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// The omnipresent memory list, WIN32 implementation, thread safe
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#include "memlist.h"
#pragma warning (disable: 4706) // assignment within conditional expression
struct _tagLIST
{
unsigned int uiCount;
unsigned int uiCapacity;
void **apStorage;
HANDLE hHeap;
CRITICAL_SECTION cs;
};
TYP_LIST *List_Init(unsigned int uiCapacity)
{
HANDLE hHeap = GetProcessHeap();
TYP_LIST *pstHandle;
pstHandle = (TYP_LIST *)HeapAlloc(hHeap, 0, sizeof(TYP_LIST));
if (!pstHandle) return NULL;
pstHandle->uiCount = 0;
pstHandle->uiCapacity = uiCapacity;
if (uiCapacity == 0)
pstHandle->apStorage = NULL;
else
{
pstHandle->apStorage = (void **)HeapAlloc(hHeap, 0, sizeof(void *)*uiCapacity);
if (!pstHandle->apStorage)
{
HeapFree (hHeap, 0, pstHandle);
return NULL;
}
}
pstHandle->hHeap = hHeap;
InitializeCriticalSection (&pstHandle->cs);
return pstHandle;
}
void List_Exit(TYP_LIST *pstHandle)
{
if (pstHandle->apStorage)
HeapFree (pstHandle->hHeap, 0, pstHandle->apStorage);
DeleteCriticalSection (&pstHandle->cs);
HeapFree (pstHandle->hHeap, 0, pstHandle);
}
BOOL List_Push(TYP_LIST *pstHandle, void *pItem)
{
return List_InsertElementAt(pstHandle, pItem,pstHandle->uiCount);
}
void *List_Pop (TYP_LIST *pstHandle)
{
if (pstHandle->uiCount)
return List_RemoveElementAt(pstHandle ,pstHandle->uiCount-1);
else return NULL;
}
BOOL List_InsertElementAt(TYP_LIST *pstHandle, void *pItem, unsigned int uiPos)
{
unsigned int uiStep;
void **apNewStorage;
EnterCriticalSection (&pstHandle->cs);
if (uiPos > pstHandle->uiCount)
uiPos = pstHandle->uiCount;
if (pstHandle->uiCount >= pstHandle->uiCapacity)
{
uiStep = pstHandle->uiCount*2;
if (uiStep < 8) uiStep = 8;
if (!pstHandle->apStorage)
apNewStorage = (void **)HeapAlloc(pstHandle->hHeap, 0, sizeof(void *)*uiStep);
else
apNewStorage = (void **)HeapReAlloc (pstHandle->hHeap, 0, pstHandle->apStorage, sizeof(void *)*uiStep);
if (!apNewStorage)
{
LeaveCriticalSection (&pstHandle->cs);
return FALSE;
}
pstHandle->apStorage = apNewStorage;
pstHandle->uiCapacity = uiStep;
}
if (uiPos<pstHandle->uiCount)
memmove (&pstHandle->apStorage[uiPos+1], &pstHandle->apStorage[uiPos], (pstHandle->uiCount-uiPos)*sizeof(void*));
pstHandle->apStorage[uiPos] = pItem;
pstHandle->uiCount++;
LeaveCriticalSection (&pstHandle->cs);
return TRUE;
}
void *List_RemoveElementAt(TYP_LIST *pstHandle, unsigned int uiPos)
{
void *pRet;
EnterCriticalSection (&pstHandle->cs);
pRet = pstHandle->apStorage[uiPos];
if (uiPos<pstHandle->uiCount)
memmove (&pstHandle->apStorage[uiPos], &pstHandle->apStorage[uiPos+1], (pstHandle->uiCount-uiPos)*sizeof(void*));
pstHandle->uiCount--;
LeaveCriticalSection (&pstHandle->cs);
return pRet;
}
unsigned int List_Count(TYP_LIST *pstHandle)
{
return pstHandle->uiCount;
}
void *List_ElementAt(TYP_LIST *pstHandle,unsigned int uiPos)
{
void *pRet = NULL;
EnterCriticalSection (&pstHandle->cs);
if (uiPos < pstHandle->uiCount)
pRet = pstHandle->apStorage[uiPos];
LeaveCriticalSection (&pstHandle->cs);
return pRet;
}
void *List_Top(TYP_LIST *pstHandle)
{
if (pstHandle->uiCount)
return List_ElementAt (pstHandle, pstHandle->uiCount-1);
else return NULL;
}
#ifdef _INC_STDLIB
void List_Sort(TYP_LIST *pstHandle, int (*pFunc)(const void*,const void*))
{
EnterCriticalSection (&pstHandle->cs);
qsort(pstHandle->apStorage,pstHandle->uiCount,sizeof(void *),pFunc);
LeaveCriticalSection (&pstHandle->cs);
}
#endif
void List_FreeElements(TYP_LIST *pstHandle)
{
void *pEntry;
HANDLE hHeap = GetProcessHeap();
while (pEntry = List_Pop(pstHandle))
HeapFree (hHeap, 0, pEntry);
}
BOOL List_BinarySearch(TYP_LIST *hPList,
int (*pPFunc)(const void *pstPElement,const void *pstPToFind),
const void *pstPToFind,int *piPToInsert)
{
unsigned int
iStart,
iEnd,
iInd;
int iRetCompare;
if (hPList == NULL)
{
*piPToInsert = 0;
return FALSE;
}
iStart = 0;
if (hPList->uiCount == 0)
{
*piPToInsert = 0;
return FALSE;
}
EnterCriticalSection (&hPList->cs);
iEnd = hPList->uiCount-1;
iRetCompare = (*pPFunc)(hPList->apStorage[0],pstPToFind);
if (iRetCompare >= 0)
{
*piPToInsert = 0;
LeaveCriticalSection (&hPList->cs);
return iRetCompare == 0;
}
iRetCompare = (*pPFunc)(hPList->apStorage[iEnd],pstPToFind);
if (iRetCompare < 0)
{
*piPToInsert = hPList->uiCount;
LeaveCriticalSection (&hPList->cs);
return FALSE;
}
else if (iRetCompare == 0)
{
*piPToInsert = hPList->uiCount-1;
LeaveCriticalSection (&hPList->cs);
return TRUE;
}
// Otherwise C4702: unreachable code below
#pragma warning (suppress: 4127) // conditional expression is constant
while(1)
{
switch (iEnd-iStart)
{
case 0:
*piPToInsert = iStart;
LeaveCriticalSection (&hPList->cs);
return FALSE;
case 1:
*piPToInsert = iStart+1;
LeaveCriticalSection (&hPList->cs);
return FALSE;
default:
iInd = iStart + (iEnd-iStart)/2;
iRetCompare = (*pPFunc)(hPList->apStorage[iInd],pstPToFind);
if (iRetCompare == 0)
{
*piPToInsert = iInd;
LeaveCriticalSection (&hPList->cs);
return TRUE;
}
if (iRetCompare < 0)
iStart = iInd;
else
iEnd = iInd;
break;
}
}
LeaveCriticalSection (&hPList->cs);
return FALSE;
}
BOOL List_InsertSort(TYP_LIST *hPList,
int (*pPFunc)(const void *pstPElement,const void *pstPToFind),
void *pItem)
{
int iListInd;
if (!List_BinarySearch(hPList,pPFunc,(void *)pItem,&iListInd))
{
return List_InsertElementAt (hPList, pItem, iListInd);
}
return FALSE;
}
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