//Copyright (c) 1998 - 1999 Microsoft Corporation #ifndef _TARRAY_H #define _TARRAY_H template< class T > class CArrayT { T *m_pT; int m_nMaxSize; int m_idx; //current array pos public: //------------------------------------------------------------------------ CArrayT( ) { m_pT = NULL; m_nMaxSize = 0; m_idx = 0; } //------------------------------------------------------------------------ // destroy the list ~CArrayT( ) { if( m_pT != NULL ) { delete[] m_pT; } } //------------------------------------------------------------------------ // increases array size, returns zero if the operation failed int GrowBy( int iSize ) { if( iSize == 0 ) { // //Grow by # number of items // iSize = 4; } if( m_pT == NULL ) { m_pT = ( T * )new T[ iSize ]; if( m_pT == NULL ) { return 0; } m_nMaxSize = iSize; m_idx = 0; } else { T *pT; m_nMaxSize += iSize; pT = ( T * )new T[ m_nMaxSize ]; if( pT == NULL ) { return 0; } ZeroMemory( ( PVOID )pT , sizeof( T ) * m_nMaxSize ); CopyMemory( pT , m_pT , sizeof( T ) * ( m_idx ) ); if( m_pT != NULL ) { delete[] m_pT; } m_pT = pT; } return m_nMaxSize; } //------------------------------------------------------------------------ // Simply put, increase the array size if empty, and place item at the // end of the list int Insert( T tItem ) { if( m_pT == NULL || ( m_idx ) >= m_nMaxSize ) { if( GrowBy( 0 ) == 0 ) { return 0; } } m_pT[ m_idx ] = tItem; m_idx++; return m_idx; } //------------------------------------------------------------------------ // exposes the array for direct reference T* ExposeArray( ) { if( m_pT != NULL ) { return &m_pT[0]; } return NULL; } //------------------------------------------------------------------------ // Returns the number of valid entries in the array int GetSize( ) const { return ( m_idx ); } //------------------------------------------------------------------------ // Returns an item in the array, or null if not with in range T* GetAt( int idx ) { if( idx < 0 || idx >= m_idx ) { return NULL; } return &m_pT[ idx ]; } //------------------------------------------------------------------------ // Assigns a value in the array int SetAt( int idx , T tItem ) { if( idx < 0 || idx >= m_idx ) { return -1; } m_pT[ idx ] = tItem; return idx; } //------------------------------------------------------------------------ // Finds an item in the array ( incase one forgot the index ) int FindItem( T tItem , BOOL& bFound ) { bFound = FALSE; int idx = 0; while( idx < m_idx ) { if( m_pT[ idx ] == tItem ) { bFound = TRUE; break; } idx++; } return idx; } //------------------------------------------------------------------------ // Deletes an item from the array int DeleteItemAt( int idx ) { if( 0 > idx || idx >= m_idx ) { return 0; } if( idx == m_idx - 1 ) //delete last item { m_idx--; return -1; } void *pvDest = &m_pT[ idx ]; void *pvSrc = &m_pT[ idx + 1 ]; ULONG ulDistance = (ULONG)( ( BYTE *)&m_pT[ m_nMaxSize - 1 ] - ( BYTE * )pvSrc ) + sizeof( T ); if( ulDistance != 0 ) { MoveMemory( pvDest , pvSrc , ulDistance ); // Adjust the array status m_idx--; m_nMaxSize--; } return ulDistance; } //------------------------------------------------------------------------ // Deletes the array of items int DeleteArray( ) { if( m_pT != NULL ) { delete[] m_pT; } m_pT = NULL; m_nMaxSize = 0; m_idx = 0; return 0; } }; #endif //_TARRAY_H