Source code of Windows XP (NT5)
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/* Copyright (c) 1998 Microsoft Corporation */
/*
* @DOC DMusic16
*
* @MODULE EQueue.c - Event queue routines |
*
* These routines maintain queues of events. It is expected that other routines will operate
* directly on the queue. The following invariants must be maintained:
*
* If the queue is empty, then the head and tail pointers must be NULL and the element count must be zero.
*
* The queue must not contain circular links.
*
* An event may only be on one queue.
*
* The element count must be equal to the number of events in the queue.
*/
#include <windows.h>
#include <mmsystem.h>
#include <memory.h>
#include "dmusic16.h"
#include "debug.h"
/* @func Initialize an event queue to be empty
*
* @comm
*
* Any previous contents of the queue will be lost (NOT freed).
*/
VOID PASCAL
QueueInit(
NPEVENTQUEUE pQueue) /* @parm Pointer to the queue to initialize */
{
DPF(4, "QueueInit(%04X)", (WORD)pQueue);
pQueue->pHead = NULL;
pQueue->pTail = NULL;
pQueue->cEle = 0;
AssertQueueValid(pQueue);
}
/* @func Append an event to the end of the queue
*
*/
VOID PASCAL
QueueAppend(
NPEVENTQUEUE pQueue, /* @parm Pointer to the queue */
LPEVENT pEvent) /* @parm Pointer to the event to tack on the end of the queue */
{
DPF(4, "QueueAppend(%04X,%08lX)", (WORD)pQueue, (DWORD)pEvent);
if (pQueue->cEle)
{
assert(pQueue->pHead);
assert(pQueue->pTail);
pQueue->pTail->lpNext = pEvent;
}
else
{
assert(NULL == pQueue->pHead);
assert(NULL == pQueue->pTail);
pQueue->pHead = pEvent;
}
pEvent->lpNext = NULL;
pQueue->pTail = pEvent;
++pQueue->cEle;
AssertQueueValid(pQueue);
}
/* @func Concatenate two queues
*
* @comm
*
* This function tacks the contents of <p pSrc> onto the end of <p pDest> in very short constant time.
* <p pSrc> is left empty after the operation.
*/
VOID PASCAL
QueueCat(
NPEVENTQUEUE pDest, /* @parm The queue to receive new events */
NPEVENTQUEUE pSrc) /* @parm The queue which will lost all its events */
{
DPF(4, "QueueCat(%04X,%04X)", (WORD)pDest, (WORD)pSrc);
if (0 == pSrc->cEle)
{
assert(NULL == pSrc->pHead);
assert(NULL == pSrc->pTail);
return;
}
assert(pSrc->pHead);
assert(pSrc->pTail);
if (0 != pDest->cEle)
{
assert(pDest->pHead);
assert(pDest->pTail);
pDest->cEle += pSrc->cEle;
pDest->pTail->lpNext = pSrc->pHead;
pDest->pTail = pSrc->pTail;
}
else
{
assert(NULL == pDest->pHead);
assert(NULL == pDest->pTail);
*pDest = *pSrc;
}
pSrc->pHead = NULL;
pSrc->pTail = NULL;
pSrc->cEle = 0;
AssertQueueValid(pDest);
AssertQueueValid(pSrc);
}
/* @func Dequeue an element from the front of the queue
*
* @rdesc Returns an event pointer or NULL if the queue is empty
*
*/
LPEVENT PASCAL
QueueRemoveFromFront(
NPEVENTQUEUE pQueue) /* @parm The queue to dequeue from */
{
LPEVENT pEvent;
DPF(4, "QueueRemoveFromFront(%04X)", (WORD)pQueue);
if (0 == pQueue->cEle)
{
assert(NULL == pQueue->pHead);
assert(NULL == pQueue->pTail);
return NULL;
}
assert(pQueue->pHead);
assert(pQueue->pTail);
pEvent = pQueue->pHead;
if (0 != --pQueue->cEle)
{
assert(pQueue->pHead != pQueue->pTail);
pQueue->pHead = pQueue->pHead->lpNext;
}
else
{
assert(pQueue->pHead == pQueue->pTail);
pQueue->pHead = NULL;
pQueue->pTail = NULL;
}
AssertQueueValid(pQueue);
return pEvent;
}
/* @func Enumerate the events in a queue, possibly deleting some or all of them
*
* @comm
*
* This function calls the function pointed to by <p pfnFilter> once for each event in
* the queue, starting at the front and working towards the back.
*
* The function <p pfnFilter> may return one of two values:
* @flag QUEUE_FILTER_KEEP | If the event is to be kept
* @flag QUEUE_FILTER_REMOVE | If the event is to be removed from the queue
*/
VOID PASCAL
QueueFilter(
NPEVENTQUEUE pQueue, /* @parm The queue to enumerate */
DWORD dwInstance, /* @parm Instance data which will be passed to
<p pfnFilter> on each call. */
PFNQUEUEFILTER pfnFilter) /* @parm The function to call with each event */
{
LPEVENT pPrev;
LPEVENT pCurr;
LPEVENT pNext;
DPF(4, "QueueFilter(%04X, %08lX, %08lX)", (WORD)pQueue, (DWORD)dwInstance, (DWORD)pfnFilter);
pPrev = NULL;
pCurr = pQueue->pHead;
while (pCurr)
{
/* Callback is allowed to relink into another queue, so save the next
* pointer now.
*/
pNext = pCurr->lpNext;
switch((*pfnFilter)(pCurr, dwInstance))
{
case QUEUE_FILTER_REMOVE:
if (pPrev)
{
pPrev->lpNext = pNext;
}
else
{
pQueue->pHead = pNext;
}
if (pNext == NULL)
{
pQueue->pTail = pPrev;
}
--pQueue->cEle;
AssertQueueValid(pQueue);
pCurr = pNext;
break;
case QUEUE_FILTER_KEEP:
pPrev = pCurr;
pCurr = pNext;
break;
default:
assert(0);
}
}
AssertQueueValid(pQueue);
}
/* @func Peek at the head of the event queue to see what's next
*
* @comm
*
* Non-destructively return the first event in the queue
*
* @rdesc
* Returns the event pointer or NULL if the queue is empty
*/
LPEVENT PASCAL
QueuePeek(
NPEVENTQUEUE pQueue)
{
DPF(4, "QueuePeek(%04X)", (WORD)pQueue);
return pQueue->pHead;
}
/* @func Look at the queue and make sure it's internally consistent.
*
* @comm
*
* Walk the queue and make sure it isn't circularly linked. Also make sure the count
* is correct.
*
* Asserts into debugger if queue is corrupt.
*
* Called by the AssertQueueValid macro in debug builds.
*
* Disables interrupts to avoid false reports of corruption based on the queue changing under
* the routine.
*
*/
#ifdef DEBUG
void PASCAL
_AssertQueueValid(
NPEVENTQUEUE pQueue,
LPSTR szFile,
UINT uLine)
{
LPEVENT pEventSlow;
LPEVENT pEventFast;
UINT cEle;
WORD wIntStat;
BOOL fTrace = FALSE;
wIntStat = DisableInterrupts();
if (!pQueue)
{
DPF(0, "_AssertQueueValid %s@%u: Passed NULL!", szFile, uLine);
assert(FALSE);
goto cleanup;
}
pEventFast = pEventSlow = pQueue->pHead;
cEle = 0;
while (pEventSlow)
{
++cEle;
pEventSlow = pEventSlow->lpNext;
if (pEventFast)
{
pEventFast = pEventFast->lpNext;
}
if (pEventFast)
{
pEventFast = pEventFast->lpNext;
}
if (pEventSlow && pEventFast && pEventSlow == pEventFast)
{
DPF(0, "_AssertQueueValid %s@%u: Queue %04X is circularly linked!",
szFile,
uLine,
(WORD)pQueue);
assert(FALSE);
fTrace = TRUE;
break;
}
}
if (cEle != pQueue->cEle)
{
DPF(0, "_AssertQueueValid %s@%u: Queue %04X has incorrect element count!",
szFile,
uLine,
(WORD)pQueue);
assert(FALSE);
fTrace = TRUE;
}
if ((pQueue->pHead && !pQueue->pTail) ||
(pQueue->pTail && !pQueue->pHead))
{
DPF(0, "_AssertQueueValid %s@%u: Queue %04X head XOR tail is NULL!",
szFile,
uLine,
(WORD)pQueue);
assert(FALSE);
fTrace = TRUE;
}
if (fTrace)
{
DPF(0, "Queue %04X: head %08lX tail %08lX count %u",
(WORD)pQueue,
(DWORD)pQueue->pHead,
(DWORD)pQueue->pTail,
(WORD)pQueue->cEle);
for (pEventSlow = pQueue->pHead; pEventSlow; pEventSlow = pEventSlow->lpNext)
{
DPF(2, " Event %08lX: lpNext %08lX msTime %lu wFlags %04X cbEvent %04X",
(DWORD)pEventSlow,
(DWORD)pEventSlow->lpNext,
(DWORD)pEventSlow->msTime,
(WORD)pEventSlow->wFlags,
(WORD)pEventSlow->cbEvent);
}
}
cleanup:
RestoreInterrupts(wIntStat);
}
#endif //DEBUG