source-engine/public/tier1/stringpool.h

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//========= Copyright (c) 1996-2005, Valve Corporation, All rights reserved. ============//
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//
// Purpose:
//
// $NoKeywords: $
//=============================================================================//
#ifndef STRINGPOOL_H
#define STRINGPOOL_H
#if defined( _WIN32 )
#pragma once
#endif
#include "utlrbtree.h"
#include "utlvector.h"
#include "utlbuffer.h"
#include "generichash.h"
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//-----------------------------------------------------------------------------
// Purpose: Allocates memory for strings, checking for duplicates first,
// reusing exising strings if duplicate found.
//-----------------------------------------------------------------------------
enum StringPoolCase_t
{
StringPoolCaseInsensitive,
StringPoolCaseSensitive
};
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class CStringPool
{
public:
CStringPool( StringPoolCase_t caseSensitivity = StringPoolCaseInsensitive );
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~CStringPool();
unsigned int Count() const;
const char * Allocate( const char *pszValue );
// This feature is deliberately not supported because it's pretty dangerous
// given current uses of CStringPool, which assume they can copy string pointers without
// any refcounts.
//void Free( const char *pszValue );
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void FreeAll();
// searches for a string already in the pool
const char * Find( const char *pszValue );
protected:
typedef CUtlRBTree<const char *, unsigned short> CStrSet;
CStrSet m_Strings;
};
//-----------------------------------------------------------------------------
// Purpose: A reference counted string pool.
//
// Elements are stored more efficiently than in the conventional string pool,
// quicker to look up, and storage is tracked via reference counts.
//
// At some point this should replace CStringPool
//-----------------------------------------------------------------------------
template<class T>
class CCountedStringPoolBase
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{
public: // HACK, hash_item_t structure should not be public.
struct hash_item_t
{
char* pString;
T nNextElement;
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unsigned char nReferenceCount;
unsigned char pad;
};
enum
{
INVALID_ELEMENT = 0,
MAX_REFERENCE = 0xFF,
HASH_TABLE_SIZE = 1024
};
CUtlVector<T> m_HashTable; // Points to each element
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CUtlVector<hash_item_t> m_Elements;
T m_FreeListStart;
StringPoolCase_t m_caseSensitivity;
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public:
CCountedStringPoolBase( StringPoolCase_t caseSensitivity = StringPoolCaseInsensitive );
virtual ~CCountedStringPoolBase();
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void FreeAll();
char *FindString( const char* pIntrinsic );
char *ReferenceString( const char* pIntrinsic );
void DereferenceString( const char* pIntrinsic );
// These are only reliable if there are less than 64k strings in your string pool
T FindStringHandle( const char* pIntrinsic );
T ReferenceStringHandle( const char* pIntrinsic );
char *HandleToString( T handle );
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void SpewStrings();
unsigned Hash( const char *pszKey );
bool SaveToBuffer( CUtlBuffer &buffer );
bool RestoreFromBuffer( CUtlBuffer &buffer );
// Debug helper method to validate that we didn't overflow
void VerifyNotOverflowed( unsigned int value );
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};
typedef CCountedStringPoolBase<unsigned short> CCountedStringPool;
template<class T>
inline CCountedStringPoolBase<T>::CCountedStringPoolBase( StringPoolCase_t caseSensitivity )
{
MEM_ALLOC_CREDIT();
m_HashTable.EnsureCount(HASH_TABLE_SIZE);
for( int i = 0; i < m_HashTable.Count(); i++ )
{
m_HashTable[i] = INVALID_ELEMENT;
}
m_FreeListStart = INVALID_ELEMENT;
m_Elements.AddToTail();
m_Elements[0].pString = NULL;
m_Elements[0].nReferenceCount = 0;
m_Elements[0].nNextElement = INVALID_ELEMENT;
m_caseSensitivity = caseSensitivity;
}
template<class T>
inline CCountedStringPoolBase<T>::~CCountedStringPoolBase()
{
FreeAll();
}
template<class T>
inline void CCountedStringPoolBase<T>::FreeAll()
{
int i;
// Reset the hash table:
for( i = 0; i < m_HashTable.Count(); i++ )
{
m_HashTable[i] = INVALID_ELEMENT;
}
// Blow away the free list:
m_FreeListStart = INVALID_ELEMENT;
for( i = 0; i < m_Elements.Count(); i++ )
{
if( m_Elements[i].pString )
{
delete [] m_Elements[i].pString;
m_Elements[i].pString = NULL;
m_Elements[i].nReferenceCount = 0;
m_Elements[i].nNextElement = INVALID_ELEMENT;
}
}
// Remove all but the invalid element:
m_Elements.RemoveAll();
m_Elements.AddToTail();
m_Elements[0].pString = NULL;
m_Elements[0].nReferenceCount = 0;
m_Elements[0].nNextElement = INVALID_ELEMENT;
}
template<class T>
inline unsigned CCountedStringPoolBase<T>::Hash( const char *pszKey )
{
if ( m_caseSensitivity == StringPoolCaseInsensitive )
{
return HashStringCaseless( pszKey );
}
return HashString( pszKey );
}
template<class T>
inline T CCountedStringPoolBase<T>::FindStringHandle( const char* pIntrinsic )
{
if( pIntrinsic == NULL )
return INVALID_ELEMENT;
T nHashBucketIndex = ( Hash( pIntrinsic ) %HASH_TABLE_SIZE);
T nCurrentBucket = m_HashTable[ nHashBucketIndex ];
// Does the bucket already exist?
if( nCurrentBucket != INVALID_ELEMENT )
{
for( ; nCurrentBucket != INVALID_ELEMENT ; nCurrentBucket = m_Elements[nCurrentBucket].nNextElement )
{
if( !Q_stricmp( pIntrinsic, m_Elements[nCurrentBucket].pString ) )
{
return nCurrentBucket;
}
}
}
return 0;
}
template<class T>
inline char* CCountedStringPoolBase<T>::FindString( const char* pIntrinsic )
{
if( pIntrinsic == NULL )
return NULL;
// Yes, this will be NULL on failure.
return m_Elements[FindStringHandle(pIntrinsic)].pString;
}
template<class T>
inline T CCountedStringPoolBase<T>::ReferenceStringHandle( const char* pIntrinsic )
{
if( pIntrinsic == NULL )
return INVALID_ELEMENT;
T nHashBucketIndex = ( Hash( pIntrinsic ) % HASH_TABLE_SIZE);
T nCurrentBucket = m_HashTable[ nHashBucketIndex ];
// Does the bucket already exist?
if( nCurrentBucket != INVALID_ELEMENT )
{
for( ; nCurrentBucket != INVALID_ELEMENT ; nCurrentBucket = m_Elements[nCurrentBucket].nNextElement )
{
if( !Q_stricmp( pIntrinsic, m_Elements[nCurrentBucket].pString ) )
{
// Anyone who hits 65k references is permanant
if( m_Elements[nCurrentBucket].nReferenceCount < MAX_REFERENCE )
{
m_Elements[nCurrentBucket].nReferenceCount ++ ;
}
return nCurrentBucket;
}
}
}
if( m_FreeListStart != INVALID_ELEMENT )
{
nCurrentBucket = m_FreeListStart;
m_FreeListStart = m_Elements[nCurrentBucket].nNextElement;
}
else
{
unsigned int newElement = m_Elements.AddToTail();
VerifyNotOverflowed( newElement );
nCurrentBucket = newElement;
}
m_Elements[nCurrentBucket].nReferenceCount = 1;
// Insert at the beginning of the bucket:
m_Elements[nCurrentBucket].nNextElement = m_HashTable[ nHashBucketIndex ];
m_HashTable[ nHashBucketIndex ] = nCurrentBucket;
m_Elements[nCurrentBucket].pString = new char[Q_strlen( pIntrinsic ) + 1];
Q_strcpy( m_Elements[nCurrentBucket].pString, pIntrinsic );
return nCurrentBucket;
}
template<>
inline void CCountedStringPoolBase<unsigned short>::VerifyNotOverflowed( unsigned int value ) { Assert( value < 0xffff ); }
template<>
inline void CCountedStringPoolBase<unsigned int>::VerifyNotOverflowed( unsigned int value ) {}
template<class T>
inline char* CCountedStringPoolBase<T>::ReferenceString( const char* pIntrinsic )
{
if(!pIntrinsic)
return NULL;
return m_Elements[ReferenceStringHandle( pIntrinsic)].pString;
}
template<class T>
inline void CCountedStringPoolBase<T>::DereferenceString( const char* pIntrinsic )
{
// If we get a NULL pointer, just return
if (!pIntrinsic)
return;
T nHashBucketIndex = (Hash( pIntrinsic ) % m_HashTable.Count());
T nCurrentBucket = m_HashTable[ nHashBucketIndex ];
// If there isn't anything in the bucket, just return.
if ( nCurrentBucket == INVALID_ELEMENT )
return;
for( T previous = INVALID_ELEMENT; nCurrentBucket != INVALID_ELEMENT ; nCurrentBucket = m_Elements[nCurrentBucket].nNextElement )
{
if( !Q_stricmp( pIntrinsic, m_Elements[nCurrentBucket].pString ) )
{
// Anyone who hits 65k references is permanant
if( m_Elements[nCurrentBucket].nReferenceCount < MAX_REFERENCE )
{
m_Elements[nCurrentBucket].nReferenceCount --;
}
if( m_Elements[nCurrentBucket].nReferenceCount == 0 )
{
if( previous == INVALID_ELEMENT )
{
m_HashTable[nHashBucketIndex] = m_Elements[nCurrentBucket].nNextElement;
}
else
{
m_Elements[previous].nNextElement = m_Elements[nCurrentBucket].nNextElement;
}
delete [] m_Elements[nCurrentBucket].pString;
m_Elements[nCurrentBucket].pString = NULL;
m_Elements[nCurrentBucket].nReferenceCount = 0;
m_Elements[nCurrentBucket].nNextElement = m_FreeListStart;
m_FreeListStart = nCurrentBucket;
break;
}
}
previous = nCurrentBucket;
}
}
template<class T>
inline char* CCountedStringPoolBase<T>::HandleToString( T handle )
{
return m_Elements[handle].pString;
}
template<class T>
inline void CCountedStringPoolBase<T>::SpewStrings()
{
int i;
for ( i = 0; i < m_Elements.Count(); i++ )
{
char* string = m_Elements[i].pString;
Msg("String %d: ref:%d %s\n", i, m_Elements[i].nReferenceCount, string == NULL? "EMPTY - ok for slot zero only!" : string);
}
Msg("\n%d total counted strings.", m_Elements.Count());
}
#define STRING_POOL_VERSION MAKEID( 'C', 'S', 'P', '1' )
#define MAX_STRING_SAVE 1024
template<>
inline bool CCountedStringPoolBase<unsigned short>::SaveToBuffer( CUtlBuffer &buffer )
{
if ( m_Elements.Count() <= 1 )
{
// pool is empty, saving nothing
// caller can check put position of buffer to detect
return true;
}
// signature/version
buffer.PutInt( STRING_POOL_VERSION );
buffer.PutUnsignedShort( m_FreeListStart );
buffer.PutInt( m_HashTable.Count() );
for ( int i = 0; i < m_HashTable.Count(); i++ )
{
buffer.PutUnsignedShort( m_HashTable[i] );
}
buffer.PutInt( m_Elements.Count() );
for ( int i = 1; i < m_Elements.Count(); i++ )
{
buffer.PutUnsignedShort( m_Elements[i].nNextElement );
buffer.PutUnsignedChar( m_Elements[i].nReferenceCount );
const char *pString = m_Elements[i].pString;
if ( strlen( pString ) >= MAX_STRING_SAVE )
{
return false;
}
buffer.PutString( pString ? pString : "" );
}
return buffer.IsValid();
}
template<>
inline bool CCountedStringPoolBase<unsigned short>::RestoreFromBuffer( CUtlBuffer &buffer )
{
int signature = buffer.GetInt();
if ( signature != STRING_POOL_VERSION )
{
// wrong version
return false;
}
FreeAll();
m_FreeListStart = buffer.GetUnsignedShort();
int hashCount = buffer.GetInt();
m_HashTable.SetCount( hashCount );
for ( int i = 0; i < hashCount; i++ )
{
m_HashTable[i] = buffer.GetUnsignedShort();
}
int tableCount = buffer.GetInt();
if ( tableCount > 1 )
{
m_Elements.AddMultipleToTail( tableCount-1 );
}
char tempString[MAX_STRING_SAVE];
for ( int i = 1; i < tableCount; i++ )
{
m_Elements[i].nNextElement = buffer.GetUnsignedShort();
m_Elements[i].nReferenceCount = buffer.GetUnsignedChar();
buffer.GetString( tempString, sizeof( tempString ) );
m_Elements[i].pString = strdup( tempString );
}
return buffer.IsValid();
}
template<>
inline bool CCountedStringPoolBase<unsigned int>::SaveToBuffer( CUtlBuffer &buffer )
{
if ( m_Elements.Count() <= 1 )
{
// pool is empty, saving nothing
// caller can check put position of buffer to detect
return true;
}
// signature/version
buffer.PutInt( STRING_POOL_VERSION );
buffer.PutUnsignedInt( m_FreeListStart );
buffer.PutInt( m_HashTable.Count() );
for ( int i = 0; i < m_HashTable.Count(); i++ )
{
buffer.PutUnsignedInt( m_HashTable[i] );
}
buffer.PutInt( m_Elements.Count() );
for ( int i = 1; i < m_Elements.Count(); i++ )
{
buffer.PutUnsignedInt( m_Elements[i].nNextElement );
buffer.PutUnsignedChar( m_Elements[i].nReferenceCount );
const char *pString = m_Elements[i].pString;
if ( strlen( pString ) >= MAX_STRING_SAVE )
{
return false;
}
buffer.PutString( pString ? pString : "" );
}
return buffer.IsValid();
}
template<>
inline bool CCountedStringPoolBase<unsigned int>::RestoreFromBuffer( CUtlBuffer &buffer )
{
int signature = buffer.GetInt();
if ( signature != STRING_POOL_VERSION )
{
// wrong version
return false;
}
FreeAll();
m_FreeListStart = buffer.GetUnsignedInt();
int hashCount = buffer.GetInt();
m_HashTable.SetCount( hashCount );
for ( int i = 0; i < hashCount; i++ )
{
m_HashTable[i] = buffer.GetUnsignedInt();
}
int tableCount = buffer.GetInt();
if ( tableCount > 1 )
{
m_Elements.AddMultipleToTail( tableCount-1 );
}
char tempString[MAX_STRING_SAVE];
for ( int i = 1; i < tableCount; i++ )
{
m_Elements[i].nNextElement = buffer.GetUnsignedInt();
m_Elements[i].nReferenceCount = buffer.GetUnsignedChar();
buffer.GetString( tempString, sizeof( tempString ) );
m_Elements[i].pString = strdup( tempString );
}
return buffer.IsValid();
}
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#endif // STRINGPOOL_H