public void ThrowsOnNullData()
{
double[] data = null;
// ReSharper disable InvokeAsExtensionMethod
Assert.That(() => Statistics.Minimum(data), Throws.Exception);
Assert.That(() => Statistics.Maximum(data), Throws.Exception);
Assert.That(() => Statistics.Mean(data), Throws.Exception);
Assert.That(() => Statistics.Median(data), Throws.Exception);
Assert.That(() => Statistics.Quantile(data, 0.3), Throws.Exception);
Assert.That(() => Statistics.Variance(data), Throws.Exception);
Assert.That(() => Statistics.StandardDeviation(data), Throws.Exception);
Assert.That(() => Statistics.PopulationVariance(data), Throws.Exception);
Assert.That(() => Statistics.PopulationStandardDeviation(data), Throws.Exception);
Assert.That(() => Statistics.Covariance(data, data), Throws.Exception);
Assert.That(() => Statistics.PopulationCovariance(data, data), Throws.Exception);
// ReSharper restore InvokeAsExtensionMethod
Assert.That(() => SortedArrayStatistics.Minimum(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.Minimum(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.Maximum(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.OrderStatistic(data, 1), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.Median(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.LowerQuartile(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.UpperQuartile(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.Percentile(data, 30), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.Quantile(data, 0.3), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.QuantileCustom(data, 0.3, 0, 0, 1, 0), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.QuantileCustom(data, 0.3, QuantileDefinition.Nearest), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.InterquartileRange(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => SortedArrayStatistics.FiveNumberSummary(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.Minimum(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.Maximum(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.OrderStatisticInplace(data, 1), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.Mean(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.Variance(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.StandardDeviation(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.PopulationVariance(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.PopulationStandardDeviation(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.Covariance(data, data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.PopulationCovariance(data, data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.MedianInplace(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => ArrayStatistics.QuantileInplace(data, 0.3), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => StreamingStatistics.Minimum(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => StreamingStatistics.Maximum(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => StreamingStatistics.Mean(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => StreamingStatistics.Variance(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => StreamingStatistics.StandardDeviation(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => StreamingStatistics.PopulationVariance(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => StreamingStatistics.PopulationStandardDeviation(data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => StreamingStatistics.Covariance(data, data), Throws.Exception.TypeOf <NullReferenceException>());
Assert.That(() => StreamingStatistics.PopulationCovariance(data, data), Throws.Exception.TypeOf <NullReferenceException>());
}
private static List <StatResult> NumericStat(List <string> data)
{
List <StatResult> results = new List <StatResult>();
try
{
var numData = data.Select(x => double.Parse(x)).ToList();
double min = ArrayStatistics.Minimum(numData.ToArray());
double max = ArrayStatistics.Maximum(numData.ToArray());
results.Add(new StatResult
{
Label = "Moyenne",
Result = ArrayStatistics.Mean(numData.ToArray()).ToString(CultureInfo.InvariantCulture)
});
results.Add(new StatResult
{
Label = "Médiane",
Result = ArrayStatistics.MedianInplace(numData.ToArray()).ToString(CultureInfo.InvariantCulture)
});
results.Add(new StatResult
{
Label = "Maximum",
Result = max.ToString(CultureInfo.InvariantCulture)
});
results.Add(new StatResult
{
Label = "Minimum",
Result = min.ToString(CultureInfo.InvariantCulture)
});
results.Add(new StatResult
{
Label = "Étendue",
Result = (max - min).ToString(CultureInfo.InvariantCulture)
});
results.Add(new StatResult
{
Label = "Écart-type",
Result = ArrayStatistics.StandardDeviation(numData.ToArray()).ToString(CultureInfo.InvariantCulture)
});
results.Add(new StatResult
{
Label = "Variance",
Result = ArrayStatistics.Variance(numData.ToArray()).ToString(CultureInfo.InvariantCulture)
});
}
catch (Exception ex)
{
Logger.LogError(ex.Message);
}
return(results);
}
public void ThrowsOnNullData()
{
double[] data = null;
Assert.Throws <ArgumentNullException>(() => Statistics.Minimum(data));
Assert.Throws <ArgumentNullException>(() => Statistics.Maximum(data));
Assert.Throws <ArgumentNullException>(() => Statistics.Mean(data));
Assert.Throws <ArgumentNullException>(() => Statistics.Median(data));
Assert.Throws <ArgumentNullException>(() => Statistics.Quantile(data, 0.3));
Assert.Throws <ArgumentNullException>(() => Statistics.Variance(data));
Assert.Throws <ArgumentNullException>(() => Statistics.StandardDeviation(data));
Assert.Throws <ArgumentNullException>(() => Statistics.PopulationVariance(data));
Assert.Throws <ArgumentNullException>(() => Statistics.PopulationStandardDeviation(data));
Assert.Throws <ArgumentNullException>(() => Statistics.Covariance(data, data));
Assert.Throws <ArgumentNullException>(() => Statistics.PopulationCovariance(data, data));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.Minimum(data));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.Maximum(data));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.OrderStatistic(data, 1));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.Median(data));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.LowerQuartile(data));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.UpperQuartile(data));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.Percentile(data, 30));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.Quantile(data, 0.3));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.QuantileCustom(data, 0.3, 0, 0, 1, 0));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.QuantileCustom(data, 0.3, QuantileDefinition.Nearest));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.InterquartileRange(data));
Assert.Throws <ArgumentNullException>(() => SortedArrayStatistics.FiveNumberSummary(data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.Minimum(data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.Maximum(data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.OrderStatisticInplace(data, 1));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.Mean(data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.Variance(data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.StandardDeviation(data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.PopulationVariance(data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.PopulationStandardDeviation(data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.Covariance(data, data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.PopulationCovariance(data, data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.MedianInplace(data));
Assert.Throws <ArgumentNullException>(() => ArrayStatistics.QuantileInplace(data, 0.3));
Assert.Throws <ArgumentNullException>(() => StreamingStatistics.Minimum(data));
Assert.Throws <ArgumentNullException>(() => StreamingStatistics.Maximum(data));
Assert.Throws <ArgumentNullException>(() => StreamingStatistics.Mean(data));
Assert.Throws <ArgumentNullException>(() => StreamingStatistics.Variance(data));
Assert.Throws <ArgumentNullException>(() => StreamingStatistics.StandardDeviation(data));
Assert.Throws <ArgumentNullException>(() => StreamingStatistics.PopulationVariance(data));
Assert.Throws <ArgumentNullException>(() => StreamingStatistics.PopulationStandardDeviation(data));
Assert.Throws <ArgumentNullException>(() => StreamingStatistics.Covariance(data, data));
Assert.Throws <ArgumentNullException>(() => StreamingStatistics.PopulationCovariance(data, data));
}
public void Median_CodeplexIssue5667()
{
var seq = File.ReadLines("./data/Codeplex-5667.csv").Select(double.Parse);
Assert.AreEqual(1.0, Statistics.Median(seq));
var array = seq.ToArray();
Assert.AreEqual(1.0, ArrayStatistics.MedianInplace(array));
Array.Sort(array);
Assert.AreEqual(1.0, SortedArrayStatistics.Median(array));
}
public void DoesNotThrowOnEmptyData()
{
double[] data = new double[0];
Assert.DoesNotThrow(() => Statistics.Minimum(data));
Assert.DoesNotThrow(() => Statistics.Maximum(data));
Assert.DoesNotThrow(() => Statistics.Mean(data));
Assert.DoesNotThrow(() => Statistics.Median(data));
Assert.DoesNotThrow(() => Statistics.Quantile(data, 0.3));
Assert.DoesNotThrow(() => Statistics.Variance(data));
Assert.DoesNotThrow(() => Statistics.StandardDeviation(data));
Assert.DoesNotThrow(() => Statistics.PopulationVariance(data));
Assert.DoesNotThrow(() => Statistics.PopulationStandardDeviation(data));
Assert.DoesNotThrow(() => SortedArrayStatistics.Minimum(data));
Assert.DoesNotThrow(() => SortedArrayStatistics.Maximum(data));
Assert.DoesNotThrow(() => SortedArrayStatistics.OrderStatistic(data, 1));
Assert.DoesNotThrow(() => SortedArrayStatistics.Median(data));
Assert.DoesNotThrow(() => SortedArrayStatistics.LowerQuartile(data));
Assert.DoesNotThrow(() => SortedArrayStatistics.UpperQuartile(data));
Assert.DoesNotThrow(() => SortedArrayStatistics.Percentile(data, 30));
Assert.DoesNotThrow(() => SortedArrayStatistics.Quantile(data, 0.3));
Assert.DoesNotThrow(() => SortedArrayStatistics.QuantileCustom(data, 0.3, 0, 0, 1, 0));
Assert.DoesNotThrow(() => SortedArrayStatistics.QuantileCustom(data, 0.3, QuantileDefinition.Nearest));
Assert.DoesNotThrow(() => SortedArrayStatistics.InterquartileRange(data));
Assert.DoesNotThrow(() => SortedArrayStatistics.FiveNumberSummary(data));
Assert.DoesNotThrow(() => ArrayStatistics.Minimum(data));
Assert.DoesNotThrow(() => ArrayStatistics.Maximum(data));
Assert.DoesNotThrow(() => ArrayStatistics.OrderStatisticInplace(data, 1));
Assert.DoesNotThrow(() => ArrayStatistics.Mean(data));
Assert.DoesNotThrow(() => ArrayStatistics.Variance(data));
Assert.DoesNotThrow(() => ArrayStatistics.StandardDeviation(data));
Assert.DoesNotThrow(() => ArrayStatistics.PopulationVariance(data));
Assert.DoesNotThrow(() => ArrayStatistics.PopulationStandardDeviation(data));
Assert.DoesNotThrow(() => ArrayStatistics.MedianInplace(data));
Assert.DoesNotThrow(() => ArrayStatistics.QuantileInplace(data, 0.3));
Assert.DoesNotThrow(() => StreamingStatistics.Minimum(data));
Assert.DoesNotThrow(() => StreamingStatistics.Maximum(data));
Assert.DoesNotThrow(() => StreamingStatistics.Mean(data));
Assert.DoesNotThrow(() => StreamingStatistics.Variance(data));
Assert.DoesNotThrow(() => StreamingStatistics.StandardDeviation(data));
Assert.DoesNotThrow(() => StreamingStatistics.PopulationVariance(data));
Assert.DoesNotThrow(() => StreamingStatistics.PopulationStandardDeviation(data));
}
public void MedianOnShortSequence()
{
// R: median(c(-1,5,0,-3,10,-0.5,4,0.2,1,6))
// Mathematica: Median[{-1,5,0,-3,10,-1/2,4,1/5,1,6}]
var even = new[] { -1, 5, 0, -3, 10, -0.5, 4, 0.2, 1, 6 };
Assert.AreEqual(0.6d, Statistics.Median(even), 1e-14);
Assert.AreEqual(0.6d, ArrayStatistics.MedianInplace(even), 1e-14);
Array.Sort(even);
Assert.AreEqual(0.6d, SortedArrayStatistics.Median(even), 1e-14);
// R: median(c(-1,5,0,-3,10,-0.5,4,0.2,1))
// Mathematica: Median[{-1,5,0,-3,10,-1/2,4,1/5,1}]
var odd = new[] { -1, 5, 0, -3, 10, -0.5, 4, 0.2, 1 };
Assert.AreEqual(0.2d, Statistics.Median(odd), 1e-14);
Assert.AreEqual(0.2d, ArrayStatistics.MedianInplace(odd), 1e-14);
Array.Sort(even);
Assert.AreEqual(0.2d, SortedArrayStatistics.Median(odd), 1e-14);
}
/// <summary>
/// Get the median value of array data.
/// </summary>
/// <param name="data">The array data to calculate statistic value.</param>
/// <returns>The median value of array data.</returns>
public static float Median(float[] data)
{
return(ArrayStatistics.MedianInplace(data));
}
/// <summary>
/// Get the median value of array data.
/// </summary>
/// <param name="data">The array data to calculate statistic value.</param>
/// <returns>The median value of array data.</returns>
public static double Median(double[] data)
{
return(ArrayStatistics.MedianInplace(data));
}
static void Main(string[] args)
{
//ExamplesMain();
//Initialize class level object variables
apiWrapper = new APIWrapper();
configuration = LoadConfiguration();
powerArraysByFrequencyDictionary = new SortedDictionary <double, List <double> >();
//Search for devices.
int[] devID = null;
string[] devSN = null;
string[] devType = null;
ReturnStatus returnStatus = apiWrapper.DEVICE_Search(ref devID, ref devSN, ref devType);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("DEVICE_Search ERROR: " + returnStatus);
}
//Connect to the first device detected.
returnStatus = apiWrapper.DEVICE_Connect(devID[0]);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("DEVICE_Connect ERROR: " + returnStatus);
}
else // print the name of the connected device.
{
Console.WriteLine("\nCONNECTED TO: " + devType[0]);
Console.WriteLine("\nSerial Number:" + devSN[0]);
}
int measurementsCount = configuration.Measurements.Count;
Console.WriteLine("measurementsCount: " + measurementsCount);
foreach (Measurement measurement in configuration.Measurements)
{
AssignMeasurementVariables(measurement);
//CONFIG SPECTRUM
//TODO: Handle when returnStatus != ReturnStatus.noError
returnStatus = apiWrapper.ALIGN_RunAlignment();
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("ALIGN_RunAlignment ERROR: " + returnStatus);
}
returnStatus = apiWrapper.CONFIG_Preset();
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("CONFIG_Preset ERROR: " + returnStatus);
}
returnStatus = apiWrapper.SPECTRUM_SetEnable(true);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("SPECTRUM_SetEnable ERROR: " + returnStatus);
}
returnStatus = apiWrapper.CONFIG_SetCenterFreq(centerFreq);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("CONFIG_SetCenterFreq ERROR: " + returnStatus);
}
returnStatus = apiWrapper.CONFIG_SetReferenceLevel(refLevel);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("CONFIG_SetReferenceLevel ERROR: " + returnStatus);
}
returnStatus = apiWrapper.CONFIG_SetExternalRefEnable(enableExtRef);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("CONFIG_SetExternalRefEnable ERROR: " + returnStatus);
}
returnStatus = apiWrapper.SPECTRUM_SetTraceType(spectrumTraceNumber, true, detectorType);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("SPECTRUM_SetTraceType ERROR: " + returnStatus);
}
Spectrum_Limits salimits = new Spectrum_Limits();
returnStatus = apiWrapper.SPECTRUM_GetLimits(ref salimits);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("SPECTRUM_GetLimits ERROR: " + returnStatus);
}
//Check the limits
if (span > salimits.maxSpan)
{
span = salimits.maxSpan;
}
// Set and get RSA parameter values.
Spectrum_Settings setSettings = new Spectrum_Settings();
//Assign user settings to settings struct.
setSettings.span = span;
setSettings.rbw = RBW;
setSettings.enableVBW = enableVBW;
setSettings.vbw = VBW;
setSettings.traceLength = traceLength;
setSettings.window = windowType;
setSettings.verticalUnit = verticalUnits;
Spectrum_Settings getSettings = new Spectrum_Settings();
returnStatus = apiWrapper.SPECTRUM_SetEnable(true);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("SPECTRUM_SetEnable ERROR: " + returnStatus);
}
//returnStatus = apiWrapper.SPECTRUM_SetDefault();
//if (returnStatus != ReturnStatus.noError) { Console.WriteLine("SPECTRUM_SetDefault ERROR: " + returnStatus); }
//Register the settings.
returnStatus = apiWrapper.SPECTRUM_SetSettings(setSettings);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("SPECTRUM_SetSettings ERROR: " + returnStatus);
}
//returnStatus = apiWrapper.SPECTRUM_GetSettings(ref getSettings);
//if (returnStatus != ReturnStatus.noError) { Console.WriteLine("SPECTRUM_GetSettings ERROR: " + returnStatus); }
Console.WriteLine("\nSet Settings: " + setSettings);
//Retrieve the settings info.
returnStatus = apiWrapper.SPECTRUM_GetSettings(ref getSettings);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("ERROR: " + returnStatus);
}
Console.WriteLine("\nGet Settings: " + getSettings);
double actualRBW = getSettings.actualRBW;
Console.WriteLine("actualRBW: " + actualRBW);
double actualVBW = getSettings.actualVBW;
Console.WriteLine("actualVBW: " + actualVBW);
double numIQsamples = getSettings.actualNumIQSamples;
Console.WriteLine("numIQsamples: " + numIQsamples);
int actualTraceLength = getSettings.traceLength;
Console.WriteLine("actualTraceLength: " + actualTraceLength);
//Set variables used to calculate freqArray items
double actualStartFreq = getSettings.actualStartFreq;
Console.WriteLine("actualStartFreq: " + actualStartFreq);
double actualStopFreq = getSettings.actualStopFreq;
Console.WriteLine("actualStopFreq: " + actualStopFreq);
double actualFreqStepSize = getSettings.actualFreqStepSize;
Console.WriteLine("actualFreqStepSize: " + actualFreqStepSize);
//New freqArray length of traceLength
//double[] freqArray = new double[traceLength];
//Console.WriteLine("freqArray.Length:" + freqArray.Length);
//Allocate memory array for spectrum output vector.
float[] powerArray = null;
double[] frequencyArray = new double[traceLength];
//Use for loop to create dictionary items
for (int arrayIndex = 0; arrayIndex < traceLength; arrayIndex++)
{
double frequency = (actualFreqStepSize * arrayIndex) + actualStartFreq;
frequencyArray[arrayIndex] = frequency;
List <double> powerListForThisFrequency = null;
if (powerArraysByFrequencyDictionary.TryGetValue(frequency, out powerListForThisFrequency))
{
//TryGetValue() call found pre-existing powerListForThisFrequency in powerArraysByFrequencyDictionary
//so no need to add a new item at this frequency
}
else
{
//Pre-existing powerListForThisFrequency in powerArraysByFrequencyDictionary not found so create a new one. Then add a new item
//to the dictionary with the new item's key being the current frequency value we are at in this iteration of the for loop
powerArraysByFrequencyDictionary.Add(frequency, new List <double>());
}
}
//Start the trace capture.
returnStatus = apiWrapper.SPECTRUM_SetEnable(true);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("ERROR: " + returnStatus);
}
Console.WriteLine("Trace capture is starting...");
bool traceReady = false;
bool isActive = true;
bool eventOccured = false;
int waitTimeoutMsec = 1000; //Maximum allowable wait time for each data acquistion.
int numTimeouts = 3; //Maximum amount of attempts to acquire data if a timeout occurs.
//Note: the total wait time to acquire data is waitTimeoutMsec x numTimeouts.
int timeoutCount = 0; //Variable to track the timeouts.
int traceCount = 0;
int outTracePoints = 0;
long eventTimestamp = 0;
while (isActive)
{
returnStatus = apiWrapper.SPECTRUM_AcquireTrace();
//Wait for the trace to be ready.
returnStatus = apiWrapper.SPECTRUM_WaitForTraceReady(waitTimeoutMsec, ref traceReady);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("ERROR: " + returnStatus);
}
if (traceReady)
{
Console.WriteLine("================INPUT MEASUREMENT PARAMETERS=================");
Console.WriteLine("Start Frequency = {0} MHz", actualStartFreq * hertz2MegaHertz);
Console.WriteLine("Stop Frequency = {0} MHz", actualStopFreq * hertz2MegaHertz);
Console.WriteLine("Center Frequency = {0} MHz", centerFreq * hertz2MegaHertz);
Console.WriteLine("Span = {0} MHz", span * hertz2MegaHertz);
Console.WriteLine("RBW = {0} kHz", actualRBW * hertz2KiloHertz);
Console.WriteLine("VBW = {0} MHz", actualVBW);
Console.WriteLine("Detection = {0}", detectorType);
Console.WriteLine("Trace Length = {0}", traceLength);
Console.WriteLine("Number of Traces = {0}", numTraces);
Console.WriteLine("Reference Level = {0} dB", refLevel);
////*********************************************Get spectrum trace data.
returnStatus = apiWrapper.SPECTRUM_GetTrace(spectrumTraceNumber, traceLength, ref powerArray, ref outTracePoints);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("ERROR: " + returnStatus);
}
Console.WriteLine("outTracePoints: " + outTracePoints);
//Get traceInfo struct.
Spectrum_TraceInfo traceInfo = new Spectrum_TraceInfo();
returnStatus = apiWrapper.SPECTRUM_GetTraceInfo(ref traceInfo);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("ERROR: " + returnStatus);
}
//You can use this information to report any non-zero bits in AcqDataStatus word, for example.
if (traceInfo.acqDataStatus != 0)
{
Console.WriteLine("Trace:" + traceCount + ", AcqDataStatus:" + traceInfo.acqDataStatus, "Timestamp:" + traceInfo.timestamp);
Console.WriteLine(powerArray.Max());
}
//ADC Overload
EventType overloadDetected = EventType.DEVEVENT_OVERRANGE;
returnStatus = apiWrapper.DEVICE_GetEventStatus(overloadDetected, ref eventOccured, ref eventTimestamp);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("ERROR: " + returnStatus);
}
if (eventOccured)
{
Console.WriteLine("ADC OVERLOAD! Adjust Reference Level?:" + eventTimestamp);
float maxPwr = powerArray.Max();
Console.WriteLine("Maximum Power Level:" + maxPwr);
}
//Trigger Detection
EventType triggerDetected = EventType.DEVEVENT_TRIGGER;
returnStatus = apiWrapper.DEVICE_GetEventStatus(triggerDetected, ref eventOccured, ref eventTimestamp);
if (returnStatus != ReturnStatus.noError)
{
Console.WriteLine("ERROR: " + returnStatus);
}
if (eventOccured)
{
Console.WriteLine("Trigger Detected!");
}
//Create a list of power vs frequency values
for (int arrayIndex = 0; arrayIndex < powerArray.Length; arrayIndex++)
{
List <double> powerListForThisFrequency = null;
double frequency = frequencyArray[arrayIndex];
float power = powerArray[arrayIndex];
if (powerArraysByFrequencyDictionary.TryGetValue(frequency, out powerListForThisFrequency))
{
//TryGetValue() call found pre-existing powerListForThisFrequency in powerArraysByFrequencyDictionary
//add the current power value to the powerListForThisFrequency
if (powerListForThisFrequency.Count < numTraces)
{
powerListForThisFrequency.Add(power);
}
}
else
{
//Pre-existing powerListForThisFrequency in powerArraysByFrequencyDictionary not found so create a new one.
//Then add the current power value to the new powerListForThisFrequency, then add a new item to the dictionary
//with the new item's key being the current frequency value we are at in this iteration of the for loop
powerListForThisFrequency = new List <double>();
powerListForThisFrequency.Add(power);
powerArraysByFrequencyDictionary.Add(frequency, powerListForThisFrequency);
}
}
traceCount++;
Console.WriteLine("Trace Count:" + traceCount);
}
else
{
timeoutCount++;
Console.WriteLine("Timeout Count:" + timeoutCount);
}
Console.WriteLine("'numTraces:" + numTraces + "' == " + "'traceCount:" + traceCount + " " + (numTraces == traceCount));
//Stop acquiring traces when the limit is reached or the wait time is exceeded.
if (numTraces == traceCount || timeoutCount == numTimeouts)
{
isActive = false;
Console.WriteLine("Is Active?" + isActive);
}
}
}
string outputFilePath = @"..\..\..\Output\" + DateTime.Now.ToString("yyyy-MM-dd_HH.mm.ss") + "_" + "STARTFREQ" + "-" + "STARTFREQ" + @"_survey.csv";
string statisticsFilePath = @"..\..\..\Output\" + DateTime.Now.ToString("yyyy-MM-dd_HH.mm.ss") + "_" + "STARTFREQ" + "-" + "STARTFREQ" + @"_M4.csv";
using (StreamWriter streamWriter = new StreamWriter(outputFilePath, true))
{
using (StreamWriter statsStreamWriter = new StreamWriter(statisticsFilePath, true))
{
if (numTraces > 1)
{
//Write CSV File Headings: Frequency,Minimum,Maximum,Mean,Median
statsStreamWriter.WriteLine("Frequency,Minimum,Maximum,Mean,Median");
}
int dictionaryIndex = 0;
foreach (KeyValuePair <double, List <double> > keyValuePair in powerArraysByFrequencyDictionary)
{
double frequency = keyValuePair.Key;
List <double> powerList = keyValuePair.Value;
if (powerList.Count > 0)
{
if (numTraces > 1 && powerList.Count > 1)
{
double[] powerArrayForStatistics = powerList.ToArray();
double maximumPower = ArrayStatistics.Maximum(powerArrayForStatistics);
double minimumPower = ArrayStatistics.Minimum(powerArrayForStatistics);
double meanPower = (float)ArrayStatistics.Mean(powerArrayForStatistics);
double medianPower = ArrayStatistics.MedianInplace(powerArrayForStatistics);
//Write CSV values for this frequency
statsStreamWriter.WriteLine("{0},{1},{2},{3},{4}", frequency, minimumPower, maximumPower, meanPower, medianPower);
}
else //write frequency and power value for single trace when powerList.Count == 1
{
streamWriter.WriteLine("{0},{1}", frequency, powerList[0]); // only one power value in List at index 0
}
}
if (dictionaryIndex == 800)
{
}
dictionaryIndex++;
}
}
}
//Disconnect the device and finish up.
returnStatus = apiWrapper.SPECTRUM_SetEnable(false);
returnStatus = apiWrapper.DEVICE_Stop();
returnStatus = apiWrapper.DEVICE_Disconnect();
Console.WriteLine("\nSpectrum trace acquisition routine complete.");
Console.WriteLine("\nPress enter key to exit...");
Console.ReadKey();
}
/// <summary>
/// 计算中值
/// </summary>
/// <param name="source"></param>
/// <param name="result"></param>
/// <returns></returns>
public static double Median(double[] source)
{
return(ArrayStatistics.MedianInplace(source));
}
