/// <summary>
/// Saves <see cref="OutputStreamDevice"/> information to database.
/// </summary>
/// <param name="database"><see cref="AdoDataConnection"/> to connection to database.</param>
/// <param name="outputStreamDevice">Information about <see cref="OutputStreamDevice"/>.</param>
/// <returns>String, for display use, indicating success.</returns>
public static string Save(AdoDataConnection database, OutputStreamDevice outputStreamDevice)
{
bool createdConnection = false;
string query;
try
{
createdConnection = CreateConnection(ref database);
if (outputStreamDevice.ID == 0)
{
query = database.ParameterizedQueryString("INSERT INTO OutputStreamDevice (NodeID, AdapterID, IDCode, Acronym, BpaAcronym, Name, " +
"PhasorDataFormat, FrequencyDataFormat, AnalogDataFormat, CoordinateFormat, LoadOrder, Enabled, UpdatedBy, UpdatedOn, CreatedBy, CreatedOn)" +
"VALUES ({0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}, {11}, {12}, {13}, {14}, {15})", "nodeID", "adapterID", "idCode", "acronym",
"bpaAcronym", "name", "phasorDataFormat", "frequencyDataFormat", "analogDataFormat", "coordinateFormat", "loadOrder", "enabled",
"updatedBy", "updatedOn", "createdBy", "createdOn");
database.Connection.ExecuteNonQuery(query, DefaultTimeout, database.CurrentNodeID(), outputStreamDevice.AdapterID, outputStreamDevice.IDCode,
outputStreamDevice.Acronym, outputStreamDevice.BpaAcronym.ToNotNull(), outputStreamDevice.Name, outputStreamDevice.PhasorDataFormat.ToNotNull(),
outputStreamDevice.FrequencyDataFormat.ToNotNull(), outputStreamDevice.AnalogDataFormat.ToNotNull(), outputStreamDevice.CoordinateFormat.ToNotNull(),
outputStreamDevice.LoadOrder, database.Bool(outputStreamDevice.Enabled), CommonFunctions.CurrentUser,
database.UtcNow, CommonFunctions.CurrentUser, database.UtcNow);
}
else
{
OutputStreamDevice originalDevice = GetOutputStreamDevice(database, "WHERE ID = " + outputStreamDevice.ID);
query = database.ParameterizedQueryString("UPDATE OutputStreamDevice SET NodeID = {0}, AdapterID = {1}, IDCode = {2}, Acronym = {3}, BpaAcronym = {4}, " +
"Name = {5}, PhasorDataFormat = {6}, FrequencyDataFormat = {7}, AnalogDataFormat = {8}, CoordinateFormat = {9}, LoadOrder = {10}, Enabled = {11}, " +
" UpdatedBy = {12}, UpdatedOn = {13} WHERE ID = {14}", "nodeID", "adapterID", "idCode", "acronym", "bpaAcronym", "name",
"phasorDataFormat", "frequencyDataFormat", "analogDataFormat", "coordinateFormat", "loadOrder", "enabled", "updatedBy", "updatedOn", "id");
database.Connection.ExecuteNonQuery(query, DefaultTimeout, database.Guid(outputStreamDevice.NodeID), outputStreamDevice.AdapterID, outputStreamDevice.IDCode,
outputStreamDevice.Acronym, outputStreamDevice.BpaAcronym.ToNotNull(), outputStreamDevice.Name, outputStreamDevice.PhasorDataFormat.ToNotNull(),
outputStreamDevice.FrequencyDataFormat.ToNotNull(), outputStreamDevice.AnalogDataFormat.ToNotNull(), outputStreamDevice.CoordinateFormat.ToNotNull(),
outputStreamDevice.LoadOrder, database.Bool(outputStreamDevice.Enabled), CommonFunctions.CurrentUser,
database.UtcNow, outputStreamDevice.ID);
if (originalDevice != null && originalDevice.Acronym != outputStreamDevice.Acronym)
{
IList <int> keys = OutputStreamMeasurement.LoadKeys(database, originalDevice.AdapterID);
foreach (OutputStreamMeasurement measurement in OutputStreamMeasurement.Load(database, keys))
{
measurement.SignalReference = measurement.SignalReference.Replace(originalDevice.Acronym + "-", outputStreamDevice.Acronym + "-");
OutputStreamMeasurement.Save(database, measurement);
}
}
}
return("OutputStreamDevice information saved successfully");
}
finally
{
if (createdConnection && database != null)
{
database.Dispose();
}
}
}
/// <summary>
/// Loads <see cref="OutputStreamDevice"/> information as an <see cref="ObservableCollection{T}"/> style list.
/// </summary>
/// <param name="database"><see cref="AdoDataConnection"/> to connection to database.</param>
/// <param name="keys">Keys of the measurement to be loaded from the datbase</param>
/// <returns>Collection of <see cref="OutputStreamDevice"/>.</returns>
public static ObservableCollection <OutputStreamDevice> Load(AdoDataConnection database, IList <int> keys)
{
bool createdConnection = false;
try
{
createdConnection = CreateConnection(ref database);
string query;
string commaSeparatedKeys;
OutputStreamDevice[] outputStreamDeviceList = null;
DataTable outputStreamDeviceTable;
int id;
if ((object)keys != null && keys.Count > 0)
{
commaSeparatedKeys = keys.Select(key => key.ToString()).Aggregate((str1, str2) => str1 + "," + str2);
query = string.Format("SELECT NodeID, AdapterID, ID, IDCode, Acronym, BpaAcronym, Name, PhasorDataFormat, " +
"FrequencyDataFormat, AnalogDataFormat, CoordinateFormat, LoadOrder, Enabled, Virtual " +
"FROM OutputStreamDeviceDetail WHERE ID IN ({0})", commaSeparatedKeys);
outputStreamDeviceTable = database.Connection.RetrieveData(database.AdapterType, query, DefaultTimeout);
outputStreamDeviceList = new OutputStreamDevice[outputStreamDeviceTable.Rows.Count];
foreach (DataRow row in outputStreamDeviceTable.Rows)
{
id = row.ConvertField <int>("ID");
outputStreamDeviceList[keys.IndexOf(id)] = new OutputStreamDevice()
{
NodeID = database.Guid(row, "NodeID"),
AdapterID = row.ConvertField <int>("AdapterID"),
ID = id,
IDCode = row.ConvertField <int>("IDCode"),
Acronym = row.Field <string>("Acronym"),
BpaAcronym = row.Field <string>("BpaAcronym"),
Name = row.Field <string>("Name"),
PhasorDataFormat = row.Field <string>("PhasorDataFormat"),
FrequencyDataFormat = row.Field <string>("FrequencyDataFormat"),
AnalogDataFormat = row.Field <string>("AnalogDataFormat"),
CoordinateFormat = row.Field <string>("CoordinateFormat"),
LoadOrder = row.ConvertField <int>("LoadOrder"),
Enabled = Convert.ToBoolean(row.Field <object>("Enabled")),
m_virtual = Convert.ToBoolean(row.Field <object>("Virtual"))
};
}
}
return(new ObservableCollection <OutputStreamDevice>(outputStreamDeviceList ?? new OutputStreamDevice[0]));
}
finally
{
if (createdConnection && database != null)
{
database.Dispose();
}
}
}
// *23456789012345+*23456789012345+*23456789012345+*23456789012345+*23456789012345+*23456789012345+*23456789012345+*23456789012345+
/// <summary>
/// Gets output stream device from the database based on where condition provided.
/// </summary>
/// <param name="database"><see cref="AdoDataConnection"/> to connection to database.</param>
/// <param name="whereClause">query string to filter data.</param>
/// <returns><see cref="OutputStreamDevice"/> information.</returns>
public static OutputStreamDevice GetOutputStreamDevice(AdoDataConnection database, string whereClause)
{
bool createdConnection = false;
try
{
createdConnection = CreateConnection(ref database);
DataTable deviceTable = database.Connection.RetrieveData(database.AdapterType, "SELECT * FROM OutputStreamDeviceDetail " + whereClause);
if (deviceTable.Rows.Count == 0)
{
return(null);
}
DataRow row = deviceTable.Rows[0];
OutputStreamDevice device = new OutputStreamDevice
{
NodeID = database.Guid(row, "NodeID"),
AdapterID = row.ConvertField <int>("AdapterID"),
ID = row.ConvertField <int>("ID"),
IDCode = row.ConvertField <int>("IDCode"),
Acronym = row.Field <string>("Acronym"),
BpaAcronym = row.Field <string>("BpaAcronym"),
Name = row.Field <string>("Name"),
PhasorDataFormat = row.Field <string>("PhasorDataFormat"),
FrequencyDataFormat = row.Field <string>("FrequencyDataFormat"),
AnalogDataFormat = row.Field <string>("AnalogDataFormat"),
CoordinateFormat = row.Field <string>("CoordinateFormat"),
LoadOrder = row.ConvertField <int>("LoadOrder"),
Enabled = Convert.ToBoolean(row.Field <object>("Enabled")),
m_virtual = Convert.ToBoolean(row.Field <object>("Virtual"))
};
return(device);
}
finally
{
if (createdConnection && database != null)
{
database.Dispose();
}
}
}
/// <summary>
/// Adds multiple devices to output steam.
/// </summary>
/// <param name="database"><see cref="AdoDataConnection"/> to connection to database.</param>
/// <param name="outputStreamID">ID of the output stream to which devices needs to be added.</param>
/// <param name="devices">Collection of devices to be added.</param>
/// <param name="addDigitals">Boolean flag indicating if analogs should be added.</param>
/// <param name="addAnalogs">Boolean flag indicating if digirals should be added.</param>
/// <returns>String, for display use, indicating success.</returns>
public static string AddDevices(AdoDataConnection database, int outputStreamID, ObservableCollection <Device> devices, bool addDigitals, bool addAnalogs)
{
bool createdConnection = false;
try
{
createdConnection = CreateConnection(ref database);
foreach (Device device in devices)
{
OutputStreamDevice outputStreamDevice = new OutputStreamDevice();
outputStreamDevice.NodeID = device.NodeID;
outputStreamDevice.AdapterID = outputStreamID;
outputStreamDevice.Acronym = device.Acronym.Substring(device.Acronym.LastIndexOf("!", StringComparison.Ordinal) + 1);
outputStreamDevice.BpaAcronym = string.Empty;
outputStreamDevice.Name = device.Name;
outputStreamDevice.LoadOrder = device.LoadOrder;
outputStreamDevice.Enabled = true;
outputStreamDevice.IDCode = device.AccessID;
Save(database, outputStreamDevice);
outputStreamDevice = GetOutputStreamDevice(database, "WHERE Acronym = '" + outputStreamDevice.Acronym + "' AND AdapterID = " + outputStreamID);
if ((object)outputStreamDevice != null)
{
IList <int> keys = Phasor.LoadKeys(database, device.ID);
ObservableCollection <Phasor> phasors = Phasor.Load(database, keys);
foreach (Phasor phasor in phasors)
{
OutputStreamDevicePhasor outputStreamDevicePhasor = new OutputStreamDevicePhasor();
outputStreamDevicePhasor.NodeID = device.NodeID;
outputStreamDevicePhasor.OutputStreamDeviceID = outputStreamDevice.ID;
outputStreamDevicePhasor.Label = phasor.Label;
outputStreamDevicePhasor.Type = phasor.Type;
outputStreamDevicePhasor.Phase = phasor.Phase;
outputStreamDevicePhasor.LoadOrder = phasor.SourceIndex;
OutputStreamDevicePhasor.Save(database, outputStreamDevicePhasor);
}
ObservableCollection <Measurement> measurements = Measurement.Load(database, device.ID);
int analogIndex = 0;
foreach (Measurement measurement in measurements)
{
if (measurement.SignalAcronym != "STAT" && measurement.SignalAcronym != "QUAL")
{
measurement.SignalReference = measurement.SignalReference.Substring(measurement.SignalReference.LastIndexOf("!", StringComparison.Ordinal) + 1);
if ((measurement.SignalAcronym != "ALOG" && measurement.SignalAcronym != "DIGI") || (measurement.SignalAcronym == "ALOG" && addAnalogs) || (measurement.SignalAcronym == "DIGI" && addDigitals))
{
OutputStreamMeasurement outputStreamMeasurement = new OutputStreamMeasurement();
outputStreamMeasurement.NodeID = device.NodeID;
outputStreamMeasurement.AdapterID = outputStreamID;
outputStreamMeasurement.HistorianID = measurement.HistorianID;
outputStreamMeasurement.PointID = measurement.PointID;
outputStreamMeasurement.SignalReference = measurement.SignalReference;
OutputStreamMeasurement.Save(database, outputStreamMeasurement);
}
if (addAnalogs && measurement.SignalAcronym == "ALOG")
{
OutputStreamDeviceAnalog outputStreamDeviceAnalog = new OutputStreamDeviceAnalog();
outputStreamDeviceAnalog.NodeID = device.NodeID;
outputStreamDeviceAnalog.OutputStreamDeviceID = outputStreamDevice.ID;
outputStreamDeviceAnalog.Label = string.IsNullOrEmpty(measurement.AlternateTag) ? device.Acronym.Length > 12 ? device.Acronym.Substring(0, 12) + ":A" + analogIndex : device.Acronym + ":A" + analogIndex : measurement.AlternateTag; // measurement.PointTag;
int charIndex = measurement.SignalReference.LastIndexOf("-", StringComparison.Ordinal);
int signalIndex;
if (charIndex >= 0 && charIndex + 3 < measurement.SignalReference.Length && int.TryParse(measurement.SignalReference.Substring(charIndex + 3), out signalIndex))
{
outputStreamDeviceAnalog.LoadOrder = signalIndex;
}
else
{
outputStreamDeviceAnalog.LoadOrder = 999;
}
OutputStreamDeviceAnalog.Save(database, outputStreamDeviceAnalog);
analogIndex++;
}
else if (addDigitals && measurement.SignalAcronym == "DIGI")
{
OutputStreamDeviceDigital outputStreamDeviceDigital = new OutputStreamDeviceDigital();
outputStreamDeviceDigital.NodeID = device.NodeID;
outputStreamDeviceDigital.OutputStreamDeviceID = outputStreamDevice.ID;
outputStreamDeviceDigital.Label = string.IsNullOrEmpty(measurement.AlternateTag) ? DefaultDigitalLabel : measurement.AlternateTag; // measurement.PointTag;
int charIndex = measurement.SignalReference.LastIndexOf("-", StringComparison.Ordinal);
int signalIndex;
if (charIndex >= 0 && charIndex + 3 < measurement.SignalReference.Length && int.TryParse(measurement.SignalReference.Substring(charIndex + 3), out signalIndex))
{
outputStreamDeviceDigital.LoadOrder = signalIndex;
}
else
{
outputStreamDeviceDigital.LoadOrder = 999;
}
OutputStreamDeviceDigital.Save(database, outputStreamDeviceDigital);
}
}
}
}
}
return("Output Stream Device(s) added successfully!");
}
finally
{
if (createdConnection && database != null)
{
database.Dispose();
}
}
}
// *23456789012345+*23456789012345+*23456789012345+*23456789012345+*23456789012345+*23456789012345+*23456789012345+*23456789012345+
/// <summary>
/// Gets output stream device from the database based on where condition provided.
/// </summary>
/// <param name="database"><see cref="AdoDataConnection"/> to connection to database.</param>
/// <param name="whereClause">query string to filter data.</param>
/// <returns><see cref="OutputStreamDevice"/> information.</returns>
public static OutputStreamDevice GetOutputStreamDevice(AdoDataConnection database, string whereClause)
{
bool createdConnection = false;
try
{
createdConnection = CreateConnection(ref database);
DataTable deviceTable = database.Connection.RetrieveData(database.AdapterType, "SELECT * FROM OutputStreamDeviceDetail " + whereClause);
if (deviceTable.Rows.Count == 0)
return null;
DataRow row = deviceTable.Rows[0];
OutputStreamDevice device = new OutputStreamDevice
{
NodeID = database.Guid(row, "NodeID"),
AdapterID = row.ConvertField<int>("AdapterID"),
ID = row.ConvertField<int>("ID"),
IDCode = row.ConvertField<int>("IDCode"),
Acronym = row.Field<string>("Acronym"),
BpaAcronym = row.Field<string>("BpaAcronym"),
Name = row.Field<string>("Name"),
PhasorDataFormat = row.Field<string>("PhasorDataFormat"),
FrequencyDataFormat = row.Field<string>("FrequencyDataFormat"),
AnalogDataFormat = row.Field<string>("AnalogDataFormat"),
CoordinateFormat = row.Field<string>("CoordinateFormat"),
LoadOrder = row.ConvertField<int>("LoadOrder"),
Enabled = Convert.ToBoolean(row.Field<object>("Enabled")),
m_virtual = Convert.ToBoolean(row.Field<object>("Virtual"))
};
return device;
}
finally
{
if (createdConnection && database != null)
database.Dispose();
}
}
/// <summary>
/// Adds multiple devices to output steam.
/// </summary>
/// <param name="database"><see cref="AdoDataConnection"/> to connection to database.</param>
/// <param name="outputStreamID">ID of the output stream to which devices needs to be added.</param>
/// <param name="devices">Collection of devices to be added.</param>
/// <param name="addDigitals">Boolean flag indicating if analogs should be added.</param>
/// <param name="addAnalogs">Boolean flag indicating if digirals should be added.</param>
/// <returns>String, for display use, indicating success.</returns>
public static string AddDevices(AdoDataConnection database, int outputStreamID, ObservableCollection<Device> devices, bool addDigitals, bool addAnalogs)
{
bool createdConnection = false;
try
{
createdConnection = CreateConnection(ref database);
foreach (Device device in devices)
{
OutputStreamDevice outputStreamDevice = new OutputStreamDevice();
outputStreamDevice.NodeID = device.NodeID;
outputStreamDevice.AdapterID = outputStreamID;
outputStreamDevice.Acronym = device.Acronym.Substring(device.Acronym.LastIndexOf("!", StringComparison.Ordinal) + 1);
outputStreamDevice.BpaAcronym = string.Empty;
outputStreamDevice.Name = device.Name;
outputStreamDevice.LoadOrder = device.LoadOrder;
outputStreamDevice.Enabled = true;
outputStreamDevice.IDCode = device.AccessID;
Save(database, outputStreamDevice);
outputStreamDevice = GetOutputStreamDevice(database, "WHERE Acronym = '" + outputStreamDevice.Acronym + "' AND AdapterID = " + outputStreamID);
if ((object)outputStreamDevice != null)
{
IList<int> keys = Phasor.LoadKeys(database, device.ID);
ObservableCollection<Phasor> phasors = Phasor.Load(database, keys);
foreach (Phasor phasor in phasors)
{
OutputStreamDevicePhasor outputStreamDevicePhasor = new OutputStreamDevicePhasor();
outputStreamDevicePhasor.NodeID = device.NodeID;
outputStreamDevicePhasor.OutputStreamDeviceID = outputStreamDevice.ID;
outputStreamDevicePhasor.Label = phasor.Label;
outputStreamDevicePhasor.Type = phasor.Type;
outputStreamDevicePhasor.Phase = phasor.Phase;
outputStreamDevicePhasor.LoadOrder = phasor.SourceIndex;
OutputStreamDevicePhasor.Save(database, outputStreamDevicePhasor);
}
ObservableCollection<Measurement> measurements = Measurement.Load(database, device.ID);
int analogIndex = 0;
foreach (Measurement measurement in measurements)
{
if (measurement.SignalAcronym != "STAT" && measurement.SignalAcronym != "QUAL")
{
measurement.SignalReference = measurement.SignalReference.Substring(measurement.SignalReference.LastIndexOf("!", StringComparison.Ordinal) + 1);
if ((measurement.SignalAcronym != "ALOG" && measurement.SignalAcronym != "DIGI") || (measurement.SignalAcronym == "ALOG" && addAnalogs) || (measurement.SignalAcronym == "DIGI" && addDigitals))
{
OutputStreamMeasurement outputStreamMeasurement = new OutputStreamMeasurement();
outputStreamMeasurement.NodeID = device.NodeID;
outputStreamMeasurement.AdapterID = outputStreamID;
outputStreamMeasurement.HistorianID = measurement.HistorianID;
outputStreamMeasurement.PointID = measurement.PointID;
outputStreamMeasurement.SignalReference = measurement.SignalReference;
OutputStreamMeasurement.Save(database, outputStreamMeasurement);
}
if (addAnalogs && measurement.SignalAcronym == "ALOG")
{
OutputStreamDeviceAnalog outputStreamDeviceAnalog = new OutputStreamDeviceAnalog();
outputStreamDeviceAnalog.NodeID = device.NodeID;
outputStreamDeviceAnalog.OutputStreamDeviceID = outputStreamDevice.ID;
outputStreamDeviceAnalog.Label = string.IsNullOrEmpty(measurement.AlternateTag) ? device.Acronym.Length > 12 ? device.Acronym.Substring(0, 12) + ":A" + analogIndex : device.Acronym + ":A" + analogIndex : measurement.AlternateTag; // measurement.PointTag;
int charIndex = measurement.SignalReference.LastIndexOf("-", StringComparison.Ordinal);
int signalIndex;
if (charIndex >= 0 && charIndex + 3 < measurement.SignalReference.Length && int.TryParse(measurement.SignalReference.Substring(charIndex + 3), out signalIndex))
outputStreamDeviceAnalog.LoadOrder = signalIndex;
else
outputStreamDeviceAnalog.LoadOrder = 999;
OutputStreamDeviceAnalog.Save(database, outputStreamDeviceAnalog);
analogIndex++;
}
else if (addDigitals && measurement.SignalAcronym == "DIGI")
{
OutputStreamDeviceDigital outputStreamDeviceDigital = new OutputStreamDeviceDigital();
outputStreamDeviceDigital.NodeID = device.NodeID;
outputStreamDeviceDigital.OutputStreamDeviceID = outputStreamDevice.ID;
outputStreamDeviceDigital.Label = string.IsNullOrEmpty(measurement.AlternateTag) ? DefaultDigitalLabel : measurement.AlternateTag; // measurement.PointTag;
int charIndex = measurement.SignalReference.LastIndexOf("-", StringComparison.Ordinal);
int signalIndex;
if (charIndex >= 0 && charIndex + 3 < measurement.SignalReference.Length && int.TryParse(measurement.SignalReference.Substring(charIndex + 3), out signalIndex))
outputStreamDeviceDigital.LoadOrder = signalIndex;
else
outputStreamDeviceDigital.LoadOrder = 999;
OutputStreamDeviceDigital.Save(database, outputStreamDeviceDigital);
}
}
}
}
}
return "Output Stream Device(s) added successfully!";
}
finally
{
if (createdConnection && database != null)
database.Dispose();
}
}
/// <summary>
/// Saves <see cref="OutputStreamDevice"/> information to database.
/// </summary>
/// <param name="database"><see cref="AdoDataConnection"/> to connection to database.</param>
/// <param name="outputStreamDevice">Information about <see cref="OutputStreamDevice"/>.</param>
/// <returns>String, for display use, indicating success.</returns>
public static string Save(AdoDataConnection database, OutputStreamDevice outputStreamDevice)
{
bool createdConnection = false;
string query;
try
{
createdConnection = CreateConnection(ref database);
if (outputStreamDevice.ID == 0)
{
query = database.ParameterizedQueryString("INSERT INTO OutputStreamDevice (NodeID, AdapterID, IDCode, Acronym, BpaAcronym, Name, " +
"PhasorDataFormat, FrequencyDataFormat, AnalogDataFormat, CoordinateFormat, LoadOrder, Enabled, UpdatedBy, UpdatedOn, CreatedBy, CreatedOn)" +
"VALUES ({0}, {1}, {2}, {3}, {4}, {5}, {6}, {7}, {8}, {9}, {10}, {11}, {12}, {13}, {14}, {15})", "nodeID", "adapterID", "idCode", "acronym",
"bpaAcronym", "name", "phasorDataFormat", "frequencyDataFormat", "analogDataFormat", "coordinateFormat", "loadOrder", "enabled",
"updatedBy", "updatedOn", "createdBy", "createdOn");
database.Connection.ExecuteNonQuery(query, DefaultTimeout, database.CurrentNodeID(), outputStreamDevice.AdapterID, outputStreamDevice.IDCode,
outputStreamDevice.Acronym, outputStreamDevice.BpaAcronym.ToNotNull(), outputStreamDevice.Name, outputStreamDevice.PhasorDataFormat.ToNotNull(),
outputStreamDevice.FrequencyDataFormat.ToNotNull(), outputStreamDevice.AnalogDataFormat.ToNotNull(), outputStreamDevice.CoordinateFormat.ToNotNull(),
outputStreamDevice.LoadOrder, database.Bool(outputStreamDevice.Enabled), CommonFunctions.CurrentUser,
database.UtcNow, CommonFunctions.CurrentUser, database.UtcNow);
}
else
{
OutputStreamDevice originalDevice = GetOutputStreamDevice(database, "WHERE ID = " + outputStreamDevice.ID);
query = database.ParameterizedQueryString("UPDATE OutputStreamDevice SET NodeID = {0}, AdapterID = {1}, IDCode = {2}, Acronym = {3}, BpaAcronym = {4}, " +
"Name = {5}, PhasorDataFormat = {6}, FrequencyDataFormat = {7}, AnalogDataFormat = {8}, CoordinateFormat = {9}, LoadOrder = {10}, Enabled = {11}, " +
" UpdatedBy = {12}, UpdatedOn = {13} WHERE ID = {14}", "nodeID", "adapterID", "idCode", "acronym", "bpaAcronym", "name",
"phasorDataFormat", "frequencyDataFormat", "analogDataFormat", "coordinateFormat", "loadOrder", "enabled", "updatedBy", "updatedOn", "id");
database.Connection.ExecuteNonQuery(query, DefaultTimeout, database.Guid(outputStreamDevice.NodeID), outputStreamDevice.AdapterID, outputStreamDevice.IDCode,
outputStreamDevice.Acronym, outputStreamDevice.BpaAcronym.ToNotNull(), outputStreamDevice.Name, outputStreamDevice.PhasorDataFormat.ToNotNull(),
outputStreamDevice.FrequencyDataFormat.ToNotNull(), outputStreamDevice.AnalogDataFormat.ToNotNull(), outputStreamDevice.CoordinateFormat.ToNotNull(),
outputStreamDevice.LoadOrder, database.Bool(outputStreamDevice.Enabled), CommonFunctions.CurrentUser,
database.UtcNow, outputStreamDevice.ID);
if (originalDevice != null && originalDevice.Acronym != outputStreamDevice.Acronym)
{
IList<int> keys = OutputStreamMeasurement.LoadKeys(database, originalDevice.AdapterID);
foreach (OutputStreamMeasurement measurement in OutputStreamMeasurement.Load(database, keys))
{
measurement.SignalReference = measurement.SignalReference.Replace(originalDevice.Acronym + "-", outputStreamDevice.Acronym + "-");
OutputStreamMeasurement.Save(database, measurement);
}
}
}
return "OutputStreamDevice information saved successfully";
}
finally
{
if (createdConnection && database != null)
database.Dispose();
}
}
/// <summary>
/// Loads <see cref="OutputStreamDevice"/> information as an <see cref="ObservableCollection{T}"/> style list.
/// </summary>
/// <param name="database"><see cref="AdoDataConnection"/> to connection to database.</param>
/// <param name="keys">Keys of the measurement to be loaded from the datbase</param>
/// <returns>Collection of <see cref="OutputStreamDevice"/>.</returns>
public static ObservableCollection<OutputStreamDevice> Load(AdoDataConnection database, IList<int> keys)
{
bool createdConnection = false;
try
{
createdConnection = CreateConnection(ref database);
string query;
string commaSeparatedKeys;
OutputStreamDevice[] outputStreamDeviceList = null;
DataTable outputStreamDeviceTable;
int id;
if ((object)keys != null && keys.Count > 0)
{
commaSeparatedKeys = keys.Select(key => key.ToString()).Aggregate((str1, str2) => str1 + "," + str2);
query = string.Format("SELECT NodeID, AdapterID, ID, IDCode, Acronym, BpaAcronym, Name, PhasorDataFormat, " +
"FrequencyDataFormat, AnalogDataFormat, CoordinateFormat, LoadOrder, Enabled, Virtual " +
"FROM OutputStreamDeviceDetail WHERE ID IN ({0})", commaSeparatedKeys);
if (database.IsMySQL)
{
query = string.Format("SELECT NodeID, AdapterID, ID, IDCode, Acronym, BpaAcronym, Name, PhasorDataFormat, " +
"FrequencyDataFormat, AnalogDataFormat, CoordinateFormat, LoadOrder, Enabled, `Virtual` " +
"FROM OutputStreamDeviceDetail WHERE ID IN ({0})", commaSeparatedKeys);
}
outputStreamDeviceTable = database.Connection.RetrieveData(database.AdapterType, query, DefaultTimeout);
outputStreamDeviceList = new OutputStreamDevice[outputStreamDeviceTable.Rows.Count];
foreach (DataRow row in outputStreamDeviceTable.Rows)
{
id = row.ConvertField<int>("ID");
outputStreamDeviceList[keys.IndexOf(id)] = new OutputStreamDevice()
{
NodeID = database.Guid(row, "NodeID"),
AdapterID = row.ConvertField<int>("AdapterID"),
ID = id,
IDCode = row.ConvertField<int>("IDCode"),
Acronym = row.Field<string>("Acronym"),
BpaAcronym = row.Field<string>("BpaAcronym"),
Name = row.Field<string>("Name"),
PhasorDataFormat = row.Field<string>("PhasorDataFormat"),
FrequencyDataFormat = row.Field<string>("FrequencyDataFormat"),
AnalogDataFormat = row.Field<string>("AnalogDataFormat"),
CoordinateFormat = row.Field<string>("CoordinateFormat"),
LoadOrder = row.ConvertField<int>("LoadOrder"),
Enabled = Convert.ToBoolean(row.Field<object>("Enabled")),
m_virtual = Convert.ToBoolean(row.Field<object>("Virtual"))
};
}
}
return new ObservableCollection<OutputStreamDevice>(outputStreamDeviceList ?? new OutputStreamDevice[0]);
}
finally
{
if (createdConnection && database != null)
database.Dispose();
}
}