2012-06-14 09:06:06 -04:00
// WorldStorage.h
// Interfaces to the cWorldStorage class representing the chunk loading / saving thread
// This class decides which storage schema to use for saving; it queries all available schemas for loading
// Also declares the base class for all storage schemas, cWSSchema
// Helper serialization class cJsonChunkSerializer is declared as well
# pragma once
# ifndef WORLDSTORAGE_H_INCLUDED
# define WORLDSTORAGE_H_INCLUDED
# include "ChunkDef.h"
# include "cIsThread.h"
# include <json/json.h>
// fwd:
class cWorld ;
/// Interface that all the world storage schemas need to implement
class cWSSchema abstract
{
public :
cWSSchema ( cWorld * a_World ) : m_World ( a_World ) { }
virtual ~ cWSSchema ( ) { } // Force the descendants' destructors to be virtual
virtual bool LoadChunk ( const cChunkCoords & a_Chunk ) = 0 ;
virtual bool SaveChunk ( const cChunkCoords & a_Chunk ) = 0 ;
virtual const AString GetName ( void ) const = 0 ;
protected :
cWorld * m_World ;
} ;
typedef std : : list < cWSSchema * > cWSSchemaList ;
/// The actual world storage class
class cWorldStorage :
public cIsThread
{
typedef cIsThread super ;
public :
cWorldStorage ( void ) ;
~ cWorldStorage ( ) ;
void QueueLoadChunk ( int a_ChunkX , int a_ChunkY , int a_ChunkZ , bool a_Generate ) ; // Queues the chunk for loading; if not loaded, the chunk will be generated if a_Generate is true
void QueueSaveChunk ( int a_ChunkX , int a_ChunkY , int a_ChunkZ ) ;
2012-08-15 07:54:13 -04:00
/// Signals that a message should be output to the console when all the chunks have been saved
void QueueSavedMessage ( void ) ;
2012-06-14 09:06:06 -04:00
/// Loads the chunk specified; returns true on success, false on failure
bool LoadChunk ( int a_ChunkX , int a_ChunkY , int a_ChunkZ ) ;
void UnqueueLoad ( int a_ChunkX , int a_ChunkY , int a_ChunkZ ) ;
void UnqueueSave ( const cChunkCoords & a_Chunk ) ;
bool Start ( cWorld * a_World , const AString & a_StorageSchemaName ) ; // Hide the cIsThread's Start() method, we need to provide args
void WaitForFinish ( void ) ;
void WaitForQueuesEmpty ( void ) ;
int GetLoadQueueLength ( void ) ;
int GetSaveQueueLength ( void ) ;
protected :
struct sChunkLoad
{
int m_ChunkX ;
int m_ChunkY ;
int m_ChunkZ ;
bool m_Generate ; // If true, the chunk will be generated if it cannot be loaded
sChunkLoad ( int a_ChunkX , int a_ChunkY , int a_ChunkZ , bool a_Generate ) : m_ChunkX ( a_ChunkX ) , m_ChunkY ( a_ChunkY ) , m_ChunkZ ( a_ChunkZ ) , m_Generate ( a_Generate ) { }
} ;
typedef std : : list < sChunkLoad > sChunkLoadQueue ;
cWorld * m_World ;
AString m_StorageSchemaName ;
// Both queues are locked by the same CS
cCriticalSection m_CSQueues ;
sChunkLoadQueue m_LoadQueue ;
cChunkCoordsList m_SaveQueue ;
cEvent m_Event ; // Set when there's any addition to the queues
cEvent m_evtRemoved ; // Set when an item has been removed from the queue, either by the worker thread or the Unqueue methods
/// All the storage schemas (all used for loading)
cWSSchemaList m_Schemas ;
/// The one storage schema used for saving
cWSSchema * m_SaveSchema ;
void InitSchemas ( void ) ;
virtual void Execute ( void ) override ;
/// Loads one chunk from the queue (if any queued); returns true if there are more chunks in the load queue
bool LoadOneChunk ( void ) ;
/// Saves one chunk from the queue (if any queued); returns true if there are more chunks in the save queue
bool SaveOneChunk ( void ) ;
} ;
# endif // WORLDSTORAGE_H_INCLUDED