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#ifndef BU_CACHE_H
#define BU_CACHE_H
#include "bu/cptr.h"
#include "bu/hash.h"
#include "bu/list.h"
#include "bu/cachestore.h"
#include "bu/cachecalc.h"
#include "bu/trace.h"
namespace Bu
{
template<class obtype, class keytype>
class Cache
{
friend class Bu::CPtr<obtype, keytype>;
public:
typedef Bu::CPtr<obtype, keytype> Ptr;
private:
typedef Bu::CacheStore<obtype, keytype> Store;
typedef Bu::List<Store *> StoreList;
typedef Bu::CacheCalc<obtype, keytype> Calc;
typedef struct CacheEntry
{
obtype *pData;
int iRefs;
} CacheEntry;
typedef Bu::Hash<keytype, CacheEntry> CidHash;
public:
Cache( Calc &rCalc ) :
rCalc( rCalc )
{
TRACE();
rCalc.setCache( this );
}
virtual ~Cache()
{
TRACE();
for( typename CidHash::iterator i = hEnt.begin();
i != hEnt.end(); i++ )
{
if( i.getValue().iRefs > 0 )
{
printf("Error? iRefs=%d for key ", i.getValue().iRefs );
__tracer_format( i.getKey() );
printf("!\n");
}
rCalc.onUnload(
i.getValue().pData,
i.getKey()
);
lStore.first()->unload(
i.getValue().pData,
i.getKey()
);
}
for( typename StoreList::iterator i = lStore.begin();
i != lStore.end(); i++ )
{
delete *i;
}
}
void appendStore( Store *pHand )
{
TRACE();
lStore.append( pHand );
}
void prependStore( Store *pHand )
{
TRACE();
lStore.prepend( pHand );
}
Ptr insert( obtype *pData )
{
TRACE( pData );
CacheEntry e = {pData, 0};
keytype k = lStore.first()->create( pData );
hEnt.insert( k, e );
rCalc.onLoad( pData, k );
return Ptr( *this, pData, k );
}
Ptr get( const keytype &cId )
{
TRACE( cId );
try {
return Ptr( *this, hEnt.get( cId ).pData, cId );
}
catch( Bu::HashException &e ) {
CacheEntry e = {lStore.first()->load( cId ), 0};
rCalc.onLoad( e.pData, cId );
hEnt.insert( cId, e );
return Ptr( *this, e.pData, cId );
}
}
int getRefCount( const keytype &cId )
{
TRACE( cId );
return hEnt.get( cId ).iRefs;
}
void unload( const keytype &cId )
{
TRACE( cId );
try {
if( hEnt.get( cId ).iRefs > 0 )
{
printf("Shouldn't delete, references still exist!\n");
return;
}
}
catch( Bu::HashException &e ) {
// It's not here? Eh, return.
return;
}
obtype *pObj = hEnt.get( cId ).pData;
rCalc.onUnload( pObj, cId );
hEnt.erase( cId );
// The unload has to happen last just in case cId is a reference
// to data that is about to be deleted from memory by the unload.
lStore.first()->unload( pObj, cId );
}
void erase( const keytype &cId )
{
TRACE( cId );
try {
if( hEnt.get( cId ).iRefs > 0 )
{
printf("Shouldn't delete, references still exist!\n");
return;
}
}
catch( Bu::HashException &e ) {
get( cId );
}
rCalc.onUnload( hEnt.get( cId ).pData, cId );
lStore.first()->destroy( hEnt.get( cId ).pData, cId );
hEnt.erase( cId );
}
private:
void incRef( keytype cId )
{
TRACE( cId );
hEnt.get( cId ).iRefs++;
}
void decRef( keytype cId )
{
TRACE( cId );
CacheEntry &e = hEnt.get( cId );
e.iRefs--;
}
private:
CidHash hEnt;
StoreList lStore;
Calc &rCalc;
};
};
#endif
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