example/archiver/archivertest.cpp - platform/external/rapidjson - Git at Google

 #include "archiver.h"
 #include <iostream>
 #include <vector>

 //////////////////////////////////////////////////////////////////////////////
 // Test1: simple object

 struct Student {
     Student() : name(), age(), height(), canSwim() {}
     Student(const std::string name, unsigned age, double height, bool canSwim) :
         name(name), age(age), height(height), canSwim(canSwim)
     {}

     std::string name;
     unsigned age;
     double height;
     bool canSwim;
 };

 template <typename Archiver>
 Archiver& operator&(Archiver& ar, Student& s) {
     ar.StartObject();
     ar.Member("name") & s.name;
     ar.Member("age") & s.age;
     ar.Member("height") & s.height;
     ar.Member("canSwim") & s.canSwim;
     return ar.EndObject();
 }

 std::ostream& operator<<(std::ostream& os, const Student& s) {
     return os << s.name << " " << s.age << " " << s.height << " " << s.canSwim;
 }

 void test1() {
     std::string json;

     // Serialize
     {
         Student s("Lua", 9, 150.5, true);

         JsonWriter writer;
         writer & s;
         json = writer.GetString();
         std::cout << json << std::endl;
     }

     // Deserialize
     {
         Student s;
         JsonReader reader(json.c_str());
         reader & s;
         std::cout << s << std::endl;
     }
 }

 //////////////////////////////////////////////////////////////////////////////
 // Test2: std::vector <=> JSON array
 //
 // You can map a JSON array to other data structures as well

 struct Group {
     Group() : groupName(), students() {}
     std::string groupName;
     std::vector<Student> students;
 };

 template <typename Archiver>
 Archiver& operator&(Archiver& ar, Group& g) {
     ar.StartObject();

     ar.Member("groupName");
     ar & g.groupName;

     ar.Member("students");
     size_t studentCount = g.students.size();
     ar.StartArray(&studentCount);
     if (ar.IsReader)
         g.students.resize(studentCount);
     for (size_t i = 0; i < studentCount; i++)
         ar & g.students[i];
     ar.EndArray();

     return ar.EndObject();
 }

 std::ostream& operator<<(std::ostream& os, const Group& g) {
     os << g.groupName << std::endl;
     for (std::vector<Student>::const_iterator itr = g.students.begin(); itr != g.students.end(); ++itr)
         os << *itr << std::endl;
     return os;
 }

 void test2() {
     std::string json;

     // Serialize
     {
         Group g;
         g.groupName = "Rainbow";

         Student s1("Lua", 9, 150.5, true);
         Student s2("Mio", 7, 120.0, false);
         g.students.push_back(s1);
         g.students.push_back(s2);

         JsonWriter writer;
         writer & g;
         json = writer.GetString();
         std::cout << json << std::endl;
     }

     // Deserialize
     {
         Group g;
         JsonReader reader(json.c_str());
         reader & g;
         std::cout << g << std::endl;
     }
 }

 //////////////////////////////////////////////////////////////////////////////
 // Test3: polymorphism & friend
 //
 // Note that friendship is not necessary but make things simpler.

 class Shape {
 public:
     virtual ~Shape() {}
     virtual const char* GetType() const = 0;
     virtual void Print(std::ostream& os) const = 0;

 protected:
     Shape() : x_(), y_() {}
     Shape(double x, double y) : x_(x), y_(y) {}

     template <typename Archiver>
     friend Archiver& operator&(Archiver& ar, Shape& s);

     double x_, y_;
 };

 template <typename Archiver>
 Archiver& operator&(Archiver& ar, Shape& s) {
     ar.Member("x") & s.x_;
     ar.Member("y") & s.y_;
     return ar;
 }

 class Circle : public Shape {
 public:
     Circle() : radius_() {}
     Circle(double x, double y, double radius) : Shape(x, y), radius_(radius) {}
     ~Circle() {}

     const char* GetType() const { return "Circle"; }

     void Print(std::ostream& os) const {
         os << "Circle (" << x_ << ", " << y_ << ")" << " radius = " << radius_;
     }

 private:
     template <typename Archiver>
     friend Archiver& operator&(Archiver& ar, Circle& c);

     double radius_;
 };

 template <typename Archiver>
 Archiver& operator&(Archiver& ar, Circle& c) {
     ar & static_cast<Shape&>(c);
     ar.Member("radius") & c.radius_;
     return ar;
 }

 class Box : public Shape {
 public:
     Box() : width_(), height_() {}
     Box(double x, double y, double width, double height) : Shape(x, y), width_(width), height_(height) {}
     ~Box() {}

     const char* GetType() const { return "Box"; }

     void Print(std::ostream& os) const {
         os << "Box (" << x_ << ", " << y_ << ")" << " width = " << width_ << " height = " << height_;
     }

 private:
     template <typename Archiver>
     friend Archiver& operator&(Archiver& ar, Box& b);

     double width_, height_;
 };

 template <typename Archiver>
 Archiver& operator&(Archiver& ar, Box& b) {
     ar & static_cast<Shape&>(b);
     ar.Member("width") & b.width_;
     ar.Member("height") & b.height_;
     return ar;
 }

 class Canvas {
 public:
     Canvas() : shapes_() {}
     ~Canvas() { Clear(); }

     void Clear() {
         for (std::vector<Shape*>::iterator itr = shapes_.begin(); itr != shapes_.end(); ++itr)
             delete *itr;
     }

     void AddShape(Shape* shape) { shapes_.push_back(shape); }

     void Print(std::ostream& os) {
         for (std::vector<Shape*>::iterator itr = shapes_.begin(); itr != shapes_.end(); ++itr) {
             (*itr)->Print(os);
             std::cout << std::endl;
         }
     }

 private:
     template <typename Archiver>
     friend Archiver& operator&(Archiver& ar, Canvas& c);

     std::vector<Shape*> shapes_;
 };

 template <typename Archiver>
 Archiver& operator&(Archiver& ar, Shape*& shape) {
     std::string type = ar.IsReader ? "" : shape->GetType();
     ar.StartObject();
     ar.Member("type") & type;
     if (type == "Circle") {
         if (ar.IsReader) shape = new Circle;
         ar & static_cast<Circle&>(*shape);
     }
     else if (type == "Box") {
         if (ar.IsReader) shape = new Box;
         ar & static_cast<Box&>(*shape);
     }
     return ar.EndObject();
 }

 template <typename Archiver>
 Archiver& operator&(Archiver& ar, Canvas& c) {
     size_t shapeCount = c.shapes_.size();
     ar.StartArray(&shapeCount);
     if (ar.IsReader) {
         c.Clear();
         c.shapes_.resize(shapeCount);
     }
     for (size_t i = 0; i < shapeCount; i++)
         ar & c.shapes_[i];
     return ar.EndArray();
 }

 void test3() {
     std::string json;

     // Serialize
     {
         Canvas c;
         c.AddShape(new Circle(1.0, 2.0, 3.0));
         c.AddShape(new Box(4.0, 5.0, 6.0, 7.0));

         JsonWriter writer;
         writer & c;
         json = writer.GetString();
         std::cout << json << std::endl;
     }

     // Deserialize
     {
         Canvas c;
         JsonReader reader(json.c_str());
         reader & c;
         c.Print(std::cout);
     }
 }

 //////////////////////////////////////////////////////////////////////////////

 int main() {
     test1();
     test2();
     test3();
 }
	#include "archiver.h"
	#include <iostream>
	#include <vector>

	//////////////////////////////////////////////////////////////////////////////
	// Test1: simple object

	struct Student {
	Student() : name(), age(), height(), canSwim() {}
	Student(const std::string name, unsigned age, double height, bool canSwim) :
	name(name), age(age), height(height), canSwim(canSwim)
	{}

	std::string name;
	unsigned age;
	double height;
	bool canSwim;
	};

	template <typename Archiver>
	Archiver& operator&(Archiver& ar, Student& s) {
	ar.StartObject();
	ar.Member("name") & s.name;
	ar.Member("age") & s.age;
	ar.Member("height") & s.height;
	ar.Member("canSwim") & s.canSwim;
	return ar.EndObject();
	}

	std::ostream& operator<<(std::ostream& os, const Student& s) {
	return os << s.name << " " << s.age << " " << s.height << " " << s.canSwim;
	}

	void test1() {
	std::string json;

	// Serialize
	{
	Student s("Lua", 9, 150.5, true);

	JsonWriter writer;
	writer & s;
	json = writer.GetString();
	std::cout << json << std::endl;
	}

	// Deserialize
	{
	Student s;
	JsonReader reader(json.c_str());
	reader & s;
	std::cout << s << std::endl;
	}
	}

	//////////////////////////////////////////////////////////////////////////////
	// Test2: std::vector <=> JSON array
	//
	// You can map a JSON array to other data structures as well

	struct Group {
	Group() : groupName(), students() {}
	std::string groupName;
	std::vector<Student> students;
	};

	template <typename Archiver>
	Archiver& operator&(Archiver& ar, Group& g) {
	ar.StartObject();

	ar.Member("groupName");
	ar & g.groupName;

	ar.Member("students");
	size_t studentCount = g.students.size();
	ar.StartArray(&studentCount);
	if (ar.IsReader)
	g.students.resize(studentCount);
	for (size_t i = 0; i < studentCount; i++)
	ar & g.students[i];
	ar.EndArray();

	return ar.EndObject();
	}

	std::ostream& operator<<(std::ostream& os, const Group& g) {
	os << g.groupName << std::endl;
	for (std::vector<Student>::const_iterator itr = g.students.begin(); itr != g.students.end(); ++itr)
	os << *itr << std::endl;
	return os;
	}

	void test2() {
	std::string json;

	// Serialize
	{
	Group g;
	g.groupName = "Rainbow";

	Student s1("Lua", 9, 150.5, true);
	Student s2("Mio", 7, 120.0, false);
	g.students.push_back(s1);
	g.students.push_back(s2);

	JsonWriter writer;
	writer & g;
	json = writer.GetString();
	std::cout << json << std::endl;
	}

	// Deserialize
	{
	Group g;
	JsonReader reader(json.c_str());
	reader & g;
	std::cout << g << std::endl;
	}
	}

	//////////////////////////////////////////////////////////////////////////////
	// Test3: polymorphism & friend
	//
	// Note that friendship is not necessary but make things simpler.

	class Shape {
	public:
	virtual ~Shape() {}
	virtual const char* GetType() const = 0;
	virtual void Print(std::ostream& os) const = 0;

	protected:
	Shape() : x_(), y_() {}
	Shape(double x, double y) : x_(x), y_(y) {}

	template <typename Archiver>
	friend Archiver& operator&(Archiver& ar, Shape& s);

	double x_, y_;
	};

	template <typename Archiver>
	Archiver& operator&(Archiver& ar, Shape& s) {
	ar.Member("x") & s.x_;
	ar.Member("y") & s.y_;
	return ar;
	}

	class Circle : public Shape {
	public:
	Circle() : radius_() {}
	Circle(double x, double y, double radius) : Shape(x, y), radius_(radius) {}
	~Circle() {}

	const char* GetType() const { return "Circle"; }

	void Print(std::ostream& os) const {
	os << "Circle (" << x_ << ", " << y_ << ")" << " radius = " << radius_;
	}

	private:
	template <typename Archiver>
	friend Archiver& operator&(Archiver& ar, Circle& c);

	double radius_;
	};

	template <typename Archiver>
	Archiver& operator&(Archiver& ar, Circle& c) {
	ar & static_cast<Shape&>(c);
	ar.Member("radius") & c.radius_;
	return ar;
	}

	class Box : public Shape {
	public:
	Box() : width_(), height_() {}
	Box(double x, double y, double width, double height) : Shape(x, y), width_(width), height_(height) {}
	~Box() {}

	const char* GetType() const { return "Box"; }

	void Print(std::ostream& os) const {
	os << "Box (" << x_ << ", " << y_ << ")" << " width = " << width_ << " height = " << height_;
	}

	private:
	template <typename Archiver>
	friend Archiver& operator&(Archiver& ar, Box& b);

	double width_, height_;
	};

	template <typename Archiver>
	Archiver& operator&(Archiver& ar, Box& b) {
	ar & static_cast<Shape&>(b);
	ar.Member("width") & b.width_;
	ar.Member("height") & b.height_;
	return ar;
	}

	class Canvas {
	public:
	Canvas() : shapes_() {}
	~Canvas() { Clear(); }

	void Clear() {
	for (std::vector<Shape*>::iterator itr = shapes_.begin(); itr != shapes_.end(); ++itr)
	delete *itr;
	}

	void AddShape(Shape* shape) { shapes_.push_back(shape); }

	void Print(std::ostream& os) {
	for (std::vector<Shape*>::iterator itr = shapes_.begin(); itr != shapes_.end(); ++itr) {
	(*itr)->Print(os);
	std::cout << std::endl;
	}
	}

	private:
	template <typename Archiver>
	friend Archiver& operator&(Archiver& ar, Canvas& c);

	std::vector<Shape*> shapes_;
	};

	template <typename Archiver>
	Archiver& operator&(Archiver& ar, Shape*& shape) {
	std::string type = ar.IsReader ? "" : shape->GetType();
	ar.StartObject();
	ar.Member("type") & type;
	if (type == "Circle") {
	if (ar.IsReader) shape = new Circle;
	ar & static_cast<Circle&>(*shape);
	}
	else if (type == "Box") {
	if (ar.IsReader) shape = new Box;
	ar & static_cast<Box&>(*shape);
	}
	return ar.EndObject();
	}

	template <typename Archiver>
	Archiver& operator&(Archiver& ar, Canvas& c) {
	size_t shapeCount = c.shapes_.size();
	ar.StartArray(&shapeCount);
	if (ar.IsReader) {
	c.Clear();
	c.shapes_.resize(shapeCount);
	}
	for (size_t i = 0; i < shapeCount; i++)
	ar & c.shapes_[i];
	return ar.EndArray();
	}

	void test3() {
	std::string json;

	// Serialize
	{
	Canvas c;
	c.AddShape(new Circle(1.0, 2.0, 3.0));
	c.AddShape(new Box(4.0, 5.0, 6.0, 7.0));

	JsonWriter writer;
	writer & c;
	json = writer.GetString();
	std::cout << json << std::endl;
	}

	// Deserialize
	{
	Canvas c;
	JsonReader reader(json.c_str());
	reader & c;
	c.Print(std::cout);
	}
	}

	//////////////////////////////////////////////////////////////////////////////

	int main() {
	test1();
	test2();
	test3();
	}