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// Copyright 2017 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_DECODE_JSON_HPP
#define JSONCONS_DECODE_JSON_HPP
#include <iostream>
#include <string>
#include <tuple>
#include <memory>
#include <istream> // std::basic_istream
#include <jsoncons/decode_traits.hpp>
#include <jsoncons/json_cursor.hpp>
namespace jsoncons {
// decode_json
template <class T, class Source>
typename std::enable_if<type_traits::is_basic_json<T>::value &&
type_traits::is_sequence_of<Source,typename T::char_type>::value,T>::type
decode_json(const Source& s,
const basic_json_decode_options<typename Source::value_type>& options = basic_json_decode_options<typename Source::value_type>())
{
using char_type = typename Source::value_type;
jsoncons::json_decoder<T> decoder;
basic_json_reader<char_type, string_source<char_type>> reader(s, decoder, options);
reader.read();
if (!decoder.is_valid())
{
JSONCONS_THROW(ser_error(conv_errc::conversion_failed, reader.line(), reader.column()));
}
return decoder.get_result();
}
template <class T, class Source>
typename std::enable_if<!type_traits::is_basic_json<T>::value &&
type_traits::is_char_sequence<Source>::value,T>::type
decode_json(const Source& s,
const basic_json_decode_options<typename Source::value_type>& options = basic_json_decode_options<typename Source::value_type>())
{
using char_type = typename Source::value_type;
basic_json_cursor<char_type,string_source<char_type>> cursor(s, options, default_json_parsing());
jsoncons::json_decoder<basic_json<char_type>> decoder;
std::error_code ec;
T val = decode_traits<T,char_type>::decode(cursor, decoder, ec);
if (ec)
{
JSONCONS_THROW(ser_error(ec, cursor.context().line(), cursor.context().column()));
}
return val;
}
template <class T, class CharT>
typename std::enable_if<type_traits::is_basic_json<T>::value,T>::type
decode_json(std::basic_istream<CharT>& is,
const basic_json_decode_options<CharT>& options = basic_json_decode_options<CharT>())
{
jsoncons::json_decoder<T> decoder;
basic_json_reader<CharT, stream_source<CharT>> reader(is, decoder, options);
reader.read();
if (!decoder.is_valid())
{
JSONCONS_THROW(ser_error(conv_errc::conversion_failed, reader.line(), reader.column()));
}
return decoder.get_result();
}
template <class T, class CharT>
typename std::enable_if<!type_traits::is_basic_json<T>::value,T>::type
decode_json(std::basic_istream<CharT>& is,
const basic_json_decode_options<CharT>& options = basic_json_decode_options<CharT>())
{
basic_json_cursor<CharT> cursor(is, options, default_json_parsing());
json_decoder<basic_json<CharT>> decoder{};
std::error_code ec;
T val = decode_traits<T,CharT>::decode(cursor, decoder, ec);
if (ec)
{
JSONCONS_THROW(ser_error(ec, cursor.line(), cursor.column()));
}
return val;
}
template <class T, class InputIt>
typename std::enable_if<type_traits::is_basic_json<T>::value,T>::type
decode_json(InputIt first, InputIt last,
const basic_json_decode_options<typename std::iterator_traits<InputIt>::value_type>& options =
basic_json_decode_options<typename std::iterator_traits<InputIt>::value_type>())
{
using char_type = typename std::iterator_traits<InputIt>::value_type;
jsoncons::json_decoder<T> decoder;
basic_json_reader<char_type, iterator_source<InputIt>> reader(iterator_source<InputIt>(first,last), decoder, options);
reader.read();
if (!decoder.is_valid())
{
JSONCONS_THROW(ser_error(conv_errc::conversion_failed, reader.line(), reader.column()));
}
return decoder.get_result();
}
template <class T, class InputIt>
typename std::enable_if<!type_traits::is_basic_json<T>::value,T>::type
decode_json(InputIt first, InputIt last,
const basic_json_decode_options<typename std::iterator_traits<InputIt>::value_type>& options =
basic_json_decode_options<typename std::iterator_traits<InputIt>::value_type>())
{
using char_type = typename std::iterator_traits<InputIt>::value_type;
basic_json_cursor<char_type,iterator_source<InputIt>> cursor(iterator_source<InputIt>(first, last), options, default_json_parsing());
jsoncons::json_decoder<basic_json<char_type>> decoder;
std::error_code ec;
T val = decode_traits<T,char_type>::decode(cursor, decoder, ec);
if (ec)
{
JSONCONS_THROW(ser_error(ec, cursor.line(), cursor.column()));
}
return val;
}
// With leading allocator parameter
template <class T,class Source,class TempAllocator>
typename std::enable_if<type_traits::is_basic_json<T>::value &&
type_traits::is_sequence_of<Source,typename T::char_type>::value,T>::type
decode_json(temp_allocator_arg_t, const TempAllocator& temp_alloc,
const Source& s,
const basic_json_decode_options<typename Source::value_type>& options = basic_json_decode_options<typename Source::value_type>())
{
using char_type = typename Source::value_type;
json_decoder<T,TempAllocator> decoder(temp_alloc);
basic_json_reader<char_type, string_source<char_type>,TempAllocator> reader(s, decoder, 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 <class T,class Source,class TempAllocator>
typename std::enable_if<!type_traits::is_basic_json<T>::value &&
type_traits::is_char_sequence<Source>::value,T>::type
decode_json(temp_allocator_arg_t, const TempAllocator& temp_alloc,
const Source& s,
const basic_json_decode_options<typename Source::value_type>& options = basic_json_decode_options<typename Source::value_type>())
{
using char_type = typename Source::value_type;
basic_json_cursor<char_type,string_source<char_type>,TempAllocator> cursor(s, options, default_json_parsing(), temp_alloc);
json_decoder<basic_json<char_type,sorted_policy,TempAllocator>,TempAllocator> decoder(result_allocator_arg, temp_alloc, temp_alloc);
std::error_code ec;
T val = decode_traits<T,char_type>::decode(cursor, decoder, ec);
if (ec)
{
JSONCONS_THROW(ser_error(ec, cursor.context().line(), cursor.context().column()));
}
return val;
}
template <class T,class CharT,class TempAllocator>
typename std::enable_if<type_traits::is_basic_json<T>::value,T>::type
decode_json(temp_allocator_arg_t, const TempAllocator& temp_alloc,
std::basic_istream<CharT>& is,
const basic_json_decode_options<CharT>& options = basic_json_decode_options<CharT>())
{
json_decoder<T,TempAllocator> decoder(temp_alloc);
basic_json_reader<CharT, stream_source<CharT>,TempAllocator> reader(is, decoder, 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 <class T,class CharT,class TempAllocator>
typename std::enable_if<!type_traits::is_basic_json<T>::value,T>::type
decode_json(temp_allocator_arg_t, const TempAllocator& temp_alloc,
std::basic_istream<CharT>& is,
const basic_json_decode_options<CharT>& options = basic_json_decode_options<CharT>())
{
basic_json_cursor<CharT,stream_source<CharT>,TempAllocator> cursor(is, options, default_json_parsing(), temp_alloc);
json_decoder<basic_json<CharT,sorted_policy,TempAllocator>,TempAllocator> decoder(result_allocator_arg, temp_alloc,temp_alloc);
std::error_code ec;
T val = decode_traits<T,CharT>::decode(cursor, decoder, ec);
if (ec)
{
JSONCONS_THROW(ser_error(ec, cursor.context().line(), cursor.context().column()));
}
return val;
}
} // jsoncons
#endif
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