// Copyright 2013 Daniel Parker // Distributed under the Boost license, Version 1.0. // (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // See https://github.com/danielaparker/jsoncons for latest version #ifndef JSONCONS_MSGPACK_DECODE_MSGPACK_HPP #define JSONCONS_MSGPACK_DECODE_MSGPACK_HPP #include #include #include #include // std::enable_if #include // std::basic_istream #include #include #include #include #include namespace jsoncons { namespace msgpack { template typename std::enable_if::value && type_traits::is_byte_sequence::value,T>::type decode_msgpack(const Source& v, const msgpack_decode_options& options = msgpack_decode_options()) { jsoncons::json_decoder decoder; auto adaptor = make_json_visitor_adaptor(decoder); basic_msgpack_reader reader(v, adaptor, options); reader.read(); if (!decoder.is_valid()) { JSONCONS_THROW(ser_error(conv_errc::conversion_failed, reader.line(), reader.column())); } return decoder.get_result(); } template typename std::enable_if::value && type_traits::is_byte_sequence::value,T>::type decode_msgpack(const Source& v, const msgpack_decode_options& options = msgpack_decode_options()) { basic_msgpack_cursor cursor(v, options); json_decoder> decoder{}; std::error_code ec; T val = decode_traits::decode(cursor, decoder, ec); if (ec) { JSONCONS_THROW(ser_error(ec, cursor.context().line(), cursor.context().column())); } return val; } template typename std::enable_if::value,T>::type decode_msgpack(std::istream& is, const msgpack_decode_options& options = msgpack_decode_options()) { jsoncons::json_decoder decoder; auto adaptor = make_json_visitor_adaptor(decoder); msgpack_stream_reader reader(is, adaptor, options); reader.read(); if (!decoder.is_valid()) { JSONCONS_THROW(ser_error(conv_errc::conversion_failed, reader.line(), reader.column())); } return decoder.get_result(); } template typename std::enable_if::value,T>::type decode_msgpack(std::istream& is, const msgpack_decode_options& options = msgpack_decode_options()) { basic_msgpack_cursor cursor(is, options); json_decoder> decoder{}; std::error_code ec; T val = decode_traits::decode(cursor, decoder, ec); if (ec) { JSONCONS_THROW(ser_error(ec, cursor.context().line(), cursor.context().column())); } return val; } template typename std::enable_if::value,T>::type decode_msgpack(InputIt first, InputIt last, const msgpack_decode_options& options = msgpack_decode_options()) { jsoncons::json_decoder decoder; auto adaptor = make_json_visitor_adaptor(decoder); basic_msgpack_reader> reader(binary_iterator_source(first, last), adaptor, options); reader.read(); if (!decoder.is_valid()) { JSONCONS_THROW(ser_error(conv_errc::conversion_failed, reader.line(), reader.column())); } return decoder.get_result(); } template typename std::enable_if::value,T>::type decode_msgpack(InputIt first, InputIt last, const msgpack_decode_options& options = msgpack_decode_options()) { basic_msgpack_cursor> cursor(binary_iterator_source(first, last), options); json_decoder> decoder{}; std::error_code ec; T val = decode_traits::decode(cursor, decoder, ec); if (ec) { JSONCONS_THROW(ser_error(ec, cursor.context().line(), cursor.context().column())); } return val; } // With leading allocator parameter template typename std::enable_if::value && type_traits::is_byte_sequence::value,T>::type decode_msgpack(temp_allocator_arg_t, const TempAllocator& temp_alloc, const Source& v, const msgpack_decode_options& options = msgpack_decode_options()) { json_decoder decoder(temp_alloc); auto adaptor = make_json_visitor_adaptor(decoder); basic_msgpack_reader reader(v, adaptor, options, temp_alloc); reader.read(); if (!decoder.is_valid()) { JSONCONS_THROW(ser_error(conv_errc::conversion_failed, reader.line(), reader.column())); } return decoder.get_result(); } template typename std::enable_if::value && type_traits::is_byte_sequence::value,T>::type decode_msgpack(temp_allocator_arg_t, const TempAllocator& temp_alloc, const Source& v, const msgpack_decode_options& options = msgpack_decode_options()) { basic_msgpack_cursor cursor(v, options, temp_alloc); json_decoder,TempAllocator> decoder(temp_alloc, temp_alloc); std::error_code ec; T val = decode_traits::decode(cursor, decoder, ec); if (ec) { JSONCONS_THROW(ser_error(ec, cursor.context().line(), cursor.context().column())); } return val; } template typename std::enable_if::value,T>::type decode_msgpack(temp_allocator_arg_t, const TempAllocator& temp_alloc, std::istream& is, const msgpack_decode_options& options = msgpack_decode_options()) { json_decoder decoder(temp_alloc); auto adaptor = make_json_visitor_adaptor(decoder); basic_msgpack_reader reader(is, adaptor, options, temp_alloc); reader.read(); if (!decoder.is_valid()) { JSONCONS_THROW(ser_error(conv_errc::conversion_failed, reader.line(), reader.column())); } return decoder.get_result(); } template typename std::enable_if::value,T>::type decode_msgpack(temp_allocator_arg_t, const TempAllocator& temp_alloc, std::istream& is, const msgpack_decode_options& options = msgpack_decode_options()) { basic_msgpack_cursor cursor(is, options, temp_alloc); json_decoder,TempAllocator> decoder(temp_alloc, temp_alloc); std::error_code ec; T val = decode_traits::decode(cursor, decoder, ec); if (ec) { JSONCONS_THROW(ser_error(ec, cursor.context().line(), cursor.context().column())); } return val; } } // msgpack } // jsoncons #endif