ef2gamesource/dlls/game/umap.h
Walter Julius Hennecke 5bbf27cabd Initial code commit ...
2012-12-30 17:37:54 +01:00

331 lines
No EOL
6.5 KiB
C++

//-----------------------------------------------------------------------------
//
// $Logfile:: /Code/DLLs/game/umap.h $
// $Revision:: 2 $
// $Date:: 10/13/03 8:54a $
//
// Copyright (C) 1999 by Ritual Entertainment, Inc.
// All rights reserved.
//
// This source is may not be distributed and/or modified without
// expressly written permission by Ritual Entertainment, Inc.
//
//
// DESCRIPTION:
// Hash table based map class template. Maps text based keys to previously
// stored data.
//
#ifndef __UMAP_H__
#define __UMAP_H__
#include "str.h"
#include <stdlib.h>
template< class Type >
class UMap : public Class
{
private:
struct hashnode_s
{
str key;
Type value;
hashnode_s *next;
hashnode_s( const char *k, Type v, hashnode_s *n ) : key( k ), value( v ), next( n ) {};
hashnode_s( const str &k, Type v, hashnode_s *n ) : key( k.c_str() ), value( v ), next( n ) {};
};
hashnode_s **m_heads;
Type m_defaultvalue;
unsigned m_tablesize;
unsigned m_numentries;
unsigned m_tablesizemask;
unsigned getHash( const char *key );
public:
void Clear( void );
unsigned getNumEntries( void ) const;
void DeleteDefaultValues ( void );
Type& operator[]( const char *key );
Type& operator[]( const str &key );
const char *getKeyByIndex ( int index ) const;
Type& getValueByIndex ( unsigned index );
~UMap<Type>();
UMap( Type defaultvalue, unsigned tablesize = 64 ) : m_defaultvalue( defaultvalue ), m_tablesize( tablesize )
{
int i;
int bits;
assert( m_tablesize > 0 );
m_heads = new hashnode_s *[ m_tablesize ];
memset( m_heads, 0, sizeof( *m_heads ) * m_tablesize );
m_numentries = 0;
m_tablesizemask = 0;
bits = 0;
for( i = 0; i < 32; i++ )
{
if ( m_tablesize & ( 1 << i ) )
{
bits++;
}
}
if ( bits == 1 )
{
m_tablesizemask = m_tablesize - 1;
}
};
UMap( UMap<Type> &map ) : m_defaultvalue( map.m_defaultvalue ), m_tablesize( map.m_tablesize )
{
unsigned i;
hashnode_s *node;
hashnode_s **prev;
assert( m_tablesize > 0 );
m_heads = new hashnode_s *[ m_tablesize ];
m_numentries = map.m_numentries;
m_tablesizemask = map.m_tablesizemask;
for( i = 0; i < m_tablesize; i++ )
{
if ( !map.m_heads[ i ] )
{
m_heads[ i ] = NULL;
continue;
}
prev = &m_heads[ i ];
for( node = map.m_heads[ i ]; node != NULL; node = node->next )
{
*prev = new hashnode_s( node->key, node->value, NULL );
prev = &( *prev )->next;
}
}
};
};
template< class Type >
UMap<Type>::~UMap<Type>()
{
Clear();
delete m_heads;
}
template< class Type >
unsigned UMap<Type>::getHash
(
const char *key
)
{
unsigned h;
const char *v;
if ( m_tablesizemask )
{
h = 0;
for( v = key; *v != '\0'; v++ )
{
h = ( 64 * h + unsigned( *v ) ) & m_tablesizemask;
}
}
else
{
h = 0;
for( v = key; *v != '\0'; v++ )
{
h = ( 64 * h + unsigned( *v ) ) % m_tablesize;
}
}
return h;
}
template< class Type >
Type& UMap<Type>::operator[]
(
const char *key
)
{
hashnode_s **head;
hashnode_s *node;
unsigned hash;
// FIXME
// if list was always sorted, could just insert new node as soon as we get
// node whose key is greater than the search key
hash = getHash( key );
head = &m_heads[ hash ];
if ( *head )
{
for( node = *head; node != NULL; node = node->next )
{
if ( node->key == key )
{
return node->value;
}
}
}
m_numentries++;
*head = new hashnode_s( key, m_defaultvalue, *head );
return ( *head )->value;
}
template< class Type >
const char * UMap<Type>::getKeyByIndex
(
int index
) const
{
unsigned head;
for ( head = 0; head < m_tablesize; head++ )
{
hashnode_s *node;
for ( node = m_heads[head]; node; node = node->next )
{
if ( !index )
return node->key.c_str ();
index--;
}
}
return NULL;
}
template <class Type>
Type &UMap<Type>::getValueByIndex
(
unsigned index
)
{
unsigned head;
ASSERT ( index < getNumEntries () );
for ( head = 0; head < m_tablesize; head++ )
{
hashnode_s *node;
for ( node = m_heads[head]; node; node = node->next )
{
if ( !index )
return node->value;
index--;
}
}
// Should never, EVER get here.
ASSERT ( 0 );
return m_defaultvalue;
}
template <class Type>
inline void UMap<Type>::DeleteDefaultValues
(
void
)
{
unsigned head;
for ( head = 0; head < m_tablesize; head++ )
{
hashnode_s *node;
while ( m_heads[head] && m_heads[head]->value == m_defaultvalue )
{
node = m_heads[head];
m_heads[head] = node->next;
delete node;
m_numentries--;
}
if ( !m_heads[head] )
continue;
for ( node = m_heads[head]; node->next; )
{
hashnode_s *next = node->next;
if ( next->value == m_defaultvalue )
{
node->next = next->next;
delete next;
m_numentries--;
}
else
node = node->next;
}
}
}
template< class Type >
inline Type& UMap<Type>::operator[]
(
const str &key
)
{
return this->[ key.c_str() ];
}
template< class Type >
void UMap<Type>::Clear
(
void
)
{
unsigned i;
hashnode_s *node;
hashnode_s *next;
for( i = 0; i < m_tablesize; i++ )
{
next = m_heads[ i ];
while( next != NULL )
{
node = next;
next = next->next;
delete node;
}
m_heads[ i ] = NULL;
}
m_numentries = 0;
}
template< class Type >
inline unsigned UMap<Type>::getNumEntries
(
void
) const
{
return m_numentries;
}
#endif /* !__UMAP_H__ */