static void Main(string[] args) { for (int i = 0; i < delegates.Length; i++) { delegates[i] = Random_0_to_99; } Console.WriteLine("Исходные числа:"); ArithmeticMean result = delegate(Func <int>[] dlgs) { long sum = 0; foreach (Func <int> dlg in dlgs) { int nextNumber = dlg(); sum += nextNumber; Console.Write(nextNumber); Console.Write(" "); } Console.WriteLine(); Console.Write("Среднее арифметическое: "); return((double)sum / delegates.Length); }; Console.WriteLine(result(delegates)); Console.ReadKey(); }
public void CalculationTest(double value, double value2, double answer) { var calculator = new ArithmeticMean(); double actual = calculator.calculate(value, value2); Assert.AreEqual(answer, actual, 0.001); }
public void CalculateArithmeticMeanTest(double firstValue, double secondValue, double expected) { ITwoArgumentsCalculator calculator = new ArithmeticMean(); double result = calculator.Calculate(3, 5); Assert.AreEqual(4, result); }
public void CalculatorTest( double firstValue, double secondValue, double expected) { var calculator = new ArithmeticMean(); var actualResult = calculator.Calculate(firstValue, secondValue); Assert.AreEqual(expected, actualResult); }
protected DeviceState(SerializationInfo info, StreamingContext context) { if (info.MemberCount == 18) // la version sin serialization custom.- { Version0(info); ObjectVersion = 0; FixVersion1(); return; } var version = ObjectVersion = info.GetInt32("ObjectVersion"); if (version == 1) { Version1(info); FixVersion1(); } if (version == 2) { Version2(info); } if (version == 3) { Version3(info); AverageConnectedTime = new ArithmeticMean(32); } if (version == 4) { Version4(info); } if (version == 5) { Version5(info); } //STrace.Trace(GetType().FullName,9, "DeviceState[{0}]: Deserializado.", LogId); if (version == 6) { Version6(info); } if (version > 6) { Version1(info); throw new DeviceStateUpgradeRequired(version, this); } }
protected void TestInitialize() { amDecimal = new ArithmeticMean(decimalArray); amInt = new ArithmeticMean(intArray); amDouble = new ArithmeticMean(doublelArray); amFloat = new ArithmeticMean(floatArray); sdDecimal = new StandardDeviation(decimalArray); sdInt = new StandardDeviation(intArray); sdDouble = new StandardDeviation(doublelArray); sdFloat = new StandardDeviation(floatArray); filteringMethods = new Func <object, bool>[] { FilterValues1, FilterValues2 }; }
private void FixVersion1() { Organization = ""; FlashCounter = new Gauge64(); CrapReceivedCounter = new Gauge64(); StatesChanges = new Gauge64(); PERMANENTCounter = new Gauge64(); MAINTCounter = new Gauge64(); OFFLINECounter = new Gauge64(); CONNECTEDCounter = new Gauge64(); ONLINECounter = new Gauge64(); ONNETCounter = new Gauge64(); SHUTDOWNCounter = new Gauge64(); SYNCINGCounter = new Gauge64(); OUTOFSERVICECounter = new Gauge64(); //TransitionTrend = new Toolkit.TransitionTrend<ServiceStates>(); AverageConnectedTime = new ArithmeticMean(32); }
private void Version2(SerializationInfo info) { Version1(info); Organization = info.GetString((ObjectVersion < 6 ? "District" : "Organization")); FlashCounter = new Gauge64((Counter64)info.GetValue("FlashCounter", typeof(Counter64))); CrapReceivedCounter = new Gauge64((Counter64)info.GetValue("CrapReceivedCounter", typeof(Counter64))); StatesChanges = new Gauge64((Counter64)info.GetValue("StatesChanges", typeof(Counter64))); PERMANENTCounter = new Gauge64((Counter64)info.GetValue("PERMANENTCounter", typeof(Counter64))); MAINTCounter = new Gauge64((Counter64)info.GetValue("MAINTCounter", typeof(Counter64))); OFFLINECounter = new Gauge64((Counter64)info.GetValue("OFFLINECounter", typeof(Counter64))); CONNECTEDCounter = new Gauge64((Counter64)info.GetValue("CONNECTEDCounter", typeof(Counter64))); ONLINECounter = new Gauge64((Counter64)info.GetValue("ONLINECounter", typeof(Counter64))); ONNETCounter = new Gauge64((Counter64)info.GetValue("ONNETCounter", typeof(Counter64))); SHUTDOWNCounter = new Gauge64((Counter64)info.GetValue("SHUTDOWNCounter", typeof(Counter64))); SYNCINGCounter = new Gauge64((Counter64)info.GetValue("SYNCINGCounter", typeof(Counter64))); OUTOFSERVICECounter = new Gauge64((Counter64)info.GetValue("STOCKCounter", typeof(Counter64))); //TransitionTrend = (Toolkit.TransitionTrend<ServiceStates>)info.GetValue("TransitionTrend", typeof(Toolkit.TransitionTrend<ServiceStates>)); AverageConnectedTime = new ArithmeticMean(32); }
protected void TestInitialize() { amDecimal = new ArithmeticMean(decimalArray); amInt = new ArithmeticMean(intArray); amDouble = new ArithmeticMean(doublelArray); amFloat = new ArithmeticMean(floatArray); sdDecimal = new StandardDeviation(decimalArray); sdInt = new StandardDeviation(intArray); sdDouble = new StandardDeviation(doublelArray); sdFloat = new StandardDeviation(floatArray); InitializeLists(); amDecimalList = new ArithmeticMean(decimalList.ToArray()); amIntList = new ArithmeticMean(intList.ToArray()); amDoubleList = new ArithmeticMean(doubleList.ToArray()); amFloatList = new ArithmeticMean(floatList.ToArray()); }
public void calculateMeans() { double sum = 0; double inverseSum = 0; double product = 1; int numberOfResults = 0; double arithmeticalSum = 0; double arithmeticalTotal = 0; foreach (BenchmarkStatisticsResult benchmarkStatisticsResult in this) { if (benchmarkStatisticsResult.Accuracy != double.NaN && benchmarkStatisticsResult.Accuracy > 0) { arithmeticalTotal += benchmarkStatisticsResult.NumberOfBranches; arithmeticalSum += benchmarkStatisticsResult.NumberOfCorrectPredictions; sum += benchmarkStatisticsResult.Accuracy; inverseSum += 1.0d / benchmarkStatisticsResult.Accuracy; product *= benchmarkStatisticsResult.Accuracy; numberOfResults++; } } if (numberOfResults != 0) { ArithmeticMean.Accuracy = sum / numberOfResults; GeometricMean.Accuracy = Math.Pow(product, 1.0d / numberOfResults); HarmonicMean.Accuracy = numberOfResults / inverseSum; } else { ArithmeticMean.Accuracy = 0; GeometricMean.Accuracy = 0; HarmonicMean.Accuracy = 0; } ArithmeticMean.NotifyPropertyChanged(StatisticsResult.PercentAccuracyPropertyChangedEventArgs); GeometricMean.NotifyPropertyChanged(StatisticsResult.PercentAccuracyPropertyChangedEventArgs); HarmonicMean.NotifyPropertyChanged(StatisticsResult.PercentAccuracyPropertyChangedEventArgs); }
// constructor utilizado al crear la base de datos public DeviceState(short id, States initial_state) { STrace.Debug(GetType().FullName, String.Format("DEVICE_STATE: constructor de ALTA id={0}.", id)); Id = id; ServiceState = initial_state; QTreeState = DeviceTypes.QTreeStates.UNKNOWN; firstActivity = DateTime.MinValue; LastCommit = DateTime.MinValue; FlashCounter = new Gauge64(); CrapReceivedCounter = new Gauge64(); StatesChanges = new Gauge64(); PERMANENTCounter = new Gauge64(); MAINTCounter = new Gauge64(); OFFLINECounter = new Gauge64(); CONNECTEDCounter = new Gauge64(); ONLINECounter = new Gauge64(); ONNETCounter = new Gauge64(); SHUTDOWNCounter = new Gauge64(); SYNCINGCounter = new Gauge64(); OUTOFSERVICECounter = new Gauge64(); //TransitionTrend = new Toolkit.TransitionTrend<ServiceStates>(); AverageConnectedTime = new ArithmeticMean(32); }
public void Setup() { unitUnderTest = new ArithmeticMean(); }
public void ShouldThrowAnException_NullArgument() { ArithmeticMean am = new ArithmeticMean(nullData); }
public void ShouldThrowAnException_DataTypeNotSupported() { ArithmeticMean am = new ArithmeticMean(incorrectDataFormat); }