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/*
 * Copyright (C) 2007-2008 Xagasoft, All rights reserved.
 *
 * This file is part of the libbu++ library and is released under the
 * terms of the license contained in the file LICENSE.
 */

#ifndef BU_ARCHIVE_H
#define BU_ARCHIVE_H

#include <stdint.h>
#include <string>
#include <list>
#include "bu/hash.h"
#include "bu/list.h"
//#include "bu/set.h"
#include "bu/util.h"

namespace Bu
{
	class Archival;
	class Stream;

	/**
	 * Provides a framework for serialization of objects and primitives.  The
	 * archive will handle any basic primitive, a few special types, like char *
	 * strings, as well as STL classes and anything that inherits from the
	 * Archival class.  Each Archive operates on a Stream, so you can send the
	 * data using an Archive almost anywhere.
	 *
	 * In order to use an Archive to store something to a file, try something
	 * like:
	 *@code
     * File sOut("output", "wb"); // This is a stream subclass
	 * Archive ar( sOut, Archive::save );
	 * ar << myClass;
	 @endcode
	 * In this example myClass is any class that inherits from Archival.  When
	 * the storage operator is called, the Archival::archive() function in the
	 * myClass object is called with a reference to the Archive.  This can be
	 * handled in one of two ways:
	 *@code
	 * void MyClass::archive( Archive &ar )
	 * {
	 * 	ar && sName && nAge && sJob;
	 * }
	 @endcode
	 * Here we don't worry about weather we're loading or saving by using the
	 * smart && operator.  This allows us to write very consistent, very simple
	 * archive functions that really do a lot of work.  If we wanted to do
	 * something different in the case of loading or saving we would do:
	 *@code
	 * void MyClass::archive( Archive &ar )
	 * {
	 * 	if( ar.isLoading() )
	 * 	{
	 * 		ar >> sName >> nAge >> sJob;
	 * 	} else
	 * 	{
	 * 		ar << sName << nAge << sJob;
	 * 	}
	 * }
	 @endcode
	 * Archive currently does not provide facility to make fully portable
	 * archives.  For example, it will not convert between endianness for you,
	 * nor will it take into account differences between primitive sizes on
	 * different platforms.  This, at the moment, is up to the user to ensure.
	 * One way of dealing with the latter problem is to make sure and use
	 * explicit primitive types from the stdint.h header, i.e. int32_t.
	 */
	class Archive
	{
	private:
		bool bLoading;
	public:
		bool isLoading();

		enum
		{
			load	=	true,
			save	=	false
		};
		
		Archive( Stream &rStream, bool bLoading );
		virtual ~Archive();
		virtual void close();

		virtual void write(const void *, int32_t);
		virtual void read(void *, int32_t);
		
		virtual Archive &operator<<(bool p);
		virtual Archive &operator<<(char p);
		virtual Archive &operator<<(signed char p);
		virtual Archive &operator<<(unsigned char p);
		virtual Archive &operator<<(signed short p);
		virtual Archive &operator<<(unsigned short p);
		virtual Archive &operator<<(signed int p);
		virtual Archive &operator<<(unsigned int p);
		virtual Archive &operator<<(signed long p);
		virtual Archive &operator<<(unsigned long p);
		virtual Archive &operator<<(signed long long p);
		virtual Archive &operator<<(unsigned long long p);
		
		virtual Archive &operator>>(bool &p);
		virtual Archive &operator>>(char &p);
		virtual Archive &operator>>(signed char &p);
		virtual Archive &operator>>(unsigned char &p);
		virtual Archive &operator>>(signed short &p);
		virtual Archive &operator>>(unsigned short &p);
		virtual Archive &operator>>(signed int &p);
		virtual Archive &operator>>(unsigned int &p);
		virtual Archive &operator>>(signed long &p);
		virtual Archive &operator>>(unsigned long &p);
		virtual Archive &operator>>(signed long long &p);
		virtual Archive &operator>>(unsigned long long &p);

		/*
		virtual Archive &operator<<(bool);
		virtual Archive &operator<<(int8_t);
		virtual Archive &operator<<(int16_t);
		virtual Archive &operator<<(int32_t);
		virtual Archive &operator<<(int64_t);
		virtual Archive &operator<<(uint8_t);
		virtual Archive &operator<<(uint16_t);
		virtual Archive &operator<<(uint32_t);
		virtual Archive &operator<<(uint64_t);
//		virtual Archive &operator<<(long);
		virtual Archive &operator<<(float);
		virtual Archive &operator<<(double);
		virtual Archive &operator<<(long double);

		virtual Archive &operator>>(bool &);
		virtual Archive &operator>>(int8_t &);
		virtual Archive &operator>>(int16_t &);
		virtual Archive &operator>>(int32_t &);
		virtual Archive &operator>>(int64_t &);
		virtual Archive &operator>>(uint8_t &);
		virtual Archive &operator>>(uint16_t &);
		virtual Archive &operator>>(uint32_t &);
		virtual Archive &operator>>(uint64_t &);
//		virtual Archive &operator>>(long &);
		virtual Archive &operator>>(float &);
		virtual Archive &operator>>(double &);
		virtual Archive &operator>>(long double &);
		
		virtual Archive &operator&&(bool &);
		virtual Archive &operator&&(int8_t &);
		virtual Archive &operator&&(int16_t &);
		virtual Archive &operator&&(int32_t &);
		virtual Archive &operator&&(int64_t &);
		virtual Archive &operator&&(uint8_t &);
		virtual Archive &operator&&(uint16_t &);
		virtual Archive &operator&&(uint32_t &);
		virtual Archive &operator&&(uint64_t &);
		virtual Archive &operator&&(float &);
		virtual Archive &operator&&(double &);
		virtual Archive &operator&&(long double &);
		*/

		/**
		 * For storage, get an ID for the pointer to the object you're going to
		 * write.
		 */
		uint32_t getID( const void *ptr );

		/**
		 * For loading.  Assosiates an empty pointer with an id.  When you wind
		 * up loading an id reference to a pointer for an object that may or
		 * may not have loaded yet, call this with the id, if it has been loaded
		 * already, you'll immediately get a pointer, if not, it will write one
		 * for you when the time comes.
		 */
		void assocPtrID( void **ptr, uint32_t id );

		/**
		 * For loading.  Call this when you load an object that other things may
		 * have pointers to.  It will assosiate every pointer that's been
		 * registered with assocPtrID to the pointer passed in, and id passed
		 * in.  It will also set things up so future calls to assocPtrID will
		 * automatically succeed immediately.
		 */
		void readID( const void *ptr, uint32_t id );

	private:
		Stream &rStream;
		uint32_t nNextID;
		Hash<uint32_t,uint32_t> hPtrID;
		Hash<uint32_t,List<void **> > hPtrDest;
	};

	Archive &operator<<(Archive &, class Bu::Archival &);
	Archive &operator>>(Archive &, class Bu::Archival &);
	//Archive &operator&&(Archive &s, class Bu::Archival &p);
	
	Archive &operator<<(Archive &, std::string &);
	Archive &operator>>(Archive &, std::string &);
	//Archive &operator&&(Archive &, std::string &);
	
	template<typename T> Archive &operator&&( Archive &ar, T &dat )
	{
		if( ar.isLoading() )
		{
			return ar >> dat;
		}
		else
		{
			return ar << dat;
		}
	}

	template<typename T> Archive &operator<<( Archive &ar, std::list<T> &l )
	{
		typename std::list<T>::size_type num = l.getSize();
		ar << num;
		for( typename std::list<T>::const_iterator i = l.begin(); i != l.end();
			 i++ )
		{
			ar << *i;
		}

		return ar;
	}

	template<typename T> Archive &operator>>( Archive &ar, std::list<T> &l )
	{
		typename std::list<T>::size_type num;
		ar >> num;

		l.resize( num );
		for( typename std::list<T>::const_iterator i = l.begin();
			 i != l.end(); i++ )
		{
			ar >> *i;
		}

		return ar;
	}
	
	Archive &operator<<(Archive &, class Bu::Archival *p);
	Archive &operator>>(Archive &, class Bu::Archival *p);

	template<typename key, typename value>
	Archive &operator<<( Archive &ar, Hash<key,value> &h )
	{
		ar << h.getSize();
		for( typename Hash<key,value>::iterator i = h.begin(); i != h.end(); i++ )
		{
			//std::pair<key,value> p = *i;
			ar << (i.getKey()) << (i.getValue());
		}

		return ar;
	}

	template<typename key, typename value>
	Archive &operator>>( Archive &ar, Hash<key,value> &h )
	{
		h.clear();
		long nSize;
		ar >> nSize;

		for( long j = 0; j < nSize; j++ )
		{
			key k; value v;
			ar >> k >> v;
			h.insert( k, v );
		}

		return ar;
	}

	template<typename value>
	Archive &operator<<( Archive &ar, List<value> &h )
	{
		ar << h.getSize();
		for( typename List<value>::iterator i = h.begin(); i != h.end(); i++ )
		{
			ar << (*i);
		}

		return ar;
	}

	template<typename value>
	Archive &operator>>( Archive &ar, List<value> &h )
	{
		h.clear();
		long nSize;
		ar >> nSize;

		for( long j = 0; j < nSize; j++ )
		{
			value v;
			ar >> v;
			h.append( v );
		}

		return ar;
	}

	template<typename value, int inc, typename valuealloc> class Array;
	template<typename value, int inc, typename valuealloc>
	Archive &operator<<( Archive &ar, Array<value, inc, valuealloc> &h )
	{
		ar << h.getSize();
		for( typename Array<value, inc, valuealloc>::iterator i = h.begin(); i != h.end(); i++ )
		{
			ar << (*i);
		}

		return ar;
	}

	template<typename value, int inc, typename valuealloc>
	Archive &operator>>(Archive &ar, Array<value, inc, valuealloc> &h )
	{
		h.clear();
		long nSize;
		ar >> nSize;
		
		h.setCapacity( nSize );
		for( long j = 0; j < nSize; j++ )
		{
			value v;
			ar >> v;
			h.append( v );
		}
		return ar;
	}

	template<typename key, typename b, typename c, typename d> class Set;
	template<typename key, typename b, typename c, typename d>
	Archive &operator<<( Archive &ar, Set<key, b, c, d> &h )
	{
		ar << h.getSize();
		for( typename Set<key, b, c, d>::iterator i = h.begin(); i != h.end(); i++ )
		{
			ar << (*i);
		}

		return ar;
	}

	template<typename key, typename b, typename c, typename d>
	Archive &operator>>( Archive &ar, Set<key, b, c, d> &h )
	{
		h.clear();
		long nSize;
		ar >> nSize;

		for( long j = 0; j < nSize; j++ )
		{
			key v;
			ar >> v;
			h.insert( v );
		}

		return ar;
	}
}

#endif