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667 lines
14 KiB
667 lines
14 KiB
/////////////////////////////////////////////////////////////////////////////
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// class CMapKeyToValue - a mapping from 'KEY's to 'VALUE's, passed in as
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// pv/cb pairs. The keys can be variable length, although we optmizize the
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// case when they are all the same.
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//
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/////////////////////////////////////////////////////////////////////////////
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#include <le2int.h>
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#pragma SEG(map_kv)
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#include "map_kv.h"
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#include "valid.h"
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#include "plex.h"
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ASSERTDATA
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/////////////////////////////////////////////////////////////////////////////
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#pragma SEG(CMapKeyToValue_ctor)
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CMapKeyToValue::CMapKeyToValue(UINT cbValue, UINT cbKey,
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int nBlockSize, LPFNHASHKEY lpfnHashKey, UINT nHashSize)
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{
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VDATEHEAP();
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Assert(nBlockSize > 0);
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m_cbValue = cbValue;
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m_cbKey = cbKey;
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m_cbKeyInAssoc = cbKey == 0 ? sizeof(CKeyWrap) : cbKey;
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m_pHashTable = NULL;
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m_nHashTableSize = nHashSize;
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m_lpfnHashKey = lpfnHashKey;
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m_nCount = 0;
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m_pFreeList = NULL;
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m_pBlocks = NULL;
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m_nBlockSize = nBlockSize;
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}
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#pragma SEG(CMapKeyToValue_dtor)
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CMapKeyToValue::~CMapKeyToValue()
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{
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VDATEHEAP();
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ASSERT_VALID(this);
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RemoveAll();
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Assert(m_nCount == 0);
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}
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#define LOCKTHIS
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#define UNLOCKTHIS
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#ifdef NEVER
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void CMapKeyToValue::LockThis(void)
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{
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VDATEHEAP();
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LOCKTHIS;
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}
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void CMapKeyToValue::UnlockThis(void)
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{
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VDATEHEAP();
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UNLOCKTHIS;
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}
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#endif //NEVER
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#pragma SEG(MKVDefaultHashKey)
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// simple, default hash function
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// REVIEW: need to check the value in this for GUIDs and strings
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STDAPI_(UINT) MKVDefaultHashKey(LPVOID pKey, UINT cbKey)
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{
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VDATEHEAP();
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UINT hash = 0;
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BYTE FAR* lpb = (BYTE FAR*)pKey;
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while (cbKey-- != 0)
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hash = 257 * hash + *lpb++;
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return hash;
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}
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#pragma SEG(CMapKeyToValue_InitHashTable)
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BOOL CMapKeyToValue::InitHashTable()
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{
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VDATEHEAP();
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ASSERT_VALID(this);
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Assert(m_nHashTableSize > 0);
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if (m_pHashTable != NULL)
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return TRUE;
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Assert(m_nCount == 0);
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if ((m_pHashTable = (CAssoc FAR* FAR*)PrivMemAlloc(m_nHashTableSize *
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sizeof(CAssoc FAR*))) == NULL)
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return FALSE;
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_xmemset(m_pHashTable, 0, sizeof(CAssoc FAR*) * m_nHashTableSize);
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ASSERT_VALID(this);
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return TRUE;
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}
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#pragma SEG(CMapKeyToValue_RemoveAll)
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void CMapKeyToValue::RemoveAll()
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{
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VDATEHEAP();
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LOCKTHIS;
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ASSERT_VALID(this);
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// free all key values and then hash table
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if (m_pHashTable != NULL)
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{
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// destroy assocs
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for (UINT nHash = 0; nHash < m_nHashTableSize; nHash++)
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{
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register CAssoc FAR* pAssoc;
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for (pAssoc = m_pHashTable[nHash]; pAssoc != NULL;
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pAssoc = pAssoc->pNext)
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// assoc itself is freed by FreeDataChain below
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FreeAssocKey(pAssoc);
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}
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// free hash table
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PrivMemFree(m_pHashTable);
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m_pHashTable = NULL;
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}
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m_nCount = 0;
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m_pFreeList = NULL;
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m_pBlocks->FreeDataChain();
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m_pBlocks = NULL;
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ASSERT_VALID(this);
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UNLOCKTHIS;
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}
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/////////////////////////////////////////////////////////////////////////////
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// Assoc helpers
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// CAssoc's are singly linked all the time
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#pragma SEG(CMapKeyToValue_NewAssoc)
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CMapKeyToValue::CAssoc FAR*
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CMapKeyToValue::NewAssoc(UINT hash, LPVOID pKey, UINT cbKey, LPVOID pValue)
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{
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VDATEHEAP();
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if (m_pFreeList == NULL)
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{
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// add another block
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CPlex FAR* newBlock = CPlex::Create(m_pBlocks, m_nBlockSize, SizeAssoc());
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if (newBlock == NULL)
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return NULL;
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// chain them into free list
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register BYTE FAR* pbAssoc = (BYTE FAR*) newBlock->data();
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// free in reverse order to make it easier to debug
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pbAssoc += (m_nBlockSize - 1) * SizeAssoc();
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for (int i = m_nBlockSize-1; i >= 0; i--, pbAssoc -= SizeAssoc())
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{
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((CAssoc FAR*)pbAssoc)->pNext = m_pFreeList;
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m_pFreeList = (CAssoc FAR*)pbAssoc;
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}
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}
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Assert(m_pFreeList != NULL); // we must have something
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CMapKeyToValue::CAssoc FAR* pAssoc = m_pFreeList;
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// init all fields except pNext while still on free list
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pAssoc->nHashValue = hash;
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if (!SetAssocKey(pAssoc, pKey, cbKey))
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return NULL;
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SetAssocValue(pAssoc, pValue);
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// remove from free list after successfully initializing it (except pNext)
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m_pFreeList = m_pFreeList->pNext;
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m_nCount++;
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Assert(m_nCount > 0); // make sure we don't overflow
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return pAssoc;
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}
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#pragma SEG(CMapKeyToValue_FreeAssoc)
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// free individual assoc by freeing key and putting on free list
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void CMapKeyToValue::FreeAssoc(CMapKeyToValue::CAssoc FAR* pAssoc)
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{
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VDATEHEAP();
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pAssoc->pNext = m_pFreeList;
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m_pFreeList = pAssoc;
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m_nCount--;
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Assert(m_nCount >= 0); // make sure we don't underflow
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FreeAssocKey(pAssoc);
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}
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#pragma SEG(CMapKeyToValue_GetAssocAt)
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// find association (or return NULL)
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CMapKeyToValue::CAssoc FAR*
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CMapKeyToValue::GetAssocAt(LPVOID pKey, UINT cbKey, UINT FAR& nHash) const
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{
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VDATEHEAP();
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if (m_lpfnHashKey)
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nHash = (*m_lpfnHashKey)(pKey, cbKey) % m_nHashTableSize;
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else
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nHash = MKVDefaultHashKey(pKey, cbKey) % m_nHashTableSize;
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if (m_pHashTable == NULL)
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return NULL;
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// see if it exists
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register CAssoc FAR* pAssoc;
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for (pAssoc = m_pHashTable[nHash]; pAssoc != NULL; pAssoc = pAssoc->pNext)
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{
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if (CompareAssocKey(pAssoc, pKey, cbKey))
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return pAssoc;
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}
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return NULL;
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}
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#pragma SEG(CMapKeyToValue_CompareAssocKey)
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BOOL CMapKeyToValue::CompareAssocKey(CAssoc FAR* pAssoc, LPVOID pKey2, UINT cbKey2) const
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{
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VDATEHEAP();
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LPVOID pKey1;
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UINT cbKey1;
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GetAssocKeyPtr(pAssoc, &pKey1, &cbKey1);
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return cbKey1 == cbKey2 && _xmemcmp(pKey1, pKey2, cbKey1) == 0;
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}
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#pragma SEG(CMapKeyToValue_SetAssocKey)
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BOOL CMapKeyToValue::SetAssocKey(CAssoc FAR* pAssoc, LPVOID pKey, UINT cbKey) const
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{
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VDATEHEAP();
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Assert(cbKey == m_cbKey || m_cbKey == 0);
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if (m_cbKey == 0)
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{
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Assert(m_cbKeyInAssoc == sizeof(CKeyWrap));
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// alloc, set size and pointer
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if ((pAssoc->key.pKey = PrivMemAlloc(cbKey)) == NULL)
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return FALSE;
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pAssoc->key.cbKey = cbKey;
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}
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LPVOID pKeyTo;
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GetAssocKeyPtr(pAssoc, &pKeyTo, &cbKey);
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_xmemcpy(pKeyTo, pKey, cbKey);
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return TRUE;
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}
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#pragma SEG(CMapKeyToValue_GetAssocKeyPtr)
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// gets pointer to key and its length
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void CMapKeyToValue::GetAssocKeyPtr(CAssoc FAR* pAssoc, LPVOID FAR* ppKey,UINT FAR* pcbKey) const
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{
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VDATEHEAP();
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if (m_cbKey == 0)
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{
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// variable length key; go indirect
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*ppKey = pAssoc->key.pKey;
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*pcbKey = pAssoc->key.cbKey;
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}
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else
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{
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// fixed length key; key in assoc
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*ppKey = (LPVOID)&pAssoc->key;
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*pcbKey = m_cbKey;
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}
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}
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#pragma SEG(CMapKeyToValue_FreeAssocKey)
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void CMapKeyToValue::FreeAssocKey(CAssoc FAR* pAssoc) const
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{
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VDATEHEAP();
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if (m_cbKey == 0)
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PrivMemFree(pAssoc->key.pKey);
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}
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#pragma SEG(CMapKeyToValue_GetAssocValuePtr)
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void CMapKeyToValue::GetAssocValuePtr(CAssoc FAR* pAssoc, LPVOID FAR* ppValue) const
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{
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VDATEHEAP();
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*ppValue = (char FAR*)&pAssoc->key + m_cbKeyInAssoc;
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}
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#pragma SEG(CMapKeyToValue_GetAssocValue)
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void CMapKeyToValue::GetAssocValue(CAssoc FAR* pAssoc, LPVOID pValue) const
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{
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VDATEHEAP();
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LPVOID pValueFrom;
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GetAssocValuePtr(pAssoc, &pValueFrom);
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Assert(pValue != NULL);
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_xmemcpy(pValue, pValueFrom, m_cbValue);
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}
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#pragma SEG(CMapKeyToValue_SetAssocValue)
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void CMapKeyToValue::SetAssocValue(CAssoc FAR* pAssoc, LPVOID pValue) const
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{
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VDATEHEAP();
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LPVOID pValueTo;
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GetAssocValuePtr(pAssoc, &pValueTo);
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if (pValue == NULL)
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_xmemset(pValueTo, 0, m_cbValue);
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else
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_xmemcpy(pValueTo, pValue, m_cbValue);
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}
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/////////////////////////////////////////////////////////////////////////////
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#pragma SEG(CMapKeyToValue_Lookup)
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// lookup value given key; return FALSE if key not found; in that
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// case, the value is set to all zeros
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BOOL CMapKeyToValue::Lookup(LPVOID pKey, UINT cbKey, LPVOID pValue) const
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{
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VDATEHEAP();
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UINT nHash;
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BOOL fFound;
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LOCKTHIS;
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fFound = LookupHKey((HMAPKEY)GetAssocAt(pKey, cbKey, nHash), pValue);
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UNLOCKTHIS;
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return fFound;
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}
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#pragma SEG(CMapKeyToValue_LookupHKey)
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// lookup value given key; return FALSE if NULL (or bad) key; in that
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// case, the value is set to all zeros
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BOOL CMapKeyToValue::LookupHKey(HMAPKEY hKey, LPVOID pValue) const
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{
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VDATEHEAP();
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BOOL fFound = FALSE;
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LOCKTHIS;
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// REVIEW: would like some way to verify that hKey is valid
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register CAssoc FAR* pAssoc = (CAssoc FAR*)hKey;
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if (pAssoc == NULL)
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{
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_xmemset(pValue, 0, m_cbValue);
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goto Exit; // not in map
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}
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ASSERT_VALID(this);
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GetAssocValue(pAssoc, pValue);
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fFound = TRUE;
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Exit:
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UNLOCKTHIS;
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return fFound;
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}
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#pragma SEG(CMapKeyToValue_LookupAdd)
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// lookup and if not found add; returns FALSE only if OOM; if added,
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// value added and pointer passed are set to zeros.
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BOOL CMapKeyToValue::LookupAdd(LPVOID pKey, UINT cbKey, LPVOID pValue) const
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{
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VDATEHEAP();
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BOOL fFound;
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LOCKTHIS;
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fFound = Lookup(pKey, cbKey, pValue);
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if (!fFound) // value set to zeros since lookup failed
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fFound = ((CMapKeyToValue FAR*)this)->SetAt(pKey, cbKey, NULL);
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UNLOCKTHIS;
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return fFound;
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}
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#pragma SEG(CMapKeyToValue_SetAt)
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// the only place new assocs are created; return FALSE if OOM;
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// never returns FALSE if keys already exists
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BOOL CMapKeyToValue::SetAt(LPVOID pKey, UINT cbKey, LPVOID pValue)
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{
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VDATEHEAP();
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UINT nHash;
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register CAssoc FAR* pAssoc;
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BOOL fFound = FALSE;
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LOCKTHIS;
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ASSERT_VALID(this);
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if ((pAssoc = GetAssocAt(pKey, cbKey, nHash)) == NULL)
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{
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if (!InitHashTable())
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// out of memory
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goto Exit;
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// it doesn't exist, add a new Association
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if ((pAssoc = NewAssoc(nHash, pKey, cbKey, pValue)) == NULL)
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goto Exit;
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// put into hash table
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pAssoc->pNext = m_pHashTable[nHash];
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m_pHashTable[nHash] = pAssoc;
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ASSERT_VALID(this);
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}
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else
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SetAssocValue(pAssoc, pValue);
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fFound = TRUE;
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Exit:
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UNLOCKTHIS;
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return fFound;
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}
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#pragma SEG(CMapKeyToValue_SetAtHKey)
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// set existing hkey to value; return FALSE if NULL or bad key
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BOOL CMapKeyToValue::SetAtHKey(HMAPKEY hKey, LPVOID pValue)
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{
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VDATEHEAP();
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BOOL fDone = FALSE;
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LOCKTHIS;
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// REVIEW: would like some way to verify that hKey is valid
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register CAssoc FAR* pAssoc = (CAssoc FAR*)hKey;
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if (pAssoc == NULL)
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goto Exit; // not in map
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ASSERT_VALID(this);
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SetAssocValue(pAssoc, pValue);
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fDone = TRUE;
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Exit:
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UNLOCKTHIS;
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return fDone;
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}
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#pragma SEG(CMapKeyToValue_RemoveKey)
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// remove key - return TRUE if removed
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BOOL CMapKeyToValue::RemoveKey(LPVOID pKey, UINT cbKey)
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{
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VDATEHEAP();
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BOOL fFound = FALSE;
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UINT i;
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LOCKTHIS;
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ASSERT_VALID(this);
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if (m_pHashTable == NULL)
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goto Exit; // nothing in the table
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register CAssoc FAR* FAR* ppAssocPrev;
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if (m_lpfnHashKey)
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i = (*m_lpfnHashKey)(pKey, cbKey) % m_nHashTableSize;
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else
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i = MKVDefaultHashKey(pKey, cbKey) % m_nHashTableSize;
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ppAssocPrev = &m_pHashTable[i];
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CAssoc FAR* pAssoc;
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for (pAssoc = *ppAssocPrev; pAssoc != NULL; pAssoc = pAssoc->pNext)
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{
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if (CompareAssocKey(pAssoc, pKey, cbKey))
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{
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// remove it
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*ppAssocPrev = pAssoc->pNext; // remove from list
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FreeAssoc(pAssoc);
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ASSERT_VALID(this);
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fFound = TRUE;
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break;
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}
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ppAssocPrev = &pAssoc->pNext;
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}
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Exit:
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UNLOCKTHIS;
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return fFound;
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}
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#pragma SEG(CMapKeyToValue_RemoveHKey)
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// remove key based on pAssoc (HMAPKEY)
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BOOL CMapKeyToValue::RemoveHKey(HMAPKEY hKey)
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{
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VDATEHEAP();
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BOOL fFound = FALSE;
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// REVIEW: would like some way to verify that hKey is valid
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CAssoc FAR* pAssoc = (CAssoc FAR*)hKey;
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LOCKTHIS;
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ASSERT_VALID(this);
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if (m_pHashTable == NULL)
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goto Exit; // nothing in the table
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if (pAssoc == NULL || pAssoc->nHashValue >= m_nHashTableSize)
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goto Exit; // null hkey or bad hash value
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register CAssoc FAR* FAR* ppAssocPrev;
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ppAssocPrev = &m_pHashTable[pAssoc->nHashValue];
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while (*ppAssocPrev != NULL)
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{
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if (*ppAssocPrev == pAssoc)
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{
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// remove it
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*ppAssocPrev = pAssoc->pNext; // remove from list
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FreeAssoc(pAssoc);
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ASSERT_VALID(this);
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fFound = TRUE;
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break;
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}
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ppAssocPrev = &(*ppAssocPrev)->pNext;
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}
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Exit:
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UNLOCKTHIS;
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return fFound;
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}
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#pragma SEG(CMapKeyToValue_GetHKey)
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HMAPKEY CMapKeyToValue::GetHKey(LPVOID pKey, UINT cbKey) const
|
|
{
|
|
VDATEHEAP();
|
|
|
|
UINT nHash;
|
|
HMAPKEY hKey;
|
|
|
|
LOCKTHIS;
|
|
ASSERT_VALID(this);
|
|
|
|
hKey = (HMAPKEY)GetAssocAt(pKey, cbKey, nHash);
|
|
UNLOCKTHIS;
|
|
return hKey;
|
|
}
|
|
|
|
|
|
/////////////////////////////////////////////////////////////////////////////
|
|
// Iterating
|
|
|
|
// for fixed length keys, copies key to pKey; pcbKey can be NULL;
|
|
// for variable length keys, copies pointer to key to pKey; sets pcbKey.
|
|
|
|
#pragma SEG(CMapKeyToValue_GetNextAssoc)
|
|
void CMapKeyToValue::GetNextAssoc(POSITION FAR* pNextPosition,
|
|
LPVOID pKey, UINT FAR* pcbKey, LPVOID pValue) const
|
|
{
|
|
VDATEHEAP();
|
|
|
|
ASSERT_VALID(this);
|
|
|
|
Assert(m_pHashTable != NULL); // never call on empty map
|
|
|
|
register CAssoc FAR* pAssocRet = (CAssoc FAR*)*pNextPosition;
|
|
Assert(pAssocRet != NULL);
|
|
|
|
if (pAssocRet == (CAssoc FAR*) BEFORE_START_POSITION)
|
|
{
|
|
// find the first association
|
|
for (UINT nBucket = 0; nBucket < m_nHashTableSize; nBucket++)
|
|
if ((pAssocRet = m_pHashTable[nBucket]) != NULL)
|
|
break;
|
|
Assert(pAssocRet != NULL); // must find something
|
|
}
|
|
|
|
// find next association
|
|
CAssoc FAR* pAssocNext;
|
|
if ((pAssocNext = pAssocRet->pNext) == NULL)
|
|
{
|
|
// go to next bucket
|
|
for (UINT nBucket = pAssocRet->nHashValue + 1;
|
|
nBucket < m_nHashTableSize; nBucket++)
|
|
if ((pAssocNext = m_pHashTable[nBucket]) != NULL)
|
|
break;
|
|
}
|
|
|
|
// fill in return data
|
|
*pNextPosition = (POSITION) pAssocNext;
|
|
|
|
// fill in key/pointer to key
|
|
LPVOID pKeyFrom;
|
|
UINT cbKey;
|
|
GetAssocKeyPtr(pAssocRet, &pKeyFrom, &cbKey);
|
|
if (m_cbKey == 0)
|
|
// variable length key; just return pointer to key itself
|
|
*(void FAR* FAR*)pKey = pKeyFrom;
|
|
else
|
|
_xmemcpy(pKey, pKeyFrom, cbKey);
|
|
|
|
if (pcbKey != NULL)
|
|
*pcbKey = cbKey;
|
|
|
|
// get value
|
|
GetAssocValue(pAssocRet, pValue);
|
|
}
|
|
|
|
/////////////////////////////////////////////////////////////////////////////
|
|
|
|
#pragma SEG(CMapKeyToValue_AssertValid)
|
|
void CMapKeyToValue::AssertValid() const
|
|
{
|
|
VDATEHEAP();
|
|
|
|
#ifdef _DEBUG
|
|
Assert(m_cbKeyInAssoc == (m_cbKey == 0 ? sizeof(CKeyWrap) : m_cbKey));
|
|
|
|
Assert(m_nHashTableSize > 0);
|
|
Assert(m_nCount == 0 || m_pHashTable != NULL);
|
|
|
|
if (m_pHashTable != NULL)
|
|
Assert(IsValidReadPtrIn(m_pHashTable, m_nHashTableSize * sizeof(CAssoc FAR*)));
|
|
|
|
if (m_lpfnHashKey)
|
|
Assert(IsValidCodePtr((FARPROC)m_lpfnHashKey));
|
|
|
|
if (m_pFreeList != NULL)
|
|
Assert(IsValidReadPtrIn(m_pFreeList, SizeAssoc()));
|
|
|
|
if (m_pBlocks != NULL)
|
|
Assert(IsValidReadPtrIn(m_pBlocks, SizeAssoc() * m_nBlockSize));
|
|
|
|
#endif //_DEBUG
|
|
}
|