open Core.Std open Qptypes type t = { queued : Id.Task.t list ; running : (Id.Task.t, Id.Client.t) Map.Poly.t ; tasks : (Id.Task.t, string) Map.Poly.t; clients : Id.Client.t Set.Poly.t; next_client_id : Id.Client.t; next_task_id : Id.Task.t; } let create () = { queued = [] ; running = Map.Poly.empty ; tasks = Map.Poly.empty; clients = Set.Poly.empty; next_client_id = Id.Client.of_int 1; next_task_id = Id.Task.of_int 1; } let add_task ~task q = let task_id = q.next_task_id in { q with queued = task_id :: q.queued ; tasks = Map.add q.tasks ~key:task_id ~data:task ; next_task_id = Id.Task.increment task_id ; } let add_client q = let client_id = q.next_client_id in { q with clients = Set.add q.clients client_id; next_client_id = Id.Client.increment client_id; }, client_id let pop_task ~client_id q = let { queued ; running ; _ } = q in assert (Set.mem q.clients client_id); match queued with | task_id :: new_queue -> let new_q = { q with queued = new_queue ; running = Map.add running ~key:task_id ~data:client_id ; } in new_q, Some task_id, (Map.find q.tasks task_id) | [] -> q, None, None let del_client ~client_id q = assert (Set.mem q.clients client_id); { q with clients = Set.remove q.clients client_id } let end_task ~task_id ~client_id q = let { running ; tasks ; _ } = q in assert (Set.mem q.clients client_id); let () = match Map.Poly.find running task_id with | None -> failwith "Task already finished" | Some client_id_check -> assert (client_id_check = client_id) in { q with running = Map.remove running task_id ; } let del_task ~task_id q = let { tasks ; _ } = q in if (Map.mem tasks task_id) then { q with tasks = Map.remove tasks task_id ; } else Printf.sprintf "Task %d is already deleted" (Id.Task.to_int task_id) |> failwith let number_of_queued q = Map.length q.tasks let number_of_running q = Map.length q.running let to_string { queued ; running ; tasks ; _ } = let q = List.map ~f:Id.Task.to_string queued |> String.concat ~sep:" ; " and r = Map.Poly.to_alist running |> List.map ~f:(fun (t,c) -> "("^(Id.Task.to_string t)^", " ^(Id.Client.to_string c)^")") |> String.concat ~sep:" ; " and t = Map.Poly.to_alist tasks |> List.map ~f:(fun (t,c) -> "("^(Id.Task.to_string t)^", \"" ^c^"\")") |> String.concat ~sep:" ; " in Printf.sprintf "{ queued : { %s } running : { %s } tasks : [ %s ] }" q r t