boost/test/utils/runtime/argument_factory.hpp
// (C) Copyright Gennadiy Rozental 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) // See http://www.boost.org/libs/test for the library home page. // // File : $RCSfile$ // // Version : $Revision$ // // Description : argument factories for different kinds of parameters // *************************************************************************** #ifndef BOOST_TEST_UTILS_RUNTIME_ARGUMENT_FACTORY_HPP #define BOOST_TEST_UTILS_RUNTIME_ARGUMENT_FACTORY_HPP // Boost.Test Runtime parameters #include <boost/test/utils/runtime/errors.hpp> #include <boost/test/utils/runtime/argument.hpp> #include <boost/test/utils/runtime/modifier.hpp> // Boost.Test #include <boost/test/utils/basic_cstring/io.hpp> #include <boost/test/utils/basic_cstring/compare.hpp> #include <boost/test/utils/string_cast.hpp> // Boost #include <boost/function/function2.hpp> // STL #include <vector> #include <boost/test/detail/suppress_warnings.hpp> namespace boost { namespace runtime { // ************************************************************************** // // ************** runtime::value_interpreter ************** // // ************************************************************************** // template<typename ValueType, bool is_enum> struct value_interpreter; //____________________________________________________________________________// template<typename ValueType> struct value_interpreter<ValueType, false> { template<typename Modifiers> explicit value_interpreter( Modifiers const& ) {} ValueType interpret( cstring param_name, cstring source ) const { ValueType res; if( !unit_test::utils::string_as<ValueType>( source, res ) ) BOOST_TEST_I_THROW( format_error( param_name ) << source << " can't be interpreted as value of parameter " << param_name << "." ); return res; } }; //____________________________________________________________________________// template<> struct value_interpreter<std::string, false> { template<typename Modifiers> explicit value_interpreter( Modifiers const& ) {} std::string interpret( cstring, cstring source ) const { return std::string( source.begin(), source.size() ); } }; //____________________________________________________________________________// template<> struct value_interpreter<cstring, false> { template<typename Modifiers> explicit value_interpreter( Modifiers const& ) {} cstring interpret( cstring, cstring source ) const { return source; } }; //____________________________________________________________________________// template<> struct value_interpreter<bool, false> { template<typename Modifiers> explicit value_interpreter( Modifiers const& ) {} bool interpret( cstring param_name, cstring source ) const { static cstring const s_YES( "YES" ); static cstring const s_Y( "Y" ); static cstring const s_NO( "NO" ); static cstring const s_N( "N" ); static cstring const s_TRUE( "TRUE" ); static cstring const s_FALSE( "FALSE" ); static cstring const s_one( "1" ); static cstring const s_zero( "0" ); source.trim(); if( source.is_empty() || case_ins_eq( source, s_YES ) || case_ins_eq( source, s_Y ) || case_ins_eq( source, s_one ) || case_ins_eq( source, s_TRUE ) ) return true; if( case_ins_eq( source, s_NO ) || case_ins_eq( source, s_N ) || case_ins_eq( source, s_zero ) || case_ins_eq( source, s_FALSE ) ) return false; BOOST_TEST_I_THROW( format_error( param_name ) << source << " can't be interpreted as bool value." ); } }; //____________________________________________________________________________// template<typename EnumType> struct value_interpreter<EnumType, true> { template<typename Modifiers> explicit value_interpreter( Modifiers const& m ) #if defined(BOOST_TEST_CLA_NEW_API) : m_name_to_value( m[enum_values<EnumType>::value] ) { } #else { std::vector<std::pair<cstring,EnumType> > const& values = m[enum_values<EnumType>::value]; m_name_to_value.insert( values.begin(), values.end() ); } #endif EnumType interpret( cstring param_name, cstring source ) const { typename std::map<cstring,EnumType>::const_iterator found = m_name_to_value.find( source ); BOOST_TEST_I_ASSRT( found != m_name_to_value.end(), format_error( param_name ) << source << " is not a valid enumeration value name for parameter " << param_name << "." ); return found->second; } private: // Data members std::map<cstring,EnumType> m_name_to_value; }; //____________________________________________________________________________// // ************************************************************************** // // ************** runtime::argument_factory ************** // // ************************************************************************** // template<typename ValueType, bool is_enum, bool repeatable> class argument_factory; //____________________________________________________________________________// template<typename ValueType, bool is_enum> class argument_factory<ValueType, is_enum, false> { public: template<typename Modifiers> explicit argument_factory( Modifiers const& m ) : m_interpreter( m ) , m_optional_value( nfp::opt_get( m, optional_value, ValueType() ) ) , m_default_value( nfp::opt_get( m, default_value, ValueType() ) ) { } void produce_argument( cstring source, cstring param_name, arguments_store& store ) const { store.set( param_name, source.empty() ? m_optional_value : m_interpreter.interpret( param_name, source ) ); } void produce_default( cstring param_name, arguments_store& store ) const { store.set( param_name, m_default_value ); } private: // Data members typedef value_interpreter<ValueType, is_enum> interp_t; interp_t m_interpreter; ValueType m_optional_value; ValueType m_default_value; }; //____________________________________________________________________________// template<typename ValueType, bool is_enum> class argument_factory<ValueType, is_enum, true> { public: template<typename Modifiers> explicit argument_factory( Modifiers const& m ) : m_interpreter( m ) { } void produce_argument( cstring source, cstring param_name, arguments_store& store ) const { ValueType value = m_interpreter.interpret( param_name, source ); if( store.has( param_name ) ) { std::vector<ValueType>& values = store.get<std::vector<ValueType> >( param_name ); values.push_back( value ); } else { std::vector<ValueType> values( 1, value ); store.set( param_name, values ); } } void produce_default( cstring param_name, arguments_store& store ) const { store.set( param_name, std::vector<ValueType>() ); } private: // Data members value_interpreter<ValueType, is_enum> m_interpreter; }; //____________________________________________________________________________// } // namespace runtime } // namespace boost #include <boost/test/detail/enable_warnings.hpp> #endif // BOOST_TEST_UTILS_RUNTIME_ARGUMENT_FACTORY_HPP