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184 lines
5.0 KiB
184 lines
5.0 KiB
#ifndef __VPTRARRAY_HPP
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#define __VPTRARRAY_HPP
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#include "vStandard.h"
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#define VPTRARRAY_ELEMENT ULONG_PTR
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// <VDOC<CLASS=VPtrArray><DESC=Collection of unknown 4 byte types (FAR pointers)><FAMILY=Collections><AUTHOR=Todd Osborne ([email protected])>VDOC>
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class VPtrArray
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{
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public:
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VPtrArray()
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{ m_lpData = NULL; m_nSize = 0; }
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virtual ~VPtrArray()
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{ RemoveAll(); }
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// Same as At(nIndex)
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LPVOID operator [] (int nIndex)
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{ return At(nIndex); }
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// Same as Add()
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int operator + (LPVOID lpData)
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{ return Add(lpData); }
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// Same as FindAndRemove()
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int operator - (LPVOID lpData)
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{ return FindAndRemove(lpData); }
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// Add a new element at the end of the array. Returns index into array on success, -1 on failure
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int Add(LPVOID lpData)
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{
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if ( AllocCopy(m_nSize + 1, -1, -1) )
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{
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m_lpData[m_nSize - 1] = (VPTRARRAY_ELEMENT)lpData;
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return m_nSize - 1;
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}
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return -1;
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}
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// Return element at given index
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LPVOID At(int nIndex)
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{ assert(nIndex >= 0 && nIndex < m_nSize); return (LPVOID)m_lpData[nIndex]; }
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// Set element at given index. This does not allocate memory, that must already have been done by Add(), Size(), or +
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void At(int nIndex, LPVOID lpData)
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{ assert(nIndex >= 0 && nIndex < m_nSize); m_lpData[nIndex] = (VPTRARRAY_ELEMENT)lpData; }
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// Return the index into array for first occurence of lpData, or -1 if not found
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int Find(LPVOID lpData)
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{
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int nResult = -1;
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for ( int i = 0; i < m_nSize; i++ )
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{
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if ( m_lpData[i] == (VPTRARRAY_ELEMENT)lpData )
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{
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nResult = i;
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break;
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}
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}
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return nResult;
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}
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// Find and remove element from array. Returns TRUE on success, FALSE on failure
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BOOL FindAndRemove(LPVOID lpData)
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{ int nIndex = Find(lpData); return (nIndex != -1) ? RemoveAt(nIndex) : FALSE; }
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// Insert a new element into the array at specified index, moving everything after
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// it further into the array. Returns index on success, -1 on failure
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int InsertAt(int nIndex, LPVOID lpData)
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{
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assert(nIndex <= m_nSize);
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// Add item first to end
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if ( Add(lpData) != - 1 )
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{
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if ( nIndex < m_nSize - 1 )
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{
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// Shift memory up in array
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MoveMemory( &m_lpData[nIndex + 1],
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&m_lpData[nIndex],
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sizeof(VPTRARRAY_ELEMENT) * (m_nSize - nIndex - 1));
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// Set lpData where told to
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m_lpData[nIndex] = (VPTRARRAY_ELEMENT)lpData;
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}
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return nIndex;
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}
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return -1;
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}
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// Remove all elements from array
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void RemoveAll()
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{ delete [] m_lpData; m_lpData = NULL; m_nSize = 0; }
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// Remove a single element from the array. All other elements will be shifted down one slot
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BOOL RemoveAt(int nIndex)
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{ return RemoveRange(nIndex, nIndex); }
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// Remove multiple elements from the array. All other elements will be shifted down by the number of elements removed
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BOOL RemoveRange(int nIndexStart, int nIndexEnd)
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{
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assert(nIndexStart >= 0 && nIndexStart < m_nSize && nIndexEnd >= nIndexStart);
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int nSize = m_nSize;
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return (AllocCopy(m_nSize - ((nIndexEnd - nIndexStart) + 1), nIndexStart, nIndexEnd) && m_nSize != nSize) ? TRUE : FALSE;
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}
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// Get / Set the size of the array (number of elements). Returns TRUE on success, FALSE on failure
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// Elements currently in array will be preserved, unless array is skrinking, in which
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// case element(s) at the end of the current array will be truncated
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BOOL Size(int nSize)
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{ assert(nSize >= 0); return AllocCopy(nSize , -1, -1); }
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int Size()
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{ return m_nSize; }
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protected:
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// Internal function to work with private data
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BOOL AllocCopy(int nNewSize, int nSkipIndexStart, int nSkipIndexEnd)
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{
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VPTRARRAY_ELEMENT* lpNewData = (nNewSize) ? new VPTRARRAY_ELEMENT[nNewSize] : NULL;
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// If memory allocation was required and did not succeed, exit now with error
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if ( nNewSize && !lpNewData )
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return FALSE;
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if ( lpNewData )
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{
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#ifdef _DEBUG
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// Data but no size!
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if ( m_lpData )
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assert(m_nSize);
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#endif
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// Clear new memory
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ZeroMemory(lpNewData, nNewSize * sizeof(VPTRARRAY_ELEMENT));
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// Copy any previous memory
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if ( m_nSize )
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{
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// There must be data!
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assert(m_lpData);
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// If either skip index is -1, we will copy everything
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// -1 is used internally as a flag to indicate no exclusions
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if ( nSkipIndexStart == -1 || nSkipIndexEnd == -1 )
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CopyMemory(lpNewData, m_lpData, min(m_nSize, nNewSize) * sizeof(VPTRARRAY_ELEMENT));
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else
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{
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// Copy up to nSkipIndexStart
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if ( nSkipIndexStart )
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CopyMemory(&lpNewData[0], &m_lpData[0], nSkipIndexStart * sizeof(VPTRARRAY_ELEMENT));
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// Copy from nSkipIndexEnd + 1 to end
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CopyMemory( &lpNewData [nSkipIndexStart],
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&m_lpData [nSkipIndexEnd + 1],
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(m_nSize * sizeof(VPTRARRAY_ELEMENT)) - ((nSkipIndexEnd + 1) * sizeof(VPTRARRAY_ELEMENT)));
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}
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}
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}
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// Kill any current memory
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delete [] m_lpData;
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// Make new assignments
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m_lpData = lpNewData;
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m_nSize = nNewSize;
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return TRUE;
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}
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private:
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// Embedded Members
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VPTRARRAY_ELEMENT* m_lpData;
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int m_nSize;
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};
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#endif // __VPTRARRAY_HPP
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