/// @file // Boost.Convert // Copyright (c) 2009-2020 Vladimir Batov. // // Many thanks to Julian Gonggrijp, Rob Stewart, Andrzej Krzemienski, Matus Chochlik, Jeroen Habraken, // Hartmut Kaiser, Joel De Guzman, Thijs (M.A.) van den Berg, Roland Bock, Gavin Lambert, Paul Bristow, // Alex Hagen-Zanker, Christopher Kormanyos for taking part in the Boost.Convert review. // // Special thanks to: // // 1. Alex Hagen-Zanker, Roland Bock, Rob Stewart for their considerable contributions to the design // and implementation of the library; // 2. Andrzej Krzemienski for helping to partition responsibilities and to ultimately pave // the way for the boost::optional and future std::tr2::optional deployment; // 3. Edward Diener the Boost Review Manager for helping with the converters' design, his continuous // involvement, technical and administrative help, guidance and advice; // 4. Joel De Guzman, Rob Stewart and Alex Hagen-Zanker for making sure the performance tests work // as they should; // 5. Paul Bristow for helping great deal with the documentation; // 6. Kevlin Henney and Dave Abrahams for their lexical_cast-related insights and explanations. // // Use, modification and distribution are subject to the Boost Software License, // Version 1.0. See http://www.boost.org/LICENSE_1_0.txt. #ifndef BOOST_CONVERT_HPP #define BOOST_CONVERT_HPP #include #include namespace boost { namespace detail { enum throw_on_failure {}; } /// @details boost::throw_on_failure is the 'tag' object /// to request the exception-throwing behavior. detail::throw_on_failure const throw_on_failure = detail::throw_on_failure(0); namespace cnv { template struct reference; struct by_default; } /// @brief Boost.Convert main deployment interface /// @param[in] value_in Value of the TypeIn type to be converted to the TypeOut type /// @param[in] converter Converter to be used for conversion /// @return boost::optional result of conversion together with the indication of /// success or failure of the conversion request. /// @details For example, /// @code /// boost::cnv::cstream cnv; /// /// boost::optional i = boost::convert("12", cnv); /// boost::optional s = boost::convert(123.456, cnv); /// @endcode template boost::optional convert(TypeIn const& value_in, Converter const& converter) { optional result; boost::unwrap_ref(converter)(value_in, result); return result; } namespace cnv { namespace detail { template struct delayed_resolution { static optional convert(TypeIn const& value_in) { return boost::convert(value_in, Converter()); } }; }} /// @brief Boost.Convert deployment interface with the default converter /// @details For example, /// @code /// struct boost::cnv::by_default : boost::cnv::cstream {}; /// /// // boost::cnv::cstream (through boost::cnv::by_default) is deployed /// // as the default converter when no converter is provided explicitly. /// boost::optional i = boost::convert("12"); /// boost::optional s = boost::convert(123.456); /// @endcode template boost::optional convert(TypeIn const& value_in) { return cnv::detail::delayed_resolution::convert(value_in); } } namespace boost { /// @brief Boost.Convert non-optional deployment interface template TypeOut convert(TypeIn const& value_in, Converter const& converter, boost::detail::throw_on_failure) { return convert(value_in, converter).value(); } template typename std::enable_if::value, TypeOut>::type convert(TypeIn const& value_in, Converter const& converter, Fallback const& fallback) { return convert(value_in, converter).value_or(fallback); } template typename std::enable_if::value, TypeOut>::type convert(TypeIn const& value_in, Converter const& converter, Fallback fallback) { return convert(value_in, converter).value_or_eval(fallback); } } namespace boost { namespace cnv { template struct reference { using this_type = reference; reference (Converter const& cnv) : converter_(cnv) {} reference (Converter&& cnv) : converter_(std::move(cnv)) {} this_type& value_or(TypeOut const& fallback) { return (fallback_ = fallback, *this); } TypeOut operator()(TypeIn const& value_in) const { optional result = convert(value_in, converter_); return result ? result.get() : fallback_.value(); } private: Converter converter_; optional fallback_; }; template struct reference { using this_type = reference; reference (Converter const& cnv) : converter_(cnv) {} reference (Converter&& cnv) : converter_(std::move(cnv)) {} this_type& value_or(TypeOut const& fallback) { return (fallback_ = fallback, *this); } template TypeOut operator()(TypeIn const& value_in) const { optional result = convert(value_in, converter_); return result ? result.get() : fallback_.value(); } private: Converter converter_; optional fallback_; }; /// @brief Boost.Convert deployment interface with algorithms /// @details For example, /// @code /// std::array strs = {{ " 5", "0XF", "not an int" }}; /// std::vector ints; /// boost::cnv::cstream cnv; /// /// cnv(std::hex)(std::skipws); /// /// std::transform( /// strs.begin(), /// strs.end(), /// std::back_inserter(ints), /// boost::cnv::apply(std::cref(cnv)).value_or(-1)); /// @endcode template reference apply(Converter const& cnv) { return cnv::reference(cnv); } template reference apply(Converter const& cnv) { return cnv::reference(cnv); } }} #endif // BOOST_CONVERT_HPP