public static int ActivateTriggerIn(TriggerInAddress tin, TriggerWires wireNum)
 {
     lock (dev)
     {
         return((int)dev.ActivateTriggerIn((int)tin, (int)wireNum));
     }
 }
 public void Start()
 {
     lock (lockObj)
     {
         // Send the device a start trigger.
         com.opalkelly.frontpanel.okCFrontPanel.ErrorCode errorCode = opalKellyDevice.ActivateTriggerIn(0x40, 0);
         if (errorCode != okCFrontPanel.ErrorCode.NoError)
         {
             throw new Exception("Unable to send software start trigger to FPGA device. " + errorCode.ToString());
         }
         lock (startedLockObj)
         {
             started = true;
             Monitor.PulseAll(startedLockObj);
         }
     }
 }
        public FpgaTimebaseTask(DeviceSettings deviceSettings, okCFrontPanel opalKellyDevice, SequenceData sequence, double masterClockPeriod, out int nSegments, bool useRfModulation, bool assymetric)
            : base()
        {
            com.opalkelly.frontpanel.okCFrontPanel.ErrorCode errorCode;

            this.opalKellyDevice = opalKellyDevice;

            this.masterClockPeriod = masterClockPeriod;

            TimestepTimebaseSegmentCollection segments = sequence.generateVariableTimebaseSegments(SequenceData.VariableTimebaseTypes.AnalogGroupControlledVariableFrequencyClock,
                                                                                                   masterClockPeriod);

            this.max_elapsedtime_ms = (UInt32)((sequence.SequenceDuration * 1000.0) + 100);

            byte[] data = FpgaTimebaseTask.createByteArray(segments, sequence, out nSegments, masterClockPeriod, assymetric);

            // Send the device an abort trigger.
            errorCode = opalKellyDevice.ActivateTriggerIn(0x40, 1);
            if (errorCode != okCFrontPanel.ErrorCode.NoError)
            {
                throw new Exception("Unable to set abort trigger to FPGA device. Error code " + errorCode.ToString());
            }

            UInt16 wireInValue = 0;

            if (deviceSettings.StartTriggerType != DeviceSettings.TriggerType.SoftwareTrigger)
            {
                wireInValue += 1;
            }

            if (useRfModulation)
            {
                wireInValue += 2;
            }

            setWireInValue(0x00, wireInValue);

            setWireInValue(0x01, deviceSettings.RetriggerDebounceSamples);

            opalKellyDevice.UpdateWireIns();

            // pipe the byte stream to the device
            int xfered = opalKellyDevice.WriteToPipeIn(0x80, data.Length, data);

            if (xfered != data.Length)
            {
                throw new Exception("Error when piping clock data to FPGA device. Sent " + xfered + " bytes instead of " + data.Length + "bytes.");
            }
        }
        public FpgaTimebaseTask(DeviceSettings deviceSettings, okCFrontPanel opalKellyDevice, SequenceData sequence, double masterClockPeriod, out int nSegments, bool useRfModulation, bool assymetric)
            : base()
        {
            com.opalkelly.frontpanel.okCFrontPanel.ErrorCode errorCode;

            this.opalKellyDevice = opalKellyDevice;

            this.masterClockPeriod = masterClockPeriod;

            TimestepTimebaseSegmentCollection segments = sequence.generateVariableTimebaseSegments(SequenceData.VariableTimebaseTypes.AnalogGroupControlledVariableFrequencyClock,
                                                        masterClockPeriod);

            this.max_elapsedtime_ms = (UInt32)((sequence.SequenceDuration * 1000.0) + 100);

            byte[] data = FpgaTimebaseTask.createByteArray(segments, sequence, out nSegments, masterClockPeriod, assymetric );

            // Send the device an abort trigger.
            errorCode = opalKellyDevice.ActivateTriggerIn(0x40, 1);
            if (errorCode != okCFrontPanel.ErrorCode.NoError)
            {
                throw new Exception("Unable to set abort trigger to FPGA device. Error code " + errorCode.ToString());
            }

            UInt16 wireInValue = 0;
            if (deviceSettings.StartTriggerType != DeviceSettings.TriggerType.SoftwareTrigger)
            {
                wireInValue += 1;
            }

            if (useRfModulation)
            {
                wireInValue += 2;
            }

            setWireInValue(0x00, wireInValue);

            setWireInValue(0x01, deviceSettings.RetriggerDebounceSamples);

            opalKellyDevice.UpdateWireIns();

            // pipe the byte stream to the device
            int xfered = opalKellyDevice.WriteToPipeIn(0x80, data.Length, data);
            if (xfered != data.Length)
            {
                throw new Exception("Error when piping clock data to FPGA device. Sent " + xfered + " bytes instead of " + data.Length + "bytes.");
            }
        }