PrusaSlicer-NonPlainar/xs/include/boost/test/utils/named_params.hpp

330 lines
12 KiB
C++

// (C) Copyright Gennadiy Rozental 2005-2008.
// 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/test for the library home page.
//
// File : $RCSfile$
//
// Version : $Revision: 54633 $
//
// Description : facilities for named function parameters support
// ***************************************************************************
#ifndef BOOST_TEST_NAMED_PARAM_022505GER
#define BOOST_TEST_NAMED_PARAM_022505GER
// Boost
#include <boost/config.hpp>
#include <boost/detail/workaround.hpp>
// Boost.Test
#include <boost/test/utils/rtti.hpp>
#include <boost/test/utils/assign_op.hpp>
#include <boost/type_traits/remove_reference.hpp>
#include <boost/test/detail/suppress_warnings.hpp>
//____________________________________________________________________________//
namespace boost {
namespace nfp { // named function parameters
// ************************************************************************** //
// ************** forward declarations ************** //
// ************************************************************************** //
template<typename T, typename unique_id,typename RefType> struct named_parameter;
template<typename unique_id,bool required> struct keyword;
namespace nfp_detail {
template<typename NP1,typename NP2> struct named_parameter_combine;
// ************************************************************************** //
// ************** access_to_invalid_parameter ************** //
// ************************************************************************** //
struct access_to_invalid_parameter {};
//____________________________________________________________________________//
inline void
report_access_to_invalid_parameter()
{
throw access_to_invalid_parameter();
}
//____________________________________________________________________________//
// ************************************************************************** //
// ************** nil ************** //
// ************************************************************************** //
struct nil {
template<typename T>
#if defined(__GNUC__) || defined(__HP_aCC) || defined(__EDG__) || defined(__SUNPRO_CC)
operator T() const
#else
operator T const&() const
#endif
{ report_access_to_invalid_parameter(); static T* v = 0; return *v; }
template<typename T>
T any_cast() const
{ report_access_to_invalid_parameter(); static typename remove_reference<T>::type* v = 0; return *v; }
template<typename Arg1>
nil operator()( Arg1 const& )
{ report_access_to_invalid_parameter(); return nil(); }
template<typename Arg1,typename Arg2>
nil operator()( Arg1 const&, Arg2 const& )
{ report_access_to_invalid_parameter(); return nil(); }
template<typename Arg1,typename Arg2,typename Arg3>
nil operator()( Arg1 const&, Arg2 const&, Arg3 const& )
{ report_access_to_invalid_parameter(); return nil(); }
// Visitation support
template<typename Visitor>
void apply_to( Visitor& V ) const {}
static nil& inst() { static nil s_inst; return s_inst; }
private:
nil() {}
};
// ************************************************************************** //
// ************** named_parameter_base ************** //
// ************************************************************************** //
template<typename Derived>
struct named_parameter_base {
template<typename NP>
named_parameter_combine<NP,Derived>
operator,( NP const& np ) const { return named_parameter_combine<NP,Derived>( np, *static_cast<Derived const*>(this) ); }
};
//____________________________________________________________________________//
// ************************************************************************** //
// ************** named_parameter_combine ************** //
// ************************************************************************** //
template<typename NP, typename Rest = nil>
struct named_parameter_combine
: Rest
, named_parameter_base<named_parameter_combine<NP,Rest> > {
typedef typename NP::ref_type res_type;
typedef named_parameter_combine<NP,Rest> self_type;
// Constructor
named_parameter_combine( NP const& np, Rest const& r )
: Rest( r )
, m_param( np )
{}
// Access methods
res_type operator[]( keyword<typename NP::id,true> kw ) const { return m_param[kw]; }
res_type operator[]( keyword<typename NP::id,false> kw ) const { return m_param[kw]; }
using Rest::operator[];
bool has( keyword<typename NP::id,false> kw ) const { return m_param.has( kw ); }
using Rest::has;
void erase( keyword<typename NP::id,false> kw ) const { m_param.erase( kw ); }
using Rest::erase;
#if BOOST_WORKAROUND(__MWERKS__, BOOST_TESTED_AT(0x3206)) || \
BOOST_WORKAROUND(__BORLANDC__, BOOST_TESTED_AT(0x0610))
template<typename NP>
named_parameter_combine<NP,self_type> operator,( NP const& np ) const
{ return named_parameter_combine<NP,self_type>( np, *this ); }
#else
using named_parameter_base<named_parameter_combine<NP,Rest> >::operator,;
#endif
// Visitation support
template<typename Visitor>
void apply_to( Visitor& V ) const
{
m_param.apply_to( V );
Rest::apply_to( V );
}
private:
// Data members
NP m_param;
};
} // namespace nfp_detail
// ************************************************************************** //
// ************** named_parameter ************** //
// ************************************************************************** //
template<typename T, typename unique_id,typename ReferenceType=T&>
struct named_parameter
: nfp_detail::named_parameter_base<named_parameter<T, unique_id,ReferenceType> >
{
typedef nfp_detail::nil nil_t;
typedef T data_type;
typedef ReferenceType ref_type;
typedef unique_id id;
// Constructor
explicit named_parameter( ref_type v )
: m_value( v )
, m_erased( false )
{}
named_parameter( named_parameter const& np )
: m_value( np.m_value )
, m_erased( np.m_erased )
{}
// Access methods
ref_type operator[]( keyword<unique_id,true> ) const { return m_erased ? nil_t::inst().template any_cast<ref_type>() : m_value; }
ref_type operator[]( keyword<unique_id,false> ) const { return m_erased ? nil_t::inst().template any_cast<ref_type>() : m_value; }
template<typename UnknownId>
nil_t operator[]( keyword<UnknownId,false> ) const { return nil_t::inst(); }
bool has( keyword<unique_id,false> ) const { return !m_erased; }
template<typename UnknownId>
bool has( keyword<UnknownId,false> ) const { return false; }
void erase( keyword<unique_id,false> ) const { m_erased = true; }
template<typename UnknownId>
void erase( keyword<UnknownId,false> ) const {}
// Visitation support
template<typename Visitor>
void apply_to( Visitor& V ) const
{
V.set_parameter( rtti::type_id<unique_id>(), m_value );
}
private:
// Data members
ref_type m_value;
mutable bool m_erased;
};
//____________________________________________________________________________//
// ************************************************************************** //
// ************** no_params ************** //
// ************************************************************************** //
namespace nfp_detail {
typedef named_parameter<char, struct no_params_type_t,char> no_params_type;
} // namespace nfp_detail
namespace {
nfp_detail::no_params_type no_params( '\0' );
} // local namespace
//____________________________________________________________________________//
// ************************************************************************** //
// ************** keyword ************** //
// ************************************************************************** //
template<typename unique_id, bool required = false>
struct keyword {
typedef unique_id id;
template<typename T>
named_parameter<T const,unique_id>
operator=( T const& t ) const { return named_parameter<T const,unique_id>( t ); }
template<typename T>
named_parameter<T,unique_id>
operator=( T& t ) const { return named_parameter<T,unique_id>( t ); }
named_parameter<char const*,unique_id,char const*>
operator=( char const* t ) const { return named_parameter<char const*,unique_id,char const*>( t ); }
};
//____________________________________________________________________________//
// ************************************************************************** //
// ************** typed_keyword ************** //
// ************************************************************************** //
template<typename T, typename unique_id, bool required = false>
struct typed_keyword : keyword<unique_id,required> {
named_parameter<T const,unique_id>
operator=( T const& t ) const { return named_parameter<T const,unique_id>( t ); }
named_parameter<T,unique_id>
operator=( T& t ) const { return named_parameter<T,unique_id>( t ); }
};
//____________________________________________________________________________//
template<typename unique_id>
struct typed_keyword<bool,unique_id,false>
: keyword<unique_id,false>
, named_parameter<bool,unique_id,bool> {
typedef unique_id id;
typed_keyword() : named_parameter<bool,unique_id,bool>( true ) {}
named_parameter<bool,unique_id,bool>
operator!() const { return named_parameter<bool,unique_id,bool>( false ); }
};
//____________________________________________________________________________//
// ************************************************************************** //
// ************** optionally_assign ************** //
// ************************************************************************** //
template<typename T>
inline void
optionally_assign( T&, nfp_detail::nil )
{
nfp_detail::report_access_to_invalid_parameter();
}
//____________________________________________________________________________//
template<typename T, typename Source>
inline void
#if BOOST_WORKAROUND( __MWERKS__, BOOST_TESTED_AT( 0x3003 ) ) \
|| BOOST_WORKAROUND( __DECCXX_VER, BOOST_TESTED_AT(60590042) )
optionally_assign( T& target, Source src )
#else
optionally_assign( T& target, Source const& src )
#endif
{
using namespace unit_test;
assign_op( target, src, static_cast<int>(0) );
}
//____________________________________________________________________________//
template<typename T, typename Params, typename Keyword>
inline void
optionally_assign( T& target, Params const& p, Keyword k )
{
if( p.has(k) )
optionally_assign( target, p[k] );
}
//____________________________________________________________________________//
} // namespace nfp
} // namespace boost
#include <boost/test/detail/enable_warnings.hpp>
#endif // BOOST_TEST_NAMED_PARAM_022505GER