package v2 import ( "context" "encoding/json" "fmt" "sync" "github.com/oarkflow/mq" "github.com/oarkflow/mq/consts" ) type TaskManager struct { taskID string dag *DAG wg sync.WaitGroup mutex sync.Mutex results []mq.Result nodeResults map[string]mq.Result done chan struct{} finalResult chan mq.Result // Channel to collect final results } func NewTaskManager(d *DAG, taskID string) *TaskManager { return &TaskManager{ dag: d, nodeResults: make(map[string]mq.Result), results: make([]mq.Result, 0), done: make(chan struct{}), taskID: taskID, finalResult: make(chan mq.Result), // Initialize finalResult channel } } func (tm *TaskManager) processTask(ctx context.Context, nodeID string, payload json.RawMessage) mq.Result { node, ok := tm.dag.Nodes[nodeID] if !ok { return mq.Result{Error: fmt.Errorf("nodeID %s not found", nodeID)} } tm.wg.Add(1) go tm.processNode(ctx, node, payload) go func() { tm.wg.Wait() close(tm.done) }() select { case <-ctx.Done(): return mq.Result{Error: ctx.Err()} case <-tm.done: tm.mutex.Lock() defer tm.mutex.Unlock() if len(tm.results) == 1 { return tm.handleResult(ctx, tm.results[0]) } return tm.handleResult(ctx, tm.results) } } func (tm *TaskManager) handleCallback(ctx context.Context, result mq.Result) mq.Result { return mq.Result{} } func (tm *TaskManager) handleResult(ctx context.Context, results any) mq.Result { var rs mq.Result switch res := results.(type) { case []mq.Result: aggregatedOutput := make([]json.RawMessage, 0) status := "" for i, result := range res { if i == 0 { status = result.Status } if result.Error != nil { return mq.HandleError(ctx, result.Error) } var item json.RawMessage err := json.Unmarshal(result.Payload, &item) if err != nil { return mq.HandleError(ctx, err) } aggregatedOutput = append(aggregatedOutput, item) } finalOutput, err := json.Marshal(aggregatedOutput) if err != nil { return mq.HandleError(ctx, err) } return mq.Result{ TaskID: tm.taskID, Payload: finalOutput, Status: status, } case mq.Result: return res } return rs } func (tm *TaskManager) appendFinalResult(result mq.Result) { tm.mutex.Lock() tm.results = append(tm.results, result) tm.nodeResults[result.Topic] = result tm.mutex.Unlock() } func (tm *TaskManager) processNode(ctx context.Context, node *Node, payload json.RawMessage) { defer tm.wg.Done() var result mq.Result select { case <-ctx.Done(): result = mq.Result{TaskID: tm.taskID, Topic: node.Key, Error: ctx.Err()} tm.appendFinalResult(result) return default: ctx = mq.SetHeaders(ctx, map[string]string{consts.QueueKey: node.Key}) if tm.dag.server.SyncMode() { result = node.consumer.ProcessTask(ctx, NewTask(tm.taskID, payload, node.Key)) result.Topic = node.Key if result.Error != nil { tm.appendFinalResult(result) return } } else { err := tm.dag.server.Publish(ctx, NewTask(tm.taskID, payload, node.Key), node.Key) if err != nil { tm.appendFinalResult(mq.Result{Error: err}) return } } } tm.mutex.Lock() tm.nodeResults[node.Key] = result tm.mutex.Unlock() edges := make([]Edge, len(node.Edges)) copy(edges, node.Edges) if result.Status != "" { if conditions, ok := tm.dag.conditions[result.Topic]; ok { if targetNodeKey, ok := conditions[result.Status]; ok { if targetNode, ok := tm.dag.Nodes[targetNodeKey]; ok { edges = append(edges, Edge{From: node, To: targetNode}) } } } } if len(edges) == 0 { tm.appendFinalResult(result) return } for _, edge := range edges { switch edge.Type { case LoopEdge: var items []json.RawMessage err := json.Unmarshal(result.Payload, &items) if err != nil { tm.appendFinalResult(mq.Result{TaskID: tm.taskID, Topic: node.Key, Error: err}) return } for _, item := range items { tm.wg.Add(1) ctx = mq.SetHeaders(ctx, map[string]string{consts.QueueKey: edge.To.Key}) go tm.processNode(ctx, edge.To, item) } case SimpleEdge: if edge.To != nil { tm.wg.Add(1) ctx = mq.SetHeaders(ctx, map[string]string{consts.QueueKey: edge.To.Key}) go tm.processNode(ctx, edge.To, result.Payload) } } } }