public void Clear_Order() { Pennies = 0; PenniesText.Text = Pennies.ToString(); Nickles = 0; NicklesText.Text = Nickles.ToString(); Dimes = 0; DimesText.Text = Dimes.ToString(); Quarters = 0; QuartersText.Text = Quarters.ToString(); HalfDollars = 0; HalfDollarsText.Text = HalfDollars.ToString(); Dollars = 0; DollarsText.Text = Dollars.ToString(); Ones = 0; OnesText.Text = Ones.ToString(); Twos = 0; TwosText.Text = Twos.ToString(); Fives = 0; FivesText.Text = Fives.ToString(); Tens = 0; TensText.Text = Tens.ToString(); Twenties = 0; TwentiesText.Text = Twenties.ToString(); Fifties = 0; FiftiesText.Text = Fifties.ToString(); Hundreds = 0; HundredsText.Text = Hundreds.ToString(); TotalBox.Text = 0.00.ToString("C"); }
// Use this for initialization void Start() { tenAnim = Tens.GetComponent <Animator>(); oneAnim = Ones.GetComponent <Animator>(); deltaTime = Time.time; roundTime = ROUND_TIME; }
static void Main(string[] args) { System.Console.WriteLine("\n===== Opgave 1 : Faculteit =====\n"); Factorial.Run(); System.Console.WriteLine("\n===== Opgave 2 : Fibonacci =====\n"); Fibonacci.Run(); System.Console.WriteLine("\n===== Opgave 3 : Alternately =====\n"); Alternately.Run(); System.Console.WriteLine("\n===== Opgave 4 : Enen =====\n"); Ones.Run(); System.Console.WriteLine("\n===== Opgave 6 : ForwardString =====\n"); ForwardBackwardString.Run(); System.Console.WriteLine("\n===== Opgave 7 : Sorting =====\n"); Sorter isort = new InsertionSort(); Sorter msort = new MergeSort(); Sorter ssort = new ShellSort(); isort.Run(); msort.Run(); ssort.Run(); int[] numbers = { 100, 1000, 10000 }; foreach (int num in numbers) { isort.RunWithTimer(num); msort.RunWithTimer(num); ssort.RunWithTimer(num); } }
public void OnesShouldReturnSumOf1s(List <int> rolledDice, int expectedOutcome) { var ones = new Ones(); var result = ones.CalculateScore(rolledDice); Assert.Equal(expectedOutcome, result); }
private void Ones_minus(object sender, RoutedEventArgs e) { if (Ones - 1 < 0) { return; } Ones--; OnesText.Text = Ones.ToString(); TotalBox.Text = Total.ToString("C"); }
public void GeneratesOutput() { using (var session = new TFSession()) { var initializer = new Ones().Compile(session.Graph, new TFShape(5, 5)); var output = session.GetRunner().Run(initializer); output.Shape[0].Should().Be(5); output.Shape[1].Should().Be(5); } }
public void OnesTest(int n, int expected) { int actual; // Arrange // Act actual = Ones.OnesRecursive(n); // Assert Assert.AreEqual(expected, actual); }
/// <summary> /// Initializes a new instance of the <see cref="BatchNorm"/> class. /// </summary> internal BatchNorm() { base.Name = "BatchNorm"; base.Params = new ExpandoObject(); Shape = null; BetaInitializer = new Zeros(); GammaInitializer = new Ones(); RunningMeanInitializer = new Zeros(); RunningStdInvInitializer = new Ones(); Spatial = true; NormalizationTimeConstant = 4096f; BlendTimeConst = 0; Epsilon = 0.001f; }
protected string IntegerNumber(string number) { int numDigit = number.Length; int pos = 0; string place = string.Empty; StringBuilder fword = new StringBuilder(); if (number.StartsWith("-")) { fword.Append("Minus"); number = number.Substring(1); } while (number.Length > 0) { if (number.Length == 1) { fword.Append(" " + Ones.GetOnes(number)); break; } else if (number.Length == 2) { fword.Append(" " + Tens.GetTens(number)); break; } else { place = GetPlaceValue(number, out pos); } if (pos == 1) { fword.Append(" " + Ones.GetOnes(number.Substring(0, pos))); } else if (pos == 2) { fword.Append(" " + Tens.GetTens(number.Substring(0, pos))); } else { fword.Append(" " + IntegerNumber(number.Substring(0, pos))); } fword.Append(" " + place); number = number.Substring(pos); number = number.TrimStart('0'); } return(fword.ToString().Trim()); }
protected string AfterDecimal(string number) { StringBuilder word = new StringBuilder(); int i = 0; while (i < number.Length) { if (number[i] == '0') { word.Append(" Zero"); i++; continue; } word.Append(" " + Ones.GetOnes(number[i].ToString())); i++; } return(word.ToString().Trim()); }
List <Ones> GetACopy() { List <Ones> Copy = new List <Ones>(); for (int i = 0; i < rows; i++) { for (int j = 0; j < cols; j++) { if (board[i, j] == 1) { Position tempPos = new Position(i, j); List <Position> tempList = new List <Position>(); tempList = GetAdjacent(tempPos); Ones tempOne = new Ones(tempPos, tempList); Copy.Add(tempOne); } } } return(Copy); }
private static double GetSumOnesValueAndOt(Ones ones) { var sum = 0D; if (ones.Value != null) { var value = ones.Value.Value / (ones.IsEpisodic ? OnesConstants.DefaultEpisodicOnesValue : OnesConstants.DefaultTheatricalOnesValue); sum += value; } if (ones.OverTime != null) { var ot = ones.OverTime.Value / (ones.IsEpisodic ? OnesConstants.DefaultEpisodicOnesValue : OnesConstants.DefaultTheatricalOnesValue); sum += ot; } return(sum); }
public double GetMyThreats() { //TODO Get the heuristic function of the threats int rows = board.GetLength(0); int col = board.GetLength(1); List <Ones> myList = new List <Ones>(); List <Position> ThreatsPos = new List <Position>(); double Threats = 0.0; for (int i = 0; i < rows; i++) { for (int j = 0; j < col; j++) { if (board[i, j] == 1) { Position tempPos = new Position(i, j); List <Position> tempList = new List <Position>(); tempList = GetAdjacent(tempPos); Ones tempOne = new Ones(tempPos, tempList); myList.Add(tempOne); } } } for (int i = 0; i < myList.Count; i++) { //List<Ones> Copy = myList; List <Ones> Copy = GetACopy(); Position currentPos = myList[i].pos; List <Position> currentList = myList[i].AdjList; Position checkingPos1 = new Position(0, 0); Position checkingPos2 = checkingPos1; bool firstCheck = false, secondCheck = false; bool exists = false; int j = i + 1; int index = i + 1; //check if this one is connected with any other one or not while (j != Copy.Count) { exists = IsInThisList(currentPos, Copy[j].AdjList); if (exists) { Copy.RemoveAt(j); j++; j--; } else { j++; } } if (Copy.Count != 1) // donc fih lesa 3l a2al one wahda msh connected beya 3shan law =1 yb2a ana bas { for (int l = index; l < Copy.Count; l++) { Position CurrentPosInList; bool existed; bool firstTime = true; for (int k = 0; k < currentList.Count; k++) { CurrentPosInList = currentList[k]; existed = IsInThisList(CurrentPosInList, Copy[l].AdjList); if (existed) { if (firstTime) { checkingPos1 = CurrentPosInList; ThreatsPos.Add(checkingPos1); firstCheck = true; firstTime = false; } else { //second time and the last one checkingPos2 = CurrentPosInList; ThreatsPos.Add(checkingPos1); secondCheck = true; } } if (firstCheck && secondCheck) //donc weslet lel pair el common ma ben 2 ones { if (board[checkingPos1.i, checkingPos1.j] == 0) { if (board[checkingPos2.i, checkingPos2.j] == 0) { Threats += 1; } else if (board[checkingPos2.i, checkingPos2.j] == 1) { Threats += 1; } } else if (board[checkingPos1.i, checkingPos1.j] == 1) { if (board[checkingPos2.i, checkingPos2.j] == 0) { Threats += 1; } } firstCheck = false; secondCheck = false; firstTime = true; } } } } } return(Threats); }
private void Ones_add(object sender, RoutedEventArgs e) { Ones++; OnesText.Text = Ones.ToString(); TotalBox.Text = Total.ToString("C"); }
public static string GetTens(int number) { string name = string.Empty; bool isDone; name = GetTensMatched(number, out isDone); if (!isDone && number > 0) { name = GetTensMatched(int.Parse(number.ToString().Substring(0, 1) + "0"), out isDone) + " " + Ones.GetOnes(number.ToString().Substring(1)); } return(name); }