package comm

import (
	"fmt"
)

type EventListener func(data interface{})
type GetSignalChannel func() chan interface{}

type Event struct {
	Name     string
	Listener EventListener
	Data     interface{}
}

type Signal struct {
	Name     string
	Get      GetSignalChannel
	Listener EventListener
	Data     interface{}
}

type TaskLifeCirle interface {
	OnBeforeRun() error
	OnAfterRun() error
	Loop() bool
}

type BackgroundTask struct {
	LifeCircle TaskLifeCirle

	MaxExceptRestartTimes int //最大异常重启次数
	ExceptRestartWatting  int //重启等待时间

	runningState  int //运行状态
	msgChan       chan int
	eventsMsgChan chan *Event

	_eventMaps map[string]*Event

	_signalMaps map[string]*Signal

	_runData interface{}

	SessionId string

	bus *NatsBus

	data interface{}

	Name string
}

func NewBackgroundTask(lifeCircle TaskLifeCirle, data interface{}) *BackgroundTask {
	t := &BackgroundTask{LifeCircle: lifeCircle}
	t.InitTask(data)
	return t
}

func (t *BackgroundTask) GetName() string  { return t.Name }
func (t *BackgroundTask) SetName(n string) { t.Name = n }
func (t *BackgroundTask) GetID() string {
	return t.SessionId
}
func (t *BackgroundTask) SetID(id string) {
	t.SessionId = id
}

func (t *BackgroundTask) CancelRuning() {
	go func() {
		t.msgChan <- MSG_CANCEL_RUNING
	}()
}

func (t *BackgroundTask) Restart() {
	go func() {
		t.msgChan <- MSG_RESTART_RUNING
	}()
}

func (t *BackgroundTask) InitTask(data interface{}) {
	t.data = data
	t.msgChan = make(chan int)
	t.eventsMsgChan = make(chan *Event)
	t._eventMaps = make(map[string]*Event)
	t._signalMaps = make(map[string]*Signal)

	t.CreateTaskId()
}

func (t *BackgroundTask) CreateTaskId() string {
	t.SessionId = "bgt" + CreateSessionId()
	return t.SessionId
}

func (t *BackgroundTask) RegistorEvent(events string, listen EventListener) {
	// if t._eventMaps == nil {
	// 	t._eventMaps = make(map[string]*Event)
	// }
	// for _, name := range events {
	// 	t._eventMaps[name] = &Event{Listener: listen, Name: name}
	// }
}

func (t *BackgroundTask) RegistorEventAsync(name string, channel GetSignalChannel, listen EventListener) {
	if t._signalMaps == nil {
		t._signalMaps = make(map[string]*Signal)
	}
	t._signalMaps[name] = &Signal{Listener: listen, Name: name, Get: channel}
}

func (t *BackgroundTask) EmitEvent(event string, data interface{}) (interface{}, error) {
	return nil, nil
}

func (t *BackgroundTask) EmitEventAsync(event string, data interface{}) (chan interface{}, error) {

	return nil, nil
}

func (t *BackgroundTask) EmitEventSync(event string, data interface{}) (interface{}, error) {

	return nil, nil
}

func (t *BackgroundTask) EmitSingal(sigal string, data interface{}) {

}

func (t *BackgroundTask) GetRuningState() TaskState {
	return TaskState(t.runningState)
}

func (t *BackgroundTask) IsAsync() bool {
	return true
}

func (t *BackgroundTask) GetNats() *NatsBus {
	return t.bus
}

func (t *BackgroundTask) SetNats(b *NatsBus) {
	t.bus = b
}

//data

//state

//action

// swiftTask

func (t *BackgroundTask) Run(overCallback TaskRunCallback) error {

	life := t.LifeCircle

	err := life.OnBeforeRun()
	if err != nil {
		return err
	}

	go func() {
		t.runningState = BT_STATE_INIT
		var OnLifeCycleMessage = func(msg int) bool {
			switch msg {
			case MSG_CANCEL_RUNING:
				t.runningState = BT_STATE_QUITED_CACEL //取消执行退出
				return true
			case MSG_RESTART_RUNING:
				t.runningState = BT_STATE_NORMAL_RESTARTING
			}
			return false
		}
		ticket := 0

		for {
			quitTask := false

			select {
			case msg := <-t.msgChan: //msg
				quitTask = OnLifeCycleMessage(msg)

			default:
				ticket = ticket + 1
				fmt.Printf("[%s]background-task tick %d\n", t.Name, ticket)
				quitTask = life.Loop()

			}

			if quitTask {
				break
			}
		}

		if overCallback != nil {
			overCallback(nil)
		}

		life.OnAfterRun()

	}()
	return nil
}