CRVM-redis-6/Driver/DaqDriver - 复制.csBK

using System;
using NationalInstruments.DAQmx;
using CRVM.Entity;
using CRVM.Utility;

namespace CRVM.Driver
{
    public class DaqDriver
    {
        private double[,] vibdata1 = new double[4, SysParam.Instance.samplePoint];
        private double[,] vibdata2 = new double[4, SysParam.Instance.samplePoint];
        private double[,] speeddata = new double[8, SysParam.Instance.samplePoint];
        private double[] cutdata;
        private double[] lendata;

        private Task myTask_Analog1, myTask_Analog2, myTask_Speed, myTask_Cut, myTask_Len;
        private AnalogMultiChannelReader analogInReader1, analogInReader2, analogSpeedReader;
        //private AnalogSingleChannelReader analogCutReader, analogLenReader;
        private Task runningTask1, runningTask2, runningTask3;
        private AsyncCallback analogCallback1, analogCallback2, analogCallback3;
        int count = 0;
        public DaqDriver()
        {
            //修改为线程池任务
            new System.Threading.Tasks.Task(() => DaqStart()).Start();
        }

        public void DaqStart()
        {
            DevelopLog.DeBug.WriteLogFile("DaqStart", "DaqStart");
            try
            {
                myTask_Analog1 = new Task();
                myTask_Analog2 = new Task();
                myTask_Speed = new Task();

                //振动信号 加速度信号 1~3通道对应1~3机架的振动信号 4通道预留
                for (int i = 0; i < 4; i++)
                {
                    myTask_Analog1.AIChannels.CreateAccelerometerChannel("Vib1/ai" + i.ToString(), "", AITerminalConfiguration.Pseudodifferential, -5.0, 5.0,
                        SysParam.Instance.channel[i].vibSens, AIAccelerometerSensitivityUnits.MillivoltsPerG, AIExcitationSource.Internal, Convert.ToSingle(0.004), AIAccelerationUnits.G);
                }

                //振动信号 加速度信号 1~2通道对应4~5机架的振动信号 3,4通道预留
                for (int i = 0; i < 4; i++)
                {
                    myTask_Analog2.AIChannels.CreateAccelerometerChannel("Vib2/ai" + i.ToString(), "", AITerminalConfiguration.Pseudodifferential, -5.0, 5.0,
                        SysParam.Instance.channel[4 + i].vibSens, AIAccelerometerSensitivityUnits.MillivoltsPerG, AIExcitationSource.Internal, Convert.ToSingle(0.004), AIAccelerationUnits.G);
                }


                /*//轧制速度 ai0-ai4通道为模拟电流信号4-20mA  1机架0-550mpm   2机架0-1000mpm   3~5机架0-1700mpm  单位(m/min) ai5：轧制距离 模拟电流信号4-20mA  0-200m锯齿波 单位m  ai6:剪切信号 模拟电流信号4-20mA  <12 无剪切   >12剪切
                for (int i = 0; i < 7; i++)
                {
                    myTask_Speed.AIChannels.CreateCurrentChannel("L1signal/ai" + i.ToString(), "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);
                }*/

                //1#SPD
                myTask_Speed.AIChannels.CreateCurrentChannel("L1signal/ai0", "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);
                //2#SPD
                myTask_Speed.AIChannels.CreateCurrentChannel("L1signal/ai2", "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);
                //3#SPD
                myTask_Speed.AIChannels.CreateCurrentChannel("L1signal/ai4", "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);
                //4#SPD
                myTask_Speed.AIChannels.CreateCurrentChannel("L1signal/ai6", "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);
                //5#SPD
                myTask_Speed.AIChannels.CreateCurrentChannel("L1signal/ai1", "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);
                //LENGTH
                myTask_Speed.AIChannels.CreateCurrentChannel("L1signal/ai5", "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);
                //CUT
                myTask_Speed.AIChannels.CreateCurrentChannel("L1signal/ai3", "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);
                //SPARE
                myTask_Speed.AIChannels.CreateCurrentChannel("L1signal/ai7", "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);

                ////轧制距离 模拟电流信号4-20mA  0-200m锯齿波 单位m
                //myTask_Len.AIChannels.CreateCurrentChannel("L1signal/ai5", "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);
                ////剪切信号 模拟电流信号4-20mA  <12 无剪切   >12剪切
                //myTask_Cut.AIChannels.CreateCurrentChannel("L1signal/ai6", "", (AITerminalConfiguration)(-1), -0.02, 0.02, AICurrentUnits.Amps);


                //采样速率
                myTask_Analog1.Timing.ConfigureSampleClock("", Convert.ToDouble(SysParam.Instance.sampleFre), SampleClockActiveEdge.Rising, SampleQuantityMode.ContinuousSamples, 1024);
                myTask_Analog2.Timing.ConfigureSampleClock("", Convert.ToDouble(SysParam.Instance.sampleFre), SampleClockActiveEdge.Rising, SampleQuantityMode.ContinuousSamples, 1024);
                myTask_Speed.Timing.ConfigureSampleClock("", Convert.ToDouble(SysParam.Instance.sampleFre), SampleClockActiveEdge.Rising, SampleQuantityMode.ContinuousSamples, 1024);

                ////声明采集任务
                string time1 = DateTime.Now.Second.ToString() + ":" + DateTime.Now.Millisecond.ToString();
                myTask_Analog2.Control(TaskAction.Verify);
                string time2 = DateTime.Now.Second.ToString() + ":" + DateTime.Now.Millisecond.ToString();
                myTask_Analog1.Control(TaskAction.Verify);
                string time3 = DateTime.Now.Second.ToString() + ":" + DateTime.Now.Millisecond.ToString();
                myTask_Speed.Control(TaskAction.Verify);

                ////声明采集任务
                /*string time4 = DateTime.Now.Second.ToString() + ":" + DateTime.Now.Millisecond.ToString();
                myTask_Analog2.Control(TaskAction.Verify);
                string time5 = DateTime.Now.Second.ToString() + ":" + DateTime.Now.Millisecond.ToString();
                myTask_Analog1.Control(TaskAction.Verify);
                string time6 = DateTime.Now.Second.ToString() + ":" + DateTime.Now.Millisecond.ToString();
                myTask_Speed.Control(TaskAction.Verify);*/

                //数据采集
                runningTask1 = myTask_Analog1;
                runningTask2 = myTask_Analog2;
                runningTask3 = myTask_Speed;


                analogInReader1 = new AnalogMultiChannelReader(myTask_Analog1.Stream);
                analogInReader2 = new AnalogMultiChannelReader(myTask_Analog2.Stream);
                analogSpeedReader = new AnalogMultiChannelReader(myTask_Speed.Stream);

                analogCallback1 = new AsyncCallback(AnalogInCallback1);
                analogCallback2 = new AsyncCallback(AnalogInCallback2);
                analogCallback3 = new AsyncCallback(AnalogInCallback3);


                myTask_Analog2.Start();
                myTask_Speed.Start();
                //启动采集
                //模拟通道采集同步
                analogInReader1.SynchronizeCallbacks = true;
                analogInReader2.SynchronizeCallbacks = true;
                analogSpeedReader.SynchronizeCallbacks = true;

                analogInReader1.BeginReadMultiSample(SysParam.Instance.samplePoint, analogCallback1, myTask_Analog1);
                analogInReader2.BeginReadMultiSample(SysParam.Instance.samplePoint, analogCallback2, myTask_Analog2);
                analogSpeedReader.BeginReadMultiSample(SysParam.Instance.samplePoint, analogCallback3, myTask_Speed);
                SysParam.Instance.isDatahandlered = true;
            }
            catch (DaqException ex)
            {
                DevelopLog.DeBug.WriteLogFile("ex", ex.ToString());
                throw new Exception("没连接上仪器，请重新连接仪器并重新启动重新" + ex.Message);
            }
        }

        public void DaqStop()
        {
            runningTask1 = null;
            runningTask2 = null;
            runningTask3 = null;
            if (myTask_Analog1 != null)
            {
                myTask_Analog1.Stop();
            }
            if (myTask_Analog2 != null)
            {
                myTask_Analog2.Stop();
            }
            //if (myTask_Cut != null)
            //{
            //    myTask_Cut.Stop();
            //}
            //if (myTask_Len != null)
            //{
            //    myTask_Len.Stop();
            //}
            if (myTask_Speed != null)
            {
                myTask_Speed.Stop();
            }
        }

        /*private void AnalogInCallback1(IAsyncResult ar)
        {
            if (runningTask1 != null && runningTask1 == ar.AsyncState)
            {
                try
                {

                    //DevelopLog.DeBug.WriteLogFile("analogInReader1", "");
                    vibdata1 = analogInReader1.EndReadMultiSample(ar);
                    ////cutdata = analogCutReader.ReadMultiSample(SysParam.Instance.samplePoint);
                    ////lendata = analogLenReader.ReadMultiSample(SysParam.Instance.samplePoint);
                    //DevelopLog.DeBug.WriteLogFile("analogSpeedReader", "");
                    //if (SysParam.Instance.isDatahandlered && count >= 3)//数据处理未能及时完成时，该帧数据不触发回调

                    //DevelopLog.DeBug.WriteLogFile("speedInReader2", "");
                    speeddata = analogSpeedReader.ReadMultiSample(SysParam.Instance.samplePoint);

                    //DevelopLog.DeBug.WriteLogFile("analogInReader2", "");
                    vibdata2 = analogInReader2.ReadMultiSample(SysParam.Instance.samplePoint);
                    if (SysParam.Instance.isDatahandlered)//数据处理未能及时完成时，该帧数据不触发回调
                    {
                        count = 0;
                        SysParam.Instance.isDatahandlered = false;
                        if (DaqDataChangEvent != null)
                        {
                            DaqDataChangEvent.Invoke(new Daqdata(vibdata1, vibdata2, speeddata, lendata, cutdata));
                        }
                    }

                    analogInReader1.BeginReadMultiSample(SysParam.Instance.samplePoint, analogCallback1, myTask_Analog1);
                }
                catch (Exception ex)
                {
                    DevelopLog.DeBug.WriteLogFile("AnalogInCallback1", ex.ToString());
                }

            }
        }
        private void AnalogInCallback2(IAsyncResult ar)
        {
            if (runningTask2 == ar.AsyncState)
            {
                //DevelopLog.DeBug.WriteLogFile("AnalogInCallback2", "");
                analogInReader2.BeginReadMultiSample(SysParam.Instance.samplePoint, analogCallback2, myTask_Analog2);
                vibdata2 = analogInReader2.EndReadMultiSample(ar);
                //DevelopLog.DeBug.WriteLogFile("analogInReader2", "");
                count++;
                //vibdata2 = analogInReader2.ReadMultiSample(SysParam.Instance.samplePoint);
                //DevelopLog.DeBug.WriteLogFile("analogInReader2", "");
                //speeddata = analogSpeedReader.ReadMultiSample(SysParam.Instance.samplePoint);
                ////cutdata = analogCutReader.ReadMultiSample(SysParam.Instance.samplePoint);
                ////lendata = analogLenReader.ReadMultiSample(SysParam.Instance.samplePoint);
                //DevelopLog.DeBug.WriteLogFile("analogSpeedReader", "");
                if (SysParam.Instance.isDatahandlered && count >= 2)//数据处理未能及时完成时，该帧数据不触发回调
                {
                    count = 0;
                    SysParam.Instance.isDatahandlered = false;
                    if (DaqDataChangEvent != null)
                    {
                        DaqDataChangEvent.Invoke(new Daqdata(vibdata1, vibdata2, speeddata, lendata, cutdata));
                    }
                }
            }
        }
        private void AnalogInCallback3(IAsyncResult ar)
        {
            if (runningTask3 == ar.AsyncState)
            {
                //DevelopLog.DeBug.WriteLogFile("AnalogInCallback3", "");
                analogSpeedReader.BeginReadMultiSample(SysParam.Instance.samplePoint, analogCallback3, myTask_Speed);
                speeddata = analogSpeedReader.EndReadMultiSample(ar);
                //DevelopLog.DeBug.WriteLogFile("analogSpeedReader", "");
                count++;
                //vibdata2 = analogInReader2.ReadMultiSample(SysParam.Instance.samplePoint);
                //DevelopLog.DeBug.WriteLogFile("analogInReader2", "");
                //speeddata = analogSpeedReader.ReadMultiSample(SysParam.Instance.samplePoint);
                ////cutdata = analogCutReader.ReadMultiSample(SysParam.Instance.samplePoint);
                ////lendata = analogLenReader.ReadMultiSample(SysParam.Instance.samplePoint);
                //DevelopLog.DeBug.WriteLogFile("analogSpeedReader", "");
                if (SysParam.Instance.isDatahandlered && count >= 3)//数据处理未能及时完成时，该帧数据不触发回调
                {
                    count = 0;
                    SysParam.Instance.isDatahandlered = false;
                    if (DaqDataChangEvent != null)
                    {
                        DaqDataChangEvent.Invoke(new Daqdata(vibdata1, vibdata2, speeddata, lendata, cutdata));
                    }
                }
            }
        }*/


        int countTest = 0;
        private void AnalogInCallback1(IAsyncResult ar)
        {
            if (runningTask1 != null && runningTask1 == ar.AsyncState)
            {
                try
                {
                    //DevelopLog.DeBug.WriteLogFile("AnalogInCallback1", "");
                    analogInReader1.BeginReadMultiSample(SysParam.Instance.samplePoint, analogCallback1, myTask_Analog1);
                    //DevelopLog.DeBug.WriteLogFile("analogInReader1", "");
                    vibdata1 = analogInReader1.EndReadMultiSample(ar);

                    //DevelopLog.DeBug.WriteLogFile("speedInReader2", "");
                    if (countTest == 0)
                    {
                        speeddata = analogSpeedReader.ReadMultiSample(SysParam.Instance.samplePoint);

                        //DevelopLog.DeBug.WriteLogFile("analogInReader2", "");
                        vibdata2 = analogInReader2.ReadMultiSample(SysParam.Instance.samplePoint);
                        countTest++;
                    }

                    if (SysParam.Instance.isDatahandlered)//数据处理未能及时完成时，该帧数据不触发回调
                    {
                        SysParam.Instance.isDatahandlered = false;
                        if (DaqDataChangEvent != null)
                        {
                            DaqDataChangEvent.Invoke(new Daqdata(vibdata1, vibdata2, speeddata, lendata, cutdata));

                        }

                    }

                }
                catch (Exception ex)
                {
                    DevelopLog.DeBug.WriteLogFile("AnalogInCallback1", ex.ToString());
                    //analogInReader1.BeginReadMultiSample(SysParam.Instance.samplePoint, analogCallback1, myTask_Analog1);
                }

            }
        }
        private void AnalogInCallback2(IAsyncResult ar)
        {
            if (runningTask2 == ar.AsyncState)
            {
                //DevelopLog.DeBug.WriteLogFile("AnalogInCallback2", "");
                analogInReader2.BeginReadMultiSample(SysParam.Instance.samplePoint, analogCallback2, myTask_Analog2);
                vibdata2 = analogInReader2.EndReadMultiSample(ar);
            }
        }
        private void AnalogInCallback3(IAsyncResult ar)
        {
            if (runningTask3 == ar.AsyncState)
            {
                //DevelopLog.DeBug.WriteLogFile("AnalogInCallback3", "");
                analogSpeedReader.BeginReadMultiSample(SysParam.Instance.samplePoint, analogCallback3, myTask_Speed);
                speeddata = analogSpeedReader.EndReadMultiSample(ar);
            }
        }

        public delegate void DriverCollectDataHandle(Daqdata data);
        public event DriverCollectDataHandle DaqDataChangEvent;
    }

    public class Daqdata : EventArgs
    {
        public double[,] vibData1;
        public double[,] vibData2;
        public double[,] speedData;
        public double[] lenData;
        public double[] cutData;

        public Daqdata(double[,] indata1, double[,] indata2, double[,] speeddata, double[] lendata, double[] cutdata)
        {
            this.vibData1 = indata1;
            this.vibData2 = indata2;
            this.cutData = cutdata;
            this.lenData = lendata;
            this.speedData = speeddata;
        }
    }
}