Eigen/src/Array/Random.h - mirror - Git at Google

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

 template<typename Scalar> struct ei_scalar_random_op {
   EIGEN_EMPTY_STRUCT_CTOR(ei_scalar_random_op)
   inline const Scalar operator() (int, int = 0) const { return ei_random<Scalar>(); }
 };
 template<typename Scalar>
 struct ei_functor_traits<ei_scalar_random_op<Scalar> >
 { enum { Cost = 5 * NumTraits<Scalar>::MulCost, PacketAccess = false, IsRepeatable = false }; };

 /** \array_module
   *
   * \returns a random matrix expression
   *
   * The parameters \a rows and \a cols are the number of rows and of columns of
   * the returned matrix. Must be compatible with this MatrixBase type.
   *
   * This variant is meant to be used for dynamic-size matrix types. For fixed-size types,
   * it is redundant to pass \a rows and \a cols as arguments, so Random() should be used
   * instead.
   *
   * Example: \include MatrixBase_random_int_int.cpp
   * Output: \verbinclude MatrixBase_random_int_int.out
   *
   * This expression has the "evaluate before nesting" flag so that it will be evaluated into
   * a temporary matrix whenever it is nested in a larger expression. This prevents unexpected
   * behavior with expressions involving random matrices.
   *
   * \sa MatrixBase::setRandom(), MatrixBase::Random(int), MatrixBase::Random()
   */
 template<typename Derived>
 inline const CwiseNullaryOp<ei_scalar_random_op<typename ei_traits<Derived>::Scalar>, Derived>
 DenseBase<Derived>::Random(int rows, int cols)
 {
   return NullaryExpr(rows, cols, ei_scalar_random_op<Scalar>());
 }

 /** \array_module
   *
   * \returns a random vector expression
   *
   * The parameter \a size is the size of the returned vector.
   * Must be compatible with this MatrixBase type.
   *
   * \only_for_vectors
   *
   * This variant is meant to be used for dynamic-size vector types. For fixed-size types,
   * it is redundant to pass \a size as argument, so Random() should be used
   * instead.
   *
   * Example: \include MatrixBase_random_int.cpp
   * Output: \verbinclude MatrixBase_random_int.out
   *
   * This expression has the "evaluate before nesting" flag so that it will be evaluated into
   * a temporary vector whenever it is nested in a larger expression. This prevents unexpected
   * behavior with expressions involving random matrices.
   *
   * \sa MatrixBase::setRandom(), MatrixBase::Random(int,int), MatrixBase::Random()
   */
 template<typename Derived>
 inline const CwiseNullaryOp<ei_scalar_random_op<typename ei_traits<Derived>::Scalar>, Derived>
 DenseBase<Derived>::Random(int size)
 {
   return NullaryExpr(size, ei_scalar_random_op<Scalar>());
 }

 /** \array_module
   *
   * \returns a fixed-size random matrix or vector expression
   *
   * This variant is only for fixed-size MatrixBase types. For dynamic-size types, you
   * need to use the variants taking size arguments.
   *
   * Example: \include MatrixBase_random.cpp
   * Output: \verbinclude MatrixBase_random.out
   *
   * This expression has the "evaluate before nesting" flag so that it will be evaluated into
   * a temporary matrix whenever it is nested in a larger expression. This prevents unexpected
   * behavior with expressions involving random matrices.
   *
   * \sa MatrixBase::setRandom(), MatrixBase::Random(int,int), MatrixBase::Random(int)
   */
 template<typename Derived>
 inline const CwiseNullaryOp<ei_scalar_random_op<typename ei_traits<Derived>::Scalar>, Derived>
 DenseBase<Derived>::Random()
 {
   return NullaryExpr(RowsAtCompileTime, ColsAtCompileTime, ei_scalar_random_op<Scalar>());
 }

 /** \array_module
   *
   * Sets all coefficients in this expression to random values.
   *
   * Example: \include MatrixBase_setRandom.cpp
   * Output: \verbinclude MatrixBase_setRandom.out
   *
   * \sa class CwiseNullaryOp, setRandom(int), setRandom(int,int)
   */
 template<typename Derived>
 inline Derived& DenseBase<Derived>::setRandom()
 {
   return *this = Random(rows(), cols());
 }

 /** Resizes to the given \a size, and sets all coefficients in this expression to random values.
   *
   * \only_for_vectors
   *
   * Example: \include Matrix_setRandom_int.cpp
   * Output: \verbinclude Matrix_setRandom_int.out
   *
   * \sa MatrixBase::setRandom(), setRandom(int,int), class CwiseNullaryOp, MatrixBase::Random()
   */
 template<typename Derived>
 EIGEN_STRONG_INLINE Derived&
 DenseStorageBase<Derived>::setRandom(int size)
 {
   resize(size);
   return setRandom();
 }

 /** Resizes to the given size, and sets all coefficients in this expression to random values.
   *
   * \param rows the new number of rows
   * \param cols the new number of columns
   *
   * Example: \include Matrix_setRandom_int_int.cpp
   * Output: \verbinclude Matrix_setRandom_int_int.out
   *
   * \sa MatrixBase::setRandom(), setRandom(int), class CwiseNullaryOp, MatrixBase::Random()
   */
 template<typename Derived>
 EIGEN_STRONG_INLINE Derived&
 DenseStorageBase<Derived>::setRandom(int rows, int cols)
 {
   resize(rows, cols);
   return setRandom();
 }

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

	template<typename Scalar> struct ei_scalar_random_op {
	EIGEN_EMPTY_STRUCT_CTOR(ei_scalar_random_op)
	inline const Scalar operator() (int, int = 0) const { return ei_random<Scalar>(); }
	};
	template<typename Scalar>
	struct ei_functor_traits<ei_scalar_random_op<Scalar> >
	{ enum { Cost = 5 * NumTraits<Scalar>::MulCost, PacketAccess = false, IsRepeatable = false }; };

	/** \array_module
	*
	* \returns a random matrix expression
	*
	* The parameters \a rows and \a cols are the number of rows and of columns of
	* the returned matrix. Must be compatible with this MatrixBase type.
	*
	* This variant is meant to be used for dynamic-size matrix types. For fixed-size types,
	* it is redundant to pass \a rows and \a cols as arguments, so Random() should be used
	* instead.
	*
	* Example: \include MatrixBase_random_int_int.cpp
	* Output: \verbinclude MatrixBase_random_int_int.out
	*
	* This expression has the "evaluate before nesting" flag so that it will be evaluated into
	* a temporary matrix whenever it is nested in a larger expression. This prevents unexpected
	* behavior with expressions involving random matrices.
	*
	* \sa MatrixBase::setRandom(), MatrixBase::Random(int), MatrixBase::Random()
	*/
	template<typename Derived>
	inline const CwiseNullaryOp<ei_scalar_random_op<typename ei_traits<Derived>::Scalar>, Derived>
	DenseBase<Derived>::Random(int rows, int cols)
	{
	return NullaryExpr(rows, cols, ei_scalar_random_op<Scalar>());
	}

	/** \array_module
	*
	* \returns a random vector expression
	*
	* The parameter \a size is the size of the returned vector.
	* Must be compatible with this MatrixBase type.
	*
	* \only_for_vectors
	*
	* This variant is meant to be used for dynamic-size vector types. For fixed-size types,
	* it is redundant to pass \a size as argument, so Random() should be used
	* instead.
	*
	* Example: \include MatrixBase_random_int.cpp
	* Output: \verbinclude MatrixBase_random_int.out
	*
	* This expression has the "evaluate before nesting" flag so that it will be evaluated into
	* a temporary vector whenever it is nested in a larger expression. This prevents unexpected
	* behavior with expressions involving random matrices.
	*
	* \sa MatrixBase::setRandom(), MatrixBase::Random(int,int), MatrixBase::Random()
	*/
	template<typename Derived>
	inline const CwiseNullaryOp<ei_scalar_random_op<typename ei_traits<Derived>::Scalar>, Derived>
	DenseBase<Derived>::Random(int size)
	{
	return NullaryExpr(size, ei_scalar_random_op<Scalar>());
	}

	/** \array_module
	*
	* \returns a fixed-size random matrix or vector expression
	*
	* This variant is only for fixed-size MatrixBase types. For dynamic-size types, you
	* need to use the variants taking size arguments.
	*
	* Example: \include MatrixBase_random.cpp
	* Output: \verbinclude MatrixBase_random.out
	*
	* This expression has the "evaluate before nesting" flag so that it will be evaluated into
	* a temporary matrix whenever it is nested in a larger expression. This prevents unexpected
	* behavior with expressions involving random matrices.
	*
	* \sa MatrixBase::setRandom(), MatrixBase::Random(int,int), MatrixBase::Random(int)
	*/
	template<typename Derived>
	inline const CwiseNullaryOp<ei_scalar_random_op<typename ei_traits<Derived>::Scalar>, Derived>
	DenseBase<Derived>::Random()
	{
	return NullaryExpr(RowsAtCompileTime, ColsAtCompileTime, ei_scalar_random_op<Scalar>());
	}

	/** \array_module
	*
	* Sets all coefficients in this expression to random values.
	*
	* Example: \include MatrixBase_setRandom.cpp
	* Output: \verbinclude MatrixBase_setRandom.out
	*
	* \sa class CwiseNullaryOp, setRandom(int), setRandom(int,int)
	*/
	template<typename Derived>
	inline Derived& DenseBase<Derived>::setRandom()
	{
	return *this = Random(rows(), cols());
	}

	/** Resizes to the given \a size, and sets all coefficients in this expression to random values.
	*
	* \only_for_vectors
	*
	* Example: \include Matrix_setRandom_int.cpp
	* Output: \verbinclude Matrix_setRandom_int.out
	*
	* \sa MatrixBase::setRandom(), setRandom(int,int), class CwiseNullaryOp, MatrixBase::Random()
	*/
	template<typename Derived>
	EIGEN_STRONG_INLINE Derived&
	DenseStorageBase<Derived>::setRandom(int size)
	{
	resize(size);
	return setRandom();
	}

	/** Resizes to the given size, and sets all coefficients in this expression to random values.
	*
	* \param rows the new number of rows
	* \param cols the new number of columns
	*
	* Example: \include Matrix_setRandom_int_int.cpp
	* Output: \verbinclude Matrix_setRandom_int_int.out
	*
	* \sa MatrixBase::setRandom(), setRandom(int), class CwiseNullaryOp, MatrixBase::Random()
	*/
	template<typename Derived>
	EIGEN_STRONG_INLINE Derived&
	DenseStorageBase<Derived>::setRandom(int rows, int cols)
	{
	resize(rows, cols);
	return setRandom();
	}

	#endif // EIGEN_RANDOM_H