mirror of
https://github.com/gusmanb/logicanalyzer.git
synced 2024-12-22 09:39:35 +00:00
6ab103e120
Added persistance of last IP used Added link to the Wiki Corrected SPI analyzer Added channel names on analysis settings
314 lines
12 KiB
C#
314 lines
12 KiB
C#
using System;
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using System.Collections.Generic;
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using System.ComponentModel.DataAnnotations;
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using System.Linq;
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using System.Text;
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using System.Text.RegularExpressions;
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using System.Threading.Tasks;
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namespace SharedDriver
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{
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public class MultiAnalizerDriver : IDisposable, IAnalizerDriver
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{
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Regex regVersion = new Regex(".*?(V([0-9]+)_([0-9]+))$");
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LogicAnalyzerDriver[] connectedDevices;
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UInt128[][]? tempCapture;
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bool[]? captureFinished;
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int[][]? tempChannels;
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object locker = new object();
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public int Channels { get { return connectedDevices.Length * 24; } }
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public LogicAnalyzerDriver[] Devices { get { return connectedDevices; } }
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public event EventHandler<CaptureEventArgs>? CaptureCompleted;
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bool capturing = false;
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private int channelCount;
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private int triggerChannel;
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private int preSamples;
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private Action<CaptureEventArgs>? currentCaptureHandler;
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public bool IsCapturing { get { return capturing; } }
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public bool IsNetwork { get { return false; } }
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public string DeviceVersion { get; private set; }
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public AnalyzerDriverType DriverType
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{
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get
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{
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return AnalyzerDriverType.Multi;
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}
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}
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public MultiAnalizerDriver(string[] ConnectionStrings) //First connection string must belong to the master device
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{
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if (ConnectionStrings == null || ConnectionStrings.Length < 2 || ConnectionStrings.Length > 5)
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throw new ArgumentOutOfRangeException(nameof(ConnectionStrings), $"Invalid devices specified, 2 to 5 connection strings must be provided");
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int pos = 0;
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connectedDevices = new LogicAnalyzerDriver[ConnectionStrings.Length];
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try
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{
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for (pos = 0; pos < ConnectionStrings.Length; pos++)
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{
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connectedDevices[pos] = new LogicAnalyzerDriver(ConnectionStrings[pos]);
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}
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foreach(var dev in connectedDevices)
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dev.CaptureCompleted += Dev_CaptureCompleted;
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} catch(Exception ex)
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{
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for (int buc = 0; buc < connectedDevices.Length; buc++)
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{
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if (connectedDevices[buc] != null)
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connectedDevices[buc].Dispose();
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}
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throw new DeviceConnectionException($"Error connecting to device {ConnectionStrings[pos]}.", ex);
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}
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string? ver = null;
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foreach (var device in connectedDevices)
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{
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var mVer = regVersion.Match(device.DeviceVersion);
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if (mVer == null || !mVer.Success)
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{
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Dispose();
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throw new DeviceConnectionException($"Invalid device version ({device.DeviceVersion}) found on device {ConnectionStrings[(int)device.Tag]}");
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}
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if (ver == null)
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{
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ver = mVer.Groups[1].Value;
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if (mVer == null || !mVer.Success || !mVer.Groups[2].Success)
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{
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Dispose();
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throw new DeviceConnectionException($"Invalid device version V{(string.IsNullOrWhiteSpace(mVer?.Value) ? "(unknown)" : mVer?.Value)}, minimum supported version: V5_0");
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}
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int majorVer = int.Parse(mVer.Groups[2].Value);
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if (majorVer < 5)
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{
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Dispose();
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throw new DeviceConnectionException($"Invalid device version V{mVer.Value}, minimum supported version: V5_0");
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}
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}
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else
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{
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if (ver != mVer.Groups[1].Value)
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{
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Dispose();
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throw new DeviceConnectionException($"Different device versions found. Master version: {ver}, device {ConnectionStrings[(int)device.Tag]} version: {mVer.Groups[1].Value}.");
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}
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}
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}
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DeviceVersion = $"MULTI_ANALYZER_{ver}";
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}
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public bool SendNetworkConfig(string AccesPointName, string Password, string IPAddress, ushort Port)
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{
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throw new NotSupportedException();
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}
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public CaptureError StartCapture(int Frequency, int PreSamples, int PostSamples, int LoopCount, int[] Channels, int TriggerChannel, bool TriggerInverted, Action<CaptureEventArgs>? CaptureCompletedHandler = null)
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{
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throw new NotSupportedException();
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}
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public CaptureError StartPatternCapture(int Frequency, int PreSamples, int PostSamples, int[] Channels, int TriggerChannel, int TriggerBitCount, UInt16 TriggerPattern, bool Fast, Action<CaptureEventArgs>? CaptureCompletedHandler = null)
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{
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try
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{
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if (capturing)
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return CaptureError.Busy;
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if (Channels == null ||
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Channels.Length == 0 ||
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Channels.Min() < 0 ||
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TriggerBitCount < 1 ||
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TriggerBitCount > 16 ||
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TriggerChannel < 0 ||
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TriggerChannel > 15 ||
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PreSamples < 2 ||
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PostSamples < 512 ||
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Frequency < 3100 ||
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Frequency > 100000000
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)
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return CaptureError.BadParams;
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int maxChannel = connectedDevices.Length * 24;
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if (Channels.Max() >= maxChannel)
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return CaptureError.BadParams;
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int[][] channelsPerDevice = SplitChannelsPerDevice(Channels);
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if (channelsPerDevice.Length > Channels.Length)
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return CaptureError.BadParams;
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if (channelsPerDevice[0].Length < 1)
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return CaptureError.BadParams;
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var captureLimits = GetLimits(Channels);
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if (PreSamples > captureLimits.MaxPreSamples ||
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PostSamples > captureLimits.MaxPostSamples ||
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PreSamples + PostSamples > captureLimits.MinPreSamples + captureLimits.MaxPostSamples)
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return CaptureError.BadParams;
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double samplePeriod = 1000000000.0 / Frequency;
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double delay = Fast ? TriggerDelays.FastTriggerDelay : TriggerDelays.ComplexTriggerDelay;
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int offset = (int)(Math.Round((delay / samplePeriod) + 0.3, 0));
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channelCount = Channels.Length;
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triggerChannel = TriggerChannel;
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preSamples = PreSamples;
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currentCaptureHandler = CaptureCompletedHandler;
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capturing = true;
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int channelsCapturing = 1;
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//Start capturing on all devices except master, master will be the last one to start
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for (int buc = 1; buc < channelsPerDevice.Length; buc++)
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{
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var chan = channelsPerDevice[buc];
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if (chan.Length == 0)
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continue;
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connectedDevices[buc].Tag = channelsCapturing;
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var err = connectedDevices[buc].StartCapture(Frequency, PreSamples + offset, PostSamples - offset, 0, chan, 24, false);
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if (err != CaptureError.None)
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{
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StopCapture();
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return err;
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}
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channelsCapturing++;
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}
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connectedDevices[0].Tag = 0;
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tempCapture = new UInt128[channelsCapturing][];
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captureFinished = new bool[channelsCapturing];
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tempChannels = channelsPerDevice.Where(c => c.Length > 0).ToArray();
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var chanMaster = channelsPerDevice[0];
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var errMaster = connectedDevices[0].StartPatternCapture(Frequency, PreSamples, PostSamples, chanMaster, TriggerChannel, TriggerBitCount, TriggerPattern, Fast);
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if (errMaster != CaptureError.None)
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{
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StopCapture();
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return errMaster;
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}
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return CaptureError.None;
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}
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catch { return CaptureError.UnexpectedError; }
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}
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private byte GetCaptureMode(int[] Channels)
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{
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var split = SplitChannelsPerDevice(Channels);
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var maxChannel = split.Select(c => c.DefaultIfEmpty(0).Max()).DefaultIfEmpty(0).Max();
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return (byte)(maxChannel < 8 ? 0 : (maxChannel < 16 ? 1 : 2));
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}
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private int[][] SplitChannelsPerDevice(int[] Channels)
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{
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List<int[]> channelsPerDevice = new List<int[]>();
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for (int buc = 0; buc < connectedDevices.Length; buc++)
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{
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int firstChan = buc * 24;
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int lastChan = (buc + 1) * 24;
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int[] devChan = Channels.Where(c => c >= firstChan && c < lastChan).Select(c => c - firstChan).ToArray();
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channelsPerDevice.Add(devChan);
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}
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return channelsPerDevice.ToArray();
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}
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public CaptureLimits GetLimits(int[] Channels)
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{
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var mode = GetCaptureMode(Channels);
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return CaptureModes.Modes[mode];
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}
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public string? GetVoltageStatus()
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{
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return "UNSUPPORTED";
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}
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private void Dev_CaptureCompleted(object? sender, CaptureEventArgs e)
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{
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lock(locker)
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{
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int idx = (int)((sender as LogicAnalyzerDriver).Tag);
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tempCapture[idx] = e.Samples;
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captureFinished[idx] = true;
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if (captureFinished.All(c => c))
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{
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UInt128[] finalSamples = new UInt128[tempCapture[idx].Length];
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for(int buc = 0; buc < finalSamples.Length; buc++)
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{
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int bitPos = 0;
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for (int devNum = 0; devNum < tempCapture.Length; devNum++)
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{
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int len = tempChannels[idx].Length;
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UInt128 devMask = ((UInt128)1 << len) - 1;
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UInt128 devSample = tempCapture[devNum][buc] & devMask;
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finalSamples[buc] |= devSample << bitPos;
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bitPos += len;
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}
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}
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if (currentCaptureHandler != null)
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currentCaptureHandler(new CaptureEventArgs { Samples = finalSamples, ChannelCount = channelCount, TriggerChannel = triggerChannel, PreSamples = preSamples });
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else if (CaptureCompleted != null)
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CaptureCompleted(this, new CaptureEventArgs { Samples = finalSamples, ChannelCount = channelCount, TriggerChannel = triggerChannel, PreSamples = preSamples });
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capturing = false;
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}
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}
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}
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public bool StopCapture()
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{
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if(!capturing)
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return false;
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foreach(var dev in connectedDevices)
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dev.StopCapture();
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capturing = false;
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return true;
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}
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public void Dispose()
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{
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foreach (var dev in connectedDevices)
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dev.Dispose();
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}
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}
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public class DeviceConnectionException : Exception
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{
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public DeviceConnectionException(string message) : base(message) { }
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public DeviceConnectionException(string message, Exception innerException) : base(message, innerException) { }
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}
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}
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