include/utils/SkJSON.h - platform/external/chromium_org/third_party/skia - Git at Google

 /*
  * Copyright 2011 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkJSON_DEFINED
 #define SkJSON_DEFINED

 #include "SkTypes.h"

 class SkStream;
 class SkString;

 class SkJSON {
 public:
     enum Type {
         kObject,
         kArray,
         kString,
         kInt,
         kFloat,
         kBool,
     };

     class Array;

     class Object {
     private:
         struct Slot;

     public:
         Object();
         Object(const Object&);
         ~Object();

         /**
          *  Create a new slot with the specified name and value. The name
          *  parameter is copied, but ownership of the Object parameter is
          *  transferred. The Object parameter may be null, but the name must
          *  not be null.
          */
         void addObject(const char name[], Object* value);

         /**
          *  Create a new slot with the specified name and value. The name
          *  parameter is copied, but ownership of the Array parameter is
          *  transferred. The Array parameter may be null, but the name must
          *  not be null.
          */
         void addArray(const char name[], Array* value);

         /**
          *  Create a new slot with the specified name and value. Both parameters
          *  are copied. The value parameter may be null, but the name must
          *  not be null.
          */
         void addString(const char name[], const char value[]);

         /**
          *  Create a new slot with the specified name and value. The name
          *  parameter is copied, and must not be null.
          */
         void addInt(const char name[], int32_t value);

         /**
          *  Create a new slot with the specified name and value. The name
          *  parameter is copied, and must not be null.
          */
         void addFloat(const char name[], float value);

         /**
          *  Create a new slot with the specified name and value. The name
          *  parameter is copied, and must not be null.
          */
         void addBool(const char name[], bool value);

         /**
          *  Return the number of slots/fields in this object. These can be
          *  iterated using Iter.
          */
         int count() const;

         /**
          *  Returns true if a slot matching the name and Type is found.
          */
         bool find(const char name[], Type) const;
         bool findObject(const char name[], Object** = NULL) const;
         bool findArray(const char name[], Array** = NULL) const;
         bool findString(const char name[], SkString* = NULL) const;
         bool findInt(const char name[], int32_t* = NULL) const;
         bool findFloat(const char name[], float* = NULL) const;
         bool findBool(const char name[], bool* = NULL) const;

         /**
          *  Finds the first slot matching the name and Type and removes it.
          *  Returns true if found, false if not.
          */
         bool remove(const char name[], Type);

         void toDebugf() const;

         /**
          *  Iterator class which returns all of the fields/slots in an Object,
          *  in the order that they were added.
          */
         class Iter {
         public:
             Iter(const Object&);

             /**
              *  Returns true when there are no more entries in the iterator.
              *  In this case, no other methods should be called.
              */
             bool done() const;

             /**
              *  Moves the iterator to the next element. Should only be called
              *  if done() returns false.
              */
             void next();

             /**
              *  Returns the type of the current element. Should only be called
              *  if done() returns false.
              */
             Type type() const;

             /**
              *  Returns the name of the current element. Should only be called
              *  if done() returns false.
              */
             const char* name() const;

             /**
              *  Returns the type of the current element. Should only be called
              *  if done() returns false and type() returns kObject.
              */
             Object* objectValue() const;

             /**
              *  Returns the type of the current element. Should only be called
              *  if done() returns false and type() returns kArray.
              */
             Array* arrayValue() const;

             /**
              *  Returns the type of the current element. Should only be called
              *  if done() returns false and type() returns kString.
              */
             const char* stringValue() const;

             /**
              *  Returns the type of the current element. Should only be called
              *  if done() returns false and type() returns kInt.
              */
             int32_t intValue() const;

             /**
              *  Returns the type of the current element. Should only be called
              *  if done() returns false and type() returns kFloat.
              */
             float floatValue() const;

             /**
              *  Returns the type of the current element. Should only be called
              *  if done() returns false and type() returns kBool.
              */
             bool boolValue() const;

         private:
             Slot* fSlot;
         };

     private:
         Slot* fHead;
         Slot* fTail;

         const Slot* findSlot(const char name[], Type) const;
         Slot* addSlot(Slot*);
         void dumpLevel(int level) const;

         friend class Array;
     };

     class Array {
     public:
         /**
          *  Creates an array with the specified Type and element count. All
          *  entries are initialized to NULL/0/false.
          */
         Array(Type, int count);

         /**
          *  Creates an array of ints, initialized by copying the specified
          *  values.
          */
         Array(const int32_t values[], int count);

         /**
          *  Creates an array of floats, initialized by copying the specified
          *  values.
          */
         Array(const float values[], int count);

         /**
          *  Creates an array of bools, initialized by copying the specified
          *  values.
          */
         Array(const bool values[], int count);

         Array(const Array&);
         ~Array();

         int count() const { return fCount; }
         Type type() const { return fType; }

         /**
          *  Replace the element at the specified index with the specified
          *  Object (which may be null). Ownership of the Object is transferred.
          *  Should only be called if the Array's type is kObject.
          */
         void setObject(int index, Object*);

         /**
          *  Replace the element at the specified index with the specified
          *  Array (which may be null). Ownership of the Array is transferred.
          *  Should only be called if the Array's type is kArray.
          */
         void setArray(int index, Array*);

         /**
          *  Replace the element at the specified index with a copy of the
          *  specified string (which may be null). Should only be called if the
          *  Array's type is kString.
          */
         void setString(int index, const char str[]);

         Object* const* objects() const {
             SkASSERT(kObject == fType);
             return fArray.fObjects;
         }
         Array* const* arrays() const {
             SkASSERT(kObject == fType);
             return fArray.fArrays;
         }
         const char* const* strings() const {
             SkASSERT(kString == fType);
             return fArray.fStrings;
         }
         int32_t* ints() const {
             SkASSERT(kInt == fType);
             return fArray.fInts;
         }
         float* floats() const {
             SkASSERT(kFloat == fType);
             return fArray.fFloats;
         }
         bool* bools() const {
             SkASSERT(kBool == fType);
             return fArray.fBools;
         }

     private:
         int fCount;
         Type fType;
         union {
             void*    fVoids;
             Object** fObjects;
             Array**  fArrays;
             char**   fStrings;
             int32_t* fInts;
             float*   fFloats;
             bool*    fBools;
         } fArray;

         void init(Type, int count, const void* src);
         void dumpLevel(int level) const;

         friend class Object;
     };
 };

 #endif
	/*
	* Copyright 2011 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkJSON_DEFINED
	#define SkJSON_DEFINED

	#include "SkTypes.h"

	class SkStream;
	class SkString;

	class SkJSON {
	public:
	enum Type {
	kObject,
	kArray,
	kString,
	kInt,
	kFloat,
	kBool,
	};

	class Array;

	class Object {
	private:
	struct Slot;

	public:
	Object();
	Object(const Object&);
	~Object();

	/**
	* Create a new slot with the specified name and value. The name
	* parameter is copied, but ownership of the Object parameter is
	* transferred. The Object parameter may be null, but the name must
	* not be null.
	*/
	void addObject(const char name[], Object* value);

	/**
	* Create a new slot with the specified name and value. The name
	* parameter is copied, but ownership of the Array parameter is
	* transferred. The Array parameter may be null, but the name must
	* not be null.
	*/
	void addArray(const char name[], Array* value);

	/**
	* Create a new slot with the specified name and value. Both parameters
	* are copied. The value parameter may be null, but the name must
	* not be null.
	*/
	void addString(const char name[], const char value[]);

	/**
	* Create a new slot with the specified name and value. The name
	* parameter is copied, and must not be null.
	*/
	void addInt(const char name[], int32_t value);

	/**
	* Create a new slot with the specified name and value. The name
	* parameter is copied, and must not be null.
	*/
	void addFloat(const char name[], float value);

	/**
	* Create a new slot with the specified name and value. The name
	* parameter is copied, and must not be null.
	*/
	void addBool(const char name[], bool value);

	/**
	* Return the number of slots/fields in this object. These can be
	* iterated using Iter.
	*/
	int count() const;

	/**
	* Returns true if a slot matching the name and Type is found.
	*/
	bool find(const char name[], Type) const;
	bool findObject(const char name[], Object** = NULL) const;
	bool findArray(const char name[], Array** = NULL) const;
	bool findString(const char name[], SkString* = NULL) const;
	bool findInt(const char name[], int32_t* = NULL) const;
	bool findFloat(const char name[], float* = NULL) const;
	bool findBool(const char name[], bool* = NULL) const;

	/**
	* Finds the first slot matching the name and Type and removes it.
	* Returns true if found, false if not.
	*/
	bool remove(const char name[], Type);

	void toDebugf() const;

	/**
	* Iterator class which returns all of the fields/slots in an Object,
	* in the order that they were added.
	*/
	class Iter {
	public:
	Iter(const Object&);

	/**
	* Returns true when there are no more entries in the iterator.
	* In this case, no other methods should be called.
	*/
	bool done() const;

	/**
	* Moves the iterator to the next element. Should only be called
	* if done() returns false.
	*/
	void next();

	/**
	* Returns the type of the current element. Should only be called
	* if done() returns false.
	*/
	Type type() const;

	/**
	* Returns the name of the current element. Should only be called
	* if done() returns false.
	*/
	const char* name() const;

	/**
	* Returns the type of the current element. Should only be called
	* if done() returns false and type() returns kObject.
	*/
	Object* objectValue() const;

	/**
	* Returns the type of the current element. Should only be called
	* if done() returns false and type() returns kArray.
	*/
	Array* arrayValue() const;

	/**
	* Returns the type of the current element. Should only be called
	* if done() returns false and type() returns kString.
	*/
	const char* stringValue() const;

	/**
	* Returns the type of the current element. Should only be called
	* if done() returns false and type() returns kInt.
	*/
	int32_t intValue() const;

	/**
	* Returns the type of the current element. Should only be called
	* if done() returns false and type() returns kFloat.
	*/
	float floatValue() const;

	/**
	* Returns the type of the current element. Should only be called
	* if done() returns false and type() returns kBool.
	*/
	bool boolValue() const;

	private:
	Slot* fSlot;
	};

	private:
	Slot* fHead;
	Slot* fTail;

	const Slot* findSlot(const char name[], Type) const;
	Slot* addSlot(Slot*);
	void dumpLevel(int level) const;

	friend class Array;
	};

	class Array {
	public:
	/**
	* Creates an array with the specified Type and element count. All
	* entries are initialized to NULL/0/false.
	*/
	Array(Type, int count);

	/**
	* Creates an array of ints, initialized by copying the specified
	* values.
	*/
	Array(const int32_t values[], int count);

	/**
	* Creates an array of floats, initialized by copying the specified
	* values.
	*/
	Array(const float values[], int count);

	/**
	* Creates an array of bools, initialized by copying the specified
	* values.
	*/
	Array(const bool values[], int count);

	Array(const Array&);
	~Array();

	int count() const { return fCount; }
	Type type() const { return fType; }

	/**
	* Replace the element at the specified index with the specified
	* Object (which may be null). Ownership of the Object is transferred.
	* Should only be called if the Array's type is kObject.
	*/
	void setObject(int index, Object*);

	/**
	* Replace the element at the specified index with the specified
	* Array (which may be null). Ownership of the Array is transferred.
	* Should only be called if the Array's type is kArray.
	*/
	void setArray(int index, Array*);

	/**
	* Replace the element at the specified index with a copy of the
	* specified string (which may be null). Should only be called if the
	* Array's type is kString.
	*/
	void setString(int index, const char str[]);

	Object* const* objects() const {
	SkASSERT(kObject == fType);
	return fArray.fObjects;
	}
	Array* const* arrays() const {
	SkASSERT(kObject == fType);
	return fArray.fArrays;
	}
	const char* const* strings() const {
	SkASSERT(kString == fType);
	return fArray.fStrings;
	}
	int32_t* ints() const {
	SkASSERT(kInt == fType);
	return fArray.fInts;
	}
	float* floats() const {
	SkASSERT(kFloat == fType);
	return fArray.fFloats;
	}
	bool* bools() const {
	SkASSERT(kBool == fType);
	return fArray.fBools;
	}

	private:
	int fCount;
	Type fType;
	union {
	void* fVoids;
	Object** fObjects;
	Array** fArrays;
	char** fStrings;
	int32_t* fInts;
	float* fFloats;
	bool* fBools;
	} fArray;

	void init(Type, int count, const void* src);
	void dumpLevel(int level) const;

	friend class Object;
	};
	};

	#endif