/// <summary> /// Main method which takes the input and invoke methods in other classes to find the i largest elements in an array /// Also accepts the i size from command prompt /// </summary> /// <param name="args"></param> static void Main(string[] args) { int[] sample = createArray(); int length = sample.Length; int[] copy = new int[length]; Array.Copy(sample, copy, length); int output; Console.Write("Enter the size of the output:"); CommonClass.CheckInput(out output ); int display; Console.Write("Click Enter to continue\n" + "or Enter 1 to display the detailed report of Input and Original sorted arry for all the programs:"); string input = Console.ReadLine(); if (Int32.TryParse(input, out display)) {} else display = 0; int resLength = output; if (length < resLength) resLength = length; int[] result = new int[resLength]; CommonClass.resultSize = resLength; LinearSearchProgram linearSearchObject = new LinearSearchProgram(); Console.WriteLine("==========LINEAR SEARCH=========="); Console.WriteLine(); Console.WriteLine(); Console.WriteLine("Random Array with {0} elements", length); CommonClass.DisplayArray(sample); CommonClass.numberOfAssignments = 0; result = linearSearchObject.LinearSearch(sample, resLength); //Console.WriteLine("==========LINEAR SEARCH OUTPUT=========="); Console.WriteLine("Select Top {0} elements", resLength); CommonClass.DisplayArray(result); CommonClass.DisplayNoOfOperartions(); //Display the sorted output of Linear search if (display == 1) { Console.WriteLine("Original Sorted Array", length); sample = linearSearchObject.LinearSearch(sample, length); CommonClass.DisplayArray(sample); } Array.Copy(copy, sample, length); MergeSortProgram mergeSortObject = new MergeSortProgram(); Console.WriteLine("==========MERGE SORT=========="); Console.WriteLine(); Console.WriteLine(); //Display the input array for Merge sort if (display == 1) { Console.WriteLine("Random Array with {0} elements", length); CommonClass.DisplayArray(sample); } CommonClass.numberOfAssignments = 0; mergeSortObject.MergeSort(sample,0, length); result = CommonClass.largestIElements(sample, resLength); Console.WriteLine("Select Top {0} elements", resLength); CommonClass.DisplayArray(result); CommonClass.DisplayNoOfOperartions(); //Display the sorted output of Merge Sort if (display == 1) { Console.WriteLine("Original Sorted Array", length); CommonClass.DisplayArray(sample); } Array.Copy(copy, sample, length); HeapSortProgram heapSortObject = new HeapSortProgram(); Console.WriteLine("==========HEAP SORT=========="); Console.WriteLine(); Console.WriteLine(); //Display the input array for heap sort if (display == 1) { Console.WriteLine("Random Array with {0} elements", length); CommonClass.DisplayArray(sample); } CommonClass.numberOfAssignments = 0; result = heapSortObject.largestIElements(sample, resLength); Console.WriteLine("Select Top {0} elements", resLength); CommonClass.DisplayArray(result); CommonClass.DisplayNoOfOperartions(); //Display the sorted output of Heap Sort if (display == 1) { sample = heapSortObject.largestIElements(sample, length); Console.WriteLine("Original Sorted Array", length); CommonClass.DisplayArray(sample); } Array.Copy(copy, sample, length); QuickSortProgram quickSortObject = new QuickSortProgram(); Console.WriteLine("==========QUICK SORT=========="); Console.WriteLine(); Console.WriteLine(); //Display the input array for quicksort if (display == 1) { Console.WriteLine("Random Array with {0} elements", length); CommonClass.DisplayArray(sample); } CommonClass.numberOfAssignments = 0; quickSortObject.QuickSort(sample,0,length-1); result = CommonClass.largestIElements(sample, resLength); Console.WriteLine("Select Top {0} elements", resLength); CommonClass.DisplayArray(result); CommonClass.DisplayNoOfOperartions(); //Display the sorted output of Quick Sort if (display == 1) { Console.WriteLine("Original Sorted Array", length); CommonClass.DisplayArray(sample); } Console.Read(); }
/// <summary> /// Main method which takes the input and invoke methods in other classes to find the i largest elements in an array /// Also accepts the i size from command prompt /// </summary> /// <param name="args"></param> static void Main(string[] args) { int[] sample = createArray(); int length = sample.Length; int[] copy = new int[length]; Array.Copy(sample, copy, length); int output; Console.Write("Enter the size of the output:"); CommonClass.CheckInput(out output); int display; Console.Write("Click Enter to continue\n" + "or Enter 1 to display the detailed report of Input and Original sorted arry for all the programs:"); string input = Console.ReadLine(); if (Int32.TryParse(input, out display)) { } else { display = 0; } int resLength = output; if (length < resLength) { resLength = length; } int[] result = new int[resLength]; CommonClass.resultSize = resLength; LinearSearchProgram linearSearchObject = new LinearSearchProgram(); Console.WriteLine("==========LINEAR SEARCH=========="); Console.WriteLine(); Console.WriteLine(); Console.WriteLine("Random Array with {0} elements", length); CommonClass.DisplayArray(sample); CommonClass.numberOfAssignments = 0; result = linearSearchObject.LinearSearch(sample, resLength); //Console.WriteLine("==========LINEAR SEARCH OUTPUT=========="); Console.WriteLine("Select Top {0} elements", resLength); CommonClass.DisplayArray(result); CommonClass.DisplayNoOfOperartions(); //Display the sorted output of Linear search if (display == 1) { Console.WriteLine("Original Sorted Array", length); sample = linearSearchObject.LinearSearch(sample, length); CommonClass.DisplayArray(sample); } Array.Copy(copy, sample, length); MergeSortProgram mergeSortObject = new MergeSortProgram(); Console.WriteLine("==========MERGE SORT=========="); Console.WriteLine(); Console.WriteLine(); //Display the input array for Merge sort if (display == 1) { Console.WriteLine("Random Array with {0} elements", length); CommonClass.DisplayArray(sample); } CommonClass.numberOfAssignments = 0; mergeSortObject.MergeSort(sample, 0, length); result = CommonClass.largestIElements(sample, resLength); Console.WriteLine("Select Top {0} elements", resLength); CommonClass.DisplayArray(result); CommonClass.DisplayNoOfOperartions(); //Display the sorted output of Merge Sort if (display == 1) { Console.WriteLine("Original Sorted Array", length); CommonClass.DisplayArray(sample); } Array.Copy(copy, sample, length); HeapSortProgram heapSortObject = new HeapSortProgram(); Console.WriteLine("==========HEAP SORT=========="); Console.WriteLine(); Console.WriteLine(); //Display the input array for heap sort if (display == 1) { Console.WriteLine("Random Array with {0} elements", length); CommonClass.DisplayArray(sample); } CommonClass.numberOfAssignments = 0; result = heapSortObject.largestIElements(sample, resLength); Console.WriteLine("Select Top {0} elements", resLength); CommonClass.DisplayArray(result); CommonClass.DisplayNoOfOperartions(); //Display the sorted output of Heap Sort if (display == 1) { sample = heapSortObject.largestIElements(sample, length); Console.WriteLine("Original Sorted Array", length); CommonClass.DisplayArray(sample); } Array.Copy(copy, sample, length); QuickSortProgram quickSortObject = new QuickSortProgram(); Console.WriteLine("==========QUICK SORT=========="); Console.WriteLine(); Console.WriteLine(); //Display the input array for quicksort if (display == 1) { Console.WriteLine("Random Array with {0} elements", length); CommonClass.DisplayArray(sample); } CommonClass.numberOfAssignments = 0; quickSortObject.QuickSort(sample, 0, length - 1); result = CommonClass.largestIElements(sample, resLength); Console.WriteLine("Select Top {0} elements", resLength); CommonClass.DisplayArray(result); CommonClass.DisplayNoOfOperartions(); //Display the sorted output of Quick Sort if (display == 1) { Console.WriteLine("Original Sorted Array", length); CommonClass.DisplayArray(sample); } Console.Read(); }