public void Problem29_Return_Result_9183() { long act = Problem29.DistinctPowers(); Assert.True(act.Equals(9183)); }
public void GeneralizedSolution_ExampleValue_ReturnsResult() { var result = Problem29.GeneralizedSolution(5, 5); Assert.AreEqual(15, result); }
public static void Main(string[] args) { CreateHeader(); while (true) { Console.WriteLine("Input problem #:"); string userInput = "lis"; int problemNumber = 0; if (userInput == "sort") { SortingAlgorithms SortingAlgorithms = new SortingAlgorithms(); SortingAlgorithms.Main(); } else if (userInput == "LinkedList") { LinkedListTest linkedList = new LinkedListTest(); linkedList.Main(); } else if (userInput == "Fib") { Fib fib = new Fib(); fib.Main(); } else if (userInput == "lis") { LISS lis = new LISS(); lis.Main(); } else if (userInput == "search") { SearchingAlgorithms search = new SearchingAlgorithms(); search.Main(); } else { bool validInput = Int32.TryParse(userInput, out problemNumber); if (validInput) { switch (problemNumber) { case 1: Problem1 problem1 = new Problem1(); problem1.Main(); break; case 21: Problem21 problem21 = new Problem21(); problem21.Main(); break; case 29: Problem29 problem29 = new Problem29(); problem29.Main(); break; case 37: Problem37 problem37 = new Problem37(); problem37.Main(); break; case 44: Problem44 problem44 = new Problem44(); problem44.Main(); break; case 57: Problem57 problem57 = new Problem57(); problem57.Main(); break; default: break; } } } } }
public void Solution_ReturnsResult() { var result = Problem29.Solution(); Assert.AreEqual(9183, result); }