public void ComputeCovarianceMatrix3DWithEmptyList()
{
var result = StatisticsHelper.ComputeCovarianceMatrix(new List <Vector3D>());
foreach (var element in result.ToList(MatrixOrder.RowMajor))
{
Assert.IsNaN(element);
}
}
public void CalculateZScoresWho2007()
{
var who2007 = new AnthStat.Statistics.WHO2007();
double ageMonths = double.Parse(TxtEdadMeses.Text);
double Weight = double.Parse(TxtPeso.Text);
double Lenght = double.Parse(TxtTalla.Text);
double LenghtMeters = Lenght / 100;
double imc = Weight / (LenghtMeters * LenghtMeters);
double z = 0.0;
double x = 0.0;
double y = 0.0;
TxtIMCCalculado.Text = Math.Round(imc, 2).ToString();
if (txtSexo.Text == "Masculino" || txtSexo.Text == "Masculino\t")
{
if (who2007.TryCalculateZScore(indicator: Indicator.BodyMassIndexForAge, measurement: imc, age: ageMonths, sex: Sex.Male, z: ref z))
{
double p = StatisticsHelper.CalculatePercentile(z);
TxtIMCEdadWho2007Z.Text = Math.Round(z, 2).ToString();
TxtIMCEdadWho2007P.Text = Math.Round(p, 2).ToString();
}
if (who2007.TryCalculateZScore(indicator: Indicator.WeightForAge, measurement: Weight, age: ageMonths, sex: Sex.Male, z: ref x))
{
double p = StatisticsHelper.CalculatePercentile(x);
TxtPesoEdadWho2007Z.Text = Math.Round(x, 2).ToString();
TxtPesoEdadWho2007P.Text = Math.Round(p, 2).ToString();
}
if (who2007.TryCalculateZScore(indicator: Indicator.HeightForAge, measurement: Lenght, age: ageMonths, sex: Sex.Male, z: ref y))
{
double p = StatisticsHelper.CalculatePercentile(y);
TxtTallaEdadWho2007Z.Text = Math.Round(y, 2).ToString();
TxtTallaEdadWho2007P.Text = Math.Round(p, 2).ToString();
}
}
else if (txtSexo.Text == "Femenino" || txtSexo.Text == "Femenino\t")
{
if (who2007.TryCalculateZScore(indicator: Indicator.BodyMassIndexForAge, measurement: imc, age: ageMonths, sex: Sex.Female, z: ref z))
{
double p = StatisticsHelper.CalculatePercentile(z);
TxtIMCEdadWho2007Z.Text = Math.Round(z, 2).ToString();
TxtIMCEdadWho2007P.Text = Math.Round(p, 2).ToString();
}
if (who2007.TryCalculateZScore(indicator: Indicator.WeightForAge, measurement: Weight, age: ageMonths, sex: Sex.Female, z: ref x))
{
double p = StatisticsHelper.CalculatePercentile(x);
TxtPesoEdadWho2007Z.Text = Math.Round(x, 2).ToString();
TxtPesoEdadWho2007P.Text = Math.Round(p, 2).ToString();
}
if (who2007.TryCalculateZScore(indicator: Indicator.HeightForAge, measurement: Lenght, age: ageMonths, sex: Sex.Female, z: ref y))
{
double p = StatisticsHelper.CalculatePercentile(y);
TxtTallaEdadWho2007Z.Text = Math.Round(y, 2).ToString();
TxtTallaEdadWho2007P.Text = Math.Round(p, 2).ToString();
}
}
}
public void ComputeCovarianceMatrixFWithVectorsOfDifferentLength()
{
List <VectorF> points = new List <VectorF>(new[]
{
new VectorF(new float[] { -1, -2, 1 }),
new VectorF(new float[] { 2, -1, 3 }),
new VectorF(new float[] { 2, -1, 2, 3 }),
});
var result = StatisticsHelper.ComputeCovarianceMatrix(points);
}
public void ComputeCovarianceMatrixDWithVectorsOfDifferentLength()
{
List <VectorD> points = new List <VectorD>(new[]
{
new VectorD(new double[] { -1, -2, 1 }),
new VectorD(new double[] { 2, -1, 3, 1 }),
new VectorD(new double[] { 2, -1, 2 }),
});
var result = StatisticsHelper.ComputeCovarianceMatrix(points);
}
//数据库操作成功
private void OperatorSuccess(User user, JObject responseData)
{
responseData.Add(MyCommon.CODE, (int)Consts.Code.Code_OK);
responseData.Add(MyCommon.UID, user.Uid);
MySqlUtil.UpdateUserTask(user.Uid);
ProgressTaskHandler.ProgressTaskSql(208, user.Uid);
StatisticsHelper.StatisticsRegister(user.Uid);
}
public void IsApproximatelyEqual_Test_Fractions()
{
// Positive Tests
Assert.IsTrue(StatisticsHelper.IsApproximatelyEqual(0.10D, 0.12D, decimals: 1));
Assert.IsTrue(StatisticsHelper.IsApproximatelyEqual(0.01D, 0.00D, decimals: 1));
Assert.IsTrue(StatisticsHelper.IsApproximatelyEqual(0.01D, 0.009D, decimals: 2));
Assert.IsTrue(StatisticsHelper.IsApproximatelyEqual(0.01D, 0.009D, decimals: 1));
// Negative Tests
Assert.IsFalse(StatisticsHelper.IsApproximatelyEqual(0.01D, 0.00D, decimals: 2));
}
internal PerformanceMetrics()
{
//
_triangleCount = new StatisticsHelper();
_batchCount = new StatisticsHelper();
_drawCount = new StatisticsHelper();
_frameRate = new StatisticsHelper();
//
_timer = new Interval(1F);
}
private void OperatorSuccess(User user, string channelName, string ip, string versionName, JObject responseData)
{
responseData.Add(MyCommon.CODE, (int)Consts.Code.Code_OK);
responseData.Add(MyCommon.UID, user.Uid);
//更新下用户的任务
MySqlUtil.UpdateUserTask(user.Uid);
StatisticsHelper.StatisticsLogin(user.Uid);
StatictisLogUtil.Login(user.Uid, user.Username, ip, channelName, versionName, MyCommon.OpType.Login);
}
public JsonResult Statistics(StatistiscViewModel model)
{
int userId = UserHelper.GetUserByIdentityName(User.Identity.Name).Id;
List <SiteCount> data = StatisticsHelper.GetSitesStatistics(
model.CurrentAttribute, userId, model.StartDate, model.EndDate);
model.Labels = GetLabels(data);
model.CountedData = GetData(data);
model.Attributes = GetAttributes();
model.ChartTypes = GetChartTypes();
return(Json(new { labels = model.Labels, countedData = model.CountedData, chartType = model.CurrentChartType }));
}
static void Main(string[] args)
{
BCT.Execute(c => { });
while (true)
{
#region DEBUG
//var caches = BulletinCollector.GetBulletinsByQuery(@"http://avito.ru", "iPhone");
//caches = BulletinCollector.GetBulletinsBySheets(caches);
#endregion
Console.Write("BC> ");
var text = Console.ReadLine();
BCT.Execute(c =>
{
var enterArgs = text.Split(new[] { " -" }, StringSplitOptions.None);
var command = enterArgs[0];
switch (command)
{
case "TaskGeneration":
GenerationHelpers.GenerationFull();
break;
case "TaskGenerationClear":
GenerationHelpers.GenerationClearData();
break;
case "NextTask":
var r2 = BackTaskHelper.Next();
r2 = r2;
break;
case "RunStatisticsTasks":
StatisticsHelper.RunUserStatisticsTask(new Guid("43461B22-1BC4-4584-8DB8-FA930CB331C5"));
break;
case "ComputeStatisticsTasks":
StatisticsHelper.ComputeUserStatistics(new Guid("43461B22-1BC4-4584-8DB8-FA930CB331C5"));
break;
case "GetCalls":
StatisticsHelper.GetCallsStatistics(new Guid("43461B22-1BC4-4584-8DB8-FA930CB331C5"));
break;
case "help":
Console.WriteLine(Help);
break;
default:
Console.WriteLine("Command not found");
break;
}
});
}
}
public void IsApproximatelyEqual_Test_NonFractions()
{
// Positive Tests
Assert.IsTrue(StatisticsHelper.IsApproximatelyEqual(0, 0, decimals: 10));
Assert.IsTrue(StatisticsHelper.IsApproximatelyEqual(0D, 0D, decimals: 10));
// Negative Tests
Assert.IsFalse(StatisticsHelper.IsApproximatelyEqual(0D, 1D, decimals: 1));
Assert.IsFalse(StatisticsHelper.IsApproximatelyEqual(0, 1, decimals: 10));
Assert.IsFalse(StatisticsHelper.IsApproximatelyEqual(0D, 1D, decimals: 10));
Assert.IsFalse(StatisticsHelper.IsApproximatelyEqual(500D, 2D, decimals: 15));
}
/// <summary>
/// Returns a <see cref="System.String" /> that represents this instance.
/// </summary>
/// <returns>
/// A <see cref="System.String" /> that represents this instance.
/// </returns>
public override string ToString( )
{
IXmlLineInfo lineInfo = Source;
return(string.Format(@" Entity Id: {0}
Field Id: {1}
Mode: {2}
Reason: {3}
Value: {4}
Node: {5}
Line: {6}
Position: {7}", EntityUpgradeId.ToString("B"), FieldUpgradeId.ToString("B"), StatisticsHelper.Capitalize(Mode.ToString( )), StatisticsHelper.Capitalize(Reason.ToString( )), Value, Source, lineInfo.HasLineInfo( ) ? lineInfo.LineNumber.ToString( ) : "N/A", lineInfo.HasLineInfo( ) ? lineInfo.LinePosition.ToString( ) : "N/A"));
}
public PartnerMonthlyStatistics GetPartnerMonthlyStatistics(Partner partner)
{
var paymentStatistics = new UserRepository(Db).GetPaymentStatistics(partner.User.Id);
var x = new PartnerMonthlyStatistics
{
MonthlyIncome =
paymentStatistics.Single(ps => ps.Month == StatisticsHelper.GetLastMonthNumber()).Value,
Balance = partner.User.GetTotalCash()
};
return(x);
}
public ActionResult ProductsWithDateEnd()
{
Statistics stat = new Statistics();
stat.DateEnd120 = null;
List <Product> productList120 = new List <Product>();
List <Product> productList90 = new List <Product>();
List <Product> productList60 = new List <Product>();
foreach (var item in db.Products)
{
TimeSpan ts = item.DateEnd - DateTime.Now;
int time = ts.Days;
Product prod = null;
if (time <= 120 && time > 90)
{
prod = item;
//productList.Add(item);
//stat.DateEnd120.Add(prod);
productList120.Add(item);
}
else if (time <= 90 && time > 60)
{
StatisticsHelper statHelper = new StatisticsHelper();
statHelper.Name = item.ProductName;
statHelper.Price = item.ProductPrice;
statHelper.DateEnd = item.DateEnd;
//productList.Add(item);
//stat.DateEnd90.Add(statHelper);
productList90.Add(item);
}
else if (time <= 60)
{
StatisticsHelper statHelper = new StatisticsHelper();
statHelper.Name = item.ProductName;
statHelper.Price = item.ProductPrice;
statHelper.DateEnd = item.DateEnd;
//productList.Add(item);
//stat.DateEnd60.Add(statHelper);
productList60.Add(item);
}
stat.DateEnd120 = productList120;
stat.DateEnd90 = productList90;
stat.DateEnd60 = productList60;
}
return(View(stat));
}
// Computes the covariance matrix for a list of points.
private static MatrixF ComputeCovarianceMatrixFromPoints(IList <Vector3> points)
{
// Convert IList<Vector3> to IList<VectorF> which is required for PCA.
int numberOfPoints = points.Count;
List <VectorF> pointsCopy = new List <VectorF>(numberOfPoints);
for (int i = 0; i < numberOfPoints; i++)
{
var point = points[i];
pointsCopy.Add(point.ToVectorF());
}
return(StatisticsHelper.ComputeCovarianceMatrix(pointsCopy));
}
// Methods
public override bool ExecuteCommand()
{
// Initialize the text-to-Id mappers:
int gold_i = 0;
featureToFeatureId = new TextIdMapper();
classToClassId = new TextIdMapper();
TextIdMapper[] headerToHeaderIds = new TextIdMapper[] { classToClassId };
// Workaround: Read everything from STDIN to a file. (Files are used as the text source throughout this application.)
var svmLight_data = Console.In.ReadToEnd();
Console.Error.WriteLine("{0} characters of input received.", svmLight_data.Length);
string tempFile = Path.GetTempFileName();
int[] goldClasses;
List <FeatureVector> vectors;
try
{
File.WriteAllText(tempFile, svmLight_data);
FeatureVectorFile vectorFile = new FeatureVectorFile(path: tempFile, noOfHeaderColumns: 1, featureDelimiter: ' ', isSortRequired: false);
vectors = vectorFile.LoadFromSVMLight(featureToFeatureId, headerToHeaderIds, FeatureType.Binary);
goldClasses = vectorFile.Headers[gold_i];
}
finally
{
File.Delete(tempFile);
}
Debug.Assert(vectors.Count > 0);
IdValuePair <double>[] chiSquare = new IdValuePair <double> [featureToFeatureId.Count];
//TODO: Make the implementation less binary dependent (i.e. the hardcoded 2 below).
double[][,] contingencyTable_f = new double[featureToFeatureId.Count][, ];
for (int f_i = 0; f_i < featureToFeatureId.Count; f_i++)
{
// Create a contingency table for this vector.
contingencyTable_f[f_i] = new double[classToClassId.Count, 2];
for (int v_i = 0; v_i < vectors.Count; v_i++)
{
FeatureVector v = vectors[v_i];
contingencyTable_f[f_i][v.Headers[gold_i], (int)v.Features[f_i]]++;
}
chiSquare[f_i] = new IdValuePair <double>(f_i, StatisticsHelper.CalculateChiSquare(contingencyTable_f[f_i]));
}
ReportChiSquareResults(contingencyTable_f, chiSquare);
return(true);
}
public override void Calculate(MainWindow mainWindow, MainViewModel mainViewModel)
{
if (InputFieldsIsValid(mainWindow))
{
mainWindow.GetValues(out var a, out var r0, out var m, out var max);
var randomValues = GenerateValues(a, r0, m, max);
mainWindow.GetExpValues(out double lambda);
var expValues = ExponentialDistribution(randomValues, lambda).ToList();
StatisticsHelper.CalculateStatistics(expValues, out double expectedValue,
out double dispersion, out double squareDeviation);
mainWindow.UpdateStatistics(expectedValue, dispersion, squareDeviation);
var model = PlotModelGenerator.GenerateModel(expValues);
mainViewModel.UpdatePlotModel(model);
}
}
private async Task ViewLoaded()
{
if (!_viewModelLoaded)
{
IsBusy = true;
var athlete = await _stravaService.GetAthleteAsync();
var statistics = await _stravaService.GetStatsAsync(athlete.Id.ToString());
RunStatistics = StatisticsHelper.GetRunStatistics(statistics);
RideStatistics = StatisticsHelper.GetRideStatistics(statistics);
_viewModelLoaded = true;
IsBusy = false;
}
}
public void Softmax_Create_Test()
{
var output = NormalizationHelper.CreateSoftmaxNormalization(givenInput);
Assert.IsTrue(!object.ReferenceEquals(output, givenInput));
double sum = 0;
for (int i = 0; i < givenInput.Count; i++)
{
double diff = Math.Abs(expectedOutput[i] - output[i]);
Assert.IsTrue(diff < Math.Pow(10, -6));
sum += output[i];
}
Assert.IsTrue(StatisticsHelper.IsApproximatelyEqual(sum, 1D));
}
public void IsWholeNumber_Success()
{
double [] wholes = { 0.0, 9.0, 5.0, -5.0, 100.0, 932.0, 454.0, 7983.0 };
double [] notWholes = { 9.7, 7.65, 4.3, -0.1, 0.00000000001, 0.03, 834.56, 99.99 };
foreach (var whole in wholes)
{
Assert.True(StatisticsHelper.IsWholeNumber(whole));
}
foreach (var notWhole in notWholes)
{
Assert.False(StatisticsHelper.IsWholeNumber(notWhole));
}
}
public override void Calculate(MainWindow mainWindow, MainViewModel mainViewModel)
{
if (InputFieldsIsValid(mainWindow))
{
mainWindow.GetValues(out var a, out var r0, out var m, out var max);
mainWindow.GetSimpsValues(out double A, out double B);
var randomValues = GenerateValues(a, r0, m, max, A / 2, B / 2);
var simpsonValue = SimpsonDistribution(randomValues).ToList();
StatisticsHelper.CalculateStatistics(simpsonValue, out double expectedValue,
out double dispersion, out double squareDeviation);
mainWindow.UpdateStatistics(expectedValue, dispersion, squareDeviation);
var model = PlotModelGenerator.GenerateModel(simpsonValue);
mainViewModel.UpdatePlotModel(model);
}
}
public override void Calculate(MainWindow mainWindow, MainViewModel mainViewModel)
{
if (InputFieldsIsValid(mainWindow))
{
mainWindow.GetValues(out var a, out var r0, out var m, out var max);
var randomValues = GenerateValues(a, r0, m, max);
mainWindow.GetTriangleValue(out bool isMin, out double A, out double B);
var triangleValues = TriangleDistribution(randomValues, isMin, A, B).ToList();
StatisticsHelper.CalculateStatistics(triangleValues, out double expectedValue,
out double dispersion, out double squareDeviation);
mainWindow.UpdateStatistics(expectedValue, dispersion, squareDeviation);
var model = PlotModelGenerator.GenerateModel(triangleValues);
mainViewModel.UpdatePlotModel(model);
}
}
public void Softmax_InPlace_Test()
{
var values = givenInput.ToArray();
Assert.IsTrue(!object.ReferenceEquals(values, givenInput));
NormalizationHelper.Softmax(values);
double sum = 0;
for (int i = 0; i < values.Length; i++)
{
double diff = Math.Abs(expectedOutput[i] - values[i]);
Assert.IsTrue(diff < Math.Pow(10, -6));
sum += values[i];
}
Assert.IsTrue(StatisticsHelper.IsApproximatelyEqual(sum, 1D));
}
public override void Calculate(MainWindow mainWindow, MainViewModel mainViewModel)
{
if (InputFieldsIsValid(mainWindow))
{
mainWindow.GetValues(out var a, out var r0, out var m, out var max);
var randomValues = GenerateValues(a, r0, m, max);
mainWindow.GetGaussValues(out double matWait, out double gaussDispersion);
var gaussValues = GaussianDistribution(randomValues, matWait, gaussDispersion);
StatisticsHelper.CalculateStatistics(gaussValues, out double expectedValue,
out double dispersion, out double squareDeviation);
mainWindow.UpdateStatistics(expectedValue, dispersion, squareDeviation);
var model = PlotModelGenerator.GenerateModel(gaussValues);
mainViewModel.UpdatePlotModel(model);
}
}
internal ParsedEvtcLog(int evtcVersion, FightData fightData, AgentData agentData, SkillData skillData,
List <CombatItem> combatItems, List <Player> playerList, IReadOnlyDictionary <uint, AbstractExtensionHandler> extensions, long evtcLogDuration, EvtcParserSettings parserSettings, ParserController operation)
{
FightData = fightData;
AgentData = agentData;
SkillData = skillData;
PlayerList = playerList;
ParserSettings = parserSettings;
_operation = operation;
var friendlies = new List <AbstractSingleActor>();
friendlies.AddRange(playerList);
friendlies.AddRange(fightData.Logic.NonPlayerFriendlies);
Friendlies = friendlies;
//
FriendliesListBySpec = friendlies.GroupBy(x => x.Spec).ToDictionary(x => x.Key, x => x.ToList());
PlayerAgents = new HashSet <AgentItem>(playerList.Select(x => x.AgentItem));
FriendlyAgents = new HashSet <AgentItem>(friendlies.Select(x => x.AgentItem));
_operation.UpdateProgressWithCancellationCheck("Creating GW2EI Combat Events");
CombatData = new CombatData(combatItems, FightData, AgentData, SkillData, playerList, operation, extensions, evtcVersion);
operation.UpdateProgressWithCancellationCheck("Checking CM");
FightData.SetCM(CombatData, AgentData);
operation.UpdateProgressWithCancellationCheck("Setting Fight Name");
FightData.SetFightName(CombatData, AgentData);
//
_operation.UpdateProgressWithCancellationCheck("Checking Success");
FightData.Logic.CheckSuccess(CombatData, AgentData, FightData, PlayerAgents);
if (FightData.FightDuration <= ParserSettings.TooShortLimit)
{
throw new TooShortException(FightData.FightDuration, ParserSettings.TooShortLimit);
}
if (ParserSettings.SkipFailedTries && !FightData.Success)
{
throw new SkipException();
}
_operation.UpdateProgressWithCancellationCheck("Creating GW2EI Log Meta Data");
LogData = new LogData(evtcVersion, CombatData, evtcLogDuration, playerList, extensions, operation);
//
_operation.UpdateProgressWithCancellationCheck("Creating Buff Container");
Buffs = new BuffsContainer(LogData.GW2Build, CombatData, operation);
_operation.UpdateProgressWithCancellationCheck("Creating Damage Modifier Container");
DamageModifiers = new DamageModifiersContainer(LogData.GW2Build, fightData.Logic.Mode, parserSettings);
_operation.UpdateProgressWithCancellationCheck("Creating Mechanic Data");
MechanicData = FightData.Logic.GetMechanicData();
_operation.UpdateProgressWithCancellationCheck("Creating General Statistics Container");
StatisticsHelper = new StatisticsHelper(CombatData, PlayerList, Buffs);
}
/// <summary>
/// Calculates both the Zscore and Percentile.
/// </summary>
/// <param name="indicator">The growth indicator</param>
/// <param name="measurement">The specified measured value</param>
/// <param name="ageInDays">The age in total days</param>
/// <param name="sex">Human sex designation per ISO/IEC 5218 code</param>
/// <returns>Returns the z-score and percentile for a growth measure using a specified value.</returns>
public static async Task <Tuple <double, double> > GetScore(Indicator indicator, double measurement, double ageInDays, Sex sex)
{
WHO2006 who2006 = new();
double z = 0.0;
double p = 0.0;
if (who2006.TryCalculateZScore(indicator, measurement, ageInDays, sex, z: ref z))
{
p = await Task.FromResult(StatisticsHelper.CalculatePercentile(z));
}
z = Math.Round(z, 2);
p = Math.Round(p, 1);
return(Tuple.Create(z, p));
}
private void Init()
{
var task = Task.Run(async() => { await PopulateRecordings(); });
task.Wait();
task = Task.Run(async() => { await PopulatePlaces(); });
task.Wait();
CreateFoldersStructure();
if (RecordingsList.Count > 0)
{
GuessingHelper.PickNewRecord();
}
statistics = StatisticsHelper.LoadStatistics();
StatisticsListView.ItemsSource = statistics.StatisticsObservableList;
}
public void TestInitialise()
{
_ClassFactorySnapshot = Factory.TakeSnapshot();
_Statistics = StatisticsHelper.CreateLockableStatistics();
_HeartbeatService = TestUtilities.CreateMockSingleton <IHeartbeatService>();
_Clock = new ClockMock();
Factory.Singleton.RegisterInstance <IClock>(_Clock.Object);
_Presenter = Factory.Singleton.Resolve <IStatisticsPresenter>();
_View = TestUtilities.CreateMockInstance <IStatisticsView>();
_View.Setup(r => r.Statistics).Returns(_Statistics.Object);
_View.Setup(r => r.AdsbMessageTypeCount).Returns(new long[256]);
_View.Setup(r => r.ModeSDFStatistics).Returns(new ModeSDFStatistics[32]);
_View.Setup(r => r.AdsbMessageFormatCount).Returns(new long[Enum.GetValues(typeof(MessageFormat)).OfType <MessageFormat>().Select(r => (int)r).Max() + 1]);
}
public void ExecuteCommand_MaxEnt_Classify_Test()
{
// Set up the parameters:
using (var vectors_inFile = new TempFile(Resources.SVMLight_TestVectors))
using (var model_inFile = new TempFile(Resources.Model_MaxEnt_Mallet))
using (var sys_outFile = new TempFile())
{
// Initialize the commmand parameters:
string command = $"maxent_classify {vectors_inFile.Location} {model_inFile.Location} {sys_outFile.Location}";
string[] args = TextHelper.SplitOnWhitespace(command);
// Execute the command:
double accuracy = (double)CommandPlatform.Execute(args);
// Confirm the result:
Assert.IsTrue(StatisticsHelper.IsApproximatelyEqual(accuracy, 0.82667D, 5));
}
}
/// <summary>
/// Logs the trip between this waypoint (the 'origin') and the other waypoint (the 'destination').
/// </summary>
/// <param name="destinationWP">The destination waypoint of the trip to log.</param>
/// <param name="bot">The bot that did the trip.</param>
protected void StatPropagateDestination(Waypoint destinationWP, Bot bot)
{
// Init logging if not already done
if (_statForwardStar == null)
{
_statForwardStar = new Dictionary <Waypoint, ConnectionStatisticsDataPoint>();
}
if (destinationWP._statBackwardStar == null)
{
destinationWP._statBackwardStar = new Dictionary <Waypoint, ConnectionStatisticsDataPoint>();
}
// --> Log forward stars of this origin waypoint
if (!_statForwardStar.ContainsKey(destinationWP))
{
_statForwardStar[destinationWP] = StatInitTripDataPoint(this, destinationWP, Instance.Controller.CurrentTime - bot.StatLastTripStartTime);
}
else
{
StatisticsHelper.UpdateAvgVarData(
ref _statForwardStar[destinationWP].Count,
ref _statForwardStar[destinationWP].TravelTimeAvg,
ref _statForwardStar[destinationWP].TravelTimeVar,
ref _statForwardStar[destinationWP].TravelTimeMin,
ref _statForwardStar[destinationWP].TravelTimeMax,
ref _statForwardStar[destinationWP].TravelTimeSum,
Instance.Controller.CurrentTime - bot.StatLastTripStartTime);
}
// --> Log backward stars of destination waypoint
if (!destinationWP._statBackwardStar.ContainsKey(this))
{
destinationWP._statBackwardStar[this] = StatInitTripDataPoint(destinationWP, this, Instance.Controller.CurrentTime - bot.StatLastTripStartTime);
}
else
{
StatisticsHelper.UpdateAvgVarData(
ref destinationWP._statBackwardStar[this].Count,
ref destinationWP._statBackwardStar[this].TravelTimeAvg,
ref destinationWP._statBackwardStar[this].TravelTimeVar,
ref destinationWP._statBackwardStar[this].TravelTimeMin,
ref destinationWP._statBackwardStar[this].TravelTimeMax,
ref destinationWP._statBackwardStar[this].TravelTimeSum,
Instance.Controller.CurrentTime - bot.StatLastTripStartTime);
}
}
