/// <summary>
/// Handler for processing application messages
/// </summary>
public static void ApplicationHandler()
{
int tid = Thread.CurrentThread.ManagedThreadId;
string commandPath = Core.REGISTRY_REGISTERED_APPLICATIONS_PATH + "\\{" + (string)applicationPaths[tid] + "}";
NamedEvents namedEvent = new NamedEvents();
string applicationGuid = ((string)applicationPaths[tid]);
string channel = applicationGuid + "-kernel";
//WocketsController lwcontroller = null;
while (true)
{
//ensures prior synchronization
namedEvent.Receive(channel.ToString());
lock (terminationLock)
{
kernelLock.WaitOne();
RegistryKey rk = Registry.LocalMachine.OpenSubKey(commandPath, true);
string msg = (string)rk.GetValue("Message");
string param = (string)rk.GetValue("Param");
rk.Close();
//lock the kernel to avoid changing wockets controller at the
//same time from multiple applications
#region DISCOVER
if (msg == KernelCommand.DISCOVER.ToString())
{
Thread discovery = new Thread(new ThreadStart(Discover));
discovery.Start();
}
#endregion DISCOVER
#region CONNECT
else if (msg == KernelCommand.CONNECT.ToString())
{
try
{
if (!_WocketsRunning)
{
//load local wockets controller
CurrentWockets._Controller = new WocketsController("", "", "");
CurrentWockets._Controller._StorageDirectory = Storage.GenerateStoragePath();
CurrentWockets._Controller.FromXML(path + "//NeededFiles//Master//SensorData.xml");
//CurrentWockets._Controller._Mode = MemoryMode.BluetoothToShared;
CurrentWockets._Controller._Mode = MemoryMode.BluetoothToLocal;
CurrentWockets._Controller._TMode = TransmissionMode.Bursty60;
try
{
File.Copy(path + "//NeededFiles//Master//Configuration.xml", CurrentWockets._Controller._StorageDirectory + "\\Configuration.xml");
}
catch (Exception e)
{
}
CurrentWockets._Configuration = new Wockets.Data.Configuration.WocketsConfiguration();
CurrentWockets._Configuration.FromXML(CurrentWockets._Controller._StorageDirectory + "\\Configuration.xml");
CurrentWockets._Configuration._MemoryMode = Wockets.Data.Configuration.MemoryConfiguration.SHARED;
int index = 0;
for (int i = 0; (i < Booter.wcontroller._Sensors.Count); i++)
{
if (Booter.wcontroller._Sensors[i]._Loaded)
{
CurrentWockets._Controller._Receivers[index]._ID = index;
((RFCOMMReceiver)CurrentWockets._Controller._Receivers[index])._Address = ((RFCOMMReceiver)Booter.wcontroller._Receivers[i])._Address;
CurrentWockets._Controller._Decoders[index]._ID = index;
CurrentWockets._Controller._Sensors[index]._ID = index;
CurrentWockets._Controller._Sensors[index]._Receiver = CurrentWockets._Controller._Receivers[index];
CurrentWockets._Controller._Sensors[index]._Decoder = CurrentWockets._Controller._Decoders[index];
CurrentWockets._Controller._Sensors[index]._Loaded = true;
index++;
}
}
for (int i = CurrentWockets._Controller._Sensors.Count - 1; (i >= 0); i--)
{
if (!CurrentWockets._Controller._Sensors[i]._Loaded)
{
CurrentWockets._Controller._Receivers.RemoveAt(i);
CurrentWockets._Controller._Sensors.RemoveAt(i);
CurrentWockets._Controller._Decoders.RemoveAt(i);
}
else
CurrentWockets._Controller._Sensors[i]._RootStorageDirectory = CurrentWockets._Controller._StorageDirectory + "\\data\\raw\\PLFormat\\";
}
CurrentWockets._Controller._Receivers.SortByAddress();
for (int i = 0; (i < CurrentWockets._Controller._Sensors.Count); i++)
((Wocket)CurrentWockets._Controller._Sensors[i])._Receiver = CurrentWockets._Controller._Receivers[i];
if (CurrentWockets._Controller._Sensors.Count > 0)
{
rk = Registry.LocalMachine.OpenSubKey(Core.REGISTRY_KERNEL_PATH, true);
rk.SetValue("Storage", CurrentWockets._Controller._StorageDirectory);
rk.Close();
TextWriter tw = new StreamWriter(CurrentWockets._Controller._StorageDirectory + "\\SensorData.xml");
tw.WriteLine(CurrentWockets._Controller.ToXML());
tw.Close();
_WocketsRunning = true;
CurrentWockets._Controller.Initialize();
//Subscribe to all callback events
foreach (Decoder d in CurrentWockets._Controller._Decoders)
{
d.Subscribe(ResponseTypes.BL_RSP, new Decoder.ResponseHandler(DecoderCallback));
d.Subscribe(ResponseTypes.BP_RSP, new Decoder.ResponseHandler(DecoderCallback));
d.Subscribe(ResponseTypes.PC_RSP, new Decoder.ResponseHandler(DecoderCallback));
d.Subscribe(ResponseTypes.SENS_RSP, new Decoder.ResponseHandler(DecoderCallback));
d.Subscribe(ResponseTypes.CAL_RSP, new Decoder.ResponseHandler(DecoderCallback));
d.Subscribe(ResponseTypes.SR_RSP, new Decoder.ResponseHandler(DecoderCallback));
d.Subscribe(ResponseTypes.TM_RSP, new Decoder.ResponseHandler(DecoderCallback));
d.Subscribe(ResponseTypes.AC_RSP, new Decoder.ResponseHandler(DecoderCallback));
d.Subscribe(ResponseTypes.TCT_RSP, new Decoder.ResponseHandler(DecoderCallback));
}
}
foreach (string guid in applicationPaths.Values)
Send(KernelResponse.CONNECTED, guid);
}
}
catch (Exception e)
{
foreach (string guid in applicationPaths.Values)
Send(KernelResponse.CONNECT_FAILED, guid);
Logger.Error("Booter.cs:ApplicationHandler: CONNECT:" + e.ToString());
}
}
#endregion CONNECT
#region DISCONNECT
else if (msg == KernelCommand.DISCONNECT.ToString())
{
try
{
if (_WocketsRunning)
{
CurrentWockets._Controller.Dispose();
_WocketsRunning = false;
}
foreach (string guid in applicationPaths.Values)
Send(KernelResponse.DISCONNECTED, guid);
}
catch (Exception e)
{
foreach (string guid in applicationPaths.Values)
Send(KernelResponse.DISCONNECT_FAILED, guid);
Logger.Error("Booter.cs:ApplicationHandler: DISCONNECT:" + e.ToString());
}
}
#endregion DISCONNECT
#region SET_WOCKETS
else if (msg == KernelCommand.SET_WOCKETS.ToString())
{
try
{
if (!_WocketsRunning)
{
int index = 0;
for (int i = 0; (i < 5); i++)
{
rk = Registry.LocalMachine.OpenSubKey(Core.REGISTRY_SENSORS_PATH + "\\" + i.ToString("0"));
int status = (int)rk.GetValue("Status");
if (status == 1)
{
string mac = (string)rk.GetValue("MacAddress");
((RFCOMMReceiver)Booter.wcontroller._Receivers[index])._Address = mac;
Booter.wcontroller._Sensors[index++]._Loaded = true;
}
rk.Close();
}
foreach (string guid in applicationPaths.Values)
Send(KernelResponse.SENSORS_UPDATED, guid);
}
else
{
foreach (string guid in applicationPaths.Values)
Send(KernelResponse.SENSORS_UPDATED_FAILED, guid);
}
}
catch (Exception e)
{
foreach (string guid in applicationPaths.Values)
Send(KernelResponse.SENSORS_UPDATED_FAILED, guid);
Logger.Error("Booter.cs:ApplicationHandler: SET_WOCKETS:" + e.ToString());
}
}
#endregion SET_WOCKETS
#region GET_BATTERY_LEVEL
else if (msg == KernelCommand.GET_BATTERY_LEVEL.ToString())
{
if (_WocketsRunning)
{
try
{
Command command = new GET_BT();
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (param == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == param)
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: GET_BATTERY_LEVEL:" + e.ToString());
}
}
}
#endregion GET_BATTERY_LEVEL
#region GET_BATTERY_PERCENT
else if (msg == KernelCommand.GET_BATTERY_PERCENT.ToString())
{
if (_WocketsRunning)
{
try
{
Command command = new GET_BP();
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (param == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == param)
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: SET_BATTERY_PERCENT:" + e.ToString());
}
}
}
#endregion GET_BATTERY_PERCENT
#region GET_PDU_COUNT
else if (msg == KernelCommand.GET_PDU_COUNT.ToString())
{
if (_WocketsRunning)
{
try
{
Command command = new GET_PC();
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (param == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == param)
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: GET_PDU_COUNT:" + e.ToString());
}
}
}
#endregion GET_PDU_COUNT
#region GET_WOCKET_SENSITIVITY
else if (msg == KernelCommand.GET_WOCKET_SENSITIVITY.ToString())
{
if (_WocketsRunning)
{
try
{
Command command = new GET_SEN();
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (param == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == param)
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: GET_WOCKET_SENSITIVITY:" + e.ToString());
}
}
}
#endregion GET_WOCKET_SENSITIVITY
#region SET_WOCKET_SENSITIVITY
else if (msg == KernelCommand.SET_WOCKET_SENSITIVITY.ToString())
{
if (_WocketsRunning)
{
try
{
string[] tokens = param.Split(new char[] { ':' });
Sensitivity sensitivity = (Sensitivity)Enum.Parse(typeof(Sensitivity),
tokens[1], true);
Command command = new SET_SEN(sensitivity);
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (tokens[0] == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == tokens[0])
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: SET_WOCKET_SENSITIVITY:" + e.ToString());
}
}
}
#endregion SET_WOCKET_SENSITIVITY
#region GET_WOCKET_CALIBRATION
else if (msg == KernelCommand.GET_WOCKET_CALIBRATION.ToString())
{
if (_WocketsRunning)
{
try
{
Command command = new GET_CAL();
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (param == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == param)
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: GET_WOCKET_CALIBRATION:" + e.ToString());
}
}
}
#endregion GET_WOCKET_CALIBRATION
#region SET_WOCKET_CALIBRATION
else if (msg == KernelCommand.SET_WOCKET_CALIBRATION.ToString())
{
if (_WocketsRunning)
{
try
{
string[] tokens = param.Split(new char[] { ':' });
string mac = tokens[0];
Calibration calibration = new Calibration();
calibration._X1G = (ushort)Convert.ToUInt32(tokens[1]);
calibration._XN1G = (ushort)Convert.ToUInt32(tokens[2]);
calibration._Y1G = (ushort)Convert.ToUInt32(tokens[3]);
calibration._YN1G = (ushort)Convert.ToUInt32(tokens[4]);
calibration._Z1G = (ushort)Convert.ToUInt32(tokens[5]);
calibration._ZN1G = (ushort)Convert.ToUInt32(tokens[6]);
Command command = new SET_CAL(calibration);
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == mac)
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: SET_WOCKET_CALIBRATION:" + e.ToString());
}
}
}
#endregion SET_WOCKET_CALIBRATION
#region GET_WOCKET_SAMPLING_RATE
else if (msg == KernelCommand.GET_WOCKET_SAMPLING_RATE.ToString())
{
if (_WocketsRunning)
{
try
{
Command command = new GET_SR();
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (param == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == param)
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: GET_WOCKET_SAMPLING_RATE:" + e.ToString());
}
}
}
#endregion GET_WOCKET_SAMPLING_RATE
#region SET_WOCKET_SAMPLING_RATE
else if (msg == KernelCommand.SET_WOCKET_SAMPLING_RATE.ToString())
{
if (_WocketsRunning)
{
try
{
string[] tokens = param.Split(new char[] { ':' });
Command command = new SET_SR(Convert.ToInt32(tokens[1]));
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (tokens[0] == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == tokens[0])
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: SET_WOCKET_SAMPLING_RATE:" + e.ToString());
}
}
}
#endregion SET_WOCKET_SAMPLING_RATE
#region GET_WOCKET_POWERDOWN_TIMEOUT
else if (msg == KernelCommand.GET_WOCKET_POWERDOWN_TIMEOUT.ToString())
{
if (_WocketsRunning)
{
try
{
Command command = new GET_PDT();
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (param == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == param)
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: GET_WOCKET_SAMPLING_RATE:" + e.ToString());
}
}
}
#endregion GET_WOCKET_POWERDOWN_TIMEOUT
#region SET_WOCKET_POWERDOWN_TIMEOUT
else if (msg == KernelCommand.SET_WOCKET_POWERDOWN_TIMEOUT.ToString())
{
if (_WocketsRunning)
{
try
{
string[] tokens = param.Split(new char[] { ':' });
Command command = new SET_PDT(Convert.ToInt32(tokens[1]));
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (tokens[0] == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == tokens[0])
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: SET_WOCKET_SAMPLING_RATE:" + e.ToString());
}
}
}
#endregion SET_WOCKET_POWERDOWN_TIMEOUT
#region GET_TRANSMISSION_MODE
else if (msg == KernelCommand.GET_TRANSMISSION_MODE.ToString())
{
if (_WocketsRunning)
{
try
{
Command command = new GET_TM();
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (param == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == param)
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: GET_TRANSMISSION_MODE:" + e.ToString());
}
}
}
#endregion GET_TRANSMISSION_MODE
#region SET_TRANSMISSION_MODE
else if (msg == KernelCommand.SET_TRANSMISSION_MODE.ToString())
{
if (_WocketsRunning)
{
try
{
string[] tokens = param.Split(new char[] { ':' });
TransmissionMode mode = (TransmissionMode)Enum.Parse(typeof(TransmissionMode),
tokens[1], true);
//If the mode changed only
//if (CurrentWockets._Controller._TMode != mode)
// {
// to switch from bursty mode, update the receiver mode and on next connection
// the mode will be set up
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (tokens[0] == "all")
((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._TMode = mode;
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == tokens[0])
{
((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._TMode = mode;
break;
}
}
if (CurrentWockets._Controller._TMode == TransmissionMode.Continuous)
{
Command command = new SET_VTM(mode);
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (tokens[0] == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == tokens[0])
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
CurrentWockets._Controller.Deinitialize();
Thread.Sleep(10000);
System.IO.DirectoryInfo di = new System.IO.DirectoryInfo("\\");
System.IO.FileSystemInfo[] fsi = di.GetFileSystemInfos();
string firstCard = "";
//iterate through them
for (int x = 0; x < fsi.Length; x++)
{
//check to see if this is a temporary storage card (e.g. SD card)
if ((fsi[x].Attributes & System.IO.FileAttributes.Temporary) == System.IO.FileAttributes.Temporary)
{
firstCard = fsi[x].FullName;
try
{
Directory.CreateDirectory(firstCard + "\\writable");
Directory.Delete(firstCard + "\\writable");
}
catch (Exception)
{
firstCard = "";
continue;
}
//if so, return the path
break;
}
}
DateTime now = DateTime.Now;
string storageDirectory = firstCard + "\\Wockets\\Session-" + now.Month.ToString("00") + "-" + now.Day.ToString("00") + "-" + now.Year.ToString("0000") + "-" + now.Hour.ToString("00") + "-" + now.Minute.ToString("00") + "-" + now.Second.ToString("00");
WocketsController wc = new WocketsController("", "", "");
CurrentWockets._Controller = wc;
wc._StorageDirectory = storageDirectory;
wc.FromXML("\\Program Files\\wockets\\NeededFiles\\SensorConfigurations\\SensorDataFahd.xml");
try
{
File.Copy("\\Program Files\\wockets\\NeededFiles\\SensorConfigurations\\SensorDataFahd.xml", storageDirectory + "\\SensorData.xml");
}
catch
{
}
wc._Mode = MemoryMode.BluetoothToLocal;
if (!File.Exists("test.csv"))
{
TextWriter tw = new StreamWriter("test.csv", true);
tw.Write("Index, Time, Battery %, Voltage, Current, Temperature");
for (int i = 0; (i < wc._Sensors.Count); i++)
{
tw.Write(", Received Packets " + i + ", Expected Packet Count" + i + ",Num Succ Connections " + i + ",Num Reconnections " + i + ", Connection Time " + i);
}
tw.WriteLine();
tw.Close();
}
if (!File.Exists("testsummary.csv"))
{
for (int i = 0; (i < wc._Sensors.Count); i++)
{
TextWriter tw1 = new StreamWriter("testsummary" + i + ".csv", true);
tw1.Write("Index, Time,Summary");
tw1.WriteLine();
tw1.Close();
}
}
wc._TMode = TransmissionMode.Bursty60;
wc.Initialize();
//reminderDateTime = DateTime.Now.AddSeconds(60);
/* CurrentWockets._Controller._StorageDirectory = Storage.GenerateStoragePath();
for (int i = 0; (i < CurrentWockets._Controller._Sensors.Count); i++)
{
CurrentWockets._Controller._Sensors[i]._Loaded = true;
CurrentWockets._Controller._Sensors[i]._Flush = true;
CurrentWockets._Controller._Sensors[i]._RootStorageDirectory = CurrentWockets._Controller._StorageDirectory + "\\data\\raw\\PLFormat\\";
}
try
{
File.Copy(path + "//NeededFiles//Master//Configuration.xml", CurrentWockets._Controller._StorageDirectory + "\\Configuration.xml");
}
catch
{
}
try
{
TextWriter tw = new StreamWriter(CurrentWockets._Controller._StorageDirectory + "\\SensorData.xml");
tw.WriteLine(CurrentWockets._Controller.ToXML());
tw.Close();
}
catch
{
}
CurrentWockets._Controller._TMode = mode;
CurrentWockets._Controller.Initialize();*/
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: SET_TRANSMISSION_MODE:" + e.ToString());
}
}
}
#endregion SET_TRANSMISSION_MODE
#region GET_MEMORY_MODE
else if (msg == KernelCommand.GET_MEMORY_MODE.ToString())
{
if (_WocketsRunning)
{
try
{
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: GET_TRANSMISSION_MODE:" + e.ToString());
}
}
}
#endregion GET_MEMORY_MODE
#region SET_MEMORY_MODE
else if (msg == KernelCommand.SET_MEMORY_MODE.ToString())
{
if (_WocketsRunning)
{
try
{
MemoryMode mode = (MemoryMode)Enum.Parse(typeof(MemoryMode),
param.Split(new char[] { ':' })[1], true);
CurrentWockets._Controller._Mode = mode;
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: SET_MEMORY_MODE:" + e.ToString());
}
}
}
#endregion SET_MEMORY_MODE
#region GET_WOCKET_TCT
else if (msg == KernelCommand.GET_TCT.ToString())
{
if (_WocketsRunning)
{
try
{
Command command = new GET_TCT();
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (param == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == param)
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: GET_TCT:" + e.ToString());
}
}
}
#endregion GET_TCT
#region SET_TCT
else if (msg == KernelCommand.SET_TCT.ToString())
{
if (_WocketsRunning)
{
try
{
string[] tokens = param.Split(new char[] { ':' });
Command command = new SET_TCT(Convert.ToInt32(tokens[1]), Convert.ToInt32(tokens[2]), Convert.ToInt32(tokens[3]));
for (int i = 0; (i < CurrentWockets._Controller._Receivers.Count); i++)
{
if (tokens[0] == "all")
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
else if (((RFCOMMReceiver)CurrentWockets._Controller._Receivers[i])._Address == tokens[0])
{
((SerialReceiver)CurrentWockets._Controller._Receivers[i]).Write(command._Bytes);
break;
}
}
}
catch (Exception e)
{
Logger.Error("Booter.cs:ApplicationHandler: SET_TCT:" + e.ToString());
}
}
}
#endregion SET_TCT
kernelLock.Release();
}
namedEvent.Reset();
}
}
private void InitializeWocket()
{
//Load Wocket Parameters
WocketsConfiguration configuration = new WocketsConfiguration();
CurrentWockets._Configuration = configuration;
wc = new WocketsController("", "", "");
CurrentWockets._Controller = wc;
wc._Receivers = new ReceiverList();
wc._Decoders = new DecoderList();
wc._Sensors = new SensorList();
wc._Receivers.Add(new RFCOMMReceiver());
wc._Decoders.Add(new WocketsDecoder());
wc._Sensors.Add(new Wocket());
((RFCOMMReceiver)wc._Receivers[0])._Address = this.wocket.DeviceAddress.ToString();
wc._Receivers[0]._ID = 0;
wc._Decoders[0]._ID = 0;
wc._Sensors[0]._Receiver = wc._Receivers[0];
wc._Sensors[0]._Decoder = wc._Decoders[0];
((Accelerometer)wc._Sensors[0])._Max = 1024;
((Accelerometer)wc._Sensors[0])._Min = 0;
wc._Sensors[0]._Loaded = true;
//------------ suscriptions --------------
//battery level
wc._Decoders[0].Subscribe(ResponseTypes.BL_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//sampling rate
wc._Decoders[0].Subscribe(ResponseTypes.SR_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//transmission mode
wc._Decoders[0].Subscribe(ResponseTypes.TM_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//battery percent
wc._Decoders[0].Subscribe(ResponseTypes.BP_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//sensor sensitivity mode
wc._Decoders[0].Subscribe(ResponseTypes.SENS_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//calibration mode
wc._Decoders[0].Subscribe(ResponseTypes.CAL_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//packets count
wc._Decoders[0].Subscribe(ResponseTypes.PC_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//power down timeout
wc._Decoders[0].Subscribe(ResponseTypes.PDT_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//battery calibration
wc._Decoders[0].Subscribe(ResponseTypes.BTCAL_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//hardware version
wc._Decoders[0].Subscribe(ResponseTypes.HV_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//firmware version
wc._Decoders[0].Subscribe(ResponseTypes.FV_RSP, new Wockets.Decoders.Decoder.ResponseHandler(this.ResponseCallback));
//---- initialize wocket controller -------
wc.Initialize();
}
/// <summary>
/// Constructor for initializing the kernel
/// </summary>
static Booter()
{
//Send a termination event for any running kernel to abort
//Fix the registry if needed
path = Path.GetDirectoryName(System.Reflection.Assembly.GetExecutingAssembly().GetName().CodeBase);
kernelLock = new Semaphore(1, 1, Core.KERNEL_LOCK);
//initialize the path as an empty string
string firstCard = "";
System.IO.DirectoryInfo di = new System.IO.DirectoryInfo("\\");
System.IO.FileSystemInfo[] fsi = di.GetFileSystemInfos();
//iterate through them
for (int x = 0; x < fsi.Length; x++)
{
//check to see if this is a temporary storage card (e.g. SD card)
if ((fsi[x].Attributes & System.IO.FileAttributes.Temporary) == System.IO.FileAttributes.Temporary)
{
//if so, return the path
firstCard = fsi[x].FullName;
break;
}
}
rootStorageDirectory = firstCard + "\\Wockets\\";
Directory.CreateDirectory(rootStorageDirectory);
wcontroller = new WocketsController("", "", "");
wcontroller.FromXML(path+"\\NeededFiles\\Master\\SensorData.xml");
wcontroller._Mode = MemoryMode.BluetoothToShared;
Logger.InitLogger(rootStorageDirectory + "kernellog\\");
Logger.Debug2("Time,Time,PowerPercent,Voltage,Current,Temperature\n");
}
private void ShutdownWocket()
{
#region
if (wc != null)
{
wc.Dispose();
wc = null;
}
#endregion
}
private void cal_panel_button_browse_Click(object sender, EventArgs e)
{
try
{
//check the path selected in the textbox
//this.folderBrowserDialog1.ShowNewFolderButton = false;
this.openFileDialog1.Multiselect = false;
this.openFileDialog1.FileName = "*.xml";
if (cal_panel_entry_path.Text.Trim().CompareTo("") != 0)
{
if (Directory.Exists(cal_panel_entry_path.Text))
{ //this.folderBrowserDialog1.SelectedPath = cal_panel_entry_path.Text.ToString();
this.openFileDialog1.InitialDirectory = cal_panel_entry_path.Text.ToString();
}
}
//check the path selected in the dialog
// DialogResult result = this.folderBrowserDialog1.ShowDialog();
DialogResult result = this.openFileDialog1.ShowDialog();
if (result == DialogResult.OK)
{
//string fullPath = this.folderBrowserDialog1.SelectedPath;
string fullPath = this.openFileDialog1.FileName;
cal_panel_entry_path.Text = fullPath;
if (cal_panel_entry_path.Text.Trim().CompareTo("") == 0)
{
cal_panel_label_status.Text = "Please provide a valid path";
}
else
{
WocketsController wc_xml = new WocketsController("", "", "");
wc_xml.FromXML(fullPath);
Accelerometer acc_sensor = (Accelerometer)wc_xml._Sensors[0];
//if it is a valid sensordata file with calibration values
//open the sensordata file and get the calibration values
//fullPath = fullPath + "\\SensorData.xml";
if (File.Exists(fullPath))
{
if (current_command.CompareTo("calibration") == 0)
{
//update the calibration fields
cal_panel_x1g.Text = acc_sensor._Calibration._X1G.ToString();
cal_panel_xn1g.Text = acc_sensor._Calibration._XN1G.ToString();
cal_panel_xstd.Text = acc_sensor._XStd.ToString();
cal_panel_y1g.Text = acc_sensor._Calibration._Y1G.ToString();
cal_panel_yn1g.Text = acc_sensor._Calibration._YN1G.ToString();
cal_panel_ystd.Text = acc_sensor._YStd.ToString();
cal_panel_z1g.Text = acc_sensor._Calibration._Z1G.ToString();
cal_panel_zn1g.Text = acc_sensor._Calibration._ZN1G.ToString();
cal_panel_zstd.Text = acc_sensor._ZStd.ToString();
//load the fields
xyzP[0] = acc_sensor._Calibration._X1G;
xyzP[1] = acc_sensor._Calibration._Y1G;
xyzP[2] = acc_sensor._Calibration._Z1G;
xyzN[0] = acc_sensor._Calibration._XN1G;
xyzN[1] = acc_sensor._Calibration._YN1G;
xyzN[2] = acc_sensor._Calibration._ZN1G;
xyzSTD[0] = acc_sensor._XStd;
xyzSTD[1] = acc_sensor._YStd;
xyzSTD[2] = acc_sensor._ZStd;
//write the status to screen
cal_panel_label_status.Text = "The sensordata file is valid. You can set the CAL values.";
is_sensordata_valid = true;
}
else if (current_command.CompareTo("battery_calibration") == 0)
{
// it is a valid sensordata file with calibration values
//open the battery calibration file and get the cal values
cal_panel_label_status.Text = "The battery calibration file is valid. You can set the CAL values.";
is_sensordata_valid = true;
}
}
else
{
cal_panel_label_status.Text = "The sensordata file is NOT valid. Please try again or click CANCEL to exit the calibration.";
}
//dispose xml wockets controller
acc_sensor.Dispose();
wc_xml.Dispose();
}
}
} // end try
catch (Exception err)
{
Console.WriteLine(err.Message);
}
}
private void button2_Click(object sender, EventArgs e)
{
if (this.listBox1.SelectedIndex >= 0)
{
this.label2.Text = "Testing... please wait";
this.label2.Update();
WocketsConfiguration configuration = new WocketsConfiguration();
CurrentWockets._Configuration = configuration;
WocketsController wc = new WocketsController("", "", "");
CurrentWockets._Controller = wc;
wc._Receivers = new ReceiverList();
wc._Decoders = new DecoderList();
wc._Sensors = new SensorList();
wc._Receivers.Add(new RFCOMMReceiver());
wc._Decoders.Add(new WocketsDecoder());
wc._Sensors.Add(new Wocket());
((RFCOMMReceiver)wc._Receivers[0])._Address = ((BluetoothDeviceInfo) bluetoothlist[(string)this.listBox1.Items[this.listBox1.SelectedIndex]]).DeviceAddress.ToString();
wc._Receivers[0]._ID = 0;
wc._Decoders[0]._ID = 0;
wc._Sensors[0]._Receiver = wc._Receivers[0];
wc._Sensors[0]._Decoder = wc._Decoders[0];
((Accelerometer)wc._Sensors[0])._Max = 1024;
((Accelerometer)wc._Sensors[0])._Min = 0;
wc._Sensors[0]._Loaded = true;
//---- initialize wocket controller -------
wc.Initialize();
wocketCount = 0;
while (true)
{
if (wc._Receivers[0]._Status == ReceiverStatus.Connected)
{
MessageBox.Show("Success: connected to wocket.");
Environment.Exit(0);
}
Thread.Sleep(1000);
wocketCount++;
if (wocketCount > 20)
{
MessageBox.Show("Failed: cannot connect to wocket!");
Environment.Exit(0);
}
}
}
}
private void IniWocket()
{
#region commented
WocketsConfiguration configuration = new WocketsConfiguration();
CurrentWockets._Configuration = configuration;
wc = new WocketsController("", "", "");
CurrentWockets._Controller = wc;
wc._Receivers = new ReceiverList();
wc._Decoders = new DecoderList();
wc._Sensors = new SensorList();
wc._Decoders.Add(new WocketsDecoder());
wc._Sensors.Add(new Wocket());
//wc._Receivers.Add(new RFCOMMReceiver());
//((RFCOMMReceiver)wc._Receivers[0])._Address = this.wocket.DeviceAddress.ToString();
//wc._Receivers[0]._ID = 0;
//wc._Sensors[0]._Receiver = wc._Receivers[0];
wc._Decoders[0]._ID = 0;
wc._Sensors[0]._Decoder = wc._Decoders[0];
((Accelerometer)wc._Sensors[0])._Max = 1024;
((Accelerometer)wc._Sensors[0])._Min = 0;
wc._Sensors[0]._Loaded = true;
//wc._Decoders[0].Subscribe(Wockets.Data.SensorDataType.COMMAND_MODE_ENTERED, new Response.ResponseHandler(this.CommandCallback));
//wc._Decoders[0].Subscribe(Wockets.Data.SensorDataType.BAUD_RATE, new Response.ResponseHandler(this.CommandCallback));
//wc.Initialize();
#endregion commented
}
private void ShutdownWocket()
{
if (wc != null)
{
wc.Dispose();
wc = null;
}
}
public PLFormatLogger(WocketsController controller, String aFilePath)
{
this.wocketsController = controller;
aRootPathName = aFilePath;
DetermineFilePath();
}
static void Main(string[] args)
{
string storage = @"C:\Users\albinali\Desktop\AccelerationDifference\7cms-160start-end80RPM\Session12-3-18-29-6\";
WocketsController wc = new WocketsController("", "", "");
wc.FromXML(storage+"SensorData.xml");
int[] lostSeconds = new int[wc._Sensors.Count];
double[] prevUnix = new double[wc._Sensors.Count];
int i=0;
int prev_seq=-1;
double[][] slopes = new double[wc._Sensors.Count][];
for (i = 0; (i < wc._Sensors.Count); i++)
{
slopes[i]=new double[3];
Wockets.Sensors.Accelerometers.Accelerometer acc=((Wockets.Sensors.Accelerometers.Accelerometer)wc._Sensors[i]);
slopes[i][0] = (acc._X1G - acc._XN1G) / 2.0;
slopes[i][1] = (acc._Y1G - acc._YN1G) / 2.0;
slopes[i][2] = (acc._Z1G - acc._ZN1G) / 2.0;
}
for ( i= 0; (i < wc._Sensors.Count); i++)
{
double firstT = 0, lastT = 0;
int count = 0;
wc._Sensors[i]._RootStorageDirectory = storage + "data\\raw\\PLFormat\\";
TextWriter tw = new StreamWriter(storage + "sensor" + wc._Sensors[i]._ID + ".csv");
TextWriter twp = new StreamWriter(storage + "sensorloss" + wc._Sensors[i]._ID + ".csv");
double totalLoss = 0;
try
{
int lastDecodedIndex = 0;
while (wc._Sensors[i].Load())
{
if (wc._Sensors[i]._Decoder._Head == 0)
lastDecodedIndex = wc._Sensors[i]._Decoder._Data.Length - 1;
else
lastDecodedIndex = wc._Sensors[i]._Decoder._Head - 1;
count++;
Wockets.Data.Accelerometers.AccelerationData data = (Wockets.Data.Accelerometers.AccelerationData)wc._Sensors[i]._Decoder._Data[lastDecodedIndex];
if (firstT == 0)
firstT = data.UnixTimeStamp;
if ((lastT>1000) && ((data.UnixTimeStamp- lastT) > 1000))
totalLoss += (data.UnixTimeStamp-lastT);
lastT = data.UnixTimeStamp;
/*int seq= ((data.X&0xff) | ((data.Y<<8)));
if (prev_seq >= 0)
{
if ((prev_seq + 1) != seq)
twp.WriteLine(data.UnixTimeStamp + "," + seq);
}*/
//tw.WriteLine(data.UnixTimeStamp + "," + data.X + "," + data.Y + "," + data.Z+","+seq);
tw.WriteLine(data.UnixTimeStamp + "," + data.X + "," + data.Y + "," + data.Z);
//prev_seq=seq;
if ((prevUnix[i] > 1000) && ((data.UnixTimeStamp - prevUnix[i]) > 60000))
lostSeconds[i] += (int)((data.UnixTimeStamp - prevUnix[i]) / 1000.0);
prevUnix[i] = data.UnixTimeStamp;
}
}
catch (Exception)
{
}
double sr = count;
double timer = (lastT - firstT) / 1000.0;
sr = sr / timer;
//tw.WriteLine("SR: " + sr);
//tw.WriteLine("lost " + lostSeconds[i]);
tw.Flush();
tw.Close();
twp.Flush();
twp.WriteLine("Total Loss in seconds " + totalLoss/1000 + " in mins" + totalLoss / 60000);
twp.Close();
}
//Environment.Exit(0);
TextReader[] trs = new StreamReader[wc._Sensors.Count];
Hashtable[] sensordata = new Hashtable[wc._Sensors.Count];
string[] sensorlines = new string[wc._Sensors.Count];
double[] lastTS=new double[wc._Sensors.Count];
bool[] processed=new bool[wc._Sensors.Count];
bool[] done=new bool[wc._Sensors.Count];
int[] indexes=new int[wc._Sensors.Count];
CubicSpline[][] csplines = new CubicSpline[wc._Sensors.Count][];
i=0;
long currentTS=9999999999999999;
for (i = 0; (i < wc._Sensors.Count); i++)
{
trs[i] = new StreamReader(storage + "sensor" + i + ".csv");
sensordata[i] = new Hashtable();
processed[i]=true;
done[i]=false;
sensorlines[i]=trs[i].ReadLine();
string[] tokens=sensorlines[i].Split(',');
lastTS[i]=Convert.ToDouble(tokens[0])/1000.0;
indexes[i]=0;
if (lastTS[i] < currentTS)
currentTS= (long)lastTS[i];
}
bool Alldone=true;
bool AllProcessed = false;
TextWriter merged = new StreamWriter(storage + "merged.csv");
do
{
for (i = 0; (i < wc._Sensors.Count); i++)
{
if ((done[i]==false) && (processed[i]))
{
sensorlines[i] = trs[i].ReadLine();
if (sensorlines[i] == null)
done[i] = true;
}
if (done[i] == false)
{
string[] tokens = sensorlines[i].Split(',');
long ts = (long)(Convert.ToDouble(tokens[0]) / 1000.0);
if (currentTS != ts)
{
if (processed[i] == true)
{
//stop reading
processed[i] = false;
//correct timestamps
int count = sensordata[i].Count;
double delta = 1000.0 / count;
for (int j=0;(j<indexes[i]);j++)
{
string vals = (string)sensordata[i][j];
sensordata[i].Remove(j);
long ctime=(long)((currentTS * 1000.0) + j * delta);
sensordata[i].Add(ctime, vals);
}
}
}
else
{
sensordata[i].Add(indexes[i], tokens[1] + "," + tokens[2] + "," + tokens[3]);
indexes[i] = indexes[i] + 1;
}
}
}
AllProcessed = false;
Alldone = true;
for (i = 0; (i < wc._Sensors.Count); i++)
{
if (done[i] == false)
Alldone = false;
if ((done[i]==false) && (processed[i] == true))
AllProcessed = true;
}
if (AllProcessed==false)
{
//go by milliseconds
double start_time = currentTS * 1000.0;
double[][] xs = new double[wc._Sensors.Count][];
double[][] ys1 = new double[wc._Sensors.Count][];
double[][] ys2 = new double[wc._Sensors.Count][];
double[][] ys3 = new double[wc._Sensors.Count][];
int[] ccounter=new int[wc._Sensors.Count];
for (int j=0;(j<wc._Sensors.Count);j++)
{
xs[j] = new double[sensordata[j].Count];
ys1[j] = new double[sensordata[j].Count];
ys2[j] = new double[sensordata[j].Count];
ys3[j] = new double[sensordata[j].Count];
//ccounter[j]=new int[sensordata[j].Count];
for (int k = 0; (k < sensordata[j].Count); k++)
{
xs[j][k] = 0;
ys1[j][k] = 0;
ys2[j][k] = 0;
ys3[j][k] = 0;
ccounter[j] = 0;
}
}
for (int t = 0; (t < 1000); t++)
{
long currentTT=((long)(start_time+t));
string output = currentTT.ToString();
bool found = false;
for (int j = 0; (j < wc._Sensors.Count); j++)
{
if (sensordata[j].ContainsKey(currentTT))
{
string[] tokens2=((string)sensordata[j][currentTT]).Split(',');
xs[j][ccounter[j]] = currentTT - (long)start_time;
ys1[j][ccounter[j]] = (double)Convert.ToInt32(tokens2[0]);
ys2[j][ccounter[j]] = (double)Convert.ToInt32(tokens2[1]);
ys3[j][ccounter[j]] = (double)Convert.ToInt32(tokens2[2]);
ccounter[j] = ccounter[j] + 1;
}
/*if (sensordata[j].ContainsKey(currentTT))
{
output += "," + (string)sensordata[j][currentTT];
found = true;
}
else
output += ",,,";
*/
}
//if (found)
//merged.WriteLine(output);
}
for (int j = 0; (j < wc._Sensors.Count); j++)
{
csplines[j] = new CubicSpline[3];
if (xs[j].Length > 10)
{
csplines[j][0] = new CubicSpline(xs[j], ys1[j]);
csplines[j][1] = new CubicSpline(xs[j], ys2[j]);
csplines[j][2] = new CubicSpline(xs[j], ys3[j]);
}
}
for (int t = 0; (t < 1000); )
{
long currentTT = ((long)(start_time + t));
string output = currentTT.ToString();
// bool found = false;
for (int j = 0; (j < wc._Sensors.Count); j++)
{
//if (sensordata[j].ContainsKey(currentTT))
//{
Wockets.Sensors.Accelerometers.Accelerometer acc = ((Wockets.Sensors.Accelerometers.Accelerometer)wc._Sensors[j]);
if (csplines[j][0] != null)
{
double xx = csplines[j][0].interpolate(t);
double yy=csplines[j][1].interpolate(t);
double zz=csplines[j][2].interpolate(t);
//compute g values
xx = (1.0+ ((xx-acc._X1G)/slopes[j][0]))*980;
yy = (1.0 + ((yy - acc._Y1G) / slopes[j][1]))*980;
zz = (1.0 + ((zz - acc._Z1G) / slopes[j][2]))*980;
output += "," + xx +","+yy+","+zz;
}else
output += ",,,";
// found = true;
//}
// else
// output += ",,,";
}
merged.WriteLine(output);
t += 11;
}
Console.WriteLine("Processing " + currentTS);
currentTS += 1;
for (i = 0; (i < wc._Sensors.Count); i++)
{
if (done[i] == false)
{
sensordata[i] = new Hashtable();
processed[i] = true;
indexes[i] = 0;
//add last read data point
string[] tokens = sensorlines[i].Split(',');
long ts = (long)(Convert.ToDouble(tokens[0]) / 1000.0);
if (currentTS == ts)
{
sensordata[i].Add(indexes[i], tokens[1] + "," + tokens[2] + "," + tokens[3]);
indexes[i] = indexes[i] + 1;
}
}
}
AllProcessed = true;
}
} while (Alldone == false);
merged.Close();
/*
Classifier classifier;
FastVector fvWekaAttributes;
Instances instances;
string[] activityLabels;
Hashtable labelIndex;
int[] labelCounters;
string storage = @"C:\Users\albinali\Desktop\data\mites data\wockets\";
WocketsController wc = new WocketsController("", "", "");
wc.FromXML(storage + "SensorData.xml");
int[] lostSeconds = new int[wc._Sensors.Count];
double[] prevUnix = new double[wc._Sensors.Count];
bool isAllDone = false;
Session annotatedSession = new Session();
DTConfiguration classifierConfiguration = new DTConfiguration();
try
{
annotatedSession.FromXML(storage + "\\ActivityLabelsRealtime.xml");
}
catch (Exception e)
{
}
try
{
classifierConfiguration.FromXML(storage + "\\Configuration.xml");
}
catch (Exception e)
{
}
FeatureExtractor.Initialize(wc, classifierConfiguration, annotatedSession.OverlappingActivityLists[0]);
labelIndex = new Hashtable();
classifier = new J48();
if (!File.Exists(storage + "\\model.xml"))
{
string[] arffFiles = Directory.GetFileSystemEntries(storage, "output*.arff");
if (arffFiles.Length != 1)
throw new Exception("Multiple Arff Files in Directory");
instances = new Instances(new StreamReader(arffFiles[0]));
instances.Class = instances.attribute(FeatureExtractor.ArffAttributeLabels.Length);
classifier.buildClassifier(instances);
TextWriter tc = new StreamWriter(storage + "\\model.xml");
classifier.toXML(tc);
tc.Flush();
tc.Close();
}
else
{
instances = new Instances(new StreamReader(storage + "\\structure.arff"));
instances.Class = instances.attribute(FeatureExtractor.ArffAttributeLabels.Length);
classifier.buildClassifier(storage + "\\model.xml", instances);
}
fvWekaAttributes = new FastVector(FeatureExtractor.ArffAttributeLabels.Length + 1);
for (int i = 0; (i < FeatureExtractor.ArffAttributeLabels.Length); i++)
fvWekaAttributes.addElement(new weka.core.Attribute(FeatureExtractor.ArffAttributeLabels[i]));
FastVector fvClassVal = new FastVector();
labelCounters = new int[annotatedSession.OverlappingActivityLists[0].Count + 1];
activityLabels = new string[annotatedSession.OverlappingActivityLists[0].Count + 1];
for (int i = 0; (i < annotatedSession.OverlappingActivityLists[0].Count); i++)
{
labelCounters[i] = 0;
string label = "";
int j = 0;
for (j = 0; (j < annotatedSession.OverlappingActivityLists.Count - 1); j++)
label += annotatedSession.OverlappingActivityLists[j][i]._Name.Replace(' ', '_') + "_";
label += annotatedSession.OverlappingActivityLists[j][i]._Name.Replace(' ', '_');
activityLabels[i] = label;
labelIndex.Add(label, i);
fvClassVal.addElement(label);
}
weka.core.Attribute ClassAttribute = new weka.core.Attribute("activity", fvClassVal);
int[] lastDecodedIndex = new int[wc._Sensors.Count];
double[] lastDecodedTime = new double[wc._Sensors.Count];
bool[] isDone = new bool[wc._Sensors.Count];
int nextSensor = 0;
double smallestTimestamp = 0;
for (int i = 0; (i < wc._Sensors.Count); i++)
{
wc._Sensors[i]._RootStorageDirectory = storage + "data\\raw\\PLFormat\\";
isDone[i] = false;
lastDecodedTime[i] = 0;
lastDecodedIndex[i] = 0;
}
//double lastTimeStamp=0;
Wockets.Data.Accelerometers.AccelerationData data = null;
string previousActivity = "";
Annotation annotation = null;
int classificationCounter = 0;
string mostActivity = "";
while (isAllDone == false)
{
isAllDone = true;
for (int i = 0; (i < wc._Sensors.Count); i++)
{
if (nextSensor == i)
{
if (wc._Sensors[i].Load())
{
if (wc._Sensors[i]._Decoder._Head == 0)
lastDecodedIndex[i] = wc._Sensors[i]._Decoder._Data.Length - 1;
else
lastDecodedIndex[i] = wc._Sensors[i]._Decoder._Head - 1;
data = (Wockets.Data.Accelerometers.AccelerationData)wc._Sensors[i]._Decoder._Data[lastDecodedIndex[i]];
lastDecodedTime[i] = data.UnixTimeStamp;
isAllDone = false;
double lastTT = FeatureExtractor.StoreWocketsWindow();
if (FeatureExtractor.GenerateFeatureVector(lastTT))
{
Instance newinstance = new Instance(instances.numAttributes());
newinstance.Dataset = instances;
for (int k = 0; (k < FeatureExtractor.Features.Length); k++)
newinstance.setValue(instances.attribute(k), FeatureExtractor.Features[k]);
double predicted = classifier.classifyInstance(newinstance);
string predicted_activity = newinstance.dataset().classAttribute().value_Renamed((int)predicted);
int currentIndex = (int)labelIndex[predicted_activity];
labelCounters[currentIndex] = (int)labelCounters[currentIndex] + 1;
classificationCounter++;
if (classificationCounter == classifierConfiguration._SmoothWindows)
{
classificationCounter = 0;
int mostCount = 0;
for (int j = 0; (j < labelCounters.Length); j++)
{
if (labelCounters[j] > mostCount)
{
mostActivity = activityLabels[j];
mostCount = labelCounters[j];
}
labelCounters[j] = 0;
}
if (mostCount == classifierConfiguration._SmoothWindows)
{
DateTime mydate = new DateTime();
if (previousActivity == "")
{
annotation = new Annotation();
annotation._StartUnix = data.UnixTimeStamp;
WocketsTimer.GetDateTime((long)(data.UnixTimeStamp),out mydate);
annotation._StartDate = mydate.ToString("yyyy'-'MM'-'dd' 'HH':'mm':'ssK");
annotation._StartHour = mydate.Hour;
annotation._StartMinute = mydate.Minute;
annotation._StartSecond = mydate.Second;
annotation.Activities.Add(new Activity(mostActivity, "Physical Activiites"));
}
else if (previousActivity != mostActivity)
{
annotation._EndUnix = data.UnixTimeStamp;
WocketsTimer.GetDateTime((long)(data.UnixTimeStamp), out mydate);
annotation._EndDate = mydate.ToString("yyyy'-'MM'-'dd' 'HH':'mm':'ssK");
annotation._EndHour = mydate.Hour;
annotation._EndMinute = mydate.Minute;
annotation._EndSecond = mydate.Second;
annotatedSession.Annotations.Add(annotation);
annotation = new Annotation();
annotation._StartUnix = data.UnixTimeStamp;
WocketsTimer.GetDateTime((long)(data.UnixTimeStamp), out mydate);
annotation._StartDate = mydate.ToString("yyyy'-'MM'-'dd' 'HH':'mm':'ssK");
annotation._StartHour = mydate.Hour;
annotation._StartMinute = mydate.Minute;
annotation._StartSecond = mydate.Second;
annotation.Activities.Add(new Activity(mostActivity, "Physical Activiites"));
}
previousActivity = mostActivity;
}
}
}
}
}
nextSensor = 0;
smallestTimestamp = lastDecodedTime[0];
for (int j = 0; (j < wc._Sensors.Count); j++)
{
if (smallestTimestamp > lastDecodedTime[j])
{
smallestTimestamp = lastDecodedTime[j];
nextSensor = j;
}
}
}
}
TextWriter tw = new StreamWriter(storage + "\\AnnotationIntervals.xml");
tw.WriteLine(annotatedSession.ToXML());
tw.Close();
tw = new StreamWriter(storage + "\\AnnotationIntervals.CSV");
tw.WriteLine(annotatedSession.ToCSV());
tw.Close();
*
* *
* */
}
public static void toQualityHTML(string aDataDirectory, string masterDirectory, int maxControllers, string[] filter)
{
int ACCELEROMETER_STATISTICS_LENGTH = 16;
//int WOCKETS_SR = 92;
int MITES_SR = 45;
if (CSVProgress == "")
CSVProgress = "Generating Quality Assessment Summary in HTML";
#region =================== Load the MITES/Wockets DATA ==============================
//Calculate Data Gaps
WocketsController wc = new WocketsController("", "", "");
CurrentWockets._Controller = wc;
wc.FromXML(aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY + "\\SensorData.xml");
if (wc._Decoders.Count > 0)
{
for (int r = 0; (r < wc._Decoders.Count); r++)
wc._Decoders[r].Initialize();
}
SXML.Reader sreader = null;
SXML.SensorAnnotation sannotation = null;
try
{
//JPN!!!!!
sreader = new SXML.Reader(masterDirectory, aDataDirectory + "\\" + MITES_SUBDIRECTORY);
sannotation = sreader.parse(maxControllers);
//remove the HR sensor
for (int i = 0; (i < sannotation.Sensors.Count); i++)
if ((Convert.ToInt32(((SXML.Sensor)sannotation.Sensors[i]).ID) == 0))
{
sannotation.Sensors.RemoveAt(i);
break;
}
}
catch
{
//if there is not mites data, catch the error and continue
}
#endregion
#region ============== Load Annotation Intervals =======================================
Session session = new Session();
session.FromXML(aDataDirectory + "\\" + ANNOTATION_SUBDIRECTORY + "\\" + ANNOTATION_INTERVALS_FILE);
int numPostures = 0;
Hashtable postures = new Hashtable();
int k = 0;
//Think how to handle this when there are more than one activity type
Hashtable means_per_class = new Hashtable();
Hashtable std_per_class = new Hashtable();
Hashtable freq_per_class = new Hashtable();
Hashtable min_per_class = new Hashtable();
Hashtable max_per_class = new Hashtable();
//Check if the "unknown" class is specified
bool is_unknown_specified = false;
//If two categories are available
if (session.OverlappingActivityLists.Count == 2)
{
numPostures = session.OverlappingActivityLists[0].Count * session.OverlappingActivityLists[1].Count + 1;
//Go through the activity list for the two categories
//This list will generate all combinations of postures-activities
for (int i = 0; (i < session.OverlappingActivityLists[1].Count); i++)
for (int j = 0; (j < session.OverlappingActivityLists[0].Count); j++)
{
postures.Add(session.OverlappingActivityLists[1][i]._Name + "_" + session.OverlappingActivityLists[0][j]._Name, k);
k++;
}
}
else if (session.OverlappingActivityLists.Count == 1)
{
numPostures = session.OverlappingActivityLists[0].Count + 1;
//Go through the activity list for the available category
//This list will simply pass the elements in the category list to the postures data structure
for (int i = 0; (i < session.OverlappingActivityLists[0].Count); i++)
{
if (session.OverlappingActivityLists[0][i]._Name.CompareTo("unknown") == 0)
is_unknown_specified = true;
postures.Add(session.OverlappingActivityLists[0][i]._Name, k);
k++;
//initialize the class stats structure
means_per_class.Add(session.OverlappingActivityLists[0][i]._Name, (double)0.0);
std_per_class.Add(session.OverlappingActivityLists[0][i]._Name, (double)0.0);
freq_per_class.Add(session.OverlappingActivityLists[0][i]._Name, (int)0);
min_per_class.Add(session.OverlappingActivityLists[0][i]._Name, (double)10000.0);
max_per_class.Add(session.OverlappingActivityLists[0][i]._Name, (double)0.0);
}
}
// TODO if four categories present
else if (session.OverlappingActivityLists.Count == 4)
{
numPostures = session.OverlappingActivityLists[0].Count * session.OverlappingActivityLists[1].Count + 1;
//Go through the activity list for the two categories
//This list will generate all combinations of postures-activities
for (int i = 0; (i < session.OverlappingActivityLists[1].Count); i++)
for (int j = 0; (j < session.OverlappingActivityLists[0].Count); j++)
{
postures.Add(session.OverlappingActivityLists[1][i]._Name + "_" + session.OverlappingActivityLists[0][j]._Name, k);
k++;
}
}
//Check if postures contain the "unknown" label, otherwise add it
if (!is_unknown_specified)
{
postures.Add("unknown", k);
//initialize the class stats structure
means_per_class.Add("unknown", (double)0.0);
std_per_class.Add("unknown", (double)0.0);
freq_per_class.Add("unknown", (int)0);
min_per_class.Add("unknown", (double)10000.0);
max_per_class.Add("unknown", (double)0.0);
}
#endregion
#region ================= Compute Statistics based on Postures ===========================
#region Create Data Structures & Variables
int[] timeLostPostureSensorCounter = new int[numPostures];
double[] wocketsSR = new double[wc._Sensors.Count];
double[] trueWocketsSR = new double[wc._Sensors.Count];
double[][] modeWocketsSR = new double[wc._Sensors.Count][];
bool[] disconnected = new bool[wc._Sensors.Count];
double[] zeroWocketsSR = new double[wc._Sensors.Count];
int[] numDisconnected = new int[wc._Sensors.Count];
ArrayList[] disconnectionDistribution = new ArrayList[wc._Sensors.Count];
int[] disconnectionTimer = new int[wc._Sensors.Count];
int[] numDisconnections = new int[wc._Sensors.Count];
int[] meanDisconnection = new int[wc._Sensors.Count];
int[] sdDisconnection = new int[wc._Sensors.Count];
int[][] timeLostPostureSensorDistribution = new int[wc._Sensors.Count][];
int[][] percentLostPostureSensorDistribution = new int[wc._Sensors.Count][];
int[][] percentLostPostureSensorCounter = new int[wc._Sensors.Count][];
int mitesCount = 0;
if (sannotation != null)
mitesCount = sannotation.Sensors.Count;
int[] mitesSR = new int[mitesCount];
int[] trueMitesSR = new int[mitesCount];
int[][] modeMITesSR = new int[mitesCount][];
Hashtable annotatedPostures = new Hashtable();
#endregion
#region Initialize Variables
// int[] wocketsCounter = new int[wc._Sensors.Count];
// int[] mitesCounter = new int[sannotation.Sensors.Count];
int numSeconds = 0;
for (int i = 0; (i < mitesCount); i++)
{
mitesSR[i] = 0;
trueMitesSR[i] = 0;
modeMITesSR[i] = new int[1000];
}
int mitesStartIndex = 3 + session.OverlappingActivityLists.Count;
for (int i = 0; (i < wc._Sensors.Count); i++)
{
wocketsSR[i] = 0;
trueWocketsSR[i] = 0;
modeWocketsSR[i] = new double[1000];
disconnected[i] = false;
disconnectionDistribution[i] = new ArrayList();
disconnectionTimer[i] = 0;
timeLostPostureSensorDistribution[i] = new int[numPostures];
percentLostPostureSensorDistribution[i] = new int[numPostures];
//timeLostPostureSensorCounter[i] = new int[numPostures];
}
int wocketsStartIndex = mitesStartIndex + (ACCELEROMETER_STATISTICS_LENGTH * mitesCount);
//no heart mites rate
if (mitesCount == 0)
wocketsStartIndex = wocketsStartIndex - 1;
#endregion
#region Initialize Annotations & Compute Descripte Statistics
int numCategories = session.OverlappingActivityLists.Count;
int currentAnnotation = 0;
//Get the number of annotations
int annotationsLength = session.Annotations.Count;
//Get the overall session time
double startTime = session.Annotations[0]._StartUnix;
double endTime = session.Annotations[annotationsLength - 1]._EndUnix;
string name = "";
double duration_secs = 0.0;
//Scan annotations and compute the duration min/max stats
try
{
for (int c1 = 0; c1 < annotationsLength; c1++)
{
name = session.Annotations[c1].Activities[0]._Name;
freq_per_class[name] = ((int)freq_per_class[name]) + 1;
//compute the duration of the label
duration_secs = (session.Annotations[c1]._EndUnix - session.Annotations[c1]._StartUnix) / 1000;
means_per_class[name] = ((double)means_per_class[name]) + duration_secs;
if (duration_secs < ((double)min_per_class[name]))
min_per_class[name] = duration_secs;
if (duration_secs > ((double)max_per_class[name]))
max_per_class[name] = duration_secs;
}
//compute the mean for each class
for (int c2 = 0; c2 < means_per_class.Count; c2++)
{
if (c2 < session.OverlappingActivityLists[0].Count)
{
name = session.OverlappingActivityLists[0][c2]._Name;
means_per_class[name] = ((double)means_per_class[name]) / ((int)freq_per_class[name]);
}
}
//Compute the standard deviation of durations for each class
for (int c3 = 0; c3 < annotationsLength; c3++)
{
name = session.Annotations[c3].Activities[0]._Name;
//compute the duration of the label
duration_secs = (session.Annotations[c3]._EndUnix - session.Annotations[c3]._StartUnix) / 1000;
std_per_class[name] = ((double)std_per_class[name]) + Math.Pow((duration_secs - ((double)means_per_class[name])), 2.0);
}
for (int c4 = 0; c4 < means_per_class.Count; c4++)
{
if (c4 < session.OverlappingActivityLists[0].Count)
{
name = session.OverlappingActivityLists[0][c4]._Name;
std_per_class[name] = Math.Sqrt(((double)std_per_class[name]) / ((int)freq_per_class[name]));
}
}
}
catch
{ //The computation of the descriptive stats of annotations has failed
}
#endregion
#region Open the Summary CSV File
TextReader tr = new StreamReader(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\MITesSummaryData.csv");
string line = "";
tr.ReadLine();
#endregion
//Scan the Annotation Intervals and Summary File to Access the Sensors Statistics
while ((line = tr.ReadLine()) != null)
{
//Read Line of Summary File (Sensor Reading)
string[] tokens = line.Split(',');
double currentTime = Convert.ToDouble(tokens[0]);
string posture = tokens[2];
string current_posture = "unknown";
#region Determine if the sensor reading is within the annotation interval & compute its metrics
try
{
// If the sensor reading happens after the end of the annotation interval,
// advance to the next annotation
if ((currentAnnotation < session.Annotations.Count - 1) &&
(session.Annotations[currentAnnotation]._EndUnix < currentTime))
currentAnnotation++;
// If the sensor reading happens within the annotation interval,
// proceed to compute the metrics
if ((currentTime >= session.Annotations[currentAnnotation]._StartUnix) &&
(currentTime <= session.Annotations[currentAnnotation]._EndUnix))
{
#region Get the Label Name, Add it to the Hash Table, and Add the Annotated Seconds
// If we have more than one category,
// make the check for the second category (activities)
if (session.Annotations[currentAnnotation].Activities.Count > 1)
{
//If it is NOT a valid label, replace it for "unknown"
if ((session.Annotations[currentAnnotation].Activities[1]._Name == "none") ||
(session.Annotations[currentAnnotation].Activities[1]._Name == "") ||
(session.Annotations[currentAnnotation].Activities[1]._Name == "-"))
session.Annotations[currentAnnotation].Activities[1]._Name = "unknown";
}
//Make the check for all the first category (postures)
if ((session.Annotations[currentAnnotation].Activities[0]._Name == "none") ||
(session.Annotations[currentAnnotation].Activities[0]._Name == "") ||
(session.Annotations[currentAnnotation].Activities[0]._Name == "-"))
session.Annotations[currentAnnotation].Activities[0]._Name = "unknown";
//Get the name of the annotation label
if (session.Annotations[currentAnnotation].Activities.Count > 1)
current_posture = session.Annotations[currentAnnotation].Activities[1]._Name + "_" + session.Annotations[currentAnnotation].Activities[0]._Name;
else
current_posture = session.Annotations[currentAnnotation].Activities[0]._Name;
// Search in the hash table the name of the current label,
// If it doesn't exists, add it to the list of annotated postures
// If it exists, add the number of seconds in the annotation
if (!annotatedPostures.ContainsKey(current_posture))
annotatedPostures.Add(current_posture, 1);
else
{
int annotatedSeconds = (int)annotatedPostures[current_posture] + 1;
annotatedPostures[current_posture] = annotatedSeconds;
}
#endregion
}
#region Calculate quality metrics on data that has been annotated only
//If the sensor reading falls within the start-end of the session
if ((currentTime >= startTime) && (currentTime <= endTime))
{
#region Calculate Metrics
#region mites SR
for (int i = 0; (i < mitesCount); i++)
{
int sr = Convert.ToInt32(tokens[mitesStartIndex + (ACCELEROMETER_STATISTICS_LENGTH * i)]);
mitesSR[i] += sr;
modeMITesSR[i][sr] = modeMITesSR[i][sr] + 1;
}
#endregion
#region The number of seconds in a particular posture (adds to the global counter)
int currentPostureIndex = 0;
currentPostureIndex = (int)postures[current_posture];
timeLostPostureSensorCounter[currentPostureIndex] = timeLostPostureSensorCounter[currentPostureIndex] + 1;
#endregion
#region wockets SR
for (int i = 0; (i < wc._Sensors.Count); i++)
{
//Compute Wockets Sampling Rate
int sr = 0;
try
{
sr = Convert.ToInt32(tokens[wocketsStartIndex + (ACCELEROMETER_STATISTICS_LENGTH * i)]);
wocketsSR[i] += sr;
modeWocketsSR[i][sr] = modeWocketsSR[i][sr] + 1;
}
catch (Exception e)
{
}
//Add the samples collected per activity
timeLostPostureSensorDistribution[i][currentPostureIndex] = timeLostPostureSensorDistribution[i][currentPostureIndex] + sr;
//Compute the number of disconnections
if (sr == 0)
{
zeroWocketsSR[i] = zeroWocketsSR[i] + 1;
if (zeroWocketsSR[i] == 5)
{
disconnected[i] = true;
numDisconnected[i] = numDisconnected[i] + 1;
}
disconnectionTimer[i]++;
}
else
{
if (disconnectionTimer[i] >= 5)
disconnectionDistribution[i].Add(disconnectionTimer[i]);
zeroWocketsSR[i] = 0;
disconnected[i] = false;
disconnectionTimer[i] = 0;
}
}
#endregion
numSeconds++;
#endregion
} //end of the if
#endregion
}//end of try
catch (Exception e)
{
//Launch exception when there is a index mistmatch in the ActivityIntervals.xml file
}
#endregion
}//end of while
#region Calculate time lost, % data lost, burstiness
#region Wockets Loss Calculation
//The total session duration
int totalSeconds = (int)((endTime - startTime) / 1000.0);
//initialize variables
int expectedMITesSamples = MITES_SR * totalSeconds;
int[] wocketsSecondsLost = new int[wc._Sensors.Count];
int[] mitesSecondsLost = new int[mitesCount];
int[] wocketsPercentLost = new int[wc._Sensors.Count];
int[] mitesPercentLost = new int[mitesCount];
//Compute Loss Based on Sampling Rate and Number of Samples
for (int i = 0; (i < wc._Sensors.Count); i++)
{
int expectedWocketsSamples = wc._Sensors[i]._SamplingRate * totalSeconds;
if (wocketsSR[i] < expectedWocketsSamples)
{
wocketsSecondsLost[i] = (int)Math.Ceiling((double)(expectedWocketsSamples - wocketsSR[i]) / wc._Sensors[i]._SamplingRate);
wocketsPercentLost[i] = (int)(((double)wocketsSecondsLost[i] / (double)totalSeconds) * 100.0);
}
if (disconnectionTimer[i] >= 5)
disconnectionDistribution[i].Add(disconnectionTimer[i]);
}
#endregion Wockets Loss Calculation
#region Wockets per Activity Loss Calculation
//Scan through the list of annotated postures
for (int i = 0; (i < timeLostPostureSensorCounter.Length); i++)
{
//Scan through the list of sensors
for (int j = 0; (j < wc._Sensors.Count); j++)
{
//expected samples
int expectedWocketsSamples = wc._Sensors[j]._SamplingRate * timeLostPostureSensorCounter[i];
//compute loss
if (timeLostPostureSensorDistribution[j][i] < expectedWocketsSamples)
{
timeLostPostureSensorDistribution[j][i] = (int)Math.Floor((expectedWocketsSamples - timeLostPostureSensorDistribution[j][i]) / (double)wc._Sensors[j]._SamplingRate);
percentLostPostureSensorDistribution[j][i] = (int)Math.Floor((((double)timeLostPostureSensorDistribution[j][i] / (double)timeLostPostureSensorCounter[i]) * 100.0));
}
else
{
timeLostPostureSensorDistribution[j][i] = 0;
percentLostPostureSensorDistribution[j][i] = 0;
}
}
}
#endregion Wockets per Activity Loss Calculation
#region MEAN and SD Calculation
//Iterate through sensors
for (int i = 0; (i < wc._Sensors.Count); i++)
{
numDisconnections[i] = disconnectionDistribution[i].Count;
meanDisconnection[i] = 0;
for (int j = 0; (j < disconnectionDistribution[i].Count); j++)
meanDisconnection[i] = meanDisconnection[i] + (int)disconnectionDistribution[i][j];
if (numDisconnections[i] > 0)
meanDisconnection[i] = (meanDisconnection[i] - 1) / numDisconnections[i];
for (int j = 0; (j < disconnectionDistribution[i].Count); j++)
sdDisconnection[i] = sdDisconnection[i] + (int)Math.Pow(((double)(int)disconnectionDistribution[i][j] - meanDisconnection[i]), 2.0);
if (disconnectionDistribution[i].Count > 1)
sdDisconnection[i] = (int)Math.Sqrt(sdDisconnection[i] / (disconnectionDistribution[i].Count - 1));
else
sdDisconnection[i] = -1;
}
#endregion MEAN and SD Calculation
#region MITes Loss Calculation
for (int i = 0; (i < mitesCount); i++)
{
if (mitesSR[i] < expectedMITesSamples)
mitesSecondsLost[i] = (expectedMITesSamples - mitesSR[i]) / MITES_SR;
mitesPercentLost[i] = (int)(((double)mitesSecondsLost[i] / (double)totalSeconds) * 100.0);
}
#endregion MITes Loss Calculation
tr.Close();
#region Percent Maxedout MITES
int[] mitesMaxedOut = null;
if (sannotation != null)
mitesMaxedOut = new int[sannotation.MaximumSensorID + 1];
int[] mitesSamplesCount = null;
if (sannotation != null)
mitesSamplesCount = new int[sannotation.MaximumSensorID + 1];
try
{
MITesDecoder aMITesDecoder = new MITesDecoder();
MITesLoggerReader aMITesLoggerReader = new MITesLoggerReader(aMITesDecoder, aDataDirectory + "\\" + MITES_SUBDIRECTORY);
bool isData = true;
do
{
//decode the frame
int i = aMITesDecoder.GetSomeMITesData()[0].channel;
int x = aMITesDecoder.GetSomeMITesData()[0].x;
int y = aMITesDecoder.GetSomeMITesData()[0].y;
int z = aMITesDecoder.GetSomeMITesData()[0].z;
mitesSamplesCount[i] = mitesSamplesCount[i] + 1;
if ((x >= 1023) || (y >= 1023) || (z >= 1023))
mitesMaxedOut[i] = mitesMaxedOut[i] + 1;
} while (isData = aMITesLoggerReader.GetSensorData(10));
}
catch
{
}
#endregion
#region Percent Maxed Out Wockets
int[] maxedOut = new int[wc._Sensors.Count];
int[] samplesCount = new int[wc._Sensors.Count];
for (int i = 0; (i < wc._Sensors.Count); i++)
{
wc._Sensors[i]._RootStorageDirectory = aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY + "\\data\\raw\\PLFormat\\";
try
{
int lastDecodedIndex = 0;
while (wc._Sensors[i].Load())
{
samplesCount[i] = samplesCount[i] + 1;
if (wc._Sensors[i]._Decoder._Head == 0)
lastDecodedIndex = wc._Sensors[i]._Decoder._Data.Length - 1;
else
lastDecodedIndex = wc._Sensors[i]._Decoder._Head - 1;
Wockets.Data.Accelerometers.AccelerationData data = (Wockets.Data.Accelerometers.AccelerationData)wc._Sensors[i]._Decoder._Data[lastDecodedIndex];
if ((data._X >= 1023) || (data._Y >= 1023) || (data._Z >= 1023))
maxedOut[i] = maxedOut[i] + 1;
}
}
catch (Exception e)
{
}
}
#endregion Percent Maxed Out Wockets
#region Write Results to HTML
string summary = "<h3><Font Color=#585858>MITes and Wockets Data Loss, Disconnections and Maxing out Statistics </Font></h3><TABLE border=\"1\">\n";
int numRows = wc._Sensors.Count - 1 + mitesCount;
string[] rows = new string[numRows];
string header = "<TR>\n";
string[] hlabels = new string[] { "Placement\\Metric", "Data Loss (seconds)", "% Data Loss", "Num Disconnections", "Mean Disconnection (seconds)", "SD Disconnection (seconds)", "Num Maxed Out", "% Maxed Out" };
for (int i = 0; (i < hlabels.Length); i++)
header += "<TD><div align=\"center\"><strong>" + hlabels[i] + "</strong></div></TD>\n";
header += "</TR>\n";
summary += header;
#region Statistics Table for MITES
for (int i = 0; (i < mitesCount); i++)
{
string row = "<TR>\n";
row += "<TD><div align=\"center\"><strong>MITes " + ((SXML.Sensor)sannotation.Sensors[i]).Location + "</strong></div></TD>\n";
if (mitesPercentLost[i] >= 20)
{
row += "<TD bgcolor=\"#FF0000\"><div align=\"center\">" + mitesSecondsLost[i].ToString() + "</div></TD>\n"; ;
row += "<TD bgcolor=\"#FF0000\"><div align=\"center\">" + mitesPercentLost[i].ToString() + "%" + "</div></TD>\n";
}
else
{
row += "<TD><div align=\"center\">" + mitesSecondsLost[i].ToString() + "</div></TD>\n"; ;
row += "<TD><div align=\"center\">" + mitesPercentLost[i].ToString() + "%" + "</div></TD>\n";
}
int percent = 0;
if (mitesSamplesCount[Convert.ToInt32(((SXML.Sensor)sannotation.Sensors[i]).ID)] > 0)
percent = (int)(((double)mitesMaxedOut[Convert.ToInt32(((SXML.Sensor)sannotation.Sensors[i]).ID)] / (double)mitesSamplesCount[Convert.ToInt32(((SXML.Sensor)sannotation.Sensors[i]).ID)]) * 100.0);
row += "<TD><div align=\"center\">" + "N/A" + "</div></TD>\n";
row += "<TD><div align=\"center\">" + "N/A" + "</div></TD>\n";
row += "<TD><div align=\"center\">" + "N/A" + "</div></TD>\n";
row += "<TD><div align=\"center\">" + mitesMaxedOut[Convert.ToInt32(((SXML.Sensor)sannotation.Sensors[i]).ID)] + "</div></TD>\n";
row += "<TD><div align=\"center\">" + percent + "% </div></TD>\n";
row += "</TR>\n";
summary += row;
}
summary += "<TR><TD colspan=\"8\"></TD></TR><TR>\n";
#endregion
#region Statistics Table for Wockets
for (int i = 0; (i < wc._Sensors.Count); i++)
{
if (wc._Receivers[i] is Wockets.Receivers.RFCOMMReceiver)
{
string row = "<TR>\n";
row += "<TD><div align=\"center\"><strong>Wocket " + wc._Sensors[i]._Location + "</strong></div></TD>\n";
if (wocketsPercentLost[i] >= 20)
{
row += "<TD bgcolor=\"#FF0000\"><div align=\"center\">" + wocketsSecondsLost[i].ToString() + "</div></TD>\n";
row += "<TD bgcolor=\"#FF0000\"><div align=\"center\">" + wocketsPercentLost[i].ToString() + "%" + "</div></TD>\n";
}
else
{
row += "<TD><div align=\"center\">" + wocketsSecondsLost[i].ToString() + "</div></TD>\n";
row += "<TD><div align=\"center\">" + wocketsPercentLost[i].ToString() + "%" + "</div></TD>\n";
}
row += "<TD><div align=\"center\">" + numDisconnections[i].ToString() + "</div></TD>\n";
row += "<TD><div align=\"center\">" + meanDisconnection[i].ToString() + "</div></TD>\n";
if (sdDisconnection[i] >= 0)
row += "<TD><div align=\"center\">" + sdDisconnection[i].ToString() + "</div></TD>\n";
else
row += "<TD><div align=\"center\">N/A</div></TD>\n";
row += "<TD><div align=\"center\">" + maxedOut[i].ToString() + "</div></TD>\n";
if (samplesCount[i] > 0)
row += "<TD><div align=\"center\">" + ((int)(((double)maxedOut[i] / (double)samplesCount[i]) * 100.0)).ToString() + "% </div></TD>\n";
else
row += "<TD><div align=\"center\">0% </div></TD>\n";
row += "</TR>\n";
summary += row;
}
}
summary += "</TABLE>\n";
summary = "<HTML><HEAD></HEAD><BODY>" + summary + "</BODY></HTML>";
TextWriter tw = new StreamWriter(aDataDirectory + "\\result.html", true);
tw.WriteLine(summary);
tw.WriteLine("\n<p> </p>\n");
#endregion
#region Statistics per Activity Table
summary = "<h3><Font Color=#585858>Wockets Data Loss by Posture and Activity Statistics</Font></h3><TABLE border=\"1\">\n";
numRows = numPostures;
rows = new string[numRows];
header = "<TR>\n<td><div align=\"center\"><strong>Activity</strong></div></td><td><div align=\"center\"><strong>Posture</strong></div></td><td><strong>Total Seconds Annotated</strong></td>\n";
for (int j = 0; (j < wc._Sensors.Count); j++)
header += "<TD><div align=\"center\"><strong>" + wc._Sensors[j]._Location + "</br>(Seconds Lost|% Lost)</strong></div></TD>\n";
header += "</TR>\n";
summary += header;
int m = 0;
if (session.OverlappingActivityLists.Count > 1)
{
for (int i = 0; (i < session.OverlappingActivityLists[1].Count); i++)
for (int j = 0; (j < session.OverlappingActivityLists[0].Count); j++)
{
if (annotatedPostures.ContainsKey(session.OverlappingActivityLists[1][i]._Name + "_" + session.OverlappingActivityLists[0][j]._Name))
{
string row = "<TR>\n";
row += "<TD><div align=\"center\"><strong>" + session.OverlappingActivityLists[1][i]._Name + "</strong></div></TD><TD><div align=\"center\"><strong>" + session.OverlappingActivityLists[0][j]._Name + "</strong></div></TD>\n";
row += "<TD><div>" + (int)annotatedPostures[session.OverlappingActivityLists[1][i]._Name + "_" + session.OverlappingActivityLists[0][j]._Name] + "</TD>\n";
for (int r = 0; (r < wc._Sensors.Count - 1); r++)
if (percentLostPostureSensorDistribution[r][m] > 20)
row += "<TD bgcolor=\"#FF0000\"><div align=\"center\">" + timeLostPostureSensorDistribution[r][m].ToString() + " | " + percentLostPostureSensorDistribution[r][m].ToString() + "%" + "</div></TD>\n";
else
row += "<TD ><div align=\"center\">" + timeLostPostureSensorDistribution[r][m].ToString() + " | " + percentLostPostureSensorDistribution[r][m].ToString() + "%" + "</div></TD>\n";
row += "</TR>\n";
summary += row;
}
m++;
}
}
else
{
for (int j = 0; (j < session.OverlappingActivityLists[0].Count); j++)
{
if (annotatedPostures.ContainsKey(session.OverlappingActivityLists[0][j]._Name))
{
string row = "<TR>\n";
row += "<TD><div align=\"center\"><strong>" + session.OverlappingActivityLists[0][j]._Name + "</strong></div></TD><TD><div align=\"center\"><strong>" + session.OverlappingActivityLists[0][j]._Name + "</strong></div></TD>\n";
row += "<TD><div>" + (int)annotatedPostures[session.OverlappingActivityLists[0][j]._Name] + "</TD>\n";
for (int r = 0; (r < wc._Sensors.Count); r++)
if (percentLostPostureSensorDistribution[r][m] > 20)
row += "<TD bgcolor=\"#FF0000\"><div align=\"center\">" + timeLostPostureSensorDistribution[r][m].ToString() + " | " + percentLostPostureSensorDistribution[r][m].ToString() + "%" + "</div></TD>\n";
else
row += "<TD ><div align=\"center\">" + timeLostPostureSensorDistribution[r][m].ToString() + " | " + percentLostPostureSensorDistribution[r][m].ToString() + "%" + "</div></TD>\n";
row += "</TR>\n";
summary += row;
}
m++;
}
}
tw.WriteLine(summary + "</TABLE>\n");
#endregion
#region Other Sensors Statistics Table
string[] ofiles = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY + "\\");
if (ofiles.Length > 1)
{
summary = "<h3><Font Color=#585858>Other Sensors Statistics</Font></h3><TABLE border=\"1\">\n";
header = "<TR>\n<td><div align=\"center\"><strong>Sensor Type</strong></div></td><td><div align=\"center\"><strong>Start Time</strong></div></td><td><strong>Data Present</strong></td><td><strong>Num Samples</strong></td><td><strong>Percent Loss</strong></td></TR>\n";
header += "</TR>\n";
summary += header;
int expectedOxyconRecords = totalSeconds / 5;
double oxyconLoss = 0;
if (oxyconRecords < expectedOxyconRecords)
oxyconLoss = 100 - (((double)oxyconRecords / expectedOxyconRecords) * 100.0);
summary += "<TR>\n<td><div align=\"center\"><strong>Oxycon</strong></div></td><td>" + (oxyconStart == null ? " " : oxyconStart) + "</td><td>" + (hasOxycon ? "Yes" : "No") + "</td><td>" + oxyconRecords + "</td><td>" + oxyconLoss.ToString("0") + "%</td></TR>\n";
double sensewearLoss = 0;
if (sensewearRecords < totalSeconds)
sensewearLoss = 100 - (((double)sensewearRecords / totalSeconds) * 100.0);
summary += "<TR>\n<td><div align=\"center\"><strong>Sensewear</strong></div></td><td>" + (sensewearStart == null ? " " : sensewearStart) + "</td><td>" + (hasSensewear ? "Yes" : "No") + "</td><td>" + sensewearRecords + "</td><td>" + sensewearLoss.ToString("0") + "%</td></TR>\n";
summary += "<TR>\n<td><div align=\"center\"><strong>Actigraph</strong></div></td><td>" + (actigraphStart == null ? " " : actigraphStart) + "</td><td>" + (hasActigraph ? "Yes" : "No") + "</td><td>";
for (int r = 0; (r < actigraphData.Length); r++)
{
summary += actigraphData[r].Count;
if (r != (actigraphData.Length - 1))
summary += " | ";
}
summary += "</td><td>";
for (int r = 0; (r < actigraphData.Length); r++)
{
double actigraphLoss = 0;
if (actigraphData[r].Count < totalSeconds)
actigraphLoss = 100 - (((double)actigraphData[r].Count / totalSeconds) * 100.0);
summary += actigraphLoss.ToString("0") + " %";
if (r != (actigraphData.Length - 1))
summary += " | ";
}
summary += "</td></TR>\n";
double zephyrLoss = 0;
if (zephyrRecords < totalSeconds)
zephyrLoss = 100 - (((double)zephyrRecords / totalSeconds) * 100.0);
summary += "<TR>\n<td><div align=\"center\"><strong>Zephyr</strong></div></td><td>" + (zephyrStart == null ? " " : zephyrStart) + "</td><td>" + (hasZephyr ? "Yes" : "No") + "</td><td>" + zephyrRecords + "</td><td>" + zephyrLoss.ToString("0") + "%</td></TR>\n";
double rtiLoss = 0;
if (rtiRecords < totalSeconds)
rtiLoss = 100 - (((double)rtiRecords / totalSeconds) * 100.0);
summary += "<TR>\n<td><div align=\"center\"><strong>RTI</strong></div></td><td>" + (rtiStart == null ? " " : rtiStart) + "</td><td>" + (hasRTI ? "Yes" : "No") + "</td><td>" + rtiRecords + "</td><td>" + rtiLoss.ToString("0") + "%</td></TR>\n";
double columbiaLoss = 0;
if (columbiaRecords < totalSeconds)
columbiaLoss = 100 - (((double)columbiaRecords / totalSeconds) * 100.0);
summary += "<TR>\n<td><div align=\"center\"><strong>Columbia</strong></div></td><td>" + (columbiaStart == null ? " " : columbiaStart) + "</td><td>" + (hasColumbia ? "Yes" : "No") + "</td><td>" + columbiaRecords + "</td><td>" + columbiaLoss.ToString("0") + "%</td></TR>\n";
double gpsLoss = 0;
if (gpsRecords < totalSeconds)
gpsLoss = 100 - (((double)gpsRecords / totalSeconds) * 100.0);
summary += "<TR>\n<td><div align=\"center\"><strong>GPS</strong></div></td><td>" + (gpsStart == null ? " " : gpsStart) + "</td><td>" + (hasGPS ? "Yes" : "No") + "</td><td>" + gpsRecords + "</td><td>" + gpsLoss.ToString("0") + "%</td></TR>\n";
tw.WriteLine(summary + "</TABLE>\n");
}
#endregion
tw.WriteLine("</HTML>");
tw.Flush();
tw.Close();
#endregion
#region Add the Annotations Summary
tw = new StreamWriter(aDataDirectory + "\\result.html", true);
summary = "";
summary += "<h3><Font Color=#585858>Annotation Summary</Font></h3>\n";
//If the annotation summary file exists, add it to current summary
//If it doesn't exist, add the HTML to summary
if (File.Exists(aDataDirectory + "\\" + ANNOTATION_SUBDIRECTORY + "\\AnnotationSummary.html"))
{
try
{
TextReader ttr = new StreamReader(aDataDirectory + "\\" + ANNOTATION_SUBDIRECTORY + "\\AnnotationSummary.html");
summary += ttr.ReadToEnd();
ttr.Close();
}
catch (Exception ee)
{
}
}
else
{
#region Create HTML content with stats for Autism Data
try
{
//Create Table & Headers
summary += "<table border=\"1\">\n";
TimeSpan ttime = new TimeSpan(0, 0, totalSeconds);
//Session total time
summary += "<tr> <td><div align=\"center\"><strong>Session Total Time (hh:mm:ss.ms)</strong></div></td>" +
"<td>" + String.Format("{0:HH mm ss ff}", ttime) + "</td>" +
"</tr>";
//Headers for annotation metrics
summary += "<tr>" + "<td><div align=\"center\"><strong> Label </strong></div></td>" +
"<td><div align=\"center\"><strong> Duration in Seconds </strong></div></td>" +
"<td><div align=\"center\"><strong> %Occurrence </strong></div></td>" +
"<td><div align=\"center\"><strong> Frequency </strong></div></td>" +
"<td><div align=\"center\"><strong> Mean (sec) </strong></div></td>" +
"<td><div align=\"center\"><strong> STD (sec) </strong></div></td>" +
"<td><div align=\"center\"><strong> Min (sec) </strong></div></td>" +
"<td><div align=\"center\"><strong> Max (sec) </strong></div></td>" +
"</tr>";
//Scan through labels
int total_secs_activity = 0;
double percent_duration = 0.0;
for (int j = 0; j < session.OverlappingActivityLists[0].Count; j++)
{
name = session.OverlappingActivityLists[0][j]._Name;
if (annotatedPostures.ContainsKey(name))
{
total_secs_activity = (int)annotatedPostures[name];
percent_duration = ((double)total_secs_activity / totalSeconds) * 100.0;
summary += "<tr>\n" +
"<td><div align=\"center\"><strong>" + name + "</strong></div></td>" +
"<td>" + total_secs_activity.ToString() + "</td>" +
"<td>" + String.Format("{0:0.0}%", percent_duration) + "</td>" +
"<td>" + String.Format("{0:0}", freq_per_class[name]) + "</td>" +
"<td>" + String.Format("{0:0.00}", means_per_class[name]) + "</td>" +
"<td>" + String.Format("{0:0.00}", std_per_class[name]) + "</td>" +
"<td>" + String.Format("{0:0.00}", min_per_class[name]) + "</td>" +
"<td>" + String.Format("{0:0.00}", max_per_class[name]) + "</td>" +
"</tr>";
}
else
{
summary += "<tr>\n" +
"<td><div align=\"center\"><strong>" + name + "</strong></div></td>" +
"<td>" + String.Format("{0:0}", 0) + "</td>" +
"<td>" + String.Format("{0:0.0}%", 0) + "</td>" +
"<td>" + String.Format("{0:0}", 0) + "</td>" +
"<td>" + String.Format("{0:0.00}", 0) + "</td>" +
"<td>" + String.Format("{0:0.00}", 0) + "</td>" +
"<td>" + String.Format("{0:0.00}", 0) + "</td>" +
"<td>" + String.Format("{0:0.00}", 0) + "</td>" +
"</tr>";
}
}
//Close table
summary += "</table>";
//Generate the colors code for Autistic Labels
SaveLabelsColorsToFile(aDataDirectory, session.OverlappingActivityLists.Count, session.OverlappingActivityLists);
}
catch (Exception ee)
{
summary += "</HTML>";
try
{
if (tw != null)
{
tw.WriteLine(summary);
tw.Close();
}
}
catch (Exception ex)
{
//cannot write to file
}
}
#endregion
}
summary += "</HTML>";
#endregion
tw.WriteLine(summary);
tw.Close();
#endregion
#endregion
}
public static void toCSV(string aDataDirectory, string masterDirectory, int maxControllers, string[] filter)
{
#region Declare Variables
//double previousUnixTime = -1;
//------ Annotation Variables ------//
/**** MITes,wockets Variables ****/
int _wPC = 0;
int summary_count = AC_NUMS;
int[] acount = new int[AC_BUFFER_SIZE];
int ci = 0;
//Variables that average raw values
int[] averageX = null;
int[] averageY = null;
int[] averageZ = null;
int[] averageRawX = null;
int[] averageRawY = null;
int[] averageRawZ = null;
//variables for older activity count calculation
int[] prevX = null;
int[] prevY = null;
int[] prevZ = null;
int[] acCounters = null;
//Variables to store raw data,running mean and areas under curve
int[, ,] rawData = null; //channel,axis ->data
long[,] timeData = null; //channel ->timestamp
int[,] AUC = null;
double[] VMAG = null;
int[] head = null; //channel ->pointer to the head (circular)
double[] RMX = null;
double[] RMY = null;
double[] RMZ = null;
int[] RMSize = null;
//CSV files that store data
TextWriter[] activityCountCSVs = null; //old activity count files
TextWriter[] aucCSVs = null; //AUC files
TextWriter[] vmagCSVs = null; //AUC files
TextWriter[] rmCSVs = null; //Running mean files
TextWriter[] samplingCSVs = null; //Sample Rate CSV
TextWriter[] averagedRaw = null; //Raw signal CSV
TextWriter[] wactivityCountCSVs = null; //old activity count files
TextWriter[] waucCSVs = null; //AUC files
TextWriter[] wvmagCSVs = null; //AUC files
TextWriter[] wrmCSVs = null; //Running mean files
TextWriter[] wsamplingCSVs = null; //Sample Rate CSV
TextWriter[] waveragedRaw = null; //Raw signal CSV
//Variables that average raw values
int[] waverageX = null;
int[] waverageY = null;
int[] waverageZ = null;
int[] waverageRawX = null;
int[] waverageRawY = null;
int[] waverageRawZ = null;
//variables for older activity count calculation
int[] wprevX = null;
int[] wprevY = null;
int[] wprevZ = null;
int[] wacCounters = null;
//Variables to store raw data,running mean and areas under curve
int[, ,] wrawData = null; //channel,axis ->data
long[,] wtimeData = null; //channel ->timestamp
int[,] wAUC = null;
double[] wVMAG = null;
int[] whead = null; //channel ->pointer to the head (circular)
double[] wRMX = null;
double[] wRMY = null;
double[] wRMZ = null;
int[] wRMSize = null;
TextWriter masterCSV; //Master CSV
TextWriter hrCSV = null; //HR CSV
//Zephyr
TextWriter zephyrCSV = null;
TextReader zephyrReader = null;
double zephyrUnixTime = 0;
DateTime zephyrTime = new DateTime();
Hashtable zephyrData = new Hashtable();
//Omron
TextWriter omronCSV = null;
TextReader omronReader = null;
double omronUnixTime = 0;
DateTime omronTime = new DateTime();
Hashtable omronData = new Hashtable();
//Oxycon
TextWriter oxyconCSV = null;
TextReader oxyconReader = null;
double oxyconUnixTime = 0;
DateTime oxyconTime = new DateTime();
Hashtable oxyconData = new Hashtable();
//Sensewear
TextWriter sensewearCSV = null;
TextReader sensewearReader = null;
int sensewearSR = 0;
double sensewearTrans = 0;
double sensewearLong = 0;
double sensewearForAcc = 0;
DateTime sensewearTime = new DateTime();
DateTime prevSensewearTime = new DateTime();
double sensewearUnixTime = 0;
//Sensewear vanderbilt
string vanderbiltSensewearDataLine = "";
Hashtable sensewearData = new Hashtable();
//Columbia
TextWriter columbiaCSV = null;
TextReader columbiaReader = null;
double columbiaX = 0;
double columbiaY = 0;
double columbiaZ = 0;
double columbiaFlow = 0;
int columbiaValve = 0;
double columbiaUnixTime = 0;
DateTime columbiaTime = new DateTime();
Hashtable columbiaData = new Hashtable();
//GPS
TextWriter gpsCSV = null;
TextReader gpsReader = null;
double gpsLatitude = 0;
double gpsLongitude = 0;
double gpsSpeed = 0;
double gpsAltitude = 0;
double gpsUnixTime = 0;
DateTime gpsTime = new DateTime();
Hashtable gpsData = new Hashtable();
//RTI
TextWriter rtiCSV = null;
TextReader rtiReader = null;
double rtiX = 0;
double rtiY = 0;
double rtiZ = 0;
double[] rtiPrevX = new double[5];
double[] rtiPrevY = new double[5];
double[] rtiPrevZ = new double[5];
int[] rtiPrevCounts = new int[5];
double rtiRMX = 0;
double rtiRMY = 0;
double rtiRMZ = 0;
int rtiTotalCount = 0;
double rtiUnixTime = 0;
DateTime rtiTime = new DateTime();
Hashtable rtiData = new Hashtable();
//RT3
TextWriter rt3CSV = null;
TextReader rt3Reader = null;
int rt3SR = 0;
double rt3UnixTime = 0;
DateTime rt3Time = new DateTime();
Hashtable rt3Data = new Hashtable();
string rt3_dataline = "";
int sumHR = 0;
int hrCount = 0;
string[] tokens;
//CSV Files headers
string csv_line1 = "UnixTimeStamp,TimeStamp,X,Y,Z";
string csv_line2 = "UnixTimeStamp,TimeStamp,Sampling";
string csv_line3 = "";
string csv_line4 = "";
string csv_line5 = "";
string csv_line6 = "UnixTimeStamp,TimeStamp,VectorMagnitude";
string hr_csv_header = "UnixTimeStamp,TimeStamp,HR";
string actigraph_csv_header = "UnixTimeStamp,TimeStamp,Actigraph";
string summary_csv_header = "UnixTimeStamp,TimeStamp,ActivityCount";
string actigraph_csv_header_gt1m = "UnixTimeStamp,TimeStamp,ActigraphX,ActigraphY";
string actigraph_csv_header_gtx = "UnixTimeStamp,TimeStamp,ActigraphX,ActigraphY,ActigraphZ";
string sensewear_csv_header = "UnixTimeStamp,TimeStamp,SensewearSR,Sensewear_AVTranAcc,Senserwear_AVLongAcc,Sensewear_AVForAcc";
string sensewear_csv_header_vanderbilt = "UnixTimeStamp,TimeStamp,SensewearSR,Sensewear_numpeaks_accelerometer_transverse,Sensewear_numpeaks_accelerometer_longitudinal,Sensewear_heat_flux_average_original_rate,Sensewear_skin_temp_average_original_rate,Sensewear_transverse_accelerometer_average,Sensewear_longitudinal_accelerometer_average,Sensewear_cover_temp_average,Sensewear_transverse_accelerometer_MAD_graphable,Sensewear_longitudinal_accelerometer_MAD_graphable,Sensewear_STEPS,Sensewear_gsr_average,Sensewear_energy_expenditure_per_minute";
string zephyr_csv_header = "UnixTimeStamp,TimeStamp,ZephyrHeart Rate Data,ZephyrECG - Amplitude Data,ZephyrECG - Noise Data,ZephyrRES - Breathing Wave Amplitude (V) Data,ZephyrRES - Respiration Rate Data,ZephyrTEM - Skin Temperature Data,ZephyrBAT - Battery Voltage (V) Data,ZephyrPOS - Posture Data,ZephyrACC - Activity Data,ZephyrACC - Peak Acceleration (g) Data,ZephyrACC - Vertical Acc Minimum (g) Data,ZephyrACC - Vertical Acc Peak (g) Data,ZephyrACC - Lateral Acc Minimum (g) Data,ZephyrACC - Lateral Acc Peak (g) Data,ZephyrACC - Sagittal Acc Minimum (g) Data,ZephyrACC - Sagittal Acc Peak (g)";
string oxycon_csv_header = "UnixTimeStamp,TimeStamp,OxyconHR,OxyconBF,OxyconVE,OxyconVO2,OxyconVO2kg,OxyconMET,OxyconEE,OxyconRER";
string omron_csv_header = "UnixTimeStamp,TimeStamp,Steps";
string columbia_csv_header = "UnixTimeStamp,TimeStamp,ColumbiaX,ColumbiaY,ColumbiaZ,ColumbiaFlow,ColumbiaValve";
string gps_csv_header = "UnixTimeStamp,TimeStamp,GPSLatitude,GPSLongitude,GPSSpeed,GPSAltitude";
string rti_csv_header = "UnixTimeStamp,TimeStamp,RTIX,RTIY,RTIZ,RTI_AUC_X,RTI_AUC_Y,RTI_AUC_Z,RTI_AUC_XYZ";
string rt3_csv_header = "UnixTimeStamp,TimeStamp,RT3_SR,RT3_Total_Calories,RT3_Activity_Calories,RT3_VM,RT3_ActCntsX,RT3_ActCntsY,RT3_ActCntsZ";
string master_csv_header = "UnixTimeStamp,TimeStamp";
//files found
bool sensewearFound = false;
bool sensewearVanderbiltFound = false;
bool zephyrFound = false;
bool oxyconFound = false;
bool omronFound = false;
bool columbiaFound = false;
bool gpsFound = false;
bool rtiFound = false;
bool rt3Found = false;
//Sensor Offsets
//double actigraphOffset = 0;
double sensewearOffset = 0;
double zephyrOffset = 0;
double columbiaOffset = 0;
double rtiOffset = 0;
double oxyconOffset = 0;
//for upto 6 actigraphs
double[] actigraphOffset = new double[] { 0, 0, 0, 0, 0, 0 };
double annotationsOffset = 0;
double mitesOffset = 0;
double gpsOffset = 0;
DateTime[] actigraphEndTimes = new DateTime[6];
DateTime[] actigraphStartTimes = new DateTime[6];
if (other_sensors_form != null)
{
//actigraphOffset = other_sensors_form._ActigraphSeconds;
sensewearOffset = other_sensors_form._SensewearSeconds;
zephyrOffset = other_sensors_form._ZephyrSeconds;
columbiaOffset = other_sensors_form._ColumbiaSeconds;
rtiOffset = other_sensors_form._RTISeconds;
oxyconOffset = other_sensors_form._OxyconSeconds;
annotationsOffset = other_sensors_form._AnnotationsSeconds;
mitesOffset = other_sensors_form._MitesSeconds;
gpsOffset = other_sensors_form._GpsSeconds;
//actigraph offsets - upt0 6 actigraphs
int totalActigraphs = other_sensors_form._TotalActigraphs;
for (int i = 0; i < totalActigraphs; i++)
{
actigraphOffset[i] = other_sensors_form._ActigraphSeconds[i];
}
actigraphEndTimes = new DateTime[totalActigraphs];
actigraphStartTimes = new DateTime[totalActigraphs];
}
#endregion
#region Load Wockets Configuration File
WocketsConfiguration configuration = new WocketsConfiguration();
try
{
configuration.FromXML(aDataDirectory + "\\wockets\\Configuration.xml");
}
catch
{
// configuration.FromXML(aDataDirectory + "\\Configuration.xml");
}
CurrentWockets._Configuration = configuration;
#endregion Load Wockets Configuration File
#region Read RTI data
string[] file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-rti*.csv");
string rti_line = "";
try
{
if (file.Length == 1)
{
if (CSVProgress == "")
CSVProgress = "Processing RTI Data";
rtiReader = new StreamReader(file[0]);
DateTime rtiOriginTime = new DateTime();
bool rtiOriginFound = false;
if (File.Exists(aDataDirectory + "\\" + OTHER_SUBDIRECTORY + "\\RTISynchronizationTime.txt"))
{
TextReader rtiOriginTR = new StreamReader(aDataDirectory + "\\" + OTHER_SUBDIRECTORY + "\\RTISynchronizationTime.txt");
string originRTI = rtiOriginTR.ReadLine();
try
{
tokens = originRTI.Split(',');
tokens = tokens[0].Split('.');
rtiOriginTR.Close();
UnixTime.GetDateTime(Convert.ToInt64(tokens[0]), out rtiOriginTime);
}
catch (Exception e)
{
throw new Exception("RTI Synchronization: Parsing failed " + e.Message);
}
rtiOriginTime = rtiOriginTime.AddSeconds(rtiOffset);
rtiOriginFound = true;
}
//skip first 25 lines
for (int k = 0; (k < 7); k++)
rti_line = rtiReader.ReadLine();
string prevRTIKey = "";
double xRTI = 0;
double yRTI = 0;
double zRTI = 0;
double xAUCRTI = 0;
double yAUCRTI = 0;
double zAUCRTI = 0;
int rtiCount = 0;
int rtiPrevIndex = 0;
int runningMeanSize = 0;
int rti_sample_counter = 0;
rtiTime = rtiOriginTime;
while ((rti_line = rtiReader.ReadLine()) != null)
{
tokens = rti_line.Split(',');
if (tokens.Length >= 4)
{
if (!rtiOriginFound)
{
string[] dateTokens = tokens[0].Split(new char[] { ' ', '\t' });
string[] timeTokens = null;
if (dateTokens[1].Contains("/"))
timeTokens = dateTokens[0].Split('.');
else
timeTokens = dateTokens[1].Split('.');
int mseconds = Convert.ToInt32(timeTokens[1]);
timeTokens = timeTokens[0].Split(':');
if (dateTokens[1].Contains("/"))
dateTokens = dateTokens[1].Split('/');
else
dateTokens = dateTokens[0].Split('/');
if (dateTokens[2].Length == 2)
dateTokens[2] = "20" + dateTokens[2];
rtiTime = new DateTime(Convert.ToInt32(dateTokens[2]), Convert.ToInt32(dateTokens[0]), Convert.ToInt32(dateTokens[1]), Convert.ToInt32(timeTokens[0]), Convert.ToInt32(timeTokens[1]), Convert.ToInt32(timeTokens[2]), mseconds);
rtiTime = rtiTime.AddSeconds(rtiOffset);
}
if ((rtiOriginFound) && (rti_sample_counter == 20))
{
rtiTime = rtiTime.AddSeconds(1.0);
rti_sample_counter = 0;
}
rti_sample_counter++;
//if (isPM)
// rtiTime.AddHours(12.0);
rtiUnixTime = UnixTime.GetUnixTime(rtiTime);
string rtiKey = rtiTime.Year + "-" + rtiTime.Month + "-" + rtiTime.Day + "-" + rtiTime.Hour + "-" + rtiTime.Minute + "-" + rtiTime.Second;
string rtiLine = "";
if (rtiStart == null)
rtiStart = rtiTime.Year + "/" + rtiTime.Month + "/" + rtiTime.Day + " " + rtiTime.Hour + ":" + rtiTime.Minute + ":" + rtiTime.Second;
if (prevRTIKey == "")
prevRTIKey = rtiKey;
//save previous data
if (prevRTIKey != rtiKey)
{
if (runningMeanSize >= 5)
{
rtiLine += ((double)(xRTI / (double)rtiCount)).ToString("0.00");
rtiLine += ",";
rtiLine += ((double)(yRTI / (double)rtiCount)).ToString("0.00");
rtiLine += ",";
rtiLine += ((double)(zRTI / (double)rtiCount)).ToString("0.00");
rtiLine += ",";
rtiLine += (xAUCRTI).ToString("0.00");
rtiLine += ",";
rtiLine += (yAUCRTI).ToString("0.00");
rtiLine += ",";
rtiLine += (zAUCRTI).ToString("0.00");
rtiLine += ",";
rtiLine += ((double)(Math.Abs(xAUCRTI) + Math.Abs(yAUCRTI) + Math.Abs(zAUCRTI))).ToString("0.00");
}
else
rtiLine += ",,,,,,";
rtiRMX = 0;
rtiRMY = 0;
rtiRMZ = 0;
for (int m = 0; (m < 5); m++)
{
rtiRMX += rtiPrevX[m];
rtiRMY += rtiPrevY[m];
rtiRMZ += rtiPrevZ[m];
rtiTotalCount += rtiPrevCounts[m];
}
rtiRMX = rtiRMX / rtiTotalCount;
rtiRMY = rtiRMY / rtiTotalCount;
rtiRMZ = rtiRMZ / rtiTotalCount;
rtiPrevCounts[rtiPrevIndex] = rtiCount;
rtiPrevX[rtiPrevIndex] = xRTI;
rtiPrevY[rtiPrevIndex] = yRTI;
rtiPrevZ[rtiPrevIndex++] = zRTI;
rtiPrevIndex = (rtiPrevIndex % 5);
if (runningMeanSize < 5)
runningMeanSize++;
if (rtiData.Contains(prevRTIKey) == false)
rtiData.Add(prevRTIKey, rtiLine);
xRTI = 0;
yRTI = 0;
zRTI = 0;
rtiCount = 0;
xAUCRTI = 0;
yAUCRTI = 0;
zAUCRTI = 0;
rtiTotalCount = 0;
}
xRTI += Convert.ToDouble(tokens[1]);
yRTI += Convert.ToDouble(tokens[2]);
zRTI += Convert.ToDouble(tokens[3]);
xAUCRTI += Math.Abs(Convert.ToDouble(tokens[1]) - rtiRMX);
yAUCRTI += Math.Abs(Convert.ToDouble(tokens[2]) - rtiRMY);
zAUCRTI += Math.Abs(Convert.ToDouble(tokens[3]) - rtiRMZ);
rtiCount++;
prevRTIKey = rtiKey;
}
}
rtiFound = true;
}
}
catch (Exception e)
{
throw new Exception("RTI: Parsing failed " + e.Message);
}
hasRTI = (rtiData.Count > 0);
rtiRecords = rtiData.Count;
#endregion Read RTI data
#region Read Columbia data
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-columbia*.csv");
string columbia_line = "";
try
{
if (file.Length == 1)
{
if (CSVProgress == "")
CSVProgress = "Processing Columbia Data";
columbiaReader = new StreamReader(file[0]);
//skip first 25 lines
for (int k = 0; (k < 25); k++)
columbia_line = columbiaReader.ReadLine();
while ((columbia_line = columbiaReader.ReadLine()) != null)
{
tokens = columbia_line.Split(',');
if (tokens.Length == 14)
{
string[] dateTokens = tokens[1].Split('/');
string[] timeTokens = tokens[2].Split(':');
columbiaTime = new DateTime(Convert.ToInt32("20" + dateTokens[2]), Convert.ToInt32(dateTokens[0]), Convert.ToInt32(dateTokens[1]), Convert.ToInt32(timeTokens[0]), Convert.ToInt32(timeTokens[1]), Convert.ToInt32(timeTokens[2]));
// if (columbiaOffset > 0)
columbiaTime = columbiaTime.AddSeconds(columbiaOffset);
columbiaUnixTime = UnixTime.GetUnixTime(columbiaTime);
string columbiaKey = columbiaTime.Year + "-" + columbiaTime.Month + "-" + columbiaTime.Day + "-" + columbiaTime.Hour + "-" + columbiaTime.Minute + "-" + columbiaTime.Second;
string columbiaLine = "";
if (columbiaStart == null)
columbiaStart = columbiaTime.Year + "/" + columbiaTime.Month + "/" + columbiaTime.Day + " " + columbiaTime.Hour + ":" + columbiaTime.Minute + ":" + columbiaTime.Second;
if (tokens[3].Length > 0)
columbiaLine += Convert.ToDouble(tokens[3]);
columbiaLine += ",";
if (tokens[4].Length > 0)
columbiaLine += Convert.ToDouble(tokens[4]);
columbiaLine += ",";
if (tokens[5].Length > 0)
columbiaLine += Convert.ToDouble(tokens[5]);
columbiaLine += ",";
if (tokens[6].Length > 0)
columbiaLine += Convert.ToDouble(tokens[6]);
columbiaLine += ",";
if (tokens[7].Length > 0)
columbiaLine += Convert.ToInt32(tokens[7]);
if (columbiaData.Contains(columbiaKey) == false)
columbiaData.Add(columbiaKey, columbiaLine);
}
}
columbiaFound = true;
hasColumbia = true;
columbiaRecords = columbiaData.Count;
}
}
catch (Exception e)
{
throw new Exception("Columbia: Parsing failed " + e.Message);
}
#endregion Read Columbia data
#region Read GPS data
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-gps*.csv");
string gps_line = "";
try
{
if (file.Length == 1)
{
if (CSVProgress == "")
CSVProgress = "Processing GPS Data";
gpsReader = new StreamReader(file[0]);
//skip first line
gps_line = gpsReader.ReadLine();
while ((gps_line = gpsReader.ReadLine()) != null)
{
tokens = gps_line.Split(',');
if (tokens.Length == 7)
{
string[] dateTokens = tokens[1].Split('-');
string[] timeTokens = tokens[2].Split(':');
gpsTime = new DateTime(Convert.ToInt32(dateTokens[0]), Convert.ToInt32(dateTokens[1]), Convert.ToInt32(dateTokens[2]), Convert.ToInt32(timeTokens[0]), Convert.ToInt32(timeTokens[1]), Convert.ToInt32(timeTokens[2]));
//add gps offset
gpsTime = gpsTime.AddSeconds(gpsOffset);
gpsUnixTime = UnixTime.GetUnixTime(gpsTime);
string gpsKey = gpsTime.Year + "-" + gpsTime.Month + "-" + gpsTime.Day + "-" + gpsTime.Hour + "-" + gpsTime.Minute + "-" + gpsTime.Second;
string gpsLine = "";
if (gpsStart == null)
gpsStart = gpsTime.Year + "/" + gpsTime.Month + "/" + gpsTime.Day + " " + gpsTime.Hour + ":" + gpsTime.Minute + ":" + gpsTime.Second;
if (tokens[3].Length > 0)
gpsLine += Convert.ToDouble(tokens[3]);
gpsLine += ",";
if (tokens[4].Length > 0)
gpsLine += Convert.ToDouble(tokens[4]);
gpsLine += ",";
if (tokens[5].Length > 0)
gpsLine += Convert.ToDouble(tokens[5]);
gpsLine += ",";
if (tokens[6].Length > 0)
gpsLine += Convert.ToDouble(tokens[6]);
// gpsLine += ",";
if (gpsData.Contains(gpsKey) == false)
gpsData.Add(gpsKey, gpsLine);
}
}
gpsFound = true;
hasGPS = true;
gpsRecords = gpsData.Count;
}
}
catch (Exception e)
{
throw new Exception("GPS: Parsing failed " + e.Message);
}
#endregion Read GPS data
#region Read Omron data
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-omron.csv");
string omron_line = "";
try
{
if (file.Length == 1)
{
if (CSVProgress == "")
CSVProgress = "Processing Omron Data";
omronReader = new StreamReader(file[0]);
for (int j = 0; (j < 3); j++)
omron_line = omronReader.ReadLine();//skip first 3 lines
omron_line = omronReader.ReadLine();
tokens = omron_line.Split(',');
string[] omronDate = tokens[0].Split('/');
for (int i = 0; (i < 24); i++)
{
omronTime = new DateTime(Convert.ToInt32(omronDate[2]), Convert.ToInt32(omronDate[0]), Convert.ToInt32(omronDate[1]), i, 59, 59);
string omronKey = omronTime.Year + "-" + omronTime.Month + "-" + omronTime.Day + "-" + omronTime.Hour + "-" + omronTime.Minute + "-" + omronTime.Second;
omronData.Add(omronKey, Convert.ToInt32(tokens[i + 7]));
}
omronFound = true;
}
}
catch (Exception e)
{
throw new Exception("Omron: Parsing failed " + e.Message);
}
#endregion Read Omron data
#region Read Actigraph data
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-actigraph*.csv");
actigraphCSV = new TextWriter[file.Length];
actigraphData = new Hashtable[file.Length];
actigraphMinutes = new Hashtable[file.Length];
actigraphType = new string[file.Length];
prevActLine = new string[file.Length];
for (int i = 0; i < prevActLine.Length; i++)
{
prevActLine[i] = "0,0,0";
}
prevActXYZ = new string[3];
for (int i = 0; i < prevActXYZ.Length; i++)
{
prevActXYZ[i] = "0";
}
try
{
for (int i = 0; (i < file.Length); i++)
{
actigraphData[i] = new Hashtable();
actigraphMinutes[i] = new Hashtable();
}
for (int i = 0; (i < file.Length); i++)
{
if (CSVProgress == "")
CSVProgress = "Processing Actigraph Data " + (i + 1);
TextReader actigraphReader = null;
string actigraph_line = "";
double actigraphUnixTime = 0;
DateTime actigraphTime = new DateTime();
DateTime actigraphEndTime = new DateTime();
actigraphReader = new StreamReader(file[i]);
actigraph_line = actigraphReader.ReadLine();//read first line
if (actigraph_line.Contains("\""))
{
actigraph_line = actigraph_line.Replace("\"", "");
}
if (actigraph_line.Contains("ActiSoft"))
{
actigraphType[i] = "ActiSoft";
Match m;
do
{
actigraph_line = actigraphReader.ReadLine();
if (actigraph_line.Contains("\""))
{
actigraph_line = actigraph_line.Replace("\"", "");
}
tokens = actigraph_line.Split(',');
m = Regex.Match(tokens[0].Trim(), "^[0-9]+/[0-9]+/[0-9]+$");
} while (m.Success == false);
tokens = actigraph_line.Split(',');
Match m1 = Regex.Match(tokens[0].Trim(), "([0-9]+)/([0-9]+)/([0-9]+)");
Match m2 = Regex.Match(tokens[1].Trim(), "([0-9]+):([0-9]+):([0-9]+)");
actigraphTime = new DateTime(Convert.ToInt32("20" + m1.Groups[3].Value), Convert.ToInt32(m1.Groups[1].Value), Convert.ToInt32(m1.Groups[2].Value), Convert.ToInt32(m2.Groups[1].Value), Convert.ToInt32(m2.Groups[2].Value), Convert.ToInt32(m2.Groups[3].Value));
//if (actigraphOffset > 0)
actigraphTime = actigraphTime.AddSeconds(actigraphOffset[i]);
actigraphUnixTime = UnixTime.GetUnixTime(actigraphTime);
do
{
if (actigraph_line.Contains("\""))
{
actigraph_line = actigraph_line.Replace("\"", "");
}
tokens = actigraph_line.Split(',');
if (tokens[0].Length > 1)
{
m1 = Regex.Match(tokens[0], "([0-9]+)/([0-9]+)/([0-9]+)");
m2 = Regex.Match(tokens[1], "([0-9]+):([0-9]+):([0-9]+)");
actigraphTime = new DateTime(Convert.ToInt32("20" + m1.Groups[3].Value), Convert.ToInt32(m1.Groups[1].Value), Convert.ToInt32(m1.Groups[2].Value), Convert.ToInt32(m2.Groups[1].Value), Convert.ToInt32(m2.Groups[2].Value), Convert.ToInt32(m2.Groups[3].Value));
//if (actigraphOffset > 0)
actigraphTime = actigraphTime.AddSeconds(actigraphOffset[i]);
actigraphUnixTime = UnixTime.GetUnixTime(actigraphTime);
string actigraphKey = actigraphTime.Year + "-" + actigraphTime.Month + "-" + actigraphTime.Day + "-" + actigraphTime.Hour + "-" + actigraphTime.Minute + "-" + actigraphTime.Second;
if (actigraphStart == null)
actigraphStart = actigraphTime.Year + "/" + actigraphTime.Month + "/" + actigraphTime.Day + " " + actigraphTime.Hour + ":" + actigraphTime.Minute + ":" + actigraphTime.Second;
string actigraphLine = "" + Convert.ToInt32(tokens[2]);
actigraphData[i].Add(actigraphKey, actigraphLine);
}
} while ((actigraph_line = actigraphReader.ReadLine()) != null);
}
else if (actigraph_line.Contains("GT1M"))
{
actigraphType[i] = "GT1M";
Match m;
int actihour = 0, actiminute = 0, actisecond = 0, actiyear = 0, actiday = 0, actimonth = 0;
do
{
actigraph_line = actigraphReader.ReadLine();
if (actigraph_line.Contains("\""))
{
actigraph_line = actigraph_line.Replace("\"", "");
}
if (actigraph_line.Contains("Start Time"))
{
tokens = actigraph_line.Split(' ');
m = Regex.Match(tokens[2].Trim(), "([0-9]+):([0-9]+):([0-9]+)");
actihour = Convert.ToInt32(m.Groups[1].Value);
actiminute = Convert.ToInt32(m.Groups[2].Value);
actisecond = Convert.ToInt32(m.Groups[3].Value);
}
else if (actigraph_line.Contains("Start Date"))
{
tokens = actigraph_line.Split(' ');
m = Regex.Match(tokens[2].Trim(), "([0-9]+)/([0-9]+)/([0-9]+)");
actimonth = Convert.ToInt32(m.Groups[1].Value);
actiday = Convert.ToInt32(m.Groups[2].Value);
actiyear = Convert.ToInt32(m.Groups[3].Value);
}
tokens = actigraph_line.Split(',');
} while (tokens.Length != 3);
tokens = actigraph_line.Split(',');
//Match m1 = Regex.Match(tokens[0].Trim(), "([0-9]+)/([0-9]+)/([0-9]+)");
//Match m2 = Regex.Match(tokens[1].Trim(), "([0-9]+):([0-9]+):([0-9]+)");
actigraphTime = new DateTime(actiyear, actimonth, actiday, actihour, actiminute, actisecond);//(Convert.ToInt32("20" + m1.Groups[3].Value), Convert.ToInt32(m1.Groups[1].Value), Convert.ToInt32(m1.Groups[2].Value), Convert.ToInt32(m2.Groups[1].Value), Convert.ToInt32(m2.Groups[2].Value), Convert.ToInt32(m2.Groups[3].Value));
// if (actigraphOffset > 0)
actigraphTime = actigraphTime.AddSeconds(actigraphOffset[i]);
actigraphUnixTime = UnixTime.GetUnixTime(actigraphTime);
do
{
if (actigraph_line.Contains("\""))
{
actigraph_line = actigraph_line.Replace("\"", "");
}
tokens = actigraph_line.Split(',');
if (tokens.Length == 3)
{
actigraphUnixTime = UnixTime.GetUnixTime(actigraphTime);
string actigraphKey = actigraphTime.Year + "-" + actigraphTime.Month + "-" + actigraphTime.Day + "-" + actigraphTime.Hour + "-" + actigraphTime.Minute + "-" + actigraphTime.Second;
string actigraphLine = Convert.ToInt32(tokens[0]) + "," + Convert.ToInt32(tokens[1]);
if (actigraphStart == null)
actigraphStart = actigraphTime.Year + "/" + actigraphTime.Month + "/" + actigraphTime.Day + " " + actigraphTime.Hour + ":" + actigraphTime.Minute + ":" + actigraphTime.Second;
actigraphData[i].Add(actigraphKey, actigraphLine);
actigraphTime = actigraphTime.AddSeconds(1.0);
//if (actigraphLine.Contains("144,92"))
// Console.Write("");
}
} while ((actigraph_line = actigraphReader.ReadLine()) != null);
}
else if (actigraph_line.Contains("GT3X+"))
{
actigraphType[i] = "GT3X+";
Match m;
int actihour = 0, actiminute = 0, actisecond = 0, actiyear = 0, actiday = 0, actimonth = 0;
int actiEndHour = 0, actiEndMinute = 0, actiEndSecond = 0, actiEndYear = 0, actiEndDay = 0, actiEndMonth = 0;
do
{
actigraph_line = actigraphReader.ReadLine();
if (actigraph_line.Contains("\""))
{
actigraph_line = actigraph_line.Replace("\"", "");
}
if (actigraph_line.Contains("Start Time"))
{
tokens = actigraph_line.Split(' ');
m = Regex.Match(tokens[2].Trim(), "([0-9]+):([0-9]+):([0-9]+)");
actihour = Convert.ToInt32(m.Groups[1].Value);
actiminute = Convert.ToInt32(m.Groups[2].Value);
actisecond = Convert.ToInt32(m.Groups[3].Value);
}
else if (actigraph_line.Contains("Start Date"))
{
tokens = actigraph_line.Split(' ');
m = Regex.Match(tokens[2].Trim(), "([0-9]+)/([0-9]+)/([0-9]+)");
actimonth = Convert.ToInt32(m.Groups[1].Value);
actiday = Convert.ToInt32(m.Groups[2].Value);
actiyear = Convert.ToInt32(m.Groups[3].Value);
}
else if (actigraph_line.Contains("Download Time"))
{
tokens = actigraph_line.Split(' ');
m = Regex.Match(tokens[2].Trim(), "([0-9]+):([0-9]+):([0-9]+)");
actiEndHour = Convert.ToInt32(m.Groups[1].Value);
actiEndMinute = Convert.ToInt32(m.Groups[2].Value);
actiEndSecond = Convert.ToInt32(m.Groups[3].Value);
}
else if (actigraph_line.Contains("Download Date"))
{
tokens = actigraph_line.Split(' ');
m = Regex.Match(tokens[2].Trim(), "([0-9]+)/([0-9]+)/([0-9]+)");
actiEndMonth = Convert.ToInt32(m.Groups[1].Value);
actiEndDay = Convert.ToInt32(m.Groups[2].Value);
actiEndYear = Convert.ToInt32(m.Groups[3].Value);
}
tokens = actigraph_line.Split(',');
} while (tokens.Length != 5);
tokens = actigraph_line.Split(',');
//Match m1 = Regex.Match(tokens[0].Trim(), "([0-9]+)/([0-9]+)/([0-9]+)");
//Match m2 = Regex.Match(tokens[1].Trim(), "([0-9]+):([0-9]+):([0-9]+)");
actigraphTime = new DateTime(actiyear, actimonth, actiday, actihour, actiminute, actisecond);//(Convert.ToInt32("20" + m1.Groups[3].Value), Convert.ToInt32(m1.Groups[1].Value), Convert.ToInt32(m1.Groups[2].Value), Convert.ToInt32(m2.Groups[1].Value), Convert.ToInt32(m2.Groups[2].Value), Convert.ToInt32(m2.Groups[3].Value));
//if (actigraphOffset > 0)
actigraphTime = actigraphTime.AddSeconds(actigraphOffset[i]);
actigraphUnixTime = UnixTime.GetUnixTime(actigraphTime);
actigraphEndTime = new DateTime(actiEndYear, actiEndMonth, actiEndDay, actiEndHour, actiEndMinute, actiEndSecond);
actigraphEndTime = actigraphEndTime.AddSeconds(actigraphOffset[i]);
actigraphStartTimes[i] = actigraphTime;
actigraphEndTimes[i] = actigraphEndTime;
do
{
if (actigraph_line.Contains("\""))
{
actigraph_line = actigraph_line.Replace("\"", "");
}
tokens = actigraph_line.Split(',');
if (tokens.Length == 5)
{
actigraphUnixTime = UnixTime.GetUnixTime(actigraphTime);
string actigraphKey = actigraphTime.Year + "-" + actigraphTime.Month + "-" + actigraphTime.Day + "-" + actigraphTime.Hour + "-" + actigraphTime.Minute + "-" + actigraphTime.Second;
string actigraphLine = Convert.ToInt32(tokens[0]) + "," + Convert.ToInt32(tokens[1]) + "," + Convert.ToInt32(tokens[2]);
if (actigraphStart == null)
actigraphStart = actigraphTime.Year + "-" + actigraphTime.Month + "-" + actigraphTime.Day + " " + actigraphTime.Hour + ":" + actigraphTime.Minute + ":" + actigraphTime.Second;
actigraphData[i].Add(actigraphKey, actigraphLine);
actigraphTime = actigraphTime.AddSeconds(1.0);
}
} while ((actigraph_line = actigraphReader.ReadLine()) != null);
}
else if (actigraph_line.Contains("GT3X"))
{
actigraphType[i] = "GT3X";
Match m;
int actihour = 0, actiminute = 0, actisecond = 0, actiyear = 0, actiday = 0, actimonth = 0;
do
{
actigraph_line = actigraphReader.ReadLine();
if (actigraph_line.Contains("\""))
{
actigraph_line = actigraph_line.Replace("\"", "");
}
if (actigraph_line.Contains("Start Time"))
{
tokens = actigraph_line.Split(' ');
m = Regex.Match(tokens[2].Trim(), "([0-9]+):([0-9]+):([0-9]+)");
actihour = Convert.ToInt32(m.Groups[1].Value);
actiminute = Convert.ToInt32(m.Groups[2].Value);
actisecond = Convert.ToInt32(m.Groups[3].Value);
}
else if (actigraph_line.Contains("Start Date"))
{
tokens = actigraph_line.Split(' ');
m = Regex.Match(tokens[2].Trim(), "([0-9]+)/([0-9]+)/([0-9]+)");
actimonth = Convert.ToInt32(m.Groups[1].Value);
actiday = Convert.ToInt32(m.Groups[2].Value);
actiyear = Convert.ToInt32(m.Groups[3].Value);
}
tokens = actigraph_line.Split(',');
} while (tokens.Length != 5);
tokens = actigraph_line.Split(',');
//Match m1 = Regex.Match(tokens[0].Trim(), "([0-9]+)/([0-9]+)/([0-9]+)");
//Match m2 = Regex.Match(tokens[1].Trim(), "([0-9]+):([0-9]+):([0-9]+)");
actigraphTime = new DateTime(actiyear, actimonth, actiday, actihour, actiminute, actisecond);//(Convert.ToInt32("20" + m1.Groups[3].Value), Convert.ToInt32(m1.Groups[1].Value), Convert.ToInt32(m1.Groups[2].Value), Convert.ToInt32(m2.Groups[1].Value), Convert.ToInt32(m2.Groups[2].Value), Convert.ToInt32(m2.Groups[3].Value));
//if (actigraphOffset > 0)
actigraphTime = actigraphTime.AddSeconds(actigraphOffset[i]);
actigraphUnixTime = UnixTime.GetUnixTime(actigraphTime);
do
{
if (actigraph_line.Contains("\""))
{
actigraph_line = actigraph_line.Replace("\"", "");
}
tokens = actigraph_line.Split(',');
if (tokens.Length == 5)
{
actigraphUnixTime = UnixTime.GetUnixTime(actigraphTime);
string actigraphKey = actigraphTime.Year + "-" + actigraphTime.Month + "-" + actigraphTime.Day + "-" + actigraphTime.Hour + "-" + actigraphTime.Minute + "-" + actigraphTime.Second;
string actigraphLine = Convert.ToInt32(tokens[0]) + "," + Convert.ToInt32(tokens[1]) + "," + Convert.ToInt32(tokens[2]);
if (actigraphStart == null)
actigraphStart = actigraphTime.Year + "-" + actigraphTime.Month + "-" + actigraphTime.Day + " " + actigraphTime.Hour + ":" + actigraphTime.Minute + ":" + actigraphTime.Second;
actigraphData[i].Add(actigraphKey, actigraphLine);
actigraphTime = actigraphTime.AddSeconds(1.0);
}
} while ((actigraph_line = actigraphReader.ReadLine()) != null);
}
actigraphReader.Close();
}
}
catch (Exception e)
{
throw new Exception("Actigraphs: Parsing failed " + e.Message);
}
for (int r = 0; (r < actigraphData.Length); r++)
{
if (hasActigraph == false)
hasActigraph = (actigraphData[r].Count > 0);
actigraphRecords += actigraphData[r].Count;
}
//JPN: Encode Actigraph Minute Count into array of hashtables
for (int i = 0; (i < file.Length); i++)
{
foreach (string ski in actigraphData[i].Keys)
{
string[] acTokens = ski.Split('-');
DateTime minuteDT = new DateTime(Convert.ToInt32(acTokens[0]), Convert.ToInt32(acTokens[1]), Convert.ToInt32(acTokens[2]), Convert.ToInt32(acTokens[3]), Convert.ToInt32(acTokens[4]), 0);
string minuteKey = minuteDT.Year + "-" + minuteDT.Month + "-" + minuteDT.Day + "-" + minuteDT.Hour + "-" + minuteDT.Minute + "-" + minuteDT.Second;
int acMinCount = 0;
if (actigraphMinutes[i].ContainsKey(minuteKey))
acMinCount = Convert.ToInt32(actigraphMinutes[i][minuteKey]);
if (actigraphData[i].ContainsKey(ski))
{
string[] acDataLine = actigraphData[i][ski].ToString().Split(',');
foreach (string acds in acDataLine)
acMinCount += Convert.ToInt32(acds);
}
actigraphMinutes[i][minuteKey] = acMinCount;
}
}
#endregion Read Actigraph data
#region Read Zephyr data
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-zephyr*.csv");
string zephyr_line = "";
try
{
if (file.Length == 1)
{
if (CSVProgress == "")
CSVProgress = "Processing Zephyr Data";
zephyrReader = new StreamReader(file[0]);
zephyr_line = zephyrReader.ReadLine();//skip two lines
zephyr_line = zephyrReader.ReadLine();
while ((zephyr_line = zephyrReader.ReadLine()) != null)
{
tokens = zephyr_line.Split(',');
if (tokens.Length <= 18)
{
string[] tokens1 = tokens[0].Split(' ');
string[] dateTokens = tokens1[0].Split('/');
string[] timeTokens = (tokens1[1].Split('.'))[0].Split(':');
zephyrTime = new DateTime(Convert.ToInt32(dateTokens[0]), Convert.ToInt32(dateTokens[1]), Convert.ToInt32(dateTokens[2]), Convert.ToInt32(timeTokens[0]), Convert.ToInt32(timeTokens[1]), Convert.ToInt32(timeTokens[2]));
// if (zephyrOffset > 0)
zephyrTime = zephyrTime.AddSeconds(zephyrOffset);
zephyrUnixTime = UnixTime.GetUnixTime(zephyrTime);
string zephyrKey = zephyrTime.Year + "-" + zephyrTime.Month + "-" + zephyrTime.Day + "-" + zephyrTime.Hour + "-" + zephyrTime.Minute + "-" + zephyrTime.Second;
string zephyrLine = "";
if (zephyrStart == null)
zephyrStart = zephyrTime.Year + "/" + zephyrTime.Month + "/" + zephyrTime.Day + " " + zephyrTime.Hour + ":" + zephyrTime.Minute + ":" + zephyrTime.Second;
if (tokens[1].Length > 0)
zephyrLine += Convert.ToInt32(tokens[1]);
zephyrLine += ",";
if (tokens[2].Length > 0)
zephyrLine += Convert.ToDouble(tokens[2]);
zephyrLine += ",";
if (tokens[3].Length > 0)
zephyrLine += Convert.ToDouble(tokens[3]);
zephyrLine += ",";
if (tokens[4].Length > 0)
zephyrLine += Convert.ToDouble(tokens[4]);
zephyrLine += ",";
if (tokens[5].Length > 0)
zephyrLine += Convert.ToDouble(tokens[5]);
zephyrLine += ",";
if (tokens[6].Length > 0)
zephyrLine += Convert.ToDouble(tokens[6]);
zephyrLine += ",";
if (tokens[7].Length > 0)
zephyrLine += Convert.ToDouble(tokens[7]);
zephyrLine += ",";
if (tokens[8].Length > 0)
zephyrLine += Convert.ToInt32(tokens[8]);
zephyrLine += ",";
if (tokens[9].Length > 0)
zephyrLine += Convert.ToDouble(tokens[9]);
zephyrLine += ",";
if (tokens[10].Length > 0)
zephyrLine += Convert.ToDouble(tokens[10]);
zephyrLine += ",";
if (tokens[11].Length > 0)
zephyrLine += Convert.ToDouble(tokens[11]);
zephyrLine += ",";
if (tokens[12].Length > 0)
zephyrLine += Convert.ToDouble(tokens[12]);
zephyrLine += ",";
if (tokens[13].Length > 0)
zephyrLine += Convert.ToDouble(tokens[13]);
zephyrLine += ",";
if (tokens[14].Length > 0)
zephyrLine += Convert.ToDouble(tokens[14]);
zephyrLine += ",";
if (tokens[15].Length > 0)
zephyrLine += Convert.ToDouble(tokens[15]);
zephyrLine += ",";
if (tokens[16].Length > 0)
zephyrLine += Convert.ToDouble(tokens[16]);
if (zephyrData.Contains(zephyrKey) == false)
zephyrData.Add(zephyrKey, zephyrLine);
}
}
zephyrFound = true;
hasZephyr = true;
zephyrRecords = zephyrData.Count;
}
}
catch (Exception e)
{
throw new Exception("Zephyr: Parsing failed " + e.Message);
}
#endregion Read Zephyr data
#region Read Oxycon data
if (File.Exists(aDataDirectory + "\\" + OTHER_SUBDIRECTORY + "\\OxyconSyncronizationTime.txt"))
{
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-oxycon-flashcard.dat");
if (file.Length == 1)
{
TextReader oxyconOriginTR = new StreamReader(aDataDirectory + "\\" + OTHER_SUBDIRECTORY + "\\OxyconSyncronizationTime.txt");
string originOxycon = oxyconOriginTR.ReadLine();
DateTime oxyconOriginTime = new DateTime();
try
{
tokens = originOxycon.Split(',');
tokens = tokens[0].Split('.');
oxyconOriginTR.Close();
UnixTime.GetDateTime(Convert.ToInt64(tokens[0]), out oxyconOriginTime);
}
catch (Exception e)
{
throw new Exception("Oxycon Synchronization: Parsing failed " + e.Message);
}
//Synchronize Both files to find a matching point and pick the time stamps
int oxyconAdjustment = 0;
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-oxycon.dat");
string oxycon_line = "";
Hashtable oxyconData1 = new Hashtable();
int checkCount = 0;
try
{
if (file.Length == 1)
{
oxyconReader = new StreamReader(file[0]);
for (int j = 0; (j < 8); j++)
oxycon_line = oxyconReader.ReadLine();//skip first 8 lines
while ((oxycon_line = oxyconReader.ReadLine()) != null)
{
oxycon_line = oxycon_line.Trim();
RegexOptions options = RegexOptions.None;
Regex regex = new Regex(@"[ ]{2,}", options);
oxycon_line = regex.Replace(oxycon_line, @" ");
regex = new Regex(@"[\t]", options);
oxycon_line = regex.Replace(oxycon_line, @" ");
tokens = oxycon_line.Split(' ');
string[] timeTokens = tokens[0].Split(':');
int oxyconSeconds = 0;
if (timeTokens.Length >= 2)
{
string oxyconKey = "";
if (timeTokens.Length == 2) //always mins:seconds
oxyconSeconds = Convert.ToInt32(timeTokens[0]) * 60 + Convert.ToInt32(timeTokens[1]);
else //3 tokens can either include minutes or hours can be mins:secs:00 or hrs:mins:secs
oxyconSeconds = Convert.ToInt32(timeTokens[0]) * 60 * 60 + Convert.ToInt32(timeTokens[1]) * 60 + Convert.ToInt32(timeTokens[2]);
if ((tokens[2].Length > 0) && (tokens[2] != "-"))
oxyconKey += Convert.ToInt32(tokens[2]);
oxyconKey += ",";
if ((tokens[3].Length > 0) && (tokens[3] != "-"))
oxyconKey += Convert.ToInt32(tokens[3]);
oxyconKey += ",";
if ((tokens[4].Length > 0) && (tokens[4] != "-"))
oxyconKey += Convert.ToInt32(tokens[4]);
oxyconKey += ",";
if ((tokens[5].Length > 0) && (tokens[5] != "-"))
oxyconKey += Convert.ToDouble(tokens[5]);
oxyconKey += ",";
if ((tokens[6].Length > 0) && (tokens[6] != "-"))
oxyconKey += Convert.ToDouble(tokens[6]);
oxyconKey += ",";
if ((tokens[7].Length > 0) && (tokens[7] != "-"))
oxyconKey += Convert.ToDouble(tokens[7]);
oxyconKey += ",";
if ((tokens[8].Length > 0) && (tokens[8] != "-"))
oxyconKey += Convert.ToDouble(tokens[8]);
oxyconKey += ",";
if (oxyconData1.ContainsKey(oxyconKey) == false)
oxyconData1.Add(oxyconKey, oxyconSeconds);
}
}
}
}
catch (Exception e)
{
throw new Exception("Oxycon PC File: Parsing failed " + e.Message);
}
//find first 3 matching lines with the same differnece in time
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-oxycon-flashcard.dat");
try
{
if (file.Length == 1)
{
oxyconReader = new StreamReader(file[0]);
for (int j = 0; (j < 8); j++)
oxycon_line = oxyconReader.ReadLine();//skip first 8 lines
while ((oxycon_line = oxyconReader.ReadLine()) != null)
{
oxycon_line = oxycon_line.Trim();
RegexOptions options = RegexOptions.None;
Regex regex = new Regex(@"[ ]{2,}", options);
oxycon_line = regex.Replace(oxycon_line, @" ");
tokens = oxycon_line.Split(' ');
string[] timeTokens = tokens[0].Split(':');
int oxyconSeconds = 0;
if (timeTokens.Length >= 2)
{
string oxyconKey = "";
if (timeTokens.Length == 2) //always mins:seconds
oxyconSeconds = Convert.ToInt32(timeTokens[0]) * 60 + Convert.ToInt32(timeTokens[1]);
else //3 tokens can either include minutes or hours can be mins:secs:00 or hrs:mins:secs
oxyconSeconds = Convert.ToInt32(timeTokens[0]) * 60 * 60 + Convert.ToInt32(timeTokens[1]) * 60 + Convert.ToInt32(timeTokens[2]);
if ((tokens[2].Length > 0) && (tokens[2] != "-"))
oxyconKey += Convert.ToInt32(tokens[2]);
oxyconKey += ",";
if ((tokens[3].Length > 0) && (tokens[3] != "-"))
oxyconKey += Convert.ToInt32(tokens[3]);
oxyconKey += ",";
if ((tokens[4].Length > 0) && (tokens[4] != "-"))
oxyconKey += Convert.ToInt32(tokens[4]);
oxyconKey += ",";
if ((tokens[5].Length > 0) && (tokens[5] != "-"))
oxyconKey += Convert.ToDouble(tokens[5]);
oxyconKey += ",";
if ((tokens[6].Length > 0) && (tokens[6] != "-"))
oxyconKey += Convert.ToDouble(tokens[6]);
oxyconKey += ",";
if ((tokens[7].Length > 0) && (tokens[7] != "-"))
oxyconKey += Convert.ToDouble(tokens[7]);
oxyconKey += ",";
if ((tokens[8].Length > 0) && (tokens[8] != "-"))
oxyconKey += Convert.ToDouble(tokens[8]);
oxyconKey += ",";
if (oxyconData1.ContainsKey(oxyconKey))
{
int flashTime = oxyconSeconds;
int pcTime = (int)oxyconData1[oxyconKey];
if (pcTime <= flashTime)
{
int difference = flashTime - pcTime;
if (difference == oxyconAdjustment)
checkCount++;
else
checkCount = 0;
oxyconAdjustment = difference;
//break when the same oxycon adjustment is seen 3 times
if (checkCount == 3)
break;
}
}
}
}
}
}
catch (Exception e)
{
throw new Exception("Oxycon Flash: Parsing failed 1 " + e.Message);
}
oxyconData1.Clear();
//Load Oxycon data
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*oxycon-flashcard.dat");
try
{
if (file.Length == 1)
{
if (CSVProgress == "")
CSVProgress = "Processing Oxycon Data";
oxyconReader = new StreamReader(file[0]);
for (int j = 0; (j < 8); j++)
oxycon_line = oxyconReader.ReadLine();//skip first 8 lines
while ((oxycon_line = oxyconReader.ReadLine()) != null)
{
oxycon_line = oxycon_line.Trim();
RegexOptions options = RegexOptions.None;
Regex regex = new Regex(@"[ ]{2,}", options);
oxycon_line = regex.Replace(oxycon_line, @" ");
tokens = oxycon_line.Split(' ');
string[] timeTokens = tokens[0].Split(':');
if (timeTokens.Length >= 2)
{
if (timeTokens.Length == 2) //always mins:seconds
{
oxyconTime = oxyconOriginTime.AddMinutes(Convert.ToDouble(timeTokens[0]));
oxyconTime = oxyconTime.AddSeconds(Convert.ToDouble(timeTokens[1]));
}
else //3 tokens can either include minutes or hours can be mins:secs:00 or hrs:mins:secs
{
//OXYCON BUG: The oxycon output files are very buggy
// sometimes they report min:sec:00 and sometimes hr:min:sec
if (Convert.ToDouble(timeTokens[0]) >= 24) //this is min:sec:00
{
oxyconTime = oxyconOriginTime.AddMinutes(Convert.ToDouble(timeTokens[0]));
oxyconTime = oxyconTime.AddSeconds(Convert.ToDouble(timeTokens[1]));
}
else //this is hr:min:sec
{
oxyconTime = oxyconOriginTime.AddHours(Convert.ToDouble(timeTokens[0]));
oxyconTime = oxyconTime.AddMinutes(Convert.ToDouble(timeTokens[1]));
oxyconTime = oxyconTime.AddSeconds(Convert.ToDouble(timeTokens[2]));
}
}
oxyconTime = oxyconTime.AddSeconds(-1.0 * oxyconAdjustment);
oxyconTime = oxyconTime.AddSeconds(oxyconOffset);
oxyconUnixTime = UnixTime.GetUnixTime(oxyconTime);
string oxyconKey = oxyconTime.Year + "-" + oxyconTime.Month + "-" + oxyconTime.Day + "-" + oxyconTime.Hour + "-" + oxyconTime.Minute + "-" + oxyconTime.Second;
string oxyconLine = "";
if (oxyconStart == null)
oxyconStart = oxyconTime.Year + "/" + oxyconTime.Month + "/" + oxyconTime.Day + " " + oxyconTime.Hour + ":" + oxyconTime.Minute + ":" + oxyconTime.Second;
//if (oxyconTime.Day >= 10)
// Console.Write("");
if ((tokens[1].Length > 0) && (tokens[1] != "-"))
oxyconLine += Convert.ToInt32(tokens[1]);
oxyconLine += ",";
if ((tokens[2].Length > 0) && (tokens[2] != "-"))
oxyconLine += Convert.ToInt32(tokens[2]);
oxyconLine += ",";
if ((tokens[3].Length > 0) && (tokens[3] != "-"))
oxyconLine += Convert.ToInt32(tokens[3]);
oxyconLine += ",";
if ((tokens[4].Length > 0) && (tokens[4] != "-"))
oxyconLine += Convert.ToInt32(tokens[4]);
oxyconLine += ",";
if ((tokens[5].Length > 0) && (tokens[5] != "-"))
oxyconLine += Convert.ToDouble(tokens[5]);
oxyconLine += ",";
if ((tokens[6].Length > 0) && (tokens[6] != "-"))
oxyconLine += Convert.ToDouble(tokens[6]);
oxyconLine += ",";
if ((tokens[7].Length > 0) && (tokens[7] != "-"))
oxyconLine += Convert.ToDouble(tokens[7]);
oxyconLine += ",";
if ((tokens[8].Length > 0) && (tokens[8] != "-"))
oxyconLine += Convert.ToDouble(tokens[8]);
//oxyconLine += ",";
if (oxyconData.ContainsKey(oxyconKey) == false)
oxyconData.Add(oxyconKey, oxyconLine);
}
}
oxyconFound = true;
}
}
catch (Exception e)
{
throw new Exception("Oxycon Flash: Parsing failed 2 " + e.Message);
}
}
else if (file.Length == 2) //sometimes 2 oxycon sessions were recorded
{
TextReader oxyconOriginTR = new StreamReader(aDataDirectory + "\\" + OTHER_SUBDIRECTORY + "\\OxyconSyncronizationTime.txt");
string originOxycon = oxyconOriginTR.ReadLine();
DateTime oxyconOriginTime = new DateTime();
try
{
tokens = originOxycon.Split(',');
tokens = tokens[0].Split('.');
UnixTime.GetDateTime(Convert.ToInt64(tokens[0]), out oxyconOriginTime);
}
catch (Exception e)
{
throw new Exception("Oxycon Synchronization: Parsing failed " + e.Message);
}
string oxycon_line = "";
//Load Oxycon data
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-flashcard.1.dat");
try
{
if (file.Length == 1)
{
if (CSVProgress == "")
CSVProgress = "Processing Flashcard1";
oxyconReader = new StreamReader(file[0]);
for (int j = 0; (j < 8); j++)
oxycon_line = oxyconReader.ReadLine();//skip first 8 lines
while ((oxycon_line = oxyconReader.ReadLine()) != null)
{
oxycon_line = oxycon_line.Trim();
RegexOptions options = RegexOptions.None;
Regex regex = new Regex(@"[ ]{2,}", options);
oxycon_line = regex.Replace(oxycon_line, @" ");
tokens = oxycon_line.Split(' ');
string[] timeTokens = tokens[0].Split(':');
if (timeTokens.Length >= 2)
{
if (timeTokens.Length == 2) //always mins:seconds
{
oxyconTime = oxyconOriginTime.AddMinutes(Convert.ToDouble(timeTokens[0]));
oxyconTime = oxyconTime.AddSeconds(Convert.ToDouble(timeTokens[1]));
}
else //3 tokens can either include minutes or hours can be mins:secs:00 or hrs:mins:secs
{
if (Convert.ToDouble(timeTokens[0]) >= 24) //this is min:sec:00
{
oxyconTime = oxyconOriginTime.AddMinutes(Convert.ToDouble(timeTokens[0]));
oxyconTime = oxyconTime.AddSeconds(Convert.ToDouble(timeTokens[1]));
}
else //this is hr:min:sec
{
oxyconTime = oxyconOriginTime.AddHours(Convert.ToDouble(timeTokens[0]));
oxyconTime = oxyconTime.AddMinutes(Convert.ToDouble(timeTokens[1]));
oxyconTime = oxyconTime.AddSeconds(Convert.ToDouble(timeTokens[2]));
}
}
oxyconUnixTime = UnixTime.GetUnixTime(oxyconTime);
oxyconTime = oxyconTime.AddSeconds(oxyconOffset);
string oxyconKey = oxyconTime.Year + "-" + oxyconTime.Month + "-" + oxyconTime.Day + "-" + oxyconTime.Hour + "-" + oxyconTime.Minute + "-" + oxyconTime.Second;
string oxyconLine = "";
if (oxyconStart == null)
oxyconStart = oxyconTime.Year + "/" + oxyconTime.Month + "/" + oxyconTime.Day + " " + oxyconTime.Hour + ":" + oxyconTime.Minute + ":" + oxyconTime.Second;
if ((tokens[1].Length > 0) && (tokens[1] != "-"))
oxyconLine += Convert.ToInt32(tokens[1]);
oxyconLine += ",";
if ((tokens[2].Length > 0) && (tokens[2] != "-"))
oxyconLine += Convert.ToInt32(tokens[2]);
oxyconLine += ",";
if ((tokens[3].Length > 0) && (tokens[3] != "-"))
oxyconLine += Convert.ToInt32(tokens[3]);
oxyconLine += ",";
if ((tokens[4].Length > 0) && (tokens[4] != "-"))
oxyconLine += Convert.ToInt32(tokens[4]);
oxyconLine += ",";
if ((tokens[5].Length > 0) && (tokens[5] != "-"))
oxyconLine += Convert.ToDouble(tokens[5]);
oxyconLine += ",";
if ((tokens[6].Length > 0) && (tokens[6] != "-"))
oxyconLine += Convert.ToDouble(tokens[6]);
oxyconLine += ",";
if ((tokens[7].Length > 0) && (tokens[7] != "-"))
oxyconLine += Convert.ToDouble(tokens[7]);
oxyconLine += ",";
if ((tokens[8].Length > 0) && (tokens[8] != "-"))
oxyconLine += Convert.ToDouble(tokens[8]);
//oxyconLine += ",";
if (oxyconData.ContainsKey(oxyconKey) == false)
oxyconData.Add(oxyconKey, oxyconLine);
}
}
oxyconFound = true;
}
}
catch (Exception e)
{
throw new Exception("Oxycon Flash: Parsing failed 2 " + e.Message);
}
originOxycon = oxyconOriginTR.ReadLine();
oxyconOriginTime = new DateTime();
try
{
tokens = originOxycon.Split(',');
tokens = tokens[0].Split('.');
oxyconOriginTR.Close();
UnixTime.GetDateTime(Convert.ToInt64(tokens[0]), out oxyconOriginTime);
}
catch (Exception e)
{
throw new Exception("Oxycon Synchronization: Parsing failed " + e.Message);
}
//Load Oxycon data
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-flashcard.2.dat");
try
{
if (file.Length == 1)
{
if (CSVProgress == "")
CSVProgress = "Processing Flashcard1";
oxyconReader = new StreamReader(file[0]);
for (int j = 0; (j < 8); j++)
oxycon_line = oxyconReader.ReadLine();//skip first 8 lines
while ((oxycon_line = oxyconReader.ReadLine()) != null)
{
oxycon_line = oxycon_line.Trim();
RegexOptions options = RegexOptions.None;
Regex regex = new Regex(@"[ ]{2,}", options);
oxycon_line = regex.Replace(oxycon_line, @" ");
tokens = oxycon_line.Split(' ');
string[] timeTokens = tokens[0].Split(':');
if (timeTokens.Length >= 2)
{
if (timeTokens.Length == 2) //always mins:seconds
{
oxyconTime = oxyconOriginTime.AddMinutes(Convert.ToDouble(timeTokens[0]));
oxyconTime = oxyconTime.AddSeconds(Convert.ToDouble(timeTokens[1]));
}
else //3 tokens can either include minutes or hours can be mins:secs:00 or hrs:mins:secs
{
if (Convert.ToDouble(timeTokens[0]) >= 24) //this is min:sec:00
{
oxyconTime = oxyconOriginTime.AddMinutes(Convert.ToDouble(timeTokens[0]));
oxyconTime = oxyconTime.AddSeconds(Convert.ToDouble(timeTokens[1]));
}
else //this is hr:min:sec
{
oxyconTime = oxyconOriginTime.AddHours(Convert.ToDouble(timeTokens[0]));
oxyconTime = oxyconTime.AddMinutes(Convert.ToDouble(timeTokens[1]));
oxyconTime = oxyconTime.AddSeconds(Convert.ToDouble(timeTokens[2]));
}
}
oxyconUnixTime = UnixTime.GetUnixTime(oxyconTime);
oxyconTime = oxyconTime.AddSeconds(oxyconOffset);
string oxyconKey = oxyconTime.Year + "-" + oxyconTime.Month + "-" + oxyconTime.Day + "-" + oxyconTime.Hour + "-" + oxyconTime.Minute + "-" + oxyconTime.Second;
string oxyconLine = "";
if (oxyconStart == null)
oxyconStart = oxyconTime.Year + "/" + oxyconTime.Month + "/" + oxyconTime.Day + " " + oxyconTime.Hour + ":" + oxyconTime.Minute + ":" + oxyconTime.Second;
if (oxyconStart == null)
oxyconStart = oxyconTime.Year + "/" + oxyconTime.Month + "/" + oxyconTime.Day + " " + oxyconTime.Hour + ":" + oxyconTime.Minute + ":" + oxyconTime.Second;
if ((tokens[1].Length > 0) && (tokens[1] != "-"))
oxyconLine += Convert.ToInt32(tokens[1]);
oxyconLine += ",";
if ((tokens[2].Length > 0) && (tokens[2] != "-"))
oxyconLine += Convert.ToInt32(tokens[2]);
oxyconLine += ",";
if ((tokens[3].Length > 0) && (tokens[3] != "-"))
oxyconLine += Convert.ToInt32(tokens[3]);
oxyconLine += ",";
if ((tokens[4].Length > 0) && (tokens[4] != "-"))
oxyconLine += Convert.ToInt32(tokens[4]);
oxyconLine += ",";
if ((tokens[5].Length > 0) && (tokens[5] != "-"))
oxyconLine += Convert.ToDouble(tokens[5]);
oxyconLine += ",";
if ((tokens[6].Length > 0) && (tokens[6] != "-"))
oxyconLine += Convert.ToDouble(tokens[6]);
oxyconLine += ",";
if ((tokens[7].Length > 0) && (tokens[7] != "-"))
oxyconLine += Convert.ToDouble(tokens[7]);
oxyconLine += ",";
if ((tokens[8].Length > 0) && (tokens[8] != "-"))
oxyconLine += Convert.ToDouble(tokens[8]);
// oxyconLine += ",";
if (oxyconData.ContainsKey(oxyconKey) == false)
oxyconData.Add(oxyconKey, oxyconLine);
}
}
oxyconFound = true;
}
}
catch (Exception e)
{
throw new Exception("Oxycon Flash: Parsing failed 2 " + e.Message);
}
}
}
hasOxycon = (oxyconData.Count > 0);
oxyconRecords = oxyconData.Count;
#endregion Read Oxycon data
#region Read Sensewear data
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-sensewear*.csv");
string sensewear_line = "";
Hashtable SSR = new Hashtable();
Hashtable STrans = new Hashtable();
Hashtable SLong = new Hashtable();
Hashtable SAcc = new Hashtable();
try
{
if (file.Length == 1)
{
sensewearReader = new StreamReader(file[0]);
sensewear_line = sensewearReader.ReadLine(); //skip first line
if (sensewear_line.Contains("numpeaks_"))
sensewearVanderbiltFound = true;
else
sensewearFound = true;
sensewearSR = 1;
while ((sensewear_line = sensewearReader.ReadLine()) != null)
{
tokens = sensewear_line.Split(',');
string[] tsTokens = tokens[0].Split(' ');
//2009-08-24 14:32:00.000
if (tsTokens.Length > 1)
{
string[] dateTokens = tsTokens[0].Split('-');
string[] timeTokens = tsTokens[1].Split('.');
timeTokens = timeTokens[0].Split(':');
sensewearTime = new DateTime(Convert.ToInt32(dateTokens[0]), Convert.ToInt32(dateTokens[1]), Convert.ToInt32(dateTokens[2]), Convert.ToInt32(timeTokens[0]), Convert.ToInt32(timeTokens[1]), Convert.ToInt32(timeTokens[2]));
//if (sensewearOffset > 0)
sensewearTime = sensewearTime.AddSeconds(sensewearOffset);
sensewearUnixTime = UnixTime.GetUnixTime(sensewearTime);
}
else
{ //unix time
TimeZone localZone = TimeZone.CurrentTimeZone;
DaylightTime daylight = localZone.GetDaylightChanges(DateTime.Now.Year);
sensewearUnixTime = Convert.ToInt64(tokens[0].Trim()) - (8 * 60 * 60 * 1000);
UnixTime.GetDateTime((long)sensewearUnixTime, out sensewearTime);
if (!TimeZone.IsDaylightSavingTime(new DateTime(sensewearTime.Year, sensewearTime.Month, sensewearTime.Day), daylight))
sensewearUnixTime = Convert.ToInt64(tokens[0].Trim()) - (8 * 60 * 60 * 1000);
else
sensewearUnixTime = Convert.ToInt64(tokens[0].Trim()) - (7 * 60 * 60 * 1000);
//if (sensewearOffset > 0)
UnixTime.GetDateTime((long)sensewearUnixTime, out sensewearTime);
sensewearTime = sensewearTime.AddSeconds(sensewearOffset);
}
if (sensewearStart == null)
sensewearStart = sensewearTime.Year + "/" + sensewearTime.Month + "/" + sensewearTime.Day + " " + sensewearTime.Hour + ":" + sensewearTime.Minute + ":" + sensewearTime.Second;
if (sensewearFound)
{
if ((sensewearTime.Day == prevSensewearTime.Day) && (sensewearTime.Hour == prevSensewearTime.Hour) &&
(sensewearTime.Minute == prevSensewearTime.Minute) && (sensewearTime.Second == prevSensewearTime.Second))
{
sensewearSR++;
if (tokens[5].Length > 0)
sensewearTrans += Convert.ToDouble(tokens[5]);
if (tokens[6].Length > 0)
sensewearLong += Convert.ToDouble(tokens[6]);
if (tokens[11].Length > 0)
sensewearForAcc += Convert.ToDouble(tokens[11]);
}
else
{
string time = prevSensewearTime.Year + "-" + prevSensewearTime.Month + "-" + prevSensewearTime.Day + "-" + prevSensewearTime.Hour + "-" + prevSensewearTime.Minute + "-" + prevSensewearTime.Second;
SSR.Add(time, sensewearSR);
STrans.Add(time, sensewearTrans);
SLong.Add(time, sensewearLong);
SAcc.Add(time, sensewearForAcc);
sensewearSR = 1;
sensewearTrans = Convert.ToDouble(tokens[5]);
sensewearLong = Convert.ToDouble(tokens[6]);
sensewearForAcc = Convert.ToDouble(tokens[11]);
}
}
else if (sensewearVanderbiltFound)
{
string time = sensewearTime.Year + "-" + sensewearTime.Month + "-" + sensewearTime.Day + "-" + sensewearTime.Hour + "-" + sensewearTime.Minute + "-" + sensewearTime.Second;
sensewearSR = 1;
vanderbiltSensewearDataLine = sensewearSR + ",";
vanderbiltSensewearDataLine += tokens[1] + ",";
vanderbiltSensewearDataLine += tokens[2] + ",";
vanderbiltSensewearDataLine += tokens[3] + ",";
vanderbiltSensewearDataLine += tokens[4] + ",";
vanderbiltSensewearDataLine += tokens[5] + ",";
vanderbiltSensewearDataLine += tokens[6] + ",";
vanderbiltSensewearDataLine += tokens[7] + ",";
vanderbiltSensewearDataLine += tokens[8] + ",";
vanderbiltSensewearDataLine += tokens[9] + ",";
vanderbiltSensewearDataLine += tokens[10] + ",";
vanderbiltSensewearDataLine += tokens[11] + ",";
vanderbiltSensewearDataLine += tokens[15];
sensewearData.Add(time, vanderbiltSensewearDataLine);
}
prevSensewearTime = sensewearTime;
}
}
}
catch (Exception e)
{
throw new Exception("Sensewear: Parsing failed " + e.Message);
}
hasSensewear = (SSR.Count > 0);
sensewearRecords = SSR.Count;
#endregion Read Sensewear data
#region Read RT3 data
file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + OTHER_SUBDIRECTORY, "*-rt3*.csv");
string rt3_line = "";
Hashtable rt3 = new Hashtable();
try
{
if (file.Length == 1)
{
rt3Reader = new StreamReader(file[0]);
rt3Found = true;
for (int j = 0; (j < 20); j++)
rt3_line = rt3Reader.ReadLine(); //skip first line
rt3SR = 1;
while ((rt3_line = rt3Reader.ReadLine()) != null)
{
tokens = rt3_line.Split(',');
//11/20/2008,7:54:00
string[] dateTokens = tokens[1].Split('/');
string[] timeTokens = tokens[2].Split(':');
rt3Time = new DateTime(Convert.ToInt32(dateTokens[2]), Convert.ToInt32(dateTokens[0]), Convert.ToInt32(dateTokens[1]), Convert.ToInt32(timeTokens[0]), Convert.ToInt32(timeTokens[1]), Convert.ToInt32(timeTokens[2]));
rt3UnixTime = UnixTime.GetUnixTime(sensewearTime);
//Entry,Date,Time,Total Calories,Activity Calories,VM,Start Flag,Stop Flag,ActCntsX,ActCntsY,ActCntsZ
string time = rt3Time.Year + "-" + rt3Time.Month + "-" + rt3Time.Day + "-" + rt3Time.Hour + "-" + rt3Time.Minute + "-" + rt3Time.Second;
rt3SR = 1;
rt3_dataline = rt3SR + ",";
rt3_dataline += tokens[3] + ",";
rt3_dataline += tokens[4] + ",";
rt3_dataline += tokens[5] + ",";
rt3_dataline += tokens[8] + ",";
rt3_dataline += tokens[9] + ",";
rt3_dataline += tokens[10];
rt3Data.Add(time, rt3_dataline);
}
}
}
catch (Exception e)
{
throw new Exception("RT3: Parsing failed " + e.Message);
}
#endregion Read RT3 data
#region Setup master and other sensor files
try
{
masterCSV = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\MITesSummaryData.csv");
hrCSV = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\HeartRate_MITes.csv");
for (int i = 0; (i < actigraphCSV.Length); i++)
actigraphCSV[i] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Actigraph" + (i + 1) + ".csv");
if ((sensewearFound) || (sensewearVanderbiltFound))
sensewearCSV = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Sensewear.csv");
if (zephyrFound)
zephyrCSV = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Zephyr.csv");
if (oxyconFound)
oxyconCSV = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Oxycon.csv");
if (omronFound)
omronCSV = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Omron.csv");
if (columbiaFound)
columbiaCSV = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Columbia.csv");
if (gpsFound)
gpsCSV = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\GPS.csv");
if (rtiFound)
rtiCSV = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\RTI.csv");
if (rt3Found)
rt3CSV = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\RT3.csv");
}
catch (Exception e)
{
throw new Exception("Unable to open CSV: cannot open file " + e.Message);
}
#endregion Setup master and other sensor files
#region Load Annotations
AXML.Annotation aannotation = null;
try
{
if (File.Exists(aDataDirectory + "\\" + ANNOTATION_SUBDIRECTORY + "\\" + ANNOTATION_INTERVALS_FILE))
{
//AXML.Reader reader = new AXML.Reader(masterDirectory, aDataDirectory + "\\" + ANNOTATION_SUBDIRECTORY, "AnnotationIntervals.xml");
//aannotation = reader.parse();
//aannotation.RemoveData(filter);
//aannotation.DataDirectory = aDataDirectory;
//---------------------------------------------------------------------
// Read the Annotation XML file generated by the Annotation Software
// Use the session.cs for cleaner implementation
// If there is an offset add it
//---------------------------------------------------------------------
Session xmlSession = new Session();
xmlSession.FromXML(aDataDirectory + "\\" + ANNOTATION_SUBDIRECTORY + "\\" + ANNOTATION_INTERVALS_FILE);
AnnotationList ann_list = xmlSession.Annotations;
//------------------------------------
// Add annotations offset
//------------------------------------
double unix_start, unix_end;
DateTime t_start, t_end;
foreach (Annotation ann in ann_list)
{
//Add Offset
unix_start = ann._StartUnix + (annotationsOffset * 1000);
UnixTime.GetDateTime((long)unix_start, out t_start);
//t_start = t_start.AddSeconds(annotationsOffset);
unix_end = ann._EndUnix + (annotationsOffset * 1000);
UnixTime.GetDateTime((long)unix_end, out t_end);
//t_end = t_end.AddSeconds(annotationsOffset);
//Start Time
ann._StartDate = t_start.ToString("yyyy'-'MM'-'dd' 'HH':'mm':'ssK"); //String.Format("{0:MM-dd-yyyy}", t_start);
ann._StartHour = t_start.Hour;
ann._StartMinute = t_start.Minute;
ann._StartSecond = t_start.Second;
ann._StartMillisecond = t_start.Millisecond;
//ts = (t_start - new DateTime(1970, 1, 1, 0, 0, 0));
ann._StartUnix = unix_start; //ts.TotalSeconds;
//Stop Time
ann._EndDate = t_end.ToString("yyyy'-'MM'-'dd' 'HH':'mm':'ssK");//String.Format("{0:MM-dd-yyyy}", t_end);
ann._EndHour = t_end.Hour;
ann._EndMinute = t_end.Minute;
ann._EndSecond = t_end.Second;
ann._EndMillisecond = t_end.Millisecond;
//ts = (t_end - new DateTime(1970, 1, 1, 0, 0, 0));
ann._EndUnix = unix_end;//ts.TotalSeconds;
}
//------------------------------------------
//Write new annotations to file
//------------------------------------------
TextWriter ann_intervals_xml = null;
TextWriter ann_intervals_csv = null;
// Annotation Intervals Files
if (File.Exists(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "AnnotationIntervals.xml"))
{
File.Delete(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "AnnotationIntervals.xml");
}
if (File.Exists(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "AnnotationIntervals.csv"))
{ File.Delete(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "AnnotationIntervals.csv"); }
ann_intervals_xml = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "AnnotationIntervals.xml");
ann_intervals_csv = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "AnnotationIntervals.csv");
//write to files
ann_intervals_xml.WriteLine(xmlSession.ToXML());
ann_intervals_csv.WriteLine(xmlSession.ToCSV());
//close files
ann_intervals_xml.Flush();
ann_intervals_xml.Close();
ann_intervals_csv.Flush();
ann_intervals_csv.Close();
}
//--------------------------------------------------------------------------
//Read the corrected annotation files
// original code, but now the reader is pointing to the corrected xml file
// it is done in this way for backwards compatibility
//--------------------------------------------------------------------------
if (File.Exists(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\AnnotationIntervals.xml"))
{
AXML.Reader reader = new AXML.Reader(masterDirectory, aDataDirectory + "\\" + MERGED_SUBDIRECTORY, "AnnotationIntervals.xml");
aannotation = reader.parse();
aannotation.RemoveData(filter);
aannotation.DataDirectory = aDataDirectory;
}
}
catch (Exception e)
{
throw new Exception("MITes Configuration Files: Parsing failed " + e.Message);
}
// JPN TEST !!!!!!!!!!!!!!!!!!!!!!!!!
//if (aannotation != null)
//{
// foreach (AXML.Category category in aannotation.Categories)
// master_csv_header += "," + category.Name;
//}
#endregion Load Annotations
#region Setup MITes Data
MITesDecoder aMITesDecoder = null;
MITesHRAnalyzer aMITesHRAnalyzer = null;
MITesLoggerReader aMITesLoggerReader = null;
SXML.SensorAnnotation sannotation = null;
//Set Mites Sampling Rate
int mites_SAMPLING_RATE = 45;
//Size of the moving average
int mites_RM_DURATION = 1000;
int mites_RM_SIZE = (mites_RM_DURATION / 1000) * mites_SAMPLING_RATE;
if (Directory.Exists(aDataDirectory + "\\" + MITES_SUBDIRECTORY + "\\data\\"))
{
try
{
SXML.Reader sreader = new SXML.Reader(masterDirectory, aDataDirectory + "\\" + MITES_SUBDIRECTORY);
sannotation = sreader.parse(maxControllers);
}
catch (Exception e)
{
throw new Exception("MITes Configuration Files: Parsing failed " + e.Message);
}
}
if (Directory.Exists(aDataDirectory + "\\" + MITES_SUBDIRECTORY + "\\data\\"))
{
try
{
SXML.Reader sreader = new SXML.Reader(masterDirectory, aDataDirectory + "\\" + MITES_SUBDIRECTORY);
sannotation = sreader.parse(maxControllers);
}
catch (Exception e)
{
throw new Exception("MITes Configuration Files: Parsing failed " + e.Message);
}
//create some counters for activity counts
averageX = new int[sannotation.MaximumSensorID + 1];
averageY = new int[sannotation.MaximumSensorID + 1];
averageZ = new int[sannotation.MaximumSensorID + 1];
averageRawX = new int[sannotation.MaximumSensorID + 1];
averageRawY = new int[sannotation.MaximumSensorID + 1];
averageRawZ = new int[sannotation.MaximumSensorID + 1];
prevX = new int[sannotation.MaximumSensorID + 1];
prevY = new int[sannotation.MaximumSensorID + 1];
prevZ = new int[sannotation.MaximumSensorID + 1];
acCounters = new int[sannotation.MaximumSensorID + 1];
for (int k = 0; (k < prevX.Length); k++)
{
prevX[k] = -1;
prevY[k] = -1;
prevZ[k] = -1;
}
//Create CSV Arrays
activityCountCSVs = new StreamWriter[sannotation.MaximumSensorID + 1];
samplingCSVs = new StreamWriter[sannotation.MaximumSensorID + 1];
averagedRaw = new StreamWriter[sannotation.MaximumSensorID + 1];
aucCSVs = new StreamWriter[sannotation.MaximumSensorID + 1];
vmagCSVs = new StreamWriter[sannotation.MaximumSensorID + 1];
rmCSVs = new StreamWriter[sannotation.MaximumSensorID + 1];
foreach (SXML.Sensor sensor in sannotation.Sensors)
{
int sensor_id = Convert.ToInt32(sensor.ID);
string location = sensor.Location.Replace(' ', '-');
if (sensor_id > 0) //exclude HR
{
activityCountCSVs[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\MITes_" + sensor_id.ToString("00") + "_SAD_" + location + ".csv");
activityCountCSVs[sensor_id].WriteLine(csv_line1);
rmCSVs[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\MITes_" + sensor_id.ToString("00") + "_RM_" + location + ".csv");
rmCSVs[sensor_id].WriteLine(csv_line1);
aucCSVs[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\MITes_" + sensor_id.ToString("00") + "_AUC_" + location + ".csv");
aucCSVs[sensor_id].WriteLine(csv_line1);
vmagCSVs[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\MITes_" + sensor_id.ToString("00") + "_VMAG_" + location + ".csv");
vmagCSVs[sensor_id].WriteLine(csv_line6);
averagedRaw[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\MITes_" + sensor_id.ToString("00") + "_1s-RawMean_" + location + ".csv");
averagedRaw[sensor_id].WriteLine(csv_line1);
samplingCSVs[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\MITes_" + sensor_id.ToString("00") + "_SampleRate_" + location + ".csv");
samplingCSVs[sensor_id].WriteLine(csv_line2);
master_csv_header += ",MITes" + sensor_id.ToString("00") + "_SR," + "MITes" + sensor_id.ToString("00") + "_AVRaw_X," +
"MITes" + sensor_id.ToString("00") + "_AVRaw_Y," + "MITes" + sensor_id.ToString("00") + "_AVRaw_Z," + "MITes" + sensor_id.ToString("00") + "_SAD_X," +
"MITes" + sensor_id.ToString("00") + "_SAD_Y," + "MITes" + sensor_id.ToString("00") + "_SAD_Z," + "MITes" + sensor_id.ToString("00") + "_AUC_X," +
"MITes" + sensor_id.ToString("00") + "_AUC_Y," + "MITes" + sensor_id.ToString("00") + "_AUC_Z," + "MITes" + sensor_id.ToString("00") + "_AUC_XYZ," +
"MITes" + sensor_id.ToString("00") + "_RM_X," + "MITes" + sensor_id.ToString("00") + "_RM_Y," + "MITes" + sensor_id.ToString("00") + "_RM_Z," +
"MITes" + sensor_id.ToString("00") + "_RM_SIZE," + "MITes" + sensor_id.ToString("00") + "_VMAG";
}
else
master_csv_header += ",HR";
}
//Initialize arrays based on number of sensors
rawData = new int[sannotation.MaximumSensorID + 1, 3, mites_RM_SIZE];
for (int i = 0; (i < sannotation.MaximumSensorID + 1); i++)
for (int j = 0; (j < 3); j++)
for (int k = 0; (k < mites_RM_SIZE); k++)
rawData[i, j, k] = -1;
timeData = new long[sannotation.MaximumSensorID + 1, mites_RM_SIZE];
AUC = new int[sannotation.MaximumSensorID + 1, 3];
VMAG = new double[sannotation.MaximumSensorID + 1];
head = new int[sannotation.MaximumSensorID + 1];
RMX = new double[sannotation.MaximumSensorID + 1];
RMY = new double[sannotation.MaximumSensorID + 1];
RMZ = new double[sannotation.MaximumSensorID + 1];
RMSize = new int[sannotation.MaximumSensorID + 1];
for (int i = 0; (i < head.Length); i++)
{
head[i] = 0;
RMX[i] = 0;
RMY[i] = 0;
RMZ[i] = 0;
RMSize[i] = 0;
VMAG[i] = 0;
for (int j = 0; (j < 3); j++)
AUC[i, j] = 0;
}
aMITesDecoder = new MITesDecoder();
aMITesHRAnalyzer = new MITesHRAnalyzer(aMITesDecoder);
aMITesLoggerReader = new MITesLoggerReader(aMITesDecoder, aDataDirectory + "\\" + MITES_SUBDIRECTORY);
}
#endregion Setup MITes Data
#region Scan Annotation Records
int channel = 0, x = 0, y = 0, z = 0;
double unixtimestamp = 0.0;
string current_activity = "";
int activityIndex = 0;
AXML.AnnotatedRecord annotatedRecord = null;
// JPN TESTING !!!!!!!!!!!!!!!!!!!!!!!
//if (aannotation != null)
//{
// annotatedRecord = ((AXML.AnnotatedRecord)aannotation.Data[activityIndex]);
// for (int j = 0; (j < annotatedRecord.Labels.Count); j++)
// {
// if (j == annotatedRecord.Labels.Count - 1)
// current_activity += "";
// else
// current_activity += ",";
// }
//}
#endregion
#region Setup Wockets Data
int[] lastDecodedIndex = null;
WocketsController wcontroller = null;
double[] wunixtimestamp = null;
//Initialize Wockets Sampling Rate
int SAMPLING_RATE = 0;
//Size of the moving average
int RM_DURATION = 1000;
int RM_SIZE = 0;
if ((Directory.Exists(aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY)) && (Directory.GetFiles(aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY).Length > 0))
{
wcontroller = new WocketsController("", "", "");
CurrentWockets._Controller = wcontroller;
wcontroller.FromXML(aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY + "\\SensorData.xml");
//Set Wockets Sampling Rate & size of moving average
//---Check with Fahd how to handle the case when more than one sensor ---
if (wcontroller._Sensors.Count > 0)
{
SAMPLING_RATE = wcontroller._Sensors[0]._SamplingRate;
RM_SIZE = (RM_DURATION / 1000) * SAMPLING_RATE;
}
for (int r = 0; (r < wcontroller._Decoders.Count); r++)
wcontroller._Decoders[r].Initialize();
wunixtimestamp = new double[wcontroller._Sensors.Count];
for (int i = 0; (i < wcontroller._Sensors.Count); i++)
{
wcontroller._Sensors[i]._RootStorageDirectory = aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY + "\\data\\raw\\PLFormat\\";
wunixtimestamp[i] = 0.0;
}
lastDecodedIndex = new int[wcontroller._Sensors.Count];
wactivityCountCSVs = new StreamWriter[wcontroller._Sensors.Count];
wsamplingCSVs = new StreamWriter[wcontroller._Sensors.Count];
waveragedRaw = new StreamWriter[wcontroller._Sensors.Count];
waucCSVs = new StreamWriter[wcontroller._Sensors.Count];
wvmagCSVs = new StreamWriter[wcontroller._Sensors.Count];
wrmCSVs = new StreamWriter[wcontroller._Sensors.Count];
/* Write Wockets raw data to csv files */
WocketsController wc = new WocketsController("", "", "");
CurrentWockets._Controller = wc;
wc.FromXML(aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY + "\\SensorData.xml");
for (int r = 0; (r < wc._Decoders.Count); r++)
wc._Decoders[r].Initialize();
double[] wocketsSR = new double[wcontroller._Sensors.Count];
for (int i = 0; (i < wcontroller._Sensors.Count); i++)
{
int sensor_id = wcontroller._Sensors[i]._ID;
double wocketSR = 0;
long prevWocketTS = 0;
int totalseconds = 0;
wc._Sensors[i]._RootStorageDirectory = aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY + "\\data\\raw\\PLFormat\\";
if (CSVProgress == "")
CSVProgress = "Generating Raw Data File for Wocket " + sensor_id.ToString("00");
//try
//{
//TODO: check this line: Write out raw data
//TextWriter tw = null;
//try
//{
TextWriter tw = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "Wocket_" + sensor_id.ToString("00") + "_RawData_" + wcontroller._Sensors[i]._Location.Replace(' ', '-') + ".csv");
//}
//catch
//{
//if (tw != null)
// {
// tw.Flush();
// tw.Close();
//}
// tw = null;
//}
int lastDecodedPacket = 0;
int[] modes = new int[1000];
while (wc._Sensors[i].Load())
{
if (wc._Sensors[i]._Decoder._Head == 0)
lastDecodedPacket = wc._Sensors[i]._Decoder._Data.Length - 1;
else
lastDecodedPacket = wc._Sensors[i]._Decoder._Head - 1;
Wockets.Data.Accelerometers.AccelerationData data = (Wockets.Data.Accelerometers.AccelerationData)wc._Sensors[i]._Decoder._Data[lastDecodedPacket];
tw.WriteLine(data.UnixTimeStamp + "," + data._X + "," + data._Y + "," + data._Z);
//added by selene
long currentTS = (long)(data.UnixTimeStamp / 1000.0);
if ((currentTS - prevWocketTS) < 1)
wocketSR++;
if ((prevWocketTS > 0) & (currentTS - prevWocketTS) >= 1)
{
if (wocketSR < modes.Length)
modes[(int)wocketSR] = modes[(int)wocketSR] + 1;
wocketSR=0;
}
prevWocketTS = currentTS;
/* if (wc._Sensors[i]._Decoder._Head == 0)
lastDecodedPacket = wc._Sensors[i]._Decoder._Data.Length - 1;
else
lastDecodedPacket = wc._Sensors[i]._Decoder._Head - 1;
Wockets.Data.Accelerometers.AccelerationData data = (Wockets.Data.Accelerometers.AccelerationData)wc._Sensors[i]._Decoder._Data[lastDecodedPacket];
//added by selene
//if( tw != null)
tw.WriteLine(data.UnixTimeStamp + "," + data._X + "," + data._Y + "," + data._Z);
long currentTS = (long)(data.UnixTimeStamp / 1000.0);
if ((currentTS - prevWocketTS) < 1)
wocketSR++;
if ((prevWocketTS > 0) & (currentTS - prevWocketTS) >= 1)
totalseconds += (int)(currentTS - prevWocketTS);
prevWocketTS = currentTS;*/
}
int estimatedSR = 0;
int esrCount=0;
for (int iiii = 0; (iiii < modes.Length); iiii++)
{
if ((int)modes[iiii] > esrCount)
{
estimatedSR = iiii;
esrCount = (int)modes[iiii];
}
}
wocketsSR[i] = estimatedSR+1;
//(double)wocketSR / (double)totalseconds;
//added by selene
//if (tw != null)
//{
tw.Flush();
tw.Close();
//}
//}
//catch(Exception e)
//{ }
//--------------------------------------------------------------
string location = wcontroller._Sensors[i]._Location.Replace(' ', '-');
lastDecodedIndex[i] = 0;
wactivityCountCSVs[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Wocket_" + sensor_id.ToString("00") + "_SAD_" + location + ".csv");
wactivityCountCSVs[sensor_id].WriteLine(csv_line1);
wrmCSVs[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Wocket_" + sensor_id.ToString("00") + "_RM_" + location + ".csv");
wrmCSVs[sensor_id].WriteLine(csv_line1);
waucCSVs[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Wocket_" + sensor_id.ToString("00") + "_AUC_" + location + ".csv");
waucCSVs[sensor_id].WriteLine(csv_line1);
wvmagCSVs[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Wocket_" + sensor_id.ToString("00") + "_VMAG_" + location + ".csv");
wvmagCSVs[sensor_id].WriteLine(csv_line6);
waveragedRaw[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Wocket_" + sensor_id.ToString("00") + "_1s-RawMean_" + location + ".csv");
waveragedRaw[sensor_id].WriteLine(csv_line1);
wsamplingCSVs[sensor_id] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Wocket_" + sensor_id.ToString("00") + "_SampleRate_" + location + ".csv");
wsamplingCSVs[sensor_id].WriteLine(csv_line2);
// Add the headers to the "Summary Data" master file
master_csv_header += ",Wocket" + sensor_id.ToString("00") + "_SR," + "Wocket" + sensor_id.ToString("00") + "_AVRaw_X," +
"Wocket" + sensor_id.ToString("00") + "_AVRaw_Y," + "Wocket" + sensor_id.ToString("00") + "_AVRaw_Z," + "Wocket" + sensor_id.ToString("00") + "_SAD_X," +
"Wocket" + sensor_id.ToString("00") + "_SAD_Y," + "Wocket" + sensor_id.ToString("00") + "_SAD_Z," + "Wocket" + sensor_id.ToString("00") + "_AUC_X," +
"Wocket" + sensor_id.ToString("00") + "_AUC_Y," + "Wocket" + sensor_id.ToString("00") + "_AUC_Z," + "Wocket" + sensor_id.ToString("00") + "_AUC_XYZ," +
"Wocket" + sensor_id.ToString("00") + "_RM_X," + "Wocket" + sensor_id.ToString("00") + "_RM_Y," + "Wocket" + sensor_id.ToString("00") + "_RM_Z," +
"Wocket" + sensor_id.ToString("00") + "_RM_SIZE," + "Wocket" + sensor_id.ToString("00") + "_VMAG";
}
// wc.Dispose();
/* Correct the wockets timestamps */
TextReader[] wocketsTR = new TextReader[wcontroller._Sensors.Count];
TextWriter[] wocketsTW = new TextWriter[wcontroller._Sensors.Count];
int LoadedSeconds = 10;
int[] compensatedWindows = new int[10];
int uncompensatedWindows = 0;
int correctWindows = 0;
for (int k = 0; (k < wcontroller._Sensors.Count); k++)
{
wocketsTR[k] = new StreamReader(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "Wocket_" + wcontroller._Sensors[k]._ID.ToString("00") + "_RawData_" + wcontroller._Sensors[k]._Location.Replace(' ', '-') + ".csv");
wocketsTW[k] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "Wocket_" + wcontroller._Sensors[k]._ID.ToString("00") + "_RawCorrectedData_" + wcontroller._Sensors[k]._Location.Replace(' ', '-') + ".csv");
ArrayList[] loadedData = new ArrayList[LoadedSeconds];
long[] loadedDataTime = new long[LoadedSeconds];
for (int m = 0; (m < LoadedSeconds); m++)
loadedData[m] = new ArrayList();
int loadedIndex = 0;
string dataline = "";
long lastSecond = 0;
int nextCorrected = 0;
long nextCorrectedTime = 0;
double delta = (1000.0 / wocketsSR[k]);
double recordTime = 0;
if (CSVProgress == "")
CSVProgress = "Correcting Timestamps for Raw Data File for Wocket " + wcontroller._Sensors[k]._ID.ToString("00");
while ((dataline = wocketsTR[k].ReadLine()) != null)
{
string[] wocketTokens = dataline.Split(',');
int wocketX = Convert.ToInt32(wocketTokens[1]);
int wocketY = Convert.ToInt32(wocketTokens[2]);
int wocketZ = Convert.ToInt32(wocketTokens[3]);
long unixtime = (long)(Convert.ToDouble(wocketTokens[0]) / 1000.0);
// if ((k == 2) && (unixtime >= 1255347111))
// Console.Write("");
if (nextCorrectedTime == 0)
nextCorrectedTime = unixtime;
if (lastSecond == 0)
lastSecond = unixtime;
//if a new second is being loaded
if (lastSecond != unixtime)
{
//check if you have enough to correct
while ((unixtime - nextCorrectedTime) > 8)
{
bool compensated = false;
int compensatedCounter = 0;
//if the data needs compensation
if (loadedData[nextCorrected].Count < (wocketsSR[k])) //lower number of samples
{
compensatedCounter = 1;
//check if seconds that follow compensate for the current second
int dataCounter = loadedData[nextCorrected].Count;
double expectedCompensatedSR = 0;
for (int r = 1; (r < 8); r++)
{
int adjacentDataIndex = (nextCorrected + r) % LoadedSeconds;
if (loadedData[adjacentDataIndex].Count > 0)
{
string[] adjTokens = ((string)loadedData[adjacentDataIndex][0]).Split(',');
long adjunixtime = (long)(Convert.ToDouble(adjTokens[0]) / 1000.0);
if ((adjunixtime - unixtime) < 8)
dataCounter += loadedData[adjacentDataIndex].Count;
compensatedCounter++;
if ((dataCounter / (r + 1)) >= (wocketsSR[k] - 10))
{
expectedCompensatedSR = (double)dataCounter / (r + 1);
compensated = true;
break;
}
}
else
compensatedCounter++;
}
//use data points from adjacent seconds
if (compensated)
{
compensatedWindows[compensatedCounter] = compensatedWindows[compensatedCounter] + 1;
//int totalCompensatedPoints = loadedData[nextCorrected].Count;
int correctingArray = nextCorrected;
// if (compensatedCounter > 3)
// Console.Write("");
//go through all arrays that were used in correction
for (int r = 0; (r < compensatedCounter); r++)
{
correctingArray = (nextCorrected + r) % LoadedSeconds;
for (int m = r + 1; (m < compensatedCounter); m++)
{
int compenstingArray = (nextCorrected + m) % LoadedSeconds;
int totalCompensatedPoints = loadedData[correctingArray].Count;
int compensatingArraySize = loadedData[compenstingArray].Count;
for (int n = 0; (n < compensatingArraySize); n++)
{
//always remove the top entry of the array to do the correction and preserve the order
loadedData[correctingArray].Add(loadedData[compenstingArray][0]);
loadedData[compenstingArray].RemoveAt(0);
//wocketsTW[k].WriteLine(recordTime + "," + recordTokens[1] + "," + recordTokens[2] + "," + recordTokens[3]);
//recordTime += delta;
totalCompensatedPoints++;
if (expectedCompensatedSR <=(double)totalCompensatedPoints)
break;
}
if (expectedCompensatedSR == (double)totalCompensatedPoints)
break;
}
}
}
else
uncompensatedWindows++;
}
else
correctWindows++;
//Write out all data that got time corrected
//including where we have taken data points
delta = 1000.0 / loadedData[nextCorrected].Count;
if (!compensated) //no compensation
{
recordTime = nextCorrectedTime * 1000.0;
for (int n = 0; (n < loadedData[nextCorrected].Count); n++)
{
string[] recordTokens = ((string)loadedData[nextCorrected][n]).Split(',');
wocketsTW[k].WriteLine(Math.Round(recordTime) + "," + recordTokens[1] + "," + recordTokens[2] + "," + recordTokens[3]);
recordTime += delta;
}
loadedData[nextCorrected] = new ArrayList();
nextCorrected = (nextCorrected + 1) % LoadedSeconds;
nextCorrectedTime++;
}
else
{
int correctionIndex = 0;
int correctionLength = compensatedCounter;
while (correctionIndex != compensatedCounter)
{
recordTime = nextCorrectedTime * 1000.0;
for (int n = 0; (n < loadedData[nextCorrected].Count); n++)
{
string[] recordTokens = ((string)loadedData[nextCorrected][n]).Split(',');
wocketsTW[k].WriteLine(Math.Round(recordTime) + "," + recordTokens[1] + "," + recordTokens[2] + "," + recordTokens[3]);
recordTime += delta;
}
loadedData[nextCorrected] = new ArrayList();
nextCorrected = (nextCorrected + 1) % LoadedSeconds;
nextCorrectedTime++;
correctionIndex++;
}
compensated = false;
}
}
while ((lastSecond < unixtime) && (unixtime != 0))
{
loadedIndex++;
if (loadedIndex == LoadedSeconds)
loadedIndex = 0;
loadedData[loadedIndex] = new ArrayList();
lastSecond++;
}
}
loadedData[loadedIndex].Add(unixtime + "," + wocketX + "," + wocketY + "," + wocketZ);
lastSecond = unixtime;
//nextCorrectedTime = lastSecond-8;
}
wocketsTW[k].Close();
}
//create some counters for activity counts
waverageX = new int[wcontroller._Sensors.Count];
waverageY = new int[wcontroller._Sensors.Count];
waverageZ = new int[wcontroller._Sensors.Count];
waverageRawX = new int[wcontroller._Sensors.Count];
waverageRawY = new int[wcontroller._Sensors.Count];
waverageRawZ = new int[wcontroller._Sensors.Count];
wprevX = new int[wcontroller._Sensors.Count];
wprevY = new int[wcontroller._Sensors.Count];
wprevZ = new int[wcontroller._Sensors.Count];
wacCounters = new int[wcontroller._Sensors.Count];
for (int k = 0; (k < wprevX.Length); k++)
{
wprevX[k] = -1;
wprevY[k] = -1;
wprevZ[k] = -1;
}
//Initialize arrays based on number of sensors
wrawData = new int[wcontroller._Sensors.Count, 3, RM_SIZE];
for (int i = 0; (i < wcontroller._Sensors.Count); i++)
for (int j = 0; (j < 3); j++)
for (int k = 0; (k < RM_SIZE); k++)
wrawData[i, j, k] = -1;
wtimeData = new long[wcontroller._Sensors.Count, RM_SIZE];
wAUC = new int[wcontroller._Sensors.Count, 3];
wVMAG = new double[wcontroller._Sensors.Count];
whead = new int[wcontroller._Sensors.Count];
wRMX = new double[wcontroller._Sensors.Count];
wRMY = new double[wcontroller._Sensors.Count];
wRMZ = new double[wcontroller._Sensors.Count];
wRMSize = new int[wcontroller._Sensors.Count];
//JPN: Dimension textwriter array for outputting WRAC values
wWRACSummaryCSV = new TextWriter[wcontroller._Sensors.Count];
//JPN: Initialize textwriter array for outputting WRAC values for each sensor
for (int i = 0; (i < wcontroller._Sensors.Count); i++)
wWRACSummaryCSV[i] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Wocket_" + i.ToString("00") + "_WRAC.csv");
//JPN: Dimension previous line array for PLOT WRAC data
prevWRACPlotDataLine = new string[wcontroller._Sensors.Count];
//JPN: Initialize previous line array for PLOT WRAC data
for (int i = 0; i < prevWRACPlotDataLine.Length; i++)
prevWRACPlotDataLine[i] = "0";
for (int i = 0; (i < whead.Length); i++)
{
whead[i] = 0;
wRMX[i] = 0;
wRMY[i] = 0;
wRMZ[i] = 0;
wRMSize[i] = 0;
wVMAG[i] = 0;
for (int j = 0; (j < 3); j++)
wAUC[i, j] = 0;
}
}
#endregion Setup Wockets Data
#region Read Summary data
//string[] file = Directory.GetFileSystemEntries(aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY+"\\data\\summary", "Sensor*.csv");
string[] subdirectories = null;
if (Directory.Exists(aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY + "\\data\\summary"))
{
subdirectories = Directory.GetDirectories(aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY + "\\data\\summary");
ArrayList[] files = new ArrayList[CurrentWockets._Controller._Sensors.Count];
for (int i = 0; (i < CurrentWockets._Controller._Sensors.Count); i++)
files[i] = new ArrayList();
foreach (string subdirectory in subdirectories)
{
for (int i = 0; i < 30; i++)
{
if (Directory.Exists(subdirectory + "\\" + i))
{
for (int k = 0; (k < CurrentWockets._Controller._Sensors.Count); k++)
{
string[] matchingFiles = Directory.GetFiles(subdirectory + "\\" + i, "SummaryAC-*" + k + ".csv");
for (int j = 0; (j < matchingFiles.Length); j++)
files[k].Add(matchingFiles[j]);
}
}
}
}
//JPN: Dimension textwriter array for outputting WFAC values
wWFACSummaryCSV = new TextWriter[CurrentWockets._Controller._Sensors.Count];
//JPN: Dimension array for storing WFAC output data
wWFACData = new Hashtable[CurrentWockets._Controller._Sensors.Count];
prevUnixTime = new double[CurrentWockets._Controller._Sensors.Count];
summaryStartUnixTime = new double[CurrentWockets._Controller._Sensors.Count];
//JPN: Initialize previous line array for PLOT WFAC data
prevWFACPlotDataLine = new string[CurrentWockets._Controller._Sensors.Count];
for (int i = 0; i < prevWFACPlotDataLine.Length; i++)
{
prevWFACPlotDataLine[i] = "0";
}
////JPN: Initialize previous line array for PLOT WRAC data
//prevWRACPlotDataLine = new string[CurrentWockets._Controller._Sensors.Count];
//for (int i = 0; i < prevWRACPlotDataLine.Length; i++)
//{
// prevWRACPlotDataLine[i] = "0";
//}
try
{
for (int i = 0; (i < CurrentWockets._Controller._Sensors.Count); i++)
{
wWFACSummaryCSV[i] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Wocket_" + i.ToString("00") + "_WFAC.csv");
wWFACData[i] = new Hashtable();
////JPN: Initialze array for storing WRAC values for each sensor
//wWRACData[i] = new Hashtable();
////JPN: Initialize textwriter array for outputting WRAC values for each sensor
//wWRACSummaryCSV[i] = new StreamWriter(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\Wocket_" + i.ToString("00") + "_WRAC.csv");
prevUnixTime[i] = -1;
summaryStartUnixTime[i] = 0;
}
for (int i = 0; (i < CurrentWockets._Controller._Sensors.Count); i++)
{
if (CSVProgress == "")
CSVProgress = "Processing Summary Data " + (i + 1);
foreach (string filename in files[i])
{
TextReader summaryReader = null;
string summary_line = "";
double summaryUnixTime = 0;
DateTime summaryTime = new DateTime();
summaryReader = new StreamReader(filename);
summary_line = summaryReader.ReadLine();//read first line
// JPN: These are the headers from the log file which will populate the tokens array
// [0] time when data is retrieved from the decoder and written to the file
// [1] index in the activity count array in the decoder: nextACindex (repeats until Decoders[].ActivityCountIndex)
// [2] AC sequence number according to the wocket
// [3] AC time stamp coming from the phone - human-readable version of the AC UnixTimeStamp
// [4] AC time stamp coming from the phone - UnixTimeStamp value
// [5] AC value
do
{
try
{
if (summary_line == null)
break;
tokens = summary_line.Split(',');
if (tokens.Length == 6)
{
summaryUnixTime = Convert.ToDouble(tokens[4]);//UnixTime.GetUnixTime(actigraphTime);
UnixTime.GetDateTime((long)(summaryUnixTime), out summaryTime);
string summaryKey = summaryTime.Year + "-" + summaryTime.Month + "-" + summaryTime.Day + "-" + summaryTime.Hour + "-" + summaryTime.Minute + "-" + summaryTime.Second;
string summaryLine = tokens[5];
if (summaryStart == null)
summaryStart = summaryTime.Year + "/" + summaryTime.Month + "/" + summaryTime.Day + " " + summaryTime.Hour + ":" + summaryTime.Minute + ":" + summaryTime.Second;
if (summaryStartUnixTime[i] <= 0)
summaryStartUnixTime[i] = summaryUnixTime;
wWFACData[i].Add(summaryKey, summaryLine);
}
}
catch (Exception e)
{
}
} while ((summary_line = summaryReader.ReadLine()) != null);
}
}
}
catch (Exception e)
{
}
}
#endregion Read Summary data
#region Actigraph Summary Header
for (int i = 0; (i < actigraphData.Length); i++)
{
if (actigraphType[i] == "GT3X" || actigraphType[i] == "GT3X+")
{
master_csv_header += ",Actigraph" + (i + 1) + "_X,Actigraph" + (i + 1) + "_Y,Actigraph" + (i + 1) + "_Z";
//PLOT values for actigraph activity counts
master_csv_header += ",PLOT_Actigraph" + (i + 1) + "_X,PLOT_Actigraph" + (i + 1) + "_Y,PLOT_Actigraph" + (i + 1) + "_Z" +
",PLOT_Actigraph" + (i + 1) + "_XYZ";
actigraphCSV[i].WriteLine(actigraph_csv_header_gtx);
}
else if (actigraphType[i] == "GT1M")
{
master_csv_header += ",Actigraph" + (i + 1) + "_X,Actigraph" + (i + 1) + "_Y";
actigraphCSV[i].WriteLine(actigraph_csv_header_gt1m);
}
else
{
master_csv_header += ",Actigraph" + (i + 1);
actigraphCSV[i].WriteLine(actigraph_csv_header);
}
master_csv_header += ",PLOT_Actigraph" + (i + 1) + "_MinuteCounts";
}
#endregion Actigraph Summary Header
#region Wockets Activity Counts Header
//JPN: Add CSV headers for Wocket Firmware Activity Counts (WFAC)
if (wWFACData != null)
{
for (int i = 0; (i < wWFACData.Length); i++)
{
master_csv_header += ",Wocket" + i.ToString("00") + "_PerMinute_WFAC";
wWFACSummaryCSV[i].WriteLine(summary_csv_header);
}
}
//JPN: Add CSV headers for Wocket Raw Activity Counts (WRAC)
//if (wWRACData != null)
if (wcontroller != null)
{
for (int i = 0; (i < CurrentWockets._Controller._Sensors.Count); i++)
{
master_csv_header += ",Wocket" + i.ToString("00") + "_PerMinute_WRAC";
wWRACSummaryCSV[i].WriteLine(summary_csv_header);
}
}
//JPN: Add CSV headers for Plottable Firmware Raw Activity Counts (WFAC)
if (wWFACData != null)
for (int i = 0; (i < wWFACData.Length); i++)
master_csv_header += ",Wocket" + i.ToString("00") + "_PLOT_PerMinute_WFAC";
//JPN: Add CSV headers for Plottable Wocket Raw Activity Counts (WRAC)
//if (wWRACData != null)
if (wcontroller != null)
for (int i = 0; (i < CurrentWockets._Controller._Sensors.Count); i++)
master_csv_header += ",Wocket" + i.ToString("00") + "_PLOT_PerMinute_WRAC";
#endregion Wockets Activity Counts Header
#region Other Sensors Headers
if (sensewearFound)
master_csv_header += ",SensewearSR,Sensewear_AVTranAcc,Senserwear_AVLongAcc,Sensewear_AVForAcc";
else if (sensewearVanderbiltFound)
master_csv_header += ",SensewearSR,Sensewear_numpeaks_accelerometer_transverse,Sensewear_numpeaks_accelerometer_longitudinal,Sensewear_heat_flux_average_original_rate,Sensewear_skin_temp_average_original_rate,Sensewear_transverse_accelerometer_average,Sensewear_longitudinal_accelerometer_average,Sensewear_cover_temp_average,Sensewear_transverse_accelerometer_MAD_graphable,Sensewear_longitudinal_accelerometer_MAD_graphable,Sensewear_STEPS,Sensewear_gsr_average,Sensewear_energy_expenditure_per_minute";
if (zephyrFound)
master_csv_header += ",ZephyrHeart Rate Data,ZephyrECG - Amplitude Data,ZephyrECG - Noise Data,ZephyrRES - Breathing Wave Amplitude (V) Data,ZephyrRES - Respiration Rate Data,ZephyrTEM - Skin Temperature Data,ZephyrBAT - Battery Voltage (V) Data,ZephyrPOS - Posture Data,ZephyrACC - Activity Data,ZephyrACC - Peak Acceleration (g) Data,ZephyrACC - Vertical Acc Minimum (g) Data,ZephyrACC - Vertical Acc Peak (g) Data,ZephyrACC - Lateral Acc Minimum (g) Data,ZephyrACC - Lateral Acc Peak (g) Data,ZephyrACC - Sagittal Acc Minimum (g) Data,ZephyrACC - Sagittal Acc Peak (g)";
if (oxyconFound)
master_csv_header += ",OxyconHR,OxyconBF,OxyconVE,OxyconVO2,OxyconVO2kg,OxyconMET,OxyconEE,OxyconRER";//OxyconRER,Oxyconttot,Oxycontex";
if (omronFound)
master_csv_header += ",OmronSteps";
if (columbiaFound)
master_csv_header += ",ColumbiaX,ColumbiaY,ColumbiaZ,ColumbiaFlow,ColumbiaValve";
if (gpsFound)
master_csv_header += ",GPSLatitude,GPSLongitude,GPSSpeed,GPSAltitude";
if (rtiFound)
master_csv_header += ",RTIX,RTIY,RTIZ,RTI_AUC_X,RTI_AUC_Y,RTI_AUC_Z,RTI_AUC_XYZ";
if (rt3Found)
master_csv_header += ",RT3_SR,RT3_Total_Calories,RT3_Activity_Calories,RT3_VM,RT3_ActCntsX,RT3_ActCntsY,RT3_ActCntsZ";
masterCSV.WriteLine(master_csv_header);
hrCSV.WriteLine(hr_csv_header);
if (sensewearCSV != null)
if (sensewearFound)
sensewearCSV.WriteLine(sensewear_csv_header);
else if (sensewearVanderbiltFound)
sensewearCSV.WriteLine(sensewear_csv_header_vanderbilt);
if ((zephyrCSV != null) && (zephyrFound))
zephyrCSV.WriteLine(zephyr_csv_header);
if ((oxyconCSV != null) && (oxyconFound))
oxyconCSV.WriteLine(oxycon_csv_header);
if ((omronCSV != null) && (omronFound))
omronCSV.WriteLine(omron_csv_header);
if ((columbiaCSV != null) && (columbiaFound))
columbiaCSV.WriteLine(columbia_csv_header);
if ((gpsCSV != null) && (gpsFound))
gpsCSV.WriteLine(gps_csv_header);
if ((rtiCSV != null) && (rtiFound))
rtiCSV.WriteLine(rti_csv_header);
if ((rt3CSV != null) && (rt3Found))
rt3CSV.WriteLine(rt3_csv_header);
#endregion Other Sensors Headers
int year = 0;
int month = 0;
int day = 0;
int startyear = 2050;
int startmonth = 1;
int startday = 1;
int starthr = 1;
int startmin = 1;
int startsec = 1;
int endyear = 1971;
int endmonth = 1;
int endday = 1;
int endhr = 1;
int endmin = 59;
int endsec = 59;
DateTime startDateTime = new DateTime(startyear, startmonth, startday, starthr, startmin, startsec);
DateTime endDateTime = new DateTime(endyear, endmonth, endday, endhr, endmin, endsec);
#region If there is MITES data
//check mites start and end times
if (aMITesDecoder != null)
{
string rawDirectory = aDataDirectory + "\\" + MITES_SUBDIRECTORY + "\\data\\raw\\PLFormat";
if (Directory.Exists(rawDirectory) == false)
return;
subdirectories = Directory.GetDirectories(rawDirectory);
foreach (string subdirectory in subdirectories)
{
string[] datetokens = subdirectory.Split('\\');
datetokens = datetokens[datetokens.Length - 1].Split('-');
year = Convert.ToInt32(datetokens[0]);
month = Convert.ToInt32(datetokens[1]);
day = Convert.ToInt32(datetokens[2]);
/* if ((startyear == 0) || (year < startyear))
startyear = year;
if ((endyear == 0) || (year > endyear))
endyear = year;
if ((startmonth == 0) || (month < startmonth))
startmonth = month;
if ((endmonth == 0) || (month > endmonth))
endmonth = month;
if ((startday == 0) || (day < startday))
startday = day;
if ((endday == 0) || (day > endday))
endday = day;*/
for (int i = 0; i < 30; i++)
{
if (Directory.Exists(subdirectory + "\\" + i))
{
int hr = i;
/* if (hr < starthr)
starthr = hr;
if (hr > endhr)
endhr = hr;*/
DateTime d = new DateTime(year, month, day, hr, 0, 0);
if (d.Subtract(startDateTime).TotalSeconds < 0)
startDateTime = d;
if (d.Subtract(endDateTime).TotalSeconds > 0)
endDateTime = d;
}
}
}
}
#endregion If there is MITES data
#region If there is Wockets data
//check wockets start and end times
if (wcontroller != null)
{
string rawDirectory = aDataDirectory + "\\" + WOCKETS_SUBDIRECTORY + "\\data\\raw\\PLFormat";
if (Directory.Exists(rawDirectory) == false)
return;
subdirectories = Directory.GetDirectories(rawDirectory);
foreach (string subdirectory in subdirectories)
{
string[] datetokens = subdirectory.Split('\\');
datetokens = datetokens[datetokens.Length - 1].Split('-');
year = Convert.ToInt32(datetokens[0]);
month = Convert.ToInt32(datetokens[1]);
day = Convert.ToInt32(datetokens[2]);
/* if ((startyear == 0) || (year < startyear))
startyear = year;
if ((endyear == 0) || (year > endyear))
endyear = year;
if ((startmonth == 0) || (month < startmonth))
startmonth = month;
if ((endmonth == 0) || (month > endmonth))
endmonth = month;
if ((startday == 0) || (day < startday))
startday = day;
if ((endday == 0) || (day > endday))
endday = day;
*/
for (int i = 0; i < 30; i++)
{
if (Directory.Exists(subdirectory + "\\" + i))
{
int hr = i;
/* if (hr < starthr)
starthr = hr;
if (hr > endhr)
endhr = hr;*/
DateTime d = new DateTime(year, month, day, hr, 0, 0);
if (d.Subtract(startDateTime).TotalSeconds < 0)
startDateTime = d;
d = new DateTime(year, month, day, hr, 59, 59);
if (d.Subtract(endDateTime).TotalSeconds > 0)
endDateTime = d;
}
}
}
}//if wockets data is not present and merging only actigraph data
else
{
if ((actigraphEndTimes[0] != null) && (actigraphStartTimes[0] != null))
{
//JPN: Do not reset if MITes data exists
if (aMITesDecoder == null)
{
startDateTime = actigraphStartTimes[0];
endDateTime = actigraphEndTimes[0];
}
}
}
#endregion If there is Wockets data
//sele check
#region check annotation start and end times
// JPN TESTING !!!!!!!!!!!!!!!!!!!!!!!!!!
//if (aannotation != null)
//{
// AXML.AnnotatedRecord record = ((AXML.AnnotatedRecord)aannotation.Data[0]);
// year = Convert.ToInt32(record.StartDate.Split('-')[2]);
// month = Convert.ToInt32(record.StartDate.Split('-')[0]);
// day = Convert.ToInt32(record.StartDate.Split('-')[1]);
// DateTime d = new DateTime(year, month, day, record.StartHour, 0, 0);
// if (d.Subtract(startDateTime).TotalSeconds < 0)
// startDateTime = d;
// /* if ((startyear == 0) || (year < startyear))
// startyear = year;
// if ((startmonth == 0) || (month < startmonth))
// startmonth = month;
// if ((startday == 0) || (day < startday))
// startday = day;
// if (record.StartHour < starthr)
// starthr = record.StartHour;
// */
// record = ((AXML.AnnotatedRecord)aannotation.Data[aannotation.Data.Count - 1]);
// year = Convert.ToInt32(record.StartDate.Split('-')[2]);
// month = Convert.ToInt32(record.StartDate.Split('-')[0]);
// day = Convert.ToInt32(record.StartDate.Split('-')[1]);
// d = new DateTime(year, month, day, record.EndHour, 59, 59);
// if (d.Subtract(endDateTime).TotalSeconds > 0)
// endDateTime = d;
// /*
// if ((endyear == 0) || (year > endyear))
// endyear = year;
// if ((endmonth == 0) || (month > endmonth))
// endmonth = month;
// if ((endday == 0) || (day > endday))
// endday = day;
// if (record.EndHour > endhr)
// endhr = record.EndHour;
// if ((record.EndMinute < 54) && (record.EndMinute < endmin))
// endmin = record.EndMinute + 5;
// */
//}
#endregion
if (wWFACData != null)
{
for (int i = 0; (i < wcontroller._Sensors.Count); i++)
{
DateTime d = new DateTime();
UnixTime.GetDateTime((long)summaryStartUnixTime[i], out d);
if (d.Subtract(startDateTime).TotalSeconds < 0)
startDateTime = d;
/*if ((startyear == 0) || (d.Year < startyear))
startyear = d.Year;
if ((startmonth == 0) || (d.Month < startmonth))
startmonth = d.Month;
if ((startday == 0) || (d.Day < startday))
startday = d.Day;
if ((starthr == 0) || (d.Hour < starthr))
starthr = d.Hour;*/
}
}
DateTime currentDateTime = startDateTime;
DateTime origin = new DateTime(1970, 1, 1, 0, 0, 0, 0); ;
TimeSpan diff;
string timestamp = "";
double currentUnixTime = 0;
#region Cleanup CSV lines
string master_csv_line = "";
string hr_csv_line = "";
string[] actigraph_csv_line = new string[actigraphData.Length];
for (int i = 0; (i < actigraphData.Length); i++)
actigraph_csv_line[i] = "";
string[] wfac_csv_line = null;
string[] wrac_csv_line = null;
if (wWFACData != null)
{
wfac_csv_line = new string[wWFACData.Length];
for (int i = 0; (i < wWFACData.Length); i++)
wfac_csv_line[i] = "";
}
if (wcontroller != null)
{
wrac_csv_line = new string[wcontroller._Sensors.Count];
for (int i = 0; (i < wrac_csv_line.Length); i++)
wrac_csv_line[i] = "";
}
string sensewear_csv_line = "";
string zephyr_csv_line = "";
string oxycon_csv_line = "";
string omron_csv_line = "";
string columbia_csv_line = "";
string gps_csv_line = "";
string rti_csv_line = "";
string rt3_csv_line = "";
#endregion Initialize CSV lines
TextReader[] wocketsTR1 = null;
if (wcontroller != null)
{
wocketsTR1 = new TextReader[wcontroller._Sensors.Count];
for (int k = 0; (k < wcontroller._Sensors.Count); k++)
wocketsTR1[k] = new StreamReader(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "Wocket_" + wcontroller._Sensors[k]._ID.ToString("00") + "_RawCorrectedData_" + wcontroller._Sensors[k]._Location.Replace(' ', '-') + ".csv");
}
while (((TimeSpan)endDateTime.Subtract(currentDateTime)).TotalSeconds >= 0)
{
string key = currentDateTime.Year + "-" + currentDateTime.Month + "-" + currentDateTime.Day + "-" + currentDateTime.Hour + "-" + currentDateTime.Minute + "-" + currentDateTime.Second;
diff = currentDateTime.Subtract(origin);
timestamp = diff.TotalMilliseconds + "," + currentDateTime.ToString("yyyy'-'MM'-'dd' 'HH':'mm':'ssK");
currentUnixTime = diff.TotalMilliseconds;
#region Setup prefix of CSV lines
master_csv_line = timestamp;
hr_csv_line = timestamp;
for (int i = 0; (i < actigraphData.Length); i++)
actigraph_csv_line[i] = timestamp;
if (wWFACData != null)
for (int i = 0; (i < wWFACData.Length); i++)
wfac_csv_line[i] = timestamp;
//JPN: Add timestamps to lines in WRAC csv files
if (wcontroller != null)
{
for (int i = 0; (i < wcontroller._Sensors.Count); i++)
wrac_csv_line[i] = timestamp;
}
sensewear_csv_line = timestamp;
zephyr_csv_line = timestamp;
oxycon_csv_line = timestamp;
omron_csv_line = timestamp;
columbia_csv_line = timestamp;
gps_csv_line = timestamp;
rti_csv_line = timestamp;
rt3_csv_line = timestamp;
//JPN TEST !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
//if (aannotation != null)
// master_csv_line += "," + current_activity;
#endregion Setup prefix of CSV lines
if (CSVProgress == "")
CSVProgress = "Synchronizing " + currentDateTime.ToLongDateString() + " " + currentDateTime.ToLongTimeString();
// JPN TEST !!!!!!!!!!!!!!!!!
//if (aannotation != null)
//{
// #region Load Activity Labels
// if (currentUnixTime > annotatedRecord.EndUnix)
// {
// current_activity = "";
// for (int j = 0; (j < annotatedRecord.Labels.Count); j++)
// {
// if (j == annotatedRecord.Labels.Count - 1)
// current_activity += "";
// else
// current_activity += ",";
// }
// if (activityIndex < aannotation.Data.Count - 1)
// {
// activityIndex++;
// annotatedRecord = ((AXML.AnnotatedRecord)aannotation.Data[activityIndex]);
// }
// }
// if ((currentUnixTime >= annotatedRecord.StartUnix) &&
// (currentUnixTime <= annotatedRecord.EndUnix))
// {
// current_activity = "";
// for (int j = 0; (j < annotatedRecord.Labels.Count); j++)
// {
// if (j == annotatedRecord.Labels.Count - 1)
// current_activity += ((AXML.Label)annotatedRecord.Labels[j]).Name;
// else
// current_activity += ((AXML.Label)annotatedRecord.Labels[j]).Name + ",";
// }
// current_activity = current_activity.Replace("none", "").Replace('-', '_').Replace(':', '_').Replace('%', '_').Replace('/', '_');
// current_activity = Regex.Replace(current_activity, "[_]+", "_");
// current_activity = Regex.Replace(current_activity, "^[_]+", "");
// current_activity = Regex.Replace(current_activity, "[_]+$", "");
// }
// #endregion Load Activity Label
//}
#region If MITes Decoder exist
double mitesTime = 0;
if (aMITesDecoder != null)
{
#region Load MITes data if needed
//always have at least 5 seconds worth of data for the MITes
while (((unixtimestamp - currentUnixTime) <= mites_RM_DURATION) && (aMITesLoggerReader.GetSensorData(10)))
{
channel = aMITesDecoder.GetSomeMITesData()[0].channel;
if (channel == 0)
{
//Store raw heart rate
int hr = aMITesHRAnalyzer.UpdateOffline();
if (hr > 0)
{
rawData[channel, 0, head[channel]] = hr;
//Here the offset was added
mitesTime = unixtimestamp;
timeData[channel, head[channel]] = (long)mitesTime;
head[channel] = (head[channel] + 1) % mites_RM_SIZE;
}
}
else
{
x = aMITesDecoder.GetSomeMITesData()[0].x;
y = aMITesDecoder.GetSomeMITesData()[0].y;
z = aMITesDecoder.GetSomeMITesData()[0].z;
//Here add the offset
unixtimestamp = aMITesDecoder.GetSomeMITesData()[0].unixTimeStamp;
rawData[channel, 0, head[channel]] = x;
rawData[channel, 1, head[channel]] = y;
rawData[channel, 2, head[channel]] = z;
//DateTime d1,d2;
//UnixTime.GetDateTime((long)unixtimestamp, out d1);
mitesTime = unixtimestamp;
//UnixTime.GetDateTime((long)mitesTime,out d2);
timeData[channel, head[channel]] = (long)mitesTime;
head[channel] = (head[channel] + 1) % mites_RM_SIZE;
}
}
#endregion Load MITes data if needed
#region Calculate Statistics
foreach (SXML.Sensor sensor in sannotation.Sensors)
{
channel = Convert.ToInt32(sensor.ID);
int headPtr = head[channel] - 1;
if (headPtr < 0)
headPtr = mites_RM_SIZE - 1;
if (channel > 0)
{
double runningMeanX = 0;
double runningMeanY = 0;
double runningMeanZ = 0;
int numMeanPts = 0;
//compute running means
// && ((timeData[channel, headPtr] - currentUnixTime) <=MEAN_SIZE)
while ((timeData[channel, headPtr] > 0) && (headPtr != head[channel]) && (numMeanPts <= mites_RM_SIZE))
{
runningMeanX += rawData[channel, 0, headPtr];
runningMeanY += rawData[channel, 1, headPtr];
runningMeanZ += rawData[channel, 2, headPtr];
numMeanPts++;
headPtr--;
if (headPtr < 0)
headPtr = 39;
}
runningMeanX = runningMeanX / numMeanPts;
runningMeanY = runningMeanY / numMeanPts;
runningMeanZ = runningMeanZ / numMeanPts;
RMX[channel] = runningMeanX;
RMY[channel] = runningMeanY;
RMZ[channel] = runningMeanZ;
RMSize[channel] = numMeanPts;
//RMCount[channel] = RMCount[channel] + 1;
headPtr = head[channel] - 1;
if (headPtr < 0)
headPtr = mites_RM_SIZE - 1;
//compute values per second
while ((timeData[channel, headPtr] > 0) && (headPtr != head[channel]))
{
if (((timeData[channel, headPtr] - currentUnixTime) >= 0) && ((timeData[channel, headPtr] - currentUnixTime) <= 1000))
{
//Calculate MITes Raw Values
if ((channel != 0) && (channel <= sannotation.MaximumSensorID)) //if junk comes ignore it
{
if ((prevX[channel] > -1) && (prevY[channel] > -1) && (prevZ[channel] > -1) && (rawData[channel, 0, headPtr] > -1) && (rawData[channel, 1, headPtr] > -1) && (rawData[channel, 2, headPtr] > -1))
{
averageX[channel] = averageX[channel] + Math.Abs(prevX[channel] - rawData[channel, 0, headPtr]);
averageRawX[channel] = averageRawX[channel] + rawData[channel, 0, headPtr];
averageY[channel] = averageY[channel] + Math.Abs(prevY[channel] - rawData[channel, 1, headPtr]);
averageRawY[channel] = averageRawY[channel] + rawData[channel, 1, headPtr];
averageZ[channel] = averageZ[channel] + Math.Abs(prevZ[channel] - rawData[channel, 2, headPtr]);
averageRawZ[channel] = averageRawZ[channel] + rawData[channel, 2, headPtr];
acCounters[channel] = acCounters[channel] + 1;
}
prevX[channel] = rawData[channel, 0, headPtr];
prevY[channel] = rawData[channel, 1, headPtr];
prevZ[channel] = rawData[channel, 2, headPtr];
//current data item
//headPtr = head[channel];
int prevHead = headPtr - 1;
if (prevHead < 0)
prevHead = mites_RM_SIZE - 1;
//trapezoid
//double a2=rawData[channel, 0, headPtr];
//double a1=rawData[channel, 0, prevHead];
//a2 = a2 - runningMeanX;
//a1 = a1 - runningMeanX;
double t2 = timeData[channel, headPtr];
double t1 = timeData[channel, prevHead];
if ((t2 > 0) & (t1 > 0))
{
/*
* double fa=Math.Abs((rawData[channel, 0, headPtr] - runningMeanX));
double fb=Math.Abs((rawData[channel, 0, prevHead] - runningMeanX));
AUC[channel, 0] = AUC[channel, 0] + (int)( ((t2 - t1) * ((fa-fb)/ 2))*1000);
fa = Math.Abs((rawData[channel, 1, headPtr] - runningMeanY));
fb = Math.Abs((rawData[channel, 1, prevHead] - runningMeanY));
AUC[channel, 1] = AUC[channel, 1] + (int)( ((t2 - t1) * ((fa - fb) / 2))*1000);
fa = Math.Abs((rawData[channel, 2, headPtr] - runningMeanZ));
fb = Math.Abs((rawData[channel, 2, prevHead] - runningMeanZ));
AUC[channel, 2] = AUC[channel, 2] + (int)(((t2 - t1) * ((fa - fb) / 2))*1000);
*/
AUC[channel, 0] = AUC[channel, 0] + (int)Math.Abs((rawData[channel, 0, headPtr] - runningMeanX));
AUC[channel, 1] = AUC[channel, 1] + (int)Math.Abs((rawData[channel, 1, headPtr] - runningMeanY));
AUC[channel, 2] = AUC[channel, 2] + (int)Math.Abs((rawData[channel, 2, headPtr] - runningMeanZ));
VMAG[channel] = VMAG[channel] + Math.Sqrt(Math.Pow((double)(rawData[channel, 0, headPtr] - runningMeanX), 2.0) + Math.Pow((double)(rawData[channel, 1, headPtr] - runningMeanY), 2.0) + Math.Pow((double)(rawData[channel, 2, headPtr] - runningMeanZ), 2.0));
}
}
}
headPtr--;
if (headPtr < 0)
headPtr = mites_RM_SIZE - 1;
}
}
csv_line1 = timestamp;
csv_line2 = timestamp;
csv_line3 = timestamp;
csv_line4 = timestamp;
csv_line5 = timestamp;
csv_line6 = timestamp;
int sensor_id = Convert.ToInt32(sensor.ID);
if (sensor_id > 0) //No HR
{
if (acCounters[sensor_id] > 0)
{
csv_line2 += "," + acCounters[sensor_id];
csv_line1 += "," + ((double)(averageX[sensor_id] / (double)acCounters[sensor_id])).ToString("00.00") + ",";
csv_line1 += ((double)(averageY[sensor_id] / (double)acCounters[sensor_id])).ToString("00.00") + ",";
csv_line1 += ((double)(averageZ[sensor_id] / (double)acCounters[sensor_id])).ToString("00.00");
csv_line3 += "," + ((int)(averageRawX[sensor_id] / acCounters[sensor_id])) + ",";
csv_line3 += ((int)(averageRawY[sensor_id] / acCounters[sensor_id])) + ",";
csv_line3 += ((int)(averageRawZ[sensor_id] / acCounters[sensor_id]));
csv_line4 += "," + ((double)RMX[sensor_id]).ToString("00.00") + ",";
csv_line4 += ((double)RMY[sensor_id]).ToString("00.00") + ",";
csv_line4 += ((double)RMZ[sensor_id]).ToString("00.00");
csv_line5 += "," + ((double)AUC[sensor_id, 0]).ToString("00.00") + ",";
csv_line5 += ((double)AUC[sensor_id, 1]).ToString("00.00") + ",";
csv_line5 += ((double)AUC[sensor_id, 2]).ToString("00.00") + ",";
csv_line5 += ((double)(AUC[sensor_id, 0] + AUC[sensor_id, 1] + AUC[sensor_id, 2])).ToString("00.00");
csv_line6 += "," + ((double)(VMAG[sensor_id] / (double)acCounters[sensor_id])).ToString("00.00");
master_csv_line += "," + acCounters[sensor_id];
master_csv_line += "," + ((int)(averageRawX[sensor_id] / acCounters[sensor_id])) + ",";
master_csv_line += ((int)(averageRawY[sensor_id] / acCounters[sensor_id])) + ",";
master_csv_line += ((int)(averageRawZ[sensor_id] / acCounters[sensor_id]));
master_csv_line += "," + ((double)(averageX[sensor_id] / (double)acCounters[sensor_id])).ToString("00.00") + ",";
master_csv_line += ((double)(averageY[sensor_id] / (double)acCounters[sensor_id])).ToString("00.00") + ",";
master_csv_line += ((double)(averageZ[sensor_id] / (double)acCounters[sensor_id])).ToString("00.00") + ",";
master_csv_line += ((double)AUC[sensor_id, 0]).ToString("00.00") + ",";
master_csv_line += ((double)AUC[sensor_id, 1]).ToString("00.00") + ",";
master_csv_line += ((double)AUC[sensor_id, 2]).ToString("00.00") + ",";
master_csv_line += ((double)(AUC[sensor_id, 0] + AUC[sensor_id, 1] + AUC[sensor_id, 2])).ToString("00.00") + ",";
master_csv_line += ((double)RMX[sensor_id]).ToString("00.00") + ",";
master_csv_line += ((double)RMY[sensor_id]).ToString("00.00") + ",";
master_csv_line += ((double)RMZ[sensor_id]).ToString("00.00") + ",";
master_csv_line += ((double)RMSize[sensor_id]).ToString("00.00") + ",";
master_csv_line += ((double)(VMAG[sensor_id] / (double)acCounters[sensor_id])).ToString("00.00");
}
else
{
csv_line1 += ",,,,";
csv_line3 += ",,,,";
csv_line2 += ",0";
csv_line4 += ",,,,";
csv_line5 += ",,,,,";
csv_line6 += ",";
master_csv_line += ",0,,,,,,,,,,,,,,,";
}
//Store data in CSV files
activityCountCSVs[sensor_id].WriteLine(csv_line1);
samplingCSVs[sensor_id].WriteLine(csv_line2);
averagedRaw[sensor_id].WriteLine(csv_line3);
rmCSVs[sensor_id].WriteLine(csv_line4);
aucCSVs[sensor_id].WriteLine(csv_line5);
vmagCSVs[sensor_id].WriteLine(csv_line6);
}
else
{
hrCount = 0;
sumHR = 0;
while ((timeData[0, headPtr] > 0) && (headPtr != head[0]))
{
if (((timeData[0, headPtr] - currentUnixTime) >= 0) && ((timeData[0, headPtr] - currentUnixTime) <= 1000))
{
sumHR += rawData[0, 0, headPtr];
hrCount++;
}
headPtr--;
if (headPtr < 0)
headPtr = mites_RM_SIZE - 1;
}
if (hrCount > 0)
{
hrCSV.WriteLine(hr_csv_line + "," + (int)(sumHR / hrCount));
master_csv_line = master_csv_line + "," + (int)(sumHR / hrCount);
}
else
{
hrCSV.WriteLine(hr_csv_line + ",");
master_csv_line = master_csv_line + ",";
}
}
averageX[sensor_id] = 0;
averageY[sensor_id] = 0;
averageZ[sensor_id] = 0;
averageRawX[sensor_id] = 0;
averageRawY[sensor_id] = 0;
averageRawZ[sensor_id] = 0;
//prevX[sensor_id] = 0;
//prevY[sensor_id] = 0;
//prevY[sensor_id] = 0;
acCounters[sensor_id] = 0;
RMX[sensor_id] = 0;
RMY[sensor_id] = 0;
RMZ[sensor_id] = 0;
RMSize[sensor_id] = 0;
VMAG[sensor_id] = 0;
for (int j = 0; (j < 3); j++)
AUC[sensor_id, j] = 0;
}
#endregion Calculate Statistics
#region Append MITes Statistics (Deleted)
#region Write CSV line for MITes HR
#endregion Write CSV line for MITes HR
#endregion Append MITes Statistics
}
#endregion if there is MITes data
#region If Wockets Decoder exist
if (wcontroller != null)
{
#region Load Wockets data if needed
//JPN: Iterate through each sensor ID
if (!isWRACLoaded)
{
//JPN: Dimension array for storing WRAC output data
wWRACData = new Hashtable[CurrentWockets._Controller._Sensors.Count];
for (int i = 0; (i < wcontroller._Sensors.Count); i++)
{
//JPN: Track the amount of time between samples to check that the sampling rate is valid for calculation
double lastUnixTime = 0;
//JPN: Use the UnixTime milliseconds to evaluate sampling rate. Target SR = 40 Hz
double targetSampleTime = (1.0 / 40.0) * 1000;
//JPN: Initialze array for storing WRAC values for each sensor
wWRACData[i] = new Hashtable();
//JPN: Take a first pass through the raw corrected data to generate Wockets Raw Activity Counts (WRAC)
string line = "";
while ((line = wocketsTR1[i].ReadLine()) != null)
{
//JPN: WRAC computation code block
{
string[] wWRACTokens = line.Split(',');
double wWRACUnixTime = Convert.ToDouble(wWRACTokens[0]);
if (wWRACUnixTime - lastUnixTime >= targetSampleTime)
{
if (lastUnixTime > 0)
lastUnixTime = wWRACUnixTime - ((wWRACUnixTime - lastUnixTime) - targetSampleTime);
else
lastUnixTime = wWRACUnixTime;
//JPN: Generate combined (X+Y+Z) AUC using running mean filter
wAUCSigma += Filter(Convert.ToInt32(wWRACTokens[1]), 0);
wAUCSigma += Filter(Convert.ToInt32(wWRACTokens[2]), 1);
wAUCSigma += Filter(Convert.ToInt32(wWRACTokens[3]), 2);
//JPN: Ignore the first 40 samples to establish a running mean
if (_wPC > 40)
{
if (summary_count == 0)
{
//JPN: Divide by firmware scaling value.
wAUCSigma = wAUCSigma / 24;
//JPN: Trim summations to match size of firmware unsigned short int
if (wAUCSigma > 65535)
acount[ci] = 65535;
else
acount[ci] = (int)wAUCSigma;
//JPN: Compute DateTime of sample from the UnixTimeStamp
DateTime plotDt = new DateTime();
UnixTime.GetDateTime(Convert.ToInt64(wWRACUnixTime), out plotDt);
//JPN: Subtract a minute to align with starting point of activity counts
plotDt = plotDt.AddMinutes(-1);
//JPN: Convert DateTime to string key that is used in indexing values for CSV output
string plotKey = plotDt.Year + "-" + plotDt.Month + "-" + plotDt.Day + "-" + plotDt.Hour + "-" + plotDt.Minute + "-" + plotDt.Second;
//JPN: Add summation to hashtable for later output to CSV file
wWRACData[wcontroller._Sensors[i]._ID][plotKey] = wAUCSigma;
//JPN: Reset values
wAUCSigma = 0;
++ci;
if (ci == AC_BUFFER_SIZE)
ci = 0;
acount[ci] = 0;
summary_count = AC_NUMS;
}
else
summary_count--;
}
else if (_wPC == 40)
wAUCSigma = 0;
_wPC++;
}
}
}
wocketsTR1[i] = new StreamReader(aDataDirectory + "\\" + MERGED_SUBDIRECTORY + "\\" + "Wocket_" + wcontroller._Sensors[i]._ID.ToString("00") + "_RawCorrectedData_" + wcontroller._Sensors[i]._Location.Replace(' ', '-') + ".csv");
}
isWRACLoaded = true;
}
for (int i = 0; (i < wcontroller._Sensors.Count); i++)
{
string s = "";
while (((wunixtimestamp[i] - currentUnixTime) <= RM_DURATION) && ((s = wocketsTR1[i].ReadLine()) != null))
{
string[] wocketsTokens = s.Split(',');
wrawData[wcontroller._Sensors[i]._ID, 0, whead[wcontroller._Sensors[i]._ID]] = Convert.ToInt32(wocketsTokens[1]);
wrawData[wcontroller._Sensors[i]._ID, 1, whead[wcontroller._Sensors[i]._ID]] = Convert.ToInt32(wocketsTokens[2]);
wrawData[wcontroller._Sensors[i]._ID, 2, whead[wcontroller._Sensors[i]._ID]] = Convert.ToInt32(wocketsTokens[3]);
wtimeData[wcontroller._Sensors[i]._ID, whead[wcontroller._Sensors[i]._ID]] = (long)Convert.ToDouble(wocketsTokens[0]);
wunixtimestamp[i] = Convert.ToDouble(wocketsTokens[0]);
whead[wcontroller._Sensors[i]._ID] = (whead[wcontroller._Sensors[i]._ID] + 1) % RM_SIZE;
}
}
#endregion Load Wockets data if needed
#region Calculate Statistics
for (int i = 0; (i < wcontroller._Sensors.Count); i++)
{
double wrunningMeanX = 0;
double wrunningMeanY = 0;
double wrunningMeanZ = 0;
int wnumMeanPts = 0;
int wheadPtr = whead[wcontroller._Sensors[i]._ID] - 1;
if (wheadPtr < 0)
wheadPtr = RM_SIZE - 1;
#region compute running means
while ((wtimeData[wcontroller._Sensors[i]._ID, wheadPtr] > 0) && (wheadPtr != whead[wcontroller._Sensors[i]._ID]) && (wnumMeanPts <= (RM_SIZE - 1)))
{
wrunningMeanX += wrawData[wcontroller._Sensors[i]._ID, 0, wheadPtr];
wrunningMeanY += wrawData[wcontroller._Sensors[i]._ID, 1, wheadPtr];
wrunningMeanZ += wrawData[wcontroller._Sensors[i]._ID, 2, wheadPtr];
wnumMeanPts++;
wheadPtr--;
if (wheadPtr < 0)
wheadPtr = (RM_SIZE - 1);
}
wrunningMeanX = wrunningMeanX / wnumMeanPts;
wrunningMeanY = wrunningMeanY / wnumMeanPts;
wrunningMeanZ = wrunningMeanZ / wnumMeanPts;
wRMX[wcontroller._Sensors[i]._ID] = wrunningMeanX;
wRMY[wcontroller._Sensors[i]._ID] = wrunningMeanY;
wRMZ[wcontroller._Sensors[i]._ID] = wrunningMeanZ;
wRMSize[wcontroller._Sensors[i]._ID] = wnumMeanPts;
//RMCount[wcontroller._Sensors[i]._ID] = RMCount[wcontroller._Sensors[i]._ID] + 1;
wheadPtr = whead[wcontroller._Sensors[i]._ID] - 1;
if (wheadPtr < 0)
wheadPtr = (RM_SIZE - 1);
#endregion compute running means
//compute values per second
while ((wtimeData[wcontroller._Sensors[i]._ID, wheadPtr] > 0) && (wheadPtr != whead[wcontroller._Sensors[i]._ID]))
{
double ttt = wtimeData[wcontroller._Sensors[i]._ID, wheadPtr];
if (((wtimeData[wcontroller._Sensors[i]._ID, wheadPtr] - currentUnixTime) >= 0) && ((wtimeData[wcontroller._Sensors[i]._ID, wheadPtr] - currentUnixTime) <= 1000))
{
if ((wprevX[wcontroller._Sensors[i]._ID] > -1) && (wprevY[wcontroller._Sensors[i]._ID] > -1) && (wprevZ[wcontroller._Sensors[i]._ID] > -1) && (wrawData[wcontroller._Sensors[i]._ID, 0, wheadPtr] > -1) && (wrawData[wcontroller._Sensors[i]._ID, 1, wheadPtr] > -1) && (wrawData[wcontroller._Sensors[i]._ID, 2, wheadPtr] > -1))
{
waverageX[wcontroller._Sensors[i]._ID] = waverageX[wcontroller._Sensors[i]._ID] + Math.Abs(wprevX[wcontroller._Sensors[i]._ID] - wrawData[wcontroller._Sensors[i]._ID, 0, wheadPtr]);
waverageRawX[wcontroller._Sensors[i]._ID] = waverageRawX[wcontroller._Sensors[i]._ID] + wrawData[wcontroller._Sensors[i]._ID, 0, wheadPtr];
waverageY[wcontroller._Sensors[i]._ID] = waverageY[wcontroller._Sensors[i]._ID] + Math.Abs(wprevY[wcontroller._Sensors[i]._ID] - wrawData[wcontroller._Sensors[i]._ID, 1, wheadPtr]);
waverageRawY[wcontroller._Sensors[i]._ID] = waverageRawY[wcontroller._Sensors[i]._ID] + wrawData[wcontroller._Sensors[i]._ID, 1, wheadPtr];
waverageZ[wcontroller._Sensors[i]._ID] = waverageZ[wcontroller._Sensors[i]._ID] + Math.Abs(wprevZ[wcontroller._Sensors[i]._ID] - wrawData[wcontroller._Sensors[i]._ID, 2, wheadPtr]);
waverageRawZ[wcontroller._Sensors[i]._ID] = waverageRawZ[wcontroller._Sensors[i]._ID] + wrawData[wcontroller._Sensors[i]._ID, 2, wheadPtr];
wacCounters[wcontroller._Sensors[i]._ID] = wacCounters[wcontroller._Sensors[i]._ID] + 1;
}
wprevX[wcontroller._Sensors[i]._ID] = wrawData[wcontroller._Sensors[i]._ID, 0, wheadPtr];
wprevY[wcontroller._Sensors[i]._ID] = wrawData[wcontroller._Sensors[i]._ID, 1, wheadPtr];
wprevZ[wcontroller._Sensors[i]._ID] = wrawData[wcontroller._Sensors[i]._ID, 2, wheadPtr];
int wprevHead = wheadPtr - 1;
if (wprevHead < 0)
wprevHead = (RM_SIZE - 1);
double wt2 = wtimeData[wcontroller._Sensors[i]._ID, wheadPtr];
double wt1 = wtimeData[wcontroller._Sensors[i]._ID, wprevHead];
if ((wt2 > 0) & (wt1 > 0))
{
wAUC[wcontroller._Sensors[i]._ID, 0] = wAUC[wcontroller._Sensors[i]._ID, 0] + (int)Math.Abs((wrawData[wcontroller._Sensors[i]._ID, 0, wheadPtr] - wrunningMeanX));
wAUC[wcontroller._Sensors[i]._ID, 1] = wAUC[wcontroller._Sensors[i]._ID, 1] + (int)Math.Abs((wrawData[wcontroller._Sensors[i]._ID, 1, wheadPtr] - wrunningMeanY));
wAUC[wcontroller._Sensors[i]._ID, 2] = wAUC[wcontroller._Sensors[i]._ID, 2] + (int)Math.Abs((wrawData[wcontroller._Sensors[i]._ID, 2, wheadPtr] - wrunningMeanZ));
wVMAG[wcontroller._Sensors[i]._ID] = wVMAG[wcontroller._Sensors[i]._ID] + Math.Sqrt(Math.Pow((double)(wrawData[wcontroller._Sensors[i]._ID, 0, wheadPtr] - wrunningMeanX), 2.0) + Math.Pow((double)(wrawData[wcontroller._Sensors[i]._ID, 1, wheadPtr] - wrunningMeanY), 2.0) + Math.Pow((double)(wrawData[wcontroller._Sensors[i]._ID, 2, wheadPtr] - wrunningMeanZ), 2.0));
}
}
wheadPtr--;
if (wheadPtr < 0)
wheadPtr = (RM_SIZE - 1);
}
wrunningMeanX = 0;
wrunningMeanY = 0;
wrunningMeanZ = 0;
for (int k = 0; (k < RM_SIZE); k++)
{
wrunningMeanX += wrawData[wcontroller._Sensors[i]._ID, 0, k];
wrunningMeanY += wrawData[wcontroller._Sensors[i]._ID, 1, k];
wrunningMeanZ += wrawData[wcontroller._Sensors[i]._ID, 2, k];
}
wrunningMeanX = wrunningMeanX / RM_SIZE;
wrunningMeanY = wrunningMeanY / RM_SIZE;
wrunningMeanZ = wrunningMeanZ / RM_SIZE;
//wAUC[wcontroller._Sensors[i]._ID, 0] = 0;
//wAUC[wcontroller._Sensors[i]._ID, 1] = 0;
//wAUC[wcontroller._Sensors[i]._ID, 2] = 0;
//wVMAG[wcontroller._Sensors[i]._ID] = 0;
wVMAG[wcontroller._Sensors[i]._ID] = wVMAG[wcontroller._Sensors[i]._ID] + Math.Sqrt(Math.Pow((double)(wrawData[wcontroller._Sensors[i]._ID, 0, wheadPtr] - wrunningMeanX), 2.0) + Math.Pow((double)(wrawData[wcontroller._Sensors[i]._ID, 1, wheadPtr] - wrunningMeanY), 2.0) + Math.Pow((double)(wrawData[wcontroller._Sensors[i]._ID, 2, wheadPtr] - wrunningMeanZ), 2.0));
//Inititalize lines to be written to cvs files
int sensor_id = wcontroller._Sensors[i]._ID;
csv_line1 = timestamp;
csv_line2 = timestamp;
csv_line3 = timestamp;
csv_line4 = timestamp;
csv_line5 = timestamp;
csv_line6 = timestamp;
if (wacCounters[sensor_id] > 0)
{
#region Append Wockets Statistics
csv_line2 += "," + (double)(wacCounters[sensor_id]);
csv_line1 += "," + ((double)(waverageX[sensor_id] / (double)wacCounters[sensor_id])).ToString("00.00") + ",";
csv_line1 += ((double)(waverageY[sensor_id] / (double)wacCounters[sensor_id])).ToString("00.00") + ",";
csv_line1 += ((double)(waverageZ[sensor_id] / (double)wacCounters[sensor_id])).ToString("00.00");
csv_line3 += "," + ((int)(waverageRawX[sensor_id] / wacCounters[sensor_id])) + ",";
csv_line3 += ((int)(waverageRawY[sensor_id] / wacCounters[sensor_id])) + ",";
csv_line3 += ((int)(waverageRawZ[sensor_id] / wacCounters[sensor_id]));
csv_line4 += "," + ((double)wRMX[sensor_id]).ToString("00.00") + ",";
csv_line4 += ((double)wRMY[sensor_id]).ToString("00.00") + ",";
csv_line4 += ((double)wRMZ[sensor_id]).ToString("00.00");
csv_line5 += "," + ((double)wAUC[sensor_id, 0]).ToString("00.00") + ",";
csv_line5 += ((double)wAUC[sensor_id, 1]).ToString("00.00") + ",";
csv_line5 += ((double)wAUC[sensor_id, 2]).ToString("00.00") + ",";
csv_line5 += ((double)(wAUC[sensor_id, 0] + wAUC[sensor_id, 1] + wAUC[sensor_id, 2])).ToString("00.00");
csv_line6 += "," + ((double)(wVMAG[sensor_id] / (double)wacCounters[sensor_id])).ToString("00.00");
master_csv_line += "," + wacCounters[sensor_id];
master_csv_line += "," + ((int)(waverageRawX[sensor_id] / wacCounters[sensor_id])) + ",";
master_csv_line += ((int)(waverageRawY[sensor_id] / wacCounters[sensor_id])) + ",";
master_csv_line += ((int)(waverageRawZ[sensor_id] / wacCounters[sensor_id]));
master_csv_line += "," + ((double)(waverageX[sensor_id] / (double)wacCounters[sensor_id])).ToString("00.00") + ",";
master_csv_line += ((double)(waverageY[sensor_id] / (double)wacCounters[sensor_id])).ToString("00.00") + ",";
master_csv_line += ((double)(waverageZ[sensor_id] / (double)wacCounters[sensor_id])).ToString("00.00") + ",";
master_csv_line += ((double)wAUC[sensor_id, 0]).ToString("00.00") + ",";
master_csv_line += ((double)wAUC[sensor_id, 1]).ToString("00.00") + ",";
master_csv_line += ((double)wAUC[sensor_id, 2]).ToString("00.00") + ",";
master_csv_line += ((double)(wAUC[sensor_id, 0] + wAUC[sensor_id, 1] + wAUC[sensor_id, 2])).ToString("00.00") + ",";
master_csv_line += ((double)wRMX[sensor_id]).ToString("00.00") + ",";
master_csv_line += ((double)wRMY[sensor_id]).ToString("00.00") + ",";
master_csv_line += ((double)wRMZ[sensor_id]).ToString("00.00") + ",";
master_csv_line += ((double)wRMSize[sensor_id]).ToString("00.00") + ",";
master_csv_line += ((double)(wVMAG[sensor_id] / (double)wacCounters[sensor_id])).ToString("00.00");
#endregion Append Wockets Statistics
//if (prevUnixTime[wcontroller._Sensors[i]._ID] == -1)
// prevUnixTime[wcontroller._Sensors[i]._ID] = currentUnixTime;
}
else
{
csv_line1 += ",,,,";
csv_line3 += ",,,,";
csv_line2 += ",0";
csv_line4 += ",,,,";
csv_line5 += ",,,,,";
csv_line6 += ",";
master_csv_line += ",0,,,,,,,,,,,,,,,";
}
//Store data in CSV files
wactivityCountCSVs[sensor_id].WriteLine(csv_line1);
wsamplingCSVs[sensor_id].WriteLine(csv_line2);
waveragedRaw[sensor_id].WriteLine(csv_line3);
wrmCSVs[sensor_id].WriteLine(csv_line4);
waucCSVs[sensor_id].WriteLine(csv_line5);
wvmagCSVs[sensor_id].WriteLine(csv_line6);
//Reset Variables
waverageX[sensor_id] = 0;
waverageY[sensor_id] = 0;
waverageZ[sensor_id] = 0;
waverageRawX[sensor_id] = 0;
waverageRawY[sensor_id] = 0;
waverageRawZ[sensor_id] = 0;
//prevX[sensor_id] = 0;
//prevY[sensor_id] = 0;
//prevY[sensor_id] = 0;
wacCounters[sensor_id] = 0;
wRMX[sensor_id] = 0;
wRMY[sensor_id] = 0;
wRMZ[sensor_id] = 0;
wRMSize[sensor_id] = 0;
wVMAG[sensor_id] = 0;
for (int j = 0; (j < 3); j++)
wAUC[sensor_id, j] = 0;
}
#endregion Calculate Statistics
}
#endregion If Wockets Decoder Exist
#region Write the CSV lines for each sensor
#region Write CSV lines for Actigraphs
for (int i = 0; (i < actigraphData.Length); i++)
{
if (actigraphData[i].ContainsKey(key) == false)
{
if (actigraphType[i] == "GT3X" || actigraphType[i] == "GT3X+")
{
actigraphCSV[i].WriteLine(actigraph_csv_line[i] + ",,,");
master_csv_line = master_csv_line + ",,,";
master_csv_line = master_csv_line + "," + prevActLine[i] + "," + prevActAC_XYZ;
}
else if (actigraphType[i] == "GT1M")
{
actigraphCSV[i].WriteLine(actigraph_csv_line[i] + ",,");
master_csv_line = master_csv_line + ",,";
}
else
{
actigraphCSV[i].WriteLine(actigraph_csv_line[i] + ",");
master_csv_line = master_csv_line + ",";
}
}
else
{
actigraphCSV[i].WriteLine(actigraph_csv_line[i] + "," + actigraphData[i][key]);
master_csv_line = master_csv_line + "," + actigraphData[i][key];
//PLOT value
prevActLine[i] = actigraphData[i][key].ToString();
//JPN: Only plot repeating values for 3 axis Actigraphs
if (actigraphType[i] == "GT3X" || actigraphType[i] == "GT3X+")
{
try
{
prevActXYZ = prevActLine[i].Split(',');
prevActAC_XYZ = Convert.ToInt32(prevActXYZ[0]) + Convert.ToInt32(prevActXYZ[1]) + Convert.ToInt32(prevActXYZ[2]);
}
catch (Exception ex)
{
}
master_csv_line = master_csv_line + "," + actigraphData[i][key] + "," + prevActAC_XYZ;
}
}
//JPN:
if (actigraphMinutes[i].Count > 0)
{
string[] acTokens = key.Split('-');
DateTime minuteDT = new DateTime(Convert.ToInt32(acTokens[0]), Convert.ToInt32(acTokens[1]), Convert.ToInt32(acTokens[2]), Convert.ToInt32(acTokens[3]), Convert.ToInt32(acTokens[4]), 0);
string minuteKey = minuteDT.Year + "-" + minuteDT.Month + "-" + minuteDT.Day + "-" + minuteDT.Hour + "-" + minuteDT.Minute + "-" + minuteDT.Second;
if (actigraphMinutes[i].ContainsKey(minuteKey))
master_csv_line += "," + actigraphMinutes[i][minuteKey];
else
master_csv_line += ",";
}
}
#endregion Write CSV lines for Actigraphs
#region Write CSV lines for Wockets Firmware Activity Counts (WFAC)
if (wWFACData != null)
{
for (int i = 0; (i < wWFACData.Length); i++)
{
if (wWFACData[i].ContainsKey(key) == false)
{
wWFACSummaryCSV[i].WriteLine(wfac_csv_line[i] + ",");
master_csv_line = master_csv_line + ",";
}
else
{
wWFACSummaryCSV[i].WriteLine(wfac_csv_line[i] + "," + wWFACData[i][key]);
master_csv_line = master_csv_line + "," + wWFACData[i][key];
}
}
}
#endregion Write CSV lines for Wockets Firmware Activity Counts (WFAC)
#region Write CSV lines for Wockets Raw Activity Counts (WRAC)
//JPN: If WRAC data is available, add that to the summary spreadsheets
if (wWRACData != null)
{
//wrac_csv_line = new string[wWRACData.Length];
//for (int i = 0; (i < wWRACData.Length); i++)
// wrac_csv_line[i] = "";
//JPN: Iterate through each sensor
for (int i = 0; (i < wWRACData.Length); i++)
{
//JPN: Write blank data column if the current sample is not the start of a new WRAC minute epoch
if (wWRACData[i].ContainsKey(key) == false)
{
wWRACSummaryCSV[i].WriteLine(wrac_csv_line[i] + ",");
master_csv_line = master_csv_line + ",";
}
else
{
//JPN: Retrieve WRAC data point
int value = Convert.ToInt32(Convert.ToDouble(wWRACData[i][key]));
//JPN: Add scaled WRAC data to the WRAC text stream
wWRACSummaryCSV[i].WriteLine(wrac_csv_line[i] + "," + value);
//JPN: Add scaled WRAC data to the master summary CSV file
master_csv_line = master_csv_line + "," + value;
}
}
}
#endregion Write CSV lines for Wockets Raw Activity Counts (WRAC)
#region Write CSV lines for PLOT Wockets Firmware Activity Counts (WFAC)
if (wWFACData != null)
{
for (int i = 0; (i < wWFACData.Length); i++)
{
if (wWFACData[i].ContainsKey(key) == false)
{
master_csv_line = master_csv_line + "," + prevWFACPlotDataLine[i];
}
else
{
master_csv_line = master_csv_line + "," + wWFACData[i][key];
prevWFACPlotDataLine[i] = wWFACData[i][key].ToString();
}
}
}
#endregion Write CSV lines for PLOT Wockets Firmware Activity Counts (WFAC)
#region Write CSV lines for PLOT Wockets Raw Activity Counts (WRAC)
//JPN: If WRAC data is available, add that to the summary spreadsheets
if (wWRACData != null)
{
//JPN: Iterate through each sensor
for (int i = 0; (i < wWRACData.Length); i++)
{
//JPN: Carry over previous WRAC value if the current sample is not the start of a new WRAC minute epoch
if (wWRACData[i].ContainsKey(key) == false)
{
master_csv_line = master_csv_line + "," + prevWRACPlotDataLine[i];
}
//JPN: Log new WRAC value when the next minute epoch starts
else
{
//JPN: Retrieve WRAC data point
int value = Convert.ToInt32(Convert.ToDouble(wWRACData[i][key]));
//JPN: Add scaled WRAC data to the text stream
master_csv_line = master_csv_line + "," + value;
//JPN: Store this line so it can be repeated in the summary CSV until the WRAC value changes
prevWRACPlotDataLine[i] = value.ToString();
}
}
}
#endregion Write CSV lines for PLOT Wockets Raw Activity Counts (WRAC)
#region Write CSV line for Sensewear
if ((sensewearFound) && (sensewearCSV != null))
{
if (SSR.ContainsKey(key))
{
sensewearCSV.WriteLine(sensewear_csv_line + "," + (int)SSR[key] + "," + (double)STrans[key] +
"," + (double)SLong[key] + "," + (double)SAcc[key]);
master_csv_line = master_csv_line + "," + (int)SSR[key] + "," + (double)STrans[key] +
"," + (double)SLong[key] + "," + (double)SAcc[key];
}
else
{
sensewearCSV.WriteLine(sensewear_csv_line + ",,,,");
master_csv_line = master_csv_line + ",,,,";
}
}
#endregion Write CSV line for Sensewear
#region Write CSV line for Sensewear Vanderbilt
if ((sensewearVanderbiltFound) && (sensewearCSV != null))
{
if (sensewearData.ContainsKey(key))
{
sensewearCSV.WriteLine(sensewear_csv_line + "," + ((string)sensewearData[key]));
master_csv_line = master_csv_line + "," + ((string)sensewearData[key]);
}
else
{
sensewearCSV.WriteLine(sensewear_csv_line + ",,,,,,,,,,,,,");
master_csv_line = master_csv_line + ",,,,,,,,,,,,,";
}
}
#endregion Write CSV line for Sensewear Vanderbilt
#region Write CSV line for Zephyr
if ((zephyrFound) && (zephyrCSV != null))
{
if (zephyrData.ContainsKey(key))
{
zephyrCSV.WriteLine(zephyr_csv_line + "," + ((string)zephyrData[key]));
master_csv_line = master_csv_line + "," + ((string)zephyrData[key]);
}
else
{
zephyrCSV.WriteLine(zephyr_csv_line + ",,,,,,,,,,,,,,,,");
master_csv_line = master_csv_line + ",,,,,,,,,,,,,,,,";
}
}
#endregion Write CSV line for Zephyr
#region Write CSV line for Oxycon
if ((oxyconFound) && (oxyconCSV != null))
{
if (oxyconData.ContainsKey(key))
{
oxyconCSV.WriteLine(oxycon_csv_line + "," + ((string)oxyconData[key]));
master_csv_line = master_csv_line + "," + ((string)oxyconData[key]);
}
else
{
oxyconCSV.WriteLine(zephyr_csv_line + ",,,,,,,,");
master_csv_line = master_csv_line + ",,,,,,,,";
}
}
#endregion Write CSV line for Oxycon
#region Write CSV line for Omron
if ((omronFound) && (omronCSV != null))
{
if (omronData.Contains(key))
{
omronCSV.WriteLine(omron_csv_line + "," + ((int)omronData[key]));
master_csv_line = master_csv_line + "," + ((int)omronData[key]);
}
else
{
omronCSV.WriteLine(omron_csv_line + ",");
master_csv_line = master_csv_line + ",";
}
}
#endregion Write CSV line for Omron
#region Write CSV line for Columbia
if ((columbiaFound) && (columbiaCSV != null))
{
if (columbiaData.ContainsKey(key))
{
columbiaCSV.WriteLine(columbia_csv_line + "," + ((string)columbiaData[key]));
master_csv_line = master_csv_line + "," + ((string)columbiaData[key]);
}
else
{
columbiaCSV.WriteLine(columbia_csv_line + ",,,,,");
master_csv_line = master_csv_line + ",,,,,";
}
}
#endregion Write CSV line for Columbia
#region Write CSV line for GPS
if ((gpsFound) && (gpsCSV != null))
{
if (gpsData.ContainsKey(key))
{
gpsCSV.WriteLine(gps_csv_line + "," + ((string)gpsData[key]));
master_csv_line = master_csv_line + "," + ((string)gpsData[key]);
}
else
{
gpsCSV.WriteLine(gps_csv_line + ",,,,");
master_csv_line = master_csv_line + ",,,,";
}
}
#endregion Write CSV line for GPS
#region Write CSV line for RTI
if ((rtiFound) && (rtiCSV != null))
{
if (rtiData.ContainsKey(key))
{
rtiCSV.WriteLine(rti_csv_line + "," + ((string)rtiData[key]));
master_csv_line = master_csv_line + "," + ((string)rtiData[key]);
}
else
{
rtiCSV.WriteLine(rti_csv_line + ",,,,");
master_csv_line = master_csv_line + ",,,,";
}
}
#endregion Write CSV line for RTI
#region Write CSV line for RT3
if ((rt3Found) && (rt3CSV != null))
{
if (rt3Data.ContainsKey(key))
{
rt3CSV.WriteLine(rt3_csv_line + "," + ((string)rt3Data[key]));
master_csv_line = master_csv_line + "," + ((string)rt3Data[key]);
}
else
{
rt3CSV.WriteLine(rt3_csv_line + ",,,,");
master_csv_line = master_csv_line + ",,,,";
}
}
#endregion Write CSV line for RT3
masterCSV.WriteLine(master_csv_line);
#endregion Write the CSV lines for each sensor
//reinitialize variables
hrCount = 0;
sumHR = 0;
currentDateTime = currentDateTime.AddSeconds(1.0);
}
#region Convert Actigraph Raw Data to Wockets Raw Format and CSV
CSVProgress = "Converting Actigraph Raw Data to Wockets Raw Format and csv";
string actRawDirectory = aDataDirectory + "\\othersensors";
//file = Directory.GetFileSystemEntries(actRawDirectory, "*ActRawCSV*.csv");
file = Directory.GetFileSystemEntries(actRawDirectory, "*RAW*.csv");
if (file.Length > 0)
{
string line;
string[] row = { "" };
string startDate = "";
string startTime = "";
string startDT = "";
string endDate = "";
string endDT = "";
string endTime = "";
DateTime start = DateTime.MinValue;
DateTime end = DateTime.MinValue;
double totalActSeconds = 1;
double totalActSamples;
double actSR;
double nextActTime = 25;
int headcount = 0;
DateTime dateTime = DateTime.MinValue;
for (int i = 0; i < file.Length; i++)
{
string pth = Path.Combine(actRawDirectory, file[i]);
StreamReader sr = new StreamReader(pth);
headcount = 0;
int len = File.ReadAllLines(pth).Length;
len = len - 10;
//TextWriter tw = new StreamWriter(actRawDirectory + "/ActRawData" + (i+1) + ".csv");
TextWriter tw = new StreamWriter(aDataDirectory + "\\merged" + "\\Actigraph_Raw_Data" + (i + 1) + ".csv");
while ((line = sr.ReadLine()) != null)
{
headcount++;
if (headcount == 3)
{
row = line.Split(',');
startTime = row[0];
startTime = startTime.Substring(10);
}
if (headcount == 4)
{
row = line.Split(',');
startDate = row[0];
startDate = startDate.Substring(10);
startDT = startDate + startTime;
dateTime = DateTime.Parse(startDT);
start = DateTime.Parse(startDT);
dateTime = dateTime.AddSeconds(actigraphOffset[i]);
TimeSpan t = (dateTime - new DateTime(1970, 1, 1, 0, 0, 0, 0).ToLocalTime());
TimeSpan uts = dateTime.Subtract(new DateTime(1970, 1, 1, 0, 0, 0, 0));
double unixts = uts.TotalMilliseconds;
double ts = t.TotalMilliseconds;
}
if (headcount == 6)
{
row = line.Split(',');
endTime = row[0];
endTime = endTime.Substring(13);
}
if (headcount == 7)
{
row = line.Split(',');
endDate = row[0];
endDate = endDate.Substring(13);
endDT = endDate + endTime;
end = DateTime.Parse(endDT);
TimeSpan tsAct = end - start;
totalActSeconds = tsAct.TotalSeconds;
totalActSamples = len;
actSR = totalActSamples / totalActSeconds;
nextActTime = (1000 / actSR);
}
if (headcount > 10)
{
if (line.Contains("\""))
{
line = line.Replace("\"", "");
}
row = line.Split(',');
double xval, yval, zval;
diff = dateTime.Subtract(new DateTime(1970, 1, 1, 0, 0, 0, 0));
tw.Write(diff.TotalMilliseconds + ",");
dateTime = dateTime.AddMilliseconds(nextActTime);
//xval = Math.Round((Convert.ToDouble(row[1]) + 6) / 0.01171875);
// Wocket +X -> Actigraph +Axis 2
xval = Math.Round(((ACTRANGE / 2) - Convert.ToDouble(row[1])) / ACTWKTNORM);
xval = Math.Round(((ACTRANGE / 2) + Convert.ToDouble(row[1])) / ACTWKTNORM);
// Wocket +Y -> Actigraph +Axis 1
//yval = Math.Round(((ACTRANGE / 2) - (Convert.ToDouble(row[0]))) / ACTWKTNORM);
yval = Math.Round(((ACTRANGE / 2) + (Convert.ToDouble(row[0]))) / ACTWKTNORM);
//Wocket +Z -> Actigraph -Axis3
//zval = Math.Round((6 - (Convert.ToDouble(row[2]))) / 0.0171875);
zval = Math.Round((Convert.ToDouble(row[2]) + (ACTRANGE / 2)) / ACTWKTNORM);
//zval = Math.Round(((ACTRANGE / 2) - Convert.ToDouble(row[2])) / ACTWKTNORM);
tw.Write(xval + "," + yval + "," + zval + ",");
tw.WriteLine();
}
}
//totalActSamples = headcount - 10;
//actSR = totalActSamples / totalActSeconds;
tw.Close();
sr.Close();
//sr = new StreamReader(actRawDirectory + "\\actRawData" + (i+1) + ".csv");
sr = new StreamReader(aDataDirectory + "\\merged" + "\\Actigraph_Raw_Data" + (i + 1) + ".csv");
//i + 1
DateTime dt = DateTime.Parse(startDate + " " + startTime);
string date = dt.Year.ToString() + "-" + dt.Month.ToString() + "-" + dt.Day.ToString();
string dir = actRawDirectory + "\\Actigraph\\data\\raw\\PLFormat";
int hr = dt.Hour;
string dir1 = dir + "\\" + date + "\\" + dt.Hour.ToString();
Directory.CreateDirectory(dir1);
FileStream fs = new FileStream(dir1 + "\\Actigraph" + (i + 1) + ".PLFormat", FileMode.Create);
BinaryWriter bw = new BinaryWriter(fs);
DateTime currentDate = DateTime.MinValue;
int count = 0;
int currentDay;
int currentMonth;
int currentYear;
int currentHour;
int startDay = DateTime.Parse(startDT).Day;
int startMonth = DateTime.Parse(startDT).Month;
int startYear = DateTime.Parse(startDT).Year;
int startHour = DateTime.Parse(startDT).Hour;
while ((line = sr.ReadLine()) != null)
{
count++;
row = line.Split(',');
if (count == 1)
{
DateTime startDt;
UnixTime.GetDateTime(Convert.ToInt64(row[0]), out startDt);
startDay = startDt.Day;
startMonth = startDt.Month;
startYear = startDt.Year;
startHour = startDt.Hour;
}
UnixTime.GetDateTime(Convert.ToInt64(row[0]), out currentDate);
currentDay = currentDate.Day;
currentMonth = currentDate.Month;
currentYear = currentDate.Year;
currentHour = currentDate.Hour;
if (currentDay != startDay)
{
bw.Flush();
bw.Close();
fs.Close();
startDay = currentDay;
dir1 = dir + "/" + currentYear + "-" + currentMonth + "-" + currentDay + "/" + currentHour;
Directory.CreateDirectory(dir1);
fs = new FileStream(dir1 + "/Actigraph" + (i + 1) + ".PLFormat", FileMode.Create);
bw = new BinaryWriter(fs);
bw.Write(Convert.ToInt64(row[0]));
bw.Write(Convert.ToInt16(row[1]));
bw.Write(Convert.ToInt16(row[2]));
bw.Write(Convert.ToInt16(row[3]));
}
else if (currentHour != startHour)
{
bw.Flush();
bw.Close();
fs.Close();
startHour = currentHour;
dir1 = dir + "/" + currentYear + "-" + currentMonth + "-" + currentDay + "/" + currentHour;
Directory.CreateDirectory(dir1);
fs = new FileStream(dir1 + "/Actigraph" + (i + 1) + ".PLFormat", FileMode.Create);
bw = new BinaryWriter(fs);
bw.Write(Convert.ToInt64(row[0]));
bw.Write(Convert.ToInt16(row[1]));
bw.Write(Convert.ToInt16(row[2]));
bw.Write(Convert.ToInt16(row[3]));
}
else
{
bw.Write(Convert.ToInt64(row[0]));
bw.Write(Convert.ToInt16(row[1]));
bw.Write(Convert.ToInt16(row[2]));
bw.Write(Convert.ToInt16(row[3]));
}
}
tw.Close();
sr.Close();
bw.Close();
fs.Close();
}
}
else
{
if (Directory.Exists(actRawDirectory + "\\Actigraph\\data\\raw\\PLFormat"))
{
string[] actDir = Directory.GetDirectories(actRawDirectory + "\\Actigraph\\data\\raw\\PLFormat");
for (int i = 0; i < actDir.Length; i++)
{
string[] actSubDir = Directory.GetDirectories(actDir[i]);
for (int j = 0; j < actSubDir.Length; j++)
{
string[] actfile = Directory.GetFileSystemEntries(actSubDir[j]);
for (int k = 0; k < actfile.Length; k++)
{
FileStream fs = new FileStream(actfile[k], FileMode.Open);
BinaryReader br = new BinaryReader(fs);
//FileStream fs1 = new FileStream(actRawDirectory + "\\ActRawData" + (k+1) + ".csv", FileMode.Append);
FileStream fs1 = new FileStream(aDataDirectory + "\\merged" + "\\Actigraph_Raw_Data" + (k + 1) + ".csv", FileMode.Append);
TextWriter tw = new StreamWriter(fs1);
int length = (int)br.BaseStream.Length;
int pos = 0;
while (pos < length)
{
tw.Write(br.ReadInt64());
tw.Write("," + br.ReadInt16() + "," + br.ReadInt16() + "," + br.ReadInt16() + ",");
tw.WriteLine();
pos += 4 * sizeof(Int64);
}
tw.Close();
fs1.Close();
br.Close();
fs.Close();
}
}
}
}
}
#endregion
#region Close all files
if (aMITesDecoder != null)
{
foreach (SXML.Sensor sensor in sannotation.Sensors)
{
int sensor_id = Convert.ToInt32(sensor.ID);
if (sensor_id > 0)
{
activityCountCSVs[sensor_id].Flush();
samplingCSVs[sensor_id].Flush();
averagedRaw[sensor_id].Flush();
rmCSVs[sensor_id].Flush();
aucCSVs[sensor_id].Flush();
vmagCSVs[sensor_id].Flush();
activityCountCSVs[sensor_id].Close();
samplingCSVs[sensor_id].Close();
averagedRaw[sensor_id].Close();
rmCSVs[sensor_id].Close();
aucCSVs[sensor_id].Close();
vmagCSVs[sensor_id].Close();
}
}
}
if (hrCSV != null)
{
hrCSV.Flush();
hrCSV.Close();
}
if (wcontroller != null)
{
for (int i = 0; (i < wcontroller._Sensors.Count); i++)
{
int sensor_id = wcontroller._Sensors[i]._ID;
wactivityCountCSVs[sensor_id].Flush();
wsamplingCSVs[sensor_id].Flush();
waveragedRaw[sensor_id].Flush();
wrmCSVs[sensor_id].Flush();
waucCSVs[sensor_id].Flush();
wvmagCSVs[sensor_id].Flush();
wactivityCountCSVs[sensor_id].Close();
wsamplingCSVs[sensor_id].Close();
waveragedRaw[sensor_id].Close();
wrmCSVs[sensor_id].Close();
waucCSVs[sensor_id].Close();
wvmagCSVs[sensor_id].Close();
wocketsTR1[sensor_id].Close();
}
}
masterCSV.Flush();
masterCSV.Close();
for (int i = 0; (i < actigraphCSV.Length); i++)
actigraphCSV[i].Close();
//JPN: Close WFAC summary datafiles
if (wWFACSummaryCSV != null)
for (int i = 0; (i < wWFACSummaryCSV.Length); i++)
wWFACSummaryCSV[i].Close();
//JPN: Close WRAC summary datafiles
if (wWRACSummaryCSV != null)
for (int i = 0; (i < wWRACSummaryCSV.Length); i++)
wWRACSummaryCSV[i].Close();
if (sensewearCSV != null)
sensewearCSV.Close();
if (zephyrCSV != null)
zephyrCSV.Close();
if (oxyconCSV != null)
oxyconCSV.Close();
if (omronCSV != null)
omronCSV.Close();
if (columbiaCSV != null)
columbiaCSV.Close();
if (gpsCSV != null)
gpsCSV.Close();
if (rtiCSV != null)
rtiCSV.Close();
#endregion Close all files
}
