Exemplo n.º 1
0
        private Allocation mutate(Allocation alloc)
        {
            Allocation mutatedAlloc = alloc.Clone();

            if (Rand.NextDouble() < MUTATION_RATE)
            {
                for (int _ = 0; _ < MUTATE_TASKS_COUNT; _++)
                {
                    string taskId         = "";
                    string originalProcId = "";

                    do
                    {
                        // Get a random task id
                        int randOriginalProcIndex = Rand.Next(0, mutatedAlloc.ProcessorIds.Count);
                        originalProcId = mutatedAlloc.ProcessorIds[randOriginalProcIndex];
                        Processor proc = mutatedAlloc.GetProcessor(originalProcId);
                        taskId = proc.GetRandomTask();
                    } while (taskId == "");

                    // Assign the task id to another processor
                    string newProcId;
                    do
                    {
                        int randNewProcIndex = Rand.Next(0, mutatedAlloc.ProcessorIds.Count);
                        newProcId = mutatedAlloc.ProcessorIds[randNewProcIndex];
                    } while (newProcId == originalProcId);

                    mutatedAlloc.AssignTaskToProcessor(newProcId, taskId);
                    mutatedAlloc.RemoveTask(originalProcId, taskId);
                }
            }

            return(mutatedAlloc);
        }
Exemplo n.º 2
0
        private Allocation crossover(Allocation parent1, Allocation parent2)
        {
            Allocation    child        = new Allocation(this.coefficients, this.refFreq, this.tasks, this.processors, true);
            List <string> processorIds = parent1.ProcessorIds;
            int           startPos     = Rand.Next(0, processorIds.Count);
            int           endPos       = Rand.Next(startPos + 1, processorIds.Count);

            while (startPos >= endPos)
            {
                startPos = Rand.Next(0, processorIds.Count);
                endPos   = Rand.Next(startPos + 1, processorIds.Count);
            }

            // Select processors from parent 1
            for (int processorIndex = startPos; processorIndex < endPos; processorIndex++)
            {
                string processorId = processorIds[processorIndex];
                child.SetProcessor(processorId, parent1.GetProcessor(processorId));
            }

            // Remove duplicated tasks
            //parent2.RemoveDuplicatedTasks(child.GetAssignedTasks());

            // Select processors from parent 2
            for (int processorIndex = 0; processorIndex < processorIds.Count; processorIndex++)
            {
                string processorId = processorIds[processorIndex];

                if (!child.ContainsProcessor(processorId))
                {
                    child.SetProcessor(processorId, parent2.GetProcessor(processorId));
                }
            }

            var unassignedTasks = child.GetUnassignedTasks();

            foreach (var taskId in unassignedTasks)
            {
                string randomProcessorId = processorIds[Rand.Next(0, processorIds.Count)];
                child.AssignTaskToProcessor(randomProcessorId, taskId);
            }

            return(child);
        }