PicoJSON 1.3.0
dotnet add package PicoJSON --version 1.3.0
NuGet\Install-Package PicoJSON -Version 1.3.0
<PackageReference Include="PicoJSON" Version="1.3.0" />
paket add PicoJSON --version 1.3.0
#r "nuget: PicoJSON, 1.3.0"
// Install PicoJSON as a Cake Addin #addin nuget:?package=PicoJSON&version=1.3.0 // Install PicoJSON as a Cake Tool #tool nuget:?package=PicoJSON&version=1.3.0
PicoJSON - a C++ JSON parser / serializer
Copyright © 2009-2010 Cybozu Labs, Inc. Copyright © 2011-2015 Kazuho Oku
Licensed under 2-clause BSD license
Version
Introduction
PicoJSON is a tiny JSON parser / serializer for C++ with following properties:
- header-file only
- no external dependencies (only uses standard C++ libraries)
- STL-frendly (arrays are represented by using std::vector, objects are std::map)
- provides both pull interface and streaming (event-based) interface
Reading JSON using the pull interface
There are several ways to use the pull (DOM-like) interface of picojson.
The easiest way is to use the two-argument parse
function.
std::string json = "[ \"hello JSON\" ]";
picojson::value v;
std::string err = picojson::parse(v, json);
if (! err.empty()) {
std:cerr << err << std::endl;
}
Four-argument parse
function accepts a pair of iterators, and returns the end position of the input.
const char* json = "{\"a\":1}";
picojson::value v;
std::string err;
const char* json_end = picojson::parse(v, json, json + strlen(json), &err);
if (! err.empty()) {
std::cerr << err << std::endl;
}
std::istream_iterator input(std::cin);
picojson::value v;
std::string err;
input = picojson::parse(v, input, std::istream_iterator(), &err);
if (! err.empty()) {
std::cerr << err << std::endl;
}
It is also possible to use the >>
operator to parse the input, however this interface is not thread-safe.
picosjon::value v;
std::cin >> v;
std::string err = picojson::get_last_error();
Accessing the values
Values of a JSON object is represented as instances of picojson::value class.
<pre> namespace picojson {
class value { ...
public:
typedef std::vector<value> array;
typedef std::map<std::string, value> object;
value(); // create a null object
explicit value(bool b); // create a boolean object
explicit value(double n); // create a number object
explicit value(const std::string& s); // create a string object
explicit value(const array& a); // create an array object
explicit value(const object& o); // create an "object"
bool is<picojson::null>() const; // check if the object is "null"
bool is<bool>() const; // check if the object is a boolean
const bool& get<bool>() const; // const accessor (usable only if the object is a boolean)
bool& get<bool>(); // non-const accessor (usable only if the object is a boolean)
bool is<double>() const; // check if the object is a number
const double& get<double>() const; // const accessor (usable only if the object is a number)
double& get<double>(); // non-const accessor (usable only if the object is a number)
bool is<std::string>() const; // check if the object is a string
const std::string& get<std::string>() const;
// const accessor (usable only if the object is a string)
std::string& get<std::string>(); // non-const accessor (usable only if the object is a string)
bool is<array>() const; // check if the object is an array
const array& get<array>() const; // const accessor (usable only if the object is an array)
array& get<array>(); // non-const accessor (usable only if the object is an array)
bool is<object>() const; // check if the object is an "object"
const object& get<object>() const; // const accessor (usable only if the object is an object)
object& get<object>(); // non-const accessor (usable only if the object is an array)
bool evaluate_as_boolean() const; // evaluates the object as a boolean
std::string serialize() const; // returns the object in JSON representation
template<typename Iter> void serialize(Iter os) const;
// serializes the object in JSON representation through an output iterator
std::string to_str() const; // returns the object in string (for casual use)
};
} </pre>
The code below parses a JSON string and prints the contents of the object.
<pre> picojson::value v;
// parse the input std::cin >> v; std::string err = picojson::get_last_error(); if (! err.empty()) { std::cerr << err << std::endl; exit(1); }
// check if the type of the value is "object" if (! v.is<picojson::object>()) { std::cerr << "JSON is not an object" << std::endl; exit(2); }
// obtain a const reference to the map, and print the contents const picojson::value::object& obj = v.get<picojson::object>(); for (picojson::value::object::const_iterator i = obj.begin(); i != obj.end(); ++i) { std::cout << i->first << ': ' << i->second.to_str() << std::endl; } </pre>
Please note that the type check is mandatory; do not forget to check the type of the object by calling is<type>() before accessing the value by calling get<type>().
Reading JSON using the streaming (event-driven) interface
Please refer to the implementation of picojson::default_parse_context and picojson::null_parse_context. There is also an example (examples/streaming.cc) .
Serializing to JSON
Instances of the picojson::value class can be serialized in three ways, to ostream, to std::string, or to an output iterator.
<pre> picojson::value v; ... std::cout << v; </pre>
<pre> picojson::value v; ... std::string json = v.serialize(); </pre>
<pre> picojson::value v; ... v.serialize(std::ostream_iterator<char>(std::cout)); </pre>
Experimental support for int64_t
Experimental suport for int64_t becomes available if the code is compiled with preprocessor macro PICOJSON_USE_INT64
.
Turning on the feature will cause following changes to picojson:
- new constructor
picojson::value(int64_t)
is defined is<int64_t>()
andget<int64_t>()
become available- numerics in JSON within the bounds of int64_t and not using
.
nore
/E
are considered as int64 type - the values are also avaliable as
double
s as well (i.e. all values which are.is<int64_t>() == true
are also.is<double>() == true
) - int64 values are converted to double once
get<double>()
is called
Enabling the feature should not cause compatibility problem with code that do not use the feature.
Further reading
Examples can be found in the <i>examples</i> directory, and on the Wiki. Please add your favorite examples to the Wiki.
Product | Versions Compatible and additional computed target framework versions. |
---|---|
native | native is compatible. |
-
native 0.0
- No dependencies.
NuGet packages (1)
Showing the top 1 NuGet packages that depend on PicoJSON:
Package | Downloads |
---|---|
jwt-cpp
JWT++ is a header only library for creating and validating JSON Web Tokens in C++11. This library supports all the algorithms defined by the JWT specifications, and the modular design allows to easily add additional algorithms without any problems. In the name of flexibility and extensibility, jwt-cpp supports OpenSSL, LibreSSL, and wolfSSL. And there is no hard dependency on a JSON library. |
GitHub repositories
This package is not used by any popular GitHub repositories.
Version | Downloads | Last updated |
---|---|---|
1.3.0 | 1,307 | 9/19/2022 |
Make check is now synonym of Make test and operator= is now safe when part of LHS is being assigned, as well as exception-safe.