public void EventTypeIsUnknowWhenRowIsInvalid()
{
string row = "???SDFSDŁ$Ł¤>-";
var eventArg = new SolarCollectorEventArg(row);
Assert.That(eventArg.Type, Is.EqualTo(EventType.Unknown));
}
private void CommunicationInterfaceSolarEvent(object sender, SolarCollectorEventArg e)
{
var sensor = e as SolarCollectorSensorEventArg;
if (sensor != null)
{
_dbHandler.AddDataEvent(sensor.RaisedAt, sensor.RaisedTime, sensor.SensorKey, sensor.SensorValue, sensor.SensorTextValue, e.Raw, e.Formatted);
}
_dbHandler.AddDataInfo(e.RaisedAt, e.RaisedTime, e.Raw, e.Type, e.Formatted);
if (e.Type == EventType.GetSetting)
{
AnswerSetting(e as SolarCollectorSettingEventArg);
}
}
public void RaisedTimeSetTo0_WhenTimeValueIsIncorrect()
{
var row = "TIME:5??11 INFO: STOP";
var now = DateTime.Now;
var eventArg = new SolarCollectorEventArg(row);
Assert.That(eventArg.RaisedTime, Is.EqualTo(0));
Assert.That(eventArg.RaisedAt, Is.InRange(now.AddSeconds(-1), now.AddSeconds(1)));
}
public void RaisedTimeComeFromString(string row, int expectedValue)
{
var now = DateTime.Now;
var eventArg = new SolarCollectorEventArg(row);
Assert.That(eventArg.RaisedTime, Is.EqualTo(expectedValue));
Assert.That(eventArg.RaisedAt, Is.InRange(now.AddSeconds(-1), now.AddSeconds(1)));
}
public void EventTypeReqGetTimeIsCorrect(string row)
{
var eventArg = new SolarCollectorEventArg(row);
Assert.That(eventArg.Type, Is.EqualTo(EventType.GetTime));
}
public void EventTypeInfoSettingIsCorrect(string row)
{
var eventArg = new SolarCollectorEventArg(row);
Assert.That(eventArg.Type, Is.EqualTo(EventType.Info));
}
public void RawDataEqualToGivenValue(string row)
{
var eventArg = new SolarCollectorEventArg(row);
Assert.That(eventArg.Raw, Is.EqualTo(row));
}
private void CommunicationInterfaceSolarEvent(object sender, SolarCollectorEventArg e)
{
switch (e.Type)
{
case EventType.GetTemp:
var tempEvent = e as SolarCollectorTempEventArg;
if (tempEvent != null)
{
switch (tempEvent.TempKey)
{
case 72:
_communicationInterface.SetTemp((int) inpCollectorActual.Value);
break;
case 73:
_communicationInterface.SetTemp((int) inpBoilerBottomActual.Value);
break;
case 74:
_communicationInterface.SetTemp((int) inpBoilerTopActual.Value);
break;
default:
_communicationInterface.SetTemp((int) inpCollectorActual.Value);
break;
}
}
return;
case EventType.GetTime:
_communicationInterface.SetTime(DateTime.Now);
break;
case EventType.GetSetting:
var settingEvent = e as SolarCollectorSettingEventArg;
if (settingEvent != null)
{
switch (settingEvent.SettingKey)
{
case Setting.DeltaEngineStopped:
_communicationInterface.AddSetSetting(settingEvent.SettingKey,
Convert.ToInt32(inpDeltaEngineStopped.Value));
break;
case Setting.BoilerTop:
_communicationInterface.AddSetSetting(settingEvent.SettingKey, Convert.ToInt32(inpBoilerTop.Value));
break;
case Setting.SolarCollectorMin:
_communicationInterface.AddSetSetting(settingEvent.SettingKey,
Convert.ToInt32(inpCollectorMin.Value));
break;
case Setting.SolarCollectorMax:
_communicationInterface.AddSetSetting(settingEvent.SettingKey,
Convert.ToInt32(inpCollectorMax.Value));
break;
case Setting.DeltaEngineRunning:
_communicationInterface.AddSetSetting(settingEvent.SettingKey,
Convert.ToInt32(inpDeltaEngineRunning.Value));
break;
default:
throw new ArgumentOutOfRangeException();
}
}
break;
}
if (_events.Count > 1000) _events.Clear();
_events.Add(e);
if (tbOutput.InvokeRequired)
{
var d = new SetTextCallback(SetOutput);
tbOutput.Invoke(d);
var d2 = new SetTextDataCallback(SetOutputData);
tbOutputData.Invoke(d2, new object[] { e});
}
else
{
SetOutput();
SetOutputData(e);
}
}
private void SetOutputData(SolarCollectorEventArg arg)
{
if (arg.Type == EventType.Data)
{
tbOutputData.AppendText(arg.Formatted);
}
}
