func init() { // Parse the flags flag.Parse() cnf = config.Config{ Broker: *broker, ResultBackend: *resultBackend, Exchange: *exchange, ExchangeType: *exchangeType, DefaultQueue: *defaultQueue, BindingKey: *bindingKey, } // Parse the config // NOTE: If a config file is present, it has priority over flags data, err := config.ReadFromFile(*configPath) if err == nil { err = config.ParseYAMLConfig(&data, &cnf) errors.Fail(err, "Could not parse config file") } server, err := machinery.NewServer(&cnf) errors.Fail(err, "Could not initialize server") // Register tasks tasks := map[string]interface{}{ "add": exampletasks.Add, "multiply": exampletasks.Multiply, } server.RegisterTasks(tasks) // The second argument is a consumer tag // Ideally, each worker should have a unique tag (worker1, worker2 etc) worker = server.NewWorker("machinery_worker") }
func _setup(brokerURL, backend string) *machinery.Server { cnf := config.Config{ Broker: brokerURL, ResultBackend: backend, Exchange: "test_exchange", ExchangeType: "direct", DefaultQueue: "test_queue", BindingKey: "test_task", } server, err := machinery.NewServer(&cnf) errors.Fail(err, "Could not initialize server") tasks := map[string]interface{}{ "add": func(args ...int64) (int64, error) { sum := int64(0) for _, arg := range args { sum += arg } return sum, nil }, "multiply": func(args ...int64) (int64, error) { sum := int64(1) for _, arg := range args { sum *= arg } return sum, nil }, } server.RegisterTasks(tasks) return server }
func init() { // Parse the flags flag.Parse() cnf = config.Config{ Broker: *broker, ResultBackend: *resultBackend, Exchange: *exchange, ExchangeType: *exchangeType, DefaultQueue: *defaultQueue, BindingKey: *bindingKey, } // Parse the config // NOTE: If a config file is present, it has priority over flags data, err := config.ReadFromFile(*configPath) if err == nil { err = config.ParseYAMLConfig(&data, &cnf) errors.Fail(err, "Could not parse config file") } server, err = machinery.NewServer(&cnf) errors.Fail(err, "Could not initialize server") }
func TestWorkerOnlyConsumesRegisteredTaskAMQP(t *testing.T) { amqpURL := os.Getenv("AMQP_URL") if amqpURL != "" { cnf := config.Config{ Broker: amqpURL, ResultBackend: amqpURL, Exchange: "test_exchange", ExchangeType: "direct", DefaultQueue: "test_queue", BindingKey: "test_task", } server1, err := machinery.NewServer(&cnf) errors.Fail(err, "Could not initialize server") server1.RegisterTask("add", func(args ...int64) (int64, error) { sum := int64(0) for _, arg := range args { sum += arg } return sum, nil }) server2, err := machinery.NewServer(&cnf) errors.Fail(err, "Could not initialize server") server2.RegisterTask("multiply", func(args ...int64) (int64, error) { sum := int64(1) for _, arg := range args { sum *= arg } return sum, nil }) task1 := signatures.TaskSignature{ Name: "add", Args: []signatures.TaskArg{ { Type: "int64", Value: 2, }, { Type: "int64", Value: 3, }, }, } task2 := signatures.TaskSignature{ Name: "multiply", Args: []signatures.TaskArg{ { Type: "int64", Value: 4, }, { Type: "int64", Value: 5, }, }, } worker1 := server1.NewWorker("test_worker") worker2 := server2.NewWorker("test_worker2") go worker1.Launch() go worker2.Launch() group := machinery.NewGroup(&task2, &task1) asyncResults, err := server1.SendGroup(group) if err != nil { t.Error(err) } expectedResults := []int64{5, 20} actualResults := make([]int64, 2) for i, asyncResult := range asyncResults { result, err := asyncResult.Get() if err != nil { t.Error(err) } intResult, ok := result.Interface().(int64) if !ok { t.Errorf("Could not convert %v to int64", result.Interface()) } actualResults[i] = intResult } worker1.Quit() worker2.Quit() sort.Sort(ascendingInt64s(actualResults)) if !reflect.DeepEqual(expectedResults, actualResults) { t.Errorf( "expected results = %v, actual results = %v", expectedResults, actualResults, ) } } }
func main() { err := worker.Launch() errors.Fail(err, "Could not launch worker") }
func main() { /* * First, let's try sending a single task */ initTasks() fmt.Println("Single task:") asyncResult, err := server.SendTask(&task0) errors.Fail(err, "Could not send task") result, err := asyncResult.Get() errors.Fail(err, "Getting task state failed with error") fmt.Printf("1 + 1 = %v\n", result.Interface()) /* * Now let's explore ways of sending multiple tasks */ // Now let's try a parallel execution initTasks() fmt.Println("Group of tasks (parallel execution):") group := machinery.NewGroup(&task0, &task1, &task2) asyncResults, err := server.SendGroup(group) errors.Fail(err, "Could not send group") for _, asyncResult := range asyncResults { result, err = asyncResult.Get() errors.Fail(err, "Getting task state failed with error") fmt.Printf( "%v + %v = %v\n", asyncResult.Signature.Args[0].Value, asyncResult.Signature.Args[1].Value, result.Interface(), ) } // Now let's try a group with a chord initTasks() fmt.Println("Group of tasks with a callback (chord):") group = machinery.NewGroup(&task0, &task1, &task2) chord := machinery.NewChord(group, &task4) chordAsyncResult, err := server.SendChord(chord) errors.Fail(err, "Could not send chord") result, err = chordAsyncResult.Get() errors.Fail(err, "Getting task state failed with error") fmt.Printf("(1 + 1) * (2 + 2) * (5 + 6) = %v\n", result.Interface()) // Now let's try chaining task results initTasks() fmt.Println("Chain of tasks:") chain := machinery.NewChain(&task0, &task1, &task2, &task3) chainAsyncResult, err := server.SendChain(chain) errors.Fail(err, "Could not send chain") result, err = chainAsyncResult.Get() errors.Fail(err, "Getting chain result failed with error") fmt.Printf("(((1 + 1) + (2 + 2)) + (5 + 6)) * 4 = %v\n", result.Interface()) }