src/third_party/llvm-project/lldb/tools/debugserver/source/JSONGenerator.h - cobalt - Git at Google

 //===-- JSONGenerator.h ----------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #ifndef __JSONGenerator_h_
 #define __JSONGenerator_h_

 // C Includes
 // C++ Includes

 #include <iomanip>
 #include <sstream>
 #include <string>
 #include <utility>
 #include <vector>

 //----------------------------------------------------------------------
 /// @class JSONGenerator JSONGenerator.h
 /// A class which can construct structured data for the sole purpose
 /// of printing it in JSON format.
 ///
 /// A stripped down version of lldb's StructuredData objects which are much
 /// general purpose.  This variant is intended only for assembling information
 /// and printing it as a JSON string.
 //----------------------------------------------------------------------

 class JSONGenerator {
 public:
   class Object;
   class Array;
   class Integer;
   class Float;
   class Boolean;
   class String;
   class Dictionary;
   class Generic;

   typedef std::shared_ptr<Object> ObjectSP;
   typedef std::shared_ptr<Array> ArraySP;
   typedef std::shared_ptr<Integer> IntegerSP;
   typedef std::shared_ptr<Float> FloatSP;
   typedef std::shared_ptr<Boolean> BooleanSP;
   typedef std::shared_ptr<String> StringSP;
   typedef std::shared_ptr<Dictionary> DictionarySP;
   typedef std::shared_ptr<Generic> GenericSP;

   enum class Type {
     eTypeInvalid = -1,
     eTypeNull = 0,
     eTypeGeneric,
     eTypeArray,
     eTypeInteger,
     eTypeFloat,
     eTypeBoolean,
     eTypeString,
     eTypeDictionary
   };

   class Object : public std::enable_shared_from_this<Object> {
   public:
     Object(Type t = Type::eTypeInvalid) : m_type(t) {}

     virtual ~Object() {}

     virtual bool IsValid() const { return true; }

     virtual void Clear() { m_type = Type::eTypeInvalid; }

     Type GetType() const { return m_type; }

     void SetType(Type t) { m_type = t; }

     Array *GetAsArray() {
       if (m_type == Type::eTypeArray)
         return (Array *)this;
       return NULL;
     }

     Dictionary *GetAsDictionary() {
       if (m_type == Type::eTypeDictionary)
         return (Dictionary *)this;
       return NULL;
     }

     Integer *GetAsInteger() {
       if (m_type == Type::eTypeInteger)
         return (Integer *)this;
       return NULL;
     }

     Float *GetAsFloat() {
       if (m_type == Type::eTypeFloat)
         return (Float *)this;
       return NULL;
     }

     Boolean *GetAsBoolean() {
       if (m_type == Type::eTypeBoolean)
         return (Boolean *)this;
       return NULL;
     }

     String *GetAsString() {
       if (m_type == Type::eTypeString)
         return (String *)this;
       return NULL;
     }

     Generic *GetAsGeneric() {
       if (m_type == Type::eTypeGeneric)
         return (Generic *)this;
       return NULL;
     }

     virtual void Dump(std::ostream &s) const = 0;

   private:
     Type m_type;
   };

   class Array : public Object {
   public:
     Array() : Object(Type::eTypeArray) {}

     virtual ~Array() {}

     void AddItem(ObjectSP item) { m_items.push_back(item); }

     void Dump(std::ostream &s) const override {
       s << "[";
       const size_t arrsize = m_items.size();
       for (size_t i = 0; i < arrsize; ++i) {
         m_items[i]->Dump(s);
         if (i + 1 < arrsize)
           s << ",";
       }
       s << "]";
     }

   protected:
     typedef std::vector<ObjectSP> collection;
     collection m_items;
   };

   class Integer : public Object {
   public:
     Integer(uint64_t value = 0) : Object(Type::eTypeInteger), m_value(value) {}

     virtual ~Integer() {}

     void SetValue(uint64_t value) { m_value = value; }

     void Dump(std::ostream &s) const override { s << m_value; }

   protected:
     uint64_t m_value;
   };

   class Float : public Object {
   public:
     Float(double d = 0.0) : Object(Type::eTypeFloat), m_value(d) {}

     virtual ~Float() {}

     void SetValue(double value) { m_value = value; }

     void Dump(std::ostream &s) const override { s << m_value; }

   protected:
     double m_value;
   };

   class Boolean : public Object {
   public:
     Boolean(bool b = false) : Object(Type::eTypeBoolean), m_value(b) {}

     virtual ~Boolean() {}

     void SetValue(bool value) { m_value = value; }

     void Dump(std::ostream &s) const override {
       if (m_value == true)
         s << "true";
       else
         s << "false";
     }

   protected:
     bool m_value;
   };

   class String : public Object {
   public:
     String() : Object(Type::eTypeString), m_value() {}

     String(const std::string &s) : Object(Type::eTypeString), m_value(s) {}

     String(const std::string &&s) : Object(Type::eTypeString), m_value(s) {}

     void SetValue(const std::string &string) { m_value = string; }

     void Dump(std::ostream &s) const override {
       std::string quoted;
       const size_t strsize = m_value.size();
       for (size_t i = 0; i < strsize; ++i) {
         char ch = m_value[i];
         if (ch == '"')
           quoted.push_back('\\');
         quoted.push_back(ch);
       }
       s << '"' << quoted.c_str() << '"';
     }

   protected:
     std::string m_value;
   };

   class Dictionary : public Object {
   public:
     Dictionary() : Object(Type::eTypeDictionary), m_dict() {}

     virtual ~Dictionary() {}

     void AddItem(std::string key, ObjectSP value) {
       m_dict.push_back(Pair(key, value));
     }

     void AddIntegerItem(std::string key, uint64_t value) {
       AddItem(key, ObjectSP(new Integer(value)));
     }

     void AddFloatItem(std::string key, double value) {
       AddItem(key, ObjectSP(new Float(value)));
     }

     void AddStringItem(std::string key, std::string value) {
       AddItem(key, ObjectSP(new String(std::move(value))));
     }

     void AddBytesAsHexASCIIString(std::string key, const uint8_t *src,
                                   size_t src_len) {
       if (src && src_len) {
         std::ostringstream strm;
         for (size_t i = 0; i < src_len; i++)
           strm << std::setfill('0') << std::hex << std::right << std::setw(2)
                << ((uint32_t)(src[i]));
         AddItem(key, ObjectSP(new String(std::move(strm.str()))));
       } else {
         AddItem(key, ObjectSP(new String()));
       }
     }

     void AddBooleanItem(std::string key, bool value) {
       AddItem(key, ObjectSP(new Boolean(value)));
     }

     void Dump(std::ostream &s) const override {
       bool have_printed_one_elem = false;
       s << "{";
       for (collection::const_iterator iter = m_dict.begin();
            iter != m_dict.end(); ++iter) {
         if (have_printed_one_elem == false) {
           have_printed_one_elem = true;
         } else {
           s << ",";
         }
         s << "\"" << iter->first.c_str() << "\":";
         iter->second->Dump(s);
       }
       s << "}";
     }

   protected:
     // Keep the dictionary as a vector so the dictionary doesn't reorder itself
     // when you dump it
     // We aren't accessing keys by name, so this won't affect performance
     typedef std::pair<std::string, ObjectSP> Pair;
     typedef std::vector<Pair> collection;
     collection m_dict;
   };

   class Null : public Object {
   public:
     Null() : Object(Type::eTypeNull) {}

     virtual ~Null() {}

     bool IsValid() const override { return false; }

     void Dump(std::ostream &s) const override { s << "null"; }

   protected:
   };

   class Generic : public Object {
   public:
     explicit Generic(void *object = nullptr)
         : Object(Type::eTypeGeneric), m_object(object) {}

     void SetValue(void *value) { m_object = value; }

     void *GetValue() const { return m_object; }

     bool IsValid() const override { return m_object != nullptr; }

     void Dump(std::ostream &s) const override;

   private:
     void *m_object;
   };

 }; // class JSONGenerator

 #endif // __JSONGenerator_h_
	//===-- JSONGenerator.h ----------------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#ifndef __JSONGenerator_h_
	#define __JSONGenerator_h_

	// C Includes
	// C++ Includes

	#include <iomanip>
	#include <sstream>
	#include <string>
	#include <utility>
	#include <vector>

	//----------------------------------------------------------------------
	/// @class JSONGenerator JSONGenerator.h
	/// A class which can construct structured data for the sole purpose
	/// of printing it in JSON format.
	///
	/// A stripped down version of lldb's StructuredData objects which are much
	/// general purpose. This variant is intended only for assembling information
	/// and printing it as a JSON string.
	//----------------------------------------------------------------------

	class JSONGenerator {
	public:
	class Object;
	class Array;
	class Integer;
	class Float;
	class Boolean;
	class String;
	class Dictionary;
	class Generic;

	typedef std::shared_ptr<Object> ObjectSP;
	typedef std::shared_ptr<Array> ArraySP;
	typedef std::shared_ptr<Integer> IntegerSP;
	typedef std::shared_ptr<Float> FloatSP;
	typedef std::shared_ptr<Boolean> BooleanSP;
	typedef std::shared_ptr<String> StringSP;
	typedef std::shared_ptr<Dictionary> DictionarySP;
	typedef std::shared_ptr<Generic> GenericSP;

	enum class Type {
	eTypeInvalid = -1,
	eTypeNull = 0,
	eTypeGeneric,
	eTypeArray,
	eTypeInteger,
	eTypeFloat,
	eTypeBoolean,
	eTypeString,
	eTypeDictionary
	};

	class Object : public std::enable_shared_from_this<Object> {
	public:
	Object(Type t = Type::eTypeInvalid) : m_type(t) {}

	virtual ~Object() {}

	virtual bool IsValid() const { return true; }

	virtual void Clear() { m_type = Type::eTypeInvalid; }

	Type GetType() const { return m_type; }

	void SetType(Type t) { m_type = t; }

	Array *GetAsArray() {
	if (m_type == Type::eTypeArray)
	return (Array *)this;
	return NULL;
	}

	Dictionary *GetAsDictionary() {
	if (m_type == Type::eTypeDictionary)
	return (Dictionary *)this;
	return NULL;
	}

	Integer *GetAsInteger() {
	if (m_type == Type::eTypeInteger)
	return (Integer *)this;
	return NULL;
	}

	Float *GetAsFloat() {
	if (m_type == Type::eTypeFloat)
	return (Float *)this;
	return NULL;
	}

	Boolean *GetAsBoolean() {
	if (m_type == Type::eTypeBoolean)
	return (Boolean *)this;
	return NULL;
	}

	String *GetAsString() {
	if (m_type == Type::eTypeString)
	return (String *)this;
	return NULL;
	}

	Generic *GetAsGeneric() {
	if (m_type == Type::eTypeGeneric)
	return (Generic *)this;
	return NULL;
	}

	virtual void Dump(std::ostream &s) const = 0;

	private:
	Type m_type;
	};

	class Array : public Object {
	public:
	Array() : Object(Type::eTypeArray) {}

	virtual ~Array() {}

	void AddItem(ObjectSP item) { m_items.push_back(item); }

	void Dump(std::ostream &s) const override {
	s << "[";
	const size_t arrsize = m_items.size();
	for (size_t i = 0; i < arrsize; ++i) {
	m_items[i]->Dump(s);
	if (i + 1 < arrsize)
	s << ",";
	}
	s << "]";
	}

	protected:
	typedef std::vector<ObjectSP> collection;
	collection m_items;
	};

	class Integer : public Object {
	public:
	Integer(uint64_t value = 0) : Object(Type::eTypeInteger), m_value(value) {}

	virtual ~Integer() {}

	void SetValue(uint64_t value) { m_value = value; }

	void Dump(std::ostream &s) const override { s << m_value; }

	protected:
	uint64_t m_value;
	};

	class Float : public Object {
	public:
	Float(double d = 0.0) : Object(Type::eTypeFloat), m_value(d) {}

	virtual ~Float() {}

	void SetValue(double value) { m_value = value; }

	void Dump(std::ostream &s) const override { s << m_value; }

	protected:
	double m_value;
	};

	class Boolean : public Object {
	public:
	Boolean(bool b = false) : Object(Type::eTypeBoolean), m_value(b) {}

	virtual ~Boolean() {}

	void SetValue(bool value) { m_value = value; }

	void Dump(std::ostream &s) const override {
	if (m_value == true)
	s << "true";
	else
	s << "false";
	}

	protected:
	bool m_value;
	};

	class String : public Object {
	public:
	String() : Object(Type::eTypeString), m_value() {}

	String(const std::string &s) : Object(Type::eTypeString), m_value(s) {}

	String(const std::string &&s) : Object(Type::eTypeString), m_value(s) {}

	void SetValue(const std::string &string) { m_value = string; }

	void Dump(std::ostream &s) const override {
	std::string quoted;
	const size_t strsize = m_value.size();
	for (size_t i = 0; i < strsize; ++i) {
	char ch = m_value[i];
	if (ch == '"')
	quoted.push_back('\\');
	quoted.push_back(ch);
	}
	s << '"' << quoted.c_str() << '"';
	}

	protected:
	std::string m_value;
	};

	class Dictionary : public Object {
	public:
	Dictionary() : Object(Type::eTypeDictionary), m_dict() {}

	virtual ~Dictionary() {}

	void AddItem(std::string key, ObjectSP value) {
	m_dict.push_back(Pair(key, value));
	}

	void AddIntegerItem(std::string key, uint64_t value) {
	AddItem(key, ObjectSP(new Integer(value)));
	}

	void AddFloatItem(std::string key, double value) {
	AddItem(key, ObjectSP(new Float(value)));
	}

	void AddStringItem(std::string key, std::string value) {
	AddItem(key, ObjectSP(new String(std::move(value))));
	}

	void AddBytesAsHexASCIIString(std::string key, const uint8_t *src,
	size_t src_len) {
	if (src && src_len) {
	std::ostringstream strm;
	for (size_t i = 0; i < src_len; i++)
	strm << std::setfill('0') << std::hex << std::right << std::setw(2)
	<< ((uint32_t)(src[i]));
	AddItem(key, ObjectSP(new String(std::move(strm.str()))));
	} else {
	AddItem(key, ObjectSP(new String()));
	}
	}

	void AddBooleanItem(std::string key, bool value) {
	AddItem(key, ObjectSP(new Boolean(value)));
	}

	void Dump(std::ostream &s) const override {
	bool have_printed_one_elem = false;
	s << "{";
	for (collection::const_iterator iter = m_dict.begin();
	iter != m_dict.end(); ++iter) {
	if (have_printed_one_elem == false) {
	have_printed_one_elem = true;
	} else {
	s << ",";
	}
	s << "\"" << iter->first.c_str() << "\":";
	iter->second->Dump(s);
	}
	s << "}";
	}

	protected:
	// Keep the dictionary as a vector so the dictionary doesn't reorder itself
	// when you dump it
	// We aren't accessing keys by name, so this won't affect performance
	typedef std::pair<std::string, ObjectSP> Pair;
	typedef std::vector<Pair> collection;
	collection m_dict;
	};

	class Null : public Object {
	public:
	Null() : Object(Type::eTypeNull) {}

	virtual ~Null() {}

	bool IsValid() const override { return false; }

	void Dump(std::ostream &s) const override { s << "null"; }

	protected:
	};

	class Generic : public Object {
	public:
	explicit Generic(void *object = nullptr)
	: Object(Type::eTypeGeneric), m_object(object) {}

	void SetValue(void *value) { m_object = value; }

	void *GetValue() const { return m_object; }

	bool IsValid() const override { return m_object != nullptr; }

	void Dump(std::ostream &s) const override;

	private:
	void *m_object;
	};

	}; // class JSONGenerator

	#endif // __JSONGenerator_h_