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task.go
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task.go
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package task
import (
"time"
"golang.org/x/net/context"
)
// Task executes a certain function periodically, according to a certain
// schedule.
type Task struct {
f Func // Function to execute.
schedule Schedule // Decides if and when to execute f.
reset chan struct{} // Resets the shedule and starts over.
}
// Reset the state of the task as if it had just been started.
//
// This is handy if the schedule logic has changed, since the schedule function
// will be invoked immediately to determine whether and when to run the task
// function again.
func (t *Task) Reset() {
t.reset <- struct{}{}
}
// Execute the our task function according to our schedule, until the given
// context gets cancelled.
func (t *Task) loop(ctx context.Context) {
// Kick off the task immediately (as long as the the schedule is
// greater than zero, see below).
delay := immediately
for {
var timer <-chan time.Time
schedule, err := t.schedule()
switch err {
case ErrSkip:
// Reset the delay to be exactly the schedule, so we
// rule out the case where it's set to immediately
// because it's the first iteration or we got reset.
delay = schedule
fallthrough // Fall to case nil, to apply normal non-error logic
case nil:
// If the schedule is greater than zero, setup a timer
// that will expire after 'delay' seconds (or after the
// schedule in case of ErrSkip, to avoid triggering
// immediately), otherwise setup a timer that will
// never expire (hence the task function won't ever be
// run, unless Reset() is called and schedule() starts
// returning values greater than zero).
if schedule > 0 {
timer = time.After(delay)
} else {
timer = make(chan time.Time)
}
default:
// If the schedule is not greater than zero, abort the
// task and return immediately. Otherwise set up the
// timer to retry after that amount of time.
if schedule <= 0 {
return
}
timer = time.After(schedule)
}
select {
case <-timer:
if err == nil {
// Execute the task function synchronously. Consumers
// are responsible for implementing proper cancellation
// of the task function itself using the tomb's context.
t.f(ctx)
delay = schedule
} else {
// Don't execute the task function, and set the
// delay to run it immediately whenever the
// schedule function returns a nil error.
delay = immediately
}
case <-ctx.Done():
return
case <-t.reset:
delay = immediately
}
}
}
const immediately = 0 * time.Second