public void AddData(stContinuousModeData_HA data) { // data.sequence trae la secuencia del frame, que se convertirá en una secuencia continua lock (syncObj) { int frameSequence = 0; //save the frame sequence number (to calculate next usersequence) frameSequence = (int)data.sequence; // set sequence for data (with current user sequence) data.sequence = userSequence; //updating the next user sequence and lastFrameSequence if (frameSequence > lastFrameSequence) { userSequence = userSequence + System.Convert.ToUInt64(frameSequence - lastFrameSequence); } if (frameSequence < lastFrameSequence) { userSequence = userSequence + System.Convert.ToUInt64(frameSequence - lastFrameSequence + 256); } lastFrameSequence = frameSequence; //Dim curSequence As Integer = CInt(data.sequence) dataList.Add(data); } }
public void AddData(stContinuousModeData_HA data) { // data.sequence trae la secuencia del frame, que se convertirá en una secuencia continua //SyncLock syncObjList // add continuous mode data in each queue buffer foreach (CContinuousModeQueueStation_HA dataQueue in queueList) { dataQueue.AddData(data); } //End SyncLock }
public void AddData(stContinuousModeData_HA data, uint queueID) { // data.sequence trae la secuencia del frame, que se convertirá en una secuencia continua //SyncLock syncObjList // add continuous mode data in buffer int idx = getIdx(queueID); if (idx >= 0) { queueList[idx].dataList.Add(data); } //End SyncLock }
public stContinuousModeData_HA GetData(uint queueID) { stContinuousModeData_HA data = new stContinuousModeData_HA(); try { int idx = getIdx(queueID); if (idx >= 0) { // get out data from trace buffer data = queueList[idx].GetData(); } } catch (Exception) { } return(data); }
public void AddData(stContinuousModeData_HA data) // Overloads { // data.sequence trae la secuencia del frame, que se convertirá en una secuencia continua lock (syncObj) { int frameSequence = 0; m_captureMSCount++; // cumulate for (var i = 0; i <= data.data.Length - 1; i++) { m_acumData[(int)i].power += data.data[(int)i].power; m_acumData[(int)i].flow += data.data[(int)i].flow; m_acumData[(int)i].temperatureUTI += data.data[(int)i].temperature.UTI; m_acumData[(int)i].externalTC1_TempUTI += data.data[(int)i].externalTC1_Temp.UTI; m_acumData[(int)i].externalTC2_TempUTI += data.data[(int)i].externalTC2_Temp.UTI; } if (m_captureMSCount == m_captureWindow) { // set sequence for data userSequence = userSequence + System.Convert.ToUInt64(1); data.sequence = userSequence; for (var i = 0; i <= data.data.Length - 1; i++) { data.data[(int)i].power = System.Convert.ToInt32(m_acumData[(int)i].power / m_captureWindow); data.data[(int)i].flow = System.Convert.ToInt32(m_acumData[(int)i].flow / m_captureWindow); data.data[(int)i].temperature = new CTemperature(System.Convert.ToInt32(m_acumData[(int)i].temperatureUTI / m_captureWindow)); data.data[(int)i].externalTC1_Temp = new CTemperature(System.Convert.ToInt32(m_acumData[(int)i].externalTC1_TempUTI / m_captureWindow)); data.data[(int)i].externalTC2_Temp = new CTemperature(System.Convert.ToInt32(m_acumData[(int)i].externalTC2_TempUTI / m_captureWindow)); m_acumData[(int)i].power = 0; m_acumData[(int)i].flow = 0; m_acumData[(int)i].temperatureUTI = 0; m_acumData[(int)i].externalTC1_TempUTI = 0; m_acumData[(int)i].externalTC2_TempUTI = 0; } dataList.Add(data); m_captureMSCount = 0; } } }
public stContinuousModeData_HA GetData() { // check data.data.length = 0 on return for error??? lock (syncObj) { stContinuousModeData_HA data = new stContinuousModeData_HA(); try { // get out data from trace buffer if (dataList.Count > 0) { data = dataList[0]; dataList.RemoveAt(0); } } catch (Exception) { } return(data); } }