windows-nt/Source/XPSP1/NT/com/rpc/midl/common/idict.hxx

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/*****************************************************************************/
/** Microsoft LAN Manager **/
/** Copyright(c) Microsoft Corp., 1987-1999 **/
/*****************************************************************************/
/*****************************************************************************
File : idict.hxx
Title : index based dictionary simulation
History :
04-Aug-1991 VibhasC Created
*****************************************************************************/
#ifndef __IDICT_HXX__
#define __IDICT_HXX__
#include "common.hxx"
#if 0
Notes
-----
This implementation is a glorified implementation of an array, which is
a data structure which returns an element upon presentation of an index. Thus,
for this data structure, we assume that the index is the key. The difference
is that this array is dynamically sized. It starts out with a fixed size, and
when more and more additions are made, a new array is allocated with a larger
size and the old one is copied. A different implementation could be that we
allocate fixed size blocks and add more such blocks as needed, linking the
blocks together, in order to save the copying. A roughly similar implementation
is the buffermanager class, but it does not have a method for returning a
pointer, given an index. When that is implemented this one will go away and
be replaced by the buffermanager.
Keep in mind:
-------------
. The block size is in increments of IDICT_INCREMENT. This is tunable.
. Caveat :
This implementation is to be used when you dont intend to delete elements
out of the array. MIDL stores the key value in its data structures, so
once entered in the array, the array CANNOT change.
#endif // 0
#define IDICT_INCREMENT (512)
typedef int IDICTKEY;
typedef void * IDICTELEMENT;
class IDICT
{
private:
short CurrentSize;
short iNextIndex;
short IDictIncrement;
IDICTELEMENT (*pArray);
IDICTELEMENT * GetArray()
{
return pArray;
};
void SetArray( IDICTELEMENT *p )
{
pArray = p;
};
void ExpandArray();
IDICTKEY SetNewElement( IDICTELEMENT );
public:
IDICT( short, short );
~IDICT()
{
delete pArray;
};
IDICTELEMENT GetElement( IDICTKEY Key );
IDICTKEY AddElement( IDICTELEMENT );
void SetElement( IDICTKEY, IDICTELEMENT );
short GetCurrentSize()
{
return CurrentSize;
}
short GetNumberOfElements()
{
return iNextIndex;
}
BOOL IsElementPresent( IDICTELEMENT );
};
typedef IDICT * PIDICT;
class ISTACK
{
private:
short MaxElements;
short CurrentElement;
IDICTELEMENT (*pStack);
void InitNew( short MaxDepth );
public:
ISTACK( short MaxDepth );
IDICTELEMENT Push( IDICTELEMENT Elem );
IDICTELEMENT Pop();
IDICTELEMENT GetTop()
{
if( CurrentElement >= 1 )
return pStack[ CurrentElement - 1 ];
else
return (IDICTELEMENT) 0;
}
IDICTELEMENT GetBottom()
{
return (IDICTELEMENT) pStack[ 0 ];
}
};
#endif // __IDICT_HXX__