public void StartPlaying() { int iteraion = 0; Random rnd = new Random(); double r; bool moved = true; while (moved) { int index = 0; iteraion++; moved = false; foreach (var item in tasks) { index++; double ck = 2.7; m0 = 700; Console.WriteLine($"Task{index} {item.deadline.start} {item.deadline.finish}"); List <StartFinish> Localdeadlines = new List <StartFinish>(); List <Task> LocalTasks = new List <Task>(); double acceptProbability; StartFinish currentDeadline = new StartFinish(item.deadline.start, item.deadline.finish); StartFinish bestDeadline = new StartFinish(item.deadline.start, item.deadline.finish); StartFinish deadline = new StartFinish(item.deadline.start, item.deadline.finish); double nextSolution = 0; double currentSolution = item.solution; double bestSolution = item.solution; while (ck > epsilon) { for (int k = 0; k < m0; k++) { r = rnd.NextDouble(); GSolver solver = new GSolver(this.S, item); deadline = solver.GetNeighbour(currentDeadline.start, currentDeadline.finish); Rebuild(item, deadline); item.deadline = new StartFinish(deadline.start, deadline.finish); nextSolution = CurWelf(out LocalTasks, index); if (nextSolution > bestSolution) { bestSolution = nextSolution; bestDeadline = new StartFinish(deadline.start, deadline.finish); moved = true; for (int y = 0; y < tasks.Length; y++) { tasks[y].solution = LocalTasks[y].solution; tasks[y].deadline = new StartFinish(LocalTasks[y].deadline.start, LocalTasks[y].deadline.finish); } Console.WriteLine("New System"); int num = 0; foreach (var ttt in tasks) { num++; if (ttt != item) { Console.WriteLine($"{num}Deadline {ttt.deadline.start} {ttt.deadline.finish} {ttt.solution}"); } else { Console.WriteLine($"{num}Deadline {bestDeadline.start} {bestDeadline.finish} {bestSolution} "); } } } if (nextSolution > currentSolution) { currentSolution = nextSolution; currentDeadline = new StartFinish(deadline.start, deadline.finish); } else { acceptProbability = Math.Exp((currentSolution - nextSolution) / ck); if (r < acceptProbability) { currentSolution = nextSolution; currentDeadline = new StartFinish(deadline.start, deadline.finish); } } } ck = alpha * ck; } item.deadline = new StartFinish(bestDeadline.start, bestDeadline.finish); item.solution = bestSolution; } } Console.WriteLine("END"); Console.WriteLine(iteraion); // Console.WriteLine($"Initial Welfare {Welfare(new List<Task>(tasks))}"); initWelfare = Welfare(new List <Task>(tasks)); }
public void StartManagement() { m0 = 1000; int iteraion = 0; Random rnd = new Random(); double r; bool moved = true; while (moved) { int number = 0; iteraion++; moved = false; foreach (var item in tasks) { number++; double ck = 2.7; Console.WriteLine($"Task{number} {item.deadline.start} {item.deadline.finish}"); double acceptProbability; List <Task> bestTasks = new List <Task>(); List <Task> localtask = new List <Task>(); StartFinish currentDeadline = new StartFinish(item.deadline.start, item.deadline.finish); StartFinish bestDeadline = new StartFinish(item.deadline.start, item.deadline.finish); StartFinish deadline = new StartFinish(item.deadline.start, item.deadline.finish); double nextSolution = 0; double currentSolution = Welfare(new List <Task>(tasks)); double bestSolution = currentSolution; while (ck > epsilon) { for (int k = 0; k < m0; k++) { r = rnd.NextDouble(); GSolver solver = new GSolver(this.S, item); deadline = solver.GetNeighbour(currentDeadline.start, currentDeadline.finish); Rebuild(item, deadline); item.deadline = new StartFinish(deadline.start, deadline.finish); nextSolution = CurWelf(out localtask); if (nextSolution > bestSolution) { bestSolution = nextSolution; bestDeadline = new StartFinish(deadline.start, deadline.finish); moved = true; bestTasks = new List <Task>(); foreach (var task1 in localtask) { bestTasks.Add(new Task(task1.B, task1.t1, task1.t2) { deadline = new StartFinish(task1.deadline.start, task1.deadline.finish), solution = task1.solution }); } Console.WriteLine("New System"); Console.WriteLine($"New welfare {bestSolution}"); int num = 0; foreach (var ttt in localtask) { num++; Console.WriteLine($"{num}Deadline {ttt.deadline.start} {ttt.deadline.finish} {ttt.solution}"); } } if (nextSolution > currentSolution) { currentSolution = nextSolution; currentDeadline = new StartFinish(deadline.start, deadline.finish); } else { acceptProbability = Math.Exp((currentSolution - nextSolution) / ck); if (r < acceptProbability) { currentSolution = nextSolution; currentDeadline = new StartFinish(deadline.start, deadline.finish); } } } ck = alpha * ck; } item.deadline = new StartFinish(bestDeadline.start, bestDeadline.finish); int q = 0; foreach (var Tt in bestTasks) { tasks[q].solution = Tt.solution; tasks[q].deadline = new StartFinish(Tt.deadline.start, Tt.deadline.finish); q++; } } } finalWelfare = Welfare(new List <Task>(tasks)); Console.WriteLine($"Initial objective function {initWelfare}"); Console.WriteLine($"Final {finalWelfare}"); double cost = finalWelfare - initWelfare; Console.WriteLine($"Cost of anarchy {cost}"); }
public void SimulatedAnnealing() { int number = 0; foreach (Task T in tasks) { number++; Console.WriteLine($" Task number {number}"); this.T = T; this.solver = new GSolver(this.S, T); int k = 0; Compute(); double ck = c; // temperature double r; double acceptProbability; double bestSolution = 0; StartFinish bestDeadline = new StartFinish(0, 0); StartFinish currentDeadline = new StartFinish(0, 0); double currentSolution; double nextSolution; int t = (T.t2 + T.t1) / 2; StartFinish deadline = new StartFinish(0, t); List <Task> intersectTasks = new List <Task>(); intersectTasks.Add(T); List <StartFinish> intersectDd = new List <StartFinish>(); intersectDd.Add(deadline); for (int j = 0; j < segment.Count; j++) { if (Intersect(deadline, segment[j])) { foreach (Task tk in tasksInSegments[j]) { intersectTasks.Add(tk); intersectDd.Add(tk.deadline); } } } currentSolution = solver.ProbOfCompletionModern(intersectDd, intersectTasks); currentDeadline = deadline; Random rnd = new Random(); while (ck > epsilon) { for (int i = 0; i < m0; i++) { r = rnd.NextDouble(); intersectTasks = new List <Task>(); intersectTasks.Add(T); intersectDd = new List <StartFinish>(); intersectDd.Add(deadline); for (int j = 0; j < segment.Count; j++) { if (Intersect(deadline, segment[j])) { foreach (Task tk in tasksInSegments[j]) { intersectTasks.Add(tk); intersectDd.Add(tk.deadline); } } } nextSolution = solver.ProbOfCompletionModern(intersectDd, intersectTasks); if (nextSolution > bestSolution) { bestSolution = nextSolution; bestDeadline = new StartFinish(deadline.start, deadline.finish); } if (nextSolution > currentSolution) { currentSolution = nextSolution; currentDeadline = new StartFinish(deadline.start, deadline.finish); } else { acceptProbability = Math.Exp((currentSolution - nextSolution) / ck); if (r < acceptProbability) { currentSolution = nextSolution; currentDeadline = new StartFinish(deadline.start, deadline.finish); } } solver = new GSolver(this.S, T); int t1 = currentDeadline.start; int t2 = currentDeadline.finish; deadline = solver.GetNeighbour(t1, t2); } ck = alpha * ck; } this.deadlines.Add(new StartFinish(bestDeadline.start, bestDeadline.finish)); T.setDD(new StartFinish(bestDeadline.start, bestDeadline.finish)); this.solutions.Add(bestSolution); T.solution = bestSolution; T.index = number; bool isbroken = false; for (int xy = 0; xy < segment.Count; xy++) // { if (Intersect(bestDeadline, segment[xy])) { segment[xy] = Merge(bestDeadline, segment[xy]); tasksInSegments[xy].Add(T); isbroken = true; } } if (!isbroken) { segment.Add(new StartFinish(bestDeadline.start, bestDeadline.finish)); Console.WriteLine(bestDeadline.start + " " + bestDeadline.finish); tasksInSegments.Add(new List <Task>() { T }); } } PrintSolutions(); List <StartFinish> Localdeadlines = new List <StartFinish>(); List <Task> LocalTasks = new List <Task>(); foreach (var item in tasks) { for (int i = 0; i < tasksInSegments.Count; i++) { if (tasksInSegments[i].Contains(item)) { Localdeadlines = new List <StartFinish>(); LocalTasks = new List <Task>(); GSolver solver = new GSolver(this.S, item); LocalTasks.Add(item); Localdeadlines.Add(item.deadline); foreach (var td in tasksInSegments[i]) { if (td != item) { LocalTasks.Add(td); Localdeadlines.Add(td.deadline); } } } } item.solution = solver.ProbOfCompletionModern(Localdeadlines, LocalTasks); Console.WriteLine($"Deadline {item.deadline.start} {item.deadline.finish} ObjectiveF {item.solution}"); } }