Esempi in C++ (Cpp) per WelsEventClose

Esempio n. 1

File: wels_task_management.cpp Progetto: roybagos/openh264

void   CWelsTaskManageBase::Uninit() {
  DestroyTasks();
  WELS_DELETE_OP (m_pThreadPool);

  delete m_cTaskList;
  WelsEventClose (&m_hTaskEvent);
}

Esempio n. 2

File: wels_task_management.cpp Progetto: pra85/openh264

void   CWelsTaskManageBase::Uninit() {
  DestroyTasks();
  WELS_DELETE_OP (m_pThreadPool);

  for (int32_t iDid = 0; iDid < MAX_DEPENDENCY_LAYER; iDid++) {
    delete m_cEncodingTaskList[iDid];
    delete m_cPreEncodingTaskList[iDid];
  }
  WelsEventClose (&m_hTaskEvent);
}

Esempio n. 3

File: slice_multi_threading.cpp Progetto: xingyuejun/openh264

void ReleaseMtResource (sWelsEncCtx** ppCtx) {
  SWelsSliceBs* pSliceB                 = NULL;
  SSliceThreading* pSmt                 = NULL;
  CMemoryAlign* pMa                     = NULL;
  int32_t iIdx                          = 0;
  int32_t iThreadNum                    = 0;
  int16_t uiSliceNum                    = 0;

  if (NULL == ppCtx || NULL == *ppCtx)
    return;

  pMa           = (*ppCtx)->pMemAlign;
  uiSliceNum    = (*ppCtx)->iMaxSliceCount;
  iThreadNum    = (*ppCtx)->pSvcParam->iCountThreadsNum;
  pSmt          = (*ppCtx)->pSliceThreading;

  if (NULL == pSmt)
    return;

  char ename[SEM_NAME_MAX] = {0};
  while (iIdx < iThreadNum) {
    // length of semaphore name should be system constrained at least on mac 10.7
    WelsSnprintf (ename, SEM_NAME_MAX, "ee%d%s", iIdx, pSmt->eventNamespace);
    WelsEventClose (&pSmt->pExitEncodeEvent[iIdx], ename);
    WelsSnprintf (ename, SEM_NAME_MAX, "tm%d%s", iIdx, pSmt->eventNamespace);
    WelsEventClose (&pSmt->pThreadMasterEvent[iIdx], ename);
    WelsSnprintf (ename, SEM_NAME_MAX, "sc%d%s", iIdx, pSmt->eventNamespace);
    WelsEventClose (&pSmt->pSliceCodedEvent[iIdx], ename);
    WelsSnprintf (ename, SEM_NAME_MAX, "rc%d%s", iIdx, pSmt->eventNamespace);
    WelsEventClose (&pSmt->pReadySliceCodingEvent[iIdx], ename);
    WelsSnprintf (ename, SEM_NAME_MAX, "ud%d%s", iIdx, pSmt->eventNamespace);
    WelsEventClose (&pSmt->pUpdateMbListEvent[iIdx], ename);
    WelsSnprintf (ename, SEM_NAME_MAX, "fu%d%s", iIdx, pSmt->eventNamespace);
    WelsEventClose (&pSmt->pFinUpdateMbListEvent[iIdx], ename);

    ++ iIdx;
  }
  WelsSnprintf (ename, SEM_NAME_MAX, "scm%s", pSmt->eventNamespace);
  WelsEventClose (&pSmt->pSliceCodedMasterEvent, ename);

  WelsMutexDestroy (&pSmt->mutexSliceNumUpdate);
  WelsMutexDestroy (&pSmt->mutexThreadBsBufferUsage);
  WelsMutexDestroy (& ((*ppCtx)->mutexEncoderError));

  if (pSmt->pThreadPEncCtx != NULL) {
    pMa->WelsFree (pSmt->pThreadPEncCtx, "pThreadPEncCtx");
    pSmt->pThreadPEncCtx = NULL;
  }

  for (int i = 0; i < MAX_THREADS_NUM; i++) {
    if (pSmt->pThreadBsBuffer[i]) {
      pMa->WelsFree (pSmt->pThreadBsBuffer[i], "pSmt->pThreadBsBuffer");
      pSmt->pThreadBsBuffer[i] = NULL;
    }
  }
  memset (&pSmt->bThreadBsBufferUsage, 0, MAX_THREADS_NUM * sizeof (bool));

  pSliceB = (*ppCtx)->pSliceBs;
  iIdx = 0;
  while (pSliceB != NULL && iIdx < uiSliceNum) {
    pSliceB->pBsBuffer = NULL;
    pSliceB->uiSize = 0;
    pSliceB->uiBsPos = 0;
    ++ iIdx;
    ++ pSliceB;
  }
  if ((*ppCtx)->pSliceBs != NULL) {
    pMa->WelsFree ((*ppCtx)->pSliceBs, "pSliceBs");
    (*ppCtx)->pSliceBs = NULL;
  }

  if ((*ppCtx)->pTaskManage != NULL) {
    delete (*ppCtx)->pTaskManage;
    (*ppCtx)->pTaskManage = NULL;
  }

#ifdef MT_DEBUG
  // file handle for debug
  if (pSmt->pFSliceDiff) {
    fclose (pSmt->pFSliceDiff);
    pSmt->pFSliceDiff = NULL;
  }
#endif//MT_DEBUG
  pMa->WelsFree ((*ppCtx)->pSliceThreading, "SSliceThreading");
  (*ppCtx)->pSliceThreading = NULL;
}