public static void Main()
{
DemonstrateAsyncPattern demonstrator = new DemonstrateAsyncPattern();
demonstrator.FactorizeNumberUsingCallback();
demonstrator.FactorizeNumberAndWait();
}
public int calibrateAWG(int AWGFreq)
{
double EquSampRate = 0;
double time = 0;
//AWGFreq = 100000000;
System.Console.WriteLine("Please configure unit to output waveform with freqeucncy specified.\nBegin waveform capture? (y/n)");
string line = Console.ReadLine();
if (line == "y")
{
DemonstrateAsyncPattern demonstrator = new DemonstrateAsyncPattern();
demonstrator.stopWatch.Start();
int numSamples = demonstrator.CalcNumSamples(AWGFreq, out EquSampRate, out time);
int timeMs = (int)(time * 1000);
//sleep amount of time to collect samples calculated by CalcNumSamples and sleep thread
//for that amount of time to simulate real waveform capture
Thread.Sleep(timeMs);
/* ResourceManager rMgr = new ResourceManager();
* FormattedIO488 src = new FormattedIO488();
* string srcAddress = "USB::0x0699::0x0343::C025388::0";
* src.IO = (Ivi.Visa.Interop.IMessage)rMgr.Open(srcAddress, AccessMode.NO_LOCK, 2000, null);
* src.IO.Timeout = 2000;
* src.WriteString("*IDN?", true);
* string temp = src.ReadString();
* src.WriteString("OUTPut1:STATe ON", true);*/
demonstrator.GetSamplesUsingCallback(numSamples, SAMPLE_RATE, AWGFreq);
// demonstrator.GetSamplesUsingCallback(numSamples, SAMPLE_RATE, AWGFreq);
return(0);
}
else if (line == "n")
{
System.Console.WriteLine("Capture cancelled");
return(2);
}
else
{
System.Console.WriteLine("Invalid input, please enter 'y' or 'n'. Exiting with code 1");
return(1);
}
}
/*MAIN TAKES IN COMMAND LINE ARGUMENT OF AWG WAVEFORM FREQUENCY.
* USES READ AND WRITE FUNCTIONS TO SEND/RECIEVE INFO TO/FROM USER
* MULTIPLE CLASSES AND FUNCTIONS ARE USED. TYPE CASTING CAN BE SEEN
* IN THE PROCESS SAMPPLES FUNCTION. ARRAY AND LOOP USE CAN BE SEEN IN
* THE SAMPLE COLLECTOR CLASS. ALL REQUIREMENTS SHOULD BE MET FOR C#
* level 1 MASTERY ACHIEVEMENT*/
public static int Main(string[] args)
{
DemonstrateAsyncPattern demonstrator = new DemonstrateAsyncPattern();
int AWGFreq = 0;
bool test = int.TryParse(args[0], out AWGFreq);
if (args.Length == 0)
{
System.Console.WriteLine("Invalid usage");
demonstrator.PrintError(AWGFreq);
return(1);
}
else if ((!test) || AWGFreq > 500000000 || AWGFreq < 100)
{
System.Console.WriteLine("Please use numeric input for AWG frequency between 100Hz and 500MHz.");
demonstrator.PrintError(AWGFreq);
return(1);
}
else
{
demonstrator.calibrateAWG(AWGFreq);
return(0);
}
}
public static void Main()
{
DemonstrateAsyncPattern demonstrator = new DemonstrateAsyncPattern();
demonstrator.FactorizeNumberUsingCallback();
demonstrator.FactorizeNumberAndWait();
demonstrator.FactorizeUsingTask();
demonstrator.FactorizeUsingAsync();
Console.WriteLine("Hello!");
Thread.Sleep(5000);
}
