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

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2006-2008 Benoit Jacob <jacob.benoit.1@gmail.com>
 // 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_IO_H
 #define EIGEN_IO_H

 enum { DontAlignCols = 1 };
 enum { StreamPrecision = -1,
        FullPrecision = -2 };

 /** \class IOFormat
   *
   * \brief Stores a set of parameters controlling the way matrices are printed
   *
   * List of available parameters:
   *  - \b precision number of digits for floating point values, or one of the special constants \c StreamPrecision and \c FullPrecision.
   *                 The default is the special value \c StreamPrecision which means to use the
   *                 stream's own precision setting, as set for instance using \c cout.precision(3). The other special value
   *                 \c FullPrecision means that the number of digits will be computed to match the full precision of each floating-point
   *                 type.
   *  - \b flags an OR-ed combination of flags, the default value is 0, the only currently available flag is \c DontAlignCols which
   *             allows to disable the alignment of columns, resulting in faster code.
   *  - \b coeffSeparator string printed between two coefficients of the same row
   *  - \b rowSeparator string printed between two rows
   *  - \b rowPrefix string printed at the beginning of each row
   *  - \b rowSuffix string printed at the end of each row
   *  - \b matPrefix string printed at the beginning of the matrix
   *  - \b matSuffix string printed at the end of the matrix
   *
   * Example: \include IOFormat.cpp
   * Output: \verbinclude IOFormat.out
   *
   * \sa DenseBase::format(), class WithFormat
   */
 struct IOFormat
 {
   /** Default contructor, see class IOFormat for the meaning of the parameters */
   IOFormat(int _precision = StreamPrecision, int _flags = 0,
     const std::string& _coeffSeparator = " ",
     const std::string& _rowSeparator = "\n", const std::string& _rowPrefix="", const std::string& _rowSuffix="",
     const std::string& _matPrefix="", const std::string& _matSuffix="")
   : matPrefix(_matPrefix), matSuffix(_matSuffix), rowPrefix(_rowPrefix), rowSuffix(_rowSuffix), rowSeparator(_rowSeparator),
     coeffSeparator(_coeffSeparator), precision(_precision), flags(_flags)
   {
     rowSpacer = "";
     int i = int(matSuffix.length())-1;
     while (i>=0 && matSuffix[i]!='\n')
     {
       rowSpacer += ' ';
       i--;
     }
   }
   std::string matPrefix, matSuffix;
   std::string rowPrefix, rowSuffix, rowSeparator, rowSpacer;
   std::string coeffSeparator;
   int precision;
   int flags;
 };

 /** \class WithFormat
   *
   * \brief Pseudo expression providing matrix output with given format
   *
   * \param ExpressionType the type of the object on which IO stream operations are performed
   *
   * This class represents an expression with stream operators controlled by a given IOFormat.
   * It is the return type of DenseBase::format()
   * and most of the time this is the only way it is used.
   *
   * See class IOFormat for some examples.
   *
   * \sa DenseBase::format(), class IOFormat
   */
 template<typename ExpressionType>
 class WithFormat
 {
   public:

     WithFormat(const ExpressionType& matrix, const IOFormat& format)
       : m_matrix(matrix), m_format(format)
     {}

     friend std::ostream & operator << (std::ostream & s, const WithFormat& wf)
     {
       return ei_print_matrix(s, wf.m_matrix.eval(), wf.m_format);
     }

   protected:
     const typename ExpressionType::Nested m_matrix;
     IOFormat m_format;
 };

 /** \returns a WithFormat proxy object allowing to print a matrix the with given
   * format \a fmt.
   *
   * See class IOFormat for some examples.
   *
   * \sa class IOFormat, class WithFormat
   */
 template<typename Derived>
 inline const WithFormat<Derived>
 DenseBase<Derived>::format(const IOFormat& fmt) const
 {
   return WithFormat<Derived>(derived(), fmt);
 }

 template<typename Scalar, bool IsInteger>
 struct ei_significant_decimals_default_impl
 {
   typedef typename NumTraits<Scalar>::Real RealScalar;
   static inline int run()
   {
     return ei_cast<RealScalar,int>(std::ceil(-ei_log(NumTraits<RealScalar>::epsilon())/ei_log(RealScalar(10))));
   }
 };

 template<typename Scalar>
 struct ei_significant_decimals_default_impl<Scalar, true>
 {
   static inline int run()
   {
     return 0;
   }
 };

 template<typename Scalar>
 struct ei_significant_decimals_impl
   : ei_significant_decimals_default_impl<Scalar, NumTraits<Scalar>::IsInteger>
 {};

 /** \internal
   * print the matrix \a _m to the output stream \a s using the output format \a fmt */
 template<typename Derived>
 std::ostream & ei_print_matrix(std::ostream & s, const Derived& _m, const IOFormat& fmt)
 {
   const typename Derived::Nested m = _m;
   typedef typename Derived::Scalar Scalar;
   typedef typename Derived::Index Index;

   Index width = 0;

   std::streamsize explicit_precision;
   if(fmt.precision == StreamPrecision)
   {
     explicit_precision = 0;
   }
   else if(fmt.precision == FullPrecision)
   {
     if (NumTraits<Scalar>::IsInteger)
     {
       explicit_precision = 0;
     }
     else
     {
       explicit_precision = ei_significant_decimals_impl<Scalar>::run();
     }
   }
   else
   {
     explicit_precision = fmt.precision;
   }

   bool align_cols = !(fmt.flags & DontAlignCols);
   if(align_cols)
   {
     // compute the largest width
     for(Index j = 1; j < m.cols(); ++j)
       for(Index i = 0; i < m.rows(); ++i)
       {
         std::stringstream sstr;
         if(explicit_precision) sstr.precision(explicit_precision);
         sstr << m.coeff(i,j);
         width = std::max<Index>(width, Index(sstr.str().length()));
       }
   }
   std::streamsize old_precision = 0;
   if(explicit_precision) old_precision = s.precision(explicit_precision);
   s << fmt.matPrefix;
   for(Index i = 0; i < m.rows(); ++i)
   {
     if (i)
       s << fmt.rowSpacer;
     s << fmt.rowPrefix;
     if(width) s.width(width);
     s << m.coeff(i, 0);
     for(Index j = 1; j < m.cols(); ++j)
     {
       s << fmt.coeffSeparator;
       if (width) s.width(width);
       s << m.coeff(i, j);
     }
     s << fmt.rowSuffix;
     if( i < m.rows() - 1)
       s << fmt.rowSeparator;
   }
   s << fmt.matSuffix;
   if(explicit_precision) s.precision(old_precision);
   return s;
 }

 /** \relates DenseBase
   *
   * Outputs the matrix, to the given stream.
   *
   * If you wish to print the matrix with a format different than the default, use DenseBase::format().
   *
   * It is also possible to change the default format by defining EIGEN_DEFAULT_IO_FORMAT before including Eigen headers.
   * If not defined, this will automatically be defined to Eigen::IOFormat(), that is the Eigen::IOFormat with default parameters.
   *
   * \sa DenseBase::format()
   */
 template<typename Derived>
 std::ostream & operator <<
 (std::ostream & s,
  const DenseBase<Derived> & m)
 {
   return ei_print_matrix(s, m.eval(), EIGEN_DEFAULT_IO_FORMAT);
 }

 #endif // EIGEN_IO_H
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2006-2008 Benoit Jacob <jacob.benoit.1@gmail.com>
	// 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_IO_H
	#define EIGEN_IO_H

	enum { DontAlignCols = 1 };
	enum { StreamPrecision = -1,
	FullPrecision = -2 };

	/** \class IOFormat
	*
	* \brief Stores a set of parameters controlling the way matrices are printed
	*
	* List of available parameters:
	* - \b precision number of digits for floating point values, or one of the special constants \c StreamPrecision and \c FullPrecision.
	* The default is the special value \c StreamPrecision which means to use the
	* stream's own precision setting, as set for instance using \c cout.precision(3). The other special value
	* \c FullPrecision means that the number of digits will be computed to match the full precision of each floating-point
	* type.
	* - \b flags an OR-ed combination of flags, the default value is 0, the only currently available flag is \c DontAlignCols which
	* allows to disable the alignment of columns, resulting in faster code.
	* - \b coeffSeparator string printed between two coefficients of the same row
	* - \b rowSeparator string printed between two rows
	* - \b rowPrefix string printed at the beginning of each row
	* - \b rowSuffix string printed at the end of each row
	* - \b matPrefix string printed at the beginning of the matrix
	* - \b matSuffix string printed at the end of the matrix
	*
	* Example: \include IOFormat.cpp
	* Output: \verbinclude IOFormat.out
	*
	* \sa DenseBase::format(), class WithFormat
	*/
	struct IOFormat
	{
	/** Default contructor, see class IOFormat for the meaning of the parameters */
	IOFormat(int _precision = StreamPrecision, int _flags = 0,
	const std::string& _coeffSeparator = " ",
	const std::string& _rowSeparator = "\n", const std::string& _rowPrefix="", const std::string& _rowSuffix="",
	const std::string& _matPrefix="", const std::string& _matSuffix="")
	: matPrefix(_matPrefix), matSuffix(_matSuffix), rowPrefix(_rowPrefix), rowSuffix(_rowSuffix), rowSeparator(_rowSeparator),
	coeffSeparator(_coeffSeparator), precision(_precision), flags(_flags)
	{
	rowSpacer = "";
	int i = int(matSuffix.length())-1;
	while (i>=0 && matSuffix[i]!='\n')
	{
	rowSpacer += ' ';
	i--;
	}
	}
	std::string matPrefix, matSuffix;
	std::string rowPrefix, rowSuffix, rowSeparator, rowSpacer;
	std::string coeffSeparator;
	int precision;
	int flags;
	};

	/** \class WithFormat
	*
	* \brief Pseudo expression providing matrix output with given format
	*
	* \param ExpressionType the type of the object on which IO stream operations are performed
	*
	* This class represents an expression with stream operators controlled by a given IOFormat.
	* It is the return type of DenseBase::format()
	* and most of the time this is the only way it is used.
	*
	* See class IOFormat for some examples.
	*
	* \sa DenseBase::format(), class IOFormat
	*/
	template<typename ExpressionType>
	class WithFormat
	{
	public:

	WithFormat(const ExpressionType& matrix, const IOFormat& format)
	: m_matrix(matrix), m_format(format)
	{}

	friend std::ostream & operator << (std::ostream & s, const WithFormat& wf)
	{
	return ei_print_matrix(s, wf.m_matrix.eval(), wf.m_format);
	}

	protected:
	const typename ExpressionType::Nested m_matrix;
	IOFormat m_format;
	};

	/** \returns a WithFormat proxy object allowing to print a matrix the with given
	* format \a fmt.
	*
	* See class IOFormat for some examples.
	*
	* \sa class IOFormat, class WithFormat
	*/
	template<typename Derived>
	inline const WithFormat<Derived>
	DenseBase<Derived>::format(const IOFormat& fmt) const
	{
	return WithFormat<Derived>(derived(), fmt);
	}

	template<typename Scalar, bool IsInteger>
	struct ei_significant_decimals_default_impl
	{
	typedef typename NumTraits<Scalar>::Real RealScalar;
	static inline int run()
	{
	return ei_cast<RealScalar,int>(std::ceil(-ei_log(NumTraits<RealScalar>::epsilon())/ei_log(RealScalar(10))));
	}
	};

	template<typename Scalar>
	struct ei_significant_decimals_default_impl<Scalar, true>
	{
	static inline int run()
	{
	return 0;
	}
	};

	template<typename Scalar>
	struct ei_significant_decimals_impl
	: ei_significant_decimals_default_impl<Scalar, NumTraits<Scalar>::IsInteger>
	{};

	/** \internal
	* print the matrix \a _m to the output stream \a s using the output format \a fmt */
	template<typename Derived>
	std::ostream & ei_print_matrix(std::ostream & s, const Derived& _m, const IOFormat& fmt)
	{
	const typename Derived::Nested m = _m;
	typedef typename Derived::Scalar Scalar;
	typedef typename Derived::Index Index;

	Index width = 0;

	std::streamsize explicit_precision;
	if(fmt.precision == StreamPrecision)
	{
	explicit_precision = 0;
	}
	else if(fmt.precision == FullPrecision)
	{
	if (NumTraits<Scalar>::IsInteger)
	{
	explicit_precision = 0;
	}
	else
	{
	explicit_precision = ei_significant_decimals_impl<Scalar>::run();
	}
	}
	else
	{
	explicit_precision = fmt.precision;
	}

	bool align_cols = !(fmt.flags & DontAlignCols);
	if(align_cols)
	{
	// compute the largest width
	for(Index j = 1; j < m.cols(); ++j)
	for(Index i = 0; i < m.rows(); ++i)
	{
	std::stringstream sstr;
	if(explicit_precision) sstr.precision(explicit_precision);
	sstr << m.coeff(i,j);
	width = std::max<Index>(width, Index(sstr.str().length()));
	}
	}
	std::streamsize old_precision = 0;
	if(explicit_precision) old_precision = s.precision(explicit_precision);
	s << fmt.matPrefix;
	for(Index i = 0; i < m.rows(); ++i)
	{
	if (i)
	s << fmt.rowSpacer;
	s << fmt.rowPrefix;
	if(width) s.width(width);
	s << m.coeff(i, 0);
	for(Index j = 1; j < m.cols(); ++j)
	{
	s << fmt.coeffSeparator;
	if (width) s.width(width);
	s << m.coeff(i, j);
	}
	s << fmt.rowSuffix;
	if( i < m.rows() - 1)
	s << fmt.rowSeparator;
	}
	s << fmt.matSuffix;
	if(explicit_precision) s.precision(old_precision);
	return s;
	}

	/** \relates DenseBase
	*
	* Outputs the matrix, to the given stream.
	*
	* If you wish to print the matrix with a format different than the default, use DenseBase::format().
	*
	* It is also possible to change the default format by defining EIGEN_DEFAULT_IO_FORMAT before including Eigen headers.
	* If not defined, this will automatically be defined to Eigen::IOFormat(), that is the Eigen::IOFormat with default parameters.
	*
	* \sa DenseBase::format()
	*/
	template<typename Derived>
	std::ostream & operator <<
	(std::ostream & s,
	const DenseBase<Derived> & m)
	{
	return ei_print_matrix(s, m.eval(), EIGEN_DEFAULT_IO_FORMAT);
	}

	#endif // EIGEN_IO_H