/// <summary>
/// Removes the given ExternalDevice from this stream.
/// </summary>
/// <param name="device">Device to remove</param>
public void RemoveDevice(ExternalDeviceBase device)
{
if (Device == device)
{
Device.UnbindStream(Name);
Device = null;
}
}
/// <summary>
/// Removes the given ExternalDevice from this stream's connected devices.
/// </summary>
/// <param name="device">Device to remove</param>
public void RemoveDevice(ExternalDeviceBase device)
{
if (device.Streams.ContainsKey(Name))
{
device.UnbindStream(Name);
}
Devices.Remove(device);
}
/// <summary>
/// Removes the given ExternalDevice from this stream.
/// </summary>
/// <param name="device">Device to remove</param>
public void RemoveDevice(ExternalDeviceBase device)
{
if (device.Streams.ContainsKey(Name))
device.UnbindStream(Name);
Devices.Remove(device);
}
public void BlowAwayTestEpoch()
{
testEpoch = null;
dev1 = dev2 = null;
}
public void Setup()
{
const string protocolID = "Epoch.Fixture";
var parameters = new Dictionary<string, object>();
parameters[param1] = value1;
parameters[param2] = value2;
dev1 = new UnitConvertingExternalDevice(dev1Name, "DEVICECO", new Measurement(0, "V"));
dev2 = new UnitConvertingExternalDevice(dev2Name, "DEVICECO", new Measurement(0, "V"));
var stream1 = new DAQInputStream("Stream1");
var stream2 = new DAQInputStream("Stream2");
var stimParameters = new Dictionary<string, object>();
stimParameters[param1] = value1;
stimParameters[param2] = value2;
var srate = new Measurement(1000, "Hz");
var samples = Enumerable.Range(0, 1000).Select(i => new Measurement((decimal)Math.Sin((double)i / 100), "V")).ToList();
var stimData = new OutputData(samples, srate, false);
RenderedStimulus stim1 = new RenderedStimulus((string) "RenderedStimulus", (IDictionary<string, object>) stimParameters, (IOutputData) stimData); //.Data does not need to be persisted
RenderedStimulus stim2 = new RenderedStimulus((string) "RenderedStimulus", (IDictionary<string, object>) stimParameters, (IOutputData) stimData); //.Data does not need to be persisted
Epoch e = new Epoch(protocolID, parameters);
e.Stimuli[dev1] = stim1;
e.Stimuli[dev2] = stim2;
var start = DateTimeOffset.Parse("1/11/2011 6:03:29 PM -08:00");
// Do this to match the XML stored in the EpochXML.txt resource
e.StartTime = Maybe<DateTimeOffset>.Yes(start);
e.Background[dev1] = new Epoch.EpochBackground(new Measurement(0, "V"), new Measurement(1000, "Hz"));
e.Background[dev2] = new Epoch.EpochBackground(new Measurement(1, "V"), new Measurement(1000, "Hz"));
e.Responses[dev1] = new Response();
e.Responses[dev2] = new Response();
var streamConfig = new Dictionary<string, object>();
streamConfig[param1] = value1;
var devConfig = new Dictionary<string, object>();
devConfig[param2] = value2;
var responseData1 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream1, streamConfig)
.DataWithExternalDeviceConfiguration(dev1, devConfig);
var responseData2 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream2, streamConfig)
.DataWithExternalDeviceConfiguration(dev2, devConfig);
e.Responses[dev1].AppendData(responseData1);
e.Responses[dev2].AppendData(responseData2);
e.Keywords.Add(kw1);
e.Keywords.Add(kw2);
testEpoch = e;
}
public void ShouldAllowNumericEpochParameters()
{
if (File.Exists("..\\..\\..\\ShouldAllowNumericEpochParameters.h5"))
File.Delete("..\\..\\..\\ShouldAllowNumericEpochParameters.h5");
var gID = new Guid("{2F2719F7-4A8C-4C22-9698-BE999DBC5385}");
using (var exp = new EpochHDF5Persistor("..\\..\\..\\ShouldAllowNumericEpochParameters.h5", null, () => gID)
)
{
var time = new DateTimeOffset(1000, TimeSpan.Zero);
var guid = new Guid("053C64D4-ED7A-4128-AA43-ED115716A97D");
var props = new Dictionary<string, object>();
props["int"] = 2;
props["float"] = 2.0f;
props["double"] = 2.0d;
props["decimal"] = 2.0m;
props["array"] = new[] {1.0, 2.0, 3.0};
props["short"] = (short) 2;
props["unit16"] = (UInt16) 1;
props["uint32"] = (UInt32) 2;
props["byte"] = (byte) 1;
props["bool"] = true;
const string protocolID = "Epoch.Fixture";
Dictionary<string, object> parameters = props;
dev1 = new UnitConvertingExternalDevice(dev1Name, "DEVICECO", new Measurement(0, "V"));
dev2 = new UnitConvertingExternalDevice(dev2Name, "DEVICECO", new Measurement(0, "V"));
var stream1 = new DAQInputStream("Stream1");
var stream2 = new DAQInputStream("Stream2");
var stimParameters = new Dictionary<string, object>();
stimParameters[param1] = value1;
stimParameters[param2] = value2;
var srate = new Measurement(1000, "Hz");
List<Measurement> samples =
Enumerable.Range(0, 10000).Select(i => new Measurement((decimal) Math.Sin((double) i/100), "V")).
ToList();
var stimData = new OutputData(samples, srate, false);
var stim1 = new RenderedStimulus("RenderedStimulus", stimParameters, stimData);
//.Data does not need to be persisted
var stim2 = new RenderedStimulus("RenderedStimulus", stimParameters, stimData);
//.Data does not need to be persisted
var e = new Epoch(protocolID, parameters);
e.Stimuli[dev1] = stim1;
e.Stimuli[dev2] = stim2;
DateTimeOffset start = DateTimeOffset.Parse("1/11/2011 6:03:29 PM -08:00");
// Do this to match the XML stored in the EpochXML.txt resource
e.StartTime = Maybe<DateTimeOffset>.Yes(start);
e.Background[dev1] = new Epoch.EpochBackground(new Measurement(0, "V"), new Measurement(1000, "Hz"));
e.Background[dev2] = new Epoch.EpochBackground(new Measurement(1, "V"), new Measurement(1000, "Hz"));
e.Responses[dev1] = new Response();
e.Responses[dev2] = new Response();
var streamConfig = new Dictionary<string, object>();
streamConfig[param1] = value1;
var devConfig = new Dictionary<string, object>();
devConfig[param2] = value2;
IInputData responseData1 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream1, streamConfig)
.DataWithExternalDeviceConfiguration(dev1, devConfig);
IInputData responseData2 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream2, streamConfig)
.DataWithExternalDeviceConfiguration(dev2, devConfig);
e.Responses[dev1].AppendData(responseData1);
e.Responses[dev2].AppendData(responseData2);
e.Keywords.Add(kw1);
e.Keywords.Add(kw2);
exp.BeginEpochGroup("label", "source identifier", new[] {"keyword1", "keyword2"}, props, guid,
time);
exp.Serialize(e);
exp.EndEpochGroup();
exp.Close();
}
H5.Close();
Approvals.VerifyFile("..\\..\\..\\ShouldAllowNumericEpochParameters.h5");
}
private static Epoch CreateTestEpoch(out ExternalDeviceBase dev1, out ExternalDeviceBase dev2)
{
dev1 = new UnitConvertingExternalDevice("dev1", "man1", new Measurement(0, "V"));
dev2 = new UnitConvertingExternalDevice("dev2", "man2", new Measurement(0, "V"));
var stream1 = new DAQInputStream("Stream1");
var stream2 = new DAQInputStream("Stream2");
var stimParameters = new Dictionary<string, object>();
stimParameters["param1"] = 1;
stimParameters["param2"] = 2;
var srate = new Measurement(1000, "Hz");
List<Measurement> samples =
Enumerable.Range(0, 10000).Select(i => new Measurement((decimal)Math.Sin((double)i / 100), "V")).ToList();
var stimData = new OutputData(samples, srate, false);
var stim1 = new RenderedStimulus("RenderedStimulus", stimParameters, stimData);
var stim2 = new RenderedStimulus("RenderedStimulus", stimParameters, stimData)
{
ShouldDataBePersisted = true
};
var protocolParameters = new Dictionary<string, object>
{
{"one", 1},
{"two", "second"},
{"three", 5.55}
};
var epoch = new TestEpoch("protocol.banana", protocolParameters);
epoch.Stimuli[dev1] = stim1;
epoch.Stimuli[dev2] = stim2;
DateTimeOffset start = DateTimeOffset.Now;
epoch.SetStartTime(Maybe<DateTimeOffset>.Yes(start));
epoch.Backgrounds[dev1] = new Background(new Measurement(0, "V"), new Measurement(1000, "Hz"));
epoch.Backgrounds[dev2] = new Background(new Measurement(1, "V"), new Measurement(1000, "Hz"));
epoch.Responses[dev1] = new Response();
epoch.Responses[dev2] = new Response();
var streamConfig = new Dictionary<string, object>();
streamConfig["configParam1"] = 1;
var devConfig = new Dictionary<string, object>();
devConfig["configParam2"] = 2;
IInputData responseData1 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream1, streamConfig)
.DataWithExternalDeviceConfiguration(dev1, devConfig);
IInputData responseData2 = new InputData(samples, srate, start + TimeSpanExtensions.FromSamples((uint) samples.Count, srate))
.DataWithStreamConfiguration(stream1, streamConfig)
.DataWithExternalDeviceConfiguration(dev1, devConfig);
IInputData responseData3 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream2, streamConfig)
.DataWithExternalDeviceConfiguration(dev2, devConfig);
IInputData responseData4 = new InputData(samples, srate, start + TimeSpanExtensions.FromSamples((uint)samples.Count, srate))
.DataWithStreamConfiguration(stream2, streamConfig)
.DataWithExternalDeviceConfiguration(dev2, devConfig);
epoch.Responses[dev1].AppendData(responseData1);
epoch.Responses[dev1].AppendData(responseData2);
epoch.Responses[dev2].AppendData(responseData3);
epoch.Responses[dev2].AppendData(responseData4);
epoch.Properties.Add("prop1", 5);
epoch.Properties.Add("prop2", "banana");
epoch.Keywords.Add("word1");
epoch.Keywords.Add("word2");
return epoch;
}
public void ShouldAllowNumericEpochParameters()
{
if (File.Exists("..\\..\\..\\ShouldAllowNumericEpochParameters.h5"))
{
File.Delete("..\\..\\..\\ShouldAllowNumericEpochParameters.h5");
}
var gID = new Guid("{2F2719F7-4A8C-4C22-9698-BE999DBC5385}");
using (var exp = new EpochHDF5Persistor("..\\..\\..\\ShouldAllowNumericEpochParameters.h5", null, () => gID)
)
{
var time = new DateTimeOffset(1000, TimeSpan.Zero);
var guid = new Guid("053C64D4-ED7A-4128-AA43-ED115716A97D");
var props = new Dictionary <string, object>();
props["int"] = 2;
props["float"] = 2.0f;
props["double"] = 2.0d;
props["decimal"] = 2.0m;
props["array"] = new[] { 1.0, 2.0, 3.0 };
props["short"] = (short)2;
props["unit16"] = (UInt16)1;
props["uint32"] = (UInt32)2;
props["byte"] = (byte)1;
props["bool"] = true;
const string protocolID = "Epoch.Fixture";
Dictionary <string, object> parameters = props;
dev1 = new UnitConvertingExternalDevice(dev1Name, "DEVICECO", new Measurement(0, "V"));
dev2 = new UnitConvertingExternalDevice(dev2Name, "DEVICECO", new Measurement(0, "V"));
var stream1 = new DAQInputStream("Stream1");
var stream2 = new DAQInputStream("Stream2");
var stimParameters = new Dictionary <string, object>();
stimParameters[param1] = value1;
stimParameters[param2] = value2;
var srate = new Measurement(1000, "Hz");
List <Measurement> samples =
Enumerable.Range(0, 10000).Select(i => new Measurement((decimal)Math.Sin((double)i / 100), "V")).
ToList();
var stimData = new OutputData(samples, srate, false);
var stim1 = new RenderedStimulus("RenderedStimulus", stimParameters, stimData);
//.Data does not need to be persisted
var stim2 = new RenderedStimulus("RenderedStimulus", stimParameters, stimData);
//.Data does not need to be persisted
var e = new Epoch(protocolID, parameters);
e.Stimuli[dev1] = stim1;
e.Stimuli[dev2] = stim2;
DateTimeOffset start = DateTimeOffset.Parse("1/11/2011 6:03:29 PM -08:00");
// Do this to match the XML stored in the EpochXML.txt resource
e.StartTime = Maybe <DateTimeOffset> .Yes(start);
e.Background[dev1] = new Epoch.EpochBackground(new Measurement(0, "V"), new Measurement(1000, "Hz"));
e.Background[dev2] = new Epoch.EpochBackground(new Measurement(1, "V"), new Measurement(1000, "Hz"));
e.Responses[dev1] = new Response();
e.Responses[dev2] = new Response();
var streamConfig = new Dictionary <string, object>();
streamConfig[param1] = value1;
var devConfig = new Dictionary <string, object>();
devConfig[param2] = value2;
IInputData responseData1 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream1, streamConfig)
.DataWithExternalDeviceConfiguration(dev1, devConfig);
IInputData responseData2 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream2, streamConfig)
.DataWithExternalDeviceConfiguration(dev2, devConfig);
e.Responses[dev1].AppendData(responseData1);
e.Responses[dev2].AppendData(responseData2);
e.Keywords.Add(kw1);
e.Keywords.Add(kw2);
exp.BeginEpochGroup("label", "source identifier", new[] { "keyword1", "keyword2" }, props, guid,
time);
exp.Serialize(e);
exp.EndEpochGroup();
exp.Close();
}
H5.Close();
Approvals.VerifyFile("..\\..\\..\\ShouldAllowNumericEpochParameters.h5");
}
public void ShouldAllowLongStringEpochParameters()
{
if (File.Exists("..\\..\\..\\ShouldAllowLongStringEpochParameters.h5"))
File.Delete("..\\..\\..\\ShouldAllowLongStringEpochParameters.h5");
var gID = new Guid("{2F2719F7-4A8C-4C22-9698-BE999DBC5385}");
using (
var exp = new EpochHDF5Persistor("..\\..\\..\\ShouldAllowLongStringEpochParameters.h5", null, () => gID)
)
{
var time = new DateTimeOffset(1000, TimeSpan.Zero);
var guid = new Guid("053C64D4-ED7A-4128-AA43-ED115716A97D");
var props = new Dictionary<string, object>();
props["key1"] =
"1234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890";
//100 elements
props["key2"] = 2;
const string protocolID = "Epoch.Fixture";
Dictionary<string, object> parameters = props;
dev1 = new UnitConvertingExternalDevice(dev1Name, "DEVICECO", new Measurement(0, "V"));
dev2 = new UnitConvertingExternalDevice(dev2Name, "DEVICECO", new Measurement(0, "V"));
var stream1 = new DAQInputStream("Stream1");
var stream2 = new DAQInputStream("Stream2");
var stimParameters = new Dictionary<string, object>();
stimParameters[param1] = value1;
stimParameters[param2] = value2;
var srate = new Measurement(1000, "Hz");
List<Measurement> samples =
Enumerable.Range(0, 10000).Select(i => new Measurement((decimal) Math.Sin((double) i/100), "mV")).
ToList();
var stimData = new OutputData(samples, srate, false);
var stim1 = new RenderedStimulus("RenderedStimulus", stimParameters, stimData);
//.Data does not need to be persisted
var stim2 = new RenderedStimulus("RenderedStimulus", stimParameters, stimData);
//.Data does not need to be persisted
var e = new Epoch(protocolID, parameters);
e.Stimuli[dev1] = stim1;
e.Stimuli[dev2] = stim2;
DateTimeOffset start = DateTimeOffset.Parse("1/11/2011 6:03:29 PM -08:00");
// Do this to match the XML stored in the EpochXML.txt resource
e.StartTime = Maybe<DateTimeOffset>.Yes(start);
e.Background[dev1] = new Epoch.EpochBackground(new Measurement(0, "V"), new Measurement(1000, "Hz"));
e.Background[dev2] = new Epoch.EpochBackground(new Measurement(1, "V"), new Measurement(1000, "Hz"));
e.Responses[dev1] = new Response();
e.Responses[dev2] = new Response();
var streamConfig = new Dictionary<string, object>();
streamConfig[param1] = value1;
var devConfig = new Dictionary<string, object>();
devConfig[param2] = value2;
IInputData responseData1 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream1, streamConfig)
.DataWithExternalDeviceConfiguration(dev1, devConfig);
IInputData responseData2 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream2, streamConfig)
.DataWithExternalDeviceConfiguration(dev2, devConfig);
e.Responses[dev1].AppendData(responseData1);
e.Responses[dev2].AppendData(responseData2);
e.Keywords.Add(kw1);
e.Keywords.Add(kw2);
exp.BeginEpochGroup("label", "source identifier", new[] {"keyword1", "keyword2"}, props, guid,
time);
exp.Serialize(e);
exp.EndEpochGroup(time.AddMilliseconds(100));
exp.Close();
}
H5.Close();
var startInfo = new ProcessStartInfo(@"..\..\..\..\..\..\externals\HDF5\bin\h5dump",
@" --xml ..\..\..\ShouldAllowLongStringEpochParameters.h5");
startInfo.RedirectStandardOutput = true;
startInfo.UseShellExecute = false;
Process proc = Process.Start(startInfo);
Approvals.VerifyXml(proc.StandardOutput.ReadToEnd());
}
public void Setup()
{
const string protocolID = "Epoch.Fixture";
var parameters = new Dictionary <string, object>();
parameters[param1] = value1;
parameters[param2] = value2;
dev1 = new UnitConvertingExternalDevice(dev1Name, "DEVICECO", new Measurement(0, "V"));
dev2 = new UnitConvertingExternalDevice(dev2Name, "DEVICECO", new Measurement(0, "V"));
var stream1 = new DAQInputStream("Stream1");
var stream2 = new DAQInputStream("Stream2");
var stimParameters = new Dictionary <string, object>();
stimParameters[param1] = value1;
stimParameters[param2] = value2;
var srate = new Measurement(1000, "Hz");
var samples = Enumerable.Range(0, 1000).Select(i => new Measurement((decimal)Math.Sin((double)i / 100), "V")).ToList();
var stimData = new OutputData(samples, srate, false);
RenderedStimulus stim1 = new RenderedStimulus((string)"RenderedStimulus", (IDictionary <string, object>)stimParameters, (IOutputData)stimData); //.Data does not need to be persisted
RenderedStimulus stim2 = new RenderedStimulus((string)"RenderedStimulus", (IDictionary <string, object>)stimParameters, (IOutputData)stimData); //.Data does not need to be persisted
Epoch e = new Epoch(protocolID, parameters);
e.Stimuli[dev1] = stim1;
e.Stimuli[dev2] = stim2;
var start = DateTimeOffset.Parse("1/11/2011 6:03:29 PM -08:00");
// Do this to match the XML stored in the EpochXML.txt resource
e.StartTime = Maybe <DateTimeOffset> .Yes(start);
e.Background[dev1] = new Epoch.EpochBackground(new Measurement(0, "V"), new Measurement(1000, "Hz"));
e.Background[dev2] = new Epoch.EpochBackground(new Measurement(1, "V"), new Measurement(1000, "Hz"));
e.Responses[dev1] = new Response();
e.Responses[dev2] = new Response();
var streamConfig = new Dictionary <string, object>();
streamConfig[param1] = value1;
var devConfig = new Dictionary <string, object>();
devConfig[param2] = value2;
var responseData1 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream1, streamConfig)
.DataWithExternalDeviceConfiguration(dev1, devConfig);
var responseData2 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream2, streamConfig)
.DataWithExternalDeviceConfiguration(dev2, devConfig);
e.Responses[dev1].AppendData(responseData1);
e.Responses[dev2].AppendData(responseData2);
e.Keywords.Add(kw1);
e.Keywords.Add(kw2);
testEpoch = e;
}
public void ShouldAllowLongStringEpochParameters()
{
if (File.Exists("..\\..\\..\\ShouldAllowLongStringEpochParameters.h5"))
{
File.Delete("..\\..\\..\\ShouldAllowLongStringEpochParameters.h5");
}
var gID = new Guid("{2F2719F7-4A8C-4C22-9698-BE999DBC5385}");
using (
var exp = new EpochHDF5Persistor("..\\..\\..\\ShouldAllowLongStringEpochParameters.h5", null, () => gID)
)
{
var time = new DateTimeOffset(1000, TimeSpan.Zero);
var guid = new Guid("053C64D4-ED7A-4128-AA43-ED115716A97D");
var props = new Dictionary <string, object>();
props["key1"] =
"1234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890";
//100 elements
props["key2"] = 2;
const string protocolID = "Epoch.Fixture";
Dictionary <string, object> parameters = props;
dev1 = new UnitConvertingExternalDevice(dev1Name, "DEVICECO", new Measurement(0, "V"));
dev2 = new UnitConvertingExternalDevice(dev2Name, "DEVICECO", new Measurement(0, "V"));
var stream1 = new DAQInputStream("Stream1");
var stream2 = new DAQInputStream("Stream2");
var stimParameters = new Dictionary <string, object>();
stimParameters[param1] = value1;
stimParameters[param2] = value2;
var srate = new Measurement(1000, "Hz");
List <Measurement> samples =
Enumerable.Range(0, 10000).Select(i => new Measurement((decimal)Math.Sin((double)i / 100), "mV")).
ToList();
var stimData = new OutputData(samples, srate, false);
var stim1 = new RenderedStimulus("RenderedStimulus", stimParameters, stimData);
//.Data does not need to be persisted
var stim2 = new RenderedStimulus("RenderedStimulus", stimParameters, stimData);
//.Data does not need to be persisted
var e = new Epoch(protocolID, parameters);
e.Stimuli[dev1] = stim1;
e.Stimuli[dev2] = stim2;
DateTimeOffset start = DateTimeOffset.Parse("1/11/2011 6:03:29 PM -08:00");
// Do this to match the XML stored in the EpochXML.txt resource
e.StartTime = Maybe <DateTimeOffset> .Yes(start);
e.Background[dev1] = new Epoch.EpochBackground(new Measurement(0, "V"), new Measurement(1000, "Hz"));
e.Background[dev2] = new Epoch.EpochBackground(new Measurement(1, "V"), new Measurement(1000, "Hz"));
e.Responses[dev1] = new Response();
e.Responses[dev2] = new Response();
var streamConfig = new Dictionary <string, object>();
streamConfig[param1] = value1;
var devConfig = new Dictionary <string, object>();
devConfig[param2] = value2;
IInputData responseData1 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream1, streamConfig)
.DataWithExternalDeviceConfiguration(dev1, devConfig);
IInputData responseData2 = new InputData(samples, srate, start)
.DataWithStreamConfiguration(stream2, streamConfig)
.DataWithExternalDeviceConfiguration(dev2, devConfig);
e.Responses[dev1].AppendData(responseData1);
e.Responses[dev2].AppendData(responseData2);
e.Keywords.Add(kw1);
e.Keywords.Add(kw2);
exp.BeginEpochGroup("label", "source identifier", new[] { "keyword1", "keyword2" }, props, guid,
time);
exp.Serialize(e);
exp.EndEpochGroup(time.AddMilliseconds(100));
exp.Close();
}
H5.Close();
var startInfo = new ProcessStartInfo(@"..\..\..\..\..\..\externals\HDF5\bin\h5dump",
@" --xml ..\..\..\ShouldAllowLongStringEpochParameters.h5");
startInfo.RedirectStandardOutput = true;
startInfo.UseShellExecute = false;
Process proc = Process.Start(startInfo);
Approvals.VerifyXml(proc.StandardOutput.ReadToEnd());
}
/// <summary>
/// Push IInputData from a given ExternalDevice to the appropriate Response of the current
/// Epoch.
/// </summary>
/// <param name="device">ExternalDevice providing the data</param>
/// <param name="inData">Input data instsance</param>
public virtual void PushInputData(ExternalDeviceBase device, IInputData inData)
{
//TODO update this to let Epoch use _completionLock around Response duration and appending
var currentEpoch = CurrentEpoch;
if (currentEpoch != null &&
currentEpoch.Responses.ContainsKey(device))
{
if (!UnusedInputData.ContainsKey(device))
{
UnusedInputData[device] = new InputDataPair();
}
lock (UnusedInputData[device])
{
UnusedInputData[device].Queue.Enqueue(inData);
if (UnusedInputData[device].Fragment != null) //null indicates no fragment present
{
var fragment = UnusedInputData[device].Fragment;
var splitFragment =
fragment.SplitData(currentEpoch.Duration - currentEpoch.Responses[device].Duration);
currentEpoch.Responses[device].AppendData(splitFragment.Head);
if (splitFragment.Rest.Duration > TimeSpan.Zero)
{
UnusedInputData[device] = new InputDataPair(splitFragment.Rest,
UnusedInputData[device].Queue);
}
else
{
UnusedInputData[device] = new InputDataPair(null,
UnusedInputData[device].Queue);
}
}
while (UnusedInputData[device].Queue.Any() &&
currentEpoch.Responses[device].Duration < currentEpoch.Duration)
{
if (UnusedInputData[device].Fragment != null)
{
throw new SymphonyControllerException("Input data fragment should be empty");
}
var cData = UnusedInputData[device].Queue.Dequeue();
var splitData =
cData.SplitData(currentEpoch.Duration - currentEpoch.Responses[device].Duration);
currentEpoch.Responses[device].AppendData(splitData.Head);
if (splitData.Rest.Duration > TimeSpan.Zero)
{
UnusedInputData[device] = new InputDataPair(splitData.Rest,
UnusedInputData[device].Queue);
}
}
try
{
OnReceivedInputData(currentEpoch);
}
catch (Exception e)
{
log.ErrorFormat("Unable to notify observers of incoming data: {0}", e);
}
}
}
}
private void BindStreams(IDAQController c, ExternalDeviceBase outDevice, ExternalDeviceBase inDevice)
{
outDevice.BindStream("OUT", OutStream);
inDevice.BindStream("IN", InputStream);
Assert.True(InputStream.Active);
Assert.True(OutStream.Active);
}
/// <summary>
/// Removes the given ExternalDevice from this stream.
/// </summary>
/// <param name="device">Device to remove</param>
public void RemoveDevice(ExternalDeviceBase device)
{
if (Device == device)
{
Device.UnbindStream(Name);
Device = null;
}
}
public Controller ParseConfiguration(string input, Dictionary <string, IClock> additionalClockProviders)
{
Controller controller = new Controller();
var devices = new List <ExternalDeviceBase>();
var streams = new List <IDAQStream>();
var clockProviders = new Dictionary <string, IClock>(additionalClockProviders);
var controllerConfig = ControllerParser.Parse(input);
controller.Configuration[ClockKey] = controllerConfig.Clock;
if (!string.IsNullOrEmpty(controllerConfig.ProvidesClock))
{
clockProviders[controllerConfig.ProvidesClock] = controller as IClock;
}
var daqControllerConfig = controllerConfig.DAQController;
IDAQController daqController = (IDAQController)Construct(daqControllerConfig.Type);
foreach (var nvp in daqControllerConfig.Config.ConfigValues)
{
var key = nvp.Name;
var value = nvp.Value;
uint uintValue;
if (UInt32.TryParse(value, out uintValue))
{
daqController.Configuration[key] = uintValue;
}
else
{
daqController.Configuration[key] = value;
}
}
daqController.Configuration.Add(new KeyValuePair <string, object>(ClockKey, daqControllerConfig.Clock));
if (!string.IsNullOrEmpty(daqControllerConfig.ProvidesClock))
{
clockProviders[daqControllerConfig.ProvidesClock] = daqController as IClock;
}
daqController.BeginSetup();
foreach (var s in daqControllerConfig.Streams)
{
IDAQStream stream;
if (daqController.GetStreams(s.Name).Count() > 1)
{
throw new ParserException("More than one stream with name" + s.Name);
}
//If we can find the named stream, use the one created by DAQController, otherwise we'll add it.
if (daqController.GetStreams(s.Name).Count() == 0)
{
stream = (IDAQStream)Construct(s.Type, s.Name);
}
else
{
stream = daqController.GetStreams(s.Name).First();
}
foreach (var nvp in s.Config.ConfigValues)
{
var key = nvp.Name;
var value = nvp.Value;
stream.Configuration.Add(new KeyValuePair <string, object>(key, value));
}
stream.Configuration.Add(new KeyValuePair <string, object>(ClockKey, s.Clock));
try
{
stream.SampleRate = s.SampleRate;
}
catch (NotSupportedException)
{
//Heka streams don't support setting sample rate
}
streams.Add(stream);
}
foreach (var d in daqControllerConfig.Devices)
{
ExternalDeviceBase ed = (ExternalDeviceBase)(Construct(d.Type, d.Name, d.Manufacturer, controller, d.Background));
foreach (var nvp in d.Config.ConfigValues)
{
var key = nvp.Name;
var value = nvp.Value;
ed.Configuration.Add(new KeyValuePair <string, object>(key, value));
}
ed.Configuration.Add(new KeyValuePair <string, object>(ClockKey, d.Clock));
foreach (var bindCfg in d.Binds)
{
IDAQStream st = streams.Find((s) => s.Name == bindCfg.Name);
if (st == null)
{
throw new Exception(String.Format("Attempting to bind {0} which does not exist in configuration", bindCfg.Name));
}
else
{
if (st is IDAQInputStream)
{
ed.BindStream((IDAQInputStream)st);
}
else if (st is IDAQOutputStream)
{
ed.BindStream((IDAQOutputStream)st);
}
else
{
throw new Exception(String.Format("Attempting to bind {0} which is neither an Input or Output stream", bindCfg.Name));
}
}
}
foreach (var connectCfg in d.Connects)
{
if (ed is CoalescingDevice)
{
((CoalescingDevice)ed).Connect(connectCfg.Values.ToArray());
}
else
{
throw new Exception(
String.Format("Attempting to connect {0} to a non-CoalescingDevice {1}", connectCfg.Values.ToString(), ed));
}
}
devices.Add(ed);
}
foreach (IDAQStream s in streams)
{
//if the stream came from DAQController.GetStreams, we don't need to add it
if (!daqController.Streams.Contains(s) && (daqController as IMutableDAQController != null))
{
(daqController as IMutableDAQController).AddStream(s);
}
}
daqController.Clock = clockProviders[daqControllerConfig.Clock] as IClock;
InjectClock(controller, clockProviders);
controller.DAQController = daqController;
return(controller);
}
public void BlowAwayTestEpoch()
{
testEpoch = null;
dev1 = dev2 = null;
}
