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Added lots of missing boost headers to fix compilation on OSX

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Wenzel Jakob 2010-09-14 23:40:32 +02:00
parent a49d5bf648
commit 35adc5aca8
400 changed files with 63213 additions and 9646 deletions
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11
SConstruct
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@ -45,7 +45,9 @@ vars.Add('GLLIB', 'OpenGL+GLEW libraries')
vars.Add('GLINCLUDE', 'OpenGL+GLEW include path')
vars.Add('GLFLAGS', 'OpenGL+GLEW-related compiler flags')
vars.Add('GLLIBDIR', 'OpenGL+GLEW library path')
vars.Add('BOOSTINCLUDE', 'BOOST include path')
vars.Add('BOOSTINCLUDE', 'boost include path')
vars.Add('BOOSTLIB', 'boost libraries')
vars.Add('BOOSTLIBDIR', 'boost library path')
vars.Add('TARGET_ARCH', 'Target architecture')
try:
@ -64,6 +66,10 @@ env.Append(LIBPATH=[])
env.Append(LIBS=env['BASELIB'])
if env.has_key('BOOSTINCLUDE'):
env.Append(CPPPATH=env['BOOSTINCLUDE'])
if env.has_key('BOOSTLIBDIR'):
env.Append(LIBPATH=env['BOOSTLIBDIR'])
if env.has_key('BOOSTLIB'):
env.Append(LIBS=env['BOOSTLIB'])
if env.has_key('BASELIBDIR'):
env.Append(LIBPATH=env['BASELIBDIR'])
@ -703,7 +709,8 @@ elif sys.platform == 'darwin':
installTargets += env.OSXLibInst('Mitsuba.app/Contents/Frameworks', 'tools/darwin/Xerces-C.framework/Resources/lib/libxerces-c-3.0.dylib')
installTargets += env.OSXLibInst('Mitsuba.app/Contents/Frameworks', 'tools/darwin/libpng.framework/Resources/lib/libpng.dylib')
installTargets += env.OSXLibInst('Mitsuba.app/Contents/Frameworks', 'tools/darwin/libjpeg.framework/Resources/lib/libjpeg.dylib')
installTargets += env.OSXLibInst('Mitsuba.app/Contents/Frameworks', 'tools/darwin/Collada14Dom.framework/Resources/lib/libCollada14Dom.dylib')
installTargets += env.OSXLibInst('Mitsuba.app/Contents/Frameworks', 'tools/darwin/libboost.framework/Resources/lib/libboost_system-xgcc42-mt-1_39.dylib')
installTargets += env.OSXLibInst('Mitsuba.app/Contents/Frameworks', 'tools/darwin/libboost.framework/Resources/lib/libboost_filesystem-xgcc42-mt-1_39.dylib')
if hasQt:
installTargets += env.Install('Mitsuba.app/Contents/MacOS', 'mtsgui')
installTargets += env.OSXLibInst('Mitsuba.app/Contents/Frameworks', '/Library/Frameworks/QtCore.framework/Versions/4/QtCore')

2
config/config-darwin-universal.py
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@ -20,6 +20,8 @@ GLLIBDIR = ['#tools/darwin/GLEW.framework/Resources/libs']
GLLIB = ['GLEW', 'objc']
GLFLAGS = ['-DGLEW_MX']
BOOSTINCLUDE = ['#tools/boost']
BOOSTLIB = ['boost_filesystem-xgcc42-mt-1_39', 'boost_system-xgcc42-mt-1_39']
BOOSTLIBDIR = ['tools/darwin/libboost.framework/Resources/lib']
COLLADAINCLUDE = ['#tools/windows/include/colladadom', '#tools/windows/include/colladadom/1.4']
COLLADALIB = ['libCollada14Dom']
COLLADALIBDIR = ['#tools/darwin/Collada14Dom.framework/Resources/lib']

2
config/config-darwin-x86.py
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@ -20,6 +20,8 @@ GLLIBDIR = ['#tools/darwin/GLEW.framework/Resources/libs']
GLLIB = ['GLEW', 'objc']
GLFLAGS = ['-DGLEW_MX']
BOOSTINCLUDE = ['#tools/boost']
BOOSTLIB = ['boost_filesystem-xgcc42-mt-1_39', 'boost_system-xgcc42-mt-1_39']
BOOSTLIBDIR = ['tools/darwin/libboost.framework/Resources/lib']
COLLADAINCLUDE = ['#tools/windows/include/colladadom', '#tools/windows/include/colladadom/1.4']
COLLADALIB = ['libCollada14Dom']
COLLADALIBDIR = ['#tools/darwin/Collada14Dom.framework/Resources/lib']

2
config/config-darwin-x86_64.py
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@ -20,6 +20,8 @@ GLLIBDIR = ['#tools/darwin/GLEW.framework/Resources/libs']
GLLIB = ['GLEW', 'objc']
GLFLAGS = ['-DGLEW_MX']
BOOSTINCLUDE = ['#tools/boost']
BOOSTLIB = ['boost_filesystem-xgcc42-mt-1_39', 'boost_system-xgcc42-mt-1_39']
BOOSTLIBDIR = ['tools/darwin/libboost.framework/Resources/lib']
COLLADAINCLUDE = ['#tools/windows/include/colladadom', '#tools/windows/include/colladadom/1.4']
COLLADALIB = ['libCollada14Dom']
COLLADALIBDIR = ['#tools/darwin/Collada14Dom.framework/Resources/lib']

3
config/config-linux.py
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@ -3,7 +3,7 @@ CXXFLAGS = ['-O3', '-Wall', '-g', '-pipe', '-march=nocona', '-msse2', '-ft
LINKFLAGS = []
SHLINKFLAGS = ['-rdynamic', '-shared', '-fPIC']
BASEINCLUDE = ['#include']
BASELIB = ['dl', 'm', 'pthread', 'gomp', 'libboost_system', 'libboost_filesystem']
BASELIB = ['dl', 'm', 'pthread', 'gomp']
OEXRINCLUDE = ['/usr/include/OpenEXR']
OEXRLIB = ['Half', 'IlmImf', 'Iex', 'z']
PNGLIB = ['png']
@ -13,5 +13,6 @@ XERCESLIB = ['xerces-c']
GLLIB = ['GL', 'GLEWmx', 'Xxf86vm']
GLFLAGS = ['-DGLEW_MX']
BOOSTINCLUDE = ['#tools/boost']
BOOSTLIB = ['libboost_system', 'libboost_filesystem']
COLLADAINCLUDE = ['/usr/include/collada-dom', '/usr/include/collada-dom/1.4']
COLLADALIB = ['libcollada14dom']

31
tools/boost/boost/algorithm/string.hpp Normal file
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@ -0,0 +1,31 @@
// Boost string_algo library string_algo.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2004.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_ALGO_HPP
#define BOOST_STRING_ALGO_HPP
/*! \file
Cumulative include for string_algo library
*/
#include <boost/algorithm/string/std_containers_traits.hpp>
#include <boost/algorithm/string/trim.hpp>
#include <boost/algorithm/string/case_conv.hpp>
#include <boost/algorithm/string/predicate.hpp>
#include <boost/algorithm/string/find.hpp>
#include <boost/algorithm/string/split.hpp>
#include <boost/algorithm/string/join.hpp>
#include <boost/algorithm/string/replace.hpp>
#include <boost/algorithm/string/erase.hpp>
#include <boost/algorithm/string/classification.hpp>
#include <boost/algorithm/string/find_iterator.hpp>
#endif // BOOST_STRING_ALGO_HPP

176
tools/boost/boost/algorithm/string/case_conv.hpp Normal file
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@ -0,0 +1,176 @@
// Boost string_algo library case_conv.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_CASE_CONV_HPP
#define BOOST_STRING_CASE_CONV_HPP
#include <boost/algorithm/string/config.hpp>
#include <algorithm>
#include <locale>
#include <boost/iterator/transform_iterator.hpp>
#include <boost/range/as_literal.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/value_type.hpp>
#include <boost/algorithm/string/detail/case_conv.hpp>
/*! \file
Defines sequence case-conversion algorithms.
Algorithms convert each element in the input sequence to the
desired case using provided locales.
*/
namespace boost {
namespace algorithm {
// to_lower -----------------------------------------------//
//! Convert to lower case
/*!
Each element of the input sequence is converted to lower
case. The result is a copy of the input converted to lower case.
It is returned as a sequence or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input range
\param Loc A locale used for conversion
\return
An output iterator pointing just after the last inserted character or
a copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<typename OutputIteratorT, typename RangeT>
inline OutputIteratorT
to_lower_copy(
OutputIteratorT Output,
const RangeT& Input,
const std::locale& Loc=std::locale())
{
return ::boost::algorithm::detail::transform_range_copy(
Output,
as_literal(Input),
::boost::algorithm::detail::to_lowerF<
typename range_value<RangeT>::type >(Loc));
}
//! Convert to lower case
/*!
\overload
*/
template<typename SequenceT>
inline SequenceT to_lower_copy(
const SequenceT& Input,
const std::locale& Loc=std::locale())
{
return ::boost::algorithm::detail::transform_range_copy<SequenceT>(
Input,
::boost::algorithm::detail::to_lowerF<
typename range_value<SequenceT>::type >(Loc));
}
//! Convert to lower case
/*!
Each element of the input sequence is converted to lower
case. The input sequence is modified in-place.
\param Input A range
\param Loc a locale used for conversion
*/
template<typename WritableRangeT>
inline void to_lower(
WritableRangeT& Input,
const std::locale& Loc=std::locale())
{
::boost::algorithm::detail::transform_range(
as_literal(Input),
::boost::algorithm::detail::to_lowerF<
typename range_value<WritableRangeT>::type >(Loc));
}
// to_upper -----------------------------------------------//
//! Convert to upper case
/*!
Each element of the input sequence is converted to upper
case. The result is a copy of the input converted to upper case.
It is returned as a sequence or copied to the output iterator
\param Output An output iterator to which the result will be copied
\param Input An input range
\param Loc A locale used for conversion
\return
An output iterator pointing just after the last inserted character or
a copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<typename OutputIteratorT, typename RangeT>
inline OutputIteratorT
to_upper_copy(
OutputIteratorT Output,
const RangeT& Input,
const std::locale& Loc=std::locale())
{
return ::boost::algorithm::detail::transform_range_copy(
Output,
as_literal(Input),
::boost::algorithm::detail::to_upperF<
typename range_value<RangeT>::type >(Loc));
}
//! Convert to upper case
/*!
\overload
*/
template<typename SequenceT>
inline SequenceT to_upper_copy(
const SequenceT& Input,
const std::locale& Loc=std::locale())
{
return ::boost::algorithm::detail::transform_range_copy<SequenceT>(
Input,
::boost::algorithm::detail::to_upperF<
typename range_value<SequenceT>::type >(Loc));
}
//! Convert to upper case
/*!
Each element of the input sequence is converted to upper
case. The input sequence is modified in-place.
\param Input An input range
\param Loc a locale used for conversion
*/
template<typename WritableRangeT>
inline void to_upper(
WritableRangeT& Input,
const std::locale& Loc=std::locale())
{
::boost::algorithm::detail::transform_range(
as_literal(Input),
::boost::algorithm::detail::to_upperF<
typename range_value<WritableRangeT>::type >(Loc));
}
} // namespace algorithm
// pull names to the boost namespace
using algorithm::to_lower;
using algorithm::to_lower_copy;
using algorithm::to_upper;
using algorithm::to_upper_copy;
} // namespace boost
#endif // BOOST_STRING_CASE_CONV_HPP

312
tools/boost/boost/algorithm/string/classification.hpp Normal file
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@ -0,0 +1,312 @@
// Boost string_algo library classification.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_CLASSIFICATION_HPP
#define BOOST_STRING_CLASSIFICATION_HPP
#include <algorithm>
#include <locale>
#include <boost/range/value_type.hpp>
#include <boost/range/as_literal.hpp>
#include <boost/algorithm/string/detail/classification.hpp>
#include <boost/algorithm/string/predicate_facade.hpp>
/*! \file
Classification predicates are included in the library to give
some more convenience when using algorithms like \c trim() and \c all().
They wrap functionality of STL classification functions ( e.g. \c std::isspace() )
into generic functors.
*/
namespace boost {
namespace algorithm {
// classification functor generator -------------------------------------//
//! is_classified predicate
/*!
Construct the \c is_classified predicate. This predicate holds if the input is
of specified \c std::ctype category.
\param Type A \c std::ctype category
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_classified(std::ctype_base::mask Type, const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(Type, Loc);
}
//! is_space predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::space category.
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_space(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::space, Loc);
}
//! is_alnum predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::alnum category.
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_alnum(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::alnum, Loc);
}
//! is_alpha predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::alpha category.
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_alpha(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::alpha, Loc);
}
//! is_cntrl predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::cntrl category.
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_cntrl(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::cntrl, Loc);
}
//! is_digit predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::digit category.
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_digit(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::digit, Loc);
}
//! is_graph predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::graph category.
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_graph(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::graph, Loc);
}
//! is_lower predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::lower category.
\param Loc A locale used for classification
\return An instance of \c is_classified predicate
*/
inline detail::is_classifiedF
is_lower(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::lower, Loc);
}
//! is_print predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::print category.
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_print(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::print, Loc);
}
//! is_punct predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::punct category.
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_punct(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::punct, Loc);
}
//! is_upper predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::upper category.
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_upper(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::upper, Loc);
}
//! is_xdigit predicate
/*!
Construct the \c is_classified predicate for the \c ctype_base::xdigit category.
\param Loc A locale used for classification
\return An instance of the \c is_classified predicate
*/
inline detail::is_classifiedF
is_xdigit(const std::locale& Loc=std::locale())
{
return detail::is_classifiedF(std::ctype_base::xdigit, Loc);
}
//! is_any_of predicate
/*!
Construct the \c is_any_of predicate. The predicate holds if the input
is included in the specified set of characters.
\param Set A set of characters to be recognized
\return An instance of the \c is_any_of predicate
*/
template<typename RangeT>
inline detail::is_any_ofF<
BOOST_STRING_TYPENAME range_value<RangeT>::type>
is_any_of( const RangeT& Set )
{
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> lit_set(as_literal(Set));
return detail::is_any_ofF<BOOST_STRING_TYPENAME range_value<RangeT>::type>(lit_set);
}
//! is_from_range predicate
/*!
Construct the \c is_from_range predicate. The predicate holds if the input
is included in the specified range. (i.e. From <= Ch <= To )
\param From The start of the range
\param To The end of the range
\return An instance of the \c is_from_range predicate
*/
template<typename CharT>
inline detail::is_from_rangeF<CharT> is_from_range(CharT From, CharT To)
{
return detail::is_from_rangeF<CharT>(From,To);
}
// predicate combinators ---------------------------------------------------//
//! predicate 'and' composition predicate
/*!
Construct the \c class_and predicate. This predicate can be used
to logically combine two classification predicates. \c class_and holds,
if both predicates return true.
\param Pred1 The first predicate
\param Pred2 The second predicate
\return An instance of the \c class_and predicate
*/
template<typename Pred1T, typename Pred2T>
inline detail::pred_andF<Pred1T, Pred2T>
operator&&(
const predicate_facade<Pred1T>& Pred1,
const predicate_facade<Pred2T>& Pred2 )
{
// Doing the static_cast with the pointer instead of the reference
// is a workaround for some compilers which have problems with
// static_cast's of template references, i.e. CW8. /grafik/
return detail::pred_andF<Pred1T,Pred2T>(
*static_cast<const Pred1T*>(&Pred1),
*static_cast<const Pred2T*>(&Pred2) );
}
//! predicate 'or' composition predicate
/*!
Construct the \c class_or predicate. This predicate can be used
to logically combine two classification predicates. \c class_or holds,
if one of the predicates return true.
\param Pred1 The first predicate
\param Pred2 The second predicate
\return An instance of the \c class_or predicate
*/
template<typename Pred1T, typename Pred2T>
inline detail::pred_orF<Pred1T, Pred2T>
operator||(
const predicate_facade<Pred1T>& Pred1,
const predicate_facade<Pred2T>& Pred2 )
{
// Doing the static_cast with the pointer instead of the reference
// is a workaround for some compilers which have problems with
// static_cast's of template references, i.e. CW8. /grafik/
return detail::pred_orF<Pred1T,Pred2T>(
*static_cast<const Pred1T*>(&Pred1),
*static_cast<const Pred2T*>(&Pred2));
}
//! predicate negation operator
/*!
Construct the \c class_not predicate. This predicate represents a negation.
\c class_or holds if of the predicates return false.
\param Pred The predicate to be negated
\return An instance of the \c class_not predicate
*/
template<typename PredT>
inline detail::pred_notF<PredT>
operator!( const predicate_facade<PredT>& Pred )
{
// Doing the static_cast with the pointer instead of the reference
// is a workaround for some compilers which have problems with
// static_cast's of template references, i.e. CW8. /grafik/
return detail::pred_notF<PredT>(*static_cast<const PredT*>(&Pred));
}
} // namespace algorithm
// pull names to the boost namespace
using algorithm::is_classified;
using algorithm::is_space;
using algorithm::is_alnum;
using algorithm::is_alpha;
using algorithm::is_cntrl;
using algorithm::is_digit;
using algorithm::is_graph;
using algorithm::is_lower;
using algorithm::is_upper;
using algorithm::is_print;
using algorithm::is_punct;
using algorithm::is_xdigit;
using algorithm::is_any_of;
using algorithm::is_from_range;
} // namespace boost
#endif // BOOST_STRING_PREDICATE_HPP

199
tools/boost/boost/algorithm/string/compare.hpp Normal file
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@ -0,0 +1,199 @@
// Boost string_algo library compare.hpp header file -------------------------//
// Copyright Pavol Droba 2002-2006.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_COMPARE_HPP
#define BOOST_STRING_COMPARE_HPP
#include <boost/algorithm/string/config.hpp>
#include <locale>
/*! \file
Defines element comparison predicates. Many algorithms in this library can
take an additional argument with a predicate used to compare elements.
This makes it possible, for instance, to have case insensitive versions
of the algorithms.
*/
namespace boost {
namespace algorithm {
// is_equal functor -----------------------------------------------//
//! is_equal functor
/*!
Standard STL equal_to only handle comparison between arguments
of the same type. This is a less restrictive version which wraps operator ==.
*/
struct is_equal
{
//! Function operator
/*!
Compare two operands for equality
*/
template< typename T1, typename T2 >
bool operator()( const T1& Arg1, const T2& Arg2 ) const
{
return Arg1==Arg2;
}
};
//! case insensitive version of is_equal
/*!
Case insensitive comparison predicate. Comparison is done using
specified locales.
*/
struct is_iequal
{
//! Constructor
/*!
\param Loc locales used for comparison
*/
is_iequal( const std::locale& Loc=std::locale() ) :
m_Loc( Loc ) {}
//! Function operator
/*!
Compare two operands. Case is ignored.
*/
template< typename T1, typename T2 >
bool operator()( const T1& Arg1, const T2& Arg2 ) const
{
#if defined(__BORLANDC__) && (__BORLANDC__ >= 0x560) && (__BORLANDC__ <= 0x564) && !defined(_USE_OLD_RW_STL)
return std::toupper(Arg1)==std::toupper(Arg2);
#else
return std::toupper<T1>(Arg1,m_Loc)==std::toupper<T2>(Arg2,m_Loc);
#endif
}
private:
std::locale m_Loc;
};
// is_less functor -----------------------------------------------//
//! is_less functor
/*!
Convenient version of standard std::less. Operation is templated, therefore it is
not required to specify the exact types upon the construction
*/
struct is_less
{
//! Functor operation
/*!
Compare two operands using > operator
*/
template< typename T1, typename T2 >
bool operator()( const T1& Arg1, const T2& Arg2 ) const
{
return Arg1<Arg2;
}
};
//! case insensitive version of is_less
/*!
Case insensitive comparison predicate. Comparison is done using
specified locales.
*/
struct is_iless
{
//! Constructor
/*!
\param Loc locales used for comparison
*/
is_iless( const std::locale& Loc=std::locale() ) :
m_Loc( Loc ) {}
//! Function operator
/*!
Compare two operands. Case is ignored.
*/
template< typename T1, typename T2 >
bool operator()( const T1& Arg1, const T2& Arg2 ) const
{
#if defined(__BORLANDC__) && (__BORLANDC__ >= 0x560) && (__BORLANDC__ <= 0x564) && !defined(_USE_OLD_RW_STL)
return std::toupper(Arg1)<std::toupper(Arg2);
#else
return std::toupper<T1>(Arg1,m_Loc)<std::toupper<T2>(Arg2,m_Loc);
#endif
}
private:
std::locale m_Loc;
};
// is_not_greater functor -----------------------------------------------//
//! is_not_greater functor
/*!
Convenient version of standard std::not_greater_to. Operation is templated, therefore it is
not required to specify the exact types upon the construction
*/
struct is_not_greater
{
//! Functor operation
/*!
Compare two operands using > operator
*/
template< typename T1, typename T2 >
bool operator()( const T1& Arg1, const T2& Arg2 ) const
{
return Arg1<=Arg2;
}
};
//! case insensitive version of is_not_greater
/*!
Case insensitive comparison predicate. Comparison is done using
specified locales.
*/
struct is_not_igreater
{
//! Constructor
/*!
\param Loc locales used for comparison
*/
is_not_igreater( const std::locale& Loc=std::locale() ) :
m_Loc( Loc ) {}
//! Function operator
/*!
Compare two operands. Case is ignored.
*/
template< typename T1, typename T2 >
bool operator()( const T1& Arg1, const T2& Arg2 ) const
{
#if defined(__BORLANDC__) && (__BORLANDC__ >= 0x560) && (__BORLANDC__ <= 0x564) && !defined(_USE_OLD_RW_STL)
return std::toupper(Arg1)<=std::toupper(Arg2);
#else
return std::toupper<T1>(Arg1,m_Loc)<=std::toupper<T2>(Arg2,m_Loc);
#endif
}
private:
std::locale m_Loc;
};
} // namespace algorithm
// pull names to the boost namespace
using algorithm::is_equal;
using algorithm::is_iequal;
using algorithm::is_less;
using algorithm::is_iless;
using algorithm::is_not_greater;
using algorithm::is_not_igreater;
} // namespace boost
#endif // BOOST_STRING_COMPARE_HPP

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// Boost string_algo library concept.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_CONCEPT_HPP
#define BOOST_STRING_CONCEPT_HPP
#include <boost/concept_check.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
/*! \file
Defines concepts used in string_algo library
*/
namespace boost {
namespace algorithm {
//! Finder concept
/*!
Defines the Finder concept. Finder is a functor which selects
an arbitrary part of a string. Search is performed on
the range specified by starting and ending iterators.
Result of the find operation must be convertible to iterator_range.
*/
template<typename FinderT, typename IteratorT>
struct FinderConcept
{
private:
typedef iterator_range<IteratorT> range;
public:
void constraints()
{
// Operation
r=(*pF)(i,i);
}
private:
range r;
IteratorT i;
FinderT* pF;
}; // Finder_concept
//! Formatter concept
/*!
Defines the Formatter concept. Formatter is a functor, which
takes a result from a finder operation and transforms it
in a specific way.
Result must be a container supported by container_traits,
or a reference to it.
*/
template<typename FormatterT, typename FinderT, typename IteratorT>
struct FormatterConcept
{
public:
void constraints()
{
// Operation
::boost::begin((*pFo)( (*pF)(i,i) ));
::boost::end((*pFo)( (*pF)(i,i) ));
}
private:
IteratorT i;
FinderT* pF;
FormatterT *pFo;
}; // FormatterConcept;
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_CONCEPT_HPP

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// Boost string_algo library config.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_CONFIG_HPP
#define BOOST_STRING_CONFIG_HPP
#include <boost/config.hpp>
#include <boost/detail/workaround.hpp>
#ifdef BOOST_STRING_DEDUCED_TYPENAME
# error "macro already defined!"
#endif
#define BOOST_STRING_TYPENAME BOOST_DEDUCED_TYPENAME
// Metrowerks workaround
#if BOOST_WORKAROUND(__MWERKS__, <= 0x3003) // 8.x
#pragma parse_func_templ off
#endif
#endif // BOOST_STRING_CONFIG_HPP

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// Boost string_algo library constants.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_CONSTANTS_HPP
#define BOOST_STRING_CONSTANTS_HPP
namespace boost {
namespace algorithm {
//! Token compression mode
/*!
Specifies token compression mode for the token_finder.
*/
enum token_compress_mode_type
{
token_compress_on, //!< Compress adjacent tokens
token_compress_off //!< Do not compress adjacent tokens
};
} // namespace algorithm
// pull the names to the boost namespace
using algorithm::token_compress_on;
using algorithm::token_compress_off;
} // namespace boost
#endif // BOOST_STRING_CONSTANTS_HPP

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// Boost string_algo library string_funct.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_CASE_CONV_DETAIL_HPP
#define BOOST_STRING_CASE_CONV_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <locale>
#include <functional>
namespace boost {
namespace algorithm {
namespace detail {
// case conversion functors -----------------------------------------------//
#if BOOST_WORKAROUND(BOOST_MSVC, >= 1400)
#pragma warning(push)
#pragma warning(disable:4512) //assignment operator could not be generated
#endif
// a tolower functor
template<typename CharT>
struct to_lowerF : public std::unary_function<CharT, CharT>
{
// Constructor
to_lowerF( const std::locale& Loc ) : m_Loc( Loc ) {}
// Operation
CharT operator ()( CharT Ch ) const
{
#if defined(__BORLANDC__) && (__BORLANDC__ >= 0x560) && (__BORLANDC__ <= 0x564) && !defined(_USE_OLD_RW_STL)
return std::tolower( Ch);
#else
return std::tolower<CharT>( Ch, m_Loc );
#endif
}
private:
const std::locale& m_Loc;
};
// a toupper functor
template<typename CharT>
struct to_upperF : public std::unary_function<CharT, CharT>
{
// Constructor
to_upperF( const std::locale& Loc ) : m_Loc( Loc ) {}
// Operation
CharT operator ()( CharT Ch ) const
{
#if defined(__BORLANDC__) && (__BORLANDC__ >= 0x560) && (__BORLANDC__ <= 0x564) && !defined(_USE_OLD_RW_STL)
return std::toupper( Ch);
#else
return std::toupper<CharT>( Ch, m_Loc );
#endif
}
private:
const std::locale& m_Loc;
};
#if BOOST_WORKAROUND(BOOST_MSVC, >= 1400)
#pragma warning(pop)
#endif
// algorithm implementation -------------------------------------------------------------------------
// Transform a range
template<typename OutputIteratorT, typename RangeT, typename FunctorT>
OutputIteratorT transform_range_copy(
OutputIteratorT Output,
const RangeT& Input,
FunctorT Functor)
{
return std::transform(
::boost::begin(Input),
::boost::end(Input),
Output,
Functor);
}
// Transform a range (in-place)
template<typename RangeT, typename FunctorT>
void transform_range(
const RangeT& Input,
FunctorT Functor)
{
std::transform(
::boost::begin(Input),
::boost::end(Input),
::boost::begin(Input),
Functor);
}
template<typename SequenceT, typename RangeT, typename FunctorT>
inline SequenceT transform_range_copy(
const RangeT& Input,
FunctorT Functor)
{
return SequenceT(
make_transform_iterator(
::boost::begin(Input),
Functor),
make_transform_iterator(
::boost::end(Input),
Functor));
}
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_CASE_CONV_DETAIL_HPP

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// Boost string_algo library classification.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_CLASSIFICATION_DETAIL_HPP
#define BOOST_STRING_CLASSIFICATION_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <algorithm>
#include <functional>
#include <locale>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/algorithm/string/predicate_facade.hpp>
#include <boost/type_traits/remove_const.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// classification functors -----------------------------------------------//
// is_classified functor
struct is_classifiedF :
public predicate_facade<is_classifiedF>
{
// Boost.Lambda support
template <class Args> struct sig { typedef bool type; };
// Constructor from a locale
is_classifiedF(std::ctype_base::mask Type, std::locale const & Loc = std::locale()) :
m_Type(Type), m_Locale(Loc) {}
// Operation
template<typename CharT>
bool operator()( CharT Ch ) const
{
return std::use_facet< std::ctype<CharT> >(m_Locale).is( m_Type, Ch );
}
#if defined(__BORLANDC__) && (__BORLANDC__ >= 0x560) && (__BORLANDC__ <= 0x582) && !defined(_USE_OLD_RW_STL)
template<>
bool operator()( char const Ch ) const
{
return std::use_facet< std::ctype<char> >(m_Locale).is( m_Type, Ch );
}
#endif
private:
std::ctype_base::mask m_Type;
std::locale m_Locale;
};
// is_any_of functor
/*
returns true if the value is from the specified set
*/
template<typename CharT>
struct is_any_ofF :
public predicate_facade<is_any_ofF<CharT> >
{
private:
// set cannot operate on const value-type
typedef typename ::boost::remove_const<CharT>::type set_value_type;
public:
// Boost.Lambda support
template <class Args> struct sig { typedef bool type; };
// Constructor
template<typename RangeT>
is_any_ofF( const RangeT& Range ) : m_Size(0)
{
// Prepare storage
m_Storage.m_dynSet=0;
std::size_t Size=::boost::distance(Range);
m_Size=Size;
set_value_type* Storage=0;
if(use_fixed_storage(m_Size))
{
// Use fixed storage
Storage=&m_Storage.m_fixSet[0];
}
else
{
// Use dynamic storage
m_Storage.m_dynSet=new set_value_type[m_Size];
Storage=m_Storage.m_dynSet;
}
// Use fixed storage
::std::copy(::boost::begin(Range), ::boost::end(Range), Storage);
::std::sort(Storage, Storage+m_Size);
}
// Copy constructor
is_any_ofF(const is_any_ofF& Other) : m_Size(Other.m_Size)
{
// Prepare storage
m_Storage.m_dynSet=0;
const set_value_type* SrcStorage=0;
set_value_type* DestStorage=0;
if(use_fixed_storage(m_Size))
{
// Use fixed storage
DestStorage=&m_Storage.m_fixSet[0];
SrcStorage=&Other.m_Storage.m_fixSet[0];
}
else
{
// Use dynamic storage
m_Storage.m_dynSet=new set_value_type[m_Size];
DestStorage=m_Storage.m_dynSet;
SrcStorage=Other.m_Storage.m_dynSet;
}
// Use fixed storage
::memcpy(DestStorage, SrcStorage, sizeof(set_value_type)*m_Size);
}
// Destructor
~is_any_ofF()
{
if(!use_fixed_storage(m_Size) && m_Storage.m_dynSet!=0)
{
delete [] m_Storage.m_dynSet;
}
}
// Assignment
is_any_ofF& operator=(const is_any_ofF& Other)
{
// Handle self assignment
if(this==&Other) return *this;
// Prepare storage
const set_value_type* SrcStorage;
set_value_type* DestStorage;
if(use_fixed_storage(Other.m_Size))
{
// Use fixed storage
DestStorage=&m_Storage.m_fixSet[0];
SrcStorage=&Other.m_Storage.m_fixSet[0];
// Delete old storage if was present
if(!use_fixed_storage(m_Size) && m_Storage.m_dynSet!=0)
{
delete [] m_Storage.m_dynSet;
}
// Set new size
m_Size=Other.m_Size;
}
else
{
// Other uses dynamic storage
SrcStorage=Other.m_Storage.m_dynSet;
// Check what kind of storage are we using right now
if(use_fixed_storage(m_Size))
{
// Using fixed storage, allocate new
set_value_type* pTemp=new set_value_type[Other.m_Size];
DestStorage=pTemp;
m_Storage.m_dynSet=pTemp;
m_Size=Other.m_Size;
}
else
{
// Using dynamic storage, check if can reuse
if(m_Storage.m_dynSet!=0 && m_Size>=Other.m_Size && m_Size<Other.m_Size*2)
{
// Reuse the current storage
DestStorage=m_Storage.m_dynSet;
m_Size=Other.m_Size;
}
else
{
// Allocate the new one
set_value_type* pTemp=new set_value_type[Other.m_Size];
DestStorage=pTemp;
// Delete old storage if necessary
if(m_Storage.m_dynSet!=0)
{
delete [] m_Storage.m_dynSet;
}
// Store the new storage
m_Storage.m_dynSet=pTemp;
// Set new size
m_Size=Other.m_Size;
}
}
}
// Copy the data
::memcpy(DestStorage, SrcStorage, sizeof(set_value_type)*m_Size);
return *this;
}
// Operation
template<typename Char2T>
bool operator()( Char2T Ch ) const
{
const set_value_type* Storage=
(use_fixed_storage(m_Size))
? &m_Storage.m_fixSet[0]
: m_Storage.m_dynSet;
return ::std::binary_search(Storage, Storage+m_Size, Ch);
}
private:
// check if the size is eligible for fixed storage
static bool use_fixed_storage(std::size_t size)
{
return size<=sizeof(set_value_type*)*2;
}
private:
// storage
// The actual used storage is selected on the type
union
{
set_value_type* m_dynSet;
set_value_type m_fixSet[sizeof(set_value_type*)*2];
}
m_Storage;
// storage size
::std::size_t m_Size;
};
// is_from_range functor
/*
returns true if the value is from the specified range.
(i.e. x>=From && x>=To)
*/
template<typename CharT>
struct is_from_rangeF :
public predicate_facade< is_from_rangeF<CharT> >
{
// Boost.Lambda support
template <class Args> struct sig { typedef bool type; };
// Constructor
is_from_rangeF( CharT From, CharT To ) : m_From(From), m_To(To) {}
// Operation
template<typename Char2T>
bool operator()( Char2T Ch ) const
{
return ( m_From <= Ch ) && ( Ch <= m_To );
}
private:
CharT m_From;
CharT m_To;
};
// class_and composition predicate
template<typename Pred1T, typename Pred2T>
struct pred_andF :
public predicate_facade< pred_andF<Pred1T,Pred2T> >
{
public:
// Boost.Lambda support
template <class Args> struct sig { typedef bool type; };
// Constructor
pred_andF( Pred1T Pred1, Pred2T Pred2 ) :
m_Pred1(Pred1), m_Pred2(Pred2) {}
// Operation
template<typename CharT>
bool operator()( CharT Ch ) const
{
return m_Pred1(Ch) && m_Pred2(Ch);
}
private:
Pred1T m_Pred1;
Pred2T m_Pred2;
};
// class_or composition predicate
template<typename Pred1T, typename Pred2T>
struct pred_orF :
public predicate_facade< pred_orF<Pred1T,Pred2T> >
{
public:
// Boost.Lambda support
template <class Args> struct sig { typedef bool type; };
// Constructor
pred_orF( Pred1T Pred1, Pred2T Pred2 ) :
m_Pred1(Pred1), m_Pred2(Pred2) {}
// Operation
template<typename CharT>
bool operator()( CharT Ch ) const
{
return m_Pred1(Ch) || m_Pred2(Ch);
}
private:
Pred1T m_Pred1;
Pred2T m_Pred2;
};
// class_not composition predicate
template< typename PredT >
struct pred_notF :
public predicate_facade< pred_notF<PredT> >
{
public:
// Boost.Lambda support
template <class Args> struct sig { typedef bool type; };
// Constructor
pred_notF( PredT Pred ) : m_Pred(Pred) {}
// Operation
template<typename CharT>
bool operator()( CharT Ch ) const
{
return !m_Pred(Ch);
}
private:
PredT m_Pred;
};
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_CLASSIFICATION_DETAIL_HPP

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// Boost string_algo library find_format.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FIND_FORMAT_DETAIL_HPP
#define BOOST_STRING_FIND_FORMAT_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/const_iterator.hpp>
#include <boost/range/iterator.hpp>
#include <boost/algorithm/string/detail/find_format_store.hpp>
#include <boost/algorithm/string/detail/replace_storage.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// find_format_copy (iterator variant) implementation -------------------------------//
template<
typename OutputIteratorT,
typename InputT,
typename FormatterT,
typename FindResultT >
inline OutputIteratorT find_format_copy_impl(
OutputIteratorT Output,
const InputT& Input,
FormatterT Formatter,
const FindResultT& FindResult )
{
return find_format_copy_impl2(
Output,
Input,
Formatter,
FindResult,
Formatter(FindResult) );
}
template<
typename OutputIteratorT,
typename InputT,
typename FormatterT,
typename FindResultT,
typename FormatResultT >
inline OutputIteratorT find_format_copy_impl2(
OutputIteratorT Output,
const InputT& Input,
FormatterT Formatter,
const FindResultT& FindResult,
const FormatResultT& FormatResult )
{
typedef find_format_store<
BOOST_STRING_TYPENAME
range_const_iterator<InputT>::type,
FormatterT,
FormatResultT > store_type;
// Create store for the find result
store_type M( FindResult, FormatResult, Formatter );
if ( !M )
{
// Match not found - return original sequence
std::copy( ::boost::begin(Input), ::boost::end(Input), Output );
return Output;
}
// Copy the beginning of the sequence
std::copy( ::boost::begin(Input), ::boost::begin(M), Output );
// Format find result
// Copy formated result
std::copy( ::boost::begin(M.format_result()), ::boost::end(M.format_result()), Output );
// Copy the rest of the sequence
std::copy( M.end(), ::boost::end(Input), Output );
return Output;
}
// find_format_copy implementation --------------------------------------------------//
template<
typename InputT,
typename FormatterT,
typename FindResultT >
inline InputT find_format_copy_impl(
const InputT& Input,
FormatterT Formatter,
const FindResultT& FindResult)
{
return find_format_copy_impl2(
Input,
Formatter,
FindResult,
Formatter(FindResult) );
}
template<
typename InputT,
typename FormatterT,
typename FindResultT,
typename FormatResultT >
inline InputT find_format_copy_impl2(
const InputT& Input,
FormatterT Formatter,
const FindResultT& FindResult,
const FormatResultT& FormatResult)
{
typedef find_format_store<
BOOST_STRING_TYPENAME
range_const_iterator<InputT>::type,
FormatterT,
FormatResultT > store_type;
// Create store for the find result
store_type M( FindResult, FormatResult, Formatter );
if ( !M )
{
// Match not found - return original sequence
return InputT( Input );
}
InputT Output;
// Copy the beginning of the sequence
insert( Output, ::boost::end(Output), ::boost::begin(Input), M.begin() );
// Copy formated result
insert( Output, ::boost::end(Output), M.format_result() );
// Copy the rest of the sequence
insert( Output, ::boost::end(Output), M.end(), ::boost::end(Input) );
return Output;
}
// replace implementation ----------------------------------------------------//
template<
typename InputT,
typename FormatterT,
typename FindResultT >
inline void find_format_impl(
InputT& Input,
FormatterT Formatter,
const FindResultT& FindResult)
{
find_format_impl2(
Input,
Formatter,
FindResult,
Formatter(FindResult) );
}
template<
typename InputT,
typename FormatterT,
typename FindResultT,
typename FormatResultT >
inline void find_format_impl2(
InputT& Input,
FormatterT Formatter,
const FindResultT& FindResult,
const FormatResultT& FormatResult)
{
typedef find_format_store<
BOOST_STRING_TYPENAME
range_iterator<InputT>::type,
FormatterT,
FormatResultT > store_type;
// Create store for the find result
store_type M( FindResult, FormatResult, Formatter );
if ( !M )
{
// Search not found - return original sequence
return;
}
// Replace match
replace( Input, M.begin(), M.end(), M.format_result() );
}
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_FIND_FORMAT_DETAIL_HPP

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// Boost string_algo library find_format_all.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FIND_FORMAT_ALL_DETAIL_HPP
#define BOOST_STRING_FIND_FORMAT_ALL_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/const_iterator.hpp>
#include <boost/range/value_type.hpp>
#include <boost/algorithm/string/detail/find_format_store.hpp>
#include <boost/algorithm/string/detail/replace_storage.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// find_format_all_copy (iterator variant) implementation ---------------------------//
template<
typename OutputIteratorT,
typename InputT,
typename FinderT,
typename FormatterT,
typename FindResultT >
inline OutputIteratorT find_format_all_copy_impl(
OutputIteratorT Output,
const InputT& Input,
FinderT Finder,
FormatterT Formatter,
const FindResultT& FindResult )
{
return find_format_all_copy_impl2(
Output,
Input,
Finder,
Formatter,
FindResult,
Formatter(FindResult) );
}
template<
typename OutputIteratorT,
typename InputT,
typename FinderT,
typename FormatterT,
typename FindResultT,
typename FormatResultT >
inline OutputIteratorT find_format_all_copy_impl2(
OutputIteratorT Output,
const InputT& Input,
FinderT Finder,
FormatterT Formatter,
const FindResultT& FindResult,
const FormatResultT& FormatResult )
{
typedef BOOST_STRING_TYPENAME
range_const_iterator<InputT>::type input_iterator_type;
typedef find_format_store<
input_iterator_type,
FormatterT,
FormatResultT > store_type;
// Create store for the find result
store_type M( FindResult, FormatResult, Formatter );
// Initialize last match
input_iterator_type LastMatch=::boost::begin(Input);
// Iterate through all matches
while( M )
{
// Copy the beginning of the sequence
std::copy( LastMatch, M.begin(), Output );
// Copy formated result
std::copy( ::boost::begin(M.format_result()), ::boost::end(M.format_result()), Output );
// Proceed to the next match
LastMatch=M.end();
M=Finder( LastMatch, ::boost::end(Input) );
}
// Copy the rest of the sequence
std::copy( LastMatch, ::boost::end(Input), Output );
return Output;
}
// find_format_all_copy implementation ----------------------------------------------//
template<
typename InputT,
typename FinderT,
typename FormatterT,
typename FindResultT >
inline InputT find_format_all_copy_impl(
const InputT& Input,
FinderT Finder,
FormatterT Formatter,
const FindResultT& FindResult)
{
return find_format_all_copy_impl2(
Input,
Finder,
Formatter,
FindResult,
Formatter(FindResult) );
}
template<
typename InputT,
typename FinderT,
typename FormatterT,
typename FindResultT,
typename FormatResultT >
inline InputT find_format_all_copy_impl2(
const InputT& Input,
FinderT Finder,
FormatterT Formatter,
const FindResultT& FindResult,
const FormatResultT& FormatResult)
{
typedef BOOST_STRING_TYPENAME
range_const_iterator<InputT>::type input_iterator_type;
typedef find_format_store<
input_iterator_type,
FormatterT,
FormatResultT > store_type;
// Create store for the find result
store_type M( FindResult, FormatResult, Formatter );
// Initialize last match
input_iterator_type LastMatch=::boost::begin(Input);
// Output temporary
InputT Output;
// Iterate through all matches
while( M )
{
// Copy the beginning of the sequence
insert( Output, ::boost::end(Output), LastMatch, M.begin() );
// Copy formated result
insert( Output, ::boost::end(Output), M.format_result() );
// Proceed to the next match
LastMatch=M.end();
M=Finder( LastMatch, ::boost::end(Input) );
}
// Copy the rest of the sequence
insert( Output, ::boost::end(Output), LastMatch, ::boost::end(Input) );
return Output;
}
// find_format_all implementation ------------------------------------------------//
template<
typename InputT,
typename FinderT,
typename FormatterT,
typename FindResultT >
inline void find_format_all_impl(
InputT& Input,
FinderT Finder,
FormatterT Formatter,
FindResultT FindResult)
{
find_format_all_impl2(
Input,
Finder,
Formatter,
FindResult,
Formatter(FindResult) );
}
template<
typename InputT,
typename FinderT,
typename FormatterT,
typename FindResultT,
typename FormatResultT >
inline void find_format_all_impl2(
InputT& Input,
FinderT Finder,
FormatterT Formatter,
FindResultT FindResult,
FormatResultT FormatResult)
{
typedef BOOST_STRING_TYPENAME
range_iterator<InputT>::type input_iterator_type;
typedef find_format_store<
input_iterator_type,
FormatterT,
FormatResultT > store_type;
// Create store for the find result
store_type M( FindResult, FormatResult, Formatter );
// Instantiate replacement storage
std::deque<
BOOST_STRING_TYPENAME range_value<InputT>::type> Storage;
// Initialize replacement iterators
input_iterator_type InsertIt=::boost::begin(Input);
input_iterator_type SearchIt=::boost::begin(Input);
while( M )
{
// process the segment
InsertIt=process_segment(
Storage,
Input,
InsertIt,
SearchIt,
M.begin() );
// Adjust search iterator
SearchIt=M.end();
// Copy formated replace to the storage
copy_to_storage( Storage, M.format_result() );
// Find range for a next match
M=Finder( SearchIt, ::boost::end(Input) );
}
// process the last segment
InsertIt=process_segment(
Storage,
Input,
InsertIt,
SearchIt,
::boost::end(Input) );
if ( Storage.empty() )
{
// Truncate input
erase( Input, InsertIt, ::boost::end(Input) );
}
else
{
// Copy remaining data to the end of input
insert( Input, ::boost::end(Input), Storage.begin(), Storage.end() );
}
}
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_FIND_FORMAT_ALL_DETAIL_HPP

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// Boost string_algo library find_format_store.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FIND_FORMAT_STORE_DETAIL_HPP
#define BOOST_STRING_FIND_FORMAT_STORE_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/range/iterator_range.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// temporary format and find result storage --------------------------------//
#if BOOST_WORKAROUND(BOOST_MSVC, >= 1400)
#pragma warning(push)
#pragma warning(disable:4512) //assignment operator could not be generated
#endif
template<
typename ForwardIteratorT,
typename FormatterT,
typename FormatResultT >
class find_format_store :
public iterator_range<ForwardIteratorT>
{
public:
// typedefs
typedef iterator_range<ForwardIteratorT> base_type;
typedef FormatterT formatter_type;
typedef FormatResultT format_result_type;
public:
// Construction
find_format_store(
const base_type& FindResult,
const format_result_type& FormatResult,
const formatter_type& Formatter ) :
base_type(FindResult),
m_FormatResult(FormatResult),
m_Formatter(Formatter) {}
// Assignment
template< typename FindResultT >
find_format_store& operator=( FindResultT FindResult )
{
iterator_range<ForwardIteratorT>::operator=(FindResult);
m_FormatResult=m_Formatter(FindResult);
return *this;
}
// Retrieve format result
const format_result_type& format_result()
{
return m_FormatResult;
}
private:
format_result_type m_FormatResult;
const formatter_type& m_Formatter;
};
#if BOOST_WORKAROUND(BOOST_MSVC, >= 1400)
#pragma warning(pop)
#endif
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_FIND_FORMAT_STORE_DETAIL_HPP

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// Boost string_algo library find_iterator.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FIND_ITERATOR_DETAIL_HPP
#define BOOST_STRING_FIND_ITERATOR_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/iterator/iterator_facade.hpp>
#include <boost/iterator/iterator_categories.hpp>
#include <boost/function.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// find_iterator base -----------------------------------------------//
// Find iterator base
template<typename IteratorT>
class find_iterator_base
{
protected:
// typedefs
typedef IteratorT input_iterator_type;
typedef iterator_range<IteratorT> match_type;
typedef function2<
match_type,
input_iterator_type,
input_iterator_type> finder_type;
protected:
// Protected construction/destruction
// Default constructor
find_iterator_base() {};
// Copy construction
find_iterator_base( const find_iterator_base& Other ) :
m_Finder(Other.m_Finder) {}
// Constructor
template<typename FinderT>
find_iterator_base( FinderT Finder, int ) :
m_Finder(Finder) {}
// Destructor
~find_iterator_base() {}
// Find operation
match_type do_find(
input_iterator_type Begin,
input_iterator_type End ) const
{
if (!m_Finder.empty())
{
return m_Finder(Begin,End);
}
else
{
return match_type(End,End);
}
}
// Check
bool is_null() const
{
return m_Finder.empty();
}
private:
// Finder
finder_type m_Finder;
};
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_FIND_ITERATOR_DETAIL_HPP

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// Boost string_algo library finder.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2006.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FINDER_DETAIL_HPP
#define BOOST_STRING_FINDER_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/algorithm/string/constants.hpp>
#include <boost/detail/iterator.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/empty.hpp>
#include <boost/range/as_literal.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// find first functor -----------------------------------------------//
// find a subsequence in the sequence ( functor )
/*
Returns a pair <begin,end> marking the subsequence in the sequence.
If the find fails, functor returns <End,End>
*/
template<typename SearchIteratorT,typename PredicateT>
struct first_finderF
{
typedef SearchIteratorT search_iterator_type;
// Construction
template< typename SearchT >
first_finderF( const SearchT& Search, PredicateT Comp ) :
m_Search(::boost::begin(Search), ::boost::end(Search)), m_Comp(Comp) {}
first_finderF(
search_iterator_type SearchBegin,
search_iterator_type SearchEnd,
PredicateT Comp ) :
m_Search(SearchBegin, SearchEnd), m_Comp(Comp) {}
// Operation
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
operator()(
ForwardIteratorT Begin,
ForwardIteratorT End ) const
{
typedef iterator_range<ForwardIteratorT> result_type;
typedef ForwardIteratorT input_iterator_type;
// Outer loop
for(input_iterator_type OuterIt=Begin;
OuterIt!=End;
++OuterIt)
{
// Sanity check
if( boost::empty(m_Search) )
return result_type( End, End );
input_iterator_type InnerIt=OuterIt;
search_iterator_type SubstrIt=m_Search.begin();
for(;
InnerIt!=End && SubstrIt!=m_Search.end();
++InnerIt,++SubstrIt)
{
if( !( m_Comp(*InnerIt,*SubstrIt) ) )
break;
}
// Substring matching succeeded
if ( SubstrIt==m_Search.end() )
return result_type( OuterIt, InnerIt );
}
return result_type( End, End );
}
private:
iterator_range<search_iterator_type> m_Search;
PredicateT m_Comp;
};
// find last functor -----------------------------------------------//
// find the last match a subseqeunce in the sequence ( functor )
/*
Returns a pair <begin,end> marking the subsequence in the sequence.
If the find fails, returns <End,End>
*/
template<typename SearchIteratorT, typename PredicateT>
struct last_finderF
{
typedef SearchIteratorT search_iterator_type;
typedef first_finderF<
search_iterator_type,
PredicateT> first_finder_type;
// Construction
template< typename SearchT >
last_finderF( const SearchT& Search, PredicateT Comp ) :
m_Search(::boost::begin(Search), ::boost::end(Search)), m_Comp(Comp) {}
last_finderF(
search_iterator_type SearchBegin,
search_iterator_type SearchEnd,
PredicateT Comp ) :
m_Search(SearchBegin, SearchEnd), m_Comp(Comp) {}
// Operation
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
operator()(
ForwardIteratorT Begin,
ForwardIteratorT End ) const
{
typedef iterator_range<ForwardIteratorT> result_type;
if( boost::empty(m_Search) )
return result_type( End, End );
typedef BOOST_STRING_TYPENAME boost::detail::
iterator_traits<ForwardIteratorT>::iterator_category category;
return findit( Begin, End, category() );
}
private:
// forward iterator
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
findit(
ForwardIteratorT Begin,
ForwardIteratorT End,
std::forward_iterator_tag ) const
{
typedef ForwardIteratorT input_iterator_type;
typedef iterator_range<ForwardIteratorT> result_type;
first_finder_type first_finder(
m_Search.begin(), m_Search.end(), m_Comp );
result_type M=first_finder( Begin, End );
result_type Last=M;
while( M )
{
Last=M;
M=first_finder( ::boost::end(M), End );
}
return Last;
}
// bidirectional iterator
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
findit(
ForwardIteratorT Begin,
ForwardIteratorT End,
std::bidirectional_iterator_tag ) const
{
typedef iterator_range<ForwardIteratorT> result_type;
typedef ForwardIteratorT input_iterator_type;
// Outer loop
for(input_iterator_type OuterIt=End;
OuterIt!=Begin; )
{
input_iterator_type OuterIt2=--OuterIt;
input_iterator_type InnerIt=OuterIt2;
search_iterator_type SubstrIt=m_Search.begin();
for(;
InnerIt!=End && SubstrIt!=m_Search.end();
++InnerIt,++SubstrIt)
{
if( !( m_Comp(*InnerIt,*SubstrIt) ) )
break;
}
// Substring matching succeeded
if( SubstrIt==m_Search.end() )
return result_type( OuterIt2, InnerIt );
}
return result_type( End, End );
}
private:
iterator_range<search_iterator_type> m_Search;
PredicateT m_Comp;
};
// find n-th functor -----------------------------------------------//
// find the n-th match of a subsequence in the sequence ( functor )
/*
Returns a pair <begin,end> marking the subsequence in the sequence.
If the find fails, returns <End,End>
*/
template<typename SearchIteratorT, typename PredicateT>
struct nth_finderF
{
typedef SearchIteratorT search_iterator_type;
typedef first_finderF<
search_iterator_type,
PredicateT> first_finder_type;
typedef last_finderF<
search_iterator_type,
PredicateT> last_finder_type;
// Construction
template< typename SearchT >
nth_finderF(
const SearchT& Search,
int Nth,
PredicateT Comp) :
m_Search(::boost::begin(Search), ::boost::end(Search)),
m_Nth(Nth),
m_Comp(Comp) {}
nth_finderF(
search_iterator_type SearchBegin,
search_iterator_type SearchEnd,
int Nth,
PredicateT Comp) :
m_Search(SearchBegin, SearchEnd),
m_Nth(Nth),
m_Comp(Comp) {}
// Operation
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
operator()(
ForwardIteratorT Begin,
ForwardIteratorT End ) const
{
if(m_Nth>=0)
{
return find_forward(Begin, End, m_Nth);
}
else
{
return find_backward(Begin, End, -m_Nth);
}
}
private:
// Implementation helpers
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
find_forward(
ForwardIteratorT Begin,
ForwardIteratorT End,
unsigned int N) const
{
typedef ForwardIteratorT input_iterator_type;
typedef iterator_range<ForwardIteratorT> result_type;
// Sanity check
if( boost::empty(m_Search) )
return result_type( End, End );
// Instantiate find functor
first_finder_type first_finder(
m_Search.begin(), m_Search.end(), m_Comp );
result_type M( Begin, Begin );
for( unsigned int n=0; n<=N; ++n )
{
// find next match
M=first_finder( ::boost::end(M), End );
if ( !M )
{
// Subsequence not found, return
return M;
}
}
return M;
}
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
find_backward(
ForwardIteratorT Begin,
ForwardIteratorT End,
unsigned int N) const
{
typedef ForwardIteratorT input_iterator_type;
typedef iterator_range<ForwardIteratorT> result_type;
// Sanity check
if( boost::empty(m_Search) )
return result_type( End, End );
// Instantiate find functor
last_finder_type last_finder(
m_Search.begin(), m_Search.end(), m_Comp );
result_type M( End, End );
for( unsigned int n=1; n<=N; ++n )
{
// find next match
M=last_finder( Begin, ::boost::begin(M) );
if ( !M )
{
// Subsequence not found, return
return M;
}
}
return M;
}
private:
iterator_range<search_iterator_type> m_Search;
int m_Nth;
PredicateT m_Comp;
};
// find head/tail implementation helpers ---------------------------//
template<typename ForwardIteratorT>
iterator_range<ForwardIteratorT>
find_head_impl(
ForwardIteratorT Begin,
ForwardIteratorT End,
unsigned int N,
std::forward_iterator_tag )
{
typedef ForwardIteratorT input_iterator_type;
typedef iterator_range<ForwardIteratorT> result_type;
input_iterator_type It=Begin;
for(
unsigned int Index=0;
Index<N && It!=End; ++Index,++It ) {};
return result_type( Begin, It );
}
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
find_head_impl(
ForwardIteratorT Begin,
ForwardIteratorT End,
unsigned int N,
std::random_access_iterator_tag )
{
typedef ForwardIteratorT input_iterator_type;
typedef iterator_range<ForwardIteratorT> result_type;
if ( (End<=Begin) || ( static_cast<unsigned int>(End-Begin) < N ) )
return result_type( Begin, End );
return result_type(Begin,Begin+N);
}
// Find head implementation
template<typename ForwardIteratorT>
iterator_range<ForwardIteratorT>
find_head_impl(
ForwardIteratorT Begin,
ForwardIteratorT End,
unsigned int N )
{
typedef BOOST_STRING_TYPENAME boost::detail::
iterator_traits<ForwardIteratorT>::iterator_category category;
return find_head_impl( Begin, End, N, category() );
}
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
find_tail_impl(
ForwardIteratorT Begin,
ForwardIteratorT End,
unsigned int N,
std::forward_iterator_tag )
{
typedef ForwardIteratorT input_iterator_type;
typedef iterator_range<ForwardIteratorT> result_type;
unsigned int Index=0;
input_iterator_type It=Begin;
input_iterator_type It2=Begin;
// Advance It2 by N increments
for( Index=0; Index<N && It2!=End; ++Index,++It2 ) {};
// Advance It, It2 to the end
for(; It2!=End; ++It,++It2 ) {};
return result_type( It, It2 );
}
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
find_tail_impl(
ForwardIteratorT Begin,
ForwardIteratorT End,
unsigned int N,
std::bidirectional_iterator_tag )
{
typedef ForwardIteratorT input_iterator_type;
typedef iterator_range<ForwardIteratorT> result_type;
input_iterator_type It=End;
for(
unsigned int Index=0;
Index<N && It!=Begin; ++Index,--It ) {};
return result_type( It, End );
}
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
find_tail_impl(
ForwardIteratorT Begin,
ForwardIteratorT End,
unsigned int N,
std::random_access_iterator_tag )
{
typedef ForwardIteratorT input_iterator_type;
typedef iterator_range<ForwardIteratorT> result_type;
if ( (End<=Begin) || ( static_cast<unsigned int>(End-Begin) < N ) )
return result_type( Begin, End );
return result_type( End-N, End );
}
// Operation
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
find_tail_impl(
ForwardIteratorT Begin,
ForwardIteratorT End,
unsigned int N )
{
typedef BOOST_STRING_TYPENAME boost::detail::
iterator_traits<ForwardIteratorT>::iterator_category category;
return find_tail_impl( Begin, End, N, category() );
}
// find head functor -----------------------------------------------//
// find a head in the sequence ( functor )
/*
This functor find a head of the specified range. For
a specified N, the head is a subsequence of N starting
elements of the range.
*/
struct head_finderF
{
// Construction
head_finderF( int N ) : m_N(N) {}
// Operation
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
operator()(
ForwardIteratorT Begin,
ForwardIteratorT End ) const
{
if(m_N>=0)
{
return find_head_impl( Begin, End, m_N );
}
else
{
iterator_range<ForwardIteratorT> Res=
find_tail_impl( Begin, End, -m_N );
return make_iterator_range(Begin, Res.begin());
}
}
private:
int m_N;
};
// find tail functor -----------------------------------------------//
// find a tail in the sequence ( functor )
/*
This functor find a tail of the specified range. For
a specified N, the head is a subsequence of N starting
elements of the range.
*/
struct tail_finderF
{
// Construction
tail_finderF( int N ) : m_N(N) {}
// Operation
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
operator()(
ForwardIteratorT Begin,
ForwardIteratorT End ) const
{
if(m_N>=0)
{
return find_tail_impl( Begin, End, m_N );
}
else
{
iterator_range<ForwardIteratorT> Res=
find_head_impl( Begin, End, -m_N );
return make_iterator_range(Res.end(), End);
}
}
private:
int m_N;
};
// find token functor -----------------------------------------------//
// find a token in a sequence ( functor )
/*
This find functor finds a token specified be a predicate
in a sequence. It is equivalent of std::find algorithm,
with an exception that it return range instead of a single
iterator.
If bCompress is set to true, adjacent matching tokens are
concatenated into one match.
*/
template< typename PredicateT >
struct token_finderF
{
// Construction
token_finderF(
PredicateT Pred,
token_compress_mode_type eCompress=token_compress_off ) :
m_Pred(Pred), m_eCompress(eCompress) {}
// Operation
template< typename ForwardIteratorT >
iterator_range<ForwardIteratorT>
operator()(
ForwardIteratorT Begin,
ForwardIteratorT End ) const
{
typedef iterator_range<ForwardIteratorT> result_type;
ForwardIteratorT It=std::find_if( Begin, End, m_Pred );
if( It==End )
{
return result_type( End, End );
}
else
{
ForwardIteratorT It2=It;
if( m_eCompress==token_compress_on )
{
// Find first non-matching character
while( It2!=End && m_Pred(*It2) ) ++It2;
}
else
{
// Advance by one position
++It2;
}
return result_type( It, It2 );
}
}
private:
PredicateT m_Pred;
token_compress_mode_type m_eCompress;
};
// find range functor -----------------------------------------------//
// find a range in the sequence ( functor )
/*
This functor actually does not perform any find operation.
It always returns given iterator range as a result.
*/
template<typename ForwardIterator1T>
struct range_finderF
{
typedef ForwardIterator1T input_iterator_type;
typedef iterator_range<input_iterator_type> result_type;
// Construction
range_finderF(
input_iterator_type Begin,
input_iterator_type End ) : m_Range(Begin, End) {}
range_finderF(const iterator_range<input_iterator_type>& Range) :
m_Range(Range) {}
// Operation
template< typename ForwardIterator2T >
iterator_range<ForwardIterator2T>
operator()(
ForwardIterator2T,
ForwardIterator2T ) const
{
#if BOOST_WORKAROUND( __MWERKS__, <= 0x3003 )
return iterator_range<const ForwardIterator2T>(this->m_Range);
#elif BOOST_WORKAROUND(BOOST_MSVC, <= 1300)
return iterator_range<ForwardIterator2T>(m_Range.begin(), m_Range.end());
#else
return m_Range;
#endif
}
private:
iterator_range<input_iterator_type> m_Range;
};
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_FINDER_DETAIL_HPP

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// Boost string_algo library find_regex.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FINDER_REGEX_DETAIL_HPP
#define BOOST_STRING_FINDER_REGEX_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/regex.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// regex find functor -----------------------------------------------//
// regex search result
template<typename IteratorT>
struct regex_search_result :
public iterator_range<IteratorT>
{
typedef regex_search_result<IteratorT> type;
typedef iterator_range<IteratorT> base_type;
typedef BOOST_STRING_TYPENAME base_type::value_type value_type;
typedef BOOST_STRING_TYPENAME base_type::difference_type difference_type;
typedef BOOST_STRING_TYPENAME base_type::const_iterator const_iterator;
typedef BOOST_STRING_TYPENAME base_type::iterator iterator;
typedef boost::match_results<iterator> match_results_type;
// Construction
// Construction from the match result
regex_search_result( const match_results_type& MatchResults ) :
base_type( MatchResults[0].first, MatchResults[0].second ),
m_MatchResults( MatchResults ) {}
// Construction of empty match. End iterator has to be specified
regex_search_result( IteratorT End ) :
base_type( End, End ) {}
regex_search_result( const regex_search_result& Other ) :
base_type( Other.begin(), Other.end() ),
m_MatchResults( Other.m_MatchResults ) {}
// Assignment
regex_search_result& operator=( const regex_search_result& Other )
{
base_type::operator=( Other );
m_MatchResults=Other.m_MatchResults;
return *this;
}
// Match result retrival
const match_results_type& match_results() const
{
return m_MatchResults;
}
private:
// Saved matchresult
match_results_type m_MatchResults;
};
// find_regex
/*
Regex based search functor
*/
template<typename RegExT>
struct find_regexF
{
typedef RegExT regex_type;
typedef const RegExT& regex_reference_type;
// Construction
find_regexF( regex_reference_type Rx, match_flag_type MatchFlags = match_default ) :
m_Rx(Rx), m_MatchFlags(MatchFlags) {}
// Operation
template< typename ForwardIteratorT >
regex_search_result<ForwardIteratorT>
operator()(
ForwardIteratorT Begin,
ForwardIteratorT End ) const
{
typedef ForwardIteratorT input_iterator_type;
typedef regex_search_result<ForwardIteratorT> result_type;
// instantiate match result
match_results<input_iterator_type> result;
// search for a match
if ( regex_search( Begin, End, result, m_Rx, m_MatchFlags ) )
{
// construct a result
return result_type( result );
}
else
{
// empty result
return result_type( End );
}
}
private:
regex_reference_type m_Rx; // Regexp
match_flag_type m_MatchFlags; // match flags
};
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_FIND_DETAIL_HPP

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// Boost string_algo library formatter.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org for updates, documentation, and revision history.
#ifndef BOOST_STRING_FORMATTER_DETAIL_HPP
#define BOOST_STRING_FORMATTER_DETAIL_HPP
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/const_iterator.hpp>
#include <boost/algorithm/string/detail/util.hpp>
// generic replace functors -----------------------------------------------//
namespace boost {
namespace algorithm {
namespace detail {
// const format functor ----------------------------------------------------//
// constant format functor
template<typename RangeT>
struct const_formatF
{
private:
typedef BOOST_STRING_TYPENAME
range_const_iterator<RangeT>::type format_iterator;
typedef iterator_range<format_iterator> result_type;
public:
// Construction
const_formatF(const RangeT& Format) :
m_Format(::boost::begin(Format), ::boost::end(Format)) {}
// Operation
#if BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x564))
template<typename Range2T>
result_type& operator()(const Range2T&)
{
return m_Format;
}
#endif
template<typename Range2T>
const result_type& operator()(const Range2T&) const
{
return m_Format;
}
private:
result_type m_Format;
};
// identity format functor ----------------------------------------------------//
// identity format functor
template<typename RangeT>
struct identity_formatF
{
// Operation
template< typename Range2T >
const RangeT& operator()(const Range2T& Replace) const
{
return RangeT(::boost::begin(Replace), ::boost::end(Replace));
}
};
// empty format functor ( used by erase ) ------------------------------------//
// empty format functor
template< typename CharT >
struct empty_formatF
{
template< typename ReplaceT >
empty_container<CharT> operator()(const ReplaceT&) const
{
return empty_container<CharT>();
}
};
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_FORMATTER_DETAIL_HPP

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// Boost string_algo library formatter_regex.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FORMATTER_REGEX_DETAIL_HPP
#define BOOST_STRING_FORMATTER_REGEX_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <string>
#include <boost/regex.hpp>
#include <boost/algorithm/string/detail/finder_regex.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// regex format functor -----------------------------------------//
// regex format functor
template<typename StringT>
struct regex_formatF
{
private:
typedef StringT result_type;
typedef BOOST_STRING_TYPENAME StringT::value_type char_type;
public:
// Construction
regex_formatF( const StringT& Fmt, match_flag_type Flags=format_default ) :
m_Fmt(Fmt), m_Flags( Flags ) {}
template<typename InputIteratorT>
result_type operator()(
const regex_search_result<InputIteratorT>& Replace ) const
{
if ( Replace.empty() )
{
return result_type();
}
else
{
return Replace.match_results().format( m_Fmt, m_Flags );
}
}
private:
const StringT& m_Fmt;
match_flag_type m_Flags;
};
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_FORMATTER_DETAIL_HPP

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// Boost string_algo library predicate.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_PREDICATE_DETAIL_HPP
#define BOOST_STRING_PREDICATE_DETAIL_HPP
#include <iterator>
#include <boost/algorithm/string/find.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// ends_with predicate implementation ----------------------------------//
template<
typename ForwardIterator1T,
typename ForwardIterator2T,
typename PredicateT>
inline bool ends_with_iter_select(
ForwardIterator1T Begin,
ForwardIterator1T End,
ForwardIterator2T SubBegin,
ForwardIterator2T SubEnd,
PredicateT Comp,
std::bidirectional_iterator_tag)
{
ForwardIterator1T it=End;
ForwardIterator2T pit=SubEnd;
for(;it!=Begin && pit!=SubBegin;)
{
if( !(Comp(*(--it),*(--pit))) )
return false;
}
return pit==SubBegin;
}
template<
typename ForwardIterator1T,
typename ForwardIterator2T,
typename PredicateT>
inline bool ends_with_iter_select(
ForwardIterator1T Begin,
ForwardIterator1T End,
ForwardIterator2T SubBegin,
ForwardIterator2T SubEnd,
PredicateT Comp,
std::forward_iterator_tag)
{
if ( SubBegin==SubEnd )
{
// empty subsequence check
return true;
}
iterator_range<ForwardIterator1T> Result
=last_finder(
make_iterator_range(SubBegin, SubEnd),
Comp)(Begin, End);
return !Result.empty() && Result.end()==End;
}
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_PREDICATE_DETAIL_HPP

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// Boost string_algo library replace_storage.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_REPLACE_STORAGE_DETAIL_HPP
#define BOOST_STRING_REPLACE_STORAGE_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <algorithm>
#include <boost/mpl/bool.hpp>
#include <boost/algorithm/string/sequence_traits.hpp>
#include <boost/algorithm/string/detail/sequence.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// storage handling routines -----------------------------------------------//
template< typename StorageT, typename OutputIteratorT >
inline OutputIteratorT move_from_storage(
StorageT& Storage,
OutputIteratorT DestBegin,
OutputIteratorT DestEnd )
{
OutputIteratorT OutputIt=DestBegin;
while( !Storage.empty() && OutputIt!=DestEnd )
{
*OutputIt=Storage.front();
Storage.pop_front();
++OutputIt;
}
return OutputIt;
}
template< typename StorageT, typename WhatT >
inline void copy_to_storage(
StorageT& Storage,
const WhatT& What )
{
Storage.insert( Storage.end(), ::boost::begin(What), ::boost::end(What) );
}
// process segment routine -----------------------------------------------//
template< bool HasStableIterators >
struct process_segment_helper
{
// Optimized version of process_segment for generic sequence
template<
typename StorageT,
typename InputT,
typename ForwardIteratorT >
ForwardIteratorT operator()(
StorageT& Storage,
InputT& /*Input*/,
ForwardIteratorT InsertIt,
ForwardIteratorT SegmentBegin,
ForwardIteratorT SegmentEnd )
{
// Copy data from the storage until the beginning of the segment
ForwardIteratorT It=move_from_storage( Storage, InsertIt, SegmentBegin );
// 3 cases are possible :
// a) Storage is empty, It==SegmentBegin
// b) Storage is empty, It!=SegmentBegin
// c) Storage is not empty
if( Storage.empty() )
{
if( It==SegmentBegin )
{
// Case a) everything is grand, just return end of segment
return SegmentEnd;
}
else
{
// Case b) move the segment backwards
return std::copy( SegmentBegin, SegmentEnd, It );
}
}
else
{
// Case c) -> shift the segment to the left and keep the overlap in the storage
while( It!=SegmentEnd )
{
// Store value into storage
Storage.push_back( *It );
// Get the top from the storage and put it here
*It=Storage.front();
Storage.pop_front();
// Advance
++It;
}
return It;
}
}
};
template<>
struct process_segment_helper< true >
{
// Optimized version of process_segment for list-like sequence
template<
typename StorageT,
typename InputT,
typename ForwardIteratorT >
ForwardIteratorT operator()(
StorageT& Storage,
InputT& Input,
ForwardIteratorT InsertIt,
ForwardIteratorT SegmentBegin,
ForwardIteratorT SegmentEnd )
{
// Call replace to do the job
replace( Input, InsertIt, SegmentBegin, Storage );
// Empty the storage
Storage.clear();
// Iterators were not changed, simply return the end of segment
return SegmentEnd;
}
};
// Process one segment in the replace_all algorithm
template<
typename StorageT,
typename InputT,
typename ForwardIteratorT >
inline ForwardIteratorT process_segment(
StorageT& Storage,
InputT& Input,
ForwardIteratorT InsertIt,
ForwardIteratorT SegmentBegin,
ForwardIteratorT SegmentEnd )
{
return
process_segment_helper<
has_stable_iterators<InputT>::value>()(
Storage, Input, InsertIt, SegmentBegin, SegmentEnd );
}
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_REPLACE_STORAGE_DETAIL_HPP

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// Boost string_algo library sequence.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_DETAIL_SEQUENCE_HPP
#define BOOST_STRING_DETAIL_SEQUENCE_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/mpl/bool.hpp>
#include <boost/mpl/logical.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/algorithm/string/sequence_traits.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// insert helpers -------------------------------------------------//
template< typename InputT, typename ForwardIteratorT >
inline void insert(
InputT& Input,
BOOST_STRING_TYPENAME InputT::iterator At,
ForwardIteratorT Begin,
ForwardIteratorT End )
{
Input.insert( At, Begin, End );
}
template< typename InputT, typename InsertT >
inline void insert(
InputT& Input,
BOOST_STRING_TYPENAME InputT::iterator At,
const InsertT& Insert )
{
insert( Input, At, ::boost::begin(Insert), ::boost::end(Insert) );
}
// erase helper ---------------------------------------------------//
// Erase a range in the sequence
/*
Returns the iterator pointing just after the erase subrange
*/
template< typename InputT >
inline typename InputT::iterator erase(
InputT& Input,
BOOST_STRING_TYPENAME InputT::iterator From,
BOOST_STRING_TYPENAME InputT::iterator To )
{
return Input.erase( From, To );
}
// replace helper implementation ----------------------------------//
// Optimized version of replace for generic sequence containers
// Assumption: insert and erase are expensive
template< bool HasConstTimeOperations >
struct replace_const_time_helper
{
template< typename InputT, typename ForwardIteratorT >
void operator()(
InputT& Input,
BOOST_STRING_TYPENAME InputT::iterator From,
BOOST_STRING_TYPENAME InputT::iterator To,
ForwardIteratorT Begin,
ForwardIteratorT End )
{
// Copy data to the container ( as much as possible )
ForwardIteratorT InsertIt=Begin;
BOOST_STRING_TYPENAME InputT::iterator InputIt=From;
for(; InsertIt!=End && InputIt!=To; InsertIt++, InputIt++ )
{
*InputIt=*InsertIt;
}
if ( InsertIt!=End )
{
// Replace sequence is longer, insert it
Input.insert( InputIt, InsertIt, End );
}
else
{
if ( InputIt!=To )
{
// Replace sequence is shorter, erase the rest
Input.erase( InputIt, To );
}
}
}
};
template<>
struct replace_const_time_helper< true >
{
// Const-time erase and insert methods -> use them
template< typename InputT, typename ForwardIteratorT >
void operator()(
InputT& Input,
BOOST_STRING_TYPENAME InputT::iterator From,
BOOST_STRING_TYPENAME InputT::iterator To,
ForwardIteratorT Begin,
ForwardIteratorT End )
{
BOOST_STRING_TYPENAME InputT::iterator At=Input.erase( From, To );
if ( Begin!=End )
{
if(!Input.empty())
{
Input.insert( At, Begin, End );
}
else
{
Input.insert( Input.begin(), Begin, End );
}
}
}
};
// No native replace method
template< bool HasNative >
struct replace_native_helper
{
template< typename InputT, typename ForwardIteratorT >
void operator()(
InputT& Input,
BOOST_STRING_TYPENAME InputT::iterator From,
BOOST_STRING_TYPENAME InputT::iterator To,
ForwardIteratorT Begin,
ForwardIteratorT End )
{
replace_const_time_helper<
boost::mpl::and_<
has_const_time_insert<InputT>,
has_const_time_erase<InputT> >::value >()(
Input, From, To, Begin, End );
}
};
// Container has native replace method
template<>
struct replace_native_helper< true >
{
template< typename InputT, typename ForwardIteratorT >
void operator()(
InputT& Input,
BOOST_STRING_TYPENAME InputT::iterator From,
BOOST_STRING_TYPENAME InputT::iterator To,
ForwardIteratorT Begin,
ForwardIteratorT End )
{
Input.replace( From, To, Begin, End );
}
};
// replace helper -------------------------------------------------//
template< typename InputT, typename ForwardIteratorT >
inline void replace(
InputT& Input,
BOOST_STRING_TYPENAME InputT::iterator From,
BOOST_STRING_TYPENAME InputT::iterator To,
ForwardIteratorT Begin,
ForwardIteratorT End )
{
replace_native_helper< has_native_replace<InputT>::value >()(
Input, From, To, Begin, End );
}
template< typename InputT, typename InsertT >
inline void replace(
InputT& Input,
BOOST_STRING_TYPENAME InputT::iterator From,
BOOST_STRING_TYPENAME InputT::iterator To,
const InsertT& Insert )
{
if(From!=To)
{
replace( Input, From, To, ::boost::begin(Insert), ::boost::end(Insert) );
}
else
{
insert( Input, From, ::boost::begin(Insert), ::boost::end(Insert) );
}
}
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_DETAIL_SEQUENCE_HPP

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// Boost string_algo library trim.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_TRIM_DETAIL_HPP
#define BOOST_STRING_TRIM_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/detail/iterator.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// trim iterator helper -----------------------------------------------//
// Search for first non matching character from the beginning of the sequence
template< typename ForwardIteratorT, typename PredicateT >
inline ForwardIteratorT trim_begin(
ForwardIteratorT InBegin,
ForwardIteratorT InEnd,
PredicateT IsSpace )
{
ForwardIteratorT It=InBegin;
for(; It!=InEnd; ++It )
{
if (!IsSpace(*It))
return It;
}
return It;
}
// Search for first non matching character from the end of the sequence
template< typename ForwardIteratorT, typename PredicateT >
inline ForwardIteratorT trim_end(
ForwardIteratorT InBegin,
ForwardIteratorT InEnd,
PredicateT IsSpace )
{
typedef BOOST_STRING_TYPENAME boost::detail::
iterator_traits<ForwardIteratorT>::iterator_category category;
return trim_end_iter_select( InBegin, InEnd, IsSpace, category() );
}
template< typename ForwardIteratorT, typename PredicateT >
inline ForwardIteratorT trim_end_iter_select(
ForwardIteratorT InBegin,
ForwardIteratorT InEnd,
PredicateT IsSpace,
std::forward_iterator_tag )
{
ForwardIteratorT TrimIt=InBegin;
for( ForwardIteratorT It=InBegin; It!=InEnd; ++It )
{
if ( !IsSpace(*It) )
{
TrimIt=It;
++TrimIt;
}
}
return TrimIt;
}
template< typename ForwardIteratorT, typename PredicateT >
inline ForwardIteratorT trim_end_iter_select(
ForwardIteratorT InBegin,
ForwardIteratorT InEnd,
PredicateT IsSpace,
std::bidirectional_iterator_tag )
{
for( ForwardIteratorT It=InEnd; It!=InBegin; )
{
if ( !IsSpace(*(--It)) )
return ++It;
}
return InBegin;
}
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_TRIM_DETAIL_HPP

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// Boost string_algo library util.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_UTIL_DETAIL_HPP
#define BOOST_STRING_UTIL_DETAIL_HPP
#include <boost/algorithm/string/config.hpp>
#include <functional>
#include <boost/range/iterator_range.hpp>
namespace boost {
namespace algorithm {
namespace detail {
// empty container -----------------------------------------------//
// empty_container
/*
This class represents always empty container,
containing elements of type CharT.
It is supposed to be used in a const version only
*/
template< typename CharT >
struct empty_container
{
typedef empty_container<CharT> type;
typedef CharT value_type;
typedef std::size_t size_type;
typedef std::ptrdiff_t difference_type;
typedef const value_type& reference;
typedef const value_type& const_reference;
typedef const value_type* iterator;
typedef const value_type* const_iterator;
// Operations
const_iterator begin() const
{
return reinterpret_cast<const_iterator>(0);
}
const_iterator end() const
{
return reinterpret_cast<const_iterator>(0);
}
bool empty() const
{
return false;
}
size_type size() const
{
return 0;
}
};
// bounded copy algorithm -----------------------------------------------//
// Bounded version of the std::copy algorithm
template<typename InputIteratorT, typename OutputIteratorT>
inline OutputIteratorT bounded_copy(
InputIteratorT First,
InputIteratorT Last,
OutputIteratorT DestFirst,
OutputIteratorT DestLast )
{
InputIteratorT InputIt=First;
OutputIteratorT OutputIt=DestFirst;
for(; InputIt!=Last && OutputIt!=DestLast; InputIt++, OutputIt++ )
{
*OutputIt=*InputIt;
}
return OutputIt;
}
// iterator range utilities -----------------------------------------//
// copy range functor
template<
typename SeqT,
typename IteratorT=BOOST_STRING_TYPENAME SeqT::const_iterator >
struct copy_iterator_rangeF :
public std::unary_function< iterator_range<IteratorT>, SeqT >
{
SeqT operator()( const iterator_range<IteratorT>& Range ) const
{
return copy_range<SeqT>(Range);
}
};
} // namespace detail
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_UTIL_DETAIL_HPP

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// Boost string_algo library erase.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2006.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_ERASE_HPP
#define BOOST_STRING_ERASE_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/iterator.hpp>
#include <boost/range/const_iterator.hpp>
#include <boost/algorithm/string/find_format.hpp>
#include <boost/algorithm/string/finder.hpp>
#include <boost/algorithm/string/formatter.hpp>
/*! \file
Defines various erase algorithms. Each algorithm removes
part(s) of the input according to a searching criteria.
*/
namespace boost {
namespace algorithm {
// erase_range -------------------------------------------------------//
//! Erase range algorithm
/*!
Remove the given range from the input. The result is a modified copy of
the input. It is returned as a sequence or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input sequence
\param SearchRange A range in the input to be removed
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<typename OutputIteratorT, typename RangeT>
inline OutputIteratorT erase_range_copy(
OutputIteratorT Output,
const RangeT& Input,
const iterator_range<
BOOST_STRING_TYPENAME
range_const_iterator<RangeT>::type>& SearchRange )
{
return find_format_copy(
Output,
Input,
range_finder(SearchRange),
empty_formatter(Input) );
}
//! Erase range algorithm
/*!
\overload
*/
template<typename SequenceT>
inline SequenceT erase_range_copy(
const SequenceT& Input,
const iterator_range<
BOOST_STRING_TYPENAME
range_const_iterator<SequenceT>::type>& SearchRange )
{
return find_format_copy(
Input,
range_finder(SearchRange),
empty_formatter(Input) );
}
//! Erase range algorithm
/*!
Remove the given range from the input.
The input sequence is modified in-place.
\param Input An input sequence
\param SearchRange A range in the input to be removed
*/
template<typename SequenceT>
inline void erase_range(
SequenceT& Input,
const iterator_range<
BOOST_STRING_TYPENAME
range_iterator<SequenceT>::type>& SearchRange )
{
find_format(
Input,
range_finder(SearchRange),
empty_formatter(Input) );
}
// erase_first --------------------------------------------------------//
//! Erase first algorithm
/*!
Remove the first occurrence of the substring from the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT erase_first_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search )
{
return find_format_copy(
Output,
Input,
first_finder(Search),
empty_formatter(Input) );
}
//! Erase first algorithm
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT erase_first_copy(
const SequenceT& Input,
const RangeT& Search )
{
return find_format_copy(
Input,
first_finder(Search),
empty_formatter(Input) );
}
//! Erase first algorithm
/*!
Remove the first occurrence of the substring from the input.
The input sequence is modified in-place.
\param Input An input string
\param Search A substring to be searched for.
*/
template<typename SequenceT, typename RangeT>
inline void erase_first(
SequenceT& Input,
const RangeT& Search )
{
find_format(
Input,
first_finder(Search),
empty_formatter(Input) );
}
// erase_first ( case insensitive ) ------------------------------------//
//! Erase first algorithm ( case insensitive )
/*!
Remove the first occurrence of the substring from the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
Searching is case insensitive.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Loc A locale used for case insensitive comparison
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT ierase_first_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Output,
Input,
first_finder(Search, is_iequal(Loc)),
empty_formatter(Input) );
}
//! Erase first algorithm ( case insensitive )
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT ierase_first_copy(
const SequenceT& Input,
const RangeT& Search,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Input,
first_finder(Search, is_iequal(Loc)),
empty_formatter(Input) );
}
//! Erase first algorithm ( case insensitive )
/*!
Remove the first occurrence of the substring from the input.
The input sequence is modified in-place. Searching is case insensitive.
\param Input An input string
\param Search A substring to be searched for
\param Loc A locale used for case insensitive comparison
*/
template<typename SequenceT, typename RangeT>
inline void ierase_first(
SequenceT& Input,
const RangeT& Search,
const std::locale& Loc=std::locale() )
{
find_format(
Input,
first_finder(Search, is_iequal(Loc)),
empty_formatter(Input) );
}
// erase_last --------------------------------------------------------//
//! Erase last algorithm
/*!
Remove the last occurrence of the substring from the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for.
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT erase_last_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search )
{
return find_format_copy(
Output,
Input,
last_finder(Search),
empty_formatter(Input) );
}
//! Erase last algorithm
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT erase_last_copy(
const SequenceT& Input,
const RangeT& Search )
{
return find_format_copy(
Input,
last_finder(Search),
empty_formatter(Input) );
}
//! Erase last algorithm
/*!
Remove the last occurrence of the substring from the input.
The input sequence is modified in-place.
\param Input An input string
\param Search A substring to be searched for
*/
template<typename SequenceT, typename RangeT>
inline void erase_last(
SequenceT& Input,
const RangeT& Search )
{
find_format(
Input,
last_finder(Search),
empty_formatter(Input) );
}
// erase_last ( case insensitive ) ------------------------------------//
//! Erase last algorithm ( case insensitive )
/*!
Remove the last occurrence of the substring from the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
Searching is case insensitive.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Loc A locale used for case insensitive comparison
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT ierase_last_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Output,
Input,
last_finder(Search, is_iequal(Loc)),
empty_formatter(Input) );
}
//! Erase last algorithm ( case insensitive )
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT ierase_last_copy(
const SequenceT& Input,
const RangeT& Search,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Input,
last_finder(Search, is_iequal(Loc)),
empty_formatter(Input) );
}
//! Erase last algorithm ( case insensitive )
/*!
Remove the last occurrence of the substring from the input.
The input sequence is modified in-place. Searching is case insensitive.
\param Input An input string
\param Search A substring to be searched for
\param Loc A locale used for case insensitive comparison
*/
template<typename SequenceT, typename RangeT>
inline void ierase_last(
SequenceT& Input,
const RangeT& Search,
const std::locale& Loc=std::locale() )
{
find_format(
Input,
last_finder(Search, is_iequal(Loc)),
empty_formatter(Input) );
}
// erase_nth --------------------------------------------------------------------//
//! Erase nth algorithm
/*!
Remove the Nth occurrence of the substring in the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Nth An index of the match to be replaced. The index is 0-based.
For negative N, matches are counted from the end of string.
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT erase_nth_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
int Nth )
{
return find_format_copy(
Output,
Input,
nth_finder(Search, Nth),
empty_formatter(Input) );
}
//! Erase nth algorithm
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT erase_nth_copy(
const SequenceT& Input,
const RangeT& Search,
int Nth )
{
return find_format_copy(
Input,
nth_finder(Search, Nth),
empty_formatter(Input) );
}
//! Erase nth algorithm
/*!
Remove the Nth occurrence of the substring in the input.
The input sequence is modified in-place.
\param Input An input string
\param Search A substring to be searched for.
\param Nth An index of the match to be replaced. The index is 0-based.
For negative N, matches are counted from the end of string.
*/
template<typename SequenceT, typename RangeT>
inline void erase_nth(
SequenceT& Input,
const RangeT& Search,
int Nth )
{
find_format(
Input,
nth_finder(Search, Nth),
empty_formatter(Input) );
}
// erase_nth ( case insensitive ) ---------------------------------------------//
//! Erase nth algorithm ( case insensitive )
/*!
Remove the Nth occurrence of the substring in the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
Searching is case insensitive.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for.
\param Nth An index of the match to be replaced. The index is 0-based.
For negative N, matches are counted from the end of string.
\param Loc A locale used for case insensitive comparison
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT ierase_nth_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
int Nth,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Output,
Input,
nth_finder(Search, Nth, is_iequal(Loc)),
empty_formatter(Input) );
}
//! Erase nth algorithm
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT ierase_nth_copy(
const SequenceT& Input,
const RangeT& Search,
int Nth,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Input,
nth_finder(Search, Nth, is_iequal(Loc)),
empty_formatter(Input) );
}
//! Erase nth algorithm
/*!
Remove the Nth occurrence of the substring in the input.
The input sequence is modified in-place. Searching is case insensitive.
\param Input An input string
\param Search A substring to be searched for.
\param Nth An index of the match to be replaced. The index is 0-based.
For negative N, matches are counted from the end of string.
\param Loc A locale used for case insensitive comparison
*/
template<typename SequenceT, typename RangeT>
inline void ierase_nth(
SequenceT& Input,
const RangeT& Search,
int Nth,
const std::locale& Loc=std::locale() )
{
find_format(
Input,
nth_finder(Search, Nth, is_iequal(Loc)),
empty_formatter(Input) );
}
// erase_all --------------------------------------------------------//
//! Erase all algorithm
/*!
Remove all the occurrences of the string from the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input sequence
\param Search A substring to be searched for.
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT erase_all_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search )
{
return find_format_all_copy(
Output,
Input,
first_finder(Search),
empty_formatter(Input) );
}
//! Erase all algorithm
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT erase_all_copy(
const SequenceT& Input,
const RangeT& Search )
{
return find_format_all_copy(
Input,
first_finder(Search),
empty_formatter(Input) );
}
//! Erase all algorithm
/*!
Remove all the occurrences of the string from the input.
The input sequence is modified in-place.
\param Input An input string
\param Search A substring to be searched for.
*/
template<typename SequenceT, typename RangeT>
inline void erase_all(
SequenceT& Input,
const RangeT& Search )
{
find_format_all(
Input,
first_finder(Search),
empty_formatter(Input) );
}
// erase_all ( case insensitive ) ------------------------------------//
//! Erase all algorithm ( case insensitive )
/*!
Remove all the occurrences of the string from the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
Searching is case insensitive.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Loc A locale used for case insensitive comparison
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT ierase_all_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
const std::locale& Loc=std::locale() )
{
return find_format_all_copy(
Output,
Input,
first_finder(Search, is_iequal(Loc)),
empty_formatter(Input) );
}
//! Erase all algorithm ( case insensitive )
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT ierase_all_copy(
const SequenceT& Input,
const RangeT& Search,
const std::locale& Loc=std::locale() )
{
return find_format_all_copy(
Input,
first_finder(Search, is_iequal(Loc)),
empty_formatter(Input) );
}
//! Erase all algorithm ( case insensitive )
/*!
Remove all the occurrences of the string from the input.
The input sequence is modified in-place. Searching is case insensitive.
\param Input An input string
\param Search A substring to be searched for.
\param Loc A locale used for case insensitive comparison
*/
template<typename SequenceT, typename RangeT>
inline void ierase_all(
SequenceT& Input,
const RangeT& Search,
const std::locale& Loc=std::locale() )
{
find_format_all(
Input,
first_finder(Search, is_iequal(Loc)),
empty_formatter(Input) );
}
// erase_head --------------------------------------------------------------------//
//! Erase head algorithm
/*!
Remove the head from the input. The head is a prefix of a sequence of given size.
If the sequence is shorter then required, the whole string is
considered to be the head. The result is a modified copy of the input.
It is returned as a sequence or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param N Length of the head.
For N>=0, at most N characters are extracted.
For N<0, size(Input)-|N| characters are extracted.
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename RangeT>
inline OutputIteratorT erase_head_copy(
OutputIteratorT Output,
const RangeT& Input,
int N )
{
return find_format_copy(
Output,
Input,
head_finder(N),
empty_formatter( Input ) );
}
//! Erase head algorithm
/*!
\overload
*/
template<typename SequenceT>
inline SequenceT erase_head_copy(
const SequenceT& Input,
int N )
{
return find_format_copy(
Input,
head_finder(N),
empty_formatter( Input ) );
}
//! Erase head algorithm
/*!
Remove the head from the input. The head is a prefix of a sequence of given size.
If the sequence is shorter then required, the whole string is
considered to be the head. The input sequence is modified in-place.
\param Input An input string
\param N Length of the head
For N>=0, at most N characters are extracted.
For N<0, size(Input)-|N| characters are extracted.
*/
template<typename SequenceT>
inline void erase_head(
SequenceT& Input,
int N )
{
find_format(
Input,
head_finder(N),
empty_formatter( Input ) );
}
// erase_tail --------------------------------------------------------------------//
//! Erase tail algorithm
/*!
Remove the tail from the input. The tail is a suffix of a sequence of given size.
If the sequence is shorter then required, the whole string is
considered to be the tail.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param N Length of the head.
For N>=0, at most N characters are extracted.
For N<0, size(Input)-|N| characters are extracted.
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename RangeT>
inline OutputIteratorT erase_tail_copy(
OutputIteratorT Output,
const RangeT& Input,
int N )
{
return find_format_copy(
Output,
Input,
tail_finder(N),
empty_formatter( Input ) );
}
//! Erase tail algorithm
/*!
\overload
*/
template<typename SequenceT>
inline SequenceT erase_tail_copy(
const SequenceT& Input,
int N )
{
return find_format_copy(
Input,
tail_finder(N),
empty_formatter( Input ) );
}
//! Erase tail algorithm
/*!
Remove the tail from the input. The tail is a suffix of a sequence of given size.
If the sequence is shorter then required, the whole string is
considered to be the tail. The input sequence is modified in-place.
\param Input An input string
\param N Length of the head
For N>=0, at most N characters are extracted.
For N<0, size(Input)-|N| characters are extracted.
*/
template<typename SequenceT>
inline void erase_tail(
SequenceT& Input,
int N )
{
find_format(
Input,
tail_finder(N),
empty_formatter( Input ) );
}
} // namespace algorithm
// pull names into the boost namespace
using algorithm::erase_range_copy;
using algorithm::erase_range;
using algorithm::erase_first_copy;
using algorithm::erase_first;
using algorithm::ierase_first_copy;
using algorithm::ierase_first;
using algorithm::erase_last_copy;
using algorithm::erase_last;
using algorithm::ierase_last_copy;
using algorithm::ierase_last;
using algorithm::erase_nth_copy;
using algorithm::erase_nth;
using algorithm::ierase_nth_copy;
using algorithm::ierase_nth;
using algorithm::erase_all_copy;
using algorithm::erase_all;
using algorithm::ierase_all_copy;
using algorithm::ierase_all;
using algorithm::erase_head_copy;
using algorithm::erase_head;
using algorithm::erase_tail_copy;
using algorithm::erase_tail;
} // namespace boost
#endif // BOOST_ERASE_HPP

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// Boost string_algo library find.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FIND_HPP
#define BOOST_STRING_FIND_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/iterator.hpp>
#include <boost/range/as_literal.hpp>
#include <boost/algorithm/string/finder.hpp>
#include <boost/algorithm/string/compare.hpp>
#include <boost/algorithm/string/constants.hpp>
/*! \file
Defines a set of find algorithms. The algorithms are searching
for a substring of the input. The result is given as an \c iterator_range
delimiting the substring.
*/
namespace boost {
namespace algorithm {
// Generic find -----------------------------------------------//
//! Generic find algorithm
/*!
Search the input using the given finder.
\param Input A string which will be searched.
\param Finder Finder object used for searching.
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c RangeT::iterator or
\c RangeT::const_iterator, depending on the constness of
the input parameter.
*/
template<typename RangeT, typename FinderT>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<RangeT>::type>
find(
RangeT& Input,
const FinderT& Finder)
{
iterator_range<BOOST_STRING_TYPENAME range_iterator<RangeT>::type> lit_input(as_literal(Input));
return Finder(::boost::begin(lit_input),::boost::end(lit_input));
}
// find_first -----------------------------------------------//
//! Find first algorithm
/*!
Search for the first occurrence of the substring in the input.
\param Input A string which will be searched.
\param Search A substring to be searched for.
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c RangeT::iterator or
\c RangeT::const_iterator, depending on the constness of
the input parameter.
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<Range1T>::type>
find_first(
Range1T& Input,
const Range2T& Search)
{
return find(Input, first_finder(Search));
}
//! Find first algorithm ( case insensitive )
/*!
Search for the first occurence of the substring in the input.
Searching is case insensitive.
\param Input A string which will be searched.
\param Search A substring to be searched for.
\param Loc A locale used for case insensitive comparison
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c Range1T::iterator or
\c Range1T::const_iterator, depending on the constness of
the input parameter.
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<Range1T>::type>
ifind_first(
Range1T& Input,
const Range2T& Search,
const std::locale& Loc=std::locale())
{
return find(Input, first_finder(Search,is_iequal(Loc)));
}
// find_last -----------------------------------------------//
//! Find last algorithm
/*!
Search for the last occurrence of the substring in the input.
\param Input A string which will be searched.
\param Search A substring to be searched for.
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c Range1T::iterator or
\c Range1T::const_iterator, depending on the constness of
the input parameter.
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<Range1T>::type>
find_last(
Range1T& Input,
const Range2T& Search)
{
return find(Input, last_finder(Search));
}
//! Find last algorithm ( case insensitive )
/*!
Search for the last match a string in the input.
Searching is case insensitive.
\param Input A string which will be searched.
\param Search A substring to be searched for.
\param Loc A locale used for case insensitive comparison
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c Range1T::iterator or
\c Range1T::const_iterator, depending on the constness of
the input parameter.
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<Range1T>::type>
ifind_last(
Range1T& Input,
const Range2T& Search,
const std::locale& Loc=std::locale())
{
return find(Input, last_finder(Search, is_iequal(Loc)));
}
// find_nth ----------------------------------------------------------------------//
//! Find n-th algorithm
/*!
Search for the n-th (zero-indexed) occurrence of the substring in the
input.
\param Input A string which will be searched.
\param Search A substring to be searched for.
\param Nth An index (zero-indexed) of the match to be found.
For negative N, the matches are counted from the end of string.
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c Range1T::iterator or
\c Range1T::const_iterator, depending on the constness of
the input parameter.
*/
template<typename Range1T, typename Range2T>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<Range1T>::type>
find_nth(
Range1T& Input,
const Range2T& Search,
int Nth)
{
return find(Input, nth_finder(Search,Nth));
}
//! Find n-th algorithm ( case insensitive ).
/*!
Search for the n-th (zero-indexed) occurrence of the substring in the
input. Searching is case insensitive.
\param Input A string which will be searched.
\param Search A substring to be searched for.
\param Nth An index (zero-indexed) of the match to be found.
For negative N, the matches are counted from the end of string.
\param Loc A locale used for case insensitive comparison
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c Range1T::iterator or
\c Range1T::const_iterator, depending on the constness of
the input parameter.
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<Range1T>::type>
ifind_nth(
Range1T& Input,
const Range2T& Search,
int Nth,
const std::locale& Loc=std::locale())
{
return find(Input, nth_finder(Search,Nth,is_iequal(Loc)));
}
// find_head ----------------------------------------------------------------------//
//! Find head algorithm
/*!
Get the head of the input. Head is a prefix of the string of the
given size. If the input is shorter then required, whole input if considered
to be the head.
\param Input An input string
\param N Length of the head
For N>=0, at most N characters are extracted.
For N<0, size(Input)-|N| characters are extracted.
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c Range1T::iterator or
\c Range1T::const_iterator, depending on the constness of
the input parameter.
\note This function provides the strong exception-safety guarantee
*/
template<typename RangeT>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<RangeT>::type>
find_head(
RangeT& Input,
int N)
{
return find(Input, head_finder(N));
}
// find_tail ----------------------------------------------------------------------//
//! Find tail algorithm
/*!
Get the head of the input. Head is a suffix of the string of the
given size. If the input is shorter then required, whole input if considered
to be the tail.
\param Input An input string
\param N Length of the tail.
For N>=0, at most N characters are extracted.
For N<0, size(Input)-|N| characters are extracted.
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c RangeT::iterator or
\c RangeT::const_iterator, depending on the constness of
the input parameter.
\note This function provides the strong exception-safety guarantee
*/
template<typename RangeT>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<RangeT>::type>
find_tail(
RangeT& Input,
int N)
{
return find(Input, tail_finder(N));
}
// find_token --------------------------------------------------------------------//
//! Find token algorithm
/*!
Look for a given token in the string. Token is a character that matches the
given predicate.
If the "token compress mode" is enabled, adjacent tokens are considered to be one match.
\param Input A input string.
\param Pred An unary predicate to identify a token
\param eCompress Enable/Disable compressing of adjacent tokens
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c RangeT::iterator or
\c RangeT::const_iterator, depending on the constness of
the input parameter.
\note This function provides the strong exception-safety guarantee
*/
template<typename RangeT, typename PredicateT>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<RangeT>::type>
find_token(
RangeT& Input,
PredicateT Pred,
token_compress_mode_type eCompress=token_compress_off)
{
return find(Input, token_finder(Pred, eCompress));
}
} // namespace algorithm
// pull names to the boost namespace
using algorithm::find;
using algorithm::find_first;
using algorithm::ifind_first;
using algorithm::find_last;
using algorithm::ifind_last;
using algorithm::find_nth;
using algorithm::ifind_nth;
using algorithm::find_head;
using algorithm::find_tail;
using algorithm::find_token;
} // namespace boost
#endif // BOOST_STRING_FIND_HPP

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// Boost string_algo library find_format.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FIND_FORMAT_HPP
#define BOOST_STRING_FIND_FORMAT_HPP
#include <deque>
#include <boost/detail/iterator.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/const_iterator.hpp>
#include <boost/range/as_literal.hpp>
#include <boost/algorithm/string/concept.hpp>
#include <boost/algorithm/string/detail/find_format.hpp>
#include <boost/algorithm/string/detail/find_format_all.hpp>
/*! \file
Defines generic replace algorithms. Each algorithm replaces
part(s) of the input. The part to be replaced is looked up using a Finder object.
Result of finding is then used by a Formatter object to generate the replacement.
*/
namespace boost {
namespace algorithm {
// generic replace -----------------------------------------------------------------//
//! Generic replace algorithm
/*!
Use the Finder to search for a substring. Use the Formatter to format
this substring and replace it in the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input sequence
\param Finder A Finder object used to search for a match to be replaced
\param Formatter A Formatter object used to format a match
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename RangeT,
typename FinderT,
typename FormatterT>
inline OutputIteratorT find_format_copy(
OutputIteratorT Output,
const RangeT& Input,
FinderT Finder,
FormatterT Formatter )
{
// Concept check
function_requires<
FinderConcept<FinderT,
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> >();
function_requires<
FormatterConcept<
FormatterT,
FinderT,BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> >();
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> lit_input(as_literal(Input));
return detail::find_format_copy_impl(
Output,
lit_input,
Formatter,
Finder( ::boost::begin(lit_input), ::boost::end(lit_input) ) );
}
//! Generic replace algorithm
/*!
\overload
*/
template<
typename SequenceT,
typename FinderT,
typename FormatterT>
inline SequenceT find_format_copy(
const SequenceT& Input,
FinderT Finder,
FormatterT Formatter )
{
// Concept check
function_requires<
FinderConcept<FinderT,
BOOST_STRING_TYPENAME range_const_iterator<SequenceT>::type> >();
function_requires<
FormatterConcept<
FormatterT,
FinderT,BOOST_STRING_TYPENAME range_const_iterator<SequenceT>::type> >();
return detail::find_format_copy_impl(
Input,
Formatter,
Finder(::boost::begin(Input), ::boost::end(Input)));
}
//! Generic replace algorithm
/*!
Use the Finder to search for a substring. Use the Formatter to format
this substring and replace it in the input. The input is modified in-place.
\param Input An input sequence
\param Finder A Finder object used to search for a match to be replaced
\param Formatter A Formatter object used to format a match
*/
template<
typename SequenceT,
typename FinderT,
typename FormatterT>
inline void find_format(
SequenceT& Input,
FinderT Finder,
FormatterT Formatter)
{
// Concept check
function_requires<
FinderConcept<FinderT,
BOOST_STRING_TYPENAME range_const_iterator<SequenceT>::type> >();
function_requires<
FormatterConcept<
FormatterT,
FinderT,BOOST_STRING_TYPENAME range_const_iterator<SequenceT>::type> >();
detail::find_format_impl(
Input,
Formatter,
Finder(::boost::begin(Input), ::boost::end(Input)));
}
// find_format_all generic ----------------------------------------------------------------//
//! Generic replace all algorithm
/*!
Use the Finder to search for a substring. Use the Formatter to format
this substring and replace it in the input. Repeat this for all matching
substrings.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input sequence
\param Finder A Finder object used to search for a match to be replaced
\param Formatter A Formatter object used to format a match
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename RangeT,
typename FinderT,
typename FormatterT>
inline OutputIteratorT find_format_all_copy(
OutputIteratorT Output,
const RangeT& Input,
FinderT Finder,
FormatterT Formatter)
{
// Concept check
function_requires<
FinderConcept<FinderT,
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> >();
function_requires<
FormatterConcept<
FormatterT,
FinderT,BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> >();
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> lit_input(as_literal(Input));
return detail::find_format_all_copy_impl(
Output,
lit_input,
Finder,
Formatter,
Finder(::boost::begin(lit_input), ::boost::end(lit_input)));
}
//! Generic replace all algorithm
/*!
\overload
*/
template<
typename SequenceT,
typename FinderT,
typename FormatterT >
inline SequenceT find_format_all_copy(
const SequenceT& Input,
FinderT Finder,
FormatterT Formatter )
{
// Concept check
function_requires<
FinderConcept<FinderT,
BOOST_STRING_TYPENAME range_const_iterator<SequenceT>::type> >();
function_requires<
FormatterConcept<
FormatterT,
FinderT,BOOST_STRING_TYPENAME range_const_iterator<SequenceT>::type> >();
return detail::find_format_all_copy_impl(
Input,
Finder,
Formatter,
Finder( ::boost::begin(Input), ::boost::end(Input) ) );
}
//! Generic replace all algorithm
/*!
Use the Finder to search for a substring. Use the Formatter to format
this substring and replace it in the input. Repeat this for all matching
substrings.The input is modified in-place.
\param Input An input sequence
\param Finder A Finder object used to search for a match to be replaced
\param Formatter A Formatter object used to format a match
*/
template<
typename SequenceT,
typename FinderT,
typename FormatterT >
inline void find_format_all(
SequenceT& Input,
FinderT Finder,
FormatterT Formatter )
{
// Concept check
function_requires<
FinderConcept<FinderT,
BOOST_STRING_TYPENAME range_const_iterator<SequenceT>::type> >();
function_requires<
FormatterConcept<
FormatterT,
FinderT,BOOST_STRING_TYPENAME range_const_iterator<SequenceT>::type> >();
detail::find_format_all_impl(
Input,
Finder,
Formatter,
Finder(::boost::begin(Input), ::boost::end(Input)));
}
} // namespace algorithm
// pull the names to the boost namespace
using algorithm::find_format_copy;
using algorithm::find_format;
using algorithm::find_format_all_copy;
using algorithm::find_format_all;
} // namespace boost
#endif // BOOST_STRING_FIND_FORMAT_HPP

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// Boost string_algo library find_iterator.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2004.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FIND_ITERATOR_HPP
#define BOOST_STRING_FIND_ITERATOR_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/iterator/iterator_facade.hpp>
#include <boost/iterator/iterator_categories.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/iterator.hpp>
#include <boost/range/as_literal.hpp>
#include <boost/algorithm/string/detail/find_iterator.hpp>
/*! \file
Defines find iterator classes. Find iterator repeatedly applies a Finder
to the specified input string to search for matches. Dereferencing
the iterator yields the current match or a range between the last and the current
match depending on the iterator used.
*/
namespace boost {
namespace algorithm {
// find_iterator -----------------------------------------------//
//! find_iterator
/*!
Find iterator encapsulates a Finder and allows
for incremental searching in a string.
Each increment moves the iterator to the next match.
Find iterator is a readable forward traversal iterator.
Dereferencing the iterator yields an iterator_range delimiting
the current match.
*/
template<typename IteratorT>
class find_iterator :
public iterator_facade<
find_iterator<IteratorT>,
const iterator_range<IteratorT>,
forward_traversal_tag >,
private detail::find_iterator_base<IteratorT>
{
private:
// facade support
friend class ::boost::iterator_core_access;
private:
// typedefs
typedef detail::find_iterator_base<IteratorT> base_type;
typedef BOOST_STRING_TYPENAME
base_type::input_iterator_type input_iterator_type;
typedef BOOST_STRING_TYPENAME
base_type::match_type match_type;
public:
//! Default constructor
/*!
Construct null iterator. All null iterators are equal.
\post eof()==true
*/
find_iterator() {}
//! Copy constructor
/*!
Construct a copy of the find_iterator
*/
find_iterator( const find_iterator& Other ) :
base_type(Other),
m_Match(Other.m_Match),
m_End(Other.m_End) {}
//! Constructor
/*!
Construct new find_iterator for a given finder
and a range.
*/
template<typename FinderT>
find_iterator(
IteratorT Begin,
IteratorT End,
FinderT Finder ) :
detail::find_iterator_base<IteratorT>(Finder,0),
m_Match(Begin,Begin),
m_End(End)
{
increment();
}
//! Constructor
/*!
Construct new find_iterator for a given finder
and a range.
*/
template<typename FinderT, typename RangeT>
find_iterator(
RangeT& Col,
FinderT Finder ) :
detail::find_iterator_base<IteratorT>(Finder,0)
{
iterator_range<BOOST_STRING_TYPENAME range_iterator<RangeT>::type> lit_col(as_literal(Col));
m_Match=make_iterator_range(::boost::begin(lit_col), ::boost::begin(lit_col));
m_End=::boost::end(lit_col);
increment();
}
private:
// iterator operations
// dereference
const match_type& dereference() const
{
return m_Match;
}
// increment
void increment()
{
m_Match=this->do_find(m_Match.end(),m_End);
}
// comparison
bool equal( const find_iterator& Other ) const
{
bool bEof=eof();
bool bOtherEof=Other.eof();
return bEof || bOtherEof ? bEof==bOtherEof :
(
m_Match==Other.m_Match &&
m_End==Other.m_End
);
}
public:
// operations
//! Eof check
/*!
Check the eof condition. Eof condition means that
there is nothing more to be searched i.e. find_iterator
is after the last match.
*/
bool eof() const
{
return
this->is_null() ||
(
m_Match.begin() == m_End &&
m_Match.end() == m_End
);
}
private:
// Attributes
match_type m_Match;
input_iterator_type m_End;
};
//! find iterator construction helper
/*!
* Construct a find iterator to iterate through the specified string
*/
template<typename RangeT, typename FinderT>
inline find_iterator<
BOOST_STRING_TYPENAME range_iterator<RangeT>::type>
make_find_iterator(
RangeT& Collection,
FinderT Finder)
{
return find_iterator<BOOST_STRING_TYPENAME range_iterator<RangeT>::type>(
Collection, Finder);
}
// split iterator -----------------------------------------------//
//! split_iterator
/*!
Split iterator encapsulates a Finder and allows
for incremental searching in a string.
Unlike the find iterator, split iterator iterates
through gaps between matches.
Find iterator is a readable forward traversal iterator.
Dereferencing the iterator yields an iterator_range delimiting
the current match.
*/
template<typename IteratorT>
class split_iterator :
public iterator_facade<
split_iterator<IteratorT>,
const iterator_range<IteratorT>,
forward_traversal_tag >,
private detail::find_iterator_base<IteratorT>
{
private:
// facade support
friend class ::boost::iterator_core_access;
private:
// typedefs
typedef detail::find_iterator_base<IteratorT> base_type;
typedef BOOST_STRING_TYPENAME
base_type::input_iterator_type input_iterator_type;
typedef BOOST_STRING_TYPENAME
base_type::match_type match_type;
public:
//! Default constructor
/*!
Construct null iterator. All null iterators are equal.
\post eof()==true
*/
split_iterator() {}
//! Copy constructor
/*!
Construct a copy of the split_iterator
*/
split_iterator( const split_iterator& Other ) :
base_type(Other),
m_Match(Other.m_Match),
m_Next(Other.m_Next),
m_End(Other.m_End),
m_bEof(false)
{}
//! Constructor
/*!
Construct new split_iterator for a given finder
and a range.
*/
template<typename FinderT>
split_iterator(
IteratorT Begin,
IteratorT End,
FinderT Finder ) :
detail::find_iterator_base<IteratorT>(Finder,0),
m_Match(Begin,Begin),
m_Next(Begin),
m_End(End),
m_bEof(false)
{
increment();
}
//! Constructor
/*!
Construct new split_iterator for a given finder
and a collection.
*/
template<typename FinderT, typename RangeT>
split_iterator(
RangeT& Col,
FinderT Finder ) :
detail::find_iterator_base<IteratorT>(Finder,0),
m_bEof(false)
{
iterator_range<BOOST_STRING_TYPENAME range_iterator<RangeT>::type> lit_col(as_literal(Col));
m_Match=make_iterator_range(::boost::begin(lit_col), ::boost::begin(lit_col));
m_Next=::boost::begin(lit_col);
m_End=::boost::end(lit_col);
increment();
}
private:
// iterator operations
// dereference
const match_type& dereference() const
{
return m_Match;
}
// increment
void increment()
{
match_type FindMatch=this->do_find( m_Next, m_End );
if(FindMatch.begin()==m_End && FindMatch.end()==m_End)
{
if(m_Match.end()==m_End)
{
// Mark iterator as eof
m_bEof=true;
}
}
m_Match=match_type( m_Next, FindMatch.begin() );
m_Next=FindMatch.end();
}
// comparison
bool equal( const split_iterator& Other ) const
{
bool bEof=eof();
bool bOtherEof=Other.eof();
return bEof || bOtherEof ? bEof==bOtherEof :
(
m_Match==Other.m_Match &&
m_Next==Other.m_Next &&
m_End==Other.m_End
);
}
public:
// operations
//! Eof check
/*!
Check the eof condition. Eof condition means that
there is nothing more to be searched i.e. find_iterator
is after the last match.
*/
bool eof() const
{
return this->is_null() || m_bEof;
}
private:
// Attributes
match_type m_Match;
input_iterator_type m_Next;
input_iterator_type m_End;
bool m_bEof;
};
//! split iterator construction helper
/*!
* Construct a split iterator to iterate through the specified collection
*/
template<typename RangeT, typename FinderT>
inline split_iterator<
BOOST_STRING_TYPENAME range_iterator<RangeT>::type>
make_split_iterator(
RangeT& Collection,
FinderT Finder)
{
return split_iterator<BOOST_STRING_TYPENAME range_iterator<RangeT>::type>(
Collection, Finder);
}
} // namespace algorithm
// pull names to the boost namespace
using algorithm::find_iterator;
using algorithm::make_find_iterator;
using algorithm::split_iterator;
using algorithm::make_split_iterator;
} // namespace boost
#endif // BOOST_STRING_FIND_ITERATOR_HPP

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// Boost string_algo library finder.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2006.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FINDER_HPP
#define BOOST_STRING_FINDER_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/iterator.hpp>
#include <boost/range/const_iterator.hpp>
#include <boost/algorithm/string/constants.hpp>
#include <boost/algorithm/string/detail/finder.hpp>
#include <boost/algorithm/string/compare.hpp>
/*! \file
Defines Finder generators. Finder object is a functor which is able to
find a substring matching a specific criteria in the input.
Finders are used as a pluggable components for replace, find
and split facilities. This header contains generator functions
for finders provided in this library.
*/
namespace boost {
namespace algorithm {
// Finder generators ------------------------------------------//
//! "First" finder
/*!
Construct the \c first_finder. The finder searches for the first
occurrence of the string in a given input.
The result is given as an \c iterator_range delimiting the match.
\param Search A substring to be searched for.
\param Comp An element comparison predicate
\return An instance of the \c first_finder object
*/
template<typename RangeT>
inline detail::first_finderF<
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type,
is_equal>
first_finder( const RangeT& Search )
{
return
detail::first_finderF<
BOOST_STRING_TYPENAME
range_const_iterator<RangeT>::type,
is_equal>( as_literal(Search), is_equal() ) ;
}
//! "First" finder
/*!
\overload
*/
template<typename RangeT,typename PredicateT>
inline detail::first_finderF<
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type,
PredicateT>
first_finder(
const RangeT& Search, PredicateT Comp )
{
return
detail::first_finderF<
BOOST_STRING_TYPENAME
range_const_iterator<RangeT>::type,
PredicateT>( as_literal(Search), Comp );
}
//! "Last" finder
/*!
Construct the \c last_finder. The finder searches for the last
occurrence of the string in a given input.
The result is given as an \c iterator_range delimiting the match.
\param Search A substring to be searched for.
\param Comp An element comparison predicate
\return An instance of the \c last_finder object
*/
template<typename RangeT>
inline detail::last_finderF<
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type,
is_equal>
last_finder( const RangeT& Search )
{
return
detail::last_finderF<
BOOST_STRING_TYPENAME
range_const_iterator<RangeT>::type,
is_equal>( as_literal(Search), is_equal() );
}
//! "Last" finder
/*!
\overload
*/
template<typename RangeT, typename PredicateT>
inline detail::last_finderF<
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type,
PredicateT>
last_finder( const RangeT& Search, PredicateT Comp )
{
return
detail::last_finderF<
BOOST_STRING_TYPENAME
range_const_iterator<RangeT>::type,
PredicateT>( as_literal(Search), Comp ) ;
}
//! "Nth" finder
/*!
Construct the \c nth_finder. The finder searches for the n-th (zero-indexed)
occurrence of the string in a given input.
The result is given as an \c iterator_range delimiting the match.
\param Search A substring to be searched for.
\param Nth An index of the match to be find
\param Comp An element comparison predicate
\return An instance of the \c nth_finder object
*/
template<typename RangeT>
inline detail::nth_finderF<
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type,
is_equal>
nth_finder(
const RangeT& Search,
int Nth)
{
return
detail::nth_finderF<
BOOST_STRING_TYPENAME
range_const_iterator<RangeT>::type,
is_equal>( as_literal(Search), Nth, is_equal() ) ;
}
//! "Nth" finder
/*!
\overload
*/
template<typename RangeT, typename PredicateT>
inline detail::nth_finderF<
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type,
PredicateT>
nth_finder(
const RangeT& Search,
int Nth,
PredicateT Comp )
{
return
detail::nth_finderF<
BOOST_STRING_TYPENAME
range_const_iterator<RangeT>::type,
PredicateT>( as_literal(Search), Nth, Comp );
}
//! "Head" finder
/*!
Construct the \c head_finder. The finder returns a head of a given
input. The head is a prefix of a string up to n elements in
size. If an input has less then n elements, whole input is
considered a head.
The result is given as an \c iterator_range delimiting the match.
\param N The size of the head
\return An instance of the \c head_finder object
*/
inline detail::head_finderF
head_finder( int N )
{
return detail::head_finderF(N);
}
//! "Tail" finder
/*!
Construct the \c tail_finder. The finder returns a tail of a given
input. The tail is a suffix of a string up to n elements in
size. If an input has less then n elements, whole input is
considered a head.
The result is given as an \c iterator_range delimiting the match.
\param N The size of the head
\return An instance of the \c tail_finder object
*/
inline detail::tail_finderF
tail_finder( int N )
{
return detail::tail_finderF(N);
}
//! "Token" finder
/*!
Construct the \c token_finder. The finder searches for a token
specified by a predicate. It is similar to std::find_if
algorithm, with an exception that it return a range of
instead of a single iterator.
If "compress token mode" is enabled, adjacent matching tokens are
concatenated into one match. Thus the finder can be used to
search for continuous segments of characters satisfying the
given predicate.
The result is given as an \c iterator_range delimiting the match.
\param Pred An element selection predicate
\param eCompress Compress flag
\return An instance of the \c token_finder object
*/
template< typename PredicateT >
inline detail::token_finderF<PredicateT>
token_finder(
PredicateT Pred,
token_compress_mode_type eCompress=token_compress_off )
{
return detail::token_finderF<PredicateT>( Pred, eCompress );
}
//! "Range" finder
/*!
Construct the \c range_finder. The finder does not perform
any operation. It simply returns the given range for
any input.
\param Begin Beginning of the range
\param End End of the range
\param Range The range.
\return An instance of the \c range_finger object
*/
template< typename ForwardIteratorT >
inline detail::range_finderF<ForwardIteratorT>
range_finder(
ForwardIteratorT Begin,
ForwardIteratorT End )
{
return detail::range_finderF<ForwardIteratorT>( Begin, End );
}
//! "Range" finder
/*!
\overload
*/
template< typename ForwardIteratorT >
inline detail::range_finderF<ForwardIteratorT>
range_finder( iterator_range<ForwardIteratorT> Range )
{
return detail::range_finderF<ForwardIteratorT>( Range );
}
} // namespace algorithm
// pull the names to the boost namespace
using algorithm::first_finder;
using algorithm::last_finder;
using algorithm::nth_finder;
using algorithm::head_finder;
using algorithm::tail_finder;
using algorithm::token_finder;
using algorithm::range_finder;
} // namespace boost
#endif // BOOST_STRING_FINDER_HPP

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// Boost string_algo library formatter.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_FORMATTER_HPP
#define BOOST_STRING_FORMATTER_HPP
#include <boost/detail/iterator.hpp>
#include <boost/range/value_type.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/as_literal.hpp>
#include <boost/algorithm/string/detail/formatter.hpp>
/*! \file
Defines Formatter generators. Formatter is a functor which formats
a string according to given parameters. A Formatter works
in conjunction with a Finder. A Finder can provide additional information
for a specific Formatter. An example of such a cooperation is regex_finder
and regex_formatter.
Formatters are used as pluggable components for replace facilities.
This header contains generator functions for the Formatters provided in this library.
*/
namespace boost {
namespace algorithm {
// generic formatters ---------------------------------------------------------------//
//! Constant formatter
/*!
Construct the \c const_formatter. Const formatter always returns
the same value, regardless of the parameter.
\param Format A predefined value used as a result for formating
\return An instance of the \c const_formatter object.
*/
template<typename RangeT>
inline detail::const_formatF<
iterator_range<
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> >
const_formatter(const RangeT& Format)
{
return detail::const_formatF<
iterator_range<
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> >(as_literal(Format));
}
//! Identity formatter
/*!
Construct the \c identity_formatter. Identity formatter always returns
the parameter.
\return An instance of the \c identity_formatter object.
*/
template<typename RangeT>
inline detail::identity_formatF<
iterator_range<
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> >
identity_formatter()
{
return detail::identity_formatF<
iterator_range<
BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> >();
}
//! Empty formatter
/*!
Construct the \c empty_formatter. Empty formatter always returns an empty
sequence.
\param Input container used to select a correct value_type for the
resulting empty_container<>.
\return An instance of the \c empty_formatter object.
*/
template<typename RangeT>
inline detail::empty_formatF<
BOOST_STRING_TYPENAME range_value<RangeT>::type>
empty_formatter(const RangeT&)
{
return detail::empty_formatF<
BOOST_STRING_TYPENAME range_value<RangeT>::type>();
}
} // namespace algorithm
// pull the names to the boost namespace
using algorithm::const_formatter;
using algorithm::identity_formatter;
using algorithm::empty_formatter;
} // namespace boost
#endif // BOOST_FORMATTER_HPP

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// Boost string_algo library iter_find.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_ITER_FIND_HPP
#define BOOST_STRING_ITER_FIND_HPP
#include <boost/algorithm/string/config.hpp>
#include <algorithm>
#include <iterator>
#include <boost/iterator/transform_iterator.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/iterator.hpp>
#include <boost/range/value_type.hpp>
#include <boost/range/as_literal.hpp>
#include <boost/algorithm/string/concept.hpp>
#include <boost/algorithm/string/find_iterator.hpp>
#include <boost/algorithm/string/detail/util.hpp>
/*! \file
Defines generic split algorithms. Split algorithms can be
used to divide a sequence into several part according
to a given criteria. Result is given as a 'container
of containers' where elements are copies or references
to extracted parts.
There are two algorithms provided. One iterates over matching
substrings, the other one over the gaps between these matches.
*/
namespace boost {
namespace algorithm {
// iterate find ---------------------------------------------------//
//! Iter find algorithm
/*!
This algorithm executes a given finder in iteration on the input,
until the end of input is reached, or no match is found.
Iteration is done using built-in find_iterator, so the real
searching is performed only when needed.
In each iteration new match is found and added to the result.
\param Result A 'container container' to contain the result of search.
Both outer and inner container must have constructor taking a pair
of iterators as an argument.
Typical type of the result is
\c std::vector<boost::iterator_range<iterator>>
(each element of such a vector will container a range delimiting
a match).
\param Input A container which will be searched.
\param Finder A Finder object used for searching
\return A reference the result
\note Prior content of the result will be overwritten.
*/
template<
typename SequenceSequenceT,
typename RangeT,
typename FinderT >
inline SequenceSequenceT&
iter_find(
SequenceSequenceT& Result,
RangeT& Input,
FinderT Finder )
{
function_requires<
FinderConcept<FinderT,
BOOST_STRING_TYPENAME range_iterator<RangeT>::type> >();
iterator_range<BOOST_STRING_TYPENAME range_iterator<RangeT>::type> lit_input(as_literal(Input));
typedef BOOST_STRING_TYPENAME
range_iterator<RangeT>::type input_iterator_type;
typedef find_iterator<input_iterator_type> find_iterator_type;
typedef detail::copy_iterator_rangeF<
BOOST_STRING_TYPENAME
range_value<SequenceSequenceT>::type,
input_iterator_type> copy_range_type;
input_iterator_type InputEnd=::boost::end(lit_input);
typedef transform_iterator<copy_range_type, find_iterator_type>
transform_iter_type;
transform_iter_type itBegin=
make_transform_iterator(
find_iterator_type( ::boost::begin(lit_input), InputEnd, Finder ),
copy_range_type());
transform_iter_type itEnd=
make_transform_iterator(
find_iterator_type(),
copy_range_type());
SequenceSequenceT Tmp(itBegin, itEnd);
Result.swap(Tmp);
return Result;
}
// iterate split ---------------------------------------------------//
//! Split find algorithm
/*!
This algorithm executes a given finder in iteration on the input,
until the end of input is reached, or no match is found.
Iteration is done using built-in find_iterator, so the real
searching is performed only when needed.
Each match is used as a separator of segments. These segments are then
returned in the result.
\param Result A 'container container' to container the result of search.
Both outer and inner container must have constructor taking a pair
of iterators as an argument.
Typical type of the result is
\c std::vector<boost::iterator_range<iterator>>
(each element of such a vector will container a range delimiting
a match).
\param Input A container which will be searched.
\param Finder A finder object used for searching
\return A reference the result
\note Prior content of the result will be overwritten.
*/
template<
typename SequenceSequenceT,
typename RangeT,
typename FinderT >
inline SequenceSequenceT&
iter_split(
SequenceSequenceT& Result,
RangeT& Input,
FinderT Finder )
{
function_requires<
FinderConcept<FinderT,
BOOST_STRING_TYPENAME range_iterator<RangeT>::type> >();
iterator_range<BOOST_STRING_TYPENAME range_iterator<RangeT>::type> lit_input(as_literal(Input));
typedef BOOST_STRING_TYPENAME
range_iterator<RangeT>::type input_iterator_type;
typedef split_iterator<input_iterator_type> find_iterator_type;
typedef detail::copy_iterator_rangeF<
BOOST_STRING_TYPENAME
range_value<SequenceSequenceT>::type,
input_iterator_type> copy_range_type;
input_iterator_type InputEnd=::boost::end(lit_input);
typedef transform_iterator<copy_range_type, find_iterator_type>
transform_iter_type;
transform_iter_type itBegin=
make_transform_iterator(
find_iterator_type( ::boost::begin(lit_input), InputEnd, Finder ),
copy_range_type() );
transform_iter_type itEnd=
make_transform_iterator(
find_iterator_type(),
copy_range_type() );
SequenceSequenceT Tmp(itBegin, itEnd);
Result.swap(Tmp);
return Result;
}
} // namespace algorithm
// pull names to the boost namespace
using algorithm::iter_find;
using algorithm::iter_split;
} // namespace boost
#endif // BOOST_STRING_ITER_FIND_HPP

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// Boost string_algo library join.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2006.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_JOIN_HPP
#define BOOST_STRING_JOIN_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/algorithm/string/detail/sequence.hpp>
#include <boost/range/value_type.hpp>
#include <boost/range/as_literal.hpp>
/*! \file
Defines join algorithm.
Join algorithm is a counterpart to split algorithms.
It joins strings from a 'list' by adding user defined separator.
Additionally there is a version that allows simple filtering
by providing a predicate.
*/
namespace boost {
namespace algorithm {
// join --------------------------------------------------------------//
//! Join algorithm
/*!
This algorithm joins all strings in a 'list' into one long string.
Segments are concatenated by given separator.
\param Input A container that holds the input strings. It must be a container-of-containers.
\param Separator A string that will separate the joined segments.
\return Concatenated string.
\note This function provides the strong exception-safety guarantee
*/
template< typename SequenceSequenceT, typename Range1T>
inline typename range_value<SequenceSequenceT>::type
join(
const SequenceSequenceT& Input,
const Range1T& Separator)
{
// Define working types
typedef typename range_value<SequenceSequenceT>::type ResultT;
typedef typename range_const_iterator<SequenceSequenceT>::type InputIteratorT;
// Parse input
InputIteratorT itBegin=::boost::begin(Input);
InputIteratorT itEnd=::boost::end(Input);
// Construct container to hold the result
ResultT Result;
// Append first element
if(itBegin!=itEnd)
{
detail::insert(Result, ::boost::end(Result), *itBegin);
++itBegin;
}
for(;itBegin!=itEnd; ++itBegin)
{
// Add separator
detail::insert(Result, ::boost::end(Result), as_literal(Separator));
// Add element
detail::insert(Result, ::boost::end(Result), *itBegin);
}
return Result;
}
// join_if ----------------------------------------------------------//
//! Conditional join algorithm
/*!
This algorithm joins all strings in a 'list' into one long string.
Segments are concatenated by given separator. Only segments that
satisfy the predicate will be added to the result.
\param Input A container that holds the input strings. It must be a container-of-containers.
\param Separator A string that will separate the joined segments.
\param Pred A segment selection predicate
\return Concatenated string.
\note This function provides the strong exception-safety guarantee
*/
template< typename SequenceSequenceT, typename Range1T, typename PredicateT>
inline typename range_value<SequenceSequenceT>::type
join_if(
const SequenceSequenceT& Input,
const Range1T& Separator,
PredicateT Pred)
{
// Define working types
typedef typename range_value<SequenceSequenceT>::type ResultT;
typedef typename range_const_iterator<SequenceSequenceT>::type InputIteratorT;
// Parse input
InputIteratorT itBegin=::boost::begin(Input);
InputIteratorT itEnd=::boost::end(Input);
// Construct container to hold the result
ResultT Result;
// Roll to the first element that will be added
while(itBegin!=itEnd && !Pred(*itBegin)) ++itBegin;
// Add this element
if(itBegin!=itEnd)
{
detail::insert(Result, ::boost::end(Result), *itBegin);
++itBegin;
}
for(;itBegin!=itEnd; ++itBegin)
{
if(Pred(*itBegin))
{
// Add separator
detail::insert(Result, ::boost::end(Result), as_literal(Separator));
// Add element
detail::insert(Result, ::boost::end(Result), *itBegin);
}
}
return Result;
}
} // namespace algorithm
// pull names to the boost namespace
using algorithm::join;
using algorithm::join_if;
} // namespace boost
#endif // BOOST_STRING_JOIN_HPP

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// Boost string_algo library predicate.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_PREDICATE_HPP
#define BOOST_STRING_PREDICATE_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/iterator.hpp>
#include <boost/range/const_iterator.hpp>
#include <boost/range/as_literal.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/algorithm/string/compare.hpp>
#include <boost/algorithm/string/find.hpp>
#include <boost/algorithm/string/detail/predicate.hpp>
/*! \file boost/algorithm/string/predicate.hpp
Defines string-related predicates.
The predicates determine whether a substring is contained in the input string
under various conditions: a string starts with the substring, ends with the
substring, simply contains the substring or if both strings are equal.
Additionaly the algorithm \c all() checks all elements of a container to satisfy a
condition.
All predicates provide the strong exception guarantee.
*/
namespace boost {
namespace algorithm {
// starts_with predicate -----------------------------------------------//
//! 'Starts with' predicate
/*!
This predicate holds when the test string is a prefix of the Input.
In other words, if the input starts with the test.
When the optional predicate is specified, it is used for character-wise
comparison.
\param Input An input sequence
\param Test A test sequence
\param Comp An element comparison predicate
\return The result of the test
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T, typename PredicateT>
inline bool starts_with(
const Range1T& Input,
const Range2T& Test,
PredicateT Comp)
{
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<Range1T>::type> lit_input(as_literal(Input));
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<Range2T>::type> lit_test(as_literal(Test));
typedef BOOST_STRING_TYPENAME
range_const_iterator<Range1T>::type Iterator1T;
typedef BOOST_STRING_TYPENAME
range_const_iterator<Range2T>::type Iterator2T;
Iterator1T InputEnd=::boost::end(lit_input);
Iterator2T TestEnd=::boost::end(lit_test);
Iterator1T it=::boost::begin(lit_input);
Iterator2T pit=::boost::begin(lit_test);
for(;
it!=InputEnd && pit!=TestEnd;
++it,++pit)
{
if( !(Comp(*it,*pit)) )
return false;
}
return pit==TestEnd;
}
//! 'Starts with' predicate
/*!
\overload
*/
template<typename Range1T, typename Range2T>
inline bool starts_with(
const Range1T& Input,
const Range2T& Test)
{
return starts_with(Input, Test, is_equal());
}
//! 'Starts with' predicate ( case insensitive )
/*!
This predicate holds when the test string is a prefix of the Input.
In other words, if the input starts with the test.
Elements are compared case insensitively.
\param Input An input sequence
\param Test A test sequence
\param Loc A locale used for case insensitive comparison
\return The result of the test
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T>
inline bool istarts_with(
const Range1T& Input,
const Range2T& Test,
const std::locale& Loc=std::locale())
{
return starts_with(Input, Test, is_iequal(Loc));
}
// ends_with predicate -----------------------------------------------//
//! 'Ends with' predicate
/*!
This predicate holds when the test string is a suffix of the Input.
In other words, if the input ends with the test.
When the optional predicate is specified, it is used for character-wise
comparison.
\param Input An input sequence
\param Test A test sequence
\param Comp An element comparison predicate
\return The result of the test
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T, typename PredicateT>
inline bool ends_with(
const Range1T& Input,
const Range2T& Test,
PredicateT Comp)
{
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<Range1T>::type> lit_input(as_literal(Input));
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<Range2T>::type> lit_test(as_literal(Test));
typedef BOOST_STRING_TYPENAME
range_const_iterator<Range1T>::type Iterator1T;
typedef BOOST_STRING_TYPENAME boost::detail::
iterator_traits<Iterator1T>::iterator_category category;
return detail::
ends_with_iter_select(
::boost::begin(lit_input),
::boost::end(lit_input),
::boost::begin(lit_test),
::boost::end(lit_test),
Comp,
category());
}
//! 'Ends with' predicate
/*!
\overload
*/
template<typename Range1T, typename Range2T>
inline bool ends_with(
const Range1T& Input,
const Range2T& Test)
{
return ends_with(Input, Test, is_equal());
}
//! 'Ends with' predicate ( case insensitive )
/*!
This predicate holds when the test container is a suffix of the Input.
In other words, if the input ends with the test.
Elements are compared case insensitively.
\param Input An input sequence
\param Test A test sequence
\param Loc A locale used for case insensitive comparison
\return The result of the test
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T>
inline bool iends_with(
const Range1T& Input,
const Range2T& Test,
const std::locale& Loc=std::locale())
{
return ends_with(Input, Test, is_iequal(Loc));
}
// contains predicate -----------------------------------------------//
//! 'Contains' predicate
/*!
This predicate holds when the test container is contained in the Input.
When the optional predicate is specified, it is used for character-wise
comparison.
\param Input An input sequence
\param Test A test sequence
\param Comp An element comparison predicate
\return The result of the test
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T, typename PredicateT>
inline bool contains(
const Range1T& Input,
const Range2T& Test,
PredicateT Comp)
{
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<Range1T>::type> lit_input(as_literal(Input));
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<Range2T>::type> lit_test(as_literal(Test));
if (empty(lit_test))
{
// Empty range is contained always
return true;
}
// Use the temporary variable to make VACPP happy
bool bResult=(first_finder(lit_test,Comp)(::boost::begin(lit_input), ::boost::end(lit_input)));
return bResult;
}
//! 'Contains' predicate
/*!
\overload
*/
template<typename Range1T, typename Range2T>
inline bool contains(
const Range1T& Input,
const Range2T& Test)
{
return contains(Input, Test, is_equal());
}
//! 'Contains' predicate ( case insensitive )
/*!
This predicate holds when the test container is contained in the Input.
Elements are compared case insensitively.
\param Input An input sequence
\param Test A test sequence
\param Loc A locale used for case insensitive comparison
\return The result of the test
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T>
inline bool icontains(
const Range1T& Input,
const Range2T& Test,
const std::locale& Loc=std::locale())
{
return contains(Input, Test, is_iequal(Loc));
}
// equals predicate -----------------------------------------------//
//! 'Equals' predicate
/*!
This predicate holds when the test container is equal to the
input container i.e. all elements in both containers are same.
When the optional predicate is specified, it is used for character-wise
comparison.
\param Input An input sequence
\param Test A test sequence
\param Comp An element comparison predicate
\return The result of the test
\note This is a two-way version of \c std::equal algorithm
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T, typename PredicateT>
inline bool equals(
const Range1T& Input,
const Range2T& Test,
PredicateT Comp)
{
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<Range1T>::type> lit_input(as_literal(Input));
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<Range2T>::type> lit_test(as_literal(Test));
typedef BOOST_STRING_TYPENAME
range_const_iterator<Range1T>::type Iterator1T;
typedef BOOST_STRING_TYPENAME
range_const_iterator<Range2T>::type Iterator2T;
Iterator1T InputEnd=::boost::end(lit_input);
Iterator2T TestEnd=::boost::end(lit_test);
Iterator1T it=::boost::begin(lit_input);
Iterator2T pit=::boost::begin(lit_test);
for(;
it!=InputEnd && pit!=TestEnd;
++it,++pit)
{
if( !(Comp(*it,*pit)) )
return false;
}
return (pit==TestEnd) && (it==InputEnd);
}
//! 'Equals' predicate
/*!
\overload
*/
template<typename Range1T, typename Range2T>
inline bool equals(
const Range1T& Input,
const Range2T& Test)
{
return equals(Input, Test, is_equal());
}
//! 'Equals' predicate ( case insensitive )
/*!
This predicate holds when the test container is equal to the
input container i.e. all elements in both containers are same.
Elements are compared case insensitively.
\param Input An input sequence
\param Test A test sequence
\param Loc A locale used for case insensitive comparison
\return The result of the test
\note This is a two-way version of \c std::equal algorithm
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T>
inline bool iequals(
const Range1T& Input,
const Range2T& Test,
const std::locale& Loc=std::locale())
{
return equals(Input, Test, is_iequal(Loc));
}
// lexicographical_compare predicate -----------------------------//
//! Lexicographical compare predicate
/*!
This predicate is an overload of std::lexicographical_compare
for range arguments
It check whether the first argument is lexicographically less
then the second one.
If the optional predicate is specified, it is used for character-wise
comparison
\param Arg1 First argument
\param Arg2 Second argument
\param Pred Comparison predicate
\return The result of the test
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T, typename PredicateT>
inline bool lexicographical_compare(
const Range1T& Arg1,
const Range2T& Arg2,
PredicateT Pred)
{
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<Range1T>::type> lit_arg1(as_literal(Arg1));
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<Range2T>::type> lit_arg2(as_literal(Arg2));
return std::lexicographical_compare(
::boost::begin(lit_arg1),
::boost::end(lit_arg1),
::boost::begin(lit_arg2),
::boost::end(lit_arg2),
Pred);
}
//! Lexicographical compare predicate
/*!
\overload
*/
template<typename Range1T, typename Range2T>
inline bool lexicographical_compare(
const Range1T& Arg1,
const Range2T& Arg2)
{
return lexicographical_compare(Arg1, Arg2, is_less());
}
//! Lexicographical compare predicate (case-insensitive)
/*!
This predicate is an overload of std::lexicographical_compare
for range arguments.
It check whether the first argument is lexicographically less
then the second one.
Elements are compared case insensitively
\param Arg1 First argument
\param Arg2 Second argument
\param Loc A locale used for case insensitive comparison
\return The result of the test
\note This function provides the strong exception-safety guarantee
*/
template<typename Range1T, typename Range2T>
inline bool ilexicographical_compare(
const Range1T& Arg1,
const Range2T& Arg2,
const std::locale& Loc=std::locale())
{
return lexicographical_compare(Arg1, Arg2, is_iless(Loc));
}
// all predicate -----------------------------------------------//
//! 'All' predicate
/*!
This predicate holds it all its elements satisfy a given
condition, represented by the predicate.
\param Input An input sequence
\param Pred A predicate
\return The result of the test
\note This function provides the strong exception-safety guarantee
*/
template<typename RangeT, typename PredicateT>
inline bool all(
const RangeT& Input,
PredicateT Pred)
{
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> lit_input(as_literal(Input));
typedef BOOST_STRING_TYPENAME
range_const_iterator<RangeT>::type Iterator1T;
Iterator1T InputEnd=::boost::end(lit_input);
for( Iterator1T It=::boost::begin(lit_input); It!=InputEnd; ++It)
{
if (!Pred(*It))
return false;
}
return true;
}
} // namespace algorithm
// pull names to the boost namespace
using algorithm::starts_with;
using algorithm::istarts_with;
using algorithm::ends_with;
using algorithm::iends_with;
using algorithm::contains;
using algorithm::icontains;
using algorithm::equals;
using algorithm::iequals;
using algorithm::all;
using algorithm::lexicographical_compare;
using algorithm::ilexicographical_compare;
} // namespace boost
#endif // BOOST_STRING_PREDICATE_HPP

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// Boost string_algo library predicate_facade.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_PREDICATE_FACADE_HPP
#define BOOST_STRING_PREDICATE_FACADE_HPP
#include <boost/algorithm/string/config.hpp>
/*
\file boost/algorith/string/predicate_facade.hpp
This file containes predicate_facade definition. This template class is used
to identify classification predicates, so they can be combined using
composition operators.
*/
namespace boost {
namespace algorithm {
// predicate facade ------------------------------------------------------//
//! Predicate facade
/*!
This class allows to recognize classification
predicates, so that they can be combined using
composition operators.
Every classification predicate must be derived from this class.
*/
template<typename Derived>
struct predicate_facade {};
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_CLASSIFICATION_DETAIL_HPP

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// Boost string_algo library regex.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_REGEX_HPP
#define BOOST_STRING_REGEX_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/regex.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/iterator.hpp>
#include <boost/range/as_literal.hpp>
#include <boost/algorithm/string/find_format.hpp>
#include <boost/algorithm/string/regex_find_format.hpp>
#include <boost/algorithm/string/formatter.hpp>
#include <boost/algorithm/string/iter_find.hpp>
/*! \file
Defines regex variants of the algorithms.
*/
namespace boost {
namespace algorithm {
// find_regex -----------------------------------------------//
//! Find regex algorithm
/*!
Search for a substring matching the given regex in the input.
\param Input A container which will be searched.
\param Rx A regular expression
\param Flags Regex options
\return
An \c iterator_range delimiting the match.
Returned iterator is either \c RangeT::iterator or
\c RangeT::const_iterator, depending on the constness of
the input parameter.
\note This function provides the strong exception-safety guarantee
*/
template<
typename RangeT,
typename CharT,
typename RegexTraitsT>
inline iterator_range<
BOOST_STRING_TYPENAME range_iterator<RangeT>::type >
find_regex(
RangeT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
iterator_range<BOOST_STRING_TYPENAME range_iterator<RangeT>::type> lit_input(as_literal(Input));
return regex_finder(Rx,Flags)(
::boost::begin(lit_input), ::boost::end(lit_input) );
}
// replace_regex --------------------------------------------------------------------//
//! Replace regex algorithm
/*!
Search for a substring matching given regex and format it with
the specified format.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Rx A regular expression
\param Format Regex format definition
\param Flags Regex options
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename RangeT,
typename CharT,
typename RegexTraitsT,
typename FormatStringTraitsT, typename FormatStringAllocatorT >
inline OutputIteratorT replace_regex_copy(
OutputIteratorT Output,
const RangeT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
const std::basic_string<CharT, FormatStringTraitsT, FormatStringAllocatorT>& Format,
match_flag_type Flags=match_default | format_default )
{
return find_format_copy(
Output,
Input,
regex_finder( Rx, Flags ),
regex_formatter( Format, Flags ) );
}
//! Replace regex algorithm
/*!
\overload
*/
template<
typename SequenceT,
typename CharT,
typename RegexTraitsT,
typename FormatStringTraitsT, typename FormatStringAllocatorT >
inline SequenceT replace_regex_copy(
const SequenceT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
const std::basic_string<CharT, FormatStringTraitsT, FormatStringAllocatorT>& Format,
match_flag_type Flags=match_default | format_default )
{
return find_format_copy(
Input,
regex_finder( Rx, Flags ),
regex_formatter( Format, Flags ) );
}
//! Replace regex algorithm
/*!
Search for a substring matching given regex and format it with
the specified format. The input string is modified in-place.
\param Input An input string
\param Rx A regular expression
\param Format Regex format definition
\param Flags Regex options
*/
template<
typename SequenceT,
typename CharT,
typename RegexTraitsT,
typename FormatStringTraitsT, typename FormatStringAllocatorT >
inline void replace_regex(
SequenceT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
const std::basic_string<CharT, FormatStringTraitsT, FormatStringAllocatorT>& Format,
match_flag_type Flags=match_default | format_default )
{
find_format(
Input,
regex_finder( Rx, Flags ),
regex_formatter( Format, Flags ) );
}
// replace_all_regex --------------------------------------------------------------------//
//! Replace all regex algorithm
/*!
Format all substrings, matching given regex, with the specified format.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Rx A regular expression
\param Format Regex format definition
\param Flags Regex options
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename RangeT,
typename CharT,
typename RegexTraitsT,
typename FormatStringTraitsT, typename FormatStringAllocatorT >
inline OutputIteratorT replace_all_regex_copy(
OutputIteratorT Output,
const RangeT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
const std::basic_string<CharT, FormatStringTraitsT, FormatStringAllocatorT>& Format,
match_flag_type Flags=match_default | format_default )
{
return find_format_all_copy(
Output,
Input,
regex_finder( Rx, Flags ),
regex_formatter( Format, Flags ) );
}
//! Replace all regex algorithm
/*!
\overload
*/
template<
typename SequenceT,
typename CharT,
typename RegexTraitsT,
typename FormatStringTraitsT, typename FormatStringAllocatorT >
inline SequenceT replace_all_regex_copy(
const SequenceT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
const std::basic_string<CharT, FormatStringTraitsT, FormatStringAllocatorT>& Format,
match_flag_type Flags=match_default | format_default )
{
return find_format_all_copy(
Input,
regex_finder( Rx, Flags ),
regex_formatter( Format, Flags ) );
}
//! Replace all regex algorithm
/*!
Format all substrings, matching given regex, with the specified format.
The input string is modified in-place.
\param Input An input string
\param Rx A regular expression
\param Format Regex format definition
\param Flags Regex options
*/
template<
typename SequenceT,
typename CharT,
typename RegexTraitsT,
typename FormatStringTraitsT, typename FormatStringAllocatorT >
inline void replace_all_regex(
SequenceT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
const std::basic_string<CharT, FormatStringTraitsT, FormatStringAllocatorT>& Format,
match_flag_type Flags=match_default | format_default )
{
find_format_all(
Input,
regex_finder( Rx, Flags ),
regex_formatter( Format, Flags ) );
}
// erase_regex --------------------------------------------------------------------//
//! Erase regex algorithm
/*!
Remove a substring matching given regex from the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Rx A regular expression
\param Flags Regex options
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename RangeT,
typename CharT,
typename RegexTraitsT >
inline OutputIteratorT erase_regex_copy(
OutputIteratorT Output,
const RangeT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
return find_format_copy(
Output,
Input,
regex_finder( Rx, Flags ),
empty_formatter( Input ) );
}
//! Erase regex algorithm
/*!
\overload
*/
template<
typename SequenceT,
typename CharT,
typename RegexTraitsT >
inline SequenceT erase_regex_copy(
const SequenceT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
return find_format_copy(
Input,
regex_finder( Rx, Flags ),
empty_formatter( Input ) );
}
//! Erase regex algorithm
/*!
Remove a substring matching given regex from the input.
The input string is modified in-place.
\param Input An input string
\param Rx A regular expression
\param Flags Regex options
*/
template<
typename SequenceT,
typename CharT,
typename RegexTraitsT >
inline void erase_regex(
SequenceT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
find_format(
Input,
regex_finder( Rx, Flags ),
empty_formatter( Input ) );
}
// erase_all_regex --------------------------------------------------------------------//
//! Erase all regex algorithm
/*!
Erase all substrings, matching given regex, from the input.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Rx A regular expression
\param Flags Regex options
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename RangeT,
typename CharT,
typename RegexTraitsT >
inline OutputIteratorT erase_all_regex_copy(
OutputIteratorT Output,
const RangeT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
return find_format_all_copy(
Output,
Input,
regex_finder( Rx, Flags ),
empty_formatter( Input ) );
}
//! Erase all regex algorithm
/*!
\overload
*/
template<
typename SequenceT,
typename CharT,
typename RegexTraitsT >
inline SequenceT erase_all_regex_copy(
const SequenceT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
return find_format_all_copy(
Input,
regex_finder( Rx, Flags ),
empty_formatter( Input ) );
}
//! Erase all regex algorithm
/*!
Erase all substrings, matching given regex, from the input.
The input string is modified in-place.
\param Input An input string
\param Rx A regular expression
\param Flags Regex options
*/
template<
typename SequenceT,
typename CharT,
typename RegexTraitsT>
inline void erase_all_regex(
SequenceT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
find_format_all(
Input,
regex_finder( Rx, Flags ),
empty_formatter( Input ) );
}
// find_all_regex ------------------------------------------------------------------//
//! Find all regex algorithm
/*!
This algorithm finds all substrings matching the give regex
in the input.
Each part is copied and added as a new element to the output container.
Thus the result container must be able to hold copies
of the matches (in a compatible structure like std::string) or
a reference to it (e.g. using the iterator range class).
Examples of such a container are \c std::vector<std::string>
or \c std::list<boost::iterator_range<std::string::iterator>>
\param Result A container that can hold copies of references to the substrings.
\param Input A container which will be searched.
\param Rx A regular expression
\param Flags Regex options
\return A reference to the result
\note Prior content of the result will be overwritten.
\note This function provides the strong exception-safety guarantee
*/
template<
typename SequenceSequenceT,
typename RangeT,
typename CharT,
typename RegexTraitsT >
inline SequenceSequenceT& find_all_regex(
SequenceSequenceT& Result,
const RangeT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
return iter_find(
Result,
Input,
regex_finder(Rx,Flags) );
}
// split_regex ------------------------------------------------------------------//
//! Split regex algorithm
/*!
Tokenize expression. This function is equivalent to C strtok. Input
sequence is split into tokens, separated by separators. Separator
is an every match of the given regex.
Each part is copied and added as a new element to the output container.
Thus the result container must be able to hold copies
of the matches (in a compatible structure like std::string) or
a reference to it (e.g. using the iterator range class).
Examples of such a container are \c std::vector<std::string>
or \c std::list<boost::iterator_range<std::string::iterator>>
\param Result A container that can hold copies of references to the substrings.
\param Input A container which will be searched.
\param Rx A regular expression
\param Flags Regex options
\return A reference to the result
\note Prior content of the result will be overwritten.
\note This function provides the strong exception-safety guarantee
*/
template<
typename SequenceSequenceT,
typename RangeT,
typename CharT,
typename RegexTraitsT >
inline SequenceSequenceT& split_regex(
SequenceSequenceT& Result,
const RangeT& Input,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
return iter_split(
Result,
Input,
regex_finder(Rx,Flags) );
}
// join_if ------------------------------------------------------------------//
#ifndef BOOST_NO_FUNCTION_TEMPLATE_ORDERING
//! Conditional join algorithm
/*!
This algorithm joins all strings in a 'list' into one long string.
Segments are concatenated by given separator. Only segments that
match the given regular expression will be added to the result
This is a specialization of join_if algorithm.
\param Input A container that holds the input strings. It must be a container-of-containers.
\param Separator A string that will separate the joined segments.
\param Rx A regular expression
\param Flags Regex options
\return Concatenated string.
\note This function provides the strong exception-safety guarantee
*/
template<
typename SequenceSequenceT,
typename Range1T,
typename CharT,
typename RegexTraitsT >
inline typename range_value<SequenceSequenceT>::type
join_if(
const SequenceSequenceT& Input,
const Range1T& Separator,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
// Define working types
typedef typename range_value<SequenceSequenceT>::type ResultT;
typedef typename range_const_iterator<SequenceSequenceT>::type InputIteratorT;
// Parse input
InputIteratorT itBegin=::boost::begin(Input);
InputIteratorT itEnd=::boost::end(Input);
// Construct container to hold the result
ResultT Result;
// Roll to the first element that will be added
while(
itBegin!=itEnd &&
!regex_match(::boost::begin(*itBegin), ::boost::end(*itBegin), Rx, Flags)) ++itBegin;
// Add this element
if(itBegin!=itEnd)
{
detail::insert(Result, ::boost::end(Result), *itBegin);
++itBegin;
}
for(;itBegin!=itEnd; ++itBegin)
{
if(regex_match(::boost::begin(*itBegin), ::boost::end(*itBegin), Rx, Flags))
{
// Add separator
detail::insert(Result, ::boost::end(Result), as_literal(Separator));
// Add element
detail::insert(Result, ::boost::end(Result), *itBegin);
}
}
return Result;
}
#else // BOOST_NO_FUNCTION_TEMPLATE_ORDERING
//! Conditional join algorithm
/*!
This algorithm joins all strings in a 'list' into one long string.
Segments are concatenated by given separator. Only segments that
match the given regular expression will be added to the result
This is a specialization of join_if algorithm.
\param Input A container that holds the input strings. It must be a container-of-containers.
\param Separator A string that will separate the joined segments.
\param Rx A regular expression
\param Flags Regex options
\return Concatenated string.
\note This function provides the strong exception-safety guarantee
*/
template<
typename SequenceSequenceT,
typename Range1T,
typename CharT,
typename RegexTraitsT >
inline typename range_value<SequenceSequenceT>::type
join_if_regex(
const SequenceSequenceT& Input,
const Range1T& Separator,
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type Flags=match_default )
{
// Define working types
typedef typename range_value<SequenceSequenceT>::type ResultT;
typedef typename range_const_iterator<SequenceSequenceT>::type InputIteratorT;
// Parse input
InputIteratorT itBegin=::boost::begin(Input);
InputIteratorT itEnd=::boost::end(Input);
// Construct container to hold the result
ResultT Result;
// Roll to the first element that will be added
while(
itBegin!=itEnd &&
!regex_match(::boost::begin(*itBegin), ::boost::end(*itBegin), Rx, Flags)) ++itBegin;
// Add this element
if(itBegin!=itEnd)
{
detail::insert(Result, ::boost::end(Result), *itBegin);
++itBegin;
}
for(;itBegin!=itEnd; ++itBegin)
{
if(regex_match(::boost::begin(*itBegin), ::boost::end(*itBegin), Rx, Flags))
{
// Add separator
detail::insert(Result, ::boost::end(Result), as_literal(Separator));
// Add element
detail::insert(Result, ::boost::end(Result), *itBegin);
}
}
return Result;
}
#endif // BOOST_NO_FUNCTION_TEMPLATE_ORDERING
} // namespace algorithm
// pull names into the boost namespace
using algorithm::find_regex;
using algorithm::replace_regex;
using algorithm::replace_regex_copy;
using algorithm::replace_all_regex;
using algorithm::replace_all_regex_copy;
using algorithm::erase_regex;
using algorithm::erase_regex_copy;
using algorithm::erase_all_regex;
using algorithm::erase_all_regex_copy;
using algorithm::find_all_regex;
using algorithm::split_regex;
#ifndef BOOST_NO_FUNCTION_TEMPLATE_ORDERING
using algorithm::join_if;
#else // BOOST_NO_FUNCTION_TEMPLATE_ORDERING
using algorithm::join_if_regex;
#endif // BOOST_NO_FUNCTION_TEMPLATE_ORDERING
} // namespace boost
#endif // BOOST_STRING_REGEX_HPP

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// Boost string_algo library regex_find_format.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_REGEX_FIND_FORMAT_HPP
#define BOOST_STRING_REGEX_FIND_FORMAT_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/regex.hpp>
#include <boost/algorithm/string/detail/finder_regex.hpp>
#include <boost/algorithm/string/detail/formatter_regex.hpp>
/*! \file
Defines the \c regex_finder and \c regex_formatter generators. These two functors
are designed to work together. \c regex_formatter uses additional information
about a match contained in the regex_finder search result.
*/
namespace boost {
namespace algorithm {
// regex_finder -----------------------------------------------//
//! "Regex" finder
/*!
Construct the \c regex_finder. Finder uses the regex engine to search
for a match.
Result is given in \c regex_search_result. This is an extension
of the iterator_range. In addition it containes match results
from the \c regex_search algorithm.
\param Rx A regular expression
\param MatchFlags Regex search options
\return An instance of the \c regex_finder object
*/
template<
typename CharT,
typename RegexTraitsT>
inline detail::find_regexF< basic_regex<CharT, RegexTraitsT> >
regex_finder(
const basic_regex<CharT, RegexTraitsT>& Rx,
match_flag_type MatchFlags=match_default )
{
return detail::
find_regexF<
basic_regex<CharT, RegexTraitsT> >( Rx, MatchFlags );
}
// regex_formater ---------------------------------------------//
//! Regex formatter
/*!
Construct the \c regex_formatter. Regex formatter uses the regex engine to
format a match found by the \c regex_finder.
This formatted it designed to closely cooperate with \c regex_finder.
\param Format Regex format definition
\param Flags Format flags
\return An instance of the \c regex_formatter functor
*/
template<
typename CharT,
typename TraitsT, typename AllocT >
inline detail::regex_formatF< std::basic_string< CharT, TraitsT, AllocT > >
regex_formatter(
const std::basic_string<CharT, TraitsT, AllocT>& Format,
match_flag_type Flags=format_default )
{
return
detail::regex_formatF< std::basic_string<CharT, TraitsT, AllocT> >(
Format,
Flags );
}
} // namespace algorithm
// pull the names to the boost namespace
using algorithm::regex_finder;
using algorithm::regex_formatter;
} // namespace boost
#endif // BOOST_STRING_REGEX_FIND_FORMAT_HPP

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// Boost string_algo library replace.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2006.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_REPLACE_HPP
#define BOOST_STRING_REPLACE_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/iterator.hpp>
#include <boost/range/const_iterator.hpp>
#include <boost/algorithm/string/find_format.hpp>
#include <boost/algorithm/string/finder.hpp>
#include <boost/algorithm/string/formatter.hpp>
#include <boost/algorithm/string/compare.hpp>
/*! \file
Defines various replace algorithms. Each algorithm replaces
part(s) of the input according to set of searching and replace criteria.
*/
namespace boost {
namespace algorithm {
// replace_range --------------------------------------------------------------------//
//! Replace range algorithm
/*!
Replace the given range in the input string.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param SearchRange A range in the input to be substituted
\param Format A substitute string
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT replace_range_copy(
OutputIteratorT Output,
const Range1T& Input,
const iterator_range<
BOOST_STRING_TYPENAME
range_const_iterator<Range1T>::type>& SearchRange,
const Range2T& Format)
{
return find_format_copy(
Output,
Input,
range_finder(SearchRange),
const_formatter(Format));
}
//! Replace range algorithm
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT replace_range_copy(
const SequenceT& Input,
const iterator_range<
BOOST_STRING_TYPENAME
range_const_iterator<SequenceT>::type>& SearchRange,
const RangeT& Format)
{
return find_format_copy(
Input,
range_finder(SearchRange),
const_formatter(Format));
}
//! Replace range algorithm
/*!
Replace the given range in the input string.
The input sequence is modified in-place.
\param Input An input string
\param SearchRange A range in the input to be substituted
\param Format A substitute string
*/
template<typename SequenceT, typename RangeT>
inline void replace_range(
SequenceT& Input,
const iterator_range<
BOOST_STRING_TYPENAME
range_iterator<SequenceT>::type>& SearchRange,
const RangeT& Format)
{
find_format(
Input,
range_finder(SearchRange),
const_formatter(Format));
}
// replace_first --------------------------------------------------------------------//
//! Replace first algorithm
/*!
Replace the first match of the search substring in the input
with the format string.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T,
typename Range3T>
inline OutputIteratorT replace_first_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
const Range3T& Format)
{
return find_format_copy(
Output,
Input,
first_finder(Search),
const_formatter(Format) );
}
//! Replace first algorithm
/*!
\overload
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline SequenceT replace_first_copy(
const SequenceT& Input,
const Range1T& Search,
const Range2T& Format )
{
return find_format_copy(
Input,
first_finder(Search),
const_formatter(Format) );
}
//! Replace first algorithm
/*!
replace the first match of the search substring in the input
with the format string. The input sequence is modified in-place.
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline void replace_first(
SequenceT& Input,
const Range1T& Search,
const Range2T& Format )
{
find_format(
Input,
first_finder(Search),
const_formatter(Format) );
}
// replace_first ( case insensitive ) ---------------------------------------------//
//! Replace first algorithm ( case insensitive )
/*!
Replace the first match of the search substring in the input
with the format string.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
Searching is case insensitive.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
\param Loc A locale used for case insensitive comparison
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T,
typename Range3T>
inline OutputIteratorT ireplace_first_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
const Range3T& Format,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Output,
Input,
first_finder(Search, is_iequal(Loc)),
const_formatter(Format) );
}
//! Replace first algorithm ( case insensitive )
/*!
\overload
*/
template<typename SequenceT, typename Range2T, typename Range1T>
inline SequenceT ireplace_first_copy(
const SequenceT& Input,
const Range2T& Search,
const Range1T& Format,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Input,
first_finder(Search, is_iequal(Loc)),
const_formatter(Format) );
}
//! Replace first algorithm ( case insensitive )
/*!
Replace the first match of the search substring in the input
with the format string. Input sequence is modified in-place.
Searching is case insensitive.
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
\param Loc A locale used for case insensitive comparison
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline void ireplace_first(
SequenceT& Input,
const Range1T& Search,
const Range2T& Format,
const std::locale& Loc=std::locale() )
{
find_format(
Input,
first_finder(Search, is_iequal(Loc)),
const_formatter(Format) );
}
// replace_last --------------------------------------------------------------------//
//! Replace last algorithm
/*!
Replace the last match of the search string in the input
with the format string.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T,
typename Range3T>
inline OutputIteratorT replace_last_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
const Range3T& Format )
{
return find_format_copy(
Output,
Input,
last_finder(Search),
const_formatter(Format) );
}
//! Replace last algorithm
/*!
\overload
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline SequenceT replace_last_copy(
const SequenceT& Input,
const Range1T& Search,
const Range2T& Format )
{
return find_format_copy(
Input,
last_finder(Search),
const_formatter(Format) );
}
//! Replace last algorithm
/*!
Replace the last match of the search string in the input
with the format string. Input sequence is modified in-place.
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline void replace_last(
SequenceT& Input,
const Range1T& Search,
const Range2T& Format )
{
find_format(
Input,
last_finder(Search),
const_formatter(Format) );
}
// replace_last ( case insensitive ) -----------------------------------------------//
//! Replace last algorithm ( case insensitive )
/*!
Replace the last match of the search string in the input
with the format string.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
Searching is case insensitive.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
\param Loc A locale used for case insensitive comparison
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T,
typename Range3T>
inline OutputIteratorT ireplace_last_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
const Range3T& Format,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Output,
Input,
last_finder(Search, is_iequal(Loc)),
const_formatter(Format) );
}
//! Replace last algorithm ( case insensitive )
/*!
\overload
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline SequenceT ireplace_last_copy(
const SequenceT& Input,
const Range1T& Search,
const Range2T& Format,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Input,
last_finder(Search, is_iequal(Loc)),
const_formatter(Format) );
}
//! Replace last algorithm ( case insensitive )
/*!
Replace the last match of the search string in the input
with the format string.The input sequence is modified in-place.
Searching is case insensitive.
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
\param Loc A locale used for case insensitive comparison
\return A reference to the modified input
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline void ireplace_last(
SequenceT& Input,
const Range1T& Search,
const Range2T& Format,
const std::locale& Loc=std::locale() )
{
find_format(
Input,
last_finder(Search, is_iequal(Loc)),
const_formatter(Format) );
}
// replace_nth --------------------------------------------------------------------//
//! Replace nth algorithm
/*!
Replace an Nth (zero-indexed) match of the search string in the input
with the format string.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Nth An index of the match to be replaced. The index is 0-based.
For negative N, matches are counted from the end of string.
\param Format A substitute string
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T,
typename Range3T>
inline OutputIteratorT replace_nth_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
int Nth,
const Range3T& Format )
{
return find_format_copy(
Output,
Input,
nth_finder(Search, Nth),
const_formatter(Format) );
}
//! Replace nth algorithm
/*!
\overload
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline SequenceT replace_nth_copy(
const SequenceT& Input,
const Range1T& Search,
int Nth,
const Range2T& Format )
{
return find_format_copy(
Input,
nth_finder(Search, Nth),
const_formatter(Format) );
}
//! Replace nth algorithm
/*!
Replace an Nth (zero-indexed) match of the search string in the input
with the format string. Input sequence is modified in-place.
\param Input An input string
\param Search A substring to be searched for
\param Nth An index of the match to be replaced. The index is 0-based.
For negative N, matches are counted from the end of string.
\param Format A substitute string
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline void replace_nth(
SequenceT& Input,
const Range1T& Search,
int Nth,
const Range2T& Format )
{
find_format(
Input,
nth_finder(Search, Nth),
const_formatter(Format) );
}
// replace_nth ( case insensitive ) -----------------------------------------------//
//! Replace nth algorithm ( case insensitive )
/*!
Replace an Nth (zero-indexed) match of the search string in the input
with the format string.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
Searching is case insensitive.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Nth An index of the match to be replaced. The index is 0-based.
For negative N, matches are counted from the end of string.
\param Format A substitute string
\param Loc A locale used for case insensitive comparison
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T,
typename Range3T>
inline OutputIteratorT ireplace_nth_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
int Nth,
const Range3T& Format,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Output,
Input,
nth_finder(Search, Nth, is_iequal(Loc) ),
const_formatter(Format) );
}
//! Replace nth algorithm ( case insensitive )
/*!
\overload
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline SequenceT ireplace_nth_copy(
const SequenceT& Input,
const Range1T& Search,
int Nth,
const Range2T& Format,
const std::locale& Loc=std::locale() )
{
return find_format_copy(
Input,
nth_finder(Search, Nth, is_iequal(Loc)),
const_formatter(Format) );
}
//! Replace nth algorithm ( case insensitive )
/*!
Replace an Nth (zero-indexed) match of the search string in the input
with the format string. Input sequence is modified in-place.
Searching is case insensitive.
\param Input An input string
\param Search A substring to be searched for
\param Nth An index of the match to be replaced. The index is 0-based.
For negative N, matches are counted from the end of string.
\param Format A substitute string
\param Loc A locale used for case insensitive comparison
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline void ireplace_nth(
SequenceT& Input,
const Range1T& Search,
int Nth,
const Range2T& Format,
const std::locale& Loc=std::locale() )
{
find_format(
Input,
nth_finder(Search, Nth, is_iequal(Loc)),
const_formatter(Format) );
}
// replace_all --------------------------------------------------------------------//
//! Replace all algorithm
/*!
Replace all occurrences of the search string in the input
with the format string.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T,
typename Range3T>
inline OutputIteratorT replace_all_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
const Range3T& Format )
{
return find_format_all_copy(
Output,
Input,
first_finder(Search),
const_formatter(Format) );
}
//! Replace all algorithm
/*!
\overload
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline SequenceT replace_all_copy(
const SequenceT& Input,
const Range1T& Search,
const Range2T& Format )
{
return find_format_all_copy(
Input,
first_finder(Search),
const_formatter(Format) );
}
//! Replace all algorithm
/*!
Replace all occurrences of the search string in the input
with the format string. The input sequence is modified in-place.
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
\return A reference to the modified input
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline void replace_all(
SequenceT& Input,
const Range1T& Search,
const Range2T& Format )
{
find_format_all(
Input,
first_finder(Search),
const_formatter(Format) );
}
// replace_all ( case insensitive ) -----------------------------------------------//
//! Replace all algorithm ( case insensitive )
/*!
Replace all occurrences of the search string in the input
with the format string.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
Searching is case insensitive.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
\param Loc A locale used for case insensitive comparison
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T,
typename Range3T>
inline OutputIteratorT ireplace_all_copy(
OutputIteratorT Output,
const Range1T& Input,
const Range2T& Search,
const Range3T& Format,
const std::locale& Loc=std::locale() )
{
return find_format_all_copy(
Output,
Input,
first_finder(Search, is_iequal(Loc)),
const_formatter(Format) );
}
//! Replace all algorithm ( case insensitive )
/*!
\overload
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline SequenceT ireplace_all_copy(
const SequenceT& Input,
const Range1T& Search,
const Range2T& Format,
const std::locale& Loc=std::locale() )
{
return find_format_all_copy(
Input,
first_finder(Search, is_iequal(Loc)),
const_formatter(Format) );
}
//! Replace all algorithm ( case insensitive )
/*!
Replace all occurrences of the search string in the input
with the format string.The input sequence is modified in-place.
Searching is case insensitive.
\param Input An input string
\param Search A substring to be searched for
\param Format A substitute string
\param Loc A locale used for case insensitive comparison
*/
template<typename SequenceT, typename Range1T, typename Range2T>
inline void ireplace_all(
SequenceT& Input,
const Range1T& Search,
const Range2T& Format,
const std::locale& Loc=std::locale() )
{
find_format_all(
Input,
first_finder(Search, is_iequal(Loc)),
const_formatter(Format) );
}
// replace_head --------------------------------------------------------------------//
//! Replace head algorithm
/*!
Replace the head of the input with the given format string.
The head is a prefix of a string of given size.
If the sequence is shorter then required, whole string if
considered to be the head.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param N Length of the head.
For N>=0, at most N characters are extracted.
For N<0, size(Input)-|N| characters are extracted.
\param Format A substitute string
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT replace_head_copy(
OutputIteratorT Output,
const Range1T& Input,
int N,
const Range2T& Format )
{
return find_format_copy(
Output,
Input,
head_finder(N),
const_formatter(Format) );
}
//! Replace head algorithm
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT replace_head_copy(
const SequenceT& Input,
int N,
const RangeT& Format )
{
return find_format_copy(
Input,
head_finder(N),
const_formatter(Format) );
}
//! Replace head algorithm
/*!
Replace the head of the input with the given format string.
The head is a prefix of a string of given size.
If the sequence is shorter then required, the whole string is
considered to be the head. The input sequence is modified in-place.
\param Input An input string
\param N Length of the head.
For N>=0, at most N characters are extracted.
For N<0, size(Input)-|N| characters are extracted.
\param Format A substitute string
*/
template<typename SequenceT, typename RangeT>
inline void replace_head(
SequenceT& Input,
int N,
const RangeT& Format )
{
find_format(
Input,
head_finder(N),
const_formatter(Format) );
}
// replace_tail --------------------------------------------------------------------//
//! Replace tail algorithm
/*!
Replace the tail of the input with the given format string.
The tail is a suffix of a string of given size.
If the sequence is shorter then required, whole string is
considered to be the tail.
The result is a modified copy of the input. It is returned as a sequence
or copied to the output iterator.
\param Output An output iterator to which the result will be copied
\param Input An input string
\param N Length of the tail.
For N>=0, at most N characters are extracted.
For N<0, size(Input)-|N| characters are extracted.
\param Format A substitute string
\return An output iterator pointing just after the last inserted character or
a modified copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<
typename OutputIteratorT,
typename Range1T,
typename Range2T>
inline OutputIteratorT replace_tail_copy(
OutputIteratorT Output,
const Range1T& Input,
int N,
const Range2T& Format )
{
return find_format_copy(
Output,
Input,
tail_finder(N),
const_formatter(Format) );
}
//! Replace tail algorithm
/*!
\overload
*/
template<typename SequenceT, typename RangeT>
inline SequenceT replace_tail_copy(
const SequenceT& Input,
int N,
const RangeT& Format )
{
return find_format_copy(
Input,
tail_finder(N),
const_formatter(Format) );
}
//! Replace tail algorithm
/*!
Replace the tail of the input with the given format sequence.
The tail is a suffix of a string of given size.
If the sequence is shorter then required, the whole string is
considered to be the tail. The input sequence is modified in-place.
\param Input An input string
\param N Length of the tail.
For N>=0, at most N characters are extracted.
For N<0, size(Input)-|N| characters are extracted.
\param Format A substitute string
*/
template<typename SequenceT, typename RangeT>
inline void replace_tail(
SequenceT& Input,
int N,
const RangeT& Format )
{
find_format(
Input,
tail_finder(N),
const_formatter(Format) );
}
} // namespace algorithm
// pull names to the boost namespace
using algorithm::replace_range_copy;
using algorithm::replace_range;
using algorithm::replace_first_copy;
using algorithm::replace_first;
using algorithm::ireplace_first_copy;
using algorithm::ireplace_first;
using algorithm::replace_last_copy;
using algorithm::replace_last;
using algorithm::ireplace_last_copy;
using algorithm::ireplace_last;
using algorithm::replace_nth_copy;
using algorithm::replace_nth;
using algorithm::ireplace_nth_copy;
using algorithm::ireplace_nth;
using algorithm::replace_all_copy;
using algorithm::replace_all;
using algorithm::ireplace_all_copy;
using algorithm::ireplace_all;
using algorithm::replace_head_copy;
using algorithm::replace_head;
using algorithm::replace_tail_copy;
using algorithm::replace_tail;
} // namespace boost
#endif // BOOST_REPLACE_HPP

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// Boost string_algo library sequence_traits.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_SEQUENCE_TRAITS_HPP
#define BOOST_STRING_SEQUENCE_TRAITS_HPP
#include <boost/config.hpp>
#include <boost/mpl/bool.hpp>
#include <boost/algorithm/string/yes_no_type.hpp>
/*! \file
Traits defined in this header are used by various algorithms to achieve
better performance for specific containers.
Traits provide fail-safe defaults. If a container supports some of these
features, it is possible to specialize the specific trait for this container.
For lacking compilers, it is possible of define an override for a specific tester
function.
Due to a language restriction, it is not currently possible to define specializations for
stl containers without including the corresponding header. To decrease the overhead
needed by this inclusion, user can selectively include a specialization
header for a specific container. They are located in boost/algorithm/string/stl
directory. Alternatively she can include boost/algorithm/string/std_collection_traits.hpp
header which contains specializations for all stl containers.
*/
namespace boost {
namespace algorithm {
// sequence traits -----------------------------------------------//
#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
//! Native replace tester
/*!
Declare an override of this tester function with return
type boost::string_algo::yes_type for a sequence with this property.
\return yes_type if the container has basic_string like native replace
method.
*/
no_type has_native_replace_tester(...);
//! Stable iterators tester
/*!
Declare an override of this tester function with return
type boost::string_algo::yes_type for a sequence with this property.
\return yes_type if the sequence's insert/replace/erase methods do not invalidate
existing iterators.
*/
no_type has_stable_iterators_tester(...);
//! const time insert tester
/*!
Declare an override of this tester function with return
type boost::string_algo::yes_type for a sequence with this property.
\return yes_type if the sequence's insert method is working in constant time
*/
no_type has_const_time_insert_tester(...);
//! const time erase tester
/*!
Declare an override of this tester function with return
type boost::string_algo::yes_type for a sequence with this property.
\return yes_type if the sequence's erase method is working in constant time
*/
no_type has_const_time_erase_tester(...);
#endif //BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
//! Native replace trait
/*!
This trait specifies that the sequence has \c std::string like replace method
*/
template< typename T >
class has_native_replace
{
#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
private:
static T* t;
public:
BOOST_STATIC_CONSTANT(bool, value=(
sizeof(has_native_replace_tester(t))==sizeof(yes_type) ) );
#else // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
public:
# if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = false };
# else
BOOST_STATIC_CONSTANT(bool, value=false);
# endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
#endif // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
typedef mpl::bool_<has_native_replace<T>::value> type;
};
//! Stable iterators trait
/*!
This trait specifies that the sequence has stable iterators. It means
that operations like insert/erase/replace do not invalidate iterators.
*/
template< typename T >
class has_stable_iterators
{
#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
private:
static T* t;
public:
BOOST_STATIC_CONSTANT(bool, value=(
sizeof(has_stable_iterators_tester(t))==sizeof(yes_type) ) );
#else // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
public:
# if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = false };
# else
BOOST_STATIC_CONSTANT(bool, value=false);
# endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
#endif // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
typedef mpl::bool_<has_stable_iterators<T>::value> type;
};
//! Const time insert trait
/*!
This trait specifies that the sequence's insert method has
constant time complexity.
*/
template< typename T >
class has_const_time_insert
{
#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
private:
static T* t;
public:
BOOST_STATIC_CONSTANT(bool, value=(
sizeof(has_const_time_insert_tester(t))==sizeof(yes_type) ) );
#else // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
public:
# if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = false };
# else
BOOST_STATIC_CONSTANT(bool, value=false);
# endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
#endif // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
typedef mpl::bool_<has_const_time_insert<T>::value> type;
};
//! Const time erase trait
/*!
This trait specifies that the sequence's erase method has
constant time complexity.
*/
template< typename T >
class has_const_time_erase
{
#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
private:
static T* t;
public:
BOOST_STATIC_CONSTANT(bool, value=(
sizeof(has_const_time_erase_tester(t))==sizeof(yes_type) ) );
#else // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
public:
# if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = false };
# else
BOOST_STATIC_CONSTANT(bool, value=false);
# endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
#endif // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
typedef mpl::bool_<has_const_time_erase<T>::value> type;
};
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_SEQUENCE_TRAITS_HPP

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// Boost string_algo library split.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2006.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_SPLIT_HPP
#define BOOST_STRING_SPLIT_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/algorithm/string/iter_find.hpp>
#include <boost/algorithm/string/finder.hpp>
#include <boost/algorithm/string/compare.hpp>
/*! \file
Defines basic split algorithms.
Split algorithms can be used to divide a string
into several parts according to given criteria.
Each part is copied and added as a new element to the
output container.
Thus the result container must be able to hold copies
of the matches (in a compatible structure like std::string) or
a reference to it (e.g. using the iterator range class).
Examples of such a container are \c std::vector<std::string>
or \c std::list<boost::iterator_range<std::string::iterator>>
*/
namespace boost {
namespace algorithm {
// find_all ------------------------------------------------------------//
//! Find all algorithm
/*!
This algorithm finds all occurrences of the search string
in the input.
Each part is copied and added as a new element to the
output container.
Thus the result container must be able to hold copies
of the matches (in a compatible structure like std::string) or
a reference to it (e.g. using the iterator range class).
Examples of such a container are \c std::vector<std::string>
or \c std::list<boost::iterator_range<std::string::iterator>>
\param Result A container that can hold copies of references to the substrings
\param Input A container which will be searched.
\param Search A substring to be searched for.
\return A reference the result
\note Prior content of the result will be overwritten.
\note This function provides the strong exception-safety guarantee
*/
template< typename SequenceSequenceT, typename Range1T, typename Range2T >
inline SequenceSequenceT& find_all(
SequenceSequenceT& Result,
Range1T& Input,
const Range2T& Search)
{
return iter_find(
Result,
Input,
first_finder(Search) );
}
//! Find all algorithm ( case insensitive )
/*!
This algorithm finds all occurrences of the search string
in the input.
Each part is copied and added as a new element to the
output container. Thus the result container must be able to hold copies
of the matches (in a compatible structure like std::string) or
a reference to it (e.g. using the iterator range class).
Examples of such a container are \c std::vector<std::string>
or \c std::list<boost::iterator_range<std::string::iterator>>
Searching is case insensitive.
\param Result A container that can hold copies of references to the substrings
\param Input A container which will be searched.
\param Search A substring to be searched for.
\param Loc A locale used for case insensitive comparison
\return A reference the result
\note Prior content of the result will be overwritten.
\note This function provides the strong exception-safety guarantee
*/
template< typename SequenceSequenceT, typename Range1T, typename Range2T >
inline SequenceSequenceT& ifind_all(
SequenceSequenceT& Result,
Range1T& Input,
const Range2T& Search,
const std::locale& Loc=std::locale() )
{
return iter_find(
Result,
Input,
first_finder(Search, is_iequal(Loc) ) );
}
// tokenize -------------------------------------------------------------//
//! Split algorithm
/*!
Tokenize expression. This function is equivalent to C strtok. Input
sequence is split into tokens, separated by separators. Separators
are given by means of the predicate.
Each part is copied and added as a new element to the
output container.
Thus the result container must be able to hold copies
of the matches (in a compatible structure like std::string) or
a reference to it (e.g. using the iterator range class).
Examples of such a container are \c std::vector<std::string>
or \c std::list<boost::iterator_range<std::string::iterator>>
\param Result A container that can hold copies of references to the substrings
\param Input A container which will be searched.
\param Pred A predicate to identify separators. This predicate is
supposed to return true if a given element is a separator.
\param eCompress If eCompress argument is set to token_compress_on, adjacent
separators are merged together. Otherwise, every two separators
delimit a token.
\return A reference the result
\note Prior content of the result will be overwritten.
\note This function provides the strong exception-safety guarantee
*/
template< typename SequenceSequenceT, typename RangeT, typename PredicateT >
inline SequenceSequenceT& split(
SequenceSequenceT& Result,
RangeT& Input,
PredicateT Pred,
token_compress_mode_type eCompress=token_compress_off )
{
return iter_split(
Result,
Input,
token_finder( Pred, eCompress ) );
}
} // namespace algorithm
// pull names to the boost namespace
using algorithm::find_all;
using algorithm::ifind_all;
using algorithm::split;
} // namespace boost
#endif // BOOST_STRING_SPLIT_HPP

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// Boost string_algo library list_traits.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_STD_LIST_TRAITS_HPP
#define BOOST_STRING_STD_LIST_TRAITS_HPP
#include <boost/algorithm/string/yes_no_type.hpp>
#include <list>
#include <boost/algorithm/string/sequence_traits.hpp>
namespace boost {
namespace algorithm {
// std::list<> traits -----------------------------------------------//
#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
// stable iterators tester
template<typename T, typename AllocT>
yes_type has_stable_iterators_tester( const ::std::list<T,AllocT>* );
// const time insert tester
template<typename T, typename AllocT>
yes_type has_const_time_insert_tester( const ::std::list<T,AllocT>* );
// const time erase tester
template<typename T, typename AllocT>
yes_type has_const_time_erase_tester( const ::std::list<T,AllocT>* );
#else // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
// stable iterators trait
template<typename T, typename AllocT>
class has_stable_iterators< ::std::list<T,AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true };
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<has_stable_iterators<T>::value> type;
};
// const time insert trait
template<typename T, typename AllocT>
class has_const_time_insert< ::std::list<T,AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true };
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<has_const_time_insert<T>::value> type;
};
// const time erase trait
template<typename T, typename AllocT>
class has_const_time_erase< ::std::list<T,AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true };
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<has_const_time_erase<T>::value> type;
};
#endif
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_STD_LIST_TRAITS_HPP

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// Boost string_algo library string_traits.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_STD_ROPE_TRAITS_HPP
#define BOOST_STRING_STD_ROPE_TRAITS_HPP
#include <boost/algorithm/string/yes_no_type.hpp>
#include <rope>
#include <boost/algorithm/string/sequence_traits.hpp>
namespace boost {
namespace algorithm {
// SGI's std::rope<> traits -----------------------------------------------//
#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
// native replace tester
template<typename T, typename TraitsT, typename AllocT>
yes_type has_native_replace_tester( const std::rope<T, TraitsT, AllocT>* );
// stable iterators tester
template<typename T, typename TraitsT, typename AllocT>
yes_type has_stable_iterators_tester( const std::rope<T, TraitsT, AllocT>* );
// const time insert tester
template<typename T, typename TraitsT, typename AllocT>
yes_type has_const_time_insert_tester( const std::rope<T, TraitsT, AllocT>* );
// const time erase tester
template<typename T, typename TraitsT, typename AllocT>
yes_type has_const_time_erase_tester( const std::rope<T, TraitsT, AllocT>* );
#else // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
// native replace trait
template<typename T, typename TraitsT, typename AllocT>
class has_native_replace< std::rope<T,TraitsT,AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true };
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<value> type;
};
// stable iterators trait
template<typename T, typename TraitsT, typename AllocT>
class has_stable_iterators< std::rope<T,TraitsT,AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true };
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<value> type;
};
// const time insert trait
template<typename T, typename TraitsT, typename AllocT>
class has_const_time_insert< std::rope<T,TraitsT,AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true };
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<value> type;
};
// const time erase trait
template<typename T, typename TraitsT, typename AllocT>
class has_const_time_erase< std::rope<T,TraitsT,AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true };
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<value> type;
};
#endif
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_ROPE_TRAITS_HPP

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// Boost string_algo library slist_traits.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_STD_SLIST_TRAITS_HPP
#define BOOST_STRING_STD_SLIST_TRAITS_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/algorithm/string/yes_no_type.hpp>
#include BOOST_SLIST_HEADER
#include <boost/algorithm/string/sequence_traits.hpp>
namespace boost {
namespace algorithm {
// SGI's std::slist<> traits -----------------------------------------------//
#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
// stable iterators tester
template<typename T, typename AllocT>
yes_type has_stable_iterators_tester( const BOOST_STD_EXTENSION_NAMESPACE::slist<T,AllocT>* );
// const time insert tester
template<typename T, typename AllocT>
yes_type has_const_time_insert_tester( const BOOST_STD_EXTENSION_NAMESPACE::slist<T,AllocT>* );
// const time erase tester
template<typename T, typename AllocT>
yes_type has_const_time_erase_tester( const BOOST_STD_EXTENSION_NAMESPACE::slist<T,AllocT>* );
#else // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
// stable iterators trait
template<typename T, typename AllocT>
class has_stable_iterators< BOOST_STD_EXTENSION_NAMESPACE::slist<T,AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true };
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<has_stable_iterators<T>::value> type;
};
// const time insert trait
template<typename T, typename AllocT>
class has_const_time_insert< BOOST_STD_EXTENSION_NAMESPACE::slist<T,AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true };
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<has_const_time_insert<T>::value> type;
};
// const time erase trait
template<typename T, typename AllocT>
class has_const_time_erase< BOOST_STD_EXTENSION_NAMESPACE::slist<T,AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true };
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<has_const_time_erase<T>::value> type;
};
#endif
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_STD_LIST_TRAITS_HPP

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// Boost string_algo library string_traits.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_STD_STRING_TRAITS_HPP
#define BOOST_STRING_STD_STRING_TRAITS_HPP
#include <boost/algorithm/string/yes_no_type.hpp>
#include <string>
#include <boost/algorithm/string/sequence_traits.hpp>
namespace boost {
namespace algorithm {
// std::basic_string<> traits -----------------------------------------------//
#ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
// native replace tester
template<typename T, typename TraitsT, typename AllocT>
yes_type has_native_replace_tester( const std::basic_string<T, TraitsT, AllocT>* );
#else // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
// native replace trait
template<typename T, typename TraitsT, typename AllocT>
class has_native_replace< std::basic_string<T, TraitsT, AllocT> >
{
public:
#if BOOST_WORKAROUND( __IBMCPP__, <= 600 )
enum { value = true } ;
#else
BOOST_STATIC_CONSTANT(bool, value=true);
#endif // BOOST_WORKAROUND( __IBMCPP__, <= 600 )
typedef mpl::bool_<has_native_replace<T>::value> type;
};
#endif // BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_LIST_TRAITS_HPP

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// Boost string_algo library std_containers_traits.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_STD_CONTAINERS_TRAITS_HPP
#define BOOST_STRING_STD_CONTAINERS_TRAITS_HPP
/*!\file
This file includes sequence traits for stl containers.
*/
#include <boost/config.hpp>
#include <boost/algorithm/string/std/string_traits.hpp>
#include <boost/algorithm/string/std/list_traits.hpp>
#ifdef BOOST_HAS_SLIST
# include <boost/algorithm/string/std/slist_traits.hpp>
#endif
#endif // BOOST_STRING_STD_CONTAINERS_TRAITS_HPP

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// Boost string_algo library trim.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_TRIM_HPP
#define BOOST_STRING_TRIM_HPP
#include <boost/algorithm/string/config.hpp>
#include <boost/range/begin.hpp>
#include <boost/range/end.hpp>
#include <boost/range/const_iterator.hpp>
#include <boost/range/as_literal.hpp>
#include <boost/range/iterator_range.hpp>
#include <boost/algorithm/string/detail/trim.hpp>
#include <boost/algorithm/string/classification.hpp>
#include <locale>
/*! \file
Defines trim algorithms.
Trim algorithms are used to remove trailing and leading spaces from a
sequence (string). Space is recognized using given locales.
Parametric (\c _if) variants use a predicate (functor) to select which characters
are to be trimmed..
Functions take a selection predicate as a parameter, which is used to determine
whether a character is a space. Common predicates are provided in classification.hpp header.
*/
namespace boost {
namespace algorithm {
// left trim -----------------------------------------------//
//! Left trim - parametric
/*!
Remove all leading spaces from the input.
The supplied predicate is used to determine which characters are considered spaces.
The result is a trimmed copy of the input. It is returned as a sequence
or copied to the output iterator
\param Output An output iterator to which the result will be copied
\param Input An input range
\param IsSpace An unary predicate identifying spaces
\return
An output iterator pointing just after the last inserted character or
a copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<typename OutputIteratorT, typename RangeT, typename PredicateT>
inline OutputIteratorT trim_left_copy_if(
OutputIteratorT Output,
const RangeT& Input,
PredicateT IsSpace)
{
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> lit_range(as_literal(Input));
std::copy(
::boost::algorithm::detail::trim_begin(
::boost::begin(lit_range),
::boost::end(lit_range),
IsSpace ),
::boost::end(lit_range),
Output);
return Output;
}
//! Left trim - parametric
/*!
\overload
*/
template<typename SequenceT, typename PredicateT>
inline SequenceT trim_left_copy_if(const SequenceT& Input, PredicateT IsSpace)
{
return SequenceT(
::boost::algorithm::detail::trim_begin(
::boost::begin(Input),
::boost::end(Input),
IsSpace ),
::boost::end(Input));
}
//! Left trim - parametric
/*!
Remove all leading spaces from the input.
The result is a trimmed copy of the input.
\param Input An input sequence
\param Loc a locale used for 'space' classification
\return A trimmed copy of the input
\note This function provides the strong exception-safety guarantee
*/
template<typename SequenceT>
inline SequenceT trim_left_copy(const SequenceT& Input, const std::locale& Loc=std::locale())
{
return
trim_left_copy_if(
Input,
is_space(Loc));
}
//! Left trim
/*!
Remove all leading spaces from the input. The supplied predicate is
used to determine which characters are considered spaces.
The input sequence is modified in-place.
\param Input An input sequence
\param IsSpace An unary predicate identifying spaces
*/
template<typename SequenceT, typename PredicateT>
inline void trim_left_if(SequenceT& Input, PredicateT IsSpace)
{
Input.erase(
::boost::begin(Input),
::boost::algorithm::detail::trim_begin(
::boost::begin(Input),
::boost::end(Input),
IsSpace));
}
//! Left trim
/*!
Remove all leading spaces from the input.
The Input sequence is modified in-place.
\param Input An input sequence
\param Loc A locale used for 'space' classification
*/
template<typename SequenceT>
inline void trim_left(SequenceT& Input, const std::locale& Loc=std::locale())
{
trim_left_if(
Input,
is_space(Loc));
}
// right trim -----------------------------------------------//
//! Right trim - parametric
/*!
Remove all trailing spaces from the input.
The supplied predicate is used to determine which characters are considered spaces.
The result is a trimmed copy of the input. It is returned as a sequence
or copied to the output iterator
\param Output An output iterator to which the result will be copied
\param Input An input range
\param IsSpace An unary predicate identifying spaces
\return
An output iterator pointing just after the last inserted character or
a copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<typename OutputIteratorT, typename RangeT, typename PredicateT>
inline OutputIteratorT trim_right_copy_if(
OutputIteratorT Output,
const RangeT& Input,
PredicateT IsSpace )
{
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> lit_range(as_literal(Input));
std::copy(
::boost::begin(lit_range),
::boost::algorithm::detail::trim_end(
::boost::begin(lit_range),
::boost::end(lit_range),
IsSpace ),
Output );
return Output;
}
//! Right trim - parametric
/*!
\overload
*/
template<typename SequenceT, typename PredicateT>
inline SequenceT trim_right_copy_if(const SequenceT& Input, PredicateT IsSpace)
{
return SequenceT(
::boost::begin(Input),
::boost::algorithm::detail::trim_end(
::boost::begin(Input),
::boost::end(Input),
IsSpace)
);
}
//! Right trim
/*!
Remove all trailing spaces from the input.
The result is a trimmed copy of the input
\param Input An input sequence
\param Loc A locale used for 'space' classification
\return A trimmed copy of the input
\note This function provides the strong exception-safety guarantee
*/
template<typename SequenceT>
inline SequenceT trim_right_copy(const SequenceT& Input, const std::locale& Loc=std::locale())
{
return
trim_right_copy_if(
Input,
is_space(Loc));
}
//! Right trim - parametric
/*!
Remove all trailing spaces from the input.
The supplied predicate is used to determine which characters are considered spaces.
The input sequence is modified in-place.
\param Input An input sequence
\param IsSpace An unary predicate identifying spaces
*/
template<typename SequenceT, typename PredicateT>
inline void trim_right_if(SequenceT& Input, PredicateT IsSpace)
{
Input.erase(
::boost::algorithm::detail::trim_end(
::boost::begin(Input),
::boost::end(Input),
IsSpace ),
::boost::end(Input)
);
}
//! Right trim
/*!
Remove all trailing spaces from the input.
The input sequence is modified in-place.
\param Input An input sequence
\param Loc A locale used for 'space' classification
*/
template<typename SequenceT>
inline void trim_right(SequenceT& Input, const std::locale& Loc=std::locale())
{
trim_right_if(
Input,
is_space(Loc) );
}
// both side trim -----------------------------------------------//
//! Trim - parametric
/*!
Remove all trailing and leading spaces from the input.
The supplied predicate is used to determine which characters are considered spaces.
The result is a trimmed copy of the input. It is returned as a sequence
or copied to the output iterator
\param Output An output iterator to which the result will be copied
\param Input An input range
\param IsSpace An unary predicate identifying spaces
\return
An output iterator pointing just after the last inserted character or
a copy of the input
\note The second variant of this function provides the strong exception-safety guarantee
*/
template<typename OutputIteratorT, typename RangeT, typename PredicateT>
inline OutputIteratorT trim_copy_if(
OutputIteratorT Output,
const RangeT& Input,
PredicateT IsSpace)
{
iterator_range<BOOST_STRING_TYPENAME range_const_iterator<RangeT>::type> lit_range(as_literal(Input));
BOOST_STRING_TYPENAME
range_const_iterator<RangeT>::type TrimEnd=
::boost::algorithm::detail::trim_end(
::boost::begin(lit_range),
::boost::end(lit_range),
IsSpace);
std::copy(
detail::trim_begin(
::boost::begin(lit_range), TrimEnd, IsSpace),
TrimEnd,
Output
);
return Output;
}
//! Trim - parametric
/*!
\overload
*/
template<typename SequenceT, typename PredicateT>
inline SequenceT trim_copy_if(const SequenceT& Input, PredicateT IsSpace)
{
BOOST_STRING_TYPENAME
range_const_iterator<SequenceT>::type TrimEnd=
::boost::algorithm::detail::trim_end(
::boost::begin(Input),
::boost::end(Input),
IsSpace);
return SequenceT(
detail::trim_begin(
::boost::begin(Input),
TrimEnd,
IsSpace),
TrimEnd
);
}
//! Trim
/*!
Remove all leading and trailing spaces from the input.
The result is a trimmed copy of the input
\param Input An input sequence
\param Loc A locale used for 'space' classification
\return A trimmed copy of the input
\note This function provides the strong exception-safety guarantee
*/
template<typename SequenceT>
inline SequenceT trim_copy( const SequenceT& Input, const std::locale& Loc=std::locale() )
{
return
trim_copy_if(
Input,
is_space(Loc) );
}
//! Trim
/*!
Remove all leading and trailing spaces from the input.
The supplied predicate is used to determine which characters are considered spaces.
The input sequence is modified in-place.
\param Input An input sequence
\param IsSpace An unary predicate identifying spaces
*/
template<typename SequenceT, typename PredicateT>
inline void trim_if(SequenceT& Input, PredicateT IsSpace)
{
trim_right_if( Input, IsSpace );
trim_left_if( Input, IsSpace );
}
//! Trim
/*!
Remove all leading and trailing spaces from the input.
The input sequence is modified in-place.
\param Input An input sequence
\param Loc A locale used for 'space' classification
*/
template<typename SequenceT>
inline void trim(SequenceT& Input, const std::locale& Loc=std::locale())
{
trim_if(
Input,
is_space( Loc ) );
}
} // namespace algorithm
// pull names to the boost namespace
using algorithm::trim_left;
using algorithm::trim_left_if;
using algorithm::trim_left_copy;
using algorithm::trim_left_copy_if;
using algorithm::trim_right;
using algorithm::trim_right_if;
using algorithm::trim_right_copy;
using algorithm::trim_right_copy_if;
using algorithm::trim;
using algorithm::trim_if;
using algorithm::trim_copy;
using algorithm::trim_copy_if;
} // namespace boost
#endif // BOOST_STRING_TRIM_HPP

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// Boost string_algo library yes_no_type.hpp header file ---------------------------//
// Copyright Pavol Droba 2002-2003.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/ for updates, documentation, and revision history.
#ifndef BOOST_STRING_YES_NO_TYPE_DETAIL_HPP
#define BOOST_STRING_YES_NO_TYPE_DETAIL_HPP
namespace boost {
namespace algorithm {
// taken from boost mailing-list
// when yes_no_type will become officially
// a part of boost distribution, this header
// will be deprecated
template<int I> struct size_descriptor
{
typedef char (& type)[I];
};
typedef size_descriptor<1>::type yes_type;
typedef size_descriptor<2>::type no_type;
} // namespace algorithm
} // namespace boost
#endif // BOOST_STRING_YES_NO_TYPE_DETAIL_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_ASSERT_DWA2006430_HPP
# define BOOST_CONCEPT_ASSERT_DWA2006430_HPP
# include <boost/config.hpp>
# include <boost/detail/workaround.hpp>
// The old protocol used a constraints() member function in concept
// checking classes. If the compiler supports SFINAE, we can detect
// that function and seamlessly support the old concept checking
// classes. In this release, backward compatibility with the old
// concept checking classes is enabled by default, where available.
// The old protocol is deprecated, though, and backward compatibility
// will no longer be the default in the next release.
# if !defined(BOOST_NO_OLD_CONCEPT_SUPPORT) \
&& !defined(BOOST_NO_SFINAE) \
\
&& !(BOOST_WORKAROUND(__GNUC__, == 3) && BOOST_WORKAROUND(__GNUC_MINOR__, < 4)) \
&& !(BOOST_WORKAROUND(__GNUC__, == 2))
// Note: gcc-2.96 through 3.3.x have some SFINAE, but no ability to
// check for the presence of particularmember functions.
# define BOOST_OLD_CONCEPT_SUPPORT
# endif
# ifdef BOOST_MSVC
# include <boost/concept/detail/msvc.hpp>
# elif BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x564))
# include <boost/concept/detail/borland.hpp>
# else
# include <boost/concept/detail/general.hpp>
# endif
// Usage, in class or function context:
//
// BOOST_CONCEPT_ASSERT((UnaryFunctionConcept<F,bool,int>));
//
# define BOOST_CONCEPT_ASSERT(ModelInParens) \
BOOST_CONCEPT_ASSERT_FN(void(*)ModelInParens)
#endif // BOOST_CONCEPT_ASSERT_DWA2006430_HPP

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#ifndef BOOST_BIND_MEM_FN_HPP_INCLUDED
#define BOOST_BIND_MEM_FN_HPP_INCLUDED
// MS compatible compilers support #pragma once
#if defined(_MSC_VER) && (_MSC_VER >= 1020)
# pragma once
#endif
//
// mem_fn.hpp - a generalization of std::mem_fun[_ref]
//
// Copyright (c) 2001, 2002 Peter Dimov and Multi Media Ltd.
// Copyright (c) 2001 David Abrahams
// Copyright (c) 2003-2005 Peter Dimov
//
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/bind/mem_fn.html for documentation.
//
#include <boost/config.hpp>
#include <boost/get_pointer.hpp>
#include <boost/detail/workaround.hpp>
namespace boost
{
#if defined(BOOST_NO_VOID_RETURNS)
#define BOOST_MEM_FN_CLASS_F , class F
#define BOOST_MEM_FN_TYPEDEF(X)
namespace _mfi // mem_fun_impl
{
template<class V> struct mf
{
#define BOOST_MEM_FN_RETURN return
#define BOOST_MEM_FN_NAME(X) inner_##X
#define BOOST_MEM_FN_CC
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#ifdef BOOST_MEM_FN_ENABLE_CDECL
#define BOOST_MEM_FN_NAME(X) inner_##X##_cdecl
#define BOOST_MEM_FN_CC __cdecl
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_STDCALL
#define BOOST_MEM_FN_NAME(X) inner_##X##_stdcall
#define BOOST_MEM_FN_CC __stdcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_FASTCALL
#define BOOST_MEM_FN_NAME(X) inner_##X##_fastcall
#define BOOST_MEM_FN_CC __fastcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#undef BOOST_MEM_FN_RETURN
}; // struct mf<V>
template<> struct mf<void>
{
#define BOOST_MEM_FN_RETURN
#define BOOST_MEM_FN_NAME(X) inner_##X
#define BOOST_MEM_FN_CC
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#ifdef BOOST_MEM_FN_ENABLE_CDECL
#define BOOST_MEM_FN_NAME(X) inner_##X##_cdecl
#define BOOST_MEM_FN_CC __cdecl
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_STDCALL
#define BOOST_MEM_FN_NAME(X) inner_##X##_stdcall
#define BOOST_MEM_FN_CC __stdcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_FASTCALL
#define BOOST_MEM_FN_NAME(X) inner_##X##_fastcall
#define BOOST_MEM_FN_CC __fastcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#undef BOOST_MEM_FN_RETURN
}; // struct mf<void>
#undef BOOST_MEM_FN_CLASS_F
#undef BOOST_MEM_FN_TYPEDEF_F
#define BOOST_MEM_FN_NAME(X) X
#define BOOST_MEM_FN_NAME2(X) inner_##X
#define BOOST_MEM_FN_CC
#include <boost/bind/mem_fn_vw.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_NAME2
#undef BOOST_MEM_FN_CC
#ifdef BOOST_MEM_FN_ENABLE_CDECL
#define BOOST_MEM_FN_NAME(X) X##_cdecl
#define BOOST_MEM_FN_NAME2(X) inner_##X##_cdecl
#define BOOST_MEM_FN_CC __cdecl
#include <boost/bind/mem_fn_vw.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_NAME2
#undef BOOST_MEM_FN_CC
#endif
#ifdef BOOST_MEM_FN_ENABLE_STDCALL
#define BOOST_MEM_FN_NAME(X) X##_stdcall
#define BOOST_MEM_FN_NAME2(X) inner_##X##_stdcall
#define BOOST_MEM_FN_CC __stdcall
#include <boost/bind/mem_fn_vw.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_NAME2
#undef BOOST_MEM_FN_CC
#endif
#ifdef BOOST_MEM_FN_ENABLE_FASTCALL
#define BOOST_MEM_FN_NAME(X) X##_fastcall
#define BOOST_MEM_FN_NAME2(X) inner_##X##_fastcall
#define BOOST_MEM_FN_CC __fastcall
#include <boost/bind/mem_fn_vw.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_NAME2
#undef BOOST_MEM_FN_CC
#endif
} // namespace _mfi
#else // #ifdef BOOST_NO_VOID_RETURNS
#define BOOST_MEM_FN_CLASS_F
#define BOOST_MEM_FN_TYPEDEF(X) typedef X;
namespace _mfi
{
#define BOOST_MEM_FN_RETURN return
#define BOOST_MEM_FN_NAME(X) X
#define BOOST_MEM_FN_CC
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#ifdef BOOST_MEM_FN_ENABLE_CDECL
#define BOOST_MEM_FN_NAME(X) X##_cdecl
#define BOOST_MEM_FN_CC __cdecl
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_STDCALL
#define BOOST_MEM_FN_NAME(X) X##_stdcall
#define BOOST_MEM_FN_CC __stdcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_FASTCALL
#define BOOST_MEM_FN_NAME(X) X##_fastcall
#define BOOST_MEM_FN_CC __fastcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#undef BOOST_MEM_FN_RETURN
} // namespace _mfi
#undef BOOST_MEM_FN_CLASS_F
#undef BOOST_MEM_FN_TYPEDEF
#endif // #ifdef BOOST_NO_VOID_RETURNS
#define BOOST_MEM_FN_NAME(X) X
#define BOOST_MEM_FN_CC
#include <boost/bind/mem_fn_cc.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_CC
#ifdef BOOST_MEM_FN_ENABLE_CDECL
#define BOOST_MEM_FN_NAME(X) X##_cdecl
#define BOOST_MEM_FN_CC __cdecl
#include <boost/bind/mem_fn_cc.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_CC
#endif
#ifdef BOOST_MEM_FN_ENABLE_STDCALL
#define BOOST_MEM_FN_NAME(X) X##_stdcall
#define BOOST_MEM_FN_CC __stdcall
#include <boost/bind/mem_fn_cc.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_CC
#endif
#ifdef BOOST_MEM_FN_ENABLE_FASTCALL
#define BOOST_MEM_FN_NAME(X) X##_fastcall
#define BOOST_MEM_FN_CC __fastcall
#include <boost/bind/mem_fn_cc.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_CC
#endif
// data member support
namespace _mfi
{
template<class R, class T> class dm
{
public:
typedef R const & result_type;
typedef T const * argument_type;
private:
typedef R (T::*F);
F f_;
template<class U> R const & call(U & u, T const *) const
{
return (u.*f_);
}
template<class U> R const & call(U & u, void const *) const
{
return (get_pointer(u)->*f_);
}
public:
explicit dm(F f): f_(f) {}
R & operator()(T * p) const
{
return (p->*f_);
}
R const & operator()(T const * p) const
{
return (p->*f_);
}
template<class U> R const & operator()(U const & u) const
{
return call(u, &u);
}
#if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) && !BOOST_WORKAROUND(__MWERKS__, < 0x3200)
R & operator()(T & t) const
{
return (t.*f_);
}
R const & operator()(T const & t) const
{
return (t.*f_);
}
#endif
bool operator==(dm const & rhs) const
{
return f_ == rhs.f_;
}
bool operator!=(dm const & rhs) const
{
return f_ != rhs.f_;
}
};
} // namespace _mfi
template<class R, class T> _mfi::dm<R, T> mem_fn(R T::*f)
{
return _mfi::dm<R, T>(f);
}
} // namespace boost
#endif // #ifndef BOOST_BIND_MEM_FN_HPP_INCLUDED

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//
// bind/mem_fn_cc.hpp - support for different calling conventions
//
// Do not include this header directly.
//
// Copyright (c) 2001 Peter Dimov and Multi Media Ltd.
//
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/bind/mem_fn.html for documentation.
//
template<class R, class T> _mfi::BOOST_MEM_FN_NAME(mf0)<R, T> mem_fn(R (BOOST_MEM_FN_CC T::*f) ())
{
return _mfi::BOOST_MEM_FN_NAME(mf0)<R, T>(f);
}
template<class R, class T> _mfi::BOOST_MEM_FN_NAME(cmf0)<R, T> mem_fn(R (BOOST_MEM_FN_CC T::*f) () const)
{
return _mfi::BOOST_MEM_FN_NAME(cmf0)<R, T>(f);
}
template<class R, class T, class A1> _mfi::BOOST_MEM_FN_NAME(mf1)<R, T, A1> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1))
{
return _mfi::BOOST_MEM_FN_NAME(mf1)<R, T, A1>(f);
}
template<class R, class T, class A1> _mfi::BOOST_MEM_FN_NAME(cmf1)<R, T, A1> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1) const)
{
return _mfi::BOOST_MEM_FN_NAME(cmf1)<R, T, A1>(f);
}
template<class R, class T, class A1, class A2> _mfi::BOOST_MEM_FN_NAME(mf2)<R, T, A1, A2> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2))
{
return _mfi::BOOST_MEM_FN_NAME(mf2)<R, T, A1, A2>(f);
}
template<class R, class T, class A1, class A2> _mfi::BOOST_MEM_FN_NAME(cmf2)<R, T, A1, A2> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2) const)
{
return _mfi::BOOST_MEM_FN_NAME(cmf2)<R, T, A1, A2>(f);
}
template<class R, class T, class A1, class A2, class A3> _mfi::BOOST_MEM_FN_NAME(mf3)<R, T, A1, A2, A3> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3))
{
return _mfi::BOOST_MEM_FN_NAME(mf3)<R, T, A1, A2, A3>(f);
}
template<class R, class T, class A1, class A2, class A3> _mfi::BOOST_MEM_FN_NAME(cmf3)<R, T, A1, A2, A3> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3) const)
{
return _mfi::BOOST_MEM_FN_NAME(cmf3)<R, T, A1, A2, A3>(f);
}
template<class R, class T, class A1, class A2, class A3, class A4> _mfi::BOOST_MEM_FN_NAME(mf4)<R, T, A1, A2, A3, A4> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3, A4))
{
return _mfi::BOOST_MEM_FN_NAME(mf4)<R, T, A1, A2, A3, A4>(f);
}
template<class R, class T, class A1, class A2, class A3, class A4> _mfi::BOOST_MEM_FN_NAME(cmf4)<R, T, A1, A2, A3, A4> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3, A4) const)
{
return _mfi::BOOST_MEM_FN_NAME(cmf4)<R, T, A1, A2, A3, A4>(f);
}
template<class R, class T, class A1, class A2, class A3, class A4, class A5> _mfi::BOOST_MEM_FN_NAME(mf5)<R, T, A1, A2, A3, A4, A5> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3, A4, A5))
{
return _mfi::BOOST_MEM_FN_NAME(mf5)<R, T, A1, A2, A3, A4, A5>(f);
}
template<class R, class T, class A1, class A2, class A3, class A4, class A5> _mfi::BOOST_MEM_FN_NAME(cmf5)<R, T, A1, A2, A3, A4, A5> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3, A4, A5) const)
{
return _mfi::BOOST_MEM_FN_NAME(cmf5)<R, T, A1, A2, A3, A4, A5>(f);
}
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6> _mfi::BOOST_MEM_FN_NAME(mf6)<R, T, A1, A2, A3, A4, A5, A6> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3, A4, A5, A6))
{
return _mfi::BOOST_MEM_FN_NAME(mf6)<R, T, A1, A2, A3, A4, A5, A6>(f);
}
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6> _mfi::BOOST_MEM_FN_NAME(cmf6)<R, T, A1, A2, A3, A4, A5, A6> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3, A4, A5, A6) const)
{
return _mfi::BOOST_MEM_FN_NAME(cmf6)<R, T, A1, A2, A3, A4, A5, A6>(f);
}
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6, class A7> _mfi::BOOST_MEM_FN_NAME(mf7)<R, T, A1, A2, A3, A4, A5, A6, A7> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3, A4, A5, A6, A7))
{
return _mfi::BOOST_MEM_FN_NAME(mf7)<R, T, A1, A2, A3, A4, A5, A6, A7>(f);
}
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6, class A7> _mfi::BOOST_MEM_FN_NAME(cmf7)<R, T, A1, A2, A3, A4, A5, A6, A7> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3, A4, A5, A6, A7) const)
{
return _mfi::BOOST_MEM_FN_NAME(cmf7)<R, T, A1, A2, A3, A4, A5, A6, A7>(f);
}
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8> _mfi::BOOST_MEM_FN_NAME(mf8)<R, T, A1, A2, A3, A4, A5, A6, A7, A8> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3, A4, A5, A6, A7, A8))
{
return _mfi::BOOST_MEM_FN_NAME(mf8)<R, T, A1, A2, A3, A4, A5, A6, A7, A8>(f);
}
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8> _mfi::BOOST_MEM_FN_NAME(cmf8)<R, T, A1, A2, A3, A4, A5, A6, A7, A8> mem_fn(R (BOOST_MEM_FN_CC T::*f) (A1, A2, A3, A4, A5, A6, A7, A8) const)
{
return _mfi::BOOST_MEM_FN_NAME(cmf8)<R, T, A1, A2, A3, A4, A5, A6, A7, A8>(f);
}

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//
// bind/mem_fn_vw.hpp - void return helper wrappers
//
// Do not include this header directly
//
// Copyright (c) 2001 Peter Dimov and Multi Media Ltd.
//
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/bind/mem_fn.html for documentation.
//
template<class R, class T> struct BOOST_MEM_FN_NAME(mf0): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf0)<R, T, R (BOOST_MEM_FN_CC T::*) ()>
{
typedef R (BOOST_MEM_FN_CC T::*F) ();
explicit BOOST_MEM_FN_NAME(mf0)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf0)<R, T, F>(f) {}
};
template<class R, class T> struct BOOST_MEM_FN_NAME(cmf0): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf0)<R, T, R (BOOST_MEM_FN_CC T::*) () const>
{
typedef R (BOOST_MEM_FN_CC T::*F) () const;
explicit BOOST_MEM_FN_NAME(cmf0)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf0)<R, T, F>(f) {}
};
template<class R, class T, class A1> struct BOOST_MEM_FN_NAME(mf1): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf1)<R, T, A1, R (BOOST_MEM_FN_CC T::*) (A1)>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1);
explicit BOOST_MEM_FN_NAME(mf1)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf1)<R, T, A1, F>(f) {}
};
template<class R, class T, class A1> struct BOOST_MEM_FN_NAME(cmf1): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf1)<R, T, A1, R (BOOST_MEM_FN_CC T::*) (A1) const>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1) const;
explicit BOOST_MEM_FN_NAME(cmf1)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf1)<R, T, A1, F>(f) {}
};
template<class R, class T, class A1, class A2> struct BOOST_MEM_FN_NAME(mf2): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf2)<R, T, A1, A2, R (BOOST_MEM_FN_CC T::*) (A1, A2)>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2);
explicit BOOST_MEM_FN_NAME(mf2)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf2)<R, T, A1, A2, F>(f) {}
};
template<class R, class T, class A1, class A2> struct BOOST_MEM_FN_NAME(cmf2): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf2)<R, T, A1, A2, R (BOOST_MEM_FN_CC T::*) (A1, A2) const>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2) const;
explicit BOOST_MEM_FN_NAME(cmf2)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf2)<R, T, A1, A2, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3> struct BOOST_MEM_FN_NAME(mf3): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf3)<R, T, A1, A2, A3, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3)>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3);
explicit BOOST_MEM_FN_NAME(mf3)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf3)<R, T, A1, A2, A3, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3> struct BOOST_MEM_FN_NAME(cmf3): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf3)<R, T, A1, A2, A3, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3) const>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3) const;
explicit BOOST_MEM_FN_NAME(cmf3)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf3)<R, T, A1, A2, A3, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3, class A4> struct BOOST_MEM_FN_NAME(mf4): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf4)<R, T, A1, A2, A3, A4, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3, A4)>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3, A4);
explicit BOOST_MEM_FN_NAME(mf4)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf4)<R, T, A1, A2, A3, A4, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3, class A4> struct BOOST_MEM_FN_NAME(cmf4): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf4)<R, T, A1, A2, A3, A4, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3, A4) const>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3, A4) const;
explicit BOOST_MEM_FN_NAME(cmf4)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf4)<R, T, A1, A2, A3, A4, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3, class A4, class A5> struct BOOST_MEM_FN_NAME(mf5): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf5)<R, T, A1, A2, A3, A4, A5, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3, A4, A5)>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3, A4, A5);
explicit BOOST_MEM_FN_NAME(mf5)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf5)<R, T, A1, A2, A3, A4, A5, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3, class A4, class A5> struct BOOST_MEM_FN_NAME(cmf5): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf5)<R, T, A1, A2, A3, A4, A5, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3, A4, A5) const>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3, A4, A5) const;
explicit BOOST_MEM_FN_NAME(cmf5)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf5)<R, T, A1, A2, A3, A4, A5, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6> struct BOOST_MEM_FN_NAME(mf6): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf6)<R, T, A1, A2, A3, A4, A5, A6, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3, A4, A5, A6)>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3, A4, A5, A6);
explicit BOOST_MEM_FN_NAME(mf6)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf6)<R, T, A1, A2, A3, A4, A5, A6, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6> struct BOOST_MEM_FN_NAME(cmf6): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf6)<R, T, A1, A2, A3, A4, A5, A6, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3, A4, A5, A6) const>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3, A4, A5, A6) const;
explicit BOOST_MEM_FN_NAME(cmf6)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf6)<R, T, A1, A2, A3, A4, A5, A6, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6, class A7> struct BOOST_MEM_FN_NAME(mf7): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf7)<R, T, A1, A2, A3, A4, A5, A6, A7, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3, A4, A5, A6, A7)>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3, A4, A5, A6, A7);
explicit BOOST_MEM_FN_NAME(mf7)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf7)<R, T, A1, A2, A3, A4, A5, A6, A7, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6, class A7> struct BOOST_MEM_FN_NAME(cmf7): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf7)<R, T, A1, A2, A3, A4, A5, A6, A7, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3, A4, A5, A6, A7) const>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3, A4, A5, A6, A7) const;
explicit BOOST_MEM_FN_NAME(cmf7)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf7)<R, T, A1, A2, A3, A4, A5, A6, A7, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8> struct BOOST_MEM_FN_NAME(mf8): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf8)<R, T, A1, A2, A3, A4, A5, A6, A7, A8, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3, A4, A5, A6, A7, A8)>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3, A4, A5, A6, A7, A8);
explicit BOOST_MEM_FN_NAME(mf8)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(mf8)<R, T, A1, A2, A3, A4, A5, A6, A7, A8, F>(f) {}
};
template<class R, class T, class A1, class A2, class A3, class A4, class A5, class A6, class A7, class A8> struct BOOST_MEM_FN_NAME(cmf8): public mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf8)<R, T, A1, A2, A3, A4, A5, A6, A7, A8, R (BOOST_MEM_FN_CC T::*) (A1, A2, A3, A4, A5, A6, A7, A8) const>
{
typedef R (BOOST_MEM_FN_CC T::*F) (A1, A2, A3, A4, A5, A6, A7, A8) const;
explicit BOOST_MEM_FN_NAME(cmf8)(F f): mf<R>::BOOST_NESTED_TEMPLATE BOOST_MEM_FN_NAME2(cmf8)<R, T, A1, A2, A3, A4, A5, A6, A7, A8, F>(f) {}
};

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_ASSERT_DWA2006430_HPP
# define BOOST_CONCEPT_ASSERT_DWA2006430_HPP
# include <boost/config.hpp>
# include <boost/detail/workaround.hpp>
// The old protocol used a constraints() member function in concept
// checking classes. If the compiler supports SFINAE, we can detect
// that function and seamlessly support the old concept checking
// classes. In this release, backward compatibility with the old
// concept checking classes is enabled by default, where available.
// The old protocol is deprecated, though, and backward compatibility
// will no longer be the default in the next release.
# if !defined(BOOST_NO_OLD_CONCEPT_SUPPORT) \
&& !defined(BOOST_NO_SFINAE) \
\
&& !(BOOST_WORKAROUND(__GNUC__, == 3) && BOOST_WORKAROUND(__GNUC_MINOR__, < 4)) \
&& !(BOOST_WORKAROUND(__GNUC__, == 2))
// Note: gcc-2.96 through 3.3.x have some SFINAE, but no ability to
// check for the presence of particularmember functions.
# define BOOST_OLD_CONCEPT_SUPPORT
# endif
# ifdef BOOST_MSVC
# include <boost/concept/detail/msvc.hpp>
# elif BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x564))
# include <boost/concept/detail/borland.hpp>
# else
# include <boost/concept/detail/general.hpp>
# endif
// Usage, in class or function context:
//
// BOOST_CONCEPT_ASSERT((UnaryFunctionConcept<F,bool,int>));
//
# define BOOST_CONCEPT_ASSERT(ModelInParens) \
BOOST_CONCEPT_ASSERT_FN(void(*)ModelInParens)
#endif // BOOST_CONCEPT_ASSERT_DWA2006430_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_DETAIL_BORLAND_DWA2006429_HPP
# define BOOST_CONCEPT_DETAIL_BORLAND_DWA2006429_HPP
# include <boost/preprocessor/cat.hpp>
namespace boost { namespace concept {
template <class ModelFnPtr>
struct require;
template <class Model>
struct require<void(*)(Model)>
{
enum { instantiate = sizeof((((Model*)0)->~Model()), 3) };
};
# define BOOST_CONCEPT_ASSERT_FN( ModelFnPtr ) \
enum \
{ \
BOOST_PP_CAT(boost_concept_check,__LINE__) = \
boost::concept::require<ModelFnPtr>::instantiate \
}
}} // namespace boost::concept
#endif // BOOST_CONCEPT_DETAIL_BORLAND_DWA2006429_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_DETAIL_CONCEPT_DEF_DWA200651_HPP
# define BOOST_CONCEPT_DETAIL_CONCEPT_DEF_DWA200651_HPP
# include <boost/preprocessor/seq/for_each_i.hpp>
# include <boost/preprocessor/seq/enum.hpp>
# include <boost/preprocessor/comma_if.hpp>
# include <boost/preprocessor/cat.hpp>
#endif // BOOST_CONCEPT_DETAIL_CONCEPT_DEF_DWA200651_HPP
// BOOST_concept(SomeName, (p1)(p2)...(pN))
//
// Expands to "template <class p1, class p2, ...class pN> struct SomeName"
//
// Also defines an equivalent SomeNameConcept for backward compatibility.
// Maybe in the next release we can kill off the "Concept" suffix for good.
#if BOOST_WORKAROUND(__GNUC__, <= 3)
# define BOOST_concept(name, params) \
template < BOOST_PP_SEQ_FOR_EACH_I(BOOST_CONCEPT_typename,~,params) > \
struct name; /* forward declaration */ \
\
template < BOOST_PP_SEQ_FOR_EACH_I(BOOST_CONCEPT_typename,~,params) > \
struct BOOST_PP_CAT(name,Concept) \
: name< BOOST_PP_SEQ_ENUM(params) > \
{ \
/* at least 2.96 and 3.4.3 both need this */ \
BOOST_PP_CAT(name,Concept)(); \
}; \
\
template < BOOST_PP_SEQ_FOR_EACH_I(BOOST_CONCEPT_typename,~,params) > \
struct name
#else
# define BOOST_concept(name, params) \
template < BOOST_PP_SEQ_FOR_EACH_I(BOOST_CONCEPT_typename,~,params) > \
struct name; /* forward declaration */ \
\
template < BOOST_PP_SEQ_FOR_EACH_I(BOOST_CONCEPT_typename,~,params) > \
struct BOOST_PP_CAT(name,Concept) \
: name< BOOST_PP_SEQ_ENUM(params) > \
{ \
}; \
\
template < BOOST_PP_SEQ_FOR_EACH_I(BOOST_CONCEPT_typename,~,params) > \
struct name
#endif
// Helper for BOOST_concept, above.
# define BOOST_CONCEPT_typename(r, ignored, index, t) \
BOOST_PP_COMMA_IF(index) typename t

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
# undef BOOST_concept_typename
# undef BOOST_concept

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_DETAIL_GENERAL_DWA2006429_HPP
# define BOOST_CONCEPT_DETAIL_GENERAL_DWA2006429_HPP
# include <boost/preprocessor/cat.hpp>
# ifdef BOOST_OLD_CONCEPT_SUPPORT
# include <boost/concept/detail/has_constraints.hpp>
# include <boost/mpl/if.hpp>
# endif
// This implementation works on Comeau and GCC, all the way back to
// 2.95
namespace boost { namespace concept {
template <class ModelFn>
struct requirement_;
namespace detail
{
template <void(*)()> struct instantiate {};
}
template <class Model>
struct requirement
{
static void failed() { ((Model*)0)->~Model(); }
};
# ifdef BOOST_OLD_CONCEPT_SUPPORT
template <class Model>
struct constraint
{
static void failed() { ((Model*)0)->constraints(); }
};
template <class Model>
struct requirement_<void(*)(Model)>
: mpl::if_<
concept::not_satisfied<Model>
, constraint<Model>
, requirement<Model>
>::type
{};
# else
// For GCC-2.x, these can't have exactly the same name
template <class Model>
struct requirement_<void(*)(Model)>
: requirement<Model>
{};
# endif
# define BOOST_CONCEPT_ASSERT_FN( ModelFnPtr ) \
typedef ::boost::concept::detail::instantiate< \
&::boost::concept::requirement_<ModelFnPtr>::failed> \
BOOST_PP_CAT(boost_concept_check,__LINE__)
}}
#endif // BOOST_CONCEPT_DETAIL_GENERAL_DWA2006429_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_DETAIL_HAS_CONSTRAINTS_DWA2006429_HPP
# define BOOST_CONCEPT_DETAIL_HAS_CONSTRAINTS_DWA2006429_HPP
# include <boost/mpl/bool.hpp>
# include <boost/detail/workaround.hpp>
namespace boost { namespace concept {
namespace detail
{
// Here we implement the metafunction that detects whether a
// constraints metafunction exists
typedef char yes;
typedef char (&no)[2];
template <class Model, void (Model::*)()>
struct wrap_constraints {};
#if BOOST_WORKAROUND(__SUNPRO_CC, <= 0x580)
// Work around the following bogus error in Sun Studio 11, by
// turning off the has_constraints function entirely:
// Error: complex expression not allowed in dependent template
// argument expression
inline no has_constraints_(...);
#else
template <class Model>
inline yes has_constraints_(Model*, wrap_constraints<Model,&Model::constraints>* = 0);
inline no has_constraints_(...);
#endif
}
// This would be called "detail::has_constraints," but it has a strong
// tendency to show up in error messages.
template <class Model>
struct not_satisfied
{
BOOST_STATIC_CONSTANT(
bool
, value = sizeof( detail::has_constraints_((Model*)0) ) == sizeof(detail::yes) );
typedef mpl::bool_<value> type;
};
}} // namespace boost::concept::detail
#endif // BOOST_CONCEPT_DETAIL_HAS_CONSTRAINTS_DWA2006429_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_CHECK_MSVC_DWA2006429_HPP
# define BOOST_CONCEPT_CHECK_MSVC_DWA2006429_HPP
# include <boost/preprocessor/cat.hpp>
# ifdef BOOST_OLD_CONCEPT_SUPPORT
# include <boost/concept/detail/has_constraints.hpp>
# include <boost/mpl/if.hpp>
# endif
namespace boost { namespace concept {
template <class Model>
struct check
{
virtual void failed(Model* x)
{
x->~Model();
}
};
# ifdef BOOST_OLD_CONCEPT_SUPPORT
namespace detail
{
// No need for a virtual function here, since evaluating
// not_satisfied below will have already instantiated the
// constraints() member.
struct constraint {};
}
template <class Model>
struct require
: mpl::if_c<
not_satisfied<Model>::value
, detail::constraint
, check<Model>
>::type
{};
# else
template <class Model>
struct require
: check<Model>
{};
# endif
# if BOOST_WORKAROUND(BOOST_MSVC, == 1310)
//
// The iterator library sees some really strange errors unless we
// do things this way.
//
template <class Model>
struct require<void(*)(Model)>
{
virtual void failed(Model*)
{
require<Model>();
}
};
# define BOOST_CONCEPT_ASSERT_FN( ModelFnPtr ) \
enum \
{ \
BOOST_PP_CAT(boost_concept_check,__LINE__) = \
sizeof(::boost::concept::require<ModelFnPtr>) \
}
# else // Not vc-7.1
template <class Model>
require<Model>
require_(void(*)(Model));
# define BOOST_CONCEPT_ASSERT_FN( ModelFnPtr ) \
enum \
{ \
BOOST_PP_CAT(boost_concept_check,__LINE__) = \
sizeof(::boost::concept::require_((ModelFnPtr)0)) \
}
# endif
}}
#endif // BOOST_CONCEPT_CHECK_MSVC_DWA2006429_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_REQUIRES_DWA2006430_HPP
# define BOOST_CONCEPT_REQUIRES_DWA2006430_HPP
# include <boost/config.hpp>
# include <boost/parameter/aux_/parenthesized_type.hpp>
# include <boost/concept/assert.hpp>
# include <boost/preprocessor/seq/for_each.hpp>
namespace boost {
// Template for use in handwritten assertions
template <class Model, class More>
struct requires_ : More
{
# if BOOST_WORKAROUND(BOOST_MSVC, <= 1300)
typedef typename More::type type;
# endif
BOOST_CONCEPT_ASSERT((Model));
};
// Template for use by macros, where models must be wrapped in parens.
// This isn't in namespace detail to keep extra cruft out of resulting
// error messages.
template <class ModelFn>
struct _requires_
{
enum { value = 0 };
BOOST_CONCEPT_ASSERT_FN(ModelFn);
};
template <int check, class Result>
struct Requires_ : ::boost::parameter::aux::unaryfunptr_arg_type<Result>
{
# if BOOST_WORKAROUND(BOOST_MSVC, <= 1300)
typedef typename ::boost::parameter::aux::unaryfunptr_arg_type<Result>::type type;
# endif
};
# if BOOST_WORKAROUND(BOOST_INTEL_WIN, BOOST_TESTED_AT(1010))
# define BOOST_CONCEPT_REQUIRES_(r,data,t) | (::boost::_requires_<void(*)t>::value)
# else
# define BOOST_CONCEPT_REQUIRES_(r,data,t) + (::boost::_requires_<void(*)t>::value)
# endif
#if defined(NDEBUG) || BOOST_WORKAROUND(BOOST_MSVC, < 1300)
# define BOOST_CONCEPT_REQUIRES(models, result) \
typename ::boost::parameter::aux::unaryfunptr_arg_type<void(*)result>::type
#elif BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x564))
// Same thing as below without the initial typename
# define BOOST_CONCEPT_REQUIRES(models, result) \
::boost::Requires_< \
(0 BOOST_PP_SEQ_FOR_EACH(BOOST_CONCEPT_REQUIRES_, ~, models)), \
::boost::parameter::aux::unaryfunptr_arg_type<void(*)result> \
>::type
#else
// This just ICEs on MSVC6 :(
# define BOOST_CONCEPT_REQUIRES(models, result) \
typename ::boost::Requires_< \
(0 BOOST_PP_SEQ_FOR_EACH(BOOST_CONCEPT_REQUIRES_, ~, models)), \
void(*)result \
>::type
#endif
// C++0x proposed syntax changed. This supports an older usage
#define BOOST_CONCEPT_WHERE(models,result) BOOST_CONCEPT_REQUIRES(models,result)
} // namespace boost::concept_check
#endif // BOOST_CONCEPT_REQUIRES_DWA2006430_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_USAGE_DWA2006919_HPP
# define BOOST_CONCEPT_USAGE_DWA2006919_HPP
# include <boost/concept/assert.hpp>
# include <boost/detail/workaround.hpp>
namespace boost { namespace concept {
# if BOOST_WORKAROUND(__GNUC__, == 2)
# define BOOST_CONCEPT_USAGE(model) ~model()
# else
template <class Model>
struct usage_requirements
{
~usage_requirements() { ((Model*)0)->~Model(); }
};
# if BOOST_WORKAROUND(__GNUC__, <= 3)
# define BOOST_CONCEPT_USAGE(model) \
model(); /* at least 2.96 and 3.4.3 both need this :( */ \
BOOST_CONCEPT_ASSERT((boost::concept::usage_requirements<model>)); \
~model()
# else
# define BOOST_CONCEPT_USAGE(model) \
BOOST_CONCEPT_ASSERT((boost::concept::usage_requirements<model>)); \
~model()
# endif
# endif
}} // namespace boost::concept
#endif // BOOST_CONCEPT_USAGE_DWA2006919_HPP

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//
// (C) Copyright Jeremy Siek 2000.
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// Revision History:
// 05 May 2001: Workarounds for HP aCC from Thomas Matelich. (Jeremy Siek)
// 02 April 2001: Removed limits header altogether. (Jeremy Siek)
// 01 April 2001: Modified to use new <boost/limits.hpp> header. (JMaddock)
//
// See http://www.boost.org/libs/concept_check for documentation.
#ifndef BOOST_CONCEPT_CHECKS_HPP
# define BOOST_CONCEPT_CHECKS_HPP
# include <boost/concept/assert.hpp>
# include <boost/iterator.hpp>
# include <boost/type_traits/conversion_traits.hpp>
# include <utility>
# include <boost/type_traits/is_same.hpp>
# include <boost/type_traits/is_void.hpp>
# include <boost/mpl/assert.hpp>
# include <boost/mpl/bool.hpp>
# include <boost/detail/workaround.hpp>
# include <boost/detail/iterator.hpp>
# include <boost/concept/usage.hpp>
# include <boost/concept/detail/concept_def.hpp>
namespace boost
{
//
// Backward compatibility
//
template <class Model>
inline void function_requires(Model* = 0)
{
BOOST_CONCEPT_ASSERT((Model));
}
template <class T> inline void ignore_unused_variable_warning(T const&) {}
# define BOOST_CLASS_REQUIRE(type_var, ns, concept) \
BOOST_CONCEPT_ASSERT((ns::concept<type_var>))
# define BOOST_CLASS_REQUIRE2(type_var1, type_var2, ns, concept) \
BOOST_CONCEPT_ASSERT((ns::concept<type_var1,type_var2>))
# define BOOST_CLASS_REQUIRE3(tv1, tv2, tv3, ns, concept) \
BOOST_CONCEPT_ASSERT((ns::concept<tv1,tv2,tv3>))
# define BOOST_CLASS_REQUIRE4(tv1, tv2, tv3, tv4, ns, concept) \
BOOST_CONCEPT_ASSERT((ns::concept<tv1,tv2,tv3,tv4>))
//
// Begin concept definitions
//
BOOST_concept(Integer, (T))
{
BOOST_CONCEPT_USAGE(Integer)
{
x.error_type_must_be_an_integer_type();
}
private:
T x;
};
template <> struct Integer<signed char> {};
template <> struct Integer<unsigned char> {};
template <> struct Integer<short> {};
template <> struct Integer<unsigned short> {};
template <> struct Integer<int> {};
template <> struct Integer<unsigned int> {};
template <> struct Integer<long> {};
template <> struct Integer<unsigned long> {};
# if defined(BOOST_HAS_LONG_LONG)
template <> struct Integer< ::boost::long_long_type> {};
template <> struct Integer< ::boost::ulong_long_type> {};
# elif defined(BOOST_HAS_MS_INT64)
template <> struct Integer<__int64> {};
template <> struct Integer<unsigned __int64> {};
# endif
BOOST_concept(SignedInteger,(T)) {
BOOST_CONCEPT_USAGE(SignedInteger) {
x.error_type_must_be_a_signed_integer_type();
}
private:
T x;
};
template <> struct SignedInteger<signed char> { };
template <> struct SignedInteger<short> {};
template <> struct SignedInteger<int> {};
template <> struct SignedInteger<long> {};
# if defined(BOOST_HAS_LONG_LONG)
template <> struct SignedInteger< ::boost::long_long_type> {};
# elif defined(BOOST_HAS_MS_INT64)
template <> struct SignedInteger<__int64> {};
# endif
BOOST_concept(UnsignedInteger,(T)) {
BOOST_CONCEPT_USAGE(UnsignedInteger) {
x.error_type_must_be_an_unsigned_integer_type();
}
private:
T x;
};
template <> struct UnsignedInteger<unsigned char> {};
template <> struct UnsignedInteger<unsigned short> {};
template <> struct UnsignedInteger<unsigned int> {};
template <> struct UnsignedInteger<unsigned long> {};
# if defined(BOOST_HAS_LONG_LONG)
template <> struct UnsignedInteger< ::boost::ulong_long_type> {};
# elif defined(BOOST_HAS_MS_INT64)
template <> struct UnsignedInteger<unsigned __int64> {};
# endif
//===========================================================================
// Basic Concepts
BOOST_concept(DefaultConstructible,(TT))
{
BOOST_CONCEPT_USAGE(DefaultConstructible) {
TT a; // require default constructor
ignore_unused_variable_warning(a);
}
};
BOOST_concept(Assignable,(TT))
{
BOOST_CONCEPT_USAGE(Assignable) {
#if !defined(_ITERATOR_) // back_insert_iterator broken for VC++ STL
a = a; // require assignment operator
#endif
const_constraints(a);
}
private:
void const_constraints(const TT& b) {
#if !defined(_ITERATOR_) // back_insert_iterator broken for VC++ STL
a = b; // const required for argument to assignment
#else
ignore_unused_variable_warning(b);
#endif
}
private:
TT a;
};
BOOST_concept(CopyConstructible,(TT))
{
BOOST_CONCEPT_USAGE(CopyConstructible) {
TT a(b); // require copy constructor
TT* ptr = &a; // require address of operator
const_constraints(a);
ignore_unused_variable_warning(ptr);
}
private:
void const_constraints(const TT& a) {
TT c(a); // require const copy constructor
const TT* ptr = &a; // require const address of operator
ignore_unused_variable_warning(c);
ignore_unused_variable_warning(ptr);
}
TT b;
};
#if (defined _MSC_VER)
# pragma warning( push )
# pragma warning( disable : 4510 ) // default constructor could not be generated
# pragma warning( disable : 4610 ) // object 'class' can never be instantiated - user-defined constructor required
#endif
// The SGI STL version of Assignable requires copy constructor and operator=
BOOST_concept(SGIAssignable,(TT))
{
BOOST_CONCEPT_USAGE(SGIAssignable) {
TT b(a);
#if !defined(_ITERATOR_) // back_insert_iterator broken for VC++ STL
a = a; // require assignment operator
#endif
const_constraints(a);
ignore_unused_variable_warning(b);
}
private:
void const_constraints(const TT& b) {
TT c(b);
#if !defined(_ITERATOR_) // back_insert_iterator broken for VC++ STL
a = b; // const required for argument to assignment
#endif
ignore_unused_variable_warning(c);
}
TT a;
};
#if (defined _MSC_VER)
# pragma warning( pop )
#endif
BOOST_concept(Convertible,(X)(Y))
{
BOOST_CONCEPT_USAGE(Convertible) {
Y y = x;
ignore_unused_variable_warning(y);
}
private:
X x;
};
// The C++ standard requirements for many concepts talk about return
// types that must be "convertible to bool". The problem with this
// requirement is that it leaves the door open for evil proxies that
// define things like operator|| with strange return types. Two
// possible solutions are:
// 1) require the return type to be exactly bool
// 2) stay with convertible to bool, and also
// specify stuff about all the logical operators.
// For now we just test for convertible to bool.
template <class TT>
void require_boolean_expr(const TT& t) {
bool x = t;
ignore_unused_variable_warning(x);
}
BOOST_concept(EqualityComparable,(TT))
{
BOOST_CONCEPT_USAGE(EqualityComparable) {
require_boolean_expr(a == b);
require_boolean_expr(a != b);
}
private:
TT a, b;
};
BOOST_concept(LessThanComparable,(TT))
{
BOOST_CONCEPT_USAGE(LessThanComparable) {
require_boolean_expr(a < b);
}
private:
TT a, b;
};
// This is equivalent to SGI STL's LessThanComparable.
BOOST_concept(Comparable,(TT))
{
BOOST_CONCEPT_USAGE(Comparable) {
require_boolean_expr(a < b);
require_boolean_expr(a > b);
require_boolean_expr(a <= b);
require_boolean_expr(a >= b);
}
private:
TT a, b;
};
#define BOOST_DEFINE_BINARY_PREDICATE_OP_CONSTRAINT(OP,NAME) \
BOOST_concept(NAME, (First)(Second)) \
{ \
BOOST_CONCEPT_USAGE(NAME) { (void)constraints_(); } \
private: \
bool constraints_() { return a OP b; } \
First a; \
Second b; \
}
#define BOOST_DEFINE_BINARY_OPERATOR_CONSTRAINT(OP,NAME) \
BOOST_concept(NAME, (Ret)(First)(Second)) \
{ \
BOOST_CONCEPT_USAGE(NAME) { (void)constraints_(); } \
private: \
Ret constraints_() { return a OP b; } \
First a; \
Second b; \
}
BOOST_DEFINE_BINARY_PREDICATE_OP_CONSTRAINT(==, EqualOp);
BOOST_DEFINE_BINARY_PREDICATE_OP_CONSTRAINT(!=, NotEqualOp);
BOOST_DEFINE_BINARY_PREDICATE_OP_CONSTRAINT(<, LessThanOp);
BOOST_DEFINE_BINARY_PREDICATE_OP_CONSTRAINT(<=, LessEqualOp);
BOOST_DEFINE_BINARY_PREDICATE_OP_CONSTRAINT(>, GreaterThanOp);
BOOST_DEFINE_BINARY_PREDICATE_OP_CONSTRAINT(>=, GreaterEqualOp);
BOOST_DEFINE_BINARY_OPERATOR_CONSTRAINT(+, PlusOp);
BOOST_DEFINE_BINARY_OPERATOR_CONSTRAINT(*, TimesOp);
BOOST_DEFINE_BINARY_OPERATOR_CONSTRAINT(/, DivideOp);
BOOST_DEFINE_BINARY_OPERATOR_CONSTRAINT(-, SubtractOp);
BOOST_DEFINE_BINARY_OPERATOR_CONSTRAINT(%, ModOp);
//===========================================================================
// Function Object Concepts
BOOST_concept(Generator,(Func)(Return))
{
BOOST_CONCEPT_USAGE(Generator) { test(is_void<Return>()); }
private:
void test(boost::mpl::false_)
{
// Do we really want a reference here?
const Return& r = f();
ignore_unused_variable_warning(r);
}
void test(boost::mpl::true_)
{
f();
}
Func f;
};
BOOST_concept(UnaryFunction,(Func)(Return)(Arg))
{
BOOST_CONCEPT_USAGE(UnaryFunction) { test(is_void<Return>()); }
private:
void test(boost::mpl::false_)
{
f(arg); // "priming the pump" this way keeps msvc6 happy (ICE)
Return r = f(arg);
ignore_unused_variable_warning(r);
}
void test(boost::mpl::true_)
{
f(arg);
}
Func f;
Arg arg;
};
BOOST_concept(BinaryFunction,(Func)(Return)(First)(Second))
{
BOOST_CONCEPT_USAGE(BinaryFunction) { test(is_void<Return>()); }
private:
void test(boost::mpl::false_)
{
f(first,second);
Return r = f(first, second); // require operator()
(void)r;
}
void test(boost::mpl::true_)
{
f(first,second);
}
Func f;
First first;
Second second;
};
BOOST_concept(UnaryPredicate,(Func)(Arg))
{
BOOST_CONCEPT_USAGE(UnaryPredicate) {
require_boolean_expr(f(arg)); // require operator() returning bool
}
private:
Func f;
Arg arg;
};
BOOST_concept(BinaryPredicate,(Func)(First)(Second))
{
BOOST_CONCEPT_USAGE(BinaryPredicate) {
require_boolean_expr(f(a, b)); // require operator() returning bool
}
private:
Func f;
First a;
Second b;
};
// use this when functor is used inside a container class like std::set
BOOST_concept(Const_BinaryPredicate,(Func)(First)(Second))
: BinaryPredicate<Func, First, Second>
{
BOOST_CONCEPT_USAGE(Const_BinaryPredicate) {
const_constraints(f);
}
private:
void const_constraints(const Func& fun) {
// operator() must be a const member function
require_boolean_expr(fun(a, b));
}
Func f;
First a;
Second b;
};
BOOST_concept(AdaptableGenerator,(Func)(Return))
: Generator<Func, typename Func::result_type>
{
typedef typename Func::result_type result_type;
BOOST_CONCEPT_USAGE(AdaptableGenerator)
{
BOOST_CONCEPT_ASSERT((Convertible<result_type, Return>));
}
};
BOOST_concept(AdaptableUnaryFunction,(Func)(Return)(Arg))
: UnaryFunction<Func, typename Func::result_type, typename Func::argument_type>
{
typedef typename Func::argument_type argument_type;
typedef typename Func::result_type result_type;
~AdaptableUnaryFunction()
{
BOOST_CONCEPT_ASSERT((Convertible<result_type, Return>));
BOOST_CONCEPT_ASSERT((Convertible<Arg, argument_type>));
}
};
BOOST_concept(AdaptableBinaryFunction,(Func)(Return)(First)(Second))
: BinaryFunction<
Func
, typename Func::result_type
, typename Func::first_argument_type
, typename Func::second_argument_type
>
{
typedef typename Func::first_argument_type first_argument_type;
typedef typename Func::second_argument_type second_argument_type;
typedef typename Func::result_type result_type;
~AdaptableBinaryFunction()
{
BOOST_CONCEPT_ASSERT((Convertible<result_type, Return>));
BOOST_CONCEPT_ASSERT((Convertible<First, first_argument_type>));
BOOST_CONCEPT_ASSERT((Convertible<Second, second_argument_type>));
}
};
BOOST_concept(AdaptablePredicate,(Func)(Arg))
: UnaryPredicate<Func, Arg>
, AdaptableUnaryFunction<Func, bool, Arg>
{
};
BOOST_concept(AdaptableBinaryPredicate,(Func)(First)(Second))
: BinaryPredicate<Func, First, Second>
, AdaptableBinaryFunction<Func, bool, First, Second>
{
};
//===========================================================================
// Iterator Concepts
BOOST_concept(InputIterator,(TT))
: Assignable<TT>
, EqualityComparable<TT>
{
typedef typename boost::detail::iterator_traits<TT>::value_type value_type;
typedef typename boost::detail::iterator_traits<TT>::difference_type difference_type;
typedef typename boost::detail::iterator_traits<TT>::reference reference;
typedef typename boost::detail::iterator_traits<TT>::pointer pointer;
typedef typename boost::detail::iterator_traits<TT>::iterator_category iterator_category;
BOOST_CONCEPT_USAGE(InputIterator)
{
BOOST_CONCEPT_ASSERT((SignedInteger<difference_type>));
BOOST_CONCEPT_ASSERT((Convertible<iterator_category, std::input_iterator_tag>));
TT j(i);
(void)*i; // require dereference operator
++j; // require preincrement operator
i++; // require postincrement operator
}
private:
TT i;
};
BOOST_concept(OutputIterator,(TT)(ValueT))
: Assignable<TT>
{
BOOST_CONCEPT_USAGE(OutputIterator) {
++i; // require preincrement operator
i++; // require postincrement operator
*i++ = t; // require postincrement and assignment
}
private:
TT i, j;
ValueT t;
};
BOOST_concept(ForwardIterator,(TT))
: InputIterator<TT>
{
BOOST_CONCEPT_USAGE(ForwardIterator)
{
BOOST_CONCEPT_ASSERT((Convertible<
BOOST_DEDUCED_TYPENAME ForwardIterator::iterator_category
, std::forward_iterator_tag
>));
typename InputIterator<TT>::reference r = *i;
ignore_unused_variable_warning(r);
}
private:
TT i;
};
BOOST_concept(Mutable_ForwardIterator,(TT))
: ForwardIterator<TT>
{
BOOST_CONCEPT_USAGE(Mutable_ForwardIterator) {
*i++ = *i; // require postincrement and assignment
}
private:
TT i;
};
BOOST_concept(BidirectionalIterator,(TT))
: ForwardIterator<TT>
{
BOOST_CONCEPT_USAGE(BidirectionalIterator)
{
BOOST_CONCEPT_ASSERT((Convertible<
BOOST_DEDUCED_TYPENAME BidirectionalIterator::iterator_category
, std::bidirectional_iterator_tag
>));
--i; // require predecrement operator
i--; // require postdecrement operator
}
private:
TT i;
};
BOOST_concept(Mutable_BidirectionalIterator,(TT))
: BidirectionalIterator<TT>
, Mutable_ForwardIterator<TT>
{
BOOST_CONCEPT_USAGE(Mutable_BidirectionalIterator)
{
*i-- = *i; // require postdecrement and assignment
}
private:
TT i;
};
BOOST_concept(RandomAccessIterator,(TT))
: BidirectionalIterator<TT>
, Comparable<TT>
{
BOOST_CONCEPT_USAGE(RandomAccessIterator)
{
BOOST_CONCEPT_ASSERT((Convertible<
BOOST_DEDUCED_TYPENAME BidirectionalIterator<TT>::iterator_category
, std::random_access_iterator_tag
>));
i += n; // require assignment addition operator
i = i + n; i = n + i; // require addition with difference type
i -= n; // require assignment subtraction operator
i = i - n; // require subtraction with difference type
n = i - j; // require difference operator
(void)i[n]; // require element access operator
}
private:
TT a, b;
TT i, j;
typename boost::detail::iterator_traits<TT>::difference_type n;
};
BOOST_concept(Mutable_RandomAccessIterator,(TT))
: RandomAccessIterator<TT>
, Mutable_BidirectionalIterator<TT>
{
BOOST_CONCEPT_USAGE(Mutable_RandomAccessIterator)
{
i[n] = *i; // require element access and assignment
}
private:
TT i;
typename boost::detail::iterator_traits<TT>::difference_type n;
};
//===========================================================================
// Container s
BOOST_concept(Container,(C))
: Assignable<C>
{
typedef typename C::value_type value_type;
typedef typename C::difference_type difference_type;
typedef typename C::size_type size_type;
typedef typename C::const_reference const_reference;
typedef typename C::const_pointer const_pointer;
typedef typename C::const_iterator const_iterator;
BOOST_CONCEPT_USAGE(Container)
{
BOOST_CONCEPT_ASSERT((InputIterator<const_iterator>));
const_constraints(c);
}
private:
void const_constraints(const C& cc) {
i = cc.begin();
i = cc.end();
n = cc.size();
n = cc.max_size();
b = cc.empty();
}
C c;
bool b;
const_iterator i;
size_type n;
};
BOOST_concept(Mutable_Container,(C))
: Container<C>
{
typedef typename C::reference reference;
typedef typename C::iterator iterator;
typedef typename C::pointer pointer;
BOOST_CONCEPT_USAGE(Mutable_Container)
{
BOOST_CONCEPT_ASSERT((
Assignable<typename Mutable_Container::value_type>));
BOOST_CONCEPT_ASSERT((InputIterator<iterator>));
i = c.begin();
i = c.end();
c.swap(c2);
}
private:
iterator i;
C c, c2;
};
BOOST_concept(ForwardContainer,(C))
: Container<C>
{
BOOST_CONCEPT_USAGE(ForwardContainer)
{
BOOST_CONCEPT_ASSERT((
ForwardIterator<
typename ForwardContainer::const_iterator
>));
}
};
BOOST_concept(Mutable_ForwardContainer,(C))
: ForwardContainer<C>
, Mutable_Container<C>
{
BOOST_CONCEPT_USAGE(Mutable_ForwardContainer)
{
BOOST_CONCEPT_ASSERT((
Mutable_ForwardIterator<
typename Mutable_ForwardContainer::iterator
>));
}
};
BOOST_concept(ReversibleContainer,(C))
: ForwardContainer<C>
{
typedef typename
C::const_reverse_iterator
const_reverse_iterator;
BOOST_CONCEPT_USAGE(ReversibleContainer)
{
BOOST_CONCEPT_ASSERT((
BidirectionalIterator<
typename ReversibleContainer::const_iterator>));
BOOST_CONCEPT_ASSERT((BidirectionalIterator<const_reverse_iterator>));
const_constraints(c);
}
private:
void const_constraints(const C& cc)
{
const_reverse_iterator i = cc.rbegin();
i = cc.rend();
}
C c;
};
BOOST_concept(Mutable_ReversibleContainer,(C))
: Mutable_ForwardContainer<C>
, ReversibleContainer<C>
{
typedef typename C::reverse_iterator reverse_iterator;
BOOST_CONCEPT_USAGE(Mutable_ReversibleContainer)
{
typedef typename Mutable_ForwardContainer<C>::iterator iterator;
BOOST_CONCEPT_ASSERT((Mutable_BidirectionalIterator<iterator>));
BOOST_CONCEPT_ASSERT((Mutable_BidirectionalIterator<reverse_iterator>));
reverse_iterator i = c.rbegin();
i = c.rend();
}
private:
C c;
};
BOOST_concept(RandomAccessContainer,(C))
: ReversibleContainer<C>
{
typedef typename C::size_type size_type;
typedef typename C::const_reference const_reference;
BOOST_CONCEPT_USAGE(RandomAccessContainer)
{
BOOST_CONCEPT_ASSERT((
RandomAccessIterator<
typename RandomAccessContainer::const_iterator
>));
const_constraints(c);
}
private:
void const_constraints(const C& cc)
{
const_reference r = cc[n];
ignore_unused_variable_warning(r);
}
C c;
size_type n;
};
BOOST_concept(Mutable_RandomAccessContainer,(C))
: Mutable_ReversibleContainer<C>
, RandomAccessContainer<C>
{
private:
typedef Mutable_RandomAccessContainer self;
public:
BOOST_CONCEPT_USAGE(Mutable_RandomAccessContainer)
{
BOOST_CONCEPT_ASSERT((Mutable_RandomAccessIterator<typename self::iterator>));
BOOST_CONCEPT_ASSERT((Mutable_RandomAccessIterator<typename self::reverse_iterator>));
typename self::reference r = c[i];
ignore_unused_variable_warning(r);
}
private:
typename Mutable_ReversibleContainer<C>::size_type i;
C c;
};
// A Sequence is inherently mutable
BOOST_concept(Sequence,(S))
: Mutable_ForwardContainer<S>
// Matt Austern's book puts DefaultConstructible here, the C++
// standard places it in Container --JGS
// ... so why aren't we following the standard? --DWA
, DefaultConstructible<S>
{
BOOST_CONCEPT_USAGE(Sequence)
{
S
c(n),
c2(n, t),
c3(first, last);
c.insert(p, t);
c.insert(p, n, t);
c.insert(p, first, last);
c.erase(p);
c.erase(p, q);
typename Sequence::reference r = c.front();
ignore_unused_variable_warning(c);
ignore_unused_variable_warning(c2);
ignore_unused_variable_warning(c3);
ignore_unused_variable_warning(r);
const_constraints(c);
}
private:
void const_constraints(const S& c) {
typename Sequence::const_reference r = c.front();
ignore_unused_variable_warning(r);
}
typename S::value_type t;
typename S::size_type n;
typename S::value_type* first, *last;
typename S::iterator p, q;
};
BOOST_concept(FrontInsertionSequence,(S))
: Sequence<S>
{
BOOST_CONCEPT_USAGE(FrontInsertionSequence)
{
c.push_front(t);
c.pop_front();
}
private:
S c;
typename S::value_type t;
};
BOOST_concept(BackInsertionSequence,(S))
: Sequence<S>
{
BOOST_CONCEPT_USAGE(BackInsertionSequence)
{
c.push_back(t);
c.pop_back();
typename BackInsertionSequence::reference r = c.back();
ignore_unused_variable_warning(r);
const_constraints(c);
}
private:
void const_constraints(const S& cc) {
typename BackInsertionSequence::const_reference
r = cc.back();
ignore_unused_variable_warning(r);
};
S c;
typename S::value_type t;
};
BOOST_concept(AssociativeContainer,(C))
: ForwardContainer<C>
, DefaultConstructible<C>
{
typedef typename C::key_type key_type;
typedef typename C::key_compare key_compare;
typedef typename C::value_compare value_compare;
typedef typename C::iterator iterator;
BOOST_CONCEPT_USAGE(AssociativeContainer)
{
i = c.find(k);
r = c.equal_range(k);
c.erase(k);
c.erase(i);
c.erase(r.first, r.second);
const_constraints(c);
BOOST_CONCEPT_ASSERT((BinaryPredicate<key_compare,key_type,key_type>));
typedef typename AssociativeContainer::value_type value_type_;
BOOST_CONCEPT_ASSERT((BinaryPredicate<value_compare,value_type_,value_type_>));
}
// Redundant with the base concept, but it helps below.
typedef typename C::const_iterator const_iterator;
private:
void const_constraints(const C& cc)
{
ci = cc.find(k);
n = cc.count(k);
cr = cc.equal_range(k);
}
C c;
iterator i;
std::pair<iterator,iterator> r;
const_iterator ci;
std::pair<const_iterator,const_iterator> cr;
typename C::key_type k;
typename C::size_type n;
};
BOOST_concept(UniqueAssociativeContainer,(C))
: AssociativeContainer<C>
{
BOOST_CONCEPT_USAGE(UniqueAssociativeContainer)
{
C c(first, last);
pos_flag = c.insert(t);
c.insert(first, last);
ignore_unused_variable_warning(c);
}
private:
std::pair<typename C::iterator, bool> pos_flag;
typename C::value_type t;
typename C::value_type* first, *last;
};
BOOST_concept(MultipleAssociativeContainer,(C))
: AssociativeContainer<C>
{
BOOST_CONCEPT_USAGE(MultipleAssociativeContainer)
{
C c(first, last);
pos = c.insert(t);
c.insert(first, last);
ignore_unused_variable_warning(c);
ignore_unused_variable_warning(pos);
}
private:
typename C::iterator pos;
typename C::value_type t;
typename C::value_type* first, *last;
};
BOOST_concept(SimpleAssociativeContainer,(C))
: AssociativeContainer<C>
{
BOOST_CONCEPT_USAGE(SimpleAssociativeContainer)
{
typedef typename C::key_type key_type;
typedef typename C::value_type value_type;
BOOST_MPL_ASSERT((boost::is_same<key_type,value_type>));
}
};
BOOST_concept(PairAssociativeContainer,(C))
: AssociativeContainer<C>
{
BOOST_CONCEPT_USAGE(PairAssociativeContainer)
{
typedef typename C::key_type key_type;
typedef typename C::value_type value_type;
typedef typename C::mapped_type mapped_type;
typedef std::pair<const key_type, mapped_type> required_value_type;
BOOST_MPL_ASSERT((boost::is_same<value_type,required_value_type>));
}
};
BOOST_concept(SortedAssociativeContainer,(C))
: AssociativeContainer<C>
, ReversibleContainer<C>
{
BOOST_CONCEPT_USAGE(SortedAssociativeContainer)
{
C
c(kc),
c2(first, last),
c3(first, last, kc);
p = c.upper_bound(k);
p = c.lower_bound(k);
r = c.equal_range(k);
c.insert(p, t);
ignore_unused_variable_warning(c);
ignore_unused_variable_warning(c2);
ignore_unused_variable_warning(c3);
const_constraints(c);
}
void const_constraints(const C& c)
{
kc = c.key_comp();
vc = c.value_comp();
cp = c.upper_bound(k);
cp = c.lower_bound(k);
cr = c.equal_range(k);
}
private:
typename C::key_compare kc;
typename C::value_compare vc;
typename C::value_type t;
typename C::key_type k;
typedef typename C::iterator iterator;
typedef typename C::const_iterator const_iterator;
typedef SortedAssociativeContainer self;
iterator p;
const_iterator cp;
std::pair<typename self::iterator,typename self::iterator> r;
std::pair<typename self::const_iterator,typename self::const_iterator> cr;
typename C::value_type* first, *last;
};
// HashedAssociativeContainer
} // namespace boost
# include <boost/concept/detail/concept_undef.hpp>
#endif // BOOST_CONCEPT_CHECKS_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_CHECK_BORLAND_DWA2006429_HPP
# define BOOST_CONCEPT_CHECK_BORLAND_DWA2006429_HPP
namespace boost {
template <class ModelFn>
struct concept_check;
template <class Model>
struct concept_check<void(*)(Model)>
{
enum { instantiate = sizeof((((Model*)0)->~Model()), 3) };
};
# define BOOST_CONCEPT_ASSERT( ModelInParens ) \
enum { BOOST_PP_CAT(boost_concept_check,__LINE__) = \
boost::concept_check<void(*)ModelInParens>::instantiate \
}
} // namespace boost::concept_checking
#endif // BOOST_CONCEPT_CHECK_BORLAND_DWA2006429_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_CHECK_MSVC_DWA2006429_HPP
# define BOOST_CONCEPT_CHECK_MSVC_DWA2006429_HPP
# ifdef BOOST_OLD_CONCEPT_SUPPORT
# include <boost/concept_check/has_constraints.hpp>
# include <boost/mpl/if.hpp>
# endif
// This implementation works on GCC and Comeau, but has actually been
// fairly carefully tuned to work on GCC versions starting with
// gcc-2.95.x. If you're trying to get an additional compiler to pass
// the tests you might consider breaking out a separate gcc.hpp and
// starting over on the general case.
namespace boost
{
namespace concept_checking
{
template <void(*)()> struct instantiate {};
}
template <class ModelFn> struct concept_check_;
template <class Model>
void concept_check_failed()
{
((Model*)0)->~Model();
}
template <class Model>
struct concept_check
{
concept_checking::instantiate<concept_check_failed<Model> > x;
enum { instantiate = 1 };
};
# ifdef BOOST_OLD_CONCEPT_SUPPORT
template <class Model>
void constraint_check_failed()
{
((Model*)0)->constraints();
}
template <class Model>
struct constraint_check
{
concept_checking::instantiate<constraint_check_failed<Model> > x;
enum { instantiate = 1 };
};
template <class Model>
struct concept_check_<void(*)(Model)>
: mpl::if_c<
concept_checking::has_constraints<Model>::value
, constraint_check<Model>
, concept_check<Model>
>::type
{};
# else
template <class Model>
struct concept_check_<void(*)(Model)>
: concept_check<Model>
{};
# endif
// Usage, in class or function context:
//
// BOOST_CONCEPT_ASSERT((UnaryFunctionConcept<F,bool,int>));
# define BOOST_CONCEPT_ASSERT( ModelInParens ) \
enum { BOOST_PP_CAT(boost_concept_check,__LINE__) = \
::boost::concept_check_<void(*) ModelInParens>::instantiate \
}
}
#endif // BOOST_CONCEPT_CHECK_MSVC_DWA2006429_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_CHECK_HAS_CONSTRAINTS_DWA2006429_HPP
# define BOOST_CONCEPT_CHECK_HAS_CONSTRAINTS_DWA2006429_HPP
namespace boost { namespace concept_checking {
// Here we implement the "metafunction" that detects whether a
// constraints metafunction exists
typedef char yes;
typedef char (&no)[2];
template <class Model, void (Model::*)()>
struct wrap_constraints {};
template <class Model>
inline yes has_constraints_(Model*, wrap_constraints<Model,&Model::constraints>* = 0);
inline no has_constraints_(...);
template <class Model>
struct has_constraints
{
BOOST_STATIC_CONSTANT(
bool
, value = sizeof( concept_checking::has_constraints_((Model*)0) ) == 1 );
};
}} // namespace boost::concept_checking
#endif // BOOST_CONCEPT_CHECK_HAS_CONSTRAINTS_DWA2006429_HPP

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_CHECK_MSVC_DWA2006429_HPP
# define BOOST_CONCEPT_CHECK_MSVC_DWA2006429_HPP
# ifdef BOOST_OLD_CONCEPT_SUPPORT
# include <boost/concept_check/has_constraints.hpp>
# include <boost/mpl/if.hpp>
# endif
namespace boost
{
namespace concept_checking
{
template <class Model>
struct concept_check_
{
virtual void failed(Model* x)
{
x->~Model();
}
};
}
# ifdef BOOST_OLD_CONCEPT_SUPPORT
namespace concept_checking
{
template <class Model>
struct constraint_check
{
virtual void failed(Model* x)
{
x->constraints();
}
};
}
template <class Model>
struct concept_check
: mpl::if_c<
concept_checking::has_constraints<Model>::value
, concept_checking::constraint_check<Model>
, concept_checking::concept_check_<Model>
>::type
{};
# else
template <class Model>
struct concept_check
: concept_checking::concept_check_<Model>
{};
# endif
# if BOOST_WORKAROUND(BOOST_MSVC, == 1310)
//
// The iterator library sees some really strange errors unless we
// use partial specialization to extract the model type with
// msvc-7.1
//
template <class Model>
struct concept_check<void(*)(Model)>
: concept_check<Model>
{ };
# define BOOST_CONCEPT_ASSERT( ModelInParens ) \
enum { BOOST_PP_CAT(boost_concept_check,__LINE__) = \
sizeof(::boost::concept_check<void(*) ModelInParens>) \
}
# else
template <class Model>
concept_check<Model>
concept_check_(void(*)(Model));
# define BOOST_CONCEPT_ASSERT( ModelInParens ) \
enum { BOOST_PP_CAT(boost_concept_check,__LINE__) = \
sizeof(::boost::concept_check_((void(*) ModelInParens)0)) \
}
# endif
}
#endif // BOOST_CONCEPT_CHECK_MSVC_DWA2006429_HPP

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// (C) Copyright John Maddock 2005.
// Use, modification and distribution are subject to the
// Boost Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// The aim of this header is just to include <functional> but to do
// so in a way that does not result in recursive inclusion of
// the Boost TR1 components if boost/tr1/tr1/functional is in the
// include search path. We have to do this to avoid circular
// dependencies:
//
#ifndef BOOST_CONFIG_FUNCTIONAL
# define BOOST_CONFIG_FUNCTIONAL
# ifndef BOOST_TR1_NO_RECURSION
# define BOOST_TR1_NO_RECURSION
# define BOOST_CONFIG_NO_FUNCTIONAL_RECURSION
# endif
# include <functional>
# ifdef BOOST_CONFIG_NO_FUNCTIONAL_RECURSION
# undef BOOST_TR1_NO_RECURSION
# undef BOOST_CONFIG_NO_FUNCTIONAL_RECURSION
# endif
#endif

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// Copyright David Abrahams 2006. Distributed under the Boost
// Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_CONCEPT_DETAIL_GENERAL_DWA2006429_HPP
# define BOOST_CONCEPT_DETAIL_GENERAL_DWA2006429_HPP
# include <boost/preprocessor/cat.hpp>
# ifdef BOOST_OLD_CONCEPT_SUPPORT
# include <boost/concept/detail/has_constraints.hpp>
# include <boost/mpl/if.hpp>
# endif
// This implementation works on Comeau and GCC, all the way back to
// 2.95
namespace boost { namespace concept {
template <class ModelFn>
struct requirement_;
namespace detail
{
template <void(*)()> struct instantiate {};
}
template <class Model>
struct requirement
{
static void failed() { ((Model*)0)->~Model(); }
};
# ifdef BOOST_OLD_CONCEPT_SUPPORT
template <class Model>
struct constraint
{
static void failed() { ((Model*)0)->constraints(); }
};
template <class Model>
struct requirement_<void(*)(Model)>
: mpl::if_<
concept::not_satisfied<Model>
, constraint<Model>
, requirement<Model>
>::type
{};
# else
// For GCC-2.x, these can't have exactly the same name
template <class Model>
struct requirement_<void(*)(Model)>
: requirement<Model>
{};
# endif
# define BOOST_CONCEPT_ASSERT_FN( ModelFnPtr ) \
typedef ::boost::concept::detail::instantiate< \
&::boost::concept::requirement_<ModelFnPtr>::failed> \
BOOST_PP_CAT(boost_concept_check,__LINE__)
}}
#endif // BOOST_CONCEPT_DETAIL_GENERAL_DWA2006429_HPP

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// boost/filesystem/fstream.hpp --------------------------------------------//
// Copyright Beman Dawes 2002.
// Use, modification, and distribution is subject to the Boost Software
// License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// See library home page at http://www.boost.org/libs/filesystem
//----------------------------------------------------------------------------//
#ifndef BOOST_FILESYSTEM_FSTREAM_HPP
#define BOOST_FILESYSTEM_FSTREAM_HPP
#include <boost/filesystem/operations.hpp> // for 8.3 hack (see below)
#include <boost/utility/enable_if.hpp>
#include <boost/detail/workaround.hpp>
#include <iosfwd>
#include <fstream>
#include <boost/config/abi_prefix.hpp> // must be the last #include
// NOTE: fstream.hpp for Boost 1.32.0 and earlier supplied workarounds for
// various compiler problems. They have been removed to ease development of the
// basic i18n functionality. Once the new interface is stable, the workarounds
// will be reinstated for any compilers that otherwise can support the rest of
// the library after internationalization.
namespace boost
{
namespace filesystem
{
namespace detail
{
# if defined(BOOST_WINDOWS_API) && !defined(BOOST_FILESYSTEM_NARROW_ONLY)
# if !defined(BOOST_DINKUMWARE_STDLIB) || BOOST_DINKUMWARE_STDLIB < 405
// The 8.3 hack:
// C++98 does not supply a wchar_t open, so try to get an equivalent
// narrow char name based on the short, so-called 8.3, name.
// Not needed for Dinkumware 405 and later as they do supply wchar_t open.
BOOST_FILESYSTEM_DECL bool create_file_api( const std::wstring & ph,
std::ios_base::openmode mode ); // true if succeeds
BOOST_FILESYSTEM_DECL std::string narrow_path_api(
const std::wstring & ph ); // return is empty if fails
inline std::string path_proxy( const std::wstring & file_ph,
std::ios_base::openmode mode )
// Return a non-existant path if cannot supply narrow short path.
// An empty path doesn't work because some Dinkumware versions
// assert the path is non-empty.
{
std::string narrow_ph;
bool created_file( false );
if ( !exists( file_ph )
&& (mode & std::ios_base::out) != 0
&& create_file_api( file_ph, mode ) )
{
created_file = true;
}
narrow_ph = narrow_path_api( file_ph );
if ( narrow_ph.empty() )
{
if ( created_file ) remove_api( file_ph );
narrow_ph = "\x01";
}
return narrow_ph;
}
# else
// Dinkumware 405 and later does supply wchar_t functions
inline const std::wstring & path_proxy( const std::wstring & file_ph,
std::ios_base::openmode )
{ return file_ph; }
# endif
# endif
inline const std::string & path_proxy( const std::string & file_ph,
std::ios_base::openmode )
{ return file_ph; }
} // namespace detail
template < class charT, class traits = std::char_traits<charT> >
class basic_filebuf : public std::basic_filebuf<charT,traits>
{
private: // disallow copying
basic_filebuf( const basic_filebuf & );
const basic_filebuf & operator=( const basic_filebuf & );
public:
basic_filebuf() {}
virtual ~basic_filebuf() {}
# ifndef BOOST_FILESYSTEM_NARROW_ONLY
template<class Path>
typename boost::enable_if<is_basic_path<Path>,
basic_filebuf<charT,traits> *>::type
open( const Path & file_ph, std::ios_base::openmode mode );
basic_filebuf<charT,traits> *
open( const wpath & file_ph, std::ios_base::openmode mode );
# endif
# if !BOOST_WORKAROUND( BOOST_MSVC, <= 1200 ) // VC++ 6.0 can't handle this
basic_filebuf<charT,traits> *
open( const path & file_ph, std::ios_base::openmode mode );
# endif
};
template < class charT, class traits = std::char_traits<charT> >
class basic_ifstream : public std::basic_ifstream<charT,traits>
{
private: // disallow copying
basic_ifstream( const basic_ifstream & );
const basic_ifstream & operator=( const basic_ifstream & );
public:
basic_ifstream() {}
// use two signatures, rather than one signature with default second
// argument, to workaround VC++ 7.1 bug (ID VSWhidbey 38416)
# ifndef BOOST_FILESYSTEM_NARROW_ONLY
template<class Path>
explicit basic_ifstream( const Path & file_ph,
typename boost::enable_if<is_basic_path<Path> >::type* dummy = 0 );
template<class Path>
basic_ifstream( const Path & file_ph, std::ios_base::openmode mode,
typename boost::enable_if<is_basic_path<Path> >::type* dummy = 0 );
template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
open( const Path & file_ph );
template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
open( const Path & file_ph, std::ios_base::openmode mode );
explicit basic_ifstream( const wpath & file_ph );
basic_ifstream( const wpath & file_ph, std::ios_base::openmode mode );
void open( const wpath & file_ph );
void open( const wpath & file_ph, std::ios_base::openmode mode );
# endif
explicit basic_ifstream( const path & file_ph );
basic_ifstream( const path & file_ph, std::ios_base::openmode mode );
# if !BOOST_WORKAROUND( BOOST_MSVC, <= 1200 ) // VC++ 6.0 can't handle this
void open( const path & file_ph );
void open( const path & file_ph, std::ios_base::openmode mode );
# endif
virtual ~basic_ifstream() {}
};
template < class charT, class traits = std::char_traits<charT> >
class basic_ofstream : public std::basic_ofstream<charT,traits>
{
private: // disallow copying
basic_ofstream( const basic_ofstream & );
const basic_ofstream & operator=( const basic_ofstream & );
public:
basic_ofstream() {}
// use two signatures, rather than one signature with default second
// argument, to workaround VC++ 7.1 bug (ID VSWhidbey 38416)
# ifndef BOOST_FILESYSTEM_NARROW_ONLY
template<class Path>
explicit basic_ofstream( const Path & file_ph,
typename boost::enable_if<is_basic_path<Path> >::type* dummy = 0 );
explicit basic_ofstream( const wpath & file_ph );
template<class Path>
basic_ofstream( const Path & file_ph, std::ios_base::openmode mode,
typename boost::enable_if<is_basic_path<Path> >::type* dummy = 0 );
basic_ofstream( const wpath & file_ph, std::ios_base::openmode mode );
template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
open( const Path & file_ph );
void open( const wpath & file_ph );
template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
open( const Path & file_ph, std::ios_base::openmode mode );
void open( const wpath & file_ph, std::ios_base::openmode mode );
# endif
explicit basic_ofstream( const path & file_ph );
basic_ofstream( const path & file_ph, std::ios_base::openmode mode );
# if !BOOST_WORKAROUND( BOOST_MSVC, <= 1200 ) // VC++ 6.0 can't handle this
void open( const path & file_ph );
void open( const path & file_ph, std::ios_base::openmode mode );
# endif
virtual ~basic_ofstream() {}
};
template < class charT, class traits = std::char_traits<charT> >
class basic_fstream : public std::basic_fstream<charT,traits>
{
private: // disallow copying
basic_fstream( const basic_fstream & );
const basic_fstream & operator=( const basic_fstream & );
public:
basic_fstream() {}
// use two signatures, rather than one signature with default second
// argument, to workaround VC++ 7.1 bug (ID VSWhidbey 38416)
# ifndef BOOST_FILESYSTEM_NARROW_ONLY
template<class Path>
explicit basic_fstream( const Path & file_ph,
typename boost::enable_if<is_basic_path<Path> >::type* dummy = 0 );
explicit basic_fstream( const wpath & file_ph );
template<class Path>
basic_fstream( const Path & file_ph, std::ios_base::openmode mode,
typename boost::enable_if<is_basic_path<Path> >::type* dummy = 0 );
basic_fstream( const wpath & file_ph, std::ios_base::openmode mode );
template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
open( const Path & file_ph );
void open( const wpath & file_ph );
template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
open( const Path & file_ph, std::ios_base::openmode mode );
void open( const wpath & file_ph, std::ios_base::openmode mode );
# endif
explicit basic_fstream( const path & file_ph );
basic_fstream( const path & file_ph, std::ios_base::openmode mode );
# if !BOOST_WORKAROUND( BOOST_MSVC, <= 1200 ) // VC++ 6.0 can't handle this
void open( const path & file_ph );
void open( const path & file_ph, std::ios_base::openmode mode );
# endif
virtual ~basic_fstream() {}
};
typedef basic_filebuf<char> filebuf;
typedef basic_ifstream<char> ifstream;
typedef basic_ofstream<char> ofstream;
typedef basic_fstream<char> fstream;
# ifndef BOOST_FILESYSTEM_NARROW_ONLY
typedef basic_filebuf<wchar_t> wfilebuf;
typedef basic_ifstream<wchar_t> wifstream;
typedef basic_fstream<wchar_t> wfstream;
typedef basic_ofstream<wchar_t> wofstream;
# endif
# ifndef BOOST_FILESYSTEM_NARROW_ONLY
// basic_filebuf definitions -----------------------------------------------//
template <class charT, class traits>
template<class Path>
typename boost::enable_if<is_basic_path<Path>,
basic_filebuf<charT,traits> *>::type
basic_filebuf<charT,traits>::open( const Path & file_ph,
std::ios_base::openmode mode )
{
return (std::basic_filebuf<charT,traits>::open( detail::path_proxy(
file_ph.external_file_string(), mode ).c_str(), mode )
== 0) ? 0 : this;
}
template <class charT, class traits>
basic_filebuf<charT,traits> *
basic_filebuf<charT, traits>::open( const wpath & file_ph,
std::ios_base::openmode mode )
{
return this->BOOST_NESTED_TEMPLATE open<wpath>( file_ph, mode );
}
// basic_ifstream definitions ----------------------------------------------//
template <class charT, class traits> template<class Path>
basic_ifstream<charT,traits>::basic_ifstream(const Path & file_ph,
typename boost::enable_if<is_basic_path<Path> >::type* )
: std::basic_ifstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::in ).c_str(), std::ios_base::in ) {}
template <class charT, class traits>
basic_ifstream<charT,traits>::basic_ifstream( const wpath & file_ph )
: std::basic_ifstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::in ).c_str(), std::ios_base::in ) {}
template <class charT, class traits> template<class Path>
basic_ifstream<charT,traits>::basic_ifstream( const Path & file_ph,
std::ios_base::openmode mode,
typename boost::enable_if<is_basic_path<Path> >::type* )
: std::basic_ifstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::in ) {}
template <class charT, class traits>
basic_ifstream<charT,traits>::basic_ifstream( const wpath & file_ph,
std::ios_base::openmode mode )
: std::basic_ifstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::in ) {}
template <class charT, class traits> template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
basic_ifstream<charT,traits>::open( const Path & file_ph )
{
std::basic_ifstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::in ).c_str(), std::ios_base::in );
}
template <class charT, class traits>
void basic_ifstream<charT,traits>::open( const wpath & file_ph )
{
std::basic_ifstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::in ).c_str(), std::ios_base::in );
}
template <class charT, class traits> template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
basic_ifstream<charT,traits>::open( const Path & file_ph,
std::ios_base::openmode mode )
{
std::basic_ifstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::in );
}
template <class charT, class traits>
void basic_ifstream<charT,traits>::open( const wpath & file_ph,
std::ios_base::openmode mode )
{
std::basic_ifstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::in );
}
// basic_ofstream definitions ----------------------------------------------//
template <class charT, class traits> template<class Path>
basic_ofstream<charT,traits>::basic_ofstream(const Path & file_ph,
typename boost::enable_if<is_basic_path<Path> >::type* )
: std::basic_ofstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::out ).c_str(), std::ios_base::out ) {}
template <class charT, class traits>
basic_ofstream<charT,traits>::basic_ofstream( const wpath & file_ph )
: std::basic_ofstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::out ).c_str(), std::ios_base::out ) {}
template <class charT, class traits> template<class Path>
basic_ofstream<charT,traits>::basic_ofstream( const Path & file_ph,
std::ios_base::openmode mode,
typename boost::enable_if<is_basic_path<Path> >::type* )
: std::basic_ofstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::out ) {}
template <class charT, class traits>
basic_ofstream<charT,traits>::basic_ofstream( const wpath & file_ph,
std::ios_base::openmode mode )
: std::basic_ofstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::out ) {}
template <class charT, class traits> template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
basic_ofstream<charT,traits>::open( const Path & file_ph )
{
std::basic_ofstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::out ).c_str(), std::ios_base::out );
}
template <class charT, class traits>
void basic_ofstream<charT,traits>::open( const wpath & file_ph )
{
std::basic_ofstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::out ).c_str(), std::ios_base::out );
}
template <class charT, class traits> template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
basic_ofstream<charT,traits>::open( const Path & file_ph,
std::ios_base::openmode mode )
{
std::basic_ofstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::out );
}
template <class charT, class traits>
void basic_ofstream<charT,traits>::open( const wpath & file_ph,
std::ios_base::openmode mode )
{
std::basic_ofstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::out );
}
// basic_fstream definitions -----------------------------------------------//
template <class charT, class traits> template<class Path>
basic_fstream<charT,traits>::basic_fstream(const Path & file_ph,
typename boost::enable_if<is_basic_path<Path> >::type* )
: std::basic_fstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::in|std::ios_base::out ).c_str(),
std::ios_base::in|std::ios_base::out ) {}
template <class charT, class traits>
basic_fstream<charT,traits>::basic_fstream( const wpath & file_ph )
: std::basic_fstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::in|std::ios_base::out ).c_str(),
std::ios_base::in|std::ios_base::out ) {}
template <class charT, class traits> template<class Path>
basic_fstream<charT,traits>::basic_fstream( const Path & file_ph,
std::ios_base::openmode mode,
typename boost::enable_if<is_basic_path<Path> >::type* )
: std::basic_fstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::in | std::ios_base::out ) {}
template <class charT, class traits>
basic_fstream<charT,traits>::basic_fstream( const wpath & file_ph,
std::ios_base::openmode mode )
: std::basic_fstream<charT,traits>(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::in | std::ios_base::out ) {}
template <class charT, class traits> template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
basic_fstream<charT,traits>::open( const Path & file_ph )
{
std::basic_fstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::in|std::ios_base::out ).c_str(),
std::ios_base::in|std::ios_base::out );
}
template <class charT, class traits>
void basic_fstream<charT,traits>::open( const wpath & file_ph )
{
std::basic_fstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
std::ios_base::in|std::ios_base::out ).c_str(),
std::ios_base::in|std::ios_base::out );
}
template <class charT, class traits> template<class Path>
typename boost::enable_if<is_basic_path<Path>, void>::type
basic_fstream<charT,traits>::open( const Path & file_ph,
std::ios_base::openmode mode )
{
std::basic_fstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::in | std::ios_base::out );
}
template <class charT, class traits>
void basic_fstream<charT,traits>::open( const wpath & file_ph,
std::ios_base::openmode mode )
{
std::basic_fstream<charT,traits>::open(
detail::path_proxy( file_ph.external_file_string(),
mode ).c_str(), mode | std::ios_base::in | std::ios_base::out );
}
# endif
# if !BOOST_WORKAROUND( BOOST_MSVC, <= 1200 ) // VC++ 6.0 can't handle this
template <class charT, class traits>
basic_filebuf<charT,traits> *
basic_filebuf<charT, traits>::open( const path & file_ph,
std::ios_base::openmode mode )
{
return std::basic_filebuf<charT,traits>::open(
file_ph.file_string().c_str(), mode ) == 0 ? 0 : this;
}
# endif
template <class charT, class traits>
basic_ifstream<charT,traits>::basic_ifstream( const path & file_ph )
: std::basic_ifstream<charT,traits>(
file_ph.file_string().c_str(), std::ios_base::in ) {}
template <class charT, class traits>
basic_ifstream<charT,traits>::basic_ifstream( const path & file_ph,
std::ios_base::openmode mode )
: std::basic_ifstream<charT,traits>(
file_ph.file_string().c_str(), mode ) {}
# if !BOOST_WORKAROUND( BOOST_MSVC, <= 1200 ) // VC++ 6.0 can't handle this
template <class charT, class traits>
void basic_ifstream<charT,traits>::open( const path & file_ph )
{
std::basic_ifstream<charT,traits>::open(
file_ph.file_string().c_str(), std::ios_base::in );
}
template <class charT, class traits>
void basic_ifstream<charT,traits>::open( const path & file_ph,
std::ios_base::openmode mode )
{
std::basic_ifstream<charT,traits>::open(
file_ph.file_string().c_str(), mode );
}
# endif
template <class charT, class traits>
basic_ofstream<charT,traits>::basic_ofstream( const path & file_ph )
: std::basic_ofstream<charT,traits>(
file_ph.file_string().c_str(), std::ios_base::out ) {}
template <class charT, class traits>
basic_ofstream<charT,traits>::basic_ofstream( const path & file_ph,
std::ios_base::openmode mode )
: std::basic_ofstream<charT,traits>(
file_ph.file_string().c_str(), mode ) {}
# if !BOOST_WORKAROUND( BOOST_MSVC, <= 1200 ) // VC++ 6.0 can't handle this
template <class charT, class traits>
void basic_ofstream<charT,traits>::open( const path & file_ph )
{
std::basic_ofstream<charT,traits>::open(
file_ph.file_string().c_str(), std::ios_base::out );
}
template <class charT, class traits>
void basic_ofstream<charT,traits>::open( const path & file_ph,
std::ios_base::openmode mode )
{
std::basic_ofstream<charT,traits>::open(
file_ph.file_string().c_str(), mode );
}
# endif
template <class charT, class traits>
basic_fstream<charT,traits>::basic_fstream( const path & file_ph )
: std::basic_fstream<charT,traits>(
file_ph.file_string().c_str(),
std::ios_base::in|std::ios_base::out ) {}
template <class charT, class traits>
basic_fstream<charT,traits>::basic_fstream( const path & file_ph,
std::ios_base::openmode mode )
: std::basic_fstream<charT,traits>(
file_ph.file_string().c_str(), mode ) {}
# if !BOOST_WORKAROUND( BOOST_MSVC, <= 1200 ) // VC++ 6.0 can't handle this
template <class charT, class traits>
void basic_fstream<charT,traits>::open( const path & file_ph )
{
std::basic_fstream<charT,traits>::open(
file_ph.file_string().c_str(), std::ios_base::in|std::ios_base::out );
}
template <class charT, class traits>
void basic_fstream<charT,traits>::open( const path & file_ph,
std::ios_base::openmode mode )
{
std::basic_fstream<charT,traits>::open(
file_ph.file_string().c_str(), mode );
}
# endif
} // namespace filesystem
} // namespace boost
#include <boost/config/abi_suffix.hpp> // pops abi_prefix.hpp pragmas
#endif // BOOST_FILESYSTEM_FSTREAM_HPP

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// Boost.Function library
// Copyright Douglas Gregor 2001-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org/libs/function
// William Kempf, Jesse Jones and Karl Nelson were all very helpful in the
// design of this library.
#include <functional> // unary_function, binary_function
#include <boost/preprocessor/iterate.hpp>
#include <boost/detail/workaround.hpp>
#ifndef BOOST_FUNCTION_MAX_ARGS
# define BOOST_FUNCTION_MAX_ARGS 10
#endif // BOOST_FUNCTION_MAX_ARGS
// Include the prologue here so that the use of file-level iteration
// in anything that may be included by function_template.hpp doesn't break
#include <boost/function/detail/prologue.hpp>
// Visual Age C++ doesn't handle the file iteration well
#if BOOST_WORKAROUND(__IBMCPP__, >= 500)
# if BOOST_FUNCTION_MAX_ARGS >= 0
# include <boost/function/function0.hpp>
# endif
# if BOOST_FUNCTION_MAX_ARGS >= 1
# include <boost/function/function1.hpp>
# endif
# if BOOST_FUNCTION_MAX_ARGS >= 2
# include <boost/function/function2.hpp>
# endif
# if BOOST_FUNCTION_MAX_ARGS >= 3
# include <boost/function/function3.hpp>
# endif
# if BOOST_FUNCTION_MAX_ARGS >= 4
# include <boost/function/function4.hpp>
# endif
# if BOOST_FUNCTION_MAX_ARGS >= 5
# include <boost/function/function5.hpp>
# endif
# if BOOST_FUNCTION_MAX_ARGS >= 6
# include <boost/function/function6.hpp>
# endif
# if BOOST_FUNCTION_MAX_ARGS >= 7
# include <boost/function/function7.hpp>
# endif
# if BOOST_FUNCTION_MAX_ARGS >= 8
# include <boost/function/function8.hpp>
# endif
# if BOOST_FUNCTION_MAX_ARGS >= 9
# include <boost/function/function9.hpp>
# endif
# if BOOST_FUNCTION_MAX_ARGS >= 10
# include <boost/function/function10.hpp>
# endif
#else
// What is the '3' for?
# define BOOST_PP_ITERATION_PARAMS_1 (3,(0,BOOST_FUNCTION_MAX_ARGS,<boost/function/detail/function_iterate.hpp>))
# include BOOST_PP_ITERATE()
# undef BOOST_PP_ITERATION_PARAMS_1
#endif

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// Boost.Function library
// Copyright Douglas Gregor 2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#if !defined(BOOST_PP_IS_ITERATING)
# error Boost.Function - do not include this file!
#endif
#define BOOST_FUNCTION_NUM_ARGS BOOST_PP_ITERATION()
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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#!/usr/bin/perl -w
#
# Boost.Function library
#
# Copyright (C) 2001-2003 Douglas Gregor (gregod@cs.rpi.edu)
#
# Permission to copy, use, sell and distribute this software is granted
# provided this copyright notice appears in all copies.
# Permission to modify the code and to distribute modified code is granted
# provided this copyright notice appears in all copies, and a notice
# that the code was modified is included with the copyright notice.
#
# This software is provided "as is" without express or implied warranty,
# and with no claim as to its suitability for any purpose.
#
# For more information, see http://www.boost.org
use English;
$max_args = $ARGV[0];
open (OUT, ">maybe_include.hpp") or die("Cannot write to maybe_include.hpp");
for($on_arg = 0; $on_arg <= $max_args; ++$on_arg) {
if ($on_arg == 0) {
print OUT "#if";
}
else {
print OUT "#elif";
}
print OUT " BOOST_FUNCTION_NUM_ARGS == $on_arg\n";
print OUT "# ifndef BOOST_FUNCTION_$on_arg\n";
print OUT "# define BOOST_FUNCTION_$on_arg\n";
print OUT "# include <boost/function/function_template.hpp>\n";
print OUT "# endif\n";
}
print OUT "#else\n";
print OUT "# error Cannot handle Boost.Function objects that accept more than $max_args arguments!\n";
print OUT "#endif\n";

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// Boost.Function library
// Copyright Douglas Gregor 2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#if BOOST_FUNCTION_NUM_ARGS == 0
# ifndef BOOST_FUNCTION_0
# define BOOST_FUNCTION_0
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 1
# ifndef BOOST_FUNCTION_1
# define BOOST_FUNCTION_1
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 2
# ifndef BOOST_FUNCTION_2
# define BOOST_FUNCTION_2
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 3
# ifndef BOOST_FUNCTION_3
# define BOOST_FUNCTION_3
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 4
# ifndef BOOST_FUNCTION_4
# define BOOST_FUNCTION_4
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 5
# ifndef BOOST_FUNCTION_5
# define BOOST_FUNCTION_5
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 6
# ifndef BOOST_FUNCTION_6
# define BOOST_FUNCTION_6
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 7
# ifndef BOOST_FUNCTION_7
# define BOOST_FUNCTION_7
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 8
# ifndef BOOST_FUNCTION_8
# define BOOST_FUNCTION_8
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 9
# ifndef BOOST_FUNCTION_9
# define BOOST_FUNCTION_9
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 10
# ifndef BOOST_FUNCTION_10
# define BOOST_FUNCTION_10
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 11
# ifndef BOOST_FUNCTION_11
# define BOOST_FUNCTION_11
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 12
# ifndef BOOST_FUNCTION_12
# define BOOST_FUNCTION_12
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 13
# ifndef BOOST_FUNCTION_13
# define BOOST_FUNCTION_13
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 14
# ifndef BOOST_FUNCTION_14
# define BOOST_FUNCTION_14
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 15
# ifndef BOOST_FUNCTION_15
# define BOOST_FUNCTION_15
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 16
# ifndef BOOST_FUNCTION_16
# define BOOST_FUNCTION_16
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 17
# ifndef BOOST_FUNCTION_17
# define BOOST_FUNCTION_17
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 18
# ifndef BOOST_FUNCTION_18
# define BOOST_FUNCTION_18
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 19
# ifndef BOOST_FUNCTION_19
# define BOOST_FUNCTION_19
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 20
# ifndef BOOST_FUNCTION_20
# define BOOST_FUNCTION_20
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 21
# ifndef BOOST_FUNCTION_21
# define BOOST_FUNCTION_21
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 22
# ifndef BOOST_FUNCTION_22
# define BOOST_FUNCTION_22
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 23
# ifndef BOOST_FUNCTION_23
# define BOOST_FUNCTION_23
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 24
# ifndef BOOST_FUNCTION_24
# define BOOST_FUNCTION_24
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 25
# ifndef BOOST_FUNCTION_25
# define BOOST_FUNCTION_25
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 26
# ifndef BOOST_FUNCTION_26
# define BOOST_FUNCTION_26
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 27
# ifndef BOOST_FUNCTION_27
# define BOOST_FUNCTION_27
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 28
# ifndef BOOST_FUNCTION_28
# define BOOST_FUNCTION_28
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 29
# ifndef BOOST_FUNCTION_29
# define BOOST_FUNCTION_29
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 30
# ifndef BOOST_FUNCTION_30
# define BOOST_FUNCTION_30
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 31
# ifndef BOOST_FUNCTION_31
# define BOOST_FUNCTION_31
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 32
# ifndef BOOST_FUNCTION_32
# define BOOST_FUNCTION_32
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 33
# ifndef BOOST_FUNCTION_33
# define BOOST_FUNCTION_33
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 34
# ifndef BOOST_FUNCTION_34
# define BOOST_FUNCTION_34
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 35
# ifndef BOOST_FUNCTION_35
# define BOOST_FUNCTION_35
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 36
# ifndef BOOST_FUNCTION_36
# define BOOST_FUNCTION_36
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 37
# ifndef BOOST_FUNCTION_37
# define BOOST_FUNCTION_37
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 38
# ifndef BOOST_FUNCTION_38
# define BOOST_FUNCTION_38
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 39
# ifndef BOOST_FUNCTION_39
# define BOOST_FUNCTION_39
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 40
# ifndef BOOST_FUNCTION_40
# define BOOST_FUNCTION_40
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 41
# ifndef BOOST_FUNCTION_41
# define BOOST_FUNCTION_41
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 42
# ifndef BOOST_FUNCTION_42
# define BOOST_FUNCTION_42
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 43
# ifndef BOOST_FUNCTION_43
# define BOOST_FUNCTION_43
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 44
# ifndef BOOST_FUNCTION_44
# define BOOST_FUNCTION_44
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 45
# ifndef BOOST_FUNCTION_45
# define BOOST_FUNCTION_45
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 46
# ifndef BOOST_FUNCTION_46
# define BOOST_FUNCTION_46
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 47
# ifndef BOOST_FUNCTION_47
# define BOOST_FUNCTION_47
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 48
# ifndef BOOST_FUNCTION_48
# define BOOST_FUNCTION_48
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 49
# ifndef BOOST_FUNCTION_49
# define BOOST_FUNCTION_49
# include <boost/function/function_template.hpp>
# endif
#elif BOOST_FUNCTION_NUM_ARGS == 50
# ifndef BOOST_FUNCTION_50
# define BOOST_FUNCTION_50
# include <boost/function/function_template.hpp>
# endif
#else
# error Cannot handle Boost.Function objects that accept more than 50 arguments!
#endif

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#ifndef BOOST_FUNCTION_PROLOGUE_HPP
#define BOOST_FUNCTION_PROLOGUE_HPP
# include <cassert>
# include <algorithm>
# include <boost/config/no_tr1/functional.hpp> // unary_function, binary_function
# include <boost/throw_exception.hpp>
# include <boost/config.hpp>
# include <boost/function/function_base.hpp>
# include <boost/mem_fn.hpp>
# include <boost/type_traits/is_integral.hpp>
# include <boost/preprocessor/enum.hpp>
# include <boost/preprocessor/enum_params.hpp>
# include <boost/preprocessor/cat.hpp>
# include <boost/preprocessor/repeat.hpp>
# include <boost/preprocessor/inc.hpp>
# include <boost/type_traits/is_void.hpp>
#endif // BOOST_FUNCTION_PROLOGUE_HPP

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 0
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 1
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 10
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 2
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 3
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 4
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 5
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 6
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 7
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 8
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2002-2003. Use, modification and
// distribution is subject to the Boost Software License, Version
// 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#define BOOST_FUNCTION_NUM_ARGS 9
#include <boost/function/detail/maybe_include.hpp>
#undef BOOST_FUNCTION_NUM_ARGS

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// Boost.Function library
// Copyright Douglas Gregor 2001-2006
// Copyright Emil Dotchevski 2007
// Use, modification and distribution is subject to the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#ifndef BOOST_FUNCTION_BASE_HEADER
#define BOOST_FUNCTION_BASE_HEADER
#include <stdexcept>
#include <string>
#include <memory>
#include <new>
#include <typeinfo>
#include <boost/config.hpp>
#include <boost/assert.hpp>
#include <boost/type_traits/is_const.hpp>
#include <boost/type_traits/is_integral.hpp>
#include <boost/type_traits/is_volatile.hpp>
#include <boost/type_traits/composite_traits.hpp>
#include <boost/type_traits/ice.hpp>
#include <boost/ref.hpp>
#include <boost/mpl/if.hpp>
#include <boost/detail/workaround.hpp>
#include <boost/type_traits/alignment_of.hpp>
#ifndef BOOST_NO_SFINAE
# include "boost/utility/enable_if.hpp"
#else
# include "boost/mpl/bool.hpp"
#endif
#include <boost/function_equal.hpp>
#include <boost/function/function_fwd.hpp>
#if defined(BOOST_MSVC)
# pragma warning( push )
# pragma warning( disable : 4793 ) // complaint about native code generation
# pragma warning( disable : 4127 ) // "conditional expression is constant"
#endif
// Define BOOST_FUNCTION_STD_NS to the namespace that contains type_info.
#ifdef BOOST_NO_EXCEPTION_STD_NAMESPACE
// Embedded VC++ does not have type_info in namespace std
# define BOOST_FUNCTION_STD_NS
#else
# define BOOST_FUNCTION_STD_NS std
#endif
// Borrowed from Boost.Python library: determines the cases where we
// need to use std::type_info::name to compare instead of operator==.
# if (defined(__GNUC__) && __GNUC__ >= 3) \
|| defined(_AIX) \
|| ( defined(__sgi) && defined(__host_mips))
# include <cstring>
# define BOOST_FUNCTION_COMPARE_TYPE_ID(X,Y) \
(std::strcmp((X).name(),(Y).name()) == 0)
# else
# define BOOST_FUNCTION_COMPARE_TYPE_ID(X,Y) ((X)==(Y))
#endif
#if defined(BOOST_MSVC) && BOOST_MSVC <= 1300 || defined(__ICL) && __ICL <= 600 || defined(__MWERKS__) && __MWERKS__ < 0x2406 && !defined(BOOST_STRICT_CONFIG)
# define BOOST_FUNCTION_TARGET_FIX(x) x
#else
# define BOOST_FUNCTION_TARGET_FIX(x)
#endif // not MSVC
#if !BOOST_WORKAROUND(__BORLANDC__, < 0x5A0)
# define BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor,Type) \
typename ::boost::enable_if_c<(::boost::type_traits::ice_not< \
(::boost::is_integral<Functor>::value)>::value), \
Type>::type
#else
// BCC doesn't recognize this depends on a template argument and complains
// about the use of 'typename'
# define BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor,Type) \
::boost::enable_if_c<(::boost::type_traits::ice_not< \
(::boost::is_integral<Functor>::value)>::value), \
Type>::type
#endif
namespace boost {
namespace detail {
namespace function {
class X;
/**
* A buffer used to store small function objects in
* boost::function. It is a union containing function pointers,
* object pointers, and a structure that resembles a bound
* member function pointer.
*/
union function_buffer
{
// For pointers to function objects
mutable void* obj_ptr;
// For pointers to std::type_info objects
struct type_t {
// (get_functor_type_tag, check_functor_type_tag).
const BOOST_FUNCTION_STD_NS::type_info* type;
// Whether the type is const-qualified.
bool const_qualified;
// Whether the type is volatile-qualified.
bool volatile_qualified;
} type;
// For function pointers of all kinds
mutable void (*func_ptr)();
// For bound member pointers
struct bound_memfunc_ptr_t {
void (X::*memfunc_ptr)(int);
void* obj_ptr;
} bound_memfunc_ptr;
// For references to function objects. We explicitly keep
// track of the cv-qualifiers on the object referenced.
struct obj_ref_t {
mutable void* obj_ptr;
bool is_const_qualified;
bool is_volatile_qualified;
} obj_ref;
// To relax aliasing constraints
mutable char data;
};
/**
* The unusable class is a placeholder for unused function arguments
* It is also completely unusable except that it constructable from
* anything. This helps compilers without partial specialization to
* handle Boost.Function objects returning void.
*/
struct unusable
{
unusable() {}
template<typename T> unusable(const T&) {}
};
/* Determine the return type. This supports compilers that do not support
* void returns or partial specialization by silently changing the return
* type to "unusable".
*/
template<typename T> struct function_return_type { typedef T type; };
template<>
struct function_return_type<void>
{
typedef unusable type;
};
// The operation type to perform on the given functor/function pointer
enum functor_manager_operation_type {
clone_functor_tag,
move_functor_tag,
destroy_functor_tag,
check_functor_type_tag,
get_functor_type_tag
};
// Tags used to decide between different types of functions
struct function_ptr_tag {};
struct function_obj_tag {};
struct member_ptr_tag {};
struct function_obj_ref_tag {};
template<typename F>
class get_function_tag
{
typedef typename mpl::if_c<(is_pointer<F>::value),
function_ptr_tag,
function_obj_tag>::type ptr_or_obj_tag;
typedef typename mpl::if_c<(is_member_pointer<F>::value),
member_ptr_tag,
ptr_or_obj_tag>::type ptr_or_obj_or_mem_tag;
typedef typename mpl::if_c<(is_reference_wrapper<F>::value),
function_obj_ref_tag,
ptr_or_obj_or_mem_tag>::type or_ref_tag;
public:
typedef or_ref_tag type;
};
// The trivial manager does nothing but return the same pointer (if we
// are cloning) or return the null pointer (if we are deleting).
template<typename F>
struct reference_manager
{
static inline void
manage(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op)
{
switch (op) {
case clone_functor_tag:
out_buffer.obj_ref.obj_ptr = in_buffer.obj_ref.obj_ptr;
return;
case move_functor_tag:
out_buffer.obj_ref.obj_ptr = in_buffer.obj_ref.obj_ptr;
in_buffer.obj_ref.obj_ptr = 0;
return;
case destroy_functor_tag:
out_buffer.obj_ref.obj_ptr = 0;
return;
case check_functor_type_tag:
{
const BOOST_FUNCTION_STD_NS::type_info& check_type
= *out_buffer.type.type;
// Check whether we have the same type. We can add
// cv-qualifiers, but we can't take them away.
if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, typeid(F))
&& (!in_buffer.obj_ref.is_const_qualified
|| out_buffer.type.const_qualified)
&& (!in_buffer.obj_ref.is_volatile_qualified
|| out_buffer.type.volatile_qualified))
out_buffer.obj_ptr = in_buffer.obj_ref.obj_ptr;
else
out_buffer.obj_ptr = 0;
}
return;
case get_functor_type_tag:
out_buffer.type.type = &typeid(F);
out_buffer.type.const_qualified = in_buffer.obj_ref.is_const_qualified;
out_buffer.type.volatile_qualified = in_buffer.obj_ref.is_volatile_qualified;
return;
}
}
};
/**
* Determine if boost::function can use the small-object
* optimization with the function object type F.
*/
template<typename F>
struct function_allows_small_object_optimization
{
BOOST_STATIC_CONSTANT
(bool,
value = ((sizeof(F) <= sizeof(function_buffer) &&
(alignment_of<function_buffer>::value
% alignment_of<F>::value == 0))));
};
template <typename F,typename A>
struct functor_wrapper: public F, public A
{
functor_wrapper( F f, A a ):
F(f),
A(a)
{
}
};
/**
* The functor_manager class contains a static function "manage" which
* can clone or destroy the given function/function object pointer.
*/
template<typename Functor>
struct functor_manager_common
{
typedef Functor functor_type;
// Function pointers
static inline void
manage_ptr(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op)
{
if (op == clone_functor_tag)
out_buffer.func_ptr = in_buffer.func_ptr;
else if (op == move_functor_tag) {
out_buffer.func_ptr = in_buffer.func_ptr;
in_buffer.func_ptr = 0;
} else if (op == destroy_functor_tag)
out_buffer.func_ptr = 0;
else if (op == check_functor_type_tag) {
const BOOST_FUNCTION_STD_NS::type_info& check_type
= *out_buffer.type.type;
if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, typeid(Functor)))
out_buffer.obj_ptr = &in_buffer.func_ptr;
else
out_buffer.obj_ptr = 0;
} else /* op == get_functor_type_tag */ {
out_buffer.type.type = &typeid(Functor);
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
}
}
// Function objects that fit in the small-object buffer.
static inline void
manage_small(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op)
{
if (op == clone_functor_tag || op == move_functor_tag) {
const functor_type* in_functor =
reinterpret_cast<const functor_type*>(&in_buffer.data);
new ((void*)&out_buffer.data) functor_type(*in_functor);
if (op == move_functor_tag) {
reinterpret_cast<functor_type*>(&in_buffer.data)->~Functor();
}
} else if (op == destroy_functor_tag) {
// Some compilers (Borland, vc6, ...) are unhappy with ~functor_type.
reinterpret_cast<functor_type*>(&out_buffer.data)->~Functor();
} else if (op == check_functor_type_tag) {
const BOOST_FUNCTION_STD_NS::type_info& check_type
= *out_buffer.type.type;
if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, typeid(Functor)))
out_buffer.obj_ptr = &in_buffer.data;
else
out_buffer.obj_ptr = 0;
} else /* op == get_functor_type_tag */ {
out_buffer.type.type = &typeid(Functor);
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
}
}
};
template<typename Functor>
struct functor_manager
{
private:
typedef Functor functor_type;
// Function pointers
static inline void
manager(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op, function_ptr_tag)
{
functor_manager_common<Functor>::manage_ptr(in_buffer,out_buffer,op);
}
// Function objects that fit in the small-object buffer.
static inline void
manager(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op, mpl::true_)
{
functor_manager_common<Functor>::manage_small(in_buffer,out_buffer,op);
}
// Function objects that require heap allocation
static inline void
manager(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op, mpl::false_)
{
if (op == clone_functor_tag) {
// Clone the functor
// GCC 2.95.3 gets the CV qualifiers wrong here, so we
// can't do the static_cast that we should do.
const functor_type* f =
(const functor_type*)(in_buffer.obj_ptr);
functor_type* new_f = new functor_type(*f);
out_buffer.obj_ptr = new_f;
} else if (op == move_functor_tag) {
out_buffer.obj_ptr = in_buffer.obj_ptr;
in_buffer.obj_ptr = 0;
} else if (op == destroy_functor_tag) {
/* Cast from the void pointer to the functor pointer type */
functor_type* f =
static_cast<functor_type*>(out_buffer.obj_ptr);
delete f;
out_buffer.obj_ptr = 0;
} else if (op == check_functor_type_tag) {
const BOOST_FUNCTION_STD_NS::type_info& check_type
= *out_buffer.type.type;
if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, typeid(Functor)))
out_buffer.obj_ptr = in_buffer.obj_ptr;
else
out_buffer.obj_ptr = 0;
} else /* op == get_functor_type_tag */ {
out_buffer.type.type = &typeid(Functor);
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
}
}
// For function objects, we determine whether the function
// object can use the small-object optimization buffer or
// whether we need to allocate it on the heap.
static inline void
manager(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op, function_obj_tag)
{
manager(in_buffer, out_buffer, op,
mpl::bool_<(function_allows_small_object_optimization<functor_type>::value)>());
}
// For member pointers, we use the small-object optimization buffer.
static inline void
manager(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op, member_ptr_tag)
{
manager(in_buffer, out_buffer, op, mpl::true_());
}
public:
/* Dispatch to an appropriate manager based on whether we have a
function pointer or a function object pointer. */
static inline void
manage(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op)
{
typedef typename get_function_tag<functor_type>::type tag_type;
switch (op) {
case get_functor_type_tag:
out_buffer.type.type = &typeid(functor_type);
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
return;
default:
manager(in_buffer, out_buffer, op, tag_type());
return;
}
}
};
template<typename Functor, typename Allocator>
struct functor_manager_a
{
private:
typedef Functor functor_type;
// Function pointers
static inline void
manager(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op, function_ptr_tag)
{
functor_manager_common<Functor>::manage_ptr(in_buffer,out_buffer,op);
}
// Function objects that fit in the small-object buffer.
static inline void
manager(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op, mpl::true_)
{
functor_manager_common<Functor>::manage_small(in_buffer,out_buffer,op);
}
// Function objects that require heap allocation
static inline void
manager(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op, mpl::false_)
{
typedef functor_wrapper<Functor,Allocator> functor_wrapper_type;
typedef typename Allocator::template rebind<functor_wrapper_type>::other
wrapper_allocator_type;
typedef typename wrapper_allocator_type::pointer wrapper_allocator_pointer_type;
if (op == clone_functor_tag) {
// Clone the functor
// GCC 2.95.3 gets the CV qualifiers wrong here, so we
// can't do the static_cast that we should do.
const functor_wrapper_type* f =
(const functor_wrapper_type*)(in_buffer.obj_ptr);
wrapper_allocator_type wrapper_allocator(static_cast<Allocator const &>(*f));
wrapper_allocator_pointer_type copy = wrapper_allocator.allocate(1);
wrapper_allocator.construct(copy, *f);
// Get back to the original pointer type
functor_wrapper_type* new_f = static_cast<functor_wrapper_type*>(copy);
out_buffer.obj_ptr = new_f;
} else if (op == move_functor_tag) {
out_buffer.obj_ptr = in_buffer.obj_ptr;
in_buffer.obj_ptr = 0;
} else if (op == destroy_functor_tag) {
/* Cast from the void pointer to the functor_wrapper_type */
functor_wrapper_type* victim =
static_cast<functor_wrapper_type*>(in_buffer.obj_ptr);
wrapper_allocator_type wrapper_allocator(static_cast<Allocator const &>(*victim));
wrapper_allocator.destroy(victim);
wrapper_allocator.deallocate(victim,1);
out_buffer.obj_ptr = 0;
} else if (op == check_functor_type_tag) {
const BOOST_FUNCTION_STD_NS::type_info& check_type
= *out_buffer.type.type;
if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, typeid(Functor)))
out_buffer.obj_ptr = in_buffer.obj_ptr;
else
out_buffer.obj_ptr = 0;
} else /* op == get_functor_type_tag */ {
out_buffer.type.type = &typeid(Functor);
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
}
}
// For function objects, we determine whether the function
// object can use the small-object optimization buffer or
// whether we need to allocate it on the heap.
static inline void
manager(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op, function_obj_tag)
{
manager(in_buffer, out_buffer, op,
mpl::bool_<(function_allows_small_object_optimization<functor_type>::value)>());
}
public:
/* Dispatch to an appropriate manager based on whether we have a
function pointer or a function object pointer. */
static inline void
manage(const function_buffer& in_buffer, function_buffer& out_buffer,
functor_manager_operation_type op)
{
typedef typename get_function_tag<functor_type>::type tag_type;
switch (op) {
case get_functor_type_tag:
out_buffer.type.type = &typeid(functor_type);
out_buffer.type.const_qualified = false;
out_buffer.type.volatile_qualified = false;
return;
default:
manager(in_buffer, out_buffer, op, tag_type());
return;
}
}
};
// A type that is only used for comparisons against zero
struct useless_clear_type {};
#ifdef BOOST_NO_SFINAE
// These routines perform comparisons between a Boost.Function
// object and an arbitrary function object (when the last
// parameter is mpl::bool_<false>) or against zero (when the
// last parameter is mpl::bool_<true>). They are only necessary
// for compilers that don't support SFINAE.
template<typename Function, typename Functor>
bool
compare_equal(const Function& f, const Functor&, int, mpl::bool_<true>)
{ return f.empty(); }
template<typename Function, typename Functor>
bool
compare_not_equal(const Function& f, const Functor&, int,
mpl::bool_<true>)
{ return !f.empty(); }
template<typename Function, typename Functor>
bool
compare_equal(const Function& f, const Functor& g, long,
mpl::bool_<false>)
{
if (const Functor* fp = f.template target<Functor>())
return function_equal(*fp, g);
else return false;
}
template<typename Function, typename Functor>
bool
compare_equal(const Function& f, const reference_wrapper<Functor>& g,
int, mpl::bool_<false>)
{
if (const Functor* fp = f.template target<Functor>())
return fp == g.get_pointer();
else return false;
}
template<typename Function, typename Functor>
bool
compare_not_equal(const Function& f, const Functor& g, long,
mpl::bool_<false>)
{
if (const Functor* fp = f.template target<Functor>())
return !function_equal(*fp, g);
else return true;
}
template<typename Function, typename Functor>
bool
compare_not_equal(const Function& f,
const reference_wrapper<Functor>& g, int,
mpl::bool_<false>)
{
if (const Functor* fp = f.template target<Functor>())
return fp != g.get_pointer();
else return true;
}
#endif // BOOST_NO_SFINAE
/**
* Stores the "manager" portion of the vtable for a
* boost::function object.
*/
struct vtable_base
{
void (*manager)(const function_buffer& in_buffer,
function_buffer& out_buffer,
functor_manager_operation_type op);
};
} // end namespace function
} // end namespace detail
/**
* The function_base class contains the basic elements needed for the
* function1, function2, function3, etc. classes. It is common to all
* functions (and as such can be used to tell if we have one of the
* functionN objects).
*/
class function_base
{
public:
function_base() : vtable(0) { }
/** Determine if the function is empty (i.e., has no target). */
bool empty() const { return !vtable; }
/** Retrieve the type of the stored function object, or typeid(void)
if this is empty. */
const BOOST_FUNCTION_STD_NS::type_info& target_type() const
{
if (!vtable) return typeid(void);
detail::function::function_buffer type;
vtable->manager(functor, type, detail::function::get_functor_type_tag);
return *type.type.type;
}
template<typename Functor>
Functor* target()
{
if (!vtable) return 0;
detail::function::function_buffer type_result;
type_result.type.type = &typeid(Functor);
type_result.type.const_qualified = is_const<Functor>::value;
type_result.type.volatile_qualified = is_volatile<Functor>::value;
vtable->manager(functor, type_result,
detail::function::check_functor_type_tag);
return static_cast<Functor*>(type_result.obj_ptr);
}
template<typename Functor>
#if defined(BOOST_MSVC) && BOOST_WORKAROUND(BOOST_MSVC, < 1300)
const Functor* target( Functor * = 0 ) const
#else
const Functor* target() const
#endif
{
if (!vtable) return 0;
detail::function::function_buffer type_result;
type_result.type.type = &typeid(Functor);
type_result.type.const_qualified = true;
type_result.type.volatile_qualified = is_volatile<Functor>::value;
vtable->manager(functor, type_result,
detail::function::check_functor_type_tag);
// GCC 2.95.3 gets the CV qualifiers wrong here, so we
// can't do the static_cast that we should do.
return (const Functor*)(type_result.obj_ptr);
}
template<typename F>
bool contains(const F& f) const
{
#if defined(BOOST_MSVC) && BOOST_WORKAROUND(BOOST_MSVC, < 1300)
if (const F* fp = this->target( (F*)0 ))
#else
if (const F* fp = this->template target<F>())
#endif
{
return function_equal(*fp, f);
} else {
return false;
}
}
#if defined(__GNUC__) && __GNUC__ == 3 && __GNUC_MINOR__ <= 3
// GCC 3.3 and newer cannot copy with the global operator==, due to
// problems with instantiation of function return types before it
// has been verified that the argument types match up.
template<typename Functor>
BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
operator==(Functor g) const
{
if (const Functor* fp = target<Functor>())
return function_equal(*fp, g);
else return false;
}
template<typename Functor>
BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
operator!=(Functor g) const
{
if (const Functor* fp = target<Functor>())
return !function_equal(*fp, g);
else return true;
}
#endif
public: // should be protected, but GCC 2.95.3 will fail to allow access
detail::function::vtable_base* vtable;
mutable detail::function::function_buffer functor;
};
/**
* The bad_function_call exception class is thrown when a boost::function
* object is invoked
*/
class bad_function_call : public std::runtime_error
{
public:
bad_function_call() : std::runtime_error("call to empty boost::function") {}
};
#ifndef BOOST_NO_SFINAE
inline bool operator==(const function_base& f,
detail::function::useless_clear_type*)
{
return f.empty();
}
inline bool operator!=(const function_base& f,
detail::function::useless_clear_type*)
{
return !f.empty();
}
inline bool operator==(detail::function::useless_clear_type*,
const function_base& f)
{
return f.empty();
}
inline bool operator!=(detail::function::useless_clear_type*,
const function_base& f)
{
return !f.empty();
}
#endif
#ifdef BOOST_NO_SFINAE
// Comparisons between boost::function objects and arbitrary function objects
template<typename Functor>
inline bool operator==(const function_base& f, Functor g)
{
typedef mpl::bool_<(is_integral<Functor>::value)> integral;
return detail::function::compare_equal(f, g, 0, integral());
}
template<typename Functor>
inline bool operator==(Functor g, const function_base& f)
{
typedef mpl::bool_<(is_integral<Functor>::value)> integral;
return detail::function::compare_equal(f, g, 0, integral());
}
template<typename Functor>
inline bool operator!=(const function_base& f, Functor g)
{
typedef mpl::bool_<(is_integral<Functor>::value)> integral;
return detail::function::compare_not_equal(f, g, 0, integral());
}
template<typename Functor>
inline bool operator!=(Functor g, const function_base& f)
{
typedef mpl::bool_<(is_integral<Functor>::value)> integral;
return detail::function::compare_not_equal(f, g, 0, integral());
}
#else
# if !(defined(__GNUC__) && __GNUC__ == 3 && __GNUC_MINOR__ <= 3)
// Comparisons between boost::function objects and arbitrary function
// objects. GCC 3.3 and before has an obnoxious bug that prevents this
// from working.
template<typename Functor>
BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
operator==(const function_base& f, Functor g)
{
if (const Functor* fp = f.template target<Functor>())
return function_equal(*fp, g);
else return false;
}
template<typename Functor>
BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
operator==(Functor g, const function_base& f)
{
if (const Functor* fp = f.template target<Functor>())
return function_equal(g, *fp);
else return false;
}
template<typename Functor>
BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
operator!=(const function_base& f, Functor g)
{
if (const Functor* fp = f.template target<Functor>())
return !function_equal(*fp, g);
else return true;
}
template<typename Functor>
BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
operator!=(Functor g, const function_base& f)
{
if (const Functor* fp = f.template target<Functor>())
return !function_equal(g, *fp);
else return true;
}
# endif
template<typename Functor>
BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
operator==(const function_base& f, reference_wrapper<Functor> g)
{
if (const Functor* fp = f.template target<Functor>())
return fp == g.get_pointer();
else return false;
}
template<typename Functor>
BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
operator==(reference_wrapper<Functor> g, const function_base& f)
{
if (const Functor* fp = f.template target<Functor>())
return g.get_pointer() == fp;
else return false;
}
template<typename Functor>
BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
operator!=(const function_base& f, reference_wrapper<Functor> g)
{
if (const Functor* fp = f.template target<Functor>())
return fp != g.get_pointer();
else return true;
}
template<typename Functor>
BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
operator!=(reference_wrapper<Functor> g, const function_base& f)
{
if (const Functor* fp = f.template target<Functor>())
return g.get_pointer() != fp;
else return true;
}
#endif // Compiler supporting SFINAE
namespace detail {
namespace function {
inline bool has_empty_target(const function_base* f)
{
return f->empty();
}
#if BOOST_WORKAROUND(BOOST_MSVC, <= 1310)
inline bool has_empty_target(const void*)
{
return false;
}
#else
inline bool has_empty_target(...)
{
return false;
}
#endif
} // end namespace function
} // end namespace detail
} // end namespace boost
#undef BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL
#undef BOOST_FUNCTION_COMPARE_TYPE_ID
#endif // BOOST_FUNCTION_BASE_HEADER

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// Boost.Function library
// Copyright (C) Douglas Gregor 2008
//
// Use, modification and distribution is subject to the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// For more information, see http://www.boost.org
#ifndef BOOST_FUNCTION_FWD_HPP
#define BOOST_FUNCTION_FWD_HPP
#include <boost/config.hpp>
#if defined(__sgi) && defined(_COMPILER_VERSION) && _COMPILER_VERSION <= 730 && !defined(BOOST_STRICT_CONFIG)
// Work around a compiler bug.
// boost::python::objects::function has to be seen by the compiler before the
// boost::function class template.
namespace boost { namespace python { namespace objects {
class function;
}}}
#endif
#if defined (BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION) \
|| defined(BOOST_BCB_PARTIAL_SPECIALIZATION_BUG) \
|| !(BOOST_STRICT_CONFIG || !defined(__SUNPRO_CC) || __SUNPRO_CC > 0x540)
# define BOOST_FUNCTION_NO_FUNCTION_TYPE_SYNTAX
#endif
namespace boost {
class bad_function_call;
#if !defined(BOOST_FUNCTION_NO_FUNCTION_TYPE_SYNTAX)
// Preferred syntax
template<typename Signature> class function;
template<typename Signature>
inline void swap(function<Signature>& f1, function<Signature>& f2)
{
f1.swap(f2);
}
#endif // have partial specialization
// Portable syntax
template<typename R> class function0;
template<typename R, typename T1> class function1;
template<typename R, typename T1, typename T2> class function2;
template<typename R, typename T1, typename T2, typename T3> class function3;
template<typename R, typename T1, typename T2, typename T3, typename T4>
class function4;
template<typename R, typename T1, typename T2, typename T3, typename T4,
typename T5>
class function5;
template<typename R, typename T1, typename T2, typename T3, typename T4,
typename T5, typename T6>
class function6;
template<typename R, typename T1, typename T2, typename T3, typename T4,
typename T5, typename T6, typename T7>
class function7;
template<typename R, typename T1, typename T2, typename T3, typename T4,
typename T5, typename T6, typename T7, typename T8>
class function8;
template<typename R, typename T1, typename T2, typename T3, typename T4,
typename T5, typename T6, typename T7, typename T8, typename T9>
class function9;
template<typename R, typename T1, typename T2, typename T3, typename T4,
typename T5, typename T6, typename T7, typename T8, typename T9,
typename T10>
class function10;
}
#endif

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// Boost.Function library - Typeof support
// Copyright (C) Douglas Gregor 2008
//
// Use, modification and distribution is subject to the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// For more information, see http://www.boost.org
#ifndef BOOST_FUNCTION_TYPEOF_HPP
#define BOOST_FUNCTION_TYPEOF_HPP
#include <boost/function/function_fwd.hpp>
#include <boost/typeof/typeof.hpp>
#include BOOST_TYPEOF_INCREMENT_REGISTRATION_GROUP()
BOOST_TYPEOF_REGISTER_TYPE(boost::bad_function_call)
#if !defined(BOOST_FUNCTION_NO_FUNCTION_TYPE_SYNTAX)
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function, (typename))
#endif
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function0, (typename))
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function1, (typename)(typename))
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function2, (typename)(typename)(typename))
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function3,
(typename)(typename)(typename)(typename))
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function4,
(typename)(typename)(typename)(typename)(typename))
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function5,
(typename)(typename)(typename)(typename)(typename)(typename))
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function6,
(typename)(typename)(typename)(typename)(typename)(typename)(typename))
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function7,
(typename)(typename)(typename)(typename)(typename)(typename)(typename)
(typename))
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function8,
(typename)(typename)(typename)(typename)(typename)(typename)(typename)
(typename)(typename))
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function9,
(typename)(typename)(typename)(typename)(typename)(typename)(typename)
(typename)(typename)(typename))
BOOST_TYPEOF_REGISTER_TEMPLATE(boost::function10,
(typename)(typename)(typename)(typename)(typename)(typename)(typename)
(typename)(typename)(typename)(typename))
#endif

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#!/usr/bin/perl -w
#
# Boost.Function library
#
# Copyright Douglas Gregor 2001-2003. Use, modification and
# distribution is subject to the Boost Software License, Version
# 1.0. (See accompanying file LICENSE_1_0.txt or copy at
# http://www.boost.org/LICENSE_1_0.txt)
#
# For more information, see http://www.boost.org
use English;
if ($#ARGV < 0) {
print "Usage: perl gen_function_N <number of arguments>\n";
exit;
}
$totalNumArgs = $ARGV[0];
for ($numArgs = 0; $numArgs <= $totalNumArgs; ++$numArgs) {
open OUT, ">function$numArgs.hpp";
print OUT "#define BOOST_FUNCTION_NUM_ARGS $numArgs\n";
print OUT "#include <boost/function/detail/maybe_include.hpp>\n";
print OUT "#undef BOOST_FUNCTION_NUM_ARGS\n";
close OUT;
}

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// Copyright Douglas Gregor 2004.
// Copyright 2005 Peter Dimov
// Use, modification and distribution is subject to
// the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// For more information, see http://www.boost.org
#ifndef BOOST_FUNCTION_EQUAL_HPP
#define BOOST_FUNCTION_EQUAL_HPP
namespace boost {
template<typename F, typename G>
bool function_equal_impl(const F& f, const G& g, long)
{ return f == g; }
// function_equal_impl needs to be unqualified to pick
// user overloads on two-phase compilers
template<typename F, typename G>
bool function_equal(const F& f, const G& g)
{ return function_equal_impl(f, g, 0); }
} // end namespace boost
#endif // BOOST_FUNCTION_EQUAL_HPP

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// (C) Copyright Jeremy Siek 2001.
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
// Revision History:
// 27 Feb 2001 Jeremy Siek
// Initial checkin.
#ifndef BOOST_FUNCTION_OUTPUT_ITERATOR_HPP
#define BOOST_FUNCTION_OUTPUT_ITERATOR_HPP
#include <iterator>
namespace boost {
template <class UnaryFunction>
class function_output_iterator {
typedef function_output_iterator self;
public:
typedef std::output_iterator_tag iterator_category;
typedef void value_type;
typedef void difference_type;
typedef void pointer;
typedef void reference;
explicit function_output_iterator() {}
explicit function_output_iterator(const UnaryFunction& f)
: m_f(f) {}
struct output_proxy {
output_proxy(UnaryFunction& f) : m_f(f) { }
template <class T> output_proxy& operator=(const T& value) {
m_f(value);
return *this;
}
UnaryFunction& m_f;
};
output_proxy operator*() { return output_proxy(m_f); }
self& operator++() { return *this; }
self& operator++(int) { return *this; }
private:
UnaryFunction m_f;
};
template <class UnaryFunction>
inline function_output_iterator<UnaryFunction>
make_function_output_iterator(const UnaryFunction& f = UnaryFunction()) {
return function_output_iterator<UnaryFunction>(f);
}
} // namespace boost
#endif // BOOST_FUNCTION_OUTPUT_ITERATOR_HPP

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// Copyright Peter Dimov and David Abrahams 2002.
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#ifndef GET_POINTER_DWA20021219_HPP
# define GET_POINTER_DWA20021219_HPP
// In order to avoid circular dependencies with Boost.TR1
// we make sure that our include of <memory> doesn't try to
// pull in the TR1 headers: that's why we use this header
// rather than including <memory> directly:
# include <boost/config/no_tr1/memory.hpp> // std::auto_ptr
namespace boost {
// get_pointer(p) extracts a ->* capable pointer from p
template<class T> T * get_pointer(T * p)
{
return p;
}
// get_pointer(shared_ptr<T> const & p) has been moved to shared_ptr.hpp
template<class T> T * get_pointer(std::auto_ptr<T> const& p)
{
return p.get();
}
} // namespace boost
#endif // GET_POINTER_DWA20021219_HPP

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// (C) Copyright David Abrahams 2002.
// (C) Copyright Jeremy Siek 2002.
// (C) Copyright Thomas Witt 2002.
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_ITERATOR_ADAPTOR_23022003THW_HPP
#define BOOST_ITERATOR_ADAPTOR_23022003THW_HPP
#include <boost/static_assert.hpp>
#include <boost/iterator.hpp>
#include <boost/detail/iterator.hpp>
#include <boost/iterator/iterator_categories.hpp>
#include <boost/iterator/iterator_facade.hpp>
#include <boost/iterator/detail/enable_if.hpp>
#include <boost/mpl/and.hpp>
#include <boost/mpl/not.hpp>
#include <boost/mpl/or.hpp>
#include <boost/type_traits/is_same.hpp>
#include <boost/type_traits/is_convertible.hpp>
#ifdef BOOST_ITERATOR_REF_CONSTNESS_KILLS_WRITABILITY
# include <boost/type_traits/remove_reference.hpp>
# if BOOST_WORKAROUND(__CODEGEARC__, BOOST_TESTED_AT(0x610))
# include <boost/type_traits/add_reference.hpp>
# endif
#else
# include <boost/type_traits/add_reference.hpp>
#endif
#include <boost/iterator/detail/config_def.hpp>
#include <boost/iterator/iterator_traits.hpp>
namespace boost
{
// Used as a default template argument internally, merely to
// indicate "use the default", this can also be passed by users
// explicitly in order to specify that the default should be used.
struct use_default;
# ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
// the incompleteness of use_default causes massive problems for
// is_convertible (naturally). This workaround is fortunately not
// needed for vc6/vc7.
template<class To>
struct is_convertible<use_default,To>
: mpl::false_ {};
# endif
namespace detail
{
//
// Result type used in enable_if_convertible meta function.
// This can be an incomplete type, as only pointers to
// enable_if_convertible< ... >::type are used.
// We could have used void for this, but conversion to
// void* is just to easy.
//
struct enable_type;
}
//
// enable_if for use in adapted iterators constructors.
//
// In order to provide interoperability between adapted constant and
// mutable iterators, adapted iterators will usually provide templated
// conversion constructors of the following form
//
// template <class BaseIterator>
// class adapted_iterator :
// public iterator_adaptor< adapted_iterator<Iterator>, Iterator >
// {
// public:
//
// ...
//
// template <class OtherIterator>
// adapted_iterator(
// OtherIterator const& it
// , typename enable_if_convertible<OtherIterator, Iterator>::type* = 0);
//
// ...
// };
//
// enable_if_convertible is used to remove those overloads from the overload
// set that cannot be instantiated. For all practical purposes only overloads
// for constant/mutable interaction will remain. This has the advantage that
// meta functions like boost::is_convertible do not return false positives,
// as they can only look at the signature of the conversion constructor
// and not at the actual instantiation.
//
// enable_if_interoperable can be safely used in user code. It falls back to
// always enabled for compilers that don't support enable_if or is_convertible.
// There is no need for compiler specific workarounds in user code.
//
// The operators implementation relies on boost::is_convertible not returning
// false positives for user/library defined iterator types. See comments
// on operator implementation for consequences.
//
# if BOOST_WORKAROUND(BOOST_MSVC, <= 1300)
template<typename From, typename To>
struct enable_if_convertible
{
typedef typename mpl::if_<
mpl::or_<
is_same<From,To>
, is_convertible<From, To>
>
, boost::detail::enable_type
, int&
>::type type;
};
# elif defined(BOOST_NO_IS_CONVERTIBLE) || defined(BOOST_NO_SFINAE)
template <class From, class To>
struct enable_if_convertible
{
typedef boost::detail::enable_type type;
};
# elif BOOST_WORKAROUND(_MSC_FULL_VER, BOOST_TESTED_AT(13102292)) && BOOST_MSVC > 1300
// For some reason vc7.1 needs us to "cut off" instantiation
// of is_convertible in a few cases.
template<typename From, typename To>
struct enable_if_convertible
: iterators::enable_if<
mpl::or_<
is_same<From,To>
, is_convertible<From, To>
>
, boost::detail::enable_type
>
{};
# else
template<typename From, typename To>
struct enable_if_convertible
: iterators::enable_if<
is_convertible<From, To>
, boost::detail::enable_type
>
{};
# endif
//
// Default template argument handling for iterator_adaptor
//
namespace detail
{
// If T is use_default, return the result of invoking
// DefaultNullaryFn, otherwise return T.
template <class T, class DefaultNullaryFn>
struct ia_dflt_help
: mpl::eval_if<
is_same<T, use_default>
, DefaultNullaryFn
, mpl::identity<T>
>
{
};
// A metafunction which computes an iterator_adaptor's base class,
// a specialization of iterator_facade.
template <
class Derived
, class Base
, class Value
, class Traversal
, class Reference
, class Difference
>
struct iterator_adaptor_base
{
typedef iterator_facade<
Derived
# ifdef BOOST_ITERATOR_REF_CONSTNESS_KILLS_WRITABILITY
, typename boost::detail::ia_dflt_help<
Value
, mpl::eval_if<
is_same<Reference,use_default>
, iterator_value<Base>
, remove_reference<Reference>
>
>::type
# else
, typename boost::detail::ia_dflt_help<
Value, iterator_value<Base>
>::type
# endif
, typename boost::detail::ia_dflt_help<
Traversal
, iterator_traversal<Base>
>::type
, typename boost::detail::ia_dflt_help<
Reference
, mpl::eval_if<
is_same<Value,use_default>
, iterator_reference<Base>
, add_reference<Value>
>
>::type
, typename boost::detail::ia_dflt_help<
Difference, iterator_difference<Base>
>::type
>
type;
};
// workaround for aC++ CR JAGaf33512
template <class Tr1, class Tr2>
inline void iterator_adaptor_assert_traversal ()
{
BOOST_STATIC_ASSERT((is_convertible<Tr1, Tr2>::value));
}
}
//
// Iterator Adaptor
//
// The parameter ordering changed slightly with respect to former
// versions of iterator_adaptor The idea is that when the user needs
// to fiddle with the reference type it is highly likely that the
// iterator category has to be adjusted as well. Any of the
// following four template arguments may be ommitted or explicitly
// replaced by use_default.
//
// Value - if supplied, the value_type of the resulting iterator, unless
// const. If const, a conforming compiler strips constness for the
// value_type. If not supplied, iterator_traits<Base>::value_type is used
//
// Category - the traversal category of the resulting iterator. If not
// supplied, iterator_traversal<Base>::type is used.
//
// Reference - the reference type of the resulting iterator, and in
// particular, the result type of operator*(). If not supplied but
// Value is supplied, Value& is used. Otherwise
// iterator_traits<Base>::reference is used.
//
// Difference - the difference_type of the resulting iterator. If not
// supplied, iterator_traits<Base>::difference_type is used.
//
template <
class Derived
, class Base
, class Value = use_default
, class Traversal = use_default
, class Reference = use_default
, class Difference = use_default
>
class iterator_adaptor
: public boost::detail::iterator_adaptor_base<
Derived, Base, Value, Traversal, Reference, Difference
>::type
{
friend class iterator_core_access;
protected:
typedef typename boost::detail::iterator_adaptor_base<
Derived, Base, Value, Traversal, Reference, Difference
>::type super_t;
public:
iterator_adaptor() {}
explicit iterator_adaptor(Base const &iter)
: m_iterator(iter)
{
}
typedef Base base_type;
Base const& base() const
{ return m_iterator; }
protected:
// for convenience in derived classes
typedef iterator_adaptor<Derived,Base,Value,Traversal,Reference,Difference> iterator_adaptor_;
//
// lvalue access to the Base object for Derived
//
Base const& base_reference() const
{ return m_iterator; }
Base& base_reference()
{ return m_iterator; }
private:
//
// Core iterator interface for iterator_facade. This is private
// to prevent temptation for Derived classes to use it, which
// will often result in an error. Derived classes should use
// base_reference(), above, to get direct access to m_iterator.
//
typename super_t::reference dereference() const
{ return *m_iterator; }
template <
class OtherDerived, class OtherIterator, class V, class C, class R, class D
>
bool equal(iterator_adaptor<OtherDerived, OtherIterator, V, C, R, D> const& x) const
{
// Maybe readd with same_distance
// BOOST_STATIC_ASSERT(
// (detail::same_category_and_difference<Derived,OtherDerived>::value)
// );
return m_iterator == x.base();
}
typedef typename iterator_category_to_traversal<
typename super_t::iterator_category
>::type my_traversal;
# define BOOST_ITERATOR_ADAPTOR_ASSERT_TRAVERSAL(cat) \
boost::detail::iterator_adaptor_assert_traversal<my_traversal, cat>();
void advance(typename super_t::difference_type n)
{
BOOST_ITERATOR_ADAPTOR_ASSERT_TRAVERSAL(random_access_traversal_tag)
m_iterator += n;
}
void increment() { ++m_iterator; }
void decrement()
{
BOOST_ITERATOR_ADAPTOR_ASSERT_TRAVERSAL(bidirectional_traversal_tag)
--m_iterator;
}
template <
class OtherDerived, class OtherIterator, class V, class C, class R, class D
>
typename super_t::difference_type distance_to(
iterator_adaptor<OtherDerived, OtherIterator, V, C, R, D> const& y) const
{
BOOST_ITERATOR_ADAPTOR_ASSERT_TRAVERSAL(random_access_traversal_tag)
// Maybe readd with same_distance
// BOOST_STATIC_ASSERT(
// (detail::same_category_and_difference<Derived,OtherDerived>::value)
// );
return y.base() - m_iterator;
}
# undef BOOST_ITERATOR_ADAPTOR_ASSERT_TRAVERSAL
private: // data members
Base m_iterator;
};
} // namespace boost
#include <boost/iterator/detail/config_undef.hpp>
#endif // BOOST_ITERATOR_ADAPTOR_23022003THW_HPP

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// (C) Copyright David Abrahams 2002.
// (C) Copyright Jeremy Siek 2002.
// (C) Copyright Thomas Witt 2002.
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_REVERSE_ITERATOR_23022003THW_HPP
#define BOOST_REVERSE_ITERATOR_23022003THW_HPP
#include <boost/iterator.hpp>
#include <boost/utility.hpp>
#include <boost/iterator/iterator_adaptor.hpp>
namespace boost
{
//
//
//
template <class Iterator>
class reverse_iterator
: public iterator_adaptor< reverse_iterator<Iterator>, Iterator >
{
typedef iterator_adaptor< reverse_iterator<Iterator>, Iterator > super_t;
friend class iterator_core_access;
public:
reverse_iterator() {}
explicit reverse_iterator(Iterator x)
: super_t(x) {}
template<class OtherIterator>
reverse_iterator(
reverse_iterator<OtherIterator> const& r
, typename enable_if_convertible<OtherIterator, Iterator>::type* = 0
)
: super_t(r.base())
{}
private:
typename super_t::reference dereference() const { return *boost::prior(this->base()); }
void increment() { --this->base_reference(); }
void decrement() { ++this->base_reference(); }
void advance(typename super_t::difference_type n)
{
this->base_reference() += -n;
}
template <class OtherIterator>
typename super_t::difference_type
distance_to(reverse_iterator<OtherIterator> const& y) const
{
return this->base_reference() - y.base();
}
};
template <class BidirectionalIterator>
reverse_iterator<BidirectionalIterator> make_reverse_iterator(BidirectionalIterator x)
{
return reverse_iterator<BidirectionalIterator>(x);
}
} // namespace boost
#endif // BOOST_REVERSE_ITERATOR_23022003THW_HPP

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// (C) Copyright David Abrahams 2002.
// (C) Copyright Jeremy Siek 2002.
// (C) Copyright Thomas Witt 2002.
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_TRANSFORM_ITERATOR_23022003THW_HPP
#define BOOST_TRANSFORM_ITERATOR_23022003THW_HPP
#include <boost/function.hpp>
#include <boost/iterator.hpp>
#include <boost/iterator/detail/enable_if.hpp>
#include <boost/iterator/iterator_adaptor.hpp>
#include <boost/iterator/iterator_categories.hpp>
#include <boost/mpl/not.hpp>
#include <boost/mpl/bool.hpp>
#include <boost/type_traits/function_traits.hpp>
#include <boost/type_traits/is_const.hpp>
#include <boost/type_traits/is_class.hpp>
#include <boost/type_traits/is_function.hpp>
#include <boost/type_traits/is_reference.hpp>
#include <boost/type_traits/remove_const.hpp>
#include <boost/type_traits/remove_reference.hpp>
#if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1310))
# include <boost/type_traits/is_base_and_derived.hpp>
#endif
#include <boost/iterator/detail/config_def.hpp>
namespace boost
{
template <class UnaryFunction, class Iterator, class Reference = use_default, class Value = use_default>
class transform_iterator;
namespace detail
{
template <class UnaryFunc>
struct function_object_result
{
typedef typename UnaryFunc::result_type type;
};
#ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION
template <class Return, class Argument>
struct function_object_result<Return(*)(Argument)>
{
typedef Return type;
};
#endif
// Compute the iterator_adaptor instantiation to be used for transform_iterator
template <class UnaryFunc, class Iterator, class Reference, class Value>
struct transform_iterator_base
{
private:
// By default, dereferencing the iterator yields the same as
// the function. Do we need to adjust the way
// function_object_result is computed for the standard
// proposal (e.g. using Doug's result_of)?
typedef typename ia_dflt_help<
Reference
, function_object_result<UnaryFunc>
>::type reference;
// To get the default for Value: remove any reference on the
// result type, but retain any constness to signal
// non-writability. Note that if we adopt Thomas' suggestion
// to key non-writability *only* on the Reference argument,
// we'd need to strip constness here as well.
typedef typename ia_dflt_help<
Value
, remove_reference<reference>
>::type cv_value_type;
public:
typedef iterator_adaptor<
transform_iterator<UnaryFunc, Iterator, Reference, Value>
, Iterator
, cv_value_type
, use_default // Leave the traversal category alone
, reference
> type;
};
}
template <class UnaryFunc, class Iterator, class Reference, class Value>
class transform_iterator
: public boost::detail::transform_iterator_base<UnaryFunc, Iterator, Reference, Value>::type
{
typedef typename
boost::detail::transform_iterator_base<UnaryFunc, Iterator, Reference, Value>::type
super_t;
friend class iterator_core_access;
public:
transform_iterator() { }
transform_iterator(Iterator const& x, UnaryFunc f)
: super_t(x), m_f(f) { }
explicit transform_iterator(Iterator const& x)
: super_t(x)
{
// Pro8 is a little too aggressive about instantiating the
// body of this function.
#if !BOOST_WORKAROUND(__MWERKS__, BOOST_TESTED_AT(0x3003))
// don't provide this constructor if UnaryFunc is a
// function pointer type, since it will be 0. Too dangerous.
BOOST_STATIC_ASSERT(is_class<UnaryFunc>::value);
#endif
}
template<
class OtherUnaryFunction
, class OtherIterator
, class OtherReference
, class OtherValue>
transform_iterator(
transform_iterator<OtherUnaryFunction, OtherIterator, OtherReference, OtherValue> const& t
, typename enable_if_convertible<OtherIterator, Iterator>::type* = 0
#if !BOOST_WORKAROUND(BOOST_MSVC, == 1310)
, typename enable_if_convertible<OtherUnaryFunction, UnaryFunc>::type* = 0
#endif
)
: super_t(t.base()), m_f(t.functor())
{}
UnaryFunc functor() const
{ return m_f; }
private:
typename super_t::reference dereference() const
{ return m_f(*this->base()); }
// Probably should be the initial base class so it can be
// optimized away via EBO if it is an empty class.
UnaryFunc m_f;
};
template <class UnaryFunc, class Iterator>
transform_iterator<UnaryFunc, Iterator>
make_transform_iterator(Iterator it, UnaryFunc fun)
{
return transform_iterator<UnaryFunc, Iterator>(it, fun);
}
// Version which allows explicit specification of the UnaryFunc
// type.
//
// This generator is not provided if UnaryFunc is a function
// pointer type, because it's too dangerous: the default-constructed
// function pointer in the iterator be 0, leading to a runtime
// crash.
template <class UnaryFunc, class Iterator>
#if BOOST_WORKAROUND(BOOST_MSVC, <= 1300)
typename mpl::if_<
#else
typename iterators::enable_if<
#endif
is_class<UnaryFunc> // We should probably find a cheaper test than is_class<>
, transform_iterator<UnaryFunc, Iterator>
#if BOOST_WORKAROUND(BOOST_MSVC, <= 1300)
, int[3]
#endif
>::type
make_transform_iterator(Iterator it)
{
return transform_iterator<UnaryFunc, Iterator>(it, UnaryFunc());
}
#if defined(BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION ) && !defined(BOOST_NO_FUNCTION_TEMPLATE_ORDERING)
template <class Return, class Argument, class Iterator>
transform_iterator< Return (*)(Argument), Iterator, Return>
make_transform_iterator(Iterator it, Return (*fun)(Argument))
{
return transform_iterator<Return (*)(Argument), Iterator, Return>(it, fun);
}
#endif
} // namespace boost
#include <boost/iterator/detail/config_undef.hpp>
#endif // BOOST_TRANSFORM_ITERATOR_23022003THW_HPP

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#ifndef BOOST_BIND_MEM_FN_HPP_INCLUDED
#define BOOST_BIND_MEM_FN_HPP_INCLUDED
// MS compatible compilers support #pragma once
#if defined(_MSC_VER) && (_MSC_VER >= 1020)
# pragma once
#endif
//
// mem_fn.hpp - a generalization of std::mem_fun[_ref]
//
// Copyright (c) 2001, 2002 Peter Dimov and Multi Media Ltd.
// Copyright (c) 2001 David Abrahams
// Copyright (c) 2003-2005 Peter Dimov
//
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/bind/mem_fn.html for documentation.
//
#include <boost/config.hpp>
#include <boost/get_pointer.hpp>
#include <boost/detail/workaround.hpp>
namespace boost
{
#if defined(BOOST_NO_VOID_RETURNS)
#define BOOST_MEM_FN_CLASS_F , class F
#define BOOST_MEM_FN_TYPEDEF(X)
namespace _mfi // mem_fun_impl
{
template<class V> struct mf
{
#define BOOST_MEM_FN_RETURN return
#define BOOST_MEM_FN_NAME(X) inner_##X
#define BOOST_MEM_FN_CC
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#ifdef BOOST_MEM_FN_ENABLE_CDECL
#define BOOST_MEM_FN_NAME(X) inner_##X##_cdecl
#define BOOST_MEM_FN_CC __cdecl
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_STDCALL
#define BOOST_MEM_FN_NAME(X) inner_##X##_stdcall
#define BOOST_MEM_FN_CC __stdcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_FASTCALL
#define BOOST_MEM_FN_NAME(X) inner_##X##_fastcall
#define BOOST_MEM_FN_CC __fastcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#undef BOOST_MEM_FN_RETURN
}; // struct mf<V>
template<> struct mf<void>
{
#define BOOST_MEM_FN_RETURN
#define BOOST_MEM_FN_NAME(X) inner_##X
#define BOOST_MEM_FN_CC
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#ifdef BOOST_MEM_FN_ENABLE_CDECL
#define BOOST_MEM_FN_NAME(X) inner_##X##_cdecl
#define BOOST_MEM_FN_CC __cdecl
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_STDCALL
#define BOOST_MEM_FN_NAME(X) inner_##X##_stdcall
#define BOOST_MEM_FN_CC __stdcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_FASTCALL
#define BOOST_MEM_FN_NAME(X) inner_##X##_fastcall
#define BOOST_MEM_FN_CC __fastcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#undef BOOST_MEM_FN_RETURN
}; // struct mf<void>
#undef BOOST_MEM_FN_CLASS_F
#undef BOOST_MEM_FN_TYPEDEF_F
#define BOOST_MEM_FN_NAME(X) X
#define BOOST_MEM_FN_NAME2(X) inner_##X
#define BOOST_MEM_FN_CC
#include <boost/bind/mem_fn_vw.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_NAME2
#undef BOOST_MEM_FN_CC
#ifdef BOOST_MEM_FN_ENABLE_CDECL
#define BOOST_MEM_FN_NAME(X) X##_cdecl
#define BOOST_MEM_FN_NAME2(X) inner_##X##_cdecl
#define BOOST_MEM_FN_CC __cdecl
#include <boost/bind/mem_fn_vw.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_NAME2
#undef BOOST_MEM_FN_CC
#endif
#ifdef BOOST_MEM_FN_ENABLE_STDCALL
#define BOOST_MEM_FN_NAME(X) X##_stdcall
#define BOOST_MEM_FN_NAME2(X) inner_##X##_stdcall
#define BOOST_MEM_FN_CC __stdcall
#include <boost/bind/mem_fn_vw.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_NAME2
#undef BOOST_MEM_FN_CC
#endif
#ifdef BOOST_MEM_FN_ENABLE_FASTCALL
#define BOOST_MEM_FN_NAME(X) X##_fastcall
#define BOOST_MEM_FN_NAME2(X) inner_##X##_fastcall
#define BOOST_MEM_FN_CC __fastcall
#include <boost/bind/mem_fn_vw.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_NAME2
#undef BOOST_MEM_FN_CC
#endif
} // namespace _mfi
#else // #ifdef BOOST_NO_VOID_RETURNS
#define BOOST_MEM_FN_CLASS_F
#define BOOST_MEM_FN_TYPEDEF(X) typedef X;
namespace _mfi
{
#define BOOST_MEM_FN_RETURN return
#define BOOST_MEM_FN_NAME(X) X
#define BOOST_MEM_FN_CC
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#ifdef BOOST_MEM_FN_ENABLE_CDECL
#define BOOST_MEM_FN_NAME(X) X##_cdecl
#define BOOST_MEM_FN_CC __cdecl
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_STDCALL
#define BOOST_MEM_FN_NAME(X) X##_stdcall
#define BOOST_MEM_FN_CC __stdcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#ifdef BOOST_MEM_FN_ENABLE_FASTCALL
#define BOOST_MEM_FN_NAME(X) X##_fastcall
#define BOOST_MEM_FN_CC __fastcall
#include <boost/bind/mem_fn_template.hpp>
#undef BOOST_MEM_FN_CC
#undef BOOST_MEM_FN_NAME
#endif
#undef BOOST_MEM_FN_RETURN
} // namespace _mfi
#undef BOOST_MEM_FN_CLASS_F
#undef BOOST_MEM_FN_TYPEDEF
#endif // #ifdef BOOST_NO_VOID_RETURNS
#define BOOST_MEM_FN_NAME(X) X
#define BOOST_MEM_FN_CC
#include <boost/bind/mem_fn_cc.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_CC
#ifdef BOOST_MEM_FN_ENABLE_CDECL
#define BOOST_MEM_FN_NAME(X) X##_cdecl
#define BOOST_MEM_FN_CC __cdecl
#include <boost/bind/mem_fn_cc.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_CC
#endif
#ifdef BOOST_MEM_FN_ENABLE_STDCALL
#define BOOST_MEM_FN_NAME(X) X##_stdcall
#define BOOST_MEM_FN_CC __stdcall
#include <boost/bind/mem_fn_cc.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_CC
#endif
#ifdef BOOST_MEM_FN_ENABLE_FASTCALL
#define BOOST_MEM_FN_NAME(X) X##_fastcall
#define BOOST_MEM_FN_CC __fastcall
#include <boost/bind/mem_fn_cc.hpp>
#undef BOOST_MEM_FN_NAME
#undef BOOST_MEM_FN_CC
#endif
// data member support
namespace _mfi
{
template<class R, class T> class dm
{
public:
typedef R const & result_type;
typedef T const * argument_type;
private:
typedef R (T::*F);
F f_;
template<class U> R const & call(U & u, T const *) const
{
return (u.*f_);
}
template<class U> R const & call(U & u, void const *) const
{
return (get_pointer(u)->*f_);
}
public:
explicit dm(F f): f_(f) {}
R & operator()(T * p) const
{
return (p->*f_);
}
R const & operator()(T const * p) const
{
return (p->*f_);
}
template<class U> R const & operator()(U const & u) const
{
return call(u, &u);
}
#if !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) && !BOOST_WORKAROUND(__MWERKS__, < 0x3200)
R & operator()(T & t) const
{
return (t.*f_);
}
R const & operator()(T const & t) const
{
return (t.*f_);
}
#endif
bool operator==(dm const & rhs) const
{
return f_ == rhs.f_;
}
bool operator!=(dm const & rhs) const
{
return f_ != rhs.f_;
}
};
} // namespace _mfi
template<class R, class T> _mfi::dm<R, T> mem_fn(R T::*f)
{
return _mfi::dm<R, T>(f);
}
} // namespace boost
#endif // #ifndef BOOST_BIND_MEM_FN_HPP_INCLUDED

51
tools/boost/boost/next_prior.hpp Normal file
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@ -0,0 +1,51 @@
// Boost next_prior.hpp header file ---------------------------------------//
// (C) Copyright Dave Abrahams and Daniel Walker 1999-2003. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/libs/utility for documentation.
// Revision History
// 13 Dec 2003 Added next(x, n) and prior(x, n) (Daniel Walker)
#ifndef BOOST_NEXT_PRIOR_HPP_INCLUDED
#define BOOST_NEXT_PRIOR_HPP_INCLUDED
#include <iterator>
namespace boost {
// Helper functions for classes like bidirectional iterators not supporting
// operator+ and operator-
//
// Usage:
// const std::list<T>::iterator p = get_some_iterator();
// const std::list<T>::iterator prev = boost::prior(p);
// const std::list<T>::iterator next = boost::next(prev, 2);
// Contributed by Dave Abrahams
template <class T>
inline T next(T x) { return ++x; }
template <class T, class Distance>
inline T next(T x, Distance n)
{
std::advance(x, n);
return x;
}
template <class T>
inline T prior(T x) { return --x; }
template <class T, class Distance>
inline T prior(T x, Distance n)
{
std::advance(x, -n);
return x;
}
} // namespace boost
#endif // BOOST_NEXT_PRIOR_HPP_INCLUDED

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