static void Generate(int seed) { char key = GetAction(false); if (key == '0') { return; } Console.WriteLine("\nĮveskite dydį:"); int size = ReadPositiveInteger(); if (key == '1' || key == '3') { GlobalArray = new MyDataArray(size, seed); } if (key == '2' || key == '3') { GlobalList = new MyDataList(size, seed); } }
public static void Test_Array_List(int seed) { bool merge = false; bool bucket = false; Console.WriteLine("Press M to MergeSort\nPress B to BucketSort\nPress Q to quit\n"); bool input = true; while (input) { var key = Console.ReadKey(); switch (char.ToUpper(key.KeyChar)) { case 'M': merge = true; input = false; Console.WriteLine("\n\nPerforming MergeSort...\n"); break; case 'B': bucket = true; input = false; Console.WriteLine("\n\nPerforming BucketSort...\n"); break; case 'Q': return; } } System.Threading.Thread.Sleep(1000); if (merge && bucket) { Console.WriteLine("Cannot perform merge sort and bucket sort at the same time"); return; } List <string> dataTime = new List <string>(); List <string> dataOps = new List <string>(); int[] amount = { 100000, 150000, 200000, 250000, 300000, 400000, 500000, 750000, 1000000, 1250000, 1500000, 2000000, 3000000, 4000000, 5000000, 6000000, 7000000, 8000000, 9000000, 10000000 }; int repeat = 10; bool print = false; long startTime = 0; long endTime = 0; // int n = 100000; dataTime.Add("ARRAY\n"); dataOps.Add("ARRAY\n"); Console.WriteLine("\n ARRAY \n"); foreach (int n in amount) { Console.WriteLine("n = " + n); for (int i = 0; i < repeat; i++) { MyDataArray myarray = new MyDataArray(n, seed); if (print) { myarray.Print(n); } GC.Collect(); if (merge) { startTime = DateTime.Now.Ticks; MergeSort(myarray); endTime = DateTime.Now.Ticks; } if (bucket) { startTime = DateTime.Now.Ticks; BucketSort(myarray); endTime = DateTime.Now.Ticks; } if (print) { myarray.Print(n); } Console.WriteLine("Is sorted: " + myarray.IsSorted()); Console.WriteLine("Elapsed time in ticks: " + (endTime - startTime)); dataTime.Add($"{n};{(float)TimeSpan.FromTicks(endTime - startTime).TotalMilliseconds / 1000.0f}"); } if (merge) { ulong operations = MergeSortOperations((ulong)n); dataOps.Add($"{n};{operations}"); } if (bucket) { ulong operations = BucketSortOperations((ulong)n); dataOps.Add($"{n};{operations}"); } dataTime.Add(""); } int line = 2 + amount.Length + (repeat * amount.Length); int l = 3; foreach (int n in amount) { dataTime.Add($"{n};=AVERAGE(B{l}:B{l + repeat - 1})"); l += repeat + 1; } dataTime.Add("\n\n\nLIST\n"); dataOps.Add("\n\n\nLIST\n"); Console.WriteLine("\n LIST \n"); foreach (int n in amount) { Console.WriteLine("n = " + n); for (int i = 0; i < repeat; i++) { MyDataList mylist = new MyDataList(n, seed); if (print) { mylist.Print(n); } GC.Collect(); if (merge) { startTime = DateTime.Now.Ticks; mylist.MergeSort(); endTime = DateTime.Now.Ticks; } if (bucket) { startTime = DateTime.Now.Ticks; mylist.BucketSort(); endTime = DateTime.Now.Ticks; } if (print) { mylist.Print(n); } Console.WriteLine("Is sorted: " + mylist.IsSorted()); Console.WriteLine("Elapsed time in ticks: " + (endTime - startTime)); dataTime.Add($"{n};{(float)TimeSpan.FromTicks(endTime - startTime).TotalMilliseconds / 1000.0f}"); } if (merge) { } if (bucket) { ulong operations = BucketSortOperations((ulong)n); dataOps.Add($"{n};{operations}"); } dataTime.Add(""); } l += 5 + amount.Length; foreach (int n in amount) { dataTime.Add($"{n};=AVERAGE(B{l}:B{l + repeat - 1})"); l += repeat + 1; } if (merge) { File.WriteAllLines("Merge_Times.csv", dataTime); File.WriteAllLines("Merge_Operations.csv", dataOps); } if (bucket) { File.WriteAllLines("Bucket_Times.csv", dataTime); File.WriteAllLines("Bucket_Operations.csv", dataOps); } }