar
 DenseBase<Derived>::maxCoeff(IndexType* index) const
 {
   EIGEN_STATIC_ASSERT_VECTOR_ONLY(Derived)
   internal::max_coeff_visitor<Derived> maxVisitor;
   this->visit(maxVisitor);
   *index = (RowsAtCompileTime==1) ? maxVisitor.col : maxVisitor.row;
   return maxVisitor.res;
 }

 } // end namespace Eigen

 #endif // EIGEN_VISITOR_H
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// 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_VISITOR_H
	#define EIGEN_VISITOR_H

	namespace Eigen {

	namespace internal {

	template<typename Visitor, typename Derived, int UnrollCount>
	struct visitor_impl
	{
	enum {
	col = (UnrollCount-1) / Derived::RowsAtCompileTime,
	row = (UnrollCount-1) % Derived::RowsAtCompileTime
	};

	EIGEN_DEVICE_FUNC
	static inline void run(const Derived &mat, Visitor& visitor)
	{
	visitor_impl<Visitor, Derived, UnrollCount-1>::run(mat, visitor);
	visitor(mat.coeff(row, col), row, col);
	}
	};

	template<typename Visitor, typename Derived>
	struct visitor_impl<Visitor, Derived, 1>
	{
	EIGEN_DEVICE_FUNC
	static inline void run(const Derived &mat, Visitor& visitor)
	{
	return visitor.init(mat.coeff(0, 0), 0, 0);
	}
	};

	template<typename Visitor, typename Derived>
	struct visitor_impl<Visitor, Derived, Dynamic>
	{
	EIGEN_DEVICE_FUNC
	static inline void run(const Derived& mat, Visitor& visitor)
	{
	visitor.init(mat.coeff(0,0), 0, 0);
	for(Index i = 1; i < mat.rows(); ++i)
	visitor(mat.coeff(i, 0), i, 0);
	for(Index j = 1; j < mat.cols(); ++j)
	for(Index i = 0; i < mat.rows(); ++i)
	visitor(mat.coeff(i, j), i, j);
	}
	};

	// evaluator adaptor
	template<typename XprType>
	class visitor_evaluator
	{
	public:
	EIGEN_DEVICE_FUNC
	explicit visitor_evaluator(const XprType &xpr) : m_evaluator(xpr), m_xpr(xpr) {}

	typedef typename XprType::Scalar Scalar;
	typedef typename XprType::CoeffReturnType CoeffReturnType;

	enum {
	RowsAtCompileTime = XprType::RowsAtCompileTime,
	CoeffReadCost = internal::evaluator<XprType>::CoeffReadCost
	};

	EIGEN_DEVICE_FUNC Index rows() const { return m_xpr.rows(); }
	EIGEN_DEVICE_FUNC Index cols() const { return m_xpr.cols(); }
	EIGEN_DEVICE_FUNC Index size() const { return m_xpr.size(); }

	EIGEN_DEVICE_FUNC CoeffReturnType coeff(Index row, Index col) const
	{ return m_evaluator.coeff(row, col); }

	protected:
	internal::evaluator<XprType> m_evaluator;
	const XprType &m_xpr;
	};
	} // end namespace internal

	/** Applies the visitor \a visitor to the whole coefficients of the matrix or vector.
	*
	* The template parameter \a Visitor is the type of the visitor and provides the following interface:
	* \code
	* struct MyVisitor {
	* // called for the first coefficient
	* void init(const Scalar& value, Index i, Index j);
	* // called for all other coefficients
	* void operator() (const Scalar& value, Index i, Index j);
	* };
	* \endcode
	*
	* \note compared to one or two \em for \em loops, visitors offer automatic
	* unrolling for small fixed size matrix.
	*
	* \sa minCoeff(Index,Index), maxCoeff(Index,Index), DenseBase::redux()
	*/
	template<typename Derived>
	template<typename Visitor>
	EIGEN_DEVICE_FUNC
	void DenseBase<Derived>::visit(Visitor& visitor) const
	{
	typedef typename internal::visitor_evaluator<Derived> ThisEvaluator;
	ThisEvaluator thisEval(derived());

	enum {
	unroll = SizeAtCompileTime != Dynamic
	&& SizeAtCompileTime * ThisEvaluator::CoeffReadCost + (SizeAtCompileTime-1) * internal::functor_traits<Visitor>::Cost <= EIGEN_UNROLLING_LIMIT
	};
	return internal::visitor_impl<Visitor, ThisEvaluator, unroll ? int(SizeAtCompileTime) : Dynamic>::run(thisEval, visitor);
	}

	namespace internal {

	/** \internal
	* \brief Base class to implement min and max visitors
	*/
	template <typename Derived>
	struct coeff_visitor
	{
	typedef typename Derived::Scalar Scalar;
	Index row, col;
	Scalar res;
	EIGEN_DEVICE_FUNC
	inline void init(const Scalar& value, Index i, Index j)
	{
	res = value;
	row = i;
	col = j;
	}
	};

	/** \internal
	* \brief Visitor computing the min coefficient with its value and coordinates
	*
	* \sa DenseBase::minCoeff(Index, Index)
	*/
	template <typename Derived>
	struct min_coeff_visitor : coeff_visitor<Derived>
	{
	typedef typename Derived::Scalar Scalar;
	EIGEN_DEVICE_FUNC
	void operator() (const Scalar& value, Index i, Index j)
	{
	if(value < this->res)
	{
	this->res = value;
	this->row = i;
	this->col = j;
	}
	}
	};

	template<typename Scalar>
	struct functor_traits<min_coeff_visitor<Scalar> > {
	enum {
	Cost = NumTraits<Scalar>::AddCost
	};
	};

	/** \internal
	* \brief Visitor computing the max coefficient with its value and coordinates
	*
	* \sa DenseBase::maxCoeff(Index, Index)
	*/
	template <typename Derived>
	struct max_coeff_visitor : coeff_visitor<Derived>
	{
	typedef typename Derived::Scalar Scalar;
	EIGEN_DEVICE_FUNC
	void operator() (const Scalar& value, Index i, Index j)
	{
	if(value > this->res)
	{
	this->res = value;
	this->row = i;
	this->col = j;
	}
	}
	};

	template<typename Scalar>
	struct functor_traits<max_coeff_visitor<Scalar> > {
	enum {
	Cost = NumTraits<Scalar>::AddCost
	};
	};

	} // end namespace internal

	/** \fn DenseBase<Derived>::minCoeff(IndexType* rowId, IndexType* colId) const
	* \returns the minimum of all coefficients of this and puts in row and *col its location.
	* \warning the result is undefined if \c *this contains NaN.
	*
	* \sa DenseBase::minCoeff(Index), DenseBase::maxCoeff(Index,Index*), DenseBase::visit(), DenseBase::minCoeff()
	*/
	template<typename Derived>
	template<typename IndexType>
	EIGEN_DEVICE_FUNC
	typename internal::traits<Derived>::Scalar
	DenseBase<Derived>::minCoeff(IndexType* rowId, IndexType* colId) const
	{
	internal::min_coeff_visitor<Derived> minVisitor;
	this->visit(minVisitor);
	*rowId = minVisitor.row;
	if (colId) *colId = minVisitor.col;
	return minVisitor.res;
	}

	/** \returns the minimum of all coefficients of this and puts in index its location.
	* \warning the result is undefined if \c *this contains NaN.
	*
	* \sa DenseBase::minCoeff(IndexType,IndexType), DenseBase::maxCoeff(IndexType,IndexType), DenseBase::visit(), DenseBase::minCoeff()
	*/
	template<typename Derived>
	template<typename IndexType>
	EIGEN_DEVICE_FUNC
	typename internal::traits<Derived>::Scalar
	DenseBase<Derived>::minCoeff(IndexType* index) const
	{
	EIGEN_STATIC_ASSERT_VECTOR_ONLY(Derived)
	internal::min_coeff_visitor<Derived> minVisitor;
	this->visit(minVisitor);
	*index = IndexType((RowsAtCompileTime==1) ? minVisitor.col : minVisitor.row);
	return minVisitor.res;
	}

	/** \fn DenseBase<Derived>::maxCoeff(IndexType* rowId, IndexType* colId) const
	* \returns the maximum of all coefficients of this and puts in row and *col its location.
	* \warning the result is undefined if \c *this contains NaN.
	*
	* \sa DenseBase::minCoeff(IndexType,IndexType), DenseBase::visit(), DenseBase::maxCoeff()
	*/
	template<typename Derived>
	template<typename IndexType>
	EIGEN_DEVICE_FUNC
	typename internal::traits<Derived>::Scalar
	DenseBase<Derived>::maxCoeff(IndexType* rowPtr, IndexType* colPtr) const
	{
	internal::max_coeff_visitor<Derived> maxVisitor;
	this->visit(maxVisitor);
	*rowPtr = maxVisitor.row;
	if (colPtr) *colPtr = maxVisitor.col;
	return maxVisitor.res;
	}

	/** \returns the maximum of all coefficients of this and puts in index its location.
	* \warning the result is undefined if \c *this contains NaN.
	*
	* \sa DenseBase::maxCoeff(IndexType,IndexType), DenseBase::minCoeff(IndexType,IndexType), DenseBase::visitor(), DenseBase::maxCoeff()
	*/
	template<typename Derived>
	template<typename IndexType>
	EIGEN_DEVICE_FUNC
	typename internal::traits<Derived>::Scalar
	DenseBase<Derived>::maxCoeff(IndexType* index) const
	{
	EIGEN_STATIC_ASSERT_VECTOR_ONLY(Derived)
	internal::max_coeff_visitor<Derived> maxVisitor;
	this->visit(maxVisitor);
	*index = (RowsAtCompileTime==1) ? maxVisitor.col : maxVisitor.row;
	return maxVisitor.res;
	}

	} // end namespace Eigen

	#endif // EIGEN_VISITOR_H