static void Main(string[] args) { var jsonResponse = new Posts(); var myDict = new Dictionary <string, string>(); foreach (var prop in jsonResponse.GetType().GetProperties()) { myDict.Add(prop.Name, prop.GetValue(jsonResponse)?.ToString()); } var input = new int[] { 5, 4, 3, 2, 1 }; MergeSort sort = new MergeSort(); // , Username and message. var result = sort.Sort(input); // Dictionary<MenuSelection, string> dict = new Dictionary<MenuSelection, string>(); // dict.Add(MenuSelection.CreateCustomer, "Create Customer"); // dict.Add(MenuSelection.CreateAccount, "Create Account"); // dict.Add(MenuSelection.SetAccountBalance, "Set Account Balance"); // dict.Add(MenuSelection.DisplayAccountBalance, "Display Account Balance"); // dict.Add(MenuSelection.Exit, "Exit"); // string showValue = string.Empty; // for (int i = 1; i <= (int)MenuSelection.MaxMenuSelection; i++) // { // Console.WriteLine($"[{i}] { dict[(MenuSelection)i]}"); // } //左正常 右邊加一 //float fl = 9.81234567f;//小數點最多到第六位 //float f2 = 9.81234568f;//小數點最多到第六位 //Console.WriteLine(fl == f2); //decimal d1 = 1.2345678912234567891234568848m; //decimal d2 = 1.23456789122345678912345684m; //Console.WriteLine(d1==d2); Console.ReadKey(); }
static void Main(string[] args) { Console.WriteLine("Enter the no of the program "); Console.WriteLine("Cheak two string are anagram or not(1)"); Console.WriteLine("Find Prime nos between 1 to 1000(2)"); Console.WriteLine("Vending Machine(3)"); Console.WriteLine("Find Day of the week(4)"); Console.WriteLine("Temprature conversion(5)"); Console.WriteLine("Mothly Payment(6)"); Console.WriteLine("SqureRoot using Newton's Law(7)"); Console.WriteLine("Searching and sorting(8)"); Console.WriteLine("Binary search for word list(9)"); Console.WriteLine("Insertion sort of word list(10)"); Console.WriteLine("Bubble sort of numbers(11)"); Console.WriteLine("Conversion(12)"); Console.WriteLine("Binary(13)"); Console.WriteLine("Merge Sort(14)"); Console.WriteLine("Number Game(15)"); int p = int.Parse(Console.ReadLine()); switch (p) { case 1: Anagram a = new Anagram(); a.ChkAnagram(); break; case 2: Prime b = new Prime(); b.ChkPrime(); break; case 3: VendingMachine c = new VendingMachine(); c.CountNote(); break; case 4: DayOfWeek d = new DayOfWeek(); int m = int.Parse(args[0]); int d1 = int.Parse(args[1]); int y = int.Parse(args[2]); Console.WriteLine(d.FindDay(d1, m, y)); break; case 5: TempratureConversion e = new TempratureConversion(); Console.WriteLine("Enter the temprature"); int e1 = int.Parse(Console.ReadLine()); e.Conversion(e1); break; case 6: MonthlyPayment f = new MonthlyPayment(); Console.WriteLine("Enter the Principal loan amount"); int p1 = int.Parse(Console.ReadLine()); Console.WriteLine("Enter the year"); int y1 = int.Parse(Console.ReadLine()); Console.WriteLine("Enter the rate of interest"); double r1 = double.Parse(Console.ReadLine()); Console.WriteLine(f.FindMPayment(p1, y1, r1)); break; case 7: SqrtN g = new SqrtN(); g.FindSqrt(); break; case 8: Utility h = new Utility(); //Binary search for Integer Console.WriteLine("Enter the size of the array"); int n = int.Parse(Console.ReadLine()); int[] h1 = new int[n]; Console.WriteLine("Enter the sorted elements in assending order"); for (int i = 0; i < n; i++) { h1[i] = int.Parse(Console.ReadLine()); } Console.WriteLine("Enter the element you want to search"); int x = int.Parse(Console.ReadLine()); int h2 = h.BinarrySearchInt(h1, x); Console.WriteLine("The element is present in the {0}th place", h2); //Binary search for a string Console.WriteLine("Enter how many elements you want to add"); int n1 = int.Parse(Console.ReadLine()); String[] h3 = new String[n]; Console.WriteLine("Enter Strings"); for (int i = 0; i < n; i++) { h3[i] = Console.ReadLine(); } Console.WriteLine("Enter the string you want to search"); String x1 = Console.ReadLine(); int h4 = h.BinarrySearchString(h3, x1); Console.WriteLine("The element is present in the {0}th place", h4); // Insertion sort for Integer Console.WriteLine("Enter the size of the array for sorting"); int n2 = int.Parse(Console.ReadLine()); Console.WriteLine("Enter numbers"); int[] arr = new int[n2]; for (int i = 0; i < n2; i++) { arr[i] = int.Parse(Console.ReadLine()); } int[] arr2 = h.InsertionSortInt(arr); Console.WriteLine("Sorted Array Elements :"); for (int i = 0; i < n2; i++) { Console.Write(arr2[i]); Console.Write(" "); } Console.WriteLine("\n"); //Insertion sort for String Console.WriteLine("Enter how many elements you want to add for sorting"); int n3 = int.Parse(Console.ReadLine()); String[] h5 = new String[n3]; Console.WriteLine("Enter Strings"); for (int i = 0; i < n3; i++) { h5[i] = Console.ReadLine(); } String[] arr3 = h.InsertionSortString(h5); Console.WriteLine("Sorted Array Elements :"); for (int i = 0; i < n2; i++) { Console.Write(arr3[i]); Console.Write(" "); } Console.WriteLine("\n"); break; case 9: BinarySearchWord v = new BinarySearchWord(); Console.WriteLine("Enter how many elements you want to add"); int n4 = int.Parse(Console.ReadLine()); String[] h6 = new String[n4]; Console.WriteLine("Enter Strings"); for (int i = 0; i < n4; i++) { h6[i] = Console.ReadLine(); } Console.WriteLine("Enter the string you want to search"); String x3 = Console.ReadLine(); int h9 = v.BinarrySearch(h6, x3); Console.WriteLine("The element is present in the {0}th place", h9); break; case 10: InsertionSortWord z = new InsertionSortWord(); Console.WriteLine("Enter how many elements you want to add for sorting"); int n5 = int.Parse(Console.ReadLine()); String[] h10 = new String[n5]; Console.WriteLine("Enter Strings"); for (int i = 0; i < n5; i++) { h10[i] = Console.ReadLine(); } String[] arr4 = z.InsertionSort(h10); Console.WriteLine("Sorted Array Elements :"); for (int i = 0; i < n5; i++) { Console.Write(arr4[i]); Console.Write(" "); } Console.WriteLine("\n"); break; case 11: BubbleSort w = new BubbleSort(); Console.WriteLine("Enter the size of the array for sorting"); int n6 = int.Parse(Console.ReadLine()); Console.WriteLine("Enter numbers"); int[] ar = new int[n6]; for (int i = 0; i < n6; i++) { ar[i] = int.Parse(Console.ReadLine()); } int[] ar1 = w.BubbleSortI(ar); Console.WriteLine("Sorted Array Elements :"); for (int i = 0; i < n6; i++) { Console.Write(ar1[i]); Console.Write(" "); } Console.WriteLine("\n"); break; case 12: Convertion z1 = new Convertion(); Console.WriteLine("if you want to convert decimal to binary press 1 and binary to decimal press 0"); int de = int.Parse(Console.ReadLine()); if (de == 1) { z1.ToBinary(); } if (de == 0) { z1.ToDecimal(); } break; case 13: //Convertion s = new Convertion(); Console.WriteLine("Enter a decimal no"); //int[] ar4= s.ToBinary(); int a5 = int.Parse(Console.ReadLine()); Binary b1 = new Binary(); int ar5 = b1.SwapNibbles(a5); Console.WriteLine("After Swapping the no became {0}", ar5); break; case 14: MergeSort w1 = new MergeSort(); Console.WriteLine("Enter the size of the array"); int n7 = int.Parse(Console.ReadLine()); Console.WriteLine("Enter the elements to the array"); int[] iarray = new int[n7]; for (int i = 0; i < n7; i++) { iarray[i] = int.Parse(Console.ReadLine()); } w1.Sort(iarray); for (int i = 0; i < n7; i++) { Console.Write(iarray[i] + " "); } break; case 15: NumberGame r2 = new NumberGame(); r2.Game(); break; } }
/// <summary> /// Main method /// </summary> /// <param name="args">The arguments.</param> public static void Main(string[] args) { try { string str = null; do { Console.WriteLine("Enter 1 For Anagram Program"); Console.WriteLine("Enter 2 For Prime numbers"); Console.WriteLine("Enter 3 For Insertion Sort"); Console.WriteLine("Enter 4 For Bubble Sort"); Console.WriteLine("Enter 5 For Merge Sort"); Console.WriteLine("Enter 6 For Vending Machine"); Console.WriteLine("Enter 7 For Temperature"); Console.WriteLine("Enter 8 For Square Root"); Console.WriteLine("Enter 9 For Decimal to Binary"); Console.WriteLine("Enter 10 For Nibble"); Console.WriteLine("Enter 11 For Binary Search of integers"); Console.WriteLine("Enter 12 For Binary Search of strings"); Console.WriteLine("Enter 13 For Insertion Sort of integers"); Console.WriteLine("Enter 14 For Insertion sort of strings"); Console.WriteLine("Enter 15 For Bubble sort of integers"); Console.WriteLine("Enter 16 For Bubble sort of strings"); Console.WriteLine("Enter 17 For Anagram and palindrome of prime numbers"); Console.WriteLine("Enter 18 For Binary search"); int num = Convert.ToInt32(Console.ReadLine()); switch (num) { case 1: Anagram a = new Anagram(); a.StringAnagram(); break; case 2: Primenumbers p = new Primenumbers(); p.Isprime(); break; case 3: InsertionSort ins = new InsertionSort(); ins.Sortingofstrings(); break; case 4: BubbleSort bs = new BubbleSort(); bs.Bubblesortofint(); break; case 5: MergeSort m = new MergeSort(); Console.WriteLine("enter size of array"); int size = Convert.ToInt32(Console.ReadLine()); string[] words = new string[size]; Console.WriteLine("enter strings in to array"); for (int k = 0; k < size; k++) { words[k] = Console.ReadLine(); } m.Sort(words); Console.WriteLine("sorted array"); foreach (string sortedArray in words) { Console.WriteLine(sortedArray); Console.ReadLine(); } break; case 6: VendingMachine v = new VendingMachine(); v.CountCurrency(); break; case 7: Temperature t = new Temperature(); t.TemperatureConversion(); break; case 8: SquareRoot sq = new SquareRoot(); sq.FindSquareRoot(); break; case 9: DecimaltoBinary db = new DecimaltoBinary(); db.ConversionofDecimal(); break; case 10: Nibble nb = new Nibble(); nb.ToBinary(); break; case 11: Console.WriteLine("Enter the size of Array:"); int arraysize = Utility.Getinteger(); int[] arr = new int[arraysize]; Console.WriteLine("Enter " + arraysize + " Elemenets"); for (int i = 0; i < arr.GetLength(0); i++) { arr[i] = Utility.Getinteger(); } Console.WriteLine("Enter an item to search:"); int item = Utility.Getinteger(); Utility.BinarySearch(arr, item); break; case 12: Console.WriteLine("Enter the size of Array:"); int sizeStr = Utility.Getinteger(); string[] s = new string[sizeStr]; Console.WriteLine("Enter " + sizeStr + " Elemenets"); for (int i = 0; i < s.GetLength(0); i++) { s[i] = Utility.GetString(); } Console.WriteLine("Enter an item to search:"); string itemStr = Utility.GetString(); Utility.BinarySearch(s, itemStr); break; case 13: Console.WriteLine("Enter the size of Array:"); int sizeIns = Utility.Getinteger(); int[] arrIns = new int[sizeIns]; Console.WriteLine("Enter " + sizeIns + " Elemenets"); for (int i = 0; i < arrIns.GetLength(0); i++) { arrIns[i] = Utility.Getinteger(); } Utility.InsertionSort(arrIns); break; case 14: Console.WriteLine("Enter the size of Array:"); int strsize = Utility.Getinteger(); string[] strIns = new string[strsize]; Console.WriteLine("Enter " + strsize + " Elemenets"); for (int i = 0; i < strIns.GetLength(0); i++) { strIns[i] = Utility.GetString(); } Utility.InsertionSort(strIns); break; case 15: Console.WriteLine("Enter the size of Array:"); int sizeBubInt = Utility.Getinteger(); int[] arrBubInt = new int[sizeBubInt]; Console.WriteLine("Enter " + sizeBubInt + " Elemenets"); for (int i = 0; i < arrBubInt.GetLength(0); i++) { arrBubInt[i] = Utility.Getinteger(); } Utility.BubbleSort(arrBubInt); break; case 16: Console.WriteLine("Enter the size of Array:"); int strsizeBub = Utility.Getinteger(); string[] strBub = new string[strsizeBub]; Console.WriteLine("Enter " + strsizeBub + " Elemenets"); for (int i = 0; i < strBub.GetLength(0); i++) { strBub[i] = Utility.GetString(); } Utility.BubbleSort(strBub); break; case 17: AnagramAndPalindrome Ap = new AnagramAndPalindrome(); Ap.PalindromeOfPrimeNumbers(); Ap.AnagramOfPrimeNumbers(); break; case 18: BinarySearch binarysearch = new BinarySearch(); binarysearch.ReadFile(); break; default: Console.WriteLine("Please enter the valid input"); Console.ReadLine(); break; } }while(str != "n"); Console.ReadLine(); } catch (Exception e) { Console.WriteLine(e.Message); } }
static void Main(string[] args) { Console.WriteLine("Functional programming"); Console.WriteLine("----------------------"); Console.WriteLine(" 1. All permutations of a String using iterative method and Recursion method"); Console.WriteLine(" 2.Binary Search the Word from Word List"); Console.WriteLine(" 3.Insertion sort in string"); Console.WriteLine(" 4.Reads in integers prints them in sorted order using Bubble Sort"); Console.WriteLine(" 5.Write a program to do Merge Sort of list of Strings."); Console.WriteLine(" 6.ne string is an anagram of another if the second is simply a rearrangement of the first"); Console.WriteLine(" 7. Take a range of 0 - 1000 Numbers and find the Prime numbers in that range. "); Console.WriteLine(" 8. Extend the above program to find the prime numbers that are Anagram and Palindrome "); Console.WriteLine(" 9.Rewrite Use Generics for Search and Sort Algorithms"); Console.WriteLine(" 10.Question to find your number"); Console.WriteLine(" 11.maximum amount by which a task's completion time overshoots its deadline is minimized."); //Console.WriteLine("12.Customize Message Demonstration using String Function and RegEx"); //Console.WriteLine("13.Coupone Number"); //Console.WriteLine("14.Stop watch"); //Console.WriteLine("15.Tic Toe Tik"); //Console.WriteLine("16.Vending Machine"); //Console.WriteLine("17.dayOfWeeks"); //Console.WriteLine("18.celcius to Ferhinheit and vic versa"); //Console.WriteLine("19.Monthly pament"); //Console.WriteLine("20.Newton method"); //Console.WriteLine("21.Decimal to binary"); //Console.WriteLine("22.swap nibble"); int str = int.Parse(Console.ReadLine()); switch (str) { case 1: PermutationOfString.Permu(); break; case 2: BinarySearch.Binary(); break; case 5: MergeSort.Merge1(); break; //case 4: // HarmonicNumber.Harmonic(); // break; case 3: InsertionSort.Insertion(); break; //case 6: // FactorNumber.Factor(); // break; //case 7: // TwoDArray.Two(); // break; //case 8: // SumOfThree.Sum(); // break; //case 9: // Distance.Dist(); // break; //case 10: // Quadratic.Quad(); // break; //case 11: // WindChill.Wind(); // break; //case 12: // Gambler.Game(); // break; //case 13: // Cupon_number.Cupon(); // break; //case 14: // Stopwatchs.Stop(); // break; //case 15: // TicTakTeo.Tic(); // break; //case 16: // VendingMachine.Vending(); // break; //case 17: // DaysOfWeek.Days(); // break; //case 18: // TemperatureConversion.Temperature(); // break; //case 19: // MonthlyPayment.Payment(); // break; default: break; } }
static void Main(string[] args) { Console.WriteLine("select your choice : "); Console.WriteLine(" 1 -> Permutations Of a String program "); Console.WriteLine(" 2 -> Binary Search the Word from Word List program "); Console.WriteLine(" 3 -> Insertion Sort program "); Console.WriteLine(" 4 -> Bubble Sort program "); Console.WriteLine(" 5 -> Merger Sort program "); Console.WriteLine(" 6 -> Anagram Detection program "); Console.WriteLine(" 7 -> Prime Number program "); Console.WriteLine(" 8 -> Primenumber_Palindrome_Anagram program "); Console.WriteLine(" 9 -> program "); Console.WriteLine("10 -> Guess Number Game program "); Console.WriteLine("11 -> ListOfTask program "); Console.WriteLine("12 -> program "); Console.Write("enter your choice : "); int choice = Utility.Util.ReadInt(); switch (choice) { case 1: StringPermutation sp = new StringPermutation(); sp.StringPermutationMethod(); break; case 2: BinarySearch binarysearch = new BinarySearch(); binarysearch.BinarySearchMethod(); break; case 3: InsertionSort insertionsort = new InsertionSort(); insertionsort.InsertionSortMethod(); break; case 4: BubbleSort bubblesort = new BubbleSort(); bubblesort.BubbleSortMethod(); break; case 5: MergeSort mergesort = new MergeSort(); mergesort.MergeSortMethod(); break; case 6: Anagram anagram = new Anagram(); anagram.AnagramMethod(); break; case 7: PrimeNumber prime = new PrimeNumber(); prime.PrimeNumberMethod(); break; case 8: PalindromeAndAnagram pna = new PalindromeAndAnagram(); pna.PalindromeAndAnagramMethod(); break; case 10: GuessNumber guessnumber = new GuessNumber(); guessnumber.GuessNumberMethod(); break; case 11: ListOfTask lot = new ListOfTask(); lot.ListOfTaskMethod(); break; default: break; } }
/// <summary> /// Defines the entry point of the application. /// </summary> /// <param name="args">The arguments.</param> static void Main(string[] args) { Console.WriteLine("1: Anagram Detection"); Console.WriteLine("2: Prime Numbers between 0-1000"); Console.WriteLine("3: Prime Numbers that are Anagram or Palindrome (0-1000)"); Console.WriteLine("4: Utility Class"); Console.WriteLine("5: Find Number"); Console.WriteLine("6: Binary Search"); Console.WriteLine("7: Insertion Sort"); Console.WriteLine("8: Bubble Sort"); Console.WriteLine("9: Merge Sort"); Console.WriteLine("10: Vending Machine"); Console.WriteLine("11: Day of Week"); Console.WriteLine("12: Temperature Conversion"); Console.WriteLine("13: Monthly Payment"); Console.WriteLine("14: Square Root"); Console.WriteLine("15: To Binary"); Console.WriteLine("16: Binary Swap Nibbles"); int choice = 0; while (!(choice > 0 && choice < 17)) { try { Console.Write("Enter your choice: "); choice = Convert.ToInt32(Console.ReadLine()); } catch (FormatException) { //Console.WriteLine(Ex); } } switch (choice) { case 1: AnagramDetection anagramDetection = new AnagramDetection(); anagramDetection.anagram(); break; case 2: PrimeNumbers primeNumbers = new PrimeNumbers(); primeNumbers.prime(); break; case 3: PrimeAnagramPalindrome primeAnagramPalindrome = new PrimeAnagramPalindrome(); primeAnagramPalindrome.checkForPrimeAnagramPalindrome(); break; case 4: int[] integerArray = { 10, 8, 7, 4, 3, 5, 0, 1, 2, 6, 9 }; integerArray = Utility.BubbleSort(integerArray); Console.WriteLine("After Bubble Sort:"); for (int i = 0; i < integerArray.Length; i++) { Console.Write(integerArray[i] + " "); } Console.WriteLine(); int pos1 = Utility.BinarySearch(6, 0, 11, integerArray); if (pos1 == -1) { Console.WriteLine("Not Found!"); } else { Console.WriteLine("Found at location: " + pos1); } Console.WriteLine(); string[] stringArray = { "saad", "fahad", "saba", "zeeshan", "ashhar", "owais" }; stringArray = Utility.BubbleSort(stringArray); Console.WriteLine("After Bubble Sort:"); for (int i = 0; i < stringArray.Length; i++) { Console.Write(stringArray[i] + " "); } int pos2 = Utility.BinarySearch("saad", 0, 11, stringArray); Console.WriteLine(); if (pos2 == -1) { Console.Write("Not Found!"); } else { Console.Write("Found at location: " + pos2); } break; case 5: FindingNumber findingNumber = new FindingNumber(); findingNumber.Find(); break; case 6: BinarySearch search = new BinarySearch(); search.binarySearch(); break; case 7: InsertionSort insertionSort = new InsertionSort(); insertionSort.Sort(); break; case 8: BubbleSort bubbleSort = new BubbleSort(); bubbleSort.Sort(); break; case 9: MergeSort mergeSort = new MergeSort(); mergeSort.Sort(); break; case 10: VendingMachine vendingMachine = new VendingMachine(); vendingMachine.machine(); break; case 11: DayOfWeek dayOfWeek = new DayOfWeek(); dayOfWeek.getDay(); break; case 12: TemperatureConversion conversion = new TemperatureConversion(); conversion.temperatureConversion(); break; case 13: MonthlyPayment monthlyPayment = new MonthlyPayment(); monthlyPayment.payment(); break; case 14: SquareRoot root = new SquareRoot(); root.calculateSquareRoot(); break; case 15: ConvertToBinary convert = new ConvertToBinary(); convert.conversion(); break; case 16: BinarySwapNibbles binarySwapNibbles = new BinarySwapNibbles(); binarySwapNibbles.swapNibbles(); break; default: Console.WriteLine("Wrong Choice!"); break; } }