Exemple #1
0
        public void Test_TaskEnqueueAndExecuting()
        {
            ConnectionMultiplexer redis = ConnectionMultiplexer.Connect("localhost");
            var m = new RedisTaskQueue(redis);

            m.Clear();
            var mult = new MultiplyTask(new Inp {
                x = 4, y = 5
            });
            var add    = new AddTask(new (5, 6));
            var concat = new ConcatTask(new Inp2 {
                x = new List <string>()
                {
                    "Hello", " ", "World", "!"
                }
            });
            var listSum = new ListSum(new List <int> {
                1, 2, 3, 4, 5
            });

            m.Enqueue(mult);
            m.Enqueue(add);
            m.Enqueue(concat);
            m.Enqueue(listSum);

            var registry = (ITaskRegistry)TaskRegistry.Instance;

            registry.Clear();
            registry.DiscoverTasks();

            for (long i = 0; i < m.Length(); i++)
            {
                var task = m.Dequeue();
                task.Execute();
                if (i == 0)
                {
                    var res = (int)task.GetObjectResult();
                    Assert.Equal(20, res);
                }
                if (i == 1)
                {
                    var res = (int)task.GetObjectResult();
                    Assert.Equal(11, res);
                }
                if (i == 2)
                {
                    var res = (string)task.GetObjectResult();
                    Assert.Equal("Hello World!", res);
                }
                if (i == 3)
                {
                    var res = (int)task.GetObjectResult();
                    Assert.Equal(5 * 6 / 2, res);
                }
            }
        }
Exemple #2
0
        static void TestTaskExecutingRedisQueue()
        {
            Console.WriteLine("Hello World!");
            ConnectionMultiplexer redis = ConnectionMultiplexer.Connect("localhost");
            var m    = new RedisTaskQueue(redis);
            var mult = new MultiplyTask(new Inp {
                x = 4, y = 5
            });
            var mult2 = new MultiplyTask(new Inp {
                x = 4, y = 56
            });
            var add    = new AddTask(new (5, 6));
            var swap   = new SwapTask(new ("abi", "naber"));
            var concat = new ConcatTask(new Inp2 {
                x = new List <string> {
                    "f", "u", "r", "k", "a", "n"
                }
            });

            var matrix = new Matrix();

            matrix.nums = new int[100, 100];
            var matrixSum = new MatrixSum(matrix);

            //TestClient();

            m.Enqueue(mult);
            m.Enqueue(mult2);
            m.Enqueue(add);
            m.Enqueue(swap);
            m.Enqueue(concat);
            m.Enqueue(matrixSum);

            // normally these will happen in workers. workers will execute tasks and store their results in
            // result store. Client will have an TaskResult handle which will update its content when result is ready.
            // below res1 will be all client have. This program.cs is only for testing purposes normally workers and
            // client will be different processes.


            /* Normally it will look like this;
             *
             * For Client:
             *
             * TaskResult mult=new MultiplyTask(new Inp{x=4,y=5}); this will enqueue task, will get the handle from store(or somewhere else)
             * TaskResult.result == null => will be true until result is executed by some worker
             *
             * For workers: each worker will dequeue from TaskStore and push results to ResultStore like;
             *
             * ITask task = queue.Dequeue();
             * task.Execute()
             * resultStore.SetResultOfTask(task);
             */


            Console.WriteLine("tasks queued");


            Console.WriteLine("task will be dequed. Now cleaning task registry to simulate a server...");

            var registry = (ITaskRegistry)TaskRegistry.Instance;

            registry.Clear();
            registry.DiscoverTasks();

            for (long i = m.Length(); i > 0; i--)
            {
                var task = m.Dequeue();
                Console.WriteLine("task is executing...");
                task.Execute();
                Console.WriteLine($"time elapsed: {task.GetTimeElapsed().Value.TotalMilliseconds} ms");
            }

            var x = "x";
        }
Exemple #3
0
        public void Test_TaskEnqueueAndExecutingParallel()
        {
            ConnectionMultiplexer redis = ConnectionMultiplexer.Connect("localhost");
            var m = new RedisTaskQueue(redis);

            m.Clear();
            var mult = new MultiplyTask(new Inp {
                x = 4, y = 5
            });
            var add    = new AddTask(new (5, 6));
            var concat = new ConcatTask(new Inp2 {
                x = new List <string>()
                {
                    "Hello", " ", "World", "!"
                }
            });

            for (int i = 0; i < 1000; i++)
            {
                m.Enqueue(mult);
                m.Enqueue(add);
                m.Enqueue(concat);
            }

            Action worker = () =>
            {
                try
                {
                    var task     = m.Dequeue();
                    var taskType = TaskRegistry.Instance.GetTaskByName(task.GetIdentifier());

                    task.Execute();
                    if (taskType == typeof(MultiplyTask))
                    {
                        var res = (int)task.GetObjectResult();
                        Assert.Equal(20, res);
                    }
                    if (taskType == typeof(AddTask))
                    {
                        var res = (int)task.GetObjectResult();
                        Assert.Equal(11, res);
                    }
                    if (taskType == typeof(ConcatTask))
                    {
                        var res = (string)task.GetObjectResult();
                        Assert.Equal("Hello World!", res);
                    }
                }
                catch (Exception e)
                {
                    Console.WriteLine(e);
                }
            };

            var registry = (ITaskRegistry)TaskRegistry.Instance;

            registry.Clear();
            registry.DiscoverTasks();

            Parallel.Invoke(worker, worker, worker, worker, worker, worker);
        }