private async Task RecData(CancellationToken token) { if (_running) { try { if (token.IsCancellationRequested) { return; } // List<PhysicalQuantity> result = await Task.Run( // () => Operator.ReadLoop(10, AppSetting.Container.Resolve<IPhysicalCalculator>()).Result); var result = await Operator.ReadLoop(AppSetting.Container.Resolve <IPhysicalCalculator>()); if (result.Any()) { if (checkBoxSendData.Checked) { _toSendQueue.Enqueue(result.Last()); } _toSaveQueue.Enqueue(result.Last()); } } catch (Exception ex) { var bex = new BoundaryException(ex); AppendLog(bex.Display); } } }
private void InitConnect() { try { if (Operator == null) { Operator = new InstrumentOperation(LocalPort, RemoteIp, RemotePort); } else { if (Operator.Communication.Local.Port != LocalPort || Operator.Communication.Remote.Port != RemotePort || Operator.Communication.Remote.Address.ToString() != RemoteIp) { Operator.Communication.Reset(); Operator = null; Operator = new InstrumentOperation(LocalPort, RemoteIp, RemotePort); } } } catch (Exception ex) { var bex = new BoundaryException("初始化UDP通道失败!", ex); AppendLog(bex.Display); } }
private void InitConnect() { try { if (Operator == null) { Operator = new InstrumentOperation(LocalPort, RemoteIp, RemotePort); } } catch (Exception ex) { var bex = new BoundaryException("初始化UDP通道失败!", ex); AppendLog(bex.Display); } }
private void buttonConnect_Click(object sender, EventArgs e) { try { InitConnect(); var result = false; Task.Run(() => result = Operator.TestConnection().Result) .ContinueWith(task => task.Wait()) .Wait(); AppendLog(result ? "连接成功" : "连接失败"); } catch (Exception ex) { var bex = new BoundaryException(ex); AppendLog(new[] { bex.Display, bex.DetailInfo }); } }
private async Task RecData(CancellationToken token) { if (_running) { try { if (token.IsCancellationRequested) { return; } var result = await Operator.ReadLoop(AppSetting.Container.Resolve <IPhysicalCalculator>()); if (result.Any()) { _waveViewData.PushChannelWaveData(result.Last()); if (checkBoxSendData.Checked) { _toSendQueue.Enqueue(result.Last()); } _toSaveQueue.Enqueue(result.Last()); } } catch (BoundaryException bex) { if (token.CanBeCanceled) { _cancelSource.Cancel(); bex.Display += "\t数据接收已退出"; } ControlRenderInvoke.SafeInvoke(textBoxLog, () => AppendLog(bex.Display)); } catch (Exception ex) { var bex = new BoundaryException(ex); if (token.CanBeCanceled) { _cancelSource.Cancel(); bex.Display += "\t数据接收已退出"; } ControlRenderInvoke.SafeInvoke(textBoxLog, () => AppendLog(bex.Display)); } } }
public async Task <Tuple <bool, string> > Start() { if (Communication == null) { return(new Tuple <bool, string>(false, "The object Communication is null!")); } // // string hexstr = "1020060300"; // 停止 // var senddata = hexstr.ToHexByte(); // var len = await Communication.SendDataAsync(senddata, senddata.Length); try { var hexstr = "1004000000"; var senddata = hexstr.ToHexByte(); var len = await Communication.SendDataAsync(senddata, senddata.Length); hexstr = "1005000200"; senddata = hexstr.ToHexByte(); len = await Communication.SendDataAsync(senddata, senddata.Length); hexstr = "100613ec00"; senddata = hexstr.ToHexByte(); len = await Communication.SendDataAsync(senddata, senddata.Length); hexstr = "1020060100"; senddata = hexstr.ToHexByte(); len = await Communication.SendDataAsync(senddata, senddata.Length); Thread.Sleep(1000); var result = Communication.RecvChanel.Client.Available > 0; return(new Tuple <bool, string>(result, result ? "" : "网络无响应")); } catch (Exception ex) { var bex = new BoundaryException(ex); return(new Tuple <bool, string>(false, bex.Display)); } }
public DomainException(string code, BoundaryException innerException, object data) : base(code, innerException, code) { Code = code; this.AddData(data); }
private void _renderTimer_Tick(object aSender, EventArgs aE) { //Task.Run(() => { //RecData().ContinueWith(task => task.Wait()); PhysicalQuantity sendQ; if (_toSendQueue.TryDequeue(out sendQ)) { try { Task.Run(() => new Action(async() => { var send = new SendQuantityPackage(_sendLocalPort, SendRemoteIp, SendRemotePort, sendQ); await send.SendData(); })()); } catch (Exception ex) { var bex = new BoundaryException(ex); AppendLog(bex.Message); } } PhysicalQuantity quan; if (_toSaveQueue.TryDequeue(out quan)) { if (checkBoxEnableSaveLocal.Checked) { Task.Run(() => { //var dataArray = quan.ToDataString(); var dataArray = quan.ToTestDataString(); for (var i = 0; i < dataArray.Length; i++) { StressDataFile.SaveByChannel(dataArray[i], i + 1); } }); } ControlRenderInvoke.SafeInvoke(listViewQuantity, () => { try { if (listViewQuantity.Items.Count > 0) { for (var i = 0; i < GlobalSetting.Instance.SensorCount; i++) { var item = listViewQuantity.Items[i]; for (var j = 0; j < GlobalSetting.Instance.ChannelWay; j++) { var text = quan.ChannelValues[j].GratingValues[i].WaveLengthExtension.ToString(); item.SubItems[j + 1].Text = text; } } } else { for (var i = 0; i < GlobalSetting.Instance.SensorCount; i++) { var textArray = new string[GlobalSetting.Instance.ChannelWay + 1]; textArray[0] = ""; for (var j = 0; j < GlobalSetting.Instance.ChannelWay; j++) { textArray[j + 1] = quan.ChannelValues[j].GratingValues[i].WaveLengthExtension.ToString(); } listViewQuantity.Items.Add(new ListViewItem(textArray, -1)); } } } catch (Exception ex) { var bex = new BoundaryException(ex); AppendLog(bex.Display); } }); } } //); }