/usr/include/openturns/OSS.hxx is in libopenturns-dev 1.9-5.
This file is owned by root:root, with mode 0o644.
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/**
* @brief The class OSS streams out objects
*
* Copyright 2005-2017 Airbus-EDF-IMACS-Phimeca
*
* This library 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.
*
* This library 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 for more details.
*
* You should have received a copy of the GNU Lesser General Public
* along with this library. If not, see <http://www.gnu.org/licenses/>.
*
*/
#ifndef OPENTURNS_OSS_HXX
#define OPENTURNS_OSS_HXX
#include <sstream>
#include <iterator>
#include <functional>
#include <utility> // for std::pair
#include "openturns/OStream.hxx"
BEGIN_NAMESPACE_OPENTURNS
template <typename U, typename V>
std::ostream & operator << (std::ostream & os, const std::pair<U, V> & p)
{
return os << "(" << p.first << "," << p.second << ")";
}
template <typename U, typename V>
OStream & operator << (OStream & OS, const std::pair<U, V> & p)
{
return OS << "(" << p.first << "," << p.second << ")";
}
/**
* Struct Bulk protects the underlying object output from being
* modified by OSSFormater
*/
template <class T>
struct Bulk
{
T data_;
Bulk(T data) : data_(data) {}
operator T() const
{
return data_;
}
};
/**
* Struct OSSFormater is a helper class for OSS that adapt the
* format of output according to type T
*/
/* Any type */
template <class T>
struct OSSFormater
{
inline
static
void apply(std::ostringstream & oss, T obj, int /*precision*/)
{
oss << obj;
}
inline
static
void apply(OStream & OS, T obj, int /*precision*/)
{
OS << obj;
}
}; /* struct OSSFormater */
/* double */
template <>
struct OSSFormater<double>
{
inline
static
void apply(std::ostringstream & oss, double d, int precision)
{
int oldPrecision = static_cast<int>(oss.precision(precision));
oss << d;
oss.precision(oldPrecision);
}
inline
static
void apply(OStream & OS, double d, int precision)
{
int oldPrecision = static_cast<int>(OS.getStream().precision(precision));
OS.getStream() << d;
OS.getStream().precision(oldPrecision);
}
};
/* float */
template <>
struct OSSFormater<float>
{
inline
static
void apply(std::ostringstream & oss, float f, int precision)
{
int oldPrecision = static_cast<int>(oss.precision(precision));
oss << f;
oss.precision(oldPrecision);
}
inline
static
void apply(OStream & OS, float f, int precision)
{
int oldPrecision = static_cast<int>(OS.getStream().precision(precision));
OS.getStream() << f;
OS.getStream().precision(oldPrecision);
}
};
/* bool */
template <>
struct OSSFormater<bool>
{
inline
static
void apply(std::ostringstream & oss, bool b, int /*precision*/)
{
oss << (b ? "true" : "false");
}
inline
static
void apply(OStream & OS, bool b, int /*precision*/)
{
OS.getStream() << (b ? "true" : "false");
}
};
/**
* Class OSS is useful when streaming data through a function
* that expect a string as parameter
*/
class OT_API OSS
{
private:
std::ostringstream oss_;
mutable int precision_;
mutable bool full_;
public:
explicit OSS(bool full = true);
template <class T>
inline
OSS & operator << (T obj)
{
if (full_)
{
OStream OS(oss_);
OSSFormater<T>::apply(OS, obj, precision_);
}
else OSSFormater<T>::apply(oss_, obj, precision_);
return *this;
}
inline
OSS & setPrecision(int precision)
{
precision_ = precision;
oss_.precision(precision_);
return *this;
}
inline
int getPrecision() const
{
precision_ = static_cast<int>(oss_.precision());
return precision_;
}
operator std::string() const;
std::string str() const;
void clear();
}; /* class OSS */
template <typename _Tp>
struct AllElementsPredicate : public std::unary_function<_Tp, Bool>
{
Bool
operator()(const _Tp&) const
{
return true;
}
};
template < typename _Tp, typename _UnaryPredicate = AllElementsPredicate<_Tp>, typename _CharT = char,
typename _Traits = std::char_traits<_CharT> >
class OSS_iterator
: public std::iterator<std::output_iterator_tag, void, void, void, void>
{
public:
//@{
/// Public typedef
typedef _CharT char_type;
typedef _Traits traits_type;
typedef OSS ostream_type;
//@}
private:
ostream_type* _M_stream;
String _M_string;
String _M_prefix;
mutable bool _M_first;
public:
/**
* Construct from an ostream
*
* The delimiter string @a c is written to the stream after every Tp
* written to the stream. The delimiter is not copied, and thus must
* not be destroyed while this iterator is in use.
*
* @param s Underlying ostream to write to.
* @param c CharT delimiter string to insert.
*/
OSS_iterator(ostream_type & __s, const String & __c = "", const String & __p = "")
: _M_stream(&__s)
, _M_string(__c)
, _M_prefix(__p)
, _M_first(true)
{}
/// Copy constructor.
OSS_iterator(const OSS_iterator& __obj)
: _M_stream(__obj._M_stream)
, _M_string(__obj._M_string)
, _M_prefix(__obj._M_prefix)
, _M_first(__obj._M_first)
{}
/// Copy assignment
OSS_iterator&
operator=(const OSS_iterator& obj)
{
_M_stream = obj._M_stream;
_M_string = obj._M_string;
_M_prefix = obj._M_prefix;
_M_first = obj._M_first;
return *this;
}
/// Writes @a value to underlying ostream using operator<<. If
/// constructed with delimiter string, writes delimiter to ostream.
OSS_iterator&
operator=(const _Tp& value)
{
if (_UnaryPredicate()(value))
{
if (!_M_first) *_M_stream << _M_string;
*_M_stream << _M_prefix << value;
_M_first = false;
}
return *this;
}
OSS_iterator&
operator*()
{
return *this;
}
OSS_iterator&
operator++()
{
return *this;
}
OSS_iterator&
operator++(int)
{
return *this;
}
};
END_NAMESPACE_OPENTURNS
#endif /* OPENTURNS_OSS_HXX */
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