The ubjson extension implements encode to and decode from the Universal Binary JSON Specification data format. You can either parse into or serialize from a variant-like data structure, basic_json, or your own data structures, using json_type_traits.
| UBJSON data item | jsoncons data item | jsoncons tag |
|---|---|---|
| null | null | |
| true or false | bool | |
| uint8_t or integer | int64 | |
| uint8_t or integer | uint64 | |
| float 32 or float 64 | double | |
| string | string | |
| high precision number type | string | bigint |
| high precision number type | string | bigdec |
| array of uint8_t | byte_string | |
| array | array | |
| object | object |
For the examples below you need to include some header files and initialize a buffer of UBJSON data:
#include <iomanip>
#include <iostream>
#include <jsoncons/json.hpp>
#include <jsoncons_ext/ubjson/ubjson.hpp>
#include <jsoncons_ext/jsonpath/jsonpath.hpp>
using namespace jsoncons; // for convenience
const std::vector<uint8_t> data =
{0x5b,0x23,0x55,0x05, // [ # i 5
0x44, // float64
0x40,0x3d,0xf8,0x51,0xeb,0x85,0x1e,0xb8, // 29.97
0x44, // float64
0x40,0x3f,0x21,0x47,0xae,0x14,0x7a,0xe1, // 31.13
0x64, // float32
0x42,0x86,0x00,0x00, // 67.0
0x44, // float64
0x40,0x00,0xe7,0x6c,0x8b,0x43,0x95,0x81, // 2.113
0x44, // float64
0x40,0x37,0xe3,0x8e,0xf3,0x4d,0x6a,0x16 // 23.8889
};jsoncons allows you to work with the UBJSON data similarly to JSON data:
-
As a variant-like data structure, basic_json
-
As a strongly typed C++ data structure that implements json_type_traits
-
With cursor-level access to a stream of parse events
int main()
{
std::cout << std::dec;
std::cout << std::setprecision(15);
// Parse the UBJSON data into a json value
json j = ubjson::decode_ubjson<json>(data);
// Pretty print
std::cout << "(1)\n" << pretty_print(j) << "\n\n";
// Iterate over rows
std::cout << "(2)\n";
for (const auto& item : j.array_range())
{
std::cout << item.as<double>() << " (" << item.tag() << ")\n";
}
std::cout << "\n";
// Select all values less than 30 with JSONPath
std::cout << "(3)\n";
json result = jsonpath::json_query(j,"$[?(@ < 30)]");
std::cout << pretty_print(result) << "\n";
}Output:
(1)
[
29.97,
31.13,
67.0,
2.113,
23.8889
]
(2)
29.97 (n/a)
31.13 (n/a)
67 (n/a)
2.113 (n/a)
23.8889 (n/a)
(3)
[
29.97,
2.113,
23.8889
]
int main()
{
// Parse the UBJSON data into a std::vector<double> value
auto val = ubjson::decode_ubjson<std::vector<double>>(data);
for (auto item : val)
{
std::cout << item << "\n";
}
}Output:
29.97
31.13
67
2.113
23.8889
int main()
{
ubjson::ubjson_bytes_cursor cursor(data);
for (; !cursor.done(); cursor.next())
{
const auto& event = cursor.current();
switch (event.event_type())
{
case staj_event_type::begin_array:
std::cout << event.event_type() << " " << "(" << event.tag() << ")\n";
break;
case staj_event_type::end_array:
std::cout << event.event_type() << " " << "(" << event.tag() << ")\n";
break;
case staj_event_type::begin_object:
std::cout << event.event_type() << " " << "(" << event.tag() << ")\n";
break;
case staj_event_type::end_object:
std::cout << event.event_type() << " " << "(" << event.tag() << ")\n";
break;
case staj_event_type::key:
// Or std::string_view, if supported
std::cout << event.event_type() << ": " << event.get<jsoncons::string_view>() << " " << "(" << event.tag() << ")\n";
break;
case staj_event_type::string_value:
// Or std::string_view, if supported
std::cout << event.event_type() << ": " << event.get<jsoncons::string_view>() << " " << "(" << event.tag() << ")\n";
break;
case staj_event_type::null_value:
std::cout << event.event_type() << " " << "(" << event.tag() << ")\n";
break;
case staj_event_type::bool_value:
std::cout << event.event_type() << ": " << std::boolalpha << event.get<bool>() << " " << "(" << event.tag() << ")\n";
break;
case staj_event_type::int64_value:
std::cout << event.event_type() << ": " << event.get<int64_t>() << " " << "(" << event.tag() << ")\n";
break;
case staj_event_type::uint64_value:
std::cout << event.event_type() << ": " << event.get<uint64_t>() << " " << "(" << event.tag() << ")\n";
break;
case staj_event_type::double_value:
std::cout << event.event_type() << ": " << event.get<double>() << " " << "(" << event.tag() << ")\n";
break;
default:
std::cout << "Unhandled event type " << event.event_type() << " " << "(" << event.tag() << ")\n";
break;
}
}
}Output:
begin_array (n/a)
double_value: 29.97 (n/a)
double_value: 31.13 (n/a)
double_value: 67 (n/a)
double_value: 2.113 (n/a)
double_value: 23.8889 (n/a)
end_array (n/a)
You can apply a filter to a cursor using the pipe syntax, for example,
int main()
{
auto filter = [&](const staj_event& ev, const ser_context&) -> bool
{
return (ev.event_type() == staj_event_type::double_value) && (ev.get<double>() < 30.0);
};
ubjson::ubjson_bytes_cursor cursor(data);
auto filtered_c = cursor | filter;
for (; !filtered_c.done(); filtered_c.next())
{
const auto& event = filtered_c.current();
switch (event.event_type())
{
case staj_event_type::double_value:
std::cout << event.event_type() << ": " << event.get<double>() << " " << "(" << event.tag() << ")\n";
break;
default:
std::cout << "Unhandled event type " << event.event_type() << " " << "(" << event.tag() << ")\n";
break;
}
}
}Output:
double_value: 29.97 (n/a)
double_value: 2.113 (n/a)
double_value: 23.8889 (n/a)
#include <jsoncons/json.hpp>
#include <jsoncons_ext/ubjson/ubjson.hpp>
#include <jsoncons_ext/jsonpointer/jsonpointer.hpp>
using namespace jsoncons;
int main()
{
ojson j1 = ojson::parse(R"(
{
"application": "hiking",
"reputons": [
{
"rater": "HikingAsylum",
"assertion": "advanced",
"rated": "Marilyn C",
"rating": 0.90
}
]
}
)");
// Encode a basic_json value to UBJSON
std::vector<uint8_t> data;
ubjson::encode_ubjson(j1, data);
// Decode UBJSON to a basic_json value
ojson j2 = ubjson::decode_ubjson<ojson>(data);
std::cout << "(1)\n" << pretty_print(j2) << "\n\n";
// Accessing the data items
const ojson& reputons = j2["reputons"];
std::cout << "(2)\n";
for (auto element : reputons.array_range())
{
std::cout << element.at("rated").as<std::string>() << ", ";
std::cout << element.at("rating").as<double>() << "\n";
}
std::cout << std::endl;
// Get a UBJSON value for a nested data item with jsonpointer
std::error_code ec;
const auto& rated = jsonpointer::get(j2, "/reputons/0/rated", ec);
if (!ec)
{
std::cout << "(3) " << rated.as_string() << "\n";
}
std::cout << std::endl;
}Output:
(1)
{
"application": "hiking",
"reputons": [
{
"rater": "HikingAsylum",
"assertion": "advanced",
"rated": "Marilyn C",
"rating": 0.9
}
]
}
(2)
Marilyn C, 0.9
(3) Marilyn C
#include <cassert>
#include <iostream>
#include <jsoncons/json.hpp>
#include <jsoncons_ext/ubjson/ubjson.hpp>
namespace ns {
enum class hiking_experience {beginner,intermediate,advanced};
class hiking_reputon
{
std::string rater_;
hiking_experience assertion_;
std::string rated_;
double rating_;
public:
hiking_reputon(const std::string& rater,
hiking_experience assertion,
const std::string& rated,
double rating)
: rater_(rater), assertion_(assertion), rated_(rated), rating_(rating)
{
}
const std::string& rater() const {return rater_;}
hiking_experience assertion() const {return assertion_;}
const std::string& rated() const {return rated_;}
double rating() const {return rating_;}
friend bool operator==(const hiking_reputon& lhs, const hiking_reputon& rhs)
{
return lhs.rater_ == rhs.rater_ && lhs.assertion_ == rhs.assertion_ &&
lhs.rated_ == rhs.rated_ && lhs.rating_ == rhs.rating_;
}
friend bool operator!=(const hiking_reputon& lhs, const hiking_reputon& rhs)
{
return !(lhs == rhs);
};
};
class hiking_reputation
{
std::string application_;
std::vector<hiking_reputon> reputons_;
public:
hiking_reputation(const std::string& application,
const std::vector<hiking_reputon>& reputons)
: application_(application),
reputons_(reputons)
{}
const std::string& application() const { return application_;}
const std::vector<hiking_reputon>& reputons() const { return reputons_;}
friend bool operator==(const hiking_reputation& lhs, const hiking_reputation& rhs)
{
return (lhs.application_ == rhs.application_) && (lhs.reputons_ == rhs.reputons_);
}
friend bool operator!=(const hiking_reputation& lhs, const hiking_reputation& rhs)
{
return !(lhs == rhs);
};
};
} // namespace ns
// Declare the traits. Specify which data members need to be serialized.
JSONCONS_ENUM_TRAITS(ns::hiking_experience, beginner, intermediate, advanced)
JSONCONS_ALL_CTOR_GETTER_TRAITS(ns::hiking_reputon, rater, assertion, rated, rating)
JSONCONS_ALL_CTOR_GETTER_TRAITS(ns::hiking_reputation, application, reputons)
int main()
{
ns::hiking_reputation val("hiking", { ns::hiking_reputon{"HikingAsylum",ns::hiking_experience::advanced,"Marilyn C",0.90} });
// Encode a ns::hiking_reputation value to UBJSON
std::vector<uint8_t> data;
ubjson::encode_ubjson(val, data);
// Decode UBJSON to a ns::hiking_reputation value
ns::hiking_reputation val2 = ubjson::decode_ubjson<ns::hiking_reputation>(data);
assert(val2 == val);
}