variable.hpp
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HPP
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// (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: 49312 $//// Description : defines model of program environment variable// ***************************************************************************#ifndef BOOST_RT_ENV_VARIABLE_HPP_062604GER#define BOOST_RT_ENV_VARIABLE_HPP_062604GER// Boost.Runtime.Parameter#include <boost/test/utils/runtime/config.hpp>#include <boost/test/utils/runtime/fwd.hpp>#include <boost/test/utils/runtime/parameter.hpp>#include <boost/test/utils/runtime/argument.hpp>#include <boost/test/utils/runtime/env/fwd.hpp>// Boost#include <boost/optional.hpp>namespace boost {namespace BOOST_RT_PARAM_NAMESPACE {namespace environment {// ************************************************************************** //// ************** runtime::environment::variable_data ************** //// ************************************************************************** //namespace rt_env_detail {struct variable_data : public runtime::parameter { cstring m_var_name; dstring m_global_id; argument_ptr m_value;};} // namespace rt_env_detail// ************************************************************************** //// ************** runtime::environment::variable_base ************** //// ************************************************************************** //class variable_base {public: explicit variable_base( rt_env_detail::variable_data& data ) : m_data( &data ) {} // arguments access template<typename T> T const& value() const { return arg_value<T>( *m_data->m_value ); } template<typename T> void value( boost::optional<T>& res ) const { if( has_value() ) res = arg_value<T>( *m_data->m_value ); else res.reset(); } bool has_value() const { return m_data->m_value; } cstring name() const { return m_data->m_var_name; }protected: // Data members rt_env_detail::variable_data* m_data;} ;// ************************************************************************** //// ************** runtime::environment::variable ************** //// ************************************************************************** //template<typename T = cstring>class variable : public variable_base {public: // Constructors explicit variable( cstring var_name ); template<typename Modifiers> explicit variable( cstring var_name, Modifiers const& m ); explicit variable( rt_env_detail::variable_data& data ) : variable_base( data ) {} // other variable assignment void operator=( variable const& v ) { m_data = v.m_data; } // access methods T const& value() const { return variable_base::value<T>(); } using variable_base::value; // Value assignment template<typename V> void operator=( V const& v ) { if( !has_value() ) m_data->m_value.reset( new typed_argument<T>( *m_data ) ); arg_value<T>( *m_data->m_value ) = v; rt_env_detail::sys_write_var( m_data->m_var_name, format_stream().ref() << value() ); }}; // class variable//____________________________________________________________________________//template<typename CharT, typename Tr,typename T>inline std::basic_ostream<CharT,Tr>&operator<<( std::basic_ostream<CharT,Tr>& os, variable<T> const& v ){ os << v.name() << '='; if( v.has_value() ) os << v.value(); return os;}//____________________________________________________________________________//template<typename T, typename V>inline booloperator==( variable<T> ev, V const& v ){ return ev.has_value() && ev.value() == v;}//____________________________________________________________________________//template<typename T, typename V>inline booloperator==( V const& v, variable<T> ev ){ return ev.has_value() && ev.value() == v;}//____________________________________________________________________________//template<typename T, typename V>inline booloperator!=( variable<T> ev, V const& v ){ return !ev.has_value() || ev.value() != v;}//____________________________________________________________________________//template<typename T, typename V>inline booloperator!=( V const& v, variable<T> ev ){ return !ev.has_value() || ev.value() != v;}//____________________________________________________________________________//} // namespace environment} // namespace BOOST_RT_PARAM_NAMESPACE} // namespace boost// ************************************************************************** //// ************************************************************************** //// Implementation#include <boost/test/utils/runtime/env/environment.hpp>// ************************************************************************** //// ************** runtime::environment::variable ************** //// ************************************************************************** //namespace boost {namespace BOOST_RT_PARAM_NAMESPACE {namespace environment {template<typename T>variable<T>::variable( cstring var_name ): variable_base( environment::var<T>( var_name ) ){}//____________________________________________________________________________//template<typename T>template<typename Modifiers>variable<T>::variable( cstring var_name, Modifiers const& m ): variable_base( environment::var<T>( var_name, m ) ){}//____________________________________________________________________________//} // namespace environment} // namespace BOOST_RT_PARAM_NAMESPACE} // namespace boost#endif // BOOST_RT_ENV_VARIABLE_HPP_062604GER⌨️ 快捷键说明
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