package cron import ( "reflect" "runtime" "sort" "time" ) const MAX_TASKS = 10000 type Task struct { id string intervalSec uint64 TaskFunc string period time.Duration taskFunc map[string]interface{} funcParams map[string]([]interface{}) lastAt time.Time nextAt time.Time } func NewTask(id string, intervel uint64) *Task { return &Task{ id, intervel, "", 0, make(map[string]interface{}), make(map[string]([]interface{})), time.Unix(0, 0), time.Unix(0, 0), } } func (t *Task) runnable() bool { return time.Now().After(t.nextAt) } func (t *Task) run() { taskFunc := reflect.ValueOf(t.taskFunc[t.TaskFunc]) taskParams := t.funcParams[t.TaskFunc] in := make([]reflect.Value, len(taskParams)) for i, param := range taskParams { in[i] = reflect.ValueOf(param) } taskFunc.Call(in) t.lastAt = time.Now() t.addNextAt() } func (t *Task) Invoke(TaskFunc interface{}, params ...interface{}) { if reflect.TypeOf(TaskFunc).Kind() != reflect.Func { panic("Not a function ") } funcName := runtime.FuncForPC(reflect.ValueOf((TaskFunc)).Pointer()).Name() t.taskFunc[funcName] = TaskFunc t.funcParams[funcName] = params t.TaskFunc = funcName t.addNextAt() } func (t *Task) addNextAt() { if t.lastAt == time.Unix(0, 0) { t.lastAt = time.Now() } if t.period == 0 { t.period = time.Duration(t.intervalSec) } t.nextAt = t.lastAt.Add(t.period * time.Second) } type Cron struct { Tasks [MAX_TASKS]*Task size int } func (c *Cron) Len() int { return c.size } func (c *Cron) Swap(i, j int) { c.Tasks[i], c.Tasks[j] = c.Tasks[j], c.Tasks[i] } func (c *Cron) Less(i, j int) bool { return c.Tasks[j].nextAt.After(c.Tasks[i].nextAt) } func NewCron() *Cron { return &Cron{[MAX_TASKS]*Task{}, 0} } func (c *Cron) RunnableTasks() ([MAX_TASKS]*Task, int) { runnableTasks := [MAX_TASKS]*Task{} n := 0 sort.Sort(c) for i := 0; i < c.size; i++ { if c.Tasks[i].runnable() { runnableTasks[n] = c.Tasks[i] n++ } else { break } } return runnableTasks, n } func (c *Cron) nextRun() (*Task, time.Time) { if c.size <= 0 { return nil, time.Now() } sort.Sort(c) return c.Tasks[0], c.Tasks[0].nextAt } func (c *Cron) addTask(id string, intervalSec uint64) *Task { Task := NewTask(id, intervalSec) c.Tasks[c.size] = Task c.size++ return Task } func (c *Cron) updateTask(id string, intervalSec uint64) { for i := 0; i < c.Len(); i++ { if c.Tasks[i].id == id { c.Tasks[i].intervalSec = intervalSec c.Tasks[i].period = 0 } } } func (c *Cron) runAll() { runnableTasks, n := c.RunnableTasks() if n != 0 { for i := 0; i < n; i++ { go runnableTasks[i].run() } } } func (c *Cron) remove(id string) { i := 0 for ; i < c.size; i++ { if c.Tasks[i].id == id { break } } for j := (i + 1); j < c.size; j++ { c.Tasks[i] = c.Tasks[j] i++ } c.size = c.size - 1 } func (c *Cron) removeAll() { for i := 0; i < c.size; i++ { c.Tasks[i] = nil } c.size = 0 } func (c *Cron) start() chan bool { stopped := make(chan bool, 1) ticker := time.NewTicker(1 * time.Second) go func() { for { select { case <-ticker.C: c.runAll() case <-stopped: return } } }() return stopped } var cron = NewCron() func Start() chan bool { return cron.start() } func AddTask(id string, intervalSec uint64) *Task { return cron.addTask(id, intervalSec) } func UpdateTask(id string, intervalSec uint64) { cron.updateTask(id, intervalSec) } func RemoveAll() { cron.removeAll() } func Remove(id string) { cron.remove(id) }