public static YCurrentProxy FindCurrent(string name)
{
// cases to handle:
// name ="" no matching unknwn
// name ="" unknown exists
// name != "" no matching unknown
// name !="" unknown exists
YCurrent func = null;
YCurrentProxy res = (YCurrentProxy)YFunctionProxy.FindSimilarUnknownFunction("YCurrentProxy");
if (name == "")
{
if (res != null)
{
return(res);
}
res = (YCurrentProxy)YFunctionProxy.FindSimilarKnownFunction("YCurrentProxy");
if (res != null)
{
return(res);
}
func = YCurrent.FirstCurrent();
if (func != null)
{
name = func.get_hardwareId();
if (func.get_userData() != null)
{
return((YCurrentProxy)func.get_userData());
}
}
}
else
{
func = YCurrent.FindCurrent(name);
if (func.get_userData() != null)
{
return((YCurrentProxy)func.get_userData());
}
}
if (res == null)
{
res = new YCurrentProxy(func, name);
}
if (func != null)
{
res.linkToHardware(name);
if (func.isOnline())
{
res.arrival();
}
}
return(res);
}
/**
* <summary>
* Enumerates all functions of type Current available on the devices
* currently reachable by the library, and returns their unique hardware ID.
* <para>
* Each of these IDs can be provided as argument to the method
* <c>YCurrent.FindCurrent</c> to obtain an object that can control the
* corresponding device.
* </para>
* </summary>
* <returns>
* an array of strings, each string containing the unique hardwareId
* of a device function currently connected.
* </returns>
*/
public static new string[] GetSimilarFunctions()
{
List <string> res = new List <string>();
YCurrent it = YCurrent.FirstCurrent();
while (it != null)
{
res.Add(it.get_hardwareId());
it = it.nextCurrent();
}
return(res.ToArray());
}
public override async Task <int> Run()
{
try {
await YAPI.RegisterHub(HubURL);
YCurrent sensor;
YCurrent sensorDC = null;
YCurrent sensorAC = null;
if (Target.ToLower() == "any")
{
// retreive any voltage sensor (can be AC or DC)
sensor = YCurrent.FirstCurrent();
if (sensor == null)
{
WriteLine("No module connected");
return(-1);
}
Target = await(await sensor.get_module()).get_serialNumber();
}
WriteLine("using " + Target);
// we need to retreive both DC and AC from the device.
sensorDC = YCurrent.FindCurrent(Target + ".current1");
sensorAC = YCurrent.FindCurrent(Target + ".current2");
while (await sensorDC.isOnline())
{
Write("DC: " + await sensorDC.get_currentValue() + " mA / ");
WriteLine("AC: " + await sensorAC.get_currentValue() + " mA ");
await YAPI.Sleep(1000);
}
WriteLine("Module not connected (check identification and USB cable)");
} catch (YAPI_Exception ex) {
WriteLine("error: " + ex.Message);
}
YAPI.FreeAPI();
return(0);
}
static void Main(string[] args)
{
string errmsg = "";
string target;
YCurrent sensor;
YCurrent sensorDC = null;
YCurrent sensorAC = null;
YModule m = null;
if (args.Length < 1)
{
usage();
}
target = args[0].ToUpper();
// Setup the API to use local USB devices
if (YAPI.RegisterHub("usb", ref errmsg) != YAPI.SUCCESS)
{
Console.WriteLine("RegisterHub error: " + errmsg);
Environment.Exit(0);
}
if (target == "ANY")
{
// retreive any voltage sensor (can be AC or DC)
sensor = YCurrent.FirstCurrent();
if (sensor == null)
{
die("No module connected");
}
}
else
{
sensor = YCurrent.FindCurrent(target + ".current1");
}
// we need to retreive both DC and AC voltage from the device.
if (sensor.isOnline())
{
m = sensor.get_module();
sensorDC = YCurrent.FindCurrent(m.get_serialNumber() + ".current1");
sensorAC = YCurrent.FindCurrent(m.get_serialNumber() + ".current2");
}
else
{
die("Module not connected");
}
if (!m.isOnline())
{
die("Module not connected");
}
while (m.isOnline())
{
Console.Write("DC: " + sensorDC.get_currentValue().ToString() + " mA ");
Console.Write("AC: " + sensorAC.get_currentValue().ToString() + " mA ");
Console.WriteLine(" (press Ctrl-C to exit)");
YAPI.Sleep(1000, ref errmsg);
}
YAPI.FreeAPI();
}
// Token: 0x06000002 RID: 2 RVA: 0x000020B8 File Offset: 0x000002B8
private void startBtn_Click(object sender, EventArgs e)
{
if (this.startBtn.Text.Equals("Start"))
{
this.remainTime.Text = "";
this.logVolAl.Clear();
this.logCurrAl.Clear();
this.cSum = 0.0;
this.vSum = 0.0;
this.ccount = 0;
if (this.intervalTB.Text.Trim().Equals(""))
{
MessageBox.Show("Please insert interval time.", "Warning");
return;
}
if (this.testTimeTB.Text.Trim().Equals(""))
{
MessageBox.Show("Please insert test time.", "Warning");
return;
}
try
{
this.timer1.Interval = Convert.ToInt32(this.intervalTB.Text.Trim());
}
catch (Exception ex)
{
MessageBox.Show(ex.Message, "Error(Interval Time)");
return;
}
try
{
this.timeCount = Convert.ToInt32(this.testTimeTB.Text.Trim());
}
catch (Exception ex2)
{
MessageBox.Show(ex2.Message, "Error(Test Time)");
return;
}
this.voltageSensor = YVoltage.FirstVoltage();
if (this.voltageSensor == null || !this.voltageSensor.isOnline())
{
MessageBox.Show("Voltage module not connected.", "Error");
return;
}
this.m = this.voltageSensor.get_module();
this.voltageSensorDC = YVoltage.FindVoltage(this.m.get_serialNumber() + ".voltage1");
this.m = null;
this.currentSensor = YCurrent.FirstCurrent();
if (this.currentSensor != null && this.currentSensor.isOnline())
{
this.m = this.currentSensor.get_module();
this.currentSensorDC = YCurrent.FindCurrent(this.m.get_serialNumber() + ".current1");
this.m = null;
this.startBtn.Text = "Stop";
this.timer1.Enabled = true;
this.timer2.Enabled = true;
this.remainTime.Visible = true;
this.intervalTB.Enabled = false;
this.testTimeTB.Enabled = false;
return;
}
MessageBox.Show("Current module not connected.", "Error");
return;
}
else
{
this.timer1.Enabled = false;
this.timer2.Enabled = false;
this.remainTime.Visible = false;
this.intervalTB.Enabled = true;
this.testTimeTB.Enabled = true;
this.startBtn.Text = "Start";
}
}
